[
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2e01322c-5ee2-4aa8-86ba-d18e0ef38d34",
    "mp_id": "mp-1013842",
    "action_prompt": "Swap the spatial positions of atoms at indices 52 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3Mn2(GeO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.6269\n_cell_length_b   10.6224\n_cell_length_c   10.6250\n_cell_angle_alpha   109.4613\n_cell_angle_beta   109.4782\n_cell_angle_gamma   109.4679\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3Mn2(GeO4)3\n_chemical_formula_sum   'Na12 Mn8 Ge12 O48'\n_cell_volume   923.3587\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6250  0.2500  0.8749  1\n  Na  Na1  1  0.8752  0.7504  0.6250  1\n  Na  Na2  1  0.7500  0.6250  0.8751  1\n  Na  Na3  1  0.2498  0.8752  0.6248  1\n  Na  Na4  1  0.8750  0.6254  0.2501  1\n  Na  Na5  1  0.6251  0.8751  0.7501  1\n  Na  Na6  1  0.3750  0.7500  0.1251  1\n  Na  Na7  1  0.1248  0.2496  0.3750  1\n  Na  Na8  1  0.2500  0.3750  0.1249  1\n  Na  Na9  1  0.7502  0.1248  0.3752  1\n  Na  Na10  1  0.1250  0.3746  0.7499  1\n  Na  Na11  1  0.3749  0.1249  0.2499  1\n  Mn  Mn12  1  0.5000  0.5000  0.5000  1\n  Mn  Mn13  1  0.5000  0.5000  0.0000  1\n  Mn  Mn14  1  0.5000  0.0000  0.5000  1\n  Mn  Mn15  1  0.0000  0.5000  0.5000  1\n  Mn  Mn16  1  0.5000  0.0000  0.0000  1\n  Mn  Mn17  1  0.0000  0.0000  0.5000  1\n  Mn  Mn18  1  0.0000  0.5000  0.0000  1\n  Mn  Mn19  1  0.0000  1.0000  1.0000  1\n  Ge  Ge20  1  0.8749  0.1248  0.7498  1\n  Ge  Ge21  1  0.1251  0.8752  0.2502  1\n  Ge  Ge22  1  0.2501  0.6250  0.3750  1\n  Ge  Ge23  1  0.1250  0.7500  0.8750  1\n  Ge  Ge24  1  0.7502  0.8751  0.1252  1\n  Ge  Ge25  1  0.3748  0.2499  0.6250  1\n  Ge  Ge26  1  0.6252  0.7501  0.3750  1\n  Ge  Ge27  1  0.8750  0.2500  0.1250  1\n  Ge  Ge28  1  0.2498  0.1249  0.8748  1\n  Ge  Ge29  1  0.7499  0.3750  0.6250  1\n  Ge  Ge30  1  0.3749  0.6250  0.7500  1\n  Ge  Ge31  1  0.6251  0.3750  0.2500  1\n  O  O32  1  0.8054  0.4179  0.8187  1\n  O  O33  1  0.0811  0.8867  0.4003  1\n  O  O34  1  0.6813  0.0992  0.9867  1\n  O  O35  1  0.6947  0.5135  0.6126  1\n  O  O36  1  0.6945  0.6811  0.0815  1\n  O  O37  1  0.5133  0.6125  0.6946  1\n  O  O38  1  0.0993  0.6127  0.4180  1\n  O  O39  1  0.6120  0.6946  0.5132  1\n  O  O40  1  0.4008  0.8187  0.5135  1\n  O  O41  1  0.8870  0.9866  0.8055  1\n  O  O42  1  0.9865  0.8052  0.8872  1\n  O  O43  1  0.0820  0.6946  0.6813  1\n  O  O44  1  0.6128  0.4180  0.0992  1\n  O  O45  1  0.5132  0.4009  0.8187  1\n  O  O46  1  0.6813  0.0822  0.6945  1\n  O  O47  1  0.4185  0.0996  0.6130  1\n  O  O48  1  0.8188  0.5134  0.4007  1\n  O  O49  1  0.4011  0.0826  0.8880  1\n  O  O50  1  0.0998  0.9864  0.6809  1\n  O  O51  1  0.5992  0.1813  0.4865  1\n  O  O52  1  0.9869  0.6814  0.0989  1\n  O  O53  1  0.8191  0.8056  0.4189  1\n  O  O54  1  0.8874  0.4010  0.0822  1\n  O  O55  1  0.8055  0.8877  0.9868  1\n  O  O56  1  0.1946  0.5821  0.1813  1\n  O  O57  1  0.9189  0.1133  0.5997  1\n  O  O58  1  0.3187  0.9008  0.0133  1\n  O  O59  1  0.3053  0.4865  0.3874  1\n  O  O60  1  0.3055  0.3189  0.9185  1\n  O  O61  1  0.4867  0.3875  0.3054  1\n  O  O62  1  0.9007  0.3873  0.5820  1\n  O  O63  1  0.3880  0.3054  0.4868  1\n  O  O64  1  0.1945  0.1123  0.0132  1\n  O  O65  1  0.1126  0.5990  0.9178  1\n  O  O66  1  0.1809  0.1944  0.5811  1\n  O  O67  1  0.5822  0.1812  0.1948  1\n  O  O68  1  0.0132  0.3186  0.9011  1\n  O  O69  1  0.9002  0.0136  0.3191  1\n  O  O70  1  0.5989  0.9174  0.1120  1\n  O  O71  1  0.1812  0.4866  0.5993  1\n  O  O72  1  0.5815  0.9004  0.3870  1\n  O  O73  1  0.3187  0.9178  0.3055  1\n  O  O74  1  0.4868  0.5991  0.1813  1\n  O  O75  1  0.3872  0.5820  0.9008  1\n  O  O76  1  0.9180  0.3054  0.3187  1\n  O  O77  1  0.0135  0.1948  0.1128  1\n  O  O78  1  0.1130  0.0134  0.1945  1\n  O  O79  1  0.4178  0.8188  0.8052  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na6ONa5Mn8Ge12O20NaO27\n_chemical_formula_sum              \"Na12 O48 Mn8 Ge12\"\n_cell_length_a       10.6269\n_cell_length_b       10.6224\n_cell_length_c       10.6250\n_cell_angle_alpha    109.4613\n_cell_angle_beta     109.4782\n_cell_angle_gamma    109.4679\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6250  0.2500  0.8749  1.0000\n  Na  Na2       1.0000  0.8752  0.7504  0.6250  1.0000\n  Na  Na3       1.0000  0.7500  0.6250  0.8751  1.0000\n  Na  Na4       1.0000  0.2498  0.8752  0.6248  1.0000\n  Na  Na5       1.0000  0.8750  0.6254  0.2501  1.0000\n  Na  Na6       1.0000  0.6251  0.8751  0.7501  1.0000\n  O   O1        1.0000  0.3750  0.7500  0.1251  1.0000\n  Na  Na7       1.0000  0.1248  0.2496  0.3750  1.0000\n  Na  Na8       1.0000  0.2500  0.3750  0.1249  1.0000\n  Na  Na9       1.0000  0.7502  0.1248  0.3752  1.0000\n  Na  Na10      1.0000  0.1250  0.3746  0.7499  1.0000\n  Na  Na11      1.0000  0.3749  0.1249  0.2499  1.0000\n  Mn  Mn1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Mn  Mn3       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mn  Mn5       1.0000  0.5000  1e-06  1e-06  1.0000\n  Mn  Mn6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mn  Mn7       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mn  Mn8       1.0000  0.0000  1.0000  1.0000  1.0000\n  Ge  Ge1       1.0000  0.8749  0.1248  0.7498  1.0000\n  Ge  Ge2       1.0000  0.1251  0.8752  0.2502  1.0000\n  Ge  Ge3       1.0000  0.2501  0.6250  0.3750  1.0000\n  Ge  Ge4       1.0000  0.1250  0.7500  0.8750  1.0000\n  Ge  Ge5       1.0000  0.7502  0.8751  0.1252  1.0000\n  Ge  Ge6       1.0000  0.3748  0.2499  0.6250  1.0000\n  Ge  Ge7       1.0000  0.6252  0.7501  0.3750  1.0000\n  Ge  Ge8       1.0000  0.8750  0.2500  0.1250  1.0000\n  Ge  Ge9       1.0000  0.2498  0.1249  0.8748  1.0000\n  Ge  Ge10      1.0000  0.7499  0.3750  0.6250  1.0000\n  Ge  Ge11      1.0000  0.3749  0.6250  0.7500  1.0000\n  Ge  Ge12      1.0000  0.6251  0.3750  0.2500  1.0000\n  O   O2        1.0000  0.8054  0.4179  0.8187  1.0000\n  O   O3        1.0000  0.0811  0.8867  0.4003  1.0000\n  O   O4        1.0000  0.6813  0.0992  0.9867  1.0000\n  O   O5        1.0000  0.6947  0.5135  0.6126  1.0000\n  O   O6        1.0000  0.6945  0.6811  0.0815  1.0000\n  O   O7        1.0000  0.5133  0.6125  0.6946  1.0000\n  O   O8        1.0000  0.0993  0.6127  0.4180  1.0000\n  O   O9        1.0000  0.6120  0.6946  0.5132  1.0000\n  O   O10       1.0000  0.4008  0.8187  0.5135  1.0000\n  O   O11       1.0000  0.8870  0.9866  0.8055  1.0000\n  O   O12       1.0000  0.9865  0.8052  0.8872  1.0000\n  O   O13       1.0000  0.0820  0.6946  0.6813  1.0000\n  O   O14       1.0000  0.6128  0.4180  0.0992  1.0000\n  O   O15       1.0000  0.5132  0.4009  0.8187  1.0000\n  O   O16       1.0000  0.6813  0.0822  0.6945  1.0000\n  O   O17       1.0000  0.4185  0.0996  0.6130  1.0000\n  O   O18       1.0000  0.8188  0.5134  0.4007  1.0000\n  O   O19       1.0000  0.4011  0.0826  0.8880  1.0000\n  O   O20       1.0000  0.0998  0.9864  0.6809  1.0000\n  O   O21       1.0000  0.5992  0.1813  0.4865  1.0000\n  Na  Na12      1.0000  0.9869  0.6814  0.0989  1.0000\n  O   O22       1.0000  0.8191  0.8056  0.4189  1.0000\n  O   O23       1.0000  0.8874  0.4010  0.0822  1.0000\n  O   O24       1.0000  0.8055  0.8877  0.9868  1.0000\n  O   O25       1.0000  0.1946  0.5821  0.1813  1.0000\n  O   O26       1.0000  0.9189  0.1133  0.5997  1.0000\n  O   O27       1.0000  0.3187  0.9008  0.0133  1.0000\n  O   O28       1.0000  0.3053  0.4865  0.3874  1.0000\n  O   O29       1.0000  0.3055  0.3189  0.9185  1.0000\n  O   O30       1.0000  0.4867  0.3875  0.3054  1.0000\n  O   O31       1.0000  0.9007  0.3873  0.5820  1.0000\n  O   O32       1.0000  0.3880  0.3054  0.4868  1.0000\n  O   O33       1.0000  0.1945  0.1123  0.0132  1.0000\n  O   O34       1.0000  0.1126  0.5990  0.9178  1.0000\n  O   O35       1.0000  0.1809  0.1944  0.5811  1.0000\n  O   O36       1.0000  0.5822  0.1812  0.1948  1.0000\n  O   O37       1.0000  0.0132  0.3186  0.9011  1.0000\n  O   O38       1.0000  0.9002  0.0136  0.3191  1.0000\n  O   O39       1.0000  0.5989  0.9174  0.1120  1.0000\n  O   O40       1.0000  0.1812  0.4866  0.5993  1.0000\n  O   O41       1.0000  0.5815  0.9004  0.3870  1.0000\n  O   O42       1.0000  0.3187  0.9178  0.3055  1.0000\n  O   O43       1.0000  0.4868  0.5991  0.1813  1.0000\n  O   O44       1.0000  0.3872  0.5820  0.9008  1.0000\n  O   O45       1.0000  0.9180  0.3054  0.3187  1.0000\n  O   O46       1.0000  0.0135  0.1948  0.1128  1.0000\n  O   O47       1.0000  0.1130  0.0134  0.1945  1.0000\n  O   O48       1.0000  0.4178  0.8188  0.8052  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d51674e6-59e4-4f4c-9729-1ce4113ea37e",
    "mp_id": "mp-1015026",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7078\n_cell_length_b   5.7078\n_cell_length_c   5.8501\n_cell_angle_alpha   83.5757\n_cell_angle_beta   83.5757\n_cell_angle_gamma   101.9776\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrN2\n_chemical_formula_sum   'Cr4 N8'\n_cell_volume   183.4765\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.0444  0.9639  0.9974  1\n  Cr  Cr1  1  0.9639  0.0444  0.4974  1\n  Cr  Cr2  1  0.3728  0.5436  0.9155  1\n  Cr  Cr3  1  0.5436  0.3728  0.4155  1\n  N  N4  1  0.2785  0.1536  0.4661  1\n  N  N5  1  0.1536  0.2785  0.9661  1\n  N  N6  1  0.8982  0.8631  0.2812  1\n  N  N7  1  0.8631  0.8982  0.7812  1\n  N  N8  1  0.4805  0.5504  0.6258  1\n  N  N9  1  0.5504  0.4805  0.1258  1\n  N  N10  1  0.2621  0.7988  0.9636  1\n  N  N11  1  0.7988  0.2621  0.4636  1\n",
    "output": "data_image0\n_chemical_formula_structural       NCr3N2CrN5\n_chemical_formula_sum              \"N8 Cr4\"\n_cell_length_a       5.7078\n_cell_length_b       5.7078\n_cell_length_c       5.8501\n_cell_angle_alpha    83.5757\n_cell_angle_beta     83.5757\n_cell_angle_gamma    101.9776\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  N   N1        1.0000  0.0444  0.9639  0.9974  1.0000\n  Cr  Cr1       1.0000  0.9639  0.0444  0.4974  1.0000\n  Cr  Cr2       1.0000  0.3728  0.5436  0.9155  1.0000\n  Cr  Cr3       1.0000  0.5436  0.3728  0.4155  1.0000\n  N   N2        1.0000  0.2785  0.1536  0.4661  1.0000\n  N   N3        1.0000  0.1536  0.2785  0.9661  1.0000\n  Cr  Cr4       1.0000  0.8982  0.8631  0.2812  1.0000\n  N   N4        1.0000  0.8631  0.8982  0.7812  1.0000\n  N   N5        1.0000  0.4805  0.5504  0.6258  1.0000\n  N   N6        1.0000  0.5504  0.4805  0.1258  1.0000\n  N   N7        1.0000  0.2621  0.7988  0.9636  1.0000\n  N   N8        1.0000  0.7988  0.2621  0.4636  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b07a8266-d72e-419c-a173-df8c9e3fd803",
    "mp_id": "mp-1016569",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg6NbCd\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9444\n_cell_length_b   6.2967\n_cell_length_c   10.9135\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg6NbCd\n_chemical_formula_sum   'Mg12 Nb2 Cd2'\n_cell_volume   339.7698\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.2515  0.0819  1\n  Mg  Mg1  1  0.0000  0.7485  0.0819  1\n  Mg  Mg2  1  0.0000  0.0000  0.3345  1\n  Mg  Mg3  1  0.5000  0.7409  0.4136  1\n  Mg  Mg4  1  0.5000  0.2591  0.4136  1\n  Mg  Mg5  1  0.5000  0.0000  0.1669  1\n  Mg  Mg6  1  0.0000  0.7515  0.5819  1\n  Mg  Mg7  1  0.0000  0.2485  0.5819  1\n  Mg  Mg8  1  0.0000  0.5000  0.8345  1\n  Mg  Mg9  1  0.5000  0.2409  0.9136  1\n  Mg  Mg10  1  0.5000  0.7591  0.9136  1\n  Mg  Mg11  1  0.5000  0.5000  0.6669  1\n  Nb  Nb12  1  0.0000  0.5000  0.3337  1\n  Nb  Nb13  1  0.0000  0.0000  0.8337  1\n  Cd  Cd14  1  0.5000  0.5000  0.1739  1\n  Cd  Cd15  1  0.5000  0.0000  0.6739  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg12NbCdNbCd\n_chemical_formula_sum              \"Mg12 Nb2 Cd2\"\n_cell_length_a       4.9444\n_cell_length_b       6.2967\n_cell_length_c       10.9135\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.2515  0.0819  1.0000\n  Mg  Mg2       1.0000  0.0000  0.7485  0.0819  1.0000\n  Mg  Mg3       1.0000  0.0000  0.0000  0.3345  1.0000\n  Mg  Mg4       1.0000  0.5000  0.7409  0.4136  1.0000\n  Mg  Mg5       1.0000  0.5000  0.2591  0.4136  1.0000\n  Mg  Mg6       1.0000  0.5000  0.0000  0.1669  1.0000\n  Mg  Mg7       1.0000  0.0000  0.7515  0.5819  1.0000\n  Mg  Mg8       1.0000  0.0000  0.2485  0.5819  1.0000\n  Mg  Mg9       1.0000  0.0000  0.5000  0.8345  1.0000\n  Mg  Mg10      1.0000  0.5000  0.2409  0.9136  1.0000\n  Mg  Mg11      1.0000  0.5000  0.7591  0.9136  1.0000\n  Mg  Mg12      1.0000  0.5000  0.5000  0.6669  1.0000\n  Nb  Nb1       1.0000  0.0000  0.5000  0.3337  1.0000\n  Cd  Cd1       1.0000  0.0000  0.0000  0.8337  1.0000\n  Nb  Nb2       1.0000  0.5000  0.5000  0.1739  1.0000\n  Cd  Cd2       1.0000  0.5000  0.0000  0.6739  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f637595d-6746-416b-a430-1fec610a7bcf",
    "mp_id": "mp-1016660",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HfMg6Mo\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9016\n_cell_length_b   6.1078\n_cell_length_c   11.1463\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HfMg6Mo\n_chemical_formula_sum   'Hf2 Mg12 Mo2'\n_cell_volume   333.6952\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.5000  0.5000  0.1976  1\n  Hf  Hf1  1  0.5000  0.0000  0.6976  1\n  Mg  Mg2  1  0.0000  0.7460  0.0746  1\n  Mg  Mg3  1  0.0000  0.2540  0.0746  1\n  Mg  Mg4  1  0.0000  0.0000  0.3270  1\n  Mg  Mg5  1  0.5000  0.2571  0.4277  1\n  Mg  Mg6  1  0.5000  0.7429  0.4277  1\n  Mg  Mg7  1  0.5000  0.0000  0.1692  1\n  Mg  Mg8  1  0.0000  0.2460  0.5746  1\n  Mg  Mg9  1  0.0000  0.7540  0.5746  1\n  Mg  Mg10  1  0.0000  0.5000  0.8270  1\n  Mg  Mg11  1  0.5000  0.7571  0.9277  1\n  Mg  Mg12  1  0.5000  0.2429  0.9277  1\n  Mg  Mg13  1  0.5000  0.5000  0.6692  1\n  Mo  Mo14  1  0.0000  0.5000  0.3017  1\n  Mo  Mo15  1  0.0000  0.0000  0.8017  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgHfMg3HfMg8Mo2\n_chemical_formula_sum              \"Mg12 Hf2 Mo2\"\n_cell_length_a       4.9016\n_cell_length_b       6.1078\n_cell_length_c       11.1463\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.5000  0.1976  1.0000\n  Hf  Hf1       1.0000  0.5000  0.0000  0.6976  1.0000\n  Mg  Mg2       1.0000  0.0000  0.7460  0.0746  1.0000\n  Mg  Mg3       1.0000  0.0000  0.2540  0.0746  1.0000\n  Mg  Mg4       1.0000  0.0000  0.0000  0.3270  1.0000\n  Hf  Hf2       1.0000  0.5000  0.2571  0.4277  1.0000\n  Mg  Mg5       1.0000  0.5000  0.7429  0.4277  1.0000\n  Mg  Mg6       1.0000  0.5000  0.0000  0.1692  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2460  0.5746  1.0000\n  Mg  Mg8       1.0000  0.0000  0.7540  0.5746  1.0000\n  Mg  Mg9       1.0000  0.0000  0.5000  0.8270  1.0000\n  Mg  Mg10      1.0000  0.5000  0.7571  0.9277  1.0000\n  Mg  Mg11      1.0000  0.5000  0.2429  0.9277  1.0000\n  Mg  Mg12      1.0000  0.5000  0.5000  0.6692  1.0000\n  Mo  Mo1       1.0000  0.0000  0.5000  0.3017  1.0000\n  Mo  Mo2       1.0000  0.0000  0.0000  0.8017  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2ce82e16-6148-4a23-a0d5-6024e5239df4",
    "mp_id": "mp-1020181",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2ZnB6O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6092\n_cell_length_b   6.6092\n_cell_length_c   11.6264\n_cell_angle_alpha   71.8982\n_cell_angle_beta   71.8982\n_cell_angle_gamma   68.9631\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2ZnB6O11\n_chemical_formula_sum   'Na4 Zn2 B12 O22'\n_cell_volume   439.0402\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2653  0.4427  0.5344  1\n  Na  Na1  1  0.4427  0.2653  0.0344  1\n  Na  Na2  1  0.7347  0.5573  0.4656  1\n  Na  Na3  1  0.5573  0.7347  0.9656  1\n  Zn  Zn4  1  0.1318  0.8682  0.7500  1\n  Zn  Zn5  1  0.8682  0.1318  0.2500  1\n  B  B6  1  0.7875  0.7402  0.6541  1\n  B  B7  1  0.7402  0.7875  0.1541  1\n  B  B8  1  0.8928  0.2940  0.9878  1\n  B  B9  1  0.2940  0.8928  0.4878  1\n  B  B10  1  0.9080  0.3247  0.7657  1\n  B  B11  1  0.3247  0.9080  0.2657  1\n  B  B12  1  0.6753  0.0920  0.7343  1\n  B  B13  1  0.0920  0.6753  0.2343  1\n  B  B14  1  0.1072  0.7060  0.0122  1\n  B  B15  1  0.7060  0.1072  0.5122  1\n  B  B16  1  0.2598  0.2125  0.8459  1\n  B  B17  1  0.2125  0.2598  0.3459  1\n  O  O18  1  0.7461  0.8383  0.7502  1\n  O  O19  1  0.8383  0.7461  0.2502  1\n  O  O20  1  0.7905  0.3728  0.8887  1\n  O  O21  1  0.3728  0.7905  0.3887  1\n  O  O22  1  0.8521  0.5162  0.6625  1\n  O  O23  1  0.5162  0.8521  0.1625  1\n  O  O24  1  0.1265  0.2299  0.9656  1\n  O  O25  1  0.2299  0.1265  0.4656  1\n  O  O26  1  0.7701  0.8735  0.5344  1\n  O  O27  1  0.8735  0.7701  0.0344  1\n  O  O28  1  0.8686  0.1314  0.7500  1\n  O  O29  1  0.1314  0.8686  0.2500  1\n  O  O30  1  0.2862  0.7615  0.6032  1\n  O  O31  1  0.7615  0.2862  0.1032  1\n  O  O32  1  0.1617  0.2539  0.7498  1\n  O  O33  1  0.2539  0.1617  0.2498  1\n  O  O34  1  0.4838  0.1479  0.8375  1\n  O  O35  1  0.1479  0.4838  0.3375  1\n  O  O36  1  0.2385  0.7138  0.8968  1\n  O  O37  1  0.7138  0.2385  0.3968  1\n  O  O38  1  0.6272  0.2095  0.6113  1\n  O  O39  1  0.2095  0.6272  0.1113  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Zn2OB11O8BO13\n_chemical_formula_sum              \"Na4 Zn2 O22 B12\"\n_cell_length_a       6.6092\n_cell_length_b       6.6092\n_cell_length_c       11.6264\n_cell_angle_alpha    71.8982\n_cell_angle_beta     71.8982\n_cell_angle_gamma    68.9631\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2653  0.4427  0.5344  1.0000\n  Na  Na2       1.0000  0.4427  0.2653  0.0344  1.0000\n  Na  Na3       1.0000  0.7347  0.5573  0.4656  1.0000\n  Na  Na4       1.0000  0.5573  0.7347  0.9656  1.0000\n  Zn  Zn1       1.0000  0.1318  0.8682  0.7500  1.0000\n  Zn  Zn2       1.0000  0.8682  0.1318  0.2500  1.0000\n  O   O1        1.0000  0.7875  0.7402  0.6541  1.0000\n  B   B1        1.0000  0.7402  0.7875  0.1541  1.0000\n  B   B2        1.0000  0.8928  0.2940  0.9878  1.0000\n  B   B3        1.0000  0.2940  0.8928  0.4878  1.0000\n  B   B4        1.0000  0.9080  0.3247  0.7657  1.0000\n  B   B5        1.0000  0.3247  0.9080  0.2657  1.0000\n  B   B6        1.0000  0.6753  0.0920  0.7343  1.0000\n  B   B7        1.0000  0.0920  0.6753  0.2343  1.0000\n  B   B8        1.0000  0.1072  0.7060  0.0122  1.0000\n  B   B9        1.0000  0.7060  0.1072  0.5122  1.0000\n  B   B10       1.0000  0.2598  0.2125  0.8459  1.0000\n  B   B11       1.0000  0.2125  0.2598  0.3459  1.0000\n  O   O2        1.0000  0.7461  0.8383  0.7502  1.0000\n  O   O3        1.0000  0.8383  0.7461  0.2502  1.0000\n  O   O4        1.0000  0.7905  0.3728  0.8887  1.0000\n  O   O5        1.0000  0.3728  0.7905  0.3887  1.0000\n  O   O6        1.0000  0.8521  0.5162  0.6625  1.0000\n  O   O7        1.0000  0.5162  0.8521  0.1625  1.0000\n  O   O8        1.0000  0.1265  0.2299  0.9656  1.0000\n  O   O9        1.0000  0.2299  0.1265  0.4656  1.0000\n  B   B12       1.0000  0.7701  0.8735  0.5344  1.0000\n  O   O10       1.0000  0.8735  0.7701  0.0344  1.0000\n  O   O11       1.0000  0.8686  0.1314  0.7500  1.0000\n  O   O12       1.0000  0.1314  0.8686  0.2500  1.0000\n  O   O13       1.0000  0.2862  0.7615  0.6032  1.0000\n  O   O14       1.0000  0.7615  0.2862  0.1032  1.0000\n  O   O15       1.0000  0.1617  0.2539  0.7498  1.0000\n  O   O16       1.0000  0.2539  0.1617  0.2498  1.0000\n  O   O17       1.0000  0.4838  0.1479  0.8375  1.0000\n  O   O18       1.0000  0.1479  0.4838  0.3375  1.0000\n  O   O19       1.0000  0.2385  0.7138  0.8968  1.0000\n  O   O20       1.0000  0.7138  0.2385  0.3968  1.0000\n  O   O21       1.0000  0.6272  0.2095  0.6113  1.0000\n  O   O22       1.0000  0.2095  0.6272  0.1113  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "60315ad1-350e-4282-a3af-d0278158d09b",
    "mp_id": "mp-1020716",
    "action_prompt": "Swap the spatial positions of atoms at indices 39 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb3B(SO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.0414\n_cell_length_b   14.0414\n_cell_length_c   14.0414\n_cell_angle_alpha   150.1167\n_cell_angle_beta   116.6354\n_cell_angle_gamma   71.6178\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb3B(SO4)3\n_chemical_formula_sum   'Rb12 B4 S12 O48'\n_cell_volume   1216.1053\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.2926  0.3034  0.2423  1\n  Rb  Rb1  1  0.2074  0.4497  0.0108  1\n  Rb  Rb2  1  0.9389  0.1966  0.4892  1\n  Rb  Rb3  1  0.5611  0.0503  0.2577  1\n  Rb  Rb4  1  0.7074  0.6966  0.7577  1\n  Rb  Rb5  1  0.7926  0.5503  0.9892  1\n  Rb  Rb6  1  0.0611  0.8034  0.5108  1\n  Rb  Rb7  1  0.4389  0.9497  0.7423  1\n  Rb  Rb8  1  0.5549  0.7500  0.3049  1\n  Rb  Rb9  1  0.9451  0.2500  0.1951  1\n  Rb  Rb10  1  0.4451  0.2500  0.6951  1\n  Rb  Rb11  1  0.0549  0.7500  0.8049  1\n  B  B12  1  0.6688  0.4188  0.2500  1\n  B  B13  1  0.8312  0.0812  0.7500  1\n  B  B14  1  0.3312  0.5812  0.7500  1\n  B  B15  1  0.1688  0.9188  0.2500  1\n  S  S16  1  0.4679  0.4784  0.2607  1\n  S  S17  1  0.0321  0.2928  0.0105  1\n  S  S18  1  0.7823  0.0216  0.4895  1\n  S  S19  1  0.7177  0.2072  0.2393  1\n  S  S20  1  0.5321  0.5216  0.7393  1\n  S  S21  1  0.9679  0.7072  0.9895  1\n  S  S22  1  0.2177  0.9784  0.5105  1\n  S  S23  1  0.2823  0.7928  0.7607  1\n  S  S24  1  0.8109  0.7500  0.5609  1\n  S  S25  1  0.6891  0.2500  0.9391  1\n  S  S26  1  0.1891  0.2500  0.4391  1\n  S  S27  1  0.3109  0.7500  0.0609  1\n  O  O28  1  0.7204  0.4018  0.3489  1\n  O  O29  1  0.7796  0.1285  0.6814  1\n  O  O30  1  0.9470  0.0982  0.8186  1\n  O  O31  1  0.5530  0.3715  0.1511  1\n  O  O32  1  0.2796  0.5982  0.6511  1\n  O  O33  1  0.2204  0.8715  0.3186  1\n  O  O34  1  0.0530  0.9018  0.1814  1\n  O  O35  1  0.4470  0.6285  0.8489  1\n  O  O36  1  0.3800  0.3221  0.1057  1\n  O  O37  1  0.1200  0.2257  0.9421  1\n  O  O38  1  0.7836  0.1779  0.5579  1\n  O  O39  1  0.7164  0.2743  0.3943  1\n  O  O40  1  0.6200  0.6779  0.8943  1\n  O  O41  1  0.8800  0.7743  0.0579  1\n  O  O42  1  0.2164  0.8221  0.4421  1\n  O  O43  1  0.2836  0.7257  0.6057  1\n  O  O44  1  0.1643  0.1341  0.2435  1\n  O  O45  1  0.3357  0.5791  0.9698  1\n  O  O46  1  0.1094  0.3659  0.5302  1\n  O  O47  1  0.3906  0.9209  0.2565  1\n  O  O48  1  0.8357  0.8659  0.7565  1\n  O  O49  1  0.6643  0.4209  0.0302  1\n  O  O50  1  0.8906  0.6341  0.4698  1\n  O  O51  1  0.6094  0.0791  0.7435  1\n  O  O52  1  0.6992  0.6261  0.4123  1\n  O  O53  1  0.8008  0.2132  0.9269  1\n  O  O54  1  0.7862  0.8739  0.5731  1\n  O  O55  1  0.7138  0.2868  0.0877  1\n  O  O56  1  0.3008  0.3739  0.5877  1\n  O  O57  1  0.1992  0.7868  0.0731  1\n  O  O58  1  0.2138  0.1261  0.4269  1\n  O  O59  1  0.2862  0.7132  0.9123  1\n  O  O60  1  0.4377  0.6178  0.3004  1\n  O  O61  1  0.0623  0.3627  0.1802  1\n  O  O62  1  0.6826  0.8822  0.3198  1\n  O  O63  1  0.8174  0.1373  0.1996  1\n  O  O64  1  0.5623  0.3822  0.6996  1\n  O  O65  1  0.9377  0.6373  0.8198  1\n  O  O66  1  0.3174  0.1178  0.6802  1\n  O  O67  1  0.1826  0.8627  0.8004  1\n  O  O68  1  0.5211  0.5692  0.4470  1\n  O  O69  1  0.9789  0.4259  0.0481  1\n  O  O70  1  0.8778  0.9308  0.4519  1\n  O  O71  1  0.6222  0.0741  0.0530  1\n  O  O72  1  0.4789  0.4308  0.5530  1\n  O  O73  1  0.0211  0.5741  0.9519  1\n  O  O74  1  0.1222  0.0692  0.5481  1\n  O  O75  1  0.3778  0.9259  0.9470  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb6ORb5B4S12O11RbO36\n_chemical_formula_sum              \"Rb12 O48 B4 S12\"\n_cell_length_a       14.0414\n_cell_length_b       14.0414\n_cell_length_c       14.0414\n_cell_angle_alpha    150.1167\n_cell_angle_beta     116.6354\n_cell_angle_gamma    71.6178\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.2926  0.3034  0.2423  1.0000\n  Rb  Rb2       1.0000  0.2074  0.4497  0.0108  1.0000\n  Rb  Rb3       1.0000  0.9389  0.1966  0.4892  1.0000\n  Rb  Rb4       1.0000  0.5611  0.0503  0.2577  1.0000\n  Rb  Rb5       1.0000  0.7074  0.6966  0.7577  1.0000\n  Rb  Rb6       1.0000  0.7926  0.5503  0.9892  1.0000\n  O   O1        1.0000  0.0611  0.8034  0.5108  1.0000\n  Rb  Rb7       1.0000  0.4389  0.9497  0.7423  1.0000\n  Rb  Rb8       1.0000  0.5549  0.7500  0.3049  1.0000\n  Rb  Rb9       1.0000  0.9451  0.2500  0.1951  1.0000\n  Rb  Rb10      1.0000  0.4451  0.2500  0.6951  1.0000\n  Rb  Rb11      1.0000  0.0549  0.7500  0.8049  1.0000\n  B   B1        1.0000  0.6688  0.4188  0.2500  1.0000\n  B   B2        1.0000  0.8312  0.0812  0.7500  1.0000\n  B   B3        1.0000  0.3312  0.5812  0.7500  1.0000\n  B   B4        1.0000  0.1688  0.9188  0.2500  1.0000\n  S   S1        1.0000  0.4679  0.4784  0.2607  1.0000\n  S   S2        1.0000  0.0321  0.2928  0.0105  1.0000\n  S   S3        1.0000  0.7823  0.0216  0.4895  1.0000\n  S   S4        1.0000  0.7177  0.2072  0.2393  1.0000\n  S   S5        1.0000  0.5321  0.5216  0.7393  1.0000\n  S   S6        1.0000  0.9679  0.7072  0.9895  1.0000\n  S   S7        1.0000  0.2177  0.9784  0.5105  1.0000\n  S   S8        1.0000  0.2823  0.7928  0.7607  1.0000\n  S   S9        1.0000  0.8109  0.7500  0.5609  1.0000\n  S   S10       1.0000  0.6891  0.2500  0.9391  1.0000\n  S   S11       1.0000  0.1891  0.2500  0.4391  1.0000\n  S   S12       1.0000  0.3109  0.7500  0.0609  1.0000\n  O   O2        1.0000  0.7204  0.4018  0.3489  1.0000\n  O   O3        1.0000  0.7796  0.1285  0.6814  1.0000\n  O   O4        1.0000  0.9470  0.0982  0.8186  1.0000\n  O   O5        1.0000  0.5530  0.3715  0.1511  1.0000\n  O   O6        1.0000  0.2796  0.5982  0.6511  1.0000\n  O   O7        1.0000  0.2204  0.8715  0.3186  1.0000\n  O   O8        1.0000  0.0530  0.9018  0.1814  1.0000\n  O   O9        1.0000  0.4470  0.6285  0.8489  1.0000\n  O   O10       1.0000  0.3800  0.3221  0.1057  1.0000\n  O   O11       1.0000  0.1200  0.2257  0.9421  1.0000\n  O   O12       1.0000  0.7836  0.1779  0.5579  1.0000\n  Rb  Rb12      1.0000  0.7164  0.2743  0.3943  1.0000\n  O   O13       1.0000  0.6200  0.6779  0.8943  1.0000\n  O   O14       1.0000  0.8800  0.7743  0.0579  1.0000\n  O   O15       1.0000  0.2164  0.8221  0.4421  1.0000\n  O   O16       1.0000  0.2836  0.7257  0.6057  1.0000\n  O   O17       1.0000  0.1643  0.1341  0.2435  1.0000\n  O   O18       1.0000  0.3357  0.5791  0.9698  1.0000\n  O   O19       1.0000  0.1094  0.3659  0.5302  1.0000\n  O   O20       1.0000  0.3906  0.9209  0.2565  1.0000\n  O   O21       1.0000  0.8357  0.8659  0.7565  1.0000\n  O   O22       1.0000  0.6643  0.4209  0.0302  1.0000\n  O   O23       1.0000  0.8906  0.6341  0.4698  1.0000\n  O   O24       1.0000  0.6094  0.0791  0.7435  1.0000\n  O   O25       1.0000  0.6992  0.6261  0.4123  1.0000\n  O   O26       1.0000  0.8008  0.2132  0.9269  1.0000\n  O   O27       1.0000  0.7862  0.8739  0.5731  1.0000\n  O   O28       1.0000  0.7138  0.2868  0.0877  1.0000\n  O   O29       1.0000  0.3008  0.3739  0.5877  1.0000\n  O   O30       1.0000  0.1992  0.7868  0.0731  1.0000\n  O   O31       1.0000  0.2138  0.1261  0.4269  1.0000\n  O   O32       1.0000  0.2862  0.7132  0.9123  1.0000\n  O   O33       1.0000  0.4377  0.6178  0.3004  1.0000\n  O   O34       1.0000  0.0623  0.3627  0.1802  1.0000\n  O   O35       1.0000  0.6826  0.8822  0.3198  1.0000\n  O   O36       1.0000  0.8174  0.1373  0.1996  1.0000\n  O   O37       1.0000  0.5623  0.3822  0.6996  1.0000\n  O   O38       1.0000  0.9377  0.6373  0.8198  1.0000\n  O   O39       1.0000  0.3174  0.1178  0.6802  1.0000\n  O   O40       1.0000  0.1826  0.8627  0.8004  1.0000\n  O   O41       1.0000  0.5211  0.5692  0.4470  1.0000\n  O   O42       1.0000  0.9789  0.4259  0.0481  1.0000\n  O   O43       1.0000  0.8778  0.9308  0.4519  1.0000\n  O   O44       1.0000  0.6222  0.0741  0.0530  1.0000\n  O   O45       1.0000  0.4789  0.4308  0.5530  1.0000\n  O   O46       1.0000  0.0211  0.5741  0.9519  1.0000\n  O   O47       1.0000  0.1222  0.0692  0.5481  1.0000\n  O   O48       1.0000  0.3778  0.9259  0.9470  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "90630216-04a2-4840-b7cb-3e305bee4ed3",
    "mp_id": "mp-1021278",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMg6Ga\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9872\n_cell_length_b   6.2557\n_cell_length_c   10.9307\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMg6Ga\n_chemical_formula_sum   'Li2 Mg12 Ga2'\n_cell_volume   341.0192\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.0000  0.1674  1\n  Li  Li1  1  0.5000  0.5000  0.6674  1\n  Mg  Mg2  1  0.5000  0.2492  0.4165  1\n  Mg  Mg3  1  0.5000  0.7508  0.4165  1\n  Mg  Mg4  1  0.0000  0.7494  0.0851  1\n  Mg  Mg5  1  0.0000  0.2506  0.0851  1\n  Mg  Mg6  1  0.0000  0.0000  0.3321  1\n  Mg  Mg7  1  0.0000  0.5000  0.3314  1\n  Mg  Mg8  1  0.5000  0.7492  0.9165  1\n  Mg  Mg9  1  0.5000  0.2508  0.9165  1\n  Mg  Mg10  1  0.0000  0.2494  0.5851  1\n  Mg  Mg11  1  0.0000  0.7506  0.5851  1\n  Mg  Mg12  1  0.0000  0.5000  0.8321  1\n  Mg  Mg13  1  0.0000  0.0000  0.8314  1\n  Ga  Ga14  1  0.5000  0.5000  0.1659  1\n  Ga  Ga15  1  0.5000  0.0000  0.6659  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgLiMg11LiGa2\n_chemical_formula_sum              \"Mg12 Li2 Ga2\"\n_cell_length_a       4.9872\n_cell_length_b       6.2557\n_cell_length_c       10.9307\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.1674  1.0000\n  Li  Li1       1.0000  0.5000  0.5000  0.6674  1.0000\n  Mg  Mg2       1.0000  0.5000  0.2492  0.4165  1.0000\n  Mg  Mg3       1.0000  0.5000  0.7508  0.4165  1.0000\n  Mg  Mg4       1.0000  0.0000  0.7494  0.0851  1.0000\n  Mg  Mg5       1.0000  0.0000  0.2506  0.0851  1.0000\n  Mg  Mg6       1.0000  0.0000  0.0000  0.3321  1.0000\n  Mg  Mg7       1.0000  0.0000  0.5000  0.3314  1.0000\n  Mg  Mg8       1.0000  0.5000  0.7492  0.9165  1.0000\n  Mg  Mg9       1.0000  0.5000  0.2508  0.9165  1.0000\n  Mg  Mg10      1.0000  0.0000  0.2494  0.5851  1.0000\n  Mg  Mg11      1.0000  0.0000  0.7506  0.5851  1.0000\n  Mg  Mg12      1.0000  0.0000  0.5000  0.8321  1.0000\n  Li  Li2       1.0000  0.0000  0.0000  0.8314  1.0000\n  Ga  Ga1       1.0000  0.5000  0.5000  0.1659  1.0000\n  Ga  Ga2       1.0000  0.5000  0.0000  0.6659  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c501e682-2d88-4d3d-9503-758ecbe66292",
    "mp_id": "mp-1021658",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg6VSb\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0253\n_cell_length_b   6.4208\n_cell_length_c   10.7031\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg6VSb\n_chemical_formula_sum   'Mg12 V2 Sb2'\n_cell_volume   345.3533\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.2451  0.0814  1\n  Mg  Mg1  1  0.0000  0.7549  0.0814  1\n  Mg  Mg2  1  0.0000  0.5000  0.8348  1\n  Mg  Mg3  1  0.5000  0.2459  0.9143  1\n  Mg  Mg4  1  0.5000  0.7541  0.9143  1\n  Mg  Mg5  1  0.5000  0.5000  0.6679  1\n  Mg  Mg6  1  0.0000  0.7451  0.5814  1\n  Mg  Mg7  1  0.0000  0.2549  0.5814  1\n  Mg  Mg8  1  0.0000  0.0000  0.3348  1\n  Mg  Mg9  1  0.5000  0.7459  0.4143  1\n  Mg  Mg10  1  0.5000  0.2541  0.4143  1\n  Mg  Mg11  1  0.5000  0.0000  0.1679  1\n  V  V12  1  0.0000  0.5000  0.3316  1\n  V  V13  1  0.0000  0.0000  0.8316  1\n  Sb  Sb14  1  0.5000  0.5000  0.1742  1\n  Sb  Sb15  1  0.5000  0.0000  0.6742  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg12VSb2V\n_chemical_formula_sum              \"Mg12 V2 Sb2\"\n_cell_length_a       5.0253\n_cell_length_b       6.4208\n_cell_length_c       10.7031\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.2451  0.0814  1.0000\n  Mg  Mg2       1.0000  0.0000  0.7549  0.0814  1.0000\n  Mg  Mg3       1.0000  0.0000  0.5000  0.8348  1.0000\n  Mg  Mg4       1.0000  0.5000  0.2459  0.9143  1.0000\n  Mg  Mg5       1.0000  0.5000  0.7541  0.9143  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.6679  1.0000\n  Mg  Mg7       1.0000  0.0000  0.7451  0.5814  1.0000\n  Mg  Mg8       1.0000  0.0000  0.2549  0.5814  1.0000\n  Mg  Mg9       1.0000  0.0000  0.0000  0.3348  1.0000\n  Mg  Mg10      1.0000  0.5000  0.7459  0.4143  1.0000\n  Mg  Mg11      1.0000  0.5000  0.2541  0.4143  1.0000\n  Mg  Mg12      1.0000  0.5000  0.0000  0.1679  1.0000\n  V   V1        1.0000  0.0000  0.5000  0.3316  1.0000\n  Sb  Sb1       1.0000  0.0000  0.0000  0.8316  1.0000\n  Sb  Sb2       1.0000  0.5000  0.5000  0.1742  1.0000\n  V   V2        1.0000  0.5000  0.0000  0.6742  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d66714ac-0086-42a8-8751-2f682eb9f8fe",
    "mp_id": "mp-1021682",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMg6V\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0322\n_cell_length_b   6.3487\n_cell_length_c   10.7341\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMg6V\n_chemical_formula_sum   'Li2 Mg12 V2'\n_cell_volume   342.9358\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.5000  0.8341  1\n  Li  Li1  1  0.0000  0.0000  0.3342  1\n  Mg  Mg2  1  0.0000  0.2514  0.0831  1\n  Mg  Mg3  1  0.0000  0.7486  0.0831  1\n  Mg  Mg4  1  0.5000  0.2436  0.9126  1\n  Mg  Mg5  1  0.5000  0.7564  0.9126  1\n  Mg  Mg6  1  0.5000  0.5000  0.1726  1\n  Mg  Mg7  1  0.5000  0.5000  0.6683  1\n  Mg  Mg8  1  0.0000  0.7514  0.5831  1\n  Mg  Mg9  1  0.0000  0.2486  0.5831  1\n  Mg  Mg10  1  0.5000  0.7436  0.4126  1\n  Mg  Mg11  1  0.5000  0.2564  0.4126  1\n  Mg  Mg12  1  0.5000  0.0000  0.6726  1\n  Mg  Mg13  1  0.5000  0.0000  0.1683  1\n  V  V14  1  0.0000  0.5000  0.3336  1\n  V  V15  1  0.0000  0.0000  0.8336  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2MgVMg10VMg\n_chemical_formula_sum              \"Li2 Mg12 V2\"\n_cell_length_a       5.0322\n_cell_length_b       6.3487\n_cell_length_c       10.7341\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.5000  0.8341  1.0000\n  Li  Li2       1.0000  0.0000  0.0000  0.3342  1.0000\n  Mg  Mg1       1.0000  0.0000  0.2514  0.0831  1.0000\n  V   V1        1.0000  0.0000  0.7486  0.0831  1.0000\n  Mg  Mg2       1.0000  0.5000  0.2436  0.9126  1.0000\n  Mg  Mg3       1.0000  0.5000  0.7564  0.9126  1.0000\n  Mg  Mg4       1.0000  0.5000  0.5000  0.1726  1.0000\n  Mg  Mg5       1.0000  0.5000  0.5000  0.6683  1.0000\n  Mg  Mg6       1.0000  0.0000  0.7514  0.5831  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2486  0.5831  1.0000\n  Mg  Mg8       1.0000  0.5000  0.7436  0.4126  1.0000\n  Mg  Mg9       1.0000  0.5000  0.2564  0.4126  1.0000\n  Mg  Mg10      1.0000  0.5000  0.0000  0.6726  1.0000\n  Mg  Mg11      1.0000  0.5000  0.0000  0.1683  1.0000\n  V   V2        1.0000  0.0000  0.5000  0.3336  1.0000\n  Mg  Mg12      1.0000  0.0000  0.0000  0.8336  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e2cf55a1-cd6e-45c6-944c-1a84ddb5f8a4",
    "mp_id": "mp-1022203",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg6CdFe\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8800\n_cell_length_b   6.1348\n_cell_length_c   10.4281\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg6CdFe\n_chemical_formula_sum   'Mg12 Cd2 Fe2'\n_cell_volume   312.1910\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.2510  0.0848  1\n  Mg  Mg1  1  0.0000  0.7490  0.0848  1\n  Mg  Mg2  1  0.0000  0.5000  0.8357  1\n  Mg  Mg3  1  0.5000  0.2336  0.9072  1\n  Mg  Mg4  1  0.5000  0.7664  0.9072  1\n  Mg  Mg5  1  0.5000  0.5000  0.6637  1\n  Mg  Mg6  1  0.0000  0.7510  0.5848  1\n  Mg  Mg7  1  0.0000  0.2490  0.5848  1\n  Mg  Mg8  1  0.0000  0.0000  0.3357  1\n  Mg  Mg9  1  0.5000  0.7336  0.4072  1\n  Mg  Mg10  1  0.5000  0.2664  0.4072  1\n  Mg  Mg11  1  0.5000  0.0000  0.1637  1\n  Cd  Cd12  1  0.5000  0.5000  0.1691  1\n  Cd  Cd13  1  0.5000  0.0000  0.6691  1\n  Fe  Fe14  1  0.0000  0.5000  0.3475  1\n  Fe  Fe15  1  0.0000  0.0000  0.8475  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg7FeMg4Cd2FeMg\n_chemical_formula_sum              \"Mg12 Fe2 Cd2\"\n_cell_length_a       4.8800\n_cell_length_b       6.1348\n_cell_length_c       10.4281\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.2510  0.0848  1.0000\n  Mg  Mg2       1.0000  0.0000  0.7490  0.0848  1.0000\n  Mg  Mg3       1.0000  0.0000  0.5000  0.8357  1.0000\n  Mg  Mg4       1.0000  0.5000  0.2336  0.9072  1.0000\n  Mg  Mg5       1.0000  0.5000  0.7664  0.9072  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.6637  1.0000\n  Mg  Mg7       1.0000  0.0000  0.7510  0.5848  1.0000\n  Fe  Fe1       1.0000  0.0000  0.2490  0.5848  1.0000\n  Mg  Mg8       1.0000  0.0000  0.0000  0.3357  1.0000\n  Mg  Mg9       1.0000  0.5000  0.7336  0.4072  1.0000\n  Mg  Mg10      1.0000  0.5000  0.2664  0.4072  1.0000\n  Mg  Mg11      1.0000  0.5000  0.0000  0.1637  1.0000\n  Cd  Cd1       1.0000  0.5000  0.5000  0.1691  1.0000\n  Cd  Cd2       1.0000  0.5000  0.0000  0.6691  1.0000\n  Fe  Fe2       1.0000  0.0000  0.5000  0.3475  1.0000\n  Mg  Mg12      1.0000  0.0000  0.0000  0.8475  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7b3e5e44-4de5-40b6-816a-f52442d718fe",
    "mp_id": "mp-1026634",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsMg14Mo\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4875\n_cell_length_b   6.5603\n_cell_length_c   10.5115\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.3721\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsMg14Mo\n_chemical_formula_sum   'Cs1 Mg14 Mo1'\n_cell_volume   385.9690\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.1359  0.3179  0.1250  1\n  Mg  Mg1  1  0.1740  0.3370  0.6250  1\n  Mg  Mg2  1  0.1678  0.8339  0.6250  1\n  Mg  Mg3  1  0.6512  0.3261  0.1250  1\n  Mg  Mg4  1  0.6669  0.3421  0.6250  1\n  Mg  Mg5  1  0.6512  0.8251  0.1250  1\n  Mg  Mg6  1  0.6669  0.8248  0.6250  1\n  Mg  Mg7  1  0.3362  0.1518  0.3815  1\n  Mg  Mg8  1  0.3362  0.1518  0.8685  1\n  Mg  Mg9  1  0.3362  0.6844  0.3815  1\n  Mg  Mg10  1  0.3362  0.6844  0.8685  1\n  Mg  Mg11  1  0.8194  0.1597  0.4010  1\n  Mg  Mg12  1  0.8194  0.1597  0.8490  1\n  Mg  Mg13  1  0.8484  0.6742  0.3593  1\n  Mg  Mg14  1  0.8484  0.6742  0.8907  1\n  Mo  Mo15  1  0.2058  0.8529  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgCsMg13Mo\n_chemical_formula_sum              \"Mg14 Cs1 Mo1\"\n_cell_length_a       6.4875\n_cell_length_b       6.5603\n_cell_length_c       10.5115\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.3721\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1359  0.3179  0.1250  1.0000\n  Cs  Cs1       1.0000  0.1740  0.3370  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1678  0.8339  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6512  0.3261  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6669  0.3421  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6512  0.8251  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6669  0.8248  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3362  0.1518  0.3815  1.0000\n  Mg  Mg8       1.0000  0.3362  0.1518  0.8685  1.0000\n  Mg  Mg9       1.0000  0.3362  0.6844  0.3815  1.0000\n  Mg  Mg10      1.0000  0.3362  0.6844  0.8685  1.0000\n  Mg  Mg11      1.0000  0.8194  0.1597  0.4010  1.0000\n  Mg  Mg12      1.0000  0.8194  0.1597  0.8490  1.0000\n  Mg  Mg13      1.0000  0.8484  0.6742  0.3593  1.0000\n  Mg  Mg14      1.0000  0.8484  0.6742  0.8907  1.0000\n  Mo  Mo1       1.0000  0.2058  0.8529  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "34b8350f-21ad-4bbb-a826-32748e93e220",
    "mp_id": "mp-1026773",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeMg14Ga\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3723\n_cell_length_b   6.3723\n_cell_length_c   10.1374\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeMg14Ga\n_chemical_formula_sum   'Ce1 Mg14 Ga1'\n_cell_volume   356.4894\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.1667  0.3333  0.1250  1\n  Mg  Mg1  1  0.1814  0.8407  0.1250  1\n  Mg  Mg2  1  0.1601  0.8301  0.6250  1\n  Mg  Mg3  1  0.6593  0.3186  0.1250  1\n  Mg  Mg4  1  0.6699  0.3399  0.6250  1\n  Mg  Mg5  1  0.6593  0.8407  0.1250  1\n  Mg  Mg6  1  0.6699  0.8301  0.6250  1\n  Mg  Mg7  1  0.3327  0.1673  0.3850  1\n  Mg  Mg8  1  0.3327  0.1673  0.8650  1\n  Mg  Mg9  1  0.3327  0.6654  0.3850  1\n  Mg  Mg10  1  0.3327  0.6654  0.8650  1\n  Mg  Mg11  1  0.8346  0.1673  0.3850  1\n  Mg  Mg12  1  0.8346  0.1673  0.8650  1\n  Mg  Mg13  1  0.8333  0.6667  0.3619  1\n  Mg  Mg14  1  0.8333  0.6667  0.8881  1\n  Ga  Ga15  1  0.1667  0.3333  0.6250  1\n",
    "output": "data_image0\n_chemical_formula_structural       CeMg12GaMg2\n_chemical_formula_sum              \"Ce1 Mg14 Ga1\"\n_cell_length_a       6.3723\n_cell_length_b       6.3723\n_cell_length_c       10.1374\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.1667  0.3333  0.1250  1.0000\n  Mg  Mg1       1.0000  0.1814  0.8407  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1601  0.8301  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6593  0.3186  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6699  0.3399  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6593  0.8407  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6699  0.8301  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3327  0.1673  0.3850  1.0000\n  Mg  Mg8       1.0000  0.3327  0.1673  0.8650  1.0000\n  Mg  Mg9       1.0000  0.3327  0.6654  0.3850  1.0000\n  Mg  Mg10      1.0000  0.3327  0.6654  0.8650  1.0000\n  Mg  Mg11      1.0000  0.8346  0.1673  0.3850  1.0000\n  Mg  Mg12      1.0000  0.8346  0.1673  0.8650  1.0000\n  Ga  Ga1       1.0000  0.8333  0.6667  0.3619  1.0000\n  Mg  Mg13      1.0000  0.8333  0.6667  0.8881  1.0000\n  Mg  Mg14      1.0000  0.1667  0.3333  0.6250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5bc74af7-9e8f-4329-9124-d94d14c78a43",
    "mp_id": "mp-1026775",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeMg14Ga\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5080\n_cell_length_b   6.3343\n_cell_length_c   10.3012\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.1208\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeMg14Ga\n_chemical_formula_sum   'Ce1 Mg14 Ga1'\n_cell_volume   370.9773\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.1503  0.3251  0.1250  1\n  Mg  Mg1  1  0.1651  0.3326  0.6250  1\n  Mg  Mg2  1  0.1605  0.8303  0.6250  1\n  Mg  Mg3  1  0.6467  0.3152  0.1250  1\n  Mg  Mg4  1  0.6658  0.3370  0.6250  1\n  Mg  Mg5  1  0.6467  0.8315  0.1250  1\n  Mg  Mg6  1  0.6658  0.8288  0.6250  1\n  Mg  Mg7  1  0.3374  0.1666  0.3801  1\n  Mg  Mg8  1  0.3374  0.1666  0.8699  1\n  Mg  Mg9  1  0.3374  0.6709  0.3801  1\n  Mg  Mg10  1  0.3374  0.6709  0.8699  1\n  Mg  Mg11  1  0.8314  0.1657  0.3845  1\n  Mg  Mg12  1  0.8314  0.1657  0.8655  1\n  Mg  Mg13  1  0.8460  0.6730  0.3584  1\n  Mg  Mg14  1  0.8460  0.6730  0.8916  1\n  Ga  Ga15  1  0.1944  0.8472  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg7CeMg7Ga\n_chemical_formula_sum              \"Mg14 Ce1 Ga1\"\n_cell_length_a       6.5080\n_cell_length_b       6.3343\n_cell_length_c       10.3012\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.1208\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1503  0.3251  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1651  0.3326  0.6250  1.0000\n  Mg  Mg3       1.0000  0.1605  0.8303  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6467  0.3152  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6658  0.3370  0.6250  1.0000\n  Mg  Mg6       1.0000  0.6467  0.8315  0.1250  1.0000\n  Mg  Mg7       1.0000  0.6658  0.8288  0.6250  1.0000\n  Ce  Ce1       1.0000  0.3374  0.1666  0.3801  1.0000\n  Mg  Mg8       1.0000  0.3374  0.1666  0.8699  1.0000\n  Mg  Mg9       1.0000  0.3374  0.6709  0.3801  1.0000\n  Mg  Mg10      1.0000  0.3374  0.6709  0.8699  1.0000\n  Mg  Mg11      1.0000  0.8314  0.1657  0.3845  1.0000\n  Mg  Mg12      1.0000  0.8314  0.1657  0.8655  1.0000\n  Mg  Mg13      1.0000  0.8460  0.6730  0.3584  1.0000\n  Mg  Mg14      1.0000  0.8460  0.6730  0.8916  1.0000\n  Ga  Ga1       1.0000  0.1944  0.8472  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b23fbc94-417c-4223-aa11-20a260f28eef",
    "mp_id": "mp-1026818",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrLiMg14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6089\n_cell_length_b   6.6089\n_cell_length_c   10.3709\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrLiMg14\n_chemical_formula_sum   'Sr1 Li1 Mg14'\n_cell_volume   392.2868\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.1667  0.3333  0.6250  1\n  Li  Li1  1  0.1667  0.3333  0.1250  1\n  Mg  Mg2  1  0.1677  0.8339  0.1250  1\n  Mg  Mg3  1  0.1742  0.8371  0.6250  1\n  Mg  Mg4  1  0.6661  0.3323  0.1250  1\n  Mg  Mg5  1  0.6629  0.3258  0.6250  1\n  Mg  Mg6  1  0.6661  0.8339  0.1250  1\n  Mg  Mg7  1  0.6629  0.8371  0.6250  1\n  Mg  Mg8  1  0.3365  0.1635  0.3646  1\n  Mg  Mg9  1  0.3365  0.1635  0.8854  1\n  Mg  Mg10  1  0.3365  0.6730  0.3646  1\n  Mg  Mg11  1  0.3365  0.6730  0.8854  1\n  Mg  Mg12  1  0.8270  0.1635  0.3646  1\n  Mg  Mg13  1  0.8270  0.1635  0.8854  1\n  Mg  Mg14  1  0.8333  0.6667  0.3793  1\n  Mg  Mg15  1  0.8333  0.6667  0.8707  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrMg10LiMg4\n_chemical_formula_sum              \"Sr1 Mg14 Li1\"\n_cell_length_a       6.6089\n_cell_length_b       6.6089\n_cell_length_c       10.3709\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.1667  0.3333  0.6250  1.0000\n  Mg  Mg1       1.0000  0.1667  0.3333  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1677  0.8339  0.1250  1.0000\n  Mg  Mg3       1.0000  0.1742  0.8371  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6661  0.3323  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6629  0.3258  0.6250  1.0000\n  Mg  Mg6       1.0000  0.6661  0.8339  0.1250  1.0000\n  Mg  Mg7       1.0000  0.6629  0.8371  0.6250  1.0000\n  Mg  Mg8       1.0000  0.3365  0.1635  0.3646  1.0000\n  Mg  Mg9       1.0000  0.3365  0.1635  0.8854  1.0000\n  Mg  Mg10      1.0000  0.3365  0.6730  0.3646  1.0000\n  Li  Li1       1.0000  0.3365  0.6730  0.8854  1.0000\n  Mg  Mg11      1.0000  0.8270  0.1635  0.3646  1.0000\n  Mg  Mg12      1.0000  0.8270  0.1635  0.8854  1.0000\n  Mg  Mg13      1.0000  0.8333  0.6667  0.3793  1.0000\n  Mg  Mg14      1.0000  0.8333  0.6667  0.8707  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e39abe09-3b14-4c7a-a91a-cf8a8056b0b3",
    "mp_id": "mp-1026852",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KSrMg14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7250\n_cell_length_b   6.6549\n_cell_length_c   10.8096\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.6554\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KSrMg14\n_chemical_formula_sum   'K1 Sr1 Mg14'\n_cell_volume   420.4093\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.1690  0.3345  0.1250  1\n  Sr  Sr1  1  0.1701  0.8350  0.1250  1\n  Mg  Mg2  1  0.1655  0.3328  0.6250  1\n  Mg  Mg3  1  0.1659  0.8330  0.6250  1\n  Mg  Mg4  1  0.6637  0.3345  0.1250  1\n  Mg  Mg5  1  0.6671  0.3327  0.6250  1\n  Mg  Mg6  1  0.6637  0.8293  0.1250  1\n  Mg  Mg7  1  0.6671  0.8344  0.6250  1\n  Mg  Mg8  1  0.3439  0.1707  0.3949  1\n  Mg  Mg9  1  0.3439  0.1707  0.8551  1\n  Mg  Mg10  1  0.3439  0.6732  0.3949  1\n  Mg  Mg11  1  0.3439  0.6732  0.8551  1\n  Mg  Mg12  1  0.8221  0.1611  0.3826  1\n  Mg  Mg13  1  0.8221  0.1611  0.8674  1\n  Mg  Mg14  1  0.8241  0.6620  0.3816  1\n  Mg  Mg15  1  0.8241  0.6620  0.8684  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgSrMg12KMg\n_chemical_formula_sum              \"Mg14 Sr1 K1\"\n_cell_length_a       6.7250\n_cell_length_b       6.6549\n_cell_length_c       10.8096\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.6554\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1690  0.3345  0.1250  1.0000\n  Sr  Sr1       1.0000  0.1701  0.8350  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1655  0.3328  0.6250  1.0000\n  Mg  Mg3       1.0000  0.1659  0.8330  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6637  0.3345  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6671  0.3327  0.6250  1.0000\n  Mg  Mg6       1.0000  0.6637  0.8293  0.1250  1.0000\n  Mg  Mg7       1.0000  0.6671  0.8344  0.6250  1.0000\n  Mg  Mg8       1.0000  0.3439  0.1707  0.3949  1.0000\n  Mg  Mg9       1.0000  0.3439  0.1707  0.8551  1.0000\n  Mg  Mg10      1.0000  0.3439  0.6732  0.3949  1.0000\n  Mg  Mg11      1.0000  0.3439  0.6732  0.8551  1.0000\n  Mg  Mg12      1.0000  0.8221  0.1611  0.3826  1.0000\n  Mg  Mg13      1.0000  0.8221  0.1611  0.8674  1.0000\n  K   K1        1.0000  0.8241  0.6620  0.3816  1.0000\n  Mg  Mg14      1.0000  0.8241  0.6620  0.8684  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7a46676e-5d55-4744-a64a-786a99e78c4b",
    "mp_id": "mp-1026901",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14NbCu\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2947\n_cell_length_b   6.2632\n_cell_length_c   9.9281\n_cell_angle_alpha   89.9994\n_cell_angle_beta   90.0008\n_cell_angle_gamma   119.8339\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14NbCu\n_chemical_formula_sum   'Mg14 Nb1 Cu1'\n_cell_volume   339.5445\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1681  0.3340  0.6250  1\n  Mg  Mg1  1  0.1693  0.8346  0.6250  1\n  Mg  Mg2  1  0.6621  0.3374  0.1250  1\n  Mg  Mg3  1  0.6654  0.3320  0.6250  1\n  Mg  Mg4  1  0.6621  0.8246  0.1250  1\n  Mg  Mg5  1  0.6655  0.8334  0.6250  1\n  Mg  Mg6  1  0.3258  0.1623  0.3623  1\n  Mg  Mg7  1  0.3258  0.1623  0.8877  1\n  Mg  Mg8  1  0.3258  0.6635  0.3623  1\n  Mg  Mg9  1  0.3258  0.6635  0.8877  1\n  Mg  Mg10  1  0.8438  0.1719  0.3639  1\n  Mg  Mg11  1  0.8438  0.1719  0.8862  1\n  Mg  Mg12  1  0.8435  0.6717  0.3722  1\n  Mg  Mg13  1  0.8435  0.6717  0.8778  1\n  Nb  Nb14  1  0.1573  0.8286  0.1250  1\n  Cu  Cu15  1  0.1724  0.3362  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2NbMg12Cu\n_chemical_formula_sum              \"Mg14 Nb1 Cu1\"\n_cell_length_a       6.2947\n_cell_length_b       6.2632\n_cell_length_c       9.9281\n_cell_angle_alpha    89.9994\n_cell_angle_beta     90.0008\n_cell_angle_gamma    119.8339\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1681  0.3340  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1693  0.8346  0.6250  1.0000\n  Nb  Nb1       1.0000  0.6621  0.3374  0.1250  1.0000\n  Mg  Mg3       1.0000  0.6654  0.3320  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6621  0.8246  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6655  0.8334  0.6250  1.0000\n  Mg  Mg6       1.0000  0.3258  0.1623  0.3623  1.0000\n  Mg  Mg7       1.0000  0.3258  0.1623  0.8877  1.0000\n  Mg  Mg8       1.0000  0.3258  0.6635  0.3623  1.0000\n  Mg  Mg9       1.0000  0.3258  0.6635  0.8877  1.0000\n  Mg  Mg10      1.0000  0.8438  0.1719  0.3639  1.0000\n  Mg  Mg11      1.0000  0.8438  0.1719  0.8862  1.0000\n  Mg  Mg12      1.0000  0.8435  0.6717  0.3722  1.0000\n  Mg  Mg13      1.0000  0.8435  0.6717  0.8778  1.0000\n  Mg  Mg14      1.0000  0.1573  0.8286  0.1250  1.0000\n  Cu  Cu1       1.0000  0.1724  0.3362  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "04429978-80da-498c-807d-03bbf404cf21",
    "mp_id": "mp-1027134",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Te2MoW3(Se2S)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3455\n_cell_length_b   3.3455\n_cell_length_c   39.7067\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Te2MoW3(Se2S)2\n_chemical_formula_sum   'Te2 Mo1 W3 Se4 S2'\n_cell_volume   384.8753\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Te  Te0  1  0.6667  0.3333  0.4215  1\n  Te  Te1  1  0.6667  0.3333  0.5176  1\n  Mo  Mo2  1  0.3333  0.6667  0.0939  1\n  W  W3  1  0.3333  0.6667  0.4695  1\n  W  W4  1  0.6667  0.3333  0.2810  1\n  W  W5  1  0.6667  0.3333  0.6585  1\n  Se  Se6  1  0.3333  0.6667  0.3231  1\n  Se  Se7  1  0.3333  0.6667  0.7006  1\n  Se  Se8  1  0.3333  0.6667  0.2388  1\n  Se  Se9  1  0.3333  0.6667  0.6164  1\n  S  S10  1  0.6667  0.3333  0.0557  1\n  S  S11  1  0.6667  0.3333  0.1321  1\n",
    "output": "data_image0\n_chemical_formula_structural       Te2SW3Se4SMo\n_chemical_formula_sum              \"Te2 S2 W3 Se4 Mo1\"\n_cell_length_a       3.3455\n_cell_length_b       3.3455\n_cell_length_c       39.7067\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Te  Te1       1.0000  0.6667  0.3333  0.4215  1.0000\n  Te  Te2       1.0000  0.6667  0.3333  0.5176  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.0939  1.0000\n  W   W1        1.0000  0.3333  0.6667  0.4695  1.0000\n  W   W2        1.0000  0.6667  0.3333  0.2810  1.0000\n  W   W3        1.0000  0.6667  0.3333  0.6585  1.0000\n  Se  Se1       1.0000  0.3333  0.6667  0.3231  1.0000\n  Se  Se2       1.0000  0.3333  0.6667  0.7006  1.0000\n  Se  Se3       1.0000  0.3333  0.6667  0.2388  1.0000\n  Se  Se4       1.0000  0.3333  0.6667  0.6164  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.0557  1.0000\n  Mo  Mo1       1.0000  0.6667  0.3333  0.1321  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c70ba369-6e72-4d2c-a42e-94b01e289dbe",
    "mp_id": "mp-1027152",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Te6Mo3WS2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4575\n_cell_length_b   3.4575\n_cell_length_c   39.2637\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Te6Mo3WS2\n_chemical_formula_sum   'Te6 Mo3 W1 S2'\n_cell_volume   406.4765\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Te  Te0  1  0.3333  0.6667  0.3289  1\n  Te  Te1  1  0.3333  0.6667  0.7049  1\n  Te  Te2  1  0.6667  0.3333  0.4225  1\n  Te  Te3  1  0.6667  0.3333  0.5166  1\n  Te  Te4  1  0.3333  0.6667  0.2342  1\n  Te  Te5  1  0.3333  0.6667  0.6107  1\n  Mo  Mo6  1  0.3333  0.6667  0.0940  1\n  Mo  Mo7  1  0.3333  0.6667  0.4696  1\n  Mo  Mo8  1  0.6667  0.3333  0.6578  1\n  W  W9  1  0.6667  0.3333  0.2815  1\n  S  S10  1  0.6667  0.3333  0.0561  1\n  S  S11  1  0.6667  0.3333  0.1320  1\n",
    "output": "data_image0\n_chemical_formula_structural       Te5SMo3WSTe\n_chemical_formula_sum              \"Te6 S2 Mo3 W1\"\n_cell_length_a       3.4575\n_cell_length_b       3.4575\n_cell_length_c       39.2637\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Te  Te1       1.0000  0.3333  0.6667  0.3289  1.0000\n  Te  Te2       1.0000  0.3333  0.6667  0.7049  1.0000\n  Te  Te3       1.0000  0.6667  0.3333  0.4225  1.0000\n  Te  Te4       1.0000  0.6667  0.3333  0.5166  1.0000\n  Te  Te5       1.0000  0.3333  0.6667  0.2342  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.6107  1.0000\n  Mo  Mo1       1.0000  0.3333  0.6667  0.0940  1.0000\n  Mo  Mo2       1.0000  0.3333  0.6667  0.4696  1.0000\n  Mo  Mo3       1.0000  0.6667  0.3333  0.6578  1.0000\n  W   W1        1.0000  0.6667  0.3333  0.2815  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.0561  1.0000\n  Te  Te6       1.0000  0.6667  0.3333  0.1320  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "06143aba-a22c-4334-b284-ecc456cdab65",
    "mp_id": "mp-1027852",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14ZrNb\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4309\n_cell_length_b   6.1460\n_cell_length_c   10.1771\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   118.5448\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14ZrNb\n_chemical_formula_sum   'Mg14 Zr1 Nb1'\n_cell_volume   353.3497\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1655  0.3328  0.6250  1\n  Mg  Mg1  1  0.1638  0.8319  0.6250  1\n  Mg  Mg2  1  0.6571  0.3265  0.1250  1\n  Mg  Mg3  1  0.6642  0.3332  0.6250  1\n  Mg  Mg4  1  0.6571  0.8305  0.1250  1\n  Mg  Mg5  1  0.6642  0.8309  0.6250  1\n  Mg  Mg6  1  0.3345  0.1636  0.3707  1\n  Mg  Mg7  1  0.3345  0.1636  0.8793  1\n  Mg  Mg8  1  0.3345  0.6709  0.3707  1\n  Mg  Mg9  1  0.3345  0.6709  0.8793  1\n  Mg  Mg10  1  0.8400  0.1700  0.3749  1\n  Mg  Mg11  1  0.8400  0.1700  0.8751  1\n  Mg  Mg12  1  0.8460  0.6730  0.3675  1\n  Mg  Mg13  1  0.8460  0.6730  0.8825  1\n  Zr  Zr14  1  0.1584  0.3292  0.1250  1\n  Nb  Nb15  1  0.1601  0.8300  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg14NbZr\n_chemical_formula_sum              \"Mg14 Nb1 Zr1\"\n_cell_length_a       6.4309\n_cell_length_b       6.1460\n_cell_length_c       10.1771\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    118.5448\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1655  0.3328  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1638  0.8319  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6571  0.3265  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6642  0.3332  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6571  0.8305  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6642  0.8309  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3345  0.1636  0.3707  1.0000\n  Mg  Mg8       1.0000  0.3345  0.1636  0.8793  1.0000\n  Mg  Mg9       1.0000  0.3345  0.6709  0.3707  1.0000\n  Mg  Mg10      1.0000  0.3345  0.6709  0.8793  1.0000\n  Mg  Mg11      1.0000  0.8400  0.1700  0.3749  1.0000\n  Mg  Mg12      1.0000  0.8400  0.1700  0.8751  1.0000\n  Mg  Mg13      1.0000  0.8460  0.6730  0.3675  1.0000\n  Mg  Mg14      1.0000  0.8460  0.6730  0.8825  1.0000\n  Nb  Nb1       1.0000  0.1584  0.3292  0.1250  1.0000\n  Zr  Zr1       1.0000  0.1601  0.8300  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d1e4aeb9-c80f-4643-acaf-cc83001d48d5",
    "mp_id": "mp-1027965",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YMg14Ga\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4783\n_cell_length_b   6.2637\n_cell_length_c   10.3781\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   118.9099\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YMg14Ga\n_chemical_formula_sum   'Y1 Mg14 Ga1'\n_cell_volume   368.6430\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.1518  0.3259  0.1250  1\n  Mg  Mg1  1  0.1665  0.3333  0.6250  1\n  Mg  Mg2  1  0.1615  0.8307  0.6250  1\n  Mg  Mg3  1  0.6497  0.3185  0.1250  1\n  Mg  Mg4  1  0.6654  0.3367  0.6250  1\n  Mg  Mg5  1  0.6497  0.8312  0.1250  1\n  Mg  Mg6  1  0.6654  0.8287  0.6250  1\n  Mg  Mg7  1  0.3369  0.1664  0.3794  1\n  Mg  Mg8  1  0.3369  0.1664  0.8706  1\n  Mg  Mg9  1  0.3369  0.6705  0.3794  1\n  Mg  Mg10  1  0.3369  0.6705  0.8706  1\n  Mg  Mg11  1  0.8329  0.1664  0.3842  1\n  Mg  Mg12  1  0.8329  0.1664  0.8658  1\n  Mg  Mg13  1  0.8441  0.6721  0.3621  1\n  Mg  Mg14  1  0.8441  0.6721  0.8879  1\n  Ga  Ga15  1  0.1887  0.8443  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgYMg13Ga\n_chemical_formula_sum              \"Mg14 Y1 Ga1\"\n_cell_length_a       6.4783\n_cell_length_b       6.2637\n_cell_length_c       10.3781\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    118.9099\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1518  0.3259  0.1250  1.0000\n  Y   Y1        1.0000  0.1665  0.3333  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1615  0.8307  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6497  0.3185  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6654  0.3367  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6497  0.8312  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6654  0.8287  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3369  0.1664  0.3794  1.0000\n  Mg  Mg8       1.0000  0.3369  0.1664  0.8706  1.0000\n  Mg  Mg9       1.0000  0.3369  0.6705  0.3794  1.0000\n  Mg  Mg10      1.0000  0.3369  0.6705  0.8706  1.0000\n  Mg  Mg11      1.0000  0.8329  0.1664  0.3842  1.0000\n  Mg  Mg12      1.0000  0.8329  0.1664  0.8658  1.0000\n  Mg  Mg13      1.0000  0.8441  0.6721  0.3621  1.0000\n  Mg  Mg14      1.0000  0.8441  0.6721  0.8879  1.0000\n  Ga  Ga1       1.0000  0.1887  0.8443  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8361cf73-bced-4013-810b-a33b16ab0218",
    "mp_id": "mp-1027971",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMg14Zn\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3244\n_cell_length_b   6.3405\n_cell_length_c   10.1561\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0846\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMg14Zn\n_chemical_formula_sum   'Li1 Mg14 Zn1'\n_cell_volume   352.3929\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1647  0.8323  0.1250  1\n  Mg  Mg1  1  0.1678  0.3339  0.6250  1\n  Mg  Mg2  1  0.1679  0.8340  0.6250  1\n  Mg  Mg3  1  0.6694  0.3370  0.1250  1\n  Mg  Mg4  1  0.6658  0.3327  0.6250  1\n  Mg  Mg5  1  0.6694  0.8323  0.1250  1\n  Mg  Mg6  1  0.6658  0.8331  0.6250  1\n  Mg  Mg7  1  0.3292  0.1666  0.3677  1\n  Mg  Mg8  1  0.3292  0.1666  0.8823  1\n  Mg  Mg9  1  0.3292  0.6626  0.3677  1\n  Mg  Mg10  1  0.3292  0.6626  0.8823  1\n  Mg  Mg11  1  0.8373  0.1686  0.3698  1\n  Mg  Mg12  1  0.8373  0.1686  0.8802  1\n  Mg  Mg13  1  0.8344  0.6672  0.3751  1\n  Mg  Mg14  1  0.8344  0.6672  0.8749  1\n  Zn  Zn15  1  0.1693  0.3347  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg14LiZn\n_chemical_formula_sum              \"Mg14 Li1 Zn1\"\n_cell_length_a       6.3244\n_cell_length_b       6.3405\n_cell_length_c       10.1561\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0846\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1647  0.8323  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1678  0.3339  0.6250  1.0000\n  Mg  Mg3       1.0000  0.1679  0.8340  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6694  0.3370  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6658  0.3327  0.6250  1.0000\n  Mg  Mg6       1.0000  0.6694  0.8323  0.1250  1.0000\n  Mg  Mg7       1.0000  0.6658  0.8331  0.6250  1.0000\n  Mg  Mg8       1.0000  0.3292  0.1666  0.3677  1.0000\n  Mg  Mg9       1.0000  0.3292  0.1666  0.8823  1.0000\n  Mg  Mg10      1.0000  0.3292  0.6626  0.3677  1.0000\n  Mg  Mg11      1.0000  0.3292  0.6626  0.8823  1.0000\n  Mg  Mg12      1.0000  0.8373  0.1686  0.3698  1.0000\n  Mg  Mg13      1.0000  0.8373  0.1686  0.8802  1.0000\n  Mg  Mg14      1.0000  0.8344  0.6672  0.3751  1.0000\n  Li  Li1       1.0000  0.8344  0.6672  0.8749  1.0000\n  Zn  Zn1       1.0000  0.1693  0.3347  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aa392ab9-aff0-46fd-8f67-942beffeaeef",
    "mp_id": "mp-1028124",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMg14Ga\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4212\n_cell_length_b   6.4212\n_cell_length_c   10.4765\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMg14Ga\n_chemical_formula_sum   'Ca1 Mg14 Ga1'\n_cell_volume   374.0917\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.1667  0.3333  0.1250  1\n  Mg  Mg1  1  0.1728  0.8364  0.1250  1\n  Mg  Mg2  1  0.1643  0.8321  0.6250  1\n  Mg  Mg3  1  0.6636  0.3272  0.1250  1\n  Mg  Mg4  1  0.6679  0.3357  0.6250  1\n  Mg  Mg5  1  0.6636  0.8364  0.1250  1\n  Mg  Mg6  1  0.6679  0.8321  0.6250  1\n  Mg  Mg7  1  0.3334  0.1666  0.3821  1\n  Mg  Mg8  1  0.3334  0.1666  0.8679  1\n  Mg  Mg9  1  0.3334  0.6667  0.3821  1\n  Mg  Mg10  1  0.3334  0.6667  0.8679  1\n  Mg  Mg11  1  0.8333  0.1666  0.3821  1\n  Mg  Mg12  1  0.8333  0.1666  0.8679  1\n  Mg  Mg13  1  0.8333  0.6667  0.3711  1\n  Mg  Mg14  1  0.8333  0.6667  0.8789  1\n  Ga  Ga15  1  0.1667  0.3333  0.6250  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaMg11GaMg3\n_chemical_formula_sum              \"Ca1 Mg14 Ga1\"\n_cell_length_a       6.4212\n_cell_length_b       6.4212\n_cell_length_c       10.4765\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.1667  0.3333  0.1250  1.0000\n  Mg  Mg1       1.0000  0.1728  0.8364  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1643  0.8321  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6636  0.3272  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6679  0.3357  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6636  0.8364  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6679  0.8321  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3334  0.1666  0.3821  1.0000\n  Mg  Mg8       1.0000  0.3334  0.1666  0.8679  1.0000\n  Mg  Mg9       1.0000  0.3334  0.6667  0.3821  1.0000\n  Mg  Mg10      1.0000  0.3334  0.6667  0.8679  1.0000\n  Mg  Mg11      1.0000  0.8333  0.1666  0.3821  1.0000\n  Ga  Ga1       1.0000  0.8333  0.1666  0.8679  1.0000\n  Mg  Mg12      1.0000  0.8333  0.6667  0.3711  1.0000\n  Mg  Mg13      1.0000  0.8333  0.6667  0.8789  1.0000\n  Mg  Mg14      1.0000  0.1667  0.3333  0.6250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b22047c2-95f1-4bdf-b7d3-1dbd9bf7c2d1",
    "mp_id": "mp-1028136",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbMg14Mn\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4908\n_cell_length_b   6.4908\n_cell_length_c   10.4237\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbMg14Mn\n_chemical_formula_sum   'Rb1 Mg14 Mn1'\n_cell_volume   380.3214\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.1667  0.3333  0.6250  1\n  Mg  Mg1  1  0.1549  0.8275  0.1250  1\n  Mg  Mg2  1  0.1773  0.8386  0.6250  1\n  Mg  Mg3  1  0.6725  0.3451  0.1250  1\n  Mg  Mg4  1  0.6614  0.3227  0.6250  1\n  Mg  Mg5  1  0.6725  0.8275  0.1250  1\n  Mg  Mg6  1  0.6614  0.8386  0.6250  1\n  Mg  Mg7  1  0.3295  0.1705  0.3426  1\n  Mg  Mg8  1  0.3295  0.1705  0.9074  1\n  Mg  Mg9  1  0.3295  0.6590  0.3426  1\n  Mg  Mg10  1  0.3295  0.6590  0.9074  1\n  Mg  Mg11  1  0.8410  0.1705  0.3426  1\n  Mg  Mg12  1  0.8410  0.1705  0.9074  1\n  Mg  Mg13  1  0.8333  0.6667  0.3836  1\n  Mg  Mg14  1  0.8333  0.6667  0.8664  1\n  Mn  Mn15  1  0.1667  0.3333  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg12RbMg2Mn\n_chemical_formula_sum              \"Mg14 Rb1 Mn1\"\n_cell_length_a       6.4908\n_cell_length_b       6.4908\n_cell_length_c       10.4237\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1667  0.3333  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1549  0.8275  0.1250  1.0000\n  Mg  Mg3       1.0000  0.1773  0.8386  0.6250  1.0000\n  Mg  Mg4       1.0000  0.6725  0.3451  0.1250  1.0000\n  Mg  Mg5       1.0000  0.6614  0.3227  0.6250  1.0000\n  Mg  Mg6       1.0000  0.6725  0.8275  0.1250  1.0000\n  Mg  Mg7       1.0000  0.6614  0.8386  0.6250  1.0000\n  Mg  Mg8       1.0000  0.3295  0.1705  0.3426  1.0000\n  Mg  Mg9       1.0000  0.3295  0.1705  0.9074  1.0000\n  Mg  Mg10      1.0000  0.3295  0.6590  0.3426  1.0000\n  Mg  Mg11      1.0000  0.3295  0.6590  0.9074  1.0000\n  Mg  Mg12      1.0000  0.8410  0.1705  0.3426  1.0000\n  Rb  Rb1       1.0000  0.8410  0.1705  0.9074  1.0000\n  Mg  Mg13      1.0000  0.8333  0.6667  0.3836  1.0000\n  Mg  Mg14      1.0000  0.8333  0.6667  0.8664  1.0000\n  Mn  Mn1       1.0000  0.1667  0.3333  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7728e3b7-1d3a-4dd8-8ba7-e3b4c54c8bf1",
    "mp_id": "mp-1028229",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14AlC\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2145\n_cell_length_b   6.2145\n_cell_length_c   9.9588\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14AlC\n_chemical_formula_sum   'Mg14 Al1 C1'\n_cell_volume   333.0767\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1691  0.8346  0.1250  1\n  Mg  Mg1  1  0.1615  0.8308  0.6250  1\n  Mg  Mg2  1  0.6654  0.3309  0.1250  1\n  Mg  Mg3  1  0.6692  0.3385  0.6250  1\n  Mg  Mg4  1  0.6654  0.8346  0.1250  1\n  Mg  Mg5  1  0.6692  0.8308  0.6250  1\n  Mg  Mg6  1  0.3273  0.1727  0.3863  1\n  Mg  Mg7  1  0.3273  0.1727  0.8637  1\n  Mg  Mg8  1  0.3273  0.6546  0.3863  1\n  Mg  Mg9  1  0.3273  0.6546  0.8637  1\n  Mg  Mg10  1  0.8454  0.1727  0.3863  1\n  Mg  Mg11  1  0.8454  0.1727  0.8637  1\n  Mg  Mg12  1  0.8333  0.6667  0.3741  1\n  Mg  Mg13  1  0.8333  0.6667  0.8759  1\n  Al  Al14  1  0.1667  0.3333  0.1250  1\n  C  C15  1  0.1667  0.3333  0.6250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg9CMg4AlMg\n_chemical_formula_sum              \"Mg14 C1 Al1\"\n_cell_length_a       6.2145\n_cell_length_b       6.2145\n_cell_length_c       9.9588\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1691  0.8346  0.1250  1.0000\n  Mg  Mg2       1.0000  0.1615  0.8308  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6654  0.3309  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6692  0.3385  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6654  0.8346  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6692  0.8308  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3273  0.1727  0.3863  1.0000\n  Mg  Mg8       1.0000  0.3273  0.1727  0.8637  1.0000\n  Mg  Mg9       1.0000  0.3273  0.6546  0.3863  1.0000\n  C   C1        1.0000  0.3273  0.6546  0.8637  1.0000\n  Mg  Mg10      1.0000  0.8454  0.1727  0.3863  1.0000\n  Mg  Mg11      1.0000  0.8454  0.1727  0.8637  1.0000\n  Mg  Mg12      1.0000  0.8333  0.6667  0.3741  1.0000\n  Mg  Mg13      1.0000  0.8333  0.6667  0.8759  1.0000\n  Al  Al1       1.0000  0.1667  0.3333  0.1250  1.0000\n  Mg  Mg14      1.0000  0.1667  0.3333  0.6250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fd1ac1f2-1ac3-4a3d-b63d-ffca9a635943",
    "mp_id": "mp-1028374",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbMg14Ni\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5426\n_cell_length_b   6.3182\n_cell_length_c   10.5400\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   118.8715\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbMg14Ni\n_chemical_formula_sum   'Rb1 Mg14 Ni1'\n_cell_volume   381.5411\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0978  0.7989  0.1250  1\n  Mg  Mg1  1  0.1615  0.3307  0.6250  1\n  Mg  Mg2  1  0.1780  0.8390  0.6250  1\n  Mg  Mg3  1  0.5961  0.3037  0.1250  1\n  Mg  Mg4  1  0.6695  0.3278  0.6250  1\n  Mg  Mg5  1  0.5961  0.7924  0.1250  1\n  Mg  Mg6  1  0.6695  0.8417  0.6250  1\n  Mg  Mg7  1  0.3495  0.1814  0.3828  1\n  Mg  Mg8  1  0.3495  0.1814  0.8672  1\n  Mg  Mg9  1  0.3495  0.6681  0.3828  1\n  Mg  Mg10  1  0.3495  0.6681  0.8672  1\n  Mg  Mg11  1  0.8746  0.1873  0.3313  1\n  Mg  Mg12  1  0.8746  0.1873  0.9187  1\n  Mg  Mg13  1  0.8323  0.6662  0.4019  1\n  Mg  Mg14  1  0.8323  0.6662  0.8481  1\n  Ni  Ni15  1  0.2198  0.3599  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbMg6NiMg8\n_chemical_formula_sum              \"Rb1 Mg14 Ni1\"\n_cell_length_a       6.5426\n_cell_length_b       6.3182\n_cell_length_c       10.5400\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    118.8715\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0978  0.7989  0.1250  1.0000\n  Mg  Mg1       1.0000  0.1615  0.3307  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1780  0.8390  0.6250  1.0000\n  Mg  Mg3       1.0000  0.5961  0.3037  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6695  0.3278  0.6250  1.0000\n  Mg  Mg5       1.0000  0.5961  0.7924  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6695  0.8417  0.6250  1.0000\n  Ni  Ni1       1.0000  0.3495  0.1814  0.3828  1.0000\n  Mg  Mg7       1.0000  0.3495  0.1814  0.8672  1.0000\n  Mg  Mg8       1.0000  0.3495  0.6681  0.3828  1.0000\n  Mg  Mg9       1.0000  0.3495  0.6681  0.8672  1.0000\n  Mg  Mg10      1.0000  0.8746  0.1873  0.3313  1.0000\n  Mg  Mg11      1.0000  0.8746  0.1873  0.9187  1.0000\n  Mg  Mg12      1.0000  0.8323  0.6662  0.4019  1.0000\n  Mg  Mg13      1.0000  0.8323  0.6662  0.8481  1.0000\n  Mg  Mg14      1.0000  0.2198  0.3599  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "be4f586c-d50c-4b5d-8ebb-7d7949849bb0",
    "mp_id": "mp-1028383",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14CoBi\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2755\n_cell_length_b   6.3058\n_cell_length_c   10.1576\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.1600\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14CoBi\n_chemical_formula_sum   'Mg14 Co1 Bi1'\n_cell_volume   347.5465\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1663  0.3332  0.6250  1\n  Mg  Mg1  1  0.1692  0.8346  0.6250  1\n  Mg  Mg2  1  0.6693  0.3358  0.1250  1\n  Mg  Mg3  1  0.6662  0.3304  0.6250  1\n  Mg  Mg4  1  0.6693  0.8335  0.1250  1\n  Mg  Mg5  1  0.6662  0.8358  0.6250  1\n  Mg  Mg6  1  0.3301  0.1761  0.3670  1\n  Mg  Mg7  1  0.3301  0.1761  0.8830  1\n  Mg  Mg8  1  0.3301  0.6540  0.3670  1\n  Mg  Mg9  1  0.3301  0.6540  0.8830  1\n  Mg  Mg10  1  0.8448  0.1724  0.3644  1\n  Mg  Mg11  1  0.8448  0.1724  0.8856  1\n  Mg  Mg12  1  0.8296  0.6648  0.3823  1\n  Mg  Mg13  1  0.8296  0.6648  0.8677  1\n  Co  Co14  1  0.1646  0.3323  0.1250  1\n  Bi  Bi15  1  0.1596  0.8298  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg7CoMg7Bi\n_chemical_formula_sum              \"Mg14 Co1 Bi1\"\n_cell_length_a       6.2755\n_cell_length_b       6.3058\n_cell_length_c       10.1576\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.1600\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1663  0.3332  0.6250  1.0000\n  Mg  Mg2       1.0000  0.1692  0.8346  0.6250  1.0000\n  Mg  Mg3       1.0000  0.6693  0.3358  0.1250  1.0000\n  Mg  Mg4       1.0000  0.6662  0.3304  0.6250  1.0000\n  Mg  Mg5       1.0000  0.6693  0.8335  0.1250  1.0000\n  Mg  Mg6       1.0000  0.6662  0.8358  0.6250  1.0000\n  Mg  Mg7       1.0000  0.3301  0.1761  0.3670  1.0000\n  Co  Co1       1.0000  0.3301  0.1761  0.8830  1.0000\n  Mg  Mg8       1.0000  0.3301  0.6540  0.3670  1.0000\n  Mg  Mg9       1.0000  0.3301  0.6540  0.8830  1.0000\n  Mg  Mg10      1.0000  0.8448  0.1724  0.3644  1.0000\n  Mg  Mg11      1.0000  0.8448  0.1724  0.8856  1.0000\n  Mg  Mg12      1.0000  0.8296  0.6648  0.3823  1.0000\n  Mg  Mg13      1.0000  0.8296  0.6648  0.8677  1.0000\n  Mg  Mg14      1.0000  0.1646  0.3323  0.1250  1.0000\n  Bi  Bi1       1.0000  0.1596  0.8298  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5c58ca93-b0cc-416b-aafa-5591d5650e4d",
    "mp_id": "mp-1028854",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Te2MoWSeS\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3993\n_cell_length_b   3.3993\n_cell_length_c   38.7228\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Te2MoWSeS\n_chemical_formula_sum   'Te4 Mo2 W2 Se2 S2'\n_cell_volume   387.5050\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Te  Te0  1  0.0000  0.0000  0.3302  1\n  Te  Te1  1  0.0000  0.0000  0.7062  1\n  Te  Te2  1  0.0000  0.0000  0.2334  1\n  Te  Te3  1  0.0000  0.0000  0.6088  1\n  Mo  Mo4  1  0.0000  0.0000  0.4697  1\n  Mo  Mo5  1  0.3333  0.6667  0.2818  1\n  W  W6  1  0.0000  0.0000  0.0939  1\n  W  W7  1  0.3333  0.6667  0.6575  1\n  Se  Se8  1  0.3333  0.6667  0.0512  1\n  Se  Se9  1  0.3333  0.6667  0.1367  1\n  S  S10  1  0.3333  0.6667  0.4309  1\n  S  S11  1  0.3333  0.6667  0.5084  1\n",
    "output": "data_image0\n_chemical_formula_structural       Te4MoW2MoSe2S2\n_chemical_formula_sum              \"Te4 Mo2 W2 Se2 S2\"\n_cell_length_a       3.3993\n_cell_length_b       3.3993\n_cell_length_c       38.7228\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Te  Te1       1.0000  0.0000  0.0000  0.3302  1.0000\n  Te  Te2       1.0000  0.0000  0.0000  0.7062  1.0000\n  Te  Te3       1.0000  0.0000  0.0000  0.2334  1.0000\n  Te  Te4       1.0000  0.0000  0.0000  0.6088  1.0000\n  Mo  Mo1       1.0000  0.0000  0.0000  0.4697  1.0000\n  W   W1        1.0000  0.3333  0.6667  0.2818  1.0000\n  W   W2        1.0000  0.0000  0.0000  0.0939  1.0000\n  Mo  Mo2       1.0000  0.3333  0.6667  0.6575  1.0000\n  Se  Se1       1.0000  0.3333  0.6667  0.0512  1.0000\n  Se  Se2       1.0000  0.3333  0.6667  0.1367  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.4309  1.0000\n  S   S2        1.0000  0.3333  0.6667  0.5084  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f8b032d7-c25f-4876-9782-e30de6cfe2ee",
    "mp_id": "mp-1029113",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Te2MoW3(SeS2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3074\n_cell_length_b   3.3074\n_cell_length_c   39.2769\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Te2MoW3(SeS2)2\n_chemical_formula_sum   'Te2 Mo1 W3 Se2 S4'\n_cell_volume   372.0843\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Te  Te0  1  0.6667  0.3333  0.4196  1\n  Te  Te1  1  0.6667  0.3333  0.5175  1\n  Mo  Mo2  1  0.6667  0.3333  0.2814  1\n  W  W3  1  0.3333  0.6667  0.0939  1\n  W  W4  1  0.3333  0.6667  0.4685  1\n  W  W5  1  0.6667  0.3333  0.6591  1\n  Se  Se6  1  0.3333  0.6667  0.7022  1\n  Se  Se7  1  0.3333  0.6667  0.6161  1\n  S  S8  1  0.3333  0.6667  0.3202  1\n  S  S9  1  0.6667  0.3333  0.0549  1\n  S  S10  1  0.6667  0.3333  0.1329  1\n  S  S11  1  0.3333  0.6667  0.2425  1\n",
    "output": "data_image0\n_chemical_formula_structural       Te2WMoW2Se2S4\n_chemical_formula_sum              \"Te2 W3 Mo1 Se2 S4\"\n_cell_length_a       3.3074\n_cell_length_b       3.3074\n_cell_length_c       39.2769\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Te  Te1       1.0000  0.6667  0.3333  0.4196  1.0000\n  Te  Te2       1.0000  0.6667  0.3333  0.5175  1.0000\n  W   W1        1.0000  0.6667  0.3333  0.2814  1.0000\n  Mo  Mo1       1.0000  0.3333  0.6667  0.0939  1.0000\n  W   W2        1.0000  0.3333  0.6667  0.4685  1.0000\n  W   W3        1.0000  0.6667  0.3333  0.6591  1.0000\n  Se  Se1       1.0000  0.3333  0.6667  0.7022  1.0000\n  Se  Se2       1.0000  0.3333  0.6667  0.6161  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.3202  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.0549  1.0000\n  S   S3        1.0000  0.6667  0.3333  0.1329  1.0000\n  S   S4        1.0000  0.3333  0.6667  0.2425  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "96ca169a-39d8-48b5-897b-57ca4f4be25d",
    "mp_id": "mp-1029368",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2VN3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7247\n_cell_length_b   5.7994\n_cell_length_c   5.0431\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.4327\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2VN3\n_chemical_formula_sum   'Mg4 V2 N6'\n_cell_volume   144.3643\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.3300  0.3307  0.4766  1\n  Mg  Mg1  1  0.6700  0.0006  0.4766  1\n  Mg  Mg2  1  0.6700  0.6693  0.9766  1\n  Mg  Mg3  1  0.3300  0.9994  0.9766  1\n  V  V4  1  0.0000  0.6638  0.4821  1\n  V  V5  1  1.0000  0.3362  0.9821  1\n  N  N6  1  0.2978  0.3325  0.8943  1\n  N  N7  1  0.7022  0.0347  0.8943  1\n  N  N8  1  0.7022  0.6675  0.3943  1\n  N  N9  1  0.2978  0.9653  0.3943  1\n  N  N10  1  1.0000  0.6367  0.8481  1\n  N  N11  1  0.0000  0.3633  0.3481  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4NVN4VN\n_chemical_formula_sum              \"Mg4 N6 V2\"\n_cell_length_a       5.7247\n_cell_length_b       5.7994\n_cell_length_c       5.0431\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.4327\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.3300  0.3307  0.4766  1.0000\n  Mg  Mg2       1.0000  0.6700  0.0006  0.4766  1.0000\n  Mg  Mg3       1.0000  0.6700  0.6693  0.9766  1.0000\n  Mg  Mg4       1.0000  0.3300  0.9994  0.9766  1.0000\n  N   N1        1.0000  0.0000  0.6638  0.4821  1.0000\n  V   V1        1.0000  1.0000  0.3362  0.9821  1.0000\n  N   N2        1.0000  0.2978  0.3325  0.8943  1.0000\n  N   N3        1.0000  0.7022  0.0347  0.8943  1.0000\n  N   N4        1.0000  0.7022  0.6675  0.3943  1.0000\n  N   N5        1.0000  0.2978  0.9653  0.3943  1.0000\n  V   V2        1.0000  1.0000  0.6367  0.8481  1.0000\n  N   N6        1.0000  0.0000  0.3633  0.3481  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c2d68e0f-25f5-4aa6-9bf6-9cf8f81f475a",
    "mp_id": "mp-1031131",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMg6SbO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6938\n_cell_length_b   4.3346\n_cell_length_c   4.3346\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMg6SbO8\n_chemical_formula_sum   'Li1 Mg6 Sb1 O8'\n_cell_volume   163.3466\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Mg  Mg1  1  0.0000  0.5000  0.5000  1\n  Mg  Mg2  1  0.5000  0.5000  0.5000  1\n  Mg  Mg3  1  0.2264  0.0000  0.5000  1\n  Mg  Mg4  1  0.7736  0.0000  0.5000  1\n  Mg  Mg5  1  0.2264  0.5000  -0.0000  1\n  Mg  Mg6  1  0.7736  0.5000  0.0000  1\n  Sb  Sb7  1  0.5000  0.0000  0.0000  1\n  O  O8  1  0.2422  -0.0000  -0.0000  1\n  O  O9  1  0.7578  0.0000  0.0000  1\n  O  O10  1  0.2539  0.5000  0.5000  1\n  O  O11  1  0.7461  0.5000  0.5000  1\n  O  O12  1  0.0000  0.0000  0.5000  1\n  O  O13  1  0.5000  0.0000  0.5000  1\n  O  O14  1  -0.0000  0.5000  0.0000  1\n  O  O15  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiMgOMg4SbO3MgO4\n_chemical_formula_sum              \"Li1 Mg6 O8 Sb1\"\n_cell_length_a       8.6938\n_cell_length_b       4.3346\n_cell_length_c       4.3346\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.2264  0.0000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.7736  0.0000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.2264  0.5000  0.0000  1.0000\n  Mg  Mg5       1.0000  0.7736  0.5000  0.0000  1.0000\n  Sb  Sb1       1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2422  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.7578  0.0000  0.0000  1.0000\n  O   O4        1.0000  0.2539  0.5000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.7461  0.5000  0.5000  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d2631783-468a-4290-a527-62ff812a5d84",
    "mp_id": "mp-1032360",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaMg6CoO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9837\n_cell_length_b   4.5883\n_cell_length_c   4.5883\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaMg6CoO8\n_chemical_formula_sum   'Ba1 Mg6 Co1 O8'\n_cell_volume   189.1274\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.5000  0.5000  1\n  Mg  Mg1  1  0.5000  0.0000  0.0000  1\n  Mg  Mg2  1  0.5000  0.5000  0.5000  1\n  Mg  Mg3  1  0.2698  0.0000  0.5000  1\n  Mg  Mg4  1  0.7302  0.0000  0.5000  1\n  Mg  Mg5  1  0.2698  0.5000  0.0000  1\n  Mg  Mg6  1  0.7302  0.5000  0.0000  1\n  Co  Co7  1  0.0000  0.0000  0.0000  1\n  O  O8  1  0.2613  0.0000  0.0000  1\n  O  O9  1  0.7387  0.0000  0.0000  1\n  O  O10  1  0.2826  0.5000  0.5000  1\n  O  O11  1  0.7174  0.5000  0.5000  1\n  O  O12  1  0.0000  0.0000  0.5000  1\n  O  O13  1  0.5000  0.0000  0.5000  1\n  O  O14  1  0.0000  0.5000  0.0000  1\n  O  O15  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4BaMg2CoO8\n_chemical_formula_sum              \"Mg6 Ba1 Co1 O8\"\n_cell_length_a       8.9837\n_cell_length_b       4.5883\n_cell_length_c       4.5883\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.2698  0.0000  0.5000  1.0000\n  Ba  Ba1       1.0000  0.7302  0.0000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.2698  0.5000  0.0000  1.0000\n  Mg  Mg6       1.0000  0.7302  0.5000  0.0000  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.2613  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7387  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2826  0.5000  0.5000  1.0000\n  O   O4        1.0000  0.7174  0.5000  0.5000  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f314df9f-f1af-429b-b381-3d928f98db72",
    "mp_id": "mp-1033383",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg6NbCO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3173\n_cell_length_b   4.1902\n_cell_length_c   4.1902\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg6NbCO8\n_chemical_formula_sum   'Mg6 Nb1 C1 O8'\n_cell_volume   163.5883\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0000  -0.0000  1\n  Mg  Mg1  1  0.5000  0.5000  0.5000  1\n  Mg  Mg2  1  0.2616  0.0000  0.5000  1\n  Mg  Mg3  1  0.7384  -0.0000  0.5000  1\n  Mg  Mg4  1  0.2616  0.5000  -0.0000  1\n  Mg  Mg5  1  0.7384  0.5000  0.0000  1\n  Nb  Nb6  1  0.0000  0.0000  -0.0000  1\n  C  C7  1  0.0000  0.5000  0.5000  1\n  O  O8  1  0.2445  -0.0000  0.0000  1\n  O  O9  1  0.7555  0.0000  -0.0000  1\n  O  O10  1  0.2825  0.5000  0.5000  1\n  O  O11  1  0.7175  0.5000  0.5000  1\n  O  O12  1  0.0000  0.0000  0.5000  1\n  O  O13  1  0.5000  0.0000  0.5000  1\n  O  O14  1  0.0000  0.5000  -0.0000  1\n  O  O15  1  0.5000  0.5000  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbMg6CO8\n_chemical_formula_sum              \"Nb1 Mg6 C1 O8\"\n_cell_length_a       9.3173\n_cell_length_b       4.1902\n_cell_length_c       4.1902\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.2616  0.0000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.7384  0.0000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.2616  0.5000  0.0000  1.0000\n  Mg  Mg5       1.0000  0.7384  0.5000  0.0000  1.0000\n  Mg  Mg6       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2445  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7555  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2825  0.5000  0.5000  1.0000\n  O   O4        1.0000  0.7175  0.5000  0.5000  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "63d50151-949b-4170-b398-0c70bade58c7",
    "mp_id": "mp-1034355",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaMg14BiO16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7212\n_cell_length_b   8.7212\n_cell_length_c   4.4049\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaMg14BiO16\n_chemical_formula_sum   'Na1 Mg14 Bi1 O16'\n_cell_volume   335.0349\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  0.0000  0.0000  1\n  Mg  Mg1  1  0.0000  0.5000  0.0000  1\n  Mg  Mg2  1  0.5000  0.0000  0.0000  1\n  Mg  Mg3  1  0.0000  0.2440  0.5000  1\n  Mg  Mg4  1  0.0000  0.7560  0.5000  1\n  Mg  Mg5  1  0.5000  0.2330  0.5000  1\n  Mg  Mg6  1  0.5000  0.7670  0.5000  1\n  Mg  Mg7  1  0.2440  0.0000  0.5000  1\n  Mg  Mg8  1  0.2330  0.5000  0.5000  1\n  Mg  Mg9  1  0.7560  0.0000  0.5000  1\n  Mg  Mg10  1  0.7670  0.5000  0.5000  1\n  Mg  Mg11  1  0.2385  0.2385  0.0000  1\n  Mg  Mg12  1  0.2385  0.7615  -0.0000  1\n  Mg  Mg13  1  0.7615  0.2385  0.0000  1\n  Mg  Mg14  1  0.7615  0.7615  0.0000  1\n  Bi  Bi15  1  0.5000  0.5000  0.0000  1\n  O  O16  1  0.2629  0.0000  0.0000  1\n  O  O17  1  0.2347  0.5000  0.0000  1\n  O  O18  1  0.7371  0.0000  -0.0000  1\n  O  O19  1  0.7653  0.5000  -0.0000  1\n  O  O20  1  0.2520  0.2520  0.5000  1\n  O  O21  1  0.2520  0.7480  0.5000  1\n  O  O22  1  0.7480  0.2520  0.5000  1\n  O  O23  1  0.7480  0.7480  0.5000  1\n  O  O24  1  0.0000  0.0000  0.5000  1\n  O  O25  1  0.0000  0.5000  0.5000  1\n  O  O26  1  0.5000  0.0000  0.5000  1\n  O  O27  1  0.5000  0.5000  0.5000  1\n  O  O28  1  0.0000  0.2629  -0.0000  1\n  O  O29  1  0.0000  0.7371  0.0000  1\n  O  O30  1  0.5000  0.2347  0.0000  1\n  O  O31  1  0.5000  0.7653  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaMgOMg12BiMgO15\n_chemical_formula_sum              \"Na1 Mg14 O16 Bi1\"\n_cell_length_a       8.7212\n_cell_length_b       8.7212\n_cell_length_c       4.4049\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.2440  0.5000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.7560  0.5000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.2330  0.5000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.7670  0.5000  1.0000\n  Mg  Mg6       1.0000  0.2440  0.0000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.2330  0.5000  0.5000  1.0000\n  Mg  Mg8       1.0000  0.7560  0.0000  0.5000  1.0000\n  Mg  Mg9       1.0000  0.7670  0.5000  0.5000  1.0000\n  Mg  Mg10      1.0000  0.2385  0.2385  0.0000  1.0000\n  Mg  Mg11      1.0000  0.2385  0.7615  0.0000  1.0000\n  Mg  Mg12      1.0000  0.7615  0.2385  0.0000  1.0000\n  Mg  Mg13      1.0000  0.7615  0.7615  0.0000  1.0000\n  Bi  Bi1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Mg  Mg14      1.0000  0.2629  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2347  0.5000  0.0000  1.0000\n  O   O3        1.0000  0.7371  0.0000  0.0000  1.0000\n  O   O4        1.0000  0.7653  0.5000  0.0000  1.0000\n  O   O5        1.0000  0.2520  0.2520  0.5000  1.0000\n  O   O6        1.0000  0.2520  0.7480  0.5000  1.0000\n  O   O7        1.0000  0.7480  0.2520  0.5000  1.0000\n  O   O8        1.0000  0.7480  0.7480  0.5000  1.0000\n  O   O9        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O10       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O11       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O12       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O13       1.0000  0.0000  0.2629  0.0000  1.0000\n  O   O14       1.0000  0.0000  0.7371  0.0000  1.0000\n  O   O15       1.0000  0.5000  0.2347  0.0000  1.0000\n  O   O16       1.0000  0.5000  0.7653  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "675cbfa1-74bd-4bd6-af93-0cd90321d162",
    "mp_id": "mp-1035597",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14CrFeO16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5207\n_cell_length_b   8.5207\n_cell_length_c   4.3089\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14CrFeO16\n_chemical_formula_sum   'Mg14 Cr1 Fe1 O16'\n_cell_volume   312.8308\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.5000  0.0000  1\n  Mg  Mg1  1  0.5000  0.0000  0.0000  1\n  Mg  Mg2  1  0.0000  0.2483  0.5000  1\n  Mg  Mg3  1  0.0000  0.7517  0.5000  1\n  Mg  Mg4  1  0.5000  0.2489  0.5000  1\n  Mg  Mg5  1  0.5000  0.7511  0.5000  1\n  Mg  Mg6  1  0.2483  0.0000  0.5000  1\n  Mg  Mg7  1  0.2489  0.5000  0.5000  1\n  Mg  Mg8  1  0.7517  0.0000  0.5000  1\n  Mg  Mg9  1  0.7511  0.5000  0.5000  1\n  Mg  Mg10  1  0.2480  0.2480  0.0000  1\n  Mg  Mg11  1  0.2480  0.7520  0.0000  1\n  Mg  Mg12  1  0.7520  0.2480  0.0000  1\n  Mg  Mg13  1  0.7520  0.7520  0.0000  1\n  Cr  Cr14  1  0.5000  0.5000  0.0000  1\n  Fe  Fe15  1  0.0000  0.0000  0.0000  1\n  O  O16  1  0.2588  0.0000  0.0000  1\n  O  O17  1  0.2522  0.5000  0.0000  1\n  O  O18  1  0.7412  0.0000  0.0000  1\n  O  O19  1  0.7478  0.5000  0.0000  1\n  O  O20  1  0.2504  0.2504  0.5000  1\n  O  O21  1  0.2504  0.7496  0.5000  1\n  O  O22  1  0.7496  0.2504  0.5000  1\n  O  O23  1  0.7496  0.7496  0.5000  1\n  O  O24  1  0.0000  0.0000  0.5000  1\n  O  O25  1  0.0000  0.5000  0.5000  1\n  O  O26  1  0.5000  0.0000  0.5000  1\n  O  O27  1  0.5000  0.5000  0.5000  1\n  O  O28  1  0.0000  0.2588  0.0000  1\n  O  O29  1  0.0000  0.7412  0.0000  1\n  O  O30  1  0.5000  0.2522  0.0000  1\n  O  O31  1  0.5000  0.7478  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       OMg13CrFeO6MgO9\n_chemical_formula_sum              \"O16 Mg14 Cr1 Fe1\"\n_cell_length_a       8.5207\n_cell_length_b       8.5207\n_cell_length_c       4.3089\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.2483  0.5000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.7517  0.5000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.2489  0.5000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.7511  0.5000  1.0000\n  Mg  Mg6       1.0000  0.2483  0.0000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.2489  0.5000  0.5000  1.0000\n  Mg  Mg8       1.0000  0.7517  0.0000  0.5000  1.0000\n  Mg  Mg9       1.0000  0.7511  0.5000  0.5000  1.0000\n  Mg  Mg10      1.0000  0.2480  0.2480  0.0000  1.0000\n  Mg  Mg11      1.0000  0.2480  0.7520  0.0000  1.0000\n  Mg  Mg12      1.0000  0.7520  0.2480  0.0000  1.0000\n  Mg  Mg13      1.0000  0.7520  0.7520  0.0000  1.0000\n  Cr  Cr1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2588  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2522  0.5000  0.0000  1.0000\n  O   O4        1.0000  0.7412  0.0000  0.0000  1.0000\n  O   O5        1.0000  0.7478  0.5000  0.0000  1.0000\n  O   O6        1.0000  0.2504  0.2504  0.5000  1.0000\n  O   O7        1.0000  0.2504  0.7496  0.5000  1.0000\n  Mg  Mg14      1.0000  0.7496  0.2504  0.5000  1.0000\n  O   O8        1.0000  0.7496  0.7496  0.5000  1.0000\n  O   O9        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O10       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O11       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O12       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O13       1.0000  0.0000  0.2588  0.0000  1.0000\n  O   O14       1.0000  0.0000  0.7412  0.0000  1.0000\n  O   O15       1.0000  0.5000  0.2522  0.0000  1.0000\n  O   O16       1.0000  0.5000  0.7478  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "91cdf62d-fc4f-4a96-9a1c-49b4bc237458",
    "mp_id": "mp-1035800",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14ZnCuO16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5322\n_cell_length_b   8.5322\n_cell_length_c   4.2644\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14ZnCuO16\n_chemical_formula_sum   'Mg14 Zn1 Cu1 O16'\n_cell_volume   310.4411\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0000  0.0000  1\n  Mg  Mg1  1  0.0000  0.5000  0.0000  1\n  Mg  Mg2  1  0.2500  0.0000  0.5000  1\n  Mg  Mg3  1  0.7500  0.0000  0.5000  1\n  Mg  Mg4  1  0.2510  0.5000  0.5000  1\n  Mg  Mg5  1  0.7490  0.5000  0.5000  1\n  Mg  Mg6  1  0.0000  0.2500  0.5000  1\n  Mg  Mg7  1  0.5000  0.2510  0.5000  1\n  Mg  Mg8  1  0.0000  0.7500  0.5000  1\n  Mg  Mg9  1  0.5000  0.7490  0.5000  1\n  Mg  Mg10  1  0.2505  0.2505  0.0000  1\n  Mg  Mg11  1  0.7495  0.2505  0.0000  1\n  Mg  Mg12  1  0.2505  0.7495  0.0000  1\n  Mg  Mg13  1  0.7495  0.7495  0.0000  1\n  Zn  Zn14  1  0.0000  0.0000  0.0000  1\n  Cu  Cu15  1  0.5000  0.5000  0.0000  1\n  O  O16  1  0.0000  0.2536  0.0000  1\n  O  O17  1  0.5000  0.2470  0.0000  1\n  O  O18  1  0.0000  0.7464  0.0000  1\n  O  O19  1  0.5000  0.7530  0.0000  1\n  O  O20  1  0.2499  0.2499  0.5000  1\n  O  O21  1  0.7501  0.2499  0.5000  1\n  O  O22  1  0.2499  0.7501  0.5000  1\n  O  O23  1  0.7501  0.7501  0.5000  1\n  O  O24  1  0.0000  0.0000  0.5000  1\n  O  O25  1  0.5000  0.0000  0.5000  1\n  O  O26  1  0.0000  0.5000  0.5000  1\n  O  O27  1  0.5000  0.5000  0.5000  1\n  O  O28  1  0.2536  0.0000  0.0000  1\n  O  O29  1  0.7464  0.0000  0.0000  1\n  O  O30  1  0.2470  0.5000  0.0000  1\n  O  O31  1  0.7530  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg9OMg4ZnCuO3MgO12\n_chemical_formula_sum              \"Mg14 O16 Zn1 Cu1\"\n_cell_length_a       8.5322\n_cell_length_b       8.5322\n_cell_length_c       4.2644\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.2500  0.0000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.7500  0.0000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.2510  0.5000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.7490  0.5000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2500  0.5000  1.0000\n  Mg  Mg8       1.0000  0.5000  0.2510  0.5000  1.0000\n  Mg  Mg9       1.0000  0.0000  0.7500  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.7490  0.5000  1.0000\n  Mg  Mg10      1.0000  0.2505  0.2505  0.0000  1.0000\n  Mg  Mg11      1.0000  0.7495  0.2505  0.0000  1.0000\n  Mg  Mg12      1.0000  0.2505  0.7495  0.0000  1.0000\n  Mg  Mg13      1.0000  0.7495  0.7495  0.0000  1.0000\n  Zn  Zn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cu  Cu1       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.2536  0.0000  1.0000\n  O   O3        1.0000  0.5000  0.2470  0.0000  1.0000\n  O   O4        1.0000  0.0000  0.7464  0.0000  1.0000\n  Mg  Mg14      1.0000  0.5000  0.7530  0.0000  1.0000\n  O   O5        1.0000  0.2499  0.2499  0.5000  1.0000\n  O   O6        1.0000  0.7501  0.2499  0.5000  1.0000\n  O   O7        1.0000  0.2499  0.7501  0.5000  1.0000\n  O   O8        1.0000  0.7501  0.7501  0.5000  1.0000\n  O   O9        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O10       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O11       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O12       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O13       1.0000  0.2536  0.0000  0.0000  1.0000\n  O   O14       1.0000  0.7464  0.0000  0.0000  1.0000\n  O   O15       1.0000  0.2470  0.5000  0.0000  1.0000\n  O   O16       1.0000  0.7530  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "326fc416-1752-4479-b2b3-157578b787cc",
    "mp_id": "mp-1037450",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 45 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg30ZnCdO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5709\n_cell_length_b   8.5709\n_cell_length_c   8.5658\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg30ZnCdO32\n_chemical_formula_sum   'Mg30 Zn1 Cd1 O32'\n_cell_volume   629.2449\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0000  0.0000  1\n  Mg  Mg1  1  0.5000  0.0000  0.5000  1\n  Mg  Mg2  1  0.0000  0.5000  0.0000  1\n  Mg  Mg3  1  0.0000  0.5000  0.5000  1\n  Mg  Mg4  1  0.5000  0.5000  0.0000  1\n  Mg  Mg5  1  0.5000  0.5000  0.5000  1\n  Mg  Mg6  1  0.2523  0.0000  0.2477  1\n  Mg  Mg7  1  0.2523  0.0000  0.7523  1\n  Mg  Mg8  1  0.7477  0.0000  0.2477  1\n  Mg  Mg9  1  0.7477  0.0000  0.7523  1\n  Mg  Mg10  1  0.2499  0.5000  0.2499  1\n  Mg  Mg11  1  0.2499  0.5000  0.7501  1\n  Mg  Mg12  1  0.7501  0.5000  0.2499  1\n  Mg  Mg13  1  0.7501  0.5000  0.7501  1\n  Mg  Mg14  1  0.0000  0.2523  0.2477  1\n  Mg  Mg15  1  0.0000  0.2523  0.7523  1\n  Mg  Mg16  1  0.5000  0.2499  0.2499  1\n  Mg  Mg17  1  0.5000  0.2499  0.7501  1\n  Mg  Mg18  1  0.0000  0.7477  0.2477  1\n  Mg  Mg19  1  0.0000  0.7477  0.7523  1\n  Mg  Mg20  1  0.5000  0.7501  0.2499  1\n  Mg  Mg21  1  0.5000  0.7501  0.7501  1\n  Mg  Mg22  1  0.2498  0.2498  0.0000  1\n  Mg  Mg23  1  0.2520  0.2520  0.5000  1\n  Mg  Mg24  1  0.7502  0.2498  0.0000  1\n  Mg  Mg25  1  0.7480  0.2520  0.5000  1\n  Mg  Mg26  1  0.2498  0.7502  0.0000  1\n  Mg  Mg27  1  0.2520  0.7480  0.5000  1\n  Mg  Mg28  1  0.7502  0.7502  0.0000  1\n  Mg  Mg29  1  0.7480  0.7480  0.5000  1\n  Zn  Zn30  1  0.0000  0.0000  0.0000  1\n  Cd  Cd31  1  0.0000  0.0000  0.5000  1\n  O  O32  1  0.0000  0.2557  0.0000  1\n  O  O33  1  0.0000  0.2637  0.5000  1\n  O  O34  1  0.5000  0.2505  0.0000  1\n  O  O35  1  0.5000  0.2518  0.5000  1\n  O  O36  1  0.0000  0.7443  0.0000  1\n  O  O37  1  0.0000  0.7363  0.5000  1\n  O  O38  1  0.5000  0.7495  0.0000  1\n  O  O39  1  0.5000  0.7482  0.5000  1\n  O  O40  1  0.2493  0.2493  0.2503  1\n  O  O41  1  0.2493  0.2493  0.7497  1\n  O  O42  1  0.7507  0.2493  0.2503  1\n  O  O43  1  0.7507  0.2493  0.7497  1\n  O  O44  1  0.2493  0.7507  0.2503  1\n  O  O45  1  0.2493  0.7507  0.7497  1\n  O  O46  1  0.7507  0.7507  0.2503  1\n  O  O47  1  0.7507  0.7507  0.7497  1\n  O  O48  1  0.0000  0.0000  0.2377  1\n  O  O49  1  0.0000  0.0000  0.7623  1\n  O  O50  1  0.5000  0.0000  0.2485  1\n  O  O51  1  0.5000  0.0000  0.7515  1\n  O  O52  1  0.0000  0.5000  0.2485  1\n  O  O53  1  0.0000  0.5000  0.7515  1\n  O  O54  1  0.5000  0.5000  0.2499  1\n  O  O55  1  0.5000  0.5000  0.7501  1\n  O  O56  1  0.2557  0.0000  0.0000  1\n  O  O57  1  0.2637  0.0000  0.5000  1\n  O  O58  1  0.7443  0.0000  0.0000  1\n  O  O59  1  0.7363  0.0000  0.5000  1\n  O  O60  1  0.2505  0.5000  0.0000  1\n  O  O61  1  0.2518  0.5000  0.5000  1\n  O  O62  1  0.7495  0.5000  0.0000  1\n  O  O63  1  0.7482  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg24OMg5ZnCdO13MgO18\n_chemical_formula_sum              \"Mg30 O32 Zn1 Cd1\"\n_cell_length_a       8.5709\n_cell_length_b       8.5709\n_cell_length_c       8.5658\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.5000  0.0000  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.2523  0.0000  0.2477  1.0000\n  Mg  Mg8       1.0000  0.2523  0.0000  0.7523  1.0000\n  Mg  Mg9       1.0000  0.7477  0.0000  0.2477  1.0000\n  Mg  Mg10      1.0000  0.7477  0.0000  0.7523  1.0000\n  Mg  Mg11      1.0000  0.2499  0.5000  0.2499  1.0000\n  Mg  Mg12      1.0000  0.2499  0.5000  0.7501  1.0000\n  Mg  Mg13      1.0000  0.7501  0.5000  0.2499  1.0000\n  Mg  Mg14      1.0000  0.7501  0.5000  0.7501  1.0000\n  Mg  Mg15      1.0000  0.0000  0.2523  0.2477  1.0000\n  Mg  Mg16      1.0000  0.0000  0.2523  0.7523  1.0000\n  Mg  Mg17      1.0000  0.5000  0.2499  0.2499  1.0000\n  Mg  Mg18      1.0000  0.5000  0.2499  0.7501  1.0000\n  Mg  Mg19      1.0000  0.0000  0.7477  0.2477  1.0000\n  Mg  Mg20      1.0000  0.0000  0.7477  0.7523  1.0000\n  Mg  Mg21      1.0000  0.5000  0.7501  0.2499  1.0000\n  Mg  Mg22      1.0000  0.5000  0.7501  0.7501  1.0000\n  Mg  Mg23      1.0000  0.2498  0.2498  0.0000  1.0000\n  Mg  Mg24      1.0000  0.2520  0.2520  0.5000  1.0000\n  O   O1        1.0000  0.7502  0.2498  0.0000  1.0000\n  Mg  Mg25      1.0000  0.7480  0.2520  0.5000  1.0000\n  Mg  Mg26      1.0000  0.2498  0.7502  0.0000  1.0000\n  Mg  Mg27      1.0000  0.2520  0.7480  0.5000  1.0000\n  Mg  Mg28      1.0000  0.7502  0.7502  0.0000  1.0000\n  Mg  Mg29      1.0000  0.7480  0.7480  0.5000  1.0000\n  Zn  Zn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cd  Cd1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.0000  0.2557  0.0000  1.0000\n  O   O3        1.0000  0.0000  0.2637  0.5000  1.0000\n  O   O4        1.0000  0.5000  0.2505  0.0000  1.0000\n  O   O5        1.0000  0.5000  0.2518  0.5000  1.0000\n  O   O6        1.0000  0.0000  0.7443  0.0000  1.0000\n  O   O7        1.0000  0.0000  0.7363  0.5000  1.0000\n  O   O8        1.0000  0.5000  0.7495  0.0000  1.0000\n  O   O9        1.0000  0.5000  0.7482  0.5000  1.0000\n  O   O10       1.0000  0.2493  0.2493  0.2503  1.0000\n  O   O11       1.0000  0.2493  0.2493  0.7497  1.0000\n  O   O12       1.0000  0.7507  0.2493  0.2503  1.0000\n  O   O13       1.0000  0.7507  0.2493  0.7497  1.0000\n  O   O14       1.0000  0.2493  0.7507  0.2503  1.0000\n  Mg  Mg30      1.0000  0.2493  0.7507  0.7497  1.0000\n  O   O15       1.0000  0.7507  0.7507  0.2503  1.0000\n  O   O16       1.0000  0.7507  0.7507  0.7497  1.0000\n  O   O17       1.0000  0.0000  0.0000  0.2377  1.0000\n  O   O18       1.0000  0.0000  0.0000  0.7623  1.0000\n  O   O19       1.0000  0.5000  0.0000  0.2485  1.0000\n  O   O20       1.0000  0.5000  0.0000  0.7515  1.0000\n  O   O21       1.0000  0.0000  0.5000  0.2485  1.0000\n  O   O22       1.0000  0.0000  0.5000  0.7515  1.0000\n  O   O23       1.0000  0.5000  0.5000  0.2499  1.0000\n  O   O24       1.0000  0.5000  0.5000  0.7501  1.0000\n  O   O25       1.0000  0.2557  0.0000  0.0000  1.0000\n  O   O26       1.0000  0.2637  0.0000  0.5000  1.0000\n  O   O27       1.0000  0.7443  0.0000  0.0000  1.0000\n  O   O28       1.0000  0.7363  0.0000  0.5000  1.0000\n  O   O29       1.0000  0.2505  0.5000  0.0000  1.0000\n  O   O30       1.0000  0.2518  0.5000  0.5000  1.0000\n  O   O31       1.0000  0.7495  0.5000  0.0000  1.0000\n  O   O32       1.0000  0.7482  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "754ad0ab-d90e-42ef-943b-a669052f95b4",
    "mp_id": "mp-1038247",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg30AlSiO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4906\n_cell_length_b   8.4906\n_cell_length_c   8.6791\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg30AlSiO32\n_chemical_formula_sum   'Mg30 Al1 Si1 O32'\n_cell_volume   625.6872\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.5000  0.0000  1\n  Mg  Mg1  1  0.0000  0.5000  0.5000  1\n  Mg  Mg2  1  0.5000  0.0000  0.0000  1\n  Mg  Mg3  1  0.5000  0.0000  0.5000  1\n  Mg  Mg4  1  0.5000  0.5000  0.0000  1\n  Mg  Mg5  1  0.5000  0.5000  0.5000  1\n  Mg  Mg6  1  0.0000  0.2480  0.2503  1\n  Mg  Mg7  1  0.0000  0.2480  0.7497  1\n  Mg  Mg8  1  0.0000  0.7520  0.2503  1\n  Mg  Mg9  1  0.0000  0.7520  0.7497  1\n  Mg  Mg10  1  0.5000  0.2495  0.2503  1\n  Mg  Mg11  1  0.5000  0.2495  0.7497  1\n  Mg  Mg12  1  0.5000  0.7505  0.2503  1\n  Mg  Mg13  1  0.5000  0.7505  0.7497  1\n  Mg  Mg14  1  0.2480  0.0000  0.2503  1\n  Mg  Mg15  1  0.2480  0.0000  0.7497  1\n  Mg  Mg16  1  0.2495  0.5000  0.2503  1\n  Mg  Mg17  1  0.2495  0.5000  0.7497  1\n  Mg  Mg18  1  0.7520  0.0000  0.2503  1\n  Mg  Mg19  1  0.7520  0.0000  0.7497  1\n  Mg  Mg20  1  0.7505  0.5000  0.2503  1\n  Mg  Mg21  1  0.7505  0.5000  0.7497  1\n  Mg  Mg22  1  0.2502  0.2502  0.0000  1\n  Mg  Mg23  1  0.2510  0.2510  0.5000  1\n  Mg  Mg24  1  0.2502  0.7498  0.0000  1\n  Mg  Mg25  1  0.2510  0.7490  0.5000  1\n  Mg  Mg26  1  0.7498  0.2502  0.0000  1\n  Mg  Mg27  1  0.7490  0.2510  0.5000  1\n  Mg  Mg28  1  0.7498  0.7498  0.0000  1\n  Mg  Mg29  1  0.7490  0.7490  0.5000  1\n  Al  Al30  1  0.0000  0.0000  0.0000  1\n  Si  Si31  1  0.0000  0.0000  0.5000  1\n  O  O32  1  0.2444  0.0000  0.0000  1\n  O  O33  1  0.2619  0.0000  0.5000  1\n  O  O34  1  0.2493  0.5000  0.0000  1\n  O  O35  1  0.2515  0.5000  0.5000  1\n  O  O36  1  0.7556  0.0000  0.0000  1\n  O  O37  1  0.7381  0.0000  0.5000  1\n  O  O38  1  0.7507  0.5000  0.0000  1\n  O  O39  1  0.7485  0.5000  0.5000  1\n  O  O40  1  0.2495  0.2495  0.2504  1\n  O  O41  1  0.2495  0.2495  0.7496  1\n  O  O42  1  0.2495  0.7505  0.2504  1\n  O  O43  1  0.2495  0.7505  0.7496  1\n  O  O44  1  0.7505  0.2495  0.2504  1\n  O  O45  1  0.7505  0.2495  0.7496  1\n  O  O46  1  0.7505  0.7505  0.2504  1\n  O  O47  1  0.7505  0.7505  0.7496  1\n  O  O48  1  0.0000  0.0000  0.2035  1\n  O  O49  1  0.0000  0.0000  0.7965  1\n  O  O50  1  0.0000  0.5000  0.2462  1\n  O  O51  1  0.0000  0.5000  0.7538  1\n  O  O52  1  0.5000  0.0000  0.2462  1\n  O  O53  1  0.5000  0.0000  0.7538  1\n  O  O54  1  0.5000  0.5000  0.2487  1\n  O  O55  1  0.5000  0.5000  0.7513  1\n  O  O56  1  0.0000  0.2444  0.0000  1\n  O  O57  1  0.0000  0.2619  0.5000  1\n  O  O58  1  0.0000  0.7556  0.0000  1\n  O  O59  1  0.0000  0.7381  0.5000  1\n  O  O60  1  0.5000  0.2493  0.0000  1\n  O  O61  1  0.5000  0.2515  0.5000  1\n  O  O62  1  0.5000  0.7507  0.0000  1\n  O  O63  1  0.5000  0.7485  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg23OMg6AlSiO26MgO5\n_chemical_formula_sum              \"Mg30 O32 Al1 Si1\"\n_cell_length_a       8.4906\n_cell_length_b       8.4906\n_cell_length_c       8.6791\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.5000  0.0000  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2480  0.2503  1.0000\n  Mg  Mg8       1.0000  0.0000  0.2480  0.7497  1.0000\n  Mg  Mg9       1.0000  0.0000  0.7520  0.2503  1.0000\n  Mg  Mg10      1.0000  0.0000  0.7520  0.7497  1.0000\n  Mg  Mg11      1.0000  0.5000  0.2495  0.2503  1.0000\n  Mg  Mg12      1.0000  0.5000  0.2495  0.7497  1.0000\n  Mg  Mg13      1.0000  0.5000  0.7505  0.2503  1.0000\n  Mg  Mg14      1.0000  0.5000  0.7505  0.7497  1.0000\n  Mg  Mg15      1.0000  0.2480  0.0000  0.2503  1.0000\n  Mg  Mg16      1.0000  0.2480  0.0000  0.7497  1.0000\n  Mg  Mg17      1.0000  0.2495  0.5000  0.2503  1.0000\n  Mg  Mg18      1.0000  0.2495  0.5000  0.7497  1.0000\n  Mg  Mg19      1.0000  0.7520  0.0000  0.2503  1.0000\n  Mg  Mg20      1.0000  0.7520  0.0000  0.7497  1.0000\n  Mg  Mg21      1.0000  0.7505  0.5000  0.2503  1.0000\n  Mg  Mg22      1.0000  0.7505  0.5000  0.7497  1.0000\n  Mg  Mg23      1.0000  0.2502  0.2502  0.0000  1.0000\n  O   O1        1.0000  0.2510  0.2510  0.5000  1.0000\n  Mg  Mg24      1.0000  0.2502  0.7498  0.0000  1.0000\n  Mg  Mg25      1.0000  0.2510  0.7490  0.5000  1.0000\n  Mg  Mg26      1.0000  0.7498  0.2502  0.0000  1.0000\n  Mg  Mg27      1.0000  0.7490  0.2510  0.5000  1.0000\n  Mg  Mg28      1.0000  0.7498  0.7498  0.0000  1.0000\n  Mg  Mg29      1.0000  0.7490  0.7490  0.5000  1.0000\n  Al  Al1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Si  Si1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.2444  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2619  0.0000  0.5000  1.0000\n  O   O4        1.0000  0.2493  0.5000  0.0000  1.0000\n  O   O5        1.0000  0.2515  0.5000  0.5000  1.0000\n  O   O6        1.0000  0.7556  0.0000  0.0000  1.0000\n  O   O7        1.0000  0.7381  0.0000  0.5000  1.0000\n  O   O8        1.0000  0.7507  0.5000  0.0000  1.0000\n  O   O9        1.0000  0.7485  0.5000  0.5000  1.0000\n  O   O10       1.0000  0.2495  0.2495  0.2504  1.0000\n  O   O11       1.0000  0.2495  0.2495  0.7496  1.0000\n  O   O12       1.0000  0.2495  0.7505  0.2504  1.0000\n  O   O13       1.0000  0.2495  0.7505  0.7496  1.0000\n  O   O14       1.0000  0.7505  0.2495  0.2504  1.0000\n  O   O15       1.0000  0.7505  0.2495  0.7496  1.0000\n  O   O16       1.0000  0.7505  0.7505  0.2504  1.0000\n  O   O17       1.0000  0.7505  0.7505  0.7496  1.0000\n  O   O18       1.0000  0.0000  0.0000  0.2035  1.0000\n  O   O19       1.0000  0.0000  0.0000  0.7965  1.0000\n  O   O20       1.0000  0.0000  0.5000  0.2462  1.0000\n  O   O21       1.0000  0.0000  0.5000  0.7538  1.0000\n  O   O22       1.0000  0.5000  0.0000  0.2462  1.0000\n  O   O23       1.0000  0.5000  0.0000  0.7538  1.0000\n  O   O24       1.0000  0.5000  0.5000  0.2487  1.0000\n  O   O25       1.0000  0.5000  0.5000  0.7513  1.0000\n  O   O26       1.0000  0.0000  0.2444  0.0000  1.0000\n  O   O27       1.0000  0.0000  0.2619  0.5000  1.0000\n  Mg  Mg30      1.0000  0.0000  0.7556  0.0000  1.0000\n  O   O28       1.0000  0.0000  0.7381  0.5000  1.0000\n  O   O29       1.0000  0.5000  0.2493  0.0000  1.0000\n  O   O30       1.0000  0.5000  0.2515  0.5000  1.0000\n  O   O31       1.0000  0.5000  0.7507  0.0000  1.0000\n  O   O32       1.0000  0.5000  0.7485  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e27e1481-bb8b-4b67-820c-39353bfcd59f",
    "mp_id": "mp-1038590",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg30NbCO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6054\n_cell_length_b   8.6054\n_cell_length_c   8.5341\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg30NbCO32\n_chemical_formula_sum   'Mg30 Nb1 C1 O32'\n_cell_volume   631.9731\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0000  0.0000  1\n  Mg  Mg1  1  0.0000  0.5000  0.0000  1\n  Mg  Mg2  1  0.0000  0.0000  0.5000  1\n  Mg  Mg3  1  0.5000  0.0000  0.5000  1\n  Mg  Mg4  1  0.0000  0.5000  0.5000  1\n  Mg  Mg5  1  0.5000  0.5000  0.5000  1\n  Mg  Mg6  1  0.2615  0.2615  0.0000  1\n  Mg  Mg7  1  0.7385  0.2615  0.0000  1\n  Mg  Mg8  1  0.2615  0.7385  0.0000  1\n  Mg  Mg9  1  0.7385  0.7385  0.0000  1\n  Mg  Mg10  1  0.2519  0.2519  0.5000  1\n  Mg  Mg11  1  0.7481  0.2519  0.5000  1\n  Mg  Mg12  1  0.2519  0.7481  0.5000  1\n  Mg  Mg13  1  0.7481  0.7481  0.5000  1\n  Mg  Mg14  1  0.2548  0.0000  0.2538  1\n  Mg  Mg15  1  0.7452  0.0000  0.2538  1\n  Mg  Mg16  1  0.2527  0.5000  0.2465  1\n  Mg  Mg17  1  0.7473  0.5000  0.2465  1\n  Mg  Mg18  1  0.2548  0.0000  0.7462  1\n  Mg  Mg19  1  0.7452  0.0000  0.7462  1\n  Mg  Mg20  1  0.2527  0.5000  0.7535  1\n  Mg  Mg21  1  0.7473  0.5000  0.7535  1\n  Mg  Mg22  1  0.0000  0.2548  0.2538  1\n  Mg  Mg23  1  0.5000  0.2527  0.2465  1\n  Mg  Mg24  1  0.0000  0.7452  0.2538  1\n  Mg  Mg25  1  0.5000  0.7473  0.2465  1\n  Mg  Mg26  1  0.0000  0.2548  0.7462  1\n  Mg  Mg27  1  0.5000  0.2527  0.7535  1\n  Mg  Mg28  1  0.0000  0.7452  0.7462  1\n  Mg  Mg29  1  0.5000  0.7473  0.7535  1\n  Nb  Nb30  1  0.0000  0.0000  0.0000  1\n  C  C31  1  0.5000  0.5000  0.0000  1\n  O  O32  1  0.0000  0.0000  0.2570  1\n  O  O33  1  0.5000  0.0000  0.2536  1\n  O  O34  1  0.0000  0.5000  0.2536  1\n  O  O35  1  0.5000  0.5000  0.2560  1\n  O  O36  1  0.0000  0.0000  0.7430  1\n  O  O37  1  0.5000  0.0000  0.7464  1\n  O  O38  1  0.0000  0.5000  0.7464  1\n  O  O39  1  0.5000  0.5000  0.7440  1\n  O  O40  1  0.2498  0.2498  0.2488  1\n  O  O41  1  0.7502  0.2498  0.2488  1\n  O  O42  1  0.2498  0.7502  0.2488  1\n  O  O43  1  0.7502  0.7502  0.2488  1\n  O  O44  1  0.2498  0.2498  0.7512  1\n  O  O45  1  0.7502  0.2498  0.7512  1\n  O  O46  1  0.2498  0.7502  0.7512  1\n  O  O47  1  0.7502  0.7502  0.7512  1\n  O  O48  1  0.2469  0.0000  0.0000  1\n  O  O49  1  0.7531  0.0000  0.0000  1\n  O  O50  1  0.2267  0.5000  0.0000  1\n  O  O51  1  0.7733  0.5000  0.0000  1\n  O  O52  1  0.2500  0.0000  0.5000  1\n  O  O53  1  0.7500  0.0000  0.5000  1\n  O  O54  1  0.2499  0.5000  0.5000  1\n  O  O55  1  0.7501  0.5000  0.5000  1\n  O  O56  1  0.0000  0.2469  0.0000  1\n  O  O57  1  0.5000  0.2267  0.0000  1\n  O  O58  1  0.0000  0.7531  0.0000  1\n  O  O59  1  0.5000  0.7733  0.0000  1\n  O  O60  1  0.0000  0.2500  0.5000  1\n  O  O61  1  0.5000  0.2499  0.5000  1\n  O  O62  1  0.0000  0.7500  0.5000  1\n  O  O63  1  0.5000  0.7501  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg23OMg6NbCO3MgO28\n_chemical_formula_sum              \"Mg30 O32 Nb1 C1\"\n_cell_length_a       8.6054\n_cell_length_b       8.6054\n_cell_length_c       8.5341\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.2615  0.2615  0.0000  1.0000\n  Mg  Mg8       1.0000  0.7385  0.2615  0.0000  1.0000\n  Mg  Mg9       1.0000  0.2615  0.7385  0.0000  1.0000\n  Mg  Mg10      1.0000  0.7385  0.7385  0.0000  1.0000\n  Mg  Mg11      1.0000  0.2519  0.2519  0.5000  1.0000\n  Mg  Mg12      1.0000  0.7481  0.2519  0.5000  1.0000\n  Mg  Mg13      1.0000  0.2519  0.7481  0.5000  1.0000\n  Mg  Mg14      1.0000  0.7481  0.7481  0.5000  1.0000\n  Mg  Mg15      1.0000  0.2548  0.0000  0.2538  1.0000\n  Mg  Mg16      1.0000  0.7452  0.0000  0.2538  1.0000\n  Mg  Mg17      1.0000  0.2527  0.5000  0.2465  1.0000\n  Mg  Mg18      1.0000  0.7473  0.5000  0.2465  1.0000\n  Mg  Mg19      1.0000  0.2548  0.0000  0.7462  1.0000\n  Mg  Mg20      1.0000  0.7452  0.0000  0.7462  1.0000\n  Mg  Mg21      1.0000  0.2527  0.5000  0.7535  1.0000\n  Mg  Mg22      1.0000  0.7473  0.5000  0.7535  1.0000\n  Mg  Mg23      1.0000  0.0000  0.2548  0.2538  1.0000\n  O   O1        1.0000  0.5000  0.2527  0.2465  1.0000\n  Mg  Mg24      1.0000  0.0000  0.7452  0.2538  1.0000\n  Mg  Mg25      1.0000  0.5000  0.7473  0.2465  1.0000\n  Mg  Mg26      1.0000  0.0000  0.2548  0.7462  1.0000\n  Mg  Mg27      1.0000  0.5000  0.2527  0.7535  1.0000\n  Mg  Mg28      1.0000  0.0000  0.7452  0.7462  1.0000\n  Mg  Mg29      1.0000  0.5000  0.7473  0.7535  1.0000\n  Nb  Nb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.0000  0.2570  1.0000\n  O   O3        1.0000  0.5000  0.0000  0.2536  1.0000\n  O   O4        1.0000  0.0000  0.5000  0.2536  1.0000\n  Mg  Mg30      1.0000  0.5000  0.5000  0.2560  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.7430  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.7464  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.7464  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.7440  1.0000\n  O   O9        1.0000  0.2498  0.2498  0.2488  1.0000\n  O   O10       1.0000  0.7502  0.2498  0.2488  1.0000\n  O   O11       1.0000  0.2498  0.7502  0.2488  1.0000\n  O   O12       1.0000  0.7502  0.7502  0.2488  1.0000\n  O   O13       1.0000  0.2498  0.2498  0.7512  1.0000\n  O   O14       1.0000  0.7502  0.2498  0.7512  1.0000\n  O   O15       1.0000  0.2498  0.7502  0.7512  1.0000\n  O   O16       1.0000  0.7502  0.7502  0.7512  1.0000\n  O   O17       1.0000  0.2469  0.0000  0.0000  1.0000\n  O   O18       1.0000  0.7531  0.0000  0.0000  1.0000\n  O   O19       1.0000  0.2267  0.5000  0.0000  1.0000\n  O   O20       1.0000  0.7733  0.5000  0.0000  1.0000\n  O   O21       1.0000  0.2500  0.0000  0.5000  1.0000\n  O   O22       1.0000  0.7500  0.0000  0.5000  1.0000\n  O   O23       1.0000  0.2499  0.5000  0.5000  1.0000\n  O   O24       1.0000  0.7501  0.5000  0.5000  1.0000\n  O   O25       1.0000  0.0000  0.2469  0.0000  1.0000\n  O   O26       1.0000  0.5000  0.2267  0.0000  1.0000\n  O   O27       1.0000  0.0000  0.7531  0.0000  1.0000\n  O   O28       1.0000  0.5000  0.7733  0.0000  1.0000\n  O   O29       1.0000  0.0000  0.2500  0.5000  1.0000\n  O   O30       1.0000  0.5000  0.2499  0.5000  1.0000\n  O   O31       1.0000  0.0000  0.7500  0.5000  1.0000\n  O   O32       1.0000  0.5000  0.7501  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e4b96a7c-2f7e-4649-a01a-a86a2f4f5fc6",
    "mp_id": "mp-1038638",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg30CrBiO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6441\n_cell_length_b   8.6441\n_cell_length_c   8.6508\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg30CrBiO32\n_chemical_formula_sum   'Mg30 Cr1 Bi1 O32'\n_cell_volume   646.3884\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.5000  0.0000  1\n  Mg  Mg1  1  0.5000  0.0000  0.0000  1\n  Mg  Mg2  1  0.0000  0.0000  0.5000  1\n  Mg  Mg3  1  0.0000  0.5000  0.5000  1\n  Mg  Mg4  1  0.5000  0.0000  0.5000  1\n  Mg  Mg5  1  0.5000  0.5000  0.5000  1\n  Mg  Mg6  1  0.2412  0.2412  0.0000  1\n  Mg  Mg7  1  0.2412  0.7588  0.0000  1\n  Mg  Mg8  1  0.7588  0.2412  0.0000  1\n  Mg  Mg9  1  0.7588  0.7588  0.0000  1\n  Mg  Mg10  1  0.2481  0.2481  0.5000  1\n  Mg  Mg11  1  0.2481  0.7519  0.5000  1\n  Mg  Mg12  1  0.7519  0.2481  0.5000  1\n  Mg  Mg13  1  0.7519  0.7519  0.5000  1\n  Mg  Mg14  1  0.0000  0.2480  0.2507  1\n  Mg  Mg15  1  0.0000  0.7520  0.2507  1\n  Mg  Mg16  1  0.5000  0.2415  0.2575  1\n  Mg  Mg17  1  0.5000  0.7585  0.2575  1\n  Mg  Mg18  1  0.0000  0.2480  0.7493  1\n  Mg  Mg19  1  0.0000  0.7520  0.7493  1\n  Mg  Mg20  1  0.5000  0.2415  0.7425  1\n  Mg  Mg21  1  0.5000  0.7585  0.7425  1\n  Mg  Mg22  1  0.2480  0.0000  0.2507  1\n  Mg  Mg23  1  0.2415  0.5000  0.2575  1\n  Mg  Mg24  1  0.7520  0.0000  0.2507  1\n  Mg  Mg25  1  0.7585  0.5000  0.2575  1\n  Mg  Mg26  1  0.2480  0.0000  0.7493  1\n  Mg  Mg27  1  0.2415  0.5000  0.7425  1\n  Mg  Mg28  1  0.7520  0.0000  0.7493  1\n  Mg  Mg29  1  0.7585  0.5000  0.7425  1\n  Cr  Cr30  1  0.0000  0.0000  0.0000  1\n  Bi  Bi31  1  0.5000  0.5000  0.0000  1\n  O  O32  1  0.0000  0.0000  0.2664  1\n  O  O33  1  0.0000  0.5000  0.2544  1\n  O  O34  1  0.5000  0.0000  0.2544  1\n  O  O35  1  0.5000  0.5000  0.2663  1\n  O  O36  1  0.0000  0.0000  0.7336  1\n  O  O37  1  0.0000  0.5000  0.7456  1\n  O  O38  1  0.5000  0.0000  0.7456  1\n  O  O39  1  0.5000  0.5000  0.7337  1\n  O  O40  1  0.2508  0.2508  0.2490  1\n  O  O41  1  0.2508  0.7492  0.2490  1\n  O  O42  1  0.7492  0.2508  0.2490  1\n  O  O43  1  0.7492  0.7492  0.2490  1\n  O  O44  1  0.2508  0.2508  0.7510  1\n  O  O45  1  0.2508  0.7492  0.7510  1\n  O  O46  1  0.7492  0.2508  0.7510  1\n  O  O47  1  0.7492  0.7492  0.7510  1\n  O  O48  1  0.0000  0.2634  0.0000  1\n  O  O49  1  0.0000  0.7366  0.0000  1\n  O  O50  1  0.5000  0.2351  0.0000  1\n  O  O51  1  0.5000  0.7649  0.0000  1\n  O  O52  1  0.0000  0.2519  0.5000  1\n  O  O53  1  0.0000  0.7481  0.5000  1\n  O  O54  1  0.5000  0.2498  0.5000  1\n  O  O55  1  0.5000  0.7502  0.5000  1\n  O  O56  1  0.2634  0.0000  0.0000  1\n  O  O57  1  0.2351  0.5000  0.0000  1\n  O  O58  1  0.7366  0.0000  0.0000  1\n  O  O59  1  0.7649  0.5000  0.0000  1\n  O  O60  1  0.2519  0.0000  0.5000  1\n  O  O61  1  0.2498  0.5000  0.5000  1\n  O  O62  1  0.7481  0.0000  0.5000  1\n  O  O63  1  0.7502  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg30CrO9BiO23\n_chemical_formula_sum              \"Mg30 Cr1 O32 Bi1\"\n_cell_length_a       8.6441\n_cell_length_b       8.6441\n_cell_length_c       8.6508\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mg  Mg4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg7       1.0000  0.2412  0.2412  0.0000  1.0000\n  Mg  Mg8       1.0000  0.2412  0.7588  0.0000  1.0000\n  Mg  Mg9       1.0000  0.7588  0.2412  0.0000  1.0000\n  Mg  Mg10      1.0000  0.7588  0.7588  0.0000  1.0000\n  Mg  Mg11      1.0000  0.2481  0.2481  0.5000  1.0000\n  Mg  Mg12      1.0000  0.2481  0.7519  0.5000  1.0000\n  Mg  Mg13      1.0000  0.7519  0.2481  0.5000  1.0000\n  Mg  Mg14      1.0000  0.7519  0.7519  0.5000  1.0000\n  Mg  Mg15      1.0000  0.0000  0.2480  0.2507  1.0000\n  Mg  Mg16      1.0000  0.0000  0.7520  0.2507  1.0000\n  Mg  Mg17      1.0000  0.5000  0.2415  0.2575  1.0000\n  Mg  Mg18      1.0000  0.5000  0.7585  0.2575  1.0000\n  Mg  Mg19      1.0000  0.0000  0.2480  0.7493  1.0000\n  Mg  Mg20      1.0000  0.0000  0.7520  0.7493  1.0000\n  Mg  Mg21      1.0000  0.5000  0.2415  0.7425  1.0000\n  Mg  Mg22      1.0000  0.5000  0.7585  0.7425  1.0000\n  Mg  Mg23      1.0000  0.2480  0.0000  0.2507  1.0000\n  Mg  Mg24      1.0000  0.2415  0.5000  0.2575  1.0000\n  Mg  Mg25      1.0000  0.7520  0.0000  0.2507  1.0000\n  Mg  Mg26      1.0000  0.7585  0.5000  0.2575  1.0000\n  Mg  Mg27      1.0000  0.2480  0.0000  0.7493  1.0000\n  Mg  Mg28      1.0000  0.2415  0.5000  0.7425  1.0000\n  Mg  Mg29      1.0000  0.7520  0.0000  0.7493  1.0000\n  Mg  Mg30      1.0000  0.7585  0.5000  0.7425  1.0000\n  Cr  Cr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.0000  0.2664  1.0000\n  O   O3        1.0000  0.0000  0.5000  0.2544  1.0000\n  O   O4        1.0000  0.5000  0.0000  0.2544  1.0000\n  O   O5        1.0000  0.5000  0.5000  0.2663  1.0000\n  O   O6        1.0000  0.0000  0.0000  0.7336  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.7456  1.0000\n  O   O8        1.0000  0.5000  0.0000  0.7456  1.0000\n  O   O9        1.0000  0.5000  0.5000  0.7337  1.0000\n  Bi  Bi1       1.0000  0.2508  0.2508  0.2490  1.0000\n  O   O10       1.0000  0.2508  0.7492  0.2490  1.0000\n  O   O11       1.0000  0.7492  0.2508  0.2490  1.0000\n  O   O12       1.0000  0.7492  0.7492  0.2490  1.0000\n  O   O13       1.0000  0.2508  0.2508  0.7510  1.0000\n  O   O14       1.0000  0.2508  0.7492  0.7510  1.0000\n  O   O15       1.0000  0.7492  0.2508  0.7510  1.0000\n  O   O16       1.0000  0.7492  0.7492  0.7510  1.0000\n  O   O17       1.0000  0.0000  0.2634  0.0000  1.0000\n  O   O18       1.0000  0.0000  0.7366  0.0000  1.0000\n  O   O19       1.0000  0.5000  0.2351  0.0000  1.0000\n  O   O20       1.0000  0.5000  0.7649  0.0000  1.0000\n  O   O21       1.0000  0.0000  0.2519  0.5000  1.0000\n  O   O22       1.0000  0.0000  0.7481  0.5000  1.0000\n  O   O23       1.0000  0.5000  0.2498  0.5000  1.0000\n  O   O24       1.0000  0.5000  0.7502  0.5000  1.0000\n  O   O25       1.0000  0.2634  0.0000  0.0000  1.0000\n  O   O26       1.0000  0.2351  0.5000  0.0000  1.0000\n  O   O27       1.0000  0.7366  0.0000  0.0000  1.0000\n  O   O28       1.0000  0.7649  0.5000  0.0000  1.0000\n  O   O29       1.0000  0.2519  0.0000  0.5000  1.0000\n  O   O30       1.0000  0.2498  0.5000  0.5000  1.0000\n  O   O31       1.0000  0.7481  0.0000  0.5000  1.0000\n  O   O32       1.0000  0.7502  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e9542232-d976-4d8c-aec8-7664ad93c38d",
    "mp_id": "mp-1039951",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 60 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbCeMg30O32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6962\n_cell_length_b   8.6962\n_cell_length_c   8.7845\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbCeMg30O32\n_chemical_formula_sum   'Rb1 Ce1 Mg30 O32'\n_cell_volume   664.3186\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0000  0.0000  0.5000  1\n  Ce  Ce1  1  0.0000  0.0000  0.0000  1\n  Mg  Mg2  1  0.0000  0.5000  0.0000  1\n  Mg  Mg3  1  0.0000  0.5000  0.5000  1\n  Mg  Mg4  1  0.5000  0.0000  0.0000  1\n  Mg  Mg5  1  0.5000  0.0000  0.5000  1\n  Mg  Mg6  1  0.5000  0.5000  0.0000  1\n  Mg  Mg7  1  0.5000  0.5000  0.5000  1\n  Mg  Mg8  1  0.0000  0.2621  0.2563  1\n  Mg  Mg9  1  0.0000  0.2621  0.7437  1\n  Mg  Mg10  1  0.0000  0.7379  0.2563  1\n  Mg  Mg11  1  0.0000  0.7379  0.7437  1\n  Mg  Mg12  1  0.5000  0.2513  0.2515  1\n  Mg  Mg13  1  0.5000  0.2513  0.7485  1\n  Mg  Mg14  1  0.5000  0.7487  0.2515  1\n  Mg  Mg15  1  0.5000  0.7487  0.7485  1\n  Mg  Mg16  1  0.2621  0.0000  0.2563  1\n  Mg  Mg17  1  0.2621  0.0000  0.7437  1\n  Mg  Mg18  1  0.2513  0.5000  0.2515  1\n  Mg  Mg19  1  0.2513  0.5000  0.7485  1\n  Mg  Mg20  1  0.7379  0.0000  0.2563  1\n  Mg  Mg21  1  0.7379  0.0000  0.7437  1\n  Mg  Mg22  1  0.7487  0.5000  0.2515  1\n  Mg  Mg23  1  0.7487  0.5000  0.7485  1\n  Mg  Mg24  1  0.2578  0.2578  0.0000  1\n  Mg  Mg25  1  0.2540  0.2540  0.5000  1\n  Mg  Mg26  1  0.2578  0.7422  0.0000  1\n  Mg  Mg27  1  0.2540  0.7460  0.5000  1\n  Mg  Mg28  1  0.7422  0.2578  0.0000  1\n  Mg  Mg29  1  0.7460  0.2540  0.5000  1\n  Mg  Mg30  1  0.7422  0.7422  0.0000  1\n  Mg  Mg31  1  0.7460  0.7460  0.5000  1\n  O  O32  1  0.2678  0.0000  0.0000  1\n  O  O33  1  0.2800  0.0000  0.5000  1\n  O  O34  1  0.2537  0.5000  0.0000  1\n  O  O35  1  0.2559  0.5000  0.5000  1\n  O  O36  1  0.7322  0.0000  0.0000  1\n  O  O37  1  0.7200  0.0000  0.5000  1\n  O  O38  1  0.7463  0.5000  0.0000  1\n  O  O39  1  0.7441  0.5000  0.5000  1\n  O  O40  1  0.2491  0.2491  0.2497  1\n  O  O41  1  0.2491  0.2491  0.7503  1\n  O  O42  1  0.2491  0.7509  0.2497  1\n  O  O43  1  0.2491  0.7509  0.7503  1\n  O  O44  1  0.7509  0.2491  0.2497  1\n  O  O45  1  0.7509  0.2491  0.7503  1\n  O  O46  1  0.7509  0.7509  0.2497  1\n  O  O47  1  0.7509  0.7509  0.7503  1\n  O  O48  1  0.0000  0.0000  0.2384  1\n  O  O49  1  0.0000  0.0000  0.7616  1\n  O  O50  1  0.0000  0.5000  0.2462  1\n  O  O51  1  0.0000  0.5000  0.7538  1\n  O  O52  1  0.5000  0.0000  0.2462  1\n  O  O53  1  0.5000  0.0000  0.7538  1\n  O  O54  1  0.5000  0.5000  0.2483  1\n  O  O55  1  0.5000  0.5000  0.7517  1\n  O  O56  1  0.0000  0.2678  0.0000  1\n  O  O57  1  0.0000  0.2800  0.5000  1\n  O  O58  1  0.0000  0.7322  0.0000  1\n  O  O59  1  0.0000  0.7200  0.5000  1\n  O  O60  1  0.5000  0.2537  0.0000  1\n  O  O61  1  0.5000  0.2559  0.5000  1\n  O  O62  1  0.5000  0.7463  0.0000  1\n  O  O63  1  0.5000  0.7441  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbCeMg4OMg25O28MgO3\n_chemical_formula_sum              \"Rb1 Ce1 Mg30 O32\"\n_cell_length_a       8.6962\n_cell_length_b       8.6962\n_cell_length_c       8.7845\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ce  Ce1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.0000  0.2621  0.2563  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2621  0.7437  1.0000\n  Mg  Mg8       1.0000  0.0000  0.7379  0.2563  1.0000\n  Mg  Mg9       1.0000  0.0000  0.7379  0.7437  1.0000\n  Mg  Mg10      1.0000  0.5000  0.2513  0.2515  1.0000\n  Mg  Mg11      1.0000  0.5000  0.2513  0.7485  1.0000\n  Mg  Mg12      1.0000  0.5000  0.7487  0.2515  1.0000\n  Mg  Mg13      1.0000  0.5000  0.7487  0.7485  1.0000\n  Mg  Mg14      1.0000  0.2621  0.0000  0.2563  1.0000\n  Mg  Mg15      1.0000  0.2621  0.0000  0.7437  1.0000\n  Mg  Mg16      1.0000  0.2513  0.5000  0.2515  1.0000\n  Mg  Mg17      1.0000  0.2513  0.5000  0.7485  1.0000\n  Mg  Mg18      1.0000  0.7379  0.0000  0.2563  1.0000\n  Mg  Mg19      1.0000  0.7379  0.0000  0.7437  1.0000\n  Mg  Mg20      1.0000  0.7487  0.5000  0.2515  1.0000\n  Mg  Mg21      1.0000  0.7487  0.5000  0.7485  1.0000\n  Mg  Mg22      1.0000  0.2578  0.2578  0.0000  1.0000\n  Mg  Mg23      1.0000  0.2540  0.2540  0.5000  1.0000\n  Mg  Mg24      1.0000  0.2578  0.7422  0.0000  1.0000\n  Mg  Mg25      1.0000  0.2540  0.7460  0.5000  1.0000\n  Mg  Mg26      1.0000  0.7422  0.2578  0.0000  1.0000\n  Mg  Mg27      1.0000  0.7460  0.2540  0.5000  1.0000\n  Mg  Mg28      1.0000  0.7422  0.7422  0.0000  1.0000\n  Mg  Mg29      1.0000  0.7460  0.7460  0.5000  1.0000\n  O   O2        1.0000  0.2678  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2800  0.0000  0.5000  1.0000\n  O   O4        1.0000  0.2537  0.5000  0.0000  1.0000\n  O   O5        1.0000  0.2559  0.5000  0.5000  1.0000\n  O   O6        1.0000  0.7322  0.0000  0.0000  1.0000\n  O   O7        1.0000  0.7200  0.0000  0.5000  1.0000\n  O   O8        1.0000  0.7463  0.5000  0.0000  1.0000\n  O   O9        1.0000  0.7441  0.5000  0.5000  1.0000\n  O   O10       1.0000  0.2491  0.2491  0.2497  1.0000\n  O   O11       1.0000  0.2491  0.2491  0.7503  1.0000\n  O   O12       1.0000  0.2491  0.7509  0.2497  1.0000\n  O   O13       1.0000  0.2491  0.7509  0.7503  1.0000\n  O   O14       1.0000  0.7509  0.2491  0.2497  1.0000\n  O   O15       1.0000  0.7509  0.2491  0.7503  1.0000\n  O   O16       1.0000  0.7509  0.7509  0.2497  1.0000\n  O   O17       1.0000  0.7509  0.7509  0.7503  1.0000\n  O   O18       1.0000  0.0000  0.0000  0.2384  1.0000\n  O   O19       1.0000  0.0000  0.0000  0.7616  1.0000\n  O   O20       1.0000  0.0000  0.5000  0.2462  1.0000\n  O   O21       1.0000  0.0000  0.5000  0.7538  1.0000\n  O   O22       1.0000  0.5000  0.0000  0.2462  1.0000\n  O   O23       1.0000  0.5000  0.0000  0.7538  1.0000\n  O   O24       1.0000  0.5000  0.5000  0.2483  1.0000\n  O   O25       1.0000  0.5000  0.5000  0.7517  1.0000\n  O   O26       1.0000  0.0000  0.2678  0.0000  1.0000\n  O   O27       1.0000  0.0000  0.2800  0.5000  1.0000\n  O   O28       1.0000  0.0000  0.7322  0.0000  1.0000\n  O   O29       1.0000  0.0000  0.7200  0.5000  1.0000\n  Mg  Mg30      1.0000  0.5000  0.2537  0.0000  1.0000\n  O   O30       1.0000  0.5000  0.2559  0.5000  1.0000\n  O   O31       1.0000  0.5000  0.7463  0.0000  1.0000\n  O   O32       1.0000  0.5000  0.7441  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "07e30626-e230-4670-80a2-7da720a000de",
    "mp_id": "mp-1040370",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrMg30TiO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6231\n_cell_length_b   8.6231\n_cell_length_c   8.6243\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrMg30TiO32\n_chemical_formula_sum   'Sr1 Mg30 Ti1 O32'\n_cell_volume   641.2863\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.0000  0.0000  0.5000  1\n  Mg  Mg1  1  0.0000  0.5000  0.0000  1\n  Mg  Mg2  1  0.0000  0.5000  0.5000  1\n  Mg  Mg3  1  0.5000  0.0000  0.0000  1\n  Mg  Mg4  1  0.5000  0.0000  0.5000  1\n  Mg  Mg5  1  0.5000  0.5000  0.0000  1\n  Mg  Mg6  1  0.5000  0.5000  0.5000  1\n  Mg  Mg7  1  0.0000  0.2574  0.2465  1\n  Mg  Mg8  1  0.0000  0.2574  0.7535  1\n  Mg  Mg9  1  0.0000  0.7426  0.2465  1\n  Mg  Mg10  1  0.0000  0.7426  0.7535  1\n  Mg  Mg11  1  0.5000  0.2510  0.2494  1\n  Mg  Mg12  1  0.5000  0.2510  0.7506  1\n  Mg  Mg13  1  0.5000  0.7490  0.2494  1\n  Mg  Mg14  1  0.5000  0.7490  0.7506  1\n  Mg  Mg15  1  0.2574  0.0000  0.2465  1\n  Mg  Mg16  1  0.2574  0.0000  0.7535  1\n  Mg  Mg17  1  0.2510  0.5000  0.2494  1\n  Mg  Mg18  1  0.2510  0.5000  0.7506  1\n  Mg  Mg19  1  0.7426  -0.0000  0.2465  1\n  Mg  Mg20  1  0.7426  0.0000  0.7535  1\n  Mg  Mg21  1  0.7490  0.5000  0.2494  1\n  Mg  Mg22  1  0.7490  0.5000  0.7506  1\n  Mg  Mg23  1  0.2509  0.2509  0.0000  1\n  Mg  Mg24  1  0.2553  0.2553  0.5000  1\n  Mg  Mg25  1  0.2509  0.7491  0.0000  1\n  Mg  Mg26  1  0.2553  0.7447  0.5000  1\n  Mg  Mg27  1  0.7491  0.2509  0.0000  1\n  Mg  Mg28  1  0.7447  0.2553  0.5000  1\n  Mg  Mg29  1  0.7491  0.7491  0.0000  1\n  Mg  Mg30  1  0.7447  0.7447  0.5000  1\n  Ti  Ti31  1  0.0000  0.0000  0.0000  1\n  O  O32  1  0.2571  -0.0000  0.0000  1\n  O  O33  1  0.2705  0.0000  0.5000  1\n  O  O34  1  0.2513  0.5000  0.0000  1\n  O  O35  1  0.2540  0.5000  0.5000  1\n  O  O36  1  0.7429  0.0000  0.0000  1\n  O  O37  1  0.7295  -0.0000  0.5000  1\n  O  O38  1  0.7487  0.5000  0.0000  1\n  O  O39  1  0.7460  0.5000  0.5000  1\n  O  O40  1  0.2495  0.2495  0.2501  1\n  O  O41  1  0.2495  0.2495  0.7499  1\n  O  O42  1  0.2495  0.7505  0.2501  1\n  O  O43  1  0.2495  0.7505  0.7499  1\n  O  O44  1  0.7505  0.2495  0.2501  1\n  O  O45  1  0.7505  0.2495  0.7499  1\n  O  O46  1  0.7505  0.7505  0.2501  1\n  O  O47  1  0.7505  0.7505  0.7499  1\n  O  O48  1  0.0000  -0.0000  0.2327  1\n  O  O49  1  0.0000  -0.0000  0.7673  1\n  O  O50  1  0.0000  0.5000  0.2463  1\n  O  O51  1  0.0000  0.5000  0.7537  1\n  O  O52  1  0.5000  0.0000  0.2463  1\n  O  O53  1  0.5000  0.0000  0.7537  1\n  O  O54  1  0.5000  0.5000  0.2491  1\n  O  O55  1  0.5000  0.5000  0.7509  1\n  O  O56  1  0.0000  0.2571  0.0000  1\n  O  O57  1  0.0000  0.2705  0.5000  1\n  O  O58  1  0.0000  0.7429  0.0000  1\n  O  O59  1  0.0000  0.7295  0.5000  1\n  O  O60  1  0.5000  0.2513  0.0000  1\n  O  O61  1  0.5000  0.2540  0.5000  1\n  O  O62  1  0.5000  0.7487  0.0000  1\n  O  O63  1  0.5000  0.7460  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrMg4OMg25TiO26MgO5\n_chemical_formula_sum              \"Sr1 Mg30 O32 Ti1\"\n_cell_length_a       8.6231\n_cell_length_b       8.6231\n_cell_length_c       8.6243\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mg  Mg4       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Mg  Mg5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg6       1.0000  0.0000  0.2574  0.2465  1.0000\n  Mg  Mg7       1.0000  0.0000  0.2574  0.7535  1.0000\n  Mg  Mg8       1.0000  0.0000  0.7426  0.2465  1.0000\n  Mg  Mg9       1.0000  0.0000  0.7426  0.7535  1.0000\n  Mg  Mg10      1.0000  0.5000  0.2510  0.2494  1.0000\n  Mg  Mg11      1.0000  0.5000  0.2510  0.7506  1.0000\n  Mg  Mg12      1.0000  0.5000  0.7490  0.2494  1.0000\n  Mg  Mg13      1.0000  0.5000  0.7490  0.7506  1.0000\n  Mg  Mg14      1.0000  0.2574  0.0000  0.2465  1.0000\n  Mg  Mg15      1.0000  0.2574  0.0000  0.7535  1.0000\n  Mg  Mg16      1.0000  0.2510  0.5000  0.2494  1.0000\n  Mg  Mg17      1.0000  0.2510  0.5000  0.7506  1.0000\n  Mg  Mg18      1.0000  0.7426  0.0000  0.2465  1.0000\n  Mg  Mg19      1.0000  0.7426  0.0000  0.7535  1.0000\n  Mg  Mg20      1.0000  0.7490  0.5000  0.2494  1.0000\n  Mg  Mg21      1.0000  0.7490  0.5000  0.7506  1.0000\n  Mg  Mg22      1.0000  0.2509  0.2509  0.0000  1.0000\n  Mg  Mg23      1.0000  0.2553  0.2553  0.5000  1.0000\n  Mg  Mg24      1.0000  0.2509  0.7491  0.0000  1.0000\n  Mg  Mg25      1.0000  0.2553  0.7447  0.5000  1.0000\n  Mg  Mg26      1.0000  0.7491  0.2509  0.0000  1.0000\n  Mg  Mg27      1.0000  0.7447  0.2553  0.5000  1.0000\n  Mg  Mg28      1.0000  0.7491  0.7491  0.0000  1.0000\n  Mg  Mg29      1.0000  0.7447  0.7447  0.5000  1.0000\n  Ti  Ti1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2571  0.0000  0.0000  1.0000\n  O   O3        1.0000  0.2705  0.0000  0.5000  1.0000\n  O   O4        1.0000  0.2513  0.5000  0.0000  1.0000\n  O   O5        1.0000  0.2540  0.5000  0.5000  1.0000\n  O   O6        1.0000  0.7429  0.0000  0.0000  1.0000\n  O   O7        1.0000  0.7295  0.0000  0.5000  1.0000\n  O   O8        1.0000  0.7487  0.5000  0.0000  1.0000\n  O   O9        1.0000  0.7460  0.5000  0.5000  1.0000\n  O   O10       1.0000  0.2495  0.2495  0.2501  1.0000\n  O   O11       1.0000  0.2495  0.2495  0.7499  1.0000\n  O   O12       1.0000  0.2495  0.7505  0.2501  1.0000\n  O   O13       1.0000  0.2495  0.7505  0.7499  1.0000\n  O   O14       1.0000  0.7505  0.2495  0.2501  1.0000\n  O   O15       1.0000  0.7505  0.2495  0.7499  1.0000\n  O   O16       1.0000  0.7505  0.7505  0.2501  1.0000\n  O   O17       1.0000  0.7505  0.7505  0.7499  1.0000\n  O   O18       1.0000  0.0000  0.0000  0.2327  1.0000\n  O   O19       1.0000  0.0000  0.0000  0.7673  1.0000\n  O   O20       1.0000  0.0000  0.5000  0.2463  1.0000\n  O   O21       1.0000  0.0000  0.5000  0.7537  1.0000\n  O   O22       1.0000  0.5000  0.0000  0.2463  1.0000\n  O   O23       1.0000  0.5000  0.0000  0.7537  1.0000\n  O   O24       1.0000  0.5000  0.5000  0.2491  1.0000\n  O   O25       1.0000  0.5000  0.5000  0.7509  1.0000\n  O   O26       1.0000  0.0000  0.2571  0.0000  1.0000\n  O   O27       1.0000  0.0000  0.2705  0.5000  1.0000\n  Mg  Mg30      1.0000  0.0000  0.7429  0.0000  1.0000\n  O   O28       1.0000  0.0000  0.7295  0.5000  1.0000\n  O   O29       1.0000  0.5000  0.2513  0.0000  1.0000\n  O   O30       1.0000  0.5000  0.2540  0.5000  1.0000\n  O   O31       1.0000  0.5000  0.7487  0.0000  1.0000\n  O   O32       1.0000  0.5000  0.7460  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "06d67f78-48f0-45fe-a906-932ea5509807",
    "mp_id": "mp-1041045",
    "action_prompt": "Swap the spatial positions of atoms at indices 32 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe2(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8798\n_cell_length_b   8.8798\n_cell_length_c   16.5476\n_cell_angle_alpha   61.4401\n_cell_angle_beta   61.4401\n_cell_angle_gamma   33.5719\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe2(PO4)2\n_chemical_formula_sum   'Mg4 Fe8 P8 O32'\n_cell_volume   625.1281\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1416  0.5592  0.1236  1\n  Mg  Mg1  1  0.4408  0.8584  0.3764  1\n  Mg  Mg2  1  0.5592  0.1416  0.6236  1\n  Mg  Mg3  1  0.8584  0.4408  0.8764  1\n  Fe  Fe4  1  0.3942  0.7962  0.0340  1\n  Fe  Fe5  1  0.2038  0.6058  0.4660  1\n  Fe  Fe6  1  0.6058  0.2038  0.9660  1\n  Fe  Fe7  1  0.0000  0.5000  0.0000  1\n  Fe  Fe8  1  0.7962  0.3942  0.5340  1\n  Fe  Fe9  1  0.5748  0.4252  0.7500  1\n  Fe  Fe10  1  0.4252  0.5748  0.2500  1\n  Fe  Fe11  1  0.5000  0.0000  0.5000  1\n  P  P12  1  0.4874  0.9365  0.1442  1\n  P  P13  1  0.8201  0.2219  0.3888  1\n  P  P14  1  0.5126  0.0635  0.8558  1\n  P  P15  1  0.2219  0.8201  0.8888  1\n  P  P16  1  0.9365  0.4874  0.6442  1\n  P  P17  1  0.0635  0.5126  0.3558  1\n  P  P18  1  0.1799  0.7781  0.6112  1\n  P  P19  1  0.7781  0.1799  0.1112  1\n  O  O20  1  0.1998  0.2749  0.9005  1\n  O  O21  1  0.5734  0.2607  0.0806  1\n  O  O22  1  0.2749  0.1998  0.4005  1\n  O  O23  1  0.6466  0.1910  0.4589  1\n  O  O24  1  0.6747  0.7849  0.9275  1\n  O  O25  1  0.7627  0.3420  0.2898  1\n  O  O26  1  0.8090  0.3534  0.0411  1\n  O  O27  1  0.9295  0.1321  0.8953  1\n  O  O28  1  0.3534  0.8090  0.5411  1\n  O  O29  1  0.7393  0.4266  0.4194  1\n  O  O30  1  0.6045  0.1572  0.8559  1\n  O  O31  1  0.9712  0.4317  0.7388  1\n  O  O32  1  0.4266  0.7393  0.9194  1\n  O  O33  1  0.1321  0.9295  0.3953  1\n  O  O34  1  0.8002  0.7251  0.0995  1\n  O  O35  1  0.3955  0.8428  0.1441  1\n  O  O36  1  0.4317  0.9712  0.2388  1\n  O  O37  1  0.1910  0.6466  0.9589  1\n  O  O38  1  0.1572  0.6045  0.3559  1\n  O  O39  1  0.0288  0.5683  0.2612  1\n  O  O40  1  0.8679  0.0705  0.6047  1\n  O  O41  1  0.7849  0.6747  0.4275  1\n  O  O42  1  0.0705  0.8679  0.1047  1\n  O  O43  1  0.3420  0.7627  0.7898  1\n  O  O44  1  0.2607  0.5734  0.5806  1\n  O  O45  1  0.7251  0.8002  0.5995  1\n  O  O46  1  0.5683  0.0288  0.7612  1\n  O  O47  1  0.2151  0.3253  0.5725  1\n  O  O48  1  0.3253  0.2151  0.0725  1\n  O  O49  1  0.6580  0.2373  0.2102  1\n  O  O50  1  0.2373  0.6580  0.7102  1\n  O  O51  1  0.8428  0.3955  0.6441  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4Fe8P4OP3O12PO19\n_chemical_formula_sum              \"Mg4 Fe8 P8 O32\"\n_cell_length_a       8.8798\n_cell_length_b       8.8798\n_cell_length_c       16.5476\n_cell_angle_alpha    61.4401\n_cell_angle_beta     61.4401\n_cell_angle_gamma    33.5719\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1416  0.5592  0.1236  1.0000\n  Mg  Mg2       1.0000  0.4408  0.8584  0.3764  1.0000\n  Mg  Mg3       1.0000  0.5592  0.1416  0.6236  1.0000\n  Mg  Mg4       1.0000  0.8584  0.4408  0.8764  1.0000\n  Fe  Fe1       1.0000  0.3942  0.7962  0.0340  1.0000\n  Fe  Fe2       1.0000  0.2038  0.6058  0.4660  1.0000\n  Fe  Fe3       1.0000  0.6058  0.2038  0.9660  1.0000\n  Fe  Fe4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Fe  Fe5       1.0000  0.7962  0.3942  0.5340  1.0000\n  Fe  Fe6       1.0000  0.5748  0.4252  0.7500  1.0000\n  Fe  Fe7       1.0000  0.4252  0.5748  0.2500  1.0000\n  Fe  Fe8       1.0000  0.5000  0.0000  0.5000  1.0000\n  P   P1        1.0000  0.4874  0.9365  0.1442  1.0000\n  P   P2        1.0000  0.8201  0.2219  0.3888  1.0000\n  P   P3        1.0000  0.5126  0.0635  0.8558  1.0000\n  P   P4        1.0000  0.2219  0.8201  0.8888  1.0000\n  O   O1        1.0000  0.9365  0.4874  0.6442  1.0000\n  P   P5        1.0000  0.0635  0.5126  0.3558  1.0000\n  P   P6        1.0000  0.1799  0.7781  0.6112  1.0000\n  P   P7        1.0000  0.7781  0.1799  0.1112  1.0000\n  O   O2        1.0000  0.1998  0.2749  0.9005  1.0000\n  O   O3        1.0000  0.5734  0.2607  0.0806  1.0000\n  O   O4        1.0000  0.2749  0.1998  0.4005  1.0000\n  O   O5        1.0000  0.6466  0.1910  0.4589  1.0000\n  O   O6        1.0000  0.6747  0.7849  0.9275  1.0000\n  O   O7        1.0000  0.7627  0.3420  0.2898  1.0000\n  O   O8        1.0000  0.8090  0.3534  0.0411  1.0000\n  O   O9        1.0000  0.9295  0.1321  0.8953  1.0000\n  O   O10       1.0000  0.3534  0.8090  0.5411  1.0000\n  O   O11       1.0000  0.7393  0.4266  0.4194  1.0000\n  O   O12       1.0000  0.6045  0.1572  0.8559  1.0000\n  O   O13       1.0000  0.9712  0.4317  0.7388  1.0000\n  P   P8        1.0000  0.4266  0.7393  0.9194  1.0000\n  O   O14       1.0000  0.1321  0.9295  0.3953  1.0000\n  O   O15       1.0000  0.8002  0.7251  0.0995  1.0000\n  O   O16       1.0000  0.3955  0.8428  0.1441  1.0000\n  O   O17       1.0000  0.4317  0.9712  0.2388  1.0000\n  O   O18       1.0000  0.1910  0.6466  0.9589  1.0000\n  O   O19       1.0000  0.1572  0.6045  0.3559  1.0000\n  O   O20       1.0000  0.0288  0.5683  0.2612  1.0000\n  O   O21       1.0000  0.8679  0.0705  0.6047  1.0000\n  O   O22       1.0000  0.7849  0.6747  0.4275  1.0000\n  O   O23       1.0000  0.0705  0.8679  0.1047  1.0000\n  O   O24       1.0000  0.3420  0.7627  0.7898  1.0000\n  O   O25       1.0000  0.2607  0.5734  0.5806  1.0000\n  O   O26       1.0000  0.7251  0.8002  0.5995  1.0000\n  O   O27       1.0000  0.5683  0.0288  0.7612  1.0000\n  O   O28       1.0000  0.2151  0.3253  0.5725  1.0000\n  O   O29       1.0000  0.3253  0.2151  0.0725  1.0000\n  O   O30       1.0000  0.6580  0.2373  0.2102  1.0000\n  O   O31       1.0000  0.2373  0.6580  0.7102  1.0000\n  O   O32       1.0000  0.8428  0.3955  0.6441  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "85e73b11-5d75-4207-aa03-9833e3f340f2",
    "mp_id": "mp-1041056",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCu2(TeO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2884\n_cell_length_b   8.7495\n_cell_length_c   13.3975\n_cell_angle_alpha   90.0000\n_cell_angle_beta   91.0289\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCu2(TeO4)2\n_chemical_formula_sum   'Mg4 Cu8 Te8 O32'\n_cell_volume   737.0079\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1191  0.1559  0.0469  1\n  Mg  Mg1  1  0.8809  0.8441  0.9531  1\n  Mg  Mg2  1  0.8809  0.6559  0.4531  1\n  Mg  Mg3  1  0.1191  0.3441  0.5469  1\n  Cu  Cu4  1  0.7462  0.1828  0.8906  1\n  Cu  Cu5  1  0.3939  0.0743  0.6222  1\n  Cu  Cu6  1  0.6061  0.9257  0.3778  1\n  Cu  Cu7  1  0.2537  0.8172  0.1094  1\n  Cu  Cu8  1  0.7462  0.3172  0.3906  1\n  Cu  Cu9  1  0.3939  0.4257  0.1222  1\n  Cu  Cu10  1  0.2537  0.6828  0.6094  1\n  Cu  Cu11  1  0.6061  0.5743  0.8778  1\n  Te  Te12  1  0.0468  0.4454  0.8414  1\n  Te  Te13  1  0.0468  0.0546  0.3414  1\n  Te  Te14  1  0.6471  0.0976  0.1367  1\n  Te  Te15  1  0.9532  0.9454  0.6586  1\n  Te  Te16  1  0.3529  0.9024  0.8633  1\n  Te  Te17  1  0.3529  0.5976  0.3633  1\n  Te  Te18  1  0.6471  0.4024  0.6367  1\n  Te  Te19  1  0.9532  0.5546  0.1586  1\n  O  O20  1  0.0428  0.2492  0.4071  1\n  O  O21  1  0.6894  0.0141  0.6071  1\n  O  O22  1  0.1943  0.5579  0.4858  1\n  O  O23  1  0.8057  0.0579  0.0142  1\n  O  O24  1  0.0428  0.2508  0.9071  1\n  O  O25  1  0.9572  0.7508  0.5929  1\n  O  O26  1  0.0923  0.1279  0.6158  1\n  O  O27  1  0.5187  0.9062  0.1564  1\n  O  O28  1  0.5187  0.5938  0.6564  1\n  O  O29  1  0.2773  0.8848  0.6648  1\n  O  O30  1  0.7227  0.3848  0.8352  1\n  O  O31  1  0.4813  0.0938  0.8436  1\n  O  O32  1  0.9077  0.8721  0.3842  1\n  O  O33  1  0.9280  0.5552  0.2970  1\n  O  O34  1  0.4256  0.2859  0.5730  1\n  O  O35  1  0.4256  0.2141  0.0730  1\n  O  O36  1  0.0720  0.0552  0.2030  1\n  O  O37  1  0.4813  0.4062  0.3436  1\n  O  O38  1  0.0720  0.4448  0.7030  1\n  O  O39  1  0.8057  0.4421  0.5142  1\n  O  O40  1  0.6894  0.4859  0.1071  1\n  O  O41  1  0.7227  0.1152  0.3352  1\n  O  O42  1  0.9572  0.7492  0.0929  1\n  O  O43  1  0.0923  0.3721  0.1158  1\n  O  O44  1  0.1943  0.9421  0.9858  1\n  O  O45  1  0.5744  0.7859  0.9270  1\n  O  O46  1  0.3106  0.9859  0.3929  1\n  O  O47  1  0.3106  0.5141  0.8929  1\n  O  O48  1  0.9077  0.6279  0.8842  1\n  O  O49  1  0.5744  0.7141  0.4270  1\n  O  O50  1  0.2773  0.6152  0.1648  1\n  O  O51  1  0.9280  0.9448  0.7970  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4Cu4OCu3Te8O6CuO25\n_chemical_formula_sum              \"Mg4 Cu8 O32 Te8\"\n_cell_length_a       6.2884\n_cell_length_b       8.7495\n_cell_length_c       13.3975\n_cell_angle_alpha    90.0000\n_cell_angle_beta     91.0289\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1191  0.1559  0.0469  1.0000\n  Mg  Mg2       1.0000  0.8809  0.8441  0.9531  1.0000\n  Mg  Mg3       1.0000  0.8809  0.6559  0.4531  1.0000\n  Mg  Mg4       1.0000  0.1191  0.3441  0.5469  1.0000\n  Cu  Cu1       1.0000  0.7462  0.1828  0.8906  1.0000\n  Cu  Cu2       1.0000  0.3939  0.0743  0.6222  1.0000\n  Cu  Cu3       1.0000  0.6061  0.9257  0.3778  1.0000\n  Cu  Cu4       1.0000  0.2537  0.8172  0.1094  1.0000\n  O   O1        1.0000  0.7462  0.3172  0.3906  1.0000\n  Cu  Cu5       1.0000  0.3939  0.4257  0.1222  1.0000\n  Cu  Cu6       1.0000  0.2537  0.6828  0.6094  1.0000\n  Cu  Cu7       1.0000  0.6061  0.5743  0.8778  1.0000\n  Te  Te1       1.0000  0.0468  0.4454  0.8414  1.0000\n  Te  Te2       1.0000  0.0468  0.0546  0.3414  1.0000\n  Te  Te3       1.0000  0.6471  0.0976  0.1367  1.0000\n  Te  Te4       1.0000  0.9532  0.9454  0.6586  1.0000\n  Te  Te5       1.0000  0.3529  0.9024  0.8633  1.0000\n  Te  Te6       1.0000  0.3529  0.5976  0.3633  1.0000\n  Te  Te7       1.0000  0.6471  0.4024  0.6367  1.0000\n  Te  Te8       1.0000  0.9532  0.5546  0.1586  1.0000\n  O   O2        1.0000  0.0428  0.2492  0.4071  1.0000\n  O   O3        1.0000  0.6894  0.0141  0.6071  1.0000\n  O   O4        1.0000  0.1943  0.5579  0.4858  1.0000\n  O   O5        1.0000  0.8057  0.0579  0.0142  1.0000\n  O   O6        1.0000  0.0428  0.2508  0.9071  1.0000\n  O   O7        1.0000  0.9572  0.7508  0.5929  1.0000\n  Cu  Cu8       1.0000  0.0923  0.1279  0.6158  1.0000\n  O   O8        1.0000  0.5187  0.9062  0.1564  1.0000\n  O   O9        1.0000  0.5187  0.5938  0.6564  1.0000\n  O   O10       1.0000  0.2773  0.8848  0.6648  1.0000\n  O   O11       1.0000  0.7227  0.3848  0.8352  1.0000\n  O   O12       1.0000  0.4813  0.0938  0.8436  1.0000\n  O   O13       1.0000  0.9077  0.8721  0.3842  1.0000\n  O   O14       1.0000  0.9280  0.5552  0.2970  1.0000\n  O   O15       1.0000  0.4256  0.2859  0.5730  1.0000\n  O   O16       1.0000  0.4256  0.2141  0.0730  1.0000\n  O   O17       1.0000  0.0720  0.0552  0.2030  1.0000\n  O   O18       1.0000  0.4813  0.4062  0.3436  1.0000\n  O   O19       1.0000  0.0720  0.4448  0.7030  1.0000\n  O   O20       1.0000  0.8057  0.4421  0.5142  1.0000\n  O   O21       1.0000  0.6894  0.4859  0.1071  1.0000\n  O   O22       1.0000  0.7227  0.1152  0.3352  1.0000\n  O   O23       1.0000  0.9572  0.7492  0.0929  1.0000\n  O   O24       1.0000  0.0923  0.3721  0.1158  1.0000\n  O   O25       1.0000  0.1943  0.9421  0.9858  1.0000\n  O   O26       1.0000  0.5744  0.7859  0.9270  1.0000\n  O   O27       1.0000  0.3106  0.9859  0.3929  1.0000\n  O   O28       1.0000  0.3106  0.5141  0.8929  1.0000\n  O   O29       1.0000  0.9077  0.6279  0.8842  1.0000\n  O   O30       1.0000  0.5744  0.7141  0.4270  1.0000\n  O   O31       1.0000  0.2773  0.6152  0.1648  1.0000\n  O   O32       1.0000  0.9280  0.9448  0.7970  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6a99652f-ab23-4fbd-9512-7beb5878682c",
    "mp_id": "mp-1041213",
    "action_prompt": "Swap the spatial positions of atoms at indices 34 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_P4W3O14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1404\n_cell_length_b   7.6386\n_cell_length_c   9.7532\n_cell_angle_alpha   71.1067\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   P4W3O14\n_chemical_formula_sum   'P8 W6 O28'\n_cell_volume   573.7894\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  P  P0  1  0.6989  0.8744  0.3034  1\n  P  P1  1  0.0644  0.5870  0.7947  1\n  P  P2  1  0.4356  0.5870  0.2947  1\n  P  P3  1  0.5644  0.4130  0.7053  1\n  P  P4  1  0.9356  0.4130  0.2053  1\n  P  P5  1  0.3011  0.1256  0.6966  1\n  P  P6  1  0.8011  0.8744  0.8034  1\n  P  P7  1  0.1989  0.1256  0.1966  1\n  W  W8  1  0.6305  0.1955  0.4711  1\n  W  W9  1  0.8695  0.1955  0.9711  1\n  W  W10  1  0.1305  0.8045  0.0289  1\n  W  W11  1  0.5000  0.0000  0.0000  1\n  W  W12  1  0.3695  0.8045  0.5289  1\n  W  W13  1  0.0000  0.0000  0.5000  1\n  O  O14  1  0.6478  0.3164  0.8507  1\n  O  O15  1  0.7101  0.0014  0.1418  1\n  O  O16  1  0.0731  0.0418  0.1116  1\n  O  O17  1  0.3627  0.1544  0.1216  1\n  O  O18  1  0.7899  0.0014  0.6418  1\n  O  O19  1  0.4269  0.0418  0.6116  1\n  O  O20  1  0.2899  0.9986  0.8582  1\n  O  O21  1  0.9269  0.9582  0.8884  1\n  O  O22  1  0.6373  0.8456  0.8784  1\n  O  O23  1  0.2101  0.9986  0.3582  1\n  O  O24  1  0.5731  0.9582  0.3884  1\n  O  O25  1  0.8831  0.6896  0.7938  1\n  O  O26  1  0.1611  0.6105  0.9213  1\n  O  O27  1  0.8627  0.8456  0.3784  1\n  O  O28  1  0.1478  0.6836  0.6493  1\n  O  O29  1  0.5185  0.6123  0.6860  1\n  O  O30  1  0.6169  0.6896  0.2938  1\n  O  O31  1  0.8389  0.3895  0.0787  1\n  O  O32  1  0.3522  0.6836  0.1493  1\n  O  O33  1  0.0185  0.3877  0.8140  1\n  O  O34  1  0.9815  0.6123  0.1860  1\n  O  O35  1  0.1169  0.3104  0.2062  1\n  O  O36  1  0.6611  0.3895  0.5787  1\n  O  O37  1  0.3831  0.3104  0.7062  1\n  O  O38  1  0.4815  0.3877  0.3140  1\n  O  O39  1  0.8522  0.3164  0.3507  1\n  O  O40  1  0.1373  0.1544  0.6216  1\n  O  O41  1  0.3389  0.6105  0.4213  1\n",
    "output": "data_image0\n_chemical_formula_structural       P4OP3W6O20PO7\n_chemical_formula_sum              \"P8 O28 W6\"\n_cell_length_a       8.1404\n_cell_length_b       7.6386\n_cell_length_c       9.7532\n_cell_angle_alpha    71.1067\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.6989  0.8744  0.3034  1.0000\n  P   P2        1.0000  0.0644  0.5870  0.7947  1.0000\n  P   P3        1.0000  0.4356  0.5870  0.2947  1.0000\n  P   P4        1.0000  0.5644  0.4130  0.7053  1.0000\n  O   O1        1.0000  0.9356  0.4130  0.2053  1.0000\n  P   P5        1.0000  0.3011  0.1256  0.6966  1.0000\n  P   P6        1.0000  0.8011  0.8744  0.8034  1.0000\n  P   P7        1.0000  0.1989  0.1256  0.1966  1.0000\n  W   W1        1.0000  0.6305  0.1955  0.4711  1.0000\n  W   W2        1.0000  0.8695  0.1955  0.9711  1.0000\n  W   W3        1.0000  0.1305  0.8045  0.0289  1.0000\n  W   W4        1.0000  0.5000  0.0000  0.0000  1.0000\n  W   W5        1.0000  0.3695  0.8045  0.5289  1.0000\n  W   W6        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.6478  0.3164  0.8507  1.0000\n  O   O3        1.0000  0.7101  0.0014  0.1418  1.0000\n  O   O4        1.0000  0.0731  0.0418  0.1116  1.0000\n  O   O5        1.0000  0.3627  0.1544  0.1216  1.0000\n  O   O6        1.0000  0.7899  0.0014  0.6418  1.0000\n  O   O7        1.0000  0.4269  0.0418  0.6116  1.0000\n  O   O8        1.0000  0.2899  0.9986  0.8582  1.0000\n  O   O9        1.0000  0.9269  0.9582  0.8884  1.0000\n  O   O10       1.0000  0.6373  0.8456  0.8784  1.0000\n  O   O11       1.0000  0.2101  0.9986  0.3582  1.0000\n  O   O12       1.0000  0.5731  0.9582  0.3884  1.0000\n  O   O13       1.0000  0.8831  0.6896  0.7938  1.0000\n  O   O14       1.0000  0.1611  0.6105  0.9213  1.0000\n  O   O15       1.0000  0.8627  0.8456  0.3784  1.0000\n  O   O16       1.0000  0.1478  0.6836  0.6493  1.0000\n  O   O17       1.0000  0.5185  0.6123  0.6860  1.0000\n  O   O18       1.0000  0.6169  0.6896  0.2938  1.0000\n  O   O19       1.0000  0.8389  0.3895  0.0787  1.0000\n  O   O20       1.0000  0.3522  0.6836  0.1493  1.0000\n  O   O21       1.0000  0.0185  0.3877  0.8140  1.0000\n  P   P8        1.0000  0.9815  0.6123  0.1860  1.0000\n  O   O22       1.0000  0.1169  0.3104  0.2062  1.0000\n  O   O23       1.0000  0.6611  0.3895  0.5787  1.0000\n  O   O24       1.0000  0.3831  0.3104  0.7062  1.0000\n  O   O25       1.0000  0.4815  0.3877  0.3140  1.0000\n  O   O26       1.0000  0.8522  0.3164  0.3507  1.0000\n  O   O27       1.0000  0.1373  0.1544  0.6216  1.0000\n  O   O28       1.0000  0.3389  0.6105  0.4213  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d5c0c928-77a9-4b6f-a85e-b4d82446834a",
    "mp_id": "mp-1042028",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMn2O4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3355\n_cell_length_b   6.3355\n_cell_length_c   6.3355\n_cell_angle_alpha   121.5230\n_cell_angle_beta   119.8585\n_cell_angle_gamma   88.8139\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMn2O4\n_chemical_formula_sum   'Ca2 Mn4 O8'\n_cell_volume   177.8527\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0000  0.5000  0.5000  1\n  Ca  Ca1  1  0.5000  0.5000  0.0000  1\n  Mn  Mn2  1  0.1429  0.8929  0.2500  1\n  Mn  Mn3  1  0.8571  0.1071  0.7500  1\n  Mn  Mn4  1  0.5000  0.0000  0.0000  1\n  Mn  Mn5  1  0.5000  0.5000  0.5000  1\n  O  O6  1  0.7135  0.2120  0.9985  1\n  O  O7  1  0.7070  0.2437  0.4633  1\n  O  O8  1  0.7135  0.7151  0.5015  1\n  O  O9  1  0.2804  0.2437  0.0367  1\n  O  O10  1  0.7196  0.7563  0.9633  1\n  O  O11  1  0.2930  0.7563  0.5367  1\n  O  O12  1  0.2865  0.2849  0.4985  1\n  O  O13  1  0.2865  0.7880  0.0015  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2OMn3O5MnO2\n_chemical_formula_sum              \"Ca2 O8 Mn4\"\n_cell_length_a       6.3355\n_cell_length_b       6.3355\n_cell_length_c       6.3355\n_cell_angle_alpha    121.5230\n_cell_angle_beta     119.8585\n_cell_angle_gamma    88.8139\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ca  Ca2       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.1429  0.8929  0.2500  1.0000\n  Mn  Mn1       1.0000  0.8571  0.1071  0.7500  1.0000\n  Mn  Mn2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mn  Mn3       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7135  0.2120  0.9985  1.0000\n  O   O3        1.0000  0.7070  0.2437  0.4633  1.0000\n  O   O4        1.0000  0.7135  0.7151  0.5015  1.0000\n  O   O5        1.0000  0.2804  0.2437  0.0367  1.0000\n  O   O6        1.0000  0.7196  0.7563  0.9633  1.0000\n  Mn  Mn4       1.0000  0.2930  0.7563  0.5367  1.0000\n  O   O7        1.0000  0.2865  0.2849  0.4985  1.0000\n  O   O8        1.0000  0.2865  0.7880  0.0015  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7fa5930e-5d37-4bf0-9019-12c5f3194d09",
    "mp_id": "mp-1042158",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca(WO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6862\n_cell_length_b   6.5687\n_cell_length_c   11.1658\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca(WO2)2\n_chemical_formula_sum   'Ca4 W8 O16'\n_cell_volume   417.0501\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.3535  0.0000  0.5000  1\n  Ca  Ca1  1  0.6465  0.5000  0.0000  1\n  Ca  Ca2  1  0.0336  0.0000  0.0000  1\n  Ca  Ca3  1  0.9664  0.5000  0.5000  1\n  W  W4  1  0.0122  0.5000  0.2337  1\n  W  W5  1  0.0122  0.5000  0.7663  1\n  W  W6  1  0.9878  0.0000  0.2663  1\n  W  W7  1  0.9878  0.0000  0.7337  1\n  W  W8  1  0.5000  0.2500  0.2500  1\n  W  W9  1  0.5000  0.7500  0.7500  1\n  W  W10  1  0.5000  0.7500  0.2500  1\n  W  W11  1  0.5000  0.2500  0.7500  1\n  O  O12  1  0.3561  0.5000  0.1465  1\n  O  O13  1  0.3561  0.5000  0.8535  1\n  O  O14  1  0.6439  0.0000  0.3535  1\n  O  O15  1  0.6439  0.0000  0.6465  1\n  O  O16  1  0.6920  0.5000  0.3388  1\n  O  O17  1  0.6920  0.5000  0.6612  1\n  O  O18  1  0.3080  0.0000  0.1612  1\n  O  O19  1  0.3080  0.0000  0.8388  1\n  O  O20  1  0.1647  0.2568  0.3535  1\n  O  O21  1  0.1647  0.7432  0.6465  1\n  O  O22  1  0.8353  0.7568  0.1465  1\n  O  O23  1  0.8353  0.2432  0.8535  1\n  O  O24  1  0.8353  0.2432  0.1465  1\n  O  O25  1  0.8353  0.7568  0.8535  1\n  O  O26  1  0.1647  0.7432  0.3535  1\n  O  O27  1  0.1647  0.2568  0.6465  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaOCa2W8O8CaO7\n_chemical_formula_sum              \"Ca4 O16 W8\"\n_cell_length_a       5.6862\n_cell_length_b       6.5687\n_cell_length_c       11.1658\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.3535  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.6465  0.5000  0.0000  1.0000\n  Ca  Ca2       1.0000  0.0336  0.0000  0.0000  1.0000\n  Ca  Ca3       1.0000  0.9664  0.5000  0.5000  1.0000\n  W   W1        1.0000  0.0122  0.5000  0.2337  1.0000\n  W   W2        1.0000  0.0122  0.5000  0.7663  1.0000\n  W   W3        1.0000  0.9878  0.0000  0.2663  1.0000\n  W   W4        1.0000  0.9878  0.0000  0.7337  1.0000\n  W   W5        1.0000  0.5000  0.2500  0.2500  1.0000\n  W   W6        1.0000  0.5000  0.7500  0.7500  1.0000\n  W   W7        1.0000  0.5000  0.7500  0.2500  1.0000\n  W   W8        1.0000  0.5000  0.2500  0.7500  1.0000\n  O   O2        1.0000  0.3561  0.5000  0.1465  1.0000\n  O   O3        1.0000  0.3561  0.5000  0.8535  1.0000\n  O   O4        1.0000  0.6439  0.0000  0.3535  1.0000\n  O   O5        1.0000  0.6439  0.0000  0.6465  1.0000\n  O   O6        1.0000  0.6920  0.5000  0.3388  1.0000\n  O   O7        1.0000  0.6920  0.5000  0.6612  1.0000\n  O   O8        1.0000  0.3080  0.0000  0.1612  1.0000\n  O   O9        1.0000  0.3080  0.0000  0.8388  1.0000\n  Ca  Ca4       1.0000  0.1647  0.2568  0.3535  1.0000\n  O   O10       1.0000  0.1647  0.7432  0.6465  1.0000\n  O   O11       1.0000  0.8353  0.7568  0.1465  1.0000\n  O   O12       1.0000  0.8353  0.2432  0.8535  1.0000\n  O   O13       1.0000  0.8353  0.2432  0.1465  1.0000\n  O   O14       1.0000  0.8353  0.7568  0.8535  1.0000\n  O   O15       1.0000  0.1647  0.7432  0.3535  1.0000\n  O   O16       1.0000  0.1647  0.2568  0.6465  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2e7292b6-6fdc-4ba0-9e03-c8882471b948",
    "mp_id": "mp-1042205",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YCo(WO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8988\n_cell_length_b   5.1903\n_cell_length_c   9.9550\n_cell_angle_alpha   86.5506\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YCo(WO4)2\n_chemical_formula_sum   'Y2 Co2 W4 O16'\n_cell_volume   304.2311\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.3288  0.0000  0.0000  1\n  Y  Y1  1  0.6522  0.5000  0.5000  1\n  Co  Co2  1  0.6741  0.5000  0.0000  1\n  Co  Co3  1  0.2697  0.0000  0.5000  1\n  W  W4  1  0.8391  0.0015  0.2423  1\n  W  W5  1  0.8391  0.9985  0.7577  1\n  W  W6  1  0.1697  0.5042  0.2520  1\n  W  W7  1  0.1697  0.4958  0.7480  1\n  O  O8  1  0.6508  0.8433  0.8894  1\n  O  O9  1  0.6508  0.1567  0.1106  1\n  O  O10  1  0.3590  0.6734  0.6090  1\n  O  O11  1  0.3590  0.3266  0.3910  1\n  O  O12  1  0.0873  0.8040  0.3612  1\n  O  O13  1  0.0873  0.1960  0.6388  1\n  O  O14  1  0.9094  0.7000  0.1385  1\n  O  O15  1  0.9094  0.3000  0.8615  1\n  O  O16  1  0.3904  0.3771  0.8726  1\n  O  O17  1  0.3904  0.6229  0.1274  1\n  O  O18  1  0.6252  0.1410  0.6410  1\n  O  O19  1  0.6252  0.8590  0.3590  1\n  O  O20  1  0.1198  0.8266  0.8469  1\n  O  O21  1  0.8876  0.6921  0.6540  1\n  O  O22  1  0.1198  0.1734  0.1531  1\n  O  O23  1  0.8876  0.3079  0.3460  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y2OCoW4O11CoO4\n_chemical_formula_sum              \"Y2 O16 Co2 W4\"\n_cell_length_a       5.8988\n_cell_length_b       5.1903\n_cell_length_c       9.9550\n_cell_angle_alpha    86.5506\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.3288  0.0000  0.0000  1.0000\n  Y   Y2        1.0000  0.6522  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.6741  0.5000  0.0000  1.0000\n  Co  Co1       1.0000  0.2697  0.0000  0.5000  1.0000\n  W   W1        1.0000  0.8391  0.0015  0.2423  1.0000\n  W   W2        1.0000  0.8391  0.9985  0.7577  1.0000\n  W   W3        1.0000  0.1697  0.5042  0.2520  1.0000\n  W   W4        1.0000  0.1697  0.4958  0.7480  1.0000\n  O   O2        1.0000  0.6508  0.8433  0.8894  1.0000\n  O   O3        1.0000  0.6508  0.1567  0.1106  1.0000\n  O   O4        1.0000  0.3590  0.6734  0.6090  1.0000\n  O   O5        1.0000  0.3590  0.3266  0.3910  1.0000\n  O   O6        1.0000  0.0873  0.8040  0.3612  1.0000\n  O   O7        1.0000  0.0873  0.1960  0.6388  1.0000\n  O   O8        1.0000  0.9094  0.7000  0.1385  1.0000\n  O   O9        1.0000  0.9094  0.3000  0.8615  1.0000\n  O   O10       1.0000  0.3904  0.3771  0.8726  1.0000\n  O   O11       1.0000  0.3904  0.6229  0.1274  1.0000\n  O   O12       1.0000  0.6252  0.1410  0.6410  1.0000\n  Co  Co2       1.0000  0.6252  0.8590  0.3590  1.0000\n  O   O13       1.0000  0.1198  0.8266  0.8469  1.0000\n  O   O14       1.0000  0.8876  0.6921  0.6540  1.0000\n  O   O15       1.0000  0.1198  0.1734  0.1531  1.0000\n  O   O16       1.0000  0.8876  0.3079  0.3460  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "783a7e0e-aff9-4919-9ab5-7c5b29a4cd84",
    "mp_id": "mp-1042378",
    "action_prompt": "Swap the spatial positions of atoms at indices 41 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BiTeO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1764\n_cell_length_b   11.6521\n_cell_length_c   16.4144\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BiTeO5\n_chemical_formula_sum   'Bi8 Te8 O40'\n_cell_volume   1181.3163\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.9287  0.8257  0.2115  1\n  Bi  Bi1  1  0.0713  0.1743  0.7885  1\n  Bi  Bi2  1  0.5713  0.3257  0.7885  1\n  Bi  Bi3  1  0.0713  0.6743  0.7115  1\n  Bi  Bi4  1  0.4287  0.1743  0.2885  1\n  Bi  Bi5  1  0.4287  0.6743  0.2115  1\n  Bi  Bi6  1  0.5713  0.8257  0.7115  1\n  Bi  Bi7  1  0.9287  0.3257  0.2885  1\n  Te  Te8  1  0.9738  0.3911  0.6070  1\n  Te  Te9  1  0.5262  0.8911  0.3930  1\n  Te  Te10  1  0.0262  0.6089  0.3930  1\n  Te  Te11  1  0.4738  0.1089  0.6070  1\n  Te  Te12  1  0.0262  0.1089  0.1070  1\n  Te  Te13  1  0.9738  0.8911  0.8930  1\n  Te  Te14  1  0.5262  0.3911  0.1070  1\n  Te  Te15  1  0.4738  0.6089  0.8930  1\n  O  O16  1  0.8834  0.3007  0.7022  1\n  O  O17  1  0.2712  0.0374  0.0742  1\n  O  O18  1  0.2288  0.5374  0.9258  1\n  O  O19  1  0.2252  0.7900  0.1520  1\n  O  O20  1  0.2748  0.2900  0.8480  1\n  O  O21  1  0.8834  0.8007  0.7978  1\n  O  O22  1  0.2748  0.7900  0.6520  1\n  O  O23  1  0.6166  0.8007  0.2978  1\n  O  O24  1  0.2712  0.5374  0.4258  1\n  O  O25  1  0.1166  0.6993  0.2978  1\n  O  O26  1  0.6166  0.3007  0.2022  1\n  O  O27  1  0.6603  0.1937  0.5471  1\n  O  O28  1  0.7712  0.9626  0.4258  1\n  O  O29  1  0.7748  0.7100  0.6520  1\n  O  O30  1  0.1513  0.9995  0.8350  1\n  O  O31  1  0.7712  0.4626  0.0742  1\n  O  O32  1  0.1166  0.1993  0.2022  1\n  O  O33  1  0.7252  0.2100  0.3480  1\n  O  O34  1  0.1603  0.8063  0.9529  1\n  O  O35  1  0.2288  0.0374  0.5742  1\n  O  O36  1  0.3397  0.8063  0.4529  1\n  O  O37  1  0.8487  0.0005  0.1650  1\n  O  O38  1  0.7748  0.2100  0.8480  1\n  O  O39  1  0.6513  0.0005  0.6650  1\n  O  O40  1  0.3397  0.3063  0.0471  1\n  O  O41  1  0.1603  0.3063  0.5471  1\n  O  O42  1  0.7288  0.4626  0.5742  1\n  O  O43  1  0.7288  0.9626  0.9258  1\n  O  O44  1  0.6513  0.5005  0.8350  1\n  O  O45  1  0.8397  0.6937  0.4529  1\n  O  O46  1  0.8397  0.1937  0.0471  1\n  O  O47  1  0.6603  0.6937  0.9529  1\n  O  O48  1  0.8487  0.5005  0.3350  1\n  O  O49  1  0.7252  0.7100  0.1520  1\n  O  O50  1  0.2252  0.2900  0.3480  1\n  O  O51  1  0.1513  0.4995  0.6650  1\n  O  O52  1  0.3487  0.4995  0.1650  1\n  O  O53  1  0.3834  0.1993  0.7022  1\n  O  O54  1  0.3487  0.9995  0.3350  1\n  O  O55  1  0.3834  0.6993  0.7978  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBi7Te8O25BiO14\n_chemical_formula_sum              \"O40 Bi8 Te8\"\n_cell_length_a       6.1764\n_cell_length_b       11.6521\n_cell_length_c       16.4144\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.9287  0.8257  0.2115  1.0000\n  Bi  Bi1       1.0000  0.0713  0.1743  0.7885  1.0000\n  Bi  Bi2       1.0000  0.5713  0.3257  0.7885  1.0000\n  Bi  Bi3       1.0000  0.0713  0.6743  0.7115  1.0000\n  Bi  Bi4       1.0000  0.4287  0.1743  0.2885  1.0000\n  Bi  Bi5       1.0000  0.4287  0.6743  0.2115  1.0000\n  Bi  Bi6       1.0000  0.5713  0.8257  0.7115  1.0000\n  Bi  Bi7       1.0000  0.9287  0.3257  0.2885  1.0000\n  Te  Te1       1.0000  0.9738  0.3911  0.6070  1.0000\n  Te  Te2       1.0000  0.5262  0.8911  0.3930  1.0000\n  Te  Te3       1.0000  0.0262  0.6089  0.3930  1.0000\n  Te  Te4       1.0000  0.4738  0.1089  0.6070  1.0000\n  Te  Te5       1.0000  0.0262  0.1089  0.1070  1.0000\n  Te  Te6       1.0000  0.9738  0.8911  0.8930  1.0000\n  Te  Te7       1.0000  0.5262  0.3911  0.1070  1.0000\n  Te  Te8       1.0000  0.4738  0.6089  0.8930  1.0000\n  O   O2        1.0000  0.8834  0.3007  0.7022  1.0000\n  O   O3        1.0000  0.2712  0.0374  0.0742  1.0000\n  O   O4        1.0000  0.2288  0.5374  0.9258  1.0000\n  O   O5        1.0000  0.2252  0.7900  0.1520  1.0000\n  O   O6        1.0000  0.2748  0.2900  0.8480  1.0000\n  O   O7        1.0000  0.8834  0.8007  0.7978  1.0000\n  O   O8        1.0000  0.2748  0.7900  0.6520  1.0000\n  O   O9        1.0000  0.6166  0.8007  0.2978  1.0000\n  O   O10       1.0000  0.2712  0.5374  0.4258  1.0000\n  O   O11       1.0000  0.1166  0.6993  0.2978  1.0000\n  O   O12       1.0000  0.6166  0.3007  0.2022  1.0000\n  O   O13       1.0000  0.6603  0.1937  0.5471  1.0000\n  O   O14       1.0000  0.7712  0.9626  0.4258  1.0000\n  O   O15       1.0000  0.7748  0.7100  0.6520  1.0000\n  O   O16       1.0000  0.1513  0.9995  0.8350  1.0000\n  O   O17       1.0000  0.7712  0.4626  0.0742  1.0000\n  O   O18       1.0000  0.1166  0.1993  0.2022  1.0000\n  O   O19       1.0000  0.7252  0.2100  0.3480  1.0000\n  O   O20       1.0000  0.1603  0.8063  0.9529  1.0000\n  O   O21       1.0000  0.2288  0.0374  0.5742  1.0000\n  O   O22       1.0000  0.3397  0.8063  0.4529  1.0000\n  O   O23       1.0000  0.8487  0.0005  0.1650  1.0000\n  O   O24       1.0000  0.7748  0.2100  0.8480  1.0000\n  O   O25       1.0000  0.6513  0.0005  0.6650  1.0000\n  O   O26       1.0000  0.3397  0.3063  0.0471  1.0000\n  Bi  Bi8       1.0000  0.1603  0.3063  0.5471  1.0000\n  O   O27       1.0000  0.7288  0.4626  0.5742  1.0000\n  O   O28       1.0000  0.7288  0.9626  0.9258  1.0000\n  O   O29       1.0000  0.6513  0.5005  0.8350  1.0000\n  O   O30       1.0000  0.8397  0.6937  0.4529  1.0000\n  O   O31       1.0000  0.8397  0.1937  0.0471  1.0000\n  O   O32       1.0000  0.6603  0.6937  0.9529  1.0000\n  O   O33       1.0000  0.8487  0.5005  0.3350  1.0000\n  O   O34       1.0000  0.7252  0.7100  0.1520  1.0000\n  O   O35       1.0000  0.2252  0.2900  0.3480  1.0000\n  O   O36       1.0000  0.1513  0.4995  0.6650  1.0000\n  O   O37       1.0000  0.3487  0.4995  0.1650  1.0000\n  O   O38       1.0000  0.3834  0.1993  0.7022  1.0000\n  O   O39       1.0000  0.3487  0.9995  0.3350  1.0000\n  O   O40       1.0000  0.3834  0.6993  0.7978  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5282d844-4290-4115-aba7-9fd86ad9ee15",
    "mp_id": "mp-1042415",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 35 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaBi2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6472\n_cell_length_b   10.8412\n_cell_length_c   16.4893\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaBi2O5\n_chemical_formula_sum   'Ca8 Bi16 O40'\n_cell_volume   1009.5101\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.5362  0.3654  0.4263  1\n  Ca  Ca1  1  0.0362  0.1346  0.4263  1\n  Ca  Ca2  1  0.0362  0.6346  0.0737  1\n  Ca  Ca3  1  0.9638  0.3654  0.9263  1\n  Ca  Ca4  1  0.4638  0.1346  0.9263  1\n  Ca  Ca5  1  0.9638  0.8654  0.5737  1\n  Ca  Ca6  1  0.4638  0.6346  0.5737  1\n  Ca  Ca7  1  0.5362  0.8654  0.0737  1\n  Bi  Bi8  1  0.0360  0.3812  0.5742  1\n  Bi  Bi9  1  0.4640  0.8812  0.4258  1\n  Bi  Bi10  1  0.9640  0.6188  0.4258  1\n  Bi  Bi11  1  0.5360  0.1188  0.5742  1\n  Bi  Bi12  1  0.9640  0.1188  0.0742  1\n  Bi  Bi13  1  0.0360  0.8812  0.9258  1\n  Bi  Bi14  1  0.4640  0.3812  0.0742  1\n  Bi  Bi15  1  0.5360  0.6188  0.9258  1\n  Bi  Bi16  1  0.9703  0.8512  0.2414  1\n  Bi  Bi17  1  0.0297  0.1488  0.7586  1\n  Bi  Bi18  1  0.5297  0.3512  0.7586  1\n  Bi  Bi19  1  0.0297  0.6488  0.7414  1\n  Bi  Bi20  1  0.4703  0.1488  0.2586  1\n  Bi  Bi21  1  0.4703  0.6488  0.2414  1\n  Bi  Bi22  1  0.5297  0.8512  0.7414  1\n  Bi  Bi23  1  0.9703  0.3512  0.2586  1\n  O  O24  1  0.8836  0.3095  0.6834  1\n  O  O25  1  0.2250  0.9951  0.0281  1\n  O  O26  1  0.2750  0.4951  0.9719  1\n  O  O27  1  0.2628  0.7733  0.1645  1\n  O  O28  1  0.2372  0.2733  0.8355  1\n  O  O29  1  0.8836  0.8095  0.8166  1\n  O  O30  1  0.2372  0.7733  0.6645  1\n  O  O31  1  0.6164  0.8095  0.3166  1\n  O  O32  1  0.2250  0.4951  0.4719  1\n  O  O33  1  0.1164  0.6905  0.3166  1\n  O  O34  1  0.6164  0.3095  0.1834  1\n  O  O35  1  0.7869  0.2451  0.5182  1\n  O  O36  1  0.7250  0.0049  0.4719  1\n  O  O37  1  0.7372  0.7267  0.6645  1\n  O  O38  1  0.2393  0.9949  0.8510  1\n  O  O39  1  0.7250  0.5049  0.0281  1\n  O  O40  1  0.1164  0.1905  0.1834  1\n  O  O41  1  0.7628  0.2267  0.3355  1\n  O  O42  1  0.2869  0.7549  0.9818  1\n  O  O43  1  0.2750  0.9951  0.5281  1\n  O  O44  1  0.2131  0.7549  0.4818  1\n  O  O45  1  0.7607  0.0051  0.1490  1\n  O  O46  1  0.7372  0.2267  0.8355  1\n  O  O47  1  0.7393  0.0051  0.6490  1\n  O  O48  1  0.2131  0.2549  0.0182  1\n  O  O49  1  0.2869  0.2549  0.5182  1\n  O  O50  1  0.7750  0.5049  0.5281  1\n  O  O51  1  0.7750  0.0049  0.9719  1\n  O  O52  1  0.7393  0.5051  0.8510  1\n  O  O53  1  0.7131  0.7451  0.4818  1\n  O  O54  1  0.7131  0.2451  0.0182  1\n  O  O55  1  0.7869  0.7451  0.9818  1\n  O  O56  1  0.7607  0.5051  0.3510  1\n  O  O57  1  0.7628  0.7267  0.1645  1\n  O  O58  1  0.2628  0.2733  0.3355  1\n  O  O59  1  0.2393  0.4949  0.6490  1\n  O  O60  1  0.2607  0.4949  0.1490  1\n  O  O61  1  0.3836  0.1905  0.6834  1\n  O  O62  1  0.2607  0.9949  0.3510  1\n  O  O63  1  0.3836  0.6905  0.8166  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca8Bi10OBi5O11BiO28\n_chemical_formula_sum              \"Ca8 Bi16 O40\"\n_cell_length_a       5.6472\n_cell_length_b       10.8412\n_cell_length_c       16.4893\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.5362  0.3654  0.4263  1.0000\n  Ca  Ca2       1.0000  0.0362  0.1346  0.4263  1.0000\n  Ca  Ca3       1.0000  0.0362  0.6346  0.0737  1.0000\n  Ca  Ca4       1.0000  0.9638  0.3654  0.9263  1.0000\n  Ca  Ca5       1.0000  0.4638  0.1346  0.9263  1.0000\n  Ca  Ca6       1.0000  0.9638  0.8654  0.5737  1.0000\n  Ca  Ca7       1.0000  0.4638  0.6346  0.5737  1.0000\n  Ca  Ca8       1.0000  0.5362  0.8654  0.0737  1.0000\n  Bi  Bi1       1.0000  0.0360  0.3812  0.5742  1.0000\n  Bi  Bi2       1.0000  0.4640  0.8812  0.4258  1.0000\n  Bi  Bi3       1.0000  0.9640  0.6188  0.4258  1.0000\n  Bi  Bi4       1.0000  0.5360  0.1188  0.5742  1.0000\n  Bi  Bi5       1.0000  0.9640  0.1188  0.0742  1.0000\n  Bi  Bi6       1.0000  0.0360  0.8812  0.9258  1.0000\n  Bi  Bi7       1.0000  0.4640  0.3812  0.0742  1.0000\n  Bi  Bi8       1.0000  0.5360  0.6188  0.9258  1.0000\n  Bi  Bi9       1.0000  0.9703  0.8512  0.2414  1.0000\n  Bi  Bi10      1.0000  0.0297  0.1488  0.7586  1.0000\n  O   O1        1.0000  0.5297  0.3512  0.7586  1.0000\n  Bi  Bi11      1.0000  0.0297  0.6488  0.7414  1.0000\n  Bi  Bi12      1.0000  0.4703  0.1488  0.2586  1.0000\n  Bi  Bi13      1.0000  0.4703  0.6488  0.2414  1.0000\n  Bi  Bi14      1.0000  0.5297  0.8512  0.7414  1.0000\n  Bi  Bi15      1.0000  0.9703  0.3512  0.2586  1.0000\n  O   O2        1.0000  0.8836  0.3095  0.6834  1.0000\n  O   O3        1.0000  0.2250  0.9951  0.0281  1.0000\n  O   O4        1.0000  0.2750  0.4951  0.9719  1.0000\n  O   O5        1.0000  0.2628  0.7733  0.1645  1.0000\n  O   O6        1.0000  0.2372  0.2733  0.8355  1.0000\n  O   O7        1.0000  0.8836  0.8095  0.8166  1.0000\n  O   O8        1.0000  0.2372  0.7733  0.6645  1.0000\n  O   O9        1.0000  0.6164  0.8095  0.3166  1.0000\n  O   O10       1.0000  0.2250  0.4951  0.4719  1.0000\n  O   O11       1.0000  0.1164  0.6905  0.3166  1.0000\n  O   O12       1.0000  0.6164  0.3095  0.1834  1.0000\n  Bi  Bi16      1.0000  0.7869  0.2451  0.5182  1.0000\n  O   O13       1.0000  0.7250  0.0049  0.4719  1.0000\n  O   O14       1.0000  0.7372  0.7267  0.6645  1.0000\n  O   O15       1.0000  0.2393  0.9949  0.8510  1.0000\n  O   O16       1.0000  0.7250  0.5049  0.0281  1.0000\n  O   O17       1.0000  0.1164  0.1905  0.1834  1.0000\n  O   O18       1.0000  0.7628  0.2267  0.3355  1.0000\n  O   O19       1.0000  0.2869  0.7549  0.9818  1.0000\n  O   O20       1.0000  0.2750  0.9951  0.5281  1.0000\n  O   O21       1.0000  0.2131  0.7549  0.4818  1.0000\n  O   O22       1.0000  0.7607  0.0051  0.1490  1.0000\n  O   O23       1.0000  0.7372  0.2267  0.8355  1.0000\n  O   O24       1.0000  0.7393  0.0051  0.6490  1.0000\n  O   O25       1.0000  0.2131  0.2549  0.0182  1.0000\n  O   O26       1.0000  0.2869  0.2549  0.5182  1.0000\n  O   O27       1.0000  0.7750  0.5049  0.5281  1.0000\n  O   O28       1.0000  0.7750  0.0049  0.9719  1.0000\n  O   O29       1.0000  0.7393  0.5051  0.8510  1.0000\n  O   O30       1.0000  0.7131  0.7451  0.4818  1.0000\n  O   O31       1.0000  0.7131  0.2451  0.0182  1.0000\n  O   O32       1.0000  0.7869  0.7451  0.9818  1.0000\n  O   O33       1.0000  0.7607  0.5051  0.3510  1.0000\n  O   O34       1.0000  0.7628  0.7267  0.1645  1.0000\n  O   O35       1.0000  0.2628  0.2733  0.3355  1.0000\n  O   O36       1.0000  0.2393  0.4949  0.6490  1.0000\n  O   O37       1.0000  0.2607  0.4949  0.1490  1.0000\n  O   O38       1.0000  0.3836  0.1905  0.6834  1.0000\n  O   O39       1.0000  0.2607  0.9949  0.3510  1.0000\n  O   O40       1.0000  0.3836  0.6905  0.8166  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "045da47b-17db-46e3-aeae-cc139d206240",
    "mp_id": "mp-1042656",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_W3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8532\n_cell_length_b   5.0723\n_cell_length_c   10.8427\n_cell_angle_alpha   62.7564\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   W3O8\n_chemical_formula_sum   'W6 O16'\n_cell_volume   286.1958\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  W  W0  1  0.6553  0.5000  0.7500  1\n  W  W1  1  0.3447  0.5000  0.2500  1\n  W  W2  1  0.8306  0.7596  0.0060  1\n  W  W3  1  0.8306  0.2404  0.4940  1\n  W  W4  1  0.1694  0.2404  0.9940  1\n  W  W5  1  0.1694  0.7596  0.5060  1\n  O  O6  1  0.6556  0.9543  0.6316  1\n  O  O7  1  0.6556  0.0457  0.8684  1\n  O  O8  1  0.3444  0.0457  0.3684  1\n  O  O9  1  0.3444  0.9543  0.1316  1\n  O  O10  1  0.1097  0.4770  0.1051  1\n  O  O11  1  0.1097  0.5230  0.3949  1\n  O  O12  1  0.8903  0.5230  0.8949  1\n  O  O13  1  0.8903  0.4770  0.6051  1\n  O  O14  1  0.3975  0.5163  0.6180  1\n  O  O15  1  0.3975  0.4837  0.8820  1\n  O  O16  1  0.6025  0.4837  0.3820  1\n  O  O17  1  0.6025  0.5163  0.1180  1\n  O  O18  1  0.1063  0.9579  0.6088  1\n  O  O19  1  0.8937  0.0421  0.3912  1\n  O  O20  1  0.1063  0.0421  0.8912  1\n  O  O21  1  0.8937  0.9579  0.1088  1\n",
    "output": "data_image0\n_chemical_formula_structural       W3OW2O11WO4\n_chemical_formula_sum              \"W6 O16\"\n_cell_length_a       5.8532\n_cell_length_b       5.0723\n_cell_length_c       10.8427\n_cell_angle_alpha    62.7564\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  W   W1        1.0000  0.6553  0.5000  0.7500  1.0000\n  W   W2        1.0000  0.3447  0.5000  0.2500  1.0000\n  W   W3        1.0000  0.8306  0.7596  0.0060  1.0000\n  O   O1        1.0000  0.8306  0.2404  0.4940  1.0000\n  W   W4        1.0000  0.1694  0.2404  0.9940  1.0000\n  W   W5        1.0000  0.1694  0.7596  0.5060  1.0000\n  O   O2        1.0000  0.6556  0.9543  0.6316  1.0000\n  O   O3        1.0000  0.6556  0.0457  0.8684  1.0000\n  O   O4        1.0000  0.3444  0.0457  0.3684  1.0000\n  O   O5        1.0000  0.3444  0.9543  0.1316  1.0000\n  O   O6        1.0000  0.1097  0.4770  0.1051  1.0000\n  O   O7        1.0000  0.1097  0.5230  0.3949  1.0000\n  O   O8        1.0000  0.8903  0.5230  0.8949  1.0000\n  O   O9        1.0000  0.8903  0.4770  0.6051  1.0000\n  O   O10       1.0000  0.3975  0.5163  0.6180  1.0000\n  O   O11       1.0000  0.3975  0.4837  0.8820  1.0000\n  O   O12       1.0000  0.6025  0.4837  0.3820  1.0000\n  W   W6        1.0000  0.6025  0.5163  0.1180  1.0000\n  O   O13       1.0000  0.1063  0.9579  0.6088  1.0000\n  O   O14       1.0000  0.8937  0.0421  0.3912  1.0000\n  O   O15       1.0000  0.1063  0.0421  0.8912  1.0000\n  O   O16       1.0000  0.8937  0.9579  0.1088  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7e79b8ec-03e1-41cd-b789-83b4e3e0955e",
    "mp_id": "mp-1042677",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zn3Fe4(SbO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9458\n_cell_length_b   8.3035\n_cell_length_c   10.3024\n_cell_angle_alpha   104.5528\n_cell_angle_beta   105.4461\n_cell_angle_gamma   102.2258\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zn3Fe4(SbO4)6\n_chemical_formula_sum   'Zn3 Fe4 Sb6 O24'\n_cell_volume   529.0378\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.0000  0.5000  0.5000  1\n  Zn  Zn1  1  0.2840  0.2875  0.7913  1\n  Zn  Zn2  1  0.7160  0.7125  0.2087  1\n  Fe  Fe3  1  0.3784  0.9558  0.6101  1\n  Fe  Fe4  1  0.6216  0.0442  0.3899  1\n  Fe  Fe5  1  0.0425  0.2095  0.0132  1\n  Fe  Fe6  1  0.9575  0.7905  0.9868  1\n  Sb  Sb7  1  0.7814  0.3469  0.7272  1\n  Sb  Sb8  1  0.2186  0.6531  0.2728  1\n  Sb  Sb9  1  0.8930  0.8933  0.6660  1\n  Sb  Sb10  1  0.3991  0.7255  0.8755  1\n  Sb  Sb11  1  0.1070  0.1067  0.3340  1\n  Sb  Sb12  1  0.6009  0.2745  0.1245  1\n  O  O13  1  0.8529  0.6554  0.5787  1\n  O  O14  1  0.1471  0.3446  0.4213  1\n  O  O15  1  0.2498  0.4982  0.7411  1\n  O  O16  1  0.7502  0.5018  0.2589  1\n  O  O17  1  0.7867  0.2947  0.5345  1\n  O  O18  1  0.2133  0.7053  0.4655  1\n  O  O19  1  0.6615  0.9686  0.5767  1\n  O  O20  1  0.3385  0.0314  0.4233  1\n  O  O21  1  0.6604  0.7576  0.0176  1\n  O  O22  1  0.3396  0.2424  0.9824  1\n  O  O23  1  0.4882  0.7801  0.2796  1\n  O  O24  1  0.5118  0.2199  0.7204  1\n  O  O25  1  0.1352  0.0321  0.6462  1\n  O  O26  1  0.0684  0.0531  0.1351  1\n  O  O27  1  0.9316  0.9469  0.8649  1\n  O  O28  1  0.5527  0.1273  0.2332  1\n  O  O29  1  0.4473  0.8727  0.7668  1\n  O  O30  1  0.2001  0.4244  0.1721  1\n  O  O31  1  0.7999  0.5756  0.8279  1\n  O  O32  1  0.9943  0.2669  0.8296  1\n  O  O33  1  0.0057  0.7331  0.1704  1\n  O  O34  1  0.2336  0.7881  0.9861  1\n  O  O35  1  0.7664  0.2119  0.0139  1\n  O  O36  1  0.8648  0.9679  0.3538  1\n",
    "output": "data_image0\n_chemical_formula_structural       ZnOZnFe4Sb6O8ZnO15\n_chemical_formula_sum              \"Zn3 O24 Fe4 Sb6\"\n_cell_length_a       6.9458\n_cell_length_b       8.3035\n_cell_length_c       10.3024\n_cell_angle_alpha    104.5528\n_cell_angle_beta     105.4461\n_cell_angle_gamma    102.2258\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2840  0.2875  0.7913  1.0000\n  Zn  Zn2       1.0000  0.7160  0.7125  0.2087  1.0000\n  Fe  Fe1       1.0000  0.3784  0.9558  0.6101  1.0000\n  Fe  Fe2       1.0000  0.6216  0.0442  0.3899  1.0000\n  Fe  Fe3       1.0000  0.0425  0.2095  0.0132  1.0000\n  Fe  Fe4       1.0000  0.9575  0.7905  0.9868  1.0000\n  Sb  Sb1       1.0000  0.7814  0.3469  0.7272  1.0000\n  Sb  Sb2       1.0000  0.2186  0.6531  0.2728  1.0000\n  Sb  Sb3       1.0000  0.8930  0.8933  0.6660  1.0000\n  Sb  Sb4       1.0000  0.3991  0.7255  0.8755  1.0000\n  Sb  Sb5       1.0000  0.1070  0.1067  0.3340  1.0000\n  Sb  Sb6       1.0000  0.6009  0.2745  0.1245  1.0000\n  O   O2        1.0000  0.8529  0.6554  0.5787  1.0000\n  O   O3        1.0000  0.1471  0.3446  0.4213  1.0000\n  O   O4        1.0000  0.2498  0.4982  0.7411  1.0000\n  O   O5        1.0000  0.7502  0.5018  0.2589  1.0000\n  O   O6        1.0000  0.7867  0.2947  0.5345  1.0000\n  O   O7        1.0000  0.2133  0.7053  0.4655  1.0000\n  O   O8        1.0000  0.6615  0.9686  0.5767  1.0000\n  O   O9        1.0000  0.3385  0.0315  0.4233  1.0000\n  Zn  Zn3       1.0000  0.6604  0.7576  0.0176  1.0000\n  O   O10       1.0000  0.3396  0.2424  0.9824  1.0000\n  O   O11       1.0000  0.4882  0.7801  0.2796  1.0000\n  O   O12       1.0000  0.5118  0.2199  0.7204  1.0000\n  O   O13       1.0000  0.1352  0.0321  0.6462  1.0000\n  O   O14       1.0000  0.0684  0.0531  0.1351  1.0000\n  O   O15       1.0000  0.9316  0.9469  0.8649  1.0000\n  O   O16       1.0000  0.5527  0.1273  0.2332  1.0000\n  O   O17       1.0000  0.4473  0.8727  0.7668  1.0000\n  O   O18       1.0000  0.2001  0.4244  0.1721  1.0000\n  O   O19       1.0000  0.7999  0.5756  0.8279  1.0000\n  O   O20       1.0000  0.9943  0.2669  0.8296  1.0000\n  O   O21       1.0000  0.0057  0.7331  0.1704  1.0000\n  O   O22       1.0000  0.2336  0.7881  0.9861  1.0000\n  O   O23       1.0000  0.7664  0.2119  0.0139  1.0000\n  O   O24       1.0000  0.8648  0.9679  0.3538  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d14fa8c9-9b53-4d8f-beb1-f9d083932d63",
    "mp_id": "mp-1042685",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMn2CoO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7947\n_cell_length_b   11.0986\n_cell_length_c   14.5040\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   101.1814\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMn2CoO7\n_chemical_formula_sum   'Ca8 Mn16 Co8 O56'\n_cell_volume   1073.0042\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0832  0.7373  0.5079  1\n  Ca  Ca1  1  0.3227  0.9771  0.8739  1\n  Ca  Ca2  1  0.6773  0.5229  0.3739  1\n  Ca  Ca3  1  0.6773  0.0229  0.1261  1\n  Ca  Ca4  1  0.3227  0.4771  0.6261  1\n  Ca  Ca5  1  0.0832  0.2373  0.9921  1\n  Ca  Ca6  1  0.9168  0.2627  0.4921  1\n  Ca  Ca7  1  0.9168  0.7627  0.0079  1\n  Mn  Mn8  1  0.8343  0.9804  0.8690  1\n  Mn  Mn9  1  0.4142  0.6852  0.0156  1\n  Mn  Mn10  1  0.4142  0.1852  0.4844  1\n  Mn  Mn11  1  0.5858  0.3148  0.9844  1\n  Mn  Mn12  1  0.5034  0.7972  0.7097  1\n  Mn  Mn13  1  0.4966  0.7028  0.2097  1\n  Mn  Mn14  1  0.4966  0.2028  0.2903  1\n  Mn  Mn15  1  0.5034  0.2972  0.7903  1\n  Mn  Mn16  1  0.5858  0.8148  0.5156  1\n  Mn  Mn17  1  0.8719  0.4773  0.1414  1\n  Mn  Mn18  1  0.1281  0.0227  0.6414  1\n  Mn  Mn19  1  0.1281  0.5227  0.8586  1\n  Mn  Mn20  1  0.1657  0.5196  0.3690  1\n  Mn  Mn21  1  0.8343  0.4804  0.6310  1\n  Mn  Mn22  1  0.1657  0.0196  0.1310  1\n  Mn  Mn23  1  0.8719  0.9773  0.3586  1\n  Co  Co24  1  0.6301  0.0754  0.6746  1\n  Co  Co25  1  0.3699  0.4246  0.1746  1\n  Co  Co26  1  0.3699  0.9246  0.3254  1\n  Co  Co27  1  0.6301  0.5754  0.8254  1\n  Co  Co28  1  0.9935  0.2528  0.7538  1\n  Co  Co29  1  0.0065  0.2472  0.2538  1\n  Co  Co30  1  0.0065  0.7472  0.2462  1\n  Co  Co31  1  0.9935  0.7528  0.7462  1\n  O  O32  1  0.7604  0.9577  0.9790  1\n  O  O33  1  0.2396  0.5423  0.4790  1\n  O  O34  1  0.2396  0.0423  0.0210  1\n  O  O35  1  0.7604  0.4577  0.5210  1\n  O  O36  1  0.9854  0.8716  0.8563  1\n  O  O37  1  0.0146  0.6284  0.3563  1\n  O  O38  1  0.0146  0.1284  0.1437  1\n  O  O39  1  0.9854  0.3716  0.6437  1\n  O  O40  1  0.9993  0.1169  0.8553  1\n  O  O41  1  0.0007  0.3831  0.3553  1\n  O  O42  1  0.0007  0.8831  0.1447  1\n  O  O43  1  0.9993  0.6169  0.6447  1\n  O  O44  1  0.6682  0.9495  0.2862  1\n  O  O45  1  0.3318  0.5505  0.7862  1\n  O  O46  1  0.3318  0.0505  0.7138  1\n  O  O47  1  0.6682  0.4495  0.2138  1\n  O  O48  1  0.9768  0.1330  0.3590  1\n  O  O49  1  0.0232  0.3670  0.8590  1\n  O  O50  1  0.0232  0.8670  0.6410  1\n  O  O51  1  0.9768  0.6330  0.1410  1\n  O  O52  1  0.0500  0.8833  0.3408  1\n  O  O53  1  0.3913  0.8275  0.4410  1\n  O  O54  1  0.9500  0.6167  0.8408  1\n  O  O55  1  0.0500  0.3833  0.1592  1\n  O  O56  1  0.7243  0.7099  0.4823  1\n  O  O57  1  0.2757  0.7901  0.9823  1\n  O  O58  1  0.2757  0.2901  0.5177  1\n  O  O59  1  0.7243  0.2099  0.0177  1\n  O  O60  1  0.7741  0.9542  0.4676  1\n  O  O61  1  0.2259  0.5458  0.9676  1\n  O  O62  1  0.2259  0.0458  0.5324  1\n  O  O63  1  0.7741  0.4542  0.0324  1\n  O  O64  1  0.4155  0.2077  0.8969  1\n  O  O65  1  0.5845  0.2923  0.3969  1\n  O  O66  1  0.5845  0.7923  0.1031  1\n  O  O67  1  0.4155  0.7077  0.6031  1\n  O  O68  1  0.7104  0.2160  0.7582  1\n  O  O69  1  0.2896  0.2840  0.2582  1\n  O  O70  1  0.2896  0.7840  0.2418  1\n  O  O71  1  0.7104  0.7160  0.7418  1\n  O  O72  1  0.6257  0.4509  0.7059  1\n  O  O73  1  0.3743  0.0491  0.2059  1\n  O  O74  1  0.3743  0.5491  0.2941  1\n  O  O75  1  0.6257  0.9509  0.7941  1\n  O  O76  1  0.2699  0.2948  0.7333  1\n  O  O77  1  0.7301  0.2052  0.2333  1\n  O  O78  1  0.7301  0.7052  0.2667  1\n  O  O79  1  0.2699  0.7948  0.7667  1\n  O  O80  1  0.6172  0.4107  0.8806  1\n  O  O81  1  0.3828  0.0893  0.3806  1\n  O  O82  1  0.3828  0.5893  0.1194  1\n  O  O83  1  0.6172  0.9107  0.6194  1\n  O  O84  1  0.3913  0.3275  0.0590  1\n  O  O85  1  0.6087  0.1725  0.5590  1\n  O  O86  1  0.6087  0.6725  0.9410  1\n  O  O87  1  0.9500  0.1167  0.6592  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca3OCa4Mn16Co8O26CaO29\n_chemical_formula_sum              \"Ca8 O56 Mn16 Co8\"\n_cell_length_a       6.7947\n_cell_length_b       11.0986\n_cell_length_c       14.5040\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    101.1814\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0832  0.7373  0.5079  1.0000\n  Ca  Ca2       1.0000  0.3227  0.9771  0.8739  1.0000\n  Ca  Ca3       1.0000  0.6773  0.5229  0.3739  1.0000\n  O   O1        1.0000  0.6773  0.0229  0.1261  1.0000\n  Ca  Ca4       1.0000  0.3227  0.4771  0.6261  1.0000\n  Ca  Ca5       1.0000  0.0832  0.2373  0.9921  1.0000\n  Ca  Ca6       1.0000  0.9168  0.2627  0.4921  1.0000\n  Ca  Ca7       1.0000  0.9168  0.7627  0.0079  1.0000\n  Mn  Mn1       1.0000  0.8343  0.9804  0.8690  1.0000\n  Mn  Mn2       1.0000  0.4142  0.6852  0.0156  1.0000\n  Mn  Mn3       1.0000  0.4142  0.1852  0.4844  1.0000\n  Mn  Mn4       1.0000  0.5858  0.3148  0.9844  1.0000\n  Mn  Mn5       1.0000  0.5034  0.7972  0.7097  1.0000\n  Mn  Mn6       1.0000  0.4966  0.7028  0.2097  1.0000\n  Mn  Mn7       1.0000  0.4966  0.2028  0.2903  1.0000\n  Mn  Mn8       1.0000  0.5034  0.2972  0.7903  1.0000\n  Mn  Mn9       1.0000  0.5858  0.8148  0.5156  1.0000\n  Mn  Mn10      1.0000  0.8719  0.4773  0.1414  1.0000\n  Mn  Mn11      1.0000  0.1281  0.0227  0.6414  1.0000\n  Mn  Mn12      1.0000  0.1281  0.5227  0.8586  1.0000\n  Mn  Mn13      1.0000  0.1657  0.5196  0.3690  1.0000\n  Mn  Mn14      1.0000  0.8343  0.4804  0.6310  1.0000\n  Mn  Mn15      1.0000  0.1657  0.0196  0.1310  1.0000\n  Mn  Mn16      1.0000  0.8719  0.9773  0.3586  1.0000\n  Co  Co1       1.0000  0.6301  0.0754  0.6746  1.0000\n  Co  Co2       1.0000  0.3699  0.4246  0.1746  1.0000\n  Co  Co3       1.0000  0.3699  0.9246  0.3254  1.0000\n  Co  Co4       1.0000  0.6301  0.5754  0.8254  1.0000\n  Co  Co5       1.0000  0.9935  0.2528  0.7538  1.0000\n  Co  Co6       1.0000  0.0065  0.2472  0.2538  1.0000\n  Co  Co7       1.0000  0.0065  0.7472  0.2462  1.0000\n  Co  Co8       1.0000  0.9935  0.7528  0.7462  1.0000\n  O   O2        1.0000  0.7604  0.9577  0.9790  1.0000\n  O   O3        1.0000  0.2396  0.5423  0.4790  1.0000\n  O   O4        1.0000  0.2396  0.0423  0.0210  1.0000\n  O   O5        1.0000  0.7604  0.4577  0.5210  1.0000\n  O   O6        1.0000  0.9854  0.8716  0.8563  1.0000\n  O   O7        1.0000  0.0146  0.6284  0.3563  1.0000\n  O   O8        1.0000  0.0146  0.1284  0.1437  1.0000\n  O   O9        1.0000  0.9854  0.3716  0.6437  1.0000\n  O   O10       1.0000  0.9993  0.1169  0.8553  1.0000\n  O   O11       1.0000  0.0007  0.3831  0.3553  1.0000\n  O   O12       1.0000  0.0007  0.8831  0.1447  1.0000\n  O   O13       1.0000  0.9993  0.6169  0.6447  1.0000\n  O   O14       1.0000  0.6682  0.9495  0.2862  1.0000\n  O   O15       1.0000  0.3318  0.5505  0.7862  1.0000\n  O   O16       1.0000  0.3318  0.0505  0.7138  1.0000\n  O   O17       1.0000  0.6682  0.4495  0.2138  1.0000\n  O   O18       1.0000  0.9768  0.1330  0.3590  1.0000\n  O   O19       1.0000  0.0232  0.3670  0.8590  1.0000\n  O   O20       1.0000  0.0232  0.8670  0.6410  1.0000\n  O   O21       1.0000  0.9768  0.6330  0.1410  1.0000\n  O   O22       1.0000  0.0500  0.8833  0.3408  1.0000\n  O   O23       1.0000  0.3913  0.8275  0.4410  1.0000\n  O   O24       1.0000  0.9500  0.6167  0.8408  1.0000\n  O   O25       1.0000  0.0500  0.3833  0.1592  1.0000\n  O   O26       1.0000  0.7243  0.7099  0.4823  1.0000\n  O   O27       1.0000  0.2757  0.7901  0.9823  1.0000\n  Ca  Ca8       1.0000  0.2757  0.2901  0.5177  1.0000\n  O   O28       1.0000  0.7243  0.2099  0.0177  1.0000\n  O   O29       1.0000  0.7741  0.9542  0.4676  1.0000\n  O   O30       1.0000  0.2259  0.5458  0.9676  1.0000\n  O   O31       1.0000  0.2259  0.0458  0.5324  1.0000\n  O   O32       1.0000  0.7741  0.4542  0.0324  1.0000\n  O   O33       1.0000  0.4155  0.2077  0.8969  1.0000\n  O   O34       1.0000  0.5845  0.2923  0.3969  1.0000\n  O   O35       1.0000  0.5845  0.7923  0.1031  1.0000\n  O   O36       1.0000  0.4155  0.7077  0.6031  1.0000\n  O   O37       1.0000  0.7104  0.2160  0.7582  1.0000\n  O   O38       1.0000  0.2896  0.2840  0.2582  1.0000\n  O   O39       1.0000  0.2896  0.7840  0.2418  1.0000\n  O   O40       1.0000  0.7104  0.7160  0.7418  1.0000\n  O   O41       1.0000  0.6257  0.4509  0.7059  1.0000\n  O   O42       1.0000  0.3743  0.0491  0.2059  1.0000\n  O   O43       1.0000  0.3743  0.5491  0.2941  1.0000\n  O   O44       1.0000  0.6257  0.9509  0.7941  1.0000\n  O   O45       1.0000  0.2699  0.2948  0.7333  1.0000\n  O   O46       1.0000  0.7301  0.2052  0.2333  1.0000\n  O   O47       1.0000  0.7301  0.7052  0.2667  1.0000\n  O   O48       1.0000  0.2699  0.7948  0.7667  1.0000\n  O   O49       1.0000  0.6172  0.4107  0.8806  1.0000\n  O   O50       1.0000  0.3828  0.0893  0.3806  1.0000\n  O   O51       1.0000  0.3828  0.5893  0.1194  1.0000\n  O   O52       1.0000  0.6172  0.9107  0.6194  1.0000\n  O   O53       1.0000  0.3913  0.3275  0.0590  1.0000\n  O   O54       1.0000  0.6087  0.1725  0.5590  1.0000\n  O   O55       1.0000  0.6087  0.6725  0.9410  1.0000\n  O   O56       1.0000  0.9500  0.1167  0.6592  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a16e4669-11b9-4307-b851-2b1f429f74ee",
    "mp_id": "mp-1042896",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ge2BiO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1643\n_cell_length_b   7.1643\n_cell_length_c   5.7434\n_cell_angle_alpha   76.5319\n_cell_angle_beta   76.5319\n_cell_angle_gamma   85.1304\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ge2BiO6\n_chemical_formula_sum   'Ge4 Bi2 O12'\n_cell_volume   278.6515\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ge  Ge0  1  0.2187  0.3758  0.7497  1\n  Ge  Ge1  1  0.6242  0.7813  0.7503  1\n  Ge  Ge2  1  0.7813  0.6242  0.2503  1\n  Ge  Ge3  1  0.3758  0.2187  0.2497  1\n  Bi  Bi4  1  0.1235  0.8765  0.7500  1\n  Bi  Bi5  1  0.8765  0.1235  0.2500  1\n  O  O6  1  0.3885  0.3327  0.4888  1\n  O  O7  1  0.6673  0.6115  0.0112  1\n  O  O8  1  0.6115  0.6673  0.5112  1\n  O  O9  1  0.3327  0.3885  0.9888  1\n  O  O10  1  0.5953  0.0930  0.1836  1\n  O  O11  1  0.9070  0.4047  0.3164  1\n  O  O12  1  0.4047  0.9070  0.8164  1\n  O  O13  1  0.0930  0.5953  0.6836  1\n  O  O14  1  0.0559  0.1775  0.8608  1\n  O  O15  1  0.8225  0.9441  0.6392  1\n  O  O16  1  0.9441  0.8225  0.1392  1\n  O  O17  1  0.1775  0.0559  0.3608  1\n",
    "output": "data_image0\n_chemical_formula_structural       GeOGe2Bi2O4GeO7\n_chemical_formula_sum              \"Ge4 O12 Bi2\"\n_cell_length_a       7.1643\n_cell_length_b       7.1643\n_cell_length_c       5.7434\n_cell_angle_alpha    76.5319\n_cell_angle_beta     76.5319\n_cell_angle_gamma    85.1304\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ge  Ge1       1.0000  0.2187  0.3758  0.7497  1.0000\n  O   O1        1.0000  0.6242  0.7813  0.7503  1.0000\n  Ge  Ge2       1.0000  0.7813  0.6242  0.2503  1.0000\n  Ge  Ge3       1.0000  0.3758  0.2187  0.2497  1.0000\n  Bi  Bi1       1.0000  0.1235  0.8765  0.7500  1.0000\n  Bi  Bi2       1.0000  0.8765  0.1235  0.2500  1.0000\n  O   O2        1.0000  0.3885  0.3327  0.4888  1.0000\n  O   O3        1.0000  0.6673  0.6115  0.0112  1.0000\n  O   O4        1.0000  0.6115  0.6673  0.5112  1.0000\n  O   O5        1.0000  0.3327  0.3885  0.9888  1.0000\n  Ge  Ge4       1.0000  0.5953  0.0930  0.1836  1.0000\n  O   O6        1.0000  0.9070  0.4047  0.3164  1.0000\n  O   O7        1.0000  0.4047  0.9070  0.8164  1.0000\n  O   O8        1.0000  0.0930  0.5953  0.6836  1.0000\n  O   O9        1.0000  0.0559  0.1775  0.8608  1.0000\n  O   O10       1.0000  0.8225  0.9441  0.6392  1.0000\n  O   O11       1.0000  0.9441  0.8225  0.1392  1.0000\n  O   O12       1.0000  0.1775  0.0559  0.3608  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "53bd89b9-4058-4f2f-bc18-dd26bcfb8333",
    "mp_id": "mp-1043828",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTiBi(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4003\n_cell_length_b   8.4003\n_cell_length_c   8.4003\n_cell_angle_alpha   64.6311\n_cell_angle_beta   64.6311\n_cell_angle_gamma   64.6311\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTiBi(PO4)3\n_chemical_formula_sum   'Mg2 Ti2 Bi2 P6 O24'\n_cell_volume   461.6665\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.9932  0.9932  0.9932  1\n  Mg  Mg1  1  0.4932  0.4932  0.4932  1\n  Ti  Ti2  1  0.1490  0.1490  0.1490  1\n  Ti  Ti3  1  0.6490  0.6490  0.6490  1\n  Bi  Bi4  1  0.3322  0.3322  0.3322  1\n  Bi  Bi5  1  0.8322  0.8322  0.8322  1\n  P  P6  1  0.0653  0.4289  0.7601  1\n  P  P7  1  0.4289  0.7601  0.0653  1\n  P  P8  1  0.7601  0.0653  0.4289  1\n  P  P9  1  0.2601  0.9289  0.5653  1\n  P  P10  1  0.5653  0.2601  0.9289  1\n  P  P11  1  0.9289  0.5653  0.2601  1\n  O  O12  1  0.0582  0.5633  0.3432  1\n  O  O13  1  0.3432  0.0582  0.5633  1\n  O  O14  1  0.0691  0.2353  0.9062  1\n  O  O15  1  0.5633  0.3432  0.0582  1\n  O  O16  1  0.0633  0.5582  0.8432  1\n  O  O17  1  0.2432  0.4175  0.5933  1\n  O  O18  1  0.2353  0.9062  0.0691  1\n  O  O19  1  0.4175  0.5933  0.2432  1\n  O  O20  1  0.2067  0.0068  0.3785  1\n  O  O21  1  0.5933  0.2432  0.4175  1\n  O  O22  1  0.0933  0.9175  0.7432  1\n  O  O23  1  0.3785  0.2067  0.0068  1\n  O  O24  1  0.5582  0.8432  0.0633  1\n  O  O25  1  0.9062  0.0691  0.2353  1\n  O  O26  1  0.4062  0.7353  0.5691  1\n  O  O27  1  0.8432  0.0633  0.5582  1\n  O  O28  1  0.5691  0.4062  0.7353  1\n  O  O29  1  0.7432  0.0933  0.9175  1\n  O  O30  1  0.7353  0.5691  0.4062  1\n  O  O31  1  0.0068  0.3785  0.2067  1\n  O  O32  1  0.5068  0.7067  0.8785  1\n  O  O33  1  0.9175  0.7432  0.0933  1\n  O  O34  1  0.7067  0.8785  0.5068  1\n  O  O35  1  0.8785  0.5068  0.7067  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2Ti2Bi2POP4O6PO17\n_chemical_formula_sum              \"Mg2 Ti2 Bi2 P6 O24\"\n_cell_length_a       8.4003\n_cell_length_b       8.4003\n_cell_length_c       8.4003\n_cell_angle_alpha    64.6311\n_cell_angle_beta     64.6311\n_cell_angle_gamma    64.6311\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.9932  0.9932  0.9932  1.0000\n  Mg  Mg2       1.0000  0.4932  0.4932  0.4932  1.0000\n  Ti  Ti1       1.0000  0.1490  0.1490  0.1490  1.0000\n  Ti  Ti2       1.0000  0.6490  0.6490  0.6490  1.0000\n  Bi  Bi1       1.0000  0.3322  0.3322  0.3322  1.0000\n  Bi  Bi2       1.0000  0.8322  0.8322  0.8322  1.0000\n  P   P1        1.0000  0.0653  0.4289  0.7601  1.0000\n  O   O1        1.0000  0.4289  0.7601  0.0653  1.0000\n  P   P2        1.0000  0.7601  0.0653  0.4289  1.0000\n  P   P3        1.0000  0.2601  0.9289  0.5653  1.0000\n  P   P4        1.0000  0.5653  0.2601  0.9289  1.0000\n  P   P5        1.0000  0.9289  0.5653  0.2601  1.0000\n  O   O2        1.0000  0.0582  0.5633  0.3432  1.0000\n  O   O3        1.0000  0.3432  0.0582  0.5633  1.0000\n  O   O4        1.0000  0.0691  0.2353  0.9062  1.0000\n  O   O5        1.0000  0.5633  0.3432  0.0582  1.0000\n  O   O6        1.0000  0.0633  0.5582  0.8432  1.0000\n  O   O7        1.0000  0.2432  0.4175  0.5933  1.0000\n  P   P6        1.0000  0.2353  0.9062  0.0691  1.0000\n  O   O8        1.0000  0.4175  0.5933  0.2432  1.0000\n  O   O9        1.0000  0.2067  0.0068  0.3785  1.0000\n  O   O10       1.0000  0.5933  0.2432  0.4175  1.0000\n  O   O11       1.0000  0.0933  0.9175  0.7432  1.0000\n  O   O12       1.0000  0.3785  0.2067  0.0068  1.0000\n  O   O13       1.0000  0.5582  0.8432  0.0633  1.0000\n  O   O14       1.0000  0.9062  0.0691  0.2353  1.0000\n  O   O15       1.0000  0.4062  0.7353  0.5691  1.0000\n  O   O16       1.0000  0.8432  0.0633  0.5582  1.0000\n  O   O17       1.0000  0.5691  0.4062  0.7353  1.0000\n  O   O18       1.0000  0.7432  0.0933  0.9175  1.0000\n  O   O19       1.0000  0.7353  0.5691  0.4062  1.0000\n  O   O20       1.0000  0.0068  0.3785  0.2067  1.0000\n  O   O21       1.0000  0.5068  0.7067  0.8785  1.0000\n  O   O22       1.0000  0.9175  0.7432  0.0933  1.0000\n  O   O23       1.0000  0.7067  0.8785  0.5068  1.0000\n  O   O24       1.0000  0.8785  0.5068  0.7067  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "24bc500f-6956-4473-80b6-73a54f468d38",
    "mp_id": "mp-1044049",
    "action_prompt": "Swap the spatial positions of atoms at indices 41 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaBi3O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7470\n_cell_length_b   11.1914\n_cell_length_c   11.2288\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaBi3O7\n_chemical_formula_sum   'Ca4 Bi12 O28'\n_cell_volume   722.1922\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6826  0.7500  0.1441  1\n  Ca  Ca1  1  0.1826  0.2500  0.3559  1\n  Ca  Ca2  1  0.3174  0.2500  0.8559  1\n  Ca  Ca3  1  0.8174  0.7500  0.6441  1\n  Bi  Bi4  1  0.3577  0.9913  0.6334  1\n  Bi  Bi5  1  0.8577  0.0087  0.8666  1\n  Bi  Bi6  1  0.6423  0.4913  0.3666  1\n  Bi  Bi7  1  0.1423  0.5087  0.1334  1\n  Bi  Bi8  1  0.3213  0.7500  0.8523  1\n  Bi  Bi9  1  0.8213  0.2500  0.6477  1\n  Bi  Bi10  1  0.6787  0.2500  0.1477  1\n  Bi  Bi11  1  0.1787  0.7500  0.3523  1\n  Bi  Bi12  1  0.8577  0.4913  0.8666  1\n  Bi  Bi13  1  0.3577  0.5087  0.6334  1\n  Bi  Bi14  1  0.1423  0.9913  0.1334  1\n  Bi  Bi15  1  0.6423  0.0087  0.3666  1\n  O  O16  1  0.9277  0.1272  0.2235  1\n  O  O17  1  0.4277  0.8728  0.2765  1\n  O  O18  1  0.0723  0.6272  0.7765  1\n  O  O19  1  0.5723  0.3728  0.7235  1\n  O  O20  1  0.0723  0.8728  0.7765  1\n  O  O21  1  0.5723  0.1272  0.7235  1\n  O  O22  1  0.9277  0.3728  0.2235  1\n  O  O23  1  0.4277  0.6272  0.2765  1\n  O  O24  1  0.4356  0.1251  0.2171  1\n  O  O25  1  0.9356  0.8749  0.2829  1\n  O  O26  1  0.5644  0.6251  0.7829  1\n  O  O27  1  0.0644  0.3749  0.7171  1\n  O  O28  1  0.5644  0.8749  0.7829  1\n  O  O29  1  0.0644  0.1251  0.7171  1\n  O  O30  1  0.4356  0.3749  0.2171  1\n  O  O31  1  0.9356  0.6251  0.2829  1\n  O  O32  1  0.1726  0.7500  0.5340  1\n  O  O33  1  0.6726  0.2500  0.9660  1\n  O  O34  1  0.8274  0.2500  0.4660  1\n  O  O35  1  0.3274  0.7500  0.0340  1\n  O  O36  1  0.1602  0.4150  0.9620  1\n  O  O37  1  0.6602  0.5850  0.5380  1\n  O  O38  1  0.8398  0.9150  0.0380  1\n  O  O39  1  0.3398  0.0850  0.4620  1\n  O  O40  1  0.8398  0.5850  0.0380  1\n  O  O41  1  0.3398  0.4150  0.4620  1\n  O  O42  1  0.1602  0.0850  0.9620  1\n  O  O43  1  0.6602  0.9150  0.5380  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca4Bi9OBi2O25BiO2\n_chemical_formula_sum              \"Ca4 Bi12 O28\"\n_cell_length_a       5.7470\n_cell_length_b       11.1914\n_cell_length_c       11.2288\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.6826  0.7500  0.1441  1.0000\n  Ca  Ca2       1.0000  0.1826  0.2500  0.3559  1.0000\n  Ca  Ca3       1.0000  0.3174  0.2500  0.8559  1.0000\n  Ca  Ca4       1.0000  0.8174  0.7500  0.6441  1.0000\n  Bi  Bi1       1.0000  0.3577  0.9913  0.6334  1.0000\n  Bi  Bi2       1.0000  0.8577  0.0087  0.8666  1.0000\n  Bi  Bi3       1.0000  0.6423  0.4913  0.3666  1.0000\n  Bi  Bi4       1.0000  0.1423  0.5087  0.1334  1.0000\n  Bi  Bi5       1.0000  0.3213  0.7500  0.8523  1.0000\n  Bi  Bi6       1.0000  0.8213  0.2500  0.6477  1.0000\n  Bi  Bi7       1.0000  0.6787  0.2500  0.1477  1.0000\n  Bi  Bi8       1.0000  0.1787  0.7500  0.3523  1.0000\n  Bi  Bi9       1.0000  0.8577  0.4913  0.8666  1.0000\n  O   O1        1.0000  0.3577  0.5087  0.6334  1.0000\n  Bi  Bi10      1.0000  0.1423  0.9913  0.1334  1.0000\n  Bi  Bi11      1.0000  0.6423  0.0087  0.3666  1.0000\n  O   O2        1.0000  0.9277  0.1272  0.2235  1.0000\n  O   O3        1.0000  0.4277  0.8728  0.2765  1.0000\n  O   O4        1.0000  0.0723  0.6272  0.7765  1.0000\n  O   O5        1.0000  0.5723  0.3728  0.7235  1.0000\n  O   O6        1.0000  0.0723  0.8728  0.7765  1.0000\n  O   O7        1.0000  0.5723  0.1272  0.7235  1.0000\n  O   O8        1.0000  0.9277  0.3728  0.2235  1.0000\n  O   O9        1.0000  0.4277  0.6272  0.2765  1.0000\n  O   O10       1.0000  0.4356  0.1251  0.2171  1.0000\n  O   O11       1.0000  0.9356  0.8749  0.2829  1.0000\n  O   O12       1.0000  0.5644  0.6251  0.7829  1.0000\n  O   O13       1.0000  0.0644  0.3749  0.7171  1.0000\n  O   O14       1.0000  0.5644  0.8749  0.7829  1.0000\n  O   O15       1.0000  0.0644  0.1251  0.7171  1.0000\n  O   O16       1.0000  0.4356  0.3749  0.2171  1.0000\n  O   O17       1.0000  0.9356  0.6251  0.2829  1.0000\n  O   O18       1.0000  0.1726  0.7500  0.5340  1.0000\n  O   O19       1.0000  0.6726  0.2500  0.9660  1.0000\n  O   O20       1.0000  0.8274  0.2500  0.4660  1.0000\n  O   O21       1.0000  0.3274  0.7500  0.0340  1.0000\n  O   O22       1.0000  0.1602  0.4150  0.9620  1.0000\n  O   O23       1.0000  0.6602  0.5850  0.5380  1.0000\n  O   O24       1.0000  0.8398  0.9150  0.0380  1.0000\n  O   O25       1.0000  0.3398  0.0850  0.4620  1.0000\n  O   O26       1.0000  0.8398  0.5850  0.0380  1.0000\n  Bi  Bi12      1.0000  0.3398  0.4150  0.4620  1.0000\n  O   O27       1.0000  0.1602  0.0850  0.9620  1.0000\n  O   O28       1.0000  0.6602  0.9150  0.5380  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dd68cdb9-1b42-46bf-ab1b-6685b20a5497",
    "mp_id": "mp-1044636",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y4Cu13Si2(SbO14)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4906\n_cell_length_b   9.0558\n_cell_length_c   12.5853\n_cell_angle_alpha   88.5585\n_cell_angle_beta   77.4112\n_cell_angle_gamma   83.2854\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y4Cu13Si2(SbO14)2\n_chemical_formula_sum   'Y4 Cu13 Si2 Sb2 O28'\n_cell_volume   606.5290\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0857  0.6528  0.4076  1\n  Y  Y1  1  0.5096  0.3468  0.4071  1\n  Y  Y2  1  0.9168  0.3460  0.5923  1\n  Y  Y3  1  0.4929  0.6529  0.5928  1\n  Cu  Cu4  1  0.9199  0.6374  0.7441  1\n  Cu  Cu5  1  0.6586  0.3249  0.1192  1\n  Cu  Cu6  1  0.3339  0.3623  0.7442  1\n  Cu  Cu7  1  0.0800  0.3636  0.2553  1\n  Cu  Cu8  1  0.3402  0.6741  0.8814  1\n  Cu  Cu9  1  0.3091  0.0006  0.3801  1\n  Cu  Cu10  1  0.2223  0.6741  0.1190  1\n  Cu  Cu11  1  0.0021  0.9997  0.0001  1\n  Cu  Cu12  1  0.4305  0.9993  0.1422  1\n  Cu  Cu13  1  0.7782  0.3240  0.8806  1\n  Cu  Cu14  1  0.6631  0.6380  0.2553  1\n  Cu  Cu15  1  0.5742  0.9980  0.8556  1\n  Cu  Cu16  1  0.6860  0.0020  0.6188  1\n  Si  Si17  1  0.2378  0.2903  0.9996  1\n  Si  Si18  1  0.7631  0.7097  0.9997  1\n  Sb  Sb19  1  0.8649  1.0000  0.2712  1\n  Sb  Sb20  1  0.1346  0.9995  0.7283  1\n  O  O21  1  0.7000  0.4175  0.2486  1\n  O  O22  1  0.1068  0.3890  0.4214  1\n  O  O23  1  0.9406  0.3414  0.0002  1\n  O  O24  1  0.2898  0.1071  0.9992  1\n  O  O25  1  0.8959  0.6111  0.5796  1\n  O  O26  1  0.2971  0.5831  0.7516  1\n  O  O27  1  0.9753  0.1027  0.6116  1\n  O  O28  1  0.0249  0.8960  0.3873  1\n  O  O29  1  0.7157  0.8926  0.9987  1\n  O  O30  1  0.1342  0.8965  0.1478  1\n  O  O31  1  0.3075  0.3562  0.1083  1\n  O  O32  1  0.0489  0.5845  0.2491  1\n  O  O33  1  0.4098  0.8965  0.6116  1\n  O  O34  1  0.7193  0.1038  0.1481  1\n  O  O35  1  0.5837  0.6451  0.1084  1\n  O  O36  1  0.0592  0.6564  0.0003  1\n  O  O37  1  0.2828  0.8957  0.8505  1\n  O  O38  1  0.8660  0.1045  0.8501  1\n  O  O39  1  0.5877  0.1032  0.3877  1\n  O  O40  1  0.1151  0.1462  0.2768  1\n  O  O41  1  0.8780  0.8538  0.7277  1\n  O  O42  1  0.4152  0.3571  0.8913  1\n  O  O43  1  0.3919  0.1462  0.7235  1\n  O  O44  1  0.5283  0.3894  0.5786  1\n  O  O45  1  0.6924  0.6423  0.8916  1\n  O  O46  1  0.6070  0.8555  0.2744  1\n  O  O47  1  0.9497  0.4177  0.7518  1\n  O  O48  1  0.4746  0.6116  0.4215  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y2OYCu13Si2Sb2O18YO9\n_chemical_formula_sum              \"Y4 O28 Cu13 Si2 Sb2\"\n_cell_length_a       5.4906\n_cell_length_b       9.0558\n_cell_length_c       12.5853\n_cell_angle_alpha    88.5585\n_cell_angle_beta     77.4112\n_cell_angle_gamma    83.2854\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0857  0.6528  0.4076  1.0000\n  Y   Y2        1.0000  0.5096  0.3468  0.4071  1.0000\n  O   O1        1.0000  0.9168  0.3460  0.5923  1.0000\n  Y   Y3        1.0000  0.4929  0.6529  0.5928  1.0000\n  Cu  Cu1       1.0000  0.9199  0.6374  0.7441  1.0000\n  Cu  Cu2       1.0000  0.6586  0.3249  0.1192  1.0000\n  Cu  Cu3       1.0000  0.3339  0.3623  0.7442  1.0000\n  Cu  Cu4       1.0000  0.0800  0.3636  0.2553  1.0000\n  Cu  Cu5       1.0000  0.3402  0.6741  0.8814  1.0000\n  Cu  Cu6       1.0000  0.3091  0.0006  0.3801  1.0000\n  Cu  Cu7       1.0000  0.2223  0.6741  0.1190  1.0000\n  Cu  Cu8       1.0000  0.0021  0.9997  0.0001  1.0000\n  Cu  Cu9       1.0000  0.4305  0.9993  0.1422  1.0000\n  Cu  Cu10      1.0000  0.7782  0.3240  0.8806  1.0000\n  Cu  Cu11      1.0000  0.6631  0.6380  0.2553  1.0000\n  Cu  Cu12      1.0000  0.5742  0.9980  0.8556  1.0000\n  Cu  Cu13      1.0000  0.6860  0.0020  0.6188  1.0000\n  Si  Si1       1.0000  0.2378  0.2903  0.9996  1.0000\n  Si  Si2       1.0000  0.7631  0.7097  0.9997  1.0000\n  Sb  Sb1       1.0000  0.8649  1.0000  0.2712  1.0000\n  Sb  Sb2       1.0000  0.1346  0.9995  0.7283  1.0000\n  O   O2        1.0000  0.7000  0.4175  0.2486  1.0000\n  O   O3        1.0000  0.1068  0.3890  0.4214  1.0000\n  O   O4        1.0000  0.9406  0.3414  0.0002  1.0000\n  O   O5        1.0000  0.2898  0.1071  0.9992  1.0000\n  O   O6        1.0000  0.8959  0.6111  0.5796  1.0000\n  O   O7        1.0000  0.2971  0.5831  0.7516  1.0000\n  O   O8        1.0000  0.9753  0.1027  0.6116  1.0000\n  O   O9        1.0000  0.0249  0.8960  0.3873  1.0000\n  O   O10       1.0000  0.7157  0.8926  0.9987  1.0000\n  O   O11       1.0000  0.1342  0.8965  0.1478  1.0000\n  O   O12       1.0000  0.3075  0.3562  0.1083  1.0000\n  O   O13       1.0000  0.0489  0.5845  0.2491  1.0000\n  O   O14       1.0000  0.4098  0.8965  0.6116  1.0000\n  O   O15       1.0000  0.7193  0.1038  0.1481  1.0000\n  O   O16       1.0000  0.5837  0.6451  0.1084  1.0000\n  O   O17       1.0000  0.0592  0.6564  0.0003  1.0000\n  O   O18       1.0000  0.2828  0.8957  0.8505  1.0000\n  O   O19       1.0000  0.8660  0.1045  0.8501  1.0000\n  Y   Y4        1.0000  0.5877  0.1032  0.3877  1.0000\n  O   O20       1.0000  0.1151  0.1462  0.2768  1.0000\n  O   O21       1.0000  0.8780  0.8538  0.7277  1.0000\n  O   O22       1.0000  0.4152  0.3571  0.8913  1.0000\n  O   O23       1.0000  0.3919  0.1462  0.7235  1.0000\n  O   O24       1.0000  0.5283  0.3894  0.5786  1.0000\n  O   O25       1.0000  0.6924  0.6423  0.8916  1.0000\n  O   O26       1.0000  0.6070  0.8555  0.2744  1.0000\n  O   O27       1.0000  0.9497  0.4177  0.7518  1.0000\n  O   O28       1.0000  0.4746  0.6116  0.4215  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "14423294-0448-43fe-b39a-640eb9d877ab",
    "mp_id": "mp-1045786",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgNi(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2558\n_cell_length_b   7.2558\n_cell_length_c   10.0235\n_cell_angle_alpha   67.1266\n_cell_angle_beta   67.1266\n_cell_angle_gamma   70.4777\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgNi(PO3)4\n_chemical_formula_sum   'Mg2 Ni2 P8 O24'\n_cell_volume   437.4367\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.9527  0.0473  0.7500  1\n  Mg  Mg1  1  0.0473  0.9527  0.2500  1\n  Ni  Ni2  1  0.5000  0.0000  0.0000  1\n  Ni  Ni3  1  0.0000  0.5000  0.5000  1\n  P  P4  1  0.3141  0.2935  0.6974  1\n  P  P5  1  0.7065  0.6859  0.8026  1\n  P  P6  1  0.6859  0.7065  0.3026  1\n  P  P7  1  0.2935  0.3141  0.1974  1\n  P  P8  1  0.7312  0.2508  0.4791  1\n  P  P9  1  0.7492  0.2688  0.0209  1\n  P  P10  1  0.2688  0.7492  0.5209  1\n  P  P11  1  0.2508  0.7312  0.9791  1\n  O  O12  1  0.3167  0.5309  0.6514  1\n  O  O13  1  0.4691  0.6833  0.8486  1\n  O  O14  1  0.6833  0.4691  0.3486  1\n  O  O15  1  0.5309  0.3167  0.1514  1\n  O  O16  1  0.5045  0.2086  0.5691  1\n  O  O17  1  0.7914  0.4955  0.9309  1\n  O  O18  1  0.4955  0.7914  0.4309  1\n  O  O19  1  0.2086  0.5045  0.0691  1\n  O  O20  1  0.3447  0.1920  0.8491  1\n  O  O21  1  0.8080  0.6553  0.6509  1\n  O  O22  1  0.6553  0.8080  0.1509  1\n  O  O23  1  0.1920  0.3447  0.3491  1\n  O  O24  1  0.1237  0.2805  0.6752  1\n  O  O25  1  0.7195  0.8763  0.8248  1\n  O  O26  1  0.8763  0.7195  0.3248  1\n  O  O27  1  0.2805  0.1237  0.1752  1\n  O  O28  1  0.8145  0.2852  0.5835  1\n  O  O29  1  0.7148  0.1855  0.9165  1\n  O  O30  1  0.1855  0.7148  0.4165  1\n  O  O31  1  0.2852  0.8145  0.0835  1\n  O  O32  1  0.8487  0.0883  0.4053  1\n  O  O33  1  0.9117  0.1513  0.0947  1\n  O  O34  1  0.1513  0.9117  0.5947  1\n  O  O35  1  0.0883  0.8487  0.9053  1\n",
    "output": "data_image0\n_chemical_formula_structural       NiMg2NiP8O24\n_chemical_formula_sum              \"Ni2 Mg2 P8 O24\"\n_cell_length_a       7.2558\n_cell_length_b       7.2558\n_cell_length_c       10.0235\n_cell_angle_alpha    67.1266\n_cell_angle_beta     67.1266\n_cell_angle_gamma    70.4777\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.9527  0.0473  0.7500  1.0000\n  Mg  Mg1       1.0000  0.0473  0.9527  0.2500  1.0000\n  Mg  Mg2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.0000  0.5000  0.5000  1.0000\n  P   P1        1.0000  0.3141  0.2935  0.6974  1.0000\n  P   P2        1.0000  0.7065  0.6859  0.8026  1.0000\n  P   P3        1.0000  0.6859  0.7065  0.3026  1.0000\n  P   P4        1.0000  0.2935  0.3141  0.1974  1.0000\n  P   P5        1.0000  0.7312  0.2508  0.4791  1.0000\n  P   P6        1.0000  0.7492  0.2688  0.0209  1.0000\n  P   P7        1.0000  0.2688  0.7492  0.5209  1.0000\n  P   P8        1.0000  0.2508  0.7312  0.9791  1.0000\n  O   O1        1.0000  0.3167  0.5309  0.6514  1.0000\n  O   O2        1.0000  0.4691  0.6833  0.8486  1.0000\n  O   O3        1.0000  0.6833  0.4691  0.3486  1.0000\n  O   O4        1.0000  0.5309  0.3167  0.1514  1.0000\n  O   O5        1.0000  0.5045  0.2086  0.5691  1.0000\n  O   O6        1.0000  0.7914  0.4955  0.9309  1.0000\n  O   O7        1.0000  0.4955  0.7914  0.4309  1.0000\n  O   O8        1.0000  0.2086  0.5045  0.0691  1.0000\n  O   O9        1.0000  0.3447  0.1920  0.8491  1.0000\n  O   O10       1.0000  0.8080  0.6553  0.6509  1.0000\n  O   O11       1.0000  0.6553  0.8080  0.1509  1.0000\n  O   O12       1.0000  0.1920  0.3447  0.3491  1.0000\n  O   O13       1.0000  0.1237  0.2805  0.6752  1.0000\n  O   O14       1.0000  0.7195  0.8763  0.8248  1.0000\n  O   O15       1.0000  0.8763  0.7195  0.3248  1.0000\n  O   O16       1.0000  0.2805  0.1237  0.1752  1.0000\n  O   O17       1.0000  0.8145  0.2852  0.5835  1.0000\n  O   O18       1.0000  0.7148  0.1855  0.9165  1.0000\n  O   O19       1.0000  0.1855  0.7148  0.4165  1.0000\n  O   O20       1.0000  0.2852  0.8145  0.0835  1.0000\n  O   O21       1.0000  0.8487  0.0883  0.4053  1.0000\n  O   O22       1.0000  0.9117  0.1513  0.0947  1.0000\n  O   O23       1.0000  0.1513  0.9117  0.5947  1.0000\n  O   O24       1.0000  0.0883  0.8487  0.9053  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1aa07314-0cda-493a-b203-6ebb2593bc01",
    "mp_id": "mp-1045992",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaCuO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0384\n_cell_length_b   8.2479\n_cell_length_c   8.6025\n_cell_angle_alpha   94.7887\n_cell_angle_beta   89.4710\n_cell_angle_gamma   99.6872\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaCuO2\n_chemical_formula_sum   'Ca4 Cu4 O8'\n_cell_volume   211.7629\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2131  0.9191  0.8211  1\n  Ca  Ca1  1  0.7869  0.0809  0.1789  1\n  Ca  Ca2  1  0.3377  0.1881  0.5457  1\n  Ca  Ca3  1  0.6623  0.8119  0.4543  1\n  Cu  Cu4  1  0.1135  0.7279  0.1052  1\n  Cu  Cu5  1  0.5557  0.5515  0.6878  1\n  Cu  Cu6  1  0.4443  0.4485  0.3122  1\n  Cu  Cu7  1  0.8865  0.2721  0.8948  1\n  O  O8  1  0.3390  0.1762  0.9981  1\n  O  O9  1  0.0167  0.5939  0.2691  1\n  O  O10  1  0.9833  0.4061  0.7309  1\n  O  O11  1  0.6610  0.8238  0.0019  1\n  O  O12  1  0.2357  0.9734  0.3408  1\n  O  O13  1  0.1174  0.6904  0.6357  1\n  O  O14  1  0.7643  0.0266  0.6592  1\n  O  O15  1  0.8826  0.3096  0.3643  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaOCa2Cu4O2CaO5\n_chemical_formula_sum              \"Ca4 O8 Cu4\"\n_cell_length_a       3.0384\n_cell_length_b       8.2479\n_cell_length_c       8.6025\n_cell_angle_alpha    94.7887\n_cell_angle_beta     89.4710\n_cell_angle_gamma    99.6872\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2131  0.9191  0.8211  1.0000\n  O   O1        1.0000  0.7869  0.0809  0.1789  1.0000\n  Ca  Ca2       1.0000  0.3377  0.1881  0.5457  1.0000\n  Ca  Ca3       1.0000  0.6623  0.8119  0.4543  1.0000\n  Cu  Cu1       1.0000  0.1135  0.7279  0.1052  1.0000\n  Cu  Cu2       1.0000  0.5557  0.5515  0.6878  1.0000\n  Cu  Cu3       1.0000  0.4443  0.4485  0.3122  1.0000\n  Cu  Cu4       1.0000  0.8865  0.2721  0.8948  1.0000\n  O   O2        1.0000  0.3390  0.1762  0.9981  1.0000\n  O   O3        1.0000  0.0167  0.5939  0.2691  1.0000\n  Ca  Ca4       1.0000  0.9833  0.4061  0.7309  1.0000\n  O   O4        1.0000  0.6610  0.8238  0.0019  1.0000\n  O   O5        1.0000  0.2357  0.9734  0.3408  1.0000\n  O   O6        1.0000  0.1174  0.6904  0.6357  1.0000\n  O   O7        1.0000  0.7643  0.0266  0.6592  1.0000\n  O   O8        1.0000  0.8826  0.3096  0.3643  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9acb3d09-6fd0-44db-8182-89c81a1ee90f",
    "mp_id": "mp-1046286",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca2Ta2WO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1234\n_cell_length_b   10.1234\n_cell_length_c   5.5286\n_cell_angle_alpha   87.3030\n_cell_angle_beta   87.3030\n_cell_angle_gamma   36.6842\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca2Ta2WO8\n_chemical_formula_sum   'Ca4 Ta4 W2 O16'\n_cell_volume   338.0663\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.8781  0.5460  0.5168  1\n  Ca  Ca1  1  0.4540  0.1219  0.4832  1\n  Ca  Ca2  1  0.1203  0.4748  0.9881  1\n  Ca  Ca3  1  0.5252  0.8797  0.0119  1\n  Ta  Ta4  1  0.0169  0.7590  0.5078  1\n  Ta  Ta5  1  0.2410  0.9831  0.4922  1\n  Ta  Ta6  1  0.9755  0.2561  0.0138  1\n  Ta  Ta7  1  0.7439  0.0245  0.9862  1\n  W  W8  1  0.6352  0.3648  0.5000  1\n  W  W9  1  0.3682  0.6318  0.0000  1\n  O  O10  1  0.0771  0.7722  0.8548  1\n  O  O11  1  0.2278  0.9229  0.1452  1\n  O  O12  1  0.9438  0.1874  0.6738  1\n  O  O13  1  0.8126  0.0562  0.3262  1\n  O  O14  1  0.3068  0.5827  0.3535  1\n  O  O15  1  0.4173  0.6932  0.6465  1\n  O  O16  1  0.6904  0.4254  0.1534  1\n  O  O17  1  0.5746  0.3096  0.8466  1\n  O  O18  1  0.8811  0.7665  0.2338  1\n  O  O19  1  0.2335  0.1189  0.7662  1\n  O  O20  1  0.4698  0.1531  0.0802  1\n  O  O21  1  0.8469  0.5302  0.9198  1\n  O  O22  1  0.5240  0.8459  0.4163  1\n  O  O23  1  0.1541  0.4760  0.5837  1\n  O  O24  1  0.7557  0.8777  0.7280  1\n  O  O25  1  0.1223  0.2443  0.2720  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca3OTa4W2CaO15\n_chemical_formula_sum              \"Ca4 O16 Ta4 W2\"\n_cell_length_a       10.1234\n_cell_length_b       10.1234\n_cell_length_c       5.5286\n_cell_angle_alpha    87.3030\n_cell_angle_beta     87.3030\n_cell_angle_gamma    36.6842\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.8781  0.5460  0.5168  1.0000\n  Ca  Ca2       1.0000  0.4540  0.1219  0.4832  1.0000\n  Ca  Ca3       1.0000  0.1203  0.4748  0.9881  1.0000\n  O   O1        1.0000  0.5252  0.8797  0.0119  1.0000\n  Ta  Ta1       1.0000  0.0169  0.7590  0.5078  1.0000\n  Ta  Ta2       1.0000  0.2410  0.9831  0.4922  1.0000\n  Ta  Ta3       1.0000  0.9755  0.2561  0.0138  1.0000\n  Ta  Ta4       1.0000  0.7439  0.0245  0.9862  1.0000\n  W   W1        1.0000  0.6352  0.3648  0.5000  1.0000\n  W   W2        1.0000  0.3682  0.6318  0.0000  1.0000\n  Ca  Ca4       1.0000  0.0771  0.7722  0.8548  1.0000\n  O   O2        1.0000  0.2278  0.9229  0.1452  1.0000\n  O   O3        1.0000  0.9438  0.1874  0.6738  1.0000\n  O   O4        1.0000  0.8126  0.0562  0.3262  1.0000\n  O   O5        1.0000  0.3068  0.5827  0.3535  1.0000\n  O   O6        1.0000  0.4173  0.6932  0.6465  1.0000\n  O   O7        1.0000  0.6904  0.4254  0.1534  1.0000\n  O   O8        1.0000  0.5746  0.3096  0.8466  1.0000\n  O   O9        1.0000  0.8811  0.7665  0.2338  1.0000\n  O   O10       1.0000  0.2335  0.1189  0.7662  1.0000\n  O   O11       1.0000  0.4698  0.1531  0.0802  1.0000\n  O   O12       1.0000  0.8469  0.5302  0.9198  1.0000\n  O   O13       1.0000  0.5240  0.8459  0.4163  1.0000\n  O   O14       1.0000  0.1541  0.4760  0.5837  1.0000\n  O   O15       1.0000  0.7557  0.8777  0.7280  1.0000\n  O   O16       1.0000  0.1223  0.2443  0.2720  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "312ff592-5e77-431b-b345-43c8869c18ad",
    "mp_id": "mp-1047007",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca(SnO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9094\n_cell_length_b   6.9094\n_cell_length_c   6.9094\n_cell_angle_alpha   122.5464\n_cell_angle_beta   121.4717\n_cell_angle_gamma   86.5568\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca(SnO2)2\n_chemical_formula_sum   'Ca2 Sn4 O8'\n_cell_volume   225.6915\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.3591  0.6091  0.7500  1\n  Ca  Ca1  1  0.6409  0.3909  0.2500  1\n  Sn  Sn2  1  0.0000  0.5000  0.0000  1\n  Sn  Sn3  1  0.0000  0.0000  0.5000  1\n  Sn  Sn4  1  0.5000  0.0000  0.5000  1\n  Sn  Sn5  1  0.0000  0.0000  0.0000  1\n  O  O6  1  0.7945  0.3012  0.0067  1\n  O  O7  1  0.2118  0.2488  0.9629  1\n  O  O8  1  0.7859  0.2488  0.5371  1\n  O  O9  1  0.2055  0.2122  0.5067  1\n  O  O10  1  0.2141  0.7512  0.4629  1\n  O  O11  1  0.7882  0.7512  0.0371  1\n  O  O12  1  0.7945  0.7878  0.4933  1\n  O  O13  1  0.2055  0.6988  0.9933  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2OSn3O5SnO2\n_chemical_formula_sum              \"Ca2 O8 Sn4\"\n_cell_length_a       6.9094\n_cell_length_b       6.9094\n_cell_length_c       6.9094\n_cell_angle_alpha    122.5464\n_cell_angle_beta     121.4717\n_cell_angle_gamma    86.5568\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.3591  0.6091  0.7500  1.0000\n  Ca  Ca2       1.0000  0.6409  0.3909  0.2500  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Sn  Sn1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Sn  Sn2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Sn  Sn3       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7945  0.3012  0.0067  1.0000\n  O   O3        1.0000  0.2118  0.2488  0.9629  1.0000\n  O   O4        1.0000  0.7859  0.2488  0.5371  1.0000\n  O   O5        1.0000  0.2055  0.2122  0.5067  1.0000\n  O   O6        1.0000  0.2141  0.7512  0.4629  1.0000\n  Sn  Sn4       1.0000  0.7882  0.7512  0.0371  1.0000\n  O   O7        1.0000  0.7945  0.7878  0.4933  1.0000\n  O   O8        1.0000  0.2055  0.6988  0.9933  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e931489a-09b8-4c69-b8a3-98ffcc5b5eef",
    "mp_id": "mp-1047085",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2Mn2GaO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.0290\n_cell_length_b   13.0290\n_cell_length_c   13.0290\n_cell_angle_alpha   156.5085\n_cell_angle_beta   155.8734\n_cell_angle_gamma   33.9255\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2Mn2GaO7\n_chemical_formula_sum   'Sr4 Mn4 Ga2 O14'\n_cell_volume   360.0155\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.3305  0.8404  0.4853  1\n  Sr  Sr1  1  0.6695  0.1548  0.5099  1\n  Sr  Sr2  1  0.8551  0.3404  0.5099  1\n  Sr  Sr3  1  0.1449  0.6548  0.4853  1\n  Mn  Mn4  1  0.5680  0.5701  0.9869  1\n  Mn  Mn5  1  0.9168  0.9189  0.9869  1\n  Mn  Mn6  1  0.0832  0.0701  0.0021  1\n  Mn  Mn7  1  0.4320  0.4189  0.0021  1\n  Ga  Ga8  1  0.6809  0.7915  0.9724  1\n  Ga  Ga9  1  0.3191  0.2915  0.1107  1\n  O  O10  1  0.1725  0.1705  0.4971  1\n  O  O11  1  0.6416  0.1514  0.2930  1\n  O  O12  1  0.1734  0.6705  0.9980  1\n  O  O13  1  0.1410  0.1595  0.9412  1\n  O  O14  1  0.3341  0.3311  0.4931  1\n  O  O15  1  0.3380  0.8311  0.9970  1\n  O  O16  1  0.3584  0.6514  0.5098  1\n  O  O17  1  0.8266  0.8246  0.4971  1\n  O  O18  1  0.8275  0.3246  0.9980  1\n  O  O19  1  0.7183  0.6595  0.0185  1\n  O  O20  1  0.8590  0.8002  0.0185  1\n  O  O21  1  0.2817  0.3002  0.9412  1\n  O  O22  1  0.6659  0.1590  0.9970  1\n  O  O23  1  0.6620  0.6590  0.4931  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2OSrMn4Ga2O9SrO4\n_chemical_formula_sum              \"Sr4 O14 Mn4 Ga2\"\n_cell_length_a       13.0290\n_cell_length_b       13.0290\n_cell_length_c       13.0290\n_cell_angle_alpha    156.5085\n_cell_angle_beta     155.8734\n_cell_angle_gamma    33.9255\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.3305  0.8404  0.4853  1.0000\n  Sr  Sr2       1.0000  0.6695  0.1548  0.5099  1.0000\n  O   O1        1.0000  0.8551  0.3404  0.5099  1.0000\n  Sr  Sr3       1.0000  0.1449  0.6548  0.4853  1.0000\n  Mn  Mn1       1.0000  0.5680  0.5701  0.9869  1.0000\n  Mn  Mn2       1.0000  0.9168  0.9189  0.9869  1.0000\n  Mn  Mn3       1.0000  0.0832  0.0701  0.0021  1.0000\n  Mn  Mn4       1.0000  0.4320  0.4189  0.0021  1.0000\n  Ga  Ga1       1.0000  0.6809  0.7915  0.9724  1.0000\n  Ga  Ga2       1.0000  0.3191  0.2915  0.1107  1.0000\n  O   O2        1.0000  0.1725  0.1705  0.4971  1.0000\n  O   O3        1.0000  0.6416  0.1514  0.2930  1.0000\n  O   O4        1.0000  0.1734  0.6705  0.9980  1.0000\n  O   O5        1.0000  0.1410  0.1595  0.9412  1.0000\n  O   O6        1.0000  0.3341  0.3311  0.4931  1.0000\n  O   O7        1.0000  0.3380  0.8311  0.9970  1.0000\n  O   O8        1.0000  0.3584  0.6514  0.5098  1.0000\n  O   O9        1.0000  0.8266  0.8246  0.4971  1.0000\n  O   O10       1.0000  0.8275  0.3246  0.9980  1.0000\n  Sr  Sr4       1.0000  0.7183  0.6595  0.0185  1.0000\n  O   O11       1.0000  0.8590  0.8002  0.0185  1.0000\n  O   O12       1.0000  0.2817  0.3002  0.9412  1.0000\n  O   O13       1.0000  0.6659  0.1590  0.9970  1.0000\n  O   O14       1.0000  0.6620  0.6590  0.4931  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c6ec6182-a7fd-4b2a-8ebe-87137f16f527",
    "mp_id": "mp-1047504",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zn2TeWO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4519\n_cell_length_b   5.7280\n_cell_length_c   7.1498\n_cell_angle_alpha   109.5794\n_cell_angle_beta   91.7213\n_cell_angle_gamma   109.4074\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zn2TeWO6\n_chemical_formula_sum   'Zn2 Te1 W1 O6'\n_cell_volume   195.8830\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.4352  0.6398  0.9977  1\n  Zn  Zn1  1  0.7481  0.4928  0.3209  1\n  Te  Te2  1  0.4998  0.1011  0.6119  1\n  W  W3  1  0.0102  0.0107  0.9502  1\n  O  O4  1  0.7707  0.9399  0.1184  1\n  O  O5  1  0.1610  0.9645  0.6835  1\n  O  O6  1  0.2007  0.8282  0.0033  1\n  O  O7  1  0.2107  0.3555  0.0882  1\n  O  O8  1  0.5810  0.4613  0.7648  1\n  O  O9  1  0.7239  0.0297  0.7779  1\n",
    "output": "data_image0\n_chemical_formula_structural       ZnOTeWZnO5\n_chemical_formula_sum              \"Zn2 O6 Te1 W1\"\n_cell_length_a       5.4519\n_cell_length_b       5.7280\n_cell_length_c       7.1498\n_cell_angle_alpha    109.5794\n_cell_angle_beta     91.7213\n_cell_angle_gamma    109.4074\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.4352  0.6398  0.9977  1.0000\n  O   O1        1.0000  0.7481  0.4928  0.3209  1.0000\n  Te  Te1       1.0000  0.4998  0.1011  0.6119  1.0000\n  W   W1        1.0000  0.0102  0.0107  0.9502  1.0000\n  Zn  Zn2       1.0000  0.7707  0.9399  0.1184  1.0000\n  O   O2        1.0000  0.1610  0.9645  0.6835  1.0000\n  O   O3        1.0000  0.2007  0.8282  0.0033  1.0000\n  O   O4        1.0000  0.2107  0.3555  0.0882  1.0000\n  O   O5        1.0000  0.5810  0.4613  0.7648  1.0000\n  O   O6        1.0000  0.7239  0.0297  0.7779  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a884140e-9de1-4444-a52c-1e7cc190738e",
    "mp_id": "mp-1047641",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCr2O4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0527\n_cell_length_b   5.0527\n_cell_length_c   9.8292\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   146.3335\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCr2O4\n_chemical_formula_sum   'Mg2 Cr4 O8'\n_cell_volume   139.1100\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6092  0.3908  0.7500  1\n  Mg  Mg1  1  0.3908  0.6092  0.2500  1\n  Cr  Cr2  1  0.1332  0.8668  0.0717  1\n  Cr  Cr3  1  0.8668  0.1332  0.9283  1\n  Cr  Cr4  1  0.1332  0.8668  0.4283  1\n  Cr  Cr5  1  0.8668  0.1332  0.5717  1\n  O  O6  1  0.7703  0.2297  0.3864  1\n  O  O7  1  0.2297  0.7703  0.6136  1\n  O  O8  1  0.2297  0.7703  0.8864  1\n  O  O9  1  0.7703  0.2297  0.1136  1\n  O  O10  1  0.0367  0.9633  0.2500  1\n  O  O11  1  0.9633  0.0367  0.7500  1\n  O  O12  1  0.5000  0.5000  0.0000  1\n  O  O13  1  0.5000  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2CrOCr2O3CrO4\n_chemical_formula_sum              \"Mg2 Cr4 O8\"\n_cell_length_a       5.0527\n_cell_length_b       5.0527\n_cell_length_c       9.8292\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    146.3335\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6092  0.3908  0.7500  1.0000\n  Mg  Mg2       1.0000  0.3908  0.6092  0.2500  1.0000\n  Cr  Cr1       1.0000  0.1332  0.8668  0.0717  1.0000\n  O   O1        1.0000  0.8668  0.1332  0.9283  1.0000\n  Cr  Cr2       1.0000  0.1332  0.8668  0.4283  1.0000\n  Cr  Cr3       1.0000  0.8668  0.1332  0.5717  1.0000\n  O   O2        1.0000  0.7703  0.2297  0.3864  1.0000\n  O   O3        1.0000  0.2297  0.7703  0.6136  1.0000\n  O   O4        1.0000  0.2297  0.7703  0.8864  1.0000\n  Cr  Cr4       1.0000  0.7703  0.2297  0.1136  1.0000\n  O   O5        1.0000  0.0367  0.9633  0.2500  1.0000\n  O   O6        1.0000  0.9633  0.0367  0.7500  1.0000\n  O   O7        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "820d8606-9352-451d-8b4e-d4438cfcb579",
    "mp_id": "mp-1047798",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 37 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CuMoO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8886\n_cell_length_b   6.6955\n_cell_length_c   12.1339\n_cell_angle_alpha   89.8223\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CuMoO4\n_chemical_formula_sum   'Cu8 Mo8 O32'\n_cell_volume   722.1221\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.8398  0.2158  0.8795  1\n  Cu  Cu1  1  0.9548  0.6272  0.6142  1\n  Cu  Cu2  1  0.0452  0.3728  0.3858  1\n  Cu  Cu3  1  0.1602  0.7842  0.1205  1\n  Cu  Cu4  1  0.6602  0.2158  0.3795  1\n  Cu  Cu5  1  0.5452  0.6272  0.1142  1\n  Cu  Cu6  1  0.3398  0.7842  0.6205  1\n  Cu  Cu7  1  0.4548  0.3728  0.8858  1\n  Mo  Mo8  1  0.5502  0.8951  0.8572  1\n  Mo  Mo9  1  0.9498  0.8951  0.3572  1\n  Mo  Mo10  1  0.9022  0.4041  0.1409  1\n  Mo  Mo11  1  0.0502  0.1049  0.6428  1\n  Mo  Mo12  1  0.0978  0.5959  0.8591  1\n  Mo  Mo13  1  0.4022  0.5959  0.3591  1\n  Mo  Mo14  1  0.5978  0.4041  0.6409  1\n  Mo  Mo15  1  0.4498  0.1049  0.1428  1\n  O  O16  1  0.7546  0.9591  0.3757  1\n  O  O17  1  0.0018  0.3503  0.5851  1\n  O  O18  1  0.3782  0.7930  0.4556  1\n  O  O19  1  0.8782  0.2070  0.0444  1\n  O  O20  1  0.7454  0.9591  0.8757  1\n  O  O21  1  0.2454  0.0409  0.6243  1\n  O  O22  1  0.9260  0.9103  0.5914  1\n  O  O23  1  0.0879  0.5142  0.1263  1\n  O  O24  1  0.4121  0.5142  0.6263  1\n  O  O25  1  0.1264  0.6854  0.7148  1\n  O  O26  1  0.6264  0.3146  0.7852  1\n  O  O27  1  0.9121  0.4858  0.8737  1\n  O  O28  1  0.0740  0.0897  0.4086  1\n  O  O29  1  0.4850  0.1265  0.2863  1\n  O  O30  1  0.7387  0.5840  0.6115  1\n  O  O31  1  0.7613  0.5840  0.1115  1\n  O  O32  1  0.9850  0.8735  0.2137  1\n  O  O33  1  0.5879  0.4858  0.3737  1\n  O  O34  1  0.5150  0.8735  0.7137  1\n  O  O35  1  0.6218  0.2070  0.5444  1\n  O  O36  1  0.4982  0.3503  0.0851  1\n  O  O37  1  0.8736  0.3146  0.2852  1\n  O  O38  1  0.2546  0.0409  0.1243  1\n  O  O39  1  0.5740  0.9103  0.0914  1\n  O  O40  1  0.1218  0.7930  0.9556  1\n  O  O41  1  0.2387  0.4160  0.8885  1\n  O  O42  1  0.9982  0.6497  0.4149  1\n  O  O43  1  0.5018  0.6497  0.9149  1\n  O  O44  1  0.4260  0.0897  0.9086  1\n  O  O45  1  0.2613  0.4160  0.3885  1\n  O  O46  1  0.3736  0.6854  0.2148  1\n  O  O47  1  0.0150  0.1265  0.7863  1\n",
    "output": "data_image0\n_chemical_formula_structural       CuOCu6Mo8O21CuO10\n_chemical_formula_sum              \"Cu8 O32 Mo8\"\n_cell_length_a       8.8886\n_cell_length_b       6.6955\n_cell_length_c       12.1339\n_cell_angle_alpha    89.8223\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.8398  0.2158  0.8795  1.0000\n  O   O1        1.0000  0.9548  0.6272  0.6142  1.0000\n  Cu  Cu2       1.0000  0.0452  0.3728  0.3858  1.0000\n  Cu  Cu3       1.0000  0.1602  0.7842  0.1205  1.0000\n  Cu  Cu4       1.0000  0.6602  0.2158  0.3795  1.0000\n  Cu  Cu5       1.0000  0.5452  0.6272  0.1142  1.0000\n  Cu  Cu6       1.0000  0.3398  0.7842  0.6205  1.0000\n  Cu  Cu7       1.0000  0.4548  0.3728  0.8858  1.0000\n  Mo  Mo1       1.0000  0.5502  0.8951  0.8572  1.0000\n  Mo  Mo2       1.0000  0.9498  0.8951  0.3572  1.0000\n  Mo  Mo3       1.0000  0.9022  0.4041  0.1409  1.0000\n  Mo  Mo4       1.0000  0.0502  0.1049  0.6428  1.0000\n  Mo  Mo5       1.0000  0.0978  0.5959  0.8591  1.0000\n  Mo  Mo6       1.0000  0.4022  0.5959  0.3591  1.0000\n  Mo  Mo7       1.0000  0.5978  0.4041  0.6409  1.0000\n  Mo  Mo8       1.0000  0.4498  0.1049  0.1428  1.0000\n  O   O2        1.0000  0.7546  0.9591  0.3757  1.0000\n  O   O3        1.0000  0.0018  0.3503  0.5851  1.0000\n  O   O4        1.0000  0.3782  0.7930  0.4556  1.0000\n  O   O5        1.0000  0.8782  0.2070  0.0444  1.0000\n  O   O6        1.0000  0.7454  0.9591  0.8757  1.0000\n  O   O7        1.0000  0.2454  0.0409  0.6243  1.0000\n  O   O8        1.0000  0.9260  0.9103  0.5914  1.0000\n  O   O9        1.0000  0.0879  0.5142  0.1263  1.0000\n  O   O10       1.0000  0.4121  0.5142  0.6263  1.0000\n  O   O11       1.0000  0.1264  0.6854  0.7148  1.0000\n  O   O12       1.0000  0.6264  0.3146  0.7852  1.0000\n  O   O13       1.0000  0.9121  0.4858  0.8737  1.0000\n  O   O14       1.0000  0.0740  0.0897  0.4086  1.0000\n  O   O15       1.0000  0.4850  0.1265  0.2863  1.0000\n  O   O16       1.0000  0.7387  0.5840  0.6115  1.0000\n  O   O17       1.0000  0.7613  0.5840  0.1115  1.0000\n  O   O18       1.0000  0.9850  0.8735  0.2137  1.0000\n  O   O19       1.0000  0.5879  0.4858  0.3737  1.0000\n  O   O20       1.0000  0.5150  0.8735  0.7137  1.0000\n  O   O21       1.0000  0.6218  0.2070  0.5444  1.0000\n  O   O22       1.0000  0.4982  0.3503  0.0851  1.0000\n  Cu  Cu8       1.0000  0.8736  0.3146  0.2852  1.0000\n  O   O23       1.0000  0.2546  0.0409  0.1243  1.0000\n  O   O24       1.0000  0.5740  0.9103  0.0914  1.0000\n  O   O25       1.0000  0.1218  0.7930  0.9556  1.0000\n  O   O26       1.0000  0.2387  0.4160  0.8885  1.0000\n  O   O27       1.0000  0.9982  0.6497  0.4149  1.0000\n  O   O28       1.0000  0.5018  0.6497  0.9149  1.0000\n  O   O29       1.0000  0.4260  0.0897  0.9086  1.0000\n  O   O30       1.0000  0.2613  0.4160  0.3885  1.0000\n  O   O31       1.0000  0.3736  0.6854  0.2148  1.0000\n  O   O32       1.0000  0.0150  0.1265  0.7863  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eeb1fcb5-e340-403b-97ff-9ea56699b82a",
    "mp_id": "mp-1048141",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaAlCu4O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9845\n_cell_length_b   5.9845\n_cell_length_c   9.9190\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaAlCu4O7\n_chemical_formula_sum   'Ba2 Al2 Cu8 O14'\n_cell_volume   307.6491\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6667  0.3333  0.5028  1\n  Ba  Ba1  1  0.3333  0.6667  0.0028  1\n  Al  Al2  1  0.6667  0.3333  0.8811  1\n  Al  Al3  1  0.3333  0.6667  0.3811  1\n  Cu  Cu4  1  0.8227  0.1773  0.1911  1\n  Cu  Cu5  1  0.6453  0.8227  0.6911  1\n  Cu  Cu6  1  0.1773  0.3547  0.6911  1\n  Cu  Cu7  1  0.8227  0.6453  0.1911  1\n  Cu  Cu8  1  0.3547  0.1773  0.1911  1\n  Cu  Cu9  1  0.1773  0.8227  0.6911  1\n  Cu  Cu10  1  0.0000  0.0000  0.4409  1\n  Cu  Cu11  1  0.0000  0.0000  0.9409  1\n  O  O12  1  0.8202  0.1798  0.9943  1\n  O  O13  1  0.6404  0.8202  0.4943  1\n  O  O14  1  0.1798  0.3596  0.4943  1\n  O  O15  1  0.8202  0.6404  0.9943  1\n  O  O16  1  0.3596  0.1798  0.9943  1\n  O  O17  1  0.1798  0.8202  0.4943  1\n  O  O18  1  0.0000  0.0000  0.7470  1\n  O  O19  1  0.0000  0.0000  0.2470  1\n  O  O20  1  0.4850  0.5150  0.2688  1\n  O  O21  1  0.9700  0.4850  0.7688  1\n  O  O22  1  0.5150  0.0300  0.7688  1\n  O  O23  1  0.4850  0.9700  0.2688  1\n  O  O24  1  0.5150  0.4850  0.7688  1\n  O  O25  1  0.0300  0.5150  0.2688  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2Al2Cu6OCu2O13\n_chemical_formula_sum              \"Ba2 Al2 Cu8 O14\"\n_cell_length_a       5.9845\n_cell_length_b       5.9845\n_cell_length_c       9.9190\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6667  0.3333  0.5028  1.0000\n  Ba  Ba2       1.0000  0.3333  0.6667  0.0028  1.0000\n  Al  Al1       1.0000  0.6667  0.3333  0.8811  1.0000\n  Al  Al2       1.0000  0.3333  0.6667  0.3811  1.0000\n  Cu  Cu1       1.0000  0.8227  0.1773  0.1911  1.0000\n  Cu  Cu2       1.0000  0.6453  0.8227  0.6911  1.0000\n  Cu  Cu3       1.0000  0.1773  0.3547  0.6911  1.0000\n  Cu  Cu4       1.0000  0.8227  0.6453  0.1911  1.0000\n  Cu  Cu5       1.0000  0.3547  0.1773  0.1911  1.0000\n  Cu  Cu6       1.0000  0.1773  0.8227  0.6911  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.4409  1.0000\n  Cu  Cu7       1.0000  0.0000  0.0000  0.9409  1.0000\n  Cu  Cu8       1.0000  0.8202  0.1798  0.9943  1.0000\n  O   O2        1.0000  0.6404  0.8202  0.4943  1.0000\n  O   O3        1.0000  0.1798  0.3596  0.4943  1.0000\n  O   O4        1.0000  0.8202  0.6404  0.9943  1.0000\n  O   O5        1.0000  0.3596  0.1798  0.9943  1.0000\n  O   O6        1.0000  0.1798  0.8202  0.4943  1.0000\n  O   O7        1.0000  0.0000  0.0000  0.7470  1.0000\n  O   O8        1.0000  0.0000  0.0000  0.2470  1.0000\n  O   O9        1.0000  0.4850  0.5150  0.2688  1.0000\n  O   O10       1.0000  0.9700  0.4850  0.7688  1.0000\n  O   O11       1.0000  0.5150  0.0300  0.7688  1.0000\n  O   O12       1.0000  0.4850  0.9700  0.2688  1.0000\n  O   O13       1.0000  0.5150  0.4850  0.7688  1.0000\n  O   O14       1.0000  0.0300  0.5150  0.2688  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6ead9723-ce80-47dd-8734-4fe6a216cfcf",
    "mp_id": "mp-1048241",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlSb3Se2ClO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9430\n_cell_length_b   8.0050\n_cell_length_c   9.4024\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlSb3Se2ClO8\n_chemical_formula_sum   'Al2 Sb6 Se4 Cl2 O16'\n_cell_volume   522.5733\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.6676  0.5000  0.5000  1\n  Al  Al1  1  0.3315  0.0000  0.0000  1\n  Sb  Sb2  1  0.0020  0.2429  0.7547  1\n  Sb  Sb3  1  0.0020  0.2429  0.2453  1\n  Sb  Sb4  1  0.0020  0.7571  0.7547  1\n  Sb  Sb5  1  0.8659  0.0000  0.0000  1\n  Sb  Sb6  1  0.1094  0.5000  0.5000  1\n  Sb  Sb7  1  0.0020  0.7571  0.2453  1\n  Se  Se8  1  0.5546  0.0000  0.6877  1\n  Se  Se9  1  0.4461  0.5000  0.8120  1\n  Se  Se10  1  0.5546  0.0000  0.3123  1\n  Se  Se11  1  0.4461  0.5000  0.1880  1\n  Cl  Cl12  1  0.9139  0.5000  0.0000  1\n  Cl  Cl13  1  0.0867  0.0000  0.5000  1\n  O  O14  1  0.8606  0.5000  0.6377  1\n  O  O15  1  0.4676  0.5000  0.6261  1\n  O  O16  1  0.5345  0.0000  0.1247  1\n  O  O17  1  0.7033  0.1697  0.6679  1\n  O  O18  1  0.2975  0.3296  0.1680  1\n  O  O19  1  0.2975  0.6704  0.1680  1\n  O  O20  1  0.1440  0.0000  0.8596  1\n  O  O21  1  0.7033  0.8303  0.6679  1\n  O  O22  1  0.7033  0.8303  0.3321  1\n  O  O23  1  0.2975  0.6704  0.8320  1\n  O  O24  1  0.8606  0.5000  0.3623  1\n  O  O25  1  0.1440  0.0000  0.1404  1\n  O  O26  1  0.2975  0.3296  0.8320  1\n  O  O27  1  0.7033  0.1697  0.3321  1\n  O  O28  1  0.5345  0.0000  0.8753  1\n  O  O29  1  0.4676  0.5000  0.3739  1\n",
    "output": "data_image0\n_chemical_formula_structural       SeAlSb6AlSe3Cl2O16\n_chemical_formula_sum              \"Se4 Al2 Sb6 Cl2 O16\"\n_cell_length_a       6.9430\n_cell_length_b       8.0050\n_cell_length_c       9.4024\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Se  Se1       1.0000  0.6676  0.5000  0.5000  1.0000\n  Al  Al1       1.0000  0.3315  0.0000  0.0000  1.0000\n  Sb  Sb1       1.0000  0.0020  0.2429  0.7547  1.0000\n  Sb  Sb2       1.0000  0.0020  0.2429  0.2453  1.0000\n  Sb  Sb3       1.0000  0.0020  0.7571  0.7547  1.0000\n  Sb  Sb4       1.0000  0.8659  0.0000  0.0000  1.0000\n  Sb  Sb5       1.0000  0.1094  0.5000  0.5000  1.0000\n  Sb  Sb6       1.0000  0.0020  0.7571  0.2453  1.0000\n  Al  Al2       1.0000  0.5546  0.0000  0.6877  1.0000\n  Se  Se2       1.0000  0.4461  0.5000  0.8120  1.0000\n  Se  Se3       1.0000  0.5546  0.0000  0.3123  1.0000\n  Se  Se4       1.0000  0.4461  0.5000  0.1880  1.0000\n  Cl  Cl1       1.0000  0.9139  0.5000  0.0000  1.0000\n  Cl  Cl2       1.0000  0.0867  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.8606  0.5000  0.6377  1.0000\n  O   O2        1.0000  0.4676  0.5000  0.6261  1.0000\n  O   O3        1.0000  0.5345  0.0000  0.1247  1.0000\n  O   O4        1.0000  0.7033  0.1697  0.6679  1.0000\n  O   O5        1.0000  0.2975  0.3296  0.1680  1.0000\n  O   O6        1.0000  0.2975  0.6704  0.1680  1.0000\n  O   O7        1.0000  0.1440  0.0000  0.8596  1.0000\n  O   O8        1.0000  0.7033  0.8303  0.6679  1.0000\n  O   O9        1.0000  0.7033  0.8303  0.3321  1.0000\n  O   O10       1.0000  0.2975  0.6704  0.8320  1.0000\n  O   O11       1.0000  0.8606  0.5000  0.3623  1.0000\n  O   O12       1.0000  0.1440  0.0000  0.1404  1.0000\n  O   O13       1.0000  0.2975  0.3296  0.8320  1.0000\n  O   O14       1.0000  0.7033  0.1697  0.3321  1.0000\n  O   O15       1.0000  0.5345  0.0000  0.8753  1.0000\n  O   O16       1.0000  0.4676  0.5000  0.3738  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8c7121b3-a702-4c96-afba-6367f061e99b",
    "mp_id": "mp-1048742",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2Y2Ni2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.6271\n_cell_length_b   12.6271\n_cell_length_c   12.6271\n_cell_angle_alpha   154.7997\n_cell_angle_beta   154.6955\n_cell_angle_gamma   36.0140\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2Y2Ni2O7\n_chemical_formula_sum   'Sr4 Y4 Ni4 O14'\n_cell_volume   365.9457\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.8523  0.8355  0.9651  1\n  Sr  Sr1  1  0.1477  0.1128  0.9832  1\n  Sr  Sr2  1  0.6296  0.6128  0.9651  1\n  Sr  Sr3  1  0.3704  0.3355  0.9832  1\n  Y  Y4  1  0.5000  0.4719  0.9719  1\n  Y  Y5  1  0.0000  0.9719  0.9719  1\n  Y  Y6  1  0.2043  0.7676  0.4720  1\n  Y  Y7  1  0.7957  0.2676  0.5633  1\n  Ni  Ni8  1  0.9229  0.3928  0.4699  1\n  Ni  Ni9  1  0.0771  0.5470  0.4699  1\n  Ni  Ni10  1  0.5771  0.0470  0.4699  1\n  Ni  Ni11  1  0.4229  0.8928  0.4699  1\n  O  O12  1  0.8196  0.6686  0.9882  1\n  O  O13  1  0.1804  0.1686  0.8491  1\n  O  O14  1  0.7022  0.6712  0.4924  1\n  O  O15  1  0.2978  0.7902  0.9690  1\n  O  O16  1  0.3212  0.2902  0.4924  1\n  O  O17  1  0.6788  0.1712  0.9690  1\n  O  O18  1  0.1774  0.1464  0.4477  1\n  O  O19  1  0.8226  0.2703  0.9690  1\n  O  O20  1  0.8012  0.7703  0.4477  1\n  O  O21  1  0.1988  0.6464  0.9690  1\n  O  O22  1  0.3614  0.7898  0.4772  1\n  O  O23  1  0.6386  0.1157  0.4284  1\n  O  O24  1  0.1873  0.6157  0.4772  1\n  O  O25  1  0.8127  0.2898  0.4284  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSr2Y4Ni4O9SrO4\n_chemical_formula_sum              \"Sr4 O14 Y4 Ni4\"\n_cell_length_a       12.6271\n_cell_length_b       12.6271\n_cell_length_c       12.6271\n_cell_angle_alpha    154.7997\n_cell_angle_beta     154.6955\n_cell_angle_gamma    36.0140\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.8523  0.8355  0.9651  1.0000\n  O   O1        1.0000  0.1477  0.1128  0.9832  1.0000\n  Sr  Sr2       1.0000  0.6296  0.6128  0.9651  1.0000\n  Sr  Sr3       1.0000  0.3704  0.3355  0.9832  1.0000\n  Y   Y1        1.0000  0.5000  0.4719  0.9719  1.0000\n  Y   Y2        1.0000  0.0000  0.9719  0.9719  1.0000\n  Y   Y3        1.0000  0.2043  0.7676  0.4720  1.0000\n  Y   Y4        1.0000  0.7957  0.2676  0.5633  1.0000\n  Ni  Ni1       1.0000  0.9229  0.3928  0.4699  1.0000\n  Ni  Ni2       1.0000  0.0771  0.5470  0.4699  1.0000\n  Ni  Ni3       1.0000  0.5771  0.0470  0.4699  1.0000\n  Ni  Ni4       1.0000  0.4229  0.8928  0.4699  1.0000\n  O   O2        1.0000  0.8196  0.6686  0.9882  1.0000\n  O   O3        1.0000  0.1804  0.1686  0.8491  1.0000\n  O   O4        1.0000  0.7022  0.6712  0.4924  1.0000\n  O   O5        1.0000  0.2978  0.7902  0.9690  1.0000\n  O   O6        1.0000  0.3212  0.2902  0.4924  1.0000\n  O   O7        1.0000  0.6788  0.1712  0.9690  1.0000\n  O   O8        1.0000  0.1774  0.1464  0.4477  1.0000\n  O   O9        1.0000  0.8226  0.2703  0.9690  1.0000\n  O   O10       1.0000  0.8012  0.7703  0.4477  1.0000\n  Sr  Sr4       1.0000  0.1988  0.6464  0.9690  1.0000\n  O   O11       1.0000  0.3614  0.7898  0.4772  1.0000\n  O   O12       1.0000  0.6386  0.1157  0.4284  1.0000\n  O   O13       1.0000  0.1873  0.6157  0.4772  1.0000\n  O   O14       1.0000  0.8127  0.2898  0.4284  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a26dedcb-2d87-4c05-9c01-430d6ef1f7e9",
    "mp_id": "mp-1048819",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 38 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti3AlO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9506\n_cell_length_b   5.9506\n_cell_length_c   14.5379\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti3AlO6\n_chemical_formula_sum   'Ti12 Al4 O24'\n_cell_volume   445.8203\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.1589  0.8411  0.6630  1\n  Ti  Ti1  1  0.8411  0.1589  0.3370  1\n  Ti  Ti2  1  0.5000  0.5000  0.0000  1\n  Ti  Ti3  1  0.1589  0.3178  0.6630  1\n  Ti  Ti4  1  0.8411  0.6822  0.3370  1\n  Ti  Ti5  1  0.5000  0.0000  0.0000  1\n  Ti  Ti6  1  0.0000  0.0000  0.5000  1\n  Ti  Ti7  1  0.6667  0.3333  0.1799  1\n  Ti  Ti8  1  0.3333  0.6667  0.8201  1\n  Ti  Ti9  1  0.6822  0.8411  0.6630  1\n  Ti  Ti10  1  0.3178  0.1589  0.3370  1\n  Ti  Ti11  1  0.0000  0.5000  0.0000  1\n  Al  Al12  1  0.3333  0.6667  0.4593  1\n  Al  Al13  1  0.0000  0.0000  0.1246  1\n  Al  Al14  1  0.6667  0.3333  0.5407  1\n  Al  Al15  1  0.0000  0.0000  0.8754  1\n  O  O16  1  0.3333  0.6667  0.5821  1\n  O  O17  1  0.0000  0.0000  0.2470  1\n  O  O18  1  0.6667  0.3333  0.9352  1\n  O  O19  1  0.3401  0.1700  0.5801  1\n  O  O20  1  0.9611  0.4805  0.2600  1\n  O  O21  1  0.6661  0.8330  0.9153  1\n  O  O22  1  0.8300  0.1700  0.5801  1\n  O  O23  1  0.5195  0.4805  0.2600  1\n  O  O24  1  0.1670  0.8330  0.9153  1\n  O  O25  1  0.8300  0.6599  0.5801  1\n  O  O26  1  0.5195  0.0389  0.2600  1\n  O  O27  1  0.1670  0.3339  0.9153  1\n  O  O28  1  0.6599  0.8300  0.4199  1\n  O  O29  1  0.3339  0.1670  0.0847  1\n  O  O30  1  0.0389  0.5195  0.7400  1\n  O  O31  1  0.6667  0.3333  0.4179  1\n  O  O32  1  0.3333  0.6667  0.0649  1\n  O  O33  1  0.0000  0.0000  0.7530  1\n  O  O34  1  0.1700  0.8300  0.4199  1\n  O  O35  1  0.8330  0.1670  0.0847  1\n  O  O36  1  0.4805  0.5195  0.7400  1\n  O  O37  1  0.1700  0.3401  0.4199  1\n  O  O38  1  0.8330  0.6661  0.0847  1\n  O  O39  1  0.4805  0.9611  0.7400  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti4OTi7Al4O22TiO\n_chemical_formula_sum              \"Ti12 O24 Al4\"\n_cell_length_a       5.9506\n_cell_length_b       5.9506\n_cell_length_c       14.5379\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.1589  0.8411  0.6630  1.0000\n  Ti  Ti2       1.0000  0.8411  0.1589  0.3370  1.0000\n  Ti  Ti3       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ti  Ti4       1.0000  0.1589  0.3178  0.6630  1.0000\n  O   O1        1.0000  0.8411  0.6822  0.3370  1.0000\n  Ti  Ti5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ti  Ti6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ti  Ti7       1.0000  0.6667  0.3333  0.1799  1.0000\n  Ti  Ti8       1.0000  0.3333  0.6667  0.8201  1.0000\n  Ti  Ti9       1.0000  0.6822  0.8411  0.6630  1.0000\n  Ti  Ti10      1.0000  0.3178  0.1589  0.3370  1.0000\n  Ti  Ti11      1.0000  0.0000  0.5000  0.0000  1.0000\n  Al  Al1       1.0000  0.3333  0.6667  0.4593  1.0000\n  Al  Al2       1.0000  0.0000  0.0000  0.1246  1.0000\n  Al  Al3       1.0000  0.6667  0.3333  0.5407  1.0000\n  Al  Al4       1.0000  0.0000  0.0000  0.8754  1.0000\n  O   O2        1.0000  0.3333  0.6667  0.5821  1.0000\n  O   O3        1.0000  0.0000  0.0000  0.2470  1.0000\n  O   O4        1.0000  0.6667  0.3333  0.9352  1.0000\n  O   O5        1.0000  0.3401  0.1700  0.5801  1.0000\n  O   O6        1.0000  0.9611  0.4805  0.2600  1.0000\n  O   O7        1.0000  0.6661  0.8330  0.9153  1.0000\n  O   O8        1.0000  0.8300  0.1700  0.5801  1.0000\n  O   O9        1.0000  0.5195  0.4805  0.2600  1.0000\n  O   O10       1.0000  0.1670  0.8330  0.9153  1.0000\n  O   O11       1.0000  0.8300  0.6599  0.5801  1.0000\n  O   O12       1.0000  0.5195  0.0389  0.2600  1.0000\n  O   O13       1.0000  0.1670  0.3339  0.9153  1.0000\n  O   O14       1.0000  0.6599  0.8300  0.4199  1.0000\n  O   O15       1.0000  0.3339  0.1670  0.0847  1.0000\n  O   O16       1.0000  0.0389  0.5195  0.7400  1.0000\n  O   O17       1.0000  0.6667  0.3333  0.4179  1.0000\n  O   O18       1.0000  0.3333  0.6667  0.0649  1.0000\n  O   O19       1.0000  0.0000  0.0000  0.7530  1.0000\n  O   O20       1.0000  0.1700  0.8300  0.4199  1.0000\n  O   O21       1.0000  0.8330  0.1670  0.0847  1.0000\n  O   O22       1.0000  0.4805  0.5195  0.7400  1.0000\n  O   O23       1.0000  0.1700  0.3401  0.4199  1.0000\n  Ti  Ti12      1.0000  0.8330  0.6661  0.0847  1.0000\n  O   O24       1.0000  0.4805  0.9611  0.7400  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "23f538a3-9dc0-46e5-a96d-98bf13f17dc4",
    "mp_id": "mp-10543",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K3SbO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6683\n_cell_length_b   6.5598\n_cell_length_c   7.3582\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   108.4911\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K3SbO4\n_chemical_formula_sum   'K6 Sb2 O8'\n_cell_volume   259.4760\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  -0.0000  0.3795  1\n  K  K1  1  0.2500  -0.0000  0.6205  1\n  K  K2  1  0.2500  0.5000  0.3909  1\n  K  K3  1  0.7500  0.5000  0.6091  1\n  K  K4  1  0.2500  -0.0000  0.1074  1\n  K  K5  1  0.7500  -0.0000  0.8926  1\n  Sb  Sb6  1  0.7500  0.5000  0.1135  1\n  Sb  Sb7  1  0.2500  0.5000  0.8865  1\n  O  O8  1  0.9934  0.6677  0.9125  1\n  O  O9  1  0.5066  0.3323  0.9125  1\n  O  O10  1  0.5697  0.2920  0.2961  1\n  O  O11  1  0.9303  0.7080  0.2961  1\n  O  O12  1  0.4303  0.7080  0.7039  1\n  O  O13  1  0.0697  0.2920  0.7039  1\n  O  O14  1  0.0066  0.3323  0.0875  1\n  O  O15  1  0.4934  0.6677  0.0875  1\n",
    "output": "data_image0\n_chemical_formula_structural       OK5Sb2OKO6\n_chemical_formula_sum              \"O8 K6 Sb2\"\n_cell_length_a       5.6683\n_cell_length_b       6.5598\n_cell_length_c       7.3582\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    108.4911\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7500  0.0000  0.3795  1.0000\n  K   K1        1.0000  0.2500  0.0000  0.6205  1.0000\n  K   K2        1.0000  0.2500  0.5000  0.3909  1.0000\n  K   K3        1.0000  0.7500  0.5000  0.6091  1.0000\n  K   K4        1.0000  0.2500  0.0000  0.1074  1.0000\n  K   K5        1.0000  0.7500  0.0000  0.8926  1.0000\n  Sb  Sb1       1.0000  0.7500  0.5000  0.1135  1.0000\n  Sb  Sb2       1.0000  0.2500  0.5000  0.8865  1.0000\n  O   O2        1.0000  0.9934  0.6677  0.9125  1.0000\n  K   K6        1.0000  0.5066  0.3323  0.9125  1.0000\n  O   O3        1.0000  0.5697  0.2920  0.2961  1.0000\n  O   O4        1.0000  0.9303  0.7080  0.2961  1.0000\n  O   O5        1.0000  0.4303  0.7080  0.7039  1.0000\n  O   O6        1.0000  0.0697  0.2920  0.7039  1.0000\n  O   O7        1.0000  0.0066  0.3323  0.0875  1.0000\n  O   O8        1.0000  0.4934  0.6677  0.0875  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "be1cd3f6-1bf1-4805-881f-56b941634fe3",
    "mp_id": "mp-1073454",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgSi2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0520\n_cell_length_b   7.1962\n_cell_length_c   9.8958\n_cell_angle_alpha   91.8101\n_cell_angle_beta   99.7575\n_cell_angle_gamma   90.0742\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgSi2\n_chemical_formula_sum   'Mg8 Si16'\n_cell_volume   424.5239\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7878  0.8816  0.6305  1\n  Mg  Mg1  1  0.1242  0.6965  0.1211  1\n  Mg  Mg2  1  0.7249  0.2065  0.4002  1\n  Mg  Mg3  1  0.3666  0.3953  0.8669  1\n  Mg  Mg4  1  0.2122  0.1184  0.3695  1\n  Mg  Mg5  1  0.8758  0.3035  0.8789  1\n  Mg  Mg6  1  0.2751  0.7935  0.5998  1\n  Mg  Mg7  1  0.6334  0.6047  0.1331  1\n  Si  Si8  1  0.9799  0.4828  0.6186  1\n  Si  Si9  1  0.3251  0.3134  0.1385  1\n  Si  Si10  1  0.9069  0.8348  0.3536  1\n  Si  Si11  1  0.5534  0.0099  0.8563  1\n  Si  Si12  1  0.0201  0.5172  0.3814  1\n  Si  Si13  1  0.6749  0.6866  0.8615  1\n  Si  Si14  1  0.0931  0.1652  0.6464  1\n  Si  Si15  1  0.4466  0.9901  0.1437  1\n  Si  Si16  1  0.5142  0.8238  0.3658  1\n  Si  Si17  1  0.1812  0.0040  0.9122  1\n  Si  Si18  1  0.5877  0.5020  0.6257  1\n  Si  Si19  1  0.9375  0.3152  0.1613  1\n  Si  Si20  1  0.4858  0.1762  0.6342  1\n  Si  Si21  1  0.8188  0.9960  0.0878  1\n  Si  Si22  1  0.4123  0.4980  0.3743  1\n  Si  Si23  1  0.0625  0.6848  0.8387  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg5SiMg3Si15\n_chemical_formula_sum              \"Mg8 Si16\"\n_cell_length_a       6.0520\n_cell_length_b       7.1962\n_cell_length_c       9.8958\n_cell_angle_alpha    91.8101\n_cell_angle_beta     99.7575\n_cell_angle_gamma    90.0742\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7878  0.8816  0.6305  1.0000\n  Mg  Mg2       1.0000  0.1242  0.6965  0.1211  1.0000\n  Mg  Mg3       1.0000  0.7249  0.2065  0.4002  1.0000\n  Mg  Mg4       1.0000  0.3666  0.3953  0.8669  1.0000\n  Mg  Mg5       1.0000  0.2122  0.1184  0.3695  1.0000\n  Si  Si1       1.0000  0.8758  0.3035  0.8789  1.0000\n  Mg  Mg6       1.0000  0.2751  0.7935  0.5998  1.0000\n  Mg  Mg7       1.0000  0.6334  0.6047  0.1331  1.0000\n  Mg  Mg8       1.0000  0.9799  0.4828  0.6186  1.0000\n  Si  Si2       1.0000  0.3251  0.3134  0.1385  1.0000\n  Si  Si3       1.0000  0.9069  0.8348  0.3536  1.0000\n  Si  Si4       1.0000  0.5534  0.0099  0.8563  1.0000\n  Si  Si5       1.0000  0.0201  0.5172  0.3814  1.0000\n  Si  Si6       1.0000  0.6749  0.6866  0.8615  1.0000\n  Si  Si7       1.0000  0.0931  0.1652  0.6464  1.0000\n  Si  Si8       1.0000  0.4466  0.9901  0.1437  1.0000\n  Si  Si9       1.0000  0.5142  0.8238  0.3658  1.0000\n  Si  Si10      1.0000  0.1812  0.0040  0.9122  1.0000\n  Si  Si11      1.0000  0.5877  0.5020  0.6257  1.0000\n  Si  Si12      1.0000  0.9375  0.3152  0.1613  1.0000\n  Si  Si13      1.0000  0.4858  0.1762  0.6342  1.0000\n  Si  Si14      1.0000  0.8188  0.9960  0.0878  1.0000\n  Si  Si15      1.0000  0.4123  0.4980  0.3743  1.0000\n  Si  Si16      1.0000  0.0625  0.6848  0.8387  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "92d38f0e-7980-44bc-9b2c-9e2c307bdd80",
    "mp_id": "mp-1073857",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgSi\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4679\n_cell_length_b   5.4041\n_cell_length_c   10.2969\n_cell_angle_alpha   99.0838\n_cell_angle_beta   94.8163\n_cell_angle_gamma   109.6626\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgSi\n_chemical_formula_sum   'Mg6 Si6'\n_cell_volume   228.6596\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1981  0.8034  0.0788  1\n  Mg  Mg1  1  0.4306  0.0555  0.7379  1\n  Mg  Mg2  1  0.0208  0.3934  0.5767  1\n  Mg  Mg3  1  0.2927  0.9133  0.4110  1\n  Mg  Mg4  1  0.7359  0.6746  0.8185  1\n  Mg  Mg5  1  0.9014  0.2670  0.2619  1\n  Si  Si6  1  0.6723  0.7061  0.2325  1\n  Si  Si7  1  0.1231  0.4029  0.8499  1\n  Si  Si8  1  0.8506  0.1261  0.9972  1\n  Si  Si9  1  0.4567  0.3487  0.0387  1\n  Si  Si10  1  0.5047  0.4635  0.4111  1\n  Si  Si11  1  0.8129  0.8456  0.5860  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg5Si4MgSi2\n_chemical_formula_sum              \"Mg6 Si6\"\n_cell_length_a       4.4679\n_cell_length_b       5.4041\n_cell_length_c       10.2969\n_cell_angle_alpha    99.0838\n_cell_angle_beta     94.8163\n_cell_angle_gamma    109.6626\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1981  0.8034  0.0788  1.0000\n  Mg  Mg2       1.0000  0.4306  0.0555  0.7379  1.0000\n  Mg  Mg3       1.0000  0.0208  0.3934  0.5767  1.0000\n  Mg  Mg4       1.0000  0.2927  0.9133  0.4110  1.0000\n  Mg  Mg5       1.0000  0.7359  0.6746  0.8185  1.0000\n  Si  Si1       1.0000  0.9014  0.2670  0.2619  1.0000\n  Si  Si2       1.0000  0.6723  0.7061  0.2325  1.0000\n  Si  Si3       1.0000  0.1231  0.4029  0.8499  1.0000\n  Si  Si4       1.0000  0.8506  0.1261  0.9972  1.0000\n  Mg  Mg6       1.0000  0.4567  0.3487  0.0387  1.0000\n  Si  Si5       1.0000  0.5047  0.4635  0.4111  1.0000\n  Si  Si6       1.0000  0.8129  0.8456  0.5860  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ba8558ef-fffb-4b17-b28e-f5f22a02e9ab",
    "mp_id": "mp-1074382",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg4Si3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0543\n_cell_length_b   6.9989\n_cell_length_c   7.4983\n_cell_angle_alpha   112.6720\n_cell_angle_beta   97.9974\n_cell_angle_gamma   104.1808\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg4Si3\n_chemical_formula_sum   'Mg8 Si6'\n_cell_volume   274.3848\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7726  0.6342  0.5310  1\n  Mg  Mg1  1  0.1057  0.9288  0.0858  1\n  Mg  Mg2  1  0.7036  0.3583  0.7810  1\n  Mg  Mg3  1  0.9627  0.0917  0.4900  1\n  Mg  Mg4  1  0.3819  0.8205  0.4329  1\n  Mg  Mg5  1  0.8558  0.3142  0.1774  1\n  Mg  Mg6  1  0.2959  0.4156  0.0140  1\n  Mg  Mg7  1  0.5598  0.8513  0.9918  1\n  Si  Si8  1  0.5349  0.1722  0.3618  1\n  Si  Si9  1  0.1570  0.5763  0.7114  1\n  Si  Si10  1  0.2430  0.9817  0.7693  1\n  Si  Si11  1  0.7838  0.6728  0.1818  1\n  Si  Si12  1  0.2841  0.3987  0.4101  1\n  Si  Si13  1  0.8593  0.0340  0.8117  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2SiMg6Si5\n_chemical_formula_sum              \"Mg8 Si6\"\n_cell_length_a       6.0543\n_cell_length_b       6.9989\n_cell_length_c       7.4983\n_cell_angle_alpha    112.6720\n_cell_angle_beta     97.9974\n_cell_angle_gamma    104.1808\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7726  0.6342  0.5310  1.0000\n  Mg  Mg2       1.0000  0.1057  0.9288  0.0858  1.0000\n  Si  Si1       1.0000  0.7036  0.3583  0.7810  1.0000\n  Mg  Mg3       1.0000  0.9627  0.0917  0.4900  1.0000\n  Mg  Mg4       1.0000  0.3819  0.8205  0.4329  1.0000\n  Mg  Mg5       1.0000  0.8558  0.3142  0.1774  1.0000\n  Mg  Mg6       1.0000  0.2959  0.4156  0.0140  1.0000\n  Mg  Mg7       1.0000  0.5598  0.8513  0.9918  1.0000\n  Mg  Mg8       1.0000  0.5349  0.1722  0.3618  1.0000\n  Si  Si2       1.0000  0.1570  0.5763  0.7114  1.0000\n  Si  Si3       1.0000  0.2430  0.9817  0.7693  1.0000\n  Si  Si4       1.0000  0.7838  0.6728  0.1818  1.0000\n  Si  Si5       1.0000  0.2841  0.3987  0.4101  1.0000\n  Si  Si6       1.0000  0.8593  0.0340  0.8117  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6c185244-6a5d-4ae5-a533-e8d247b55991",
    "mp_id": "mp-1075115",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg3Si4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9740\n_cell_length_b   8.5721\n_cell_length_c   6.5422\n_cell_angle_alpha   116.5313\n_cell_angle_beta   91.5648\n_cell_angle_gamma   114.7108\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg3Si4\n_chemical_formula_sum   'Mg6 Si8'\n_cell_volume   262.6842\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7017  0.4856  0.5316  1\n  Mg  Mg1  1  0.2444  0.6796  0.9204  1\n  Mg  Mg2  1  0.7145  0.0458  0.2616  1\n  Mg  Mg3  1  0.9107  0.9435  0.7488  1\n  Mg  Mg4  1  0.4216  0.4259  0.0749  1\n  Mg  Mg5  1  0.2178  0.0739  0.2917  1\n  Si  Si6  1  0.9503  0.6827  0.2990  1\n  Si  Si7  1  0.4069  0.8528  0.5003  1\n  Si  Si8  1  0.0230  0.2732  0.7089  1\n  Si  Si9  1  0.5827  0.2177  0.6739  1\n  Si  Si10  1  0.7822  0.7273  0.0018  1\n  Si  Si11  1  0.9068  0.3452  0.1048  1\n  Si  Si12  1  0.1827  0.4226  0.4480  1\n  Si  Si13  1  0.4547  0.0709  0.9344  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg3SiMg2Si6MgSi\n_chemical_formula_sum              \"Mg6 Si8\"\n_cell_length_a       5.9740\n_cell_length_b       8.5721\n_cell_length_c       6.5422\n_cell_angle_alpha    116.5313\n_cell_angle_beta     91.5648\n_cell_angle_gamma    114.7108\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7017  0.4856  0.5316  1.0000\n  Mg  Mg2       1.0000  0.2444  0.6796  0.9204  1.0000\n  Mg  Mg3       1.0000  0.7145  0.0458  0.2616  1.0000\n  Si  Si1       1.0000  0.9107  0.9435  0.7488  1.0000\n  Mg  Mg4       1.0000  0.4216  0.4259  0.0749  1.0000\n  Mg  Mg5       1.0000  0.2178  0.0739  0.2917  1.0000\n  Si  Si2       1.0000  0.9503  0.6827  0.2990  1.0000\n  Si  Si3       1.0000  0.4069  0.8528  0.5003  1.0000\n  Si  Si4       1.0000  0.0230  0.2732  0.7089  1.0000\n  Si  Si5       1.0000  0.5827  0.2177  0.6739  1.0000\n  Si  Si6       1.0000  0.7822  0.7273  0.0018  1.0000\n  Si  Si7       1.0000  0.9068  0.3452  0.1048  1.0000\n  Mg  Mg6       1.0000  0.1827  0.4226  0.4480  1.0000\n  Si  Si8       1.0000  0.4547  0.0709  0.9344  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "99177047-1c3e-4d74-9d92-8aede99f1b1e",
    "mp_id": "mp-1076171",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La5Sm3Co7CuO24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6324\n_cell_length_b   7.6590\n_cell_length_c   7.6590\n_cell_angle_alpha   89.8443\n_cell_angle_beta   90.0402\n_cell_angle_gamma   90.0402\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La5Sm3Co7CuO24\n_chemical_formula_sum   'La5 Sm3 Co7 Cu1 O24'\n_cell_volume   447.7134\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.2483  0.2487  0.2514  1\n  La  La1  1  0.2484  0.2491  0.7491  1\n  La  La2  1  0.2480  0.7508  0.2508  1\n  La  La3  1  0.2483  0.7514  0.7487  1\n  La  La4  1  0.7512  0.7508  0.2508  1\n  Sm  Sm5  1  0.7523  0.2485  0.2516  1\n  Sm  Sm6  1  0.7521  0.2488  0.7488  1\n  Sm  Sm7  1  0.7523  0.7516  0.7485  1\n  Co  Co8  1  0.9986  0.0003  0.9997  1\n  Co  Co9  1  0.9993  0.0004  0.5004  1\n  Co  Co10  1  0.9980  0.4994  0.9994  1\n  Co  Co11  1  0.9986  0.4997  0.5003  1\n  Co  Co12  1  0.5007  0.0004  0.0000  1\n  Co  Co13  1  0.5018  0.0008  0.5008  1\n  Co  Co14  1  0.5007  0.5000  0.5004  1\n  Cu  Cu15  1  0.5005  0.4997  0.9997  1\n  O  O16  1  0.2496  0.9999  0.9999  1\n  O  O17  1  0.2452  0.9998  0.4998  1\n  O  O18  1  0.2445  0.4993  0.9993  1\n  O  O19  1  0.2496  0.4999  0.4999  1\n  O  O20  1  0.7501  0.0030  0.9974  1\n  O  O21  1  0.7553  0.0026  0.5026  1\n  O  O22  1  0.7546  0.4985  0.9985  1\n  O  O23  1  0.7501  0.4974  0.5030  1\n  O  O24  1  0.9953  0.2451  0.9997  1\n  O  O25  1  0.9939  0.2499  0.5001  1\n  O  O26  1  0.9968  0.7547  0.9972  1\n  O  O27  1  0.9969  0.7501  0.5031  1\n  O  O28  1  0.5069  0.2474  0.0000  1\n  O  O29  1  0.5036  0.2532  0.5017  1\n  O  O30  1  0.5040  0.7526  0.9964  1\n  O  O31  1  0.5035  0.7473  0.5009  1\n  O  O32  1  0.9969  0.0031  0.2501  1\n  O  O33  1  0.9939  0.0001  0.7499  1\n  O  O34  1  0.9968  0.4972  0.2547  1\n  O  O35  1  0.9953  0.4997  0.7451  1\n  O  O36  1  0.5035  0.0009  0.2473  1\n  O  O37  1  0.5036  0.0017  0.7532  1\n  O  O38  1  0.5040  0.4964  0.2526  1\n  O  O39  1  0.5069  0.5000  0.7474  1\n",
    "output": "data_image0\n_chemical_formula_structural       CoLa4Sm3Co3LaCo3CuO24\n_chemical_formula_sum              \"Co7 La5 Sm3 Cu1 O24\"\n_cell_length_a       7.6324\n_cell_length_b       7.6590\n_cell_length_c       7.6590\n_cell_angle_alpha    89.8443\n_cell_angle_beta     90.0402\n_cell_angle_gamma    90.0402\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.2483  0.2487  0.2514  1.0000\n  La  La1       1.0000  0.2484  0.2491  0.7491  1.0000\n  La  La2       1.0000  0.2480  0.7508  0.2508  1.0000\n  La  La3       1.0000  0.2483  0.7514  0.7487  1.0000\n  La  La4       1.0000  0.7512  0.7508  0.2508  1.0000\n  Sm  Sm1       1.0000  0.7523  0.2485  0.2516  1.0000\n  Sm  Sm2       1.0000  0.7521  0.2488  0.7488  1.0000\n  Sm  Sm3       1.0000  0.7523  0.7516  0.7485  1.0000\n  Co  Co2       1.0000  0.9986  0.0003  0.9997  1.0000\n  Co  Co3       1.0000  0.9993  0.0004  0.5004  1.0000\n  Co  Co4       1.0000  0.9980  0.4994  0.9994  1.0000\n  La  La5       1.0000  0.9986  0.4997  0.5003  1.0000\n  Co  Co5       1.0000  0.5007  0.0004  0.0000  1.0000\n  Co  Co6       1.0000  0.5018  0.0008  0.5008  1.0000\n  Co  Co7       1.0000  0.5007  0.5000  0.5004  1.0000\n  Cu  Cu1       1.0000  0.5005  0.4997  0.9997  1.0000\n  O   O1        1.0000  0.2496  0.9999  0.9999  1.0000\n  O   O2        1.0000  0.2452  0.9998  0.4998  1.0000\n  O   O3        1.0000  0.2445  0.4993  0.9993  1.0000\n  O   O4        1.0000  0.2496  0.4999  0.4999  1.0000\n  O   O5        1.0000  0.7501  0.0030  0.9974  1.0000\n  O   O6        1.0000  0.7553  0.0026  0.5026  1.0000\n  O   O7        1.0000  0.7546  0.4985  0.9985  1.0000\n  O   O8        1.0000  0.7501  0.4974  0.5030  1.0000\n  O   O9        1.0000  0.9953  0.2451  0.9997  1.0000\n  O   O10       1.0000  0.9939  0.2499  0.5001  1.0000\n  O   O11       1.0000  0.9968  0.7547  0.9972  1.0000\n  O   O12       1.0000  0.9969  0.7501  0.5031  1.0000\n  O   O13       1.0000  0.5069  0.2474  5e-06  1.0000\n  O   O14       1.0000  0.5036  0.2532  0.5017  1.0000\n  O   O15       1.0000  0.5040  0.7526  0.9964  1.0000\n  O   O16       1.0000  0.5035  0.7473  0.5009  1.0000\n  O   O17       1.0000  0.9969  0.0031  0.2501  1.0000\n  O   O18       1.0000  0.9939  0.0001  0.7499  1.0000\n  O   O19       1.0000  0.9968  0.4972  0.2547  1.0000\n  O   O20       1.0000  0.9953  0.4997  0.7451  1.0000\n  O   O21       1.0000  0.5035  0.0009  0.2473  1.0000\n  O   O22       1.0000  0.5036  0.0017  0.7532  1.0000\n  O   O23       1.0000  0.5040  0.4964  0.2526  1.0000\n  O   O24       1.0000  0.5069  0.5000  0.7474  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c78cba2f-7a0f-421e-8617-0bb97de5f5a4",
    "mp_id": "mp-1076264",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2Sr6Co3Cu5O24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8658\n_cell_length_b   7.8138\n_cell_length_c   7.8879\n_cell_angle_alpha   89.9307\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2Sr6Co3Cu5O24\n_chemical_formula_sum   'Ba2 Sr6 Co3 Cu5 O24'\n_cell_volume   484.8053\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2488  0.2488  0.2492  1\n  Ba  Ba1  1  0.2488  0.7512  0.7508  1\n  Sr  Sr2  1  0.7512  0.2469  0.2480  1\n  Sr  Sr3  1  0.7512  0.7524  0.2483  1\n  Sr  Sr4  1  0.2486  0.7521  0.2486  1\n  Sr  Sr5  1  0.7512  0.2476  0.7517  1\n  Sr  Sr6  1  0.7512  0.7531  0.7520  1\n  Sr  Sr7  1  0.2486  0.2479  0.7514  1\n  Co  Co8  1  0.5029  0.5000  0.0000  1\n  Co  Co9  1  0.9970  0.5000  0.5000  1\n  Co  Co10  1  0.5023  0.5000  0.5000  1\n  Cu  Cu11  1  0.9999  0.0000  0.0000  1\n  Cu  Cu12  1  0.0001  0.5000  0.0000  1\n  Cu  Cu13  1  0.5006  0.0000  0.0000  1\n  Cu  Cu14  1  0.9992  0.0000  0.5000  1\n  Cu  Cu15  1  0.5006  0.0000  0.5000  1\n  O  O16  1  0.9922  0.9952  0.2506  1\n  O  O17  1  0.9949  0.5031  0.2531  1\n  O  O18  1  0.5084  0.9950  0.2505  1\n  O  O19  1  0.5062  0.5016  0.2516  1\n  O  O20  1  0.9922  0.0048  0.7494  1\n  O  O21  1  0.9949  0.4969  0.7469  1\n  O  O22  1  0.5084  0.0050  0.7495  1\n  O  O23  1  0.5062  0.4984  0.7484  1\n  O  O24  1  0.7489  0.0000  0.0000  1\n  O  O25  1  0.7525  0.5000  0.0000  1\n  O  O26  1  0.2514  0.0000  0.0000  1\n  O  O27  1  0.2488  0.5000  0.0000  1\n  O  O28  1  0.7492  0.0000  0.5000  1\n  O  O29  1  0.7579  0.5000  0.5000  1\n  O  O30  1  0.2507  0.0000  0.5000  1\n  O  O31  1  0.2407  0.5000  0.5000  1\n  O  O32  1  0.9923  0.2504  0.9951  1\n  O  O33  1  0.9923  0.7496  0.0049  1\n  O  O34  1  0.5054  0.2608  0.9963  1\n  O  O35  1  0.5054  0.7392  0.0037  1\n  O  O36  1  0.9950  0.2535  0.5028  1\n  O  O37  1  0.9950  0.7465  0.4972  1\n  O  O38  1  0.5045  0.2627  0.5038  1\n  O  O39  1  0.5045  0.7372  0.4962  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBaSr6Co3Cu5O23Ba\n_chemical_formula_sum              \"O24 Ba2 Sr6 Co3 Cu5\"\n_cell_length_a       7.8658\n_cell_length_b       7.8138\n_cell_length_c       7.8879\n_cell_angle_alpha    89.9307\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2488  0.2488  0.2492  1.0000\n  Ba  Ba1       1.0000  0.2488  0.7512  0.7508  1.0000\n  Sr  Sr1       1.0000  0.7512  0.2469  0.2480  1.0000\n  Sr  Sr2       1.0000  0.7512  0.7524  0.2483  1.0000\n  Sr  Sr3       1.0000  0.2486  0.7521  0.2486  1.0000\n  Sr  Sr4       1.0000  0.7512  0.2476  0.7517  1.0000\n  Sr  Sr5       1.0000  0.7512  0.7531  0.7520  1.0000\n  Sr  Sr6       1.0000  0.2486  0.2479  0.7514  1.0000\n  Co  Co1       1.0000  0.5029  0.5000  0.0000  1.0000\n  Co  Co2       1.0000  0.9970  0.5000  0.5000  1.0000\n  Co  Co3       1.0000  0.5023  0.5000  0.5000  1.0000\n  Cu  Cu1       1.0000  0.9999  0.0000  0.0000  1.0000\n  Cu  Cu2       1.0000  0.0001  0.5000  0.0000  1.0000\n  Cu  Cu3       1.0000  0.5006  0.0000  0.0000  1.0000\n  Cu  Cu4       1.0000  0.9992  0.0000  0.5000  1.0000\n  Cu  Cu5       1.0000  0.5006  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.9922  0.9952  0.2506  1.0000\n  O   O3        1.0000  0.9949  0.5031  0.2531  1.0000\n  O   O4        1.0000  0.5084  0.9950  0.2505  1.0000\n  O   O5        1.0000  0.5062  0.5016  0.2516  1.0000\n  O   O6        1.0000  0.9922  0.0048  0.7494  1.0000\n  O   O7        1.0000  0.9949  0.4969  0.7469  1.0000\n  O   O8        1.0000  0.5084  0.0050  0.7495  1.0000\n  O   O9        1.0000  0.5062  0.4984  0.7484  1.0000\n  O   O10       1.0000  0.7489  0.0000  0.0000  1.0000\n  O   O11       1.0000  0.7525  0.5000  0.0000  1.0000\n  O   O12       1.0000  0.2514  0.0000  0.0000  1.0000\n  O   O13       1.0000  0.2488  0.5000  0.0000  1.0000\n  O   O14       1.0000  0.7492  0.0000  0.5000  1.0000\n  O   O15       1.0000  0.7579  0.5000  0.5000  1.0000\n  O   O16       1.0000  0.2507  0.0000  0.5000  1.0000\n  O   O17       1.0000  0.2407  0.5000  0.5000  1.0000\n  O   O18       1.0000  0.9923  0.2504  0.9951  1.0000\n  O   O19       1.0000  0.9923  0.7496  0.0049  1.0000\n  O   O20       1.0000  0.5054  0.2608  0.9963  1.0000\n  O   O21       1.0000  0.5054  0.7392  0.0037  1.0000\n  O   O22       1.0000  0.9950  0.2535  0.5028  1.0000\n  O   O23       1.0000  0.9950  0.7465  0.4972  1.0000\n  O   O24       1.0000  0.5045  0.2627  0.5038  1.0000\n  Ba  Ba2       1.0000  0.5045  0.7372  0.4962  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aca81734-b8e0-41ea-8829-e77b8ee8e419",
    "mp_id": "mp-1080179",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr(NiBi)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6520\n_cell_length_b   4.6520\n_cell_length_c   10.3494\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr(NiBi)2\n_chemical_formula_sum   'Pr2 Ni4 Bi4'\n_cell_volume   223.9700\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.0000  0.5000  0.2307  1\n  Pr  Pr1  1  0.5000  0.0000  0.7693  1\n  Ni  Ni2  1  0.0000  0.0000  0.0000  1\n  Ni  Ni3  1  0.5000  0.5000  0.0000  1\n  Ni  Ni4  1  0.0000  0.5000  0.6261  1\n  Ni  Ni5  1  0.5000  0.0000  0.3739  1\n  Bi  Bi6  1  0.0000  0.0000  0.5000  1\n  Bi  Bi7  1  0.5000  0.5000  0.5000  1\n  Bi  Bi8  1  0.0000  0.5000  0.8750  1\n  Bi  Bi9  1  0.5000  0.0000  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       BiPrNi4Bi2PrBi\n_chemical_formula_sum              \"Bi4 Pr2 Ni4\"\n_cell_length_a       4.6520\n_cell_length_b       4.6520\n_cell_length_c       10.3494\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.0000  0.5000  0.2307  1.0000\n  Pr  Pr1       1.0000  0.5000  0.0000  0.7693  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ni  Ni3       1.0000  0.0000  0.5000  0.6261  1.0000\n  Ni  Ni4       1.0000  0.5000  0.0000  0.3739  1.0000\n  Bi  Bi2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Bi  Bi3       1.0000  0.5000  0.5000  0.5000  1.0000\n  Pr  Pr2       1.0000  0.0000  0.5000  0.8750  1.0000\n  Bi  Bi4       1.0000  0.5000  0.0000  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d621d0cb-171c-4141-9546-d19db951a494",
    "mp_id": "mp-1080349",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeSe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8058\n_cell_length_b   7.8058\n_cell_length_c   13.9920\n_cell_angle_alpha   93.7917\n_cell_angle_beta   93.7917\n_cell_angle_gamma   139.7231\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeSe2\n_chemical_formula_sum   'Ce6 Se12'\n_cell_volume   540.8940\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.5287  0.0287  0.5000  1\n  Ce  Ce1  1  0.2787  0.2787  0.0000  1\n  Ce  Ce2  1  0.9986  0.8514  0.7228  1\n  Ce  Ce3  1  0.1286  0.2758  0.2772  1\n  Ce  Ce4  1  0.1014  0.7486  0.2228  1\n  Ce  Ce5  1  0.5259  0.8786  0.7772  1\n  Se  Se6  1  0.0959  0.5979  0.6161  1\n  Se  Se7  1  0.9818  0.4798  0.3839  1\n  Se  Se8  1  0.8479  0.8459  0.1161  1\n  Se  Se9  1  0.7298  0.7318  0.8839  1\n  Se  Se10  1  0.2564  0.0992  0.3973  1\n  Se  Se11  1  0.7020  0.8591  0.6027  1\n  Se  Se12  1  0.3492  0.0064  0.8973  1\n  Se  Se13  1  0.1091  0.4520  0.1027  1\n  Se  Se14  1  0.5348  0.2571  0.6780  1\n  Se  Se15  1  0.5791  0.8569  0.3220  1\n  Se  Se16  1  0.5071  0.2848  0.1780  1\n  Se  Se17  1  0.1069  0.3291  0.8220  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce4SeCeSe5CeSe6\n_chemical_formula_sum              \"Ce6 Se12\"\n_cell_length_a       7.8058\n_cell_length_b       7.8058\n_cell_length_c       13.9920\n_cell_angle_alpha    93.7917\n_cell_angle_beta     93.7917\n_cell_angle_gamma    139.7231\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.5287  0.0287  0.5000  1.0000\n  Ce  Ce2       1.0000  0.2787  0.2787  0.0000  1.0000\n  Ce  Ce3       1.0000  0.9986  0.8514  0.7228  1.0000\n  Ce  Ce4       1.0000  0.1286  0.2759  0.2772  1.0000\n  Se  Se1       1.0000  0.1014  0.7486  0.2228  1.0000\n  Ce  Ce5       1.0000  0.5258  0.8786  0.7772  1.0000\n  Se  Se2       1.0000  0.0959  0.5979  0.6161  1.0000\n  Se  Se3       1.0000  0.9818  0.4798  0.3839  1.0000\n  Se  Se4       1.0000  0.8479  0.8459  0.1161  1.0000\n  Se  Se5       1.0000  0.7298  0.7318  0.8839  1.0000\n  Se  Se6       1.0000  0.2564  0.0992  0.3973  1.0000\n  Ce  Ce6       1.0000  0.7020  0.8591  0.6027  1.0000\n  Se  Se7       1.0000  0.3492  0.0064  0.8973  1.0000\n  Se  Se8       1.0000  0.1091  0.4520  0.1027  1.0000\n  Se  Se9       1.0000  0.5348  0.2571  0.6780  1.0000\n  Se  Se10      1.0000  0.5791  0.8569  0.3220  1.0000\n  Se  Se11      1.0000  0.5071  0.2848  0.1780  1.0000\n  Se  Se12      1.0000  0.1069  0.3291  0.8220  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9398b556-6500-4fc5-863d-2feaedc453d6",
    "mp_id": "mp-1080354",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeSe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6501\n_cell_length_b   9.6501\n_cell_length_c   19.9054\n_cell_angle_alpha   104.0281\n_cell_angle_beta   104.0281\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeSe2\n_chemical_formula_sum   'Ce8 Se16'\n_cell_volume   1741.3394\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.3102  0.4323  0.1204  1\n  Ce  Ce1  1  0.8103  0.6882  0.1204  1\n  Ce  Ce2  1  0.4397  0.3177  0.3796  1\n  Ce  Ce3  1  0.9398  0.0618  0.3796  1\n  Ce  Ce4  1  0.5677  0.6898  0.8796  1\n  Ce  Ce5  1  0.3118  0.1897  0.8796  1\n  Ce  Ce6  1  0.6823  0.5603  0.6204  1\n  Ce  Ce7  1  0.9382  0.0602  0.6204  1\n  Se  Se8  1  0.4144  0.3750  0.2500  1\n  Se  Se9  1  0.8356  0.8750  0.2500  1\n  Se  Se10  1  0.6250  0.5856  0.7500  1\n  Se  Se11  1  0.1250  0.1644  0.7500  1\n  Se  Se12  1  0.5524  0.5524  0.1049  1\n  Se  Se13  1  0.6976  0.1976  0.3951  1\n  Se  Se14  1  0.4476  0.4476  0.8951  1\n  Se  Se15  1  0.8024  0.3024  0.6049  1\n  Se  Se16  1  0.0685  0.5685  0.1371  1\n  Se  Se17  1  0.1815  0.1815  0.3629  1\n  Se  Se18  1  0.4315  0.9315  0.8629  1\n  Se  Se19  1  0.8185  0.8185  0.6371  1\n  Se  Se20  1  0.7836  0.7836  -0.0000  1\n  Se  Se21  1  0.2164  0.2164  0.0000  1\n  Se  Se22  1  0.0336  0.9664  0.5000  1\n  Se  Se23  1  0.4664  0.5336  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce6SeCeSe14CeSe\n_chemical_formula_sum              \"Ce8 Se16\"\n_cell_length_a       9.6501\n_cell_length_b       9.6501\n_cell_length_c       19.9054\n_cell_angle_alpha    104.0281\n_cell_angle_beta     104.0281\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.3102  0.4323  0.1204  1.0000\n  Ce  Ce2       1.0000  0.8103  0.6882  0.1204  1.0000\n  Ce  Ce3       1.0000  0.4397  0.3177  0.3796  1.0000\n  Ce  Ce4       1.0000  0.9398  0.0618  0.3796  1.0000\n  Ce  Ce5       1.0000  0.5677  0.6898  0.8796  1.0000\n  Ce  Ce6       1.0000  0.3118  0.1897  0.8796  1.0000\n  Se  Se1       1.0000  0.6823  0.5603  0.6204  1.0000\n  Ce  Ce7       1.0000  0.9382  0.0602  0.6204  1.0000\n  Se  Se2       1.0000  0.4144  0.3750  0.2500  1.0000\n  Se  Se3       1.0000  0.8356  0.8750  0.2500  1.0000\n  Se  Se4       1.0000  0.6250  0.5856  0.7500  1.0000\n  Se  Se5       1.0000  0.1250  0.1644  0.7500  1.0000\n  Se  Se6       1.0000  0.5524  0.5524  0.1049  1.0000\n  Se  Se7       1.0000  0.6976  0.1976  0.3951  1.0000\n  Se  Se8       1.0000  0.4476  0.4476  0.8951  1.0000\n  Se  Se9       1.0000  0.8024  0.3024  0.6049  1.0000\n  Se  Se10      1.0000  0.0685  0.5685  0.1371  1.0000\n  Se  Se11      1.0000  0.1815  0.1815  0.3629  1.0000\n  Se  Se12      1.0000  0.4315  0.9315  0.8629  1.0000\n  Se  Se13      1.0000  0.8185  0.8185  0.6371  1.0000\n  Se  Se14      1.0000  0.7836  0.7836  0.0000  1.0000\n  Se  Se15      1.0000  0.2164  0.2164  0.0000  1.0000\n  Ce  Ce8       1.0000  0.0336  0.9664  0.5000  1.0000\n  Se  Se16      1.0000  0.4664  0.5336  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9d060fb3-3ec3-44d3-a093-3026f0ef6223",
    "mp_id": "mp-1080713",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Er2Ni2Sn\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2584\n_cell_length_b   7.2584\n_cell_length_c   3.6037\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Er2Ni2Sn\n_chemical_formula_sum   'Er4 Ni4 Sn2'\n_cell_volume   189.8586\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.6739  0.1739  0.5000  1\n  Er  Er1  1  0.3261  0.8261  0.5000  1\n  Er  Er2  1  0.1739  0.3261  0.5000  1\n  Er  Er3  1  0.8261  0.6739  0.5000  1\n  Ni  Ni4  1  0.8791  0.3791  0.0000  1\n  Ni  Ni5  1  0.1209  0.6209  -0.0000  1\n  Ni  Ni6  1  0.3791  0.1209  0.0000  1\n  Ni  Ni7  1  0.6209  0.8791  -0.0000  1\n  Sn  Sn8  1  0.5000  0.5000  -0.0000  1\n  Sn  Sn9  1  -0.0000  -0.0000  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       SnEr3Ni4ErSn\n_chemical_formula_sum              \"Sn2 Er4 Ni4\"\n_cell_length_a       7.2584\n_cell_length_b       7.2584\n_cell_length_c       3.6037\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sn  Sn1       1.0000  0.6739  0.1739  0.5000  1.0000\n  Er  Er1       1.0000  0.3261  0.8261  0.5000  1.0000\n  Er  Er2       1.0000  0.1739  0.3261  0.5000  1.0000\n  Er  Er3       1.0000  0.8261  0.6739  0.5000  1.0000\n  Ni  Ni1       1.0000  0.8791  0.3791  0.0000  1.0000\n  Ni  Ni2       1.0000  0.1209  0.6209  0.0000  1.0000\n  Ni  Ni3       1.0000  0.3791  0.1209  0.0000  1.0000\n  Ni  Ni4       1.0000  0.6209  0.8791  0.0000  1.0000\n  Er  Er4       1.0000  0.5000  0.5000  0.0000  1.0000\n  Sn  Sn2       1.0000  1.0000  1.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "699b2450-ee2c-4c20-9c87-05436b96956e",
    "mp_id": "mp-1094804",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCd2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.1256\n_cell_length_b   16.1392\n_cell_length_c   5.0335\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCd2\n_chemical_formula_sum   'Mg4 Cd8'\n_cell_volume   253.9127\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0576  0.2500  1\n  Mg  Mg1  1  0.0000  0.4424  0.7500  1\n  Mg  Mg2  1  0.0000  0.5576  0.2500  1\n  Mg  Mg3  1  0.5000  0.9424  0.7500  1\n  Cd  Cd4  1  0.5000  0.3918  0.2500  1\n  Cd  Cd5  1  -0.0000  0.2210  0.2500  1\n  Cd  Cd6  1  0.5000  0.2790  0.7500  1\n  Cd  Cd7  1  -0.0000  0.1082  0.7500  1\n  Cd  Cd8  1  -0.0000  0.8918  0.2500  1\n  Cd  Cd9  1  0.5000  0.7210  0.2500  1\n  Cd  Cd10  1  0.0000  0.7790  0.7500  1\n  Cd  Cd11  1  0.5000  0.6082  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg3Cd8Mg\n_chemical_formula_sum              \"Mg4 Cd8\"\n_cell_length_a       3.1256\n_cell_length_b       16.1392\n_cell_length_c       5.0335\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0576  0.2500  1.0000\n  Mg  Mg2       1.0000  0.0000  0.4424  0.7500  1.0000\n  Mg  Mg3       1.0000  0.0000  0.5576  0.2500  1.0000\n  Cd  Cd1       1.0000  0.5000  0.9424  0.7500  1.0000\n  Cd  Cd2       1.0000  0.5000  0.3918  0.2500  1.0000\n  Cd  Cd3       1.0000  0.0000  0.2210  0.2500  1.0000\n  Cd  Cd4       1.0000  0.5000  0.2790  0.7500  1.0000\n  Cd  Cd5       1.0000  0.0000  0.1082  0.7500  1.0000\n  Cd  Cd6       1.0000  0.0000  0.8918  0.2500  1.0000\n  Cd  Cd7       1.0000  0.5000  0.7210  0.2500  1.0000\n  Cd  Cd8       1.0000  0.0000  0.7790  0.7500  1.0000\n  Mg  Mg4       1.0000  0.5000  0.6082  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9c5346ad-8a7d-44c1-a573-c2a5573e9e44",
    "mp_id": "mp-1095083",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2CdGe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4208\n_cell_length_b   7.4208\n_cell_length_c   4.2744\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2CdGe2\n_chemical_formula_sum   'Sm4 Cd2 Ge4'\n_cell_volume   235.3831\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.6794  0.1794  0.5000  1\n  Sm  Sm1  1  0.3206  0.8206  0.5000  1\n  Sm  Sm2  1  0.1794  0.3206  0.5000  1\n  Sm  Sm3  1  0.8206  0.6794  0.5000  1\n  Cd  Cd4  1  0.5000  0.5000  0.0000  1\n  Cd  Cd5  1  -0.0000  -0.0000  0.0000  1\n  Ge  Ge6  1  0.1196  0.6196  0.0000  1\n  Ge  Ge7  1  0.8804  0.3804  -0.0000  1\n  Ge  Ge8  1  0.6196  0.8804  0.0000  1\n  Ge  Ge9  1  0.3804  0.1196  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm2GeSmCd2SmGe3\n_chemical_formula_sum              \"Sm4 Ge4 Cd2\"\n_cell_length_a       7.4208\n_cell_length_b       7.4208\n_cell_length_c       4.2744\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.6794  0.1794  0.5000  1.0000\n  Sm  Sm2       1.0000  0.3206  0.8206  0.5000  1.0000\n  Ge  Ge1       1.0000  0.1794  0.3206  0.5000  1.0000\n  Sm  Sm3       1.0000  0.8206  0.6794  0.5000  1.0000\n  Cd  Cd1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Cd  Cd2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Sm  Sm4       1.0000  0.1196  0.6196  0.0000  1.0000\n  Ge  Ge2       1.0000  0.8804  0.3804  0.0000  1.0000\n  Ge  Ge3       1.0000  0.6196  0.8804  0.0000  1.0000\n  Ge  Ge4       1.0000  0.3804  0.1196  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e67fa5db-ee5c-4400-a2cb-016be3c4aec4",
    "mp_id": "mp-1095476",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaSnPd\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7338\n_cell_length_b   7.6759\n_cell_length_c   7.9628\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaSnPd\n_chemical_formula_sum   'La4 Sn4 Pd4'\n_cell_volume   289.3391\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.7500  0.4843  0.2000  1\n  La  La1  1  0.7500  0.9843  0.3000  1\n  La  La2  1  0.2500  0.5157  0.8000  1\n  La  La3  1  0.2500  0.0157  0.7000  1\n  Sn  Sn4  1  0.7500  0.3162  0.5860  1\n  Sn  Sn5  1  0.7500  0.8162  0.9140  1\n  Sn  Sn6  1  0.2500  0.6838  0.4140  1\n  Sn  Sn7  1  0.2500  0.1838  0.0860  1\n  Pd  Pd8  1  0.7500  0.2024  0.9138  1\n  Pd  Pd9  1  0.7500  0.7024  0.5862  1\n  Pd  Pd10  1  0.2500  0.7976  0.0862  1\n  Pd  Pd11  1  0.2500  0.2976  0.4138  1\n",
    "output": "data_image0\n_chemical_formula_structural       La3PdSn4Pd2LaPd\n_chemical_formula_sum              \"La4 Pd4 Sn4\"\n_cell_length_a       4.7338\n_cell_length_b       7.6759\n_cell_length_c       7.9628\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.7500  0.4843  0.2000  1.0000\n  La  La2       1.0000  0.7500  0.9843  0.3000  1.0000\n  La  La3       1.0000  0.2500  0.5157  0.8000  1.0000\n  Pd  Pd1       1.0000  0.2500  0.0157  0.7000  1.0000\n  Sn  Sn1       1.0000  0.7500  0.3162  0.5860  1.0000\n  Sn  Sn2       1.0000  0.7500  0.8162  0.9140  1.0000\n  Sn  Sn3       1.0000  0.2500  0.6838  0.4140  1.0000\n  Sn  Sn4       1.0000  0.2500  0.1838  0.0860  1.0000\n  Pd  Pd2       1.0000  0.7500  0.2024  0.9138  1.0000\n  Pd  Pd3       1.0000  0.7500  0.7024  0.5862  1.0000\n  La  La4       1.0000  0.2500  0.7976  0.0862  1.0000\n  Pd  Pd4       1.0000  0.2500  0.2976  0.4138  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "204042b3-42a1-44a5-bb1c-cab9c6d90d13",
    "mp_id": "mp-1095575",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y3(CuSn)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4059\n_cell_length_b   8.4059\n_cell_length_c   8.4059\n_cell_angle_alpha   149.2745\n_cell_angle_beta   131.2586\n_cell_angle_gamma   58.7292\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y3(CuSn)4\n_chemical_formula_sum   'Y3 Cu4 Sn4'\n_cell_volume   226.3550\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.5000  -0.0000  0.5000  1\n  Y  Y1  1  0.8683  0.8683  0.0000  1\n  Y  Y2  1  0.1317  0.1317  -0.0000  1\n  Cu  Cu3  1  0.4844  0.6714  0.8130  1\n  Cu  Cu4  1  0.8583  0.6714  0.1870  1\n  Cu  Cu5  1  0.1417  0.3286  0.8130  1\n  Cu  Cu6  1  0.5156  0.3286  0.1870  1\n  Sn  Sn7  1  0.2837  0.7837  0.5000  1\n  Sn  Sn8  1  0.7163  0.2163  0.5000  1\n  Sn  Sn9  1  0.7976  0.5000  0.2976  1\n  Sn  Sn10  1  0.2024  0.5000  0.7024  1\n",
    "output": "data_image0\n_chemical_formula_structural       YSnYCu4SnYSn2\n_chemical_formula_sum              \"Y3 Sn4 Cu4\"\n_cell_length_a       8.4059\n_cell_length_b       8.4059\n_cell_length_c       8.4059\n_cell_angle_alpha    149.2745\n_cell_angle_beta     131.2586\n_cell_angle_gamma    58.7292\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.5000  0.0000  0.5000  1.0000\n  Sn  Sn1       1.0000  0.8683  0.8683  0.0000  1.0000\n  Y   Y2        1.0000  0.1317  0.1317  0.0000  1.0000\n  Cu  Cu1       1.0000  0.4844  0.6714  0.8130  1.0000\n  Cu  Cu2       1.0000  0.8583  0.6714  0.1870  1.0000\n  Cu  Cu3       1.0000  0.1417  0.3286  0.8130  1.0000\n  Cu  Cu4       1.0000  0.5156  0.3286  0.1870  1.0000\n  Sn  Sn2       1.0000  0.2837  0.7837  0.5000  1.0000\n  Y   Y3        1.0000  0.7163  0.2163  0.5000  1.0000\n  Sn  Sn3       1.0000  0.7976  0.5000  0.2976  1.0000\n  Sn  Sn4       1.0000  0.2024  0.5000  0.7024  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c391e700-2a3c-44db-9861-213b5a16a3d3",
    "mp_id": "mp-1095585",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Er2Ga8Fe\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2463\n_cell_length_b   4.2463\n_cell_length_c   11.0432\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Er2Ga8Fe\n_chemical_formula_sum   'Er2 Ga8 Fe1'\n_cell_volume   199.1183\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.0000  0.0000  0.6959  1\n  Er  Er1  1  0.0000  0.0000  0.3041  1\n  Ga  Ga2  1  0.5000  0.0000  0.8849  1\n  Ga  Ga3  1  0.0000  0.5000  0.8849  1\n  Ga  Ga4  1  0.5000  0.0000  0.1151  1\n  Ga  Ga5  1  0.0000  0.5000  0.1151  1\n  Ga  Ga6  1  0.5000  0.0000  0.5000  1\n  Ga  Ga7  1  0.0000  0.5000  0.5000  1\n  Ga  Ga8  1  0.5000  0.5000  0.6991  1\n  Ga  Ga9  1  0.5000  0.5000  0.3009  1\n  Fe  Fe10  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Er2Ga4FeGa4\n_chemical_formula_sum              \"Er2 Ga8 Fe1\"\n_cell_length_a       4.2463\n_cell_length_b       4.2463\n_cell_length_c       11.0432\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Er  Er1       1.0000  0.0000  0.0000  0.6959  1.0000\n  Er  Er2       1.0000  0.0000  0.0000  0.3041  1.0000\n  Ga  Ga1       1.0000  0.5000  0.0000  0.8849  1.0000\n  Ga  Ga2       1.0000  0.0000  0.5000  0.8849  1.0000\n  Ga  Ga3       1.0000  0.5000  0.0000  0.1151  1.0000\n  Ga  Ga4       1.0000  0.0000  0.5000  0.1151  1.0000\n  Fe  Fe1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ga  Ga5       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ga  Ga6       1.0000  0.5000  0.5000  0.6991  1.0000\n  Ga  Ga7       1.0000  0.5000  0.5000  0.3009  1.0000\n  Ga  Ga8       1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3a5cca02-a969-40c3-b09f-888f8f1fa0be",
    "mp_id": "mp-1095643",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbCr2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8882\n_cell_length_b   4.8882\n_cell_length_c   8.0455\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbCr2\n_chemical_formula_sum   'Nb4 Cr8'\n_cell_volume   166.4895\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.3333  0.6667  0.4410  1\n  Nb  Nb1  1  0.6667  0.3333  0.5590  1\n  Nb  Nb2  1  0.6667  0.3333  0.9410  1\n  Nb  Nb3  1  0.3333  0.6667  0.0590  1\n  Cr  Cr4  1  -0.0000  0.0000  0.5000  1\n  Cr  Cr5  1  -0.0000  0.0000  0.0000  1\n  Cr  Cr6  1  0.8304  0.1696  0.2500  1\n  Cr  Cr7  1  0.8304  0.6608  0.2500  1\n  Cr  Cr8  1  0.3392  0.1696  0.2500  1\n  Cr  Cr9  1  0.1696  0.8304  0.7500  1\n  Cr  Cr10  1  0.1696  0.3392  0.7500  1\n  Cr  Cr11  1  0.6608  0.8304  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb3Cr5NbCr3\n_chemical_formula_sum              \"Nb4 Cr8\"\n_cell_length_a       4.8882\n_cell_length_b       4.8882\n_cell_length_c       8.0455\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.3333  0.6667  0.4410  1.0000\n  Nb  Nb2       1.0000  0.6667  0.3333  0.5590  1.0000\n  Nb  Nb3       1.0000  0.6667  0.3333  0.9410  1.0000\n  Cr  Cr1       1.0000  0.3333  0.6667  0.0590  1.0000\n  Cr  Cr2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cr  Cr3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cr  Cr4       1.0000  0.8304  0.1696  0.2500  1.0000\n  Cr  Cr5       1.0000  0.8304  0.6608  0.2500  1.0000\n  Nb  Nb4       1.0000  0.3392  0.1696  0.2500  1.0000\n  Cr  Cr6       1.0000  0.1696  0.8304  0.7500  1.0000\n  Cr  Cr7       1.0000  0.1696  0.3392  0.7500  1.0000\n  Cr  Cr8       1.0000  0.6608  0.8304  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6574dd38-2856-433c-90e5-f2788954089f",
    "mp_id": "mp-1095675",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeAsS\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0048\n_cell_length_b   3.9522\n_cell_length_c   17.4448\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeAsS\n_chemical_formula_sum   'Ce4 As4 S4'\n_cell_volume   276.1083\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.7374  0.2500  0.8540  1\n  Ce  Ce1  1  0.7626  0.2500  0.3540  1\n  Ce  Ce2  1  0.2626  0.7500  0.1460  1\n  Ce  Ce3  1  0.2374  0.7500  0.6460  1\n  As  As4  1  0.7039  0.7500  0.5020  1\n  As  As5  1  0.7961  0.7500  0.0020  1\n  As  As6  1  0.2961  0.2500  0.4980  1\n  As  As7  1  0.2039  0.2500  -0.0020  1\n  S  S8  1  0.7435  0.2500  0.6854  1\n  S  S9  1  0.7565  0.2500  0.1854  1\n  S  S10  1  0.2565  0.7500  0.3146  1\n  S  S11  1  0.2435  0.7500  0.8146  1\n",
    "output": "data_image0\n_chemical_formula_structural       AsCe3As3CeS4\n_chemical_formula_sum              \"As4 Ce4 S4\"\n_cell_length_a       4.0048\n_cell_length_b       3.9522\n_cell_length_c       17.4448\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.7374  0.2500  0.8540  1.0000\n  Ce  Ce1       1.0000  0.7626  0.2500  0.3540  1.0000\n  Ce  Ce2       1.0000  0.2626  0.7500  0.1460  1.0000\n  Ce  Ce3       1.0000  0.2374  0.7500  0.6460  1.0000\n  As  As2       1.0000  0.7039  0.7500  0.5020  1.0000\n  As  As3       1.0000  0.7961  0.7500  0.0020  1.0000\n  As  As4       1.0000  0.2961  0.2500  0.4980  1.0000\n  Ce  Ce4       1.0000  0.2039  0.2500  0.9980  1.0000\n  S   S1        1.0000  0.7435  0.2500  0.6854  1.0000\n  S   S2        1.0000  0.7565  0.2500  0.1854  1.0000\n  S   S3        1.0000  0.2565  0.7500  0.3146  1.0000\n  S   S4        1.0000  0.2435  0.7500  0.8146  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e84a09f8-e83c-4296-8cdd-1ab78d4ce428",
    "mp_id": "mp-1095677",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NpSb2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.3507\n_cell_length_b   4.3507\n_cell_length_c   17.2480\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.4069\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NpSb2\n_chemical_formula_sum   'Np4 Sb8'\n_cell_volume   326.4705\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Np  Np0  1  0.3607  0.3607  0.8923  1\n  Np  Np1  1  0.6393  0.6393  0.1077  1\n  Np  Np2  1  0.1393  0.1393  0.3923  1\n  Np  Np3  1  0.8607  0.8607  0.6077  1\n  Sb  Sb4  1  0.3598  0.3598  0.5695  1\n  Sb  Sb5  1  0.6402  0.6402  0.4305  1\n  Sb  Sb6  1  0.1402  0.1402  0.0695  1\n  Sb  Sb7  1  0.8598  0.8598  0.9305  1\n  Sb  Sb8  1  0.3724  0.8724  0.7500  1\n  Sb  Sb9  1  0.1276  0.6276  0.2500  1\n  Sb  Sb10  1  0.6276  0.1276  0.2500  1\n  Sb  Sb11  1  0.8724  0.3724  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Np3SbNpSb7\n_chemical_formula_sum              \"Np4 Sb8\"\n_cell_length_a       4.3507\n_cell_length_b       4.3507\n_cell_length_c       17.2480\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.4069\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Np  Np1       1.0000  0.3607  0.3607  0.8923  1.0000\n  Np  Np2       1.0000  0.6393  0.6393  0.1077  1.0000\n  Np  Np3       1.0000  0.1393  0.1393  0.3923  1.0000\n  Sb  Sb1       1.0000  0.8607  0.8607  0.6077  1.0000\n  Np  Np4       1.0000  0.3598  0.3598  0.5695  1.0000\n  Sb  Sb2       1.0000  0.6402  0.6402  0.4305  1.0000\n  Sb  Sb3       1.0000  0.1402  0.1402  0.0695  1.0000\n  Sb  Sb4       1.0000  0.8598  0.8598  0.9305  1.0000\n  Sb  Sb5       1.0000  0.3724  0.8724  0.7500  1.0000\n  Sb  Sb6       1.0000  0.1276  0.6276  0.2500  1.0000\n  Sb  Sb7       1.0000  0.6276  0.1276  0.2500  1.0000\n  Sb  Sb8       1.0000  0.8724  0.3724  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bcc9bcf6-ed08-4f4a-b191-bf81ecbd8673",
    "mp_id": "mp-1096913",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5639\n_cell_length_b   5.6553\n_cell_length_c   7.8569\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrN2\n_chemical_formula_sum   'Cr4 N8'\n_cell_volume   247.2217\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.9971  0.5310  0.8717  1\n  Cr  Cr1  1  0.4971  0.4690  0.1283  1\n  Cr  Cr2  1  0.4971  0.9690  0.3717  1\n  Cr  Cr3  1  0.9971  0.0310  0.6283  1\n  N  N4  1  0.2613  0.4976  0.9991  1\n  N  N5  1  0.7613  0.5024  0.0009  1\n  N  N6  1  0.7613  0.0024  0.4991  1\n  N  N7  1  0.2613  0.9976  0.5009  1\n  N  N8  1  0.4916  0.6914  0.2766  1\n  N  N9  1  0.9916  0.3086  0.7234  1\n  N  N10  1  0.9916  0.8086  0.7766  1\n  N  N11  1  0.4916  0.1914  0.2234  1\n",
    "output": "data_image0\n_chemical_formula_structural       CrNCr2N3CrN4\n_chemical_formula_sum              \"Cr4 N8\"\n_cell_length_a       5.5639\n_cell_length_b       5.6553\n_cell_length_c       7.8569\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.9971  0.5310  0.8717  1.0000\n  N   N1        1.0000  0.4971  0.4690  0.1283  1.0000\n  Cr  Cr2       1.0000  0.4971  0.9690  0.3717  1.0000\n  Cr  Cr3       1.0000  0.9971  0.0310  0.6283  1.0000\n  N   N2        1.0000  0.2613  0.4976  0.9991  1.0000\n  N   N3        1.0000  0.7613  0.5024  0.0009  1.0000\n  N   N4        1.0000  0.7613  0.0024  0.4991  1.0000\n  Cr  Cr4       1.0000  0.2613  0.9976  0.5009  1.0000\n  N   N5        1.0000  0.4916  0.6914  0.2766  1.0000\n  N   N6        1.0000  0.9916  0.3086  0.7234  1.0000\n  N   N7        1.0000  0.9916  0.8086  0.7766  1.0000\n  N   N8        1.0000  0.4916  0.1914  0.2234  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aa720069-7e96-4518-b99f-7875a1a5f1e0",
    "mp_id": "mp-1099100",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg14CdC\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3607\n_cell_length_b   6.3607\n_cell_length_c   9.6184\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   116.5957\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg14CdC\n_chemical_formula_sum   'Mg14 Cd1 C1'\n_cell_volume   347.9765\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8391  0.1609  0.0000  1\n  Mg  Mg1  1  0.3382  0.6618  0.0000  1\n  Mg  Mg2  1  0.3674  0.1160  0.5000  1\n  Mg  Mg3  1  0.3240  0.1594  0.0000  1\n  Mg  Mg4  1  0.8840  0.6326  0.5000  1\n  Mg  Mg5  1  0.8406  0.6760  0.0000  1\n  Mg  Mg6  1  0.1809  0.3669  0.2887  1\n  Mg  Mg7  1  0.1809  0.3669  0.7113  1\n  Mg  Mg8  1  0.6331  0.8191  0.2887  1\n  Mg  Mg9  1  0.6331  0.8191  0.7113  1\n  Mg  Mg10  1  0.6621  0.3379  0.2448  1\n  Mg  Mg11  1  0.6621  0.3379  0.7552  1\n  Mg  Mg12  1  0.1667  0.8333  0.2590  1\n  Mg  Mg13  1  0.1667  0.8333  0.7410  1\n  Cd  Cd14  1  0.8482  0.1518  0.5000  1\n  C  C15  1  0.2731  0.7269  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg5CMg8CdMg\n_chemical_formula_sum              \"Mg14 C1 Cd1\"\n_cell_length_a       6.3607\n_cell_length_b       6.3607\n_cell_length_c       9.6184\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    116.5957\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8391  0.1609  0.0000  1.0000\n  Mg  Mg2       1.0000  0.3382  0.6618  0.0000  1.0000\n  Mg  Mg3       1.0000  0.3674  0.1160  0.5000  1.0000\n  Mg  Mg4       1.0000  0.3240  0.1594  0.0000  1.0000\n  Mg  Mg5       1.0000  0.8840  0.6326  0.5000  1.0000\n  C   C1        1.0000  0.8406  0.6760  0.0000  1.0000\n  Mg  Mg6       1.0000  0.1809  0.3669  0.2887  1.0000\n  Mg  Mg7       1.0000  0.1809  0.3669  0.7113  1.0000\n  Mg  Mg8       1.0000  0.6331  0.8191  0.2887  1.0000\n  Mg  Mg9       1.0000  0.6331  0.8191  0.7113  1.0000\n  Mg  Mg10      1.0000  0.6621  0.3379  0.2448  1.0000\n  Mg  Mg11      1.0000  0.6621  0.3379  0.7552  1.0000\n  Mg  Mg12      1.0000  0.1667  0.8333  0.2590  1.0000\n  Mg  Mg13      1.0000  0.1667  0.8333  0.7410  1.0000\n  Cd  Cd1       1.0000  0.8482  0.1518  0.5000  1.0000\n  Mg  Mg14      1.0000  0.2731  0.7269  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2b9f7941-da76-475d-b567-ac1ac948557e",
    "mp_id": "mp-1100340",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaSnS3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3642\n_cell_length_b   6.7007\n_cell_length_c   14.3154\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaSnS3\n_chemical_formula_sum   'Ca4 Sn4 S12'\n_cell_volume   514.5443\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2234  0.3416  0.8760  1\n  Ca  Ca1  1  0.2766  0.6584  0.3760  1\n  Ca  Ca2  1  0.7234  0.1584  0.1240  1\n  Ca  Ca3  1  0.7766  0.8416  0.6240  1\n  Sn  Sn4  1  0.7126  0.8250  0.9066  1\n  Sn  Sn5  1  0.7874  0.1750  0.4066  1\n  Sn  Sn6  1  0.2126  0.6750  0.0934  1\n  Sn  Sn7  1  0.2874  0.3250  0.5934  1\n  S  S8  1  0.2382  0.7729  0.9261  1\n  S  S9  1  0.2618  0.2271  0.4261  1\n  S  S10  1  0.7382  0.7271  0.0739  1\n  S  S11  1  0.7618  0.2729  0.5739  1\n  S  S12  1  0.7514  0.5886  0.7844  1\n  S  S13  1  0.7486  0.4114  0.2844  1\n  S  S14  1  0.2514  0.9114  0.2156  1\n  S  S15  1  0.2486  0.0886  0.7156  1\n  S  S16  1  0.7302  0.1791  0.9166  1\n  S  S17  1  0.7698  0.8209  0.4166  1\n  S  S18  1  0.2302  0.3209  0.0834  1\n  S  S19  1  0.2698  0.6791  0.5834  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca3SSn4S5CaS6\n_chemical_formula_sum              \"Ca4 S12 Sn4\"\n_cell_length_a       5.3642\n_cell_length_b       6.7007\n_cell_length_c       14.3154\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2234  0.3416  0.8760  1.0000\n  Ca  Ca2       1.0000  0.2766  0.6584  0.3760  1.0000\n  Ca  Ca3       1.0000  0.7234  0.1584  0.1240  1.0000\n  S   S1        1.0000  0.7766  0.8416  0.6240  1.0000\n  Sn  Sn1       1.0000  0.7126  0.8250  0.9066  1.0000\n  Sn  Sn2       1.0000  0.7874  0.1750  0.4066  1.0000\n  Sn  Sn3       1.0000  0.2126  0.6750  0.0934  1.0000\n  Sn  Sn4       1.0000  0.2874  0.3250  0.5934  1.0000\n  S   S2        1.0000  0.2382  0.7729  0.9261  1.0000\n  S   S3        1.0000  0.2618  0.2271  0.4261  1.0000\n  S   S4        1.0000  0.7382  0.7271  0.0739  1.0000\n  S   S5        1.0000  0.7618  0.2729  0.5739  1.0000\n  S   S6        1.0000  0.7514  0.5886  0.7844  1.0000\n  Ca  Ca4       1.0000  0.7486  0.4114  0.2844  1.0000\n  S   S7        1.0000  0.2514  0.9114  0.2156  1.0000\n  S   S8        1.0000  0.2486  0.0886  0.7156  1.0000\n  S   S9        1.0000  0.7302  0.1791  0.9166  1.0000\n  S   S10       1.0000  0.7698  0.8209  0.4166  1.0000\n  S   S11       1.0000  0.2302  0.3209  0.0834  1.0000\n  S   S12       1.0000  0.2698  0.6791  0.5834  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ef7256a8-4a80-42a1-adff-d2c39d333c7c",
    "mp_id": "mp-1100512",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn7O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0212\n_cell_length_b   6.5030\n_cell_length_c   15.7215\n_cell_angle_alpha   87.6814\n_cell_angle_beta   85.1221\n_cell_angle_gamma   76.7425\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn7O16\n_chemical_formula_sum   'Li9 Mn7 O16'\n_cell_volume   299.4884\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5505  0.8791  0.6849  1\n  Li  Li1  1  0.8125  0.3749  0.4369  1\n  Li  Li2  1  0.0397  0.8807  0.1790  1\n  Li  Li3  1  0.1875  0.6251  0.5631  1\n  Li  Li4  1  0.4495  0.1209  0.3151  1\n  Li  Li5  1  0.7008  0.6414  0.0658  1\n  Li  Li6  1  0.2992  0.3586  0.9342  1\n  Li  Li7  1  0.9603  0.1193  0.8210  1\n  Li  Li8  1  0.0000  0.0000  0.0000  1\n  Mn  Mn9  1  0.6291  0.7574  0.8804  1\n  Mn  Mn10  1  0.3709  0.2425  0.1196  1\n  Mn  Mn11  1  0.8787  0.2521  0.6258  1\n  Mn  Mn12  1  0.1213  0.7479  0.3742  1\n  Mn  Mn13  1  0.5000  0.0000  0.5000  1\n  Mn  Mn14  1  0.7313  0.5036  0.2462  1\n  Mn  Mn15  1  0.2687  0.4964  0.7538  1\n  O  O16  1  0.1406  0.7918  0.7932  1\n  O  O17  1  0.3196  0.2981  0.5318  1\n  O  O18  1  0.5667  0.7989  0.2838  1\n  O  O19  1  0.7011  0.5509  0.6597  1\n  O  O20  1  0.9437  0.0484  0.4064  1\n  O  O21  1  0.1863  0.5480  0.1568  1\n  O  O22  1  0.8694  0.3064  0.0441  1\n  O  O23  1  0.4756  0.0402  0.9021  1\n  O  O24  1  0.0563  0.9516  0.5936  1\n  O  O25  1  0.2989  0.4491  0.3403  1\n  O  O26  1  0.5244  0.9598  0.0979  1\n  O  O27  1  0.6804  0.7019  0.4682  1\n  O  O28  1  0.8594  0.2082  0.2068  1\n  O  O29  1  0.1306  0.6936  0.9559  1\n  O  O30  1  0.8137  0.4520  0.8432  1\n  O  O31  1  0.4333  0.2011  0.7162  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li9MnOMn5O7MnO8\n_chemical_formula_sum              \"Li9 Mn7 O16\"\n_cell_length_a       3.0212\n_cell_length_b       6.5030\n_cell_length_c       15.7215\n_cell_angle_alpha    87.6814\n_cell_angle_beta     85.1221\n_cell_angle_gamma    76.7425\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5505  0.8791  0.6849  1.0000\n  Li  Li2       1.0000  0.8125  0.3749  0.4369  1.0000\n  Li  Li3       1.0000  0.0397  0.8807  0.1790  1.0000\n  Li  Li4       1.0000  0.1875  0.6251  0.5631  1.0000\n  Li  Li5       1.0000  0.4495  0.1209  0.3151  1.0000\n  Li  Li6       1.0000  0.7008  0.6414  0.0658  1.0000\n  Li  Li7       1.0000  0.2992  0.3586  0.9342  1.0000\n  Li  Li8       1.0000  0.9603  0.1193  0.8210  1.0000\n  Li  Li9       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn1       1.0000  0.6291  0.7574  0.8804  1.0000\n  O   O1        1.0000  0.3709  0.2425  0.1196  1.0000\n  Mn  Mn2       1.0000  0.8787  0.2521  0.6258  1.0000\n  Mn  Mn3       1.0000  0.1213  0.7479  0.3742  1.0000\n  Mn  Mn4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn5       1.0000  0.7313  0.5036  0.2462  1.0000\n  Mn  Mn6       1.0000  0.2687  0.4964  0.7538  1.0000\n  O   O2        1.0000  0.1406  0.7918  0.7932  1.0000\n  O   O3        1.0000  0.3196  0.2981  0.5318  1.0000\n  O   O4        1.0000  0.5667  0.7989  0.2838  1.0000\n  O   O5        1.0000  0.7011  0.5509  0.6597  1.0000\n  O   O6        1.0000  0.9437  0.0484  0.4064  1.0000\n  O   O7        1.0000  0.1863  0.5480  0.1568  1.0000\n  O   O8        1.0000  0.8694  0.3064  0.0441  1.0000\n  Mn  Mn7       1.0000  0.4756  0.0402  0.9021  1.0000\n  O   O9        1.0000  0.0563  0.9516  0.5936  1.0000\n  O   O10       1.0000  0.2989  0.4491  0.3403  1.0000\n  O   O11       1.0000  0.5244  0.9598  0.0979  1.0000\n  O   O12       1.0000  0.6804  0.7019  0.4682  1.0000\n  O   O13       1.0000  0.8594  0.2082  0.2068  1.0000\n  O   O14       1.0000  0.1306  0.6936  0.9559  1.0000\n  O   O15       1.0000  0.8137  0.4520  0.8432  1.0000\n  O   O16       1.0000  0.4333  0.2011  0.7162  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ab021f37-4d69-4ac9-b597-ca7a94d2730f",
    "mp_id": "mp-1100602",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9056\n_cell_length_b   10.2299\n_cell_length_c   10.3286\n_cell_angle_alpha   70.0611\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   288.6005\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.9954  0.7467  1\n  Li  Li1  1  0.5000  0.0003  0.2558  1\n  Li  Li2  1  0.0000  0.7451  0.7417  1\n  Li  Li3  1  0.0000  0.7454  0.2622  1\n  Li  Li4  1  0.5000  0.4977  0.7375  1\n  Li  Li5  1  0.5000  0.5055  0.2598  1\n  Li  Li6  1  0.0000  0.2625  0.7401  1\n  Li  Li7  1  0.0000  0.2518  0.2550  1\n  Li  Li8  1  0.0000  0.4987  0.5041  1\n  Mn  Mn9  1  0.0000  0.0014  0.0001  1\n  Mn  Mn10  1  0.5000  0.2558  0.5045  1\n  Co  Co11  1  0.0000  0.9950  0.4989  1\n  Co  Co12  1  0.5000  0.7438  0.9995  1\n  Co  Co13  1  0.5000  0.7350  0.4919  1\n  Co  Co14  1  0.0000  0.4947  0.0005  1\n  Co  Co15  1  0.5000  0.2571  0.9999  1\n  O  O16  1  0.5000  0.1085  0.8874  1\n  O  O17  1  0.5000  0.1254  0.3894  1\n  O  O18  1  0.0000  0.8756  0.8904  1\n  O  O19  1  0.0000  0.8709  0.3863  1\n  O  O20  1  0.5000  0.6212  0.8855  1\n  O  O21  1  0.5000  0.6351  0.3776  1\n  O  O22  1  0.0000  0.3711  0.8810  1\n  O  O23  1  0.0000  0.3608  0.3913  1\n  O  O24  1  0.5000  0.8834  0.6133  1\n  O  O25  1  0.5000  0.8894  0.1112  1\n  O  O26  1  0.0000  0.6366  0.6136  1\n  O  O27  1  0.0000  0.6353  0.1143  1\n  O  O28  1  0.5000  0.3619  0.6170  1\n  O  O29  1  0.5000  0.3822  0.1215  1\n  O  O30  1  0.0000  0.1341  0.6115  1\n  O  O31  1  0.0000  0.1232  0.1105  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OLi4Mn2Co5O5LiO10\n_chemical_formula_sum              \"Li9 O16 Mn2 Co5\"\n_cell_length_a       2.9056\n_cell_length_b       10.2299\n_cell_length_c       10.3286\n_cell_angle_alpha    70.0611\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.9954  0.7467  1.0000\n  Li  Li2       1.0000  0.5000  0.0003  0.2558  1.0000\n  Li  Li3       1.0000  0.0000  0.7451  0.7417  1.0000\n  Li  Li4       1.0000  0.0000  0.7454  0.2622  1.0000\n  O   O1        1.0000  0.5000  0.4977  0.7375  1.0000\n  Li  Li5       1.0000  0.5000  0.5055  0.2598  1.0000\n  Li  Li6       1.0000  0.0000  0.2625  0.7401  1.0000\n  Li  Li7       1.0000  0.0000  0.2518  0.2550  1.0000\n  Li  Li8       1.0000  0.0000  0.4987  0.5041  1.0000\n  Mn  Mn1       1.0000  0.0000  0.0014  0.0001  1.0000\n  Mn  Mn2       1.0000  0.5000  0.2558  0.5045  1.0000\n  Co  Co1       1.0000  0.0000  0.9950  0.4989  1.0000\n  Co  Co2       1.0000  0.5000  0.7438  0.9995  1.0000\n  Co  Co3       1.0000  0.5000  0.7350  0.4919  1.0000\n  Co  Co4       1.0000  0.0000  0.4947  0.0005  1.0000\n  Co  Co5       1.0000  0.5000  0.2571  0.9999  1.0000\n  O   O2        1.0000  0.5000  0.1085  0.8874  1.0000\n  O   O3        1.0000  0.5000  0.1254  0.3894  1.0000\n  O   O4        1.0000  0.0000  0.8756  0.8904  1.0000\n  O   O5        1.0000  0.0000  0.8709  0.3863  1.0000\n  O   O6        1.0000  0.5000  0.6212  0.8855  1.0000\n  Li  Li9       1.0000  0.5000  0.6351  0.3776  1.0000\n  O   O7        1.0000  0.0000  0.3711  0.8810  1.0000\n  O   O8        1.0000  0.0000  0.3608  0.3913  1.0000\n  O   O9        1.0000  0.5000  0.8834  0.6133  1.0000\n  O   O10       1.0000  0.5000  0.8894  0.1112  1.0000\n  O   O11       1.0000  0.0000  0.6366  0.6136  1.0000\n  O   O12       1.0000  0.0000  0.6353  0.1143  1.0000\n  O   O13       1.0000  0.5000  0.3619  0.6170  1.0000\n  O   O14       1.0000  0.5000  0.3822  0.1215  1.0000\n  O   O15       1.0000  0.0000  0.1341  0.6115  1.0000\n  O   O16       1.0000  0.0000  0.1232  0.1105  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "90fc76c7-92a2-422d-ad3f-6b01ee7da61b",
    "mp_id": "mp-1100645",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6067\n_cell_length_b   6.6067\n_cell_length_c   15.4189\n_cell_angle_alpha   88.1016\n_cell_angle_beta   88.1016\n_cell_angle_gamma   25.5886\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   290.5147\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6902  0.6902  0.9324  1\n  Li  Li1  1  0.0684  0.0684  0.8042  1\n  Li  Li2  1  0.4352  0.4352  0.6819  1\n  Li  Li3  1  0.3089  0.3089  0.0647  1\n  Li  Li4  1  0.9373  0.9373  0.1915  1\n  Li  Li5  1  0.5623  0.5623  0.3165  1\n  Li  Li6  1  0.8120  0.8120  0.5654  1\n  Li  Li7  1  0.1869  0.1869  0.4403  1\n  Li  Li8  1  0.7469  0.7469  0.7496  1\n  Mn  Mn9  1  0.0001  0.0001  0.9996  1\n  Mn  Mn10  1  0.3665  0.3665  0.8711  1\n  Co  Co11  1  0.1346  0.1346  0.6313  1\n  Co  Co12  1  0.5047  0.5047  0.5034  1\n  Co  Co13  1  0.8786  0.8786  0.3768  1\n  Co  Co14  1  0.2513  0.2513  0.2519  1\n  Co  Co15  1  0.6281  0.6281  0.1270  1\n  O  O16  1  0.5209  0.5209  0.9151  1\n  O  O17  1  0.9025  0.9025  0.7947  1\n  O  O18  1  0.2706  0.2706  0.6520  1\n  O  O19  1  0.1520  0.1520  0.0382  1\n  O  O20  1  0.7775  0.7775  0.1612  1\n  O  O21  1  0.4022  0.4022  0.2848  1\n  O  O22  1  0.6469  0.6469  0.5333  1\n  O  O23  1  0.0267  0.0267  0.4100  1\n  O  O24  1  0.8483  0.8483  0.9596  1\n  O  O25  1  0.2291  0.2291  0.8481  1\n  O  O26  1  0.5927  0.5927  0.7119  1\n  O  O27  1  0.4724  0.4724  0.0838  1\n  O  O28  1  0.0977  0.0977  0.2113  1\n  O  O29  1  0.7246  0.7246  0.3363  1\n  O  O30  1  0.9729  0.9729  0.5888  1\n  O  O31  1  0.3512  0.3512  0.4633  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi8Mn2Co5O3LiO12\n_chemical_formula_sum              \"O16 Li9 Mn2 Co5\"\n_cell_length_a       6.6067\n_cell_length_b       6.6067\n_cell_length_c       15.4189\n_cell_angle_alpha    88.1016\n_cell_angle_beta     88.1016\n_cell_angle_gamma    25.5886\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.6902  0.6902  0.9324  1.0000\n  Li  Li1       1.0000  0.0684  0.0684  0.8042  1.0000\n  Li  Li2       1.0000  0.4352  0.4352  0.6819  1.0000\n  Li  Li3       1.0000  0.3089  0.3089  0.0647  1.0000\n  Li  Li4       1.0000  0.9373  0.9373  0.1915  1.0000\n  Li  Li5       1.0000  0.5623  0.5623  0.3165  1.0000\n  Li  Li6       1.0000  0.8120  0.8120  0.5654  1.0000\n  Li  Li7       1.0000  0.1869  0.1869  0.4403  1.0000\n  Li  Li8       1.0000  0.7469  0.7469  0.7496  1.0000\n  Mn  Mn1       1.0000  0.0001  0.0001  0.9996  1.0000\n  Mn  Mn2       1.0000  0.3665  0.3665  0.8711  1.0000\n  Co  Co1       1.0000  0.1346  0.1346  0.6313  1.0000\n  Co  Co2       1.0000  0.5047  0.5047  0.5034  1.0000\n  Co  Co3       1.0000  0.8786  0.8786  0.3768  1.0000\n  Co  Co4       1.0000  0.2513  0.2513  0.2519  1.0000\n  Co  Co5       1.0000  0.6281  0.6281  0.1270  1.0000\n  O   O2        1.0000  0.5209  0.5209  0.9151  1.0000\n  O   O3        1.0000  0.9025  0.9025  0.7947  1.0000\n  O   O4        1.0000  0.2706  0.2706  0.6520  1.0000\n  Li  Li9       1.0000  0.1520  0.1520  0.0382  1.0000\n  O   O5        1.0000  0.7775  0.7775  0.1612  1.0000\n  O   O6        1.0000  0.4022  0.4022  0.2848  1.0000\n  O   O7        1.0000  0.6469  0.6469  0.5333  1.0000\n  O   O8        1.0000  0.0267  0.0267  0.4100  1.0000\n  O   O9        1.0000  0.8483  0.8483  0.9596  1.0000\n  O   O10       1.0000  0.2291  0.2291  0.8481  1.0000\n  O   O11       1.0000  0.5927  0.5927  0.7119  1.0000\n  O   O12       1.0000  0.4724  0.4724  0.0838  1.0000\n  O   O13       1.0000  0.0977  0.0977  0.2113  1.0000\n  O   O14       1.0000  0.7246  0.7246  0.3363  1.0000\n  O   O15       1.0000  0.9729  0.9729  0.5888  1.0000\n  O   O16       1.0000  0.3512  0.3512  0.4633  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "308b65ee-b34a-4cfc-90c1-9fd34ea4bf91",
    "mp_id": "mp-1100655",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6573\n_cell_length_b   6.6573\n_cell_length_c   15.3126\n_cell_angle_alpha   87.5564\n_cell_angle_beta   87.5564\n_cell_angle_gamma   25.1151\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   287.7660\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6926  0.6926  0.9327  1\n  Li  Li1  1  0.0595  0.0595  0.8126  1\n  Li  Li2  1  0.4349  0.4349  0.6949  1\n  Li  Li3  1  0.3139  0.3139  0.0595  1\n  Li  Li4  1  0.9345  0.9345  0.1847  1\n  Li  Li5  1  0.5641  0.5641  0.3093  1\n  Li  Li6  1  0.8129  0.8129  0.5683  1\n  Li  Li7  1  0.1890  0.1890  0.4350  1\n  Li  Li8  1  0.3739  0.3739  0.8763  1\n  Mn  Mn9  1  0.9916  0.9916  0.9983  1\n  Mn  Mn10  1  0.5023  0.5023  0.4988  1\n  Co  Co11  1  0.7642  0.7642  0.7579  1\n  Co  Co12  1  0.1290  0.1290  0.6313  1\n  Co  Co13  1  0.8742  0.8742  0.3734  1\n  Co  Co14  1  0.2503  0.2503  0.2493  1\n  Co  Co15  1  0.6243  0.6243  0.1242  1\n  O  O16  1  0.5285  0.5285  0.9191  1\n  O  O17  1  0.8988  0.8988  0.7773  1\n  O  O18  1  0.2747  0.2747  0.6590  1\n  O  O19  1  0.1427  0.1427  0.0403  1\n  O  O20  1  0.7774  0.7774  0.1641  1\n  O  O21  1  0.4017  0.4017  0.2877  1\n  O  O22  1  0.6444  0.6444  0.5344  1\n  O  O23  1  0.0312  0.0312  0.4167  1\n  O  O24  1  0.8554  0.8554  0.9727  1\n  O  O25  1  0.2178  0.2178  0.8365  1\n  O  O26  1  0.5961  0.5961  0.7101  1\n  O  O27  1  0.4708  0.4708  0.0848  1\n  O  O28  1  0.0983  0.0983  0.2083  1\n  O  O29  1  0.7195  0.7195  0.3382  1\n  O  O30  1  0.9730  0.9730  0.5808  1\n  O  O31  1  0.3587  0.3587  0.4636  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OLiMn2Co5OLiO14\n_chemical_formula_sum              \"Li9 O16 Mn2 Co5\"\n_cell_length_a       6.6573\n_cell_length_b       6.6573\n_cell_length_c       15.3126\n_cell_angle_alpha    87.5564\n_cell_angle_beta     87.5564\n_cell_angle_gamma    25.1151\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6926  0.6926  0.9327  1.0000\n  Li  Li2       1.0000  0.0595  0.0595  0.8126  1.0000\n  Li  Li3       1.0000  0.4349  0.4349  0.6949  1.0000\n  Li  Li4       1.0000  0.3139  0.3139  0.0595  1.0000\n  Li  Li5       1.0000  0.9345  0.9345  0.1847  1.0000\n  Li  Li6       1.0000  0.5641  0.5641  0.3093  1.0000\n  Li  Li7       1.0000  0.8129  0.8129  0.5683  1.0000\n  O   O1        1.0000  0.1889  0.1890  0.4350  1.0000\n  Li  Li8       1.0000  0.3739  0.3739  0.8763  1.0000\n  Mn  Mn1       1.0000  0.9916  0.9916  0.9983  1.0000\n  Mn  Mn2       1.0000  0.5023  0.5023  0.4988  1.0000\n  Co  Co1       1.0000  0.7642  0.7642  0.7579  1.0000\n  Co  Co2       1.0000  0.1290  0.1290  0.6313  1.0000\n  Co  Co3       1.0000  0.8742  0.8742  0.3734  1.0000\n  Co  Co4       1.0000  0.2503  0.2503  0.2493  1.0000\n  Co  Co5       1.0000  0.6243  0.6243  0.1242  1.0000\n  O   O2        1.0000  0.5285  0.5285  0.9191  1.0000\n  Li  Li9       1.0000  0.8988  0.8988  0.7773  1.0000\n  O   O3        1.0000  0.2747  0.2747  0.6590  1.0000\n  O   O4        1.0000  0.1427  0.1427  0.0403  1.0000\n  O   O5        1.0000  0.7774  0.7774  0.1641  1.0000\n  O   O6        1.0000  0.4017  0.4017  0.2877  1.0000\n  O   O7        1.0000  0.6444  0.6444  0.5344  1.0000\n  O   O8        1.0000  0.0312  0.0312  0.4167  1.0000\n  O   O9        1.0000  0.8554  0.8554  0.9727  1.0000\n  O   O10       1.0000  0.2178  0.2178  0.8365  1.0000\n  O   O11       1.0000  0.5961  0.5961  0.7101  1.0000\n  O   O12       1.0000  0.4708  0.4708  0.0848  1.0000\n  O   O13       1.0000  0.0983  0.0983  0.2083  1.0000\n  O   O14       1.0000  0.7195  0.7195  0.3382  1.0000\n  O   O15       1.0000  0.9730  0.9730  0.5808  1.0000\n  O   O16       1.0000  0.3587  0.3587  0.4636  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c193cae3-d5c5-4839-aae5-37768359711d",
    "mp_id": "mp-1100709",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg5Si6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.3144\n_cell_length_b   6.9138\n_cell_length_c   7.5715\n_cell_angle_alpha   109.7398\n_cell_angle_beta   105.7563\n_cell_angle_gamma   92.5914\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg5Si6\n_chemical_formula_sum   'Mg5 Si6'\n_cell_volume   202.2400\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.5000  0.5000  1\n  Mg  Mg1  1  0.1460  0.4308  0.8087  1\n  Mg  Mg2  1  0.8540  0.5692  0.1913  1\n  Mg  Mg3  1  0.0863  0.8751  0.6607  1\n  Mg  Mg4  1  0.9137  0.1249  0.3393  1\n  Si  Si5  1  0.4622  0.8289  0.3842  1\n  Si  Si6  1  0.5378  0.1711  0.6158  1\n  Si  Si7  1  0.3092  0.2385  0.1068  1\n  Si  Si8  1  0.2800  0.8694  0.0710  1\n  Si  Si9  1  0.6908  0.7615  0.8932  1\n  Si  Si10  1  0.7200  0.1306  0.9290  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4Si2MgSi4\n_chemical_formula_sum              \"Mg5 Si6\"\n_cell_length_a       4.3144\n_cell_length_b       6.9138\n_cell_length_c       7.5715\n_cell_angle_alpha    109.7398\n_cell_angle_beta     105.7563\n_cell_angle_gamma    92.5914\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.1460  0.4308  0.8087  1.0000\n  Mg  Mg3       1.0000  0.8540  0.5692  0.1913  1.0000\n  Mg  Mg4       1.0000  0.0863  0.8751  0.6607  1.0000\n  Si  Si1       1.0000  0.9137  0.1249  0.3393  1.0000\n  Si  Si2       1.0000  0.4622  0.8289  0.3842  1.0000\n  Mg  Mg5       1.0000  0.5378  0.1711  0.6158  1.0000\n  Si  Si3       1.0000  0.3092  0.2385  0.1068  1.0000\n  Si  Si4       1.0000  0.2800  0.8694  0.0710  1.0000\n  Si  Si5       1.0000  0.6908  0.7615  0.8932  1.0000\n  Si  Si6       1.0000  0.7200  0.1306  0.9290  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "52548aec-3803-46b9-8761-5d97ff070a01",
    "mp_id": "mp-1100895",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y5O4F7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.0244\n_cell_length_b   7.8276\n_cell_length_c   6.8611\n_cell_angle_alpha   108.3796\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y5O4F7\n_chemical_formula_sum   'Y10 O8 F14'\n_cell_volume   510.9003\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.2037  0.2207  0.0210  1\n  Y  Y1  1  0.1605  0.6711  0.9393  1\n  Y  Y2  1  0.7248  0.3673  0.5646  1\n  Y  Y3  1  0.3471  0.2968  0.5149  1\n  Y  Y4  1  0.4780  0.9505  0.0733  1\n  Y  Y5  1  0.6529  0.7968  0.5149  1\n  Y  Y6  1  0.5220  0.4505  0.0733  1\n  Y  Y7  1  0.2752  0.8673  0.5646  1\n  Y  Y8  1  0.8395  0.1711  0.9393  1\n  Y  Y9  1  0.7963  0.7207  0.0210  1\n  O  O10  1  0.4065  0.0002  0.4061  1\n  O  O11  1  0.3121  0.4540  0.9281  1\n  O  O12  1  0.4134  0.2391  0.1701  1\n  O  O13  1  0.2674  0.9216  0.9241  1\n  O  O14  1  0.7326  0.4216  0.9241  1\n  O  O15  1  0.5866  0.7391  0.1701  1\n  O  O16  1  0.5935  0.5002  0.4061  1\n  O  O17  1  0.6879  0.9540  0.9281  1\n  F  F18  1  0.1612  0.2490  0.3423  1\n  F  F19  1  0.9877  0.8598  0.0776  1\n  F  F20  1  0.0178  0.0258  0.8030  1\n  F  F21  1  0.8076  0.2174  0.2697  1\n  F  F22  1  0.7864  0.6494  0.6714  1\n  F  F23  1  0.7554  0.0868  0.5995  1\n  F  F24  1  0.5317  0.3006  0.6953  1\n  F  F25  1  0.4683  0.8006  0.6953  1\n  F  F26  1  0.2446  0.5868  0.5995  1\n  F  F27  1  0.1924  0.7174  0.2697  1\n  F  F28  1  0.2136  0.1494  0.6714  1\n  F  F29  1  0.0123  0.3598  0.0776  1\n  F  F30  1  0.9822  0.5258  0.8030  1\n  F  F31  1  0.8388  0.7490  0.3423  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y3FY6O8FYF12\n_chemical_formula_sum              \"Y10 F14 O8\"\n_cell_length_a       10.0244\n_cell_length_b       7.8276\n_cell_length_c       6.8611\n_cell_angle_alpha    108.3796\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.2037  0.2207  0.0210  1.0000\n  Y   Y2        1.0000  0.1605  0.6711  0.9393  1.0000\n  Y   Y3        1.0000  0.7248  0.3673  0.5646  1.0000\n  F   F1        1.0000  0.3471  0.2968  0.5149  1.0000\n  Y   Y4        1.0000  0.4780  0.9505  0.0733  1.0000\n  Y   Y5        1.0000  0.6529  0.7968  0.5149  1.0000\n  Y   Y6        1.0000  0.5220  0.4505  0.0733  1.0000\n  Y   Y7        1.0000  0.2752  0.8673  0.5646  1.0000\n  Y   Y8        1.0000  0.8395  0.1711  0.9393  1.0000\n  Y   Y9        1.0000  0.7963  0.7207  0.0210  1.0000\n  O   O1        1.0000  0.4065  0.0002  0.4061  1.0000\n  O   O2        1.0000  0.3121  0.4540  0.9281  1.0000\n  O   O3        1.0000  0.4134  0.2391  0.1701  1.0000\n  O   O4        1.0000  0.2674  0.9216  0.9241  1.0000\n  O   O5        1.0000  0.7326  0.4216  0.9241  1.0000\n  O   O6        1.0000  0.5866  0.7391  0.1701  1.0000\n  O   O7        1.0000  0.5935  0.5002  0.4061  1.0000\n  O   O8        1.0000  0.6879  0.9540  0.9281  1.0000\n  F   F2        1.0000  0.1612  0.2490  0.3423  1.0000\n  Y   Y10       1.0000  0.9877  0.8598  0.0776  1.0000\n  F   F3        1.0000  0.0178  0.0258  0.8030  1.0000\n  F   F4        1.0000  0.8076  0.2174  0.2697  1.0000\n  F   F5        1.0000  0.7864  0.6494  0.6714  1.0000\n  F   F6        1.0000  0.7554  0.0868  0.5995  1.0000\n  F   F7        1.0000  0.5317  0.3006  0.6953  1.0000\n  F   F8        1.0000  0.4683  0.8006  0.6953  1.0000\n  F   F9        1.0000  0.2446  0.5868  0.5995  1.0000\n  F   F10       1.0000  0.1924  0.7174  0.2697  1.0000\n  F   F11       1.0000  0.2136  0.1494  0.6714  1.0000\n  F   F12       1.0000  0.0123  0.3598  0.0776  1.0000\n  F   F13       1.0000  0.9822  0.5258  0.8030  1.0000\n  F   F14       1.0000  0.8388  0.7490  0.3423  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "37779ba6-8121-4715-b1eb-de3d0dd39d71",
    "mp_id": "mp-1101365",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 48 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V9(P2O7)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.8290\n_cell_length_b   9.8232\n_cell_length_c   12.9346\n_cell_angle_alpha   83.0419\n_cell_angle_beta   65.9171\n_cell_angle_gamma   109.4820\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V9(P2O7)8\n_chemical_formula_sum   'V9 P16 O56'\n_cell_volume   1130.1161\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0602  0.0547  0.1867  1\n  V  V1  1  0.2059  0.8096  0.5729  1\n  V  V2  1  0.4375  0.4462  0.2987  1\n  V  V3  1  0.2929  0.6999  0.9323  1\n  V  V4  1  0.5000  0.5000  0.5000  1\n  V  V5  1  0.7071  0.3001  0.0677  1\n  V  V6  1  0.5625  0.5538  0.7013  1\n  V  V7  1  0.7941  0.1904  0.4271  1\n  V  V8  1  0.9398  0.9453  0.8133  1\n  P  P9  1  0.0524  0.7315  0.1710  1\n  P  P10  1  0.0899  0.2732  0.3709  1\n  P  P11  1  0.2656  0.9588  0.7702  1\n  P  P12  1  0.1921  0.1409  0.5242  1\n  P  P13  1  0.4515  0.7648  0.3414  1\n  P  P14  1  0.2311  0.5382  0.7291  1\n  P  P15  1  0.4065  0.2183  0.1326  1\n  P  P16  1  0.6853  0.6276  0.0148  1\n  P  P17  1  0.3147  0.3724  0.9852  1\n  P  P18  1  0.5935  0.7817  0.8674  1\n  P  P19  1  0.7689  0.4618  0.2709  1\n  P  P20  1  0.5485  0.2352  0.6586  1\n  P  P21  1  0.8079  0.8591  0.4758  1\n  P  P22  1  0.7344  0.0412  0.2298  1\n  P  P23  1  0.9101  0.7268  0.6291  1\n  P  P24  1  0.9476  0.2685  0.8290  1\n  O  O25  1  0.0769  0.8946  0.1205  1\n  O  O26  1  0.1270  0.6796  0.0566  1\n  O  O27  1  0.0917  0.6944  0.2629  1\n  O  O28  1  0.0478  0.7050  0.5425  1\n  O  O29  1  0.0308  0.2031  0.2899  1\n  O  O30  1  0.1775  0.2216  0.0379  1\n  O  O31  1  0.2789  0.5065  0.0092  1\n  O  O32  1  0.1086  0.9446  0.8376  1\n  O  O33  1  0.2387  0.4102  0.3098  1\n  O  O34  1  0.1054  0.1469  0.4482  1\n  O  O35  1  0.4053  0.7621  0.2498  1\n  O  O36  1  0.1812  0.6078  0.6516  1\n  O  O37  1  0.4060  0.3578  0.0547  1\n  O  O38  1  0.0857  0.1079  0.6537  1\n  O  O39  1  0.2514  0.0914  0.1946  1\n  O  O40  1  0.3776  0.8279  0.4424  1\n  O  O41  1  0.2836  0.8869  0.6670  1\n  O  O42  1  0.1244  0.3635  0.7895  1\n  O  O43  1  0.2326  0.6103  0.8261  1\n  O  O44  1  0.4400  0.6042  0.3997  1\n  O  O45  1  0.5857  0.5986  0.1471  1\n  O  O46  1  0.3257  0.3010  0.4729  1\n  O  O47  1  0.2423  0.0159  0.4948  1\n  O  O48  1  0.3234  0.8959  0.8449  1\n  O  O49  1  0.5358  0.1839  0.0509  1\n  O  O50  1  0.4639  0.2843  0.2161  1\n  O  O51  1  0.6291  0.8655  0.2928  1\n  O  O52  1  0.3883  0.5398  0.6538  1\n  O  O53  1  0.6117  0.4602  0.3462  1\n  O  O54  1  0.3709  0.1345  0.7072  1\n  O  O55  1  0.5361  0.7157  0.7839  1\n  O  O56  1  0.4642  0.8161  0.9491  1\n  O  O57  1  0.6766  0.1041  0.1551  1\n  O  O58  1  0.7577  0.9841  0.5052  1\n  O  O59  1  0.6743  0.6990  0.5271  1\n  O  O60  1  0.4143  0.4014  0.8529  1\n  O  O61  1  0.5600  0.3958  0.6003  1\n  O  O62  1  0.7674  0.3897  0.1739  1\n  O  O63  1  0.8756  0.6365  0.2105  1\n  O  O64  1  0.7164  0.1131  0.3330  1\n  O  O65  1  0.6224  0.1721  0.5576  1\n  O  O66  1  0.7486  0.9086  0.8054  1\n  O  O67  1  0.9143  0.8921  0.3463  1\n  O  O68  1  0.5940  0.6422  0.9453  1\n  O  O69  1  0.8188  0.3922  0.3484  1\n  O  O70  1  0.5947  0.2379  0.7502  1\n  O  O71  1  0.8946  0.8531  0.5518  1\n  O  O72  1  0.7613  0.5898  0.6902  1\n  O  O73  1  0.8914  0.0554  0.1624  1\n  O  O74  1  0.7211  0.4935  0.9909  1\n  O  O75  1  0.8225  0.7784  0.9621  1\n  O  O76  1  0.9692  0.7969  0.7101  1\n  O  O77  1  0.9522  0.2950  0.4575  1\n  O  O78  1  0.9083  0.3056  0.7371  1\n  O  O79  1  0.8730  0.3204  0.9434  1\n  O  O80  1  0.9231  0.1054  0.8795  1\n",
    "output": "data_image0\n_chemical_formula_structural       V9P14OPO23PO32\n_chemical_formula_sum              \"V9 P16 O56\"\n_cell_length_a       10.8290\n_cell_length_b       9.8232\n_cell_length_c       12.9346\n_cell_angle_alpha    83.0419\n_cell_angle_beta     65.9171\n_cell_angle_gamma    109.4820\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0602  0.0547  0.1867  1.0000\n  V   V2        1.0000  0.2059  0.8096  0.5729  1.0000\n  V   V3        1.0000  0.4375  0.4462  0.2987  1.0000\n  V   V4        1.0000  0.2929  0.6999  0.9323  1.0000\n  V   V5        1.0000  0.5000  0.5000  0.5000  1.0000\n  V   V6        1.0000  0.7071  0.3001  0.0677  1.0000\n  V   V7        1.0000  0.5625  0.5538  0.7013  1.0000\n  V   V8        1.0000  0.7941  0.1904  0.4271  1.0000\n  V   V9        1.0000  0.9398  0.9453  0.8133  1.0000\n  P   P1        1.0000  0.0524  0.7315  0.1710  1.0000\n  P   P2        1.0000  0.0899  0.2732  0.3709  1.0000\n  P   P3        1.0000  0.2656  0.9588  0.7702  1.0000\n  P   P4        1.0000  0.1921  0.1409  0.5242  1.0000\n  P   P5        1.0000  0.4515  0.7648  0.3414  1.0000\n  P   P6        1.0000  0.2311  0.5382  0.7291  1.0000\n  P   P7        1.0000  0.4065  0.2183  0.1326  1.0000\n  P   P8        1.0000  0.6853  0.6276  0.0148  1.0000\n  P   P9        1.0000  0.3147  0.3724  0.9852  1.0000\n  P   P10       1.0000  0.5935  0.7817  0.8674  1.0000\n  P   P11       1.0000  0.7689  0.4618  0.2709  1.0000\n  P   P12       1.0000  0.5485  0.2352  0.6586  1.0000\n  P   P13       1.0000  0.8079  0.8591  0.4758  1.0000\n  P   P14       1.0000  0.7344  0.0412  0.2298  1.0000\n  O   O1        1.0000  0.9101  0.7268  0.6291  1.0000\n  P   P15       1.0000  0.9476  0.2685  0.8290  1.0000\n  O   O2        1.0000  0.0769  0.8946  0.1205  1.0000\n  O   O3        1.0000  0.1270  0.6796  0.0566  1.0000\n  O   O4        1.0000  0.0917  0.6944  0.2629  1.0000\n  O   O5        1.0000  0.0478  0.7050  0.5425  1.0000\n  O   O6        1.0000  0.0308  0.2031  0.2899  1.0000\n  O   O7        1.0000  0.1775  0.2216  0.0379  1.0000\n  O   O8        1.0000  0.2789  0.5065  0.0092  1.0000\n  O   O9        1.0000  0.1086  0.9446  0.8376  1.0000\n  O   O10       1.0000  0.2387  0.4102  0.3098  1.0000\n  O   O11       1.0000  0.1054  0.1469  0.4482  1.0000\n  O   O12       1.0000  0.4053  0.7621  0.2498  1.0000\n  O   O13       1.0000  0.1812  0.6078  0.6516  1.0000\n  O   O14       1.0000  0.4060  0.3578  0.0547  1.0000\n  O   O15       1.0000  0.0857  0.1079  0.6537  1.0000\n  O   O16       1.0000  0.2514  0.0914  0.1946  1.0000\n  O   O17       1.0000  0.3776  0.8279  0.4424  1.0000\n  O   O18       1.0000  0.2836  0.8869  0.6670  1.0000\n  O   O19       1.0000  0.1244  0.3635  0.7895  1.0000\n  O   O20       1.0000  0.2326  0.6103  0.8261  1.0000\n  O   O21       1.0000  0.4400  0.6042  0.3997  1.0000\n  O   O22       1.0000  0.5857  0.5986  0.1471  1.0000\n  O   O23       1.0000  0.3257  0.3010  0.4729  1.0000\n  O   O24       1.0000  0.2423  0.0159  0.4948  1.0000\n  P   P16       1.0000  0.3234  0.8959  0.8449  1.0000\n  O   O25       1.0000  0.5358  0.1839  0.0509  1.0000\n  O   O26       1.0000  0.4639  0.2843  0.2161  1.0000\n  O   O27       1.0000  0.6291  0.8655  0.2928  1.0000\n  O   O28       1.0000  0.3883  0.5398  0.6538  1.0000\n  O   O29       1.0000  0.6117  0.4602  0.3462  1.0000\n  O   O30       1.0000  0.3709  0.1345  0.7072  1.0000\n  O   O31       1.0000  0.5361  0.7157  0.7839  1.0000\n  O   O32       1.0000  0.4642  0.8161  0.9491  1.0000\n  O   O33       1.0000  0.6766  0.1041  0.1551  1.0000\n  O   O34       1.0000  0.7577  0.9841  0.5052  1.0000\n  O   O35       1.0000  0.6743  0.6990  0.5271  1.0000\n  O   O36       1.0000  0.4143  0.4014  0.8529  1.0000\n  O   O37       1.0000  0.5600  0.3958  0.6003  1.0000\n  O   O38       1.0000  0.7674  0.3897  0.1739  1.0000\n  O   O39       1.0000  0.8756  0.6365  0.2105  1.0000\n  O   O40       1.0000  0.7164  0.1131  0.3330  1.0000\n  O   O41       1.0000  0.6224  0.1721  0.5576  1.0000\n  O   O42       1.0000  0.7486  0.9086  0.8054  1.0000\n  O   O43       1.0000  0.9143  0.8921  0.3463  1.0000\n  O   O44       1.0000  0.5940  0.6422  0.9453  1.0000\n  O   O45       1.0000  0.8188  0.3922  0.3484  1.0000\n  O   O46       1.0000  0.5947  0.2379  0.7502  1.0000\n  O   O47       1.0000  0.8946  0.8531  0.5518  1.0000\n  O   O48       1.0000  0.7613  0.5898  0.6902  1.0000\n  O   O49       1.0000  0.8914  0.0554  0.1624  1.0000\n  O   O50       1.0000  0.7211  0.4935  0.9909  1.0000\n  O   O51       1.0000  0.8225  0.7784  0.9621  1.0000\n  O   O52       1.0000  0.9692  0.7969  0.7101  1.0000\n  O   O53       1.0000  0.9522  0.2950  0.4575  1.0000\n  O   O54       1.0000  0.9083  0.3056  0.7371  1.0000\n  O   O55       1.0000  0.8730  0.3204  0.9434  1.0000\n  O   O56       1.0000  0.9231  0.1054  0.8795  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2c13b40c-577f-460f-8bf9-109a7234a879",
    "mp_id": "mp-1101490",
    "action_prompt": "Swap the spatial positions of atoms at indices 46 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sb3(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5318\n_cell_length_b   9.2102\n_cell_length_c   13.1445\n_cell_angle_alpha   92.2371\n_cell_angle_beta   90.4344\n_cell_angle_gamma   90.1343\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sb3(PO4)4\n_chemical_formula_sum   'Sb9 P12 O48'\n_cell_volume   1032.0725\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sb  Sb0  1  0.6415  0.2741  0.1177  1\n  Sb  Sb1  1  0.1444  0.9047  0.5249  1\n  Sb  Sb2  1  0.8505  0.4233  0.8171  1\n  Sb  Sb3  1  0.0064  0.8272  0.8430  1\n  Sb  Sb4  1  0.4933  0.6799  0.1669  1\n  Sb  Sb5  1  0.9933  0.4956  0.4874  1\n  Sb  Sb6  1  0.4296  0.3314  0.8350  1\n  Sb  Sb7  1  0.0394  0.1468  0.1740  1\n  Sb  Sb8  1  0.5520  0.0100  0.4904  1\n  P  P9  1  0.8160  0.7939  0.6161  1\n  P  P10  1  0.2953  0.6762  0.3843  1\n  P  P11  1  0.7042  0.9816  0.2551  1\n  P  P12  1  0.1761  0.5284  0.7137  1\n  P  P13  1  0.2053  0.1948  0.4045  1\n  P  P14  1  0.8166  0.1292  0.9400  1\n  P  P15  1  0.7980  0.4954  0.2724  1\n  P  P16  1  0.2894  0.0217  0.7450  1\n  P  P17  1  0.1930  0.8470  0.0624  1\n  P  P18  1  0.2911  0.3701  0.0702  1\n  P  P19  1  0.7012  0.6496  0.9515  1\n  P  P20  1  0.7110  0.3143  0.5913  1\n  O  O21  1  0.7022  0.0336  0.3693  1\n  O  O22  1  0.7086  0.3222  0.7153  1\n  O  O23  1  0.1094  0.9810  0.7642  1\n  O  O24  1  0.1091  0.6500  0.4117  1\n  O  O25  1  0.9088  0.5915  0.2238  1\n  O  O26  1  0.2886  0.1933  0.7562  1\n  O  O27  1  0.1858  0.8300  0.9396  1\n  O  O28  1  0.1666  0.5125  0.5958  1\n  O  O29  1  0.3768  0.8280  0.0877  1\n  O  O30  1  0.9139  0.9145  0.5625  1\n  O  O31  1  0.2939  0.8515  0.4071  1\n  O  O32  1  0.6151  0.8317  0.2512  1\n  O  O33  1  0.3722  0.1907  0.4440  1\n  O  O34  1  0.1670  0.0190  0.0805  1\n  O  O35  1  0.8925  0.3411  0.5661  1\n  O  O36  1  0.6905  0.1453  0.5737  1\n  O  O37  1  0.9117  0.2321  0.8712  1\n  O  O38  1  0.3447  0.4980  0.7492  1\n  O  O39  1  0.1269  0.3518  0.1171  1\n  O  O40  1  0.8656  0.1678  0.0543  1\n  O  O41  1  0.1225  0.3467  0.4093  1\n  O  O42  1  0.6483  0.8226  0.5840  1\n  O  O43  1  0.3144  0.6665  0.2652  1\n  O  O44  1  0.3739  0.5221  0.0843  1\n  O  O45  1  0.5888  0.7043  0.8770  1\n  O  O46  1  0.7137  0.4721  0.9486  1\n  O  O47  1  0.8812  0.6409  0.5840  1\n  O  O48  1  0.8700  0.9727  0.9153  1\n  O  O49  1  0.5935  0.4094  0.5474  1\n  O  O50  1  0.8872  0.6795  0.9235  1\n  O  O51  1  0.0921  0.0915  0.4637  1\n  O  O52  1  0.6742  0.6888  0.0674  1\n  O  O53  1  0.8769  0.9738  0.2212  1\n  O  O54  1  0.4146  0.9472  0.7993  1\n  O  O55  1  0.8091  0.5003  0.3945  1\n  O  O56  1  0.0841  0.7523  0.1140  1\n  O  O57  1  0.4070  0.5948  0.4451  1\n  O  O58  1  0.3958  0.2523  0.1156  1\n  O  O59  1  0.1249  0.6836  0.7493  1\n  O  O60  1  0.6120  0.5220  0.2425  1\n  O  O61  1  0.2706  0.3483  0.9516  1\n  O  O62  1  0.6070  0.0853  0.1887  1\n  O  O63  1  0.6409  0.1542  0.9389  1\n  O  O64  1  0.8368  0.8123  0.7343  1\n  O  O65  1  0.0721  0.4108  0.7621  1\n  O  O66  1  0.8058  0.3249  0.2431  1\n  O  O67  1  0.2049  0.1412  0.2901  1\n  O  O68  1  0.3017  0.9980  0.6224  1\n",
    "output": "data_image0\n_chemical_formula_structural       SbOSb7P12O25SbO22\n_chemical_formula_sum              \"Sb9 O48 P12\"\n_cell_length_a       8.5318\n_cell_length_b       9.2102\n_cell_length_c       13.1445\n_cell_angle_alpha    92.2371\n_cell_angle_beta     90.4344\n_cell_angle_gamma    90.1343\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sb  Sb1       1.0000  0.6415  0.2741  0.1177  1.0000\n  O   O1        1.0000  0.1444  0.9047  0.5249  1.0000\n  Sb  Sb2       1.0000  0.8505  0.4233  0.8171  1.0000\n  Sb  Sb3       1.0000  0.0064  0.8272  0.8430  1.0000\n  Sb  Sb4       1.0000  0.4933  0.6799  0.1669  1.0000\n  Sb  Sb5       1.0000  0.9933  0.4956  0.4874  1.0000\n  Sb  Sb6       1.0000  0.4296  0.3314  0.8350  1.0000\n  Sb  Sb7       1.0000  0.0394  0.1468  0.1740  1.0000\n  Sb  Sb8       1.0000  0.5520  0.0100  0.4904  1.0000\n  P   P1        1.0000  0.8160  0.7939  0.6161  1.0000\n  P   P2        1.0000  0.2953  0.6762  0.3843  1.0000\n  P   P3        1.0000  0.7042  0.9816  0.2551  1.0000\n  P   P4        1.0000  0.1761  0.5284  0.7137  1.0000\n  P   P5        1.0000  0.2053  0.1948  0.4045  1.0000\n  P   P6        1.0000  0.8166  0.1292  0.9400  1.0000\n  P   P7        1.0000  0.7980  0.4954  0.2724  1.0000\n  P   P8        1.0000  0.2894  0.0217  0.7450  1.0000\n  P   P9        1.0000  0.1930  0.8470  0.0624  1.0000\n  P   P10       1.0000  0.2911  0.3701  0.0702  1.0000\n  P   P11       1.0000  0.7012  0.6496  0.9515  1.0000\n  P   P12       1.0000  0.7110  0.3143  0.5913  1.0000\n  O   O2        1.0000  0.7022  0.0336  0.3693  1.0000\n  O   O3        1.0000  0.7086  0.3222  0.7153  1.0000\n  O   O4        1.0000  0.1094  0.9810  0.7642  1.0000\n  O   O5        1.0000  0.1091  0.6500  0.4117  1.0000\n  O   O6        1.0000  0.9088  0.5915  0.2238  1.0000\n  O   O7        1.0000  0.2886  0.1933  0.7562  1.0000\n  O   O8        1.0000  0.1858  0.8300  0.9396  1.0000\n  O   O9        1.0000  0.1666  0.5125  0.5958  1.0000\n  O   O10       1.0000  0.3768  0.8280  0.0877  1.0000\n  O   O11       1.0000  0.9139  0.9145  0.5625  1.0000\n  O   O12       1.0000  0.2939  0.8515  0.4071  1.0000\n  O   O13       1.0000  0.6151  0.8317  0.2512  1.0000\n  O   O14       1.0000  0.3722  0.1907  0.4440  1.0000\n  O   O15       1.0000  0.1670  0.0190  0.0805  1.0000\n  O   O16       1.0000  0.8925  0.3411  0.5661  1.0000\n  O   O17       1.0000  0.6905  0.1453  0.5737  1.0000\n  O   O18       1.0000  0.9117  0.2321  0.8712  1.0000\n  O   O19       1.0000  0.3447  0.4980  0.7492  1.0000\n  O   O20       1.0000  0.1269  0.3518  0.1171  1.0000\n  O   O21       1.0000  0.8656  0.1678  0.0543  1.0000\n  O   O22       1.0000  0.1225  0.3467  0.4093  1.0000\n  O   O23       1.0000  0.6483  0.8226  0.5840  1.0000\n  O   O24       1.0000  0.3144  0.6665  0.2652  1.0000\n  O   O25       1.0000  0.3739  0.5221  0.0843  1.0000\n  O   O26       1.0000  0.5888  0.7043  0.8770  1.0000\n  Sb  Sb9       1.0000  0.7137  0.4721  0.9486  1.0000\n  O   O27       1.0000  0.8812  0.6409  0.5840  1.0000\n  O   O28       1.0000  0.8700  0.9727  0.9153  1.0000\n  O   O29       1.0000  0.5935  0.4094  0.5474  1.0000\n  O   O30       1.0000  0.8872  0.6795  0.9235  1.0000\n  O   O31       1.0000  0.0921  0.0915  0.4637  1.0000\n  O   O32       1.0000  0.6742  0.6888  0.0674  1.0000\n  O   O33       1.0000  0.8769  0.9738  0.2212  1.0000\n  O   O34       1.0000  0.4146  0.9472  0.7993  1.0000\n  O   O35       1.0000  0.8091  0.5003  0.3945  1.0000\n  O   O36       1.0000  0.0841  0.7523  0.1140  1.0000\n  O   O37       1.0000  0.4070  0.5948  0.4451  1.0000\n  O   O38       1.0000  0.3958  0.2523  0.1156  1.0000\n  O   O39       1.0000  0.1249  0.6836  0.7493  1.0000\n  O   O40       1.0000  0.6120  0.5220  0.2425  1.0000\n  O   O41       1.0000  0.2706  0.3483  0.9516  1.0000\n  O   O42       1.0000  0.6070  0.0853  0.1887  1.0000\n  O   O43       1.0000  0.6409  0.1542  0.9389  1.0000\n  O   O44       1.0000  0.8368  0.8123  0.7343  1.0000\n  O   O45       1.0000  0.0721  0.4108  0.7621  1.0000\n  O   O46       1.0000  0.8058  0.3249  0.2431  1.0000\n  O   O47       1.0000  0.2049  0.1412  0.2901  1.0000\n  O   O48       1.0000  0.3017  0.9980  0.6224  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6108f263-06e8-48da-a385-dd02f5d296bb",
    "mp_id": "mp-1101729",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 36 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbFe7(PO4)12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8064\n_cell_length_b   8.8349\n_cell_length_c   12.3089\n_cell_angle_alpha   90.1273\n_cell_angle_beta   90.0002\n_cell_angle_gamma   90.1745\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbFe7(PO4)12\n_chemical_formula_sum   'Nb1 Fe7 P12 O48'\n_cell_volume   957.6713\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.7471  0.4651  0.6181  1\n  Fe  Fe1  1  0.2506  0.9641  0.6192  1\n  Fe  Fe2  1  0.2525  0.5329  0.3824  1\n  Fe  Fe3  1  0.2484  0.0349  0.1188  1\n  Fe  Fe4  1  0.2496  0.4646  0.8817  1\n  Fe  Fe5  1  0.7510  0.5376  0.1191  1\n  Fe  Fe6  1  0.7521  0.9633  0.8808  1\n  Fe  Fe7  1  0.7500  0.0384  0.3807  1\n  P  P8  1  0.0344  0.2479  0.4985  1\n  P  P9  1  0.4696  0.7497  0.0004  1\n  P  P10  1  0.5309  0.2505  0.0008  1\n  P  P11  1  0.9687  0.7512  0.4987  1\n  P  P12  1  0.1081  0.3938  0.1442  1\n  P  P13  1  0.1103  0.1064  0.8562  1\n  P  P14  1  0.3850  0.6053  0.6459  1\n  P  P15  1  0.3887  0.8942  0.3554  1\n  P  P16  1  0.6102  0.1027  0.6440  1\n  P  P17  1  0.6103  0.3939  0.3526  1\n  P  P18  1  0.8920  0.6094  0.8582  1\n  P  P19  1  0.8895  0.8946  0.1448  1\n  O  O20  1  0.0653  0.6545  0.4222  1\n  O  O21  1  0.0658  0.8402  0.5806  1\n  O  O22  1  0.0637  0.9111  0.1437  1\n  O  O23  1  0.0646  0.5906  0.8615  1\n  O  O24  1  0.1283  0.1426  0.5703  1\n  O  O25  1  0.1398  0.3514  0.4340  1\n  O  O26  1  0.1789  0.4464  0.0363  1\n  O  O27  1  0.1769  0.0553  0.9658  1\n  O  O28  1  0.1478  0.2264  0.1637  1\n  O  O29  1  0.1477  0.2746  0.8372  1\n  O  O30  1  0.1734  0.4951  0.2338  1\n  O  O31  1  0.1827  0.0055  0.7690  1\n  O  O32  1  0.3200  0.9969  0.2686  1\n  O  O33  1  0.3115  0.5046  0.7312  1\n  O  O34  1  0.3554  0.7743  0.6645  1\n  O  O35  1  0.3505  0.7266  0.3347  1\n  O  O36  1  0.3291  0.5601  0.5323  1\n  O  O37  1  0.3231  0.9399  0.4667  1\n  O  O38  1  0.3653  0.8520  0.0682  1\n  O  O39  1  0.3711  0.6448  0.9302  1\n  O  O40  1  0.4362  0.0922  0.6403  1\n  O  O41  1  0.4376  0.4131  0.3473  1\n  O  O42  1  0.4331  0.1563  0.0793  1\n  O  O43  1  0.4356  0.3422  0.9195  1\n  O  O44  1  0.5654  0.6583  0.0817  1\n  O  O45  1  0.5674  0.8432  0.9216  1\n  O  O46  1  0.5610  0.5810  0.6509  1\n  O  O47  1  0.5623  0.9135  0.3579  1\n  O  O48  1  0.6287  0.3550  0.0718  1\n  O  O49  1  0.6353  0.1479  0.9332  1\n  O  O50  1  0.6768  0.0590  0.5333  1\n  O  O51  1  0.6670  0.4372  0.4687  1\n  O  O52  1  0.6496  0.2273  0.3313  1\n  O  O53  1  0.6521  0.2728  0.6659  1\n  O  O54  1  0.6893  0.4987  0.2715  1\n  O  O55  1  0.6768  0.0027  0.7326  1\n  O  O56  1  0.8188  0.9963  0.2318  1\n  O  O57  1  0.8271  0.5079  0.7642  1\n  O  O58  1  0.8530  0.7267  0.1651  1\n  O  O59  1  0.8535  0.7746  0.8334  1\n  O  O60  1  0.8190  0.5561  0.9640  1\n  O  O61  1  0.8250  0.9427  0.0340  1\n  O  O62  1  0.8604  0.6469  0.5649  1\n  O  O63  1  0.8692  0.8575  0.4317  1\n  O  O64  1  0.9366  0.0894  0.8575  1\n  O  O65  1  0.9343  0.4086  0.1385  1\n  O  O66  1  0.9377  0.1559  0.4182  1\n  O  O67  1  0.9310  0.3436  0.5747  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbFeOFe5P12O16FeO31\n_chemical_formula_sum              \"Nb1 Fe7 O48 P12\"\n_cell_length_a       8.8064\n_cell_length_b       8.8349\n_cell_length_c       12.3089\n_cell_angle_alpha    90.1273\n_cell_angle_beta     90.0002\n_cell_angle_gamma    90.1745\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.7471  0.4651  0.6181  1.0000\n  Fe  Fe1       1.0000  0.2506  0.9641  0.6192  1.0000\n  O   O1        1.0000  0.2525  0.5329  0.3824  1.0000\n  Fe  Fe2       1.0000  0.2484  0.0349  0.1188  1.0000\n  Fe  Fe3       1.0000  0.2496  0.4646  0.8817  1.0000\n  Fe  Fe4       1.0000  0.7510  0.5376  0.1191  1.0000\n  Fe  Fe5       1.0000  0.7521  0.9633  0.8808  1.0000\n  Fe  Fe6       1.0000  0.7500  0.0384  0.3807  1.0000\n  P   P1        1.0000  0.0344  0.2479  0.4985  1.0000\n  P   P2        1.0000  0.4696  0.7497  0.0004  1.0000\n  P   P3        1.0000  0.5309  0.2505  0.0008  1.0000\n  P   P4        1.0000  0.9687  0.7512  0.4987  1.0000\n  P   P5        1.0000  0.1081  0.3938  0.1442  1.0000\n  P   P6        1.0000  0.1103  0.1064  0.8562  1.0000\n  P   P7        1.0000  0.3850  0.6053  0.6459  1.0000\n  P   P8        1.0000  0.3887  0.8942  0.3554  1.0000\n  P   P9        1.0000  0.6102  0.1027  0.6440  1.0000\n  P   P10       1.0000  0.6103  0.3939  0.3526  1.0000\n  P   P11       1.0000  0.8920  0.6094  0.8582  1.0000\n  P   P12       1.0000  0.8895  0.8946  0.1448  1.0000\n  O   O2        1.0000  0.0653  0.6545  0.4222  1.0000\n  O   O3        1.0000  0.0658  0.8402  0.5806  1.0000\n  O   O4        1.0000  0.0637  0.9111  0.1437  1.0000\n  O   O5        1.0000  0.0646  0.5906  0.8615  1.0000\n  O   O6        1.0000  0.1283  0.1426  0.5703  1.0000\n  O   O7        1.0000  0.1398  0.3514  0.4340  1.0000\n  O   O8        1.0000  0.1789  0.4464  0.0363  1.0000\n  O   O9        1.0000  0.1769  0.0553  0.9658  1.0000\n  O   O10       1.0000  0.1478  0.2264  0.1637  1.0000\n  O   O11       1.0000  0.1477  0.2746  0.8372  1.0000\n  O   O12       1.0000  0.1734  0.4951  0.2338  1.0000\n  O   O13       1.0000  0.1827  0.0055  0.7690  1.0000\n  O   O14       1.0000  0.3200  0.9969  0.2686  1.0000\n  O   O15       1.0000  0.3115  0.5046  0.7312  1.0000\n  O   O16       1.0000  0.3554  0.7743  0.6645  1.0000\n  O   O17       1.0000  0.3505  0.7266  0.3347  1.0000\n  Fe  Fe7       1.0000  0.3291  0.5601  0.5323  1.0000\n  O   O18       1.0000  0.3231  0.9399  0.4667  1.0000\n  O   O19       1.0000  0.3653  0.8520  0.0682  1.0000\n  O   O20       1.0000  0.3711  0.6448  0.9302  1.0000\n  O   O21       1.0000  0.4362  0.0922  0.6403  1.0000\n  O   O22       1.0000  0.4376  0.4131  0.3473  1.0000\n  O   O23       1.0000  0.4331  0.1563  0.0793  1.0000\n  O   O24       1.0000  0.4356  0.3422  0.9195  1.0000\n  O   O25       1.0000  0.5654  0.6583  0.0817  1.0000\n  O   O26       1.0000  0.5674  0.8432  0.9216  1.0000\n  O   O27       1.0000  0.5610  0.5810  0.6509  1.0000\n  O   O28       1.0000  0.5623  0.9135  0.3579  1.0000\n  O   O29       1.0000  0.6287  0.3550  0.0718  1.0000\n  O   O30       1.0000  0.6353  0.1479  0.9332  1.0000\n  O   O31       1.0000  0.6768  0.0590  0.5333  1.0000\n  O   O32       1.0000  0.6670  0.4372  0.4687  1.0000\n  O   O33       1.0000  0.6496  0.2273  0.3313  1.0000\n  O   O34       1.0000  0.6521  0.2728  0.6659  1.0000\n  O   O35       1.0000  0.6893  0.4987  0.2715  1.0000\n  O   O36       1.0000  0.6768  0.0027  0.7326  1.0000\n  O   O37       1.0000  0.8188  0.9963  0.2318  1.0000\n  O   O38       1.0000  0.8271  0.5079  0.7642  1.0000\n  O   O39       1.0000  0.8530  0.7267  0.1651  1.0000\n  O   O40       1.0000  0.8535  0.7746  0.8334  1.0000\n  O   O41       1.0000  0.8190  0.5561  0.9640  1.0000\n  O   O42       1.0000  0.8250  0.9427  0.0340  1.0000\n  O   O43       1.0000  0.8604  0.6469  0.5649  1.0000\n  O   O44       1.0000  0.8692  0.8575  0.4317  1.0000\n  O   O45       1.0000  0.9366  0.0894  0.8575  1.0000\n  O   O46       1.0000  0.9342  0.4086  0.1385  1.0000\n  O   O47       1.0000  0.9377  0.1559  0.4182  1.0000\n  O   O48       1.0000  0.9310  0.3436  0.5747  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "92ed4009-71b0-4cb4-9d47-810b88c302ab",
    "mp_id": "mp-1101899",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2CO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2854\n_cell_length_b   5.2951\n_cell_length_c   6.2852\n_cell_angle_alpha   94.9300\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.9393\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2CO3\n_chemical_formula_sum   'Na4 C2 O6'\n_cell_volume   151.6785\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  0.0000  0.0000  1\n  Na  Na1  1  0.0000  0.0000  0.5000  1\n  Na  Na2  1  0.6738  0.3476  0.7713  1\n  Na  Na3  1  0.3262  0.6524  0.2287  1\n  C  C4  1  0.6697  0.3393  0.2452  1\n  C  C5  1  0.3303  0.6607  0.7548  1\n  O  O6  1  0.8145  0.2022  0.2604  1\n  O  O7  1  0.3877  0.2022  0.2604  1\n  O  O8  1  0.1855  0.7978  0.7396  1\n  O  O9  1  0.6123  0.7978  0.7396  1\n  O  O10  1  0.8075  0.6150  0.2117  1\n  O  O11  1  0.1925  0.3850  0.7883  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2ONaC2O2NaO3\n_chemical_formula_sum              \"Na4 O6 C2\"\n_cell_length_a       5.2854\n_cell_length_b       5.2951\n_cell_length_c       6.2852\n_cell_angle_alpha    94.9300\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.9393\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Na  Na2       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.6738  0.3476  0.7713  1.0000\n  Na  Na3       1.0000  0.3262  0.6524  0.2287  1.0000\n  C   C1        1.0000  0.6697  0.3393  0.2452  1.0000\n  C   C2        1.0000  0.3303  0.6607  0.7548  1.0000\n  O   O2        1.0000  0.8145  0.2022  0.2604  1.0000\n  O   O3        1.0000  0.3877  0.2022  0.2604  1.0000\n  Na  Na4       1.0000  0.1855  0.7978  0.7396  1.0000\n  O   O4        1.0000  0.6123  0.7978  0.7396  1.0000\n  O   O5        1.0000  0.8075  0.6150  0.2117  1.0000\n  O   O6        1.0000  0.1925  0.3850  0.7883  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7108e03c-025a-42d1-b818-3b0e6918aa71",
    "mp_id": "mp-1102433",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgF2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3976\n_cell_length_b   5.2715\n_cell_length_c   6.7445\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgF2\n_chemical_formula_sum   'Mg4 F8'\n_cell_volume   120.7974\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2500  0.2630  0.0846  1\n  Mg  Mg1  1  0.2500  0.7630  0.4154  1\n  Mg  Mg2  1  0.7500  0.7370  0.9154  1\n  Mg  Mg3  1  0.7500  0.2370  0.5846  1\n  F  F4  1  0.2500  0.8756  0.0999  1\n  F  F5  1  0.2500  0.3756  0.4001  1\n  F  F6  1  0.7500  0.1244  0.9001  1\n  F  F7  1  0.7500  0.6244  0.5999  1\n  F  F8  1  0.2500  0.5142  0.8586  1\n  F  F9  1  0.2500  0.0142  0.6414  1\n  F  F10  1  0.7500  0.4858  0.1414  1\n  F  F11  1  0.7500  0.9858  0.3586  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2FMgFMgF6\n_chemical_formula_sum              \"Mg4 F8\"\n_cell_length_a       3.3976\n_cell_length_b       5.2715\n_cell_length_c       6.7445\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2500  0.2630  0.0846  1.0000\n  Mg  Mg2       1.0000  0.2500  0.7630  0.4154  1.0000\n  F   F1        1.0000  0.7500  0.7370  0.9154  1.0000\n  Mg  Mg3       1.0000  0.7500  0.2370  0.5846  1.0000\n  F   F2        1.0000  0.2500  0.8756  0.0999  1.0000\n  Mg  Mg4       1.0000  0.2500  0.3756  0.4001  1.0000\n  F   F3        1.0000  0.7500  0.1244  0.9001  1.0000\n  F   F4        1.0000  0.7500  0.6244  0.5999  1.0000\n  F   F5        1.0000  0.2500  0.5142  0.8586  1.0000\n  F   F6        1.0000  0.2500  0.0142  0.6414  1.0000\n  F   F7        1.0000  0.7500  0.4858  0.1414  1.0000\n  F   F8        1.0000  0.7500  0.9858  0.3586  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "813359f5-8967-4598-b6cb-c831e2c772e1",
    "mp_id": "mp-1102534",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_POsS\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7771\n_cell_length_b   5.7716\n_cell_length_c   5.8402\n_cell_angle_alpha   69.3683\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   POsS\n_chemical_formula_sum   'P4 Os4 S4'\n_cell_volume   182.2419\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  P  P0  1  0.1229  0.8497  0.8744  1\n  P  P1  1  0.6229  0.1503  0.6256  1\n  P  P2  1  0.8771  0.1503  0.1256  1\n  P  P3  1  0.3771  0.8497  0.3744  1\n  Os  Os4  1  0.4971  0.7271  0.7924  1\n  Os  Os5  1  0.9971  0.2729  0.7076  1\n  Os  Os6  1  0.5029  0.2729  0.2076  1\n  Os  Os7  1  0.0029  0.7271  0.2924  1\n  S  S8  1  0.8779  0.6633  0.6915  1\n  S  S9  1  0.3779  0.3367  0.8085  1\n  S  S10  1  0.1221  0.3367  0.3085  1\n  S  S11  1  0.6221  0.6633  0.1915  1\n",
    "output": "data_image0\n_chemical_formula_structural       SP3Os4SPS2\n_chemical_formula_sum              \"S4 P4 Os4\"\n_cell_length_a       5.7771\n_cell_length_b       5.7716\n_cell_length_c       5.8402\n_cell_angle_alpha    69.3683\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.1229  0.8497  0.8744  1.0000\n  P   P1        1.0000  0.6229  0.1503  0.6256  1.0000\n  P   P2        1.0000  0.8771  0.1503  0.1256  1.0000\n  P   P3        1.0000  0.3771  0.8497  0.3744  1.0000\n  Os  Os1       1.0000  0.4971  0.7271  0.7924  1.0000\n  Os  Os2       1.0000  0.9971  0.2729  0.7076  1.0000\n  Os  Os3       1.0000  0.5029  0.2729  0.2076  1.0000\n  Os  Os4       1.0000  0.0029  0.7271  0.2924  1.0000\n  S   S2        1.0000  0.8779  0.6633  0.6915  1.0000\n  P   P4        1.0000  0.3779  0.3367  0.8085  1.0000\n  S   S3        1.0000  0.1221  0.3367  0.3085  1.0000\n  S   S4        1.0000  0.6221  0.6633  0.1915  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f2d84d40-8dc2-437f-a49e-9839ec992222",
    "mp_id": "mp-1102795",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ErZnPt\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0493\n_cell_length_b   6.8897\n_cell_length_c   8.1249\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ErZnPt\n_chemical_formula_sum   'Er4 Zn4 Pt4'\n_cell_volume   226.6697\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.2500  0.0454  0.3147  1\n  Er  Er1  1  0.2500  0.5454  0.1853  1\n  Er  Er2  1  0.7500  0.9546  0.6853  1\n  Er  Er3  1  0.7500  0.4546  0.8147  1\n  Zn  Zn4  1  0.2500  0.6343  0.5632  1\n  Zn  Zn5  1  0.2500  0.1343  0.9368  1\n  Zn  Zn6  1  0.7500  0.3657  0.4368  1\n  Zn  Zn7  1  0.7500  0.8657  0.0632  1\n  Pt  Pt8  1  0.2500  0.2490  0.6226  1\n  Pt  Pt9  1  0.2500  0.7490  0.8774  1\n  Pt  Pt10  1  0.7500  0.7510  0.3774  1\n  Pt  Pt11  1  0.7500  0.2510  0.1226  1\n",
    "output": "data_image0\n_chemical_formula_structural       Er2PtErZn4PtErPt2\n_chemical_formula_sum              \"Er4 Pt4 Zn4\"\n_cell_length_a       4.0493\n_cell_length_b       6.8897\n_cell_length_c       8.1249\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Er  Er1       1.0000  0.2500  0.0454  0.3147  1.0000\n  Er  Er2       1.0000  0.2500  0.5454  0.1853  1.0000\n  Pt  Pt1       1.0000  0.7500  0.9546  0.6853  1.0000\n  Er  Er3       1.0000  0.7500  0.4546  0.8147  1.0000\n  Zn  Zn1       1.0000  0.2500  0.6343  0.5632  1.0000\n  Zn  Zn2       1.0000  0.2500  0.1343  0.9368  1.0000\n  Zn  Zn3       1.0000  0.7500  0.3657  0.4368  1.0000\n  Zn  Zn4       1.0000  0.7500  0.8657  0.0632  1.0000\n  Pt  Pt2       1.0000  0.2500  0.2490  0.6226  1.0000\n  Er  Er4       1.0000  0.2500  0.7490  0.8774  1.0000\n  Pt  Pt3       1.0000  0.7500  0.7510  0.3774  1.0000\n  Pt  Pt4       1.0000  0.7500  0.2510  0.1226  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a94741b3-261c-4c8e-a93a-145b0339ffb1",
    "mp_id": "mp-1102865",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8BiO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3062\n_cell_length_b   5.3062\n_cell_length_c   5.3062\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8BiO3\n_chemical_formula_sum   'Li8 Bi1 O3'\n_cell_volume   149.3973\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2753  0.2753  0.2753  1\n  Li  Li1  1  0.7247  0.7247  0.2753  1\n  Li  Li2  1  0.7247  0.2753  0.7247  1\n  Li  Li3  1  0.2753  0.7247  0.7247  1\n  Li  Li4  1  0.2753  0.2753  0.7247  1\n  Li  Li5  1  0.7247  0.7247  0.7247  1\n  Li  Li6  1  0.7247  0.2753  0.2753  1\n  Li  Li7  1  0.2753  0.7247  0.2753  1\n  Bi  Bi8  1  0.0000  0.0000  0.0000  1\n  O  O9  1  0.0000  0.5000  0.5000  1\n  O  O10  1  0.5000  0.5000  0.0000  1\n  O  O11  1  0.5000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OLi4BiO2Li\n_chemical_formula_sum              \"Li8 O3 Bi1\"\n_cell_length_a       5.3062\n_cell_length_b       5.3062\n_cell_length_c       5.3062\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2753  0.2753  0.2753  1.0000\n  Li  Li2       1.0000  0.7247  0.7247  0.2753  1.0000\n  Li  Li3       1.0000  0.7247  0.2753  0.7247  1.0000\n  O   O1        1.0000  0.2753  0.7247  0.7247  1.0000\n  Li  Li4       1.0000  0.2753  0.2753  0.7247  1.0000\n  Li  Li5       1.0000  0.7247  0.7247  0.7247  1.0000\n  Li  Li6       1.0000  0.7247  0.2753  0.2753  1.0000\n  Li  Li7       1.0000  0.2753  0.7247  0.2753  1.0000\n  Bi  Bi1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O3        1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li8       1.0000  0.5000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "02f9596b-54ff-4ed2-9abc-ab3ddab76b35",
    "mp_id": "mp-1102948",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GdNi4B\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0055\n_cell_length_b   5.0055\n_cell_length_c   6.9699\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GdNi4B\n_chemical_formula_sum   'Gd2 Ni8 B2'\n_cell_volume   151.2362\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.0000  0.0000  0.0000  1\n  Gd  Gd1  1  0.0000  0.0000  0.5000  1\n  Ni  Ni2  1  0.6667  0.3333  0.0000  1\n  Ni  Ni3  1  0.3333  0.6667  0.0000  1\n  Ni  Ni4  1  0.5000  0.5000  0.7073  1\n  Ni  Ni5  1  0.5000  0.0000  0.7073  1\n  Ni  Ni6  1  0.0000  0.5000  0.7073  1\n  Ni  Ni7  1  0.5000  0.5000  0.2927  1\n  Ni  Ni8  1  0.5000  0.0000  0.2927  1\n  Ni  Ni9  1  0.0000  0.5000  0.2927  1\n  B  B10  1  0.6667  0.3333  0.5000  1\n  B  B11  1  0.3333  0.6667  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd2BNi7BNi\n_chemical_formula_sum              \"Gd2 B2 Ni8\"\n_cell_length_a       5.0055\n_cell_length_b       5.0055\n_cell_length_c       6.9699\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Gd  Gd2       1.0000  0.0000  0.0000  0.5000  1.0000\n  B   B1        1.0000  0.6667  0.3333  0.0000  1.0000\n  Ni  Ni1       1.0000  0.3333  0.6667  0.0000  1.0000\n  Ni  Ni2       1.0000  0.5000  0.5000  0.7073  1.0000\n  Ni  Ni3       1.0000  0.5000  0.0000  0.7073  1.0000\n  Ni  Ni4       1.0000  0.0000  0.5000  0.7073  1.0000\n  Ni  Ni5       1.0000  0.5000  0.5000  0.2927  1.0000\n  Ni  Ni6       1.0000  0.5000  0.0000  0.2927  1.0000\n  Ni  Ni7       1.0000  0.0000  0.5000  0.2927  1.0000\n  B   B2        1.0000  0.6667  0.3333  0.5000  1.0000\n  Ni  Ni8       1.0000  0.3333  0.6667  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ded7d7bb-e7cb-4575-be46-f4d92ea7dc99",
    "mp_id": "mp-1102963",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5050\n_cell_length_b   5.4338\n_cell_length_c   5.4365\n_cell_angle_alpha   67.9857\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VO2\n_chemical_formula_sum   'V4 O8'\n_cell_volume   123.3772\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.5042  0.7452  0.7508  1\n  V  V1  1  0.0042  0.7548  0.2492  1\n  V  V2  1  0.4958  0.2548  0.2492  1\n  V  V3  1  0.9958  0.2452  0.7508  1\n  O  O4  1  0.2983  0.4009  0.8998  1\n  O  O5  1  0.7983  0.0991  0.1002  1\n  O  O6  1  0.7017  0.5991  0.1002  1\n  O  O7  1  0.2017  0.9009  0.8998  1\n  O  O8  1  0.7986  0.6009  0.5992  1\n  O  O9  1  0.2986  0.8991  0.4008  1\n  O  O10  1  0.2014  0.3991  0.4008  1\n  O  O11  1  0.7014  0.1009  0.5992  1\n",
    "output": "data_image0\n_chemical_formula_structural       VOV2O6VO\n_chemical_formula_sum              \"V4 O8\"\n_cell_length_a       4.5050\n_cell_length_b       5.4338\n_cell_length_c       5.4365\n_cell_angle_alpha    67.9857\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.5042  0.7452  0.7508  1.0000\n  O   O1        1.0000  0.0042  0.7548  0.2492  1.0000\n  V   V2        1.0000  0.4958  0.2548  0.2492  1.0000\n  V   V3        1.0000  0.9958  0.2452  0.7508  1.0000\n  O   O2        1.0000  0.2983  0.4009  0.8998  1.0000\n  O   O3        1.0000  0.7983  0.0991  0.1002  1.0000\n  O   O4        1.0000  0.7017  0.5991  0.1002  1.0000\n  O   O5        1.0000  0.2017  0.9009  0.8998  1.0000\n  O   O6        1.0000  0.7986  0.6009  0.5992  1.0000\n  O   O7        1.0000  0.2986  0.8991  0.4008  1.0000\n  V   V4        1.0000  0.2014  0.3991  0.4008  1.0000\n  O   O8        1.0000  0.7014  0.1009  0.5992  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2ddd0ffe-07df-4d45-84c7-056b43ebe43b",
    "mp_id": "mp-1103212",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TaRh2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0140\n_cell_length_b   5.4765\n_cell_length_c   8.2201\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TaRh2\n_chemical_formula_sum   'Ta4 Rh8'\n_cell_volume   180.6999\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.7500  0.1639  0.6027  1\n  Ta  Ta1  1  0.7500  0.6639  0.8973  1\n  Ta  Ta2  1  0.2500  0.8361  0.3973  1\n  Ta  Ta3  1  0.2500  0.3361  0.1027  1\n  Rh  Rh4  1  0.7500  0.1473  0.9262  1\n  Rh  Rh5  1  0.7500  0.6473  0.5738  1\n  Rh  Rh6  1  0.2500  0.8527  0.0739  1\n  Rh  Rh7  1  0.2500  0.3527  0.4261  1\n  Rh  Rh8  1  0.7500  0.0875  0.2682  1\n  Rh  Rh9  1  0.7500  0.5875  0.2318  1\n  Rh  Rh10  1  0.2500  0.9125  0.7318  1\n  Rh  Rh11  1  0.2500  0.4125  0.7682  1\n",
    "output": "data_image0\n_chemical_formula_structural       TaRhTa2Rh3TaRh4\n_chemical_formula_sum              \"Ta4 Rh8\"\n_cell_length_a       4.0140\n_cell_length_b       5.4765\n_cell_length_c       8.2201\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.7500  0.1639  0.6027  1.0000\n  Rh  Rh1       1.0000  0.7500  0.6639  0.8973  1.0000\n  Ta  Ta2       1.0000  0.2500  0.8361  0.3973  1.0000\n  Ta  Ta3       1.0000  0.2500  0.3361  0.1027  1.0000\n  Rh  Rh2       1.0000  0.7500  0.1473  0.9262  1.0000\n  Rh  Rh3       1.0000  0.7500  0.6473  0.5738  1.0000\n  Rh  Rh4       1.0000  0.2500  0.8527  0.0739  1.0000\n  Ta  Ta4       1.0000  0.2500  0.3527  0.4261  1.0000\n  Rh  Rh5       1.0000  0.7500  0.0875  0.2682  1.0000\n  Rh  Rh6       1.0000  0.7500  0.5875  0.2318  1.0000\n  Rh  Rh7       1.0000  0.2500  0.9125  0.7318  1.0000\n  Rh  Rh8       1.0000  0.2500  0.4125  0.7682  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cee2e643-f6f7-4906-bc4a-17cb4a66ed4d",
    "mp_id": "mp-1103303",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2In8Co\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7015\n_cell_length_b   4.7015\n_cell_length_c   12.3850\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2In8Co\n_chemical_formula_sum   'Pr2 In8 Co1'\n_cell_volume   273.7589\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.0000  0.0000  0.6954  1\n  Pr  Pr1  1  0.0000  0.0000  0.3046  1\n  In  In2  1  0.5000  0.0000  0.8836  1\n  In  In3  1  0.0000  0.5000  0.8836  1\n  In  In4  1  0.5000  0.0000  0.1164  1\n  In  In5  1  0.0000  0.5000  0.1164  1\n  In  In6  1  0.5000  0.0000  0.5000  1\n  In  In7  1  0.0000  0.5000  0.5000  1\n  In  In8  1  0.5000  0.5000  0.6975  1\n  In  In9  1  0.5000  0.5000  0.3025  1\n  Co  Co10  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       InPrIn3PrIn4Co\n_chemical_formula_sum              \"In8 Pr2 Co1\"\n_cell_length_a       4.7015\n_cell_length_b       4.7015\n_cell_length_c       12.3850\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.0000  0.0000  0.6954  1.0000\n  Pr  Pr1       1.0000  0.0000  0.0000  0.3046  1.0000\n  In  In2       1.0000  0.5000  0.0000  0.8836  1.0000\n  In  In3       1.0000  0.0000  0.5000  0.8836  1.0000\n  In  In4       1.0000  0.5000  0.0000  0.1164  1.0000\n  Pr  Pr2       1.0000  0.0000  0.5000  0.1164  1.0000\n  In  In5       1.0000  0.5000  0.0000  0.5000  1.0000\n  In  In6       1.0000  0.0000  0.5000  0.5000  1.0000\n  In  In7       1.0000  0.5000  0.5000  0.6975  1.0000\n  In  In8       1.0000  0.5000  0.5000  0.3025  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d8a9d181-ddf0-481e-a296-727e32cb6829",
    "mp_id": "mp-1103651",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NdSbSe\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2164\n_cell_length_b   4.2256\n_cell_length_c   18.3384\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NdSbSe\n_chemical_formula_sum   'Nd4 Sb4 Se4'\n_cell_volume   326.7317\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.7500  0.2344  0.8521  1\n  Nd  Nd1  1  0.7500  0.2656  0.3521  1\n  Nd  Nd2  1  0.2500  0.7656  0.1479  1\n  Nd  Nd3  1  0.2500  0.7344  0.6479  1\n  Sb  Sb4  1  0.2500  0.2338  0.5007  1\n  Sb  Sb5  1  0.2500  0.2662  0.0007  1\n  Sb  Sb6  1  0.7500  0.7662  0.4993  1\n  Sb  Sb7  1  0.7500  0.7338  0.9993  1\n  Se  Se8  1  0.7500  0.2360  0.6866  1\n  Se  Se9  1  0.7500  0.2640  0.1866  1\n  Se  Se10  1  0.2500  0.7640  0.3134  1\n  Se  Se11  1  0.2500  0.7360  0.8134  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd4SbSeSb2Se2SbSe\n_chemical_formula_sum              \"Nd4 Sb4 Se4\"\n_cell_length_a       4.2164\n_cell_length_b       4.2256\n_cell_length_c       18.3384\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.7500  0.2344  0.8521  1.0000\n  Nd  Nd2       1.0000  0.7500  0.2656  0.3521  1.0000\n  Nd  Nd3       1.0000  0.2500  0.7656  0.1479  1.0000\n  Nd  Nd4       1.0000  0.2500  0.7344  0.6479  1.0000\n  Sb  Sb1       1.0000  0.2500  0.2338  0.5007  1.0000\n  Se  Se1       1.0000  0.2500  0.2662  0.0007  1.0000\n  Sb  Sb2       1.0000  0.7500  0.7662  0.4993  1.0000\n  Sb  Sb3       1.0000  0.7500  0.7338  0.9993  1.0000\n  Se  Se2       1.0000  0.7500  0.2360  0.6866  1.0000\n  Se  Se3       1.0000  0.7500  0.2640  0.1866  1.0000\n  Sb  Sb4       1.0000  0.2500  0.7640  0.3134  1.0000\n  Se  Se4       1.0000  0.2500  0.7360  0.8134  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e3559cbf-1b5d-4daf-b0e7-e180bdf39ff3",
    "mp_id": "mp-1104386",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6PClO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8957\n_cell_length_b   5.8957\n_cell_length_c   5.8957\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6PClO5\n_chemical_formula_sum   'Li6 P1 Cl1 O5'\n_cell_volume   144.9078\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9828  0.5172  0.9828  1\n  Li  Li1  1  0.5172  0.9828  0.9828  1\n  Li  Li2  1  0.5172  0.5172  0.9828  1\n  Li  Li3  1  0.5172  0.9828  0.5172  1\n  Li  Li4  1  0.9828  0.9828  0.5172  1\n  Li  Li5  1  0.9828  0.5172  0.5172  1\n  P  P6  1  0.5000  0.5000  0.5000  1\n  Cl  Cl7  1  0.0000  0.0000  0.0000  1\n  O  O8  1  0.8240  0.3920  0.3920  1\n  O  O9  1  0.3920  0.8240  0.3920  1\n  O  O10  1  0.3920  0.3920  0.3920  1\n  O  O11  1  0.3920  0.3920  0.8240  1\n  O  O12  1  0.7500  0.7500  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOLi4PClLiO4\n_chemical_formula_sum              \"Li6 O5 P1 Cl1\"\n_cell_length_a       5.8957\n_cell_length_b       5.8957\n_cell_length_c       5.8957\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9828  0.5172  0.9828  1.0000\n  O   O1        1.0000  0.5172  0.9828  0.9828  1.0000\n  Li  Li2       1.0000  0.5172  0.5172  0.9828  1.0000\n  Li  Li3       1.0000  0.5172  0.9828  0.5172  1.0000\n  Li  Li4       1.0000  0.9828  0.9828  0.5172  1.0000\n  Li  Li5       1.0000  0.9828  0.5172  0.5172  1.0000\n  P   P1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Cl  Cl1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li6       1.0000  0.8240  0.3920  0.3920  1.0000\n  O   O2        1.0000  0.3920  0.8240  0.3920  1.0000\n  O   O3        1.0000  0.3920  0.3920  0.3920  1.0000\n  O   O4        1.0000  0.3920  0.3920  0.8240  1.0000\n  O   O5        1.0000  0.7500  0.7500  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f9ae3890-0478-4bee-bef4-828dc77c184f",
    "mp_id": "mp-1104404",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ni(N4O3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5492\n_cell_length_b   5.5492\n_cell_length_c   5.5492\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ni(N4O3)2\n_chemical_formula_sum   'Ni1 N8 O6'\n_cell_volume   120.8279\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.0000  0.0000  0.0000  1\n  N  N1  1  0.2388  0.7612  0.2388  1\n  N  N2  1  0.7612  0.2388  0.7612  1\n  N  N3  1  0.2388  0.2388  0.7612  1\n  N  N4  1  0.7612  0.7612  0.2388  1\n  N  N5  1  0.7612  0.2388  0.2388  1\n  N  N6  1  0.2388  0.7612  0.7612  1\n  N  N7  1  0.7500  0.7500  0.7500  1\n  N  N8  1  0.2500  0.2500  0.2500  1\n  O  O9  1  0.5000  0.0000  0.0000  1\n  O  O10  1  0.0000  0.5000  0.5000  1\n  O  O11  1  0.0000  0.5000  0.0000  1\n  O  O12  1  0.5000  0.0000  0.5000  1\n  O  O13  1  0.0000  0.0000  0.5000  1\n  O  O14  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NiN6ONONO4\n_chemical_formula_sum              \"Ni1 N8 O6\"\n_cell_length_a       5.5492\n_cell_length_b       5.5492\n_cell_length_c       5.5492\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  N   N1        1.0000  0.2388  0.7612  0.2388  1.0000\n  N   N2        1.0000  0.7612  0.2388  0.7612  1.0000\n  N   N3        1.0000  0.2388  0.2388  0.7612  1.0000\n  N   N4        1.0000  0.7612  0.7612  0.2388  1.0000\n  N   N5        1.0000  0.7612  0.2388  0.2388  1.0000\n  N   N6        1.0000  0.2388  0.7612  0.7612  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  N   N7        1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O2        1.0000  0.5000  0.0000  0.0000  1.0000\n  N   N8        1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O3        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O4        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O6        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d2ba4026-885e-4839-983c-f023d1591903",
    "mp_id": "mp-1104448",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe(BO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4243\n_cell_length_b   9.1384\n_cell_length_c   5.6232\n_cell_angle_alpha   90.0005\n_cell_angle_beta   90.0002\n_cell_angle_gamma   99.4960\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe(BO2)2\n_chemical_formula_sum   'Fe4 B8 O16'\n_cell_volume   224.2386\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.7499  0.0000  0.3488  1\n  Fe  Fe1  1  0.7499  0.5000  0.1512  1\n  Fe  Fe2  1  0.2499  0.5000  0.8488  1\n  Fe  Fe3  1  0.2499  0.0000  0.6512  1\n  B  B4  1  0.3116  0.1864  0.1077  1\n  B  B5  1  0.8117  0.6864  0.6077  1\n  B  B6  1  0.1884  0.8136  0.1078  1\n  B  B7  1  0.6883  0.3136  0.6077  1\n  B  B8  1  0.6884  0.8136  0.8923  1\n  B  B9  1  0.1884  0.3136  0.3923  1\n  B  B10  1  0.8117  0.1864  0.8923  1\n  B  B11  1  0.3117  0.6864  0.3923  1\n  O  O12  1  0.8344  0.3531  0.8477  1\n  O  O13  1  0.3344  0.8532  0.3477  1\n  O  O14  1  0.6656  0.6468  0.8478  1\n  O  O15  1  0.1656  0.1468  0.3477  1\n  O  O16  1  0.1656  0.6468  0.1523  1\n  O  O17  1  0.6656  0.1468  0.6522  1\n  O  O18  1  0.3344  0.3532  0.1523  1\n  O  O19  1  0.8344  0.8532  0.6523  1\n  O  O20  1  0.6055  0.1393  0.0867  1\n  O  O21  1  0.1055  0.6393  0.5867  1\n  O  O22  1  0.8945  0.8608  0.0867  1\n  O  O23  1  0.3945  0.3607  0.5867  1\n  O  O24  1  0.3945  0.8608  0.9133  1\n  O  O25  1  0.8945  0.3608  0.4133  1\n  O  O26  1  0.1055  0.1393  0.9133  1\n  O  O27  1  0.6055  0.6392  0.4133  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe4B6OBO11BO4\n_chemical_formula_sum              \"Fe4 B8 O16\"\n_cell_length_a       4.4243\n_cell_length_b       9.1384\n_cell_length_c       5.6232\n_cell_angle_alpha    90.0005\n_cell_angle_beta     90.0002\n_cell_angle_gamma    99.4960\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.7499  0.0000  0.3488  1.0000\n  Fe  Fe2       1.0000  0.7499  0.5000  0.1512  1.0000\n  Fe  Fe3       1.0000  0.2499  0.5000  0.8488  1.0000\n  Fe  Fe4       1.0000  0.2499  0.0000  0.6512  1.0000\n  B   B1        1.0000  0.3116  0.1864  0.1077  1.0000\n  B   B2        1.0000  0.8117  0.6864  0.6077  1.0000\n  B   B3        1.0000  0.1884  0.8136  0.1078  1.0000\n  B   B4        1.0000  0.6883  0.3136  0.6077  1.0000\n  B   B5        1.0000  0.6884  0.8136  0.8923  1.0000\n  B   B6        1.0000  0.1884  0.3136  0.3923  1.0000\n  O   O1        1.0000  0.8117  0.1864  0.8923  1.0000\n  B   B7        1.0000  0.3117  0.6864  0.3923  1.0000\n  O   O2        1.0000  0.8344  0.3531  0.8477  1.0000\n  O   O3        1.0000  0.3344  0.8532  0.3477  1.0000\n  O   O4        1.0000  0.6656  0.6468  0.8478  1.0000\n  O   O5        1.0000  0.1656  0.1468  0.3477  1.0000\n  O   O6        1.0000  0.1656  0.6468  0.1523  1.0000\n  O   O7        1.0000  0.6656  0.1468  0.6522  1.0000\n  O   O8        1.0000  0.3344  0.3532  0.1523  1.0000\n  O   O9        1.0000  0.8344  0.8532  0.6523  1.0000\n  O   O10       1.0000  0.6055  0.1393  0.0867  1.0000\n  O   O11       1.0000  0.1055  0.6393  0.5867  1.0000\n  O   O12       1.0000  0.8945  0.8608  0.0867  1.0000\n  B   B8        1.0000  0.3945  0.3607  0.5867  1.0000\n  O   O13       1.0000  0.3945  0.8608  0.9133  1.0000\n  O   O14       1.0000  0.8945  0.3608  0.4133  1.0000\n  O   O15       1.0000  0.1055  0.1393  0.9133  1.0000\n  O   O16       1.0000  0.6055  0.6392  0.4133  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ecff21fa-f30d-4391-8038-893de32e666a",
    "mp_id": "mp-1105372",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe5SiB2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5095\n_cell_length_b   5.5095\n_cell_length_c   6.4494\n_cell_angle_alpha   115.2859\n_cell_angle_beta   115.2859\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe5SiB2\n_chemical_formula_sum   'Fe10 Si2 B4'\n_cell_volume   156.0162\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.0327  0.5327  0.7276  1\n  Fe  Fe1  1  0.6949  0.1949  0.7276  1\n  Fe  Fe2  1  0.1949  0.0327  0.7276  1\n  Fe  Fe3  1  0.5327  0.6949  0.7276  1\n  Fe  Fe4  1  0.9673  0.4673  0.2724  1\n  Fe  Fe5  1  0.3051  0.8051  0.2724  1\n  Fe  Fe6  1  0.8051  0.9673  0.2724  1\n  Fe  Fe7  1  0.4673  0.3051  0.2724  1\n  Fe  Fe8  1  0.5000  0.5000  0.0000  1\n  Fe  Fe9  1  0.0000  0.0000  0.0000  1\n  Si  Si10  1  0.2500  0.2500  0.5000  1\n  Si  Si11  1  0.7500  0.7500  0.5000  1\n  B  B12  1  0.3804  0.8804  0.0000  1\n  B  B13  1  0.6196  0.1196  0.0000  1\n  B  B14  1  0.1196  0.3804  0.0000  1\n  B  B15  1  0.8804  0.6196  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiFe10SiB4\n_chemical_formula_sum              \"Si2 Fe10 B4\"\n_cell_length_a       5.5095\n_cell_length_b       5.5095\n_cell_length_c       6.4494\n_cell_angle_alpha    115.2859\n_cell_angle_beta     115.2859\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.0327  0.5327  0.7276  1.0000\n  Fe  Fe1       1.0000  0.6949  0.1949  0.7276  1.0000\n  Fe  Fe2       1.0000  0.1949  0.0327  0.7276  1.0000\n  Fe  Fe3       1.0000  0.5327  0.6949  0.7276  1.0000\n  Fe  Fe4       1.0000  0.9673  0.4673  0.2724  1.0000\n  Fe  Fe5       1.0000  0.3051  0.8051  0.2724  1.0000\n  Fe  Fe6       1.0000  0.8051  0.9673  0.2724  1.0000\n  Fe  Fe7       1.0000  0.4673  0.3051  0.2724  1.0000\n  Fe  Fe8       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe9       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe10      1.0000  0.2500  0.2500  0.5000  1.0000\n  Si  Si2       1.0000  0.7500  0.7500  0.5000  1.0000\n  B   B1        1.0000  0.3804  0.8804  0.0000  1.0000\n  B   B2        1.0000  0.6196  0.1196  0.0000  1.0000\n  B   B3        1.0000  0.1196  0.3804  0.0000  1.0000\n  B   B4        1.0000  0.8804  0.6196  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aea7a439-2afe-4503-aa7c-ad9edf681693",
    "mp_id": "mp-1105581",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrI2O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8936\n_cell_length_b   8.9482\n_cell_length_c   12.9967\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrI2O\n_chemical_formula_sum   'Sr4 I8 O4'\n_cell_volume   569.1131\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.3856  0.7029  1\n  Sr  Sr1  1  0.2500  0.1144  0.2029  1\n  Sr  Sr2  1  0.7500  0.6144  0.2971  1\n  Sr  Sr3  1  0.7500  0.8856  0.7971  1\n  I  I4  1  0.7500  0.6195  0.6087  1\n  I  I5  1  0.7500  0.8805  0.1087  1\n  I  I6  1  0.2500  0.3805  0.3913  1\n  I  I7  1  0.2500  0.1195  0.8913  1\n  I  I8  1  0.7500  0.1450  0.6022  1\n  I  I9  1  0.7500  0.3550  0.1022  1\n  I  I10  1  0.2500  0.8550  0.3978  1\n  I  I11  1  0.2500  0.6450  0.8978  1\n  O  O12  1  0.7500  0.3754  0.7339  1\n  O  O13  1  0.7500  0.1246  0.2339  1\n  O  O14  1  0.2500  0.6246  0.2661  1\n  O  O15  1  0.2500  0.8754  0.7661  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr4I6OIO3I\n_chemical_formula_sum              \"Sr4 I8 O4\"\n_cell_length_a       4.8936\n_cell_length_b       8.9482\n_cell_length_c       12.9967\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.3856  0.7029  1.0000\n  Sr  Sr2       1.0000  0.2500  0.1144  0.2029  1.0000\n  Sr  Sr3       1.0000  0.7500  0.6144  0.2971  1.0000\n  Sr  Sr4       1.0000  0.7500  0.8856  0.7971  1.0000\n  I   I1        1.0000  0.7500  0.6195  0.6087  1.0000\n  I   I2        1.0000  0.7500  0.8805  0.1087  1.0000\n  I   I3        1.0000  0.2500  0.3805  0.3913  1.0000\n  I   I4        1.0000  0.2500  0.1195  0.8913  1.0000\n  I   I5        1.0000  0.7500  0.1450  0.6022  1.0000\n  I   I6        1.0000  0.7500  0.3550  0.1022  1.0000\n  O   O1        1.0000  0.2500  0.8550  0.3978  1.0000\n  I   I7        1.0000  0.2500  0.6450  0.8978  1.0000\n  O   O2        1.0000  0.7500  0.3754  0.7339  1.0000\n  O   O3        1.0000  0.7500  0.1246  0.2339  1.0000\n  O   O4        1.0000  0.2500  0.6246  0.2661  1.0000\n  I   I8        1.0000  0.2500  0.8754  0.7661  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ba49ef9e-30d7-46a4-9cf1-8a8e3faf73a5",
    "mp_id": "mp-1105587",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ce3Bi4Au3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9545\n_cell_length_b   8.9545\n_cell_length_c   8.9545\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ce3Bi4Au3\n_chemical_formula_sum   'Ce6 Bi8 Au6'\n_cell_volume   552.7180\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.8750  0.2500  0.1250  1\n  Ce  Ce1  1  0.6250  0.7500  0.3750  1\n  Ce  Ce2  1  0.2500  0.1250  0.8750  1\n  Ce  Ce3  1  0.7500  0.3750  0.6250  1\n  Ce  Ce4  1  0.1250  0.8750  0.2500  1\n  Ce  Ce5  1  0.3750  0.6250  0.7500  1\n  Bi  Bi6  1  0.6805  0.5000  0.0000  1\n  Bi  Bi7  1  0.5000  0.0000  0.6805  1\n  Bi  Bi8  1  0.0000  0.6805  0.5000  1\n  Bi  Bi9  1  0.8195  0.8195  0.8195  1\n  Bi  Bi10  1  0.5000  0.0000  0.1805  1\n  Bi  Bi11  1  0.1805  0.5000  0.0000  1\n  Bi  Bi12  1  0.0000  0.1805  0.5000  1\n  Bi  Bi13  1  0.3195  0.3195  0.3195  1\n  Au  Au14  1  0.3750  0.2500  0.6250  1\n  Au  Au15  1  0.1250  0.7500  0.8750  1\n  Au  Au16  1  0.2500  0.6250  0.3750  1\n  Au  Au17  1  0.7500  0.8750  0.1250  1\n  Au  Au18  1  0.6250  0.3750  0.2500  1\n  Au  Au19  1  0.8750  0.1250  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce4AuCeBi8Au2CeAu3\n_chemical_formula_sum              \"Ce6 Au6 Bi8\"\n_cell_length_a       8.9545\n_cell_length_b       8.9545\n_cell_length_c       8.9545\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.8750  0.2500  0.1250  1.0000\n  Ce  Ce2       1.0000  0.6250  0.7500  0.3750  1.0000\n  Ce  Ce3       1.0000  0.2500  0.1250  0.8750  1.0000\n  Ce  Ce4       1.0000  0.7500  0.3750  0.6250  1.0000\n  Au  Au1       1.0000  0.1250  0.8750  0.2500  1.0000\n  Ce  Ce5       1.0000  0.3750  0.6250  0.7500  1.0000\n  Bi  Bi1       1.0000  0.6805  0.5000  0.0000  1.0000\n  Bi  Bi2       1.0000  0.5000  0.0000  0.6805  1.0000\n  Bi  Bi3       1.0000  0.0000  0.6805  0.5000  1.0000\n  Bi  Bi4       1.0000  0.8195  0.8195  0.8195  1.0000\n  Bi  Bi5       1.0000  0.5000  0.0000  0.1805  1.0000\n  Bi  Bi6       1.0000  0.1805  0.5000  0.0000  1.0000\n  Bi  Bi7       1.0000  0.0000  0.1805  0.5000  1.0000\n  Bi  Bi8       1.0000  0.3195  0.3195  0.3195  1.0000\n  Au  Au2       1.0000  0.3750  0.2500  0.6250  1.0000\n  Au  Au3       1.0000  0.1250  0.7500  0.8750  1.0000\n  Ce  Ce6       1.0000  0.2500  0.6250  0.3750  1.0000\n  Au  Au4       1.0000  0.7500  0.8750  0.1250  1.0000\n  Au  Au5       1.0000  0.6250  0.3750  0.2500  1.0000\n  Au  Au6       1.0000  0.8750  0.1250  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "78c698ef-1894-4163-a78a-b4dbc217e8ed",
    "mp_id": "mp-1105631",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_As2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9151\n_cell_length_b   6.5154\n_cell_length_c   8.4591\n_cell_angle_alpha   90.0000\n_cell_angle_beta   94.3736\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   As2O3\n_chemical_formula_sum   'As8 O12'\n_cell_volume   544.8648\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  As  As0  1  0.8908  0.7273  0.8283  1\n  As  As1  1  0.1092  0.2273  0.6717  1\n  As  As2  1  0.1092  0.2727  0.1717  1\n  As  As3  1  0.8908  0.7727  0.3283  1\n  As  As4  1  0.6982  0.7356  0.1125  1\n  As  As5  1  0.3018  0.2356  0.3875  1\n  As  As6  1  0.3018  0.2644  0.8875  1\n  As  As7  1  0.6982  0.7644  0.6125  1\n  O  O8  1  0.6813  0.9849  0.7500  1\n  O  O9  1  0.3187  0.4849  0.7500  1\n  O  O10  1  0.3187  0.0151  0.2500  1\n  O  O11  1  0.6813  0.5151  0.2500  1\n  O  O12  1  0.8397  0.6158  0.0106  1\n  O  O13  1  0.1603  0.1158  0.4894  1\n  O  O14  1  0.1603  0.3842  0.9894  1\n  O  O15  1  0.8397  0.8842  0.5106  1\n  O  O16  1  0.8045  0.5152  0.3596  1\n  O  O17  1  0.1955  0.0152  0.1404  1\n  O  O18  1  0.1955  0.4848  0.6404  1\n  O  O19  1  0.8045  0.9848  0.8596  1\n",
    "output": "data_image0\n_chemical_formula_structural       As5OAs2O9AsO2\n_chemical_formula_sum              \"As8 O12\"\n_cell_length_a       9.9151\n_cell_length_b       6.5154\n_cell_length_c       8.4591\n_cell_angle_alpha    90.0000\n_cell_angle_beta     94.3736\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.8908  0.7273  0.8283  1.0000\n  As  As2       1.0000  0.1092  0.2273  0.6717  1.0000\n  As  As3       1.0000  0.1092  0.2727  0.1717  1.0000\n  As  As4       1.0000  0.8908  0.7727  0.3283  1.0000\n  As  As5       1.0000  0.6982  0.7356  0.1125  1.0000\n  O   O1        1.0000  0.3018  0.2356  0.3875  1.0000\n  As  As6       1.0000  0.3018  0.2644  0.8875  1.0000\n  As  As7       1.0000  0.6982  0.7644  0.6125  1.0000\n  O   O2        1.0000  0.6813  0.9849  0.7500  1.0000\n  O   O3        1.0000  0.3187  0.4849  0.7500  1.0000\n  O   O4        1.0000  0.3187  0.0151  0.2500  1.0000\n  O   O5        1.0000  0.6813  0.5151  0.2500  1.0000\n  O   O6        1.0000  0.8397  0.6158  0.0106  1.0000\n  O   O7        1.0000  0.1603  0.1158  0.4894  1.0000\n  O   O8        1.0000  0.1603  0.3842  0.9894  1.0000\n  O   O9        1.0000  0.8397  0.8842  0.5106  1.0000\n  O   O10       1.0000  0.8045  0.5152  0.3596  1.0000\n  As  As8       1.0000  0.1955  0.0152  0.1404  1.0000\n  O   O11       1.0000  0.1955  0.4848  0.6404  1.0000\n  O   O12       1.0000  0.8045  0.9848  0.8596  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0e64a0b5-2e6c-4fa8-87c2-1ea3929f3a32",
    "mp_id": "mp-1105736",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BeSO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2900\n_cell_length_b   7.2900\n_cell_length_c   7.2900\n_cell_angle_alpha   101.8497\n_cell_angle_beta   101.8497\n_cell_angle_gamma   126.1079\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BeSO8\n_chemical_formula_sum   'Be2 S2 O16'\n_cell_volume   279.0215\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Be  Be0  1  0.0000  0.5000  0.5000  1\n  Be  Be1  1  0.5000  0.0000  0.5000  1\n  S  S2  1  0.0000  0.0000  0.0000  1\n  S  S3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.1279  0.1066  0.2345  1\n  O  O5  1  0.8721  0.8933  0.7655  1\n  O  O6  1  0.3721  0.6067  0.9788  1\n  O  O7  1  0.6279  0.3933  0.0212  1\n  O  O8  1  0.1066  0.8721  0.9788  1\n  O  O9  1  0.8933  0.1279  0.0212  1\n  O  O10  1  0.6067  0.6279  0.2345  1\n  O  O11  1  0.3933  0.3721  0.7655  1\n  O  O12  1  0.8919  0.2175  0.5000  1\n  O  O13  1  0.7175  0.3919  0.5000  1\n  O  O14  1  0.2175  0.7175  0.3257  1\n  O  O15  1  0.3919  0.8919  0.6743  1\n  O  O16  1  0.1081  0.7825  0.5000  1\n  O  O17  1  0.2825  0.6081  0.5000  1\n  O  O18  1  0.7825  0.2825  0.6743  1\n  O  O19  1  0.6081  0.1081  0.3257  1\n",
    "output": "data_image0\n_chemical_formula_structural       Be2OSO8SO7\n_chemical_formula_sum              \"Be2 O16 S2\"\n_cell_length_a       7.2900\n_cell_length_b       7.2900\n_cell_length_c       7.2900\n_cell_angle_alpha    101.8497\n_cell_angle_beta     101.8497\n_cell_angle_gamma    126.1079\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Be  Be1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Be  Be2       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  S   S1        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.1279  0.1066  0.2345  1.0000\n  O   O3        1.0000  0.8721  0.8933  0.7655  1.0000\n  O   O4        1.0000  0.3721  0.6067  0.9788  1.0000\n  O   O5        1.0000  0.6279  0.3933  0.0212  1.0000\n  O   O6        1.0000  0.1066  0.8721  0.9788  1.0000\n  O   O7        1.0000  0.8934  0.1279  0.0212  1.0000\n  O   O8        1.0000  0.6067  0.6279  0.2345  1.0000\n  O   O9        1.0000  0.3934  0.3721  0.7655  1.0000\n  S   S2        1.0000  0.8919  0.2175  0.5000  1.0000\n  O   O10       1.0000  0.7175  0.3919  0.5000  1.0000\n  O   O11       1.0000  0.2175  0.7175  0.3257  1.0000\n  O   O12       1.0000  0.3919  0.8919  0.6743  1.0000\n  O   O13       1.0000  0.1081  0.7825  0.5000  1.0000\n  O   O14       1.0000  0.2825  0.6081  0.5000  1.0000\n  O   O15       1.0000  0.7825  0.2825  0.6743  1.0000\n  O   O16       1.0000  0.6081  0.1081  0.3257  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "97f869b9-788c-4306-9e5a-6b6117857cbf",
    "mp_id": "mp-1105952",
    "action_prompt": "Swap the spatial positions of atoms at indices 29 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaFeSO4F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7760\n_cell_length_b   8.7905\n_cell_length_c   7.3515\n_cell_angle_alpha   90.0000\n_cell_angle_beta   113.6023\n_cell_angle_gamma   89.9999\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaFeSO4F\n_chemical_formula_sum   'Na4 Fe4 S4 O16 F4'\n_cell_volume   401.2582\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.8382  0.7500  1\n  Na  Na1  1  1.0000  0.3382  0.7500  1\n  Na  Na2  1  0.5000  0.1618  0.2500  1\n  Na  Na3  1  0.0000  0.6618  0.2500  1\n  Fe  Fe4  1  0.4999  0.5001  0.9998  1\n  Fe  Fe5  1  1.0000  0.9999  0.4999  1\n  Fe  Fe6  1  0.0000  1.0000  0.9998  1\n  Fe  Fe7  1  0.5001  0.5001  0.5002  1\n  S  S8  1  0.5000  0.1809  0.7500  1\n  S  S9  1  1.0000  0.6809  0.7500  1\n  S  S10  1  0.5000  0.8191  0.2500  1\n  S  S11  1  1.0000  0.3191  0.2500  1\n  O  O12  1  0.3935  0.2786  0.8514  1\n  O  O13  1  0.8935  0.7786  0.8514  1\n  O  O14  1  0.6065  0.2786  0.6486  1\n  O  O15  1  0.1065  0.7786  0.6486  1\n  O  O16  1  0.6065  0.7214  0.1486  1\n  O  O17  1  0.1065  0.2214  0.1486  1\n  O  O18  1  0.3935  0.7214  0.3514  1\n  O  O19  1  0.8935  0.2214  0.3514  1\n  O  O20  1  0.6622  0.0802  0.8992  1\n  O  O21  1  0.1622  0.5802  0.8991  1\n  O  O22  1  0.3378  0.0802  0.6009  1\n  O  O23  1  0.8378  0.5802  0.6009  1\n  O  O24  1  0.3378  0.9198  0.1009  1\n  O  O25  1  0.8378  0.4198  0.1009  1\n  O  O26  1  0.6622  0.9198  0.3992  1\n  O  O27  1  0.1622  0.4198  0.3992  1\n  F  F28  1  0.5000  0.5864  0.7500  1\n  F  F29  1  1.0000  0.0864  0.7500  1\n  F  F30  1  0.5000  0.4136  0.2500  1\n  F  F31  1  0.0000  0.9136  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Fe4S2FSO16FSF2\n_chemical_formula_sum              \"Na4 Fe4 S4 F4 O16\"\n_cell_length_a       6.7760\n_cell_length_b       8.7905\n_cell_length_c       7.3515\n_cell_angle_alpha    90.0000\n_cell_angle_beta     113.6023\n_cell_angle_gamma    89.9999\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5000  0.8382  0.7500  1.0000\n  Na  Na2       1.0000  1.0000  0.3382  0.7500  1.0000\n  Na  Na3       1.0000  0.5000  0.1618  0.2500  1.0000\n  Na  Na4       1.0000  0.0000  0.6618  0.2500  1.0000\n  Fe  Fe1       1.0000  0.4999  0.5001  0.9998  1.0000\n  Fe  Fe2       1.0000  1.0000  0.9999  0.4999  1.0000\n  Fe  Fe3       1.0000  0.0000  1.0000  0.9998  1.0000\n  Fe  Fe4       1.0000  0.5001  0.5001  0.5002  1.0000\n  S   S1        1.0000  0.5000  0.1809  0.7500  1.0000\n  S   S2        1.0000  1.0000  0.6809  0.7500  1.0000\n  F   F1        1.0000  0.5000  0.8191  0.2500  1.0000\n  S   S3        1.0000  1.0000  0.3191  0.2500  1.0000\n  O   O1        1.0000  0.3935  0.2786  0.8514  1.0000\n  O   O2        1.0000  0.8935  0.7786  0.8514  1.0000\n  O   O3        1.0000  0.6065  0.2786  0.6486  1.0000\n  O   O4        1.0000  0.1065  0.7786  0.6486  1.0000\n  O   O5        1.0000  0.6065  0.7214  0.1486  1.0000\n  O   O6        1.0000  0.1065  0.2214  0.1486  1.0000\n  O   O7        1.0000  0.3935  0.7214  0.3514  1.0000\n  O   O8        1.0000  0.8935  0.2214  0.3514  1.0000\n  O   O9        1.0000  0.6622  0.0802  0.8992  1.0000\n  O   O10       1.0000  0.1622  0.5802  0.8991  1.0000\n  O   O11       1.0000  0.3378  0.0802  0.6009  1.0000\n  O   O12       1.0000  0.8378  0.5802  0.6009  1.0000\n  O   O13       1.0000  0.3378  0.9198  0.1009  1.0000\n  O   O14       1.0000  0.8378  0.4198  0.1009  1.0000\n  O   O15       1.0000  0.6622  0.9198  0.3992  1.0000\n  O   O16       1.0000  0.1622  0.4198  0.3992  1.0000\n  F   F2        1.0000  0.5000  0.5864  0.7500  1.0000\n  S   S4        1.0000  1.0000  0.0864  0.7500  1.0000\n  F   F3        1.0000  0.5000  0.4136  0.2500  1.0000\n  F   F4        1.0000  0.0000  0.9136  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "09f41444-ce1c-4632-9ae4-609acfa5fd0d",
    "mp_id": "mp-1105985",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi14Mo5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.8987\n_cell_length_b   14.8987\n_cell_length_c   7.3546\n_cell_angle_alpha   78.7146\n_cell_angle_beta   78.7146\n_cell_angle_gamma   19.1055\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi14Mo5\n_chemical_formula_sum   'Bi14 Mo5'\n_cell_volume   523.7085\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.5186  0.5186  0.7638  1\n  Bi  Bi1  1  0.4814  0.4814  0.2362  1\n  Bi  Bi2  1  0.2581  0.2581  0.8377  1\n  Bi  Bi3  1  0.7419  0.7419  0.1623  1\n  Bi  Bi4  1  0.6738  0.6738  0.8434  1\n  Bi  Bi5  1  0.3262  0.3262  0.1566  1\n  Bi  Bi6  1  0.0978  0.0978  0.8124  1\n  Bi  Bi7  1  0.9022  0.9022  0.1876  1\n  Bi  Bi8  1  0.9418  0.9418  0.7203  1\n  Bi  Bi9  1  0.0582  0.0582  0.2797  1\n  Bi  Bi10  1  0.3735  0.3735  0.6541  1\n  Bi  Bi11  1  0.6265  0.6265  0.3459  1\n  Bi  Bi12  1  0.8047  0.8047  0.5666  1\n  Bi  Bi13  1  0.1953  0.1953  0.4334  1\n  Mo  Mo14  1  0.0000  0.0000  0.0000  1\n  Mo  Mo15  1  0.4198  0.4198  0.9615  1\n  Mo  Mo16  1  0.5802  0.5802  0.0385  1\n  Mo  Mo17  1  0.8375  0.8375  0.9064  1\n  Mo  Mo18  1  0.1625  0.1625  0.0936  1\n",
    "output": "data_image0\n_chemical_formula_structural       Bi5MoBi8MoBiMo3\n_chemical_formula_sum              \"Bi14 Mo5\"\n_cell_length_a       14.8987\n_cell_length_b       14.8987\n_cell_length_c       7.3546\n_cell_angle_alpha    78.7146\n_cell_angle_beta     78.7146\n_cell_angle_gamma    19.1055\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.5186  0.5186  0.7638  1.0000\n  Bi  Bi2       1.0000  0.4814  0.4814  0.2362  1.0000\n  Bi  Bi3       1.0000  0.2581  0.2581  0.8377  1.0000\n  Bi  Bi4       1.0000  0.7419  0.7419  0.1623  1.0000\n  Bi  Bi5       1.0000  0.6738  0.6738  0.8434  1.0000\n  Mo  Mo1       1.0000  0.3262  0.3262  0.1566  1.0000\n  Bi  Bi6       1.0000  0.0978  0.0978  0.8124  1.0000\n  Bi  Bi7       1.0000  0.9022  0.9022  0.1876  1.0000\n  Bi  Bi8       1.0000  0.9418  0.9418  0.7203  1.0000\n  Bi  Bi9       1.0000  0.0582  0.0582  0.2797  1.0000\n  Bi  Bi10      1.0000  0.3735  0.3735  0.6541  1.0000\n  Bi  Bi11      1.0000  0.6265  0.6265  0.3459  1.0000\n  Bi  Bi12      1.0000  0.8047  0.8048  0.5666  1.0000\n  Bi  Bi13      1.0000  0.1953  0.1953  0.4334  1.0000\n  Mo  Mo2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Bi  Bi14      1.0000  0.4198  0.4198  0.9615  1.0000\n  Mo  Mo3       1.0000  0.5802  0.5802  0.0385  1.0000\n  Mo  Mo4       1.0000  0.8375  0.8375  0.9064  1.0000\n  Mo  Mo5       1.0000  0.1625  0.1625  0.0936  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2fd1b78f-6ae9-4ee0-be2f-994a8d132528",
    "mp_id": "mp-1106159",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2Si5Pt3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3044\n_cell_length_b   8.3044\n_cell_length_c   8.3044\n_cell_angle_alpha   136.6090\n_cell_angle_beta   105.4934\n_cell_angle_gamma   90.3546\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2Si5Pt3\n_chemical_formula_sum   'Pr4 Si10 Pt6'\n_cell_volume   361.3567\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.8612  0.6277  0.2335  1\n  Pr  Pr1  1  0.1388  0.3723  0.7665  1\n  Pr  Pr2  1  0.3943  0.1277  0.2665  1\n  Pr  Pr3  1  0.6057  0.8723  0.7335  1\n  Si  Si4  1  0.5000  0.7500  0.2500  1\n  Si  Si5  1  0.5000  0.2500  0.7500  1\n  Si  Si6  1  0.2291  0.9791  0.7500  1\n  Si  Si7  1  0.7709  0.5209  0.7500  1\n  Si  Si8  1  0.7709  0.0209  0.2500  1\n  Si  Si9  1  0.2291  0.4791  0.2500  1\n  Si  Si10  1  0.0348  0.8855  0.1492  1\n  Si  Si11  1  0.9652  0.1145  0.8508  1\n  Si  Si12  1  0.7363  0.3855  0.3508  1\n  Si  Si13  1  0.2637  0.6145  0.6492  1\n  Pt  Pt14  1  0.0000  0.7500  0.7500  1\n  Pt  Pt15  1  0.0000  0.2500  0.2500  1\n  Pt  Pt16  1  0.2540  0.8636  0.3904  1\n  Pt  Pt17  1  0.7460  0.1364  0.6096  1\n  Pt  Pt18  1  0.4731  0.3636  0.1096  1\n  Pt  Pt19  1  0.5269  0.6364  0.8904  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiPr4Si9Pt6\n_chemical_formula_sum              \"Si10 Pr4 Pt6\"\n_cell_length_a       8.3044\n_cell_length_b       8.3044\n_cell_length_c       8.3044\n_cell_angle_alpha    136.6090\n_cell_angle_beta     105.4934\n_cell_angle_gamma    90.3546\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.8612  0.6277  0.2335  1.0000\n  Pr  Pr1       1.0000  0.1388  0.3723  0.7665  1.0000\n  Pr  Pr2       1.0000  0.3943  0.1277  0.2665  1.0000\n  Pr  Pr3       1.0000  0.6057  0.8723  0.7335  1.0000\n  Pr  Pr4       1.0000  0.5000  0.7500  0.2500  1.0000\n  Si  Si2       1.0000  0.5000  0.2500  0.7500  1.0000\n  Si  Si3       1.0000  0.2291  0.9791  0.7500  1.0000\n  Si  Si4       1.0000  0.7709  0.5209  0.7500  1.0000\n  Si  Si5       1.0000  0.7709  0.0209  0.2500  1.0000\n  Si  Si6       1.0000  0.2291  0.4791  0.2500  1.0000\n  Si  Si7       1.0000  0.0348  0.8855  0.1492  1.0000\n  Si  Si8       1.0000  0.9652  0.1145  0.8508  1.0000\n  Si  Si9       1.0000  0.7363  0.3855  0.3508  1.0000\n  Si  Si10      1.0000  0.2637  0.6145  0.6492  1.0000\n  Pt  Pt1       1.0000  0.0000  0.7500  0.7500  1.0000\n  Pt  Pt2       1.0000  0.0000  0.2500  0.2500  1.0000\n  Pt  Pt3       1.0000  0.2540  0.8636  0.3904  1.0000\n  Pt  Pt4       1.0000  0.7460  0.1364  0.6096  1.0000\n  Pt  Pt5       1.0000  0.4731  0.3636  0.1096  1.0000\n  Pt  Pt6       1.0000  0.5269  0.6364  0.8904  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0a350cea-3d4e-4ddf-9082-8daf6cc8beda",
    "mp_id": "mp-1110626",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbNa2CoF6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2477\n_cell_length_b   6.2477\n_cell_length_c   6.2477\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbNa2CoF6\n_chemical_formula_sum   'Rb1 Na2 Co1 F6'\n_cell_volume   172.4407\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5000  0.5000  0.5000  1\n  Na  Na1  1  0.2500  0.2500  0.2500  1\n  Na  Na2  1  0.7500  0.7500  0.7500  1\n  Co  Co3  1  0.0000  0.0000  0.0000  1\n  F  F4  1  0.2105  0.7895  0.2105  1\n  F  F5  1  0.7895  0.7895  0.2105  1\n  F  F6  1  0.7895  0.2105  0.7895  1\n  F  F7  1  0.7895  0.2105  0.2105  1\n  F  F8  1  0.2105  0.7895  0.7895  1\n  F  F9  1  0.2105  0.2105  0.7895  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbNaFCoF2NaF3\n_chemical_formula_sum              \"Rb1 Na2 F6 Co1\"\n_cell_length_a       6.2477\n_cell_length_b       6.2477\n_cell_length_c       6.2477\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Na  Na1       1.0000  0.2500  0.2500  0.2500  1.0000\n  F   F1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  F   F2        1.0000  0.2105  0.7895  0.2105  1.0000\n  F   F3        1.0000  0.7895  0.7895  0.2105  1.0000\n  Na  Na2       1.0000  0.7895  0.2105  0.7895  1.0000\n  F   F4        1.0000  0.7895  0.2105  0.2105  1.0000\n  F   F5        1.0000  0.2105  0.7895  0.7895  1.0000\n  F   F6        1.0000  0.2105  0.2105  0.7895  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7de974ee-c06c-47f4-9788-0fc3564e2ee4",
    "mp_id": "mp-1110754",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2RbSbBr6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5541\n_cell_length_b   8.5541\n_cell_length_c   8.5541\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2RbSbBr6\n_chemical_formula_sum   'K2 Rb1 Sb1 Br6'\n_cell_volume   442.6002\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  K  K1  1  0.2500  0.2500  0.2500  1\n  Rb  Rb2  1  0.5000  0.5000  0.5000  1\n  Sb  Sb3  1  0.0000  0.0000  0.0000  1\n  Br  Br4  1  0.7678  0.2322  0.2322  1\n  Br  Br5  1  0.2322  0.2322  0.7678  1\n  Br  Br6  1  0.2322  0.7678  0.7678  1\n  Br  Br7  1  0.2322  0.7678  0.2322  1\n  Br  Br8  1  0.7678  0.2322  0.7678  1\n  Br  Br9  1  0.7678  0.7678  0.2322  1\n",
    "output": "data_image0\n_chemical_formula_structural       BrKRbSbKBr5\n_chemical_formula_sum              \"Br6 K2 Rb1 Sb1\"\n_cell_length_a       8.5541\n_cell_length_b       8.5541\n_cell_length_c       8.5541\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Br  Br1       1.0000  0.7500  0.7500  0.7500  1.0000\n  K   K1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Rb  Rb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Sb  Sb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  K   K2        1.0000  0.7678  0.2322  0.2322  1.0000\n  Br  Br2       1.0000  0.2322  0.2322  0.7678  1.0000\n  Br  Br3       1.0000  0.2322  0.7678  0.7678  1.0000\n  Br  Br4       1.0000  0.2322  0.7678  0.2322  1.0000\n  Br  Br5       1.0000  0.7678  0.2322  0.7678  1.0000\n  Br  Br6       1.0000  0.7678  0.7678  0.2322  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cb3f40bd-09ef-4dea-9549-17fc3c1f7118",
    "mp_id": "mp-1111211",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2RbInBr6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3862\n_cell_length_b   8.3862\n_cell_length_c   8.3862\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2RbInBr6\n_chemical_formula_sum   'K2 Rb1 In1 Br6'\n_cell_volume   417.0407\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  K  K1  1  0.2500  0.2500  0.2500  1\n  Rb  Rb2  1  0.5000  0.5000  0.5000  1\n  In  In3  1  0.0000  0.0000  0.0000  1\n  Br  Br4  1  0.7723  0.2277  0.2277  1\n  Br  Br5  1  0.2277  0.2277  0.7723  1\n  Br  Br6  1  0.2277  0.7723  0.7723  1\n  Br  Br7  1  0.2277  0.7723  0.2277  1\n  Br  Br8  1  0.7723  0.2277  0.7723  1\n  Br  Br9  1  0.7723  0.7723  0.2277  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2RbBr6In\n_chemical_formula_sum              \"K2 Rb1 Br6 In1\"\n_cell_length_a       8.3862\n_cell_length_b       8.3862\n_cell_length_c       8.3862\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.7500  0.7500  0.7500  1.0000\n  K   K2        1.0000  0.2500  0.2500  0.2500  1.0000\n  Rb  Rb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Br  Br1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Br  Br2       1.0000  0.7723  0.2277  0.2277  1.0000\n  Br  Br3       1.0000  0.2277  0.2277  0.7723  1.0000\n  Br  Br4       1.0000  0.2277  0.7723  0.7723  1.0000\n  Br  Br5       1.0000  0.2277  0.7723  0.2277  1.0000\n  Br  Br6       1.0000  0.7723  0.2277  0.7723  1.0000\n  In  In1       1.0000  0.7723  0.7723  0.2277  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "db85a15b-33a3-49fd-ac1b-fcab1e53d2a9",
    "mp_id": "mp-1111610",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2RbAlI6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8033\n_cell_length_b   8.8033\n_cell_length_c   8.8033\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2RbAlI6\n_chemical_formula_sum   'K2 Rb1 Al1 I6'\n_cell_volume   482.4111\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  K  K1  1  0.2500  0.2500  0.2500  1\n  Rb  Rb2  1  0.5000  0.5000  0.5000  1\n  Al  Al3  1  0.0000  0.0000  0.0000  1\n  I  I4  1  0.7774  0.2226  0.2226  1\n  I  I5  1  0.2226  0.2226  0.7774  1\n  I  I6  1  0.2226  0.7774  0.7774  1\n  I  I7  1  0.2226  0.7774  0.2226  1\n  I  I8  1  0.7774  0.2226  0.7774  1\n  I  I9  1  0.7774  0.7774  0.2226  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2RbI5AlI\n_chemical_formula_sum              \"K2 Rb1 I6 Al1\"\n_cell_length_a       8.8033\n_cell_length_b       8.8033\n_cell_length_c       8.8033\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.7500  0.7500  0.7500  1.0000\n  K   K2        1.0000  0.2500  0.2500  0.2500  1.0000\n  Rb  Rb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  I   I1        1.0000  0.0000  0.0000  0.0000  1.0000\n  I   I2        1.0000  0.7774  0.2226  0.2226  1.0000\n  I   I3        1.0000  0.2226  0.2226  0.7774  1.0000\n  I   I4        1.0000  0.2226  0.7774  0.7774  1.0000\n  I   I5        1.0000  0.2226  0.7774  0.2226  1.0000\n  Al  Al1       1.0000  0.7774  0.2226  0.7774  1.0000\n  I   I6        1.0000  0.7774  0.7774  0.2226  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d123cc6e-fa0a-46c7-85c4-c270cf1eb4d2",
    "mp_id": "mp-1111940",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2GaCuF6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8973\n_cell_length_b   5.8973\n_cell_length_c   5.8973\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2GaCuF6\n_chemical_formula_sum   'K2 Ga1 Cu1 F6'\n_cell_volume   145.0277\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  K  K1  1  0.2500  0.2500  0.2500  1\n  Ga  Ga2  1  0.0000  0.0000  0.0000  1\n  Cu  Cu3  1  0.5000  0.5000  0.5000  1\n  F  F4  1  0.7675  0.2325  0.2325  1\n  F  F5  1  0.2325  0.2325  0.7675  1\n  F  F6  1  0.2325  0.7675  0.7675  1\n  F  F7  1  0.2325  0.7675  0.2325  1\n  F  F8  1  0.7675  0.2325  0.7675  1\n  F  F9  1  0.7675  0.7675  0.2325  1\n",
    "output": "data_image0\n_chemical_formula_structural       FKGaCuKF5\n_chemical_formula_sum              \"F6 K2 Ga1 Cu1\"\n_cell_length_a       5.8973\n_cell_length_b       5.8973\n_cell_length_c       5.8973\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.7500  0.7500  0.7500  1.0000\n  K   K1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Ga  Ga1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cu  Cu1       1.0000  0.5000  0.5000  0.5000  1.0000\n  K   K2        1.0000  0.7675  0.2325  0.2325  1.0000\n  F   F2        1.0000  0.2325  0.2325  0.7675  1.0000\n  F   F3        1.0000  0.2325  0.7675  0.7675  1.0000\n  F   F4        1.0000  0.2325  0.7675  0.2325  1.0000\n  F   F5        1.0000  0.7675  0.2325  0.7675  1.0000\n  F   F6        1.0000  0.7675  0.7675  0.2325  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bf905c00-e73b-49c8-a94f-1936b00fdfbe",
    "mp_id": "mp-1112257",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2RuAuF6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2842\n_cell_length_b   6.2842\n_cell_length_c   6.2842\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2RuAuF6\n_chemical_formula_sum   'K2 Ru1 Au1 F6'\n_cell_volume   175.4816\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  K  K1  1  0.2500  0.2500  0.2500  1\n  Ru  Ru2  1  0.0000  0.0000  0.0000  1\n  Au  Au3  1  0.5000  0.5000  0.5000  1\n  F  F4  1  0.7712  0.2288  0.2288  1\n  F  F5  1  0.2288  0.2288  0.7712  1\n  F  F6  1  0.2288  0.7712  0.7712  1\n  F  F7  1  0.2288  0.7712  0.2288  1\n  F  F8  1  0.7712  0.2288  0.7712  1\n  F  F9  1  0.7712  0.7712  0.2288  1\n",
    "output": "data_image0\n_chemical_formula_structural       AuKRuKF6\n_chemical_formula_sum              \"Au1 K2 Ru1 F6\"\n_cell_length_a       6.2842\n_cell_length_b       6.2842\n_cell_length_c       6.2842\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Au  Au1       1.0000  0.7500  0.7500  0.7500  1.0000\n  K   K1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Ru  Ru1       1.0000  0.0000  0.0000  0.0000  1.0000\n  K   K2        1.0000  0.5000  0.5000  0.5000  1.0000\n  F   F1        1.0000  0.7712  0.2288  0.2288  1.0000\n  F   F2        1.0000  0.2288  0.2288  0.7712  1.0000\n  F   F3        1.0000  0.2288  0.7712  0.7712  1.0000\n  F   F4        1.0000  0.2288  0.7712  0.2288  1.0000\n  F   F5        1.0000  0.7712  0.2288  0.7712  1.0000\n  F   F6        1.0000  0.7712  0.7712  0.2288  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f2629aed-c922-46ee-9e23-2fa1443c148b",
    "mp_id": "mp-1112416",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2TbCuCl6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3832\n_cell_length_b   7.3832\n_cell_length_c   7.3832\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2TbCuCl6\n_chemical_formula_sum   'Rb2 Tb1 Cu1 Cl6'\n_cell_volume   284.5868\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.7500  0.7500  0.7500  1\n  Rb  Rb1  1  0.2500  0.2500  0.2500  1\n  Tb  Tb2  1  0.0000  0.0000  0.0000  1\n  Cu  Cu3  1  0.5000  0.5000  0.5000  1\n  Cl  Cl4  1  0.7459  0.2541  0.2541  1\n  Cl  Cl5  1  0.2541  0.2541  0.7459  1\n  Cl  Cl6  1  0.2541  0.7459  0.7459  1\n  Cl  Cl7  1  0.2541  0.7459  0.2541  1\n  Cl  Cl8  1  0.7459  0.2541  0.7459  1\n  Cl  Cl9  1  0.7459  0.7459  0.2541  1\n",
    "output": "data_image0\n_chemical_formula_structural       ClRbTbCuCl4RbCl\n_chemical_formula_sum              \"Cl6 Rb2 Tb1 Cu1\"\n_cell_length_a       7.3832\n_cell_length_b       7.3832\n_cell_length_c       7.3832\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cl  Cl1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Rb  Rb1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Tb  Tb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cu  Cu1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cl  Cl2       1.0000  0.7459  0.2541  0.2541  1.0000\n  Cl  Cl3       1.0000  0.2541  0.2541  0.7459  1.0000\n  Cl  Cl4       1.0000  0.2541  0.7459  0.7459  1.0000\n  Cl  Cl5       1.0000  0.2541  0.7459  0.2541  1.0000\n  Rb  Rb2       1.0000  0.7459  0.2541  0.7459  1.0000\n  Cl  Cl6       1.0000  0.7459  0.7459  0.2541  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e8ee4f59-58bb-443e-84aa-40a4946c2097",
    "mp_id": "mp-11143",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaCu9Si4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2577\n_cell_length_b   8.2577\n_cell_length_c   8.2577\n_cell_angle_alpha   120.2793\n_cell_angle_beta   120.2793\n_cell_angle_gamma   89.5170\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaCu9Si4\n_chemical_formula_sum   'Ba2 Cu18 Si8'\n_cell_volume   396.4743\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7500  0.7500  0.0000  1\n  Ba  Ba1  1  0.2500  0.2500  0.0000  1\n  Cu  Cu2  1  0.4358  0.7048  0.1406  1\n  Cu  Cu3  1  0.7048  0.5642  0.2691  1\n  Cu  Cu4  1  0.2952  0.4358  0.7309  1\n  Cu  Cu5  1  0.9358  0.7952  0.7309  1\n  Cu  Cu6  1  0.5642  0.2952  0.8594  1\n  Cu  Cu7  1  0.3045  0.5595  0.5000  1\n  Cu  Cu8  1  0.0595  0.8045  0.5000  1\n  Cu  Cu9  1  0.6955  0.4405  0.5000  1\n  Cu  Cu10  1  0.9405  0.1955  0.5000  1\n  Cu  Cu11  1  0.4405  0.9405  0.7450  1\n  Cu  Cu12  1  0.1955  0.6955  0.2550  1\n  Cu  Cu13  1  0.5595  0.0595  0.2550  1\n  Cu  Cu14  1  0.2048  0.9358  0.1406  1\n  Cu  Cu15  1  0.0642  0.2048  0.2691  1\n  Cu  Cu16  1  0.0000  0.5000  0.5000  1\n  Cu  Cu17  1  0.5000  0.0000  0.5000  1\n  Cu  Cu18  1  0.8045  0.3045  0.7450  1\n  Cu  Cu19  1  0.7952  0.0642  0.8594  1\n  Si  Si20  1  0.2905  0.7905  0.8507  1\n  Si  Si21  1  0.0602  0.5602  0.8507  1\n  Si  Si22  1  0.5602  0.7095  0.5000  1\n  Si  Si23  1  0.7905  0.9398  0.5000  1\n  Si  Si24  1  0.4398  0.2905  0.5000  1\n  Si  Si25  1  0.9398  0.4398  0.1493  1\n  Si  Si26  1  0.7095  0.2095  0.1493  1\n  Si  Si27  1  0.2095  0.0602  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2Cu17SiCuSi7\n_chemical_formula_sum              \"Ba2 Cu18 Si8\"\n_cell_length_a       8.2577\n_cell_length_b       8.2577\n_cell_length_c       8.2577\n_cell_angle_alpha    120.2793\n_cell_angle_beta     120.2793\n_cell_angle_gamma    89.5170\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7500  0.7500  0.0000  1.0000\n  Ba  Ba2       1.0000  0.2500  0.2500  0.0000  1.0000\n  Cu  Cu1       1.0000  0.4358  0.7048  0.1406  1.0000\n  Cu  Cu2       1.0000  0.7048  0.5642  0.2691  1.0000\n  Cu  Cu3       1.0000  0.2952  0.4358  0.7309  1.0000\n  Cu  Cu4       1.0000  0.9358  0.7952  0.7309  1.0000\n  Cu  Cu5       1.0000  0.5642  0.2952  0.8594  1.0000\n  Cu  Cu6       1.0000  0.3045  0.5595  0.5000  1.0000\n  Cu  Cu7       1.0000  0.0595  0.8045  0.5000  1.0000\n  Cu  Cu8       1.0000  0.6955  0.4405  0.5000  1.0000\n  Cu  Cu9       1.0000  0.9405  0.1955  0.5000  1.0000\n  Cu  Cu10      1.0000  0.4405  0.9405  0.7450  1.0000\n  Cu  Cu11      1.0000  0.1955  0.6955  0.2550  1.0000\n  Cu  Cu12      1.0000  0.5595  0.0595  0.2550  1.0000\n  Cu  Cu13      1.0000  0.2048  0.9358  0.1406  1.0000\n  Cu  Cu14      1.0000  0.0642  0.2048  0.2691  1.0000\n  Cu  Cu15      1.0000  0.0000  0.5000  0.5000  1.0000\n  Cu  Cu16      1.0000  0.5000  0.0000  0.5000  1.0000\n  Cu  Cu17      1.0000  0.8045  0.3045  0.7450  1.0000\n  Si  Si1       1.0000  0.7952  0.0642  0.8594  1.0000\n  Cu  Cu18      1.0000  0.2905  0.7905  0.8507  1.0000\n  Si  Si2       1.0000  0.0602  0.5602  0.8507  1.0000\n  Si  Si3       1.0000  0.5602  0.7095  0.5000  1.0000\n  Si  Si4       1.0000  0.7905  0.9398  0.5000  1.0000\n  Si  Si5       1.0000  0.4398  0.2905  0.5000  1.0000\n  Si  Si6       1.0000  0.9398  0.4398  0.1493  1.0000\n  Si  Si7       1.0000  0.7095  0.2095  0.1493  1.0000\n  Si  Si8       1.0000  0.2095  0.0602  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "98ec20b9-96c7-4cbc-945d-212453455650",
    "mp_id": "mp-11145",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaCu9Ge4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4518\n_cell_length_b   8.4518\n_cell_length_c   8.4518\n_cell_angle_alpha   120.6118\n_cell_angle_beta   120.6118\n_cell_angle_gamma   88.9435\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaCu9Ge4\n_chemical_formula_sum   'Ba2 Cu18 Ge8'\n_cell_volume   422.8859\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.2500  0.0000  1\n  Ba  Ba1  1  0.7500  0.7500  0.0000  1\n  Cu  Cu2  1  0.0609  0.5609  0.2665  1\n  Cu  Cu3  1  0.7055  0.2055  0.2665  1\n  Cu  Cu4  1  0.9391  0.4391  0.7335  1\n  Cu  Cu5  1  0.4391  0.7055  0.5000  1\n  Cu  Cu6  1  0.2055  0.9391  0.5000  1\n  Cu  Cu7  1  0.5609  0.2945  0.5000  1\n  Cu  Cu8  1  0.7945  0.0609  0.5000  1\n  Cu  Cu9  1  0.2945  0.7945  0.7335  1\n  Cu  Cu10  1  0.4384  0.2959  0.7342  1\n  Cu  Cu11  1  0.7959  0.9384  0.7342  1\n  Cu  Cu12  1  0.0000  0.5000  0.5000  1\n  Cu  Cu13  1  0.5000  0.0000  0.5000  1\n  Cu  Cu14  1  0.5616  0.7041  0.2658  1\n  Cu  Cu15  1  0.7041  0.4384  0.1425  1\n  Cu  Cu16  1  0.2959  0.5616  0.8575  1\n  Cu  Cu17  1  0.9384  0.2041  0.1425  1\n  Cu  Cu18  1  0.0616  0.7959  0.8575  1\n  Cu  Cu19  1  0.2041  0.0616  0.2658  1\n  Ge  Ge20  1  0.7993  0.2993  0.8570  1\n  Ge  Ge21  1  0.5578  0.0578  0.8570  1\n  Ge  Ge22  1  0.2007  0.7007  0.1430  1\n  Ge  Ge23  1  0.7007  0.5578  0.5000  1\n  Ge  Ge24  1  0.0578  0.2007  0.5000  1\n  Ge  Ge25  1  0.2993  0.4422  0.5000  1\n  Ge  Ge26  1  0.9422  0.7993  0.5000  1\n  Ge  Ge27  1  0.4422  0.9422  0.1430  1\n",
    "output": "data_image0\n_chemical_formula_structural       CuBa2Cu17Ge8\n_chemical_formula_sum              \"Cu18 Ba2 Ge8\"\n_cell_length_a       8.4518\n_cell_length_b       8.4518\n_cell_length_c       8.4518\n_cell_angle_alpha    120.6118\n_cell_angle_beta     120.6118\n_cell_angle_gamma    88.9435\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.2500  0.2500  0.0000  1.0000\n  Ba  Ba1       1.0000  0.7500  0.7500  0.0000  1.0000\n  Ba  Ba2       1.0000  0.0609  0.5609  0.2665  1.0000\n  Cu  Cu2       1.0000  0.7055  0.2055  0.2665  1.0000\n  Cu  Cu3       1.0000  0.9391  0.4391  0.7335  1.0000\n  Cu  Cu4       1.0000  0.4391  0.7055  0.5000  1.0000\n  Cu  Cu5       1.0000  0.2055  0.9391  0.5000  1.0000\n  Cu  Cu6       1.0000  0.5609  0.2945  0.5000  1.0000\n  Cu  Cu7       1.0000  0.7945  0.0609  0.5000  1.0000\n  Cu  Cu8       1.0000  0.2945  0.7945  0.7335  1.0000\n  Cu  Cu9       1.0000  0.4384  0.2959  0.7342  1.0000\n  Cu  Cu10      1.0000  0.7959  0.9384  0.7342  1.0000\n  Cu  Cu11      1.0000  0.0000  0.5000  0.5000  1.0000\n  Cu  Cu12      1.0000  0.5000  0.0000  0.5000  1.0000\n  Cu  Cu13      1.0000  0.5616  0.7041  0.2658  1.0000\n  Cu  Cu14      1.0000  0.7041  0.4384  0.1425  1.0000\n  Cu  Cu15      1.0000  0.2959  0.5616  0.8575  1.0000\n  Cu  Cu16      1.0000  0.9384  0.2041  0.1425  1.0000\n  Cu  Cu17      1.0000  0.0616  0.7959  0.8575  1.0000\n  Cu  Cu18      1.0000  0.2041  0.0616  0.2658  1.0000\n  Ge  Ge1       1.0000  0.7993  0.2993  0.8570  1.0000\n  Ge  Ge2       1.0000  0.5578  0.0578  0.8570  1.0000\n  Ge  Ge3       1.0000  0.2007  0.7007  0.1430  1.0000\n  Ge  Ge4       1.0000  0.7007  0.5578  0.5000  1.0000\n  Ge  Ge5       1.0000  0.0578  0.2007  0.5000  1.0000\n  Ge  Ge6       1.0000  0.2993  0.4422  0.5000  1.0000\n  Ge  Ge7       1.0000  0.9422  0.7993  0.5000  1.0000\n  Ge  Ge8       1.0000  0.4422  0.9422  0.1430  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "204c70a9-54e5-4347-babc-b41b9652c97f",
    "mp_id": "mp-1120749",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaNb4O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4032\n_cell_length_b   6.4032\n_cell_length_c   12.6641\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaNb4O11\n_chemical_formula_sum   'Ba2 Nb8 O22'\n_cell_volume   449.6765\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6667  0.3333  0.2500  1\n  Ba  Ba1  1  0.3333  0.6667  0.7500  1\n  Nb  Nb2  1  0.3333  0.6667  0.2500  1\n  Nb  Nb3  1  0.6667  0.3333  0.7500  1\n  Nb  Nb4  1  0.3544  0.3544  0.5000  1\n  Nb  Nb5  1  0.6456  0.0000  0.5000  1\n  Nb  Nb6  1  0.0000  0.6456  0.5000  1\n  Nb  Nb7  1  0.6456  0.6456  0.0000  1\n  Nb  Nb8  1  0.3544  0.0000  0.0000  1\n  Nb  Nb9  1  0.0000  0.3544  0.0000  1\n  O  O10  1  0.3333  0.6667  0.9665  1\n  O  O11  1  0.6667  0.3333  0.0335  1\n  O  O12  1  0.6667  0.3333  0.4665  1\n  O  O13  1  0.3333  0.6667  0.5335  1\n  O  O14  1  0.7565  0.7565  0.5000  1\n  O  O15  1  0.2435  0.0000  0.5000  1\n  O  O16  1  0.0000  0.2435  0.5000  1\n  O  O17  1  0.2435  0.2435  0.0000  1\n  O  O18  1  0.7565  0.0000  0.0000  1\n  O  O19  1  0.0000  0.7565  0.0000  1\n  O  O20  1  0.3641  0.9290  0.1522  1\n  O  O21  1  0.0710  0.4351  0.1522  1\n  O  O22  1  0.5649  0.6359  0.1522  1\n  O  O23  1  0.9290  0.3641  0.8478  1\n  O  O24  1  0.4351  0.0710  0.8478  1\n  O  O25  1  0.6359  0.5649  0.8478  1\n  O  O26  1  0.6359  0.0710  0.6522  1\n  O  O27  1  0.9290  0.5649  0.6522  1\n  O  O28  1  0.4351  0.3641  0.6522  1\n  O  O29  1  0.0710  0.6359  0.3478  1\n  O  O30  1  0.5649  0.9290  0.3478  1\n  O  O31  1  0.3641  0.4351  0.3478  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2Nb5ONb2O20NbO\n_chemical_formula_sum              \"Ba2 Nb8 O22\"\n_cell_length_a       6.4032\n_cell_length_b       6.4032\n_cell_length_c       12.6641\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6667  0.3333  0.2500  1.0000\n  Ba  Ba2       1.0000  0.3333  0.6667  0.7500  1.0000\n  Nb  Nb1       1.0000  0.3333  0.6667  0.2500  1.0000\n  Nb  Nb2       1.0000  0.6667  0.3333  0.7500  1.0000\n  Nb  Nb3       1.0000  0.3544  0.3544  0.5000  1.0000\n  Nb  Nb4       1.0000  0.6456  0.0000  0.5000  1.0000\n  Nb  Nb5       1.0000  0.0000  0.6456  0.5000  1.0000\n  O   O1        1.0000  0.6456  0.6456  0.0000  1.0000\n  Nb  Nb6       1.0000  0.3544  0.0000  0.0000  1.0000\n  Nb  Nb7       1.0000  0.0000  0.3544  0.0000  1.0000\n  O   O2        1.0000  0.3333  0.6667  0.9665  1.0000\n  O   O3        1.0000  0.6667  0.3333  0.0335  1.0000\n  O   O4        1.0000  0.6667  0.3333  0.4665  1.0000\n  O   O5        1.0000  0.3333  0.6667  0.5335  1.0000\n  O   O6        1.0000  0.7565  0.7565  0.5000  1.0000\n  O   O7        1.0000  0.2435  0.0000  0.5000  1.0000\n  O   O8        1.0000  0.0000  0.2435  0.5000  1.0000\n  O   O9        1.0000  0.2435  0.2435  0.0000  1.0000\n  O   O10       1.0000  0.7565  0.0000  0.0000  1.0000\n  O   O11       1.0000  0.0000  0.7565  0.0000  1.0000\n  O   O12       1.0000  0.3641  0.9290  0.1522  1.0000\n  O   O13       1.0000  0.0710  0.4351  0.1522  1.0000\n  O   O14       1.0000  0.5649  0.6359  0.1522  1.0000\n  O   O15       1.0000  0.9290  0.3641  0.8478  1.0000\n  O   O16       1.0000  0.4351  0.0710  0.8478  1.0000\n  O   O17       1.0000  0.6359  0.5649  0.8478  1.0000\n  O   O18       1.0000  0.6359  0.0710  0.6522  1.0000\n  O   O19       1.0000  0.9290  0.5649  0.6522  1.0000\n  O   O20       1.0000  0.4351  0.3641  0.6522  1.0000\n  O   O21       1.0000  0.0710  0.6359  0.3478  1.0000\n  Nb  Nb8       1.0000  0.5649  0.9290  0.3478  1.0000\n  O   O22       1.0000  0.3641  0.4351  0.3478  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c3d845f5-a8cb-4f71-ae87-cb21166a762a",
    "mp_id": "mp-11250",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2Au\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.3376\n_cell_length_b   6.1982\n_cell_length_c   8.4997\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2Au\n_chemical_formula_sum   'Mg8 Au4'\n_cell_volume   228.5188\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2500  0.9588  0.6944  1\n  Mg  Mg1  1  0.7500  0.0412  0.3056  1\n  Mg  Mg2  1  0.2500  0.4588  0.8056  1\n  Mg  Mg3  1  0.7500  0.5412  0.1944  1\n  Mg  Mg4  1  0.7500  0.1656  0.9400  1\n  Mg  Mg5  1  0.2500  0.8344  0.0600  1\n  Mg  Mg6  1  0.7500  0.6656  0.5600  1\n  Mg  Mg7  1  0.2500  0.3344  0.4400  1\n  Au  Au8  1  0.2500  0.7684  0.3779  1\n  Au  Au9  1  0.7500  0.2316  0.6221  1\n  Au  Au10  1  0.2500  0.2684  0.1221  1\n  Au  Au11  1  0.7500  0.7316  0.8779  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2AuMg6Au3\n_chemical_formula_sum              \"Mg8 Au4\"\n_cell_length_a       4.3376\n_cell_length_b       6.1982\n_cell_length_c       8.4997\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2500  0.9588  0.6944  1.0000\n  Mg  Mg2       1.0000  0.7500  0.0412  0.3056  1.0000\n  Au  Au1       1.0000  0.2500  0.4588  0.8056  1.0000\n  Mg  Mg3       1.0000  0.7500  0.5412  0.1944  1.0000\n  Mg  Mg4       1.0000  0.7500  0.1656  0.9400  1.0000\n  Mg  Mg5       1.0000  0.2500  0.8344  0.0600  1.0000\n  Mg  Mg6       1.0000  0.7500  0.6656  0.5600  1.0000\n  Mg  Mg7       1.0000  0.2500  0.3344  0.4400  1.0000\n  Mg  Mg8       1.0000  0.2500  0.7684  0.3779  1.0000\n  Au  Au2       1.0000  0.7500  0.2316  0.6221  1.0000\n  Au  Au3       1.0000  0.2500  0.2684  0.1221  1.0000\n  Au  Au4       1.0000  0.7500  0.7316  0.8779  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6438bdd1-5147-4981-a17f-e30b47d4d6bc",
    "mp_id": "mp-1157680",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaTi(SiO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8364\n_cell_length_b   6.8364\n_cell_length_c   5.2602\n_cell_angle_alpha   78.9087\n_cell_angle_beta   78.9087\n_cell_angle_gamma   82.9399\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaTi(SiO3)2\n_chemical_formula_sum   'Ca2 Ti2 Si4 O12'\n_cell_volume   235.8016\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.7020  0.2980  0.7500  1\n  Ca  Ca1  1  0.2980  0.7020  0.2500  1\n  Ti  Ti2  1  0.9213  0.0787  0.2500  1\n  Ti  Ti3  1  0.0787  0.9213  0.7500  1\n  Si  Si4  1  0.3874  0.1966  0.2657  1\n  Si  Si5  1  0.8034  0.6126  0.2343  1\n  Si  Si6  1  0.1966  0.3874  0.7657  1\n  Si  Si7  1  0.6126  0.8034  0.7343  1\n  O  O8  1  0.3696  0.3318  0.5058  1\n  O  O9  1  0.6682  0.6304  0.9942  1\n  O  O10  1  0.6304  0.6682  0.4942  1\n  O  O11  1  0.3318  0.3696  0.0058  1\n  O  O12  1  0.6169  0.1194  0.1746  1\n  O  O13  1  0.8806  0.3831  0.3254  1\n  O  O14  1  0.3831  0.8806  0.8254  1\n  O  O15  1  0.1194  0.6169  0.6746  1\n  O  O16  1  0.0316  0.2242  0.8479  1\n  O  O17  1  0.7758  0.9684  0.6521  1\n  O  O18  1  0.2242  0.0316  0.3479  1\n  O  O19  1  0.9684  0.7758  0.1521  1\n",
    "output": "data_image0\n_chemical_formula_structural       OCaTi2Si4O6CaO5\n_chemical_formula_sum              \"O12 Ca2 Ti2 Si4\"\n_cell_length_a       6.8364\n_cell_length_b       6.8364\n_cell_length_c       5.2602\n_cell_angle_alpha    78.9087\n_cell_angle_beta     78.9087\n_cell_angle_gamma    82.9399\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7020  0.2980  0.7500  1.0000\n  Ca  Ca1       1.0000  0.2980  0.7020  0.2500  1.0000\n  Ti  Ti1       1.0000  0.9213  0.0787  0.2500  1.0000\n  Ti  Ti2       1.0000  0.0787  0.9213  0.7500  1.0000\n  Si  Si1       1.0000  0.3874  0.1966  0.2657  1.0000\n  Si  Si2       1.0000  0.8034  0.6126  0.2343  1.0000\n  Si  Si3       1.0000  0.1966  0.3874  0.7657  1.0000\n  Si  Si4       1.0000  0.6126  0.8034  0.7343  1.0000\n  O   O2        1.0000  0.3696  0.3318  0.5058  1.0000\n  O   O3        1.0000  0.6682  0.6304  0.9942  1.0000\n  O   O4        1.0000  0.6304  0.6682  0.4942  1.0000\n  O   O5        1.0000  0.3318  0.3696  0.0058  1.0000\n  O   O6        1.0000  0.6169  0.1194  0.1746  1.0000\n  O   O7        1.0000  0.8806  0.3831  0.3254  1.0000\n  Ca  Ca2       1.0000  0.3831  0.8806  0.8254  1.0000\n  O   O8        1.0000  0.1194  0.6169  0.6746  1.0000\n  O   O9        1.0000  0.0316  0.2242  0.8479  1.0000\n  O   O10       1.0000  0.7758  0.9684  0.6521  1.0000\n  O   O11       1.0000  0.2242  0.0316  0.3479  1.0000\n  O   O12       1.0000  0.9684  0.7758  0.1521  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "617d5e06-3b3e-4e78-87d6-8b190b85f20e",
    "mp_id": "mp-1173361",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb4Sb2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.0379\n_cell_length_b   10.0379\n_cell_length_c   6.7262\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   157.0201\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb4Sb2O5\n_chemical_formula_sum   'Rb4 Sb2 O5'\n_cell_volume   264.5900\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.9071  0.0929  0.5000  1\n  Rb  Rb1  1  0.0917  0.9083  0.0000  1\n  Rb  Rb2  1  0.2376  0.7624  0.5000  1\n  Rb  Rb3  1  0.7625  0.2375  0.0000  1\n  Sb  Sb4  1  0.5892  0.4108  0.5000  1\n  Sb  Sb5  1  0.4134  0.5866  0.0000  1\n  O  O6  1  0.6511  0.3489  0.2765  1\n  O  O7  1  0.3494  0.6506  0.2215  1\n  O  O8  1  0.6511  0.3489  0.7235  1\n  O  O9  1  0.3494  0.6506  0.7785  1\n  O  O10  1  0.0535  0.9465  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb3SbRbSbO5\n_chemical_formula_sum              \"Rb4 Sb2 O5\"\n_cell_length_a       10.0379\n_cell_length_b       10.0379\n_cell_length_c       6.7262\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    157.0201\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.9071  0.0929  0.5000  1.0000\n  Rb  Rb2       1.0000  0.0917  0.9083  0.0000  1.0000\n  Rb  Rb3       1.0000  0.2376  0.7624  0.5000  1.0000\n  Sb  Sb1       1.0000  0.7625  0.2375  0.0000  1.0000\n  Rb  Rb4       1.0000  0.5892  0.4108  0.5000  1.0000\n  Sb  Sb2       1.0000  0.4134  0.5866  0.0000  1.0000\n  O   O1        1.0000  0.6511  0.3489  0.2765  1.0000\n  O   O2        1.0000  0.3494  0.6506  0.2215  1.0000\n  O   O3        1.0000  0.6511  0.3489  0.7235  1.0000\n  O   O4        1.0000  0.3494  0.6506  0.7785  1.0000\n  O   O5        1.0000  0.0535  0.9465  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3ea65cec-2de7-4ab5-b69d-5ba8264807f9",
    "mp_id": "mp-1173548",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr3(ZnAs3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1255\n_cell_length_b   10.2653\n_cell_length_c   11.9539\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr3(ZnAs3)2\n_chemical_formula_sum   'Pr6 Zn4 As12'\n_cell_volume   506.2442\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.7500  0.2641  0.7500  1\n  Pr  Pr1  1  0.7500  0.2685  0.4144  1\n  Pr  Pr2  1  0.2500  0.7315  0.9144  1\n  Pr  Pr3  1  0.2500  0.7315  0.5856  1\n  Pr  Pr4  1  0.2500  0.7359  0.2500  1\n  Pr  Pr5  1  0.7500  0.2685  0.0856  1\n  Zn  Zn6  1  0.2500  0.0034  0.0961  1\n  Zn  Zn7  1  0.2500  0.0034  0.4039  1\n  Zn  Zn8  1  0.7500  0.9966  0.5961  1\n  Zn  Zn9  1  0.7500  0.9966  0.9039  1\n  As  As10  1  0.7500  0.5023  0.2500  1\n  As  As11  1  0.7500  0.4983  0.9162  1\n  As  As12  1  0.7500  0.8370  0.7500  1\n  As  As13  1  0.7500  0.8450  0.4187  1\n  As  As14  1  0.2500  0.1550  0.9187  1\n  As  As15  1  0.2500  0.1550  0.5813  1\n  As  As16  1  0.2500  0.1630  0.2500  1\n  As  As17  1  0.2500  0.5017  0.0838  1\n  As  As18  1  0.2500  0.4977  0.7500  1\n  As  As19  1  0.2500  0.5017  0.4162  1\n  As  As20  1  0.7500  0.4983  0.5838  1\n  As  As21  1  0.7500  0.8450  0.0813  1\n",
    "output": "data_image0\n_chemical_formula_structural       AsPr5Zn4AsPrAs10\n_chemical_formula_sum              \"As12 Pr6 Zn4\"\n_cell_length_a       4.1255\n_cell_length_b       10.2653\n_cell_length_c       11.9539\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.7500  0.2641  0.7500  1.0000\n  Pr  Pr1       1.0000  0.7500  0.2685  0.4144  1.0000\n  Pr  Pr2       1.0000  0.2500  0.7315  0.9144  1.0000\n  Pr  Pr3       1.0000  0.2500  0.7315  0.5856  1.0000\n  Pr  Pr4       1.0000  0.2500  0.7359  0.2500  1.0000\n  Pr  Pr5       1.0000  0.7500  0.2685  0.0856  1.0000\n  Zn  Zn1       1.0000  0.2500  0.0034  0.0961  1.0000\n  Zn  Zn2       1.0000  0.2500  0.0034  0.4039  1.0000\n  Zn  Zn3       1.0000  0.7500  0.9966  0.5961  1.0000\n  Zn  Zn4       1.0000  0.7500  0.9966  0.9039  1.0000\n  As  As2       1.0000  0.7500  0.5023  0.2500  1.0000\n  Pr  Pr6       1.0000  0.7500  0.4983  0.9162  1.0000\n  As  As3       1.0000  0.7500  0.8370  0.7500  1.0000\n  As  As4       1.0000  0.7500  0.8450  0.4187  1.0000\n  As  As5       1.0000  0.2500  0.1550  0.9187  1.0000\n  As  As6       1.0000  0.2500  0.1550  0.5813  1.0000\n  As  As7       1.0000  0.2500  0.1630  0.2500  1.0000\n  As  As8       1.0000  0.2500  0.5017  0.0838  1.0000\n  As  As9       1.0000  0.2500  0.4977  0.7500  1.0000\n  As  As10      1.0000  0.2500  0.5017  0.4162  1.0000\n  As  As11      1.0000  0.7500  0.4983  0.5838  1.0000\n  As  As12      1.0000  0.7500  0.8450  0.0813  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "da4ad310-7626-4265-bfa9-f9ad3616148b",
    "mp_id": "mp-1173561",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NdTa3O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.9936\n_cell_length_b   8.8723\n_cell_length_c   7.8998\n_cell_angle_alpha   90.0039\n_cell_angle_beta   90.0086\n_cell_angle_gamma   63.2365\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NdTa3O9\n_chemical_formula_sum   'Nd4 Ta12 O36'\n_cell_volume   750.5708\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.0293  0.5051  0.9997  1\n  Nd  Nd1  1  0.3615  0.4973  0.5000  1\n  Nd  Nd2  1  0.6839  0.5009  0.5000  1\n  Nd  Nd3  1  0.8564  0.0011  0.4997  1\n  Ta  Ta4  1  0.2622  0.2430  0.2520  1\n  Ta  Ta5  1  0.2623  0.2429  0.7478  1\n  Ta  Ta6  1  0.0974  0.7522  0.2491  1\n  Ta  Ta7  1  0.0974  0.7522  0.7508  1\n  Ta  Ta8  1  0.5886  0.2463  0.2429  1\n  Ta  Ta9  1  0.5888  0.2462  0.7569  1\n  Ta  Ta10  1  0.4257  0.7579  0.2437  1\n  Ta  Ta11  1  0.4257  0.7578  0.7563  1\n  Ta  Ta12  1  0.9290  0.2506  0.2434  1\n  Ta  Ta13  1  0.9290  0.2504  0.7566  1\n  Ta  Ta14  1  0.7540  0.7547  0.2468  1\n  Ta  Ta15  1  0.7541  0.7545  0.7535  1\n  O  O16  1  0.0779  0.2713  0.2227  1\n  O  O17  1  0.0779  0.2712  0.7771  1\n  O  O18  1  0.3363  0.0021  0.2502  1\n  O  O19  1  0.2429  0.2702  0.9999  1\n  O  O20  1  0.0776  0.7501  0.0000  1\n  O  O21  1  0.1560  0.5074  0.7597  1\n  O  O22  1  0.2428  0.2717  0.4999  1\n  O  O23  1  0.1558  0.5076  0.2402  1\n  O  O24  1  0.0735  0.7556  0.5000  1\n  O  O25  1  0.4087  0.2758  0.2604  1\n  O  O26  1  0.4089  0.2757  0.7395  1\n  O  O27  1  0.2611  0.7288  0.7298  1\n  O  O28  1  0.2610  0.7290  0.2703  1\n  O  O29  1  0.6664  0.9983  0.2613  1\n  O  O30  1  0.5916  0.2503  0.9999  1\n  O  O31  1  0.4214  0.7422  0.0000  1\n  O  O32  1  0.3363  0.0020  0.7497  1\n  O  O33  1  0.5048  0.4967  0.7272  1\n  O  O34  1  0.5661  0.2574  0.5000  1\n  O  O35  1  0.5046  0.4968  0.2727  1\n  O  O36  1  0.4208  0.7316  0.5000  1\n  O  O37  1  0.7492  0.2429  0.7019  1\n  O  O38  1  0.7491  0.2430  0.2980  1\n  O  O39  1  0.5907  0.7324  0.2700  1\n  O  O40  1  0.5907  0.7325  0.7303  1\n  O  O41  1  0.9929  0.0008  0.2652  1\n  O  O42  1  0.7633  0.7245  0.0002  1\n  O  O43  1  0.6669  0.9981  0.7388  1\n  O  O44  1  0.9033  0.2532  0.0000  1\n  O  O45  1  0.7535  0.7363  0.5002  1\n  O  O46  1  0.8247  0.4938  0.2626  1\n  O  O47  1  0.9162  0.2441  0.5000  1\n  O  O48  1  0.8246  0.4937  0.7376  1\n  O  O49  1  0.9161  0.7490  0.7486  1\n  O  O50  1  0.9157  0.7502  0.2523  1\n  O  O51  1  0.9928  0.0007  0.7348  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd4Ta5OTa6O8TaO27\n_chemical_formula_sum              \"Nd4 Ta12 O36\"\n_cell_length_a       11.9936\n_cell_length_b       8.8723\n_cell_length_c       7.8998\n_cell_angle_alpha    90.0039\n_cell_angle_beta     90.0086\n_cell_angle_gamma    63.2365\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.0293  0.5051  0.9997  1.0000\n  Nd  Nd2       1.0000  0.3615  0.4973  0.5000  1.0000\n  Nd  Nd3       1.0000  0.6839  0.5009  0.5000  1.0000\n  Nd  Nd4       1.0000  0.8564  0.0011  0.4997  1.0000\n  Ta  Ta1       1.0000  0.2622  0.2430  0.2520  1.0000\n  Ta  Ta2       1.0000  0.2623  0.2429  0.7478  1.0000\n  Ta  Ta3       1.0000  0.0974  0.7522  0.2491  1.0000\n  Ta  Ta4       1.0000  0.0974  0.7522  0.7508  1.0000\n  Ta  Ta5       1.0000  0.5886  0.2463  0.2429  1.0000\n  O   O1        1.0000  0.5888  0.2462  0.7569  1.0000\n  Ta  Ta6       1.0000  0.4257  0.7579  0.2437  1.0000\n  Ta  Ta7       1.0000  0.4257  0.7578  0.7563  1.0000\n  Ta  Ta8       1.0000  0.9290  0.2506  0.2434  1.0000\n  Ta  Ta9       1.0000  0.9290  0.2504  0.7566  1.0000\n  Ta  Ta10      1.0000  0.7540  0.7547  0.2468  1.0000\n  Ta  Ta11      1.0000  0.7541  0.7545  0.7535  1.0000\n  O   O2        1.0000  0.0779  0.2713  0.2227  1.0000\n  O   O3        1.0000  0.0779  0.2712  0.7771  1.0000\n  O   O4        1.0000  0.3363  0.0021  0.2502  1.0000\n  O   O5        1.0000  0.2429  0.2702  0.9999  1.0000\n  O   O6        1.0000  0.0776  0.7501  1e-06  1.0000\n  O   O7        1.0000  0.1560  0.5074  0.7597  1.0000\n  O   O8        1.0000  0.2428  0.2717  0.4999  1.0000\n  O   O9        1.0000  0.1558  0.5076  0.2402  1.0000\n  Ta  Ta12      1.0000  0.0735  0.7556  0.5000  1.0000\n  O   O10       1.0000  0.4087  0.2758  0.2604  1.0000\n  O   O11       1.0000  0.4089  0.2757  0.7395  1.0000\n  O   O12       1.0000  0.2611  0.7288  0.7298  1.0000\n  O   O13       1.0000  0.2610  0.7290  0.2703  1.0000\n  O   O14       1.0000  0.6664  0.9983  0.2613  1.0000\n  O   O15       1.0000  0.5916  0.2503  0.9999  1.0000\n  O   O16       1.0000  0.4214  0.7422  0.0000  1.0000\n  O   O17       1.0000  0.3363  0.0020  0.7497  1.0000\n  O   O18       1.0000  0.5048  0.4967  0.7272  1.0000\n  O   O19       1.0000  0.5661  0.2574  0.5000  1.0000\n  O   O20       1.0000  0.5046  0.4968  0.2727  1.0000\n  O   O21       1.0000  0.4208  0.7316  0.5000  1.0000\n  O   O22       1.0000  0.7492  0.2429  0.7019  1.0000\n  O   O23       1.0000  0.7491  0.2430  0.2980  1.0000\n  O   O24       1.0000  0.5907  0.7324  0.2700  1.0000\n  O   O25       1.0000  0.5907  0.7325  0.7303  1.0000\n  O   O26       1.0000  0.9929  0.0008  0.2652  1.0000\n  O   O27       1.0000  0.7633  0.7245  0.0002  1.0000\n  O   O28       1.0000  0.6669  0.9981  0.7388  1.0000\n  O   O29       1.0000  0.9033  0.2532  1e-05  1.0000\n  O   O30       1.0000  0.7535  0.7363  0.5002  1.0000\n  O   O31       1.0000  0.8247  0.4938  0.2626  1.0000\n  O   O32       1.0000  0.9162  0.2441  0.5000  1.0000\n  O   O33       1.0000  0.8246  0.4937  0.7376  1.0000\n  O   O34       1.0000  0.9161  0.7490  0.7486  1.0000\n  O   O35       1.0000  0.9157  0.7502  0.2523  1.0000\n  O   O36       1.0000  0.9928  0.0007  0.7348  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fbfa4275-7d9a-474d-8ec1-b51e5c0f92bf",
    "mp_id": "mp-1173706",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3TbTi2Nb2O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4858\n_cell_length_b   5.6353\n_cell_length_c   15.4753\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3TbTi2Nb2O12\n_chemical_formula_sum   'Na6 Tb2 Ti4 Nb4 O24'\n_cell_volume   478.4001\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0046  0.9791  0.3707  1\n  Na  Na1  1  0.0046  0.9791  0.8793  1\n  Na  Na2  1  0.4954  0.4791  0.8793  1\n  Na  Na3  1  0.4954  0.4791  0.3707  1\n  Na  Na4  1  0.5133  0.5269  0.6250  1\n  Na  Na5  1  0.9867  0.0269  0.6250  1\n  Tb  Tb6  1  0.5090  0.5634  0.1250  1\n  Tb  Tb7  1  0.9910  0.0634  0.1250  1\n  Ti  Ti8  1  0.0089  0.5266  0.9984  1\n  Ti  Ti9  1  0.0089  0.5266  0.2516  1\n  Ti  Ti10  1  0.4911  0.0266  0.2516  1\n  Ti  Ti11  1  0.4911  0.0266  0.9984  1\n  Nb  Nb12  1  0.0037  0.5147  0.4980  1\n  Nb  Nb13  1  0.0037  0.5147  0.7520  1\n  Nb  Nb14  1  0.4963  0.0147  0.7520  1\n  Nb  Nb15  1  0.4963  0.0147  0.4980  1\n  O  O16  1  0.0921  0.4642  0.1250  1\n  O  O17  1  0.0812  0.4797  0.6250  1\n  O  O18  1  0.2152  0.2105  0.4767  1\n  O  O19  1  0.2045  0.1959  0.2604  1\n  O  O20  1  0.2152  0.2105  0.7733  1\n  O  O21  1  0.2045  0.1959  0.9896  1\n  O  O22  1  0.2955  0.6959  0.2604  1\n  O  O23  1  0.2848  0.7105  0.4767  1\n  O  O24  1  0.2848  0.7105  0.7733  1\n  O  O25  1  0.2955  0.6959  0.9896  1\n  O  O26  1  0.4079  0.9642  0.1250  1\n  O  O27  1  0.4188  0.9797  0.6250  1\n  O  O28  1  0.5761  0.0076  0.8798  1\n  O  O29  1  0.5761  0.0076  0.3702  1\n  O  O30  1  0.7052  0.2799  0.0316  1\n  O  O31  1  0.7052  0.2799  0.2184  1\n  O  O32  1  0.7217  0.2687  0.5193  1\n  O  O33  1  0.7217  0.2687  0.7307  1\n  O  O34  1  0.7948  0.7799  0.0316  1\n  O  O35  1  0.7948  0.7799  0.2184  1\n  O  O36  1  0.7783  0.7687  0.5193  1\n  O  O37  1  0.7783  0.7687  0.7307  1\n  O  O38  1  0.9239  0.5076  0.3702  1\n  O  O39  1  0.9239  0.5076  0.8798  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na6Tb2Ti4ONb3O17NbO6\n_chemical_formula_sum              \"Na6 Tb2 Ti4 O24 Nb4\"\n_cell_length_a       5.4858\n_cell_length_b       5.6353\n_cell_length_c       15.4753\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0046  0.9791  0.3707  1.0000\n  Na  Na2       1.0000  0.0046  0.9791  0.8793  1.0000\n  Na  Na3       1.0000  0.4954  0.4791  0.8793  1.0000\n  Na  Na4       1.0000  0.4954  0.4791  0.3707  1.0000\n  Na  Na5       1.0000  0.5133  0.5269  0.6250  1.0000\n  Na  Na6       1.0000  0.9867  0.0269  0.6250  1.0000\n  Tb  Tb1       1.0000  0.5090  0.5634  0.1250  1.0000\n  Tb  Tb2       1.0000  0.9910  0.0634  0.1250  1.0000\n  Ti  Ti1       1.0000  0.0089  0.5266  0.9984  1.0000\n  Ti  Ti2       1.0000  0.0089  0.5266  0.2516  1.0000\n  Ti  Ti3       1.0000  0.4911  0.0266  0.2516  1.0000\n  Ti  Ti4       1.0000  0.4911  0.0266  0.9984  1.0000\n  O   O1        1.0000  0.0037  0.5147  0.4980  1.0000\n  Nb  Nb1       1.0000  0.0037  0.5147  0.7520  1.0000\n  Nb  Nb2       1.0000  0.4963  0.0147  0.7520  1.0000\n  Nb  Nb3       1.0000  0.4963  0.0147  0.4980  1.0000\n  O   O2        1.0000  0.0921  0.4642  0.1250  1.0000\n  O   O3        1.0000  0.0812  0.4797  0.6250  1.0000\n  O   O4        1.0000  0.2152  0.2105  0.4767  1.0000\n  O   O5        1.0000  0.2045  0.1959  0.2604  1.0000\n  O   O6        1.0000  0.2152  0.2105  0.7733  1.0000\n  O   O7        1.0000  0.2045  0.1959  0.9896  1.0000\n  O   O8        1.0000  0.2955  0.6959  0.2604  1.0000\n  O   O9        1.0000  0.2848  0.7105  0.4767  1.0000\n  O   O10       1.0000  0.2848  0.7105  0.7733  1.0000\n  O   O11       1.0000  0.2955  0.6959  0.9896  1.0000\n  O   O12       1.0000  0.4079  0.9642  0.1250  1.0000\n  O   O13       1.0000  0.4188  0.9797  0.6250  1.0000\n  O   O14       1.0000  0.5761  0.0076  0.8798  1.0000\n  O   O15       1.0000  0.5761  0.0076  0.3702  1.0000\n  O   O16       1.0000  0.7052  0.2799  0.0316  1.0000\n  O   O17       1.0000  0.7052  0.2799  0.2184  1.0000\n  O   O18       1.0000  0.7217  0.2687  0.5193  1.0000\n  Nb  Nb4       1.0000  0.7217  0.2687  0.7307  1.0000\n  O   O19       1.0000  0.7948  0.7799  0.0316  1.0000\n  O   O20       1.0000  0.7948  0.7799  0.2184  1.0000\n  O   O21       1.0000  0.7783  0.7687  0.5193  1.0000\n  O   O22       1.0000  0.7783  0.7687  0.7307  1.0000\n  O   O23       1.0000  0.9239  0.5076  0.3702  1.0000\n  O   O24       1.0000  0.9239  0.5076  0.8798  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c9c22796-af8b-4da0-8599-416274cbda95",
    "mp_id": "mp-1173883",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2CoO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9783\n_cell_length_b   5.0007\n_cell_length_c   7.4761\n_cell_angle_alpha   106.5808\n_cell_angle_beta   98.9535\n_cell_angle_gamma   88.6196\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2CoO3\n_chemical_formula_sum   'Li4 Co2 O6'\n_cell_volume   105.3905\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3367  0.5021  0.1655  1\n  Li  Li1  1  0.0000  0.5000  0.5000  1\n  Li  Li2  1  0.6633  0.4979  0.8345  1\n  Li  Li3  1  0.5000  0.0000  0.5000  1\n  Co  Co4  1  0.1560  0.9942  0.8214  1\n  Co  Co5  1  0.8440  0.0058  0.1786  1\n  O  O6  1  0.7739  0.2169  0.0018  1\n  O  O7  1  0.4390  0.2361  0.3210  1\n  O  O8  1  0.0956  0.2303  0.6887  1\n  O  O9  1  0.9044  0.7697  0.3113  1\n  O  O10  1  0.5610  0.7639  0.6790  1\n  O  O11  1  0.2261  0.7831  0.9982  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4CoO5CoO\n_chemical_formula_sum              \"Li4 Co2 O6\"\n_cell_length_a       2.9783\n_cell_length_b       5.0007\n_cell_length_c       7.4761\n_cell_angle_alpha    106.5808\n_cell_angle_beta     98.9535\n_cell_angle_gamma    88.6196\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3367  0.5021  0.1655  1.0000\n  Li  Li2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Li  Li3       1.0000  0.6633  0.4979  0.8345  1.0000\n  Li  Li4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Co  Co1       1.0000  0.1560  0.9942  0.8214  1.0000\n  O   O1        1.0000  0.8440  0.0058  0.1786  1.0000\n  O   O2        1.0000  0.7739  0.2169  0.0018  1.0000\n  O   O3        1.0000  0.4390  0.2361  0.3210  1.0000\n  O   O4        1.0000  0.0956  0.2303  0.6887  1.0000\n  O   O5        1.0000  0.9044  0.7697  0.3113  1.0000\n  Co  Co2       1.0000  0.5610  0.7639  0.6790  1.0000\n  O   O6        1.0000  0.2261  0.7831  0.9982  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1bd00fe3-b5d7-417e-911a-412a5631c4f1",
    "mp_id": "mp-1174010",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3MnCoO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0276\n_cell_length_b   5.0814\n_cell_length_c   12.4031\n_cell_angle_alpha   100.7336\n_cell_angle_beta   87.8714\n_cell_angle_gamma   103.0195\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3MnCoO5\n_chemical_formula_sum   'Li6 Mn2 Co2 O10'\n_cell_volume   182.6547\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6035  0.1986  0.2026  1\n  Li  Li1  1  0.2009  0.3938  0.3995  1\n  Li  Li2  1  0.7991  0.6062  0.6005  1\n  Li  Li3  1  0.3965  0.8014  0.7974  1\n  Li  Li4  1  0.0000  0.0000  0.0000  1\n  Li  Li5  1  0.5000  0.0000  0.5000  1\n  Mn  Mn6  1  0.3041  0.6024  0.1030  1\n  Mn  Mn7  1  0.6959  0.3976  0.8970  1\n  Co  Co8  1  0.9107  0.8095  0.3104  1\n  Co  Co9  1  0.0893  0.1905  0.6896  1\n  O  O10  1  0.9659  0.8848  0.1610  1\n  O  O11  1  0.5586  0.0725  0.3471  1\n  O  O12  1  0.1540  0.2995  0.5645  1\n  O  O13  1  0.7624  0.4787  0.7510  1\n  O  O14  1  0.3735  0.6909  0.9546  1\n  O  O15  1  0.2376  0.5213  0.2490  1\n  O  O16  1  0.8460  0.7005  0.4355  1\n  O  O17  1  0.4414  0.9275  0.6529  1\n  O  O18  1  0.0341  0.1152  0.8390  1\n  O  O19  1  0.6265  0.3091  0.0454  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OLiMn2Co2O7LiO2\n_chemical_formula_sum              \"Li6 O10 Mn2 Co2\"\n_cell_length_a       3.0276\n_cell_length_b       5.0814\n_cell_length_c       12.4031\n_cell_angle_alpha    100.7336\n_cell_angle_beta     87.8714\n_cell_angle_gamma    103.0195\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6035  0.1986  0.2026  1.0000\n  Li  Li2       1.0000  0.2009  0.3938  0.3995  1.0000\n  Li  Li3       1.0000  0.7991  0.6062  0.6005  1.0000\n  Li  Li4       1.0000  0.3965  0.8014  0.7974  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.3041  0.6024  0.1030  1.0000\n  Mn  Mn2       1.0000  0.6959  0.3976  0.8970  1.0000\n  Co  Co1       1.0000  0.9107  0.8095  0.3104  1.0000\n  Co  Co2       1.0000  0.0893  0.1905  0.6896  1.0000\n  O   O2        1.0000  0.9659  0.8848  0.1610  1.0000\n  O   O3        1.0000  0.5586  0.0725  0.3471  1.0000\n  O   O4        1.0000  0.1540  0.2995  0.5645  1.0000\n  O   O5        1.0000  0.7624  0.4787  0.7510  1.0000\n  O   O6        1.0000  0.3735  0.6909  0.9546  1.0000\n  O   O7        1.0000  0.2376  0.5213  0.2490  1.0000\n  O   O8        1.0000  0.8460  0.7005  0.4355  1.0000\n  Li  Li6       1.0000  0.4414  0.9275  0.6529  1.0000\n  O   O9        1.0000  0.0341  0.1152  0.8390  1.0000\n  O   O10       1.0000  0.6265  0.3091  0.0454  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "789d0334-8d16-4ed4-9157-00fdd1430ceb",
    "mp_id": "mp-1174079",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3MnCoO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0501\n_cell_length_b   5.1364\n_cell_length_c   7.7222\n_cell_angle_alpha   102.9785\n_cell_angle_beta   108.5624\n_cell_angle_gamma   99.8537\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3MnCoO5\n_chemical_formula_sum   'Li6 Mn2 Co2 O10'\n_cell_volume   178.5420\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2034  0.4966  0.8974  1\n  Li  Li1  1  0.7832  0.4930  0.0921  1\n  Li  Li2  1  0.4078  0.5002  0.2994  1\n  Li  Li3  1  0.0058  0.5089  0.5075  1\n  Li  Li4  1  0.5959  0.4987  0.7056  1\n  Li  Li5  1  0.4003  0.0018  0.8022  1\n  Mn  Mn6  1  0.0015  0.0035  0.9967  1\n  Mn  Mn7  1  0.2002  0.9985  0.4008  1\n  Co  Co8  1  0.5969  0.9995  0.1908  1\n  Co  Co9  1  0.8038  0.9980  0.6076  1\n  O  O10  1  0.9876  0.7671  0.7639  1\n  O  O11  1  0.6214  0.7749  0.9667  1\n  O  O12  1  0.1945  0.7815  0.1532  1\n  O  O13  1  0.8268  0.7684  0.3560  1\n  O  O14  1  0.4066  0.7791  0.5361  1\n  O  O15  1  0.3794  0.2319  0.0520  1\n  O  O16  1  0.0056  0.2210  0.2460  1\n  O  O17  1  0.5803  0.2221  0.4399  1\n  O  O18  1  0.1785  0.2257  0.6271  1\n  O  O19  1  0.8206  0.2296  0.8592  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OLiMn2Co2O3LiO6\n_chemical_formula_sum              \"Li6 O10 Mn2 Co2\"\n_cell_length_a       5.0501\n_cell_length_b       5.1364\n_cell_length_c       7.7222\n_cell_angle_alpha    102.9785\n_cell_angle_beta     108.5624\n_cell_angle_gamma    99.8537\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2034  0.4966  0.8974  1.0000\n  Li  Li2       1.0000  0.7832  0.4930  0.0921  1.0000\n  Li  Li3       1.0000  0.4078  0.5002  0.2994  1.0000\n  Li  Li4       1.0000  0.0058  0.5089  0.5075  1.0000\n  O   O1        1.0000  0.5959  0.4987  0.7056  1.0000\n  Li  Li5       1.0000  0.4003  0.0018  0.8022  1.0000\n  Mn  Mn1       1.0000  0.0015  0.0035  0.9967  1.0000\n  Mn  Mn2       1.0000  0.2002  0.9985  0.4008  1.0000\n  Co  Co1       1.0000  0.5969  0.9995  0.1908  1.0000\n  Co  Co2       1.0000  0.8038  0.9980  0.6076  1.0000\n  O   O2        1.0000  0.9876  0.7671  0.7639  1.0000\n  O   O3        1.0000  0.6214  0.7749  0.9667  1.0000\n  O   O4        1.0000  0.1945  0.7815  0.1532  1.0000\n  Li  Li6       1.0000  0.8268  0.7684  0.3560  1.0000\n  O   O5        1.0000  0.4066  0.7791  0.5361  1.0000\n  O   O6        1.0000  0.3794  0.2319  0.0520  1.0000\n  O   O7        1.0000  0.0056  0.2210  0.2460  1.0000\n  O   O8        1.0000  0.5803  0.2221  0.4399  1.0000\n  O   O9        1.0000  0.1785  0.2257  0.6271  1.0000\n  O   O10       1.0000  0.8206  0.2296  0.8592  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2431ca62-f3cf-4cef-aed9-645b95884af2",
    "mp_id": "mp-1174299",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Mn3O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8866\n_cell_length_b   6.8866\n_cell_length_c   14.7582\n_cell_angle_alpha   65.7729\n_cell_angle_beta   65.7729\n_cell_angle_gamma   24.1626\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Mn3O7\n_chemical_formula_sum   'Li8 Mn6 O14'\n_cell_volume   260.0495\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7115  0.7115  0.9306  1\n  Li  Li1  1  0.2885  0.2885  0.0694  1\n  Li  Li2  1  0.8653  0.8653  0.2090  1\n  Li  Li3  1  0.1347  0.1347  0.7910  1\n  Li  Li4  1  0.5731  0.5731  0.6430  1\n  Li  Li5  1  0.4269  0.4269  0.3570  1\n  Li  Li6  1  0.0000  0.0000  0.5000  1\n  Li  Li7  1  0.0000  0.0000  0.0000  1\n  Mn  Mn8  1  0.4364  0.4364  0.8630  1\n  Mn  Mn9  1  0.5636  0.5636  0.1370  1\n  Mn  Mn10  1  0.1406  0.1406  0.2821  1\n  Mn  Mn11  1  0.7129  0.7129  0.4281  1\n  Mn  Mn12  1  0.2871  0.2871  0.5719  1\n  Mn  Mn13  1  0.8594  0.8594  0.7179  1\n  O  O14  1  0.8630  0.8630  0.9547  1\n  O  O15  1  0.4428  0.4428  0.1114  1\n  O  O16  1  0.0050  0.0050  0.2366  1\n  O  O17  1  0.2992  0.2992  0.8181  1\n  O  O18  1  0.7195  0.7195  0.6687  1\n  O  O19  1  0.5739  0.5739  0.3797  1\n  O  O20  1  0.1446  0.1446  0.5256  1\n  O  O21  1  0.5572  0.5572  0.8886  1\n  O  O22  1  0.1370  0.1370  0.0453  1\n  O  O23  1  0.7008  0.7008  0.1819  1\n  O  O24  1  0.9950  0.9950  0.7634  1\n  O  O25  1  0.4261  0.4261  0.6203  1\n  O  O26  1  0.2805  0.2805  0.3313  1\n  O  O27  1  0.8554  0.8554  0.4744  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OLi3Mn6O2LiO11\n_chemical_formula_sum              \"Li8 O14 Mn6\"\n_cell_length_a       6.8866\n_cell_length_b       6.8866\n_cell_length_c       14.7582\n_cell_angle_alpha    65.7729\n_cell_angle_beta     65.7729\n_cell_angle_gamma    24.1626\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7115  0.7115  0.9306  1.0000\n  Li  Li2       1.0000  0.2885  0.2885  0.0694  1.0000\n  Li  Li3       1.0000  0.8653  0.8653  0.2090  1.0000\n  Li  Li4       1.0000  0.1347  0.1347  0.7910  1.0000\n  O   O1        1.0000  0.5731  0.5731  0.6430  1.0000\n  Li  Li5       1.0000  0.4269  0.4269  0.3570  1.0000\n  Li  Li6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Li  Li7       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn1       1.0000  0.4364  0.4364  0.8630  1.0000\n  Mn  Mn2       1.0000  0.5636  0.5636  0.1370  1.0000\n  Mn  Mn3       1.0000  0.1406  0.1406  0.2821  1.0000\n  Mn  Mn4       1.0000  0.7129  0.7129  0.4281  1.0000\n  Mn  Mn5       1.0000  0.2871  0.2871  0.5719  1.0000\n  Mn  Mn6       1.0000  0.8594  0.8594  0.7179  1.0000\n  O   O2        1.0000  0.8630  0.8630  0.9547  1.0000\n  O   O3        1.0000  0.4428  0.4428  0.1114  1.0000\n  Li  Li8       1.0000  0.0050  0.0050  0.2366  1.0000\n  O   O4        1.0000  0.2992  0.2992  0.8181  1.0000\n  O   O5        1.0000  0.7195  0.7195  0.6687  1.0000\n  O   O6        1.0000  0.5739  0.5739  0.3797  1.0000\n  O   O7        1.0000  0.1446  0.1446  0.5256  1.0000\n  O   O8        1.0000  0.5572  0.5572  0.8886  1.0000\n  O   O9        1.0000  0.1370  0.1370  0.0453  1.0000\n  O   O10       1.0000  0.7008  0.7008  0.1819  1.0000\n  O   O11       1.0000  0.9950  0.9950  0.7634  1.0000\n  O   O12       1.0000  0.4261  0.4261  0.6203  1.0000\n  O   O13       1.0000  0.2805  0.2805  0.3313  1.0000\n  O   O14       1.0000  0.8554  0.8554  0.4744  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6dbceb2b-18fc-4ea3-a2f3-9104e7079c78",
    "mp_id": "mp-1174536",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4MnCo2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9238\n_cell_length_b   10.6290\n_cell_length_c   8.3651\n_cell_angle_alpha   78.4731\n_cell_angle_beta   90.0000\n_cell_angle_gamma   82.0946\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4MnCo2O7\n_chemical_formula_sum   'Li8 Mn2 Co4 O14'\n_cell_volume   252.1932\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4286  0.1429  0.2143  1\n  Li  Li1  1  0.2890  0.4220  0.6443  1\n  Li  Li2  1  0.1440  0.7120  0.0692  1\n  Li  Li3  1  0.9994  0.0012  0.5157  1\n  Li  Li4  1  0.8577  0.2845  0.9128  1\n  Li  Li5  1  0.7132  0.5737  0.3593  1\n  Li  Li6  1  0.5682  0.8637  0.7842  1\n  Li  Li7  1  0.4286  0.1429  0.7143  1\n  Mn  Mn8  1  0.9985  0.0030  0.9882  1\n  Mn  Mn9  1  0.8586  0.2827  0.4404  1\n  Co  Co10  1  0.7152  0.5696  0.8568  1\n  Co  Co11  1  0.5706  0.8588  0.2846  1\n  Co  Co12  1  0.2865  0.4269  0.1440  1\n  Co  Co13  1  0.1420  0.7161  0.5718  1\n  O  O14  1  0.4363  0.1273  0.9706  1\n  O  O15  1  0.2933  0.4134  0.3945  1\n  O  O16  1  0.1494  0.7013  0.8216  1\n  O  O17  1  0.0049  0.9902  0.2365  1\n  O  O18  1  0.8562  0.2875  0.6567  1\n  O  O19  1  0.7195  0.5611  0.1075  1\n  O  O20  1  0.5740  0.8520  0.5321  1\n  O  O21  1  0.4208  0.1584  0.4580  1\n  O  O22  1  0.2832  0.4337  0.8964  1\n  O  O23  1  0.1377  0.7247  0.3211  1\n  O  O24  1  0.0009  0.9982  0.7719  1\n  O  O25  1  0.8523  0.2955  0.1921  1\n  O  O26  1  0.7078  0.5844  0.6070  1\n  O  O27  1  0.5638  0.8723  0.0341  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OLi3Mn2Co4O13Li\n_chemical_formula_sum              \"Li8 O14 Mn2 Co4\"\n_cell_length_a       2.9238\n_cell_length_b       10.6290\n_cell_length_c       8.3651\n_cell_angle_alpha    78.4731\n_cell_angle_beta     90.0000\n_cell_angle_gamma    82.0946\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4286  0.1429  0.2143  1.0000\n  Li  Li2       1.0000  0.2890  0.4220  0.6443  1.0000\n  Li  Li3       1.0000  0.1440  0.7120  0.0692  1.0000\n  Li  Li4       1.0000  0.9994  0.0012  0.5157  1.0000\n  O   O1        1.0000  0.8577  0.2845  0.9128  1.0000\n  Li  Li5       1.0000  0.7132  0.5737  0.3593  1.0000\n  Li  Li6       1.0000  0.5682  0.8637  0.7842  1.0000\n  Li  Li7       1.0000  0.4286  0.1429  0.7143  1.0000\n  Mn  Mn1       1.0000  0.9985  0.0030  0.9882  1.0000\n  Mn  Mn2       1.0000  0.8586  0.2827  0.4404  1.0000\n  Co  Co1       1.0000  0.7152  0.5696  0.8568  1.0000\n  Co  Co2       1.0000  0.5706  0.8588  0.2846  1.0000\n  Co  Co3       1.0000  0.2865  0.4269  0.1440  1.0000\n  Co  Co4       1.0000  0.1420  0.7161  0.5718  1.0000\n  O   O2        1.0000  0.4363  0.1273  0.9706  1.0000\n  O   O3        1.0000  0.2933  0.4134  0.3945  1.0000\n  O   O4        1.0000  0.1494  0.7013  0.8216  1.0000\n  O   O5        1.0000  0.0049  0.9902  0.2365  1.0000\n  O   O6        1.0000  0.8562  0.2875  0.6567  1.0000\n  O   O7        1.0000  0.7195  0.5611  0.1075  1.0000\n  O   O8        1.0000  0.5740  0.8520  0.5321  1.0000\n  O   O9        1.0000  0.4208  0.1584  0.4580  1.0000\n  O   O10       1.0000  0.2832  0.4337  0.8964  1.0000\n  O   O11       1.0000  0.1377  0.7247  0.3211  1.0000\n  O   O12       1.0000  0.0009  0.9982  0.7719  1.0000\n  O   O13       1.0000  0.8523  0.2955  0.1921  1.0000\n  O   O14       1.0000  0.7078  0.5844  0.6070  1.0000\n  Li  Li8       1.0000  0.5638  0.8723  0.0341  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "db716ac3-6a1d-4065-9605-188c1a3cf0db",
    "mp_id": "mp-1174549",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4MnCo2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9901\n_cell_length_b   2.9901\n_cell_length_c   34.5028\n_cell_angle_alpha   87.1444\n_cell_angle_beta   87.1444\n_cell_angle_gamma   57.2016\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4MnCo2O7\n_chemical_formula_sum   'Li8 Mn2 Co4 O14'\n_cell_volume   258.8905\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7177  0.7177  0.9272  1\n  Li  Li1  1  0.1398  0.1398  0.7872  1\n  Li  Li2  1  0.5745  0.5745  0.6411  1\n  Li  Li3  1  0.0070  0.0070  0.4983  1\n  Li  Li4  1  0.4207  0.4207  0.3587  1\n  Li  Li5  1  0.8549  0.8549  0.2152  1\n  Li  Li6  1  0.2838  0.2838  0.0724  1\n  Li  Li7  1  0.7149  0.7149  0.4285  1\n  Mn  Mn8  1  0.0007  0.0007  0.0001  1\n  Mn  Mn9  1  0.8565  0.8565  0.7142  1\n  Co  Co10  1  0.4286  0.4286  0.8572  1\n  Co  Co11  1  0.2886  0.2886  0.5718  1\n  Co  Co12  1  0.1405  0.1405  0.2849  1\n  Co  Co13  1  0.5713  0.5713  0.1433  1\n  O  O14  1  0.3792  0.3792  0.9671  1\n  O  O15  1  0.7790  0.7790  0.8242  1\n  O  O16  1  0.2352  0.2352  0.6809  1\n  O  O17  1  0.6528  0.6528  0.5425  1\n  O  O18  1  0.0734  0.0734  0.3911  1\n  O  O19  1  0.5138  0.5138  0.2532  1\n  O  O20  1  0.9258  0.9258  0.1108  1\n  O  O21  1  0.0779  0.0779  0.8902  1\n  O  O22  1  0.4785  0.4785  0.7471  1\n  O  O23  1  0.9152  0.9152  0.6036  1\n  O  O24  1  0.3551  0.3551  0.4659  1\n  O  O25  1  0.7759  0.7759  0.3143  1\n  O  O26  1  0.2181  0.2181  0.1755  1\n  O  O27  1  0.6207  0.6207  0.0335  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn2Co3O12CoO2\n_chemical_formula_sum              \"Li8 Mn2 Co4 O14\"\n_cell_length_a       2.9901\n_cell_length_b       2.9901\n_cell_length_c       34.5028\n_cell_angle_alpha    87.1444\n_cell_angle_beta     87.1444\n_cell_angle_gamma    57.2016\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7177  0.7177  0.9272  1.0000\n  Li  Li2       1.0000  0.1398  0.1398  0.7872  1.0000\n  Li  Li3       1.0000  0.5745  0.5745  0.6411  1.0000\n  Li  Li4       1.0000  0.0070  0.0070  0.4983  1.0000\n  Li  Li5       1.0000  0.4207  0.4207  0.3587  1.0000\n  Li  Li6       1.0000  0.8549  0.8549  0.2152  1.0000\n  Li  Li7       1.0000  0.2838  0.2838  0.0724  1.0000\n  Li  Li8       1.0000  0.7149  0.7149  0.4285  1.0000\n  Mn  Mn1       1.0000  0.0007  0.0007  0.0001  1.0000\n  Mn  Mn2       1.0000  0.8565  0.8565  0.7142  1.0000\n  Co  Co1       1.0000  0.4286  0.4286  0.8572  1.0000\n  Co  Co2       1.0000  0.2886  0.2886  0.5718  1.0000\n  Co  Co3       1.0000  0.1405  0.1405  0.2849  1.0000\n  O   O1        1.0000  0.5713  0.5713  0.1433  1.0000\n  O   O2        1.0000  0.3792  0.3792  0.9671  1.0000\n  O   O3        1.0000  0.7790  0.7790  0.8242  1.0000\n  O   O4        1.0000  0.2352  0.2352  0.6809  1.0000\n  O   O5        1.0000  0.6528  0.6528  0.5425  1.0000\n  O   O6        1.0000  0.0734  0.0734  0.3911  1.0000\n  O   O7        1.0000  0.5138  0.5138  0.2532  1.0000\n  O   O8        1.0000  0.9258  0.9258  0.1108  1.0000\n  O   O9        1.0000  0.0779  0.0779  0.8902  1.0000\n  O   O10       1.0000  0.4785  0.4785  0.7471  1.0000\n  O   O11       1.0000  0.9152  0.9152  0.6036  1.0000\n  O   O12       1.0000  0.3551  0.3551  0.4659  1.0000\n  Co  Co4       1.0000  0.7759  0.7759  0.3143  1.0000\n  O   O13       1.0000  0.2181  0.2181  0.1755  1.0000\n  O   O14       1.0000  0.6207  0.6207  0.0335  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5fe06dab-d14f-4748-807e-a439d0f7eee5",
    "mp_id": "mp-1174561",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4MnCo2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0262\n_cell_length_b   5.1212\n_cell_length_c   17.1264\n_cell_angle_alpha   85.6255\n_cell_angle_beta   88.5048\n_cell_angle_gamma   75.6605\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4MnCo2O7\n_chemical_formula_sum   'Li8 Mn2 Co4 O14'\n_cell_volume   256.3945\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4299  0.1425  0.8559  1\n  Li  Li1  1  0.8520  0.2833  0.7132  1\n  Li  Li2  1  0.2856  0.4218  0.5720  1\n  Li  Li3  1  0.7144  0.5782  0.4280  1\n  Li  Li4  1  0.1480  0.7167  0.2868  1\n  Li  Li5  1  0.5701  0.8575  0.1441  1\n  Li  Li6  1  0.0000  0.0000  0.0000  1\n  Li  Li7  1  0.0000  0.0000  0.5000  1\n  Mn  Mn8  1  0.7064  0.5724  0.9267  1\n  Mn  Mn9  1  0.2936  0.4276  0.0733  1\n  Co  Co10  1  0.1373  0.7145  0.7817  1\n  Co  Co11  1  0.5686  0.8641  0.6363  1\n  Co  Co12  1  0.4314  0.1359  0.3637  1\n  Co  Co13  1  0.8627  0.2855  0.2183  1\n  O  O14  1  0.0388  0.8447  0.8866  1\n  O  O15  1  0.5203  0.9763  0.7420  1\n  O  O16  1  0.9186  0.1166  0.6095  1\n  O  O17  1  0.3566  0.2814  0.4533  1\n  O  O18  1  0.7635  0.4068  0.3201  1\n  O  O19  1  0.2349  0.5546  0.1782  1\n  O  O20  1  0.6188  0.7011  0.0326  1\n  O  O21  1  0.7651  0.4454  0.8218  1\n  O  O22  1  0.2365  0.5932  0.6799  1\n  O  O23  1  0.6434  0.7186  0.5467  1\n  O  O24  1  0.0814  0.8834  0.3905  1\n  O  O25  1  0.4797  0.0237  0.2580  1\n  O  O26  1  0.9612  0.1553  0.1134  1\n  O  O27  1  0.3812  0.2989  0.9674  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn2Co3O10CoO4\n_chemical_formula_sum              \"Li8 Mn2 Co4 O14\"\n_cell_length_a       3.0262\n_cell_length_b       5.1212\n_cell_length_c       17.1264\n_cell_angle_alpha    85.6255\n_cell_angle_beta     88.5048\n_cell_angle_gamma    75.6605\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4299  0.1425  0.8559  1.0000\n  Li  Li2       1.0000  0.8520  0.2833  0.7132  1.0000\n  Li  Li3       1.0000  0.2856  0.4218  0.5720  1.0000\n  Li  Li4       1.0000  0.7144  0.5782  0.4280  1.0000\n  Li  Li5       1.0000  0.1480  0.7167  0.2868  1.0000\n  Li  Li6       1.0000  0.5701  0.8575  0.1441  1.0000\n  Li  Li7       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li8       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.7064  0.5724  0.9267  1.0000\n  Mn  Mn2       1.0000  0.2936  0.4276  0.0733  1.0000\n  Co  Co1       1.0000  0.1373  0.7145  0.7817  1.0000\n  Co  Co2       1.0000  0.5686  0.8641  0.6363  1.0000\n  Co  Co3       1.0000  0.4314  0.1359  0.3637  1.0000\n  O   O1        1.0000  0.8627  0.2855  0.2183  1.0000\n  O   O2        1.0000  0.0388  0.8447  0.8866  1.0000\n  O   O3        1.0000  0.5203  0.9763  0.7420  1.0000\n  O   O4        1.0000  0.9186  0.1166  0.6095  1.0000\n  O   O5        1.0000  0.3566  0.2814  0.4533  1.0000\n  O   O6        1.0000  0.7635  0.4068  0.3201  1.0000\n  O   O7        1.0000  0.2349  0.5546  0.1782  1.0000\n  O   O8        1.0000  0.6188  0.7011  0.0326  1.0000\n  O   O9        1.0000  0.7651  0.4454  0.8218  1.0000\n  O   O10       1.0000  0.2365  0.5932  0.6799  1.0000\n  Co  Co4       1.0000  0.6434  0.7186  0.5467  1.0000\n  O   O11       1.0000  0.0814  0.8834  0.3905  1.0000\n  O   O12       1.0000  0.4797  0.0237  0.2580  1.0000\n  O   O13       1.0000  0.9612  0.1553  0.1134  1.0000\n  O   O14       1.0000  0.3812  0.2989  0.9674  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "752afc9a-e941-4d04-b53b-3f59e8be54e6",
    "mp_id": "mp-1174631",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4MnCo2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1354\n_cell_length_b   7.6607\n_cell_length_c   7.7107\n_cell_angle_alpha   118.9801\n_cell_angle_beta   109.0811\n_cell_angle_gamma   83.3598\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4MnCo2O7\n_chemical_formula_sum   'Li8 Mn2 Co4 O14'\n_cell_volume   250.4507\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5082  0.2140  0.0780  1\n  Li  Li1  1  0.5059  0.4856  0.4935  1\n  Li  Li2  1  0.5014  0.6453  0.2156  1\n  Li  Li3  1  0.5024  0.9274  0.6439  1\n  Li  Li4  1  0.5008  0.0752  0.3647  1\n  Li  Li5  1  0.4856  0.3542  0.7739  1\n  Li  Li6  1  0.4979  0.7893  0.9309  1\n  Li  Li7  1  0.9950  0.2851  0.4281  1\n  Mn  Mn8  1  0.0040  0.0031  0.0051  1\n  Mn  Mn9  1  0.9994  0.4281  0.1438  1\n  Co  Co10  1  0.9983  0.5720  0.8569  1\n  Co  Co11  1  0.0117  0.8733  0.2968  1\n  Co  Co12  1  0.9873  0.1490  0.7033  1\n  Co  Co13  1  0.0006  0.7061  0.5680  1\n  O  O14  1  0.2164  0.9725  0.8221  1\n  O  O15  1  0.2235  0.2450  0.2275  1\n  O  O16  1  0.2194  0.4002  0.9613  1\n  O  O17  1  0.2313  0.6573  0.3766  1\n  O  O18  1  0.2376  0.8396  0.1090  1\n  O  O19  1  0.2399  0.0893  0.5317  1\n  O  O20  1  0.2204  0.5486  0.6896  1\n  O  O21  1  0.7713  0.4683  0.3113  1\n  O  O22  1  0.7800  0.7600  0.7701  1\n  O  O23  1  0.7695  0.8867  0.4686  1\n  O  O24  1  0.7774  0.1855  0.9134  1\n  O  O25  1  0.7524  0.3117  0.6114  1\n  O  O26  1  0.7892  0.6037  0.0393  1\n  O  O27  1  0.7731  0.0239  0.1656  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn2Co2OCoO9CoO4\n_chemical_formula_sum              \"Li8 Mn2 Co4 O14\"\n_cell_length_a       5.1354\n_cell_length_b       7.6607\n_cell_length_c       7.7107\n_cell_angle_alpha    118.9801\n_cell_angle_beta     109.0811\n_cell_angle_gamma    83.3598\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5082  0.2140  0.0780  1.0000\n  Li  Li2       1.0000  0.5059  0.4856  0.4935  1.0000\n  Li  Li3       1.0000  0.5014  0.6453  0.2156  1.0000\n  Li  Li4       1.0000  0.5024  0.9274  0.6439  1.0000\n  Li  Li5       1.0000  0.5008  0.0752  0.3647  1.0000\n  Li  Li6       1.0000  0.4856  0.3542  0.7739  1.0000\n  Li  Li7       1.0000  0.4979  0.7893  0.9309  1.0000\n  Li  Li8       1.0000  0.9950  0.2851  0.4281  1.0000\n  Mn  Mn1       1.0000  0.0040  0.0031  0.0051  1.0000\n  Mn  Mn2       1.0000  0.9994  0.4281  0.1438  1.0000\n  Co  Co1       1.0000  0.9983  0.5720  0.8569  1.0000\n  Co  Co2       1.0000  0.0117  0.8733  0.2968  1.0000\n  O   O1        1.0000  0.9873  0.1490  0.7033  1.0000\n  Co  Co3       1.0000  0.0006  0.7061  0.5680  1.0000\n  O   O2        1.0000  0.2164  0.9725  0.8221  1.0000\n  O   O3        1.0000  0.2235  0.2450  0.2275  1.0000\n  O   O4        1.0000  0.2194  0.4002  0.9613  1.0000\n  O   O5        1.0000  0.2313  0.6573  0.3766  1.0000\n  O   O6        1.0000  0.2376  0.8396  0.1090  1.0000\n  O   O7        1.0000  0.2399  0.0893  0.5317  1.0000\n  O   O8        1.0000  0.2204  0.5486  0.6896  1.0000\n  O   O9        1.0000  0.7713  0.4683  0.3113  1.0000\n  O   O10       1.0000  0.7800  0.7600  0.7701  1.0000\n  Co  Co4       1.0000  0.7695  0.8867  0.4686  1.0000\n  O   O11       1.0000  0.7774  0.1855  0.9134  1.0000\n  O   O12       1.0000  0.7524  0.3117  0.6114  1.0000\n  O   O13       1.0000  0.7892  0.6037  0.0393  1.0000\n  O   O14       1.0000  0.7731  0.0239  0.1656  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "82d09a63-0709-4ea8-9e9b-2d06136124ab",
    "mp_id": "mp-1174708",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li7Mn2(CoO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1308\n_cell_length_b   5.8266\n_cell_length_c   7.7561\n_cell_angle_alpha   100.9444\n_cell_angle_beta   96.2327\n_cell_angle_gamma   106.1949\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li7Mn2(CoO4)3\n_chemical_formula_sum   'Li7 Mn2 Co3 O12'\n_cell_volume   215.3891\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5081  0.0871  0.8147  1\n  Li  Li1  1  0.5053  0.5820  0.8238  1\n  Li  Li2  1  0.5013  0.2528  0.5066  1\n  Li  Li3  1  0.5069  0.7532  0.5024  1\n  Li  Li4  1  0.4910  0.4139  0.1764  1\n  Li  Li5  1  0.4917  0.9141  0.1733  1\n  Li  Li6  1  0.9990  0.1668  0.6667  1\n  Mn  Mn7  1  0.0022  0.0002  0.9971  1\n  Mn  Mn8  1  0.9969  0.4947  0.9968  1\n  Co  Co9  1  0.9959  0.6571  0.6602  1\n  Co  Co10  1  0.9935  0.3278  0.3448  1\n  Co  Co11  1  0.0126  0.8438  0.3511  1\n  O  O12  1  0.2235  0.7845  0.9256  1\n  O  O13  1  0.2222  0.2869  0.9293  1\n  O  O14  1  0.2411  0.9507  0.5698  1\n  O  O15  1  0.2340  0.4723  0.5837  1\n  O  O16  1  0.2245  0.1143  0.2368  1\n  O  O17  1  0.2127  0.6031  0.2385  1\n  O  O18  1  0.7704  0.3892  0.7663  1\n  O  O19  1  0.7845  0.8745  0.7630  1\n  O  O20  1  0.7573  0.5495  0.4177  1\n  O  O21  1  0.7614  0.0533  0.4032  1\n  O  O22  1  0.7866  0.7174  0.0818  1\n  O  O23  1  0.7774  0.2107  0.0704  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4CoLi2Mn2LiCo2O12\n_chemical_formula_sum              \"Li7 Co3 Mn2 O12\"\n_cell_length_a       5.1308\n_cell_length_b       5.8266\n_cell_length_c       7.7561\n_cell_angle_alpha    100.9444\n_cell_angle_beta     96.2327\n_cell_angle_gamma    106.1949\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5081  0.0871  0.8147  1.0000\n  Li  Li2       1.0000  0.5053  0.5820  0.8238  1.0000\n  Li  Li3       1.0000  0.5013  0.2528  0.5066  1.0000\n  Li  Li4       1.0000  0.5069  0.7532  0.5024  1.0000\n  Co  Co1       1.0000  0.4910  0.4139  0.1764  1.0000\n  Li  Li5       1.0000  0.4917  0.9141  0.1733  1.0000\n  Li  Li6       1.0000  0.9990  0.1668  0.6667  1.0000\n  Mn  Mn1       1.0000  0.0022  0.0002  0.9971  1.0000\n  Mn  Mn2       1.0000  0.9969  0.4947  0.9968  1.0000\n  Li  Li7       1.0000  0.9959  0.6571  0.6602  1.0000\n  Co  Co2       1.0000  0.9935  0.3278  0.3448  1.0000\n  Co  Co3       1.0000  0.0126  0.8438  0.3511  1.0000\n  O   O1        1.0000  0.2235  0.7845  0.9256  1.0000\n  O   O2        1.0000  0.2222  0.2869  0.9293  1.0000\n  O   O3        1.0000  0.2411  0.9507  0.5698  1.0000\n  O   O4        1.0000  0.2340  0.4723  0.5837  1.0000\n  O   O5        1.0000  0.2245  0.1143  0.2368  1.0000\n  O   O6        1.0000  0.2127  0.6031  0.2385  1.0000\n  O   O7        1.0000  0.7704  0.3892  0.7663  1.0000\n  O   O8        1.0000  0.7845  0.8745  0.7630  1.0000\n  O   O9        1.0000  0.7573  0.5495  0.4177  1.0000\n  O   O10       1.0000  0.7614  0.0533  0.4032  1.0000\n  O   O11       1.0000  0.7866  0.7174  0.0818  1.0000\n  O   O12       1.0000  0.7774  0.2107  0.0704  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b31498ca-cdc2-40f4-9ad9-38519a05c1e1",
    "mp_id": "mp-1175060",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li7Mn2(CoO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9416\n_cell_length_b   6.4627\n_cell_length_c   11.8882\n_cell_angle_alpha   103.6382\n_cell_angle_beta   92.2665\n_cell_angle_gamma   103.0701\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li7Mn2(CoO4)3\n_chemical_formula_sum   'Li7 Mn2 Co3 O12'\n_cell_volume   212.9071\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0013  0.0033  0.2512  1\n  Li  Li1  1  0.3279  0.6639  0.5854  1\n  Li  Li2  1  0.6628  0.3298  0.4197  1\n  Li  Li3  1  0.0025  0.9963  0.7493  1\n  Li  Li4  1  0.6752  0.3476  0.9140  1\n  Li  Li5  1  0.3322  0.6603  0.0768  1\n  Li  Li6  1  0.3241  0.6605  0.8364  1\n  Mn  Mn7  1  0.9890  0.9891  0.9964  1\n  Mn  Mn8  1  0.3419  0.6675  0.3324  1\n  Co  Co9  1  0.6696  0.3490  0.6745  1\n  Co  Co10  1  0.9981  0.0038  0.5023  1\n  Co  Co11  1  0.6749  0.3326  0.1645  1\n  O  O12  1  0.5153  0.0149  0.1143  1\n  O  O13  1  0.8169  0.6816  0.4555  1\n  O  O14  1  0.1925  0.3415  0.2777  1\n  O  O15  1  0.4827  0.0211  0.6210  1\n  O  O16  1  0.1376  0.3287  0.7826  1\n  O  O17  1  0.8374  0.6889  0.9635  1\n  O  O18  1  0.5244  0.9916  0.3785  1\n  O  O19  1  0.8207  0.6375  0.7010  1\n  O  O20  1  0.1788  0.3150  0.5448  1\n  O  O21  1  0.4811  0.0026  0.8911  1\n  O  O22  1  0.1517  0.3200  0.0547  1\n  O  O23  1  0.8614  0.6528  0.2122  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6OMn2Co3OLiO10\n_chemical_formula_sum              \"Li7 O12 Mn2 Co3\"\n_cell_length_a       2.9416\n_cell_length_b       6.4627\n_cell_length_c       11.8882\n_cell_angle_alpha    103.6382\n_cell_angle_beta     92.2665\n_cell_angle_gamma    103.0701\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0013  0.0033  0.2512  1.0000\n  Li  Li2       1.0000  0.3279  0.6639  0.5854  1.0000\n  Li  Li3       1.0000  0.6628  0.3298  0.4197  1.0000\n  Li  Li4       1.0000  0.0025  0.9963  0.7493  1.0000\n  Li  Li5       1.0000  0.6752  0.3476  0.9140  1.0000\n  Li  Li6       1.0000  0.3322  0.6603  0.0768  1.0000\n  O   O1        1.0000  0.3241  0.6605  0.8364  1.0000\n  Mn  Mn1       1.0000  0.9890  0.9891  0.9964  1.0000\n  Mn  Mn2       1.0000  0.3419  0.6675  0.3324  1.0000\n  Co  Co1       1.0000  0.6696  0.3490  0.6745  1.0000\n  Co  Co2       1.0000  0.9981  0.0038  0.5023  1.0000\n  Co  Co3       1.0000  0.6749  0.3326  0.1645  1.0000\n  O   O2        1.0000  0.5153  0.0149  0.1143  1.0000\n  Li  Li7       1.0000  0.8169  0.6816  0.4555  1.0000\n  O   O3        1.0000  0.1925  0.3415  0.2777  1.0000\n  O   O4        1.0000  0.4827  0.0211  0.6210  1.0000\n  O   O5        1.0000  0.1376  0.3287  0.7826  1.0000\n  O   O6        1.0000  0.8374  0.6889  0.9635  1.0000\n  O   O7        1.0000  0.5244  0.9916  0.3785  1.0000\n  O   O8        1.0000  0.8207  0.6375  0.7010  1.0000\n  O   O9        1.0000  0.1788  0.3150  0.5448  1.0000\n  O   O10       1.0000  0.4811  0.0026  0.8911  1.0000\n  O   O11       1.0000  0.1517  0.3200  0.0547  1.0000\n  O   O12       1.0000  0.8614  0.6528  0.2122  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fb0aa1ee-7647-4571-85d2-6674b85a11a4",
    "mp_id": "mp-1175670",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1103\n_cell_length_b   7.6799\n_cell_length_c   7.7538\n_cell_angle_alpha   82.6549\n_cell_angle_beta   83.5411\n_cell_angle_gamma   71.8807\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   285.9910\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5013  0.9381  0.1842  1\n  Li  Li1  1  0.5052  0.5624  0.3041  1\n  Li  Li2  1  0.5002  0.8124  0.5658  1\n  Li  Li3  1  0.4979  0.4411  0.6848  1\n  Li  Li4  1  0.4972  0.6802  0.9454  1\n  Li  Li5  1  0.4912  0.3196  0.0624  1\n  Li  Li6  1  0.4972  0.1885  0.4364  1\n  Li  Li7  1  0.5070  0.0573  0.8149  1\n  Li  Li8  1  0.0001  0.6242  0.1242  1\n  Mn  Mn9  1  0.0109  0.9959  0.9998  1\n  Mn  Mn10  1  0.9940  0.5010  0.4981  1\n  Co  Co11  1  0.9923  0.2622  0.2467  1\n  Co  Co12  1  0.0002  0.8734  0.3710  1\n  Co  Co13  1  0.0007  0.1237  0.6237  1\n  Co  Co14  1  0.9971  0.7493  0.7578  1\n  Co  Co15  1  0.0007  0.3837  0.8801  1\n  O  O16  1  0.2281  0.1577  0.0302  1\n  O  O17  1  0.2317  0.8020  0.1522  1\n  O  O18  1  0.2192  0.0332  0.4158  1\n  O  O19  1  0.2195  0.6543  0.5361  1\n  O  O20  1  0.2412  0.9039  0.7965  1\n  O  O21  1  0.2392  0.5220  0.8966  1\n  O  O22  1  0.2234  0.4033  0.2950  1\n  O  O23  1  0.2115  0.2893  0.6454  1\n  O  O24  1  0.7751  0.7146  0.3603  1\n  O  O25  1  0.7607  0.3550  0.4644  1\n  O  O26  1  0.7705  0.5860  0.7114  1\n  O  O27  1  0.7942  0.2028  0.8419  1\n  O  O28  1  0.7574  0.4558  0.0906  1\n  O  O29  1  0.7762  0.0873  0.2078  1\n  O  O30  1  0.7777  0.9717  0.5968  1\n  O  O31  1  0.7813  0.8481  0.9598  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3CoLi5Mn2Co4LiO16\n_chemical_formula_sum              \"Li9 Co5 Mn2 O16\"\n_cell_length_a       5.1103\n_cell_length_b       7.6799\n_cell_length_c       7.7538\n_cell_angle_alpha    82.6549\n_cell_angle_beta     83.5411\n_cell_angle_gamma    71.8807\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5013  0.9381  0.1842  1.0000\n  Li  Li2       1.0000  0.5052  0.5624  0.3041  1.0000\n  Li  Li3       1.0000  0.5002  0.8124  0.5658  1.0000\n  Co  Co1       1.0000  0.4979  0.4411  0.6848  1.0000\n  Li  Li4       1.0000  0.4972  0.6802  0.9454  1.0000\n  Li  Li5       1.0000  0.4912  0.3196  0.0624  1.0000\n  Li  Li6       1.0000  0.4972  0.1885  0.4364  1.0000\n  Li  Li7       1.0000  0.5070  0.0573  0.8149  1.0000\n  Li  Li8       1.0000  0.0001  0.6242  0.1242  1.0000\n  Mn  Mn1       1.0000  0.0109  0.9959  0.9998  1.0000\n  Mn  Mn2       1.0000  0.9940  0.5010  0.4981  1.0000\n  Co  Co2       1.0000  0.9923  0.2622  0.2467  1.0000\n  Co  Co3       1.0000  0.0002  0.8734  0.3710  1.0000\n  Co  Co4       1.0000  0.0007  0.1237  0.6237  1.0000\n  Co  Co5       1.0000  0.9971  0.7493  0.7578  1.0000\n  Li  Li9       1.0000  0.0007  0.3837  0.8801  1.0000\n  O   O1        1.0000  0.2281  0.1577  0.0302  1.0000\n  O   O2        1.0000  0.2317  0.8020  0.1522  1.0000\n  O   O3        1.0000  0.2192  0.0332  0.4158  1.0000\n  O   O4        1.0000  0.2195  0.6543  0.5361  1.0000\n  O   O5        1.0000  0.2412  0.9039  0.7965  1.0000\n  O   O6        1.0000  0.2392  0.5220  0.8966  1.0000\n  O   O7        1.0000  0.2234  0.4033  0.2950  1.0000\n  O   O8        1.0000  0.2115  0.2893  0.6454  1.0000\n  O   O9        1.0000  0.7751  0.7146  0.3603  1.0000\n  O   O10       1.0000  0.7607  0.3550  0.4644  1.0000\n  O   O11       1.0000  0.7705  0.5860  0.7114  1.0000\n  O   O12       1.0000  0.7942  0.2028  0.8419  1.0000\n  O   O13       1.0000  0.7574  0.4558  0.0906  1.0000\n  O   O14       1.0000  0.7762  0.0873  0.2078  1.0000\n  O   O15       1.0000  0.7777  0.9717  0.5968  1.0000\n  O   O16       1.0000  0.7813  0.8481  0.9598  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f2c30bb7-fe94-4377-9e97-a91b603964fd",
    "mp_id": "mp-1175676",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0263\n_cell_length_b   5.8631\n_cell_length_c   9.8857\n_cell_angle_alpha   88.1262\n_cell_angle_beta   80.3961\n_cell_angle_gamma   88.0858\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   286.9767\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2465  0.9989  0.2588  1\n  Li  Li1  1  0.2632  0.2530  0.7310  1\n  Li  Li2  1  0.2602  0.5059  0.2615  1\n  Li  Li3  1  0.7425  0.2577  0.2669  1\n  Li  Li4  1  0.7398  0.4941  0.7385  1\n  Li  Li5  1  0.7368  0.7470  0.2690  1\n  Li  Li6  1  0.2575  0.7423  0.7331  1\n  Li  Li7  1  0.7535  0.0011  0.7412  1\n  Li  Li8  1  0.5000  0.5000  0.5000  1\n  Mn  Mn9  1  0.0000  0.0000  0.0000  1\n  Mn  Mn10  1  0.0000  0.5000  0.0000  1\n  Co  Co11  1  0.9819  0.2597  0.5033  1\n  Co  Co12  1  0.0181  0.7403  0.4967  1\n  Co  Co13  1  0.4998  0.7518  0.0012  1\n  Co  Co14  1  0.5000  0.0000  0.5000  1\n  Co  Co15  1  0.5002  0.2482  0.9988  1\n  O  O16  1  0.1454  0.7687  0.1122  1\n  O  O17  1  0.1365  0.0025  0.6158  1\n  O  O18  1  0.1295  0.2433  0.1046  1\n  O  O19  1  0.6329  0.9940  0.1045  1\n  O  O20  1  0.6377  0.2457  0.6200  1\n  O  O21  1  0.6218  0.4899  0.1061  1\n  O  O22  1  0.1020  0.5085  0.6243  1\n  O  O23  1  0.6232  0.7756  0.6107  1\n  O  O24  1  0.3768  0.2244  0.3893  1\n  O  O25  1  0.3782  0.5101  0.8939  1\n  O  O26  1  0.3623  0.7543  0.3800  1\n  O  O27  1  0.8980  0.4915  0.3757  1\n  O  O28  1  0.8705  0.7567  0.8954  1\n  O  O29  1  0.8635  0.9975  0.3842  1\n  O  O30  1  0.3671  0.0060  0.8955  1\n  O  O31  1  0.8546  0.2313  0.8878  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OLi5Mn2Co5O14LiO\n_chemical_formula_sum              \"Li9 O16 Mn2 Co5\"\n_cell_length_a       5.0263\n_cell_length_b       5.8631\n_cell_length_c       9.8857\n_cell_angle_alpha    88.1262\n_cell_angle_beta     80.3961\n_cell_angle_gamma    88.0858\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2465  0.9989  0.2588  1.0000\n  Li  Li2       1.0000  0.2632  0.2530  0.7310  1.0000\n  Li  Li3       1.0000  0.2602  0.5059  0.2615  1.0000\n  O   O1        1.0000  0.7425  0.2577  0.2669  1.0000\n  Li  Li4       1.0000  0.7398  0.4941  0.7385  1.0000\n  Li  Li5       1.0000  0.7368  0.7470  0.2690  1.0000\n  Li  Li6       1.0000  0.2575  0.7423  0.7331  1.0000\n  Li  Li7       1.0000  0.7535  0.0011  0.7412  1.0000\n  Li  Li8       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Co  Co1       1.0000  0.9819  0.2597  0.5033  1.0000\n  Co  Co2       1.0000  0.0181  0.7403  0.4967  1.0000\n  Co  Co3       1.0000  0.4998  0.7518  0.0012  1.0000\n  Co  Co4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Co  Co5       1.0000  0.5002  0.2482  0.9988  1.0000\n  O   O2        1.0000  0.1454  0.7687  0.1122  1.0000\n  O   O3        1.0000  0.1365  0.0025  0.6158  1.0000\n  O   O4        1.0000  0.1295  0.2433  0.1046  1.0000\n  O   O5        1.0000  0.6329  0.9940  0.1045  1.0000\n  O   O6        1.0000  0.6377  0.2457  0.6200  1.0000\n  O   O7        1.0000  0.6218  0.4899  0.1061  1.0000\n  O   O8        1.0000  0.1020  0.5085  0.6243  1.0000\n  O   O9        1.0000  0.6232  0.7756  0.6107  1.0000\n  O   O10       1.0000  0.3768  0.2244  0.3893  1.0000\n  O   O11       1.0000  0.3782  0.5101  0.8939  1.0000\n  O   O12       1.0000  0.3623  0.7543  0.3800  1.0000\n  O   O13       1.0000  0.8980  0.4915  0.3757  1.0000\n  O   O14       1.0000  0.8705  0.7567  0.8954  1.0000\n  O   O15       1.0000  0.8635  0.9975  0.3842  1.0000\n  Li  Li9       1.0000  0.3671  0.0060  0.8955  1.0000\n  O   O16       1.0000  0.8546  0.2313  0.8878  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b74004c9-0d72-42d1-98db-df929d9aa594",
    "mp_id": "mp-1175716",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1407\n_cell_length_b   10.1407\n_cell_length_c   5.1638\n_cell_angle_alpha   81.4722\n_cell_angle_beta   81.4722\n_cell_angle_gamma   33.2041\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   287.2925\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2515  0.5033  0.2504  1\n  Li  Li1  1  0.3785  0.1227  0.4970  1\n  Li  Li2  1  0.4967  0.7485  0.7496  1\n  Li  Li3  1  0.6225  0.3775  0.0000  1\n  Li  Li4  1  0.7517  0.0042  0.2532  1\n  Li  Li5  1  0.8773  0.6215  0.5030  1\n  Li  Li6  1  0.9958  0.2483  0.7468  1\n  Li  Li7  1  0.1211  0.8789  0.0000  1\n  Li  Li8  1  0.8724  0.1276  0.5000  1\n  Mn  Mn9  1  0.0038  0.7497  0.7520  1\n  Mn  Mn10  1  0.2503  0.9962  0.2480  1\n  Co  Co11  1  0.1268  0.3720  0.0031  1\n  Co  Co12  1  0.3731  0.6269  0.5000  1\n  Co  Co13  1  0.5078  0.2507  0.7418  1\n  Co  Co14  1  0.6280  0.8732  0.9969  1\n  Co  Co15  1  0.7493  0.4922  0.2582  1\n  O  O16  1  0.2937  0.5704  0.8791  1\n  O  O17  1  0.4339  0.1798  0.1108  1\n  O  O18  1  0.5580  0.8097  0.3514  1\n  O  O19  1  0.6657  0.4546  0.5987  1\n  O  O20  1  0.8088  0.0526  0.8711  1\n  O  O21  1  0.9408  0.6893  0.0965  1\n  O  O22  1  0.0712  0.2971  0.3629  1\n  O  O23  1  0.2016  0.9269  0.5808  1\n  O  O24  1  0.1903  0.4420  0.6486  1\n  O  O25  1  0.3107  0.0592  0.9035  1\n  O  O26  1  0.4296  0.7063  0.1209  1\n  O  O27  1  0.5454  0.3343  0.4013  1\n  O  O28  1  0.7029  0.9288  0.6371  1\n  O  O29  1  0.8202  0.5661  0.8892  1\n  O  O30  1  0.9474  0.1912  0.1289  1\n  O  O31  1  0.0731  0.7984  0.4192  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OLiMn2Co5O12LiO3\n_chemical_formula_sum              \"Li9 O16 Mn2 Co5\"\n_cell_length_a       10.1407\n_cell_length_b       10.1407\n_cell_length_c       5.1638\n_cell_angle_alpha    81.4722\n_cell_angle_beta     81.4722\n_cell_angle_gamma    33.2041\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2515  0.5033  0.2504  1.0000\n  Li  Li2       1.0000  0.3785  0.1227  0.4970  1.0000\n  Li  Li3       1.0000  0.4967  0.7485  0.7496  1.0000\n  Li  Li4       1.0000  0.6225  0.3775  0.0000  1.0000\n  Li  Li5       1.0000  0.7517  0.0042  0.2532  1.0000\n  Li  Li6       1.0000  0.8773  0.6215  0.5030  1.0000\n  Li  Li7       1.0000  0.9958  0.2483  0.7468  1.0000\n  O   O1        1.0000  0.1211  0.8789  0.0000  1.0000\n  Li  Li8       1.0000  0.8724  0.1276  0.5000  1.0000\n  Mn  Mn1       1.0000  0.0038  0.7497  0.7520  1.0000\n  Mn  Mn2       1.0000  0.2503  0.9962  0.2480  1.0000\n  Co  Co1       1.0000  0.1268  0.3720  0.0031  1.0000\n  Co  Co2       1.0000  0.3731  0.6269  0.5000  1.0000\n  Co  Co3       1.0000  0.5078  0.2507  0.7418  1.0000\n  Co  Co4       1.0000  0.6280  0.8732  0.9969  1.0000\n  Co  Co5       1.0000  0.7493  0.4922  0.2582  1.0000\n  O   O2        1.0000  0.2937  0.5704  0.8791  1.0000\n  O   O3        1.0000  0.4339  0.1798  0.1108  1.0000\n  O   O4        1.0000  0.5580  0.8097  0.3514  1.0000\n  O   O5        1.0000  0.6657  0.4546  0.5987  1.0000\n  O   O6        1.0000  0.8088  0.0526  0.8711  1.0000\n  O   O7        1.0000  0.9408  0.6893  0.0965  1.0000\n  O   O8        1.0000  0.0712  0.2971  0.3629  1.0000\n  O   O9        1.0000  0.2016  0.9269  0.5808  1.0000\n  O   O10       1.0000  0.1903  0.4420  0.6486  1.0000\n  O   O11       1.0000  0.3107  0.0592  0.9035  1.0000\n  O   O12       1.0000  0.4296  0.7063  0.1209  1.0000\n  O   O13       1.0000  0.5454  0.3343  0.4013  1.0000\n  Li  Li9       1.0000  0.7029  0.9288  0.6371  1.0000\n  O   O14       1.0000  0.8202  0.5661  0.8892  1.0000\n  O   O15       1.0000  0.9474  0.1912  0.1289  1.0000\n  O   O16       1.0000  0.0731  0.7984  0.4192  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "378bd3f8-40f4-4bdb-85bf-250483a59413",
    "mp_id": "mp-1176074",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0119\n_cell_length_b   9.8989\n_cell_length_c   10.2418\n_cell_angle_alpha   73.2519\n_cell_angle_beta   82.8993\n_cell_angle_gamma   86.8726\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   290.1042\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9352  0.6824  0.1247  1\n  Li  Li1  1  0.4410  0.1910  0.1288  1\n  Li  Li2  1  0.3161  0.5595  0.3726  1\n  Li  Li3  1  0.8180  0.0621  0.3734  1\n  Li  Li4  1  0.6817  0.4384  0.6267  1\n  Li  Li5  1  0.1830  0.9385  0.6273  1\n  Li  Li6  1  0.0649  0.3175  0.8757  1\n  Li  Li7  1  0.5596  0.8090  0.8713  1\n  Li  Li8  1  0.4995  0.4992  0.0007  1\n  Mn  Mn9  1  0.0009  0.0001  0.9997  1\n  Mn  Mn10  1  0.7483  0.7499  0.5018  1\n  Co  Co11  1  0.3754  0.8735  0.2501  1\n  Co  Co12  1  0.8783  0.3815  0.2411  1\n  Co  Co13  1  0.2561  0.2487  0.4984  1\n  Co  Co14  1  0.1104  0.6185  0.7613  1\n  Co  Co15  1  0.6339  0.1273  0.7473  1\n  O  O16  1  0.4361  0.8485  0.0680  1\n  O  O17  1  0.9535  0.3425  0.0837  1\n  O  O18  1  0.8138  0.7277  0.3165  1\n  O  O19  1  0.3081  0.2275  0.3179  1\n  O  O20  1  0.1842  0.5996  0.5749  1\n  O  O21  1  0.7363  0.1027  0.5678  1\n  O  O22  1  0.5687  0.4806  0.8090  1\n  O  O23  1  0.0691  0.9810  0.8134  1\n  O  O24  1  0.4224  0.5187  0.1915  1\n  O  O25  1  0.9355  0.0201  0.1854  1\n  O  O26  1  0.7738  0.3977  0.4259  1\n  O  O27  1  0.3125  0.9014  0.4311  1\n  O  O28  1  0.1954  0.2736  0.6806  1\n  O  O29  1  0.6791  0.7717  0.6850  1\n  O  O30  1  0.5627  0.1529  0.9302  1\n  O  O31  1  0.0464  0.6564  0.9181  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li9MnOCo5O9MnO6\n_chemical_formula_sum              \"Li9 Mn2 O16 Co5\"\n_cell_length_a       3.0119\n_cell_length_b       9.8989\n_cell_length_c       10.2418\n_cell_angle_alpha    73.2519\n_cell_angle_beta     82.8993\n_cell_angle_gamma    86.8726\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9352  0.6824  0.1247  1.0000\n  Li  Li2       1.0000  0.4410  0.1910  0.1288  1.0000\n  Li  Li3       1.0000  0.3161  0.5595  0.3726  1.0000\n  Li  Li4       1.0000  0.8180  0.0621  0.3734  1.0000\n  Li  Li5       1.0000  0.6817  0.4384  0.6267  1.0000\n  Li  Li6       1.0000  0.1830  0.9385  0.6273  1.0000\n  Li  Li7       1.0000  0.0649  0.3175  0.8757  1.0000\n  Li  Li8       1.0000  0.5596  0.8090  0.8713  1.0000\n  Li  Li9       1.0000  0.4995  0.4992  0.0007  1.0000\n  Mn  Mn1       1.0000  0.0009  0.0001  0.9997  1.0000\n  O   O1        1.0000  0.7483  0.7499  0.5018  1.0000\n  Co  Co1       1.0000  0.3754  0.8735  0.2501  1.0000\n  Co  Co2       1.0000  0.8783  0.3815  0.2411  1.0000\n  Co  Co3       1.0000  0.2561  0.2487  0.4984  1.0000\n  Co  Co4       1.0000  0.1104  0.6185  0.7613  1.0000\n  Co  Co5       1.0000  0.6339  0.1273  0.7473  1.0000\n  O   O2        1.0000  0.4361  0.8485  0.0680  1.0000\n  O   O3        1.0000  0.9535  0.3425  0.0837  1.0000\n  O   O4        1.0000  0.8138  0.7277  0.3165  1.0000\n  O   O5        1.0000  0.3081  0.2275  0.3179  1.0000\n  O   O6        1.0000  0.1842  0.5996  0.5749  1.0000\n  O   O7        1.0000  0.7363  0.1027  0.5678  1.0000\n  O   O8        1.0000  0.5687  0.4806  0.8090  1.0000\n  O   O9        1.0000  0.0691  0.9810  0.8134  1.0000\n  O   O10       1.0000  0.4224  0.5187  0.1915  1.0000\n  Mn  Mn2       1.0000  0.9355  0.0201  0.1854  1.0000\n  O   O11       1.0000  0.7738  0.3977  0.4259  1.0000\n  O   O12       1.0000  0.3125  0.9014  0.4311  1.0000\n  O   O13       1.0000  0.1954  0.2736  0.6806  1.0000\n  O   O14       1.0000  0.6791  0.7717  0.6850  1.0000\n  O   O15       1.0000  0.5627  0.1529  0.9302  1.0000\n  O   O16       1.0000  0.0464  0.6564  0.9181  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ec603263-2339-46bf-96dc-c88de187ea41",
    "mp_id": "mp-1176243",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0282\n_cell_length_b   5.9226\n_cell_length_c   10.1545\n_cell_angle_alpha   104.8818\n_cell_angle_beta   99.6506\n_cell_angle_gamma   92.2522\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   287.0457\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2584  0.8659  0.7298  1\n  Li  Li1  1  0.2558  0.3938  0.2640  1\n  Li  Li2  1  0.7515  0.6191  0.7339  1\n  Li  Li3  1  0.7558  0.1376  0.2644  1\n  Li  Li4  1  0.2463  0.3556  0.7341  1\n  Li  Li5  1  0.2584  0.8767  0.2660  1\n  Li  Li6  1  0.7420  0.1146  0.7369  1\n  Li  Li7  1  0.7382  0.6380  0.2701  1\n  Li  Li8  1  0.5015  0.7483  0.5012  1\n  Mn  Mn9  1  0.0007  0.0024  0.9997  1\n  Mn  Mn10  1  0.5017  0.7492  0.0017  1\n  Co  Co11  1  0.0059  0.5051  0.5015  1\n  Co  Co12  1  0.4948  0.2521  0.5010  1\n  Co  Co13  1  0.0017  0.4980  0.0002  1\n  Co  Co14  1  0.9862  0.9911  0.4966  1\n  Co  Co15  1  0.4982  0.2464  0.9982  1\n  O  O16  1  0.1394  0.1817  0.8864  1\n  O  O17  1  0.1051  0.6803  0.3858  1\n  O  O18  1  0.6426  0.9243  0.8847  1\n  O  O19  1  0.6449  0.4318  0.3898  1\n  O  O20  1  0.1248  0.7086  0.8978  1\n  O  O21  1  0.1222  0.2157  0.3872  1\n  O  O22  1  0.6444  0.4218  0.8884  1\n  O  O23  1  0.6371  0.9471  0.3812  1\n  O  O24  1  0.3470  0.5492  0.6137  1\n  O  O25  1  0.3557  0.0821  0.1138  1\n  O  O26  1  0.8795  0.3173  0.6144  1\n  O  O27  1  0.8680  0.8241  0.1147  1\n  O  O28  1  0.3689  0.0708  0.6127  1\n  O  O29  1  0.3592  0.5686  0.1145  1\n  O  O30  1  0.8945  0.7909  0.6133  1\n  O  O31  1  0.8694  0.2917  0.1022  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5MnLi4MnCo5O16\n_chemical_formula_sum              \"Li9 Mn2 Co5 O16\"\n_cell_length_a       5.0282\n_cell_length_b       5.9226\n_cell_length_c       10.1545\n_cell_angle_alpha    104.8818\n_cell_angle_beta     99.6506\n_cell_angle_gamma    92.2522\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2584  0.8659  0.7298  1.0000\n  Li  Li2       1.0000  0.2558  0.3938  0.2640  1.0000\n  Li  Li3       1.0000  0.7515  0.6191  0.7339  1.0000\n  Li  Li4       1.0000  0.7558  0.1376  0.2644  1.0000\n  Li  Li5       1.0000  0.2463  0.3556  0.7341  1.0000\n  Mn  Mn1       1.0000  0.2584  0.8767  0.2660  1.0000\n  Li  Li6       1.0000  0.7420  0.1146  0.7369  1.0000\n  Li  Li7       1.0000  0.7382  0.6380  0.2701  1.0000\n  Li  Li8       1.0000  0.5015  0.7483  0.5012  1.0000\n  Li  Li9       1.0000  0.0007  0.0024  0.9997  1.0000\n  Mn  Mn2       1.0000  0.5017  0.7492  0.0017  1.0000\n  Co  Co1       1.0000  0.0059  0.5051  0.5015  1.0000\n  Co  Co2       1.0000  0.4948  0.2521  0.5010  1.0000\n  Co  Co3       1.0000  0.0017  0.4980  0.0002  1.0000\n  Co  Co4       1.0000  0.9862  0.9911  0.4966  1.0000\n  Co  Co5       1.0000  0.4982  0.2464  0.9982  1.0000\n  O   O1        1.0000  0.1394  0.1817  0.8864  1.0000\n  O   O2        1.0000  0.1051  0.6803  0.3858  1.0000\n  O   O3        1.0000  0.6426  0.9243  0.8847  1.0000\n  O   O4        1.0000  0.6449  0.4318  0.3898  1.0000\n  O   O5        1.0000  0.1248  0.7086  0.8978  1.0000\n  O   O6        1.0000  0.1222  0.2157  0.3872  1.0000\n  O   O7        1.0000  0.6444  0.4218  0.8884  1.0000\n  O   O8        1.0000  0.6371  0.9471  0.3812  1.0000\n  O   O9        1.0000  0.3470  0.5492  0.6137  1.0000\n  O   O10       1.0000  0.3557  0.0821  0.1138  1.0000\n  O   O11       1.0000  0.8795  0.3173  0.6144  1.0000\n  O   O12       1.0000  0.8680  0.8241  0.1147  1.0000\n  O   O13       1.0000  0.3689  0.0708  0.6127  1.0000\n  O   O14       1.0000  0.3592  0.5686  0.1145  1.0000\n  O   O15       1.0000  0.8945  0.7909  0.6133  1.0000\n  O   O16       1.0000  0.8694  0.2917  0.1022  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "86a6d98d-ce51-4ed2-9b39-a93196092f84",
    "mp_id": "mp-1176471",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MnCo9O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1084\n_cell_length_b   8.1084\n_cell_length_c   8.6391\n_cell_angle_alpha   74.5331\n_cell_angle_beta   74.5331\n_cell_angle_gamma   21.7030\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MnCo9O10\n_chemical_formula_sum   'Mn1 Co9 O10'\n_cell_volume   202.1474\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0000  0.0000  0.0000  1\n  Co  Co1  1  0.2016  0.2016  0.8986  1\n  Co  Co2  1  0.3996  0.3996  0.7979  1\n  Co  Co3  1  0.2000  0.2000  0.4006  1\n  Co  Co4  1  0.3981  0.3981  0.3030  1\n  Co  Co5  1  0.6019  0.6019  0.6970  1\n  Co  Co6  1  0.8000  0.8000  0.5994  1\n  Co  Co7  1  0.6004  0.6004  0.2021  1\n  Co  Co8  1  0.7984  0.7984  0.1014  1\n  Co  Co9  1  0.0000  0.0000  0.5000  1\n  O  O10  1  0.2010  0.2010  0.6502  1\n  O  O11  1  0.3988  0.3988  0.5493  1\n  O  O12  1  0.1982  0.1982  0.1503  1\n  O  O13  1  0.3960  0.3960  0.0533  1\n  O  O14  1  0.6040  0.6040  0.9467  1\n  O  O15  1  0.8018  0.8018  0.8497  1\n  O  O16  1  0.6012  0.6012  0.4507  1\n  O  O17  1  0.7990  0.7990  0.3498  1\n  O  O18  1  0.9998  0.9998  0.7441  1\n  O  O19  1  0.0002  0.0002  0.2559  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnCo7OCoO7CoO2\n_chemical_formula_sum              \"Mn1 Co9 O10\"\n_cell_length_a       8.1084\n_cell_length_b       8.1084\n_cell_length_c       8.6391\n_cell_angle_alpha    74.5331\n_cell_angle_beta     74.5331\n_cell_angle_gamma    21.7030\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co1       1.0000  0.2016  0.2016  0.8986  1.0000\n  Co  Co2       1.0000  0.3996  0.3996  0.7979  1.0000\n  Co  Co3       1.0000  0.2000  0.2000  0.4006  1.0000\n  Co  Co4       1.0000  0.3981  0.3981  0.3030  1.0000\n  Co  Co5       1.0000  0.6019  0.6019  0.6970  1.0000\n  Co  Co6       1.0000  0.8000  0.8000  0.5994  1.0000\n  Co  Co7       1.0000  0.6004  0.6004  0.2021  1.0000\n  O   O1        1.0000  0.7984  0.7984  0.1014  1.0000\n  Co  Co8       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.2010  0.2010  0.6502  1.0000\n  O   O3        1.0000  0.3988  0.3988  0.5493  1.0000\n  O   O4        1.0000  0.1982  0.1982  0.1503  1.0000\n  O   O5        1.0000  0.3960  0.3960  0.0533  1.0000\n  O   O6        1.0000  0.6040  0.6040  0.9467  1.0000\n  O   O7        1.0000  0.8018  0.8018  0.8497  1.0000\n  O   O8        1.0000  0.6012  0.6012  0.4507  1.0000\n  Co  Co9       1.0000  0.7990  0.7990  0.3498  1.0000\n  O   O9        1.0000  0.9998  0.9998  0.7441  1.0000\n  O   O10       1.0000  0.0002  0.0002  0.2559  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d6318b07-8d31-434e-93b7-77ff4751efc8",
    "mp_id": "mp-1176486",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn2V3Sn(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7149\n_cell_length_b   8.7149\n_cell_length_c   8.7149\n_cell_angle_alpha   59.7404\n_cell_angle_beta   59.7404\n_cell_angle_gamma   59.7404\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn2V3Sn(PO4)6\n_chemical_formula_sum   'Mn2 V3 Sn1 P6 O24'\n_cell_volume   465.2652\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0033  0.0033  0.0033  1\n  Mn  Mn1  1  0.4993  0.4993  0.4993  1\n  V  V2  1  0.3553  0.3553  0.3553  1\n  V  V3  1  0.1445  0.1445  0.1445  1\n  V  V4  1  0.6433  0.6433  0.6433  1\n  Sn  Sn5  1  0.8551  0.8551  0.8551  1\n  P  P6  1  0.4533  0.7480  0.0441  1\n  P  P7  1  0.7480  0.0441  0.4533  1\n  P  P8  1  0.0441  0.4533  0.7480  1\n  P  P9  1  0.9584  0.5395  0.2528  1\n  P  P10  1  0.2528  0.9584  0.5395  1\n  P  P11  1  0.5395  0.2528  0.9584  1\n  O  O12  1  0.6935  0.8825  0.4956  1\n  O  O13  1  0.8825  0.4956  0.6935  1\n  O  O14  1  0.4956  0.6935  0.8825  1\n  O  O15  1  0.2623  0.9135  0.0612  1\n  O  O16  1  0.6095  0.8050  0.0166  1\n  O  O17  1  0.4362  0.5841  0.2369  1\n  O  O18  1  0.9135  0.0612  0.2623  1\n  O  O19  1  0.5841  0.2369  0.4362  1\n  O  O20  1  0.9945  0.3844  0.1923  1\n  O  O21  1  0.2369  0.4362  0.5841  1\n  O  O22  1  0.9436  0.7359  0.0877  1\n  O  O23  1  0.1923  0.9945  0.3844  1\n  O  O24  1  0.8050  0.0166  0.6095  1\n  O  O25  1  0.0612  0.2623  0.9135  1\n  O  O26  1  0.7636  0.5604  0.4141  1\n  O  O27  1  0.0166  0.6095  0.8050  1\n  O  O28  1  0.4141  0.7636  0.5604  1\n  O  O29  1  0.0877  0.9436  0.7359  1\n  O  O30  1  0.5604  0.4141  0.7636  1\n  O  O31  1  0.3844  0.1923  0.9945  1\n  O  O32  1  0.7359  0.0877  0.9436  1\n  O  O33  1  0.5032  0.3099  0.1164  1\n  O  O34  1  0.1164  0.5032  0.3099  1\n  O  O35  1  0.3099  0.1164  0.5032  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn2VOVSnP6O10VO13\n_chemical_formula_sum              \"Mn2 V3 O24 Sn1 P6\"\n_cell_length_a       8.7149\n_cell_length_b       8.7149\n_cell_length_c       8.7149\n_cell_angle_alpha    59.7404\n_cell_angle_beta     59.7404\n_cell_angle_gamma    59.7404\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0033  0.0033  0.0033  1.0000\n  Mn  Mn2       1.0000  0.4993  0.4993  0.4993  1.0000\n  V   V1        1.0000  0.3553  0.3553  0.3553  1.0000\n  O   O1        1.0000  0.1445  0.1445  0.1445  1.0000\n  V   V2        1.0000  0.6433  0.6433  0.6433  1.0000\n  Sn  Sn1       1.0000  0.8551  0.8551  0.8551  1.0000\n  P   P1        1.0000  0.4533  0.7480  0.0441  1.0000\n  P   P2        1.0000  0.7480  0.0441  0.4533  1.0000\n  P   P3        1.0000  0.0441  0.4533  0.7480  1.0000\n  P   P4        1.0000  0.9584  0.5395  0.2528  1.0000\n  P   P5        1.0000  0.2528  0.9584  0.5395  1.0000\n  P   P6        1.0000  0.5395  0.2528  0.9584  1.0000\n  O   O2        1.0000  0.6935  0.8825  0.4956  1.0000\n  O   O3        1.0000  0.8825  0.4956  0.6935  1.0000\n  O   O4        1.0000  0.4956  0.6935  0.8825  1.0000\n  O   O5        1.0000  0.2623  0.9135  0.0612  1.0000\n  O   O6        1.0000  0.6095  0.8050  0.0166  1.0000\n  O   O7        1.0000  0.4362  0.5841  0.2369  1.0000\n  O   O8        1.0000  0.9135  0.0612  0.2623  1.0000\n  O   O9        1.0000  0.5841  0.2369  0.4362  1.0000\n  O   O10       1.0000  0.9945  0.3844  0.1923  1.0000\n  O   O11       1.0000  0.2369  0.4362  0.5841  1.0000\n  V   V3        1.0000  0.9436  0.7359  0.0877  1.0000\n  O   O12       1.0000  0.1923  0.9945  0.3844  1.0000\n  O   O13       1.0000  0.8050  0.0166  0.6095  1.0000\n  O   O14       1.0000  0.0612  0.2623  0.9135  1.0000\n  O   O15       1.0000  0.7636  0.5604  0.4141  1.0000\n  O   O16       1.0000  0.0166  0.6095  0.8050  1.0000\n  O   O17       1.0000  0.4141  0.7636  0.5604  1.0000\n  O   O18       1.0000  0.0877  0.9436  0.7359  1.0000\n  O   O19       1.0000  0.5604  0.4141  0.7636  1.0000\n  O   O20       1.0000  0.3844  0.1923  0.9945  1.0000\n  O   O21       1.0000  0.7359  0.0877  0.9436  1.0000\n  O   O22       1.0000  0.5032  0.3099  0.1164  1.0000\n  O   O23       1.0000  0.1164  0.5032  0.3099  1.0000\n  O   O24       1.0000  0.3099  0.1164  0.5032  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1113778b-ee3e-463c-b63b-5e3c49fd8440",
    "mp_id": "mp-1176593",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiSn(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6306\n_cell_length_b   7.6306\n_cell_length_c   10.6699\n_cell_angle_alpha   65.6761\n_cell_angle_beta   65.6761\n_cell_angle_gamma   69.2558\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiSn(PO3)4\n_chemical_formula_sum   'Li2 Sn2 P8 O24'\n_cell_volume   502.9657\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0016  0.9984  0.2500  1\n  Li  Li1  1  0.9984  0.0016  0.7500  1\n  Sn  Sn2  1  0.0000  0.5000  0.5000  1\n  Sn  Sn3  1  0.5000  0.0000  0.0000  1\n  P  P4  1  0.6937  0.6805  0.8108  1\n  P  P5  1  0.2577  0.7259  0.9767  1\n  P  P6  1  0.2741  0.7423  0.5233  1\n  P  P7  1  0.6805  0.6937  0.3108  1\n  P  P8  1  0.3195  0.3063  0.6892  1\n  P  P9  1  0.7259  0.2577  0.4767  1\n  P  P10  1  0.7423  0.2741  0.0233  1\n  P  P11  1  0.3063  0.3195  0.1892  1\n  O  O12  1  0.7974  0.6576  0.6632  1\n  O  O13  1  0.2930  0.8037  0.0736  1\n  O  O14  1  0.4670  0.6805  0.8525  1\n  O  O15  1  0.1020  0.8346  0.9078  1\n  O  O16  1  0.8627  0.7106  0.3276  1\n  O  O17  1  0.2254  0.5037  0.0683  1\n  O  O18  1  0.8037  0.2930  0.5736  1\n  O  O19  1  0.1654  0.8980  0.5922  1\n  O  O20  1  0.4963  0.7746  0.4317  1\n  O  O21  1  0.6576  0.7974  0.1632  1\n  O  O22  1  0.3195  0.5330  0.6475  1\n  O  O23  1  0.2894  0.1373  0.1724  1\n  O  O24  1  0.7106  0.8627  0.8276  1\n  O  O25  1  0.6805  0.4670  0.3525  1\n  O  O26  1  0.3424  0.2026  0.8368  1\n  O  O27  1  0.5037  0.2254  0.5683  1\n  O  O28  1  0.8346  0.1020  0.4078  1\n  O  O29  1  0.1963  0.7070  0.4264  1\n  O  O30  1  0.7746  0.4963  0.9317  1\n  O  O31  1  0.1373  0.2894  0.6724  1\n  O  O32  1  0.8980  0.1654  0.0922  1\n  O  O33  1  0.5330  0.3195  0.1475  1\n  O  O34  1  0.7070  0.1963  0.9264  1\n  O  O35  1  0.2026  0.3424  0.3368  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Sn2OP7O11PO12\n_chemical_formula_sum              \"Li2 Sn2 O24 P8\"\n_cell_length_a       7.6306\n_cell_length_b       7.6306\n_cell_length_c       10.6699\n_cell_angle_alpha    65.6761\n_cell_angle_beta     65.6761\n_cell_angle_gamma    69.2558\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0016  0.9984  0.2500  1.0000\n  Li  Li2       1.0000  0.9984  0.0016  0.7500  1.0000\n  Sn  Sn1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Sn  Sn2       1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.6937  0.6805  0.8108  1.0000\n  P   P1        1.0000  0.2577  0.7259  0.9767  1.0000\n  P   P2        1.0000  0.2741  0.7423  0.5233  1.0000\n  P   P3        1.0000  0.6805  0.6937  0.3108  1.0000\n  P   P4        1.0000  0.3195  0.3063  0.6892  1.0000\n  P   P5        1.0000  0.7259  0.2577  0.4767  1.0000\n  P   P6        1.0000  0.7423  0.2741  0.0233  1.0000\n  P   P7        1.0000  0.3063  0.3195  0.1892  1.0000\n  O   O2        1.0000  0.7974  0.6576  0.6632  1.0000\n  O   O3        1.0000  0.2930  0.8037  0.0736  1.0000\n  O   O4        1.0000  0.4670  0.6805  0.8525  1.0000\n  O   O5        1.0000  0.1020  0.8346  0.9078  1.0000\n  O   O6        1.0000  0.8627  0.7106  0.3276  1.0000\n  O   O7        1.0000  0.2254  0.5037  0.0683  1.0000\n  O   O8        1.0000  0.8037  0.2930  0.5736  1.0000\n  O   O9        1.0000  0.1654  0.8980  0.5922  1.0000\n  O   O10       1.0000  0.4963  0.7746  0.4317  1.0000\n  O   O11       1.0000  0.6576  0.7974  0.1632  1.0000\n  O   O12       1.0000  0.3195  0.5330  0.6475  1.0000\n  P   P8        1.0000  0.2894  0.1373  0.1724  1.0000\n  O   O13       1.0000  0.7106  0.8627  0.8276  1.0000\n  O   O14       1.0000  0.6805  0.4670  0.3525  1.0000\n  O   O15       1.0000  0.3424  0.2026  0.8368  1.0000\n  O   O16       1.0000  0.5037  0.2254  0.5683  1.0000\n  O   O17       1.0000  0.8346  0.1020  0.4078  1.0000\n  O   O18       1.0000  0.1963  0.7070  0.4264  1.0000\n  O   O19       1.0000  0.7746  0.4963  0.9317  1.0000\n  O   O20       1.0000  0.1373  0.2894  0.6724  1.0000\n  O   O21       1.0000  0.8980  0.1654  0.0922  1.0000\n  O   O22       1.0000  0.5330  0.3195  0.1475  1.0000\n  O   O23       1.0000  0.7070  0.1963  0.9264  1.0000\n  O   O24       1.0000  0.2026  0.3424  0.3368  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "19eb6e6b-ea85-4a6d-8836-aaf4cac6ba0b",
    "mp_id": "mp-1176664",
    "action_prompt": "Swap the spatial positions of atoms at indices 73 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMn3(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6534\n_cell_length_b   9.0448\n_cell_length_c   12.5506\n_cell_angle_alpha   104.6775\n_cell_angle_beta   100.8458\n_cell_angle_gamma   103.5153\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMn3(PO4)3\n_chemical_formula_sum   'Li4 Mn12 P12 O48'\n_cell_volume   891.4163\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4985  0.5060  0.0126  1\n  Li  Li1  1  0.4996  0.2490  0.7492  1\n  Li  Li2  1  0.5009  0.9933  0.4883  1\n  Li  Li3  1  0.9916  0.1319  0.1208  1\n  Mn  Mn4  1  0.6114  0.8901  0.9582  1\n  Mn  Mn5  1  0.2610  0.4952  0.7559  1\n  Mn  Mn6  1  0.9329  0.4835  0.8668  1\n  Mn  Mn7  1  0.0664  0.0162  0.6318  1\n  Mn  Mn8  1  0.3857  0.6086  0.5398  1\n  Mn  Mn9  1  0.7379  0.0015  0.7411  1\n  Mn  Mn10  1  0.2740  0.9815  0.2577  1\n  Mn  Mn11  1  0.6134  0.3904  0.4563  1\n  Mn  Mn12  1  0.9346  0.9868  0.3714  1\n  Mn  Mn13  1  0.0664  0.5201  0.1309  1\n  Mn  Mn14  1  0.7339  0.5176  0.2473  1\n  Mn  Mn15  1  0.3840  0.1075  0.0424  1\n  P  P16  1  0.1321  0.2404  0.8921  1\n  P  P17  1  0.3495  0.8839  0.7487  1\n  P  P18  1  0.7119  0.2689  0.9804  1\n  P  P19  1  0.6498  0.6155  0.7507  1\n  P  P20  1  0.1334  0.7415  0.3937  1\n  P  P21  1  0.2877  0.2314  0.5200  1\n  P  P22  1  0.7119  0.7733  0.4805  1\n  P  P23  1  0.8649  0.2597  0.6083  1\n  P  P24  1  0.3433  0.3726  0.2434  1\n  P  P25  1  0.2884  0.7266  0.0188  1\n  P  P26  1  0.6544  0.1234  0.2539  1\n  P  P27  1  0.8705  0.7640  0.1083  1\n  O  O28  1  0.0423  0.3606  0.9500  1\n  O  O29  1  0.4089  0.9284  0.8841  1\n  O  O30  1  0.1664  0.6335  0.8990  1\n  O  O31  1  0.1818  0.1537  0.9796  1\n  O  O32  1  0.1783  0.9083  0.7193  1\n  O  O33  1  0.5366  0.2666  0.9947  1\n  O  O34  1  0.2807  0.3340  0.8623  1\n  O  O35  1  0.4775  0.9912  0.7096  1\n  O  O36  1  0.9971  0.3831  0.7146  1\n  O  O37  1  0.6683  0.7965  0.8016  1\n  O  O38  1  0.3335  0.7039  0.6997  1\n  O  O39  1  0.5231  0.5097  0.7917  1\n  O  O40  1  0.7267  0.3483  0.8847  1\n  O  O41  1  0.0434  0.8597  0.4541  1\n  O  O42  1  0.7374  0.1005  0.9381  1\n  O  O43  1  0.8216  0.5921  0.7810  1\n  O  O44  1  0.1873  0.6490  0.4743  1\n  O  O45  1  0.2682  0.4005  0.5659  1\n  O  O46  1  0.8344  0.8663  0.6006  1\n  O  O47  1  0.5906  0.5721  0.6159  1\n  O  O48  1  0.2729  0.1516  0.6162  1\n  O  O49  1  0.5379  0.7739  0.4982  1\n  O  O50  1  0.2810  0.8399  0.3662  1\n  O  O51  1  0.0039  0.8886  0.2135  1\n  O  O52  1  0.0018  0.1158  0.7860  1\n  O  O53  1  0.7189  0.1640  0.6398  1\n  O  O54  1  0.4628  0.2317  0.5047  1\n  O  O55  1  0.7329  0.8588  0.3889  1\n  O  O56  1  0.4066  0.4273  0.3783  1\n  O  O57  1  0.1644  0.1335  0.4020  1\n  O  O58  1  0.7287  0.6035  0.4321  1\n  O  O59  1  0.8099  0.3482  0.5249  1\n  O  O60  1  0.1662  0.3891  0.2082  1\n  O  O61  1  0.2700  0.8959  0.0668  1\n  O  O62  1  0.9556  0.1410  0.5495  1\n  O  O63  1  0.2689  0.6422  0.1111  1\n  O  O64  1  0.4662  0.4610  0.1921  1\n  O  O65  1  0.6752  0.3056  0.2983  1\n  O  O66  1  0.3148  0.1878  0.1998  1\n  O  O67  1  0.0030  0.6201  0.2853  1\n  O  O68  1  0.5347  0.0329  0.3062  1\n  O  O69  1  0.7237  0.6643  0.1355  1\n  O  O70  1  0.4630  0.7261  0.0019  1\n  O  O71  1  0.8262  0.0950  0.2758  1\n  O  O72  1  0.8190  0.8674  0.0332  1\n  O  O73  1  0.8374  0.3637  0.0987  1\n  O  O74  1  0.5875  0.0707  0.1183  1\n  O  O75  1  0.9573  0.6449  0.0455  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Mn5OMn6P12O45MnO2\n_chemical_formula_sum              \"Li4 Mn12 O48 P12\"\n_cell_length_a       8.6534\n_cell_length_b       9.0448\n_cell_length_c       12.5506\n_cell_angle_alpha    104.6775\n_cell_angle_beta     100.8458\n_cell_angle_gamma    103.5153\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4985  0.5060  0.0126  1.0000\n  Li  Li2       1.0000  0.4996  0.2490  0.7492  1.0000\n  Li  Li3       1.0000  0.5009  0.9933  0.4883  1.0000\n  Li  Li4       1.0000  0.9916  0.1319  0.1208  1.0000\n  Mn  Mn1       1.0000  0.6114  0.8901  0.9582  1.0000\n  Mn  Mn2       1.0000  0.2610  0.4952  0.7559  1.0000\n  Mn  Mn3       1.0000  0.9329  0.4835  0.8668  1.0000\n  Mn  Mn4       1.0000  0.0664  0.0162  0.6318  1.0000\n  Mn  Mn5       1.0000  0.3857  0.6086  0.5398  1.0000\n  O   O1        1.0000  0.7379  0.0015  0.7411  1.0000\n  Mn  Mn6       1.0000  0.2740  0.9815  0.2577  1.0000\n  Mn  Mn7       1.0000  0.6134  0.3904  0.4563  1.0000\n  Mn  Mn8       1.0000  0.9346  0.9868  0.3714  1.0000\n  Mn  Mn9       1.0000  0.0664  0.5201  0.1309  1.0000\n  Mn  Mn10      1.0000  0.7339  0.5176  0.2473  1.0000\n  Mn  Mn11      1.0000  0.3840  0.1075  0.0424  1.0000\n  P   P1        1.0000  0.1321  0.2404  0.8921  1.0000\n  P   P2        1.0000  0.3495  0.8839  0.7487  1.0000\n  P   P3        1.0000  0.7119  0.2689  0.9804  1.0000\n  P   P4        1.0000  0.6498  0.6155  0.7507  1.0000\n  P   P5        1.0000  0.1334  0.7415  0.3937  1.0000\n  P   P6        1.0000  0.2877  0.2314  0.5200  1.0000\n  P   P7        1.0000  0.7119  0.7733  0.4805  1.0000\n  P   P8        1.0000  0.8649  0.2597  0.6083  1.0000\n  P   P9        1.0000  0.3433  0.3726  0.2434  1.0000\n  P   P10       1.0000  0.2884  0.7266  0.0188  1.0000\n  P   P11       1.0000  0.6544  0.1234  0.2539  1.0000\n  P   P12       1.0000  0.8705  0.7640  0.1083  1.0000\n  O   O2        1.0000  0.0423  0.3606  0.9500  1.0000\n  O   O3        1.0000  0.4089  0.9284  0.8841  1.0000\n  O   O4        1.0000  0.1664  0.6335  0.8990  1.0000\n  O   O5        1.0000  0.1818  0.1537  0.9796  1.0000\n  O   O6        1.0000  0.1783  0.9083  0.7193  1.0000\n  O   O7        1.0000  0.5366  0.2666  0.9947  1.0000\n  O   O8        1.0000  0.2807  0.3340  0.8623  1.0000\n  O   O9        1.0000  0.4775  0.9912  0.7096  1.0000\n  O   O10       1.0000  0.9971  0.3831  0.7146  1.0000\n  O   O11       1.0000  0.6683  0.7965  0.8016  1.0000\n  O   O12       1.0000  0.3335  0.7039  0.6997  1.0000\n  O   O13       1.0000  0.5231  0.5097  0.7917  1.0000\n  O   O14       1.0000  0.7267  0.3483  0.8847  1.0000\n  O   O15       1.0000  0.0434  0.8597  0.4541  1.0000\n  O   O16       1.0000  0.7374  0.1005  0.9381  1.0000\n  O   O17       1.0000  0.8216  0.5921  0.7810  1.0000\n  O   O18       1.0000  0.1873  0.6490  0.4743  1.0000\n  O   O19       1.0000  0.2682  0.4005  0.5659  1.0000\n  O   O20       1.0000  0.8344  0.8663  0.6006  1.0000\n  O   O21       1.0000  0.5906  0.5721  0.6159  1.0000\n  O   O22       1.0000  0.2729  0.1516  0.6162  1.0000\n  O   O23       1.0000  0.5379  0.7739  0.4982  1.0000\n  O   O24       1.0000  0.2810  0.8399  0.3662  1.0000\n  O   O25       1.0000  0.0039  0.8886  0.2135  1.0000\n  O   O26       1.0000  0.0018  0.1158  0.7860  1.0000\n  O   O27       1.0000  0.7189  0.1640  0.6398  1.0000\n  O   O28       1.0000  0.4628  0.2317  0.5047  1.0000\n  O   O29       1.0000  0.7329  0.8588  0.3889  1.0000\n  O   O30       1.0000  0.4066  0.4273  0.3783  1.0000\n  O   O31       1.0000  0.1644  0.1335  0.4020  1.0000\n  O   O32       1.0000  0.7287  0.6035  0.4321  1.0000\n  O   O33       1.0000  0.8099  0.3482  0.5249  1.0000\n  O   O34       1.0000  0.1662  0.3891  0.2082  1.0000\n  O   O35       1.0000  0.2700  0.8959  0.0668  1.0000\n  O   O36       1.0000  0.9556  0.1410  0.5495  1.0000\n  O   O37       1.0000  0.2689  0.6422  0.1111  1.0000\n  O   O38       1.0000  0.4662  0.4610  0.1921  1.0000\n  O   O39       1.0000  0.6752  0.3056  0.2983  1.0000\n  O   O40       1.0000  0.3148  0.1878  0.1998  1.0000\n  O   O41       1.0000  0.0030  0.6201  0.2853  1.0000\n  O   O42       1.0000  0.5347  0.0329  0.3062  1.0000\n  O   O43       1.0000  0.7237  0.6643  0.1355  1.0000\n  O   O44       1.0000  0.4630  0.7261  0.0019  1.0000\n  O   O45       1.0000  0.8262  0.0950  0.2758  1.0000\n  O   O46       1.0000  0.8190  0.8674  0.0332  1.0000\n  Mn  Mn12      1.0000  0.8374  0.3637  0.0987  1.0000\n  O   O47       1.0000  0.5875  0.0707  0.1183  1.0000\n  O   O48       1.0000  0.9573  0.6449  0.0455  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c53b2007-f19d-4b35-a884-58f9b356acd9",
    "mp_id": "mp-1176678",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFeSnO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1334\n_cell_length_b   6.1334\n_cell_length_c   8.5795\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFeSnO4\n_chemical_formula_sum   'Li4 Fe4 Sn4 O16'\n_cell_volume   322.7527\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.2272  0.0000  1\n  Li  Li1  1  0.0000  0.7728  0.5000  1\n  Li  Li2  1  0.2272  0.0000  0.2500  1\n  Li  Li3  1  0.7728  0.0000  0.7500  1\n  Fe  Fe4  1  0.2348  0.5000  0.2500  1\n  Fe  Fe5  1  0.5000  0.2348  0.0000  1\n  Fe  Fe6  1  0.5000  0.7652  0.5000  1\n  Fe  Fe7  1  0.7652  0.5000  0.7500  1\n  Sn  Sn8  1  0.2550  0.2550  0.6250  1\n  Sn  Sn9  1  0.2550  0.7450  0.8750  1\n  Sn  Sn10  1  0.7450  0.2550  0.3750  1\n  Sn  Sn11  1  0.7450  0.7450  0.1250  1\n  O  O12  1  0.0167  0.2611  0.2522  1\n  O  O13  1  0.0167  0.7389  0.2478  1\n  O  O14  1  0.2611  0.0167  0.9978  1\n  O  O15  1  0.2611  0.9833  0.5022  1\n  O  O16  1  0.2623  0.4804  0.0125  1\n  O  O17  1  0.2623  0.5196  0.4875  1\n  O  O18  1  0.4804  0.2623  0.2375  1\n  O  O19  1  0.4804  0.7377  0.2625  1\n  O  O20  1  0.5196  0.2623  0.7625  1\n  O  O21  1  0.5196  0.7377  0.7375  1\n  O  O22  1  0.7377  0.5196  0.5125  1\n  O  O23  1  0.7377  0.4804  0.9875  1\n  O  O24  1  0.7389  0.0167  0.0022  1\n  O  O25  1  0.7389  0.9833  0.4978  1\n  O  O26  1  0.9833  0.2611  0.7478  1\n  O  O27  1  0.9833  0.7389  0.7522  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Fe4Sn2OSnO15Sn\n_chemical_formula_sum              \"Li4 Fe4 Sn4 O16\"\n_cell_length_a       6.1334\n_cell_length_b       6.1334\n_cell_length_c       8.5795\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.2272  0.0000  1.0000\n  Li  Li2       1.0000  0.0000  0.7728  0.5000  1.0000\n  Li  Li3       1.0000  0.2272  0.0000  0.2500  1.0000\n  Li  Li4       1.0000  0.7728  0.0000  0.7500  1.0000\n  Fe  Fe1       1.0000  0.2348  0.5000  0.2500  1.0000\n  Fe  Fe2       1.0000  0.5000  0.2348  0.0000  1.0000\n  Fe  Fe3       1.0000  0.5000  0.7652  0.5000  1.0000\n  Fe  Fe4       1.0000  0.7652  0.5000  0.7500  1.0000\n  Sn  Sn1       1.0000  0.2550  0.2550  0.6250  1.0000\n  Sn  Sn2       1.0000  0.2550  0.7450  0.8750  1.0000\n  O   O1        1.0000  0.7450  0.2550  0.3750  1.0000\n  Sn  Sn3       1.0000  0.7450  0.7450  0.1250  1.0000\n  O   O2        1.0000  0.0167  0.2611  0.2522  1.0000\n  O   O3        1.0000  0.0167  0.7389  0.2478  1.0000\n  O   O4        1.0000  0.2611  0.0167  0.9978  1.0000\n  O   O5        1.0000  0.2611  0.9833  0.5022  1.0000\n  O   O6        1.0000  0.2623  0.4804  0.0125  1.0000\n  O   O7        1.0000  0.2623  0.5196  0.4875  1.0000\n  O   O8        1.0000  0.4804  0.2623  0.2375  1.0000\n  O   O9        1.0000  0.4804  0.7377  0.2625  1.0000\n  O   O10       1.0000  0.5196  0.2623  0.7625  1.0000\n  O   O11       1.0000  0.5196  0.7377  0.7375  1.0000\n  O   O12       1.0000  0.7377  0.5196  0.5125  1.0000\n  O   O13       1.0000  0.7377  0.4804  0.9875  1.0000\n  O   O14       1.0000  0.7389  0.0167  0.0022  1.0000\n  O   O15       1.0000  0.7389  0.9833  0.4978  1.0000\n  O   O16       1.0000  0.9833  0.2611  0.7478  1.0000\n  Sn  Sn4       1.0000  0.9833  0.7389  0.7522  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d4c00142-7549-416d-bf6d-627d209d8554",
    "mp_id": "mp-1176692",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFePCO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1228\n_cell_length_b   6.3147\n_cell_length_c   8.6927\n_cell_angle_alpha   85.3256\n_cell_angle_beta   88.4737\n_cell_angle_gamma   87.6642\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFePCO7\n_chemical_formula_sum   'Li2 Fe2 P2 C2 O14'\n_cell_volume   279.9528\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2960  0.1175  0.7287  1\n  Li  Li1  1  0.8169  0.6010  0.1822  1\n  Fe  Fe2  1  0.8916  0.8500  0.6169  1\n  Fe  Fe3  1  0.3055  0.3710  0.3239  1\n  P  P4  1  0.7990  0.3661  0.5447  1\n  P  P5  1  0.4141  0.8696  0.3894  1\n  C  C6  1  0.3803  0.3822  0.0168  1\n  C  C7  1  0.7917  0.8741  0.9025  1\n  O  O8  1  0.0232  0.8472  0.8392  1\n  O  O9  1  0.6028  0.8976  0.8057  1\n  O  O10  1  0.3708  0.3275  0.8810  1\n  O  O11  1  0.9363  0.1690  0.6282  1\n  O  O12  1  0.8154  0.5514  0.6471  1\n  O  O13  1  0.5084  0.3193  0.5144  1\n  O  O14  1  0.2531  0.8374  0.5422  1\n  O  O15  1  0.9403  0.4225  0.3846  1\n  O  O16  1  0.7057  0.8950  0.4295  1\n  O  O17  1  0.3176  0.0698  0.2906  1\n  O  O18  1  0.4053  0.6728  0.2943  1\n  O  O19  1  0.7656  0.8713  0.0466  1\n  O  O20  1  0.5970  0.3918  0.0868  1\n  O  O21  1  0.1694  0.4244  0.0962  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Fe2P2CO10CO4\n_chemical_formula_sum              \"Li2 Fe2 P2 C2 O14\"\n_cell_length_a       5.1228\n_cell_length_b       6.3147\n_cell_length_c       8.6927\n_cell_angle_alpha    85.3256\n_cell_angle_beta     88.4737\n_cell_angle_gamma    87.6642\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2960  0.1175  0.7287  1.0000\n  Li  Li2       1.0000  0.8169  0.6010  0.1822  1.0000\n  Fe  Fe1       1.0000  0.8916  0.8500  0.6169  1.0000\n  Fe  Fe2       1.0000  0.3055  0.3710  0.3239  1.0000\n  P   P1        1.0000  0.7990  0.3661  0.5447  1.0000\n  P   P2        1.0000  0.4141  0.8696  0.3894  1.0000\n  C   C1        1.0000  0.3803  0.3822  0.0168  1.0000\n  O   O1        1.0000  0.7917  0.8741  0.9025  1.0000\n  O   O2        1.0000  0.0232  0.8472  0.8392  1.0000\n  O   O3        1.0000  0.6028  0.8976  0.8057  1.0000\n  O   O4        1.0000  0.3708  0.3275  0.8810  1.0000\n  O   O5        1.0000  0.9363  0.1690  0.6282  1.0000\n  O   O6        1.0000  0.8154  0.5514  0.6471  1.0000\n  O   O7        1.0000  0.5084  0.3193  0.5144  1.0000\n  O   O8        1.0000  0.2531  0.8374  0.5422  1.0000\n  O   O9        1.0000  0.9403  0.4225  0.3846  1.0000\n  O   O10       1.0000  0.7057  0.8950  0.4295  1.0000\n  C   C2        1.0000  0.3176  0.0698  0.2906  1.0000\n  O   O11       1.0000  0.4053  0.6728  0.2943  1.0000\n  O   O12       1.0000  0.7656  0.8713  0.0466  1.0000\n  O   O13       1.0000  0.5970  0.3918  0.0868  1.0000\n  O   O14       1.0000  0.1694  0.4244  0.0962  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f88c8c53-36b0-43f5-8b98-fe2bc3fa42a1",
    "mp_id": "mp-1176965",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 57 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6MnV3(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5741\n_cell_length_b   8.8660\n_cell_length_c   12.3447\n_cell_angle_alpha   90.0000\n_cell_angle_beta   87.5949\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6MnV3(PO4)6\n_chemical_formula_sum   'Li12 Mn2 V6 P12 O48'\n_cell_volume   937.5819\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9998  0.0005  0.0010  1\n  Li  Li1  1  0.9996  0.1023  0.2487  1\n  Li  Li2  1  0.9998  0.9995  0.5010  1\n  Li  Li3  1  0.9996  0.8977  0.7487  1\n  Li  Li4  1  0.2921  0.8043  0.0494  1\n  Li  Li5  1  0.2921  0.1957  0.5494  1\n  Li  Li6  1  0.5070  0.5046  0.9983  1\n  Li  Li7  1  0.5047  0.4032  0.2535  1\n  Li  Li8  1  0.5070  0.4954  0.4983  1\n  Li  Li9  1  0.5047  0.5968  0.7535  1\n  Li  Li10  1  0.7135  0.8016  0.4462  1\n  Li  Li11  1  0.7135  0.1984  0.9462  1\n  Mn  Mn12  1  0.7910  0.4999  0.3535  1\n  Mn  Mn13  1  0.7910  0.5001  0.8535  1\n  V  V14  1  0.2127  0.5004  0.1441  1\n  V  V15  1  0.2127  0.4996  0.6441  1\n  V  V16  1  0.2859  0.9956  0.3580  1\n  V  V17  1  0.2859  0.0044  0.8580  1\n  V  V18  1  0.7168  0.9984  0.1419  1\n  V  V19  1  0.7168  0.0016  0.6419  1\n  P  P20  1  0.0005  0.8020  0.2494  1\n  P  P21  1  0.0005  0.1980  0.7494  1\n  P  P22  1  0.1558  0.3546  0.3955  1\n  P  P23  1  0.1558  0.6454  0.8955  1\n  P  P24  1  0.3518  0.1484  0.1033  1\n  P  P25  1  0.3518  0.8516  0.6033  1\n  P  P26  1  0.5000  0.7078  0.2494  1\n  P  P27  1  0.5000  0.2922  0.7494  1\n  P  P28  1  0.6455  0.1450  0.3976  1\n  P  P29  1  0.6455  0.8550  0.8976  1\n  P  P30  1  0.8429  0.3555  0.1047  1\n  P  P31  1  0.8429  0.6445  0.6047  1\n  O  O32  1  0.0101  0.4135  0.1075  1\n  O  O33  1  0.0101  0.5865  0.6075  1\n  O  O34  1  0.0739  0.9126  0.3336  1\n  O  O35  1  0.0739  0.0874  0.8336  1\n  O  O36  1  0.1251  0.7037  0.1896  1\n  O  O37  1  0.1251  0.2963  0.6896  1\n  O  O38  1  0.1505  0.1771  0.4095  1\n  O  O39  1  0.1505  0.8229  0.9095  1\n  O  O40  1  0.2488  0.4043  0.2918  1\n  O  O41  1  0.2533  0.0644  0.0180  1\n  O  O42  1  0.2525  0.4084  0.4926  1\n  O  O43  1  0.2488  0.5957  0.7918  1\n  O  O44  1  0.2533  0.9356  0.5180  1\n  O  O45  1  0.2769  0.0960  0.2135  1\n  O  O46  1  0.2525  0.5916  0.9926  1\n  O  O47  1  0.2769  0.9040  0.7135  1\n  O  O48  1  0.3450  0.3225  0.0899  1\n  O  O49  1  0.3450  0.6775  0.5899  1\n  O  O50  1  0.3777  0.8066  0.3109  1\n  O  O51  1  0.3777  0.1934  0.8109  1\n  O  O52  1  0.4282  0.6010  0.1641  1\n  O  O53  1  0.4282  0.3990  0.6641  1\n  O  O54  1  0.4718  0.0937  0.4089  1\n  O  O55  1  0.4718  0.9063  0.9089  1\n  O  O56  1  0.5265  0.1085  0.0920  1\n  O  O57  1  0.5265  0.8915  0.5920  1\n  O  O58  1  0.5702  0.6054  0.3377  1\n  O  O59  1  0.5702  0.3946  0.8377  1\n  O  O60  1  0.6171  0.8072  0.1865  1\n  O  O61  1  0.6171  0.1928  0.6865  1\n  O  O62  1  0.6381  0.3168  0.4118  1\n  O  O63  1  0.6381  0.6832  0.9118  1\n  O  O64  1  0.7233  0.0955  0.2875  1\n  O  O65  1  0.7466  0.4093  0.0079  1\n  O  O66  1  0.7233  0.9045  0.7875  1\n  O  O67  1  0.7447  0.0600  0.4820  1\n  O  O68  1  0.7464  0.4017  0.2078  1\n  O  O69  1  0.7466  0.5907  0.5079  1\n  O  O70  1  0.7447  0.9400  0.9820  1\n  O  O71  1  0.7464  0.5983  0.7078  1\n  O  O72  1  0.8565  0.1791  0.0906  1\n  O  O73  1  0.8565  0.8209  0.5906  1\n  O  O74  1  0.8727  0.7175  0.3129  1\n  O  O75  1  0.8727  0.2825  0.8129  1\n  O  O76  1  0.9367  0.9123  0.1618  1\n  O  O77  1  0.9367  0.0877  0.6618  1\n  O  O78  1  0.9876  0.4067  0.3969  1\n  O  O79  1  0.9876  0.5933  0.8969  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi11Mn2V6P12O25LiO22\n_chemical_formula_sum              \"O48 Li12 Mn2 V6 P12\"\n_cell_length_a       8.5741\n_cell_length_b       8.8660\n_cell_length_c       12.3447\n_cell_angle_alpha    90.0000\n_cell_angle_beta     87.5949\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.9998  0.0005  0.0010  1.0000\n  Li  Li1       1.0000  0.9996  0.1023  0.2487  1.0000\n  Li  Li2       1.0000  0.9998  0.9995  0.5010  1.0000\n  Li  Li3       1.0000  0.9996  0.8977  0.7487  1.0000\n  Li  Li4       1.0000  0.2921  0.8043  0.0494  1.0000\n  Li  Li5       1.0000  0.2921  0.1957  0.5494  1.0000\n  Li  Li6       1.0000  0.5070  0.5046  0.9983  1.0000\n  Li  Li7       1.0000  0.5047  0.4032  0.2535  1.0000\n  Li  Li8       1.0000  0.5070  0.4954  0.4983  1.0000\n  Li  Li9       1.0000  0.5047  0.5968  0.7535  1.0000\n  Li  Li10      1.0000  0.7135  0.8016  0.4462  1.0000\n  Li  Li11      1.0000  0.7135  0.1984  0.9462  1.0000\n  Mn  Mn1       1.0000  0.7910  0.4999  0.3535  1.0000\n  Mn  Mn2       1.0000  0.7910  0.5001  0.8535  1.0000\n  V   V1        1.0000  0.2127  0.5004  0.1441  1.0000\n  V   V2        1.0000  0.2127  0.4996  0.6441  1.0000\n  V   V3        1.0000  0.2859  0.9956  0.3580  1.0000\n  V   V4        1.0000  0.2859  0.0044  0.8580  1.0000\n  V   V5        1.0000  0.7168  0.9984  0.1419  1.0000\n  V   V6        1.0000  0.7168  0.0016  0.6419  1.0000\n  P   P1        1.0000  0.0005  0.8020  0.2494  1.0000\n  P   P2        1.0000  0.0005  0.1980  0.7494  1.0000\n  P   P3        1.0000  0.1558  0.3546  0.3955  1.0000\n  P   P4        1.0000  0.1558  0.6454  0.8955  1.0000\n  P   P5        1.0000  0.3518  0.1484  0.1033  1.0000\n  P   P6        1.0000  0.3518  0.8516  0.6033  1.0000\n  P   P7        1.0000  0.5000  0.7078  0.2494  1.0000\n  P   P8        1.0000  0.5000  0.2922  0.7494  1.0000\n  P   P9        1.0000  0.6455  0.1450  0.3976  1.0000\n  P   P10       1.0000  0.6455  0.8550  0.8976  1.0000\n  P   P11       1.0000  0.8429  0.3555  0.1047  1.0000\n  P   P12       1.0000  0.8429  0.6445  0.6047  1.0000\n  O   O2        1.0000  0.0101  0.4135  0.1075  1.0000\n  O   O3        1.0000  0.0101  0.5865  0.6075  1.0000\n  O   O4        1.0000  0.0739  0.9126  0.3336  1.0000\n  O   O5        1.0000  0.0739  0.0874  0.8336  1.0000\n  O   O6        1.0000  0.1251  0.7037  0.1896  1.0000\n  O   O7        1.0000  0.1251  0.2963  0.6896  1.0000\n  O   O8        1.0000  0.1505  0.1771  0.4095  1.0000\n  O   O9        1.0000  0.1505  0.8229  0.9095  1.0000\n  O   O10       1.0000  0.2488  0.4043  0.2918  1.0000\n  O   O11       1.0000  0.2533  0.0644  0.0180  1.0000\n  O   O12       1.0000  0.2525  0.4084  0.4926  1.0000\n  O   O13       1.0000  0.2488  0.5957  0.7918  1.0000\n  O   O14       1.0000  0.2533  0.9356  0.5180  1.0000\n  O   O15       1.0000  0.2769  0.0960  0.2135  1.0000\n  O   O16       1.0000  0.2525  0.5916  0.9926  1.0000\n  O   O17       1.0000  0.2769  0.9040  0.7135  1.0000\n  O   O18       1.0000  0.3450  0.3225  0.0899  1.0000\n  O   O19       1.0000  0.3450  0.6775  0.5899  1.0000\n  O   O20       1.0000  0.3777  0.8066  0.3109  1.0000\n  O   O21       1.0000  0.3777  0.1934  0.8109  1.0000\n  O   O22       1.0000  0.4282  0.6010  0.1641  1.0000\n  O   O23       1.0000  0.4282  0.3990  0.6641  1.0000\n  O   O24       1.0000  0.4718  0.0937  0.4089  1.0000\n  O   O25       1.0000  0.4718  0.9063  0.9089  1.0000\n  O   O26       1.0000  0.5265  0.1085  0.0920  1.0000\n  Li  Li12      1.0000  0.5265  0.8915  0.5920  1.0000\n  O   O27       1.0000  0.5702  0.6054  0.3377  1.0000\n  O   O28       1.0000  0.5702  0.3946  0.8377  1.0000\n  O   O29       1.0000  0.6171  0.8072  0.1865  1.0000\n  O   O30       1.0000  0.6171  0.1928  0.6865  1.0000\n  O   O31       1.0000  0.6381  0.3168  0.4118  1.0000\n  O   O32       1.0000  0.6381  0.6832  0.9118  1.0000\n  O   O33       1.0000  0.7233  0.0955  0.2875  1.0000\n  O   O34       1.0000  0.7466  0.4093  0.0079  1.0000\n  O   O35       1.0000  0.7233  0.9045  0.7875  1.0000\n  O   O36       1.0000  0.7447  0.0600  0.4820  1.0000\n  O   O37       1.0000  0.7464  0.4017  0.2078  1.0000\n  O   O38       1.0000  0.7466  0.5907  0.5079  1.0000\n  O   O39       1.0000  0.7447  0.9400  0.9820  1.0000\n  O   O40       1.0000  0.7464  0.5983  0.7078  1.0000\n  O   O41       1.0000  0.8565  0.1791  0.0906  1.0000\n  O   O42       1.0000  0.8565  0.8209  0.5906  1.0000\n  O   O43       1.0000  0.8727  0.7175  0.3129  1.0000\n  O   O44       1.0000  0.8727  0.2825  0.8129  1.0000\n  O   O45       1.0000  0.9367  0.9123  0.1618  1.0000\n  O   O46       1.0000  0.9367  0.0877  0.6618  1.0000\n  O   O47       1.0000  0.9876  0.4067  0.3969  1.0000\n  O   O48       1.0000  0.9876  0.5933  0.8969  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0df5e12d-3943-4a6d-8b39-1c590d4d45a4",
    "mp_id": "mp-1177279",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4TiCu3(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0591\n_cell_length_b   4.8157\n_cell_length_c   10.3631\n_cell_angle_alpha   89.3812\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4TiCu3(PO4)4\n_chemical_formula_sum   'Li4 Ti1 Cu3 P4 O16'\n_cell_volume   302.3642\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2643  0.9903  0.0127  1\n  Li  Li1  1  0.7357  0.9903  0.0127  1\n  Li  Li2  1  0.7394  0.4987  0.4876  1\n  Li  Li3  1  0.2606  0.4987  0.4876  1\n  Ti  Ti4  1  0.0000  0.0104  0.7177  1\n  Cu  Cu5  1  0.5000  0.9934  0.2795  1\n  Cu  Cu6  1  0.5000  0.5403  0.7882  1\n  Cu  Cu7  1  0.0000  0.4641  0.2160  1\n  P  P8  1  0.0000  0.9246  0.4079  1\n  P  P9  1  0.0000  0.5931  0.8980  1\n  P  P10  1  0.5000  0.4145  0.0920  1\n  P  P11  1  0.5000  0.0687  0.5989  1\n  O  O12  1  0.0000  0.8096  0.5565  1\n  O  O13  1  0.2080  0.7904  0.3468  1\n  O  O14  1  0.7920  0.7904  0.3468  1\n  O  O15  1  0.5000  0.7502  0.5985  1\n  O  O16  1  0.5000  0.7329  0.0881  1\n  O  O17  1  0.1958  0.7433  0.8230  1\n  O  O18  1  0.8042  0.7433  0.8230  1\n  O  O19  1  0.0000  0.6977  0.0370  1\n  O  O20  1  0.5000  0.2910  0.9521  1\n  O  O21  1  0.7039  0.2798  0.1639  1\n  O  O22  1  0.2961  0.2798  0.1639  1\n  O  O23  1  0.0000  0.2765  0.8808  1\n  O  O24  1  0.0000  0.2438  0.4110  1\n  O  O25  1  0.7134  0.1833  0.6716  1\n  O  O26  1  0.2866  0.1833  0.6716  1\n  O  O27  1  0.5000  0.2176  0.4670  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4TiCu3OP3O7PO8\n_chemical_formula_sum              \"Li4 Ti1 Cu3 O16 P4\"\n_cell_length_a       6.0591\n_cell_length_b       4.8157\n_cell_length_c       10.3631\n_cell_angle_alpha    89.3812\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2643  0.9903  0.0127  1.0000\n  Li  Li2       1.0000  0.7357  0.9903  0.0127  1.0000\n  Li  Li3       1.0000  0.7394  0.4987  0.4876  1.0000\n  Li  Li4       1.0000  0.2606  0.4987  0.4876  1.0000\n  Ti  Ti1       1.0000  0.0000  0.0104  0.7177  1.0000\n  Cu  Cu1       1.0000  0.5000  0.9934  0.2795  1.0000\n  Cu  Cu2       1.0000  0.5000  0.5403  0.7882  1.0000\n  Cu  Cu3       1.0000  0.0000  0.4641  0.2160  1.0000\n  O   O1        1.0000  0.0000  0.9246  0.4079  1.0000\n  P   P1        1.0000  0.0000  0.5931  0.8980  1.0000\n  P   P2        1.0000  0.5000  0.4145  0.0920  1.0000\n  P   P3        1.0000  0.5000  0.0687  0.5989  1.0000\n  O   O2        1.0000  0.0000  0.8096  0.5565  1.0000\n  O   O3        1.0000  0.2080  0.7904  0.3468  1.0000\n  O   O4        1.0000  0.7920  0.7904  0.3468  1.0000\n  O   O5        1.0000  0.5000  0.7502  0.5985  1.0000\n  O   O6        1.0000  0.5000  0.7329  0.0881  1.0000\n  O   O7        1.0000  0.1958  0.7433  0.8230  1.0000\n  O   O8        1.0000  0.8042  0.7433  0.8230  1.0000\n  P   P4        1.0000  0.0000  0.6977  0.0370  1.0000\n  O   O9        1.0000  0.5000  0.2910  0.9521  1.0000\n  O   O10       1.0000  0.7039  0.2798  0.1639  1.0000\n  O   O11       1.0000  0.2961  0.2798  0.1639  1.0000\n  O   O12       1.0000  0.0000  0.2765  0.8808  1.0000\n  O   O13       1.0000  0.0000  0.2438  0.4110  1.0000\n  O   O14       1.0000  0.7134  0.1833  0.6716  1.0000\n  O   O15       1.0000  0.2866  0.1833  0.6716  1.0000\n  O   O16       1.0000  0.5000  0.2176  0.4670  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "199f1152-0e21-402a-a918-eca21ad64403",
    "mp_id": "mp-1177537",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Fe5NiO12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1179\n_cell_length_b   5.1179\n_cell_length_c   10.3272\n_cell_angle_alpha   89.9925\n_cell_angle_beta   89.9925\n_cell_angle_gamma   118.7290\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Fe5NiO12\n_chemical_formula_sum   'Li4 Fe5 Ni1 O12'\n_cell_volume   237.2020\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3479  0.8518  0.7512  1\n  Li  Li1  1  0.1482  0.6521  0.2488  1\n  Li  Li2  1  0.8518  0.3479  0.7512  1\n  Li  Li3  1  0.6521  0.1482  0.2488  1\n  Fe  Fe4  1  0.1659  0.8341  0.5000  1\n  Fe  Fe5  1  0.6662  0.3338  0.0000  1\n  Fe  Fe6  1  0.3338  0.6662  0.0000  1\n  Fe  Fe7  1  0.8341  0.1659  0.5000  1\n  Fe  Fe8  1  0.5000  0.5000  0.5000  1\n  Ni  Ni9  1  0.0000  0.0000  0.0000  1\n  O  O10  1  0.3359  0.9692  0.1082  1\n  O  O11  1  0.0308  0.6641  0.8918  1\n  O  O12  1  0.4787  0.8305  0.3915  1\n  O  O13  1  0.8305  0.4787  0.3915  1\n  O  O14  1  0.1695  0.5213  0.6085  1\n  O  O15  1  0.8395  0.8395  0.5963  1\n  O  O16  1  0.5213  0.1695  0.6085  1\n  O  O17  1  0.9692  0.3359  0.1082  1\n  O  O18  1  0.6481  0.6481  0.0945  1\n  O  O19  1  0.6641  0.0308  0.8918  1\n  O  O20  1  0.3519  0.3519  0.9055  1\n  O  O21  1  0.1605  0.1605  0.4037  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OFe5NiOLiO10\n_chemical_formula_sum              \"Li4 O12 Fe5 Ni1\"\n_cell_length_a       5.1179\n_cell_length_b       5.1179\n_cell_length_c       10.3272\n_cell_angle_alpha    89.9925\n_cell_angle_beta     89.9925\n_cell_angle_gamma    118.7290\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3479  0.8518  0.7512  1.0000\n  Li  Li2       1.0000  0.1482  0.6521  0.2488  1.0000\n  Li  Li3       1.0000  0.8518  0.3479  0.7512  1.0000\n  O   O1        1.0000  0.6521  0.1482  0.2488  1.0000\n  Fe  Fe1       1.0000  0.1659  0.8341  0.5000  1.0000\n  Fe  Fe2       1.0000  0.6662  0.3338  0.0000  1.0000\n  Fe  Fe3       1.0000  0.3338  0.6662  0.0000  1.0000\n  Fe  Fe4       1.0000  0.8341  0.1659  0.5000  1.0000\n  Fe  Fe5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.3359  0.9692  0.1082  1.0000\n  Li  Li4       1.0000  0.0308  0.6641  0.8918  1.0000\n  O   O3        1.0000  0.4787  0.8305  0.3915  1.0000\n  O   O4        1.0000  0.8305  0.4787  0.3915  1.0000\n  O   O5        1.0000  0.1695  0.5213  0.6085  1.0000\n  O   O6        1.0000  0.8395  0.8395  0.5963  1.0000\n  O   O7        1.0000  0.5213  0.1695  0.6085  1.0000\n  O   O8        1.0000  0.9692  0.3359  0.1082  1.0000\n  O   O9        1.0000  0.6481  0.6481  0.0945  1.0000\n  O   O10       1.0000  0.6641  0.0308  0.8918  1.0000\n  O   O11       1.0000  0.3519  0.3519  0.9055  1.0000\n  O   O12       1.0000  0.1605  0.1605  0.4037  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6768caaa-0396-47c5-b879-78333d149725",
    "mp_id": "mp-1177559",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3MnV(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6177\n_cell_length_b   8.8499\n_cell_length_c   12.2866\n_cell_angle_alpha   90.0000\n_cell_angle_beta   86.8944\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3MnV(PO4)3\n_chemical_formula_sum   'Li12 Mn4 V4 P12 O48'\n_cell_volume   935.6687\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0031  0.0082  0.0065  1\n  Li  Li1  1  0.9799  0.1077  0.2438  1\n  Li  Li2  1  0.0031  0.9918  0.5065  1\n  Li  Li3  1  0.9799  0.8923  0.7438  1\n  Li  Li4  1  0.2756  0.8046  0.0613  1\n  Li  Li5  1  0.2756  0.1954  0.5613  1\n  Li  Li6  1  0.5093  0.5061  0.9988  1\n  Li  Li7  1  0.5075  0.4066  0.2628  1\n  Li  Li8  1  0.5093  0.4939  0.4988  1\n  Li  Li9  1  0.5075  0.5934  0.7628  1\n  Li  Li10  1  0.7180  0.8005  0.4426  1\n  Li  Li11  1  0.7180  0.1995  0.9426  1\n  Mn  Mn12  1  0.7122  0.0023  0.1423  1\n  Mn  Mn13  1  0.7122  0.9977  0.6423  1\n  Mn  Mn14  1  0.7951  0.4989  0.3545  1\n  Mn  Mn15  1  0.7951  0.5011  0.8545  1\n  V  V16  1  0.2115  0.5003  0.1449  1\n  V  V17  1  0.2115  0.4997  0.6449  1\n  V  V18  1  0.2864  0.9971  0.3543  1\n  V  V19  1  0.2864  0.0029  0.8543  1\n  P  P20  1  0.0042  0.8051  0.2491  1\n  P  P21  1  0.0042  0.1949  0.7491  1\n  P  P22  1  0.1633  0.3525  0.3947  1\n  P  P23  1  0.1633  0.6475  0.8947  1\n  P  P24  1  0.3508  0.1513  0.0983  1\n  P  P25  1  0.3508  0.8487  0.5983  1\n  P  P26  1  0.4969  0.7096  0.2501  1\n  P  P27  1  0.4969  0.2904  0.7501  1\n  P  P28  1  0.6479  0.1425  0.3967  1\n  P  P29  1  0.6479  0.8575  0.8967  1\n  P  P30  1  0.8394  0.3591  0.1067  1\n  P  P31  1  0.8394  0.6409  0.6067  1\n  O  O32  1  0.0029  0.4242  0.1119  1\n  O  O33  1  0.0029  0.5758  0.6119  1\n  O  O34  1  0.0767  0.9150  0.3356  1\n  O  O35  1  0.0767  0.0850  0.8356  1\n  O  O36  1  0.1306  0.7039  0.1928  1\n  O  O37  1  0.1306  0.2961  0.6928  1\n  O  O38  1  0.1664  0.1738  0.4102  1\n  O  O39  1  0.1664  0.8262  0.9102  1\n  O  O40  1  0.2583  0.4017  0.2909  1\n  O  O41  1  0.2532  0.0608  0.0153  1\n  O  O42  1  0.2540  0.4070  0.4932  1\n  O  O43  1  0.2583  0.5983  0.7909  1\n  O  O44  1  0.2532  0.9392  0.5153  1\n  O  O45  1  0.2792  0.0950  0.2111  1\n  O  O46  1  0.2540  0.5930  0.9932  1\n  O  O47  1  0.2792  0.9050  0.7111  1\n  O  O48  1  0.3293  0.3232  0.0832  1\n  O  O49  1  0.3293  0.6768  0.5832  1\n  O  O50  1  0.3675  0.8127  0.3071  1\n  O  O51  1  0.3675  0.1873  0.8071  1\n  O  O52  1  0.4272  0.6039  0.1638  1\n  O  O53  1  0.4272  0.3961  0.6638  1\n  O  O54  1  0.4776  0.0823  0.3983  1\n  O  O55  1  0.4776  0.9177  0.8983  1\n  O  O56  1  0.5243  0.1205  0.0840  1\n  O  O57  1  0.5243  0.8795  0.5840  1\n  O  O58  1  0.5594  0.6117  0.3418  1\n  O  O59  1  0.5594  0.3883  0.8418  1\n  O  O60  1  0.6153  0.8108  0.1904  1\n  O  O61  1  0.6153  0.1892  0.6904  1\n  O  O62  1  0.6316  0.3140  0.4117  1\n  O  O63  1  0.6316  0.6860  0.9117  1\n  O  O64  1  0.7379  0.0938  0.2894  1\n  O  O65  1  0.7457  0.4104  0.0091  1\n  O  O66  1  0.7379  0.9062  0.7894  1\n  O  O67  1  0.7427  0.0597  0.4836  1\n  O  O68  1  0.7384  0.4005  0.2094  1\n  O  O69  1  0.7457  0.5896  0.5091  1\n  O  O70  1  0.7427  0.9403  0.9836  1\n  O  O71  1  0.7384  0.5995  0.7094  1\n  O  O72  1  0.8619  0.1824  0.0927  1\n  O  O73  1  0.8619  0.8176  0.5927  1\n  O  O74  1  0.8755  0.7209  0.3135  1\n  O  O75  1  0.8755  0.2791  0.8135  1\n  O  O76  1  0.9493  0.9135  0.1598  1\n  O  O77  1  0.9493  0.0865  0.6598  1\n  O  O78  1  0.9942  0.3949  0.3933  1\n  O  O79  1  0.9942  0.6051  0.8933  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li12Mn4VPV2P2VP9O48\n_chemical_formula_sum              \"Li12 Mn4 V4 P12 O48\"\n_cell_length_a       8.6177\n_cell_length_b       8.8499\n_cell_length_c       12.2866\n_cell_angle_alpha    90.0000\n_cell_angle_beta     86.8944\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0031  0.0082  0.0065  1.0000\n  Li  Li2       1.0000  0.9799  0.1077  0.2438  1.0000\n  Li  Li3       1.0000  0.0031  0.9918  0.5065  1.0000\n  Li  Li4       1.0000  0.9799  0.8923  0.7438  1.0000\n  Li  Li5       1.0000  0.2756  0.8046  0.0613  1.0000\n  Li  Li6       1.0000  0.2756  0.1954  0.5613  1.0000\n  Li  Li7       1.0000  0.5093  0.5061  0.9988  1.0000\n  Li  Li8       1.0000  0.5075  0.4066  0.2628  1.0000\n  Li  Li9       1.0000  0.5093  0.4939  0.4988  1.0000\n  Li  Li10      1.0000  0.5075  0.5934  0.7628  1.0000\n  Li  Li11      1.0000  0.7180  0.8005  0.4426  1.0000\n  Li  Li12      1.0000  0.7180  0.1995  0.9426  1.0000\n  Mn  Mn1       1.0000  0.7122  0.0023  0.1423  1.0000\n  Mn  Mn2       1.0000  0.7122  0.9977  0.6423  1.0000\n  Mn  Mn3       1.0000  0.7951  0.4989  0.3545  1.0000\n  Mn  Mn4       1.0000  0.7951  0.5011  0.8545  1.0000\n  V   V1        1.0000  0.2115  0.5003  0.1449  1.0000\n  P   P1        1.0000  0.2115  0.4997  0.6449  1.0000\n  V   V2        1.0000  0.2864  0.9971  0.3543  1.0000\n  V   V3        1.0000  0.2864  0.0029  0.8543  1.0000\n  P   P2        1.0000  0.0042  0.8051  0.2491  1.0000\n  P   P3        1.0000  0.0042  0.1949  0.7491  1.0000\n  V   V4        1.0000  0.1633  0.3525  0.3947  1.0000\n  P   P4        1.0000  0.1633  0.6475  0.8947  1.0000\n  P   P5        1.0000  0.3508  0.1513  0.0983  1.0000\n  P   P6        1.0000  0.3508  0.8487  0.5983  1.0000\n  P   P7        1.0000  0.4969  0.7096  0.2501  1.0000\n  P   P8        1.0000  0.4969  0.2904  0.7501  1.0000\n  P   P9        1.0000  0.6479  0.1425  0.3967  1.0000\n  P   P10       1.0000  0.6479  0.8575  0.8967  1.0000\n  P   P11       1.0000  0.8394  0.3591  0.1067  1.0000\n  P   P12       1.0000  0.8394  0.6409  0.6067  1.0000\n  O   O1        1.0000  0.0029  0.4242  0.1119  1.0000\n  O   O2        1.0000  0.0029  0.5758  0.6119  1.0000\n  O   O3        1.0000  0.0767  0.9150  0.3356  1.0000\n  O   O4        1.0000  0.0767  0.0850  0.8356  1.0000\n  O   O5        1.0000  0.1306  0.7039  0.1928  1.0000\n  O   O6        1.0000  0.1306  0.2961  0.6928  1.0000\n  O   O7        1.0000  0.1664  0.1738  0.4102  1.0000\n  O   O8        1.0000  0.1664  0.8262  0.9102  1.0000\n  O   O9        1.0000  0.2583  0.4017  0.2909  1.0000\n  O   O10       1.0000  0.2532  0.0608  0.0153  1.0000\n  O   O11       1.0000  0.2540  0.4070  0.4932  1.0000\n  O   O12       1.0000  0.2583  0.5983  0.7909  1.0000\n  O   O13       1.0000  0.2532  0.9392  0.5153  1.0000\n  O   O14       1.0000  0.2792  0.0950  0.2111  1.0000\n  O   O15       1.0000  0.2540  0.5930  0.9932  1.0000\n  O   O16       1.0000  0.2792  0.9050  0.7111  1.0000\n  O   O17       1.0000  0.3293  0.3232  0.0832  1.0000\n  O   O18       1.0000  0.3293  0.6768  0.5832  1.0000\n  O   O19       1.0000  0.3675  0.8127  0.3071  1.0000\n  O   O20       1.0000  0.3675  0.1873  0.8071  1.0000\n  O   O21       1.0000  0.4272  0.6039  0.1638  1.0000\n  O   O22       1.0000  0.4272  0.3961  0.6638  1.0000\n  O   O23       1.0000  0.4776  0.0823  0.3983  1.0000\n  O   O24       1.0000  0.4776  0.9177  0.8983  1.0000\n  O   O25       1.0000  0.5243  0.1205  0.0840  1.0000\n  O   O26       1.0000  0.5243  0.8795  0.5840  1.0000\n  O   O27       1.0000  0.5594  0.6117  0.3418  1.0000\n  O   O28       1.0000  0.5594  0.3883  0.8418  1.0000\n  O   O29       1.0000  0.6153  0.8108  0.1904  1.0000\n  O   O30       1.0000  0.6153  0.1892  0.6904  1.0000\n  O   O31       1.0000  0.6316  0.3140  0.4117  1.0000\n  O   O32       1.0000  0.6316  0.6860  0.9117  1.0000\n  O   O33       1.0000  0.7379  0.0938  0.2894  1.0000\n  O   O34       1.0000  0.7457  0.4104  0.0091  1.0000\n  O   O35       1.0000  0.7379  0.9062  0.7894  1.0000\n  O   O36       1.0000  0.7427  0.0597  0.4836  1.0000\n  O   O37       1.0000  0.7384  0.4005  0.2094  1.0000\n  O   O38       1.0000  0.7457  0.5896  0.5091  1.0000\n  O   O39       1.0000  0.7427  0.9403  0.9836  1.0000\n  O   O40       1.0000  0.7384  0.5995  0.7094  1.0000\n  O   O41       1.0000  0.8619  0.1824  0.0927  1.0000\n  O   O42       1.0000  0.8619  0.8176  0.5927  1.0000\n  O   O43       1.0000  0.8755  0.7209  0.3135  1.0000\n  O   O44       1.0000  0.8755  0.2791  0.8135  1.0000\n  O   O45       1.0000  0.9493  0.9135  0.1598  1.0000\n  O   O46       1.0000  0.9493  0.0865  0.6598  1.0000\n  O   O47       1.0000  0.9942  0.3949  0.3933  1.0000\n  O   O48       1.0000  0.9942  0.6051  0.8933  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b527287d-037d-4e3f-80ad-de91e9b2db52",
    "mp_id": "mp-1177564",
    "action_prompt": "Swap the spatial positions of atoms at indices 37 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3MnV(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5693\n_cell_length_b   8.7257\n_cell_length_c   12.1406\n_cell_angle_alpha   90.2341\n_cell_angle_beta   91.3857\n_cell_angle_gamma   90.6957\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3MnV(PO4)3\n_chemical_formula_sum   'Li12 Mn4 V4 P12 O48'\n_cell_volume   907.4513\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9352  0.4866  0.6545  1\n  Li  Li1  1  0.9192  0.9144  0.3082  1\n  Li  Li2  1  0.8189  0.2206  0.8223  1\n  Li  Li3  1  0.6805  0.7195  0.6774  1\n  Li  Li4  1  0.5791  0.4144  0.1908  1\n  Li  Li5  1  0.5651  0.9875  0.8460  1\n  Li  Li6  1  0.4350  0.0146  0.1532  1\n  Li  Li7  1  0.4204  0.5847  0.8082  1\n  Li  Li8  1  0.3188  0.2804  0.3222  1\n  Li  Li9  1  0.1806  0.7792  0.1772  1\n  Li  Li10  1  0.0815  0.0848  0.6917  1\n  Li  Li11  1  0.0646  0.5126  0.3454  1\n  Mn  Mn12  1  0.7461  0.4728  0.3934  1\n  Mn  Mn13  1  0.2541  0.5275  0.6055  1\n  Mn  Mn14  1  0.2465  0.4634  0.1099  1\n  Mn  Mn15  1  0.2475  0.0295  0.8943  1\n  V  V16  1  0.7564  0.9731  0.1044  1\n  V  V17  1  0.7549  0.5352  0.8916  1\n  V  V18  1  0.7447  0.0363  0.6092  1\n  V  V19  1  0.2549  0.9638  0.3903  1\n  P  P20  1  0.9565  0.7511  0.5100  1\n  P  P21  1  0.8856  0.6182  0.1523  1\n  P  P22  1  0.8853  0.8904  0.8530  1\n  P  P23  1  0.6150  0.1185  0.3486  1\n  P  P24  1  0.6159  0.3895  0.6467  1\n  P  P25  1  0.5427  0.2512  0.9909  1\n  P  P26  1  0.4570  0.7499  0.0092  1\n  P  P27  1  0.3819  0.6112  0.3514  1\n  P  P28  1  0.3852  0.8808  0.6493  1\n  P  P29  1  0.1164  0.1098  0.1482  1\n  P  P30  1  0.1158  0.3815  0.8520  1\n  P  P31  1  0.0442  0.2486  0.4902  1\n  O  O32  1  0.9486  0.1090  0.1033  1\n  O  O33  1  0.9517  0.1301  0.5566  1\n  O  O34  1  0.9500  0.3316  0.3997  1\n  O  O35  1  0.9437  0.4190  0.8137  1\n  O  O36  1  0.8966  0.6384  0.4163  1\n  O  O37  1  0.8736  0.7960  0.1692  1\n  O  O38  1  0.8611  0.5799  0.0299  1\n  O  O39  1  0.8715  0.0068  0.7541  1\n  O  O40  1  0.8261  0.7305  0.8123  1\n  O  O41  1  0.8131  0.8241  0.5648  1\n  O  O42  1  0.7682  0.5275  0.2217  1\n  O  O43  1  0.7647  0.9508  0.9372  1\n  O  O44  1  0.7384  0.4519  0.5645  1\n  O  O45  1  0.7293  0.0306  0.2762  1\n  O  O46  1  0.6876  0.3220  0.9337  1\n  O  O47  1  0.6735  0.2301  0.6877  1\n  O  O48  1  0.6408  0.0796  0.4700  1\n  O  O49  1  0.6281  0.5056  0.7471  1\n  O  O50  1  0.6228  0.2978  0.3330  1\n  O  O51  1  0.6006  0.1389  0.0818  1\n  O  O52  1  0.5541  0.8363  0.0992  1\n  O  O53  1  0.5579  0.9193  0.6882  1\n  O  O54  1  0.5483  0.6127  0.3964  1\n  O  O55  1  0.5485  0.6319  0.9434  1\n  O  O56  1  0.4545  0.3724  0.0544  1\n  O  O57  1  0.4488  0.3861  0.6017  1\n  O  O58  1  0.4421  0.0798  0.3110  1\n  O  O59  1  0.4464  0.1666  0.8985  1\n  O  O60  1  0.3978  0.8625  0.9167  1\n  O  O61  1  0.3776  0.7012  0.6660  1\n  O  O62  1  0.3710  0.4936  0.2502  1\n  O  O63  1  0.3621  0.9181  0.5273  1\n  O  O64  1  0.3255  0.7704  0.3105  1\n  O  O65  1  0.3125  0.6775  0.0649  1\n  O  O66  1  0.2701  0.9690  0.7191  1\n  O  O67  1  0.2600  0.5479  0.4332  1\n  O  O68  1  0.2377  0.0485  0.0672  1\n  O  O69  1  0.2307  0.4707  0.7808  1\n  O  O70  1  0.1882  0.1756  0.4363  1\n  O  O71  1  0.1718  0.2714  0.1894  1\n  O  O72  1  0.1256  0.9947  0.2484  1\n  O  O73  1  0.1373  0.4183  0.9750  1\n  O  O74  1  0.1236  0.2021  0.8341  1\n  O  O75  1  0.1035  0.3616  0.5841  1\n  O  O76  1  0.0560  0.5829  0.1916  1\n  O  O77  1  0.0512  0.6674  0.6005  1\n  O  O78  1  0.0487  0.8701  0.4442  1\n  O  O79  1  0.0530  0.8891  0.8976  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li12Mn3OV4P12O5MnO42\n_chemical_formula_sum              \"Li12 Mn4 O48 V4 P12\"\n_cell_length_a       8.5693\n_cell_length_b       8.7257\n_cell_length_c       12.1406\n_cell_angle_alpha    90.2341\n_cell_angle_beta     91.3857\n_cell_angle_gamma    90.6957\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9352  0.4866  0.6545  1.0000\n  Li  Li2       1.0000  0.9192  0.9144  0.3082  1.0000\n  Li  Li3       1.0000  0.8189  0.2206  0.8223  1.0000\n  Li  Li4       1.0000  0.6805  0.7195  0.6774  1.0000\n  Li  Li5       1.0000  0.5791  0.4144  0.1908  1.0000\n  Li  Li6       1.0000  0.5651  0.9875  0.8460  1.0000\n  Li  Li7       1.0000  0.4350  0.0146  0.1532  1.0000\n  Li  Li8       1.0000  0.4204  0.5847  0.8082  1.0000\n  Li  Li9       1.0000  0.3188  0.2804  0.3222  1.0000\n  Li  Li10      1.0000  0.1806  0.7792  0.1772  1.0000\n  Li  Li11      1.0000  0.0815  0.0848  0.6917  1.0000\n  Li  Li12      1.0000  0.0646  0.5126  0.3454  1.0000\n  Mn  Mn1       1.0000  0.7461  0.4728  0.3934  1.0000\n  Mn  Mn2       1.0000  0.2541  0.5275  0.6055  1.0000\n  Mn  Mn3       1.0000  0.2465  0.4634  0.1099  1.0000\n  O   O1        1.0000  0.2475  0.0295  0.8943  1.0000\n  V   V1        1.0000  0.7564  0.9731  0.1044  1.0000\n  V   V2        1.0000  0.7549  0.5352  0.8916  1.0000\n  V   V3        1.0000  0.7447  0.0363  0.6092  1.0000\n  V   V4        1.0000  0.2549  0.9638  0.3903  1.0000\n  P   P1        1.0000  0.9565  0.7511  0.5100  1.0000\n  P   P2        1.0000  0.8856  0.6182  0.1523  1.0000\n  P   P3        1.0000  0.8853  0.8904  0.8530  1.0000\n  P   P4        1.0000  0.6150  0.1185  0.3486  1.0000\n  P   P5        1.0000  0.6159  0.3895  0.6467  1.0000\n  P   P6        1.0000  0.5427  0.2512  0.9909  1.0000\n  P   P7        1.0000  0.4570  0.7499  0.0092  1.0000\n  P   P8        1.0000  0.3819  0.6112  0.3514  1.0000\n  P   P9        1.0000  0.3852  0.8808  0.6493  1.0000\n  P   P10       1.0000  0.1164  0.1098  0.1482  1.0000\n  P   P11       1.0000  0.1158  0.3815  0.8520  1.0000\n  P   P12       1.0000  0.0442  0.2486  0.4902  1.0000\n  O   O2        1.0000  0.9486  0.1090  0.1033  1.0000\n  O   O3        1.0000  0.9517  0.1301  0.5566  1.0000\n  O   O4        1.0000  0.9500  0.3316  0.3997  1.0000\n  O   O5        1.0000  0.9437  0.4190  0.8137  1.0000\n  O   O6        1.0000  0.8966  0.6384  0.4163  1.0000\n  Mn  Mn4       1.0000  0.8736  0.7960  0.1692  1.0000\n  O   O7        1.0000  0.8611  0.5799  0.0299  1.0000\n  O   O8        1.0000  0.8715  0.0068  0.7541  1.0000\n  O   O9        1.0000  0.8261  0.7305  0.8123  1.0000\n  O   O10       1.0000  0.8131  0.8241  0.5648  1.0000\n  O   O11       1.0000  0.7682  0.5275  0.2217  1.0000\n  O   O12       1.0000  0.7647  0.9508  0.9372  1.0000\n  O   O13       1.0000  0.7384  0.4519  0.5645  1.0000\n  O   O14       1.0000  0.7293  0.0306  0.2762  1.0000\n  O   O15       1.0000  0.6876  0.3220  0.9337  1.0000\n  O   O16       1.0000  0.6735  0.2301  0.6877  1.0000\n  O   O17       1.0000  0.6408  0.0796  0.4700  1.0000\n  O   O18       1.0000  0.6281  0.5056  0.7471  1.0000\n  O   O19       1.0000  0.6228  0.2978  0.3330  1.0000\n  O   O20       1.0000  0.6006  0.1389  0.0818  1.0000\n  O   O21       1.0000  0.5541  0.8363  0.0992  1.0000\n  O   O22       1.0000  0.5579  0.9193  0.6882  1.0000\n  O   O23       1.0000  0.5483  0.6127  0.3964  1.0000\n  O   O24       1.0000  0.5485  0.6319  0.9434  1.0000\n  O   O25       1.0000  0.4545  0.3724  0.0544  1.0000\n  O   O26       1.0000  0.4488  0.3861  0.6017  1.0000\n  O   O27       1.0000  0.4421  0.0798  0.3110  1.0000\n  O   O28       1.0000  0.4464  0.1666  0.8985  1.0000\n  O   O29       1.0000  0.3978  0.8625  0.9167  1.0000\n  O   O30       1.0000  0.3776  0.7012  0.6660  1.0000\n  O   O31       1.0000  0.3710  0.4936  0.2502  1.0000\n  O   O32       1.0000  0.3621  0.9181  0.5273  1.0000\n  O   O33       1.0000  0.3255  0.7704  0.3105  1.0000\n  O   O34       1.0000  0.3125  0.6775  0.0649  1.0000\n  O   O35       1.0000  0.2701  0.9690  0.7191  1.0000\n  O   O36       1.0000  0.2600  0.5479  0.4332  1.0000\n  O   O37       1.0000  0.2377  0.0485  0.0672  1.0000\n  O   O38       1.0000  0.2307  0.4707  0.7808  1.0000\n  O   O39       1.0000  0.1882  0.1756  0.4363  1.0000\n  O   O40       1.0000  0.1718  0.2714  0.1894  1.0000\n  O   O41       1.0000  0.1256  0.9947  0.2484  1.0000\n  O   O42       1.0000  0.1373  0.4183  0.9750  1.0000\n  O   O43       1.0000  0.1236  0.2021  0.8341  1.0000\n  O   O44       1.0000  0.1035  0.3616  0.5841  1.0000\n  O   O45       1.0000  0.0560  0.5829  0.1916  1.0000\n  O   O46       1.0000  0.0512  0.6674  0.6005  1.0000\n  O   O47       1.0000  0.0487  0.8701  0.4442  1.0000\n  O   O48       1.0000  0.0530  0.8891  0.8976  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "530203c7-0428-47e0-9a83-2edc9b6a401f",
    "mp_id": "mp-1177801",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2VCr3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9089\n_cell_length_b   5.9100\n_cell_length_c   10.4769\n_cell_angle_alpha   74.5560\n_cell_angle_beta   73.6170\n_cell_angle_gamma   60.0060\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2VCr3O8\n_chemical_formula_sum   'Li4 V2 Cr6 O16'\n_cell_volume   300.5275\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2500  0.7499  0.2500  1\n  Li  Li1  1  0.7501  0.2499  0.7500  1\n  Li  Li2  1  0.7500  0.7499  0.2500  1\n  Li  Li3  1  0.2499  0.2500  0.7501  1\n  V  V4  1  0.9999  0.9999  0.0002  1\n  V  V5  1  0.4999  0.5000  0.5001  1\n  Cr  Cr6  1  0.4999  0.0001  0.0000  1\n  Cr  Cr7  1  1.0000  0.0002  0.4998  1\n  Cr  Cr8  1  0.5001  0.9999  0.5001  1\n  Cr  Cr9  1  0.0002  0.4999  0.4999  1\n  Cr  Cr10  1  0.5000  0.5003  0.9997  1\n  Cr  Cr11  1  0.9997  0.5000  0.0001  1\n  O  O12  1  0.3794  0.8478  0.3936  1\n  O  O13  1  0.8794  0.3478  0.8935  1\n  O  O14  1  0.1207  0.6521  0.1064  1\n  O  O15  1  0.6208  0.1521  0.6064  1\n  O  O16  1  0.8729  0.8603  0.3939  1\n  O  O17  1  0.3727  0.3604  0.8939  1\n  O  O18  1  0.6269  0.6398  0.1061  1\n  O  O19  1  0.1271  0.1397  0.6061  1\n  O  O20  1  0.8487  0.3770  0.3975  1\n  O  O21  1  0.3487  0.8770  0.8975  1\n  O  O22  1  0.3770  0.3768  0.3976  1\n  O  O23  1  0.8768  0.8769  0.8976  1\n  O  O24  1  0.1231  0.1230  0.1025  1\n  O  O25  1  0.6233  0.6229  0.6024  1\n  O  O26  1  0.6514  0.1232  0.1024  1\n  O  O27  1  0.1513  0.6231  0.6024  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4V2Cr4OCr2O15\n_chemical_formula_sum              \"Li4 V2 Cr6 O16\"\n_cell_length_a       5.9089\n_cell_length_b       5.9100\n_cell_length_c       10.4769\n_cell_angle_alpha    74.5560\n_cell_angle_beta     73.6170\n_cell_angle_gamma    60.0060\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2500  0.7499  0.2500  1.0000\n  Li  Li2       1.0000  0.7501  0.2499  0.7500  1.0000\n  Li  Li3       1.0000  0.7500  0.7499  0.2500  1.0000\n  Li  Li4       1.0000  0.2499  0.2500  0.7501  1.0000\n  V   V1        1.0000  0.9999  0.9999  0.0002  1.0000\n  V   V2        1.0000  0.4999  0.5000  0.5001  1.0000\n  Cr  Cr1       1.0000  0.4999  0.0001  0.0000  1.0000\n  Cr  Cr2       1.0000  1.0000  0.0002  0.4998  1.0000\n  Cr  Cr3       1.0000  0.5001  0.9999  0.5001  1.0000\n  Cr  Cr4       1.0000  0.0002  0.4999  0.4999  1.0000\n  O   O1        1.0000  0.5000  0.5003  0.9997  1.0000\n  Cr  Cr5       1.0000  0.9997  0.5000  0.0001  1.0000\n  Cr  Cr6       1.0000  0.3794  0.8478  0.3936  1.0000\n  O   O2        1.0000  0.8794  0.3478  0.8935  1.0000\n  O   O3        1.0000  0.1207  0.6521  0.1064  1.0000\n  O   O4        1.0000  0.6208  0.1521  0.6064  1.0000\n  O   O5        1.0000  0.8729  0.8603  0.3939  1.0000\n  O   O6        1.0000  0.3727  0.3604  0.8939  1.0000\n  O   O7        1.0000  0.6269  0.6398  0.1061  1.0000\n  O   O8        1.0000  0.1271  0.1397  0.6061  1.0000\n  O   O9        1.0000  0.8487  0.3770  0.3975  1.0000\n  O   O10       1.0000  0.3487  0.8770  0.8975  1.0000\n  O   O11       1.0000  0.3770  0.3768  0.3976  1.0000\n  O   O12       1.0000  0.8768  0.8769  0.8976  1.0000\n  O   O13       1.0000  0.1231  0.1230  0.1025  1.0000\n  O   O14       1.0000  0.6233  0.6229  0.6024  1.0000\n  O   O15       1.0000  0.6514  0.1232  0.1024  1.0000\n  O   O16       1.0000  0.1513  0.6231  0.6024  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a0db8eab-9b0c-4bfb-9aaa-d7f0d1f4877d",
    "mp_id": "mp-1178026",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Co3TeO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9741\n_cell_length_b   6.0259\n_cell_length_c   6.0337\n_cell_angle_alpha   91.7016\n_cell_angle_beta   118.6028\n_cell_angle_gamma   119.0221\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Co3TeO8\n_chemical_formula_sum   'Li2 Co3 Te1 O8'\n_cell_volume   156.7503\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.0000  0.5000  1\n  Li  Li1  1  0.5000  0.5000  0.5000  1\n  Co  Co2  1  0.0000  0.5000  0.0000  1\n  Co  Co3  1  0.5000  0.0000  0.0000  1\n  Co  Co4  1  0.5000  0.5000  0.0000  1\n  Te  Te5  1  0.0000  0.0000  0.0000  1\n  O  O6  1  0.4377  0.7063  0.1935  1\n  O  O7  1  0.0137  0.7740  0.7798  1\n  O  O8  1  0.0088  0.2474  0.7897  1\n  O  O9  1  0.5444  0.7666  0.7741  1\n  O  O10  1  0.4556  0.2334  0.2259  1\n  O  O11  1  0.9912  0.7526  0.2103  1\n  O  O12  1  0.9863  0.2260  0.2202  1\n  O  O13  1  0.5623  0.2937  0.8065  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Co3O8Te\n_chemical_formula_sum              \"Li2 Co3 O8 Te1\"\n_cell_length_a       5.9741\n_cell_length_b       6.0259\n_cell_length_c       6.0337\n_cell_angle_alpha    91.7016\n_cell_angle_beta     118.6028\n_cell_angle_gamma    119.0221\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Li  Li2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Co  Co1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Co  Co2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co3       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.4377  0.7063  0.1935  1.0000\n  O   O3        1.0000  0.0137  0.7740  0.7798  1.0000\n  O   O4        1.0000  0.0088  0.2474  0.7897  1.0000\n  O   O5        1.0000  0.5444  0.7666  0.7741  1.0000\n  O   O6        1.0000  0.4556  0.2334  0.2259  1.0000\n  O   O7        1.0000  0.9912  0.7526  0.2103  1.0000\n  O   O8        1.0000  0.9863  0.2260  0.2202  1.0000\n  Te  Te1       1.0000  0.5623  0.2937  0.8065  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6445abe8-063b-4a47-b9f4-8730f5cd0ac1",
    "mp_id": "mp-1178085",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li11Fe5(OF11)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1620\n_cell_length_b   8.7657\n_cell_length_c   9.5635\n_cell_angle_alpha   90.4009\n_cell_angle_beta   90.5959\n_cell_angle_gamma   90.4290\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li11Fe5(OF11)2\n_chemical_formula_sum   'Li11 Fe5 O2 F22'\n_cell_volume   432.6847\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7931  0.1422  0.4415  1\n  Li  Li1  1  0.1880  0.1552  0.1370  1\n  Li  Li2  1  0.3129  0.3589  0.8617  1\n  Li  Li3  1  0.6850  0.3354  0.1442  1\n  Li  Li4  1  0.2867  0.3481  0.4355  1\n  Li  Li5  1  0.6924  0.6537  0.9396  1\n  Li  Li6  1  0.3115  0.6660  0.6327  1\n  Li  Li7  1  0.6879  0.6569  0.3602  1\n  Li  Li8  1  0.2014  0.8514  0.3547  1\n  Li  Li9  1  0.8168  0.8405  0.6347  1\n  Li  Li10  1  0.1948  0.8522  0.9385  1\n  Fe  Fe11  1  0.3337  0.0150  0.6330  1\n  Fe  Fe12  1  0.8155  0.1365  0.8635  1\n  Fe  Fe13  1  0.8144  0.4846  0.6337  1\n  Fe  Fe14  1  0.1802  0.5201  0.1355  1\n  Fe  Fe15  1  0.7073  0.9733  0.1368  1\n  O  O16  1  0.6422  0.0106  0.7380  1\n  O  O17  1  0.9742  0.0167  0.0051  1\n  F  F18  1  0.1520  0.1727  0.7602  1\n  F  F19  1  0.4471  0.1693  0.5008  1\n  F  F20  1  0.5336  0.1695  0.0106  1\n  F  F21  1  0.8437  0.1561  0.2461  1\n  F  F22  1  0.3364  0.3453  0.2379  1\n  F  F23  1  0.0222  0.3434  0.0132  1\n  F  F24  1  0.9472  0.3298  0.5116  1\n  F  F25  1  0.6672  0.3366  0.7706  1\n  F  F26  1  0.4820  0.4914  0.0128  1\n  F  F27  1  0.1338  0.5001  0.7384  1\n  F  F28  1  0.8686  0.5005  0.2425  1\n  F  F29  1  0.5054  0.5075  0.5137  1\n  F  F30  1  0.3472  0.6614  0.2613  1\n  F  F31  1  0.0375  0.6653  0.0066  1\n  F  F32  1  0.9618  0.6537  0.5201  1\n  F  F33  1  0.6550  0.6525  0.7419  1\n  F  F34  1  0.1595  0.8450  0.7386  1\n  F  F35  1  0.4702  0.8379  0.5137  1\n  F  F36  1  0.5313  0.8294  0.0119  1\n  F  F37  1  0.8579  0.8300  0.2640  1\n  F  F38  1  0.0206  0.9868  0.5093  1\n  F  F39  1  0.3824  0.9987  0.2364  1\n",
    "output": "data_image0\n_chemical_formula_structural       FLi10Fe5O2F11LiF10\n_chemical_formula_sum              \"F22 Li11 Fe5 O2\"\n_cell_length_a       5.1620\n_cell_length_b       8.7657\n_cell_length_c       9.5635\n_cell_angle_alpha    90.4009\n_cell_angle_beta     90.5959\n_cell_angle_gamma    90.4290\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.7931  0.1422  0.4415  1.0000\n  Li  Li1       1.0000  0.1880  0.1552  0.1370  1.0000\n  Li  Li2       1.0000  0.3129  0.3589  0.8617  1.0000\n  Li  Li3       1.0000  0.6850  0.3354  0.1442  1.0000\n  Li  Li4       1.0000  0.2867  0.3481  0.4355  1.0000\n  Li  Li5       1.0000  0.6924  0.6537  0.9396  1.0000\n  Li  Li6       1.0000  0.3115  0.6660  0.6327  1.0000\n  Li  Li7       1.0000  0.6879  0.6569  0.3602  1.0000\n  Li  Li8       1.0000  0.2014  0.8514  0.3547  1.0000\n  Li  Li9       1.0000  0.8168  0.8405  0.6347  1.0000\n  Li  Li10      1.0000  0.1948  0.8522  0.9385  1.0000\n  Fe  Fe1       1.0000  0.3337  0.0150  0.6330  1.0000\n  Fe  Fe2       1.0000  0.8155  0.1365  0.8635  1.0000\n  Fe  Fe3       1.0000  0.8144  0.4846  0.6337  1.0000\n  Fe  Fe4       1.0000  0.1802  0.5201  0.1355  1.0000\n  Fe  Fe5       1.0000  0.7073  0.9733  0.1368  1.0000\n  O   O1        1.0000  0.6422  0.0106  0.7380  1.0000\n  O   O2        1.0000  0.9742  0.0167  0.0051  1.0000\n  F   F2        1.0000  0.1520  0.1727  0.7602  1.0000\n  F   F3        1.0000  0.4471  0.1693  0.5008  1.0000\n  F   F4        1.0000  0.5336  0.1695  0.0106  1.0000\n  F   F5        1.0000  0.8437  0.1561  0.2461  1.0000\n  F   F6        1.0000  0.3364  0.3453  0.2379  1.0000\n  F   F7        1.0000  0.0222  0.3434  0.0132  1.0000\n  F   F8        1.0000  0.9472  0.3298  0.5116  1.0000\n  F   F9        1.0000  0.6672  0.3366  0.7706  1.0000\n  F   F10       1.0000  0.4820  0.4914  0.0128  1.0000\n  F   F11       1.0000  0.1338  0.5001  0.7384  1.0000\n  F   F12       1.0000  0.8686  0.5005  0.2425  1.0000\n  Li  Li11      1.0000  0.5054  0.5075  0.5137  1.0000\n  F   F13       1.0000  0.3472  0.6614  0.2613  1.0000\n  F   F14       1.0000  0.0375  0.6653  0.0066  1.0000\n  F   F15       1.0000  0.9618  0.6537  0.5201  1.0000\n  F   F16       1.0000  0.6550  0.6525  0.7419  1.0000\n  F   F17       1.0000  0.1595  0.8450  0.7386  1.0000\n  F   F18       1.0000  0.4702  0.8379  0.5137  1.0000\n  F   F19       1.0000  0.5313  0.8294  0.0119  1.0000\n  F   F20       1.0000  0.8579  0.8300  0.2640  1.0000\n  F   F21       1.0000  0.0206  0.9868  0.5093  1.0000\n  F   F22       1.0000  0.3824  0.9987  0.2364  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5815af12-2ab6-4859-a6a2-d79ca2bbce52",
    "mp_id": "mp-1178148",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KLi(WO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6259\n_cell_length_b   7.6284\n_cell_length_c   7.8848\n_cell_angle_alpha   90.0012\n_cell_angle_beta   90.0049\n_cell_angle_gamma   119.7329\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KLi(WO3)3\n_chemical_formula_sum   'K2 Li2 W6 O18'\n_cell_volume   398.3012\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9938  0.9971  0.2693  1\n  K  K1  1  0.9972  0.0033  0.7673  1\n  Li  Li2  1  0.5914  0.2988  0.2507  1\n  Li  Li3  1  0.2957  0.6978  0.7491  1\n  W  W4  1  0.9950  0.4975  0.4980  1\n  W  W5  1  0.9952  0.4962  0.0019  1\n  W  W6  1  0.4973  0.5030  0.5020  1\n  W  W7  1  0.4986  0.5030  0.9978  1\n  W  W8  1  0.5005  0.9991  0.9999  1\n  W  W9  1  0.5013  0.0001  0.5000  1\n  O  O10  1  0.9954  0.4963  0.7499  1\n  O  O11  1  0.7956  0.2160  0.0085  1\n  O  O12  1  0.7984  0.2161  0.4921  1\n  O  O13  1  0.7935  0.5768  0.4930  1\n  O  O14  1  0.4995  0.0035  0.7428  1\n  O  O15  1  0.7967  0.5798  0.0058  1\n  O  O16  1  0.4240  0.2045  0.0167  1\n  O  O17  1  0.4238  0.2207  0.4826  1\n  O  O18  1  0.4977  0.4955  0.7572  1\n  O  O19  1  0.4992  0.5038  0.2423  1\n  O  O20  1  0.5836  0.8007  0.9898  1\n  O  O21  1  0.5836  0.7846  0.5092  1\n  O  O22  1  0.2039  0.4232  0.5072  1\n  O  O23  1  0.4990  0.9971  0.2576  1\n  O  O24  1  0.2014  0.4205  0.9944  1\n  O  O25  1  0.2072  0.7803  0.9840  1\n  O  O26  1  0.2045  0.7802  0.5145  1\n  O  O27  1  0.0024  0.5045  0.2501  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Li2W4OWO13WO4\n_chemical_formula_sum              \"K2 Li2 W6 O18\"\n_cell_length_a       7.6259\n_cell_length_b       7.6284\n_cell_length_c       7.8848\n_cell_angle_alpha    90.0012\n_cell_angle_beta     90.0049\n_cell_angle_gamma    119.7329\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9938  0.9971  0.2693  1.0000\n  K   K2        1.0000  0.9972  0.0033  0.7673  1.0000\n  Li  Li1       1.0000  0.5914  0.2988  0.2507  1.0000\n  Li  Li2       1.0000  0.2957  0.6978  0.7491  1.0000\n  W   W1        1.0000  0.9950  0.4975  0.4980  1.0000\n  W   W2        1.0000  0.9952  0.4962  0.0019  1.0000\n  W   W3        1.0000  0.4973  0.5030  0.5020  1.0000\n  W   W4        1.0000  0.4986  0.5030  0.9978  1.0000\n  O   O1        1.0000  0.5005  0.9991  0.9999  1.0000\n  W   W5        1.0000  0.5013  0.0001  0.5000  1.0000\n  O   O2        1.0000  0.9954  0.4963  0.7499  1.0000\n  O   O3        1.0000  0.7956  0.2160  0.0085  1.0000\n  O   O4        1.0000  0.7984  0.2161  0.4921  1.0000\n  O   O5        1.0000  0.7935  0.5768  0.4930  1.0000\n  O   O6        1.0000  0.4995  0.0035  0.7428  1.0000\n  O   O7        1.0000  0.7967  0.5798  0.0058  1.0000\n  O   O8        1.0000  0.4240  0.2045  0.0167  1.0000\n  O   O9        1.0000  0.4238  0.2207  0.4826  1.0000\n  O   O10       1.0000  0.4977  0.4955  0.7572  1.0000\n  O   O11       1.0000  0.4992  0.5038  0.2423  1.0000\n  O   O12       1.0000  0.5836  0.8007  0.9898  1.0000\n  O   O13       1.0000  0.5836  0.7846  0.5092  1.0000\n  O   O14       1.0000  0.2039  0.4232  0.5072  1.0000\n  W   W6        1.0000  0.4990  0.9971  0.2576  1.0000\n  O   O15       1.0000  0.2014  0.4205  0.9944  1.0000\n  O   O16       1.0000  0.2072  0.7803  0.9840  1.0000\n  O   O17       1.0000  0.2045  0.7802  0.5145  1.0000\n  O   O18       1.0000  0.0024  0.5045  0.2501  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5398a5a7-b49e-41a2-ba87-8639cd38d228",
    "mp_id": "mp-1178259",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_FeCo3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0387\n_cell_length_b   8.1115\n_cell_length_c   8.1585\n_cell_angle_alpha   89.7169\n_cell_angle_beta   89.9854\n_cell_angle_gamma   89.6660\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   FeCo3O8\n_chemical_formula_sum   'Fe4 Co12 O32'\n_cell_volume   531.9673\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.1264  0.8765  0.3763  1\n  Fe  Fe1  1  0.3762  0.1264  0.8751  1\n  Fe  Fe2  1  0.6266  0.6261  0.6223  1\n  Fe  Fe3  1  0.8765  0.3754  0.1266  1\n  Co  Co4  1  0.1203  0.1275  0.6265  1\n  Co  Co5  1  0.1244  0.3796  0.8715  1\n  Co  Co6  1  0.1282  0.6269  0.1189  1\n  Co  Co7  1  0.3699  0.3739  0.6174  1\n  Co  Co8  1  0.3749  0.6174  0.3678  1\n  Co  Co9  1  0.3760  0.8705  0.1232  1\n  Co  Co10  1  0.6175  0.3680  0.3761  1\n  Co  Co11  1  0.6265  0.1201  0.1297  1\n  Co  Co12  1  0.6315  0.8753  0.8798  1\n  Co  Co13  1  0.8689  0.1229  0.3793  1\n  Co  Co14  1  0.8751  0.8821  0.6344  1\n  Co  Co15  1  0.8798  0.6329  0.8762  1\n  O  O16  1  0.1081  0.1141  0.3950  1\n  O  O17  1  0.1072  0.9001  0.6262  1\n  O  O18  1  0.1158  0.6096  0.8853  1\n  O  O19  1  0.1360  0.1446  0.8590  1\n  O  O20  1  0.1144  0.3925  0.1078  1\n  O  O21  1  0.1370  0.3599  0.6371  1\n  O  O22  1  0.1390  0.6401  0.3543  1\n  O  O23  1  0.1489  0.8563  0.1206  1\n  O  O24  1  0.3594  0.1388  0.6403  1\n  O  O25  1  0.3579  0.3629  0.8564  1\n  O  O26  1  0.3626  0.6350  0.1368  1\n  O  O27  1  0.3740  0.6020  0.5963  1\n  O  O28  1  0.3669  0.8566  0.3522  1\n  O  O29  1  0.3834  0.3828  0.3845  1\n  O  O30  1  0.3900  0.1101  0.1088  1\n  O  O31  1  0.3911  0.8904  0.8906  1\n  O  O32  1  0.6006  0.3764  0.6023  1\n  O  O33  1  0.6046  0.5977  0.3752  1\n  O  O34  1  0.6104  0.8894  0.1124  1\n  O  O35  1  0.6369  0.3517  0.1421  1\n  O  O36  1  0.6126  0.1105  0.8921  1\n  O  O37  1  0.6352  0.1356  0.3636  1\n  O  O38  1  0.6440  0.8736  0.6523  1\n  O  O39  1  0.6500  0.6473  0.8732  1\n  O  O40  1  0.8579  0.3529  0.3634  1\n  O  O41  1  0.8545  0.1204  0.1493  1\n  O  O42  1  0.8642  0.8661  0.8673  1\n  O  O43  1  0.8853  0.8932  0.3985  1\n  O  O44  1  0.8765  0.6523  0.6474  1\n  O  O45  1  0.8849  0.1149  0.6141  1\n  O  O46  1  0.8930  0.3940  0.8892  1\n  O  O47  1  0.8986  0.6268  0.1058  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe4CoOCo10O6CoO25\n_chemical_formula_sum              \"Fe4 Co12 O32\"\n_cell_length_a       8.0387\n_cell_length_b       8.1115\n_cell_length_c       8.1585\n_cell_angle_alpha    89.7169\n_cell_angle_beta     89.9854\n_cell_angle_gamma    89.6660\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.1264  0.8765  0.3763  1.0000\n  Fe  Fe2       1.0000  0.3762  0.1264  0.8751  1.0000\n  Fe  Fe3       1.0000  0.6266  0.6261  0.6223  1.0000\n  Fe  Fe4       1.0000  0.8765  0.3754  0.1266  1.0000\n  Co  Co1       1.0000  0.1203  0.1275  0.6265  1.0000\n  O   O1        1.0000  0.1244  0.3796  0.8715  1.0000\n  Co  Co2       1.0000  0.1282  0.6269  0.1189  1.0000\n  Co  Co3       1.0000  0.3699  0.3739  0.6174  1.0000\n  Co  Co4       1.0000  0.3749  0.6174  0.3678  1.0000\n  Co  Co5       1.0000  0.3760  0.8705  0.1232  1.0000\n  Co  Co6       1.0000  0.6175  0.3680  0.3761  1.0000\n  Co  Co7       1.0000  0.6265  0.1201  0.1297  1.0000\n  Co  Co8       1.0000  0.6315  0.8753  0.8798  1.0000\n  Co  Co9       1.0000  0.8689  0.1229  0.3793  1.0000\n  Co  Co10      1.0000  0.8751  0.8821  0.6344  1.0000\n  Co  Co11      1.0000  0.8798  0.6329  0.8762  1.0000\n  O   O2        1.0000  0.1081  0.1141  0.3950  1.0000\n  O   O3        1.0000  0.1072  0.9001  0.6262  1.0000\n  O   O4        1.0000  0.1158  0.6096  0.8853  1.0000\n  O   O5        1.0000  0.1360  0.1446  0.8590  1.0000\n  O   O6        1.0000  0.1144  0.3925  0.1078  1.0000\n  O   O7        1.0000  0.1370  0.3599  0.6371  1.0000\n  Co  Co12      1.0000  0.1390  0.6401  0.3543  1.0000\n  O   O8        1.0000  0.1489  0.8563  0.1206  1.0000\n  O   O9        1.0000  0.3594  0.1388  0.6403  1.0000\n  O   O10       1.0000  0.3579  0.3629  0.8564  1.0000\n  O   O11       1.0000  0.3626  0.6350  0.1368  1.0000\n  O   O12       1.0000  0.3740  0.6020  0.5963  1.0000\n  O   O13       1.0000  0.3669  0.8566  0.3522  1.0000\n  O   O14       1.0000  0.3834  0.3828  0.3845  1.0000\n  O   O15       1.0000  0.3900  0.1101  0.1088  1.0000\n  O   O16       1.0000  0.3911  0.8904  0.8906  1.0000\n  O   O17       1.0000  0.6006  0.3764  0.6023  1.0000\n  O   O18       1.0000  0.6046  0.5977  0.3752  1.0000\n  O   O19       1.0000  0.6104  0.8894  0.1124  1.0000\n  O   O20       1.0000  0.6369  0.3517  0.1421  1.0000\n  O   O21       1.0000  0.6126  0.1105  0.8921  1.0000\n  O   O22       1.0000  0.6352  0.1356  0.3636  1.0000\n  O   O23       1.0000  0.6440  0.8736  0.6523  1.0000\n  O   O24       1.0000  0.6500  0.6473  0.8732  1.0000\n  O   O25       1.0000  0.8579  0.3529  0.3634  1.0000\n  O   O26       1.0000  0.8545  0.1204  0.1493  1.0000\n  O   O27       1.0000  0.8642  0.8661  0.8673  1.0000\n  O   O28       1.0000  0.8853  0.8932  0.3985  1.0000\n  O   O29       1.0000  0.8765  0.6523  0.6474  1.0000\n  O   O30       1.0000  0.8849  0.1149  0.6141  1.0000\n  O   O31       1.0000  0.8930  0.3940  0.8892  1.0000\n  O   O32       1.0000  0.8986  0.6268  0.1058  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a1d04c83-f2d5-4097-8e6e-4befe38149af",
    "mp_id": "mp-1178586",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 59 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca9(WO3)20\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.9241\n_cell_length_b   12.9241\n_cell_length_c   17.4929\n_cell_angle_alpha   47.6464\n_cell_angle_beta   47.6464\n_cell_angle_gamma   34.1871\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca9(WO3)20\n_chemical_formula_sum   'Ca9 W20 O60'\n_cell_volume   1164.6436\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.1661  0.1661  0.3734  1\n  Ca  Ca1  1  0.6624  0.6624  0.3157  1\n  Ca  Ca2  1  0.4868  0.4868  0.8494  1\n  Ca  Ca3  1  0.0396  0.0396  0.7906  1\n  Ca  Ca4  1  0.2499  0.2499  0.5036  1\n  Ca  Ca5  1  0.0176  0.0176  0.1451  1\n  Ca  Ca6  1  0.4725  0.4725  0.2128  1\n  Ca  Ca7  1  0.8349  0.8349  0.6792  1\n  Ca  Ca8  1  0.3261  0.3261  0.6360  1\n  W  W9  1  0.6448  0.1418  0.7981  1\n  W  W10  1  0.1418  0.6448  0.7981  1\n  W  W11  1  0.5588  0.0630  0.0834  1\n  W  W12  1  0.0630  0.5588  0.0834  1\n  W  W13  1  0.3606  0.8539  0.5735  1\n  W  W14  1  0.8539  0.3606  0.5735  1\n  W  W15  1  0.5711  0.0658  0.2890  1\n  W  W16  1  0.0658  0.5711  0.2890  1\n  W  W17  1  0.7483  0.2519  0.9993  1\n  W  W18  1  0.2519  0.7483  0.9993  1\n  W  W19  1  0.9277  0.4359  0.7115  1\n  W  W20  1  0.4359  0.9277  0.7115  1\n  W  W21  1  0.1388  0.6476  0.4256  1\n  W  W22  1  0.6476  0.1388  0.4256  1\n  W  W23  1  0.4389  0.9418  0.9171  1\n  W  W24  1  0.9418  0.4389  0.9171  1\n  W  W25  1  0.3589  0.8547  0.2035  1\n  W  W26  1  0.8547  0.3589  0.2035  1\n  W  W27  1  0.7479  0.2503  0.5012  1\n  W  W28  1  0.2503  0.7479  0.5012  1\n  O  O29  1  0.7377  0.1246  0.6580  1\n  O  O30  1  0.1246  0.7377  0.6580  1\n  O  O31  1  0.9000  0.5056  0.1551  1\n  O  O32  1  0.5056  0.9000  0.1551  1\n  O  O33  1  0.3909  0.3909  0.7762  1\n  O  O34  1  0.9017  0.9017  0.8181  1\n  O  O35  1  0.5516  0.1530  0.9364  1\n  O  O36  1  0.1530  0.5516  0.9364  1\n  O  O37  1  0.7987  0.3883  0.4707  1\n  O  O38  1  0.3883  0.7987  0.4707  1\n  O  O39  1  0.8316  0.8316  0.0546  1\n  O  O40  1  0.2818  0.2818  0.1227  1\n  O  O41  1  0.2762  0.7206  0.7331  1\n  O  O42  1  0.7206  0.2762  0.7331  1\n  O  O43  1  0.5578  0.9852  0.2311  1\n  O  O44  1  0.9852  0.5578  0.2311  1\n  O  O45  1  0.6236  0.6236  0.5726  1\n  O  O46  1  0.0881  0.0881  0.5717  1\n  O  O47  1  0.6104  0.2252  0.0070  1\n  O  O48  1  0.2252  0.6104  0.0070  1\n  O  O49  1  0.0240  0.4114  0.4259  1\n  O  O50  1  0.4114  0.0240  0.4259  1\n  O  O51  1  0.3319  0.3319  0.2499  1\n  O  O52  1  0.8027  0.8027  0.3256  1\n  O  O53  1  0.9552  0.3268  0.6451  1\n  O  O54  1  0.3268  0.9552  0.6451  1\n  O  O55  1  0.1195  0.7308  0.1594  1\n  O  O56  1  0.7308  0.1195  0.1594  1\n  O  O57  1  0.5008  0.5008  0.0393  1\n  O  O58  1  0.9958  0.9958  0.9665  1\n  O  O59  1  0.3723  0.7654  0.8434  1\n  O  O60  1  0.7654  0.3723  0.8434  1\n  O  O61  1  0.5478  0.1711  0.3512  1\n  O  O62  1  0.1711  0.5478  0.3512  1\n  O  O63  1  0.7003  0.7003  0.6748  1\n  O  O64  1  0.1644  0.1644  0.7512  1\n  O  O65  1  0.1035  0.4712  0.5710  1\n  O  O66  1  0.4712  0.1035  0.5710  1\n  O  O67  1  0.8849  0.2817  0.9892  1\n  O  O68  1  0.2817  0.8849  0.9892  1\n  O  O69  1  0.8750  0.8750  0.4266  1\n  O  O70  1  0.4180  0.4180  0.4131  1\n  O  O71  1  0.5143  0.9481  0.7723  1\n  O  O72  1  0.9481  0.5143  0.7723  1\n  O  O73  1  0.2196  0.7863  0.2613  1\n  O  O74  1  0.7863  0.2196  0.2613  1\n  O  O75  1  0.6694  0.6694  0.9440  1\n  O  O76  1  0.2158  0.2158  0.8793  1\n  O  O77  1  0.1101  0.7057  0.5259  1\n  O  O78  1  0.7057  0.1101  0.5259  1\n  O  O79  1  0.9449  0.3534  0.0588  1\n  O  O80  1  0.3534  0.9449  0.0588  1\n  O  O81  1  0.1122  0.1122  0.2198  1\n  O  O82  1  0.5926  0.5926  0.1864  1\n  O  O83  1  0.5868  0.0013  0.8519  1\n  O  O84  1  0.0013  0.5868  0.8519  1\n  O  O85  1  0.3704  0.7579  0.3481  1\n  O  O86  1  0.7579  0.3704  0.3481  1\n  O  O87  1  0.4623  0.4623  0.5460  1\n  O  O88  1  0.0341  0.0341  0.4612  1\n",
    "output": "data_image0\n_chemical_formula_structural       OCa8W20O30CaO29\n_chemical_formula_sum              \"O60 Ca9 W20\"\n_cell_length_a       12.9241\n_cell_length_b       12.9241\n_cell_length_c       17.4929\n_cell_angle_alpha    47.6464\n_cell_angle_beta     47.6464\n_cell_angle_gamma    34.1871\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1661  0.1661  0.3734  1.0000\n  Ca  Ca1       1.0000  0.6624  0.6624  0.3157  1.0000\n  Ca  Ca2       1.0000  0.4868  0.4868  0.8494  1.0000\n  Ca  Ca3       1.0000  0.0396  0.0396  0.7906  1.0000\n  Ca  Ca4       1.0000  0.2499  0.2499  0.5036  1.0000\n  Ca  Ca5       1.0000  0.0176  0.0176  0.1451  1.0000\n  Ca  Ca6       1.0000  0.4725  0.4725  0.2128  1.0000\n  Ca  Ca7       1.0000  0.8349  0.8349  0.6792  1.0000\n  Ca  Ca8       1.0000  0.3261  0.3261  0.6360  1.0000\n  W   W1        1.0000  0.6448  0.1418  0.7981  1.0000\n  W   W2        1.0000  0.1418  0.6448  0.7981  1.0000\n  W   W3        1.0000  0.5588  0.0630  0.0834  1.0000\n  W   W4        1.0000  0.0630  0.5588  0.0834  1.0000\n  W   W5        1.0000  0.3606  0.8539  0.5735  1.0000\n  W   W6        1.0000  0.8539  0.3606  0.5735  1.0000\n  W   W7        1.0000  0.5711  0.0658  0.2890  1.0000\n  W   W8        1.0000  0.0658  0.5711  0.2890  1.0000\n  W   W9        1.0000  0.7483  0.2519  0.9993  1.0000\n  W   W10       1.0000  0.2519  0.7483  0.9993  1.0000\n  W   W11       1.0000  0.9277  0.4359  0.7115  1.0000\n  W   W12       1.0000  0.4359  0.9277  0.7115  1.0000\n  W   W13       1.0000  0.1388  0.6476  0.4256  1.0000\n  W   W14       1.0000  0.6476  0.1388  0.4256  1.0000\n  W   W15       1.0000  0.4389  0.9418  0.9171  1.0000\n  W   W16       1.0000  0.9418  0.4389  0.9171  1.0000\n  W   W17       1.0000  0.3589  0.8547  0.2035  1.0000\n  W   W18       1.0000  0.8547  0.3589  0.2035  1.0000\n  W   W19       1.0000  0.7479  0.2503  0.5012  1.0000\n  W   W20       1.0000  0.2503  0.7479  0.5012  1.0000\n  O   O2        1.0000  0.7377  0.1246  0.6580  1.0000\n  O   O3        1.0000  0.1246  0.7377  0.6580  1.0000\n  O   O4        1.0000  0.9000  0.5056  0.1551  1.0000\n  O   O5        1.0000  0.5056  0.9000  0.1551  1.0000\n  O   O6        1.0000  0.3909  0.3909  0.7762  1.0000\n  O   O7        1.0000  0.9017  0.9017  0.8181  1.0000\n  O   O8        1.0000  0.5516  0.1530  0.9364  1.0000\n  O   O9        1.0000  0.1530  0.5516  0.9364  1.0000\n  O   O10       1.0000  0.7987  0.3883  0.4707  1.0000\n  O   O11       1.0000  0.3883  0.7987  0.4707  1.0000\n  O   O12       1.0000  0.8316  0.8316  0.0546  1.0000\n  O   O13       1.0000  0.2818  0.2818  0.1227  1.0000\n  O   O14       1.0000  0.2762  0.7206  0.7331  1.0000\n  O   O15       1.0000  0.7206  0.2762  0.7331  1.0000\n  O   O16       1.0000  0.5578  0.9852  0.2311  1.0000\n  O   O17       1.0000  0.9852  0.5578  0.2311  1.0000\n  O   O18       1.0000  0.6236  0.6236  0.5726  1.0000\n  O   O19       1.0000  0.0881  0.0881  0.5717  1.0000\n  O   O20       1.0000  0.6104  0.2252  0.0070  1.0000\n  O   O21       1.0000  0.2252  0.6104  0.0070  1.0000\n  O   O22       1.0000  0.0240  0.4114  0.4259  1.0000\n  O   O23       1.0000  0.4114  0.0240  0.4259  1.0000\n  O   O24       1.0000  0.3319  0.3319  0.2499  1.0000\n  O   O25       1.0000  0.8027  0.8027  0.3256  1.0000\n  O   O26       1.0000  0.9552  0.3268  0.6451  1.0000\n  O   O27       1.0000  0.3268  0.9552  0.6451  1.0000\n  O   O28       1.0000  0.1195  0.7308  0.1594  1.0000\n  O   O29       1.0000  0.7308  0.1195  0.1594  1.0000\n  O   O30       1.0000  0.5008  0.5008  0.0393  1.0000\n  O   O31       1.0000  0.9958  0.9958  0.9665  1.0000\n  Ca  Ca9       1.0000  0.3723  0.7654  0.8434  1.0000\n  O   O32       1.0000  0.7654  0.3723  0.8434  1.0000\n  O   O33       1.0000  0.5478  0.1711  0.3512  1.0000\n  O   O34       1.0000  0.1711  0.5478  0.3512  1.0000\n  O   O35       1.0000  0.7003  0.7003  0.6748  1.0000\n  O   O36       1.0000  0.1644  0.1644  0.7512  1.0000\n  O   O37       1.0000  0.1035  0.4712  0.5710  1.0000\n  O   O38       1.0000  0.4712  0.1035  0.5710  1.0000\n  O   O39       1.0000  0.8849  0.2817  0.9892  1.0000\n  O   O40       1.0000  0.2817  0.8849  0.9892  1.0000\n  O   O41       1.0000  0.8750  0.8750  0.4266  1.0000\n  O   O42       1.0000  0.4180  0.4180  0.4131  1.0000\n  O   O43       1.0000  0.5143  0.9481  0.7723  1.0000\n  O   O44       1.0000  0.9481  0.5143  0.7723  1.0000\n  O   O45       1.0000  0.2196  0.7863  0.2613  1.0000\n  O   O46       1.0000  0.7863  0.2196  0.2613  1.0000\n  O   O47       1.0000  0.6694  0.6694  0.9440  1.0000\n  O   O48       1.0000  0.2158  0.2158  0.8793  1.0000\n  O   O49       1.0000  0.1101  0.7057  0.5259  1.0000\n  O   O50       1.0000  0.7057  0.1101  0.5259  1.0000\n  O   O51       1.0000  0.9449  0.3534  0.0588  1.0000\n  O   O52       1.0000  0.3534  0.9449  0.0588  1.0000\n  O   O53       1.0000  0.1122  0.1122  0.2198  1.0000\n  O   O54       1.0000  0.5926  0.5926  0.1864  1.0000\n  O   O55       1.0000  0.5868  0.0013  0.8519  1.0000\n  O   O56       1.0000  0.0013  0.5868  0.8519  1.0000\n  O   O57       1.0000  0.3704  0.7579  0.3481  1.0000\n  O   O58       1.0000  0.7579  0.3704  0.3481  1.0000\n  O   O59       1.0000  0.4623  0.4623  0.5460  1.0000\n  O   O60       1.0000  0.0341  0.0341  0.4612  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0344bb33-9d16-46a4-ad64-5fae2c3ec629",
    "mp_id": "mp-1180130",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaZrP2O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5262\n_cell_length_b   9.1684\n_cell_length_c   15.7203\n_cell_angle_alpha   85.9163\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaZrP2O9\n_chemical_formula_sum   'Na4 Zr4 P8 O36'\n_cell_volume   794.4637\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2998  0.5953  0.8349  1\n  Na  Na1  1  0.7998  0.4047  0.6651  1\n  Na  Na2  1  0.7002  0.4047  0.1651  1\n  Na  Na3  1  0.2002  0.5953  0.3349  1\n  Zr  Zr4  1  0.7487  0.7505  0.4803  1\n  Zr  Zr5  1  0.2487  0.2495  0.0197  1\n  Zr  Zr6  1  0.2513  0.2495  0.5197  1\n  Zr  Zr7  1  0.7513  0.7505  0.9803  1\n  P  P8  1  0.7461  0.0635  0.6046  1\n  P  P9  1  0.2461  0.9365  0.8954  1\n  P  P10  1  0.2539  0.9365  0.3954  1\n  P  P11  1  0.7539  0.0635  0.1046  1\n  P  P12  1  0.2464  0.5984  0.6035  1\n  P  P13  1  0.7464  0.4016  0.8965  1\n  P  P14  1  0.7536  0.4016  0.3965  1\n  P  P15  1  0.2536  0.5984  0.1035  1\n  O  O16  1  0.7519  0.9524  0.5378  1\n  O  O17  1  0.2519  0.0476  0.9622  1\n  O  O18  1  0.2481  0.0476  0.4622  1\n  O  O19  1  0.7481  0.9524  0.0378  1\n  O  O20  1  0.9610  0.1684  0.6032  1\n  O  O21  1  0.4610  0.8316  0.8968  1\n  O  O22  1  0.0390  0.8316  0.3968  1\n  O  O23  1  0.5390  0.1684  0.1032  1\n  O  O24  1  0.5092  0.1482  0.6088  1\n  O  O25  1  0.0092  0.8518  0.8912  1\n  O  O26  1  0.4908  0.8518  0.3912  1\n  O  O27  1  0.9908  0.1482  0.1088  1\n  O  O28  1  0.0083  0.6656  0.5635  1\n  O  O29  1  0.5083  0.3344  0.9365  1\n  O  O30  1  0.9917  0.3344  0.4365  1\n  O  O31  1  0.4917  0.6656  0.0635  1\n  O  O32  1  0.7755  0.5702  0.4081  1\n  O  O33  1  0.2755  0.4298  0.0919  1\n  O  O34  1  0.2245  0.4298  0.5919  1\n  O  O35  1  0.7245  0.5702  0.9081  1\n  O  O36  1  0.4632  0.6560  0.5463  1\n  O  O37  1  0.9632  0.3440  0.9537  1\n  O  O38  1  0.5368  0.3440  0.4537  1\n  O  O39  1  0.0368  0.6560  0.0463  1\n  O  O40  1  0.7799  0.9706  0.7015  1\n  O  O41  1  0.2799  0.0294  0.7985  1\n  O  O42  1  0.2201  0.0294  0.2985  1\n  O  O43  1  0.7201  0.9706  0.2015  1\n  O  O44  1  0.7759  0.3746  0.8046  1\n  O  O45  1  0.2759  0.6254  0.6954  1\n  O  O46  1  0.2241  0.6254  0.1954  1\n  O  O47  1  0.7241  0.3746  0.3046  1\n  O  O48  1  0.7099  0.8296  0.7013  1\n  O  O49  1  0.2099  0.1704  0.7987  1\n  O  O50  1  0.2901  0.1704  0.2987  1\n  O  O51  1  0.7901  0.8296  0.2013  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Zr4POP6O11PO24\n_chemical_formula_sum              \"Na4 Zr4 P8 O36\"\n_cell_length_a       5.5262\n_cell_length_b       9.1684\n_cell_length_c       15.7203\n_cell_angle_alpha    85.9163\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2998  0.5953  0.8349  1.0000\n  Na  Na2       1.0000  0.7998  0.4047  0.6651  1.0000\n  Na  Na3       1.0000  0.7002  0.4047  0.1651  1.0000\n  Na  Na4       1.0000  0.2002  0.5953  0.3349  1.0000\n  Zr  Zr1       1.0000  0.7487  0.7505  0.4803  1.0000\n  Zr  Zr2       1.0000  0.2487  0.2495  0.0197  1.0000\n  Zr  Zr3       1.0000  0.2513  0.2495  0.5197  1.0000\n  Zr  Zr4       1.0000  0.7513  0.7505  0.9803  1.0000\n  P   P1        1.0000  0.7461  0.0635  0.6046  1.0000\n  O   O1        1.0000  0.2461  0.9365  0.8954  1.0000\n  P   P2        1.0000  0.2539  0.9365  0.3954  1.0000\n  P   P3        1.0000  0.7539  0.0635  0.1046  1.0000\n  P   P4        1.0000  0.2464  0.5984  0.6035  1.0000\n  P   P5        1.0000  0.7464  0.4016  0.8965  1.0000\n  P   P6        1.0000  0.7536  0.4016  0.3965  1.0000\n  P   P7        1.0000  0.2536  0.5984  0.1035  1.0000\n  O   O2        1.0000  0.7519  0.9524  0.5378  1.0000\n  O   O3        1.0000  0.2519  0.0476  0.9622  1.0000\n  O   O4        1.0000  0.2481  0.0476  0.4622  1.0000\n  O   O5        1.0000  0.7481  0.9524  0.0378  1.0000\n  O   O6        1.0000  0.9610  0.1684  0.6032  1.0000\n  O   O7        1.0000  0.4610  0.8316  0.8968  1.0000\n  O   O8        1.0000  0.0390  0.8316  0.3968  1.0000\n  O   O9        1.0000  0.5390  0.1684  0.1032  1.0000\n  O   O10       1.0000  0.5092  0.1482  0.6088  1.0000\n  O   O11       1.0000  0.0092  0.8518  0.8912  1.0000\n  O   O12       1.0000  0.4908  0.8518  0.3912  1.0000\n  P   P8        1.0000  0.9908  0.1482  0.1088  1.0000\n  O   O13       1.0000  0.0083  0.6656  0.5635  1.0000\n  O   O14       1.0000  0.5083  0.3344  0.9365  1.0000\n  O   O15       1.0000  0.9917  0.3344  0.4365  1.0000\n  O   O16       1.0000  0.4917  0.6656  0.0635  1.0000\n  O   O17       1.0000  0.7755  0.5702  0.4081  1.0000\n  O   O18       1.0000  0.2755  0.4298  0.0919  1.0000\n  O   O19       1.0000  0.2245  0.4298  0.5919  1.0000\n  O   O20       1.0000  0.7245  0.5702  0.9081  1.0000\n  O   O21       1.0000  0.4632  0.6560  0.5463  1.0000\n  O   O22       1.0000  0.9632  0.3440  0.9537  1.0000\n  O   O23       1.0000  0.5368  0.3440  0.4537  1.0000\n  O   O24       1.0000  0.0368  0.6560  0.0463  1.0000\n  O   O25       1.0000  0.7799  0.9706  0.7015  1.0000\n  O   O26       1.0000  0.2799  0.0294  0.7985  1.0000\n  O   O27       1.0000  0.2201  0.0294  0.2985  1.0000\n  O   O28       1.0000  0.7201  0.9706  0.2015  1.0000\n  O   O29       1.0000  0.7759  0.3746  0.8046  1.0000\n  O   O30       1.0000  0.2759  0.6254  0.6954  1.0000\n  O   O31       1.0000  0.2241  0.6254  0.1954  1.0000\n  O   O32       1.0000  0.7241  0.3746  0.3046  1.0000\n  O   O33       1.0000  0.7099  0.8296  0.7013  1.0000\n  O   O34       1.0000  0.2099  0.1704  0.7987  1.0000\n  O   O35       1.0000  0.2901  0.1704  0.2987  1.0000\n  O   O36       1.0000  0.7901  0.8296  0.2013  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3ed04c9c-ebbb-472a-acd3-1f973313bd09",
    "mp_id": "mp-1180252",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiC4Br3N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5195\n_cell_length_b   9.3323\n_cell_length_c   9.5190\n_cell_angle_alpha   62.8291\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiC4Br3N\n_chemical_formula_sum   'Ni2 C8 Br6 N2'\n_cell_volume   515.2402\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.5070  0.9980  0.0017  1\n  Ni  Ni1  1  0.0070  0.0020  0.9983  1\n  C  C2  1  0.4058  0.7322  0.5443  1\n  C  C3  1  0.9058  0.2678  0.4557  1\n  C  C4  1  0.9633  0.6500  0.6844  1\n  C  C5  1  0.8970  0.7746  0.6986  1\n  C  C6  1  0.9742  0.5012  0.7088  1\n  C  C7  1  0.4633  0.3500  0.3156  1\n  C  C8  1  0.3970  0.2254  0.3014  1\n  C  C9  1  0.4742  0.4988  0.2912  1\n  Br  Br10  1  0.2599  0.1999  0.9233  1\n  Br  Br11  1  0.2920  0.8332  0.3519  1\n  Br  Br12  1  0.2560  0.8555  0.9434  1\n  Br  Br13  1  0.7599  0.8001  0.0767  1\n  Br  Br14  1  0.7920  0.1668  0.6481  1\n  Br  Br15  1  0.7560  0.1445  0.0566  1\n  N  N16  1  0.4777  0.6659  0.6709  1\n  N  N17  1  0.9777  0.3341  0.3291  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ni2C2BrC5BrCBr4N2\n_chemical_formula_sum              \"Ni2 C8 Br6 N2\"\n_cell_length_a       6.5195\n_cell_length_b       9.3323\n_cell_length_c       9.5190\n_cell_angle_alpha    62.8291\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.5070  0.9980  0.0017  1.0000\n  Ni  Ni2       1.0000  0.0070  0.0020  0.9983  1.0000\n  C   C1        1.0000  0.4058  0.7322  0.5443  1.0000\n  C   C2        1.0000  0.9058  0.2678  0.4557  1.0000\n  Br  Br1       1.0000  0.9633  0.6500  0.6844  1.0000\n  C   C3        1.0000  0.8970  0.7746  0.6986  1.0000\n  C   C4        1.0000  0.9742  0.5012  0.7088  1.0000\n  C   C5        1.0000  0.4633  0.3500  0.3156  1.0000\n  C   C6        1.0000  0.3970  0.2254  0.3014  1.0000\n  C   C7        1.0000  0.4742  0.4988  0.2912  1.0000\n  Br  Br2       1.0000  0.2599  0.1999  0.9233  1.0000\n  C   C8        1.0000  0.2920  0.8332  0.3519  1.0000\n  Br  Br3       1.0000  0.2560  0.8555  0.9434  1.0000\n  Br  Br4       1.0000  0.7599  0.8001  0.0767  1.0000\n  Br  Br5       1.0000  0.7920  0.1668  0.6481  1.0000\n  Br  Br6       1.0000  0.7560  0.1445  0.0566  1.0000\n  N   N1        1.0000  0.4777  0.6659  0.6709  1.0000\n  N   N2        1.0000  0.9777  0.3341  0.3291  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "819d0455-f793-461d-ad4c-7d3930429cc5",
    "mp_id": "mp-1180744",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2Cu2CO11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6874\n_cell_length_b   7.6874\n_cell_length_c   7.1508\n_cell_angle_alpha   87.0313\n_cell_angle_beta   87.0313\n_cell_angle_gamma   91.6601\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2Cu2CO11\n_chemical_formula_sum   'Mg4 Cu4 C2 O22'\n_cell_volume   421.2405\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1797  0.4830  0.2924  1\n  Mg  Mg1  1  0.5170  0.8203  0.2076  1\n  Mg  Mg2  1  0.8203  0.5170  0.7076  1\n  Mg  Mg3  1  0.4830  0.1797  0.7924  1\n  Cu  Cu4  1  0.1013  0.7883  0.5387  1\n  Cu  Cu5  1  0.2117  0.8987  0.9613  1\n  Cu  Cu6  1  0.8987  0.2117  0.4613  1\n  Cu  Cu7  1  0.7883  0.1013  0.0387  1\n  C  C8  1  0.5680  0.4320  0.2500  1\n  C  C9  1  0.4320  0.5680  0.7500  1\n  O  O10  1  0.4045  0.3841  0.2676  1\n  O  O11  1  0.6159  0.5955  0.2324  1\n  O  O12  1  0.5955  0.6159  0.7324  1\n  O  O13  1  0.3841  0.4045  0.7676  1\n  O  O14  1  0.6848  0.3152  0.2500  1\n  O  O15  1  0.3152  0.6848  0.7500  1\n  O  O16  1  0.2226  0.7218  0.1581  1\n  O  O17  1  0.2782  0.7774  0.3419  1\n  O  O18  1  0.7774  0.2782  0.8419  1\n  O  O19  1  0.7218  0.2226  0.6581  1\n  O  O20  1  0.8461  0.9774  0.4075  1\n  O  O21  1  0.0226  0.1539  0.0925  1\n  O  O22  1  0.1539  0.0226  0.5925  1\n  O  O23  1  0.9774  0.8461  0.9075  1\n  O  O24  1  0.9724  0.5841  0.4513  1\n  O  O25  1  0.4159  0.0276  0.0487  1\n  O  O26  1  0.0276  0.4159  0.5487  1\n  O  O27  1  0.5841  0.9724  0.9513  1\n  O  O28  1  0.0374  0.2624  0.2344  1\n  O  O29  1  0.7376  0.9626  0.2656  1\n  O  O30  1  0.9626  0.7376  0.7656  1\n  O  O31  1  0.2624  0.0374  0.7344  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2OMgCu4C2O16MgO5\n_chemical_formula_sum              \"Mg4 O22 Cu4 C2\"\n_cell_length_a       7.6874\n_cell_length_b       7.6874\n_cell_length_c       7.1508\n_cell_angle_alpha    87.0313\n_cell_angle_beta     87.0313\n_cell_angle_gamma    91.6601\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1797  0.4830  0.2924  1.0000\n  Mg  Mg2       1.0000  0.5170  0.8203  0.2076  1.0000\n  O   O1        1.0000  0.8203  0.5170  0.7076  1.0000\n  Mg  Mg3       1.0000  0.4830  0.1797  0.7924  1.0000\n  Cu  Cu1       1.0000  0.1013  0.7883  0.5387  1.0000\n  Cu  Cu2       1.0000  0.2117  0.8987  0.9613  1.0000\n  Cu  Cu3       1.0000  0.8987  0.2117  0.4613  1.0000\n  Cu  Cu4       1.0000  0.7883  0.1013  0.0387  1.0000\n  C   C1        1.0000  0.5680  0.4320  0.2500  1.0000\n  C   C2        1.0000  0.4320  0.5680  0.7500  1.0000\n  O   O2        1.0000  0.4045  0.3841  0.2676  1.0000\n  O   O3        1.0000  0.6159  0.5955  0.2324  1.0000\n  O   O4        1.0000  0.5955  0.6159  0.7324  1.0000\n  O   O5        1.0000  0.3841  0.4045  0.7676  1.0000\n  O   O6        1.0000  0.6848  0.3152  0.2500  1.0000\n  O   O7        1.0000  0.3152  0.6848  0.7500  1.0000\n  O   O8        1.0000  0.2226  0.7218  0.1581  1.0000\n  O   O9        1.0000  0.2782  0.7774  0.3419  1.0000\n  O   O10       1.0000  0.7774  0.2782  0.8419  1.0000\n  O   O11       1.0000  0.7218  0.2226  0.6581  1.0000\n  O   O12       1.0000  0.8461  0.9774  0.4075  1.0000\n  O   O13       1.0000  0.0226  0.1539  0.0925  1.0000\n  O   O14       1.0000  0.1539  0.0226  0.5925  1.0000\n  O   O15       1.0000  0.9774  0.8461  0.9075  1.0000\n  O   O16       1.0000  0.9724  0.5841  0.4513  1.0000\n  O   O17       1.0000  0.4159  0.0276  0.0487  1.0000\n  Mg  Mg4       1.0000  0.0276  0.4159  0.5487  1.0000\n  O   O18       1.0000  0.5841  0.9724  0.9513  1.0000\n  O   O19       1.0000  0.0374  0.2624  0.2344  1.0000\n  O   O20       1.0000  0.7376  0.9626  0.2656  1.0000\n  O   O21       1.0000  0.9626  0.7376  0.7656  1.0000\n  O   O22       1.0000  0.2624  0.0374  0.7344  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c1484507-0540-46ad-a17b-9a96fb0f8273",
    "mp_id": "mp-1180763",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nb3(Cl3O4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.2578\n_cell_length_b   11.7613\n_cell_length_c   11.9883\n_cell_angle_alpha   88.3514\n_cell_angle_beta   115.8464\n_cell_angle_gamma   116.5764\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nb3(Cl3O4)2\n_chemical_formula_sum   'Nb6 Cl12 O16'\n_cell_volume   1250.0346\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.9975  0.8621  0.1353  1\n  Nb  Nb1  1  0.2870  0.1210  0.1181  1\n  Nb  Nb2  1  0.0044  0.1310  0.1303  1\n  Nb  Nb3  1  0.7104  0.8769  0.8793  1\n  Nb  Nb4  1  0.9952  0.8706  0.8711  1\n  Nb  Nb5  1  0.0012  0.1401  0.8669  1\n  Cl  Cl6  1  0.4435  0.0515  0.4716  1\n  Cl  Cl7  1  0.4472  0.4256  0.4264  1\n  Cl  Cl8  1  0.0744  0.0422  0.4687  1\n  Cl  Cl9  1  0.5618  0.5385  0.9559  1\n  Cl  Cl10  1  0.5546  0.5696  0.5753  1\n  Cl  Cl11  1  0.9103  0.5158  0.9457  1\n  Cl  Cl12  1  0.5576  0.9538  0.5336  1\n  Cl  Cl13  1  0.5614  0.9257  0.9335  1\n  Cl  Cl14  1  0.0810  0.4821  0.0493  1\n  Cl  Cl15  1  0.4419  0.4678  0.0478  1\n  Cl  Cl16  1  0.4317  0.0668  0.0613  1\n  Cl  Cl17  1  0.9263  0.9576  0.5331  1\n  O  O18  1  0.9970  0.7559  0.2387  1\n  O  O19  1  0.4427  0.2449  0.2427  1\n  O  O20  1  0.0100  0.2353  0.2338  1\n  O  O21  1  0.5597  0.7528  0.7526  1\n  O  O22  1  0.9901  0.7665  0.7677  1\n  O  O23  1  0.0010  0.2466  0.7637  1\n  O  O24  1  0.5110  0.2526  0.7422  1\n  O  O25  1  0.5030  0.7406  0.2496  1\n  O  O26  1  0.1574  0.0570  0.2141  1\n  O  O27  1  0.8401  0.7826  0.9435  1\n  O  O28  1  0.8651  0.1096  0.9453  1\n  O  O29  1  0.1356  0.0601  0.8923  1\n  O  O30  1  0.8430  0.9448  0.7866  1\n  O  O31  1  0.1594  0.2188  0.0579  1\n  O  O32  1  0.1334  0.8912  0.0560  1\n  O  O33  1  0.8642  0.9419  0.1101  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbClNb4Cl3NbCl8O16\n_chemical_formula_sum              \"Nb6 Cl12 O16\"\n_cell_length_a       11.2578\n_cell_length_b       11.7613\n_cell_length_c       11.9883\n_cell_angle_alpha    88.3514\n_cell_angle_beta     115.8464\n_cell_angle_gamma    116.5764\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.9975  0.8621  0.1353  1.0000\n  Cl  Cl1       1.0000  0.2870  0.1210  0.1181  1.0000\n  Nb  Nb2       1.0000  0.0044  0.1310  0.1303  1.0000\n  Nb  Nb3       1.0000  0.7104  0.8769  0.8793  1.0000\n  Nb  Nb4       1.0000  0.9952  0.8706  0.8711  1.0000\n  Nb  Nb5       1.0000  0.0012  0.1401  0.8669  1.0000\n  Cl  Cl2       1.0000  0.4435  0.0515  0.4716  1.0000\n  Cl  Cl3       1.0000  0.4472  0.4256  0.4264  1.0000\n  Cl  Cl4       1.0000  0.0744  0.0422  0.4687  1.0000\n  Nb  Nb6       1.0000  0.5618  0.5385  0.9559  1.0000\n  Cl  Cl5       1.0000  0.5546  0.5696  0.5753  1.0000\n  Cl  Cl6       1.0000  0.9103  0.5158  0.9457  1.0000\n  Cl  Cl7       1.0000  0.5576  0.9538  0.5336  1.0000\n  Cl  Cl8       1.0000  0.5614  0.9257  0.9335  1.0000\n  Cl  Cl9       1.0000  0.0810  0.4821  0.0493  1.0000\n  Cl  Cl10      1.0000  0.4419  0.4678  0.0478  1.0000\n  Cl  Cl11      1.0000  0.4317  0.0668  0.0613  1.0000\n  Cl  Cl12      1.0000  0.9263  0.9576  0.5331  1.0000\n  O   O1        1.0000  0.9970  0.7559  0.2387  1.0000\n  O   O2        1.0000  0.4427  0.2449  0.2427  1.0000\n  O   O3        1.0000  0.0100  0.2353  0.2338  1.0000\n  O   O4        1.0000  0.5597  0.7528  0.7526  1.0000\n  O   O5        1.0000  0.9901  0.7665  0.7677  1.0000\n  O   O6        1.0000  0.0010  0.2466  0.7637  1.0000\n  O   O7        1.0000  0.5110  0.2526  0.7422  1.0000\n  O   O8        1.0000  0.5030  0.7406  0.2496  1.0000\n  O   O9        1.0000  0.1574  0.0570  0.2141  1.0000\n  O   O10       1.0000  0.8401  0.7826  0.9435  1.0000\n  O   O11       1.0000  0.8651  0.1096  0.9453  1.0000\n  O   O12       1.0000  0.1356  0.0601  0.8923  1.0000\n  O   O13       1.0000  0.8430  0.9448  0.7866  1.0000\n  O   O14       1.0000  0.1594  0.2188  0.0579  1.0000\n  O   O15       1.0000  0.1334  0.8912  0.0560  1.0000\n  O   O16       1.0000  0.8642  0.9419  0.1101  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "52751707-e082-4c9c-9028-712f95a3bea1",
    "mp_id": "mp-1181255",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 61 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4P4O17\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.1842\n_cell_length_b   12.1842\n_cell_length_c   13.9720\n_cell_angle_alpha   62.2458\n_cell_angle_beta   117.7542\n_cell_angle_gamma   95.6954\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4P4O17\n_chemical_formula_sum   'Li16 P16 O68'\n_cell_volume   1605.9746\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8155  0.4263  0.6187  1\n  Li  Li1  1  0.4263  0.8155  0.8813  1\n  Li  Li2  1  0.1845  0.5737  0.3813  1\n  Li  Li3  1  0.5737  0.1845  0.1187  1\n  Li  Li4  1  0.1993  0.5521  0.8158  1\n  Li  Li5  1  0.5521  0.1993  0.6842  1\n  Li  Li6  1  0.8007  0.4479  0.1842  1\n  Li  Li7  1  0.4479  0.8007  0.3158  1\n  Li  Li8  1  0.6730  0.6802  0.9799  1\n  Li  Li9  1  0.6802  0.6730  0.5201  1\n  Li  Li10  1  0.3270  0.3198  0.0201  1\n  Li  Li11  1  0.3198  0.3270  0.4799  1\n  Li  Li12  1  0.1891  0.6024  0.5816  1\n  Li  Li13  1  0.6024  0.1891  0.9184  1\n  Li  Li14  1  0.8109  0.3976  0.4184  1\n  Li  Li15  1  0.3976  0.8109  0.0816  1\n  P  P16  1  0.8920  0.6857  0.2239  1\n  P  P17  1  0.6857  0.8920  0.2761  1\n  P  P18  1  0.1080  0.3143  0.7761  1\n  P  P19  1  0.3143  0.1080  0.7239  1\n  P  P20  1  0.8870  0.6748  0.4402  1\n  P  P21  1  0.6748  0.8870  0.0598  1\n  P  P22  1  0.1130  0.3252  0.5598  1\n  P  P23  1  0.3252  0.1130  0.9402  1\n  P  P24  1  0.6351  0.4290  0.7268  1\n  P  P25  1  0.4290  0.6351  0.7732  1\n  P  P26  1  0.3649  0.5710  0.2732  1\n  P  P27  1  0.5710  0.3649  0.2268  1\n  P  P28  1  0.6421  0.4271  0.9397  1\n  P  P29  1  0.4271  0.6421  0.5603  1\n  P  P30  1  0.3579  0.5729  0.0603  1\n  P  P31  1  0.5729  0.3579  0.4397  1\n  O  O32  1  0.1517  0.0222  0.1797  1\n  O  O33  1  0.0222  0.1517  0.3203  1\n  O  O34  1  0.8483  0.9778  0.8203  1\n  O  O35  1  0.9778  0.8483  0.6797  1\n  O  O36  1  0.7674  0.8009  0.8602  1\n  O  O37  1  0.8009  0.7674  0.6398  1\n  O  O38  1  0.2326  0.1991  0.1398  1\n  O  O39  1  0.1991  0.2326  0.3602  1\n  O  O40  1  0.7785  0.0614  0.5618  1\n  O  O41  1  0.0614  0.7785  0.9382  1\n  O  O42  1  0.2215  0.9386  0.4382  1\n  O  O43  1  0.9386  0.2215  0.0618  1\n  O  O44  1  0.8657  0.0552  0.5432  1\n  O  O45  1  0.0552  0.8657  0.9568  1\n  O  O46  1  0.1343  0.9448  0.4568  1\n  O  O47  1  0.9448  0.1343  0.0432  1\n  O  O48  1  0.9030  0.7872  0.6287  1\n  O  O49  1  0.7872  0.9030  0.8713  1\n  O  O50  1  0.0970  0.2128  0.3713  1\n  O  O51  1  0.2128  0.0970  0.1287  1\n  O  O52  1  0.6860  0.0291  0.2293  1\n  O  O53  1  0.0291  0.6860  0.2707  1\n  O  O54  1  0.3140  0.9709  0.7707  1\n  O  O55  1  0.9709  0.3140  0.7293  1\n  O  O56  1  0.8251  0.6135  0.1553  1\n  O  O57  1  0.6135  0.8251  0.3447  1\n  O  O58  1  0.1749  0.3865  0.8447  1\n  O  O59  1  0.3865  0.1749  0.6553  1\n  O  O60  1  0.8545  0.6340  0.3348  1\n  O  O61  1  0.6340  0.8545  0.1652  1\n  O  O62  1  0.1455  0.3660  0.6652  1\n  O  O63  1  0.3660  0.1455  0.8348  1\n  O  O64  1  0.8234  0.8309  0.1393  1\n  O  O65  1  0.8309  0.8234  0.3607  1\n  O  O66  1  0.1766  0.1691  0.8607  1\n  O  O67  1  0.1691  0.1766  0.6393  1\n  O  O68  1  0.8113  0.6027  0.5026  1\n  O  O69  1  0.6027  0.8113  0.9974  1\n  O  O70  1  0.1887  0.3973  0.4974  1\n  O  O71  1  0.3973  0.1887  0.0026  1\n  O  O72  1  0.0248  0.6637  0.5159  1\n  O  O73  1  0.6637  0.0248  0.9841  1\n  O  O74  1  0.9752  0.3363  0.4841  1\n  O  O75  1  0.3363  0.9752  0.0159  1\n  O  O76  1  0.7060  0.4895  0.6569  1\n  O  O77  1  0.4895  0.7060  0.8431  1\n  O  O78  1  0.2940  0.5105  0.3431  1\n  O  O79  1  0.5105  0.2940  0.1569  1\n  O  O80  1  0.6287  0.2906  0.7752  1\n  O  O81  1  0.2906  0.6287  0.7248  1\n  O  O82  1  0.3713  0.7094  0.2248  1\n  O  O83  1  0.7094  0.3713  0.2752  1\n  O  O84  1  0.4903  0.4959  0.6441  1\n  O  O85  1  0.4959  0.4903  0.8559  1\n  O  O86  1  0.5097  0.5041  0.3559  1\n  O  O87  1  0.5041  0.5097  0.1441  1\n  O  O88  1  0.6410  0.2885  0.0015  1\n  O  O89  1  0.2885  0.6410  0.4985  1\n  O  O90  1  0.3590  0.7115  0.9985  1\n  O  O91  1  0.7115  0.3590  0.5015  1\n  O  O92  1  0.2851  0.5085  0.9860  1\n  O  O93  1  0.5085  0.2851  0.5140  1\n  O  O94  1  0.7149  0.4915  0.0140  1\n  O  O95  1  0.4915  0.7149  0.4860  1\n  O  O96  1  0.4637  0.6884  0.6620  1\n  O  O97  1  0.6884  0.4637  0.8380  1\n  O  O98  1  0.5363  0.3116  0.3380  1\n  O  O99  1  0.3116  0.5363  0.1620  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6OLi9P16O29LiO38\n_chemical_formula_sum              \"Li16 O68 P16\"\n_cell_length_a       12.1842\n_cell_length_b       12.1842\n_cell_length_c       13.9720\n_cell_angle_alpha    62.2458\n_cell_angle_beta     117.7542\n_cell_angle_gamma    95.6954\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8155  0.4263  0.6187  1.0000\n  Li  Li2       1.0000  0.4263  0.8155  0.8813  1.0000\n  Li  Li3       1.0000  0.1845  0.5737  0.3813  1.0000\n  Li  Li4       1.0000  0.5737  0.1845  0.1187  1.0000\n  Li  Li5       1.0000  0.1993  0.5521  0.8158  1.0000\n  Li  Li6       1.0000  0.5521  0.1993  0.6842  1.0000\n  O   O1        1.0000  0.8007  0.4479  0.1842  1.0000\n  Li  Li7       1.0000  0.4479  0.8007  0.3158  1.0000\n  Li  Li8       1.0000  0.6730  0.6802  0.9799  1.0000\n  Li  Li9       1.0000  0.6802  0.6730  0.5201  1.0000\n  Li  Li10      1.0000  0.3270  0.3198  0.0201  1.0000\n  Li  Li11      1.0000  0.3198  0.3270  0.4799  1.0000\n  Li  Li12      1.0000  0.1891  0.6024  0.5816  1.0000\n  Li  Li13      1.0000  0.6024  0.1891  0.9184  1.0000\n  Li  Li14      1.0000  0.8109  0.3976  0.4184  1.0000\n  Li  Li15      1.0000  0.3976  0.8109  0.0816  1.0000\n  P   P1        1.0000  0.8920  0.6857  0.2239  1.0000\n  P   P2        1.0000  0.6857  0.8920  0.2761  1.0000\n  P   P3        1.0000  0.1080  0.3143  0.7761  1.0000\n  P   P4        1.0000  0.3143  0.1080  0.7239  1.0000\n  P   P5        1.0000  0.8870  0.6748  0.4402  1.0000\n  P   P6        1.0000  0.6748  0.8870  0.0598  1.0000\n  P   P7        1.0000  0.1130  0.3252  0.5598  1.0000\n  P   P8        1.0000  0.3252  0.1130  0.9402  1.0000\n  P   P9        1.0000  0.6351  0.4290  0.7268  1.0000\n  P   P10       1.0000  0.4290  0.6351  0.7732  1.0000\n  P   P11       1.0000  0.3649  0.5710  0.2732  1.0000\n  P   P12       1.0000  0.5710  0.3649  0.2268  1.0000\n  P   P13       1.0000  0.6421  0.4271  0.9397  1.0000\n  P   P14       1.0000  0.4271  0.6421  0.5603  1.0000\n  P   P15       1.0000  0.3579  0.5729  0.0603  1.0000\n  P   P16       1.0000  0.5729  0.3579  0.4397  1.0000\n  O   O2        1.0000  0.1517  0.0222  0.1797  1.0000\n  O   O3        1.0000  0.0222  0.1517  0.3203  1.0000\n  O   O4        1.0000  0.8483  0.9778  0.8203  1.0000\n  O   O5        1.0000  0.9778  0.8483  0.6797  1.0000\n  O   O6        1.0000  0.7674  0.8009  0.8602  1.0000\n  O   O7        1.0000  0.8009  0.7674  0.6398  1.0000\n  O   O8        1.0000  0.2326  0.1991  0.1398  1.0000\n  O   O9        1.0000  0.1991  0.2326  0.3602  1.0000\n  O   O10       1.0000  0.7785  0.0614  0.5618  1.0000\n  O   O11       1.0000  0.0614  0.7785  0.9382  1.0000\n  O   O12       1.0000  0.2215  0.9386  0.4382  1.0000\n  O   O13       1.0000  0.9386  0.2215  0.0618  1.0000\n  O   O14       1.0000  0.8657  0.0552  0.5432  1.0000\n  O   O15       1.0000  0.0552  0.8657  0.9568  1.0000\n  O   O16       1.0000  0.1343  0.9448  0.4568  1.0000\n  O   O17       1.0000  0.9448  0.1343  0.0432  1.0000\n  O   O18       1.0000  0.9030  0.7872  0.6287  1.0000\n  O   O19       1.0000  0.7872  0.9030  0.8713  1.0000\n  O   O20       1.0000  0.0970  0.2128  0.3713  1.0000\n  O   O21       1.0000  0.2128  0.0970  0.1287  1.0000\n  O   O22       1.0000  0.6860  0.0291  0.2293  1.0000\n  O   O23       1.0000  0.0291  0.6860  0.2707  1.0000\n  O   O24       1.0000  0.3140  0.9709  0.7707  1.0000\n  O   O25       1.0000  0.9709  0.3140  0.7293  1.0000\n  O   O26       1.0000  0.8251  0.6135  0.1553  1.0000\n  O   O27       1.0000  0.6135  0.8251  0.3447  1.0000\n  O   O28       1.0000  0.1749  0.3865  0.8447  1.0000\n  O   O29       1.0000  0.3865  0.1749  0.6553  1.0000\n  O   O30       1.0000  0.8545  0.6340  0.3348  1.0000\n  Li  Li16      1.0000  0.6340  0.8545  0.1652  1.0000\n  O   O31       1.0000  0.1455  0.3660  0.6652  1.0000\n  O   O32       1.0000  0.3660  0.1455  0.8348  1.0000\n  O   O33       1.0000  0.8234  0.8309  0.1393  1.0000\n  O   O34       1.0000  0.8309  0.8234  0.3607  1.0000\n  O   O35       1.0000  0.1766  0.1691  0.8607  1.0000\n  O   O36       1.0000  0.1691  0.1766  0.6393  1.0000\n  O   O37       1.0000  0.8113  0.6027  0.5026  1.0000\n  O   O38       1.0000  0.6027  0.8113  0.9974  1.0000\n  O   O39       1.0000  0.1887  0.3973  0.4974  1.0000\n  O   O40       1.0000  0.3973  0.1887  0.0026  1.0000\n  O   O41       1.0000  0.0248  0.6637  0.5159  1.0000\n  O   O42       1.0000  0.6637  0.0248  0.9841  1.0000\n  O   O43       1.0000  0.9752  0.3363  0.4841  1.0000\n  O   O44       1.0000  0.3363  0.9752  0.0159  1.0000\n  O   O45       1.0000  0.7060  0.4895  0.6569  1.0000\n  O   O46       1.0000  0.4895  0.7060  0.8431  1.0000\n  O   O47       1.0000  0.2940  0.5105  0.3431  1.0000\n  O   O48       1.0000  0.5105  0.2940  0.1569  1.0000\n  O   O49       1.0000  0.6287  0.2906  0.7752  1.0000\n  O   O50       1.0000  0.2906  0.6287  0.7248  1.0000\n  O   O51       1.0000  0.3713  0.7094  0.2248  1.0000\n  O   O52       1.0000  0.7094  0.3713  0.2752  1.0000\n  O   O53       1.0000  0.4903  0.4959  0.6441  1.0000\n  O   O54       1.0000  0.4959  0.4903  0.8559  1.0000\n  O   O55       1.0000  0.5097  0.5041  0.3559  1.0000\n  O   O56       1.0000  0.5041  0.5097  0.1441  1.0000\n  O   O57       1.0000  0.6410  0.2885  0.0015  1.0000\n  O   O58       1.0000  0.2885  0.6410  0.4985  1.0000\n  O   O59       1.0000  0.3590  0.7115  0.9985  1.0000\n  O   O60       1.0000  0.7115  0.3590  0.5015  1.0000\n  O   O61       1.0000  0.2851  0.5085  0.9860  1.0000\n  O   O62       1.0000  0.5085  0.2851  0.5140  1.0000\n  O   O63       1.0000  0.7149  0.4915  0.0140  1.0000\n  O   O64       1.0000  0.4915  0.7149  0.4860  1.0000\n  O   O65       1.0000  0.4637  0.6884  0.6620  1.0000\n  O   O66       1.0000  0.6884  0.4637  0.8380  1.0000\n  O   O67       1.0000  0.5363  0.3116  0.3380  1.0000\n  O   O68       1.0000  0.3116  0.5363  0.1620  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bc119abb-599e-45a6-8f07-e1249b536c0f",
    "mp_id": "mp-1181584",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H4C(N2O)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   15.6491\n_cell_length_b   12.6950\n_cell_length_c   9.4536\n_cell_angle_alpha   88.6535\n_cell_angle_beta   54.1943\n_cell_angle_gamma   37.1523\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H4C(N2O)2\n_chemical_formula_sum   'H16 C4 N16 O8'\n_cell_volume   393.1921\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.0907  0.0317  0.1120  1\n  H  H1  1  0.7655  0.1120  0.0317  1\n  H  H2  1  0.1380  0.4845  0.1593  1\n  H  H3  1  0.2183  0.1593  0.4845  1\n  H  H4  1  0.7994  0.3147  0.2317  1\n  H  H5  1  0.6542  0.2317  0.3147  1\n  H  H6  1  0.0183  0.5958  0.4506  1\n  H  H7  1  0.9353  0.4506  0.5958  1\n  H  H8  1  0.6995  0.5674  0.1986  1\n  H  H9  1  0.5344  0.1986  0.5674  1\n  H  H10  1  0.0514  0.7156  0.5505  1\n  H  H11  1  0.6826  0.5505  0.7156  1\n  H  H12  1  0.9077  0.4846  0.0658  1\n  H  H13  1  0.5419  0.0658  0.4846  1\n  H  H14  1  0.1842  0.7081  0.3423  1\n  H  H15  1  0.7654  0.3423  0.7081  1\n  C  C16  1  0.0241  0.2415  0.0791  1\n  C  C17  1  0.6553  0.0791  0.2415  1\n  C  C18  1  0.1709  0.5947  0.2259  1\n  C  C19  1  0.0085  0.2259  0.5947  1\n  N  N20  1  0.9595  0.2005  0.1546  1\n  N  N21  1  0.6854  0.1546  0.2005  1\n  N  N22  1  0.0954  0.5646  0.2905  1\n  N  N23  1  0.0495  0.2905  0.5646  1\n  N  N24  1  0.8726  0.4392  0.1084  1\n  N  N25  1  0.5798  0.1084  0.4392  1\n  N  N26  1  0.1416  0.6702  0.3774  1\n  N  N27  1  0.8108  0.3774  0.6702  1\n  N  N28  1  0.2515  0.0610  0.9743  1\n  N  N29  1  0.7132  0.9743  0.0610  1\n  N  N30  1  0.2757  0.5368  0.9985  1\n  N  N31  1  0.1890  0.9985  0.5368  1\n  N  N32  1  0.3010  0.1168  0.9406  1\n  N  N33  1  0.6416  0.9406  0.1168  1\n  N  N34  1  0.3094  0.6084  0.9490  1\n  N  N35  1  0.1332  0.9490  0.6084  1\n  O  O36  1  0.1541  0.3279  0.9929  1\n  O  O37  1  0.5252  0.9929  0.3279  1\n  O  O38  1  0.2571  0.7248  0.0959  1\n  O  O39  1  0.9221  0.0959  0.7248  1\n  O  O40  1  0.5017  0.9505  0.8589  1\n  O  O41  1  0.6890  0.8589  0.9505  1\n  O  O42  1  0.3911  0.5610  0.7483  1\n  O  O43  1  0.2995  0.7483  0.5610  1\n",
    "output": "data_image0\n_chemical_formula_structural       H16C3N3CN13O8\n_chemical_formula_sum              \"H16 C4 N16 O8\"\n_cell_length_a       15.6491\n_cell_length_b       12.6950\n_cell_length_c       9.4536\n_cell_angle_alpha    88.6535\n_cell_angle_beta     54.1943\n_cell_angle_gamma    37.1523\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.0908  0.0317  0.1120  1.0000\n  H   H2        1.0000  0.7655  0.1120  0.0317  1.0000\n  H   H3        1.0000  0.1380  0.4845  0.1593  1.0000\n  H   H4        1.0000  0.2183  0.1593  0.4845  1.0000\n  H   H5        1.0000  0.7994  0.3147  0.2317  1.0000\n  H   H6        1.0000  0.6542  0.2317  0.3147  1.0000\n  H   H7        1.0000  0.0183  0.5958  0.4506  1.0000\n  H   H8        1.0000  0.9353  0.4506  0.5958  1.0000\n  H   H9        1.0000  0.6995  0.5674  0.1986  1.0000\n  H   H10       1.0000  0.5344  0.1986  0.5674  1.0000\n  H   H11       1.0000  0.0514  0.7156  0.5505  1.0000\n  H   H12       1.0000  0.6826  0.5505  0.7156  1.0000\n  H   H13       1.0000  0.9077  0.4846  0.0658  1.0000\n  H   H14       1.0000  0.5419  0.0658  0.4846  1.0000\n  H   H15       1.0000  0.1842  0.7081  0.3423  1.0000\n  H   H16       1.0000  0.7654  0.3423  0.7081  1.0000\n  C   C1        1.0000  0.0241  0.2415  0.0791  1.0000\n  C   C2        1.0000  0.6553  0.0791  0.2415  1.0000\n  C   C3        1.0000  0.1709  0.5947  0.2259  1.0000\n  N   N1        1.0000  0.0085  0.2259  0.5947  1.0000\n  N   N2        1.0000  0.9595  0.2005  0.1546  1.0000\n  N   N3        1.0000  0.6854  0.1546  0.2005  1.0000\n  C   C4        1.0000  0.0954  0.5646  0.2905  1.0000\n  N   N4        1.0000  0.0495  0.2905  0.5646  1.0000\n  N   N5        1.0000  0.8726  0.4392  0.1084  1.0000\n  N   N6        1.0000  0.5798  0.1084  0.4392  1.0000\n  N   N7        1.0000  0.1416  0.6702  0.3774  1.0000\n  N   N8        1.0000  0.8108  0.3774  0.6702  1.0000\n  N   N9        1.0000  0.2515  0.0610  0.9743  1.0000\n  N   N10       1.0000  0.7132  0.9743  0.0610  1.0000\n  N   N11       1.0000  0.2757  0.5368  0.9985  1.0000\n  N   N12       1.0000  0.1890  0.9985  0.5368  1.0000\n  N   N13       1.0000  0.3010  0.1168  0.9406  1.0000\n  N   N14       1.0000  0.6416  0.9406  0.1168  1.0000\n  N   N15       1.0000  0.3094  0.6084  0.9490  1.0000\n  N   N16       1.0000  0.1332  0.9490  0.6084  1.0000\n  O   O1        1.0000  0.1541  0.3279  0.9929  1.0000\n  O   O2        1.0000  0.5252  0.9929  0.3279  1.0000\n  O   O3        1.0000  0.2571  0.7248  0.0959  1.0000\n  O   O4        1.0000  0.9221  0.0959  0.7248  1.0000\n  O   O5        1.0000  0.5017  0.9505  0.8589  1.0000\n  O   O6        1.0000  0.6890  0.8589  0.9505  1.0000\n  O   O7        1.0000  0.3911  0.5610  0.7483  1.0000\n  O   O8        1.0000  0.2995  0.7483  0.5610  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cb07c3ed-4f26-46b1-82d0-398169357c47",
    "mp_id": "mp-1182011",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrH12N3(OF2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7058\n_cell_length_b   7.0641\n_cell_length_c   9.6233\n_cell_angle_alpha   85.7237\n_cell_angle_beta   83.2979\n_cell_angle_gamma   69.5830\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrH12N3(OF2)3\n_chemical_formula_sum   'Cr2 H24 N6 O6 F12'\n_cell_volume   424.0267\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.5000  0.5000  0.5000  1\n  Cr  Cr1  1  0.0000  0.0000  0.0000  1\n  H  H2  1  0.3007  0.8946  0.6403  1\n  H  H3  1  0.6993  0.1054  0.3597  1\n  H  H4  1  0.2640  0.1473  0.6302  1\n  H  H5  1  0.7360  0.8527  0.3698  1\n  H  H6  1  0.0486  0.0708  0.6475  1\n  H  H7  1  0.9514  0.9292  0.3525  1\n  H  H8  1  0.3287  0.9159  0.4242  1\n  H  H9  1  0.6713  0.0841  0.5758  1\n  H  H10  1  0.9140  0.7139  0.7952  1\n  H  H11  1  0.0860  0.2861  0.2048  1\n  H  H12  1  0.7693  0.6250  0.6983  1\n  H  H13  1  0.2307  0.3750  0.3017  1\n  H  H14  1  0.0211  0.6219  0.6320  1\n  H  H15  1  0.9789  0.3781  0.3680  1\n  H  H16  1  0.9495  0.3927  0.8734  1\n  H  H17  1  0.0505  0.6073  0.1266  1\n  H  H18  1  0.6104  0.2200  0.8638  1\n  H  H19  1  0.3896  0.7800  0.1362  1\n  H  H20  1  0.3458  0.2491  0.8727  1\n  H  H21  1  0.6542  0.7509  0.1273  1\n  H  H22  1  0.4192  0.4572  0.8626  1\n  H  H23  1  0.5808  0.5428  0.1374  1\n  H  H24  1  0.5537  0.1908  0.0803  1\n  H  H25  1  0.4463  0.8093  0.9197  1\n  N  N26  1  0.2048  0.0383  0.6036  1\n  N  N27  1  0.7952  0.9617  0.3964  1\n  N  N28  1  0.9217  0.6080  0.7239  1\n  N  N29  1  0.0783  0.3920  0.2761  1\n  N  N30  1  0.4538  0.3105  0.9018  1\n  N  N31  1  0.5462  0.6895  0.0982  1\n  O  O32  1  0.2077  0.0434  0.4558  1\n  O  O33  1  0.7923  0.9566  0.5442  1\n  O  O34  1  0.0237  0.4103  0.7782  1\n  O  O35  1  0.9763  0.5897  0.2218  1\n  O  O36  1  0.4348  0.3167  0.0499  1\n  O  O37  1  0.5652  0.6833  0.9501  1\n  F  F38  1  0.8081  0.3916  0.4961  1\n  F  F39  1  0.1919  0.6084  0.5039  1\n  F  F40  1  0.5192  0.7339  0.3810  1\n  F  F41  1  0.4808  0.2661  0.6190  1\n  F  F42  1  0.5159  0.3462  0.3349  1\n  F  F43  1  0.4841  0.6538  0.6651  1\n  F  F44  1  0.8520  0.0453  0.8307  1\n  F  F45  1  0.1480  0.9547  0.1693  1\n  F  F46  1  0.0891  0.7090  0.9797  1\n  F  F47  1  0.9109  0.2910  0.0203  1\n  F  F48  1  0.7366  0.9960  0.1122  1\n  F  F49  1  0.2634  0.0040  0.8878  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr2H20FH3N6O6FHF10\n_chemical_formula_sum              \"Cr2 H24 F12 N6 O6\"\n_cell_length_a       6.7058\n_cell_length_b       7.0641\n_cell_length_c       9.6233\n_cell_angle_alpha    85.7237\n_cell_angle_beta     83.2979\n_cell_angle_gamma    69.5830\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.0000  0.0000  1.0000\n  H   H1        1.0000  0.3007  0.8946  0.6403  1.0000\n  H   H2        1.0000  0.6993  0.1054  0.3597  1.0000\n  H   H3        1.0000  0.2640  0.1473  0.6302  1.0000\n  H   H4        1.0000  0.7360  0.8527  0.3698  1.0000\n  H   H5        1.0000  0.0486  0.0708  0.6475  1.0000\n  H   H6        1.0000  0.9514  0.9292  0.3525  1.0000\n  H   H7        1.0000  0.3287  0.9159  0.4242  1.0000\n  H   H8        1.0000  0.6713  0.0841  0.5758  1.0000\n  H   H9        1.0000  0.9140  0.7139  0.7952  1.0000\n  H   H10       1.0000  0.0860  0.2861  0.2048  1.0000\n  H   H11       1.0000  0.7693  0.6250  0.6983  1.0000\n  H   H12       1.0000  0.2307  0.3750  0.3017  1.0000\n  H   H13       1.0000  0.0211  0.6219  0.6320  1.0000\n  H   H14       1.0000  0.9789  0.3781  0.3680  1.0000\n  H   H15       1.0000  0.9495  0.3927  0.8734  1.0000\n  H   H16       1.0000  0.0505  0.6073  0.1266  1.0000\n  H   H17       1.0000  0.6104  0.2200  0.8638  1.0000\n  H   H18       1.0000  0.3896  0.7800  0.1362  1.0000\n  H   H19       1.0000  0.3458  0.2491  0.8727  1.0000\n  H   H20       1.0000  0.6542  0.7509  0.1273  1.0000\n  F   F1        1.0000  0.4192  0.4572  0.8626  1.0000\n  H   H21       1.0000  0.5808  0.5428  0.1374  1.0000\n  H   H22       1.0000  0.5537  0.1908  0.0803  1.0000\n  H   H23       1.0000  0.4463  0.8093  0.9197  1.0000\n  N   N1        1.0000  0.2048  0.0383  0.6036  1.0000\n  N   N2        1.0000  0.7952  0.9617  0.3964  1.0000\n  N   N3        1.0000  0.9217  0.6080  0.7239  1.0000\n  N   N4        1.0000  0.0783  0.3920  0.2761  1.0000\n  N   N5        1.0000  0.4538  0.3105  0.9018  1.0000\n  N   N6        1.0000  0.5462  0.6895  0.0982  1.0000\n  O   O1        1.0000  0.2077  0.0434  0.4558  1.0000\n  O   O2        1.0000  0.7923  0.9566  0.5442  1.0000\n  O   O3        1.0000  0.0237  0.4103  0.7782  1.0000\n  O   O4        1.0000  0.9763  0.5897  0.2218  1.0000\n  O   O5        1.0000  0.4348  0.3167  0.0499  1.0000\n  O   O6        1.0000  0.5652  0.6833  0.9501  1.0000\n  F   F2        1.0000  0.8081  0.3916  0.4961  1.0000\n  H   H24       1.0000  0.1919  0.6084  0.5039  1.0000\n  F   F3        1.0000  0.5192  0.7339  0.3810  1.0000\n  F   F4        1.0000  0.4808  0.2661  0.6190  1.0000\n  F   F5        1.0000  0.5159  0.3462  0.3349  1.0000\n  F   F6        1.0000  0.4841  0.6538  0.6651  1.0000\n  F   F7        1.0000  0.8520  0.0453  0.8307  1.0000\n  F   F8        1.0000  0.1480  0.9547  0.1693  1.0000\n  F   F9        1.0000  0.0891  0.7090  0.9797  1.0000\n  F   F10       1.0000  0.9109  0.2910  0.0203  1.0000\n  F   F11       1.0000  0.7366  0.9960  0.1122  1.0000\n  F   F12       1.0000  0.2634  0.0040  0.8878  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e7e5c9d3-d7b6-4b6e-b439-483e75aa5c37",
    "mp_id": "mp-1182045",
    "action_prompt": "Swap the spatial positions of atoms at indices 32 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CoH10(SeO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0197\n_cell_length_b   8.0197\n_cell_length_c   10.7717\n_cell_angle_alpha   63.5061\n_cell_angle_beta   63.5061\n_cell_angle_gamma   66.4433\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CoH10(SeO5)2\n_chemical_formula_sum   'Co2 H20 Se4 O20'\n_cell_volume   537.2190\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.0749  0.9251  0.2500  1\n  Co  Co1  1  0.9251  0.0749  0.7500  1\n  H  H2  1  0.2809  0.2599  0.0313  1\n  H  H3  1  0.7401  0.7191  0.4687  1\n  H  H4  1  0.7191  0.7401  0.9687  1\n  H  H5  1  0.2599  0.2809  0.5313  1\n  H  H6  1  0.5920  0.3016  0.4156  1\n  H  H7  1  0.6984  0.4080  0.0844  1\n  H  H8  1  0.4080  0.6984  0.5844  1\n  H  H9  1  0.3016  0.5920  0.9156  1\n  H  H10  1  0.3369  0.5691  0.3372  1\n  H  H11  1  0.4309  0.6631  0.1628  1\n  H  H12  1  0.6631  0.4309  0.6628  1\n  H  H13  1  0.5691  0.3369  0.8372  1\n  H  H14  1  0.2927  0.2928  0.2957  1\n  H  H15  1  0.7072  0.7073  0.2043  1\n  H  H16  1  0.7073  0.7072  0.7043  1\n  H  H17  1  0.2928  0.2927  0.7957  1\n  H  H18  1  0.3117  0.4018  0.5888  1\n  H  H19  1  0.5982  0.6883  0.9112  1\n  H  H20  1  0.6883  0.5982  0.4112  1\n  H  H21  1  0.4018  0.3117  0.0888  1\n  Se  Se22  1  0.8980  0.7672  0.6230  1\n  Se  Se23  1  0.2328  0.1020  0.8770  1\n  Se  Se24  1  0.1020  0.2328  0.3770  1\n  Se  Se25  1  0.7672  0.8980  0.1230  1\n  O  O26  1  0.9810  0.8135  0.1585  1\n  O  O27  1  0.1865  0.0190  0.3415  1\n  O  O28  1  0.0190  0.1865  0.8415  1\n  O  O29  1  0.8135  0.9810  0.6585  1\n  O  O30  1  0.8841  0.8190  0.4519  1\n  O  O31  1  0.1810  0.1159  0.0481  1\n  O  O32  1  0.1159  0.1810  0.5481  1\n  O  O33  1  0.8190  0.8841  0.9519  1\n  O  O34  1  0.2863  0.6620  0.6612  1\n  O  O35  1  0.3380  0.7137  0.8388  1\n  O  O36  1  0.7137  0.3380  0.3388  1\n  O  O37  1  0.6620  0.2863  0.1612  1\n  O  O38  1  0.7827  0.2173  0.2500  1\n  O  O39  1  0.2173  0.7827  0.7500  1\n  O  O40  1  0.3189  0.6811  0.2500  1\n  O  O41  1  0.6811  0.3189  0.7500  1\n  O  O42  1  0.3534  0.3572  0.5061  1\n  O  O43  1  0.6428  0.6466  0.9939  1\n  O  O44  1  0.6466  0.6428  0.4939  1\n  O  O45  1  0.3572  0.3534  0.0061  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co2H12OH7Se4O6HO13\n_chemical_formula_sum              \"Co2 H20 O20 Se4\"\n_cell_length_a       8.0197\n_cell_length_b       8.0197\n_cell_length_c       10.7717\n_cell_angle_alpha    63.5061\n_cell_angle_beta     63.5061\n_cell_angle_gamma    66.4433\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.0749  0.9251  0.2500  1.0000\n  Co  Co2       1.0000  0.9251  0.0749  0.7500  1.0000\n  H   H1        1.0000  0.2809  0.2599  0.0313  1.0000\n  H   H2        1.0000  0.7401  0.7191  0.4687  1.0000\n  H   H3        1.0000  0.7191  0.7401  0.9687  1.0000\n  H   H4        1.0000  0.2599  0.2809  0.5313  1.0000\n  H   H5        1.0000  0.5920  0.3016  0.4156  1.0000\n  H   H6        1.0000  0.6984  0.4080  0.0844  1.0000\n  H   H7        1.0000  0.4080  0.6984  0.5844  1.0000\n  H   H8        1.0000  0.3016  0.5920  0.9156  1.0000\n  H   H9        1.0000  0.3369  0.5691  0.3372  1.0000\n  H   H10       1.0000  0.4309  0.6631  0.1628  1.0000\n  H   H11       1.0000  0.6631  0.4309  0.6628  1.0000\n  H   H12       1.0000  0.5691  0.3369  0.8372  1.0000\n  O   O1        1.0000  0.2927  0.2928  0.2957  1.0000\n  H   H13       1.0000  0.7072  0.7073  0.2043  1.0000\n  H   H14       1.0000  0.7073  0.7072  0.7043  1.0000\n  H   H15       1.0000  0.2928  0.2927  0.7957  1.0000\n  H   H16       1.0000  0.3117  0.4018  0.5888  1.0000\n  H   H17       1.0000  0.5982  0.6883  0.9112  1.0000\n  H   H18       1.0000  0.6883  0.5982  0.4112  1.0000\n  H   H19       1.0000  0.4018  0.3117  0.0888  1.0000\n  Se  Se1       1.0000  0.8980  0.7672  0.6230  1.0000\n  Se  Se2       1.0000  0.2328  0.1020  0.8770  1.0000\n  Se  Se3       1.0000  0.1020  0.2328  0.3770  1.0000\n  Se  Se4       1.0000  0.7672  0.8980  0.1230  1.0000\n  O   O2        1.0000  0.9810  0.8135  0.1585  1.0000\n  O   O3        1.0000  0.1865  0.0190  0.3415  1.0000\n  O   O4        1.0000  0.0190  0.1865  0.8415  1.0000\n  O   O5        1.0000  0.8135  0.9810  0.6585  1.0000\n  O   O6        1.0000  0.8841  0.8190  0.4519  1.0000\n  O   O7        1.0000  0.1810  0.1159  0.0481  1.0000\n  H   H20       1.0000  0.1159  0.1810  0.5481  1.0000\n  O   O8        1.0000  0.8190  0.8841  0.9519  1.0000\n  O   O9        1.0000  0.2863  0.6620  0.6612  1.0000\n  O   O10       1.0000  0.3380  0.7137  0.8388  1.0000\n  O   O11       1.0000  0.7137  0.3380  0.3388  1.0000\n  O   O12       1.0000  0.6620  0.2863  0.1612  1.0000\n  O   O13       1.0000  0.7827  0.2173  0.2500  1.0000\n  O   O14       1.0000  0.2173  0.7827  0.7500  1.0000\n  O   O15       1.0000  0.3189  0.6811  0.2500  1.0000\n  O   O16       1.0000  0.6811  0.3189  0.7500  1.0000\n  O   O17       1.0000  0.3534  0.3572  0.5061  1.0000\n  O   O18       1.0000  0.6428  0.6466  0.9939  1.0000\n  O   O19       1.0000  0.6466  0.6428  0.4939  1.0000\n  O   O20       1.0000  0.3572  0.3534  0.0061  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eb2d4d99-8ae7-4e9c-889f-083652e878bd",
    "mp_id": "mp-1182066",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H18Se3(NO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.8162\n_cell_length_b   10.8941\n_cell_length_c   10.9396\n_cell_angle_alpha   64.3780\n_cell_angle_beta   75.8141\n_cell_angle_gamma   82.6237\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H18Se3(NO3)4\n_chemical_formula_sum   'H36 Se6 N8 O24'\n_cell_volume   1022.3189\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.9651  0.2968  0.0167  1\n  H  H1  1  0.0349  0.7032  0.9833  1\n  H  H2  1  0.2048  0.1564  0.2954  1\n  H  H3  1  0.7952  0.8436  0.7046  1\n  H  H4  1  0.4207  0.4099  0.6178  1\n  H  H5  1  0.5793  0.5901  0.3822  1\n  H  H6  1  0.1753  0.6967  0.6178  1\n  H  H7  1  0.8247  0.3033  0.3822  1\n  H  H8  1  0.4992  0.6194  0.2632  1\n  H  H9  1  0.5008  0.3806  0.7368  1\n  H  H10  1  0.1460  0.5134  0.5502  1\n  H  H11  1  0.8540  0.4866  0.4498  1\n  H  H12  1  0.3673  0.7014  0.0209  1\n  H  H13  1  0.6327  0.2987  0.9791  1\n  H  H14  1  0.5327  0.8085  0.0813  1\n  H  H15  1  0.4673  0.1915  0.9187  1\n  H  H16  1  0.2827  0.8891  0.9208  1\n  H  H17  1  0.7173  0.1109  0.0792  1\n  H  H18  1  0.5736  0.9009  0.6291  1\n  H  H19  1  0.4264  0.0991  0.3709  1\n  H  H20  1  0.8987  0.0233  0.9144  1\n  H  H21  1  0.1013  0.9767  0.0856  1\n  H  H22  1  0.0408  0.1903  0.4984  1\n  H  H23  1  0.9592  0.8097  0.5016  1\n  H  H24  1  0.8995  0.7878  0.8059  1\n  H  H25  1  0.1005  0.2122  0.1941  1\n  H  H26  1  0.4384  0.1072  0.5906  1\n  H  H27  1  0.5616  0.8928  0.4094  1\n  H  H28  1  0.3240  0.4217  0.0705  1\n  H  H29  1  0.6760  0.5783  0.9295  1\n  H  H30  1  0.4407  0.9158  0.8738  1\n  H  H31  1  0.5593  0.0842  0.1262  1\n  H  H32  1  0.3046  0.5840  0.6655  1\n  H  H33  1  0.6954  0.4160  0.3345  1\n  H  H34  1  0.1728  0.6018  0.7821  1\n  H  H35  1  0.8272  0.3982  0.2179  1\n  Se  Se36  1  0.2221  0.5089  0.1311  1\n  Se  Se37  1  0.7779  0.4911  0.8689  1\n  Se  Se38  1  0.4201  0.8817  0.3792  1\n  Se  Se39  1  0.5799  0.1183  0.6208  1\n  Se  Se40  1  0.1538  0.1949  0.9051  1\n  Se  Se41  1  0.8462  0.8051  0.0949  1\n  N  N42  1  0.2609  0.3740  0.5165  1\n  N  N43  1  0.7391  0.6260  0.4835  1\n  N  N44  1  0.0662  0.8380  0.4599  1\n  N  N45  1  0.9338  0.1620  0.5401  1\n  N  N46  1  0.8925  0.0861  0.6563  1\n  N  N47  1  0.1075  0.9139  0.3437  1\n  N  N48  1  0.1979  0.6004  0.6857  1\n  N  N49  1  0.8021  0.3996  0.3143  1\n  O  O50  1  0.3562  0.6176  0.1139  1\n  O  O51  1  0.6438  0.3824  0.8861  1\n  O  O52  1  0.1521  0.4698  0.4851  1\n  O  O53  1  0.8479  0.5302  0.5149  1\n  O  O54  1  0.1450  0.5942  0.9937  1\n  O  O55  1  0.8550  0.4058  0.0063  1\n  O  O56  1  0.1360  0.2296  0.2621  1\n  O  O57  1  0.8640  0.7704  0.7379  1\n  O  O58  1  0.7232  0.6945  0.5483  1\n  O  O59  1  0.2768  0.3055  0.4517  1\n  O  O60  1  0.4643  0.9305  0.2083  1\n  O  O61  1  0.5357  0.0695  0.7917  1\n  O  O62  1  0.3500  0.0342  0.4107  1\n  O  O63  1  0.6500  0.9658  0.5893  1\n  O  O64  1  0.6280  0.1516  0.1111  1\n  O  O65  1  0.3720  0.8484  0.8889  1\n  O  O66  1  0.4860  0.4477  0.6461  1\n  O  O67  1  0.5140  0.5523  0.3539  1\n  O  O68  1  0.1763  0.0112  0.0011  1\n  O  O69  1  0.8237  0.9888  0.9989  1\n  O  O70  1  0.0542  0.2133  0.7972  1\n  O  O71  1  0.9458  0.7867  0.2028  1\n  O  O72  1  0.0367  0.2145  0.0501  1\n  O  O73  1  0.9633  0.7855  0.9499  1\n",
    "output": "data_image0\n_chemical_formula_structural       H8OH27Se6N8O8HO15\n_chemical_formula_sum              \"H36 O24 Se6 N8\"\n_cell_length_a       9.8162\n_cell_length_b       10.8941\n_cell_length_c       10.9396\n_cell_angle_alpha    64.3780\n_cell_angle_beta     75.8141\n_cell_angle_gamma    82.6237\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.9651  0.2968  0.0167  1.0000\n  H   H2        1.0000  0.0349  0.7032  0.9833  1.0000\n  H   H3        1.0000  0.2048  0.1564  0.2954  1.0000\n  H   H4        1.0000  0.7952  0.8436  0.7046  1.0000\n  H   H5        1.0000  0.4207  0.4099  0.6178  1.0000\n  H   H6        1.0000  0.5793  0.5901  0.3822  1.0000\n  H   H7        1.0000  0.1753  0.6967  0.6178  1.0000\n  H   H8        1.0000  0.8247  0.3033  0.3822  1.0000\n  O   O1        1.0000  0.4992  0.6194  0.2632  1.0000\n  H   H9        1.0000  0.5008  0.3806  0.7368  1.0000\n  H   H10       1.0000  0.1460  0.5134  0.5502  1.0000\n  H   H11       1.0000  0.8540  0.4866  0.4498  1.0000\n  H   H12       1.0000  0.3673  0.7014  0.0209  1.0000\n  H   H13       1.0000  0.6327  0.2986  0.9791  1.0000\n  H   H14       1.0000  0.5327  0.8085  0.0813  1.0000\n  H   H15       1.0000  0.4673  0.1915  0.9187  1.0000\n  H   H16       1.0000  0.2827  0.8891  0.9208  1.0000\n  H   H17       1.0000  0.7173  0.1109  0.0792  1.0000\n  H   H18       1.0000  0.5736  0.9009  0.6291  1.0000\n  H   H19       1.0000  0.4264  0.0991  0.3709  1.0000\n  H   H20       1.0000  0.8987  0.0233  0.9144  1.0000\n  H   H21       1.0000  0.1013  0.9767  0.0856  1.0000\n  H   H22       1.0000  0.0408  0.1903  0.4984  1.0000\n  H   H23       1.0000  0.9592  0.8097  0.5016  1.0000\n  H   H24       1.0000  0.8995  0.7878  0.8059  1.0000\n  H   H25       1.0000  0.1005  0.2122  0.1941  1.0000\n  H   H26       1.0000  0.4384  0.1072  0.5906  1.0000\n  H   H27       1.0000  0.5616  0.8928  0.4094  1.0000\n  H   H28       1.0000  0.3240  0.4217  0.0705  1.0000\n  H   H29       1.0000  0.6760  0.5783  0.9295  1.0000\n  H   H30       1.0000  0.4407  0.9158  0.8738  1.0000\n  H   H31       1.0000  0.5593  0.0842  0.1262  1.0000\n  H   H32       1.0000  0.3046  0.5840  0.6655  1.0000\n  H   H33       1.0000  0.6954  0.4160  0.3345  1.0000\n  H   H34       1.0000  0.1728  0.6018  0.7821  1.0000\n  H   H35       1.0000  0.8272  0.3982  0.2179  1.0000\n  Se  Se1       1.0000  0.2221  0.5089  0.1311  1.0000\n  Se  Se2       1.0000  0.7779  0.4911  0.8689  1.0000\n  Se  Se3       1.0000  0.4201  0.8817  0.3792  1.0000\n  Se  Se4       1.0000  0.5799  0.1183  0.6208  1.0000\n  Se  Se5       1.0000  0.1538  0.1949  0.9051  1.0000\n  Se  Se6       1.0000  0.8462  0.8051  0.0949  1.0000\n  N   N1        1.0000  0.2609  0.3740  0.5165  1.0000\n  N   N2        1.0000  0.7391  0.6260  0.4835  1.0000\n  N   N3        1.0000  0.0662  0.8380  0.4599  1.0000\n  N   N4        1.0000  0.9338  0.1620  0.5401  1.0000\n  N   N5        1.0000  0.8925  0.0861  0.6563  1.0000\n  N   N6        1.0000  0.1075  0.9139  0.3437  1.0000\n  N   N7        1.0000  0.1979  0.6004  0.6857  1.0000\n  N   N8        1.0000  0.8021  0.3996  0.3143  1.0000\n  O   O2        1.0000  0.3562  0.6176  0.1139  1.0000\n  O   O3        1.0000  0.6438  0.3824  0.8861  1.0000\n  O   O4        1.0000  0.1521  0.4698  0.4851  1.0000\n  O   O5        1.0000  0.8479  0.5302  0.5149  1.0000\n  O   O6        1.0000  0.1450  0.5942  0.9937  1.0000\n  O   O7        1.0000  0.8550  0.4058  0.0063  1.0000\n  O   O8        1.0000  0.1360  0.2296  0.2621  1.0000\n  O   O9        1.0000  0.8640  0.7704  0.7379  1.0000\n  H   H36       1.0000  0.7232  0.6945  0.5483  1.0000\n  O   O10       1.0000  0.2768  0.3055  0.4517  1.0000\n  O   O11       1.0000  0.4643  0.9305  0.2083  1.0000\n  O   O12       1.0000  0.5357  0.0695  0.7917  1.0000\n  O   O13       1.0000  0.3500  0.0342  0.4107  1.0000\n  O   O14       1.0000  0.6500  0.9658  0.5893  1.0000\n  O   O15       1.0000  0.6280  0.1516  0.1111  1.0000\n  O   O16       1.0000  0.3720  0.8484  0.8889  1.0000\n  O   O17       1.0000  0.4860  0.4477  0.6461  1.0000\n  O   O18       1.0000  0.5140  0.5523  0.3539  1.0000\n  O   O19       1.0000  0.1763  0.0112  0.0011  1.0000\n  O   O20       1.0000  0.8237  0.9888  0.9989  1.0000\n  O   O21       1.0000  0.0542  0.2133  0.7972  1.0000\n  O   O22       1.0000  0.9458  0.7867  0.2028  1.0000\n  O   O23       1.0000  0.0367  0.2145  0.0501  1.0000\n  O   O24       1.0000  0.9633  0.7855  0.9499  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a50bf45d-4d26-46cf-ba7c-a335d88bd7d4",
    "mp_id": "mp-1182302",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgSiO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1295\n_cell_length_b   15.1714\n_cell_length_c   6.4199\n_cell_angle_alpha   90.0000\n_cell_angle_beta   87.4196\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgSiO3\n_chemical_formula_sum   'Mg8 Si8 O24'\n_cell_volume   499.1011\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.3586  0.3353  0.8936  1\n  Mg  Mg1  1  0.5881  0.8816  0.3334  1\n  Mg  Mg2  1  0.1414  0.8353  0.1064  1\n  Mg  Mg3  1  0.6414  0.6647  0.1064  1\n  Mg  Mg4  1  0.4119  0.1184  0.6666  1\n  Mg  Mg5  1  0.0881  0.6184  0.3334  1\n  Mg  Mg6  1  0.9119  0.3816  0.6666  1\n  Mg  Mg7  1  0.8586  0.1647  0.8936  1\n  Si  Si8  1  0.2959  0.4066  0.3736  1\n  Si  Si9  1  0.6641  0.8618  0.8968  1\n  Si  Si10  1  0.3359  0.1382  0.1032  1\n  Si  Si11  1  0.2041  0.9066  0.6264  1\n  Si  Si12  1  0.7041  0.5934  0.6264  1\n  Si  Si13  1  0.7959  0.0934  0.3736  1\n  Si  Si14  1  0.1641  0.6382  0.8968  1\n  Si  Si15  1  0.8359  0.3618  0.1032  1\n  O  O16  1  0.2554  0.5096  0.3816  1\n  O  O17  1  0.4719  0.6166  0.8114  1\n  O  O18  1  0.8162  0.1450  0.5947  1\n  O  O19  1  0.5281  0.3834  0.1886  1\n  O  O20  1  0.9719  0.8834  0.8114  1\n  O  O21  1  0.0055  0.3489  0.3160  1\n  O  O22  1  0.4551  0.9127  0.0494  1\n  O  O23  1  0.0281  0.1166  0.1886  1\n  O  O24  1  0.9945  0.6511  0.6840  1\n  O  O25  1  0.2661  0.7094  0.0800  1\n  O  O26  1  0.7554  0.9904  0.3816  1\n  O  O27  1  0.4945  0.8489  0.6840  1\n  O  O28  1  0.7446  0.4904  0.6184  1\n  O  O29  1  0.9551  0.5873  0.0494  1\n  O  O30  1  0.6838  0.6450  0.4053  1\n  O  O31  1  0.5055  0.1511  0.3160  1\n  O  O32  1  0.3162  0.3550  0.5947  1\n  O  O33  1  0.2339  0.2094  0.9200  1\n  O  O34  1  0.5449  0.0873  0.9506  1\n  O  O35  1  0.2446  0.0096  0.6184  1\n  O  O36  1  0.7339  0.2906  0.9200  1\n  O  O37  1  0.1838  0.8550  0.4053  1\n  O  O38  1  0.0449  0.4127  0.9506  1\n  O  O39  1  0.7661  0.7906  0.0800  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4SiMg3SiMgSi6O24\n_chemical_formula_sum              \"Mg8 Si8 O24\"\n_cell_length_a       5.1295\n_cell_length_b       15.1714\n_cell_length_c       6.4199\n_cell_angle_alpha    90.0000\n_cell_angle_beta     87.4196\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.3586  0.3353  0.8936  1.0000\n  Mg  Mg2       1.0000  0.5881  0.8816  0.3334  1.0000\n  Mg  Mg3       1.0000  0.1414  0.8353  0.1064  1.0000\n  Mg  Mg4       1.0000  0.6414  0.6647  0.1064  1.0000\n  Si  Si1       1.0000  0.4119  0.1184  0.6666  1.0000\n  Mg  Mg5       1.0000  0.0881  0.6184  0.3334  1.0000\n  Mg  Mg6       1.0000  0.9119  0.3816  0.6666  1.0000\n  Mg  Mg7       1.0000  0.8586  0.1647  0.8936  1.0000\n  Si  Si2       1.0000  0.2959  0.4066  0.3736  1.0000\n  Mg  Mg8       1.0000  0.6641  0.8618  0.8968  1.0000\n  Si  Si3       1.0000  0.3359  0.1382  0.1032  1.0000\n  Si  Si4       1.0000  0.2041  0.9066  0.6264  1.0000\n  Si  Si5       1.0000  0.7041  0.5934  0.6264  1.0000\n  Si  Si6       1.0000  0.7959  0.0934  0.3736  1.0000\n  Si  Si7       1.0000  0.1641  0.6382  0.8968  1.0000\n  Si  Si8       1.0000  0.8359  0.3618  0.1032  1.0000\n  O   O1        1.0000  0.2554  0.5096  0.3816  1.0000\n  O   O2        1.0000  0.4719  0.6166  0.8114  1.0000\n  O   O3        1.0000  0.8162  0.1450  0.5947  1.0000\n  O   O4        1.0000  0.5281  0.3834  0.1886  1.0000\n  O   O5        1.0000  0.9719  0.8834  0.8114  1.0000\n  O   O6        1.0000  0.0055  0.3489  0.3160  1.0000\n  O   O7        1.0000  0.4551  0.9127  0.0494  1.0000\n  O   O8        1.0000  0.0281  0.1166  0.1886  1.0000\n  O   O9        1.0000  0.9945  0.6511  0.6840  1.0000\n  O   O10       1.0000  0.2661  0.7094  0.0800  1.0000\n  O   O11       1.0000  0.7554  0.9904  0.3816  1.0000\n  O   O12       1.0000  0.4945  0.8489  0.6840  1.0000\n  O   O13       1.0000  0.7446  0.4904  0.6184  1.0000\n  O   O14       1.0000  0.9551  0.5873  0.0494  1.0000\n  O   O15       1.0000  0.6838  0.6450  0.4053  1.0000\n  O   O16       1.0000  0.5055  0.1511  0.3160  1.0000\n  O   O17       1.0000  0.3162  0.3550  0.5947  1.0000\n  O   O18       1.0000  0.2339  0.2094  0.9200  1.0000\n  O   O19       1.0000  0.5449  0.0873  0.9506  1.0000\n  O   O20       1.0000  0.2446  0.0096  0.6184  1.0000\n  O   O21       1.0000  0.7339  0.2906  0.9200  1.0000\n  O   O22       1.0000  0.1838  0.8550  0.4053  1.0000\n  O   O23       1.0000  0.0449  0.4127  0.9506  1.0000\n  O   O24       1.0000  0.7661  0.7906  0.0800  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5c369b76-f564-4185-95f7-e13685af2195",
    "mp_id": "mp-1182516",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co2Mo3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2985\n_cell_length_b   4.8314\n_cell_length_c   7.0177\n_cell_angle_alpha   72.4696\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co2Mo3\n_chemical_formula_sum   'Co4 Mo6'\n_cell_volume   138.9727\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.7500  0.1240  0.9089  1\n  Co  Co1  1  0.2500  0.8760  0.0911  1\n  Co  Co2  1  0.2500  0.6716  0.4819  1\n  Co  Co3  1  0.7500  0.3284  0.5181  1\n  Mo  Mo4  1  0.7500  0.7243  0.7214  1\n  Mo  Mo5  1  0.2500  0.2757  0.2786  1\n  Mo  Mo6  1  0.2500  0.0658  0.6723  1\n  Mo  Mo7  1  0.7500  0.9342  0.3277  1\n  Mo  Mo8  1  0.7500  0.5766  0.1120  1\n  Mo  Mo9  1  0.2500  0.4234  0.8880  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co3Mo3CoMo3\n_chemical_formula_sum              \"Co4 Mo6\"\n_cell_length_a       4.2985\n_cell_length_b       4.8314\n_cell_length_c       7.0177\n_cell_angle_alpha    72.4696\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.7500  0.1240  0.9089  1.0000\n  Co  Co2       1.0000  0.2500  0.8760  0.0911  1.0000\n  Co  Co3       1.0000  0.2500  0.6716  0.4819  1.0000\n  Mo  Mo1       1.0000  0.7500  0.3284  0.5181  1.0000\n  Mo  Mo2       1.0000  0.7500  0.7243  0.7214  1.0000\n  Mo  Mo3       1.0000  0.2500  0.2757  0.2786  1.0000\n  Co  Co4       1.0000  0.2500  0.0658  0.6723  1.0000\n  Mo  Mo4       1.0000  0.7500  0.9342  0.3277  1.0000\n  Mo  Mo5       1.0000  0.7500  0.5766  0.1120  1.0000\n  Mo  Mo6       1.0000  0.2500  0.4234  0.8880  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "65d8a7c7-c13a-4850-82d4-795f52e202cf",
    "mp_id": "mp-1182952",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AgBiTe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4458\n_cell_length_b   4.4458\n_cell_length_c   20.9616\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AgBiTe2\n_chemical_formula_sum   'Ag3 Bi3 Te6'\n_cell_volume   358.8037\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ag  Ag0  1  0.0000  0.0000  0.0000  1\n  Ag  Ag1  1  0.6667  0.3333  0.3306  1\n  Ag  Ag2  1  0.3333  0.6667  0.6694  1\n  Bi  Bi3  1  0.0000  0.0000  0.5000  1\n  Bi  Bi4  1  0.6667  0.3333  0.8352  1\n  Bi  Bi5  1  0.3333  0.6667  0.1648  1\n  Te  Te6  1  0.0000  0.0000  0.7458  1\n  Te  Te7  1  0.0000  0.0000  0.2542  1\n  Te  Te8  1  0.6667  0.3333  0.0756  1\n  Te  Te9  1  0.3333  0.6667  0.9244  1\n  Te  Te10  1  0.6667  0.3333  0.5903  1\n  Te  Te11  1  0.3333  0.6667  0.4097  1\n",
    "output": "data_image0\n_chemical_formula_structural       BiAg2BiAgBiTe6\n_chemical_formula_sum              \"Bi3 Ag3 Te6\"\n_cell_length_a       4.4458\n_cell_length_b       4.4458\n_cell_length_c       20.9616\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ag  Ag1       1.0000  0.6667  0.3333  0.3306  1.0000\n  Ag  Ag2       1.0000  0.3333  0.6667  0.6694  1.0000\n  Bi  Bi2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ag  Ag3       1.0000  0.6667  0.3333  0.8352  1.0000\n  Bi  Bi3       1.0000  0.3333  0.6667  0.1648  1.0000\n  Te  Te1       1.0000  0.0000  0.0000  0.7458  1.0000\n  Te  Te2       1.0000  0.0000  0.0000  0.2542  1.0000\n  Te  Te3       1.0000  0.6667  0.3333  0.0756  1.0000\n  Te  Te4       1.0000  0.3333  0.6667  0.9244  1.0000\n  Te  Te5       1.0000  0.6667  0.3333  0.5903  1.0000\n  Te  Te6       1.0000  0.3333  0.6667  0.4097  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e0b49e95-1cc9-428f-ba32-15c45f3bbe33",
    "mp_id": "mp-1182993",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlC7IN\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.5911\n_cell_length_b   10.5911\n_cell_length_c   10.5911\n_cell_angle_alpha   128.6015\n_cell_angle_beta   117.7549\n_cell_angle_gamma   84.8599\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlC7IN\n_chemical_formula_sum   'Al4 C28 I4 N4'\n_cell_volume   786.1655\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.0891  0.1050  0.2858  1\n  Al  Al1  1  0.9109  0.1967  0.0158  1\n  Al  Al2  1  0.1809  0.6967  0.7859  1\n  Al  Al3  1  0.8191  0.6050  0.5158  1\n  C  C4  1  0.1573  0.8999  0.2103  1\n  C  C5  1  0.8427  0.0530  0.7426  1\n  C  C6  1  0.3104  0.5530  0.7103  1\n  C  C7  1  0.6896  0.3999  0.2426  1\n  C  C8  1  0.1849  0.2312  0.2603  1\n  C  C9  1  0.8151  0.0753  0.0463  1\n  C  C10  1  0.0291  0.5753  0.7603  1\n  C  C11  1  0.9709  0.7312  0.5463  1\n  C  C12  1  0.1893  0.0101  0.4043  1\n  C  C13  1  0.8107  0.2150  0.8209  1\n  C  C14  1  0.3942  0.7150  0.9043  1\n  C  C15  1  0.6058  0.5101  0.3209  1\n  C  C16  1  0.7868  0.0717  0.3733  1\n  C  C17  1  0.2132  0.5865  0.2849  1\n  C  C18  1  0.3016  0.0865  0.8733  1\n  C  C19  1  0.6984  0.5717  0.7849  1\n  C  C20  1  0.7953  0.1087  0.6415  1\n  C  C21  1  0.2047  0.8462  0.3134  1\n  C  C22  1  0.5328  0.3462  0.1415  1\n  C  C23  1  0.4672  0.6087  0.8134  1\n  C  C24  1  0.7645  0.0775  0.4852  1\n  C  C25  1  0.2355  0.7207  0.3130  1\n  C  C26  1  0.4076  0.2207  0.9852  1\n  C  C27  1  0.5924  0.5775  0.8130  1\n  C  C28  1  0.8741  0.0904  0.2041  1\n  C  C29  1  0.1259  0.3301  0.2163  1\n  C  C30  1  0.1137  0.8300  0.7041  1\n  C  C31  1  0.8863  0.5904  0.7163  1\n  I  I32  1  0.4094  0.2314  0.3521  1\n  I  I33  1  0.5906  0.9426  0.8219  1\n  I  I34  1  0.1207  0.4426  0.8521  1\n  I  I35  1  0.8793  0.7314  0.3219  1\n  N  N36  1  0.7935  0.0602  0.2538  1\n  N  N37  1  0.2065  0.4602  0.2666  1\n  N  N38  1  0.1936  0.9602  0.7538  1\n  N  N39  1  0.8064  0.5602  0.7666  1\n",
    "output": "data_image0\n_chemical_formula_structural       CAl3C14AlC13I4N4\n_chemical_formula_sum              \"C28 Al4 I4 N4\"\n_cell_length_a       10.5911\n_cell_length_b       10.5911\n_cell_length_c       10.5911\n_cell_angle_alpha    128.6015\n_cell_angle_beta     117.7549\n_cell_angle_gamma    84.8599\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.0891  0.1050  0.2858  1.0000\n  Al  Al1       1.0000  0.9109  0.1967  0.0158  1.0000\n  Al  Al2       1.0000  0.1809  0.6967  0.7858  1.0000\n  Al  Al3       1.0000  0.8191  0.6050  0.5158  1.0000\n  C   C2        1.0000  0.1572  0.8999  0.2103  1.0000\n  C   C3        1.0000  0.8427  0.0530  0.7426  1.0000\n  C   C4        1.0000  0.3104  0.5530  0.7103  1.0000\n  C   C5        1.0000  0.6896  0.3999  0.2426  1.0000\n  C   C6        1.0000  0.1849  0.2312  0.2603  1.0000\n  C   C7        1.0000  0.8151  0.0753  0.0463  1.0000\n  C   C8        1.0000  0.0291  0.5753  0.7603  1.0000\n  C   C9        1.0000  0.9709  0.7312  0.5463  1.0000\n  C   C10       1.0000  0.1893  0.0101  0.4043  1.0000\n  C   C11       1.0000  0.8107  0.2150  0.8209  1.0000\n  C   C12       1.0000  0.3942  0.7150  0.9043  1.0000\n  C   C13       1.0000  0.6058  0.5101  0.3209  1.0000\n  C   C14       1.0000  0.7868  0.0717  0.3733  1.0000\n  C   C15       1.0000  0.2132  0.5865  0.2849  1.0000\n  Al  Al4       1.0000  0.3016  0.0865  0.8733  1.0000\n  C   C16       1.0000  0.6984  0.5717  0.7849  1.0000\n  C   C17       1.0000  0.7953  0.1087  0.6415  1.0000\n  C   C18       1.0000  0.2047  0.8462  0.3134  1.0000\n  C   C19       1.0000  0.5328  0.3462  0.1415  1.0000\n  C   C20       1.0000  0.4672  0.6087  0.8134  1.0000\n  C   C21       1.0000  0.7645  0.0775  0.4852  1.0000\n  C   C22       1.0000  0.2355  0.7207  0.3130  1.0000\n  C   C23       1.0000  0.4076  0.2207  0.9852  1.0000\n  C   C24       1.0000  0.5924  0.5775  0.8130  1.0000\n  C   C25       1.0000  0.8741  0.0904  0.2041  1.0000\n  C   C26       1.0000  0.1259  0.3300  0.2163  1.0000\n  C   C27       1.0000  0.1137  0.8300  0.7041  1.0000\n  C   C28       1.0000  0.8863  0.5904  0.7163  1.0000\n  I   I1        1.0000  0.4094  0.2314  0.3521  1.0000\n  I   I2        1.0000  0.5906  0.9426  0.8219  1.0000\n  I   I3        1.0000  0.1207  0.4426  0.8521  1.0000\n  I   I4        1.0000  0.8793  0.7314  0.3219  1.0000\n  N   N1        1.0000  0.7935  0.0602  0.2538  1.0000\n  N   N2        1.0000  0.2065  0.4602  0.2666  1.0000\n  N   N3        1.0000  0.1936  0.9602  0.7538  1.0000\n  N   N4        1.0000  0.8064  0.5602  0.7666  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "080440c6-8e7f-4e12-8090-7df38589abdf",
    "mp_id": "mp-1185691",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg16Al12Pt\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9693\n_cell_length_b   8.9693\n_cell_length_c   9.0427\n_cell_angle_alpha   70.9960\n_cell_angle_beta   70.9960\n_cell_angle_gamma   108.7222\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg16Al12Pt\n_chemical_formula_sum   'Mg16 Al12 Pt1'\n_cell_volume   571.3425\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.9948  0.9948  0.0067  1\n  Mg  Mg1  1  0.6943  0.6943  0.7027  1\n  Mg  Mg2  1  0.0101  0.0101  0.6485  1\n  Mg  Mg3  1  0.6152  0.6152  0.3309  1\n  Mg  Mg4  1  0.3340  0.5829  0.0148  1\n  Mg  Mg5  1  0.4079  0.7139  0.5970  1\n  Mg  Mg6  1  0.9989  0.3174  0.3995  1\n  Mg  Mg7  1  0.0036  0.3542  0.0036  1\n  Mg  Mg8  1  0.2975  0.6773  0.3099  1\n  Mg  Mg9  1  0.6032  0.0068  0.6767  1\n  Mg  Mg10  1  0.0068  0.6032  0.6767  1\n  Mg  Mg11  1  0.6773  0.2975  0.3099  1\n  Mg  Mg12  1  0.3542  0.0036  0.0036  1\n  Mg  Mg13  1  0.3174  0.9989  0.3995  1\n  Mg  Mg14  1  0.7139  0.4079  0.5970  1\n  Mg  Mg15  1  0.5829  0.3340  0.0148  1\n  Al  Al16  1  0.1837  0.1837  0.1911  1\n  Al  Al17  1  0.3635  0.3635  0.8267  1\n  Al  Al18  1  0.6516  0.8351  0.9798  1\n  Al  Al19  1  0.1842  0.3697  0.6325  1\n  Al  Al20  1  0.8153  0.0013  0.3614  1\n  Al  Al21  1  0.6353  0.0058  0.1788  1\n  Al  Al22  1  0.8201  0.1981  0.8140  1\n  Al  Al23  1  0.1981  0.8201  0.8140  1\n  Al  Al24  1  0.0058  0.6353  0.1788  1\n  Al  Al25  1  0.0013  0.8153  0.3614  1\n  Al  Al26  1  0.3697  0.1842  0.6325  1\n  Al  Al27  1  0.8351  0.6516  0.9798  1\n  Pt  Pt28  1  0.3216  0.3216  0.3573  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg7PtMg8Al12Mg\n_chemical_formula_sum              \"Mg16 Pt1 Al12\"\n_cell_length_a       8.9693\n_cell_length_b       8.9693\n_cell_length_c       9.0427\n_cell_angle_alpha    70.9960\n_cell_angle_beta     70.9960\n_cell_angle_gamma    108.7222\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.9948  0.9948  0.0067  1.0000\n  Mg  Mg2       1.0000  0.6943  0.6943  0.7027  1.0000\n  Mg  Mg3       1.0000  0.0101  0.0101  0.6485  1.0000\n  Mg  Mg4       1.0000  0.6152  0.6152  0.3309  1.0000\n  Mg  Mg5       1.0000  0.3340  0.5829  0.0148  1.0000\n  Mg  Mg6       1.0000  0.4079  0.7139  0.5970  1.0000\n  Mg  Mg7       1.0000  0.9989  0.3173  0.3995  1.0000\n  Pt  Pt1       1.0000  0.0036  0.3542  0.0036  1.0000\n  Mg  Mg8       1.0000  0.2975  0.6773  0.3099  1.0000\n  Mg  Mg9       1.0000  0.6032  0.0068  0.6767  1.0000\n  Mg  Mg10      1.0000  0.0068  0.6032  0.6767  1.0000\n  Mg  Mg11      1.0000  0.6773  0.2975  0.3099  1.0000\n  Mg  Mg12      1.0000  0.3542  0.0036  0.0036  1.0000\n  Mg  Mg13      1.0000  0.3174  0.9989  0.3995  1.0000\n  Mg  Mg14      1.0000  0.7139  0.4079  0.5970  1.0000\n  Mg  Mg15      1.0000  0.5829  0.3340  0.0148  1.0000\n  Al  Al1       1.0000  0.1837  0.1837  0.1911  1.0000\n  Al  Al2       1.0000  0.3635  0.3635  0.8267  1.0000\n  Al  Al3       1.0000  0.6516  0.8351  0.9798  1.0000\n  Al  Al4       1.0000  0.1842  0.3697  0.6325  1.0000\n  Al  Al5       1.0000  0.8153  0.0013  0.3614  1.0000\n  Al  Al6       1.0000  0.6353  0.0058  0.1788  1.0000\n  Al  Al7       1.0000  0.8201  0.1981  0.8140  1.0000\n  Al  Al8       1.0000  0.1981  0.8201  0.8140  1.0000\n  Al  Al9       1.0000  0.0058  0.6353  0.1788  1.0000\n  Al  Al10      1.0000  0.0013  0.8153  0.3614  1.0000\n  Al  Al11      1.0000  0.3697  0.1842  0.6325  1.0000\n  Al  Al12      1.0000  0.8351  0.6516  0.9798  1.0000\n  Mg  Mg16      1.0000  0.3216  0.3216  0.3573  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "796f37ab-9234-412d-8593-48b140111817",
    "mp_id": "mp-1185729",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg16MnAl12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0610\n_cell_length_b   9.0610\n_cell_length_c   9.0610\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg16MnAl12\n_chemical_formula_sum   'Mg16 Mn1 Al12'\n_cell_volume   572.6682\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2861  0.6002  0.6002  1\n  Mg  Mg1  1  0.3310  0.3310  0.3310  1\n  Mg  Mg2  1  0.7139  0.3141  0.3141  1\n  Mg  Mg3  1  0.6690  0.0000  0.0000  1\n  Mg  Mg4  1  0.0000  0.6859  0.3998  1\n  Mg  Mg5  1  0.3998  0.0000  0.6859  1\n  Mg  Mg6  1  0.6002  0.6002  0.2861  1\n  Mg  Mg7  1  0.0000  0.0000  0.6690  1\n  Mg  Mg8  1  0.6859  0.3998  0.0000  1\n  Mg  Mg9  1  0.3141  0.7139  0.3141  1\n  Mg  Mg10  1  0.3141  0.3141  0.7139  1\n  Mg  Mg11  1  0.6859  0.0000  0.3998  1\n  Mg  Mg12  1  0.0000  0.6690  0.0000  1\n  Mg  Mg13  1  0.6002  0.2861  0.6002  1\n  Mg  Mg14  1  0.3998  0.6859  0.0000  1\n  Mg  Mg15  1  0.0000  0.3998  0.6859  1\n  Mn  Mn16  1  0.0000  0.0000  0.0000  1\n  Al  Al17  1  0.1783  0.8163  0.8163  1\n  Al  Al18  1  0.8217  0.6381  0.6381  1\n  Al  Al19  1  0.0000  0.3619  0.1837  1\n  Al  Al20  1  0.3619  0.1837  0.0000  1\n  Al  Al21  1  0.6381  0.8217  0.6381  1\n  Al  Al22  1  0.8163  0.1783  0.8163  1\n  Al  Al23  1  0.1837  0.3619  0.0000  1\n  Al  Al24  1  0.8163  0.8163  0.1783  1\n  Al  Al25  1  0.1837  0.0000  0.3619  1\n  Al  Al26  1  0.3619  0.0000  0.1837  1\n  Al  Al27  1  0.6381  0.6381  0.8217  1\n  Al  Al28  1  0.0000  0.1837  0.3619  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg5AlMg10MnAl10MgAl\n_chemical_formula_sum              \"Mg16 Al12 Mn1\"\n_cell_length_a       9.0610\n_cell_length_b       9.0610\n_cell_length_c       9.0610\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2861  0.6002  0.6002  1.0000\n  Mg  Mg2       1.0000  0.3310  0.3310  0.3310  1.0000\n  Mg  Mg3       1.0000  0.7139  0.3141  0.3141  1.0000\n  Mg  Mg4       1.0000  0.6690  0.0000  0.0000  1.0000\n  Mg  Mg5       1.0000  0.0000  0.6859  0.3998  1.0000\n  Al  Al1       1.0000  0.3998  0.0000  0.6859  1.0000\n  Mg  Mg6       1.0000  0.6002  0.6002  0.2861  1.0000\n  Mg  Mg7       1.0000  0.0000  0.0000  0.6690  1.0000\n  Mg  Mg8       1.0000  0.6859  0.3998  0.0000  1.0000\n  Mg  Mg9       1.0000  0.3141  0.7139  0.3141  1.0000\n  Mg  Mg10      1.0000  0.3141  0.3141  0.7139  1.0000\n  Mg  Mg11      1.0000  0.6859  0.0000  0.3998  1.0000\n  Mg  Mg12      1.0000  0.0000  0.6690  0.0000  1.0000\n  Mg  Mg13      1.0000  0.6002  0.2861  0.6002  1.0000\n  Mg  Mg14      1.0000  0.3998  0.6859  0.0000  1.0000\n  Mg  Mg15      1.0000  0.0000  0.3998  0.6859  1.0000\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al2       1.0000  0.1783  0.8163  0.8163  1.0000\n  Al  Al3       1.0000  0.8217  0.6381  0.6381  1.0000\n  Al  Al4       1.0000  0.0000  0.3619  0.1837  1.0000\n  Al  Al5       1.0000  0.3619  0.1837  0.0000  1.0000\n  Al  Al6       1.0000  0.6381  0.8217  0.6381  1.0000\n  Al  Al7       1.0000  0.8163  0.1783  0.8163  1.0000\n  Al  Al8       1.0000  0.1837  0.3619  0.0000  1.0000\n  Al  Al9       1.0000  0.8163  0.8163  0.1783  1.0000\n  Al  Al10      1.0000  0.1837  0.0000  0.3619  1.0000\n  Al  Al11      1.0000  0.3619  0.0000  0.1837  1.0000\n  Mg  Mg16      1.0000  0.6381  0.6381  0.8217  1.0000\n  Al  Al12      1.0000  0.0000  0.1837  0.3619  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1ea98ded-35ae-4616-9585-28f4a7b39f62",
    "mp_id": "mp-1185730",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg16TaAl12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0376\n_cell_length_b   9.0376\n_cell_length_c   9.0376\n_cell_angle_alpha   109.3304\n_cell_angle_beta   109.3304\n_cell_angle_gamma   109.3304\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg16TaAl12\n_chemical_formula_sum   'Mg16 Ta1 Al12'\n_cell_volume   571.1901\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0009  0.0009  0.0009  1\n  Mg  Mg1  1  0.0003  0.0003  0.6549  1\n  Mg  Mg2  1  0.5967  0.5967  0.2842  1\n  Mg  Mg3  1  0.3181  0.3181  0.7167  1\n  Mg  Mg4  1  0.6856  0.3977  0.0005  1\n  Mg  Mg5  1  0.5967  0.2842  0.5967  1\n  Mg  Mg6  1  0.0005  0.6856  0.3977  1\n  Mg  Mg7  1  0.0003  0.6549  0.0003  1\n  Mg  Mg8  1  0.3977  0.0005  0.6856  1\n  Mg  Mg9  1  0.7167  0.3181  0.3181  1\n  Mg  Mg10  1  0.3181  0.7167  0.3181  1\n  Mg  Mg11  1  0.0005  0.3977  0.6856  1\n  Mg  Mg12  1  0.6549  0.0003  0.0003  1\n  Mg  Mg13  1  0.6856  0.0005  0.3977  1\n  Mg  Mg14  1  0.2842  0.5967  0.5967  1\n  Mg  Mg15  1  0.3977  0.6856  0.0005  1\n  Ta  Ta16  1  0.3323  0.3323  0.3323  1\n  Al  Al17  1  0.8138  0.8138  0.1814  1\n  Al  Al18  1  0.6298  0.6298  0.8147  1\n  Al  Al19  1  0.3676  0.1892  0.0082  1\n  Al  Al20  1  0.1892  0.0082  0.3676  1\n  Al  Al21  1  0.8147  0.6298  0.6298  1\n  Al  Al22  1  0.3676  0.0082  0.1892  1\n  Al  Al23  1  0.1814  0.8138  0.8138  1\n  Al  Al24  1  0.8138  0.1814  0.8138  1\n  Al  Al25  1  0.0082  0.3676  0.1892  1\n  Al  Al26  1  0.6298  0.8147  0.6298  1\n  Al  Al27  1  0.0082  0.1892  0.3676  1\n  Al  Al28  1  0.1892  0.3676  0.0082  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4AlMg11TaAl9MgAl2\n_chemical_formula_sum              \"Mg16 Al12 Ta1\"\n_cell_length_a       9.0376\n_cell_length_b       9.0376\n_cell_length_c       9.0376\n_cell_angle_alpha    109.3304\n_cell_angle_beta     109.3304\n_cell_angle_gamma    109.3304\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0009  0.0009  0.0009  1.0000\n  Mg  Mg2       1.0000  0.0003  0.0003  0.6549  1.0000\n  Mg  Mg3       1.0000  0.5967  0.5967  0.2842  1.0000\n  Mg  Mg4       1.0000  0.3181  0.3181  0.7167  1.0000\n  Al  Al1       1.0000  0.6856  0.3977  0.0005  1.0000\n  Mg  Mg5       1.0000  0.5967  0.2842  0.5967  1.0000\n  Mg  Mg6       1.0000  0.0005  0.6856  0.3977  1.0000\n  Mg  Mg7       1.0000  0.0003  0.6549  0.0003  1.0000\n  Mg  Mg8       1.0000  0.3977  0.0005  0.6856  1.0000\n  Mg  Mg9       1.0000  0.7167  0.3181  0.3181  1.0000\n  Mg  Mg10      1.0000  0.3181  0.7167  0.3181  1.0000\n  Mg  Mg11      1.0000  0.0005  0.3977  0.6856  1.0000\n  Mg  Mg12      1.0000  0.6549  0.0003  0.0003  1.0000\n  Mg  Mg13      1.0000  0.6856  0.0005  0.3977  1.0000\n  Mg  Mg14      1.0000  0.2842  0.5967  0.5967  1.0000\n  Mg  Mg15      1.0000  0.3977  0.6856  0.0005  1.0000\n  Ta  Ta1       1.0000  0.3323  0.3323  0.3323  1.0000\n  Al  Al2       1.0000  0.8138  0.8138  0.1814  1.0000\n  Al  Al3       1.0000  0.6298  0.6298  0.8147  1.0000\n  Al  Al4       1.0000  0.3676  0.1892  0.0082  1.0000\n  Al  Al5       1.0000  0.1892  0.0082  0.3676  1.0000\n  Al  Al6       1.0000  0.8147  0.6298  0.6298  1.0000\n  Al  Al7       1.0000  0.3676  0.0082  0.1892  1.0000\n  Al  Al8       1.0000  0.1814  0.8138  0.8138  1.0000\n  Al  Al9       1.0000  0.8138  0.1814  0.8138  1.0000\n  Al  Al10      1.0000  0.0082  0.3676  0.1892  1.0000\n  Mg  Mg16      1.0000  0.6298  0.8147  0.6298  1.0000\n  Al  Al11      1.0000  0.0082  0.1892  0.3676  1.0000\n  Al  Al12      1.0000  0.1892  0.3676  0.0082  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b87388d5-8a44-4438-b759-ed96798763b5",
    "mp_id": "mp-1186069",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na(MoSe)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7788\n_cell_length_b   8.7772\n_cell_length_c   4.4853\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0234\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na(MoSe)3\n_chemical_formula_sum   'Na2 Mo6 Se6'\n_cell_volume   299.2367\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.3333  0.6667  0.2500  1\n  Na  Na1  1  0.6667  0.3333  0.7500  1\n  Mo  Mo2  1  0.1477  0.1912  0.2500  1\n  Mo  Mo3  1  0.8523  0.8088  0.7500  1\n  Mo  Mo4  1  0.8088  0.9564  0.2500  1\n  Mo  Mo5  1  0.0435  0.8524  0.2500  1\n  Mo  Mo6  1  0.9565  0.1476  0.7500  1\n  Mo  Mo7  1  0.1912  0.0436  0.7500  1\n  Se  Se8  1  0.9136  0.2950  0.2500  1\n  Se  Se9  1  0.0864  0.7050  0.7500  1\n  Se  Se10  1  0.7050  0.6185  0.2500  1\n  Se  Se11  1  0.3815  0.0866  0.2500  1\n  Se  Se12  1  0.6185  0.9134  0.7500  1\n  Se  Se13  1  0.2950  0.3815  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       MoNa2Mo5Se6\n_chemical_formula_sum              \"Mo6 Na2 Se6\"\n_cell_length_a       8.7788\n_cell_length_b       8.7772\n_cell_length_c       4.4853\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0234\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mo  Mo1       1.0000  0.3333  0.6667  0.2500  1.0000\n  Na  Na1       1.0000  0.6667  0.3333  0.7500  1.0000\n  Na  Na2       1.0000  0.1477  0.1912  0.2500  1.0000\n  Mo  Mo2       1.0000  0.8523  0.8088  0.7500  1.0000\n  Mo  Mo3       1.0000  0.8088  0.9564  0.2500  1.0000\n  Mo  Mo4       1.0000  0.0435  0.8524  0.2500  1.0000\n  Mo  Mo5       1.0000  0.9565  0.1476  0.7500  1.0000\n  Mo  Mo6       1.0000  0.1912  0.0436  0.7500  1.0000\n  Se  Se1       1.0000  0.9136  0.2950  0.2500  1.0000\n  Se  Se2       1.0000  0.0864  0.7050  0.7500  1.0000\n  Se  Se3       1.0000  0.7050  0.6185  0.2500  1.0000\n  Se  Se4       1.0000  0.3815  0.0866  0.2500  1.0000\n  Se  Se5       1.0000  0.6185  0.9134  0.7500  1.0000\n  Se  Se6       1.0000  0.2950  0.3815  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b4b1f336-b05a-4cb2-94a7-8ee0f3912d22",
    "mp_id": "mp-1188168",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_C2N2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.8971\n_cell_length_b   9.2054\n_cell_length_c   10.1966\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   C2N2O5\n_chemical_formula_sum   'C4 N4 O10'\n_cell_volume   365.7913\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  C  C0  1  0.0718  0.4571  0.6857  1\n  C  C1  1  0.0718  0.5429  0.3143  1\n  C  C2  1  0.9282  0.0429  0.1857  1\n  C  C3  1  0.9282  0.9571  0.8143  1\n  N  N4  1  0.5661  0.3785  0.9573  1\n  N  N5  1  0.5661  0.6215  0.0427  1\n  N  N6  1  0.4339  0.1215  0.4573  1\n  N  N7  1  0.4339  0.8785  0.5427  1\n  O  O8  1  0.2291  0.5535  0.7319  1\n  O  O9  1  0.2291  0.4465  0.2681  1\n  O  O10  1  0.7709  0.9465  0.2319  1\n  O  O11  1  0.7709  0.0535  0.7681  1\n  O  O12  1  0.9136  0.3614  0.6390  1\n  O  O13  1  0.9136  0.6386  0.3610  1\n  O  O14  1  0.0864  0.1386  0.1390  1\n  O  O15  1  0.0864  0.8614  0.8610  1\n  O  O16  1  0.4339  0.0000  0.5000  1\n  O  O17  1  0.5661  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       C4ON3O2NO7\n_chemical_formula_sum              \"C4 O10 N4\"\n_cell_length_a       3.8971\n_cell_length_b       9.2054\n_cell_length_c       10.1966\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.0718  0.4571  0.6857  1.0000\n  C   C2        1.0000  0.0718  0.5429  0.3143  1.0000\n  C   C3        1.0000  0.9282  0.0429  0.1857  1.0000\n  C   C4        1.0000  0.9282  0.9571  0.8143  1.0000\n  O   O1        1.0000  0.5661  0.3785  0.9573  1.0000\n  N   N1        1.0000  0.5661  0.6215  0.0427  1.0000\n  N   N2        1.0000  0.4339  0.1215  0.4573  1.0000\n  N   N3        1.0000  0.4339  0.8785  0.5427  1.0000\n  O   O2        1.0000  0.2291  0.5535  0.7319  1.0000\n  O   O3        1.0000  0.2291  0.4465  0.2681  1.0000\n  N   N4        1.0000  0.7709  0.9465  0.2319  1.0000\n  O   O4        1.0000  0.7709  0.0535  0.7681  1.0000\n  O   O5        1.0000  0.9136  0.3614  0.6390  1.0000\n  O   O6        1.0000  0.9136  0.6386  0.3610  1.0000\n  O   O7        1.0000  0.0864  0.1386  0.1390  1.0000\n  O   O8        1.0000  0.0864  0.8614  0.8610  1.0000\n  O   O9        1.0000  0.4339  0.0000  0.5000  1.0000\n  O   O10       1.0000  0.5661  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "01181b4c-0d8b-4e62-96f2-ab04670882a5",
    "mp_id": "mp-1188839",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nb4SiC3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.2060\n_cell_length_b   3.2060\n_cell_length_c   23.0049\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nb4SiC3\n_chemical_formula_sum   'Nb8 Si2 C6'\n_cell_volume   204.7786\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.3333  0.6667  0.4423  1\n  Nb  Nb1  1  0.6667  0.3333  0.5577  1\n  Nb  Nb2  1  0.6667  0.3333  0.9423  1\n  Nb  Nb3  1  0.3333  0.6667  0.0577  1\n  Nb  Nb4  1  0.0000  0.0000  0.3348  1\n  Nb  Nb5  1  0.0000  0.0000  0.6652  1\n  Nb  Nb6  1  0.0000  0.0000  0.8348  1\n  Nb  Nb7  1  0.0000  0.0000  0.1652  1\n  Si  Si8  1  0.3333  0.6667  0.2500  1\n  Si  Si9  1  0.6667  0.3333  0.7500  1\n  C  C10  1  0.0000  0.0000  0.5000  1\n  C  C11  1  0.0000  0.0000  0.0000  1\n  C  C12  1  0.6667  0.3333  0.3865  1\n  C  C13  1  0.3333  0.6667  0.6135  1\n  C  C14  1  0.3333  0.6667  0.8865  1\n  C  C15  1  0.6667  0.3333  0.1135  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb2SiNb5SiNbC6\n_chemical_formula_sum              \"Nb8 Si2 C6\"\n_cell_length_a       3.2060\n_cell_length_b       3.2060\n_cell_length_c       23.0049\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.3333  0.6667  0.4423  1.0000\n  Nb  Nb2       1.0000  0.6667  0.3333  0.5577  1.0000\n  Si  Si1       1.0000  0.6667  0.3333  0.9423  1.0000\n  Nb  Nb3       1.0000  0.3333  0.6667  0.0577  1.0000\n  Nb  Nb4       1.0000  0.0000  0.0000  0.3348  1.0000\n  Nb  Nb5       1.0000  0.0000  0.0000  0.6652  1.0000\n  Nb  Nb6       1.0000  0.0000  0.0000  0.8348  1.0000\n  Nb  Nb7       1.0000  0.0000  0.0000  0.1652  1.0000\n  Si  Si2       1.0000  0.3333  0.6667  0.2500  1.0000\n  Nb  Nb8       1.0000  0.6667  0.3333  0.7500  1.0000\n  C   C1        1.0000  0.0000  0.0000  0.5000  1.0000\n  C   C2        1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C3        1.0000  0.6667  0.3333  0.3865  1.0000\n  C   C4        1.0000  0.3333  0.6667  0.6135  1.0000\n  C   C5        1.0000  0.3333  0.6667  0.8865  1.0000\n  C   C6        1.0000  0.6667  0.3333  0.1135  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1234f01b-1e77-4d76-b735-25c9a1a16a38",
    "mp_id": "mp-1189137",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg5Br11N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2481\n_cell_length_b   10.2481\n_cell_length_c   6.9643\n_cell_angle_alpha   72.4931\n_cell_angle_beta   72.4931\n_cell_angle_gamma   101.8953\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg5Br11N\n_chemical_formula_sum   'Hg5 Br11 N1'\n_cell_volume   628.8598\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.1483  0.4823  0.6839  1\n  Hg  Hg1  1  0.4823  0.1483  0.6839  1\n  Hg  Hg2  1  0.8517  0.5177  0.3161  1\n  Hg  Hg3  1  0.5177  0.8517  0.3161  1\n  Hg  Hg4  1  0.0000  0.0000  0.0000  1\n  Br  Br5  1  0.0790  0.3280  0.0716  1\n  Br  Br6  1  0.3280  0.0790  0.0716  1\n  Br  Br7  1  0.9210  0.6720  0.9284  1\n  Br  Br8  1  0.6720  0.9210  0.9284  1\n  Br  Br9  1  0.2042  0.6396  0.3021  1\n  Br  Br10  1  0.6396  0.2042  0.3021  1\n  Br  Br11  1  0.7958  0.3604  0.6979  1\n  Br  Br12  1  0.3604  0.7958  0.6979  1\n  Br  Br13  1  0.1442  0.1442  0.6052  1\n  Br  Br14  1  0.8558  0.8558  0.3948  1\n  Br  Br15  1  0.5000  0.5000  0.5000  1\n  N  N16  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg3BrHgBr3HgBr7N\n_chemical_formula_sum              \"Hg5 Br11 N1\"\n_cell_length_a       10.2481\n_cell_length_b       10.2481\n_cell_length_c       6.9643\n_cell_angle_alpha    72.4931\n_cell_angle_beta     72.4931\n_cell_angle_gamma    101.8953\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.1483  0.4823  0.6839  1.0000\n  Hg  Hg2       1.0000  0.4823  0.1483  0.6839  1.0000\n  Hg  Hg3       1.0000  0.8517  0.5177  0.3161  1.0000\n  Br  Br1       1.0000  0.5177  0.8517  0.3161  1.0000\n  Hg  Hg4       1.0000  0.0000  0.0000  0.0000  1.0000\n  Br  Br2       1.0000  0.0790  0.3280  0.0716  1.0000\n  Br  Br3       1.0000  0.3280  0.0790  0.0716  1.0000\n  Br  Br4       1.0000  0.9210  0.6720  0.9284  1.0000\n  Hg  Hg5       1.0000  0.6720  0.9210  0.9284  1.0000\n  Br  Br5       1.0000  0.2042  0.6396  0.3021  1.0000\n  Br  Br6       1.0000  0.6396  0.2042  0.3021  1.0000\n  Br  Br7       1.0000  0.7958  0.3604  0.6979  1.0000\n  Br  Br8       1.0000  0.3604  0.7958  0.6979  1.0000\n  Br  Br9       1.0000  0.1442  0.1442  0.6052  1.0000\n  Br  Br10      1.0000  0.8558  0.8558  0.3948  1.0000\n  Br  Br11      1.0000  0.5000  0.5000  0.5000  1.0000\n  N   N1        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "794cae3d-856b-4e70-a615-ed1dedca74b6",
    "mp_id": "mp-1189325",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_UTlB5O11F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4358\n_cell_length_b   6.4400\n_cell_length_c   7.5238\n_cell_angle_alpha   88.0233\n_cell_angle_beta   73.1801\n_cell_angle_gamma   60.7654\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   UTlB5O11F\n_chemical_formula_sum   'U1 Tl1 B5 O11 F1'\n_cell_volume   258.3331\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.3746  0.4270  0.8822  1\n  Tl  Tl1  1  0.0304  0.8417  0.4151  1\n  B  B2  1  0.4851  0.8982  0.2705  1\n  B  B3  1  0.0305  0.1048  0.8899  1\n  B  B4  1  0.8217  0.8526  0.9909  1\n  B  B5  1  0.8173  0.5271  0.8030  1\n  B  B6  1  0.4357  0.9295  0.9525  1\n  O  O7  1  0.2357  0.1204  0.8890  1\n  O  O8  1  0.8333  0.2922  0.8477  1\n  O  O9  1  0.0323  0.8960  0.9376  1\n  O  O10  1  0.2861  0.4776  0.1352  1\n  O  O11  1  0.5447  0.6895  0.8520  1\n  O  O12  1  0.9357  0.5981  0.9099  1\n  O  O13  1  0.4636  0.3746  0.6321  1\n  O  O14  1  0.3875  0.8780  0.4533  1\n  O  O15  1  0.7177  0.8825  0.1992  1\n  O  O16  1  0.3434  0.9270  0.1538  1\n  O  O17  1  0.6248  0.0060  0.9096  1\n  F  F18  1  0.9336  0.5074  0.6073  1\n",
    "output": "data_image0\n_chemical_formula_structural       UTlB3OBO2BO8F\n_chemical_formula_sum              \"U1 Tl1 B5 O11 F1\"\n_cell_length_a       6.4358\n_cell_length_b       6.4400\n_cell_length_c       7.5238\n_cell_angle_alpha    88.0233\n_cell_angle_beta     73.1801\n_cell_angle_gamma    60.7654\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.3746  0.4270  0.8822  1.0000\n  Tl  Tl1       1.0000  0.0304  0.8417  0.4151  1.0000\n  B   B1        1.0000  0.4851  0.8982  0.2705  1.0000\n  B   B2        1.0000  0.0305  0.1048  0.8899  1.0000\n  B   B3        1.0000  0.8217  0.8526  0.9909  1.0000\n  O   O1        1.0000  0.8173  0.5271  0.8030  1.0000\n  B   B4        1.0000  0.4357  0.9295  0.9525  1.0000\n  O   O2        1.0000  0.2357  0.1204  0.8890  1.0000\n  O   O3        1.0000  0.8333  0.2922  0.8477  1.0000\n  B   B5        1.0000  0.0323  0.8960  0.9376  1.0000\n  O   O4        1.0000  0.2861  0.4776  0.1352  1.0000\n  O   O5        1.0000  0.5447  0.6895  0.8520  1.0000\n  O   O6        1.0000  0.9357  0.5981  0.9099  1.0000\n  O   O7        1.0000  0.4636  0.3746  0.6320  1.0000\n  O   O8        1.0000  0.3875  0.8780  0.4533  1.0000\n  O   O9        1.0000  0.7177  0.8825  0.1992  1.0000\n  O   O10       1.0000  0.3434  0.9270  0.1538  1.0000\n  O   O11       1.0000  0.6248  0.0060  0.9096  1.0000\n  F   F1        1.0000  0.9336  0.5074  0.6073  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bdff2a03-210a-4225-8977-37e82b155dca",
    "mp_id": "mp-1189617",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Gd3Cu3Sb4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3733\n_cell_length_b   8.3733\n_cell_length_c   8.3733\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Gd3Cu3Sb4\n_chemical_formula_sum   'Gd6 Cu6 Sb8'\n_cell_volume   451.9315\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.8750  0.2500  0.1250  1\n  Gd  Gd1  1  0.6250  0.7500  0.3750  1\n  Gd  Gd2  1  0.2500  0.1250  0.8750  1\n  Gd  Gd3  1  0.7500  0.3750  0.6250  1\n  Gd  Gd4  1  0.1250  0.8750  0.2500  1\n  Gd  Gd5  1  0.3750  0.6250  0.7500  1\n  Cu  Cu6  1  0.3750  0.2500  0.6250  1\n  Cu  Cu7  1  0.1250  0.7500  0.8750  1\n  Cu  Cu8  1  0.2500  0.6250  0.3750  1\n  Cu  Cu9  1  0.7500  0.8750  0.1250  1\n  Cu  Cu10  1  0.6250  0.3750  0.2500  1\n  Cu  Cu11  1  0.8750  0.1250  0.7500  1\n  Sb  Sb12  1  0.6591  0.5000  0.0000  1\n  Sb  Sb13  1  0.5000  0.0000  0.6591  1\n  Sb  Sb14  1  0.0000  0.6591  0.5000  1\n  Sb  Sb15  1  0.8409  0.8409  0.8409  1\n  Sb  Sb16  1  0.5000  0.0000  0.1591  1\n  Sb  Sb17  1  0.1591  0.5000  0.0000  1\n  Sb  Sb18  1  0.0000  0.1591  0.5000  1\n  Sb  Sb19  1  0.3409  0.3409  0.3409  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd2CuGd3Cu5GdSb8\n_chemical_formula_sum              \"Gd6 Cu6 Sb8\"\n_cell_length_a       8.3733\n_cell_length_b       8.3733\n_cell_length_c       8.3733\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.8750  0.2500  0.1250  1.0000\n  Gd  Gd2       1.0000  0.6250  0.7500  0.3750  1.0000\n  Cu  Cu1       1.0000  0.2500  0.1250  0.8750  1.0000\n  Gd  Gd3       1.0000  0.7500  0.3750  0.6250  1.0000\n  Gd  Gd4       1.0000  0.1250  0.8750  0.2500  1.0000\n  Gd  Gd5       1.0000  0.3750  0.6250  0.7500  1.0000\n  Cu  Cu2       1.0000  0.3750  0.2500  0.6250  1.0000\n  Cu  Cu3       1.0000  0.1250  0.7500  0.8750  1.0000\n  Cu  Cu4       1.0000  0.2500  0.6250  0.3750  1.0000\n  Cu  Cu5       1.0000  0.7500  0.8750  0.1250  1.0000\n  Cu  Cu6       1.0000  0.6250  0.3750  0.2500  1.0000\n  Gd  Gd6       1.0000  0.8750  0.1250  0.7500  1.0000\n  Sb  Sb1       1.0000  0.6591  0.5000  0.0000  1.0000\n  Sb  Sb2       1.0000  0.5000  0.0000  0.6591  1.0000\n  Sb  Sb3       1.0000  0.0000  0.6591  0.5000  1.0000\n  Sb  Sb4       1.0000  0.8409  0.8409  0.8409  1.0000\n  Sb  Sb5       1.0000  0.5000  0.0000  0.1591  1.0000\n  Sb  Sb6       1.0000  0.1591  0.5000  0.0000  1.0000\n  Sb  Sb7       1.0000  0.0000  0.1591  0.5000  1.0000\n  Sb  Sb8       1.0000  0.3409  0.3409  0.3409  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c1850910-7d58-4765-b694-902818ad68e4",
    "mp_id": "mp-1190360",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaSeO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0945\n_cell_length_b   6.6977\n_cell_length_c   8.3186\n_cell_angle_alpha   53.0299\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaSeO4\n_chemical_formula_sum   'Ca4 Se4 O16'\n_cell_volume   315.8031\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.3503  0.8131  0.7789  1\n  Ca  Ca1  1  0.1497  0.8131  0.2789  1\n  Ca  Ca2  1  0.6497  0.1869  0.2211  1\n  Ca  Ca3  1  0.8503  0.1869  0.7211  1\n  Se  Se4  1  0.3379  0.3097  0.8053  1\n  Se  Se5  1  0.1621  0.3097  0.3053  1\n  Se  Se6  1  0.6621  0.6903  0.1947  1\n  Se  Se7  1  0.8379  0.6903  0.6947  1\n  O  O8  1  0.4999  0.1769  0.7552  1\n  O  O9  1  0.0001  0.1769  0.2552  1\n  O  O10  1  0.5001  0.8231  0.2448  1\n  O  O11  1  -0.0001  0.8231  0.7448  1\n  O  O12  1  0.1550  0.1168  0.8932  1\n  O  O13  1  0.3450  0.1168  0.3932  1\n  O  O14  1  0.8450  0.8832  0.1068  1\n  O  O15  1  0.6550  0.8832  0.6068  1\n  O  O16  1  0.3980  0.3423  0.9802  1\n  O  O17  1  0.1020  0.3423  0.4802  1\n  O  O18  1  0.6020  0.6577  0.0198  1\n  O  O19  1  0.8980  0.6577  0.5198  1\n  O  O20  1  0.2897  0.6001  0.6139  1\n  O  O21  1  0.2103  0.6001  0.1139  1\n  O  O22  1  0.7103  0.3999  0.3861  1\n  O  O23  1  0.7897  0.3999  0.8861  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca4OSe3O2SeO13\n_chemical_formula_sum              \"Ca4 O16 Se4\"\n_cell_length_a       7.0945\n_cell_length_b       6.6977\n_cell_length_c       8.3186\n_cell_angle_alpha    53.0299\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.3503  0.8131  0.7789  1.0000\n  Ca  Ca2       1.0000  0.1497  0.8131  0.2789  1.0000\n  Ca  Ca3       1.0000  0.6497  0.1869  0.2211  1.0000\n  Ca  Ca4       1.0000  0.8503  0.1869  0.7211  1.0000\n  O   O1        1.0000  0.3379  0.3097  0.8053  1.0000\n  Se  Se1       1.0000  0.1621  0.3097  0.3053  1.0000\n  Se  Se2       1.0000  0.6621  0.6903  0.1947  1.0000\n  Se  Se3       1.0000  0.8379  0.6903  0.6947  1.0000\n  O   O2        1.0000  0.4999  0.1769  0.7552  1.0000\n  O   O3        1.0000  0.0001  0.1769  0.2552  1.0000\n  Se  Se4       1.0000  0.5001  0.8231  0.2448  1.0000\n  O   O4        1.0000  0.9999  0.8231  0.7448  1.0000\n  O   O5        1.0000  0.1550  0.1168  0.8932  1.0000\n  O   O6        1.0000  0.3450  0.1168  0.3932  1.0000\n  O   O7        1.0000  0.8450  0.8832  0.1068  1.0000\n  O   O8        1.0000  0.6550  0.8832  0.6068  1.0000\n  O   O9        1.0000  0.3980  0.3423  0.9802  1.0000\n  O   O10       1.0000  0.1020  0.3423  0.4802  1.0000\n  O   O11       1.0000  0.6020  0.6577  0.0198  1.0000\n  O   O12       1.0000  0.8980  0.6577  0.5198  1.0000\n  O   O13       1.0000  0.2897  0.6001  0.6139  1.0000\n  O   O14       1.0000  0.2103  0.6001  0.1139  1.0000\n  O   O15       1.0000  0.7103  0.3999  0.3861  1.0000\n  O   O16       1.0000  0.7897  0.3999  0.8861  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "90720e93-0978-489a-a28c-a11f3ef76a9a",
    "mp_id": "mp-1190450",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaNbSe2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8879\n_cell_length_b   6.8879\n_cell_length_c   7.5164\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   110.3369\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaNbSe2O7\n_chemical_formula_sum   'Na2 Nb2 Se4 O14'\n_cell_volume   334.3735\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9800  0.9800  0.3646  1\n  Na  Na1  1  0.0200  0.0200  0.8646  1\n  Nb  Nb2  1  0.5119  0.5119  0.9004  1\n  Nb  Nb3  1  0.4881  0.4881  0.4004  1\n  Se  Se4  1  0.5647  0.9658  0.6262  1\n  Se  Se5  1  0.9658  0.5647  0.6262  1\n  Se  Se6  1  0.4353  0.0342  0.1262  1\n  Se  Se7  1  0.0342  0.4353  0.1262  1\n  O  O8  1  0.5466  0.7989  0.8104  1\n  O  O9  1  0.7989  0.5466  0.8104  1\n  O  O10  1  0.4534  0.2011  0.3104  1\n  O  O11  1  0.2011  0.4534  0.3104  1\n  O  O12  1  0.5437  0.7938  0.4445  1\n  O  O13  1  0.7938  0.5437  0.4445  1\n  O  O14  1  0.4563  0.2062  0.9445  1\n  O  O15  1  0.2062  0.4563  0.9445  1\n  O  O16  1  0.8192  0.0985  0.6222  1\n  O  O17  1  0.0985  0.8192  0.6222  1\n  O  O18  1  0.1808  0.9015  0.1222  1\n  O  O19  1  0.9015  0.1808  0.1222  1\n  O  O20  1  0.4129  0.4129  0.6314  1\n  O  O21  1  0.5871  0.5871  0.1314  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaONb2Se4O10NaO3\n_chemical_formula_sum              \"Na2 O14 Nb2 Se4\"\n_cell_length_a       6.8879\n_cell_length_b       6.8879\n_cell_length_c       7.5164\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    110.3369\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9800  0.9800  0.3646  1.0000\n  O   O1        1.0000  0.0200  0.0200  0.8646  1.0000\n  Nb  Nb1       1.0000  0.5119  0.5119  0.9004  1.0000\n  Nb  Nb2       1.0000  0.4881  0.4881  0.4004  1.0000\n  Se  Se1       1.0000  0.5647  0.9658  0.6262  1.0000\n  Se  Se2       1.0000  0.9658  0.5647  0.6262  1.0000\n  Se  Se3       1.0000  0.4353  0.0342  0.1262  1.0000\n  Se  Se4       1.0000  0.0342  0.4353  0.1262  1.0000\n  O   O2        1.0000  0.5466  0.7989  0.8104  1.0000\n  O   O3        1.0000  0.7989  0.5466  0.8104  1.0000\n  O   O4        1.0000  0.4534  0.2011  0.3104  1.0000\n  O   O5        1.0000  0.2011  0.4534  0.3104  1.0000\n  O   O6        1.0000  0.5437  0.7938  0.4445  1.0000\n  O   O7        1.0000  0.7938  0.5437  0.4445  1.0000\n  O   O8        1.0000  0.4563  0.2062  0.9445  1.0000\n  O   O9        1.0000  0.2062  0.4563  0.9445  1.0000\n  O   O10       1.0000  0.8192  0.0985  0.6222  1.0000\n  O   O11       1.0000  0.0985  0.8192  0.6222  1.0000\n  Na  Na2       1.0000  0.1808  0.9015  0.1222  1.0000\n  O   O12       1.0000  0.9015  0.1808  0.1222  1.0000\n  O   O13       1.0000  0.4129  0.4129  0.6314  1.0000\n  O   O14       1.0000  0.5871  0.5871  0.1314  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8628a4f4-6477-4c80-98fa-630654d2293a",
    "mp_id": "mp-1190471",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba(Sn2Ru)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.8849\n_cell_length_b   13.8849\n_cell_length_c   4.4789\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   145.5007\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba(Sn2Ru)3\n_chemical_formula_sum   'Ba2 Sn12 Ru6'\n_cell_volume   489.0834\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.4117  0.5883  0.2500  1\n  Ba  Ba1  1  0.5883  0.4117  0.7500  1\n  Sn  Sn2  1  0.8651  0.1349  0.2500  1\n  Sn  Sn3  1  0.1349  0.8651  0.7500  1\n  Sn  Sn4  1  0.2393  0.1475  0.2500  1\n  Sn  Sn5  1  0.1475  0.2393  0.7500  1\n  Sn  Sn6  1  0.7607  0.8525  0.7500  1\n  Sn  Sn7  1  0.8525  0.7607  0.2500  1\n  Sn  Sn8  1  0.2498  0.7502  0.2500  1\n  Sn  Sn9  1  0.7502  0.2498  0.7500  1\n  Sn  Sn10  1  0.4863  0.1329  0.2500  1\n  Sn  Sn11  1  0.1329  0.4863  0.7500  1\n  Sn  Sn12  1  0.5137  0.8671  0.7500  1\n  Sn  Sn13  1  0.8671  0.5137  0.2500  1\n  Ru  Ru14  1  0.5963  0.0266  0.2500  1\n  Ru  Ru15  1  0.0266  0.5963  0.7500  1\n  Ru  Ru16  1  0.4037  0.9734  0.7500  1\n  Ru  Ru17  1  0.9734  0.4037  0.2500  1\n  Ru  Ru18  1  0.9620  0.0380  0.2500  1\n  Ru  Ru19  1  0.0380  0.9620  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaSn9BaSn3Ru6\n_chemical_formula_sum              \"Ba2 Sn12 Ru6\"\n_cell_length_a       13.8849\n_cell_length_b       13.8849\n_cell_length_c       4.4789\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    145.5007\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.4117  0.5883  0.2500  1.0000\n  Sn  Sn1       1.0000  0.5883  0.4117  0.7500  1.0000\n  Sn  Sn2       1.0000  0.8651  0.1349  0.2500  1.0000\n  Sn  Sn3       1.0000  0.1349  0.8651  0.7500  1.0000\n  Sn  Sn4       1.0000  0.2393  0.1475  0.2500  1.0000\n  Sn  Sn5       1.0000  0.1475  0.2393  0.7500  1.0000\n  Sn  Sn6       1.0000  0.7607  0.8525  0.7500  1.0000\n  Sn  Sn7       1.0000  0.8525  0.7607  0.2500  1.0000\n  Sn  Sn8       1.0000  0.2498  0.7502  0.2500  1.0000\n  Sn  Sn9       1.0000  0.7502  0.2498  0.7500  1.0000\n  Ba  Ba2       1.0000  0.4863  0.1329  0.2500  1.0000\n  Sn  Sn10      1.0000  0.1329  0.4863  0.7500  1.0000\n  Sn  Sn11      1.0000  0.5137  0.8671  0.7500  1.0000\n  Sn  Sn12      1.0000  0.8671  0.5137  0.2500  1.0000\n  Ru  Ru1       1.0000  0.5963  0.0266  0.2500  1.0000\n  Ru  Ru2       1.0000  0.0266  0.5963  0.7500  1.0000\n  Ru  Ru3       1.0000  0.4037  0.9734  0.7500  1.0000\n  Ru  Ru4       1.0000  0.9734  0.4037  0.2500  1.0000\n  Ru  Ru5       1.0000  0.9620  0.0380  0.2500  1.0000\n  Ru  Ru6       1.0000  0.0380  0.9620  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eb070842-6424-4ce6-88f7-6c798e31d9e5",
    "mp_id": "mp-1190593",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn2ClO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9359\n_cell_length_b   6.6854\n_cell_length_c   8.5024\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn2ClO3\n_chemical_formula_sum   'Mn8 Cl4 O12'\n_cell_volume   337.4084\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.5000  0.0000  0.5000  1\n  Mn  Mn1  1  0.0000  0.5000  0.0000  1\n  Mn  Mn2  1  0.5000  0.5000  0.5000  1\n  Mn  Mn3  1  0.0000  0.0000  0.0000  1\n  Mn  Mn4  1  0.6944  0.2500  0.2489  1\n  Mn  Mn5  1  0.1944  0.2500  0.2511  1\n  Mn  Mn6  1  0.3056  0.7500  0.7511  1\n  Mn  Mn7  1  0.8056  0.7500  0.7489  1\n  Cl  Cl8  1  0.8359  0.7500  0.4713  1\n  Cl  Cl9  1  0.3359  0.7500  0.0287  1\n  Cl  Cl10  1  0.1641  0.2500  0.5287  1\n  Cl  Cl11  1  0.6641  0.2500  0.9713  1\n  O  O12  1  0.6804  0.2500  0.4769  1\n  O  O13  1  0.1804  0.2500  0.0231  1\n  O  O14  1  0.3196  0.7500  0.5231  1\n  O  O15  1  0.8196  0.7500  0.9769  1\n  O  O16  1  0.9482  0.0599  0.2257  1\n  O  O17  1  0.4482  0.4401  0.2743  1\n  O  O18  1  0.0518  0.5599  0.7743  1\n  O  O19  1  0.5518  0.9401  0.7257  1\n  O  O20  1  0.0518  0.9401  0.7743  1\n  O  O21  1  0.5518  0.5599  0.7257  1\n  O  O22  1  0.9482  0.4401  0.2257  1\n  O  O23  1  0.4482  0.0599  0.2743  1\n",
    "output": "data_image0\n_chemical_formula_structural       OMn7Cl4O6MnO5\n_chemical_formula_sum              \"O12 Mn8 Cl4\"\n_cell_length_a       5.9359\n_cell_length_b       6.6854\n_cell_length_c       8.5024\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mn  Mn2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn4       1.0000  0.6944  0.2500  0.2489  1.0000\n  Mn  Mn5       1.0000  0.1944  0.2500  0.2511  1.0000\n  Mn  Mn6       1.0000  0.3056  0.7500  0.7511  1.0000\n  Mn  Mn7       1.0000  0.8056  0.7500  0.7489  1.0000\n  Cl  Cl1       1.0000  0.8359  0.7500  0.4713  1.0000\n  Cl  Cl2       1.0000  0.3359  0.7500  0.0287  1.0000\n  Cl  Cl3       1.0000  0.1641  0.2500  0.5287  1.0000\n  Cl  Cl4       1.0000  0.6641  0.2500  0.9713  1.0000\n  O   O2        1.0000  0.6804  0.2500  0.4769  1.0000\n  O   O3        1.0000  0.1804  0.2500  0.0231  1.0000\n  O   O4        1.0000  0.3196  0.7500  0.5231  1.0000\n  O   O5        1.0000  0.8196  0.7500  0.9769  1.0000\n  O   O6        1.0000  0.9482  0.0599  0.2257  1.0000\n  O   O7        1.0000  0.4482  0.4401  0.2743  1.0000\n  Mn  Mn8       1.0000  0.0518  0.5599  0.7743  1.0000\n  O   O8        1.0000  0.5518  0.9401  0.7257  1.0000\n  O   O9        1.0000  0.0518  0.9401  0.7743  1.0000\n  O   O10       1.0000  0.5518  0.5599  0.7257  1.0000\n  O   O11       1.0000  0.9482  0.4401  0.2257  1.0000\n  O   O12       1.0000  0.4482  0.0599  0.2743  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bf73638e-becd-4e0f-a7b9-46c303c36aa2",
    "mp_id": "mp-1190765",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd3(SiNi3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7288\n_cell_length_b   7.7288\n_cell_length_c   7.7288\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd3(SiNi3)2\n_chemical_formula_sum   'Nd6 Si4 Ni12'\n_cell_volume   355.4032\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.7155  0.7155  0.0000  1\n  Nd  Nd1  1  0.2845  0.0000  0.2845  1\n  Nd  Nd2  1  0.0000  0.2845  0.2845  1\n  Nd  Nd3  1  0.2845  0.2845  0.0000  1\n  Nd  Nd4  1  0.7155  0.0000  0.7155  1\n  Nd  Nd5  1  0.0000  0.7155  0.7155  1\n  Si  Si6  1  0.0000  0.0000  0.5000  1\n  Si  Si7  1  0.0000  0.5000  0.0000  1\n  Si  Si8  1  0.5000  0.0000  0.0000  1\n  Si  Si9  1  0.5000  0.5000  0.5000  1\n  Ni  Ni10  1  0.3307  0.3307  0.6614  1\n  Ni  Ni11  1  0.6693  0.0000  0.3307  1\n  Ni  Ni12  1  0.0000  0.6693  0.3307  1\n  Ni  Ni13  1  0.6693  0.3307  0.0000  1\n  Ni  Ni14  1  0.3307  0.6614  0.3307  1\n  Ni  Ni15  1  0.0000  0.3307  0.6693  1\n  Ni  Ni16  1  0.3307  0.6693  0.0000  1\n  Ni  Ni17  1  0.3307  0.0000  0.6693  1\n  Ni  Ni18  1  0.6614  0.3307  0.3307  1\n  Ni  Ni19  1  0.6693  0.6693  0.3386  1\n  Ni  Ni20  1  0.6693  0.3386  0.6693  1\n  Ni  Ni21  1  0.3386  0.6693  0.6693  1\n",
    "output": "data_image0\n_chemical_formula_structural       NdNiNd4Si4Ni6NdNi5\n_chemical_formula_sum              \"Nd6 Ni12 Si4\"\n_cell_length_a       7.7288\n_cell_length_b       7.7288\n_cell_length_c       7.7288\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.7155  0.7155  0.0000  1.0000\n  Ni  Ni1       1.0000  0.2845  0.0000  0.2845  1.0000\n  Nd  Nd2       1.0000  0.0000  0.2845  0.2845  1.0000\n  Nd  Nd3       1.0000  0.2845  0.2845  0.0000  1.0000\n  Nd  Nd4       1.0000  0.7155  0.0000  0.7155  1.0000\n  Nd  Nd5       1.0000  0.0000  0.7155  0.7155  1.0000\n  Si  Si1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Si  Si2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Si  Si3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Si  Si4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ni  Ni2       1.0000  0.3307  0.3307  0.6614  1.0000\n  Ni  Ni3       1.0000  0.6693  0.0000  0.3307  1.0000\n  Ni  Ni4       1.0000  0.0000  0.6693  0.3307  1.0000\n  Ni  Ni5       1.0000  0.6693  0.3307  0.0000  1.0000\n  Ni  Ni6       1.0000  0.3307  0.6614  0.3307  1.0000\n  Ni  Ni7       1.0000  0.0000  0.3307  0.6693  1.0000\n  Nd  Nd6       1.0000  0.3307  0.6693  0.0000  1.0000\n  Ni  Ni8       1.0000  0.3307  0.0000  0.6693  1.0000\n  Ni  Ni9       1.0000  0.6614  0.3307  0.3307  1.0000\n  Ni  Ni10      1.0000  0.6693  0.6693  0.3386  1.0000\n  Ni  Ni11      1.0000  0.6693  0.3386  0.6693  1.0000\n  Ni  Ni12      1.0000  0.3386  0.6693  0.6693  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "92969895-214d-4854-9301-c6fcfc594095",
    "mp_id": "mp-1190906",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zn(NO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2553\n_cell_length_b   5.4121\n_cell_length_c   8.5036\n_cell_angle_alpha   89.6570\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zn(NO4)2\n_chemical_formula_sum   'Zn2 N4 O16'\n_cell_volume   287.8753\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.5000  0.0000  0.0000  1\n  Zn  Zn1  1  0.0000  0.0000  0.5000  1\n  N  N2  1  0.8401  0.7527  0.8078  1\n  N  N3  1  0.3401  0.2473  0.6922  1\n  N  N4  1  0.1599  0.2473  0.1922  1\n  N  N5  1  0.6599  0.7527  0.3078  1\n  O  O6  1  0.8550  0.9761  0.7516  1\n  O  O7  1  0.3550  0.0239  0.7484  1\n  O  O8  1  0.1450  0.0239  0.2484  1\n  O  O9  1  0.6450  0.9761  0.2516  1\n  O  O10  1  0.9310  0.5824  0.7402  1\n  O  O11  1  0.4310  0.4176  0.7598  1\n  O  O12  1  0.0690  0.4176  0.2598  1\n  O  O13  1  0.5690  0.5824  0.2402  1\n  O  O14  1  0.7305  0.7179  0.9318  1\n  O  O15  1  0.2305  0.2821  0.5682  1\n  O  O16  1  0.2695  0.2821  0.0682  1\n  O  O17  1  0.7695  0.7179  0.4318  1\n  O  O18  1  0.2482  0.7899  0.0385  1\n  O  O19  1  0.7482  0.2101  0.4615  1\n  O  O20  1  0.7518  0.2101  0.9615  1\n  O  O21  1  0.2518  0.7899  0.5385  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn2ON3O10NO5\n_chemical_formula_sum              \"Zn2 O16 N4\"\n_cell_length_a       6.2553\n_cell_length_b       5.4121\n_cell_length_c       8.5036\n_cell_angle_alpha    89.6570\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Zn  Zn2       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.8401  0.7527  0.8078  1.0000\n  N   N1        1.0000  0.3401  0.2473  0.6922  1.0000\n  N   N2        1.0000  0.1599  0.2473  0.1922  1.0000\n  N   N3        1.0000  0.6599  0.7527  0.3078  1.0000\n  O   O2        1.0000  0.8550  0.9761  0.7516  1.0000\n  O   O3        1.0000  0.3550  0.0239  0.7484  1.0000\n  O   O4        1.0000  0.1450  0.0239  0.2484  1.0000\n  O   O5        1.0000  0.6450  0.9761  0.2516  1.0000\n  O   O6        1.0000  0.9310  0.5824  0.7402  1.0000\n  O   O7        1.0000  0.4310  0.4176  0.7598  1.0000\n  O   O8        1.0000  0.0690  0.4176  0.2598  1.0000\n  O   O9        1.0000  0.5690  0.5824  0.2402  1.0000\n  O   O10       1.0000  0.7305  0.7179  0.9318  1.0000\n  O   O11       1.0000  0.2305  0.2821  0.5682  1.0000\n  N   N4        1.0000  0.2695  0.2821  0.0682  1.0000\n  O   O12       1.0000  0.7695  0.7179  0.4318  1.0000\n  O   O13       1.0000  0.2482  0.7899  0.0385  1.0000\n  O   O14       1.0000  0.7482  0.2101  0.4615  1.0000\n  O   O15       1.0000  0.7518  0.2101  0.9615  1.0000\n  O   O16       1.0000  0.2518  0.7899  0.5385  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "db6487fc-672b-478e-8c03-f1c18b53b684",
    "mp_id": "mp-1191263",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeIn2Pd3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6929\n_cell_length_b   9.9513\n_cell_length_c   10.2659\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeIn2Pd3\n_chemical_formula_sum   'Ce4 In8 Pd12'\n_cell_volume   479.4255\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.2500  0.4418  0.7301  1\n  Ce  Ce1  1  0.2500  0.0582  0.2301  1\n  Ce  Ce2  1  0.7500  0.5582  0.2699  1\n  Ce  Ce3  1  0.7500  0.9418  0.7699  1\n  In  In4  1  0.2500  0.8851  0.5168  1\n  In  In5  1  0.2500  0.6149  0.0168  1\n  In  In6  1  0.7500  0.1149  0.4832  1\n  In  In7  1  0.7500  0.3851  0.9832  1\n  In  In8  1  0.2500  0.1595  0.8953  1\n  In  In9  1  0.2500  0.3405  0.3953  1\n  In  In10  1  0.7500  0.8405  0.1047  1\n  In  In11  1  0.7500  0.6595  0.6047  1\n  Pd  Pd12  1  0.2500  0.1466  0.6199  1\n  Pd  Pd13  1  0.2500  0.3534  0.1199  1\n  Pd  Pd14  1  0.7500  0.8534  0.3801  1\n  Pd  Pd15  1  0.7500  0.6466  0.8801  1\n  Pd  Pd16  1  0.2500  0.7371  0.7437  1\n  Pd  Pd17  1  0.2500  0.7629  0.2437  1\n  Pd  Pd18  1  0.7500  0.2629  0.2563  1\n  Pd  Pd19  1  0.7500  0.2371  0.7563  1\n  Pd  Pd20  1  0.2500  0.8952  0.9735  1\n  Pd  Pd21  1  0.2500  0.6048  0.4735  1\n  Pd  Pd22  1  0.7500  0.1048  0.0265  1\n  Pd  Pd23  1  0.7500  0.3952  0.5265  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce4InPdIn6Pd8InPd3\n_chemical_formula_sum              \"Ce4 In8 Pd12\"\n_cell_length_a       4.6929\n_cell_length_b       9.9513\n_cell_length_c       10.2659\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.2500  0.4418  0.7301  1.0000\n  Ce  Ce2       1.0000  0.2500  0.0582  0.2301  1.0000\n  Ce  Ce3       1.0000  0.7500  0.5582  0.2699  1.0000\n  Ce  Ce4       1.0000  0.7500  0.9418  0.7699  1.0000\n  In  In1       1.0000  0.2500  0.8851  0.5168  1.0000\n  Pd  Pd1       1.0000  0.2500  0.6149  0.0168  1.0000\n  In  In2       1.0000  0.7500  0.1149  0.4832  1.0000\n  In  In3       1.0000  0.7500  0.3851  0.9832  1.0000\n  In  In4       1.0000  0.2500  0.1595  0.8953  1.0000\n  In  In5       1.0000  0.2500  0.3405  0.3953  1.0000\n  In  In6       1.0000  0.7500  0.8405  0.1047  1.0000\n  In  In7       1.0000  0.7500  0.6595  0.6047  1.0000\n  Pd  Pd2       1.0000  0.2500  0.1466  0.6199  1.0000\n  Pd  Pd3       1.0000  0.2500  0.3534  0.1199  1.0000\n  Pd  Pd4       1.0000  0.7500  0.8534  0.3801  1.0000\n  Pd  Pd5       1.0000  0.7500  0.6466  0.8801  1.0000\n  Pd  Pd6       1.0000  0.2500  0.7371  0.7437  1.0000\n  Pd  Pd7       1.0000  0.2500  0.7629  0.2437  1.0000\n  Pd  Pd8       1.0000  0.7500  0.2629  0.2563  1.0000\n  Pd  Pd9       1.0000  0.7500  0.2371  0.7563  1.0000\n  In  In8       1.0000  0.2500  0.8952  0.9735  1.0000\n  Pd  Pd10      1.0000  0.2500  0.6048  0.4735  1.0000\n  Pd  Pd11      1.0000  0.7500  0.1048  0.0265  1.0000\n  Pd  Pd12      1.0000  0.7500  0.3952  0.5265  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "911fc35e-1bc8-4764-b07d-528fe4936441",
    "mp_id": "mp-1191575",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2Cr2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0453\n_cell_length_b   8.0453\n_cell_length_c   8.3723\n_cell_angle_alpha   87.0330\n_cell_angle_beta   87.0330\n_cell_angle_gamma   52.2915\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2Cr2O7\n_chemical_formula_sum   'K4 Cr4 O14'\n_cell_volume   428.0171\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.3528  0.3528  0.6888  1\n  K  K1  1  0.6472  0.6472  0.3112  1\n  K  K2  1  0.3505  0.3505  0.2195  1\n  K  K3  1  0.6495  0.6495  0.7805  1\n  Cr  Cr4  1  0.8650  0.8650  0.0071  1\n  Cr  Cr5  1  0.1350  0.1350  0.9929  1\n  Cr  Cr6  1  0.8902  0.8902  0.5814  1\n  Cr  Cr7  1  0.1098  0.1098  0.4186  1\n  O  O8  1  0.0959  0.7207  0.0873  1\n  O  O9  1  0.2793  0.9041  0.9127  1\n  O  O10  1  0.9041  0.2793  0.9127  1\n  O  O11  1  0.7207  0.0959  0.0873  1\n  O  O12  1  0.8928  0.8928  0.7981  1\n  O  O13  1  0.1072  0.1072  0.2019  1\n  O  O14  1  0.1638  0.7372  0.4863  1\n  O  O15  1  0.2628  0.8362  0.5137  1\n  O  O16  1  0.8362  0.2628  0.5137  1\n  O  O17  1  0.7372  0.1638  0.4863  1\n  O  O18  1  0.7511  0.7511  0.0426  1\n  O  O19  1  0.2489  0.2489  0.9574  1\n  O  O20  1  0.7790  0.7790  0.5311  1\n  O  O21  1  0.2210  0.2210  0.4689  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4CrOCr2O4CrO9\n_chemical_formula_sum              \"K4 Cr4 O14\"\n_cell_length_a       8.0453\n_cell_length_b       8.0453\n_cell_length_c       8.3723\n_cell_angle_alpha    87.0330\n_cell_angle_beta     87.0330\n_cell_angle_gamma    52.2915\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.3528  0.3528  0.6888  1.0000\n  K   K2        1.0000  0.6472  0.6472  0.3112  1.0000\n  K   K3        1.0000  0.3505  0.3505  0.2195  1.0000\n  K   K4        1.0000  0.6495  0.6495  0.7805  1.0000\n  Cr  Cr1       1.0000  0.8650  0.8650  0.0071  1.0000\n  O   O1        1.0000  0.1350  0.1350  0.9929  1.0000\n  Cr  Cr2       1.0000  0.8902  0.8902  0.5814  1.0000\n  Cr  Cr3       1.0000  0.1098  0.1098  0.4186  1.0000\n  O   O2        1.0000  0.0959  0.7207  0.0873  1.0000\n  O   O3        1.0000  0.2793  0.9041  0.9127  1.0000\n  O   O4        1.0000  0.9041  0.2793  0.9127  1.0000\n  O   O5        1.0000  0.7207  0.0959  0.0873  1.0000\n  Cr  Cr4       1.0000  0.8928  0.8928  0.7981  1.0000\n  O   O6        1.0000  0.1072  0.1072  0.2019  1.0000\n  O   O7        1.0000  0.1638  0.7372  0.4863  1.0000\n  O   O8        1.0000  0.2628  0.8362  0.5137  1.0000\n  O   O9        1.0000  0.8362  0.2628  0.5137  1.0000\n  O   O10       1.0000  0.7372  0.1638  0.4863  1.0000\n  O   O11       1.0000  0.7511  0.7511  0.0426  1.0000\n  O   O12       1.0000  0.2489  0.2489  0.9574  1.0000\n  O   O13       1.0000  0.7790  0.7790  0.5311  1.0000\n  O   O14       1.0000  0.2210  0.2210  0.4689  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f4077e04-dcf3-443c-9153-161a0fbc2b9c",
    "mp_id": "mp-1191633",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VO2F3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.8414\n_cell_length_b   5.4138\n_cell_length_c   7.3022\n_cell_angle_alpha   73.4270\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VO2F3\n_chemical_formula_sum   'V4 O8 F12'\n_cell_volume   372.8987\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0000  0.0000  0.0000  1\n  V  V1  1  0.5000  0.0000  0.5000  1\n  V  V2  1  0.0000  0.5000  0.5000  1\n  V  V3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.3787  0.7768  0.4457  1\n  O  O5  1  0.8787  0.2232  0.0543  1\n  O  O6  1  0.6213  0.2232  0.5543  1\n  O  O7  1  0.1213  0.7768  0.9457  1\n  O  O8  1  0.6367  0.8450  0.4048  1\n  O  O9  1  0.1367  0.1550  0.0952  1\n  O  O10  1  0.3633  0.1550  0.5952  1\n  O  O11  1  0.8633  0.8450  0.9048  1\n  F  F12  1  0.9685  0.7573  0.2654  1\n  F  F13  1  0.4685  0.2427  0.2346  1\n  F  F14  1  0.0315  0.2427  0.7346  1\n  F  F15  1  0.5315  0.7573  0.7654  1\n  F  F16  1  0.3868  0.7120  0.0748  1\n  F  F17  1  0.8868  0.2880  0.4252  1\n  F  F18  1  0.6132  0.2880  0.9252  1\n  F  F19  1  0.1132  0.7120  0.5748  1\n  F  F20  1  0.6390  0.6215  0.1066  1\n  F  F21  1  0.1390  0.3785  0.3934  1\n  F  F22  1  0.3610  0.3785  0.8934  1\n  F  F23  1  0.8610  0.6215  0.6066  1\n",
    "output": "data_image0\n_chemical_formula_structural       V4OFO6F9OF2\n_chemical_formula_sum              \"V4 O8 F12\"\n_cell_length_a       9.8414\n_cell_length_b       5.4138\n_cell_length_c       7.3022\n_cell_angle_alpha    73.4270\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0000  0.0000  0.0000  1.0000\n  V   V2        1.0000  0.5000  0.0000  0.5000  1.0000\n  V   V3        1.0000  0.0000  0.5000  0.5000  1.0000\n  V   V4        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.3787  0.7768  0.4457  1.0000\n  F   F1        1.0000  0.8787  0.2232  0.0543  1.0000\n  O   O2        1.0000  0.6213  0.2232  0.5543  1.0000\n  O   O3        1.0000  0.1213  0.7768  0.9457  1.0000\n  O   O4        1.0000  0.6367  0.8450  0.4048  1.0000\n  O   O5        1.0000  0.1367  0.1550  0.0952  1.0000\n  O   O6        1.0000  0.3633  0.1550  0.5952  1.0000\n  O   O7        1.0000  0.8633  0.8450  0.9048  1.0000\n  F   F2        1.0000  0.9685  0.7573  0.2654  1.0000\n  F   F3        1.0000  0.4685  0.2427  0.2346  1.0000\n  F   F4        1.0000  0.0315  0.2427  0.7346  1.0000\n  F   F5        1.0000  0.5315  0.7573  0.7654  1.0000\n  F   F6        1.0000  0.3868  0.7120  0.0748  1.0000\n  F   F7        1.0000  0.8868  0.2880  0.4252  1.0000\n  F   F8        1.0000  0.6132  0.2880  0.9252  1.0000\n  F   F9        1.0000  0.1132  0.7120  0.5748  1.0000\n  F   F10       1.0000  0.6390  0.6215  0.1066  1.0000\n  O   O8        1.0000  0.1390  0.3785  0.3934  1.0000\n  F   F11       1.0000  0.3610  0.3785  0.8934  1.0000\n  F   F12       1.0000  0.8610  0.6215  0.6066  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "de359c40-4f83-42f8-9075-8fa7ff4c1034",
    "mp_id": "mp-1191681",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu2Co12P7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.5835\n_cell_length_b   9.1050\n_cell_length_c   9.0870\n_cell_angle_alpha   120.1097\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu2Co12P7\n_chemical_formula_sum   'Eu2 Co12 P7'\n_cell_volume   256.4832\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.0000  0.6665  0.3336  1\n  Eu  Eu1  1  0.5000  0.3336  0.6666  1\n  Co  Co2  1  0.0000  0.3759  0.9437  1\n  Co  Co3  1  0.0000  0.0560  0.4318  1\n  Co  Co4  1  0.0000  0.5680  0.6241  1\n  Co  Co5  1  0.0000  0.8814  0.7294  1\n  Co  Co6  1  0.0000  0.2706  0.1520  1\n  Co  Co7  1  0.0000  0.8479  0.1186  1\n  Co  Co8  1  0.5000  0.9495  0.5678  1\n  Co  Co9  1  0.5000  0.4322  0.3822  1\n  Co  Co10  1  0.5000  0.6178  0.0502  1\n  Co  Co11  1  0.5000  0.1323  0.8959  1\n  Co  Co12  1  0.5000  0.1033  0.2348  1\n  Co  Co13  1  0.5000  0.7652  0.8687  1\n  P  P14  1  0.0000  0.1100  0.7076  1\n  P  P15  1  0.0000  0.2923  0.4024  1\n  P  P16  1  0.0000  0.5977  0.8899  1\n  P  P17  1  0.5000  0.7090  0.6019  1\n  P  P18  1  0.5000  0.3983  0.1070  1\n  P  P19  1  0.5000  0.8930  0.2912  1\n  P  P20  1  0.0000  0.9999  0.0005  1\n",
    "output": "data_image0\n_chemical_formula_structural       Eu2Co4PCo7PCoP5\n_chemical_formula_sum              \"Eu2 Co12 P7\"\n_cell_length_a       3.5835\n_cell_length_b       9.1050\n_cell_length_c       9.0870\n_cell_angle_alpha    120.1097\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.0000  0.6665  0.3336  1.0000\n  Eu  Eu2       1.0000  0.5000  0.3336  0.6666  1.0000\n  Co  Co1       1.0000  0.0000  0.3759  0.9437  1.0000\n  Co  Co2       1.0000  0.0000  0.0560  0.4318  1.0000\n  Co  Co3       1.0000  0.0000  0.5680  0.6241  1.0000\n  Co  Co4       1.0000  0.0000  0.8814  0.7294  1.0000\n  P   P1        1.0000  0.0000  0.2706  0.1520  1.0000\n  Co  Co5       1.0000  0.0000  0.8479  0.1186  1.0000\n  Co  Co6       1.0000  0.5000  0.9495  0.5678  1.0000\n  Co  Co7       1.0000  0.5000  0.4322  0.3822  1.0000\n  Co  Co8       1.0000  0.5000  0.6178  0.0502  1.0000\n  Co  Co9       1.0000  0.5000  0.1323  0.8959  1.0000\n  Co  Co10      1.0000  0.5000  0.1033  0.2348  1.0000\n  Co  Co11      1.0000  0.5000  0.7652  0.8687  1.0000\n  P   P2        1.0000  0.0000  0.1100  0.7076  1.0000\n  Co  Co12      1.0000  0.0000  0.2923  0.4024  1.0000\n  P   P3        1.0000  0.0000  0.5977  0.8899  1.0000\n  P   P4        1.0000  0.5000  0.7090  0.6019  1.0000\n  P   P5        1.0000  0.5000  0.3983  0.1070  1.0000\n  P   P6        1.0000  0.5000  0.8930  0.2912  1.0000\n  P   P7        1.0000  0.0000  0.9999  0.0005  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5b73cc5a-de58-4dc5-9743-15acfe979c85",
    "mp_id": "mp-1192077",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaC2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5594\n_cell_length_b   7.7604\n_cell_length_c   9.7849\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaC2\n_chemical_formula_sum   'Ba8 C16'\n_cell_volume   422.1516\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.0043  0.3201  1\n  Ba  Ba1  1  0.2500  0.5043  0.1799  1\n  Ba  Ba2  1  0.7500  0.9957  0.6800  1\n  Ba  Ba3  1  0.7500  0.4957  0.8200  1\n  Ba  Ba4  1  0.2500  0.8548  0.9025  1\n  Ba  Ba5  1  0.2500  0.3548  0.5975  1\n  Ba  Ba6  1  0.7500  0.1452  0.0975  1\n  Ba  Ba7  1  0.7500  0.6452  0.4025  1\n  C  C8  1  0.2500  0.3726  0.9085  1\n  C  C9  1  0.2500  0.8726  0.5915  1\n  C  C10  1  0.7500  0.6274  0.0915  1\n  C  C11  1  0.7500  0.1274  0.4085  1\n  C  C12  1  0.2500  0.2105  0.0028  1\n  C  C13  1  0.2500  0.7105  0.4972  1\n  C  C14  1  0.7500  0.7895  0.9972  1\n  C  C15  1  0.7500  0.2895  0.5028  1\n  C  C16  1  0.1087  0.2076  0.8644  1\n  C  C17  1  0.3913  0.7076  0.6356  1\n  C  C18  1  0.6087  0.7924  0.1356  1\n  C  C19  1  0.8913  0.2924  0.3644  1\n  C  C20  1  0.8913  0.7924  0.1356  1\n  C  C21  1  0.6087  0.2924  0.3644  1\n  C  C22  1  0.3913  0.2076  0.8644  1\n  C  C23  1  0.1087  0.7076  0.6356  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3CBa4CBaC14\n_chemical_formula_sum              \"Ba8 C16\"\n_cell_length_a       5.5594\n_cell_length_b       7.7604\n_cell_length_c       9.7849\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2500  0.0043  0.3201  1.0000\n  Ba  Ba2       1.0000  0.2500  0.5043  0.1799  1.0000\n  Ba  Ba3       1.0000  0.7500  0.9957  0.6800  1.0000\n  C   C1        1.0000  0.7500  0.4957  0.8200  1.0000\n  Ba  Ba4       1.0000  0.2500  0.8548  0.9025  1.0000\n  Ba  Ba5       1.0000  0.2500  0.3548  0.5975  1.0000\n  Ba  Ba6       1.0000  0.7500  0.1452  0.0975  1.0000\n  Ba  Ba7       1.0000  0.7500  0.6452  0.4025  1.0000\n  C   C2        1.0000  0.2500  0.3726  0.9085  1.0000\n  Ba  Ba8       1.0000  0.2500  0.8726  0.5915  1.0000\n  C   C3        1.0000  0.7500  0.6274  0.0915  1.0000\n  C   C4        1.0000  0.7500  0.1274  0.4085  1.0000\n  C   C5        1.0000  0.2500  0.2105  0.0028  1.0000\n  C   C6        1.0000  0.2500  0.7105  0.4972  1.0000\n  C   C7        1.0000  0.7500  0.7895  0.9972  1.0000\n  C   C8        1.0000  0.7500  0.2895  0.5028  1.0000\n  C   C9        1.0000  0.1087  0.2076  0.8644  1.0000\n  C   C10       1.0000  0.3913  0.7076  0.6356  1.0000\n  C   C11       1.0000  0.6087  0.7924  0.1356  1.0000\n  C   C12       1.0000  0.8913  0.2924  0.3644  1.0000\n  C   C13       1.0000  0.8913  0.7924  0.1356  1.0000\n  C   C14       1.0000  0.6087  0.2924  0.3644  1.0000\n  C   C15       1.0000  0.3913  0.2076  0.8644  1.0000\n  C   C16       1.0000  0.1087  0.7076  0.6356  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "668e1977-5091-47de-86d6-1693116cd4a5",
    "mp_id": "mp-1192111",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiEr(WO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8890\n_cell_length_b   5.0884\n_cell_length_c   10.9575\n_cell_angle_alpha   66.4704\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiEr(WO4)2\n_chemical_formula_sum   'Li2 Er2 W4 O16'\n_cell_volume   301.0463\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2471  0.5000  0.7500  1\n  Li  Li1  1  0.7529  0.5000  0.2500  1\n  Er  Er2  1  0.6852  0.0000  0.7500  1\n  Er  Er3  1  0.3148  0.0000  0.2500  1\n  W  W4  1  0.1768  0.2356  0.5139  1\n  W  W5  1  0.8232  0.7644  0.4861  1\n  W  W6  1  0.1768  0.7644  0.9861  1\n  W  W7  1  0.8232  0.2356  0.0139  1\n  O  O8  1  0.6276  0.7890  0.6099  1\n  O  O9  1  0.3724  0.2110  0.3901  1\n  O  O10  1  0.6276  0.2110  0.8901  1\n  O  O11  1  0.3724  0.7890  0.1099  1\n  O  O12  1  0.3726  0.2704  0.6360  1\n  O  O13  1  0.6274  0.7296  0.3640  1\n  O  O14  1  0.3726  0.7296  0.8640  1\n  O  O15  1  0.6274  0.2704  0.1360  1\n  O  O16  1  0.0848  0.8500  0.6123  1\n  O  O17  1  0.9152  0.1500  0.3877  1\n  O  O18  1  0.0848  0.1500  0.8877  1\n  O  O19  1  0.9152  0.8500  0.1123  1\n  O  O20  1  0.8900  0.3502  0.5976  1\n  O  O21  1  0.1100  0.6498  0.4024  1\n  O  O22  1  0.8900  0.6498  0.9024  1\n  O  O23  1  0.1100  0.3502  0.0976  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Er2W3OWO15\n_chemical_formula_sum              \"Li2 Er2 W4 O16\"\n_cell_length_a       5.8890\n_cell_length_b       5.0884\n_cell_length_c       10.9575\n_cell_angle_alpha    66.4704\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2471  0.5000  0.7500  1.0000\n  Li  Li2       1.0000  0.7529  0.5000  0.2500  1.0000\n  Er  Er1       1.0000  0.6852  0.0000  0.7500  1.0000\n  Er  Er2       1.0000  0.3148  0.0000  0.2500  1.0000\n  W   W1        1.0000  0.1768  0.2356  0.5139  1.0000\n  W   W2        1.0000  0.8232  0.7644  0.4861  1.0000\n  W   W3        1.0000  0.1768  0.7644  0.9861  1.0000\n  O   O1        1.0000  0.8232  0.2356  0.0139  1.0000\n  W   W4        1.0000  0.6276  0.7890  0.6099  1.0000\n  O   O2        1.0000  0.3724  0.2110  0.3901  1.0000\n  O   O3        1.0000  0.6276  0.2110  0.8901  1.0000\n  O   O4        1.0000  0.3724  0.7890  0.1099  1.0000\n  O   O5        1.0000  0.3726  0.2704  0.6360  1.0000\n  O   O6        1.0000  0.6274  0.7296  0.3640  1.0000\n  O   O7        1.0000  0.3726  0.7296  0.8640  1.0000\n  O   O8        1.0000  0.6274  0.2704  0.1360  1.0000\n  O   O9        1.0000  0.0848  0.8500  0.6123  1.0000\n  O   O10       1.0000  0.9152  0.1500  0.3877  1.0000\n  O   O11       1.0000  0.0848  0.1500  0.8877  1.0000\n  O   O12       1.0000  0.9152  0.8500  0.1123  1.0000\n  O   O13       1.0000  0.8900  0.3502  0.5976  1.0000\n  O   O14       1.0000  0.1100  0.6498  0.4024  1.0000\n  O   O15       1.0000  0.8900  0.6498  0.9024  1.0000\n  O   O16       1.0000  0.1100  0.3502  0.0976  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9cfe558e-08da-450d-8753-9eee77320d02",
    "mp_id": "mp-1192527",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba4Li2(CdP2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2856\n_cell_length_b   10.2856\n_cell_length_c   16.9674\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   154.6315\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba4Li2(CdP2)3\n_chemical_formula_sum   'Ba8 Li4 Cd6 P12'\n_cell_volume   769.0647\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.9838  0.0162  0.3777  1\n  Ba  Ba1  1  0.0162  0.9838  0.6223  1\n  Ba  Ba2  1  0.9838  0.0162  0.1223  1\n  Ba  Ba3  1  0.0162  0.9838  0.8777  1\n  Ba  Ba4  1  0.8284  0.1716  0.9316  1\n  Ba  Ba5  1  0.1716  0.8284  0.0684  1\n  Ba  Ba6  1  0.8284  0.1716  0.5684  1\n  Ba  Ba7  1  0.1716  0.8284  0.4316  1\n  Li  Li8  1  0.8492  0.1508  0.2500  1\n  Li  Li9  1  0.1508  0.8492  0.7500  1\n  Li  Li10  1  0.5630  0.4370  0.2500  1\n  Li  Li11  1  0.4370  0.5630  0.7500  1\n  Cd  Cd12  1  0.3495  0.6505  0.3743  1\n  Cd  Cd13  1  0.6505  0.3495  0.6257  1\n  Cd  Cd14  1  0.3495  0.6505  0.1257  1\n  Cd  Cd15  1  0.6505  0.3495  0.8743  1\n  Cd  Cd16  1  0.7039  0.2961  0.2500  1\n  Cd  Cd17  1  0.2961  0.7039  0.7500  1\n  P  P18  1  0.7805  0.2195  0.3815  1\n  P  P19  1  0.2195  0.7805  0.6185  1\n  P  P20  1  0.7805  0.2195  0.1185  1\n  P  P21  1  0.2195  0.7805  0.8815  1\n  P  P22  1  0.5558  0.4442  0.4888  1\n  P  P23  1  0.4442  0.5558  0.5112  1\n  P  P24  1  0.5558  0.4442  0.0112  1\n  P  P25  1  0.4442  0.5558  0.9888  1\n  P  P26  1  0.4303  0.5697  0.2500  1\n  P  P27  1  0.5697  0.4303  0.7500  1\n  P  P28  1  0.1203  0.8797  0.2500  1\n  P  P29  1  0.8797  0.1203  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaPBa6Li4Cd6P3BaP8\n_chemical_formula_sum              \"Ba8 P12 Li4 Cd6\"\n_cell_length_a       10.2856\n_cell_length_b       10.2856\n_cell_length_c       16.9674\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    154.6315\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.9838  0.0162  0.3777  1.0000\n  P   P1        1.0000  0.0162  0.9838  0.6223  1.0000\n  Ba  Ba2       1.0000  0.9838  0.0162  0.1223  1.0000\n  Ba  Ba3       1.0000  0.0162  0.9838  0.8777  1.0000\n  Ba  Ba4       1.0000  0.8284  0.1716  0.9316  1.0000\n  Ba  Ba5       1.0000  0.1716  0.8284  0.0684  1.0000\n  Ba  Ba6       1.0000  0.8284  0.1716  0.5684  1.0000\n  Ba  Ba7       1.0000  0.1716  0.8284  0.4316  1.0000\n  Li  Li1       1.0000  0.8492  0.1508  0.2500  1.0000\n  Li  Li2       1.0000  0.1508  0.8492  0.7500  1.0000\n  Li  Li3       1.0000  0.5630  0.4370  0.2500  1.0000\n  Li  Li4       1.0000  0.4370  0.5630  0.7500  1.0000\n  Cd  Cd1       1.0000  0.3495  0.6505  0.3743  1.0000\n  Cd  Cd2       1.0000  0.6505  0.3495  0.6257  1.0000\n  Cd  Cd3       1.0000  0.3495  0.6505  0.1257  1.0000\n  Cd  Cd4       1.0000  0.6505  0.3495  0.8743  1.0000\n  Cd  Cd5       1.0000  0.7039  0.2961  0.2500  1.0000\n  Cd  Cd6       1.0000  0.2961  0.7039  0.7500  1.0000\n  P   P2        1.0000  0.7805  0.2195  0.3815  1.0000\n  P   P3        1.0000  0.2195  0.7805  0.6185  1.0000\n  P   P4        1.0000  0.7805  0.2195  0.1185  1.0000\n  Ba  Ba8       1.0000  0.2195  0.7805  0.8815  1.0000\n  P   P5        1.0000  0.5558  0.4442  0.4888  1.0000\n  P   P6        1.0000  0.4442  0.5558  0.5112  1.0000\n  P   P7        1.0000  0.5558  0.4442  0.0112  1.0000\n  P   P8        1.0000  0.4442  0.5558  0.9888  1.0000\n  P   P9        1.0000  0.4303  0.5697  0.2500  1.0000\n  P   P10       1.0000  0.5697  0.4303  0.7500  1.0000\n  P   P11       1.0000  0.1203  0.8797  0.2500  1.0000\n  P   P12       1.0000  0.8797  0.1203  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8df07dd9-53bd-4158-a7dd-9b1c7b926dc7",
    "mp_id": "mp-1192550",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbBaPS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8325\n_cell_length_b   10.2143\n_cell_length_c   11.7277\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbBaPS4\n_chemical_formula_sum   'Rb4 Ba4 P4 S16'\n_cell_volume   818.4648\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.2500  0.8458  0.9157  1\n  Rb  Rb1  1  0.2500  0.6542  0.4157  1\n  Rb  Rb2  1  0.7500  0.1542  0.0843  1\n  Rb  Rb3  1  0.7500  0.3458  0.5843  1\n  Ba  Ba4  1  0.2500  0.3944  0.8510  1\n  Ba  Ba5  1  0.2500  0.1056  0.3510  1\n  Ba  Ba6  1  0.7500  0.6056  0.1490  1\n  Ba  Ba7  1  0.7500  0.8944  0.6490  1\n  P  P8  1  0.2500  0.1074  0.6841  1\n  P  P9  1  0.2500  0.3926  0.1841  1\n  P  P10  1  0.7500  0.8926  0.3159  1\n  P  P11  1  0.7500  0.6074  0.8159  1\n  S  S12  1  0.4945  0.1154  0.7841  1\n  S  S13  1  0.0055  0.3846  0.2841  1\n  S  S14  1  0.9945  0.8846  0.2159  1\n  S  S15  1  0.5055  0.6154  0.7159  1\n  S  S16  1  0.5055  0.8846  0.2159  1\n  S  S17  1  0.9945  0.6154  0.7159  1\n  S  S18  1  0.0055  0.1154  0.7841  1\n  S  S19  1  0.4945  0.3846  0.2841  1\n  S  S20  1  0.2500  0.2714  0.5815  1\n  S  S21  1  0.2500  0.2286  0.0815  1\n  S  S22  1  0.7500  0.7286  0.4185  1\n  S  S23  1  0.7500  0.7714  0.9185  1\n  S  S24  1  0.2500  0.9363  0.5902  1\n  S  S25  1  0.2500  0.5637  0.0902  1\n  S  S26  1  0.7500  0.0637  0.4098  1\n  S  S27  1  0.7500  0.4363  0.9098  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb4Ba4P2SPS11PS4\n_chemical_formula_sum              \"Rb4 Ba4 P4 S16\"\n_cell_length_a       6.8325\n_cell_length_b       10.2143\n_cell_length_c       11.7277\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.2500  0.8458  0.9157  1.0000\n  Rb  Rb2       1.0000  0.2500  0.6542  0.4157  1.0000\n  Rb  Rb3       1.0000  0.7500  0.1542  0.0843  1.0000\n  Rb  Rb4       1.0000  0.7500  0.3458  0.5843  1.0000\n  Ba  Ba1       1.0000  0.2500  0.3944  0.8510  1.0000\n  Ba  Ba2       1.0000  0.2500  0.1056  0.3510  1.0000\n  Ba  Ba3       1.0000  0.7500  0.6056  0.1490  1.0000\n  Ba  Ba4       1.0000  0.7500  0.8944  0.6490  1.0000\n  P   P1        1.0000  0.2500  0.1074  0.6841  1.0000\n  P   P2        1.0000  0.2500  0.3926  0.1841  1.0000\n  S   S1        1.0000  0.7500  0.8926  0.3159  1.0000\n  P   P3        1.0000  0.7500  0.6074  0.8159  1.0000\n  S   S2        1.0000  0.4945  0.1154  0.7841  1.0000\n  S   S3        1.0000  0.0055  0.3846  0.2841  1.0000\n  S   S4        1.0000  0.9945  0.8846  0.2159  1.0000\n  S   S5        1.0000  0.5055  0.6154  0.7159  1.0000\n  S   S6        1.0000  0.5055  0.8846  0.2159  1.0000\n  S   S7        1.0000  0.9945  0.6154  0.7159  1.0000\n  S   S8        1.0000  0.0055  0.1154  0.7841  1.0000\n  S   S9        1.0000  0.4945  0.3846  0.2841  1.0000\n  S   S10       1.0000  0.2500  0.2714  0.5815  1.0000\n  S   S11       1.0000  0.2500  0.2286  0.0815  1.0000\n  S   S12       1.0000  0.7500  0.7286  0.4185  1.0000\n  P   P4        1.0000  0.7500  0.7714  0.9185  1.0000\n  S   S13       1.0000  0.2500  0.9363  0.5902  1.0000\n  S   S14       1.0000  0.2500  0.5637  0.0902  1.0000\n  S   S15       1.0000  0.7500  0.0637  0.4098  1.0000\n  S   S16       1.0000  0.7500  0.4363  0.9098  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a1852bf9-4cc4-4c6e-995e-baafe05e2480",
    "mp_id": "mp-1192556",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbInTe3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8733\n_cell_length_b   7.7531\n_cell_length_c   11.3423\n_cell_angle_alpha   100.5979\n_cell_angle_beta   89.4150\n_cell_angle_gamma   109.5094\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbInTe3O8\n_chemical_formula_sum   'Rb2 In2 Te6 O16'\n_cell_volume   477.8020\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.8391  0.1193  0.1669  1\n  Rb  Rb1  1  0.1609  0.8807  0.8331  1\n  In  In2  1  0.5000  0.5000  0.0000  1\n  In  In3  1  0.0000  0.5000  0.5000  1\n  Te  Te4  1  0.2222  0.9921  0.4188  1\n  Te  Te5  1  0.7778  0.0079  0.5812  1\n  Te  Te6  1  0.0698  0.6772  0.1496  1\n  Te  Te7  1  0.9302  0.3228  0.8504  1\n  Te  Te8  1  0.5165  0.5260  0.3353  1\n  Te  Te9  1  0.4835  0.4740  0.6647  1\n  O  O10  1  0.1861  0.7389  0.4167  1\n  O  O11  1  0.8139  0.2611  0.5833  1\n  O  O12  1  0.2400  0.9326  0.2301  1\n  O  O13  1  0.7600  0.0674  0.7699  1\n  O  O14  1  0.8876  0.9692  0.3961  1\n  O  O15  1  0.1124  0.0308  0.6039  1\n  O  O16  1  0.2704  0.6790  0.0171  1\n  O  O17  1  0.7296  0.3210  0.9829  1\n  O  O18  1  0.8227  0.7359  0.0770  1\n  O  O19  1  0.1773  0.2641  0.9230  1\n  O  O20  1  0.3901  0.4263  0.1742  1\n  O  O21  1  0.6099  0.5737  0.8258  1\n  O  O22  1  0.2487  0.3700  0.4073  1\n  O  O23  1  0.7513  0.6300  0.5927  1\n  O  O24  1  0.7302  0.3906  0.3452  1\n  O  O25  1  0.2698  0.6094  0.6548  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2In2Te2OTe3OTeO14\n_chemical_formula_sum              \"Rb2 In2 Te6 O16\"\n_cell_length_a       5.8733\n_cell_length_b       7.7531\n_cell_length_c       11.3423\n_cell_angle_alpha    100.5979\n_cell_angle_beta     89.4150\n_cell_angle_gamma    109.5094\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.8391  0.1193  0.1669  1.0000\n  Rb  Rb2       1.0000  0.1609  0.8807  0.8331  1.0000\n  In  In1       1.0000  0.5000  0.5000  0.0000  1.0000\n  In  In2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Te  Te1       1.0000  0.2222  0.9921  0.4188  1.0000\n  Te  Te2       1.0000  0.7778  0.0079  0.5812  1.0000\n  O   O1        1.0000  0.0698  0.6772  0.1496  1.0000\n  Te  Te3       1.0000  0.9302  0.3228  0.8504  1.0000\n  Te  Te4       1.0000  0.5165  0.5260  0.3353  1.0000\n  Te  Te5       1.0000  0.4835  0.4740  0.6647  1.0000\n  O   O2        1.0000  0.1861  0.7389  0.4167  1.0000\n  Te  Te6       1.0000  0.8139  0.2611  0.5833  1.0000\n  O   O3        1.0000  0.2400  0.9326  0.2301  1.0000\n  O   O4        1.0000  0.7600  0.0674  0.7699  1.0000\n  O   O5        1.0000  0.8876  0.9692  0.3961  1.0000\n  O   O6        1.0000  0.1124  0.0308  0.6039  1.0000\n  O   O7        1.0000  0.2704  0.6790  0.0171  1.0000\n  O   O8        1.0000  0.7296  0.3210  0.9829  1.0000\n  O   O9        1.0000  0.8227  0.7359  0.0770  1.0000\n  O   O10       1.0000  0.1773  0.2641  0.9230  1.0000\n  O   O11       1.0000  0.3901  0.4263  0.1742  1.0000\n  O   O12       1.0000  0.6099  0.5737  0.8258  1.0000\n  O   O13       1.0000  0.2487  0.3700  0.4073  1.0000\n  O   O14       1.0000  0.7513  0.6300  0.5927  1.0000\n  O   O15       1.0000  0.7302  0.3906  0.3452  1.0000\n  O   O16       1.0000  0.2698  0.6094  0.6548  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4a1ff4a6-722c-4ac4-93ff-9ed5da46de1e",
    "mp_id": "mp-1192588",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_PWO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4354\n_cell_length_b   6.6641\n_cell_length_c   11.4608\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   PWO5\n_chemical_formula_sum   'P4 W4 O20'\n_cell_volume   415.1332\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  P  P0  1  0.7500  0.9722  0.1558  1\n  P  P1  1  0.2500  0.0278  0.8442  1\n  P  P2  1  0.7500  0.5278  0.6558  1\n  P  P3  1  0.2500  0.4722  0.3442  1\n  W  W4  1  0.7500  0.3280  0.9383  1\n  W  W5  1  0.2500  0.6720  0.0617  1\n  W  W6  1  0.7500  0.1720  0.4383  1\n  W  W7  1  0.2500  0.8280  0.5617  1\n  O  O8  1  0.7500  0.3291  0.5886  1\n  O  O9  1  0.2500  0.6709  0.4114  1\n  O  O10  1  0.7500  0.1709  0.0886  1\n  O  O11  1  0.2500  0.8291  0.9114  1\n  O  O12  1  0.7500  0.0087  0.2877  1\n  O  O13  1  0.2500  0.9913  0.7123  1\n  O  O14  1  0.7500  0.4913  0.7877  1\n  O  O15  1  0.2500  0.5087  0.2123  1\n  O  O16  1  0.4828  0.3491  0.3735  1\n  O  O17  1  0.9828  0.6509  0.6265  1\n  O  O18  1  0.5172  0.6509  0.6265  1\n  O  O19  1  0.0172  0.3491  0.3735  1\n  O  O20  1  0.5172  0.8491  0.1265  1\n  O  O21  1  0.0172  0.1509  0.8735  1\n  O  O22  1  0.4828  0.1509  0.8735  1\n  O  O23  1  0.9828  0.8491  0.1265  1\n  O  O24  1  0.5000  0.0000  0.5000  1\n  O  O25  1  0.0000  0.0000  0.5000  1\n  O  O26  1  0.5000  0.5000  0.0000  1\n  O  O27  1  0.0000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       POP2W4O10PO9\n_chemical_formula_sum              \"P4 O20 W4\"\n_cell_length_a       5.4354\n_cell_length_b       6.6641\n_cell_length_c       11.4608\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.7500  0.9722  0.1558  1.0000\n  O   O1        1.0000  0.2500  0.0278  0.8442  1.0000\n  P   P2        1.0000  0.7500  0.5278  0.6558  1.0000\n  P   P3        1.0000  0.2500  0.4722  0.3442  1.0000\n  W   W1        1.0000  0.7500  0.3280  0.9383  1.0000\n  W   W2        1.0000  0.2500  0.6720  0.0617  1.0000\n  W   W3        1.0000  0.7500  0.1720  0.4383  1.0000\n  W   W4        1.0000  0.2500  0.8280  0.5617  1.0000\n  O   O2        1.0000  0.7500  0.3291  0.5886  1.0000\n  O   O3        1.0000  0.2500  0.6709  0.4114  1.0000\n  O   O4        1.0000  0.7500  0.1709  0.0886  1.0000\n  O   O5        1.0000  0.2500  0.8291  0.9114  1.0000\n  O   O6        1.0000  0.7500  0.0087  0.2877  1.0000\n  O   O7        1.0000  0.2500  0.9913  0.7123  1.0000\n  O   O8        1.0000  0.7500  0.4913  0.7877  1.0000\n  O   O9        1.0000  0.2500  0.5087  0.2123  1.0000\n  O   O10       1.0000  0.4828  0.3491  0.3735  1.0000\n  O   O11       1.0000  0.9828  0.6509  0.6265  1.0000\n  P   P4        1.0000  0.5172  0.6509  0.6265  1.0000\n  O   O12       1.0000  0.0172  0.3491  0.3735  1.0000\n  O   O13       1.0000  0.5172  0.8491  0.1265  1.0000\n  O   O14       1.0000  0.0172  0.1509  0.8735  1.0000\n  O   O15       1.0000  0.4828  0.1509  0.8735  1.0000\n  O   O16       1.0000  0.9828  0.8491  0.1265  1.0000\n  O   O17       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O18       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O19       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O20       1.0000  0.0000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7d078b5f-fad9-4aa5-a78b-503c73b176b9",
    "mp_id": "mp-1192755",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd3GaFeSe7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5144\n_cell_length_b   10.4087\n_cell_length_c   10.3643\n_cell_angle_alpha   120.1995\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd3GaFeSe7\n_chemical_formula_sum   'Nd6 Ga2 Fe2 Se14'\n_cell_volume   607.3893\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.8211  0.1587  0.7822  1\n  Nd  Nd1  1  0.8193  0.2175  0.3737  1\n  Nd  Nd2  1  0.8212  0.6245  0.8442  1\n  Nd  Nd3  1  0.3211  0.8413  0.2178  1\n  Nd  Nd4  1  0.3193  0.7825  0.6263  1\n  Nd  Nd5  1  0.3212  0.3755  0.1558  1\n  Ga  Ga6  1  0.9003  0.6667  0.3338  1\n  Ga  Ga7  1  0.4003  0.3333  0.6662  1\n  Fe  Fe8  1  0.5092  0.9976  0.9952  1\n  Fe  Fe9  1  0.0092  0.0024  0.0048  1\n  Se  Se10  1  0.5496  0.4347  0.9141  1\n  Se  Se11  1  0.5491  0.0869  0.5209  1\n  Se  Se12  1  0.5499  0.4790  0.5658  1\n  Se  Se13  1  0.0496  0.5653  0.0859  1\n  Se  Se14  1  0.0491  0.9131  0.4791  1\n  Se  Se15  1  0.0499  0.5210  0.4342  1\n  Se  Se16  1  0.5309  0.6665  0.3337  1\n  Se  Se17  1  0.0309  0.3335  0.6663  1\n  Se  Se18  1  0.7433  0.8655  0.7642  1\n  Se  Se19  1  0.7444  0.2360  0.1011  1\n  Se  Se20  1  0.7426  0.8997  0.1351  1\n  Se  Se21  1  0.2433  0.1345  0.2358  1\n  Se  Se22  1  0.2444  0.7640  0.8989  1\n  Se  Se23  1  0.2426  0.1003  0.8649  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd5SeGa2Fe2Se2NdSe11\n_chemical_formula_sum              \"Nd6 Se14 Ga2 Fe2\"\n_cell_length_a       6.5144\n_cell_length_b       10.4087\n_cell_length_c       10.3643\n_cell_angle_alpha    120.1995\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.8211  0.1587  0.7822  1.0000\n  Nd  Nd2       1.0000  0.8193  0.2175  0.3737  1.0000\n  Nd  Nd3       1.0000  0.8212  0.6245  0.8442  1.0000\n  Nd  Nd4       1.0000  0.3211  0.8413  0.2178  1.0000\n  Nd  Nd5       1.0000  0.3193  0.7825  0.6263  1.0000\n  Se  Se1       1.0000  0.3212  0.3755  0.1558  1.0000\n  Ga  Ga1       1.0000  0.9003  0.6667  0.3338  1.0000\n  Ga  Ga2       1.0000  0.4003  0.3333  0.6662  1.0000\n  Fe  Fe1       1.0000  0.5092  0.9976  0.9952  1.0000\n  Fe  Fe2       1.0000  0.0092  0.0024  0.0048  1.0000\n  Se  Se2       1.0000  0.5496  0.4347  0.9141  1.0000\n  Se  Se3       1.0000  0.5491  0.0869  0.5209  1.0000\n  Nd  Nd6       1.0000  0.5499  0.4790  0.5658  1.0000\n  Se  Se4       1.0000  0.0496  0.5653  0.0859  1.0000\n  Se  Se5       1.0000  0.0491  0.9131  0.4791  1.0000\n  Se  Se6       1.0000  0.0499  0.5210  0.4342  1.0000\n  Se  Se7       1.0000  0.5309  0.6665  0.3337  1.0000\n  Se  Se8       1.0000  0.0309  0.3335  0.6663  1.0000\n  Se  Se9       1.0000  0.7433  0.8655  0.7642  1.0000\n  Se  Se10      1.0000  0.7444  0.2360  0.1011  1.0000\n  Se  Se11      1.0000  0.7426  0.8997  0.1351  1.0000\n  Se  Se12      1.0000  0.2433  0.1345  0.2358  1.0000\n  Se  Se13      1.0000  0.2444  0.7640  0.8989  1.0000\n  Se  Se14      1.0000  0.2426  0.1003  0.8649  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2b8efdd7-cefa-41fc-a876-4101dc250945",
    "mp_id": "mp-1192984",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al5Re24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3376\n_cell_length_b   8.3376\n_cell_length_c   8.3376\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al5Re24\n_chemical_formula_sum   'Al5 Re24'\n_cell_volume   446.1719\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.0000  0.0000  0.0000  1\n  Al  Al1  1  0.6410  0.0000  0.0000  1\n  Al  Al2  1  0.0000  0.6410  0.0000  1\n  Al  Al3  1  0.0000  0.0000  0.6410  1\n  Al  Al4  1  0.3590  0.3590  0.3590  1\n  Re  Re5  1  0.3985  0.6804  0.0000  1\n  Re  Re6  1  0.7182  0.3196  0.3196  1\n  Re  Re7  1  0.3985  0.0000  0.6804  1\n  Re  Re8  1  0.6804  0.3985  0.0000  1\n  Re  Re9  1  0.0000  0.3985  0.6804  1\n  Re  Re10  1  0.3196  0.7182  0.3196  1\n  Re  Re11  1  0.3196  0.3196  0.7182  1\n  Re  Re12  1  0.0000  0.6804  0.3985  1\n  Re  Re13  1  0.6804  0.0000  0.3985  1\n  Re  Re14  1  0.6015  0.6015  0.2818  1\n  Re  Re15  1  0.2818  0.6015  0.6015  1\n  Re  Re16  1  0.6015  0.2818  0.6015  1\n  Re  Re17  1  0.3749  0.1916  0.0000  1\n  Re  Re18  1  0.1833  0.8084  0.8084  1\n  Re  Re19  1  0.3749  0.0000  0.1916  1\n  Re  Re20  1  0.1916  0.3749  0.0000  1\n  Re  Re21  1  0.0000  0.3749  0.1916  1\n  Re  Re22  1  0.8084  0.1833  0.8084  1\n  Re  Re23  1  0.8084  0.8084  0.1833  1\n  Re  Re24  1  0.0000  0.1916  0.3749  1\n  Re  Re25  1  0.1916  0.0000  0.3749  1\n  Re  Re26  1  0.6251  0.6251  0.8167  1\n  Re  Re27  1  0.8167  0.6251  0.6251  1\n  Re  Re28  1  0.6251  0.8167  0.6251  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al3ReAlRe6AlRe17\n_chemical_formula_sum              \"Al5 Re24\"\n_cell_length_a       8.3376\n_cell_length_b       8.3376\n_cell_length_c       8.3376\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al2       1.0000  0.6410  0.0000  0.0000  1.0000\n  Al  Al3       1.0000  0.0000  0.6410  0.0000  1.0000\n  Re  Re1       1.0000  0.0000  0.0000  0.6410  1.0000\n  Al  Al4       1.0000  0.3590  0.3590  0.3590  1.0000\n  Re  Re2       1.0000  0.3985  0.6804  0.0000  1.0000\n  Re  Re3       1.0000  0.7182  0.3196  0.3196  1.0000\n  Re  Re4       1.0000  0.3985  0.0000  0.6804  1.0000\n  Re  Re5       1.0000  0.6804  0.3985  0.0000  1.0000\n  Re  Re6       1.0000  0.0000  0.3985  0.6804  1.0000\n  Re  Re7       1.0000  0.3196  0.7182  0.3196  1.0000\n  Al  Al5       1.0000  0.3196  0.3196  0.7182  1.0000\n  Re  Re8       1.0000  0.0000  0.6804  0.3985  1.0000\n  Re  Re9       1.0000  0.6804  0.0000  0.3985  1.0000\n  Re  Re10      1.0000  0.6015  0.6015  0.2818  1.0000\n  Re  Re11      1.0000  0.2818  0.6015  0.6015  1.0000\n  Re  Re12      1.0000  0.6015  0.2818  0.6015  1.0000\n  Re  Re13      1.0000  0.3749  0.1916  0.0000  1.0000\n  Re  Re14      1.0000  0.1833  0.8084  0.8084  1.0000\n  Re  Re15      1.0000  0.3749  0.0000  0.1916  1.0000\n  Re  Re16      1.0000  0.1916  0.3749  0.0000  1.0000\n  Re  Re17      1.0000  0.0000  0.3749  0.1916  1.0000\n  Re  Re18      1.0000  0.8084  0.1833  0.8084  1.0000\n  Re  Re19      1.0000  0.8084  0.8084  0.1833  1.0000\n  Re  Re20      1.0000  0.0000  0.1916  0.3749  1.0000\n  Re  Re21      1.0000  0.1916  0.0000  0.3749  1.0000\n  Re  Re22      1.0000  0.6251  0.6251  0.8167  1.0000\n  Re  Re23      1.0000  0.8167  0.6251  0.6251  1.0000\n  Re  Re24      1.0000  0.6251  0.8167  0.6251  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dcf305ae-2ef4-4b9e-8098-d579c6f203fe",
    "mp_id": "mp-1193276",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiZn(OF)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9801\n_cell_length_b   7.6301\n_cell_length_c   9.0051\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   100.7795\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiZn(OF)6\n_chemical_formula_sum   'Ti2 Zn2 O12 F12'\n_cell_volume   403.6404\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.5000  0.0000  0.5000  1\n  Ti  Ti1  1  0.5000  0.5000  0.0000  1\n  Zn  Zn2  1  0.0000  0.5000  0.5000  1\n  Zn  Zn3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.1760  0.5909  0.3202  1\n  O  O5  1  0.1760  0.0909  0.1798  1\n  O  O6  1  0.8240  0.4091  0.6798  1\n  O  O7  1  0.8240  0.9091  0.8202  1\n  O  O8  1  0.9133  0.7352  0.5388  1\n  O  O9  1  0.9133  0.2352  0.9612  1\n  O  O10  1  0.0867  0.2648  0.4612  1\n  O  O11  1  0.0867  0.7648  0.0388  1\n  O  O12  1  0.2595  0.5294  0.6407  1\n  O  O13  1  0.2595  0.0294  0.8593  1\n  O  O14  1  0.7405  0.4706  0.3593  1\n  O  O15  1  0.7405  0.9706  0.1407  1\n  F  F16  1  0.5503  0.7697  0.5501  1\n  F  F17  1  0.5503  0.2697  0.9499  1\n  F  F18  1  0.4497  0.2303  0.4499  1\n  F  F19  1  0.4497  0.7303  0.0501  1\n  F  F20  1  0.3244  0.8973  0.3366  1\n  F  F21  1  0.3244  0.3973  0.1634  1\n  F  F22  1  0.6756  0.1027  0.6634  1\n  F  F23  1  0.6756  0.6027  0.8366  1\n  F  F24  1  0.2316  0.9593  0.6171  1\n  F  F25  1  0.2316  0.4593  0.8829  1\n  F  F26  1  0.7684  0.0407  0.3829  1\n  F  F27  1  0.7684  0.5407  0.1171  1\n",
    "output": "data_image0\n_chemical_formula_structural       TiFZn2O12TiF11\n_chemical_formula_sum              \"Ti2 F12 Zn2 O12\"\n_cell_length_a       5.9801\n_cell_length_b       7.6301\n_cell_length_c       9.0051\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    100.7795\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.5000  0.0000  0.5000  1.0000\n  F   F1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Zn  Zn1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Zn  Zn2       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.1760  0.5909  0.3202  1.0000\n  O   O2        1.0000  0.1760  0.0909  0.1798  1.0000\n  O   O3        1.0000  0.8240  0.4091  0.6798  1.0000\n  O   O4        1.0000  0.8240  0.9091  0.8202  1.0000\n  O   O5        1.0000  0.9133  0.7352  0.5388  1.0000\n  O   O6        1.0000  0.9133  0.2352  0.9612  1.0000\n  O   O7        1.0000  0.0867  0.2648  0.4612  1.0000\n  O   O8        1.0000  0.0867  0.7648  0.0388  1.0000\n  O   O9        1.0000  0.2595  0.5294  0.6407  1.0000\n  O   O10       1.0000  0.2595  0.0294  0.8593  1.0000\n  O   O11       1.0000  0.7405  0.4706  0.3593  1.0000\n  O   O12       1.0000  0.7405  0.9706  0.1407  1.0000\n  Ti  Ti2       1.0000  0.5503  0.7697  0.5501  1.0000\n  F   F2        1.0000  0.5503  0.2697  0.9499  1.0000\n  F   F3        1.0000  0.4497  0.2303  0.4499  1.0000\n  F   F4        1.0000  0.4497  0.7303  0.0501  1.0000\n  F   F5        1.0000  0.3244  0.8973  0.3366  1.0000\n  F   F6        1.0000  0.3244  0.3973  0.1634  1.0000\n  F   F7        1.0000  0.6756  0.1027  0.6634  1.0000\n  F   F8        1.0000  0.6756  0.6027  0.8366  1.0000\n  F   F9        1.0000  0.2316  0.9593  0.6171  1.0000\n  F   F10       1.0000  0.2316  0.4593  0.8829  1.0000\n  F   F11       1.0000  0.7684  0.0407  0.3829  1.0000\n  F   F12       1.0000  0.7684  0.5407  0.1171  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ad0464a2-27c4-468e-a7da-187e3429727f",
    "mp_id": "mp-1193461",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CdC4S2(NO)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9484\n_cell_length_b   8.7504\n_cell_length_c   18.4779\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CdC4S2(NO)4\n_chemical_formula_sum   'Cd2 C8 S4 N8 O8'\n_cell_volume   638.4084\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cd  Cd0  1  0.8831  0.5000  0.5000  1\n  Cd  Cd1  1  0.1169  0.0000  0.0000  1\n  C  C2  1  0.3479  0.3492  0.6408  1\n  C  C3  1  0.3479  0.6508  0.3592  1\n  C  C4  1  0.6521  0.8492  0.8592  1\n  C  C5  1  0.6521  0.1508  0.1408  1\n  C  C6  1  0.8884  0.8256  0.6298  1\n  C  C7  1  0.8884  0.1744  0.3702  1\n  C  C8  1  0.1116  0.3256  0.8702  1\n  C  C9  1  0.1116  0.6744  0.1298  1\n  S  S10  1  0.3944  0.3175  0.5498  1\n  S  S11  1  0.3944  0.6825  0.4502  1\n  S  S12  1  0.6056  0.8175  0.9502  1\n  S  S13  1  0.6056  0.1825  0.0498  1\n  N  N14  1  0.4093  0.4440  0.6950  1\n  N  N15  1  0.4093  0.5560  0.3050  1\n  N  N16  1  0.5907  0.9440  0.8050  1\n  N  N17  1  0.5907  0.0560  0.1950  1\n  N  N18  1  0.2119  0.2882  0.6993  1\n  N  N19  1  0.2119  0.7118  0.3007  1\n  N  N20  1  0.7881  0.7882  0.8007  1\n  N  N21  1  0.7881  0.2118  0.1993  1\n  O  O22  1  0.8182  0.7041  0.6059  1\n  O  O23  1  0.8182  0.2959  0.3941  1\n  O  O24  1  0.1818  0.2041  0.8941  1\n  O  O25  1  0.1818  0.7959  0.1059  1\n  O  O26  1  0.9572  0.9468  0.6518  1\n  O  O27  1  0.9572  0.0532  0.3482  1\n  O  O28  1  0.0428  0.4468  0.8482  1\n  O  O29  1  0.0428  0.5532  0.1518  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cd2C4OC3S4N8O2CO5\n_chemical_formula_sum              \"Cd2 C8 O8 S4 N8\"\n_cell_length_a       3.9484\n_cell_length_b       8.7504\n_cell_length_c       18.4779\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cd  Cd1       1.0000  0.8831  0.5000  0.5000  1.0000\n  Cd  Cd2       1.0000  0.1169  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.3479  0.3492  0.6408  1.0000\n  C   C2        1.0000  0.3479  0.6508  0.3592  1.0000\n  C   C3        1.0000  0.6521  0.8492  0.8592  1.0000\n  C   C4        1.0000  0.6521  0.1508  0.1408  1.0000\n  O   O1        1.0000  0.8884  0.8256  0.6298  1.0000\n  C   C5        1.0000  0.8884  0.1744  0.3702  1.0000\n  C   C6        1.0000  0.1116  0.3256  0.8702  1.0000\n  C   C7        1.0000  0.1116  0.6744  0.1298  1.0000\n  S   S1        1.0000  0.3944  0.3175  0.5498  1.0000\n  S   S2        1.0000  0.3944  0.6825  0.4502  1.0000\n  S   S3        1.0000  0.6056  0.8175  0.9502  1.0000\n  S   S4        1.0000  0.6056  0.1825  0.0498  1.0000\n  N   N1        1.0000  0.4093  0.4440  0.6950  1.0000\n  N   N2        1.0000  0.4093  0.5560  0.3050  1.0000\n  N   N3        1.0000  0.5907  0.9440  0.8050  1.0000\n  N   N4        1.0000  0.5907  0.0560  0.1950  1.0000\n  N   N5        1.0000  0.2119  0.2882  0.6993  1.0000\n  N   N6        1.0000  0.2119  0.7118  0.3007  1.0000\n  N   N7        1.0000  0.7881  0.7882  0.8007  1.0000\n  N   N8        1.0000  0.7881  0.2118  0.1993  1.0000\n  O   O2        1.0000  0.8182  0.7041  0.6059  1.0000\n  O   O3        1.0000  0.8182  0.2959  0.3941  1.0000\n  C   C8        1.0000  0.1818  0.2041  0.8941  1.0000\n  O   O4        1.0000  0.1818  0.7959  0.1059  1.0000\n  O   O5        1.0000  0.9572  0.9468  0.6518  1.0000\n  O   O6        1.0000  0.9572  0.0532  0.3482  1.0000\n  O   O7        1.0000  0.0428  0.4468  0.8482  1.0000\n  O   O8        1.0000  0.0428  0.5532  0.1518  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a4896d5c-74dc-47f8-9a32-e39998f602ec",
    "mp_id": "mp-1193658",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y3Te3N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.9811\n_cell_length_b   8.1279\n_cell_length_c   8.6592\n_cell_angle_alpha   71.3496\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y3Te3N\n_chemical_formula_sum   'Y12 Te12 N4'\n_cell_volume   798.9635\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0239  0.6021  0.1377  1\n  Y  Y1  1  0.5239  0.3979  0.3623  1\n  Y  Y2  1  0.9761  0.3979  0.8623  1\n  Y  Y3  1  0.4761  0.6021  0.6377  1\n  Y  Y4  1  0.4122  0.8382  0.2054  1\n  Y  Y5  1  0.9122  0.1618  0.2946  1\n  Y  Y6  1  0.5878  0.1618  0.7946  1\n  Y  Y7  1  0.0878  0.8382  0.7054  1\n  Y  Y8  1  0.7093  0.7660  0.3473  1\n  Y  Y9  1  0.2093  0.2340  0.1527  1\n  Y  Y10  1  0.2907  0.2340  0.6527  1\n  Y  Y11  1  0.7907  0.7660  0.8473  1\n  Te  Te12  1  0.9790  0.7778  0.4126  1\n  Te  Te13  1  0.4790  0.2222  0.0874  1\n  Te  Te14  1  0.0210  0.2222  0.5874  1\n  Te  Te15  1  0.5210  0.7778  0.9126  1\n  Te  Te16  1  0.2666  0.5081  0.3117  1\n  Te  Te17  1  0.7666  0.4919  0.1883  1\n  Te  Te18  1  0.7334  0.4919  0.6883  1\n  Te  Te19  1  0.2334  0.5081  0.8117  1\n  Te  Te20  1  0.3064  0.9539  0.4819  1\n  Te  Te21  1  0.8064  0.0461  0.0181  1\n  Te  Te22  1  0.6936  0.0461  0.5181  1\n  Te  Te23  1  0.1936  0.9539  0.9819  1\n  N  N24  1  0.5348  0.6731  0.3769  1\n  N  N25  1  0.0348  0.3269  0.1231  1\n  N  N26  1  0.4652  0.3269  0.6231  1\n  N  N27  1  0.9652  0.6731  0.8769  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y6NY5Te12N3Y\n_chemical_formula_sum              \"Y12 N4 Te12\"\n_cell_length_a       11.9811\n_cell_length_b       8.1279\n_cell_length_c       8.6592\n_cell_angle_alpha    71.3496\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0239  0.6021  0.1377  1.0000\n  Y   Y2        1.0000  0.5239  0.3979  0.3623  1.0000\n  Y   Y3        1.0000  0.9761  0.3979  0.8623  1.0000\n  Y   Y4        1.0000  0.4761  0.6021  0.6377  1.0000\n  Y   Y5        1.0000  0.4122  0.8382  0.2054  1.0000\n  Y   Y6        1.0000  0.9122  0.1618  0.2946  1.0000\n  N   N1        1.0000  0.5878  0.1618  0.7946  1.0000\n  Y   Y7        1.0000  0.0878  0.8382  0.7054  1.0000\n  Y   Y8        1.0000  0.7093  0.7660  0.3473  1.0000\n  Y   Y9        1.0000  0.2093  0.2340  0.1527  1.0000\n  Y   Y10       1.0000  0.2907  0.2340  0.6527  1.0000\n  Y   Y11       1.0000  0.7907  0.7660  0.8473  1.0000\n  Te  Te1       1.0000  0.9790  0.7778  0.4126  1.0000\n  Te  Te2       1.0000  0.4790  0.2222  0.0874  1.0000\n  Te  Te3       1.0000  0.0210  0.2222  0.5874  1.0000\n  Te  Te4       1.0000  0.5210  0.7778  0.9126  1.0000\n  Te  Te5       1.0000  0.2666  0.5081  0.3117  1.0000\n  Te  Te6       1.0000  0.7666  0.4919  0.1883  1.0000\n  Te  Te7       1.0000  0.7334  0.4919  0.6883  1.0000\n  Te  Te8       1.0000  0.2334  0.5081  0.8117  1.0000\n  Te  Te9       1.0000  0.3064  0.9539  0.4819  1.0000\n  Te  Te10      1.0000  0.8064  0.0461  0.0181  1.0000\n  Te  Te11      1.0000  0.6936  0.0461  0.5181  1.0000\n  Te  Te12      1.0000  0.1936  0.9539  0.9819  1.0000\n  N   N2        1.0000  0.5348  0.6731  0.3769  1.0000\n  N   N3        1.0000  0.0348  0.3269  0.1231  1.0000\n  N   N4        1.0000  0.4652  0.3269  0.6231  1.0000\n  Y   Y12       1.0000  0.9652  0.6731  0.8769  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "194d8e6c-d507-4863-aa4c-b2226e9d6904",
    "mp_id": "mp-1193669",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hf9Re4As\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6062\n_cell_length_b   8.6062\n_cell_length_c   8.5812\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0080\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hf9Re4As\n_chemical_formula_sum   'Hf18 Re8 As2'\n_cell_volume   550.3842\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.8085  0.6170  0.5498  1\n  Hf  Hf1  1  0.8085  0.1915  0.5498  1\n  Hf  Hf2  1  0.3830  0.1915  0.5498  1\n  Hf  Hf3  1  0.1915  0.3830  0.4502  1\n  Hf  Hf4  1  0.1915  0.8085  0.4502  1\n  Hf  Hf5  1  0.6170  0.8085  0.4502  1\n  Hf  Hf6  1  0.1915  0.3830  0.0498  1\n  Hf  Hf7  1  0.1915  0.8085  0.0498  1\n  Hf  Hf8  1  0.6170  0.8085  0.0498  1\n  Hf  Hf9  1  0.8085  0.6170  0.9502  1\n  Hf  Hf10  1  0.8085  0.1915  0.9502  1\n  Hf  Hf11  1  0.3830  0.1915  0.9502  1\n  Hf  Hf12  1  0.4557  0.9115  0.7500  1\n  Hf  Hf13  1  0.4557  0.5443  0.7500  1\n  Hf  Hf14  1  0.0885  0.5443  0.7500  1\n  Hf  Hf15  1  0.5443  0.0885  0.2500  1\n  Hf  Hf16  1  0.5443  0.4557  0.2500  1\n  Hf  Hf17  1  0.9115  0.4557  0.2500  1\n  Re  Re18  1  0.1102  0.2206  0.7500  1\n  Re  Re19  1  0.1102  0.8898  0.7500  1\n  Re  Re20  1  0.7794  0.8898  0.7500  1\n  Re  Re21  1  0.8898  0.7794  0.2500  1\n  Re  Re22  1  0.8898  0.1102  0.2500  1\n  Re  Re23  1  0.2206  0.1102  0.2500  1\n  Re  Re24  1  -0.0000  -0.0000  0.5000  1\n  Re  Re25  1  -0.0000  -0.0000  0.0000  1\n  As  As26  1  0.6667  0.3333  0.7500  1\n  As  As27  1  0.3333  0.6667  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hf12ReHf5ReHfRe6As2\n_chemical_formula_sum              \"Hf18 Re8 As2\"\n_cell_length_a       8.6062\n_cell_length_b       8.6062\n_cell_length_c       8.5812\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0080\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hf  Hf1       1.0000  0.8085  0.6170  0.5498  1.0000\n  Hf  Hf2       1.0000  0.8085  0.1915  0.5498  1.0000\n  Hf  Hf3       1.0000  0.3830  0.1915  0.5498  1.0000\n  Hf  Hf4       1.0000  0.1915  0.3830  0.4502  1.0000\n  Hf  Hf5       1.0000  0.1915  0.8085  0.4502  1.0000\n  Hf  Hf6       1.0000  0.6170  0.8085  0.4502  1.0000\n  Hf  Hf7       1.0000  0.1915  0.3830  0.0498  1.0000\n  Hf  Hf8       1.0000  0.1915  0.8085  0.0498  1.0000\n  Hf  Hf9       1.0000  0.6170  0.8085  0.0498  1.0000\n  Hf  Hf10      1.0000  0.8085  0.6170  0.9502  1.0000\n  Hf  Hf11      1.0000  0.8085  0.1915  0.9502  1.0000\n  Hf  Hf12      1.0000  0.3830  0.1915  0.9502  1.0000\n  Re  Re1       1.0000  0.4557  0.9115  0.7500  1.0000\n  Hf  Hf13      1.0000  0.4557  0.5443  0.7500  1.0000\n  Hf  Hf14      1.0000  0.0885  0.5443  0.7500  1.0000\n  Hf  Hf15      1.0000  0.5443  0.0885  0.2500  1.0000\n  Hf  Hf16      1.0000  0.5443  0.4557  0.2500  1.0000\n  Hf  Hf17      1.0000  0.9115  0.4557  0.2500  1.0000\n  Re  Re2       1.0000  0.1102  0.2206  0.7500  1.0000\n  Hf  Hf18      1.0000  0.1102  0.8898  0.7500  1.0000\n  Re  Re3       1.0000  0.7794  0.8898  0.7500  1.0000\n  Re  Re4       1.0000  0.8898  0.7794  0.2500  1.0000\n  Re  Re5       1.0000  0.8898  0.1102  0.2500  1.0000\n  Re  Re6       1.0000  0.2206  0.1102  0.2500  1.0000\n  Re  Re7       1.0000  0.0000  0.0000  0.5000  1.0000\n  Re  Re8       1.0000  0.0000  0.0000  0.0000  1.0000\n  As  As1       1.0000  0.6667  0.3333  0.7500  1.0000\n  As  As2       1.0000  0.3333  0.6667  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "09949d39-c16f-4c3f-8a58-a7ef15e45dbb",
    "mp_id": "mp-1193753",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HfNF5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4925\n_cell_length_b   8.4925\n_cell_length_c   8.3448\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   121.3009\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HfNF5\n_chemical_formula_sum   'Hf4 N4 F20'\n_cell_volume   514.2567\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.7556  0.7556  0.2468  1\n  Hf  Hf1  1  0.7444  0.7444  0.7468  1\n  Hf  Hf2  1  0.2444  0.2444  0.7532  1\n  Hf  Hf3  1  0.2556  0.2556  0.2532  1\n  N  N4  1  0.2725  0.7275  0.5000  1\n  N  N5  1  0.2275  0.7725  0.0000  1\n  N  N6  1  0.7275  0.2725  0.5000  1\n  N  N7  1  0.7725  0.2275  0.0000  1\n  F  F8  1  0.5030  0.5030  0.2457  1\n  F  F9  1  0.9970  0.9970  0.7457  1\n  F  F10  1  0.4970  0.4970  0.7543  1\n  F  F11  1  0.0030  0.0030  0.2543  1\n  F  F12  1  0.7461  0.7461  0.0024  1\n  F  F13  1  0.7539  0.7539  0.5024  1\n  F  F14  1  0.2539  0.2539  0.9976  1\n  F  F15  1  0.2461  0.2461  0.4976  1\n  F  F16  1  0.8766  0.6191  0.2713  1\n  F  F17  1  0.6234  0.8809  0.7713  1\n  F  F18  1  0.1234  0.3809  0.7287  1\n  F  F19  1  0.3766  0.1191  0.2287  1\n  F  F20  1  0.6191  0.8766  0.2713  1\n  F  F21  1  0.8809  0.6234  0.7713  1\n  F  F22  1  0.3809  0.1234  0.7287  1\n  F  F23  1  0.1191  0.3766  0.2287  1\n  F  F24  1  0.3634  0.6366  0.5000  1\n  F  F25  1  0.1366  0.8634  0.0000  1\n  F  F26  1  0.6366  0.3634  0.5000  1\n  F  F27  1  0.8634  0.1366  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hf4N2FNF9NF10\n_chemical_formula_sum              \"Hf4 N4 F20\"\n_cell_length_a       8.4925\n_cell_length_b       8.4925\n_cell_length_c       8.3448\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    121.3009\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hf  Hf1       1.0000  0.7556  0.7556  0.2468  1.0000\n  Hf  Hf2       1.0000  0.7444  0.7444  0.7468  1.0000\n  Hf  Hf3       1.0000  0.2444  0.2444  0.7532  1.0000\n  Hf  Hf4       1.0000  0.2556  0.2556  0.2532  1.0000\n  N   N1        1.0000  0.2725  0.7275  0.5000  1.0000\n  N   N2        1.0000  0.2275  0.7725  0.0000  1.0000\n  F   F1        1.0000  0.7275  0.2725  0.5000  1.0000\n  N   N3        1.0000  0.7725  0.2275  0.0000  1.0000\n  F   F2        1.0000  0.5030  0.5030  0.2457  1.0000\n  F   F3        1.0000  0.9970  0.9970  0.7457  1.0000\n  F   F4        1.0000  0.4970  0.4970  0.7543  1.0000\n  F   F5        1.0000  0.0030  0.0030  0.2543  1.0000\n  F   F6        1.0000  0.7461  0.7461  0.0024  1.0000\n  F   F7        1.0000  0.7539  0.7539  0.5024  1.0000\n  F   F8        1.0000  0.2539  0.2539  0.9976  1.0000\n  F   F9        1.0000  0.2461  0.2461  0.4976  1.0000\n  F   F10       1.0000  0.8766  0.6191  0.2713  1.0000\n  N   N4        1.0000  0.6234  0.8809  0.7713  1.0000\n  F   F11       1.0000  0.1234  0.3809  0.7287  1.0000\n  F   F12       1.0000  0.3766  0.1191  0.2287  1.0000\n  F   F13       1.0000  0.6191  0.8766  0.2713  1.0000\n  F   F14       1.0000  0.8809  0.6234  0.7713  1.0000\n  F   F15       1.0000  0.3809  0.1234  0.7287  1.0000\n  F   F16       1.0000  0.1191  0.3766  0.2287  1.0000\n  F   F17       1.0000  0.3634  0.6366  0.5000  1.0000\n  F   F18       1.0000  0.1366  0.8634  0.0000  1.0000\n  F   F19       1.0000  0.6366  0.3634  0.5000  1.0000\n  F   F20       1.0000  0.8634  0.1366  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "915e67fc-12fe-48a1-aa7c-31f559e6e947",
    "mp_id": "mp-1194315",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiP\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.3069\n_cell_length_b   12.3069\n_cell_length_c   4.8831\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   152.0818\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiP\n_chemical_formula_sum   'Ni14 P14'\n_cell_volume   346.2825\n_cell_formula_units_Z   14\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.5088  0.3843  0.4253  1\n  Ni  Ni1  1  0.3843  0.5088  0.4253  1\n  Ni  Ni2  1  0.4912  0.6157  0.9253  1\n  Ni  Ni3  1  0.6157  0.4912  0.9253  1\n  Ni  Ni4  1  0.7954  0.0923  0.4115  1\n  Ni  Ni5  1  0.0923  0.7954  0.4115  1\n  Ni  Ni6  1  0.2046  0.9077  0.9115  1\n  Ni  Ni7  1  0.9077  0.2046  0.9115  1\n  Ni  Ni8  1  0.3518  0.7646  0.3792  1\n  Ni  Ni9  1  0.7646  0.3518  0.3792  1\n  Ni  Ni10  1  0.6482  0.2354  0.8792  1\n  Ni  Ni11  1  0.2354  0.6482  0.8792  1\n  Ni  Ni12  1  0.9505  0.9505  0.8975  1\n  Ni  Ni13  1  0.0495  0.0495  0.3975  1\n  P  P14  1  0.2539  0.1171  0.0959  1\n  P  P15  1  0.1171  0.2539  0.0959  1\n  P  P16  1  0.7461  0.8829  0.5959  1\n  P  P17  1  0.8829  0.7461  0.5959  1\n  P  P18  1  0.5474  0.8386  0.0679  1\n  P  P19  1  0.8386  0.5474  0.0679  1\n  P  P20  1  0.4526  0.1614  0.5679  1\n  P  P21  1  0.1614  0.4526  0.5679  1\n  P  P22  1  0.4037  0.9825  0.2223  1\n  P  P23  1  0.9825  0.4037  0.2223  1\n  P  P24  1  0.5963  0.0175  0.7223  1\n  P  P25  1  0.0175  0.5963  0.7223  1\n  P  P26  1  0.6874  0.6874  0.2345  1\n  P  P27  1  0.3126  0.3126  0.7345  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ni12PNiP12NiP\n_chemical_formula_sum              \"Ni14 P14\"\n_cell_length_a       12.3069\n_cell_length_b       12.3069\n_cell_length_c       4.8831\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    152.0818\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.5088  0.3843  0.4253  1.0000\n  Ni  Ni2       1.0000  0.3843  0.5088  0.4253  1.0000\n  Ni  Ni3       1.0000  0.4912  0.6157  0.9253  1.0000\n  Ni  Ni4       1.0000  0.6157  0.4912  0.9253  1.0000\n  Ni  Ni5       1.0000  0.7954  0.0923  0.4115  1.0000\n  Ni  Ni6       1.0000  0.0923  0.7954  0.4115  1.0000\n  Ni  Ni7       1.0000  0.2046  0.9077  0.9115  1.0000\n  Ni  Ni8       1.0000  0.9077  0.2046  0.9115  1.0000\n  Ni  Ni9       1.0000  0.3518  0.7646  0.3792  1.0000\n  Ni  Ni10      1.0000  0.7646  0.3518  0.3792  1.0000\n  Ni  Ni11      1.0000  0.6482  0.2354  0.8792  1.0000\n  Ni  Ni12      1.0000  0.2354  0.6482  0.8792  1.0000\n  P   P1        1.0000  0.9505  0.9505  0.8975  1.0000\n  Ni  Ni13      1.0000  0.0495  0.0495  0.3975  1.0000\n  P   P2        1.0000  0.2539  0.1171  0.0959  1.0000\n  P   P3        1.0000  0.1171  0.2539  0.0959  1.0000\n  P   P4        1.0000  0.7461  0.8829  0.5959  1.0000\n  P   P5        1.0000  0.8829  0.7461  0.5959  1.0000\n  P   P6        1.0000  0.5474  0.8386  0.0679  1.0000\n  P   P7        1.0000  0.8386  0.5474  0.0679  1.0000\n  P   P8        1.0000  0.4526  0.1614  0.5679  1.0000\n  P   P9        1.0000  0.1614  0.4526  0.5679  1.0000\n  P   P10       1.0000  0.4037  0.9825  0.2223  1.0000\n  P   P11       1.0000  0.9825  0.4037  0.2223  1.0000\n  P   P12       1.0000  0.5963  0.0175  0.7223  1.0000\n  P   P13       1.0000  0.0175  0.5963  0.7223  1.0000\n  Ni  Ni14      1.0000  0.6874  0.6874  0.2345  1.0000\n  P   P14       1.0000  0.3126  0.3126  0.7345  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "344f02dc-3756-44cd-8bdc-f78826244aee",
    "mp_id": "mp-1194467",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hf10SiMo3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6976\n_cell_length_b   8.6976\n_cell_length_c   8.7484\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hf10SiMo3\n_chemical_formula_sum   'Hf20 Si2 Mo6'\n_cell_volume   573.1397\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.2002  0.7998  0.4553  1\n  Hf  Hf1  1  0.2002  0.4003  0.4553  1\n  Hf  Hf2  1  0.5997  0.7998  0.4553  1\n  Hf  Hf3  1  0.7998  0.2002  0.5447  1\n  Hf  Hf4  1  0.7998  0.5997  0.5447  1\n  Hf  Hf5  1  0.4003  0.2002  0.5447  1\n  Hf  Hf6  1  0.7998  0.2002  0.9553  1\n  Hf  Hf7  1  0.7998  0.5997  0.9553  1\n  Hf  Hf8  1  0.4003  0.2002  0.9553  1\n  Hf  Hf9  1  0.2002  0.7998  0.0447  1\n  Hf  Hf10  1  0.2002  0.4003  0.0447  1\n  Hf  Hf11  1  0.5997  0.7998  0.0447  1\n  Hf  Hf12  1  0.5381  0.4619  0.2500  1\n  Hf  Hf13  1  0.5381  0.0762  0.2500  1\n  Hf  Hf14  1  0.9238  0.4619  0.2500  1\n  Hf  Hf15  1  0.4619  0.5381  0.7500  1\n  Hf  Hf16  1  0.4619  0.9238  0.7500  1\n  Hf  Hf17  1  0.0762  0.5381  0.7500  1\n  Hf  Hf18  1  0.0000  0.0000  0.5000  1\n  Hf  Hf19  1  0.0000  0.0000  0.0000  1\n  Si  Si20  1  0.3333  0.6667  0.2500  1\n  Si  Si21  1  0.6667  0.3333  0.7500  1\n  Mo  Mo22  1  0.8843  0.1157  0.2500  1\n  Mo  Mo23  1  0.8843  0.7687  0.2500  1\n  Mo  Mo24  1  0.2313  0.1157  0.2500  1\n  Mo  Mo25  1  0.1157  0.8843  0.7500  1\n  Mo  Mo26  1  0.1157  0.2313  0.7500  1\n  Mo  Mo27  1  0.7687  0.8843  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hf6SiHf14SiMo6\n_chemical_formula_sum              \"Hf20 Si2 Mo6\"\n_cell_length_a       8.6976\n_cell_length_b       8.6976\n_cell_length_c       8.7484\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hf  Hf1       1.0000  0.2002  0.7998  0.4553  1.0000\n  Hf  Hf2       1.0000  0.2002  0.4003  0.4553  1.0000\n  Hf  Hf3       1.0000  0.5997  0.7998  0.4553  1.0000\n  Hf  Hf4       1.0000  0.7998  0.2002  0.5447  1.0000\n  Hf  Hf5       1.0000  0.7998  0.5997  0.5447  1.0000\n  Hf  Hf6       1.0000  0.4003  0.2002  0.5447  1.0000\n  Si  Si1       1.0000  0.7998  0.2002  0.9553  1.0000\n  Hf  Hf7       1.0000  0.7998  0.5997  0.9553  1.0000\n  Hf  Hf8       1.0000  0.4003  0.2002  0.9553  1.0000\n  Hf  Hf9       1.0000  0.2002  0.7998  0.0447  1.0000\n  Hf  Hf10      1.0000  0.2002  0.4003  0.0447  1.0000\n  Hf  Hf11      1.0000  0.5997  0.7998  0.0447  1.0000\n  Hf  Hf12      1.0000  0.5381  0.4619  0.2500  1.0000\n  Hf  Hf13      1.0000  0.5381  0.0762  0.2500  1.0000\n  Hf  Hf14      1.0000  0.9238  0.4619  0.2500  1.0000\n  Hf  Hf15      1.0000  0.4619  0.5381  0.7500  1.0000\n  Hf  Hf16      1.0000  0.4619  0.9238  0.7500  1.0000\n  Hf  Hf17      1.0000  0.0762  0.5381  0.7500  1.0000\n  Hf  Hf18      1.0000  0.0000  0.0000  0.5000  1.0000\n  Hf  Hf19      1.0000  0.0000  0.0000  0.0000  1.0000\n  Hf  Hf20      1.0000  0.3333  0.6667  0.2500  1.0000\n  Si  Si2       1.0000  0.6667  0.3333  0.7500  1.0000\n  Mo  Mo1       1.0000  0.8843  0.1157  0.2500  1.0000\n  Mo  Mo2       1.0000  0.8843  0.7687  0.2500  1.0000\n  Mo  Mo3       1.0000  0.2313  0.1157  0.2500  1.0000\n  Mo  Mo4       1.0000  0.1157  0.8843  0.7500  1.0000\n  Mo  Mo5       1.0000  0.1157  0.2313  0.7500  1.0000\n  Mo  Mo6       1.0000  0.7687  0.8843  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d88b12d9-3f64-4851-a28e-f8d1f8acfcf6",
    "mp_id": "mp-1194648",
    "action_prompt": "Swap the spatial positions of atoms at indices 61 and 44 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SiH12C6(NO2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7674\n_cell_length_b   7.9829\n_cell_length_c   12.8727\n_cell_angle_alpha   83.3564\n_cell_angle_beta   86.0345\n_cell_angle_gamma   80.0334\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SiH12C6(NO2)4\n_chemical_formula_sum   'Si2 H24 C12 N8 O16'\n_cell_volume   779.8754\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.2168  0.7571  0.8321  1\n  Si  Si1  1  0.7832  0.2429  0.1679  1\n  H  H2  1  0.9602  0.8057  0.9603  1\n  H  H3  1  0.0398  0.1943  0.0397  1\n  H  H4  1  0.8912  0.7444  0.8423  1\n  H  H5  1  0.1088  0.2556  0.1577  1\n  H  H6  1  0.1868  0.6543  0.6580  1\n  H  H7  1  0.8132  0.3457  0.3420  1\n  H  H8  1  0.1438  0.8815  0.6464  1\n  H  H9  1  0.8562  0.1185  0.3536  1\n  H  H10  1  0.4842  0.8782  0.8491  1\n  H  H11  1  0.5158  0.1218  0.1509  1\n  H  H12  1  0.2977  0.0433  0.8439  1\n  H  H13  1  0.7023  0.9567  0.1561  1\n  H  H14  1  0.3366  0.9029  0.9612  1\n  H  H15  1  0.6634  0.0971  0.0388  1\n  H  H16  1  0.2182  0.4430  0.8628  1\n  H  H17  1  0.7818  0.5570  0.1372  1\n  H  H18  1  0.2838  0.5226  0.9749  1\n  H  H19  1  0.7162  0.4774  0.0251  1\n  H  H20  1  0.4323  0.4938  0.8637  1\n  H  H21  1  0.5677  0.5062  0.1363  1\n  H  H22  1  0.7070  0.2549  0.6637  1\n  H  H23  1  0.2930  0.7451  0.3363  1\n  H  H24  1  0.6904  0.8105  0.5825  1\n  H  H25  1  0.3096  0.1895  0.4175  1\n  C  C26  1  0.4502  0.7456  0.5458  1\n  C  C27  1  0.5498  0.2544  0.4542  1\n  C  C28  1  0.8217  0.0429  0.7593  1\n  C  C29  1  0.1783  0.9571  0.2407  1\n  C  C30  1  0.2273  0.7678  0.6834  1\n  C  C31  1  0.7726  0.2322  0.3166  1\n  C  C32  1  0.9759  0.8205  0.8744  1\n  C  C33  1  0.0241  0.1795  0.1256  1\n  C  C34  1  0.2945  0.5325  0.8890  1\n  C  C35  1  0.7055  0.4675  0.1110  1\n  C  C36  1  0.3461  0.9109  0.8753  1\n  C  C37  1  0.6539  0.0891  0.1247  1\n  N  N38  1  0.7656  0.2187  0.7342  1\n  N  N39  1  0.2344  0.7813  0.2658  1\n  N  N40  1  0.6218  0.7773  0.5248  1\n  N  N41  1  0.3782  0.2227  0.4752  1\n  N  N42  1  0.7230  0.7461  0.4335  1\n  N  N43  1  0.2770  0.2539  0.5665  1\n  N  N44  1  0.8158  0.3566  0.7751  1\n  N  N45  1  0.1842  0.6434  0.2249  1\n  O  O46  1  0.9132  0.0036  0.8450  1\n  O  O47  1  0.0868  0.9964  0.1550  1\n  O  O48  1  0.4090  0.7743  0.6462  1\n  O  O49  1  0.5910  0.2257  0.3538  1\n  O  O50  1  0.7810  0.9427  0.7036  1\n  O  O51  1  0.2190  0.0573  0.2964  1\n  O  O52  1  0.3554  0.7037  0.4852  1\n  O  O53  1  0.6446  0.2963  0.5148  1\n  O  O54  1  0.6552  0.7012  0.3600  1\n  O  O55  1  0.3448  0.2988  0.6400  1\n  O  O56  1  0.8759  0.7706  0.4356  1\n  O  O57  1  0.1241  0.2294  0.5644  1\n  O  O58  1  0.8919  0.3326  0.8577  1\n  O  O59  1  0.1081  0.6674  0.1423  1\n  O  O60  1  0.7731  0.4963  0.7226  1\n  O  O61  1  0.2269  0.5037  0.2774  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si2H24C12N6ONO15N\n_chemical_formula_sum              \"Si2 H24 C12 N8 O16\"\n_cell_length_a       7.7674\n_cell_length_b       7.9829\n_cell_length_c       12.8727\n_cell_angle_alpha    83.3564\n_cell_angle_beta     86.0345\n_cell_angle_gamma    80.0334\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.2168  0.7571  0.8321  1.0000\n  Si  Si2       1.0000  0.7832  0.2429  0.1679  1.0000\n  H   H1        1.0000  0.9602  0.8057  0.9603  1.0000\n  H   H2        1.0000  0.0398  0.1943  0.0397  1.0000\n  H   H3        1.0000  0.8912  0.7444  0.8423  1.0000\n  H   H4        1.0000  0.1088  0.2556  0.1577  1.0000\n  H   H5        1.0000  0.1868  0.6543  0.6580  1.0000\n  H   H6        1.0000  0.8131  0.3457  0.3420  1.0000\n  H   H7        1.0000  0.1438  0.8815  0.6464  1.0000\n  H   H8        1.0000  0.8562  0.1185  0.3536  1.0000\n  H   H9        1.0000  0.4842  0.8782  0.8491  1.0000\n  H   H10       1.0000  0.5158  0.1218  0.1509  1.0000\n  H   H11       1.0000  0.2977  0.0433  0.8439  1.0000\n  H   H12       1.0000  0.7023  0.9567  0.1561  1.0000\n  H   H13       1.0000  0.3366  0.9029  0.9612  1.0000\n  H   H14       1.0000  0.6634  0.0971  0.0388  1.0000\n  H   H15       1.0000  0.2182  0.4430  0.8628  1.0000\n  H   H16       1.0000  0.7818  0.5570  0.1372  1.0000\n  H   H17       1.0000  0.2838  0.5226  0.9749  1.0000\n  H   H18       1.0000  0.7162  0.4774  0.0251  1.0000\n  H   H19       1.0000  0.4323  0.4938  0.8637  1.0000\n  H   H20       1.0000  0.5677  0.5062  0.1363  1.0000\n  H   H21       1.0000  0.7070  0.2549  0.6637  1.0000\n  H   H22       1.0000  0.2930  0.7451  0.3363  1.0000\n  H   H23       1.0000  0.6904  0.8105  0.5825  1.0000\n  H   H24       1.0000  0.3096  0.1895  0.4175  1.0000\n  C   C1        1.0000  0.4502  0.7456  0.5458  1.0000\n  C   C2        1.0000  0.5498  0.2544  0.4542  1.0000\n  C   C3        1.0000  0.8217  0.0429  0.7593  1.0000\n  C   C4        1.0000  0.1783  0.9571  0.2407  1.0000\n  C   C5        1.0000  0.2274  0.7678  0.6834  1.0000\n  C   C6        1.0000  0.7726  0.2322  0.3166  1.0000\n  C   C7        1.0000  0.9759  0.8205  0.8744  1.0000\n  C   C8        1.0000  0.0241  0.1795  0.1256  1.0000\n  C   C9        1.0000  0.2945  0.5325  0.8890  1.0000\n  C   C10       1.0000  0.7055  0.4675  0.1110  1.0000\n  C   C11       1.0000  0.3461  0.9109  0.8753  1.0000\n  C   C12       1.0000  0.6539  0.0891  0.1247  1.0000\n  N   N1        1.0000  0.7656  0.2187  0.7342  1.0000\n  N   N2        1.0000  0.2344  0.7813  0.2658  1.0000\n  N   N3        1.0000  0.6218  0.7773  0.5248  1.0000\n  N   N4        1.0000  0.3782  0.2227  0.4752  1.0000\n  N   N5        1.0000  0.7230  0.7461  0.4335  1.0000\n  N   N6        1.0000  0.2770  0.2539  0.5665  1.0000\n  O   O1        1.0000  0.8158  0.3566  0.7751  1.0000\n  N   N7        1.0000  0.1842  0.6434  0.2249  1.0000\n  O   O2        1.0000  0.9132  0.0036  0.8450  1.0000\n  O   O3        1.0000  0.0868  0.9964  0.1550  1.0000\n  O   O4        1.0000  0.4090  0.7743  0.6462  1.0000\n  O   O5        1.0000  0.5910  0.2257  0.3538  1.0000\n  O   O6        1.0000  0.7810  0.9427  0.7036  1.0000\n  O   O7        1.0000  0.2190  0.0573  0.2964  1.0000\n  O   O8        1.0000  0.3554  0.7037  0.4852  1.0000\n  O   O9        1.0000  0.6446  0.2963  0.5148  1.0000\n  O   O10       1.0000  0.6552  0.7012  0.3600  1.0000\n  O   O11       1.0000  0.3448  0.2988  0.6400  1.0000\n  O   O12       1.0000  0.8759  0.7706  0.4356  1.0000\n  O   O13       1.0000  0.1241  0.2294  0.5644  1.0000\n  O   O14       1.0000  0.8919  0.3326  0.8577  1.0000\n  O   O15       1.0000  0.1081  0.6674  0.1423  1.0000\n  O   O16       1.0000  0.7731  0.4963  0.7226  1.0000\n  N   N8        1.0000  0.2269  0.5037  0.2774  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bbf3a120-f153-4e4b-9725-b36fe3f32b42",
    "mp_id": "mp-1194808",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KGd(BH4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7696\n_cell_length_b   8.2527\n_cell_length_c   7.7559\n_cell_angle_alpha   90.0000\n_cell_angle_beta   101.6636\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KGd(BH4)4\n_chemical_formula_sum   'K2 Gd2 B8 H32'\n_cell_volume   487.0453\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5000  0.5000  0.0000  1\n  K  K1  1  0.5000  0.0000  0.5000  1\n  Gd  Gd2  1  0.0000  0.0000  0.0000  1\n  Gd  Gd3  1  0.0000  0.5000  0.5000  1\n  B  B4  1  0.8862  0.7272  0.8110  1\n  B  B5  1  0.1138  0.2272  0.6890  1\n  B  B6  1  0.1138  0.2728  0.1890  1\n  B  B7  1  0.8862  0.7728  0.3110  1\n  B  B8  1  0.6722  0.3793  0.4016  1\n  B  B9  1  0.3278  0.8793  0.0984  1\n  B  B10  1  0.3278  0.6207  0.5984  1\n  B  B11  1  0.6722  0.1207  0.9016  1\n  H  H12  1  0.8926  0.7340  0.9723  1\n  H  H13  1  0.1074  0.2340  0.5277  1\n  H  H14  1  0.1074  0.2660  0.0277  1\n  H  H15  1  0.8926  0.7660  0.4723  1\n  H  H16  1  0.9933  0.8249  0.7721  1\n  H  H17  1  0.0067  0.3249  0.7279  1\n  H  H18  1  0.0067  0.1751  0.2279  1\n  H  H19  1  0.9933  0.6751  0.2721  1\n  H  H20  1  0.9365  0.5887  0.7842  1\n  H  H21  1  0.0635  0.0887  0.7158  1\n  H  H22  1  0.0635  0.4113  0.2158  1\n  H  H23  1  0.9365  0.9113  0.2842  1\n  H  H24  1  0.7390  0.7561  0.7323  1\n  H  H25  1  0.2610  0.2561  0.7677  1\n  H  H26  1  0.2610  0.2439  0.2677  1\n  H  H27  1  0.7390  0.7439  0.2323  1\n  H  H28  1  0.5843  0.2571  0.3875  1\n  H  H29  1  0.4157  0.7571  0.1125  1\n  H  H30  1  0.4157  0.7429  0.6125  1\n  H  H31  1  0.5843  0.2429  0.8875  1\n  H  H32  1  0.5825  0.4969  0.3505  1\n  H  H33  1  0.4175  0.9969  0.1495  1\n  H  H34  1  0.4175  0.5031  0.6495  1\n  H  H35  1  0.5825  0.0031  0.8505  1\n  H  H36  1  0.7426  0.4001  0.5583  1\n  H  H37  1  0.2574  0.9001  0.9417  1\n  H  H38  1  0.2574  0.5999  0.4417  1\n  H  H39  1  0.7426  0.0999  0.0583  1\n  H  H40  1  0.7871  0.3586  0.3132  1\n  H  H41  1  0.2129  0.8586  0.1868  1\n  H  H42  1  0.2129  0.6414  0.6868  1\n  H  H43  1  0.7871  0.1414  0.8132  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Gd2B5HB2H7BH24\n_chemical_formula_sum              \"K2 Gd2 B8 H32\"\n_cell_length_a       7.7696\n_cell_length_b       8.2527\n_cell_length_c       7.7559\n_cell_angle_alpha    90.0000\n_cell_angle_beta     101.6636\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5000  0.5000  0.0000  1.0000\n  K   K2        1.0000  0.5000  0.0000  0.5000  1.0000\n  Gd  Gd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Gd  Gd2       1.0000  0.0000  0.5000  0.5000  1.0000\n  B   B1        1.0000  0.8862  0.7272  0.8110  1.0000\n  B   B2        1.0000  0.1138  0.2272  0.6890  1.0000\n  B   B3        1.0000  0.1138  0.2728  0.1890  1.0000\n  B   B4        1.0000  0.8862  0.7728  0.3110  1.0000\n  B   B5        1.0000  0.6722  0.3793  0.4016  1.0000\n  H   H1        1.0000  0.3278  0.8793  0.0984  1.0000\n  B   B6        1.0000  0.3278  0.6207  0.5984  1.0000\n  B   B7        1.0000  0.6722  0.1207  0.9016  1.0000\n  H   H2        1.0000  0.8926  0.7340  0.9723  1.0000\n  H   H3        1.0000  0.1074  0.2340  0.5277  1.0000\n  H   H4        1.0000  0.1074  0.2660  0.0277  1.0000\n  H   H5        1.0000  0.8926  0.7660  0.4723  1.0000\n  H   H6        1.0000  0.9933  0.8249  0.7721  1.0000\n  H   H7        1.0000  0.0067  0.3249  0.7279  1.0000\n  H   H8        1.0000  0.0067  0.1751  0.2279  1.0000\n  B   B8        1.0000  0.9933  0.6751  0.2721  1.0000\n  H   H9        1.0000  0.9365  0.5887  0.7842  1.0000\n  H   H10       1.0000  0.0635  0.0887  0.7158  1.0000\n  H   H11       1.0000  0.0635  0.4113  0.2158  1.0000\n  H   H12       1.0000  0.9365  0.9113  0.2842  1.0000\n  H   H13       1.0000  0.7390  0.7561  0.7323  1.0000\n  H   H14       1.0000  0.2610  0.2561  0.7677  1.0000\n  H   H15       1.0000  0.2610  0.2439  0.2677  1.0000\n  H   H16       1.0000  0.7390  0.7439  0.2323  1.0000\n  H   H17       1.0000  0.5843  0.2571  0.3875  1.0000\n  H   H18       1.0000  0.4157  0.7571  0.1125  1.0000\n  H   H19       1.0000  0.4157  0.7429  0.6125  1.0000\n  H   H20       1.0000  0.5843  0.2429  0.8875  1.0000\n  H   H21       1.0000  0.5825  0.4969  0.3505  1.0000\n  H   H22       1.0000  0.4175  0.9969  0.1495  1.0000\n  H   H23       1.0000  0.4175  0.5031  0.6495  1.0000\n  H   H24       1.0000  0.5825  0.0031  0.8505  1.0000\n  H   H25       1.0000  0.7426  0.4001  0.5583  1.0000\n  H   H26       1.0000  0.2574  0.9001  0.9417  1.0000\n  H   H27       1.0000  0.2574  0.5999  0.4417  1.0000\n  H   H28       1.0000  0.7426  0.0999  0.0583  1.0000\n  H   H29       1.0000  0.7871  0.3586  0.3132  1.0000\n  H   H30       1.0000  0.2129  0.8586  0.1868  1.0000\n  H   H31       1.0000  0.2129  0.6414  0.6868  1.0000\n  H   H32       1.0000  0.7871  0.1414  0.8132  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2422afef-708f-4b7f-8a2b-84ae331cfa7e",
    "mp_id": "mp-1194897",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 35 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2LuC2O6F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1042\n_cell_length_b   9.1042\n_cell_length_c   11.0923\n_cell_angle_alpha   87.7116\n_cell_angle_beta   87.7116\n_cell_angle_gamma   38.5063\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2LuC2O6F\n_chemical_formula_sum   'Na8 Lu4 C8 O24 F4'\n_cell_volume   571.9046\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.4798  0.2993  0.8789  1\n  Na  Na1  1  0.7007  0.5202  0.6211  1\n  Na  Na2  1  0.5202  0.7007  0.1211  1\n  Na  Na3  1  0.2993  0.4798  0.3789  1\n  Na  Na4  1  0.8489  0.6635  0.8624  1\n  Na  Na5  1  0.3365  0.1511  0.6376  1\n  Na  Na6  1  0.1511  0.3365  0.1376  1\n  Na  Na7  1  0.6635  0.8489  0.3624  1\n  Lu  Lu8  1  0.0968  0.7834  0.6274  1\n  Lu  Lu9  1  0.2166  0.9032  0.8726  1\n  Lu  Lu10  1  0.9032  0.2166  0.3726  1\n  Lu  Lu11  1  0.7834  0.0968  0.1274  1\n  C  C12  1  0.6446  0.2354  0.6154  1\n  C  C13  1  0.7646  0.3554  0.8846  1\n  C  C14  1  0.3554  0.7646  0.3846  1\n  C  C15  1  0.2354  0.6446  0.1154  1\n  C  C16  1  0.8761  0.7092  0.5816  1\n  C  C17  1  0.2908  0.1239  0.9184  1\n  C  C18  1  0.1239  0.2908  0.4184  1\n  C  C19  1  0.7092  0.8761  0.0816  1\n  O  O20  1  0.4322  0.4211  0.5832  1\n  O  O21  1  0.5789  0.5678  0.9168  1\n  O  O22  1  0.5678  0.5789  0.4168  1\n  O  O23  1  0.4211  0.4322  0.0832  1\n  O  O24  1  0.7035  0.0964  0.7000  1\n  O  O25  1  0.9036  0.2965  0.8000  1\n  O  O26  1  0.2965  0.9036  0.3000  1\n  O  O27  1  0.0964  0.7035  0.2000  1\n  O  O28  1  0.1825  0.8263  0.4372  1\n  O  O29  1  0.1737  0.8175  0.0628  1\n  O  O30  1  0.8175  0.1737  0.5628  1\n  O  O31  1  0.8263  0.1825  0.9372  1\n  O  O32  1  0.0069  0.6088  0.6770  1\n  O  O33  1  0.3912  0.9931  0.8230  1\n  O  O34  1  0.9931  0.3912  0.3230  1\n  O  O35  1  0.6088  0.0069  0.1770  1\n  O  O36  1  0.9285  0.7668  0.4959  1\n  O  O37  1  0.2332  0.0715  0.0041  1\n  O  O38  1  0.0715  0.2332  0.5041  1\n  O  O39  1  0.7668  0.9285  0.9959  1\n  O  O40  1  0.7031  0.7581  0.5717  1\n  O  O41  1  0.2419  0.2969  0.9283  1\n  O  O42  1  0.2969  0.2419  0.4283  1\n  O  O43  1  0.7581  0.7031  0.0717  1\n  F  F44  1  0.1846  0.6990  0.8183  1\n  F  F45  1  0.3010  0.8154  0.6817  1\n  F  F46  1  0.8154  0.3010  0.1817  1\n  F  F47  1  0.6990  0.1846  0.3183  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaONa6Lu4C8O15NaO8F4\n_chemical_formula_sum              \"Na8 O24 Lu4 C8 F4\"\n_cell_length_a       9.1042\n_cell_length_b       9.1042\n_cell_length_c       11.0923\n_cell_angle_alpha    87.7116\n_cell_angle_beta     87.7116\n_cell_angle_gamma    38.5063\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.4798  0.2993  0.8789  1.0000\n  O   O1        1.0000  0.7007  0.5202  0.6211  1.0000\n  Na  Na2       1.0000  0.5202  0.7007  0.1211  1.0000\n  Na  Na3       1.0000  0.2993  0.4798  0.3789  1.0000\n  Na  Na4       1.0000  0.8489  0.6635  0.8624  1.0000\n  Na  Na5       1.0000  0.3365  0.1511  0.6376  1.0000\n  Na  Na6       1.0000  0.1511  0.3365  0.1376  1.0000\n  Na  Na7       1.0000  0.6635  0.8489  0.3624  1.0000\n  Lu  Lu1       1.0000  0.0968  0.7834  0.6274  1.0000\n  Lu  Lu2       1.0000  0.2166  0.9032  0.8726  1.0000\n  Lu  Lu3       1.0000  0.9032  0.2166  0.3726  1.0000\n  Lu  Lu4       1.0000  0.7834  0.0968  0.1274  1.0000\n  C   C1        1.0000  0.6446  0.2354  0.6154  1.0000\n  C   C2        1.0000  0.7646  0.3554  0.8846  1.0000\n  C   C3        1.0000  0.3554  0.7646  0.3846  1.0000\n  C   C4        1.0000  0.2354  0.6446  0.1154  1.0000\n  C   C5        1.0000  0.8761  0.7092  0.5816  1.0000\n  C   C6        1.0000  0.2908  0.1239  0.9184  1.0000\n  C   C7        1.0000  0.1239  0.2908  0.4184  1.0000\n  C   C8        1.0000  0.7092  0.8761  0.0816  1.0000\n  O   O2        1.0000  0.4322  0.4211  0.5832  1.0000\n  O   O3        1.0000  0.5789  0.5678  0.9168  1.0000\n  O   O4        1.0000  0.5678  0.5789  0.4168  1.0000\n  O   O5        1.0000  0.4211  0.4322  0.0832  1.0000\n  O   O6        1.0000  0.7035  0.0964  0.7000  1.0000\n  O   O7        1.0000  0.9036  0.2965  0.8000  1.0000\n  O   O8        1.0000  0.2965  0.9036  0.3000  1.0000\n  O   O9        1.0000  0.0964  0.7035  0.2000  1.0000\n  O   O10       1.0000  0.1825  0.8263  0.4372  1.0000\n  O   O11       1.0000  0.1737  0.8175  0.0628  1.0000\n  O   O12       1.0000  0.8175  0.1737  0.5628  1.0000\n  O   O13       1.0000  0.8263  0.1825  0.9372  1.0000\n  O   O14       1.0000  0.0069  0.6088  0.6770  1.0000\n  O   O15       1.0000  0.3912  0.9931  0.8230  1.0000\n  O   O16       1.0000  0.9931  0.3912  0.3230  1.0000\n  Na  Na8       1.0000  0.6088  0.0069  0.1770  1.0000\n  O   O17       1.0000  0.9285  0.7668  0.4959  1.0000\n  O   O18       1.0000  0.2332  0.0715  0.0041  1.0000\n  O   O19       1.0000  0.0715  0.2332  0.5041  1.0000\n  O   O20       1.0000  0.7668  0.9285  0.9959  1.0000\n  O   O21       1.0000  0.7031  0.7581  0.5717  1.0000\n  O   O22       1.0000  0.2419  0.2969  0.9283  1.0000\n  O   O23       1.0000  0.2969  0.2419  0.4283  1.0000\n  O   O24       1.0000  0.7581  0.7031  0.0717  1.0000\n  F   F1        1.0000  0.1846  0.6990  0.8183  1.0000\n  F   F2        1.0000  0.3010  0.8154  0.6817  1.0000\n  F   F3        1.0000  0.8154  0.3010  0.1817  1.0000\n  F   F4        1.0000  0.6990  0.1846  0.3183  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "080e3992-2de6-41f5-84e9-18fcb8c1882a",
    "mp_id": "mp-1194954",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 61 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaNb2H7O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4886\n_cell_length_b   10.1377\n_cell_length_c   12.8847\n_cell_angle_alpha   79.9570\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaNb2H7O9\n_chemical_formula_sum   'Na4 Nb8 H28 O36'\n_cell_volume   834.5627\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2509  0.4680  0.3408  1\n  Na  Na1  1  0.7509  0.5320  0.1592  1\n  Na  Na2  1  0.7491  0.5320  0.6592  1\n  Na  Na3  1  0.2491  0.4680  0.8408  1\n  Nb  Nb4  1  0.2800  0.8327  0.4052  1\n  Nb  Nb5  1  0.7800  0.1673  0.0948  1\n  Nb  Nb6  1  0.7200  0.1673  0.5948  1\n  Nb  Nb7  1  0.2200  0.8327  0.9052  1\n  Nb  Nb8  1  0.1819  0.9998  0.6080  1\n  Nb  Nb9  1  0.6819  0.0002  0.8920  1\n  Nb  Nb10  1  0.8181  0.0002  0.3920  1\n  Nb  Nb11  1  0.3181  0.9998  0.1080  1\n  H  H12  1  0.7881  0.8718  0.6118  1\n  H  H13  1  0.2881  0.1282  0.8882  1\n  H  H14  1  0.2119  0.1282  0.3882  1\n  H  H15  1  0.7119  0.8718  0.1118  1\n  H  H16  1  0.5077  0.2239  0.3634  1\n  H  H17  1  0.0077  0.7761  0.1366  1\n  H  H18  1  0.4923  0.7761  0.6366  1\n  H  H19  1  0.9923  0.2239  0.8634  1\n  H  H20  1  0.4126  0.2236  0.2512  1\n  H  H21  1  0.9126  0.7764  0.2488  1\n  H  H22  1  0.5874  0.7764  0.7488  1\n  H  H23  1  0.0874  0.2236  0.7512  1\n  H  H24  1  0.3838  0.3809  0.5571  1\n  H  H25  1  0.8838  0.6191  0.9429  1\n  H  H26  1  0.6162  0.6191  0.4429  1\n  H  H27  1  0.1162  0.3809  0.0571  1\n  H  H28  1  0.1636  0.3143  0.5592  1\n  H  H29  1  0.6636  0.6857  0.9408  1\n  H  H30  1  0.8364  0.6857  0.4409  1\n  H  H31  1  0.3364  0.3143  0.0592  1\n  H  H32  1  0.3395  0.6524  0.1353  1\n  H  H33  1  0.8395  0.3476  0.3647  1\n  H  H34  1  0.6605  0.3476  0.8647  1\n  H  H35  1  0.1605  0.6524  0.6353  1\n  H  H36  1  0.3384  0.5034  0.1154  1\n  H  H37  1  0.8384  0.4966  0.3846  1\n  H  H38  1  0.6616  0.4966  0.8846  1\n  H  H39  1  0.1616  0.5034  0.6154  1\n  O  O40  1  0.2531  0.8245  0.5603  1\n  O  O41  1  0.7531  0.1755  0.9397  1\n  O  O42  1  0.7469  0.1755  0.4397  1\n  O  O43  1  0.2469  0.8245  0.0603  1\n  O  O44  1  0.0257  0.1712  0.6180  1\n  O  O45  1  0.5257  0.8288  0.8820  1\n  O  O46  1  0.9743  0.8288  0.3820  1\n  O  O47  1  0.4743  0.1712  0.1180  1\n  O  O48  1  0.1916  0.9267  0.7498  1\n  O  O49  1  0.6916  0.0733  0.7502  1\n  O  O50  1  0.8084  0.0733  0.2502  1\n  O  O51  1  0.3084  0.9267  0.2498  1\n  O  O52  1  0.4387  0.0829  0.5853  1\n  O  O53  1  0.9387  0.9171  0.9147  1\n  O  O54  1  0.5613  0.9171  0.4147  1\n  O  O55  1  0.0613  0.0829  0.0853  1\n  O  O56  1  0.3584  0.6652  0.3967  1\n  O  O57  1  0.8584  0.3348  0.1033  1\n  O  O58  1  0.6416  0.3348  0.6033  1\n  O  O59  1  0.1416  0.6652  0.8967  1\n  O  O60  1  0.8627  0.9501  0.5707  1\n  O  O61  1  0.3627  0.0499  0.9293  1\n  O  O62  1  0.1373  0.0499  0.4293  1\n  O  O63  1  0.6373  0.9501  0.0707  1\n  O  O64  1  0.3821  0.2492  0.3205  1\n  O  O65  1  0.8821  0.7508  0.1795  1\n  O  O66  1  0.6179  0.7508  0.6795  1\n  O  O67  1  0.1179  0.2492  0.8205  1\n  O  O68  1  0.2398  0.3994  0.5334  1\n  O  O69  1  0.7398  0.6006  0.9666  1\n  O  O70  1  0.7602  0.6006  0.4666  1\n  O  O71  1  0.2602  0.3994  0.0334  1\n  O  O72  1  0.3819  0.5610  0.1676  1\n  O  O73  1  0.8819  0.4390  0.3324  1\n  O  O74  1  0.6181  0.4390  0.8324  1\n  O  O75  1  0.1181  0.5610  0.6676  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Nb8H15OH12O21HO14\n_chemical_formula_sum              \"Na4 Nb8 H28 O36\"\n_cell_length_a       6.4886\n_cell_length_b       10.1377\n_cell_length_c       12.8847\n_cell_angle_alpha    79.9570\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2509  0.4680  0.3408  1.0000\n  Na  Na2       1.0000  0.7509  0.5320  0.1592  1.0000\n  Na  Na3       1.0000  0.7491  0.5320  0.6592  1.0000\n  Na  Na4       1.0000  0.2491  0.4680  0.8408  1.0000\n  Nb  Nb1       1.0000  0.2800  0.8327  0.4052  1.0000\n  Nb  Nb2       1.0000  0.7800  0.1673  0.0947  1.0000\n  Nb  Nb3       1.0000  0.7200  0.1673  0.5948  1.0000\n  Nb  Nb4       1.0000  0.2200  0.8327  0.9052  1.0000\n  Nb  Nb5       1.0000  0.1819  0.9998  0.6080  1.0000\n  Nb  Nb6       1.0000  0.6819  0.0002  0.8920  1.0000\n  Nb  Nb7       1.0000  0.8181  0.0002  0.3920  1.0000\n  Nb  Nb8       1.0000  0.3181  0.9998  0.1080  1.0000\n  H   H1        1.0000  0.7881  0.8718  0.6118  1.0000\n  H   H2        1.0000  0.2881  0.1282  0.8882  1.0000\n  H   H3        1.0000  0.2119  0.1282  0.3882  1.0000\n  H   H4        1.0000  0.7119  0.8718  0.1118  1.0000\n  H   H5        1.0000  0.5077  0.2239  0.3634  1.0000\n  H   H6        1.0000  0.0077  0.7761  0.1366  1.0000\n  H   H7        1.0000  0.4923  0.7761  0.6366  1.0000\n  H   H8        1.0000  0.9923  0.2239  0.8634  1.0000\n  H   H9        1.0000  0.4126  0.2236  0.2512  1.0000\n  H   H10       1.0000  0.9126  0.7764  0.2488  1.0000\n  H   H11       1.0000  0.5874  0.7764  0.7488  1.0000\n  H   H12       1.0000  0.0874  0.2236  0.7512  1.0000\n  H   H13       1.0000  0.3838  0.3809  0.5571  1.0000\n  H   H14       1.0000  0.8838  0.6191  0.9429  1.0000\n  H   H15       1.0000  0.6162  0.6191  0.4429  1.0000\n  O   O1        1.0000  0.1162  0.3809  0.0571  1.0000\n  H   H16       1.0000  0.1636  0.3143  0.5592  1.0000\n  H   H17       1.0000  0.6636  0.6857  0.9408  1.0000\n  H   H18       1.0000  0.8364  0.6857  0.4409  1.0000\n  H   H19       1.0000  0.3364  0.3143  0.0592  1.0000\n  H   H20       1.0000  0.3395  0.6524  0.1353  1.0000\n  H   H21       1.0000  0.8395  0.3476  0.3647  1.0000\n  H   H22       1.0000  0.6605  0.3476  0.8647  1.0000\n  H   H23       1.0000  0.1605  0.6524  0.6353  1.0000\n  H   H24       1.0000  0.3384  0.5034  0.1154  1.0000\n  H   H25       1.0000  0.8384  0.4966  0.3846  1.0000\n  H   H26       1.0000  0.6616  0.4966  0.8846  1.0000\n  H   H27       1.0000  0.1616  0.5034  0.6154  1.0000\n  O   O2        1.0000  0.2531  0.8245  0.5603  1.0000\n  O   O3        1.0000  0.7531  0.1755  0.9397  1.0000\n  O   O4        1.0000  0.7469  0.1755  0.4397  1.0000\n  O   O5        1.0000  0.2469  0.8245  0.0603  1.0000\n  O   O6        1.0000  0.0257  0.1712  0.6180  1.0000\n  O   O7        1.0000  0.5257  0.8288  0.8820  1.0000\n  O   O8        1.0000  0.9743  0.8288  0.3820  1.0000\n  O   O9        1.0000  0.4743  0.1712  0.1180  1.0000\n  O   O10       1.0000  0.1916  0.9267  0.7498  1.0000\n  O   O11       1.0000  0.6916  0.0733  0.7502  1.0000\n  O   O12       1.0000  0.8084  0.0733  0.2502  1.0000\n  O   O13       1.0000  0.3084  0.9267  0.2498  1.0000\n  O   O14       1.0000  0.4387  0.0829  0.5853  1.0000\n  O   O15       1.0000  0.9387  0.9171  0.9147  1.0000\n  O   O16       1.0000  0.5613  0.9171  0.4147  1.0000\n  O   O17       1.0000  0.0613  0.0829  0.0853  1.0000\n  O   O18       1.0000  0.3584  0.6652  0.3967  1.0000\n  O   O19       1.0000  0.8584  0.3348  0.1033  1.0000\n  O   O20       1.0000  0.6416  0.3348  0.6033  1.0000\n  O   O21       1.0000  0.1416  0.6652  0.8967  1.0000\n  O   O22       1.0000  0.8627  0.9501  0.5707  1.0000\n  H   H28       1.0000  0.3627  0.0499  0.9293  1.0000\n  O   O23       1.0000  0.1373  0.0499  0.4293  1.0000\n  O   O24       1.0000  0.6373  0.9501  0.0707  1.0000\n  O   O25       1.0000  0.3821  0.2492  0.3205  1.0000\n  O   O26       1.0000  0.8821  0.7508  0.1795  1.0000\n  O   O27       1.0000  0.6179  0.7508  0.6795  1.0000\n  O   O28       1.0000  0.1179  0.2492  0.8205  1.0000\n  O   O29       1.0000  0.2398  0.3994  0.5334  1.0000\n  O   O30       1.0000  0.7398  0.6006  0.9666  1.0000\n  O   O31       1.0000  0.7602  0.6006  0.4666  1.0000\n  O   O32       1.0000  0.2602  0.3994  0.0334  1.0000\n  O   O33       1.0000  0.3819  0.5610  0.1676  1.0000\n  O   O34       1.0000  0.8819  0.4390  0.3324  1.0000\n  O   O35       1.0000  0.6181  0.4390  0.8324  1.0000\n  O   O36       1.0000  0.1181  0.5610  0.6676  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e5d81f7-758e-4f25-8329-cc7b5504ca3a",
    "mp_id": "mp-1195087",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tl4PbSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5551\n_cell_length_b   8.5551\n_cell_length_c   13.0768\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tl4PbSe3\n_chemical_formula_sum   'Tl16 Pb4 Se12'\n_cell_volume   957.0813\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.3284  0.3827  0.4038  1\n  Tl  Tl1  1  0.6716  0.3827  0.9038  1\n  Tl  Tl2  1  0.3284  0.6173  0.9038  1\n  Tl  Tl3  1  0.6716  0.6173  0.4038  1\n  Tl  Tl4  1  0.8827  0.8284  0.9038  1\n  Tl  Tl5  1  0.1173  0.8284  0.4038  1\n  Tl  Tl6  1  0.8827  0.1716  0.4038  1\n  Tl  Tl7  1  0.1173  0.1716  0.9038  1\n  Tl  Tl8  1  0.1716  0.1173  0.5962  1\n  Tl  Tl9  1  0.8284  0.1173  0.0962  1\n  Tl  Tl10  1  0.1716  0.8827  0.0962  1\n  Tl  Tl11  1  0.8284  0.8827  0.5962  1\n  Tl  Tl12  1  0.6173  0.6716  0.0962  1\n  Tl  Tl13  1  0.3827  0.6716  0.5962  1\n  Tl  Tl14  1  0.6173  0.3284  0.5962  1\n  Tl  Tl15  1  0.3827  0.3284  0.0962  1\n  Pb  Pb16  1  0.0000  0.5000  0.2113  1\n  Pb  Pb17  1  0.0000  0.5000  0.7113  1\n  Pb  Pb18  1  0.5000  0.0000  0.7887  1\n  Pb  Pb19  1  0.5000  0.0000  0.2887  1\n  Se  Se20  1  0.0000  0.5000  0.4955  1\n  Se  Se21  1  0.0000  0.5000  0.9955  1\n  Se  Se22  1  0.5000  0.0000  0.5045  1\n  Se  Se23  1  0.5000  0.0000  0.0045  1\n  Se  Se24  1  0.3279  0.6721  0.2500  1\n  Se  Se25  1  0.6721  0.6721  0.7500  1\n  Se  Se26  1  0.3279  0.3279  0.7500  1\n  Se  Se27  1  0.6721  0.3279  0.2500  1\n  Se  Se28  1  0.1721  0.8279  0.7500  1\n  Se  Se29  1  0.8279  0.8279  0.2500  1\n  Se  Se30  1  0.1721  0.1721  0.2500  1\n  Se  Se31  1  0.8279  0.1721  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl16Pb3Se2PbSe10\n_chemical_formula_sum              \"Tl16 Pb4 Se12\"\n_cell_length_a       8.5551\n_cell_length_b       8.5551\n_cell_length_c       13.0768\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.3284  0.3827  0.4038  1.0000\n  Tl  Tl2       1.0000  0.6716  0.3827  0.9038  1.0000\n  Tl  Tl3       1.0000  0.3284  0.6173  0.9038  1.0000\n  Tl  Tl4       1.0000  0.6716  0.6173  0.4038  1.0000\n  Tl  Tl5       1.0000  0.8827  0.8284  0.9038  1.0000\n  Tl  Tl6       1.0000  0.1173  0.8284  0.4038  1.0000\n  Tl  Tl7       1.0000  0.8827  0.1716  0.4038  1.0000\n  Tl  Tl8       1.0000  0.1173  0.1716  0.9038  1.0000\n  Tl  Tl9       1.0000  0.1716  0.1173  0.5962  1.0000\n  Tl  Tl10      1.0000  0.8284  0.1173  0.0962  1.0000\n  Tl  Tl11      1.0000  0.1716  0.8827  0.0962  1.0000\n  Tl  Tl12      1.0000  0.8284  0.8827  0.5962  1.0000\n  Tl  Tl13      1.0000  0.6173  0.6716  0.0962  1.0000\n  Tl  Tl14      1.0000  0.3827  0.6716  0.5962  1.0000\n  Tl  Tl15      1.0000  0.6173  0.3284  0.5962  1.0000\n  Tl  Tl16      1.0000  0.3827  0.3284  0.0962  1.0000\n  Pb  Pb1       1.0000  0.0000  0.5000  0.2113  1.0000\n  Pb  Pb2       1.0000  0.0000  0.5000  0.7113  1.0000\n  Pb  Pb3       1.0000  0.5000  0.0000  0.7887  1.0000\n  Se  Se1       1.0000  0.5000  0.0000  0.2887  1.0000\n  Se  Se2       1.0000  0.0000  0.5000  0.4955  1.0000\n  Pb  Pb4       1.0000  0.0000  0.5000  0.9955  1.0000\n  Se  Se3       1.0000  0.5000  0.0000  0.5045  1.0000\n  Se  Se4       1.0000  0.5000  0.0000  0.0045  1.0000\n  Se  Se5       1.0000  0.3279  0.6721  0.2500  1.0000\n  Se  Se6       1.0000  0.6721  0.6721  0.7500  1.0000\n  Se  Se7       1.0000  0.3279  0.3279  0.7500  1.0000\n  Se  Se8       1.0000  0.6721  0.3279  0.2500  1.0000\n  Se  Se9       1.0000  0.1721  0.8279  0.7500  1.0000\n  Se  Se10      1.0000  0.8279  0.8279  0.2500  1.0000\n  Se  Se11      1.0000  0.1721  0.1721  0.2500  1.0000\n  Se  Se12      1.0000  0.8279  0.1721  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "49a46b3e-feea-4069-8162-b3fb017a0714",
    "mp_id": "mp-1195106",
    "action_prompt": "Swap the spatial positions of atoms at indices 48 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H8C5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8540\n_cell_length_b   6.8540\n_cell_length_c   9.3508\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H8C5\n_chemical_formula_sum   'H32 C20'\n_cell_volume   439.2790\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.8108  0.4479  0.6635  1\n  H  H1  1  0.3108  0.0521  0.8365  1\n  H  H2  1  0.1892  0.5521  0.6635  1\n  H  H3  1  0.6892  0.9479  0.8365  1\n  H  H4  1  0.4479  0.1892  0.3365  1\n  H  H5  1  0.0521  0.6892  0.1635  1\n  H  H6  1  0.5521  0.8108  0.3365  1\n  H  H7  1  0.9479  0.3108  0.1635  1\n  H  H8  1  0.5198  0.6271  0.7623  1\n  H  H9  1  0.0198  0.8729  0.7377  1\n  H  H10  1  0.4802  0.3729  0.7623  1\n  H  H11  1  0.9802  0.1271  0.7377  1\n  H  H12  1  0.6271  0.4802  0.2377  1\n  H  H13  1  0.8729  0.9802  0.2623  1\n  H  H14  1  0.3729  0.5198  0.2377  1\n  H  H15  1  0.1271  0.0198  0.2623  1\n  H  H16  1  0.7333  0.7808  0.5670  1\n  H  H17  1  0.2334  0.7192  0.9330  1\n  H  H18  1  0.2666  0.2192  0.5670  1\n  H  H19  1  0.7667  0.2808  0.9330  1\n  H  H20  1  0.7808  0.2666  0.4330  1\n  H  H21  1  0.7192  0.7667  0.0670  1\n  H  H22  1  0.2192  0.7333  0.4330  1\n  H  H23  1  0.2808  0.2334  0.0670  1\n  H  H24  1  0.8431  0.6310  0.4350  1\n  H  H25  1  0.3431  0.8690  0.0650  1\n  H  H26  1  0.1569  0.3690  0.4350  1\n  H  H27  1  0.6569  0.1310  0.0650  1\n  H  H28  1  0.6310  0.1569  0.5650  1\n  H  H29  1  0.8690  0.6569  0.9350  1\n  H  H30  1  0.3690  0.8431  0.5650  1\n  H  H31  1  0.1310  0.3431  0.9350  1\n  C  C32  1  0.6805  0.4698  0.5960  1\n  C  C33  1  0.1805  0.0302  0.9040  1\n  C  C34  1  0.3195  0.5302  0.5960  1\n  C  C35  1  0.8195  0.9698  0.9040  1\n  C  C36  1  0.4698  0.3195  0.4040  1\n  C  C37  1  0.0302  0.8195  0.0960  1\n  C  C38  1  0.5302  0.6805  0.4040  1\n  C  C39  1  0.9698  0.1805  0.0960  1\n  C  C40  1  0.7104  0.6503  0.5004  1\n  C  C41  1  0.2104  0.8497  0.9996  1\n  C  C42  1  0.2896  0.3497  0.5004  1\n  C  C43  1  0.7896  0.1503  0.9996  1\n  C  C44  1  0.6503  0.2896  0.4996  1\n  C  C45  1  0.8497  0.7896  0.0004  1\n  C  C46  1  0.3497  0.7104  0.4996  1\n  C  C47  1  0.1503  0.2104  0.0004  1\n  C  C48  1  0.5000  0.5000  0.6913  1\n  C  C49  1  0.0000  0.0000  0.8087  1\n  C  C50  1  0.5000  0.5000  0.3087  1\n  C  C51  1  0.0000  0.0000  0.1913  1\n",
    "output": "data_image0\n_chemical_formula_structural       H17CH14C16HC3\n_chemical_formula_sum              \"H32 C20\"\n_cell_length_a       6.8540\n_cell_length_b       6.8540\n_cell_length_c       9.3508\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.8108  0.4479  0.6635  1.0000\n  H   H2        1.0000  0.3108  0.0521  0.8365  1.0000\n  H   H3        1.0000  0.1892  0.5521  0.6635  1.0000\n  H   H4        1.0000  0.6892  0.9479  0.8365  1.0000\n  H   H5        1.0000  0.4479  0.1892  0.3365  1.0000\n  H   H6        1.0000  0.0521  0.6892  0.1635  1.0000\n  H   H7        1.0000  0.5521  0.8108  0.3365  1.0000\n  H   H8        1.0000  0.9479  0.3108  0.1635  1.0000\n  H   H9        1.0000  0.5198  0.6271  0.7623  1.0000\n  H   H10       1.0000  0.0198  0.8729  0.7377  1.0000\n  H   H11       1.0000  0.4802  0.3729  0.7623  1.0000\n  H   H12       1.0000  0.9802  0.1271  0.7377  1.0000\n  H   H13       1.0000  0.6271  0.4802  0.2377  1.0000\n  H   H14       1.0000  0.8729  0.9802  0.2623  1.0000\n  H   H15       1.0000  0.3729  0.5198  0.2377  1.0000\n  H   H16       1.0000  0.1271  0.0198  0.2623  1.0000\n  H   H17       1.0000  0.7333  0.7808  0.5670  1.0000\n  C   C1        1.0000  0.2334  0.7192  0.9330  1.0000\n  H   H18       1.0000  0.2666  0.2192  0.5670  1.0000\n  H   H19       1.0000  0.7667  0.2808  0.9330  1.0000\n  H   H20       1.0000  0.7808  0.2666  0.4330  1.0000\n  H   H21       1.0000  0.7192  0.7667  0.0670  1.0000\n  H   H22       1.0000  0.2192  0.7333  0.4330  1.0000\n  H   H23       1.0000  0.2808  0.2334  0.0670  1.0000\n  H   H24       1.0000  0.8431  0.6310  0.4350  1.0000\n  H   H25       1.0000  0.3431  0.8690  0.0650  1.0000\n  H   H26       1.0000  0.1569  0.3690  0.4350  1.0000\n  H   H27       1.0000  0.6569  0.1310  0.0650  1.0000\n  H   H28       1.0000  0.6310  0.1569  0.5650  1.0000\n  H   H29       1.0000  0.8690  0.6569  0.9350  1.0000\n  H   H30       1.0000  0.3690  0.8431  0.5650  1.0000\n  H   H31       1.0000  0.1310  0.3431  0.9350  1.0000\n  C   C2        1.0000  0.6805  0.4698  0.5960  1.0000\n  C   C3        1.0000  0.1805  0.0302  0.9040  1.0000\n  C   C4        1.0000  0.3195  0.5302  0.5960  1.0000\n  C   C5        1.0000  0.8195  0.9698  0.9040  1.0000\n  C   C6        1.0000  0.4698  0.3195  0.4040  1.0000\n  C   C7        1.0000  0.0302  0.8195  0.0960  1.0000\n  C   C8        1.0000  0.5302  0.6805  0.4040  1.0000\n  C   C9        1.0000  0.9698  0.1805  0.0960  1.0000\n  C   C10       1.0000  0.7104  0.6503  0.5004  1.0000\n  C   C11       1.0000  0.2104  0.8497  0.9996  1.0000\n  C   C12       1.0000  0.2896  0.3497  0.5004  1.0000\n  C   C13       1.0000  0.7896  0.1503  0.9996  1.0000\n  C   C14       1.0000  0.6503  0.2896  0.4996  1.0000\n  C   C15       1.0000  0.8497  0.7896  0.0004  1.0000\n  C   C16       1.0000  0.3497  0.7104  0.4996  1.0000\n  C   C17       1.0000  0.1503  0.2104  0.0004  1.0000\n  H   H32       1.0000  0.5000  0.5000  0.6913  1.0000\n  C   C18       1.0000  0.0000  0.0000  0.8087  1.0000\n  C   C19       1.0000  0.5000  0.5000  0.3087  1.0000\n  C   C20       1.0000  0.0000  0.0000  0.1913  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d19573a7-a3f0-4d38-96d2-1bf7f5fcd338",
    "mp_id": "mp-1195319",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H6C3S(NO)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.2566\n_cell_length_b   5.5871\n_cell_length_c   15.2970\n_cell_angle_alpha   90.0000\n_cell_angle_beta   125.6511\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H6C3S(NO)2\n_chemical_formula_sum   'H24 C12 S4 N8 O8'\n_cell_volume   781.7460\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.3853  0.6257  0.0685  1\n  H  H1  1  0.3853  0.8743  0.5685  1\n  H  H2  1  0.6147  0.3743  0.9315  1\n  H  H3  1  0.6147  0.1257  0.4315  1\n  H  H4  1  0.4723  0.7761  0.0169  1\n  H  H5  1  0.4723  0.7239  0.5169  1\n  H  H6  1  0.5277  0.2239  0.9831  1\n  H  H7  1  0.5277  0.2761  0.4831  1\n  H  H8  1  0.2840  0.1644  0.1307  1\n  H  H9  1  0.2840  0.3356  0.6307  1\n  H  H10  1  0.7160  0.8356  0.8693  1\n  H  H11  1  0.7160  0.6644  0.3693  1\n  H  H12  1  0.0168  0.5410  0.1282  1\n  H  H13  1  0.0168  0.9590  0.6282  1\n  H  H14  1  0.9832  0.4590  0.8718  1\n  H  H15  1  0.9832  0.0410  0.3718  1\n  H  H16  1  0.0291  0.6709  0.2403  1\n  H  H17  1  0.0291  0.8291  0.7403  1\n  H  H18  1  0.9709  0.3291  0.7597  1\n  H  H19  1  0.9709  0.1709  0.2597  1\n  H  H20  1  0.1832  0.5142  0.2619  1\n  H  H21  1  0.1832  0.9858  0.7619  1\n  H  H22  1  0.8168  0.4858  0.7381  1\n  H  H23  1  0.8168  0.0142  0.2381  1\n  C  C24  1  0.0896  0.6287  0.2063  1\n  C  C25  1  0.0896  0.8713  0.7063  1\n  C  C26  1  0.9104  0.3713  0.7937  1\n  C  C27  1  0.9104  0.1287  0.2937  1\n  C  C28  1  0.3835  0.9944  0.0703  1\n  C  C29  1  0.3835  0.5056  0.5703  1\n  C  C30  1  0.6165  0.0056  0.9297  1\n  C  C31  1  0.6165  0.4944  0.4297  1\n  C  C32  1  0.2486  0.8070  0.1389  1\n  C  C33  1  0.2486  0.6930  0.6389  1\n  C  C34  1  0.7514  0.1930  0.8611  1\n  C  C35  1  0.7514  0.3070  0.3611  1\n  S  S36  1  0.1513  0.9109  0.1906  1\n  S  S37  1  0.1513  0.5891  0.6906  1\n  S  S38  1  0.8487  0.0891  0.8094  1\n  S  S39  1  0.8487  0.4109  0.3094  1\n  N  N40  1  0.4164  0.7793  0.0507  1\n  N  N41  1  0.4164  0.7207  0.5506  1\n  N  N42  1  0.5836  0.2207  0.9494  1\n  N  N43  1  0.5836  0.2793  0.4494  1\n  N  N44  1  0.3050  0.9961  0.1165  1\n  N  N45  1  0.3050  0.5039  0.6165  1\n  N  N46  1  0.6950  0.0039  0.8835  1\n  N  N47  1  0.6950  0.4961  0.3835  1\n  O  O48  1  0.4165  0.1901  0.0508  1\n  O  O49  1  0.4165  0.3099  0.5508  1\n  O  O50  1  0.5835  0.8099  0.9492  1\n  O  O51  1  0.5835  0.6901  0.4492  1\n  O  O52  1  0.2618  0.5936  0.1250  1\n  O  O53  1  0.2618  0.9064  0.6250  1\n  O  O54  1  0.7382  0.4064  0.8750  1\n  O  O55  1  0.7382  0.0936  0.3750  1\n",
    "output": "data_image0\n_chemical_formula_structural       H23SC12S3HN8O8\n_chemical_formula_sum              \"H24 S4 C12 N8 O8\"\n_cell_length_a       11.2566\n_cell_length_b       5.5871\n_cell_length_c       15.2970\n_cell_angle_alpha    90.0000\n_cell_angle_beta     125.6511\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.3853  0.6257  0.0685  1.0000\n  H   H2        1.0000  0.3853  0.8743  0.5685  1.0000\n  H   H3        1.0000  0.6147  0.3743  0.9315  1.0000\n  H   H4        1.0000  0.6147  0.1257  0.4315  1.0000\n  H   H5        1.0000  0.4723  0.7761  0.0169  1.0000\n  H   H6        1.0000  0.4723  0.7239  0.5169  1.0000\n  H   H7        1.0000  0.5277  0.2239  0.9831  1.0000\n  H   H8        1.0000  0.5277  0.2761  0.4831  1.0000\n  H   H9        1.0000  0.2840  0.1644  0.1307  1.0000\n  H   H10       1.0000  0.2840  0.3356  0.6307  1.0000\n  H   H11       1.0000  0.7160  0.8356  0.8693  1.0000\n  H   H12       1.0000  0.7160  0.6644  0.3693  1.0000\n  H   H13       1.0000  0.0168  0.5410  0.1282  1.0000\n  H   H14       1.0000  0.0168  0.9590  0.6282  1.0000\n  H   H15       1.0000  0.9832  0.4590  0.8718  1.0000\n  H   H16       1.0000  0.9832  0.0410  0.3718  1.0000\n  H   H17       1.0000  0.0291  0.6709  0.2403  1.0000\n  H   H18       1.0000  0.0291  0.8291  0.7403  1.0000\n  H   H19       1.0000  0.9709  0.3291  0.7597  1.0000\n  H   H20       1.0000  0.9709  0.1709  0.2597  1.0000\n  H   H21       1.0000  0.1832  0.5142  0.2619  1.0000\n  H   H22       1.0000  0.1832  0.9858  0.7619  1.0000\n  H   H23       1.0000  0.8168  0.4858  0.7381  1.0000\n  S   S1        1.0000  0.8168  0.0142  0.2381  1.0000\n  C   C1        1.0000  0.0896  0.6287  0.2063  1.0000\n  C   C2        1.0000  0.0896  0.8713  0.7063  1.0000\n  C   C3        1.0000  0.9104  0.3713  0.7937  1.0000\n  C   C4        1.0000  0.9104  0.1287  0.2937  1.0000\n  C   C5        1.0000  0.3835  0.9944  0.0703  1.0000\n  C   C6        1.0000  0.3835  0.5056  0.5703  1.0000\n  C   C7        1.0000  0.6165  0.0056  0.9297  1.0000\n  C   C8        1.0000  0.6165  0.4944  0.4297  1.0000\n  C   C9        1.0000  0.2486  0.8070  0.1389  1.0000\n  C   C10       1.0000  0.2486  0.6930  0.6389  1.0000\n  C   C11       1.0000  0.7514  0.1930  0.8611  1.0000\n  C   C12       1.0000  0.7514  0.3070  0.3611  1.0000\n  S   S2        1.0000  0.1513  0.9109  0.1906  1.0000\n  S   S3        1.0000  0.1513  0.5891  0.6906  1.0000\n  S   S4        1.0000  0.8487  0.0891  0.8094  1.0000\n  H   H24       1.0000  0.8487  0.4109  0.3094  1.0000\n  N   N1        1.0000  0.4164  0.7793  0.0507  1.0000\n  N   N2        1.0000  0.4164  0.7207  0.5507  1.0000\n  N   N3        1.0000  0.5836  0.2207  0.9494  1.0000\n  N   N4        1.0000  0.5836  0.2793  0.4494  1.0000\n  N   N5        1.0000  0.3050  0.9961  0.1165  1.0000\n  N   N6        1.0000  0.3050  0.5039  0.6165  1.0000\n  N   N7        1.0000  0.6950  0.0039  0.8835  1.0000\n  N   N8        1.0000  0.6950  0.4961  0.3835  1.0000\n  O   O1        1.0000  0.4165  0.1901  0.0508  1.0000\n  O   O2        1.0000  0.4165  0.3099  0.5508  1.0000\n  O   O3        1.0000  0.5835  0.8099  0.9492  1.0000\n  O   O4        1.0000  0.5835  0.6901  0.4492  1.0000\n  O   O5        1.0000  0.2618  0.5936  0.1250  1.0000\n  O   O6        1.0000  0.2618  0.9064  0.6250  1.0000\n  O   O7        1.0000  0.7382  0.4064  0.8750  1.0000\n  O   O8        1.0000  0.7382  0.0936  0.3750  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4f2d8956-a75a-4e16-b22f-de787f2e8dd8",
    "mp_id": "mp-1195337",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ir(SeBr3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6880\n_cell_length_b   12.2640\n_cell_length_c   14.1562\n_cell_angle_alpha   90.8031\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ir(SeBr3)3\n_chemical_formula_sum   'Ir4 Se12 Br36'\n_cell_volume   1681.7920\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ir  Ir0  1  0.2446  0.7474  0.4938  1\n  Ir  Ir1  1  0.2554  0.2474  0.9938  1\n  Ir  Ir2  1  0.7554  0.2526  0.5062  1\n  Ir  Ir3  1  0.7446  0.7526  0.0062  1\n  Se  Se4  1  0.2591  0.8729  0.6231  1\n  Se  Se5  1  0.2409  0.3729  0.1231  1\n  Se  Se6  1  0.7409  0.1271  0.3769  1\n  Se  Se7  1  0.7591  0.6271  0.8769  1\n  Se  Se8  1  0.1957  0.5917  0.5864  1\n  Se  Se9  1  0.3043  0.0917  0.0864  1\n  Se  Se10  1  0.8043  0.4083  0.4136  1\n  Se  Se11  1  0.6957  0.9083  0.9136  1\n  Se  Se12  1  0.0113  0.7864  0.4569  1\n  Se  Se13  1  0.4887  0.2864  0.9569  1\n  Se  Se14  1  0.9887  0.2136  0.5431  1\n  Se  Se15  1  0.5113  0.7136  0.0431  1\n  Br  Br16  1  0.4990  0.7561  0.5294  1\n  Br  Br17  1  0.0010  0.2561  0.0294  1\n  Br  Br18  1  0.5010  0.2439  0.4706  1\n  Br  Br19  1  -0.0010  0.7439  0.9706  1\n  Br  Br20  1  0.2733  0.5933  0.3764  1\n  Br  Br21  1  0.2267  0.0933  0.8764  1\n  Br  Br22  1  0.7267  0.4067  0.6236  1\n  Br  Br23  1  0.7733  0.9067  0.1236  1\n  Br  Br24  1  0.2634  0.8867  0.3662  1\n  Br  Br25  1  0.2366  0.3867  0.8662  1\n  Br  Br26  1  0.7366  0.1133  0.6338  1\n  Br  Br27  1  0.7634  0.6133  0.1338  1\n  Br  Br28  1  0.0327  0.9374  0.6555  1\n  Br  Br29  1  0.4673  0.4374  0.1555  1\n  Br  Br30  1  0.9673  0.0626  0.3445  1\n  Br  Br31  1  0.5327  0.5626  0.8445  1\n  Br  Br32  1  0.3534  0.0403  0.5753  1\n  Br  Br33  1  0.1466  0.5403  0.0753  1\n  Br  Br34  1  0.6466  0.9597  0.4247  1\n  Br  Br35  1  0.8534  0.4597  0.9247  1\n  Br  Br36  1  0.1496  0.6505  0.7448  1\n  Br  Br37  1  0.3504  0.1505  0.2448  1\n  Br  Br38  1  0.8504  0.3495  0.2552  1\n  Br  Br39  1  0.6496  0.8495  0.7552  1\n  Br  Br40  1  0.3987  0.4930  0.6126  1\n  Br  Br41  1  0.1013  -0.0070  0.1126  1\n  Br  Br42  1  0.6013  0.5070  0.3874  1\n  Br  Br43  1  0.8987  0.0070  0.8874  1\n  Br  Br44  1  0.8699  0.6726  0.5518  1\n  Br  Br45  1  0.6301  0.1726  0.0518  1\n  Br  Br46  1  0.1301  0.3274  0.4482  1\n  Br  Br47  1  0.3699  0.8274  0.9482  1\n  Br  Br48  1  0.9393  0.7125  0.3104  1\n  Br  Br49  1  0.5607  0.2125  0.8104  1\n  Br  Br50  1  0.0607  0.2875  0.6896  1\n  Br  Br51  1  0.4393  0.7875  0.1896  1\n",
    "output": "data_image0\n_chemical_formula_structural       SeIr3Se2IrSe9Br36\n_chemical_formula_sum              \"Se12 Ir4 Br36\"\n_cell_length_a       9.6880\n_cell_length_b       12.2640\n_cell_length_c       14.1562\n_cell_angle_alpha    90.8031\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Se  Se1       1.0000  0.2446  0.7474  0.4938  1.0000\n  Ir  Ir1       1.0000  0.2554  0.2474  0.9938  1.0000\n  Ir  Ir2       1.0000  0.7554  0.2526  0.5062  1.0000\n  Ir  Ir3       1.0000  0.7446  0.7526  0.0062  1.0000\n  Se  Se2       1.0000  0.2591  0.8729  0.6231  1.0000\n  Se  Se3       1.0000  0.2409  0.3729  0.1231  1.0000\n  Ir  Ir4       1.0000  0.7409  0.1271  0.3769  1.0000\n  Se  Se4       1.0000  0.7591  0.6271  0.8769  1.0000\n  Se  Se5       1.0000  0.1957  0.5917  0.5864  1.0000\n  Se  Se6       1.0000  0.3043  0.0917  0.0864  1.0000\n  Se  Se7       1.0000  0.8043  0.4083  0.4136  1.0000\n  Se  Se8       1.0000  0.6957  0.9083  0.9136  1.0000\n  Se  Se9       1.0000  0.0113  0.7864  0.4569  1.0000\n  Se  Se10      1.0000  0.4887  0.2864  0.9569  1.0000\n  Se  Se11      1.0000  0.9887  0.2136  0.5431  1.0000\n  Se  Se12      1.0000  0.5113  0.7136  0.0431  1.0000\n  Br  Br1       1.0000  0.4990  0.7561  0.5294  1.0000\n  Br  Br2       1.0000  0.0010  0.2561  0.0294  1.0000\n  Br  Br3       1.0000  0.5010  0.2439  0.4706  1.0000\n  Br  Br4       1.0000  0.9990  0.7439  0.9706  1.0000\n  Br  Br5       1.0000  0.2733  0.5933  0.3764  1.0000\n  Br  Br6       1.0000  0.2267  0.0933  0.8764  1.0000\n  Br  Br7       1.0000  0.7267  0.4067  0.6236  1.0000\n  Br  Br8       1.0000  0.7733  0.9067  0.1236  1.0000\n  Br  Br9       1.0000  0.2634  0.8867  0.3662  1.0000\n  Br  Br10      1.0000  0.2366  0.3867  0.8662  1.0000\n  Br  Br11      1.0000  0.7366  0.1133  0.6338  1.0000\n  Br  Br12      1.0000  0.7634  0.6133  0.1338  1.0000\n  Br  Br13      1.0000  0.0327  0.9374  0.6555  1.0000\n  Br  Br14      1.0000  0.4673  0.4374  0.1555  1.0000\n  Br  Br15      1.0000  0.9673  0.0626  0.3445  1.0000\n  Br  Br16      1.0000  0.5327  0.5626  0.8445  1.0000\n  Br  Br17      1.0000  0.3534  0.0403  0.5753  1.0000\n  Br  Br18      1.0000  0.1466  0.5403  0.0753  1.0000\n  Br  Br19      1.0000  0.6466  0.9597  0.4247  1.0000\n  Br  Br20      1.0000  0.8534  0.4597  0.9247  1.0000\n  Br  Br21      1.0000  0.1496  0.6505  0.7448  1.0000\n  Br  Br22      1.0000  0.3504  0.1505  0.2448  1.0000\n  Br  Br23      1.0000  0.8504  0.3495  0.2552  1.0000\n  Br  Br24      1.0000  0.6496  0.8495  0.7552  1.0000\n  Br  Br25      1.0000  0.3987  0.4930  0.6126  1.0000\n  Br  Br26      1.0000  0.1013  0.9930  0.1126  1.0000\n  Br  Br27      1.0000  0.6013  0.5070  0.3874  1.0000\n  Br  Br28      1.0000  0.8987  0.0070  0.8874  1.0000\n  Br  Br29      1.0000  0.8699  0.6726  0.5518  1.0000\n  Br  Br30      1.0000  0.6301  0.1726  0.0518  1.0000\n  Br  Br31      1.0000  0.1301  0.3274  0.4482  1.0000\n  Br  Br32      1.0000  0.3699  0.8274  0.9482  1.0000\n  Br  Br33      1.0000  0.9393  0.7125  0.3104  1.0000\n  Br  Br34      1.0000  0.5607  0.2125  0.8104  1.0000\n  Br  Br35      1.0000  0.0607  0.2875  0.6896  1.0000\n  Br  Br36      1.0000  0.4393  0.7875  0.1896  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dadac0fb-3a39-43ce-9577-0ddd581ea8a8",
    "mp_id": "mp-1195540",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy3(Al3Ru)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7616\n_cell_length_b   8.7617\n_cell_length_c   9.4942\n_cell_angle_alpha   90.0001\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy3(Al3Ru)4\n_chemical_formula_sum   'Dy6 Al24 Ru8'\n_cell_volume   631.1897\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.1931  0.8069  0.2500  1\n  Dy  Dy1  1  0.1931  0.3863  0.2500  1\n  Dy  Dy2  1  0.6137  0.8069  0.2500  1\n  Dy  Dy3  1  0.8069  0.1931  0.7500  1\n  Dy  Dy4  1  0.8069  0.6137  0.7500  1\n  Dy  Dy5  1  0.3863  0.1931  0.7500  1\n  Al  Al6  1  0.5611  0.4389  0.2500  1\n  Al  Al7  1  0.5611  0.1221  0.2500  1\n  Al  Al8  1  0.8779  0.4389  0.2500  1\n  Al  Al9  1  0.4389  0.5611  0.7500  1\n  Al  Al10  1  0.4389  0.8779  0.7500  1\n  Al  Al11  1  0.1221  0.5611  0.7500  1\n  Al  Al12  1  0.3247  0.1624  0.4232  1\n  Al  Al13  1  0.8376  0.1624  0.4232  1\n  Al  Al14  1  0.8376  0.6753  0.4232  1\n  Al  Al15  1  0.6753  0.8376  0.5768  1\n  Al  Al16  1  0.1624  0.8376  0.5768  1\n  Al  Al17  1  0.1624  0.3247  0.5769  1\n  Al  Al18  1  0.6753  0.8376  0.9232  1\n  Al  Al19  1  0.1624  0.8376  0.9232  1\n  Al  Al20  1  0.1624  0.3247  0.9232  1\n  Al  Al21  1  0.3247  0.1624  0.0768  1\n  Al  Al22  1  0.8376  0.1624  0.0768  1\n  Al  Al23  1  0.8376  0.6753  0.0768  1\n  Al  Al24  1  0.6667  0.3333  0.5091  1\n  Al  Al25  1  0.3333  0.6667  0.4909  1\n  Al  Al26  1  0.3333  0.6667  0.0091  1\n  Al  Al27  1  0.6667  0.3333  0.9909  1\n  Al  Al28  1  -0.0000  -0.0000  0.2500  1\n  Al  Al29  1  0.0000  0.0000  0.7500  1\n  Ru  Ru30  1  0.0000  0.0000  0.5000  1\n  Ru  Ru31  1  -0.0000  -0.0000  -0.0000  1\n  Ru  Ru32  1  0.5000  0.5000  0.5000  1\n  Ru  Ru33  1  0.5000  -0.0000  0.5000  1\n  Ru  Ru34  1  0.0000  0.5000  0.5000  1\n  Ru  Ru35  1  0.5000  0.5000  0.0000  1\n  Ru  Ru36  1  0.5000  -0.0000  0.0000  1\n  Ru  Ru37  1  0.0000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       DyAlDy4Al2DyAl21Ru8\n_chemical_formula_sum              \"Dy6 Al24 Ru8\"\n_cell_length_a       8.7616\n_cell_length_b       8.7617\n_cell_length_c       9.4942\n_cell_angle_alpha    90.0001\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.1931  0.8069  0.2500  1.0000\n  Al  Al1       1.0000  0.1931  0.3863  0.2500  1.0000\n  Dy  Dy2       1.0000  0.6137  0.8069  0.2500  1.0000\n  Dy  Dy3       1.0000  0.8069  0.1931  0.7500  1.0000\n  Dy  Dy4       1.0000  0.8069  0.6137  0.7500  1.0000\n  Dy  Dy5       1.0000  0.3863  0.1931  0.7500  1.0000\n  Al  Al2       1.0000  0.5611  0.4389  0.2500  1.0000\n  Al  Al3       1.0000  0.5611  0.1221  0.2500  1.0000\n  Dy  Dy6       1.0000  0.8779  0.4389  0.2500  1.0000\n  Al  Al4       1.0000  0.4389  0.5611  0.7500  1.0000\n  Al  Al5       1.0000  0.4389  0.8779  0.7500  1.0000\n  Al  Al6       1.0000  0.1221  0.5611  0.7500  1.0000\n  Al  Al7       1.0000  0.3247  0.1624  0.4232  1.0000\n  Al  Al8       1.0000  0.8376  0.1624  0.4232  1.0000\n  Al  Al9       1.0000  0.8376  0.6753  0.4232  1.0000\n  Al  Al10      1.0000  0.6753  0.8376  0.5768  1.0000\n  Al  Al11      1.0000  0.1624  0.8376  0.5768  1.0000\n  Al  Al12      1.0000  0.1624  0.3247  0.5769  1.0000\n  Al  Al13      1.0000  0.6753  0.8376  0.9232  1.0000\n  Al  Al14      1.0000  0.1624  0.8376  0.9232  1.0000\n  Al  Al15      1.0000  0.1624  0.3247  0.9232  1.0000\n  Al  Al16      1.0000  0.3247  0.1624  0.0768  1.0000\n  Al  Al17      1.0000  0.8376  0.1624  0.0768  1.0000\n  Al  Al18      1.0000  0.8376  0.6753  0.0768  1.0000\n  Al  Al19      1.0000  0.6667  0.3333  0.5091  1.0000\n  Al  Al20      1.0000  0.3333  0.6667  0.4909  1.0000\n  Al  Al21      1.0000  0.3333  0.6667  0.0091  1.0000\n  Al  Al22      1.0000  0.6667  0.3333  0.9909  1.0000\n  Al  Al23      1.0000  1.0000  1.0000  0.2500  1.0000\n  Al  Al24      1.0000  0.0000  0.0000  0.7500  1.0000\n  Ru  Ru1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ru  Ru2       1.0000  1.0000  1.0000  1.0000  1.0000\n  Ru  Ru3       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ru  Ru4       1.0000  0.5000  1.0000  0.5000  1.0000\n  Ru  Ru5       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ru  Ru6       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ru  Ru7       1.0000  0.5000  1.0000  0.0000  1.0000\n  Ru  Ru8       1.0000  0.0000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fcedfbf1-1212-4477-9a92-095dcece99aa",
    "mp_id": "mp-1195827",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrLiAlF6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0400\n_cell_length_b   8.6970\n_cell_length_c   10.2495\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.1847\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrLiAlF6\n_chemical_formula_sum   'Sr4 Li4 Al4 F24'\n_cell_volume   449.2585\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7464  0.7394  0.0000  1\n  Sr  Sr1  1  0.2536  0.2394  0.5000  1\n  Sr  Sr2  1  0.2536  0.2606  1.0000  1\n  Sr  Sr3  1  0.7464  0.7606  0.5000  1\n  Li  Li4  1  0.7380  0.0839  0.7536  1\n  Li  Li5  1  0.2620  0.5839  0.7464  1\n  Li  Li6  1  0.2620  0.9161  0.2464  1\n  Li  Li7  1  0.7380  0.4161  0.2536  1\n  Al  Al8  1  0.7606  0.0827  0.2504  1\n  Al  Al9  1  0.2394  0.5827  0.2496  1\n  Al  Al10  1  0.2394  0.9173  0.7496  1\n  Al  Al11  1  0.7606  0.4173  0.7504  1\n  F  F12  1  0.8749  0.2389  0.3532  1\n  F  F13  1  0.1251  0.7389  0.1468  1\n  F  F14  1  0.1251  0.7611  0.6468  1\n  F  F15  1  0.8749  0.2611  0.8532  1\n  F  F16  1  0.4721  0.0612  0.3537  1\n  F  F17  1  0.5279  0.5612  0.1463  1\n  F  F18  1  0.5279  0.9388  0.6463  1\n  F  F19  1  0.4721  0.4388  0.8537  1\n  F  F20  1  0.6181  0.2325  0.1514  1\n  F  F21  1  0.3819  0.7325  0.3486  1\n  F  F22  1  0.3819  0.7675  0.8486  1\n  F  F23  1  0.6181  0.2675  0.6514  1\n  F  F24  1  0.0543  0.0786  0.1508  1\n  F  F25  1  0.9457  0.5786  0.3492  1\n  F  F26  1  0.9457  0.9214  0.8492  1\n  F  F27  1  0.0543  0.4214  0.6508  1\n  F  F28  1  0.9371  0.9467  0.3520  1\n  F  F29  1  0.0629  0.4467  0.1480  1\n  F  F30  1  0.0629  0.0533  0.6480  1\n  F  F31  1  0.9371  0.5533  0.8520  1\n  F  F32  1  0.6031  0.9381  0.1501  1\n  F  F33  1  0.3969  0.4381  0.3499  1\n  F  F34  1  0.3969  0.0619  0.8499  1\n  F  F35  1  0.6031  0.5619  0.6501  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrLiSr2Li3SrAl4F24\n_chemical_formula_sum              \"Sr4 Li4 Al4 F24\"\n_cell_length_a       5.0400\n_cell_length_b       8.6970\n_cell_length_c       10.2495\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.1847\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7464  0.7394  0.0000  1.0000\n  Li  Li1       1.0000  0.2536  0.2394  0.5000  1.0000\n  Sr  Sr2       1.0000  0.2536  0.2606  1.0000  1.0000\n  Sr  Sr3       1.0000  0.7464  0.7606  0.5000  1.0000\n  Li  Li2       1.0000  0.7380  0.0839  0.7536  1.0000\n  Li  Li3       1.0000  0.2620  0.5839  0.7464  1.0000\n  Li  Li4       1.0000  0.2620  0.9161  0.2464  1.0000\n  Sr  Sr4       1.0000  0.7380  0.4161  0.2536  1.0000\n  Al  Al1       1.0000  0.7606  0.0827  0.2504  1.0000\n  Al  Al2       1.0000  0.2394  0.5827  0.2496  1.0000\n  Al  Al3       1.0000  0.2394  0.9173  0.7496  1.0000\n  Al  Al4       1.0000  0.7606  0.4173  0.7504  1.0000\n  F   F1        1.0000  0.8749  0.2389  0.3532  1.0000\n  F   F2        1.0000  0.1251  0.7389  0.1468  1.0000\n  F   F3        1.0000  0.1251  0.7611  0.6468  1.0000\n  F   F4        1.0000  0.8749  0.2611  0.8532  1.0000\n  F   F5        1.0000  0.4721  0.0612  0.3537  1.0000\n  F   F6        1.0000  0.5279  0.5612  0.1463  1.0000\n  F   F7        1.0000  0.5279  0.9388  0.6463  1.0000\n  F   F8        1.0000  0.4721  0.4388  0.8537  1.0000\n  F   F9        1.0000  0.6181  0.2325  0.1514  1.0000\n  F   F10       1.0000  0.3819  0.7325  0.3486  1.0000\n  F   F11       1.0000  0.3819  0.7675  0.8486  1.0000\n  F   F12       1.0000  0.6181  0.2675  0.6514  1.0000\n  F   F13       1.0000  0.0543  0.0786  0.1508  1.0000\n  F   F14       1.0000  0.9457  0.5786  0.3492  1.0000\n  F   F15       1.0000  0.9457  0.9214  0.8492  1.0000\n  F   F16       1.0000  0.0543  0.4214  0.6508  1.0000\n  F   F17       1.0000  0.9371  0.9467  0.3520  1.0000\n  F   F18       1.0000  0.0629  0.4467  0.1480  1.0000\n  F   F19       1.0000  0.0629  0.0533  0.6480  1.0000\n  F   F20       1.0000  0.9371  0.5533  0.8520  1.0000\n  F   F21       1.0000  0.6031  0.9381  0.1501  1.0000\n  F   F22       1.0000  0.3969  0.4381  0.3499  1.0000\n  F   F23       1.0000  0.3969  0.0619  0.8499  1.0000\n  F   F24       1.0000  0.6031  0.5619  0.6501  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ca54850b-61cd-4c30-8ec3-fd77cc6cbe86",
    "mp_id": "mp-1195929",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_P3Pb5IO12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3887\n_cell_length_b   10.3887\n_cell_length_c   7.4776\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   P3Pb5IO12\n_chemical_formula_sum   'P6 Pb10 I2 O24'\n_cell_volume   698.8990\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  P  P0  1  0.9603  0.5856  0.7500  1\n  P  P1  1  0.6253  0.0397  0.7500  1\n  P  P2  1  0.4144  0.3747  0.7500  1\n  P  P3  1  0.0397  0.4144  0.2500  1\n  P  P4  1  0.3747  0.9603  0.2500  1\n  P  P5  1  0.5856  0.6253  0.2500  1\n  Pb  Pb6  1  0.3333  0.6667  0.9954  1\n  Pb  Pb7  1  0.6667  0.3333  0.4954  1\n  Pb  Pb8  1  0.6667  0.3333  0.0046  1\n  Pb  Pb9  1  0.3333  0.6667  0.5046  1\n  Pb  Pb10  1  0.7430  0.7251  0.7500  1\n  Pb  Pb11  1  0.9821  0.2570  0.7500  1\n  Pb  Pb12  1  0.2749  0.0179  0.7500  1\n  Pb  Pb13  1  0.2570  0.2749  0.2500  1\n  Pb  Pb14  1  0.0179  0.7430  0.2500  1\n  Pb  Pb15  1  0.7251  0.9821  0.2500  1\n  I  I16  1  0.0000  0.0000  0.0000  1\n  I  I17  1  0.0000  0.0000  0.5000  1\n  O  O18  1  0.1294  0.6427  0.7500  1\n  O  O19  1  0.5134  0.8706  0.7500  1\n  O  O20  1  0.3573  0.4866  0.7500  1\n  O  O21  1  0.8706  0.3573  0.2500  1\n  O  O22  1  0.4866  0.1294  0.2500  1\n  O  O23  1  0.6427  0.5134  0.2500  1\n  O  O24  1  0.8694  0.4083  0.7500  1\n  O  O25  1  0.5389  0.1306  0.7500  1\n  O  O26  1  0.5917  0.4611  0.7500  1\n  O  O27  1  0.1306  0.5917  0.2500  1\n  O  O28  1  0.4611  0.8694  0.2500  1\n  O  O29  1  0.4083  0.5389  0.2500  1\n  O  O30  1  0.9065  0.6339  0.9187  1\n  O  O31  1  0.7275  0.0935  0.9187  1\n  O  O32  1  0.3661  0.2725  0.9187  1\n  O  O33  1  0.0935  0.3661  0.4187  1\n  O  O34  1  0.2725  0.9065  0.4187  1\n  O  O35  1  0.6339  0.7275  0.4187  1\n  O  O36  1  0.0935  0.3661  0.0813  1\n  O  O37  1  0.2725  0.9065  0.0813  1\n  O  O38  1  0.6339  0.7275  0.0813  1\n  O  O39  1  0.9065  0.6339  0.5813  1\n  O  O40  1  0.7275  0.0935  0.5813  1\n  O  O41  1  0.3661  0.2725  0.5813  1\n",
    "output": "data_image0\n_chemical_formula_structural       P6Pb5OPb4I2O9PbO14\n_chemical_formula_sum              \"P6 Pb10 O24 I2\"\n_cell_length_a       10.3887\n_cell_length_b       10.3887\n_cell_length_c       7.4776\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.9603  0.5856  0.7500  1.0000\n  P   P2        1.0000  0.6253  0.0397  0.7500  1.0000\n  P   P3        1.0000  0.4144  0.3747  0.7500  1.0000\n  P   P4        1.0000  0.0397  0.4144  0.2500  1.0000\n  P   P5        1.0000  0.3747  0.9603  0.2500  1.0000\n  P   P6        1.0000  0.5856  0.6253  0.2500  1.0000\n  Pb  Pb1       1.0000  0.3333  0.6667  0.9954  1.0000\n  Pb  Pb2       1.0000  0.6667  0.3333  0.4954  1.0000\n  Pb  Pb3       1.0000  0.6667  0.3333  0.0046  1.0000\n  Pb  Pb4       1.0000  0.3333  0.6667  0.5046  1.0000\n  Pb  Pb5       1.0000  0.7430  0.7251  0.7500  1.0000\n  O   O1        1.0000  0.9821  0.2570  0.7500  1.0000\n  Pb  Pb6       1.0000  0.2749  0.0179  0.7500  1.0000\n  Pb  Pb7       1.0000  0.2570  0.2749  0.2500  1.0000\n  Pb  Pb8       1.0000  0.0179  0.7430  0.2500  1.0000\n  Pb  Pb9       1.0000  0.7251  0.9821  0.2500  1.0000\n  I   I1        1.0000  0.0000  0.0000  0.0000  1.0000\n  I   I2        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.1294  0.6427  0.7500  1.0000\n  O   O3        1.0000  0.5134  0.8706  0.7500  1.0000\n  O   O4        1.0000  0.3573  0.4866  0.7500  1.0000\n  O   O5        1.0000  0.8706  0.3573  0.2500  1.0000\n  O   O6        1.0000  0.4866  0.1294  0.2500  1.0000\n  O   O7        1.0000  0.6427  0.5134  0.2500  1.0000\n  O   O8        1.0000  0.8694  0.4083  0.7500  1.0000\n  O   O9        1.0000  0.5389  0.1306  0.7500  1.0000\n  O   O10       1.0000  0.5917  0.4611  0.7500  1.0000\n  Pb  Pb10      1.0000  0.1306  0.5917  0.2500  1.0000\n  O   O11       1.0000  0.4611  0.8694  0.2500  1.0000\n  O   O12       1.0000  0.4083  0.5389  0.2500  1.0000\n  O   O13       1.0000  0.9065  0.6339  0.9187  1.0000\n  O   O14       1.0000  0.7275  0.0935  0.9187  1.0000\n  O   O15       1.0000  0.3661  0.2725  0.9187  1.0000\n  O   O16       1.0000  0.0935  0.3661  0.4187  1.0000\n  O   O17       1.0000  0.2725  0.9065  0.4187  1.0000\n  O   O18       1.0000  0.6339  0.7275  0.4187  1.0000\n  O   O19       1.0000  0.0935  0.3661  0.0813  1.0000\n  O   O20       1.0000  0.2725  0.9065  0.0813  1.0000\n  O   O21       1.0000  0.6339  0.7275  0.0813  1.0000\n  O   O22       1.0000  0.9065  0.6339  0.5813  1.0000\n  O   O23       1.0000  0.7275  0.0935  0.5813  1.0000\n  O   O24       1.0000  0.3661  0.2725  0.5813  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "035cb11d-bf39-4f8a-869c-f642da3f43c6",
    "mp_id": "mp-1195965",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AuCl4O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.4663\n_cell_length_b   8.2170\n_cell_length_c   11.4364\n_cell_angle_alpha   55.4237\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AuCl4O3\n_chemical_formula_sum   'Au4 Cl16 O12'\n_cell_volume   887.1992\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Au  Au0  1  0.5160  0.2556  0.9918  1\n  Au  Au1  1  0.0160  0.7444  0.5082  1\n  Au  Au2  1  0.4840  0.7444  0.0082  1\n  Au  Au3  1  0.9840  0.2556  0.4918  1\n  Cl  Cl4  1  0.6166  0.2306  0.1784  1\n  Cl  Cl5  1  0.1166  0.7694  0.3216  1\n  Cl  Cl6  1  0.3834  0.7694  0.8216  1\n  Cl  Cl7  1  0.8834  0.2306  0.6784  1\n  Cl  Cl8  1  0.3550  0.1260  0.1351  1\n  Cl  Cl9  1  0.8550  0.8740  0.3649  1\n  Cl  Cl10  1  0.6450  0.8740  0.8649  1\n  Cl  Cl11  1  0.1450  0.1260  0.6351  1\n  Cl  Cl12  1  0.6917  0.3751  0.8766  1\n  Cl  Cl13  1  0.1917  0.6249  0.6234  1\n  Cl  Cl14  1  0.3083  0.6249  0.1234  1\n  Cl  Cl15  1  0.8083  0.3751  0.3766  1\n  Cl  Cl16  1  0.4222  0.2858  0.8017  1\n  Cl  Cl17  1  0.9222  0.7142  0.6983  1\n  Cl  Cl18  1  0.5778  0.7142  0.1983  1\n  Cl  Cl19  1  0.0778  0.2858  0.3017  1\n  O  O20  1  0.3912  0.5185  0.3875  1\n  O  O21  1  0.8912  0.4815  0.1125  1\n  O  O22  1  0.6088  0.4815  0.6125  1\n  O  O23  1  0.1088  0.5185  0.8875  1\n  O  O24  1  0.0935  0.3278  0.9684  1\n  O  O25  1  0.5935  0.6722  0.5316  1\n  O  O26  1  0.9065  0.6722  0.0316  1\n  O  O27  1  0.4065  0.3278  0.4684  1\n  O  O28  1  0.4112  0.2314  0.4114  1\n  O  O29  1  0.9112  0.7686  0.0886  1\n  O  O30  1  0.5888  0.7686  0.5886  1\n  O  O31  1  0.0888  0.2314  0.9114  1\n",
    "output": "data_image0\n_chemical_formula_structural       Au2OAuCl16O3AuO8\n_chemical_formula_sum              \"Au4 O12 Cl16\"\n_cell_length_a       11.4663\n_cell_length_b       8.2170\n_cell_length_c       11.4364\n_cell_angle_alpha    55.4237\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Au  Au1       1.0000  0.5160  0.2556  0.9918  1.0000\n  Au  Au2       1.0000  0.0160  0.7444  0.5082  1.0000\n  O   O1        1.0000  0.4840  0.7444  0.0082  1.0000\n  Au  Au3       1.0000  0.9840  0.2556  0.4918  1.0000\n  Cl  Cl1       1.0000  0.6166  0.2306  0.1784  1.0000\n  Cl  Cl2       1.0000  0.1166  0.7694  0.3216  1.0000\n  Cl  Cl3       1.0000  0.3834  0.7694  0.8216  1.0000\n  Cl  Cl4       1.0000  0.8834  0.2306  0.6784  1.0000\n  Cl  Cl5       1.0000  0.3550  0.1260  0.1351  1.0000\n  Cl  Cl6       1.0000  0.8550  0.8740  0.3649  1.0000\n  Cl  Cl7       1.0000  0.6450  0.8740  0.8649  1.0000\n  Cl  Cl8       1.0000  0.1450  0.1260  0.6351  1.0000\n  Cl  Cl9       1.0000  0.6917  0.3751  0.8766  1.0000\n  Cl  Cl10      1.0000  0.1917  0.6249  0.6234  1.0000\n  Cl  Cl11      1.0000  0.3083  0.6249  0.1234  1.0000\n  Cl  Cl12      1.0000  0.8083  0.3751  0.3766  1.0000\n  Cl  Cl13      1.0000  0.4222  0.2858  0.8017  1.0000\n  Cl  Cl14      1.0000  0.9222  0.7142  0.6983  1.0000\n  Cl  Cl15      1.0000  0.5778  0.7142  0.1983  1.0000\n  Cl  Cl16      1.0000  0.0778  0.2858  0.3017  1.0000\n  O   O2        1.0000  0.3912  0.5185  0.3875  1.0000\n  O   O3        1.0000  0.8912  0.4815  0.1125  1.0000\n  O   O4        1.0000  0.6088  0.4815  0.6125  1.0000\n  Au  Au4       1.0000  0.1088  0.5185  0.8875  1.0000\n  O   O5        1.0000  0.0935  0.3278  0.9684  1.0000\n  O   O6        1.0000  0.5935  0.6722  0.5316  1.0000\n  O   O7        1.0000  0.9065  0.6722  0.0316  1.0000\n  O   O8        1.0000  0.4065  0.3278  0.4684  1.0000\n  O   O9        1.0000  0.4112  0.2314  0.4114  1.0000\n  O   O10       1.0000  0.9112  0.7686  0.0886  1.0000\n  O   O11       1.0000  0.5888  0.7686  0.5886  1.0000\n  O   O12       1.0000  0.0888  0.2314  0.9114  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5e6d3499-22f0-4f7f-8b60-cace07713962",
    "mp_id": "mp-1195967",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrUP2(HO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6976\n_cell_length_b   8.3737\n_cell_length_c   9.0457\n_cell_angle_alpha   102.2267\n_cell_angle_beta   108.4075\n_cell_angle_gamma   107.1549\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrUP2(HO5)2\n_chemical_formula_sum   'Sr2 U2 P4 H4 O20'\n_cell_volume   497.8205\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.3130  0.2319  0.9042  1\n  Sr  Sr1  1  0.6870  0.7681  0.0958  1\n  U  U2  1  0.2294  0.8192  0.4719  1\n  U  U3  1  0.7706  0.1808  0.5281  1\n  P  P4  1  0.2393  0.0650  0.2448  1\n  P  P5  1  0.7607  0.9350  0.7552  1\n  P  P6  1  0.2956  0.4902  0.6604  1\n  P  P7  1  0.7044  0.5098  0.3396  1\n  H  H8  1  0.2133  0.2251  0.2943  1\n  H  H9  1  0.7867  0.7749  0.7057  1\n  H  H10  1  0.3819  0.4491  0.5488  1\n  H  H11  1  0.6181  0.5509  0.4512  1\n  O  O12  1  0.2683  0.0531  0.0854  1\n  O  O13  1  0.7317  0.9469  0.9146  1\n  O  O14  1  0.4190  0.0712  0.3919  1\n  O  O15  1  0.5810  0.9288  0.6081  1\n  O  O16  1  0.4394  0.5186  0.8342  1\n  O  O17  1  0.5606  0.4814  0.1658  1\n  O  O18  1  0.2548  0.6561  0.6416  1\n  O  O19  1  0.7452  0.3439  0.3584  1\n  O  O20  1  0.0632  0.9123  0.2404  1\n  O  O21  1  0.9368  0.0877  0.7596  1\n  O  O22  1  0.2384  0.9976  0.6357  1\n  O  O23  1  0.7616  0.0024  0.3643  1\n  O  O24  1  0.2360  0.6477  0.3150  1\n  O  O25  1  0.7640  0.3523  0.6850  1\n  O  O26  1  0.8968  0.6744  0.3924  1\n  O  O27  1  0.1032  0.3256  0.6076  1\n  O  O28  1  0.9452  0.5885  0.9775  1\n  O  O29  1  0.0548  0.4115  0.0225  1\n  O  O30  1  0.7012  0.2277  0.0109  1\n  O  O31  1  0.2988  0.7723  0.9891  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2UOP4H4O10UO9\n_chemical_formula_sum              \"Sr2 U2 O20 P4 H4\"\n_cell_length_a       7.6976\n_cell_length_b       8.3737\n_cell_length_c       9.0457\n_cell_angle_alpha    102.2267\n_cell_angle_beta     108.4075\n_cell_angle_gamma    107.1549\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.3130  0.2319  0.9042  1.0000\n  Sr  Sr2       1.0000  0.6870  0.7681  0.0958  1.0000\n  U   U1        1.0000  0.2294  0.8192  0.4719  1.0000\n  O   O1        1.0000  0.7706  0.1808  0.5281  1.0000\n  P   P1        1.0000  0.2393  0.0650  0.2448  1.0000\n  P   P2        1.0000  0.7607  0.9350  0.7552  1.0000\n  P   P3        1.0000  0.2956  0.4902  0.6604  1.0000\n  P   P4        1.0000  0.7044  0.5098  0.3396  1.0000\n  H   H1        1.0000  0.2133  0.2251  0.2943  1.0000\n  H   H2        1.0000  0.7867  0.7749  0.7057  1.0000\n  H   H3        1.0000  0.3819  0.4491  0.5488  1.0000\n  H   H4        1.0000  0.6181  0.5509  0.4512  1.0000\n  O   O2        1.0000  0.2683  0.0531  0.0854  1.0000\n  O   O3        1.0000  0.7317  0.9469  0.9146  1.0000\n  O   O4        1.0000  0.4190  0.0712  0.3919  1.0000\n  O   O5        1.0000  0.5810  0.9288  0.6081  1.0000\n  O   O6        1.0000  0.4394  0.5186  0.8342  1.0000\n  O   O7        1.0000  0.5606  0.4814  0.1658  1.0000\n  O   O8        1.0000  0.2548  0.6561  0.6416  1.0000\n  O   O9        1.0000  0.7452  0.3439  0.3584  1.0000\n  O   O10       1.0000  0.0632  0.9123  0.2404  1.0000\n  O   O11       1.0000  0.9368  0.0877  0.7596  1.0000\n  U   U2        1.0000  0.2384  0.9976  0.6357  1.0000\n  O   O12       1.0000  0.7616  0.0024  0.3643  1.0000\n  O   O13       1.0000  0.2360  0.6477  0.3150  1.0000\n  O   O14       1.0000  0.7640  0.3523  0.6850  1.0000\n  O   O15       1.0000  0.8968  0.6744  0.3924  1.0000\n  O   O16       1.0000  0.1032  0.3256  0.6076  1.0000\n  O   O17       1.0000  0.9452  0.5885  0.9775  1.0000\n  O   O18       1.0000  0.0548  0.4115  0.0225  1.0000\n  O   O19       1.0000  0.7012  0.2277  0.0109  1.0000\n  O   O20       1.0000  0.2988  0.7723  0.9891  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6a7a9406-a378-4b8b-bc83-40995aa80a4b",
    "mp_id": "mp-1196244",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn7Zn4Si2(AsO12)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6574\n_cell_length_b   9.9988\n_cell_length_c   11.6746\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   115.6532\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn7Zn4Si2(AsO12)2\n_chemical_formula_sum   'Mn14 Zn8 Si4 As4 O48'\n_cell_volume   910.9822\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.5000  0.0000  0.5000  1\n  Mn  Mn1  1  0.0000  0.0000  0.0000  1\n  Mn  Mn2  1  0.6669  0.3338  0.5000  1\n  Mn  Mn3  1  0.1669  0.3338  0.0000  1\n  Mn  Mn4  1  0.3331  0.6662  0.5000  1\n  Mn  Mn5  1  0.8331  0.6662  0.0000  1\n  Mn  Mn6  1  0.8467  0.1827  0.3681  1\n  Mn  Mn7  1  0.3360  0.1827  0.6319  1\n  Mn  Mn8  1  0.8360  0.1827  0.8681  1\n  Mn  Mn9  1  0.3467  0.1827  0.1319  1\n  Mn  Mn10  1  0.1533  0.8173  0.6319  1\n  Mn  Mn11  1  0.6640  0.8173  0.3681  1\n  Mn  Mn12  1  0.1640  0.8173  0.1319  1\n  Mn  Mn13  1  0.6533  0.8173  0.8681  1\n  Zn  Zn14  1  0.3161  0.3480  0.3838  1\n  Zn  Zn15  1  0.0319  0.3480  0.6162  1\n  Zn  Zn16  1  0.5319  0.3480  0.8838  1\n  Zn  Zn17  1  0.8161  0.3480  0.1162  1\n  Zn  Zn18  1  0.6839  0.6520  0.6162  1\n  Zn  Zn19  1  0.9681  0.6520  0.3838  1\n  Zn  Zn20  1  0.4681  0.6520  0.1162  1\n  Zn  Zn21  1  0.1839  0.6520  0.8838  1\n  Si  Si22  1  0.1375  0.5000  0.2500  1\n  Si  Si23  1  0.3625  0.5000  0.7500  1\n  Si  Si24  1  0.8625  0.5000  0.7500  1\n  Si  Si25  1  0.6375  0.5000  0.2500  1\n  As  As26  1  0.1211  0.0000  0.3643  1\n  As  As27  1  0.8789  0.0000  0.6357  1\n  As  As28  1  0.3789  0.0000  0.8643  1\n  As  As29  1  0.6211  0.0000  0.1357  1\n  O  O30  1  0.7659  0.0000  0.5144  1\n  O  O31  1  0.2341  0.0000  0.4856  1\n  O  O32  1  0.7341  0.0000  0.0144  1\n  O  O33  1  0.2659  0.0000  0.9856  1\n  O  O34  1  0.0888  0.1586  0.3658  1\n  O  O35  1  0.0699  0.1586  0.6342  1\n  O  O36  1  0.5699  0.1586  0.8658  1\n  O  O37  1  0.5888  0.1586  0.1342  1\n  O  O38  1  0.9112  0.8414  0.6342  1\n  O  O39  1  0.9301  0.8414  0.3658  1\n  O  O40  1  0.4301  0.8414  0.1342  1\n  O  O41  1  0.4112  0.8414  0.8658  1\n  O  O42  1  0.7386  0.4956  0.3694  1\n  O  O43  1  0.7570  0.4956  0.6306  1\n  O  O44  1  0.2570  0.4956  0.8694  1\n  O  O45  1  0.2386  0.4956  0.1306  1\n  O  O46  1  0.2614  0.5044  0.6306  1\n  O  O47  1  0.2430  0.5044  0.3694  1\n  O  O48  1  0.7430  0.5044  0.1306  1\n  O  O49  1  0.7614  0.5044  0.8694  1\n  O  O50  1  0.7447  0.0000  0.2562  1\n  O  O51  1  0.2553  0.0000  0.7438  1\n  O  O52  1  0.7553  0.0000  0.7562  1\n  O  O53  1  0.2447  0.0000  0.2438  1\n  O  O54  1  0.9568  0.3485  0.2476  1\n  O  O55  1  0.3916  0.3485  0.7524  1\n  O  O56  1  0.8916  0.3485  0.7476  1\n  O  O57  1  0.4568  0.3485  0.2524  1\n  O  O58  1  0.0432  0.6515  0.7524  1\n  O  O59  1  0.6084  0.6515  0.2476  1\n  O  O60  1  0.1084  0.6515  0.2524  1\n  O  O61  1  0.5432  0.6515  0.7476  1\n  O  O62  1  0.8879  0.3267  0.4856  1\n  O  O63  1  0.4388  0.3267  0.5144  1\n  O  O64  1  0.9388  0.3267  0.9856  1\n  O  O65  1  0.3879  0.3267  0.0144  1\n  O  O66  1  0.1121  0.6733  0.5144  1\n  O  O67  1  0.5612  0.6733  0.4856  1\n  O  O68  1  0.0612  0.6733  0.0144  1\n  O  O69  1  0.6121  0.6733  0.9856  1\n  O  O70  1  0.6146  0.1586  0.3919  1\n  O  O71  1  0.5440  0.1586  0.6081  1\n  O  O72  1  0.0440  0.1586  0.8919  1\n  O  O73  1  0.1146  0.1586  0.1081  1\n  O  O74  1  0.3854  0.8414  0.6081  1\n  O  O75  1  0.4560  0.8414  0.3919  1\n  O  O76  1  0.9560  0.8414  0.1081  1\n  O  O77  1  0.8854  0.8414  0.8919  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn4OMn9Zn8Si4As4O6MnO41\n_chemical_formula_sum              \"Mn14 O48 Zn8 Si4 As4\"\n_cell_length_a       8.6574\n_cell_length_b       9.9988\n_cell_length_c       11.6746\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    115.6532\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn3       1.0000  0.6669  0.3338  0.5000  1.0000\n  Mn  Mn4       1.0000  0.1669  0.3338  0.0000  1.0000\n  O   O1        1.0000  0.3331  0.6662  0.5000  1.0000\n  Mn  Mn5       1.0000  0.8331  0.6662  0.0000  1.0000\n  Mn  Mn6       1.0000  0.8467  0.1827  0.3681  1.0000\n  Mn  Mn7       1.0000  0.3360  0.1827  0.6319  1.0000\n  Mn  Mn8       1.0000  0.8360  0.1827  0.8681  1.0000\n  Mn  Mn9       1.0000  0.3467  0.1827  0.1319  1.0000\n  Mn  Mn10      1.0000  0.1533  0.8173  0.6319  1.0000\n  Mn  Mn11      1.0000  0.6640  0.8173  0.3681  1.0000\n  Mn  Mn12      1.0000  0.1640  0.8173  0.1319  1.0000\n  Mn  Mn13      1.0000  0.6533  0.8173  0.8681  1.0000\n  Zn  Zn1       1.0000  0.3161  0.3480  0.3838  1.0000\n  Zn  Zn2       1.0000  0.0319  0.3480  0.6162  1.0000\n  Zn  Zn3       1.0000  0.5319  0.3480  0.8838  1.0000\n  Zn  Zn4       1.0000  0.8161  0.3480  0.1162  1.0000\n  Zn  Zn5       1.0000  0.6839  0.6520  0.6162  1.0000\n  Zn  Zn6       1.0000  0.9681  0.6520  0.3838  1.0000\n  Zn  Zn7       1.0000  0.4681  0.6520  0.1162  1.0000\n  Zn  Zn8       1.0000  0.1839  0.6520  0.8838  1.0000\n  Si  Si1       1.0000  0.1375  0.5000  0.2500  1.0000\n  Si  Si2       1.0000  0.3625  0.5000  0.7500  1.0000\n  Si  Si3       1.0000  0.8625  0.5000  0.7500  1.0000\n  Si  Si4       1.0000  0.6375  0.5000  0.2500  1.0000\n  As  As1       1.0000  0.1211  0.0000  0.3643  1.0000\n  As  As2       1.0000  0.8789  0.0000  0.6357  1.0000\n  As  As3       1.0000  0.3789  0.0000  0.8643  1.0000\n  As  As4       1.0000  0.6211  0.0000  0.1357  1.0000\n  O   O2        1.0000  0.7659  0.0000  0.5144  1.0000\n  O   O3        1.0000  0.2341  0.0000  0.4856  1.0000\n  O   O4        1.0000  0.7341  0.0000  0.0144  1.0000\n  O   O5        1.0000  0.2659  0.0000  0.9856  1.0000\n  O   O6        1.0000  0.0888  0.1586  0.3658  1.0000\n  O   O7        1.0000  0.0699  0.1586  0.6342  1.0000\n  Mn  Mn14      1.0000  0.5699  0.1586  0.8658  1.0000\n  O   O8        1.0000  0.5888  0.1586  0.1342  1.0000\n  O   O9        1.0000  0.9112  0.8414  0.6342  1.0000\n  O   O10       1.0000  0.9301  0.8414  0.3658  1.0000\n  O   O11       1.0000  0.4301  0.8414  0.1342  1.0000\n  O   O12       1.0000  0.4112  0.8414  0.8658  1.0000\n  O   O13       1.0000  0.7386  0.4956  0.3694  1.0000\n  O   O14       1.0000  0.7569  0.4956  0.6306  1.0000\n  O   O15       1.0000  0.2570  0.4956  0.8694  1.0000\n  O   O16       1.0000  0.2386  0.4956  0.1306  1.0000\n  O   O17       1.0000  0.2614  0.5044  0.6306  1.0000\n  O   O18       1.0000  0.2430  0.5044  0.3694  1.0000\n  O   O19       1.0000  0.7430  0.5044  0.1306  1.0000\n  O   O20       1.0000  0.7614  0.5044  0.8694  1.0000\n  O   O21       1.0000  0.7447  0.0000  0.2562  1.0000\n  O   O22       1.0000  0.2553  0.0000  0.7438  1.0000\n  O   O23       1.0000  0.7553  0.0000  0.7562  1.0000\n  O   O24       1.0000  0.2447  0.0000  0.2438  1.0000\n  O   O25       1.0000  0.9568  0.3485  0.2476  1.0000\n  O   O26       1.0000  0.3916  0.3485  0.7524  1.0000\n  O   O27       1.0000  0.8916  0.3485  0.7476  1.0000\n  O   O28       1.0000  0.4568  0.3485  0.2524  1.0000\n  O   O29       1.0000  0.0432  0.6515  0.7524  1.0000\n  O   O30       1.0000  0.6084  0.6515  0.2476  1.0000\n  O   O31       1.0000  0.1084  0.6515  0.2524  1.0000\n  O   O32       1.0000  0.5432  0.6515  0.7476  1.0000\n  O   O33       1.0000  0.8879  0.3267  0.4856  1.0000\n  O   O34       1.0000  0.4388  0.3267  0.5144  1.0000\n  O   O35       1.0000  0.9388  0.3267  0.9856  1.0000\n  O   O36       1.0000  0.3879  0.3267  0.0144  1.0000\n  O   O37       1.0000  0.1121  0.6733  0.5144  1.0000\n  O   O38       1.0000  0.5612  0.6733  0.4856  1.0000\n  O   O39       1.0000  0.0612  0.6733  0.0144  1.0000\n  O   O40       1.0000  0.6121  0.6733  0.9856  1.0000\n  O   O41       1.0000  0.6146  0.1586  0.3919  1.0000\n  O   O42       1.0000  0.5440  0.1586  0.6081  1.0000\n  O   O43       1.0000  0.0440  0.1586  0.8919  1.0000\n  O   O44       1.0000  0.1146  0.1586  0.1081  1.0000\n  O   O45       1.0000  0.3854  0.8414  0.6081  1.0000\n  O   O46       1.0000  0.4560  0.8414  0.3919  1.0000\n  O   O47       1.0000  0.9560  0.8414  0.1081  1.0000\n  O   O48       1.0000  0.8854  0.8414  0.8919  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "47565613-c57e-4182-8135-3e8a7a9f0364",
    "mp_id": "mp-1196468",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2S3O20\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3957\n_cell_length_b   7.3957\n_cell_length_c   18.2415\n_cell_angle_alpha   84.7391\n_cell_angle_beta   84.7391\n_cell_angle_gamma   54.5103\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2S3O20\n_chemical_formula_sum   'Pr4 S6 O40'\n_cell_volume   808.0446\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.8466  0.8063  0.3838  1\n  Pr  Pr1  1  0.1937  0.1534  0.1162  1\n  Pr  Pr2  1  0.1534  0.1937  0.6162  1\n  Pr  Pr3  1  0.8063  0.8466  0.8838  1\n  S  S4  1  0.2261  0.1673  0.4108  1\n  S  S5  1  0.8327  0.7739  0.0892  1\n  S  S6  1  0.7739  0.8327  0.5892  1\n  S  S7  1  0.1673  0.2261  0.9108  1\n  S  S8  1  0.3255  0.6745  0.2500  1\n  S  S9  1  0.6745  0.3255  0.7500  1\n  O  O10  1  0.2266  0.0870  0.4891  1\n  O  O11  1  0.9130  0.7734  0.0109  1\n  O  O12  1  0.7734  0.9130  0.5109  1\n  O  O13  1  0.0870  0.2266  0.9891  1\n  O  O14  1  0.0727  0.4141  0.4080  1\n  O  O15  1  0.5859  0.9273  0.0920  1\n  O  O16  1  0.9273  0.5859  0.5920  1\n  O  O17  1  0.4141  0.0727  0.9080  1\n  O  O18  1  0.1628  0.0667  0.3612  1\n  O  O19  1  0.9333  0.8372  0.1388  1\n  O  O20  1  0.8372  0.9333  0.6388  1\n  O  O21  1  0.0667  0.1628  0.8612  1\n  O  O22  1  0.4554  0.0981  0.3861  1\n  O  O23  1  0.9019  0.5446  0.1139  1\n  O  O24  1  0.5446  0.9019  0.6139  1\n  O  O25  1  0.0981  0.4554  0.8861  1\n  O  O26  1  0.4070  0.5001  0.1950  1\n  O  O27  1  0.4999  0.5930  0.3050  1\n  O  O28  1  0.5930  0.4999  0.8050  1\n  O  O29  1  0.5001  0.4070  0.6950  1\n  O  O30  1  0.1198  0.7219  0.2903  1\n  O  O31  1  0.2781  0.8802  0.2097  1\n  O  O32  1  0.8802  0.2781  0.7097  1\n  O  O33  1  0.7219  0.1198  0.7903  1\n  O  O34  1  0.8288  0.1556  0.3766  1\n  O  O35  1  0.8444  0.1712  0.1234  1\n  O  O36  1  0.1712  0.8444  0.6234  1\n  O  O37  1  0.1556  0.8288  0.8766  1\n  O  O38  1  0.6660  0.7522  0.2920  1\n  O  O39  1  0.2478  0.3340  0.2080  1\n  O  O40  1  0.3340  0.2478  0.7080  1\n  O  O41  1  0.7522  0.6660  0.7920  1\n  O  O42  1  0.2468  0.6397  0.4628  1\n  O  O43  1  0.3603  0.7532  0.0372  1\n  O  O44  1  0.7532  0.3603  0.5372  1\n  O  O45  1  0.6397  0.2468  0.9628  1\n  O  O46  1  0.6682  0.5265  0.4949  1\n  O  O47  1  0.4735  0.3318  0.0051  1\n  O  O48  1  0.3318  0.4735  0.5051  1\n  O  O49  1  0.5265  0.6682  0.9949  1\n",
    "output": "data_image0\n_chemical_formula_structural       PrOPr2S6O24PrO15\n_chemical_formula_sum              \"Pr4 O40 S6\"\n_cell_length_a       7.3957\n_cell_length_b       7.3957\n_cell_length_c       18.2415\n_cell_angle_alpha    84.7391\n_cell_angle_beta     84.7391\n_cell_angle_gamma    54.5103\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.8466  0.8063  0.3838  1.0000\n  O   O1        1.0000  0.1937  0.1534  0.1162  1.0000\n  Pr  Pr2       1.0000  0.1534  0.1937  0.6162  1.0000\n  Pr  Pr3       1.0000  0.8063  0.8466  0.8838  1.0000\n  S   S1        1.0000  0.2261  0.1673  0.4108  1.0000\n  S   S2        1.0000  0.8327  0.7739  0.0892  1.0000\n  S   S3        1.0000  0.7739  0.8327  0.5892  1.0000\n  S   S4        1.0000  0.1673  0.2261  0.9108  1.0000\n  S   S5        1.0000  0.3255  0.6745  0.2500  1.0000\n  S   S6        1.0000  0.6745  0.3255  0.7500  1.0000\n  O   O2        1.0000  0.2266  0.0870  0.4891  1.0000\n  O   O3        1.0000  0.9130  0.7734  0.0109  1.0000\n  O   O4        1.0000  0.7734  0.9130  0.5109  1.0000\n  O   O5        1.0000  0.0870  0.2266  0.9891  1.0000\n  O   O6        1.0000  0.0727  0.4141  0.4080  1.0000\n  O   O7        1.0000  0.5859  0.9273  0.0920  1.0000\n  O   O8        1.0000  0.9273  0.5859  0.5920  1.0000\n  O   O9        1.0000  0.4141  0.0727  0.9080  1.0000\n  O   O10       1.0000  0.1628  0.0667  0.3612  1.0000\n  O   O11       1.0000  0.9333  0.8372  0.1388  1.0000\n  O   O12       1.0000  0.8372  0.9333  0.6388  1.0000\n  O   O13       1.0000  0.0667  0.1628  0.8612  1.0000\n  O   O14       1.0000  0.4554  0.0981  0.3861  1.0000\n  O   O15       1.0000  0.9019  0.5446  0.1139  1.0000\n  O   O16       1.0000  0.5446  0.9019  0.6139  1.0000\n  O   O17       1.0000  0.0981  0.4554  0.8861  1.0000\n  O   O18       1.0000  0.4070  0.5001  0.1950  1.0000\n  O   O19       1.0000  0.4999  0.5930  0.3050  1.0000\n  O   O20       1.0000  0.5930  0.4999  0.8050  1.0000\n  O   O21       1.0000  0.5001  0.4070  0.6950  1.0000\n  O   O22       1.0000  0.1198  0.7219  0.2903  1.0000\n  O   O23       1.0000  0.2781  0.8802  0.2097  1.0000\n  O   O24       1.0000  0.8802  0.2781  0.7097  1.0000\n  O   O25       1.0000  0.7219  0.1198  0.7903  1.0000\n  Pr  Pr4       1.0000  0.8288  0.1556  0.3766  1.0000\n  O   O26       1.0000  0.8444  0.1712  0.1234  1.0000\n  O   O27       1.0000  0.1712  0.8444  0.6234  1.0000\n  O   O28       1.0000  0.1556  0.8288  0.8766  1.0000\n  O   O29       1.0000  0.6660  0.7522  0.2920  1.0000\n  O   O30       1.0000  0.2478  0.3340  0.2080  1.0000\n  O   O31       1.0000  0.3340  0.2478  0.7080  1.0000\n  O   O32       1.0000  0.7522  0.6660  0.7920  1.0000\n  O   O33       1.0000  0.2468  0.6397  0.4628  1.0000\n  O   O34       1.0000  0.3603  0.7532  0.0372  1.0000\n  O   O35       1.0000  0.7532  0.3603  0.5372  1.0000\n  O   O36       1.0000  0.6397  0.2468  0.9628  1.0000\n  O   O37       1.0000  0.6682  0.5265  0.4949  1.0000\n  O   O38       1.0000  0.4735  0.3318  0.0051  1.0000\n  O   O39       1.0000  0.3318  0.4735  0.5051  1.0000\n  O   O40       1.0000  0.5265  0.6682  0.9949  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "30e905fc-215a-441e-95ee-6f2890eeeedc",
    "mp_id": "mp-1196513",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 45 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ScGe2Ru\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1772\n_cell_length_b   9.3722\n_cell_length_c   10.4315\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ScGe2Ru\n_chemical_formula_sum   'Sc12 Ge24 Ru12'\n_cell_volume   799.4572\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.2409  0.8243  0.4501  1\n  Sc  Sc1  1  0.2409  0.1757  0.5499  1\n  Sc  Sc2  1  0.7591  0.3243  0.0499  1\n  Sc  Sc3  1  0.7591  0.6757  0.9501  1\n  Sc  Sc4  1  0.7591  0.1757  0.5499  1\n  Sc  Sc5  1  0.7591  0.8243  0.4501  1\n  Sc  Sc6  1  0.2409  0.6757  0.9501  1\n  Sc  Sc7  1  0.2409  0.3243  0.0499  1\n  Sc  Sc8  1  0.0000  0.8355  0.1784  1\n  Sc  Sc9  1  0.0000  0.1645  0.8216  1\n  Sc  Sc10  1  0.0000  0.3355  0.3216  1\n  Sc  Sc11  1  0.0000  0.6645  0.6784  1\n  Ge  Ge12  1  0.3449  0.8392  0.1802  1\n  Ge  Ge13  1  0.3449  0.1608  0.8198  1\n  Ge  Ge14  1  0.6551  0.3392  0.3198  1\n  Ge  Ge15  1  0.6551  0.6608  0.6802  1\n  Ge  Ge16  1  0.6551  0.1608  0.8198  1\n  Ge  Ge17  1  0.6551  0.8392  0.1802  1\n  Ge  Ge18  1  0.3449  0.6608  0.6802  1\n  Ge  Ge19  1  0.3449  0.3392  0.3198  1\n  Ge  Ge20  1  0.5000  0.5373  0.1171  1\n  Ge  Ge21  1  0.5000  0.4627  0.8829  1\n  Ge  Ge22  1  0.5000  0.0373  0.3829  1\n  Ge  Ge23  1  0.5000  0.9627  0.6171  1\n  Ge  Ge24  1  0.0000  0.5367  0.1175  1\n  Ge  Ge25  1  0.0000  0.4633  0.8825  1\n  Ge  Ge26  1  0.0000  0.0367  0.3825  1\n  Ge  Ge27  1  0.0000  0.9633  0.6175  1\n  Ge  Ge28  1  0.5000  0.6303  0.4045  1\n  Ge  Ge29  1  0.5000  0.3697  0.5955  1\n  Ge  Ge30  1  0.5000  0.1303  0.0955  1\n  Ge  Ge31  1  0.5000  0.8697  0.9045  1\n  Ge  Ge32  1  0.0000  0.6327  0.3983  1\n  Ge  Ge33  1  0.0000  0.3673  0.6017  1\n  Ge  Ge34  1  0.0000  0.1327  0.1017  1\n  Ge  Ge35  1  0.0000  0.8673  0.8983  1\n  Ru  Ru36  1  0.2492  0.5889  0.2382  1\n  Ru  Ru37  1  0.2492  0.4111  0.7618  1\n  Ru  Ru38  1  0.7508  0.0889  0.2618  1\n  Ru  Ru39  1  0.7508  0.9111  0.7382  1\n  Ru  Ru40  1  0.7508  0.4111  0.7618  1\n  Ru  Ru41  1  0.7508  0.5889  0.2382  1\n  Ru  Ru42  1  0.2492  0.9111  0.7382  1\n  Ru  Ru43  1  0.2492  0.0889  0.2618  1\n  Ru  Ru44  1  0.2463  0.5000  0.5000  1\n  Ru  Ru45  1  0.7537  0.0000  0.0000  1\n  Ru  Ru46  1  0.7537  0.5000  0.5000  1\n  Ru  Ru47  1  0.2463  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc12Ge16RuGe7Ru9GeRu2\n_chemical_formula_sum              \"Sc12 Ge24 Ru12\"\n_cell_length_a       8.1772\n_cell_length_b       9.3722\n_cell_length_c       10.4315\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.2409  0.8243  0.4501  1.0000\n  Sc  Sc2       1.0000  0.2409  0.1757  0.5499  1.0000\n  Sc  Sc3       1.0000  0.7591  0.3243  0.0499  1.0000\n  Sc  Sc4       1.0000  0.7591  0.6757  0.9501  1.0000\n  Sc  Sc5       1.0000  0.7591  0.1757  0.5499  1.0000\n  Sc  Sc6       1.0000  0.7591  0.8243  0.4501  1.0000\n  Sc  Sc7       1.0000  0.2409  0.6757  0.9501  1.0000\n  Sc  Sc8       1.0000  0.2409  0.3243  0.0499  1.0000\n  Sc  Sc9       1.0000  0.0000  0.8355  0.1784  1.0000\n  Sc  Sc10      1.0000  0.0000  0.1645  0.8216  1.0000\n  Sc  Sc11      1.0000  0.0000  0.3355  0.3216  1.0000\n  Sc  Sc12      1.0000  0.0000  0.6645  0.6784  1.0000\n  Ge  Ge1       1.0000  0.3449  0.8392  0.1802  1.0000\n  Ge  Ge2       1.0000  0.3449  0.1608  0.8198  1.0000\n  Ge  Ge3       1.0000  0.6551  0.3392  0.3198  1.0000\n  Ge  Ge4       1.0000  0.6551  0.6608  0.6802  1.0000\n  Ge  Ge5       1.0000  0.6551  0.1608  0.8198  1.0000\n  Ge  Ge6       1.0000  0.6551  0.8392  0.1802  1.0000\n  Ge  Ge7       1.0000  0.3449  0.6608  0.6802  1.0000\n  Ge  Ge8       1.0000  0.3449  0.3392  0.3198  1.0000\n  Ge  Ge9       1.0000  0.5000  0.5373  0.1171  1.0000\n  Ge  Ge10      1.0000  0.5000  0.4627  0.8829  1.0000\n  Ge  Ge11      1.0000  0.5000  0.0373  0.3829  1.0000\n  Ge  Ge12      1.0000  0.5000  0.9627  0.6171  1.0000\n  Ge  Ge13      1.0000  0.0000  0.5367  0.1175  1.0000\n  Ge  Ge14      1.0000  0.0000  0.4633  0.8825  1.0000\n  Ge  Ge15      1.0000  0.0000  0.0367  0.3825  1.0000\n  Ge  Ge16      1.0000  0.0000  0.9633  0.6175  1.0000\n  Ru  Ru1       1.0000  0.5000  0.6303  0.4045  1.0000\n  Ge  Ge17      1.0000  0.5000  0.3697  0.5955  1.0000\n  Ge  Ge18      1.0000  0.5000  0.1303  0.0955  1.0000\n  Ge  Ge19      1.0000  0.5000  0.8697  0.9045  1.0000\n  Ge  Ge20      1.0000  0.0000  0.6327  0.3983  1.0000\n  Ge  Ge21      1.0000  0.0000  0.3673  0.6017  1.0000\n  Ge  Ge22      1.0000  0.0000  0.1327  0.1017  1.0000\n  Ge  Ge23      1.0000  0.0000  0.8673  0.8983  1.0000\n  Ru  Ru2       1.0000  0.2492  0.5889  0.2382  1.0000\n  Ru  Ru3       1.0000  0.2492  0.4111  0.7618  1.0000\n  Ru  Ru4       1.0000  0.7508  0.0889  0.2618  1.0000\n  Ru  Ru5       1.0000  0.7508  0.9111  0.7382  1.0000\n  Ru  Ru6       1.0000  0.7508  0.4111  0.7618  1.0000\n  Ru  Ru7       1.0000  0.7508  0.5889  0.2382  1.0000\n  Ru  Ru8       1.0000  0.2492  0.9111  0.7382  1.0000\n  Ru  Ru9       1.0000  0.2492  0.0889  0.2618  1.0000\n  Ru  Ru10      1.0000  0.2463  0.5000  0.5000  1.0000\n  Ge  Ge24      1.0000  0.7537  0.0000  0.0000  1.0000\n  Ru  Ru11      1.0000  0.7537  0.5000  0.5000  1.0000\n  Ru  Ru12      1.0000  0.2463  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "39ca81ae-9780-4036-8139-cdd0e078f385",
    "mp_id": "mp-1196514",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KS3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4978\n_cell_length_b   11.9497\n_cell_length_c   12.0254\n_cell_angle_alpha   90.0000\n_cell_angle_beta   104.7247\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KS3\n_chemical_formula_sum   'K8 S24'\n_cell_volume   903.0721\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.8020  0.6382  0.0195  1\n  K  K1  1  0.3020  0.8618  0.5195  1\n  K  K2  1  0.1980  0.3618  0.9805  1\n  K  K3  1  0.6980  0.1382  0.4805  1\n  K  K4  1  0.7146  0.6149  0.4172  1\n  K  K5  1  0.2146  0.8851  0.9172  1\n  K  K6  1  0.2854  0.3851  0.5828  1\n  K  K7  1  0.7854  0.1149  0.0828  1\n  S  S8  1  0.7037  0.3742  0.9947  1\n  S  S9  1  0.2037  0.1258  0.4947  1\n  S  S10  1  0.2963  0.6258  0.0053  1\n  S  S11  1  0.7963  0.8742  0.5053  1\n  S  S12  1  0.6898  0.4174  0.1572  1\n  S  S13  1  0.1898  0.0826  0.6572  1\n  S  S14  1  0.3102  0.5826  0.8428  1\n  S  S15  1  0.8102  0.9174  0.3428  1\n  S  S16  1  0.8976  0.3259  0.2770  1\n  S  S17  1  0.3976  0.1741  0.7770  1\n  S  S18  1  0.1024  0.6741  0.7230  1\n  S  S19  1  0.6024  0.8259  0.2230  1\n  S  S20  1  0.2129  0.3861  0.2731  1\n  S  S21  1  0.7129  0.1139  0.7731  1\n  S  S22  1  0.7871  0.6139  0.7269  1\n  S  S23  1  0.2871  0.8861  0.2269  1\n  S  S24  1  0.2023  0.5551  0.2764  1\n  S  S25  1  0.7023  0.9449  0.7764  1\n  S  S26  1  0.7977  0.4449  0.7236  1\n  S  S27  1  0.2977  0.0551  0.2236  1\n  S  S28  1  0.2194  0.6109  0.4388  1\n  S  S29  1  0.7194  0.8891  0.9388  1\n  S  S30  1  0.7806  0.3891  0.5612  1\n  S  S31  1  0.2806  0.1109  0.0612  1\n",
    "output": "data_image0\n_chemical_formula_structural       K5SK2S3KS20\n_chemical_formula_sum              \"K8 S24\"\n_cell_length_a       6.4978\n_cell_length_b       11.9497\n_cell_length_c       12.0254\n_cell_angle_alpha    90.0000\n_cell_angle_beta     104.7247\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.8020  0.6382  0.0195  1.0000\n  K   K2        1.0000  0.3020  0.8618  0.5195  1.0000\n  K   K3        1.0000  0.1980  0.3618  0.9805  1.0000\n  K   K4        1.0000  0.6980  0.1382  0.4805  1.0000\n  K   K5        1.0000  0.7146  0.6149  0.4172  1.0000\n  S   S1        1.0000  0.2146  0.8851  0.9172  1.0000\n  K   K6        1.0000  0.2854  0.3851  0.5828  1.0000\n  K   K7        1.0000  0.7854  0.1149  0.0828  1.0000\n  S   S2        1.0000  0.7037  0.3742  0.9947  1.0000\n  S   S3        1.0000  0.2037  0.1258  0.4947  1.0000\n  S   S4        1.0000  0.2963  0.6258  0.0053  1.0000\n  K   K8        1.0000  0.7963  0.8742  0.5053  1.0000\n  S   S5        1.0000  0.6898  0.4174  0.1572  1.0000\n  S   S6        1.0000  0.1898  0.0826  0.6572  1.0000\n  S   S7        1.0000  0.3102  0.5826  0.8428  1.0000\n  S   S8        1.0000  0.8102  0.9174  0.3428  1.0000\n  S   S9        1.0000  0.8976  0.3259  0.2770  1.0000\n  S   S10       1.0000  0.3976  0.1741  0.7770  1.0000\n  S   S11       1.0000  0.1024  0.6741  0.7230  1.0000\n  S   S12       1.0000  0.6024  0.8259  0.2230  1.0000\n  S   S13       1.0000  0.2129  0.3861  0.2731  1.0000\n  S   S14       1.0000  0.7129  0.1139  0.7731  1.0000\n  S   S15       1.0000  0.7871  0.6139  0.7269  1.0000\n  S   S16       1.0000  0.2871  0.8861  0.2269  1.0000\n  S   S17       1.0000  0.2023  0.5551  0.2764  1.0000\n  S   S18       1.0000  0.7023  0.9449  0.7764  1.0000\n  S   S19       1.0000  0.7977  0.4449  0.7236  1.0000\n  S   S20       1.0000  0.2977  0.0551  0.2236  1.0000\n  S   S21       1.0000  0.2194  0.6109  0.4388  1.0000\n  S   S22       1.0000  0.7194  0.8891  0.9388  1.0000\n  S   S23       1.0000  0.7806  0.3891  0.5612  1.0000\n  S   S24       1.0000  0.2806  0.1109  0.0612  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5908ee2d-b5c1-456d-b10e-7b56dac0be3b",
    "mp_id": "mp-1197108",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 38 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2Cd(BH4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8319\n_cell_length_b   10.4502\n_cell_length_c   13.7701\n_cell_angle_alpha   90.0000\n_cell_angle_beta   98.1459\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2Cd(BH4)4\n_chemical_formula_sum   'K8 Cd4 B16 H64'\n_cell_volume   1115.6360\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7461  0.8872  0.9920  1\n  K  K1  1  0.2461  0.6128  0.4920  1\n  K  K2  1  0.2539  0.1128  0.0080  1\n  K  K3  1  0.7539  0.3872  0.5080  1\n  K  K4  1  0.2056  0.0770  0.3381  1\n  K  K5  1  0.7056  0.4230  0.8381  1\n  K  K6  1  0.7944  0.9230  0.6619  1\n  K  K7  1  0.2944  0.5770  0.1619  1\n  Cd  Cd8  1  0.7961  0.3415  0.1858  1\n  Cd  Cd9  1  0.2961  0.1585  0.6858  1\n  Cd  Cd10  1  0.2039  0.6585  0.8142  1\n  Cd  Cd11  1  0.7039  0.8415  0.3142  1\n  B  B12  1  0.4827  0.8962  0.1594  1\n  B  B13  1  0.9827  0.6038  0.6594  1\n  B  B14  1  0.5173  0.1038  0.8406  1\n  B  B15  1  0.0173  0.3962  0.3406  1\n  B  B16  1  0.2577  0.9692  0.5665  1\n  B  B17  1  0.7577  0.5308  0.0665  1\n  B  B18  1  0.7423  0.0308  0.4335  1\n  B  B19  1  0.2423  0.4692  0.9335  1\n  B  B20  1  0.9876  0.1968  0.7192  1\n  B  B21  1  0.4876  0.3032  0.2192  1\n  B  B22  1  0.0124  0.8032  0.2808  1\n  B  B23  1  0.5124  0.6968  0.7808  1\n  B  B24  1  0.0730  0.8413  0.9105  1\n  B  B25  1  0.5730  0.6587  0.4105  1\n  B  B26  1  0.9270  0.1587  0.0895  1\n  B  B27  1  0.4270  0.3413  0.5895  1\n  H  H28  1  0.3735  0.9756  0.1706  1\n  H  H29  1  0.8735  0.5244  0.6706  1\n  H  H30  1  0.6265  0.0244  0.8294  1\n  H  H31  1  0.1265  0.4756  0.3294  1\n  H  H32  1  0.4659  0.8107  0.2204  1\n  H  H33  1  0.9659  0.6893  0.7204  1\n  H  H34  1  0.5341  0.1893  0.7796  1\n  H  H35  1  0.0341  0.3107  0.2796  1\n  H  H36  1  0.4624  0.8450  0.0792  1\n  H  H37  1  0.9624  0.6550  0.5792  1\n  H  H38  1  0.5376  0.1550  0.9208  1\n  H  H39  1  0.0376  0.3450  0.4208  1\n  H  H40  1  0.6244  0.9510  0.1727  1\n  H  H41  1  0.1244  0.5490  0.6727  1\n  H  H42  1  0.3756  0.0490  0.8273  1\n  H  H43  1  0.8756  0.4510  0.3273  1\n  H  H44  1  0.3488  0.9041  0.5210  1\n  H  H45  1  0.8488  0.5959  0.0210  1\n  H  H46  1  0.6512  0.0959  0.4790  1\n  H  H47  1  0.1512  0.4041  0.9790  1\n  H  H48  1  0.3463  0.9760  0.6500  1\n  H  H49  1  0.8463  0.5240  0.1500  1\n  H  H50  1  0.6537  0.0240  0.3500  1\n  H  H51  1  0.1537  0.4760  0.8500  1\n  H  H52  1  0.2334  0.0743  0.5263  1\n  H  H53  1  0.7334  0.4257  0.0263  1\n  H  H54  1  0.7666  0.9257  0.4737  1\n  H  H55  1  0.2666  0.5743  0.9737  1\n  H  H56  1  0.1202  0.9202  0.5758  1\n  H  H57  1  0.6202  0.5798  0.0758  1\n  H  H58  1  0.8798  0.0798  0.4242  1\n  H  H59  1  0.3798  0.4202  0.9242  1\n  H  H60  1  0.1185  0.2370  0.7733  1\n  H  H61  1  0.6185  0.2630  0.2733  1\n  H  H62  1  0.8815  0.7630  0.2267  1\n  H  H63  1  0.3815  0.7370  0.7267  1\n  H  H64  1  0.0159  0.1515  0.6397  1\n  H  H65  1  0.5159  0.3485  0.1397  1\n  H  H66  1  0.9841  0.8485  0.3603  1\n  H  H67  1  0.4841  0.6515  0.8603  1\n  H  H68  1  0.9226  0.1169  0.7656  1\n  H  H69  1  0.4226  0.3831  0.2656  1\n  H  H70  1  0.0774  0.8831  0.2344  1\n  H  H71  1  0.5774  0.6169  0.7344  1\n  H  H72  1  0.8966  0.2909  0.6995  1\n  H  H73  1  0.3966  0.2091  0.1995  1\n  H  H74  1  0.1034  0.7091  0.3005  1\n  H  H75  1  0.6034  0.7909  0.8005  1\n  H  H76  1  0.9878  0.9311  0.8727  1\n  H  H77  1  0.4878  0.5689  0.3727  1\n  H  H78  1  0.0122  0.0689  0.1273  1\n  H  H79  1  0.5122  0.4311  0.6273  1\n  H  H80  1  0.1209  0.8570  0.9979  1\n  H  H81  1  0.6209  0.6430  0.4979  1\n  H  H82  1  0.8791  0.1430  0.0021  1\n  H  H83  1  0.3791  0.3570  0.5021  1\n  H  H84  1  0.9856  0.7431  0.9002  1\n  H  H85  1  0.4856  0.7569  0.4002  1\n  H  H86  1  0.0144  0.2569  0.0998  1\n  H  H87  1  0.5144  0.2431  0.5998  1\n  H  H88  1  0.2062  0.8400  0.8703  1\n  H  H89  1  0.7062  0.6600  0.3703  1\n  H  H90  1  0.7938  0.1600  0.1297  1\n  H  H91  1  0.2938  0.3400  0.6297  1\n",
    "output": "data_image0\n_chemical_formula_structural       K5HK2Cd4B16H10KH53\n_chemical_formula_sum              \"K8 H64 Cd4 B16\"\n_cell_length_a       7.8319\n_cell_length_b       10.4502\n_cell_length_c       13.7701\n_cell_angle_alpha    90.0000\n_cell_angle_beta     98.1459\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.7461  0.8872  0.9920  1.0000\n  K   K2        1.0000  0.2461  0.6128  0.4920  1.0000\n  K   K3        1.0000  0.2539  0.1128  0.0080  1.0000\n  K   K4        1.0000  0.7539  0.3872  0.5080  1.0000\n  K   K5        1.0000  0.2056  0.0770  0.3381  1.0000\n  H   H1        1.0000  0.7056  0.4230  0.8381  1.0000\n  K   K6        1.0000  0.7944  0.9230  0.6619  1.0000\n  K   K7        1.0000  0.2944  0.5770  0.1619  1.0000\n  Cd  Cd1       1.0000  0.7961  0.3415  0.1858  1.0000\n  Cd  Cd2       1.0000  0.2961  0.1585  0.6858  1.0000\n  Cd  Cd3       1.0000  0.2039  0.6585  0.8142  1.0000\n  Cd  Cd4       1.0000  0.7039  0.8415  0.3142  1.0000\n  B   B1        1.0000  0.4827  0.8962  0.1594  1.0000\n  B   B2        1.0000  0.9827  0.6038  0.6594  1.0000\n  B   B3        1.0000  0.5173  0.1038  0.8406  1.0000\n  B   B4        1.0000  0.0173  0.3962  0.3406  1.0000\n  B   B5        1.0000  0.2577  0.9692  0.5665  1.0000\n  B   B6        1.0000  0.7577  0.5308  0.0665  1.0000\n  B   B7        1.0000  0.7423  0.0308  0.4335  1.0000\n  B   B8        1.0000  0.2423  0.4692  0.9335  1.0000\n  B   B9        1.0000  0.9876  0.1968  0.7192  1.0000\n  B   B10       1.0000  0.4876  0.3032  0.2192  1.0000\n  B   B11       1.0000  0.0124  0.8032  0.2808  1.0000\n  B   B12       1.0000  0.5124  0.6968  0.7808  1.0000\n  B   B13       1.0000  0.0730  0.8413  0.9105  1.0000\n  B   B14       1.0000  0.5730  0.6587  0.4105  1.0000\n  B   B15       1.0000  0.9270  0.1587  0.0895  1.0000\n  B   B16       1.0000  0.4270  0.3413  0.5895  1.0000\n  H   H2        1.0000  0.3735  0.9756  0.1706  1.0000\n  H   H3        1.0000  0.8735  0.5244  0.6706  1.0000\n  H   H4        1.0000  0.6265  0.0244  0.8294  1.0000\n  H   H5        1.0000  0.1265  0.4756  0.3294  1.0000\n  H   H6        1.0000  0.4659  0.8107  0.2204  1.0000\n  H   H7        1.0000  0.9659  0.6893  0.7204  1.0000\n  H   H8        1.0000  0.5341  0.1893  0.7796  1.0000\n  H   H9        1.0000  0.0341  0.3107  0.2796  1.0000\n  H   H10       1.0000  0.4624  0.8450  0.0792  1.0000\n  H   H11       1.0000  0.9624  0.6550  0.5792  1.0000\n  K   K8        1.0000  0.5376  0.1550  0.9208  1.0000\n  H   H12       1.0000  0.0376  0.3450  0.4208  1.0000\n  H   H13       1.0000  0.6244  0.9510  0.1727  1.0000\n  H   H14       1.0000  0.1244  0.5490  0.6727  1.0000\n  H   H15       1.0000  0.3756  0.0490  0.8273  1.0000\n  H   H16       1.0000  0.8756  0.4510  0.3273  1.0000\n  H   H17       1.0000  0.3488  0.9041  0.5210  1.0000\n  H   H18       1.0000  0.8488  0.5959  0.0210  1.0000\n  H   H19       1.0000  0.6512  0.0959  0.4790  1.0000\n  H   H20       1.0000  0.1512  0.4041  0.9790  1.0000\n  H   H21       1.0000  0.3463  0.9760  0.6500  1.0000\n  H   H22       1.0000  0.8463  0.5240  0.1500  1.0000\n  H   H23       1.0000  0.6537  0.0240  0.3500  1.0000\n  H   H24       1.0000  0.1537  0.4760  0.8500  1.0000\n  H   H25       1.0000  0.2334  0.0743  0.5263  1.0000\n  H   H26       1.0000  0.7334  0.4257  0.0263  1.0000\n  H   H27       1.0000  0.7666  0.9257  0.4737  1.0000\n  H   H28       1.0000  0.2666  0.5743  0.9737  1.0000\n  H   H29       1.0000  0.1202  0.9202  0.5758  1.0000\n  H   H30       1.0000  0.6202  0.5798  0.0758  1.0000\n  H   H31       1.0000  0.8798  0.0798  0.4242  1.0000\n  H   H32       1.0000  0.3798  0.4202  0.9242  1.0000\n  H   H33       1.0000  0.1185  0.2370  0.7733  1.0000\n  H   H34       1.0000  0.6185  0.2630  0.2733  1.0000\n  H   H35       1.0000  0.8815  0.7630  0.2267  1.0000\n  H   H36       1.0000  0.3815  0.7370  0.7267  1.0000\n  H   H37       1.0000  0.0159  0.1515  0.6397  1.0000\n  H   H38       1.0000  0.5159  0.3485  0.1397  1.0000\n  H   H39       1.0000  0.9841  0.8485  0.3603  1.0000\n  H   H40       1.0000  0.4841  0.6515  0.8603  1.0000\n  H   H41       1.0000  0.9226  0.1169  0.7656  1.0000\n  H   H42       1.0000  0.4226  0.3831  0.2656  1.0000\n  H   H43       1.0000  0.0774  0.8831  0.2344  1.0000\n  H   H44       1.0000  0.5774  0.6169  0.7344  1.0000\n  H   H45       1.0000  0.8966  0.2909  0.6995  1.0000\n  H   H46       1.0000  0.3966  0.2091  0.1995  1.0000\n  H   H47       1.0000  0.1034  0.7091  0.3005  1.0000\n  H   H48       1.0000  0.6034  0.7909  0.8005  1.0000\n  H   H49       1.0000  0.9878  0.9311  0.8727  1.0000\n  H   H50       1.0000  0.4878  0.5689  0.3727  1.0000\n  H   H51       1.0000  0.0122  0.0689  0.1273  1.0000\n  H   H52       1.0000  0.5122  0.4311  0.6273  1.0000\n  H   H53       1.0000  0.1209  0.8570  0.9979  1.0000\n  H   H54       1.0000  0.6209  0.6430  0.4979  1.0000\n  H   H55       1.0000  0.8791  0.1430  0.0021  1.0000\n  H   H56       1.0000  0.3791  0.3570  0.5021  1.0000\n  H   H57       1.0000  0.9856  0.7431  0.9002  1.0000\n  H   H58       1.0000  0.4856  0.7569  0.4002  1.0000\n  H   H59       1.0000  0.0144  0.2569  0.0998  1.0000\n  H   H60       1.0000  0.5144  0.2431  0.5998  1.0000\n  H   H61       1.0000  0.2062  0.8400  0.8703  1.0000\n  H   H62       1.0000  0.7062  0.6600  0.3703  1.0000\n  H   H63       1.0000  0.7938  0.1600  0.1297  1.0000\n  H   H64       1.0000  0.2938  0.3400  0.6297  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "108c3d55-c317-4254-93c7-2d70daf44d1e",
    "mp_id": "mp-1197227",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy3Ni19B10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8640\n_cell_length_b   7.8640\n_cell_length_c   5.7557\n_cell_angle_alpha   88.9033\n_cell_angle_beta   88.9033\n_cell_angle_gamma   67.1412\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy3Ni19B10\n_chemical_formula_sum   'Dy3 Ni19 B10'\n_cell_volume   327.9035\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.0000  0.0000  0.0000  1\n  Dy  Dy1  1  0.6254  0.6254  0.6144  1\n  Dy  Dy2  1  0.3746  0.3746  0.3856  1\n  Ni  Ni3  1  0.0000  0.0000  0.5000  1\n  Ni  Ni4  1  0.6221  0.6221  0.1270  1\n  Ni  Ni5  1  0.3779  0.3779  0.8730  1\n  Ni  Ni6  1  0.1629  0.1629  0.2968  1\n  Ni  Ni7  1  0.8371  0.8371  0.7032  1\n  Ni  Ni8  1  0.1821  0.1821  0.7288  1\n  Ni  Ni9  1  0.8179  0.8179  0.2712  1\n  Ni  Ni10  1  0.4826  0.9549  0.3021  1\n  Ni  Ni11  1  0.9549  0.4826  0.3021  1\n  Ni  Ni12  1  0.5174  0.0451  0.6979  1\n  Ni  Ni13  1  0.0451  0.5174  0.6979  1\n  Ni  Ni14  1  0.1221  0.6228  0.0738  1\n  Ni  Ni15  1  0.6228  0.1221  0.0738  1\n  Ni  Ni16  1  0.8779  0.3772  0.9262  1\n  Ni  Ni17  1  0.3772  0.8779  0.9262  1\n  Ni  Ni18  1  0.7707  0.2889  0.3012  1\n  Ni  Ni19  1  0.2889  0.7707  0.3012  1\n  Ni  Ni20  1  0.2293  0.7111  0.6988  1\n  Ni  Ni21  1  0.7111  0.2293  0.6988  1\n  B  B22  1  0.3836  0.6164  0.0000  1\n  B  B23  1  0.6164  0.3836  0.0000  1\n  B  B24  1  0.6509  0.8572  0.9744  1\n  B  B25  1  0.8572  0.6509  0.9744  1\n  B  B26  1  0.3491  0.1428  0.0256  1\n  B  B27  1  0.1428  0.3491  0.0256  1\n  B  B28  1  0.9352  0.3006  0.5692  1\n  B  B29  1  0.3006  0.9352  0.5692  1\n  B  B30  1  0.0648  0.6994  0.4308  1\n  B  B31  1  0.6994  0.0648  0.4308  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy3Ni17BNiB3NiB6\n_chemical_formula_sum              \"Dy3 Ni19 B10\"\n_cell_length_a       7.8640\n_cell_length_b       7.8640\n_cell_length_c       5.7557\n_cell_angle_alpha    88.9033\n_cell_angle_beta     88.9033\n_cell_angle_gamma    67.1412\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Dy  Dy2       1.0000  0.6254  0.6254  0.6144  1.0000\n  Dy  Dy3       1.0000  0.3746  0.3746  0.3856  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ni  Ni2       1.0000  0.6221  0.6221  0.1270  1.0000\n  Ni  Ni3       1.0000  0.3779  0.3779  0.8730  1.0000\n  Ni  Ni4       1.0000  0.1629  0.1629  0.2968  1.0000\n  Ni  Ni5       1.0000  0.8371  0.8371  0.7032  1.0000\n  Ni  Ni6       1.0000  0.1821  0.1821  0.7288  1.0000\n  Ni  Ni7       1.0000  0.8179  0.8179  0.2712  1.0000\n  Ni  Ni8       1.0000  0.4826  0.9549  0.3021  1.0000\n  Ni  Ni9       1.0000  0.9549  0.4826  0.3021  1.0000\n  Ni  Ni10      1.0000  0.5174  0.0451  0.6979  1.0000\n  Ni  Ni11      1.0000  0.0451  0.5174  0.6979  1.0000\n  Ni  Ni12      1.0000  0.1221  0.6228  0.0738  1.0000\n  Ni  Ni13      1.0000  0.6228  0.1221  0.0738  1.0000\n  Ni  Ni14      1.0000  0.8779  0.3772  0.9262  1.0000\n  Ni  Ni15      1.0000  0.3772  0.8779  0.9262  1.0000\n  Ni  Ni16      1.0000  0.7707  0.2889  0.3012  1.0000\n  Ni  Ni17      1.0000  0.2889  0.7707  0.3012  1.0000\n  B   B1        1.0000  0.2293  0.7111  0.6988  1.0000\n  Ni  Ni18      1.0000  0.7111  0.2293  0.6988  1.0000\n  B   B2        1.0000  0.3836  0.6164  0.0000  1.0000\n  B   B3        1.0000  0.6164  0.3836  0.0000  1.0000\n  B   B4        1.0000  0.6509  0.8572  0.9744  1.0000\n  Ni  Ni19      1.0000  0.8572  0.6509  0.9744  1.0000\n  B   B5        1.0000  0.3491  0.1428  0.0256  1.0000\n  B   B6        1.0000  0.1428  0.3491  0.0256  1.0000\n  B   B7        1.0000  0.9352  0.3006  0.5692  1.0000\n  B   B8        1.0000  0.3006  0.9352  0.5692  1.0000\n  B   B9        1.0000  0.0648  0.6994  0.4308  1.0000\n  B   B10       1.0000  0.6994  0.0648  0.4308  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "89dc8b1a-fa54-4dc7-ad10-888f4eebb5ad",
    "mp_id": "mp-1197238",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_PrC2ClO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.1117\n_cell_length_b   6.0756\n_cell_length_c   9.5841\n_cell_angle_alpha   69.1590\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   PrC2ClO7\n_chemical_formula_sum   'Pr4 C8 Cl4 O28'\n_cell_volume   767.9489\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.6135  0.3273  0.1561  1\n  Pr  Pr1  1  0.8865  0.3273  0.6561  1\n  Pr  Pr2  1  0.3865  0.6727  0.8439  1\n  Pr  Pr3  1  0.1135  0.6727  0.3439  1\n  C  C4  1  0.5324  0.8965  0.0464  1\n  C  C5  1  0.9676  0.8965  0.5464  1\n  C  C6  1  0.4676  0.1035  0.9536  1\n  C  C7  1  0.0324  0.1035  0.4536  1\n  C  C8  1  0.5842  0.7946  0.5567  1\n  C  C9  1  0.9158  0.7946  0.0567  1\n  C  C10  1  0.4158  0.2054  0.4433  1\n  C  C11  1  0.0842  0.2054  0.9433  1\n  Cl  Cl12  1  0.8019  0.1784  0.1569  1\n  Cl  Cl13  1  0.6981  0.1784  0.6569  1\n  Cl  Cl14  1  0.1981  0.8216  0.8431  1\n  Cl  Cl15  1  0.3019  0.8216  0.3431  1\n  O  O16  1  0.5227  0.7039  0.0208  1\n  O  O17  1  0.9773  0.7039  0.5208  1\n  O  O18  1  0.4773  0.2961  0.9792  1\n  O  O19  1  0.0227  0.2961  0.4792  1\n  O  O20  1  0.6049  0.9243  0.4373  1\n  O  O21  1  0.8951  0.9243  0.9373  1\n  O  O22  1  0.3951  0.0757  0.5627  1\n  O  O23  1  0.1049  0.0757  0.0627  1\n  O  O24  1  0.5882  0.9295  0.1382  1\n  O  O25  1  0.9118  0.9295  0.6382  1\n  O  O26  1  0.4118  0.0705  0.8618  1\n  O  O27  1  0.0882  0.0705  0.3618  1\n  O  O28  1  0.4441  0.3266  0.3253  1\n  O  O29  1  0.0559  0.3266  0.8253  1\n  O  O30  1  0.5559  0.6734  0.6747  1\n  O  O31  1  0.9441  0.6734  0.1747  1\n  O  O32  1  0.7111  0.3922  0.9341  1\n  O  O33  1  0.7889  0.3922  0.4341  1\n  O  O34  1  0.2889  0.6078  0.0659  1\n  O  O35  1  0.2111  0.6078  0.5659  1\n  O  O36  1  0.7415  0.5922  0.0891  1\n  O  O37  1  0.7585  0.5922  0.5891  1\n  O  O38  1  0.2585  0.4078  0.9109  1\n  O  O39  1  0.2415  0.4078  0.4109  1\n  O  O40  1  0.6551  0.4633  0.3520  1\n  O  O41  1  0.8449  0.4633  0.8520  1\n  O  O42  1  0.3449  0.5367  0.6480  1\n  O  O43  1  0.1551  0.5367  0.1480  1\n",
    "output": "data_image0\n_chemical_formula_structural       OPr3C8Cl4O20PrO7\n_chemical_formula_sum              \"O28 Pr4 C8 Cl4\"\n_cell_length_a       14.1117\n_cell_length_b       6.0756\n_cell_length_c       9.5841\n_cell_angle_alpha    69.1590\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.6135  0.3273  0.1561  1.0000\n  Pr  Pr1       1.0000  0.8865  0.3273  0.6561  1.0000\n  Pr  Pr2       1.0000  0.3865  0.6727  0.8439  1.0000\n  Pr  Pr3       1.0000  0.1135  0.6727  0.3439  1.0000\n  C   C1        1.0000  0.5324  0.8965  0.0464  1.0000\n  C   C2        1.0000  0.9676  0.8965  0.5464  1.0000\n  C   C3        1.0000  0.4676  0.1035  0.9536  1.0000\n  C   C4        1.0000  0.0324  0.1035  0.4536  1.0000\n  C   C5        1.0000  0.5842  0.7946  0.5567  1.0000\n  C   C6        1.0000  0.9158  0.7946  0.0567  1.0000\n  C   C7        1.0000  0.4158  0.2054  0.4433  1.0000\n  C   C8        1.0000  0.0842  0.2054  0.9433  1.0000\n  Cl  Cl1       1.0000  0.8019  0.1784  0.1569  1.0000\n  Cl  Cl2       1.0000  0.6981  0.1784  0.6569  1.0000\n  Cl  Cl3       1.0000  0.1981  0.8216  0.8431  1.0000\n  Cl  Cl4       1.0000  0.3019  0.8216  0.3431  1.0000\n  O   O2        1.0000  0.5227  0.7039  0.0208  1.0000\n  O   O3        1.0000  0.9773  0.7039  0.5208  1.0000\n  O   O4        1.0000  0.4773  0.2961  0.9792  1.0000\n  O   O5        1.0000  0.0227  0.2961  0.4792  1.0000\n  O   O6        1.0000  0.6049  0.9243  0.4373  1.0000\n  O   O7        1.0000  0.8951  0.9243  0.9373  1.0000\n  O   O8        1.0000  0.3951  0.0757  0.5627  1.0000\n  O   O9        1.0000  0.1049  0.0757  0.0627  1.0000\n  O   O10       1.0000  0.5882  0.9295  0.1382  1.0000\n  O   O11       1.0000  0.9118  0.9295  0.6382  1.0000\n  O   O12       1.0000  0.4118  0.0705  0.8618  1.0000\n  O   O13       1.0000  0.0882  0.0705  0.3618  1.0000\n  O   O14       1.0000  0.4441  0.3266  0.3253  1.0000\n  O   O15       1.0000  0.0559  0.3266  0.8253  1.0000\n  O   O16       1.0000  0.5559  0.6734  0.6747  1.0000\n  O   O17       1.0000  0.9441  0.6734  0.1747  1.0000\n  O   O18       1.0000  0.7111  0.3922  0.9341  1.0000\n  O   O19       1.0000  0.7889  0.3922  0.4341  1.0000\n  O   O20       1.0000  0.2889  0.6078  0.0659  1.0000\n  O   O21       1.0000  0.2111  0.6078  0.5659  1.0000\n  Pr  Pr4       1.0000  0.7415  0.5922  0.0891  1.0000\n  O   O22       1.0000  0.7585  0.5922  0.5891  1.0000\n  O   O23       1.0000  0.2585  0.4078  0.9109  1.0000\n  O   O24       1.0000  0.2415  0.4078  0.4109  1.0000\n  O   O25       1.0000  0.6551  0.4633  0.3520  1.0000\n  O   O26       1.0000  0.8449  0.4633  0.8520  1.0000\n  O   O27       1.0000  0.3449  0.5367  0.6480  1.0000\n  O   O28       1.0000  0.1551  0.5367  0.1480  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "224aa150-7026-494f-af3f-4e1f720ea349",
    "mp_id": "mp-1197636",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_B6P2H14N2O19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5508\n_cell_length_b   9.5441\n_cell_length_c   11.0500\n_cell_angle_alpha   81.8567\n_cell_angle_beta   81.9717\n_cell_angle_gamma   82.2365\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   B6P2H14N2O19\n_chemical_formula_sum   'B6 P2 H14 N2 O19'\n_cell_volume   467.1754\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  B  B0  1  0.0855  0.7321  0.2632  1\n  B  B1  1  0.9145  0.2679  0.7368  1\n  B  B2  1  0.8077  0.7011  0.4755  1\n  B  B3  1  0.1923  0.2989  0.5245  1\n  B  B4  1  0.7932  0.9352  0.3556  1\n  B  B5  1  0.2068  0.0648  0.6444  1\n  P  P6  1  0.6462  0.6819  0.1250  1\n  P  P7  1  0.3538  0.3181  0.8750  1\n  H  H8  1  0.2025  0.2513  0.1255  1\n  H  H9  1  0.7975  0.7487  0.8745  1\n  H  H10  1  0.1912  0.4787  0.4062  1\n  H  H11  1  0.8088  0.5213  0.5938  1\n  H  H12  1  0.9127  0.3674  0.1820  1\n  H  H13  1  0.0873  0.6326  0.8180  1\n  H  H14  1  0.4341  0.8914  0.5792  1\n  H  H15  1  0.5659  0.1086  0.4208  1\n  H  H16  1  0.9474  0.1985  0.2502  1\n  H  H17  1  0.0526  0.8015  0.7498  1\n  H  H18  1  0.1914  0.3106  0.2680  1\n  H  H19  1  0.8086  0.6894  0.7320  1\n  H  H20  1  0.6893  0.4984  0.0224  1\n  H  H21  1  0.3107  0.5016  0.9776  1\n  N  N22  1  0.0662  0.2813  0.2063  1\n  N  N23  1  0.9338  0.7187  0.7937  1\n  O  O24  1  0.4185  0.7081  0.2393  1\n  O  O25  1  0.5815  0.2919  0.7607  1\n  O  O26  1  0.6307  0.5136  0.1086  1\n  O  O27  1  0.3693  0.4864  0.8914  1\n  O  O28  1  0.9638  0.6733  0.1648  1\n  O  O29  1  0.0362  0.3267  0.8352  1\n  O  O30  1  0.5982  0.7714  0.0058  1\n  O  O31  1  0.4018  0.2286  0.9942  1\n  O  O32  1  0.9857  0.8819  0.2645  1\n  O  O33  1  0.0143  0.1181  0.7355  1\n  O  O34  1  0.0054  0.6464  0.3844  1\n  O  O35  1  0.9946  0.3536  0.6156  1\n  O  O36  1  0.2802  0.3765  0.4142  1\n  O  O37  1  0.7198  0.6235  0.5858  1\n  O  O38  1  0.2956  0.9210  0.6516  1\n  O  O39  1  0.7044  0.0790  0.3484  1\n  O  O40  1  0.6900  0.8452  0.4616  1\n  O  O41  1  0.3100  0.1548  0.5384  1\n  O  O42  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NB5P2H14BNO19\n_chemical_formula_sum              \"N2 B6 P2 H14 O19\"\n_cell_length_a       4.5508\n_cell_length_b       9.5441\n_cell_length_c       11.0500\n_cell_angle_alpha    81.8567\n_cell_angle_beta     81.9717\n_cell_angle_gamma    82.2365\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  N   N1        1.0000  0.0855  0.7321  0.2632  1.0000\n  B   B1        1.0000  0.9145  0.2679  0.7368  1.0000\n  B   B2        1.0000  0.8077  0.7011  0.4755  1.0000\n  B   B3        1.0000  0.1923  0.2989  0.5245  1.0000\n  B   B4        1.0000  0.7932  0.9352  0.3556  1.0000\n  B   B5        1.0000  0.2068  0.0648  0.6444  1.0000\n  P   P1        1.0000  0.6462  0.6819  0.1250  1.0000\n  P   P2        1.0000  0.3538  0.3181  0.8750  1.0000\n  H   H1        1.0000  0.2025  0.2513  0.1255  1.0000\n  H   H2        1.0000  0.7975  0.7487  0.8745  1.0000\n  H   H3        1.0000  0.1912  0.4787  0.4062  1.0000\n  H   H4        1.0000  0.8088  0.5213  0.5938  1.0000\n  H   H5        1.0000  0.9127  0.3674  0.1820  1.0000\n  H   H6        1.0000  0.0873  0.6326  0.8180  1.0000\n  H   H7        1.0000  0.4341  0.8914  0.5792  1.0000\n  H   H8        1.0000  0.5659  0.1086  0.4208  1.0000\n  H   H9        1.0000  0.9474  0.1985  0.2502  1.0000\n  H   H10       1.0000  0.0526  0.8015  0.7498  1.0000\n  H   H11       1.0000  0.1914  0.3106  0.2680  1.0000\n  H   H12       1.0000  0.8086  0.6894  0.7320  1.0000\n  H   H13       1.0000  0.6893  0.4984  0.0224  1.0000\n  H   H14       1.0000  0.3107  0.5016  0.9776  1.0000\n  B   B6        1.0000  0.0662  0.2813  0.2063  1.0000\n  N   N2        1.0000  0.9338  0.7187  0.7937  1.0000\n  O   O1        1.0000  0.4185  0.7081  0.2393  1.0000\n  O   O2        1.0000  0.5815  0.2919  0.7607  1.0000\n  O   O3        1.0000  0.6307  0.5136  0.1086  1.0000\n  O   O4        1.0000  0.3693  0.4864  0.8914  1.0000\n  O   O5        1.0000  0.9638  0.6733  0.1648  1.0000\n  O   O6        1.0000  0.0362  0.3267  0.8352  1.0000\n  O   O7        1.0000  0.5982  0.7714  0.0058  1.0000\n  O   O8        1.0000  0.4018  0.2286  0.9942  1.0000\n  O   O9        1.0000  0.9857  0.8819  0.2645  1.0000\n  O   O10       1.0000  0.0143  0.1181  0.7355  1.0000\n  O   O11       1.0000  0.0054  0.6464  0.3844  1.0000\n  O   O12       1.0000  0.9946  0.3536  0.6156  1.0000\n  O   O13       1.0000  0.2802  0.3765  0.4142  1.0000\n  O   O14       1.0000  0.7198  0.6235  0.5858  1.0000\n  O   O15       1.0000  0.2956  0.9210  0.6516  1.0000\n  O   O16       1.0000  0.7044  0.0790  0.3484  1.0000\n  O   O17       1.0000  0.6900  0.8452  0.4616  1.0000\n  O   O18       1.0000  0.3100  0.1548  0.5384  1.0000\n  O   O19       1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "77951886-da1c-446c-97e4-1907f9a137f0",
    "mp_id": "mp-1197877",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La5Rh4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6464\n_cell_length_b   7.7243\n_cell_length_c   15.4270\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La5Rh4\n_chemical_formula_sum   'La20 Rh16'\n_cell_volume   911.1585\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.3394  0.8354  0.8780  1\n  La  La1  1  0.8394  0.6646  0.6220  1\n  La  La2  1  0.6606  0.1646  0.3780  1\n  La  La3  1  0.1606  0.3354  0.1220  1\n  La  La4  1  0.6606  0.1646  0.1220  1\n  La  La5  1  0.1606  0.3354  0.3780  1\n  La  La6  1  0.3394  0.8354  0.6220  1\n  La  La7  1  0.8394  0.6646  0.8780  1\n  La  La8  1  0.4961  0.3180  0.9095  1\n  La  La9  1  0.9961  0.1820  0.5905  1\n  La  La10  1  0.5039  0.6820  0.4095  1\n  La  La11  1  0.0039  0.8180  0.0905  1\n  La  La12  1  0.5039  0.6820  0.0905  1\n  La  La13  1  0.0039  0.8180  0.4095  1\n  La  La14  1  0.4961  0.3180  0.5905  1\n  La  La15  1  0.9961  0.1820  0.9095  1\n  La  La16  1  0.1856  0.4756  0.7500  1\n  La  La17  1  0.6856  0.0244  0.7500  1\n  La  La18  1  0.8144  0.5244  0.2500  1\n  La  La19  1  0.3144  0.9756  0.2500  1\n  Rh  Rh20  1  0.3125  0.0292  0.0412  1\n  Rh  Rh21  1  0.8125  0.4708  0.4588  1\n  Rh  Rh22  1  0.6875  0.9708  0.5412  1\n  Rh  Rh23  1  0.1875  0.5292  0.9588  1\n  Rh  Rh24  1  0.6875  0.9708  0.9588  1\n  Rh  Rh25  1  0.1875  0.5292  0.5412  1\n  Rh  Rh26  1  0.3125  0.0292  0.4588  1\n  Rh  Rh27  1  0.8125  0.4708  0.0412  1\n  Rh  Rh28  1  0.5302  0.6103  0.7500  1\n  Rh  Rh29  1  0.0302  0.8897  0.7500  1\n  Rh  Rh30  1  0.4698  0.3897  0.2500  1\n  Rh  Rh31  1  0.9698  0.1103  0.2500  1\n  Rh  Rh32  1  0.3011  0.1386  0.7500  1\n  Rh  Rh33  1  0.8011  0.3614  0.7500  1\n  Rh  Rh34  1  0.6989  0.8614  0.2500  1\n  Rh  Rh35  1  0.1989  0.6386  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       La7RhLa12Rh13LaRh2\n_chemical_formula_sum              \"La20 Rh16\"\n_cell_length_a       7.6464\n_cell_length_b       7.7243\n_cell_length_c       15.4270\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.3394  0.8354  0.8780  1.0000\n  La  La2       1.0000  0.8394  0.6646  0.6220  1.0000\n  La  La3       1.0000  0.6606  0.1646  0.3780  1.0000\n  La  La4       1.0000  0.1606  0.3354  0.1220  1.0000\n  La  La5       1.0000  0.6606  0.1646  0.1220  1.0000\n  La  La6       1.0000  0.1606  0.3354  0.3780  1.0000\n  La  La7       1.0000  0.3394  0.8354  0.6220  1.0000\n  Rh  Rh1       1.0000  0.8394  0.6646  0.8780  1.0000\n  La  La8       1.0000  0.4961  0.3180  0.9095  1.0000\n  La  La9       1.0000  0.9961  0.1820  0.5905  1.0000\n  La  La10      1.0000  0.5039  0.6820  0.4095  1.0000\n  La  La11      1.0000  0.0039  0.8180  0.0905  1.0000\n  La  La12      1.0000  0.5039  0.6820  0.0905  1.0000\n  La  La13      1.0000  0.0039  0.8180  0.4095  1.0000\n  La  La14      1.0000  0.4961  0.3180  0.5905  1.0000\n  La  La15      1.0000  0.9961  0.1820  0.9095  1.0000\n  La  La16      1.0000  0.1856  0.4756  0.7500  1.0000\n  La  La17      1.0000  0.6856  0.0244  0.7500  1.0000\n  La  La18      1.0000  0.8144  0.5244  0.2500  1.0000\n  La  La19      1.0000  0.3144  0.9756  0.2500  1.0000\n  Rh  Rh2       1.0000  0.3125  0.0292  0.0412  1.0000\n  Rh  Rh3       1.0000  0.8125  0.4708  0.4588  1.0000\n  Rh  Rh4       1.0000  0.6875  0.9708  0.5412  1.0000\n  Rh  Rh5       1.0000  0.1875  0.5292  0.9588  1.0000\n  Rh  Rh6       1.0000  0.6875  0.9708  0.9588  1.0000\n  Rh  Rh7       1.0000  0.1875  0.5292  0.5412  1.0000\n  Rh  Rh8       1.0000  0.3125  0.0292  0.4588  1.0000\n  Rh  Rh9       1.0000  0.8125  0.4708  0.0412  1.0000\n  Rh  Rh10      1.0000  0.5302  0.6103  0.7500  1.0000\n  Rh  Rh11      1.0000  0.0302  0.8897  0.7500  1.0000\n  Rh  Rh12      1.0000  0.4698  0.3897  0.2500  1.0000\n  Rh  Rh13      1.0000  0.9698  0.1103  0.2500  1.0000\n  Rh  Rh14      1.0000  0.3011  0.1386  0.7500  1.0000\n  La  La20      1.0000  0.8011  0.3614  0.7500  1.0000\n  Rh  Rh15      1.0000  0.6989  0.8614  0.2500  1.0000\n  Rh  Rh16      1.0000  0.1989  0.6386  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e23895ec-d7f8-4d91-bcac-9688beda94a9",
    "mp_id": "mp-1198057",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbBi2O5F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4671\n_cell_length_b   5.4748\n_cell_length_c   16.9814\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbBi2O5F\n_chemical_formula_sum   'Nb4 Bi8 O20 F4'\n_cell_volume   508.2756\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.0110  0.5115  0.7532  1\n  Nb  Nb1  1  0.5110  0.4885  0.2468  1\n  Nb  Nb2  1  0.5110  0.9885  0.7532  1\n  Nb  Nb3  1  0.0110  0.0115  0.2468  1\n  Bi  Bi4  1  0.9916  0.0057  0.5755  1\n  Bi  Bi5  1  0.4916  0.9943  0.4245  1\n  Bi  Bi6  1  0.4916  0.4943  0.5755  1\n  Bi  Bi7  1  0.9916  0.5057  0.4245  1\n  Bi  Bi8  1  0.9907  0.9750  0.9243  1\n  Bi  Bi9  1  0.4907  0.0250  0.0757  1\n  Bi  Bi10  1  0.4907  0.5250  0.9243  1\n  Bi  Bi11  1  0.9907  0.4750  0.0757  1\n  O  O12  1  0.0393  0.5718  0.8627  1\n  O  O13  1  0.5393  0.4282  0.1373  1\n  O  O14  1  0.5393  0.9282  0.8627  1\n  O  O15  1  0.0393  0.0718  0.1373  1\n  O  O16  1  0.2529  0.7532  0.0022  1\n  O  O17  1  0.7529  0.2468  0.9978  1\n  O  O18  1  0.7529  0.7468  0.0022  1\n  O  O19  1  0.2529  0.2532  0.9978  1\n  O  O20  1  0.2525  0.7516  0.5032  1\n  O  O21  1  0.7525  0.2484  0.4968  1\n  O  O22  1  0.7525  0.7484  0.5032  1\n  O  O23  1  0.2525  0.2516  0.4968  1\n  O  O24  1  0.2373  0.2086  0.7529  1\n  O  O25  1  0.7373  0.7914  0.2471  1\n  O  O26  1  0.7373  0.2914  0.7529  1\n  O  O27  1  0.2373  0.7086  0.2471  1\n  O  O28  1  0.3267  0.7009  0.7210  1\n  O  O29  1  0.8267  0.2991  0.2790  1\n  O  O30  1  0.8267  0.7991  0.7210  1\n  O  O31  1  0.3267  0.2009  0.2790  1\n  F  F32  1  0.5221  0.0512  0.6227  1\n  F  F33  1  0.0221  0.9488  0.3773  1\n  F  F34  1  0.0221  0.4488  0.6227  1\n  F  F35  1  0.5221  0.5512  0.3773  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb2ONbBi8ONbO18F4\n_chemical_formula_sum              \"Nb4 O20 Bi8 F4\"\n_cell_length_a       5.4671\n_cell_length_b       5.4748\n_cell_length_c       16.9814\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.0110  0.5115  0.7532  1.0000\n  Nb  Nb2       1.0000  0.5110  0.4885  0.2468  1.0000\n  O   O1        1.0000  0.5110  0.9885  0.7532  1.0000\n  Nb  Nb3       1.0000  0.0110  0.0115  0.2468  1.0000\n  Bi  Bi1       1.0000  0.9916  0.0057  0.5755  1.0000\n  Bi  Bi2       1.0000  0.4916  0.9943  0.4245  1.0000\n  Bi  Bi3       1.0000  0.4916  0.4943  0.5755  1.0000\n  Bi  Bi4       1.0000  0.9916  0.5057  0.4245  1.0000\n  Bi  Bi5       1.0000  0.9907  0.9750  0.9243  1.0000\n  Bi  Bi6       1.0000  0.4907  0.0250  0.0757  1.0000\n  Bi  Bi7       1.0000  0.4907  0.5250  0.9243  1.0000\n  Bi  Bi8       1.0000  0.9907  0.4750  0.0757  1.0000\n  O   O2        1.0000  0.0393  0.5718  0.8627  1.0000\n  Nb  Nb4       1.0000  0.5393  0.4282  0.1373  1.0000\n  O   O3        1.0000  0.5393  0.9282  0.8627  1.0000\n  O   O4        1.0000  0.0393  0.0718  0.1373  1.0000\n  O   O5        1.0000  0.2529  0.7532  0.0022  1.0000\n  O   O6        1.0000  0.7529  0.2468  0.9978  1.0000\n  O   O7        1.0000  0.7529  0.7468  0.0022  1.0000\n  O   O8        1.0000  0.2529  0.2532  0.9978  1.0000\n  O   O9        1.0000  0.2525  0.7516  0.5032  1.0000\n  O   O10       1.0000  0.7525  0.2484  0.4968  1.0000\n  O   O11       1.0000  0.7525  0.7484  0.5032  1.0000\n  O   O12       1.0000  0.2525  0.2516  0.4968  1.0000\n  O   O13       1.0000  0.2373  0.2086  0.7529  1.0000\n  O   O14       1.0000  0.7373  0.7914  0.2471  1.0000\n  O   O15       1.0000  0.7373  0.2914  0.7529  1.0000\n  O   O16       1.0000  0.2373  0.7086  0.2471  1.0000\n  O   O17       1.0000  0.3267  0.7009  0.7210  1.0000\n  O   O18       1.0000  0.8267  0.2991  0.2790  1.0000\n  O   O19       1.0000  0.8267  0.7991  0.7210  1.0000\n  O   O20       1.0000  0.3267  0.2009  0.2790  1.0000\n  F   F1        1.0000  0.5221  0.0512  0.6227  1.0000\n  F   F2        1.0000  0.0221  0.9488  0.3773  1.0000\n  F   F3        1.0000  0.0221  0.4488  0.6227  1.0000\n  F   F4        1.0000  0.5221  0.5512  0.3773  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "09f473f7-7ff2-4deb-9e1e-83299021a969",
    "mp_id": "mp-1198140",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V4Cd(SeO6)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4138\n_cell_length_b   7.6264\n_cell_length_c   16.0269\n_cell_angle_alpha   101.2691\n_cell_angle_beta   98.9038\n_cell_angle_gamma   93.6294\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V4Cd(SeO6)3\n_chemical_formula_sum   'V8 Cd2 Se6 O36'\n_cell_volume   756.0150\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.1577  0.3793  0.5192  1\n  V  V1  1  0.8423  0.6207  0.4808  1\n  V  V2  1  0.4609  0.5460  0.7096  1\n  V  V3  1  0.5391  0.4540  0.2904  1\n  V  V4  1  0.5653  0.6446  0.9391  1\n  V  V5  1  0.4347  0.3554  0.0609  1\n  V  V6  1  0.3282  0.2285  0.8348  1\n  V  V7  1  0.6718  0.7715  0.1652  1\n  Cd  Cd8  1  0.6782  0.2070  0.5749  1\n  Cd  Cd9  1  0.3218  0.7930  0.4251  1\n  Se  Se10  1  0.8149  0.2768  0.9423  1\n  Se  Se11  1  0.1851  0.7232  0.0577  1\n  Se  Se12  1  0.2067  0.0373  0.6292  1\n  Se  Se13  1  0.7933  0.9627  0.3708  1\n  Se  Se14  1  0.9968  0.5313  0.7717  1\n  Se  Se15  1  0.0032  0.4687  0.2283  1\n  O  O16  1  0.4138  0.4155  0.5935  1\n  O  O17  1  0.5862  0.5845  0.4065  1\n  O  O18  1  0.8542  0.3928  0.5038  1\n  O  O19  1  0.1458  0.6072  0.4962  1\n  O  O20  1  0.6109  0.0059  0.4367  1\n  O  O21  1  0.3891  0.9941  0.5633  1\n  O  O22  1  0.0517  0.1797  0.5775  1\n  O  O23  1  0.9483  0.8203  0.4225  1\n  O  O24  1  0.7494  0.4532  0.7079  1\n  O  O25  1  0.2506  0.5468  0.2920  1\n  O  O26  1  0.7026  0.2725  0.0346  1\n  O  O27  1  0.2974  0.7275  0.9654  1\n  O  O28  1  0.6224  0.1746  0.8555  1\n  O  O29  1  0.3776  0.8254  0.1445  1\n  O  O30  1  0.8085  0.5012  0.9318  1\n  O  O31  1  0.1915  0.4988  0.0682  1\n  O  O32  1  0.3667  0.1946  0.7134  1\n  O  O33  1  0.6333  0.8054  0.2866  1\n  O  O34  1  0.1447  0.5392  0.6898  1\n  O  O35  1  0.8553  0.4608  0.3102  1\n  O  O36  1  0.0541  0.3286  0.8001  1\n  O  O37  1  0.9459  0.6714  0.1999  1\n  O  O38  1  0.4559  0.5300  0.8217  1\n  O  O39  1  0.5441  0.4700  0.1783  1\n  O  O40  1  0.6242  0.6329  0.0572  1\n  O  O41  1  0.3758  0.3671  0.9428  1\n  O  O42  1  0.2113  0.0383  0.8400  1\n  O  O43  1  0.7887  0.9617  0.1600  1\n  O  O44  1  0.2105  0.2555  0.4322  1\n  O  O45  1  0.7895  0.7445  0.5678  1\n  O  O46  1  0.5168  0.7550  0.7101  1\n  O  O47  1  0.4832  0.2450  0.2899  1\n  O  O48  1  0.6894  0.8301  0.9313  1\n  O  O49  1  0.3106  0.1699  0.0687  1\n  O  O50  1  0.7989  0.0561  0.6900  1\n  O  O51  1  0.2011  0.9439  0.3100  1\n",
    "output": "data_image0\n_chemical_formula_structural       OV7Cd2Se6OVO34\n_chemical_formula_sum              \"O36 V8 Cd2 Se6\"\n_cell_length_a       6.4138\n_cell_length_b       7.6264\n_cell_length_c       16.0269\n_cell_angle_alpha    101.2691\n_cell_angle_beta     98.9038\n_cell_angle_gamma    93.6294\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1577  0.3793  0.5192  1.0000\n  V   V1        1.0000  0.8423  0.6207  0.4808  1.0000\n  V   V2        1.0000  0.4609  0.5460  0.7096  1.0000\n  V   V3        1.0000  0.5391  0.4540  0.2904  1.0000\n  V   V4        1.0000  0.5653  0.6446  0.9391  1.0000\n  V   V5        1.0000  0.4347  0.3554  0.0609  1.0000\n  V   V6        1.0000  0.3282  0.2285  0.8348  1.0000\n  V   V7        1.0000  0.6718  0.7715  0.1652  1.0000\n  Cd  Cd1       1.0000  0.6782  0.2070  0.5749  1.0000\n  Cd  Cd2       1.0000  0.3218  0.7930  0.4251  1.0000\n  Se  Se1       1.0000  0.8149  0.2768  0.9423  1.0000\n  Se  Se2       1.0000  0.1851  0.7232  0.0577  1.0000\n  Se  Se3       1.0000  0.2067  0.0373  0.6292  1.0000\n  Se  Se4       1.0000  0.7933  0.9627  0.3708  1.0000\n  Se  Se5       1.0000  0.9968  0.5313  0.7717  1.0000\n  Se  Se6       1.0000  0.0032  0.4687  0.2283  1.0000\n  O   O2        1.0000  0.4138  0.4155  0.5935  1.0000\n  V   V8        1.0000  0.5862  0.5845  0.4065  1.0000\n  O   O3        1.0000  0.8542  0.3928  0.5038  1.0000\n  O   O4        1.0000  0.1458  0.6072  0.4962  1.0000\n  O   O5        1.0000  0.6109  0.0059  0.4367  1.0000\n  O   O6        1.0000  0.3891  0.9941  0.5633  1.0000\n  O   O7        1.0000  0.0517  0.1797  0.5775  1.0000\n  O   O8        1.0000  0.9483  0.8203  0.4225  1.0000\n  O   O9        1.0000  0.7494  0.4532  0.7079  1.0000\n  O   O10       1.0000  0.2506  0.5468  0.2920  1.0000\n  O   O11       1.0000  0.7026  0.2725  0.0346  1.0000\n  O   O12       1.0000  0.2974  0.7275  0.9654  1.0000\n  O   O13       1.0000  0.6224  0.1746  0.8555  1.0000\n  O   O14       1.0000  0.3776  0.8254  0.1445  1.0000\n  O   O15       1.0000  0.8085  0.5012  0.9318  1.0000\n  O   O16       1.0000  0.1915  0.4988  0.0682  1.0000\n  O   O17       1.0000  0.3667  0.1946  0.7134  1.0000\n  O   O18       1.0000  0.6333  0.8054  0.2866  1.0000\n  O   O19       1.0000  0.1447  0.5392  0.6898  1.0000\n  O   O20       1.0000  0.8553  0.4608  0.3102  1.0000\n  O   O21       1.0000  0.0541  0.3286  0.8001  1.0000\n  O   O22       1.0000  0.9459  0.6714  0.1999  1.0000\n  O   O23       1.0000  0.4559  0.5300  0.8217  1.0000\n  O   O24       1.0000  0.5441  0.4700  0.1783  1.0000\n  O   O25       1.0000  0.6242  0.6329  0.0572  1.0000\n  O   O26       1.0000  0.3758  0.3671  0.9428  1.0000\n  O   O27       1.0000  0.2113  0.0383  0.8400  1.0000\n  O   O28       1.0000  0.7887  0.9617  0.1600  1.0000\n  O   O29       1.0000  0.2105  0.2555  0.4322  1.0000\n  O   O30       1.0000  0.7895  0.7445  0.5678  1.0000\n  O   O31       1.0000  0.5168  0.7550  0.7101  1.0000\n  O   O32       1.0000  0.4832  0.2450  0.2899  1.0000\n  O   O33       1.0000  0.6894  0.8301  0.9313  1.0000\n  O   O34       1.0000  0.3106  0.1699  0.0687  1.0000\n  O   O35       1.0000  0.7989  0.0561  0.6900  1.0000\n  O   O36       1.0000  0.2011  0.9439  0.3100  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "88e25e03-3b77-47af-bd3c-aaa3ee9bc7b5",
    "mp_id": "mp-1198411",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_U11(PbO12)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8290\n_cell_length_b   8.4746\n_cell_length_c   28.6805\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   U11(PbO12)3\n_chemical_formula_sum   'U22 Pb6 O72'\n_cell_volume   1659.8105\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.3212  0.0000  0.0000  1\n  U  U1  1  0.6788  0.5000  0.5000  1\n  U  U2  1  0.2483  0.0000  0.8661  1\n  U  U3  1  0.2483  0.0000  0.1339  1\n  U  U4  1  0.7517  0.5000  0.6339  1\n  U  U5  1  0.7517  0.5000  0.3661  1\n  U  U6  1  0.7722  0.0000  0.7869  1\n  U  U7  1  0.7722  0.0000  0.2131  1\n  U  U8  1  0.2278  0.5000  0.7131  1\n  U  U9  1  0.2278  0.5000  0.2869  1\n  U  U10  1  0.7795  0.0000  0.9281  1\n  U  U11  1  0.7795  0.0000  0.0719  1\n  U  U12  1  0.2205  0.5000  0.5719  1\n  U  U13  1  0.2205  0.5000  0.4281  1\n  U  U14  1  0.2231  0.0000  0.5729  1\n  U  U15  1  0.2231  0.0000  0.4271  1\n  U  U16  1  0.7769  0.5000  0.9271  1\n  U  U17  1  0.7769  0.5000  0.0729  1\n  U  U18  1  0.2275  0.0000  0.7194  1\n  U  U19  1  0.2275  0.0000  0.2806  1\n  U  U20  1  0.7725  0.5000  0.7806  1\n  U  U21  1  0.7725  0.5000  0.2194  1\n  Pb  Pb22  1  0.7631  0.0000  0.5000  1\n  Pb  Pb23  1  0.2369  0.5000  0.0000  1\n  Pb  Pb24  1  0.6923  0.0000  0.6463  1\n  Pb  Pb25  1  0.6923  0.0000  0.3537  1\n  Pb  Pb26  1  0.3077  0.5000  0.8537  1\n  Pb  Pb27  1  0.3077  0.5000  0.1463  1\n  O  O28  1  0.3222  0.7815  0.0000  1\n  O  O29  1  0.3222  0.2185  0.0000  1\n  O  O30  1  0.6778  0.7185  0.5000  1\n  O  O31  1  0.6778  0.2815  0.5000  1\n  O  O32  1  0.2443  0.7811  0.8653  1\n  O  O33  1  0.2443  0.7811  0.1347  1\n  O  O34  1  0.2443  0.2189  0.8653  1\n  O  O35  1  0.2443  0.2189  0.1347  1\n  O  O36  1  0.7557  0.7189  0.6347  1\n  O  O37  1  0.7557  0.7189  0.3653  1\n  O  O38  1  0.7557  0.2811  0.6347  1\n  O  O39  1  0.7557  0.2811  0.3653  1\n  O  O40  1  0.2223  0.7276  0.7173  1\n  O  O41  1  0.2223  0.7276  0.2827  1\n  O  O42  1  0.2223  0.2724  0.7173  1\n  O  O43  1  0.2223  0.2724  0.2827  1\n  O  O44  1  0.7777  0.7724  0.7827  1\n  O  O45  1  0.7777  0.7724  0.2173  1\n  O  O46  1  0.7777  0.2276  0.7827  1\n  O  O47  1  0.7777  0.2276  0.2173  1\n  O  O48  1  0.2225  0.7354  0.5721  1\n  O  O49  1  0.2225  0.7354  0.4279  1\n  O  O50  1  0.2225  0.2646  0.5721  1\n  O  O51  1  0.2225  0.2646  0.4279  1\n  O  O52  1  0.7775  0.7646  0.9279  1\n  O  O53  1  0.7775  0.7646  0.0721  1\n  O  O54  1  0.7775  0.2354  0.9279  1\n  O  O55  1  0.7775  0.2354  0.0721  1\n  O  O56  1  0.0831  0.0000  0.9430  1\n  O  O57  1  0.0831  0.0000  0.0570  1\n  O  O58  1  0.9169  0.5000  0.5570  1\n  O  O59  1  0.9169  0.5000  0.4430  1\n  O  O60  1  0.1407  0.0000  0.7866  1\n  O  O61  1  0.1407  0.0000  0.2134  1\n  O  O62  1  0.8593  0.5000  0.7134  1\n  O  O63  1  0.8593  0.5000  0.2866  1\n  O  O64  1  0.2838  0.0000  0.6500  1\n  O  O65  1  0.2838  0.0000  0.3500  1\n  O  O66  1  0.7162  0.5000  0.8500  1\n  O  O67  1  0.7162  0.5000  0.1500  1\n  O  O68  1  0.1518  0.0000  0.5000  1\n  O  O69  1  0.8482  0.5000  0.0000  1\n  O  O70  1  0.6901  0.0000  0.0000  1\n  O  O71  1  0.3099  0.5000  0.5000  1\n  O  O72  1  0.9071  0.0000  0.8591  1\n  O  O73  1  0.9071  0.0000  0.1409  1\n  O  O74  1  0.0929  0.5000  0.6409  1\n  O  O75  1  0.0929  0.5000  0.3591  1\n  O  O76  1  0.9375  0.0000  0.7112  1\n  O  O77  1  0.9375  0.0000  0.2888  1\n  O  O78  1  0.0625  0.5000  0.7888  1\n  O  O79  1  0.0625  0.5000  0.2112  1\n  O  O80  1  0.9494  0.0000  0.5845  1\n  O  O81  1  0.9494  0.0000  0.4155  1\n  O  O82  1  0.0506  0.5000  0.9155  1\n  O  O83  1  0.0506  0.5000  0.0845  1\n  O  O84  1  0.4652  0.0000  0.9261  1\n  O  O85  1  0.4652  0.0000  0.0739  1\n  O  O86  1  0.5348  0.5000  0.5739  1\n  O  O87  1  0.5348  0.5000  0.4261  1\n  O  O88  1  0.5307  0.0000  0.8283  1\n  O  O89  1  0.5307  0.0000  0.1717  1\n  O  O90  1  0.4693  0.5000  0.6717  1\n  O  O91  1  0.4693  0.5000  0.3283  1\n  O  O92  1  0.5161  0.0000  0.7306  1\n  O  O93  1  0.5161  0.0000  0.2694  1\n  O  O94  1  0.4839  0.5000  0.7694  1\n  O  O95  1  0.4839  0.5000  0.2306  1\n  O  O96  1  0.4987  0.0000  0.5637  1\n  O  O97  1  0.4987  0.0000  0.4363  1\n  O  O98  1  0.5013  0.5000  0.9363  1\n  O  O99  1  0.5013  0.5000  0.0637  1\n",
    "output": "data_image0\n_chemical_formula_structural       OU21Pb6O6UO65\n_chemical_formula_sum              \"O72 U22 Pb6\"\n_cell_length_a       6.8290\n_cell_length_b       8.4746\n_cell_length_c       28.6805\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.3212  0.0000  0.0000  1.0000\n  U   U1        1.0000  0.6788  0.5000  0.5000  1.0000\n  U   U2        1.0000  0.2483  0.0000  0.8661  1.0000\n  U   U3        1.0000  0.2483  0.0000  0.1339  1.0000\n  U   U4        1.0000  0.7517  0.5000  0.6339  1.0000\n  U   U5        1.0000  0.7517  0.5000  0.3661  1.0000\n  U   U6        1.0000  0.7722  0.0000  0.7869  1.0000\n  U   U7        1.0000  0.7722  0.0000  0.2131  1.0000\n  U   U8        1.0000  0.2278  0.5000  0.7131  1.0000\n  U   U9        1.0000  0.2278  0.5000  0.2869  1.0000\n  U   U10       1.0000  0.7795  0.0000  0.9281  1.0000\n  U   U11       1.0000  0.7795  0.0000  0.0719  1.0000\n  U   U12       1.0000  0.2205  0.5000  0.5719  1.0000\n  U   U13       1.0000  0.2205  0.5000  0.4281  1.0000\n  U   U14       1.0000  0.2231  0.0000  0.5729  1.0000\n  U   U15       1.0000  0.2231  0.0000  0.4271  1.0000\n  U   U16       1.0000  0.7769  0.5000  0.9271  1.0000\n  U   U17       1.0000  0.7769  0.5000  0.0729  1.0000\n  U   U18       1.0000  0.2275  0.0000  0.7194  1.0000\n  U   U19       1.0000  0.2275  0.0000  0.2806  1.0000\n  U   U20       1.0000  0.7725  0.5000  0.7806  1.0000\n  U   U21       1.0000  0.7725  0.5000  0.2194  1.0000\n  Pb  Pb1       1.0000  0.7631  0.0000  0.5000  1.0000\n  Pb  Pb2       1.0000  0.2369  0.5000  0.0000  1.0000\n  Pb  Pb3       1.0000  0.6923  0.0000  0.6463  1.0000\n  Pb  Pb4       1.0000  0.6923  0.0000  0.3537  1.0000\n  Pb  Pb5       1.0000  0.3077  0.5000  0.8537  1.0000\n  Pb  Pb6       1.0000  0.3077  0.5000  0.1463  1.0000\n  O   O2        1.0000  0.3222  0.7815  0.0000  1.0000\n  O   O3        1.0000  0.3222  0.2185  0.0000  1.0000\n  O   O4        1.0000  0.6778  0.7185  0.5000  1.0000\n  O   O5        1.0000  0.6778  0.2815  0.5000  1.0000\n  O   O6        1.0000  0.2443  0.7811  0.8653  1.0000\n  O   O7        1.0000  0.2443  0.7811  0.1347  1.0000\n  U   U22       1.0000  0.2443  0.2189  0.8653  1.0000\n  O   O8        1.0000  0.2443  0.2189  0.1347  1.0000\n  O   O9        1.0000  0.7557  0.7189  0.6347  1.0000\n  O   O10       1.0000  0.7557  0.7189  0.3653  1.0000\n  O   O11       1.0000  0.7557  0.2811  0.6347  1.0000\n  O   O12       1.0000  0.7557  0.2811  0.3653  1.0000\n  O   O13       1.0000  0.2223  0.7276  0.7173  1.0000\n  O   O14       1.0000  0.2223  0.7276  0.2827  1.0000\n  O   O15       1.0000  0.2223  0.2724  0.7173  1.0000\n  O   O16       1.0000  0.2223  0.2724  0.2827  1.0000\n  O   O17       1.0000  0.7777  0.7724  0.7827  1.0000\n  O   O18       1.0000  0.7777  0.7724  0.2173  1.0000\n  O   O19       1.0000  0.7777  0.2276  0.7827  1.0000\n  O   O20       1.0000  0.7777  0.2276  0.2173  1.0000\n  O   O21       1.0000  0.2225  0.7354  0.5721  1.0000\n  O   O22       1.0000  0.2225  0.7354  0.4279  1.0000\n  O   O23       1.0000  0.2225  0.2646  0.5721  1.0000\n  O   O24       1.0000  0.2225  0.2646  0.4279  1.0000\n  O   O25       1.0000  0.7775  0.7646  0.9279  1.0000\n  O   O26       1.0000  0.7775  0.7646  0.0721  1.0000\n  O   O27       1.0000  0.7775  0.2354  0.9279  1.0000\n  O   O28       1.0000  0.7775  0.2354  0.0721  1.0000\n  O   O29       1.0000  0.0831  0.0000  0.9430  1.0000\n  O   O30       1.0000  0.0831  0.0000  0.0570  1.0000\n  O   O31       1.0000  0.9169  0.5000  0.5570  1.0000\n  O   O32       1.0000  0.9169  0.5000  0.4430  1.0000\n  O   O33       1.0000  0.1407  0.0000  0.7866  1.0000\n  O   O34       1.0000  0.1407  0.0000  0.2134  1.0000\n  O   O35       1.0000  0.8593  0.5000  0.7134  1.0000\n  O   O36       1.0000  0.8593  0.5000  0.2866  1.0000\n  O   O37       1.0000  0.2838  0.0000  0.6500  1.0000\n  O   O38       1.0000  0.2838  0.0000  0.3500  1.0000\n  O   O39       1.0000  0.7162  0.5000  0.8500  1.0000\n  O   O40       1.0000  0.7162  0.5000  0.1500  1.0000\n  O   O41       1.0000  0.1518  0.0000  0.5000  1.0000\n  O   O42       1.0000  0.8482  0.5000  0.0000  1.0000\n  O   O43       1.0000  0.6901  0.0000  0.0000  1.0000\n  O   O44       1.0000  0.3099  0.5000  0.5000  1.0000\n  O   O45       1.0000  0.9071  0.0000  0.8591  1.0000\n  O   O46       1.0000  0.9071  0.0000  0.1409  1.0000\n  O   O47       1.0000  0.0929  0.5000  0.6409  1.0000\n  O   O48       1.0000  0.0929  0.5000  0.3591  1.0000\n  O   O49       1.0000  0.9375  0.0000  0.7112  1.0000\n  O   O50       1.0000  0.9375  0.0000  0.2888  1.0000\n  O   O51       1.0000  0.0625  0.5000  0.7888  1.0000\n  O   O52       1.0000  0.0625  0.5000  0.2112  1.0000\n  O   O53       1.0000  0.9494  0.0000  0.5845  1.0000\n  O   O54       1.0000  0.9494  0.0000  0.4155  1.0000\n  O   O55       1.0000  0.0506  0.5000  0.9155  1.0000\n  O   O56       1.0000  0.0506  0.5000  0.0845  1.0000\n  O   O57       1.0000  0.4652  0.0000  0.9261  1.0000\n  O   O58       1.0000  0.4652  0.0000  0.0739  1.0000\n  O   O59       1.0000  0.5348  0.5000  0.5739  1.0000\n  O   O60       1.0000  0.5348  0.5000  0.4261  1.0000\n  O   O61       1.0000  0.5307  0.0000  0.8283  1.0000\n  O   O62       1.0000  0.5307  0.0000  0.1717  1.0000\n  O   O63       1.0000  0.4693  0.5000  0.6717  1.0000\n  O   O64       1.0000  0.4693  0.5000  0.3283  1.0000\n  O   O65       1.0000  0.5161  0.0000  0.7306  1.0000\n  O   O66       1.0000  0.5161  0.0000  0.2694  1.0000\n  O   O67       1.0000  0.4839  0.5000  0.7694  1.0000\n  O   O68       1.0000  0.4839  0.5000  0.2306  1.0000\n  O   O69       1.0000  0.4987  0.0000  0.5637  1.0000\n  O   O70       1.0000  0.4987  0.0000  0.4363  1.0000\n  O   O71       1.0000  0.5013  0.5000  0.9363  1.0000\n  O   O72       1.0000  0.5013  0.5000  0.0637  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f48ab813-1e07-465f-b7a4-cb717dac95d3",
    "mp_id": "mp-1198574",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 62 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgH8C3(NO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8632\n_cell_length_b   13.7381\n_cell_length_c   7.3788\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgH8C3(NO3)2\n_chemical_formula_sum   'Mg4 H32 C12 N8 O24'\n_cell_volume   797.0975\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7167  0.6635  0.7616  1\n  Mg  Mg1  1  0.7833  0.3365  0.2616  1\n  Mg  Mg2  1  0.2833  0.1635  0.7384  1\n  Mg  Mg3  1  0.2167  0.8365  0.2384  1\n  H  H4  1  0.4228  0.6895  0.4707  1\n  H  H5  1  0.0772  0.3105  0.9707  1\n  H  H6  1  0.5772  0.1895  0.0293  1\n  H  H7  1  0.9228  0.8105  0.5293  1\n  H  H8  1  0.0049  0.7145  0.0041  1\n  H  H9  1  0.4951  0.2855  0.5041  1\n  H  H10  1  0.9951  0.2145  0.4959  1\n  H  H11  1  0.5049  0.7855  0.9959  1\n  H  H12  1  0.8265  0.5205  0.4749  1\n  H  H13  1  0.6735  0.4795  0.9749  1\n  H  H14  1  0.1735  0.0205  0.0251  1\n  H  H15  1  0.3265  0.9795  0.5251  1\n  H  H16  1  0.5601  0.9793  0.7878  1\n  H  H17  1  0.9399  0.0207  0.2878  1\n  H  H18  1  0.4399  0.4793  0.7122  1\n  H  H19  1  0.0601  0.5207  0.2122  1\n  H  H20  1  0.7209  0.8964  0.8023  1\n  H  H21  1  0.7791  0.1036  0.3023  1\n  H  H22  1  0.2791  0.3964  0.6977  1\n  H  H23  1  0.2209  0.6036  0.1977  1\n  H  H24  1  0.6930  0.9625  0.6081  1\n  H  H25  1  0.8070  0.0375  0.1081  1\n  H  H26  1  0.3070  0.4625  0.8919  1\n  H  H27  1  0.1930  0.5375  0.3919  1\n  H  H28  1  0.9068  0.0353  0.7838  1\n  H  H29  1  0.5932  0.9647  0.2838  1\n  H  H30  1  0.0932  0.5353  0.7162  1\n  H  H31  1  0.4068  0.4647  0.2162  1\n  H  H32  1  0.7371  0.1029  0.7879  1\n  H  H33  1  0.7629  0.8971  0.2879  1\n  H  H34  1  0.2629  0.6029  0.7121  1\n  H  H35  1  0.2371  0.3971  0.2121  1\n  C  C36  1  0.4791  0.7620  0.4964  1\n  C  C37  1  0.0209  0.2380  0.9964  1\n  C  C38  1  0.5209  0.2620  0.0036  1\n  C  C39  1  0.9791  0.7380  0.5036  1\n  C  C40  1  0.9389  0.7849  0.9951  1\n  C  C41  1  0.5611  0.2151  0.4951  1\n  C  C42  1  0.0611  0.2849  0.5049  1\n  C  C43  1  0.4389  0.7151  0.0049  1\n  C  C44  1  0.6949  0.4979  0.5033  1\n  C  C45  1  0.8051  0.5021  0.0033  1\n  C  C46  1  0.3051  0.9979  0.9967  1\n  C  C47  1  0.1949  0.0021  0.4967  1\n  N  N48  1  0.6847  0.9636  0.7490  1\n  N  N49  1  0.8153  0.0364  0.2490  1\n  N  N50  1  0.3153  0.4636  0.7510  1\n  N  N51  1  0.1847  0.5364  0.2510  1\n  N  N52  1  0.7860  0.0389  0.8342  1\n  N  N53  1  0.7140  0.9611  0.3342  1\n  N  N54  1  0.2140  0.5389  0.6658  1\n  N  N55  1  0.2860  0.4611  0.1658  1\n  O  O56  1  0.5961  0.7678  0.6123  1\n  O  O57  1  0.9039  0.2322  0.1123  1\n  O  O58  1  0.4039  0.2678  0.8877  1\n  O  O59  1  0.0961  0.7322  0.3877  1\n  O  O60  1  0.4221  0.8329  0.4075  1\n  O  O61  1  0.0779  0.1671  0.9075  1\n  O  O62  1  0.5779  0.3329  0.0925  1\n  O  O63  1  0.9221  0.6671  0.5925  1\n  O  O64  1  0.8025  0.7867  0.9034  1\n  O  O65  1  0.6975  0.2133  0.4034  1\n  O  O66  1  0.1975  0.2867  0.5966  1\n  O  O67  1  0.3025  0.7133  0.0966  1\n  O  O68  1  0.0024  0.8570  0.0757  1\n  O  O69  1  0.4976  0.1430  0.5757  1\n  O  O70  1  0.9976  0.3570  0.4243  1\n  O  O71  1  0.5024  0.6430  0.9243  1\n  O  O72  1  0.6145  0.5460  0.6223  1\n  O  O73  1  0.8855  0.4540  0.1223  1\n  O  O74  1  0.3855  0.0460  0.8777  1\n  O  O75  1  0.1145  0.9540  0.3777  1\n  O  O76  1  0.6335  0.4272  0.4177  1\n  O  O77  1  0.8665  0.5728  0.9177  1\n  O  O78  1  0.3665  0.9272  0.0823  1\n  O  O79  1  0.1335  0.0728  0.5823  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4H20OH11C12N8O6HO17\n_chemical_formula_sum              \"Mg4 H32 O24 C12 N8\"\n_cell_length_a       7.8632\n_cell_length_b       13.7381\n_cell_length_c       7.3788\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7167  0.6635  0.7616  1.0000\n  Mg  Mg2       1.0000  0.7833  0.3365  0.2616  1.0000\n  Mg  Mg3       1.0000  0.2833  0.1635  0.7384  1.0000\n  Mg  Mg4       1.0000  0.2167  0.8365  0.2384  1.0000\n  H   H1        1.0000  0.4228  0.6895  0.4707  1.0000\n  H   H2        1.0000  0.0772  0.3105  0.9707  1.0000\n  H   H3        1.0000  0.5772  0.1895  0.0293  1.0000\n  H   H4        1.0000  0.9228  0.8105  0.5293  1.0000\n  H   H5        1.0000  0.0049  0.7145  0.0041  1.0000\n  H   H6        1.0000  0.4951  0.2855  0.5041  1.0000\n  H   H7        1.0000  0.9951  0.2145  0.4959  1.0000\n  H   H8        1.0000  0.5049  0.7855  0.9959  1.0000\n  H   H9        1.0000  0.8265  0.5205  0.4749  1.0000\n  H   H10       1.0000  0.6735  0.4795  0.9749  1.0000\n  H   H11       1.0000  0.1735  0.0205  0.0251  1.0000\n  H   H12       1.0000  0.3265  0.9795  0.5251  1.0000\n  H   H13       1.0000  0.5601  0.9793  0.7878  1.0000\n  H   H14       1.0000  0.9399  0.0207  0.2878  1.0000\n  H   H15       1.0000  0.4399  0.4793  0.7122  1.0000\n  H   H16       1.0000  0.0601  0.5207  0.2122  1.0000\n  H   H17       1.0000  0.7209  0.8964  0.8023  1.0000\n  H   H18       1.0000  0.7791  0.1036  0.3023  1.0000\n  H   H19       1.0000  0.2791  0.3964  0.6977  1.0000\n  H   H20       1.0000  0.2209  0.6036  0.1977  1.0000\n  O   O1        1.0000  0.6930  0.9625  0.6081  1.0000\n  H   H21       1.0000  0.8070  0.0375  0.1081  1.0000\n  H   H22       1.0000  0.3070  0.4625  0.8919  1.0000\n  H   H23       1.0000  0.1930  0.5375  0.3919  1.0000\n  H   H24       1.0000  0.9068  0.0353  0.7838  1.0000\n  H   H25       1.0000  0.5932  0.9647  0.2838  1.0000\n  H   H26       1.0000  0.0932  0.5353  0.7162  1.0000\n  H   H27       1.0000  0.4068  0.4647  0.2162  1.0000\n  H   H28       1.0000  0.7371  0.1029  0.7879  1.0000\n  H   H29       1.0000  0.7629  0.8971  0.2879  1.0000\n  H   H30       1.0000  0.2629  0.6029  0.7121  1.0000\n  H   H31       1.0000  0.2371  0.3971  0.2121  1.0000\n  C   C1        1.0000  0.4791  0.7620  0.4964  1.0000\n  C   C2        1.0000  0.0209  0.2380  0.9964  1.0000\n  C   C3        1.0000  0.5209  0.2620  0.0036  1.0000\n  C   C4        1.0000  0.9791  0.7380  0.5036  1.0000\n  C   C5        1.0000  0.9389  0.7849  0.9951  1.0000\n  C   C6        1.0000  0.5611  0.2151  0.4951  1.0000\n  C   C7        1.0000  0.0611  0.2849  0.5049  1.0000\n  C   C8        1.0000  0.4389  0.7151  0.0049  1.0000\n  C   C9        1.0000  0.6949  0.4979  0.5033  1.0000\n  C   C10       1.0000  0.8051  0.5021  0.0033  1.0000\n  C   C11       1.0000  0.3051  0.9979  0.9967  1.0000\n  C   C12       1.0000  0.1949  0.0021  0.4967  1.0000\n  N   N1        1.0000  0.6847  0.9636  0.7490  1.0000\n  N   N2        1.0000  0.8153  0.0364  0.2490  1.0000\n  N   N3        1.0000  0.3153  0.4636  0.7510  1.0000\n  N   N4        1.0000  0.1847  0.5364  0.2510  1.0000\n  N   N5        1.0000  0.7860  0.0389  0.8342  1.0000\n  N   N6        1.0000  0.7140  0.9611  0.3342  1.0000\n  N   N7        1.0000  0.2140  0.5389  0.6658  1.0000\n  N   N8        1.0000  0.2860  0.4611  0.1658  1.0000\n  O   O2        1.0000  0.5961  0.7678  0.6123  1.0000\n  O   O3        1.0000  0.9039  0.2322  0.1123  1.0000\n  O   O4        1.0000  0.4039  0.2678  0.8877  1.0000\n  O   O5        1.0000  0.0961  0.7322  0.3877  1.0000\n  O   O6        1.0000  0.4221  0.8329  0.4075  1.0000\n  O   O7        1.0000  0.0779  0.1671  0.9075  1.0000\n  H   H32       1.0000  0.5779  0.3329  0.0925  1.0000\n  O   O8        1.0000  0.9221  0.6671  0.5925  1.0000\n  O   O9        1.0000  0.8025  0.7867  0.9034  1.0000\n  O   O10       1.0000  0.6975  0.2133  0.4034  1.0000\n  O   O11       1.0000  0.1975  0.2867  0.5966  1.0000\n  O   O12       1.0000  0.3025  0.7133  0.0966  1.0000\n  O   O13       1.0000  0.0024  0.8570  0.0757  1.0000\n  O   O14       1.0000  0.4976  0.1430  0.5757  1.0000\n  O   O15       1.0000  0.9976  0.3570  0.4243  1.0000\n  O   O16       1.0000  0.5024  0.6430  0.9243  1.0000\n  O   O17       1.0000  0.6145  0.5460  0.6223  1.0000\n  O   O18       1.0000  0.8855  0.4540  0.1223  1.0000\n  O   O19       1.0000  0.3855  0.0460  0.8777  1.0000\n  O   O20       1.0000  0.1145  0.9540  0.3777  1.0000\n  O   O21       1.0000  0.6335  0.4272  0.4177  1.0000\n  O   O22       1.0000  0.8665  0.5728  0.9177  1.0000\n  O   O23       1.0000  0.3665  0.9272  0.0823  1.0000\n  O   O24       1.0000  0.1335  0.0728  0.5823  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "48361391-617b-46ad-8b4e-2c72ebadee13",
    "mp_id": "mp-1198593",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_PuUP4H4(CO8)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   20.3385\n_cell_length_b   5.6221\n_cell_length_c   7.2133\n_cell_angle_alpha   80.0373\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   PuUP4H4(CO8)2\n_chemical_formula_sum   'Pu2 U2 P8 H8 C4 O32'\n_cell_volume   812.3772\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pu  Pu0  1  0.2500  0.6840  0.8471  1\n  Pu  Pu1  1  0.7500  0.3160  0.1529  1\n  U  U2  1  0.5000  0.5000  0.5000  1\n  U  U3  1  0.0000  0.5000  0.5000  1\n  P  P4  1  0.3784  0.9048  0.1809  1\n  P  P5  1  0.8784  0.0952  0.8191  1\n  P  P6  1  0.6216  0.0952  0.8191  1\n  P  P7  1  0.1216  0.9048  0.1809  1\n  P  P8  1  0.3649  0.1967  0.7844  1\n  P  P9  1  0.8649  0.8033  0.2156  1\n  P  P10  1  0.6351  0.8033  0.2156  1\n  P  P11  1  0.1351  0.1967  0.7844  1\n  H  H12  1  0.4515  0.9508  0.9139  1\n  H  H13  1  0.9515  0.0492  0.0861  1\n  H  H14  1  0.5485  0.0492  0.0861  1\n  H  H15  1  0.0485  0.9508  0.9139  1\n  H  H16  1  0.4477  0.2200  0.0170  1\n  H  H17  1  0.9477  0.7800  0.9830  1\n  H  H18  1  0.5523  0.7800  0.9830  1\n  H  H19  1  0.0523  0.2200  0.0170  1\n  C  C20  1  0.4188  0.0733  0.9744  1\n  C  C21  1  0.9188  0.9267  0.0256  1\n  C  C22  1  0.5812  0.9267  0.0256  1\n  C  C23  1  0.0812  0.0733  0.9744  1\n  O  O24  1  0.3186  0.9945  0.7470  1\n  O  O25  1  0.8186  0.0055  0.2530  1\n  O  O26  1  0.6814  0.0055  0.2530  1\n  O  O27  1  0.1814  0.9945  0.7470  1\n  O  O28  1  0.4893  0.6887  0.6775  1\n  O  O29  1  0.9893  0.3113  0.3225  1\n  O  O30  1  0.5107  0.3113  0.3225  1\n  O  O31  1  0.0107  0.6887  0.6775  1\n  O  O32  1  0.4315  0.7432  0.2885  1\n  O  O33  1  0.9315  0.2568  0.7115  1\n  O  O34  1  0.5685  0.2568  0.7115  1\n  O  O35  1  0.0685  0.7432  0.2885  1\n  O  O36  1  0.2500  0.6851  0.5970  1\n  O  O37  1  0.7500  0.3149  0.4030  1\n  O  O38  1  0.2500  0.4658  0.1340  1\n  O  O39  1  0.7500  0.5342  0.8660  1\n  O  O40  1  0.3213  0.7641  0.1048  1\n  O  O41  1  0.8213  0.2359  0.8952  1\n  O  O42  1  0.6787  0.2359  0.8952  1\n  O  O43  1  0.1787  0.7641  0.1048  1\n  O  O44  1  0.3457  0.0744  0.2978  1\n  O  O45  1  0.8457  0.9256  0.7022  1\n  O  O46  1  0.6543  0.9256  0.7022  1\n  O  O47  1  0.1543  0.0744  0.2978  1\n  O  O48  1  0.4084  0.2906  0.6148  1\n  O  O49  1  0.9084  0.7094  0.3852  1\n  O  O50  1  0.5916  0.7094  0.3852  1\n  O  O51  1  0.0916  0.2906  0.6148  1\n  O  O52  1  0.3250  0.4048  0.8480  1\n  O  O53  1  0.8250  0.5952  0.1520  1\n  O  O54  1  0.6750  0.5952  0.1520  1\n  O  O55  1  0.1750  0.4048  0.8480  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pu2U2P3HP5H7C4O32\n_chemical_formula_sum              \"Pu2 U2 P8 H8 C4 O32\"\n_cell_length_a       20.3385\n_cell_length_b       5.6221\n_cell_length_c       7.2133\n_cell_angle_alpha    80.0373\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pu  Pu1       1.0000  0.2500  0.6840  0.8471  1.0000\n  Pu  Pu2       1.0000  0.7500  0.3160  0.1529  1.0000\n  U   U1        1.0000  0.5000  0.5000  0.5000  1.0000\n  U   U2        1.0000  0.0000  0.5000  0.5000  1.0000\n  P   P1        1.0000  0.3784  0.9048  0.1809  1.0000\n  P   P2        1.0000  0.8784  0.0952  0.8191  1.0000\n  P   P3        1.0000  0.6216  0.0952  0.8191  1.0000\n  H   H1        1.0000  0.1216  0.9048  0.1809  1.0000\n  P   P4        1.0000  0.3649  0.1967  0.7844  1.0000\n  P   P5        1.0000  0.8649  0.8033  0.2156  1.0000\n  P   P6        1.0000  0.6351  0.8033  0.2156  1.0000\n  P   P7        1.0000  0.1351  0.1967  0.7844  1.0000\n  P   P8        1.0000  0.4515  0.9508  0.9139  1.0000\n  H   H2        1.0000  0.9515  0.0492  0.0861  1.0000\n  H   H3        1.0000  0.5485  0.0492  0.0861  1.0000\n  H   H4        1.0000  0.0485  0.9508  0.9139  1.0000\n  H   H5        1.0000  0.4477  0.2200  0.0170  1.0000\n  H   H6        1.0000  0.9477  0.7800  0.9830  1.0000\n  H   H7        1.0000  0.5523  0.7800  0.9830  1.0000\n  H   H8        1.0000  0.0523  0.2200  0.0170  1.0000\n  C   C1        1.0000  0.4188  0.0733  0.9744  1.0000\n  C   C2        1.0000  0.9188  0.9267  0.0256  1.0000\n  C   C3        1.0000  0.5812  0.9267  0.0256  1.0000\n  C   C4        1.0000  0.0812  0.0733  0.9744  1.0000\n  O   O1        1.0000  0.3186  0.9945  0.7470  1.0000\n  O   O2        1.0000  0.8186  0.0055  0.2530  1.0000\n  O   O3        1.0000  0.6814  0.0055  0.2530  1.0000\n  O   O4        1.0000  0.1814  0.9945  0.7470  1.0000\n  O   O5        1.0000  0.4893  0.6887  0.6775  1.0000\n  O   O6        1.0000  0.9893  0.3113  0.3225  1.0000\n  O   O7        1.0000  0.5107  0.3113  0.3225  1.0000\n  O   O8        1.0000  0.0107  0.6887  0.6775  1.0000\n  O   O9        1.0000  0.4315  0.7432  0.2885  1.0000\n  O   O10       1.0000  0.9315  0.2568  0.7115  1.0000\n  O   O11       1.0000  0.5685  0.2568  0.7115  1.0000\n  O   O12       1.0000  0.0685  0.7432  0.2885  1.0000\n  O   O13       1.0000  0.2500  0.6851  0.5970  1.0000\n  O   O14       1.0000  0.7500  0.3149  0.4030  1.0000\n  O   O15       1.0000  0.2500  0.4658  0.1340  1.0000\n  O   O16       1.0000  0.7500  0.5342  0.8660  1.0000\n  O   O17       1.0000  0.3213  0.7641  0.1048  1.0000\n  O   O18       1.0000  0.8213  0.2359  0.8952  1.0000\n  O   O19       1.0000  0.6787  0.2359  0.8952  1.0000\n  O   O20       1.0000  0.1787  0.7641  0.1048  1.0000\n  O   O21       1.0000  0.3457  0.0744  0.2978  1.0000\n  O   O22       1.0000  0.8457  0.9256  0.7022  1.0000\n  O   O23       1.0000  0.6543  0.9256  0.7022  1.0000\n  O   O24       1.0000  0.1543  0.0744  0.2978  1.0000\n  O   O25       1.0000  0.4084  0.2906  0.6148  1.0000\n  O   O26       1.0000  0.9084  0.7094  0.3852  1.0000\n  O   O27       1.0000  0.5916  0.7094  0.3852  1.0000\n  O   O28       1.0000  0.0916  0.2906  0.6148  1.0000\n  O   O29       1.0000  0.3250  0.4048  0.8480  1.0000\n  O   O30       1.0000  0.8250  0.5952  0.1520  1.0000\n  O   O31       1.0000  0.6750  0.5952  0.1520  1.0000\n  O   O32       1.0000  0.1750  0.4048  0.8480  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8ad50290-c22c-40b6-85ee-0e304f48903c",
    "mp_id": "mp-1198603",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2B5O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   16.6091\n_cell_length_b   6.7998\n_cell_length_c   8.4007\n_cell_angle_alpha   73.7202\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2B5O11\n_chemical_formula_sum   'Ba8 B20 O44'\n_cell_volume   910.7261\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2840  0.5317  0.9000  1\n  Ba  Ba1  1  0.7840  0.4683  0.6000  1\n  Ba  Ba2  1  0.7160  0.4683  0.1000  1\n  Ba  Ba3  1  0.2160  0.5317  0.4000  1\n  Ba  Ba4  1  0.4323  0.0981  0.6909  1\n  Ba  Ba5  1  0.9323  0.9019  0.8091  1\n  Ba  Ba6  1  0.5677  0.9019  0.3091  1\n  Ba  Ba7  1  0.0677  0.0981  0.1909  1\n  B  B8  1  0.2421  0.0238  0.8653  1\n  B  B9  1  0.7421  0.9762  0.6347  1\n  B  B10  1  0.7579  0.9762  0.1347  1\n  B  B11  1  0.2579  0.0238  0.3653  1\n  B  B12  1  0.5824  0.3604  0.7914  1\n  B  B13  1  0.0824  0.6396  0.7086  1\n  B  B14  1  0.4176  0.6396  0.2086  1\n  B  B15  1  0.9176  0.3604  0.2914  1\n  B  B16  1  0.6621  0.0135  0.8772  1\n  B  B17  1  0.1621  0.9865  0.6228  1\n  B  B18  1  0.3379  0.9865  0.1228  1\n  B  B19  1  0.8379  0.0135  0.3772  1\n  B  B20  1  0.3714  0.2678  0.2563  1\n  B  B21  1  0.8714  0.7322  0.2437  1\n  B  B22  1  0.6286  0.7322  0.7437  1\n  B  B23  1  0.1286  0.2678  0.7563  1\n  B  B24  1  0.4811  0.6405  0.7135  1\n  B  B25  1  0.9811  0.3595  0.7865  1\n  B  B26  1  0.5189  0.3595  0.2865  1\n  B  B27  1  0.0189  0.6405  0.2135  1\n  O  O28  1  0.5923  0.1532  0.8249  1\n  O  O29  1  0.0923  0.8468  0.6751  1\n  O  O30  1  0.4077  0.8468  0.1751  1\n  O  O31  1  0.9077  0.1532  0.3249  1\n  O  O32  1  0.5502  0.7807  0.6594  1\n  O  O33  1  0.0502  0.2193  0.8406  1\n  O  O34  1  0.4498  0.2193  0.3406  1\n  O  O35  1  0.9498  0.7807  0.1594  1\n  O  O36  1  0.3616  0.1971  0.1092  1\n  O  O37  1  0.8616  0.8029  0.3908  1\n  O  O38  1  0.6384  0.8029  0.8908  1\n  O  O39  1  0.1384  0.1971  0.6092  1\n  O  O40  1  0.3103  0.9626  0.9598  1\n  O  O41  1  0.8103  0.0374  0.5402  1\n  O  O42  1  0.6897  0.0374  0.0402  1\n  O  O43  1  0.1897  0.9626  0.4598  1\n  O  O44  1  0.3572  0.4992  0.2060  1\n  O  O45  1  0.8572  0.5008  0.2940  1\n  O  O46  1  0.6428  0.5008  0.7940  1\n  O  O47  1  0.1428  0.4992  0.7060  1\n  O  O48  1  0.1925  0.1791  0.8833  1\n  O  O49  1  0.6925  0.8209  0.6167  1\n  O  O50  1  0.8075  0.8209  0.1167  1\n  O  O51  1  0.3075  0.1791  0.3833  1\n  O  O52  1  0.2294  0.9243  0.7452  1\n  O  O53  1  0.7294  0.0757  0.7548  1\n  O  O54  1  0.7706  0.0757  0.2548  1\n  O  O55  1  0.2706  0.9243  0.2452  1\n  O  O56  1  0.5049  0.4270  0.7454  1\n  O  O57  1  0.0049  0.5730  0.7546  1\n  O  O58  1  0.4951  0.5730  0.2546  1\n  O  O59  1  0.9951  0.4270  0.2454  1\n  O  O60  1  0.4147  0.7056  0.5939  1\n  O  O61  1  0.9147  0.2944  0.9061  1\n  O  O62  1  0.5853  0.2944  0.4061  1\n  O  O63  1  0.0853  0.7056  0.0939  1\n  O  O64  1  0.4377  0.6886  0.8476  1\n  O  O65  1  0.9377  0.3114  0.6524  1\n  O  O66  1  0.5623  0.3114  0.1524  1\n  O  O67  1  0.0623  0.6886  0.3476  1\n  O  O68  1  0.3341  0.4342  0.6337  1\n  O  O69  1  0.8341  0.5658  0.8663  1\n  O  O70  1  0.6659  0.5658  0.3663  1\n  O  O71  1  0.1659  0.4342  0.1337  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3BBa4B19BaO44\n_chemical_formula_sum              \"Ba8 B20 O44\"\n_cell_length_a       16.6091\n_cell_length_b       6.7998\n_cell_length_c       8.4007\n_cell_angle_alpha    73.7202\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2840  0.5317  0.9000  1.0000\n  Ba  Ba2       1.0000  0.7840  0.4683  0.6000  1.0000\n  Ba  Ba3       1.0000  0.7160  0.4683  0.1000  1.0000\n  B   B1        1.0000  0.2160  0.5317  0.4000  1.0000\n  Ba  Ba4       1.0000  0.4323  0.0981  0.6909  1.0000\n  Ba  Ba5       1.0000  0.9323  0.9019  0.8091  1.0000\n  Ba  Ba6       1.0000  0.5677  0.9019  0.3091  1.0000\n  Ba  Ba7       1.0000  0.0677  0.0981  0.1909  1.0000\n  B   B2        1.0000  0.2421  0.0238  0.8653  1.0000\n  B   B3        1.0000  0.7421  0.9762  0.6347  1.0000\n  B   B4        1.0000  0.7579  0.9762  0.1347  1.0000\n  B   B5        1.0000  0.2579  0.0238  0.3653  1.0000\n  B   B6        1.0000  0.5824  0.3604  0.7914  1.0000\n  B   B7        1.0000  0.0824  0.6396  0.7086  1.0000\n  B   B8        1.0000  0.4176  0.6396  0.2086  1.0000\n  B   B9        1.0000  0.9176  0.3604  0.2914  1.0000\n  B   B10       1.0000  0.6621  0.0135  0.8772  1.0000\n  B   B11       1.0000  0.1621  0.9865  0.6228  1.0000\n  B   B12       1.0000  0.3379  0.9865  0.1228  1.0000\n  B   B13       1.0000  0.8379  0.0135  0.3772  1.0000\n  B   B14       1.0000  0.3714  0.2678  0.2563  1.0000\n  B   B15       1.0000  0.8714  0.7322  0.2437  1.0000\n  B   B16       1.0000  0.6286  0.7322  0.7437  1.0000\n  B   B17       1.0000  0.1286  0.2678  0.7563  1.0000\n  B   B18       1.0000  0.4811  0.6405  0.7135  1.0000\n  B   B19       1.0000  0.9811  0.3595  0.7865  1.0000\n  B   B20       1.0000  0.5189  0.3595  0.2865  1.0000\n  Ba  Ba8       1.0000  0.0189  0.6405  0.2135  1.0000\n  O   O1        1.0000  0.5923  0.1532  0.8249  1.0000\n  O   O2        1.0000  0.0923  0.8468  0.6751  1.0000\n  O   O3        1.0000  0.4077  0.8468  0.1751  1.0000\n  O   O4        1.0000  0.9077  0.1532  0.3249  1.0000\n  O   O5        1.0000  0.5502  0.7807  0.6594  1.0000\n  O   O6        1.0000  0.0502  0.2193  0.8406  1.0000\n  O   O7        1.0000  0.4498  0.2193  0.3406  1.0000\n  O   O8        1.0000  0.9498  0.7807  0.1594  1.0000\n  O   O9        1.0000  0.3616  0.1971  0.1092  1.0000\n  O   O10       1.0000  0.8616  0.8029  0.3908  1.0000\n  O   O11       1.0000  0.6384  0.8029  0.8908  1.0000\n  O   O12       1.0000  0.1384  0.1971  0.6092  1.0000\n  O   O13       1.0000  0.3103  0.9626  0.9598  1.0000\n  O   O14       1.0000  0.8103  0.0374  0.5402  1.0000\n  O   O15       1.0000  0.6897  0.0374  0.0402  1.0000\n  O   O16       1.0000  0.1897  0.9626  0.4598  1.0000\n  O   O17       1.0000  0.3572  0.4992  0.2060  1.0000\n  O   O18       1.0000  0.8572  0.5008  0.2940  1.0000\n  O   O19       1.0000  0.6428  0.5008  0.7940  1.0000\n  O   O20       1.0000  0.1428  0.4992  0.7060  1.0000\n  O   O21       1.0000  0.1925  0.1791  0.8833  1.0000\n  O   O22       1.0000  0.6925  0.8209  0.6167  1.0000\n  O   O23       1.0000  0.8075  0.8209  0.1167  1.0000\n  O   O24       1.0000  0.3075  0.1791  0.3833  1.0000\n  O   O25       1.0000  0.2294  0.9243  0.7452  1.0000\n  O   O26       1.0000  0.7294  0.0757  0.7548  1.0000\n  O   O27       1.0000  0.7706  0.0757  0.2548  1.0000\n  O   O28       1.0000  0.2706  0.9243  0.2452  1.0000\n  O   O29       1.0000  0.5049  0.4270  0.7454  1.0000\n  O   O30       1.0000  0.0049  0.5730  0.7546  1.0000\n  O   O31       1.0000  0.4951  0.5730  0.2546  1.0000\n  O   O32       1.0000  0.9951  0.4270  0.2454  1.0000\n  O   O33       1.0000  0.4147  0.7056  0.5939  1.0000\n  O   O34       1.0000  0.9147  0.2944  0.9061  1.0000\n  O   O35       1.0000  0.5853  0.2944  0.4061  1.0000\n  O   O36       1.0000  0.0853  0.7056  0.0939  1.0000\n  O   O37       1.0000  0.4377  0.6886  0.8476  1.0000\n  O   O38       1.0000  0.9377  0.3114  0.6524  1.0000\n  O   O39       1.0000  0.5623  0.3114  0.1524  1.0000\n  O   O40       1.0000  0.0623  0.6886  0.3476  1.0000\n  O   O41       1.0000  0.3341  0.4342  0.6337  1.0000\n  O   O42       1.0000  0.8341  0.5658  0.8663  1.0000\n  O   O43       1.0000  0.6659  0.5658  0.3663  1.0000\n  O   O44       1.0000  0.1659  0.4342  0.1337  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3c321261-2ef0-4a0f-af01-32546b445b9f",
    "mp_id": "mp-1198841",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 45 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbBi4BrO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5809\n_cell_length_b   5.6539\n_cell_length_c   29.8128\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbBi4BrO8\n_chemical_formula_sum   'Nb4 Bi16 Br4 O32'\n_cell_volume   940.7147\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.9983  0.2572  0.2497  1\n  Nb  Nb1  1  0.4983  0.7428  0.7503  1\n  Nb  Nb2  1  0.4983  0.7572  0.2503  1\n  Nb  Nb3  1  0.9983  0.2428  0.7497  1\n  Bi  Bi4  1  0.9855  0.6940  0.3401  1\n  Bi  Bi5  1  0.4855  0.3060  0.6599  1\n  Bi  Bi6  1  0.4855  0.1940  0.1599  1\n  Bi  Bi7  1  0.9855  0.8060  0.8401  1\n  Bi  Bi8  1  0.9978  0.2416  0.0726  1\n  Bi  Bi9  1  0.4978  0.7584  0.9274  1\n  Bi  Bi10  1  0.4978  0.7416  0.4274  1\n  Bi  Bi11  1  0.9978  0.2584  0.5726  1\n  Bi  Bi12  1  0.0274  0.6972  0.1584  1\n  Bi  Bi13  1  0.5274  0.3028  0.8416  1\n  Bi  Bi14  1  0.5274  0.1972  0.3416  1\n  Bi  Bi15  1  0.0274  0.8028  0.6584  1\n  Bi  Bi16  1  0.0163  0.2425  0.4274  1\n  Bi  Bi17  1  0.5163  0.7575  0.5726  1\n  Bi  Bi18  1  0.5163  0.7425  0.0726  1\n  Bi  Bi19  1  0.0163  0.2575  0.9274  1\n  Br  Br20  1  0.5053  0.2500  0.5015  1\n  Br  Br21  1  0.0053  0.7500  0.4985  1\n  Br  Br22  1  0.0053  0.7500  0.9985  1\n  Br  Br23  1  0.5053  0.2500  0.0015  1\n  O  O24  1  0.7518  0.9946  0.1102  1\n  O  O25  1  0.2518  0.0054  0.8898  1\n  O  O26  1  0.2518  0.4946  0.3898  1\n  O  O27  1  0.7518  0.5054  0.6102  1\n  O  O28  1  0.2546  0.0024  0.1084  1\n  O  O29  1  0.7546  0.9976  0.8916  1\n  O  O30  1  0.7546  0.5024  0.3916  1\n  O  O31  1  0.2546  0.4976  0.6084  1\n  O  O32  1  0.7621  0.4954  0.1093  1\n  O  O33  1  0.2621  0.5046  0.8907  1\n  O  O34  1  0.2621  0.9954  0.3907  1\n  O  O35  1  0.7621  0.0046  0.6093  1\n  O  O36  1  0.2556  0.5050  0.1079  1\n  O  O37  1  0.7556  0.4950  0.8921  1\n  O  O38  1  0.7556  0.0050  0.3921  1\n  O  O39  1  0.2556  0.9950  0.6079  1\n  O  O40  1  0.3939  0.8320  0.1874  1\n  O  O41  1  0.8939  0.1680  0.8126  1\n  O  O42  1  0.8939  0.3320  0.3126  1\n  O  O43  1  0.3939  0.6680  0.6874  1\n  O  O44  1  0.6134  0.8314  0.3121  1\n  O  O45  1  0.1134  0.1686  0.6879  1\n  O  O46  1  0.1134  0.3314  0.1879  1\n  O  O47  1  0.6134  0.6686  0.8121  1\n  O  O48  1  0.2453  0.5531  0.2678  1\n  O  O49  1  0.7453  0.4469  0.7322  1\n  O  O50  1  0.7453  0.0531  0.2322  1\n  O  O51  1  0.2453  0.9469  0.7678  1\n  O  O52  1  0.7417  0.5463  0.2329  1\n  O  O53  1  0.2417  0.4537  0.7671  1\n  O  O54  1  0.2417  0.0463  0.2671  1\n  O  O55  1  0.7417  0.9537  0.7329  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb4Bi15OBr4O21BiO10\n_chemical_formula_sum              \"Nb4 Bi16 O32 Br4\"\n_cell_length_a       5.5809\n_cell_length_b       5.6539\n_cell_length_c       29.8128\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.9983  0.2572  0.2497  1.0000\n  Nb  Nb2       1.0000  0.4983  0.7428  0.7503  1.0000\n  Nb  Nb3       1.0000  0.4983  0.7572  0.2503  1.0000\n  Nb  Nb4       1.0000  0.9983  0.2428  0.7497  1.0000\n  Bi  Bi1       1.0000  0.9855  0.6940  0.3401  1.0000\n  Bi  Bi2       1.0000  0.4855  0.3060  0.6599  1.0000\n  Bi  Bi3       1.0000  0.4855  0.1940  0.1599  1.0000\n  Bi  Bi4       1.0000  0.9855  0.8060  0.8401  1.0000\n  Bi  Bi5       1.0000  0.9978  0.2416  0.0726  1.0000\n  Bi  Bi6       1.0000  0.4978  0.7584  0.9274  1.0000\n  Bi  Bi7       1.0000  0.4978  0.7416  0.4274  1.0000\n  Bi  Bi8       1.0000  0.9978  0.2584  0.5726  1.0000\n  Bi  Bi9       1.0000  0.0274  0.6972  0.1584  1.0000\n  Bi  Bi10      1.0000  0.5274  0.3028  0.8416  1.0000\n  Bi  Bi11      1.0000  0.5274  0.1972  0.3416  1.0000\n  Bi  Bi12      1.0000  0.0274  0.8028  0.6584  1.0000\n  Bi  Bi13      1.0000  0.0163  0.2425  0.4274  1.0000\n  Bi  Bi14      1.0000  0.5163  0.7575  0.5726  1.0000\n  Bi  Bi15      1.0000  0.5163  0.7425  0.0726  1.0000\n  O   O1        1.0000  0.0163  0.2575  0.9274  1.0000\n  Br  Br1       1.0000  0.5053  0.2500  0.5015  1.0000\n  Br  Br2       1.0000  0.0053  0.7501  0.4985  1.0000\n  Br  Br3       1.0000  0.0053  0.7500  0.9985  1.0000\n  Br  Br4       1.0000  0.5053  0.2501  0.0015  1.0000\n  O   O2        1.0000  0.7518  0.9946  0.1102  1.0000\n  O   O3        1.0000  0.2518  0.0054  0.8898  1.0000\n  O   O4        1.0000  0.2518  0.4946  0.3898  1.0000\n  O   O5        1.0000  0.7518  0.5054  0.6102  1.0000\n  O   O6        1.0000  0.2546  0.0024  0.1084  1.0000\n  O   O7        1.0000  0.7546  0.9976  0.8916  1.0000\n  O   O8        1.0000  0.7546  0.5024  0.3916  1.0000\n  O   O9        1.0000  0.2546  0.4976  0.6084  1.0000\n  O   O10       1.0000  0.7621  0.4954  0.1093  1.0000\n  O   O11       1.0000  0.2621  0.5046  0.8907  1.0000\n  O   O12       1.0000  0.2621  0.9954  0.3907  1.0000\n  O   O13       1.0000  0.7621  0.0046  0.6093  1.0000\n  O   O14       1.0000  0.2556  0.5050  0.1079  1.0000\n  O   O15       1.0000  0.7556  0.4950  0.8921  1.0000\n  O   O16       1.0000  0.7556  0.0050  0.3921  1.0000\n  O   O17       1.0000  0.2556  0.9950  0.6079  1.0000\n  O   O18       1.0000  0.3939  0.8320  0.1874  1.0000\n  O   O19       1.0000  0.8939  0.1680  0.8126  1.0000\n  O   O20       1.0000  0.8939  0.3320  0.3126  1.0000\n  O   O21       1.0000  0.3939  0.6680  0.6874  1.0000\n  O   O22       1.0000  0.6134  0.8314  0.3121  1.0000\n  Bi  Bi16      1.0000  0.1134  0.1686  0.6879  1.0000\n  O   O23       1.0000  0.1134  0.3314  0.1879  1.0000\n  O   O24       1.0000  0.6134  0.6686  0.8121  1.0000\n  O   O25       1.0000  0.2453  0.5531  0.2678  1.0000\n  O   O26       1.0000  0.7453  0.4469  0.7322  1.0000\n  O   O27       1.0000  0.7453  0.0531  0.2322  1.0000\n  O   O28       1.0000  0.2453  0.9469  0.7678  1.0000\n  O   O29       1.0000  0.7417  0.5463  0.2329  1.0000\n  O   O30       1.0000  0.2417  0.4537  0.7671  1.0000\n  O   O31       1.0000  0.2417  0.0463  0.2671  1.0000\n  O   O32       1.0000  0.7417  0.9537  0.7329  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "071f07e9-654d-4d29-8df8-87e44719fc15",
    "mp_id": "mp-1199018",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 46 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba4CrGa2(S3F2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2427\n_cell_length_b   13.2656\n_cell_length_c   18.7177\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba4CrGa2(S3F2)2\n_chemical_formula_sum   'Ba16 Cr4 Ga8 S24 F16'\n_cell_volume   1550.0580\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2687  0.7488  0.0782  1\n  Ba  Ba1  1  0.2313  0.2488  0.4218  1\n  Ba  Ba2  1  0.7313  0.2512  0.5782  1\n  Ba  Ba3  1  0.7687  0.7512  0.9218  1\n  Ba  Ba4  1  0.7313  0.2512  0.9218  1\n  Ba  Ba5  1  0.7687  0.7512  0.5782  1\n  Ba  Ba6  1  0.2687  0.7488  0.4218  1\n  Ba  Ba7  1  0.2313  0.2488  0.0782  1\n  Ba  Ba8  1  0.7564  0.0000  0.0779  1\n  Ba  Ba9  1  0.7436  0.5000  0.4221  1\n  Ba  Ba10  1  0.2436  1.0000  0.5779  1\n  Ba  Ba11  1  0.2564  0.5000  0.9221  1\n  Ba  Ba12  1  0.2436  1.0000  0.9221  1\n  Ba  Ba13  1  0.2564  0.5000  0.5779  1\n  Ba  Ba14  1  0.7564  0.0000  0.4221  1\n  Ba  Ba15  1  0.7436  0.5000  0.0779  1\n  Cr  Cr16  1  0.4973  0.1250  0.2500  1\n  Cr  Cr17  1  0.0027  0.6250  0.2500  1\n  Cr  Cr18  1  0.5027  0.8750  0.7500  1\n  Cr  Cr19  1  0.9973  0.3750  0.7500  1\n  Ga  Ga20  1  0.6547  0.7990  0.2500  1\n  Ga  Ga21  1  0.8453  0.2990  0.2500  1\n  Ga  Ga22  1  0.3453  0.2010  0.7500  1\n  Ga  Ga23  1  0.1547  0.7010  0.7500  1\n  Ga  Ga24  1  0.1517  0.9499  0.2500  1\n  Ga  Ga25  1  0.3483  0.4499  0.2500  1\n  Ga  Ga26  1  0.8483  0.0501  0.7500  1\n  Ga  Ga27  1  0.6517  0.5501  0.7500  1\n  S  S28  1  0.2835  0.0281  0.3482  1\n  S  S29  1  0.2165  0.5281  0.1518  1\n  S  S30  1  0.7165  0.9719  0.8482  1\n  S  S31  1  0.7835  0.4719  0.6518  1\n  S  S32  1  0.7165  0.9719  0.6518  1\n  S  S33  1  0.7835  0.4719  0.8482  1\n  S  S34  1  0.2835  0.0281  0.1518  1\n  S  S35  1  0.2165  0.5281  0.3482  1\n  S  S36  1  0.7887  0.7217  0.1517  1\n  S  S37  1  0.7113  0.2217  0.3483  1\n  S  S38  1  0.2113  0.2783  0.6517  1\n  S  S39  1  0.2887  0.7783  0.8483  1\n  S  S40  1  0.2113  0.2783  0.8483  1\n  S  S41  1  0.2887  0.7783  0.6517  1\n  S  S42  1  0.7887  0.7217  0.3483  1\n  S  S43  1  0.7113  0.2217  0.1517  1\n  S  S44  1  0.2841  0.7869  0.2500  1\n  S  S45  1  0.2159  0.2869  0.2500  1\n  S  S46  1  0.7159  0.2131  0.7500  1\n  S  S47  1  0.7841  0.7131  0.7500  1\n  S  S48  1  0.7814  0.9627  0.2500  1\n  S  S49  1  0.7186  0.4627  0.2500  1\n  S  S50  1  0.2186  0.0373  0.7500  1\n  S  S51  1  0.2814  0.5373  0.7500  1\n  F  F52  1  0.0133  0.8747  0.0036  1\n  F  F53  1  0.4867  0.3747  0.4964  1\n  F  F54  1  0.9867  0.1253  0.5036  1\n  F  F55  1  0.5133  0.6253  0.9964  1\n  F  F56  1  0.9867  0.1253  0.9964  1\n  F  F57  1  0.5133  0.6253  0.5036  1\n  F  F58  1  0.0133  0.8747  0.4964  1\n  F  F59  1  0.4867  0.3747  0.0036  1\n  F  F60  1  0.0108  0.6254  0.9983  1\n  F  F61  1  0.4892  0.1254  0.5017  1\n  F  F62  1  0.9892  0.3746  0.4983  1\n  F  F63  1  0.5108  0.8746  0.0017  1\n  F  F64  1  0.9892  0.3746  0.0017  1\n  F  F65  1  0.5108  0.8746  0.4983  1\n  F  F66  1  0.0108  0.6254  0.5017  1\n  F  F67  1  0.4892  0.1254  0.9983  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba12SBa3Cr4Ga8S18BaS5F16\n_chemical_formula_sum              \"Ba16 S24 Cr4 Ga8 F16\"\n_cell_length_a       6.2427\n_cell_length_b       13.2656\n_cell_length_c       18.7177\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2687  0.7488  0.0782  1.0000\n  Ba  Ba2       1.0000  0.2313  0.2488  0.4218  1.0000\n  Ba  Ba3       1.0000  0.7313  0.2512  0.5782  1.0000\n  Ba  Ba4       1.0000  0.7687  0.7512  0.9218  1.0000\n  Ba  Ba5       1.0000  0.7313  0.2512  0.9218  1.0000\n  Ba  Ba6       1.0000  0.7687  0.7512  0.5782  1.0000\n  Ba  Ba7       1.0000  0.2687  0.7488  0.4218  1.0000\n  Ba  Ba8       1.0000  0.2313  0.2488  0.0782  1.0000\n  Ba  Ba9       1.0000  0.7564  8e-06  0.0779  1.0000\n  Ba  Ba10      1.0000  0.7436  0.5000  0.4221  1.0000\n  Ba  Ba11      1.0000  0.2436  1.0000  0.5779  1.0000\n  Ba  Ba12      1.0000  0.2564  0.5000  0.9221  1.0000\n  S   S1        1.0000  0.2436  1.0000  0.9221  1.0000\n  Ba  Ba13      1.0000  0.2564  0.5000  0.5779  1.0000\n  Ba  Ba14      1.0000  0.7564  8e-06  0.4221  1.0000\n  Ba  Ba15      1.0000  0.7436  0.5000  0.0779  1.0000\n  Cr  Cr1       1.0000  0.4973  0.1250  0.2500  1.0000\n  Cr  Cr2       1.0000  0.0027  0.6250  0.2500  1.0000\n  Cr  Cr3       1.0000  0.5027  0.8750  0.7500  1.0000\n  Cr  Cr4       1.0000  0.9973  0.3750  0.7500  1.0000\n  Ga  Ga1       1.0000  0.6547  0.7990  0.2500  1.0000\n  Ga  Ga2       1.0000  0.8453  0.2990  0.2500  1.0000\n  Ga  Ga3       1.0000  0.3453  0.2010  0.7500  1.0000\n  Ga  Ga4       1.0000  0.1547  0.7010  0.7500  1.0000\n  Ga  Ga5       1.0000  0.1517  0.9499  0.2500  1.0000\n  Ga  Ga6       1.0000  0.3483  0.4499  0.2500  1.0000\n  Ga  Ga7       1.0000  0.8483  0.0501  0.7500  1.0000\n  Ga  Ga8       1.0000  0.6517  0.5501  0.7500  1.0000\n  S   S2        1.0000  0.2835  0.0281  0.3482  1.0000\n  S   S3        1.0000  0.2165  0.5281  0.1518  1.0000\n  S   S4        1.0000  0.7165  0.9719  0.8482  1.0000\n  S   S5        1.0000  0.7835  0.4719  0.6518  1.0000\n  S   S6        1.0000  0.7165  0.9719  0.6518  1.0000\n  S   S7        1.0000  0.7835  0.4719  0.8482  1.0000\n  S   S8        1.0000  0.2835  0.0281  0.1518  1.0000\n  S   S9        1.0000  0.2165  0.5281  0.3482  1.0000\n  S   S10       1.0000  0.7887  0.7217  0.1517  1.0000\n  S   S11       1.0000  0.7113  0.2217  0.3483  1.0000\n  S   S12       1.0000  0.2113  0.2783  0.6517  1.0000\n  S   S13       1.0000  0.2887  0.7783  0.8483  1.0000\n  S   S14       1.0000  0.2113  0.2783  0.8483  1.0000\n  S   S15       1.0000  0.2887  0.7783  0.6517  1.0000\n  S   S16       1.0000  0.7887  0.7217  0.3483  1.0000\n  S   S17       1.0000  0.7113  0.2217  0.1517  1.0000\n  S   S18       1.0000  0.2841  0.7869  0.2500  1.0000\n  S   S19       1.0000  0.2159  0.2869  0.2500  1.0000\n  Ba  Ba16      1.0000  0.7159  0.2131  0.7500  1.0000\n  S   S20       1.0000  0.7841  0.7131  0.7500  1.0000\n  S   S21       1.0000  0.7814  0.9627  0.2500  1.0000\n  S   S22       1.0000  0.7186  0.4627  0.2500  1.0000\n  S   S23       1.0000  0.2186  0.0373  0.7500  1.0000\n  S   S24       1.0000  0.2814  0.5373  0.7500  1.0000\n  F   F1        1.0000  0.0133  0.8747  0.0036  1.0000\n  F   F2        1.0000  0.4867  0.3747  0.4964  1.0000\n  F   F3        1.0000  0.9867  0.1253  0.5036  1.0000\n  F   F4        1.0000  0.5133  0.6253  0.9964  1.0000\n  F   F5        1.0000  0.9867  0.1253  0.9964  1.0000\n  F   F6        1.0000  0.5133  0.6253  0.5036  1.0000\n  F   F7        1.0000  0.0133  0.8747  0.4964  1.0000\n  F   F8        1.0000  0.4867  0.3747  0.0036  1.0000\n  F   F9        1.0000  0.0108  0.6254  0.9983  1.0000\n  F   F10       1.0000  0.4892  0.1254  0.5017  1.0000\n  F   F11       1.0000  0.9892  0.3746  0.4983  1.0000\n  F   F12       1.0000  0.5108  0.8746  0.0017  1.0000\n  F   F13       1.0000  0.9892  0.3746  0.0017  1.0000\n  F   F14       1.0000  0.5108  0.8746  0.4983  1.0000\n  F   F15       1.0000  0.0108  0.6254  0.5017  1.0000\n  F   F16       1.0000  0.4892  0.1254  0.9983  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "78462c54-35a7-45c0-964f-4a1bb6c50dd1",
    "mp_id": "mp-1199088",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb4Mo5(PO11)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4418\n_cell_length_b   10.4418\n_cell_length_c   17.4450\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   143.5165\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb4Mo5(PO11)2\n_chemical_formula_sum   'Rb8 Mo10 P4 O44'\n_cell_volume   1130.9420\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0377  0.0377  -0.0000  1\n  Rb  Rb1  1  0.9623  0.9623  0.5000  1\n  Rb  Rb2  1  0.7047  0.2297  0.5987  1\n  Rb  Rb3  1  0.2297  0.7047  0.4013  1\n  Rb  Rb4  1  0.2953  0.7703  0.0987  1\n  Rb  Rb5  1  0.7703  0.2953  0.9013  1\n  Rb  Rb6  1  0.0829  0.9171  0.7500  1\n  Rb  Rb7  1  0.9171  0.0829  0.2500  1\n  Mo  Mo8  1  0.2924  0.5723  0.5924  1\n  Mo  Mo9  1  0.5723  0.2924  0.4076  1\n  Mo  Mo10  1  0.7076  0.4277  0.0924  1\n  Mo  Mo11  1  0.4277  0.7076  0.9076  1\n  Mo  Mo12  1  0.2625  0.7375  0.7500  1\n  Mo  Mo13  1  0.7375  0.2625  0.2500  1\n  Mo  Mo14  1  0.5207  0.4725  0.8569  1\n  Mo  Mo15  1  0.4725  0.5207  0.1431  1\n  Mo  Mo16  1  0.4793  0.5275  0.3569  1\n  Mo  Mo17  1  0.5275  0.4793  0.6431  1\n  P  P18  1  0.6892  0.8722  0.7340  1\n  P  P19  1  0.8722  0.6892  0.2660  1\n  P  P20  1  0.3108  0.1278  0.2340  1\n  P  P21  1  0.1278  0.3108  0.7660  1\n  O  O22  1  0.7725  0.8325  0.6850  1\n  O  O23  1  0.8325  0.7725  0.3150  1\n  O  O24  1  0.2275  0.1675  0.1850  1\n  O  O25  1  0.1675  0.2275  0.8150  1\n  O  O26  1  0.6118  0.7606  0.8118  1\n  O  O27  1  0.7606  0.6118  0.1882  1\n  O  O28  1  0.3882  0.2394  0.3118  1\n  O  O29  1  0.2394  0.3882  0.6882  1\n  O  O30  1  0.8762  0.1238  0.7500  1\n  O  O31  1  0.1238  0.8762  0.2500  1\n  O  O32  1  0.5203  0.8181  0.6937  1\n  O  O33  1  0.8181  0.5203  0.3063  1\n  O  O34  1  0.4797  0.1819  0.1937  1\n  O  O35  1  0.1819  0.4797  0.8063  1\n  O  O36  1  0.4833  0.5845  0.5746  1\n  O  O37  1  0.5845  0.4833  0.4254  1\n  O  O38  1  0.5167  0.4155  0.0746  1\n  O  O39  1  0.4155  0.5167  0.9254  1\n  O  O40  1  0.0748  0.3560  0.5379  1\n  O  O41  1  0.3560  0.0748  0.4621  1\n  O  O42  1  0.9252  0.6440  0.0379  1\n  O  O43  1  0.6440  0.9252  0.9621  1\n  O  O44  1  0.4219  0.7926  0.5406  1\n  O  O45  1  0.7926  0.4219  0.4594  1\n  O  O46  1  0.5781  0.2074  0.0406  1\n  O  O47  1  0.2074  0.5781  0.9594  1\n  O  O48  1  0.4477  0.8664  0.8367  1\n  O  O49  1  0.8664  0.4477  0.1633  1\n  O  O50  1  0.5523  0.1336  0.3367  1\n  O  O51  1  0.1336  0.5523  0.6633  1\n  O  O52  1  0.3839  0.9668  0.7103  1\n  O  O53  1  0.9668  0.3839  0.2897  1\n  O  O54  1  0.6161  0.0332  0.2103  1\n  O  O55  1  0.0332  0.6161  0.7897  1\n  O  O56  1  0.4154  0.2490  0.8922  1\n  O  O57  1  0.2490  0.4154  0.1078  1\n  O  O58  1  0.5846  0.7510  0.3922  1\n  O  O59  1  0.7510  0.5846  0.6078  1\n  O  O60  1  0.5447  0.4553  0.7500  1\n  O  O61  1  0.4553  0.5447  0.2500  1\n  O  O62  1  0.7856  0.6781  0.8831  1\n  O  O63  1  0.6781  0.7856  0.1169  1\n  O  O64  1  0.2144  0.3219  0.3831  1\n  O  O65  1  0.3219  0.2144  0.6169  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb8Mo5OMo4P4MoO43\n_chemical_formula_sum              \"Rb8 Mo10 O44 P4\"\n_cell_length_a       10.4418\n_cell_length_b       10.4418\n_cell_length_c       17.4450\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    143.5165\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0377  0.0377  0.0000  1.0000\n  Rb  Rb2       1.0000  0.9623  0.9623  0.5000  1.0000\n  Rb  Rb3       1.0000  0.7047  0.2297  0.5987  1.0000\n  Rb  Rb4       1.0000  0.2297  0.7047  0.4013  1.0000\n  Rb  Rb5       1.0000  0.2953  0.7703  0.0987  1.0000\n  Rb  Rb6       1.0000  0.7703  0.2953  0.9013  1.0000\n  Rb  Rb7       1.0000  0.0829  0.9171  0.7500  1.0000\n  Rb  Rb8       1.0000  0.9171  0.0829  0.2500  1.0000\n  Mo  Mo1       1.0000  0.2924  0.5723  0.5924  1.0000\n  Mo  Mo2       1.0000  0.5723  0.2924  0.4076  1.0000\n  Mo  Mo3       1.0000  0.7076  0.4277  0.0924  1.0000\n  Mo  Mo4       1.0000  0.4277  0.7076  0.9076  1.0000\n  Mo  Mo5       1.0000  0.2625  0.7375  0.7500  1.0000\n  O   O1        1.0000  0.7375  0.2625  0.2500  1.0000\n  Mo  Mo6       1.0000  0.5207  0.4725  0.8569  1.0000\n  Mo  Mo7       1.0000  0.4725  0.5207  0.1431  1.0000\n  Mo  Mo8       1.0000  0.4793  0.5275  0.3569  1.0000\n  Mo  Mo9       1.0000  0.5275  0.4793  0.6431  1.0000\n  P   P1        1.0000  0.6892  0.8722  0.7340  1.0000\n  P   P2        1.0000  0.8722  0.6892  0.2660  1.0000\n  P   P3        1.0000  0.3108  0.1278  0.2340  1.0000\n  P   P4        1.0000  0.1278  0.3108  0.7660  1.0000\n  Mo  Mo10      1.0000  0.7725  0.8325  0.6850  1.0000\n  O   O2        1.0000  0.8325  0.7725  0.3150  1.0000\n  O   O3        1.0000  0.2275  0.1675  0.1850  1.0000\n  O   O4        1.0000  0.1675  0.2275  0.8150  1.0000\n  O   O5        1.0000  0.6118  0.7606  0.8118  1.0000\n  O   O6        1.0000  0.7606  0.6118  0.1882  1.0000\n  O   O7        1.0000  0.3882  0.2394  0.3118  1.0000\n  O   O8        1.0000  0.2394  0.3882  0.6882  1.0000\n  O   O9        1.0000  0.8762  0.1238  0.7500  1.0000\n  O   O10       1.0000  0.1238  0.8762  0.2500  1.0000\n  O   O11       1.0000  0.5203  0.8181  0.6937  1.0000\n  O   O12       1.0000  0.8181  0.5203  0.3063  1.0000\n  O   O13       1.0000  0.4797  0.1819  0.1937  1.0000\n  O   O14       1.0000  0.1819  0.4797  0.8063  1.0000\n  O   O15       1.0000  0.4833  0.5845  0.5746  1.0000\n  O   O16       1.0000  0.5845  0.4833  0.4254  1.0000\n  O   O17       1.0000  0.5167  0.4155  0.0746  1.0000\n  O   O18       1.0000  0.4155  0.5167  0.9254  1.0000\n  O   O19       1.0000  0.0748  0.3560  0.5379  1.0000\n  O   O20       1.0000  0.3560  0.0748  0.4621  1.0000\n  O   O21       1.0000  0.9252  0.6440  0.0379  1.0000\n  O   O22       1.0000  0.6440  0.9252  0.9621  1.0000\n  O   O23       1.0000  0.4219  0.7926  0.5406  1.0000\n  O   O24       1.0000  0.7926  0.4219  0.4594  1.0000\n  O   O25       1.0000  0.5781  0.2074  0.0406  1.0000\n  O   O26       1.0000  0.2074  0.5781  0.9594  1.0000\n  O   O27       1.0000  0.4477  0.8664  0.8367  1.0000\n  O   O28       1.0000  0.8664  0.4477  0.1633  1.0000\n  O   O29       1.0000  0.5523  0.1336  0.3367  1.0000\n  O   O30       1.0000  0.1336  0.5523  0.6633  1.0000\n  O   O31       1.0000  0.3839  0.9668  0.7103  1.0000\n  O   O32       1.0000  0.9668  0.3839  0.2897  1.0000\n  O   O33       1.0000  0.6161  0.0332  0.2103  1.0000\n  O   O34       1.0000  0.0332  0.6161  0.7897  1.0000\n  O   O35       1.0000  0.4154  0.2490  0.8922  1.0000\n  O   O36       1.0000  0.2490  0.4154  0.1078  1.0000\n  O   O37       1.0000  0.5846  0.7510  0.3922  1.0000\n  O   O38       1.0000  0.7510  0.5846  0.6078  1.0000\n  O   O39       1.0000  0.5447  0.4553  0.7500  1.0000\n  O   O40       1.0000  0.4553  0.5447  0.2500  1.0000\n  O   O41       1.0000  0.7856  0.6781  0.8831  1.0000\n  O   O42       1.0000  0.6781  0.7856  0.1169  1.0000\n  O   O43       1.0000  0.2144  0.3219  0.3831  1.0000\n  O   O44       1.0000  0.3219  0.2144  0.6169  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8c4e2bd1-fc8d-4cbc-84d6-10998800eb59",
    "mp_id": "mp-1199566",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 59 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlH10C3N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9618\n_cell_length_b   10.7392\n_cell_length_c   10.3756\n_cell_angle_alpha   90.0000\n_cell_angle_beta   100.9864\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlH10C3N\n_chemical_formula_sum   'Al4 H40 C12 N4'\n_cell_volume   652.1191\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.2230  0.5514  0.5232  1\n  Al  Al1  1  0.7230  0.9486  0.0232  1\n  Al  Al2  1  0.7770  0.4486  0.4768  1\n  Al  Al3  1  0.2770  0.0514  0.9768  1\n  H  H4  1  0.4296  0.4689  0.6037  1\n  H  H5  1  0.9296  0.0311  0.1037  1\n  H  H6  1  0.5704  0.5311  0.3963  1\n  H  H7  1  0.0704  0.9689  0.8963  1\n  H  H8  1  0.2551  0.6949  0.4877  1\n  H  H9  1  0.7551  0.8051  0.9877  1\n  H  H10  1  0.7449  0.3051  0.5123  1\n  H  H11  1  0.2449  0.1949  0.0123  1\n  H  H12  1  0.1975  0.2853  0.4439  1\n  H  H13  1  0.6975  0.2147  0.9439  1\n  H  H14  1  0.8025  0.7147  0.5561  1\n  H  H15  1  0.3025  0.7853  0.0561  1\n  H  H16  1  0.2641  0.3451  0.2953  1\n  H  H17  1  0.7641  0.1549  0.7953  1\n  H  H18  1  0.7359  0.6549  0.7047  1\n  H  H19  1  0.2359  0.8451  0.2047  1\n  H  H20  1  0.9957  0.2727  0.2948  1\n  H  H21  1  0.4957  0.2273  0.7948  1\n  H  H22  1  0.0043  0.7273  0.7052  1\n  H  H23  1  0.5043  0.7727  0.2052  1\n  H  H24  1  0.1389  0.5473  0.2195  1\n  H  H25  1  0.6389  0.9527  0.7195  1\n  H  H26  1  0.8611  0.4527  0.7805  1\n  H  H27  1  0.3611  0.0473  0.2805  1\n  H  H28  1  0.9132  0.6212  0.2787  1\n  H  H29  1  0.4132  0.8788  0.7787  1\n  H  H30  1  0.0868  0.3788  0.7213  1\n  H  H31  1  0.5868  0.1212  0.2213  1\n  H  H32  1  0.7683  0.5383  0.0626  1\n  H  H33  1  0.2683  0.9617  0.5626  1\n  H  H34  1  0.2317  0.4617  0.9374  1\n  H  H35  1  0.7317  0.0383  0.4374  1\n  H  H36  1  0.6442  0.4479  0.1748  1\n  H  H37  1  0.1442  0.0521  0.6748  1\n  H  H38  1  0.3558  0.5521  0.8252  1\n  H  H39  1  0.8558  0.9479  0.3252  1\n  H  H40  1  0.8722  0.3861  0.1055  1\n  H  H41  1  0.3722  0.1139  0.6055  1\n  H  H42  1  0.1278  0.6139  0.8945  1\n  H  H43  1  0.6278  0.8861  0.3945  1\n  C  C44  1  0.1270  0.3333  0.3521  1\n  C  C45  1  0.6270  0.1667  0.8521  1\n  C  C46  1  0.8730  0.6667  0.6479  1\n  C  C47  1  0.3730  0.8333  0.1479  1\n  C  C48  1  0.9783  0.5301  0.2546  1\n  C  C49  1  0.4783  0.9699  0.7546  1\n  C  C50  1  0.0217  0.4699  0.7454  1\n  C  C51  1  0.5217  0.0301  0.2454  1\n  C  C52  1  0.8059  0.4708  0.1440  1\n  C  C53  1  0.3059  0.0292  0.6440  1\n  C  C54  1  0.1941  0.5292  0.8560  1\n  C  C55  1  0.6941  0.9708  0.3560  1\n  N  N56  1  0.0334  0.4565  0.3788  1\n  N  N57  1  0.5334  0.0435  0.8788  1\n  N  N58  1  0.9666  0.5435  0.6212  1\n  N  N59  1  0.4666  0.9565  0.1212  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al4H36NH3C12N3H\n_chemical_formula_sum              \"Al4 H40 N4 C12\"\n_cell_length_a       5.9618\n_cell_length_b       10.7392\n_cell_length_c       10.3756\n_cell_angle_alpha    90.0000\n_cell_angle_beta     100.9864\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.2230  0.5514  0.5232  1.0000\n  Al  Al2       1.0000  0.7230  0.9486  0.0232  1.0000\n  Al  Al3       1.0000  0.7770  0.4486  0.4768  1.0000\n  Al  Al4       1.0000  0.2770  0.0514  0.9768  1.0000\n  H   H1        1.0000  0.4296  0.4689  0.6037  1.0000\n  H   H2        1.0000  0.9296  0.0311  0.1037  1.0000\n  H   H3        1.0000  0.5704  0.5311  0.3963  1.0000\n  H   H4        1.0000  0.0704  0.9689  0.8963  1.0000\n  H   H5        1.0000  0.2551  0.6949  0.4877  1.0000\n  H   H6        1.0000  0.7551  0.8051  0.9877  1.0000\n  H   H7        1.0000  0.7449  0.3051  0.5123  1.0000\n  H   H8        1.0000  0.2449  0.1949  0.0123  1.0000\n  H   H9        1.0000  0.1975  0.2853  0.4439  1.0000\n  H   H10       1.0000  0.6975  0.2147  0.9439  1.0000\n  H   H11       1.0000  0.8025  0.7147  0.5561  1.0000\n  H   H12       1.0000  0.3025  0.7853  0.0561  1.0000\n  H   H13       1.0000  0.2641  0.3451  0.2953  1.0000\n  H   H14       1.0000  0.7641  0.1549  0.7953  1.0000\n  H   H15       1.0000  0.7359  0.6549  0.7047  1.0000\n  H   H16       1.0000  0.2359  0.8451  0.2047  1.0000\n  H   H17       1.0000  0.9957  0.2727  0.2948  1.0000\n  H   H18       1.0000  0.4957  0.2273  0.7948  1.0000\n  H   H19       1.0000  0.0043  0.7273  0.7052  1.0000\n  H   H20       1.0000  0.5043  0.7727  0.2052  1.0000\n  H   H21       1.0000  0.1389  0.5473  0.2195  1.0000\n  H   H22       1.0000  0.6389  0.9527  0.7195  1.0000\n  H   H23       1.0000  0.8611  0.4527  0.7805  1.0000\n  H   H24       1.0000  0.3611  0.0473  0.2805  1.0000\n  H   H25       1.0000  0.9132  0.6212  0.2787  1.0000\n  H   H26       1.0000  0.4132  0.8788  0.7787  1.0000\n  H   H27       1.0000  0.0868  0.3788  0.7213  1.0000\n  H   H28       1.0000  0.5868  0.1212  0.2213  1.0000\n  H   H29       1.0000  0.7683  0.5383  0.0626  1.0000\n  H   H30       1.0000  0.2683  0.9617  0.5626  1.0000\n  H   H31       1.0000  0.2317  0.4617  0.9374  1.0000\n  H   H32       1.0000  0.7317  0.0383  0.4374  1.0000\n  H   H33       1.0000  0.6442  0.4479  0.1748  1.0000\n  H   H34       1.0000  0.1442  0.0521  0.6748  1.0000\n  H   H35       1.0000  0.3558  0.5521  0.8252  1.0000\n  H   H36       1.0000  0.8558  0.9479  0.3252  1.0000\n  N   N1        1.0000  0.8722  0.3861  0.1055  1.0000\n  H   H37       1.0000  0.3722  0.1139  0.6055  1.0000\n  H   H38       1.0000  0.1278  0.6139  0.8945  1.0000\n  H   H39       1.0000  0.6278  0.8861  0.3945  1.0000\n  C   C1        1.0000  0.1270  0.3333  0.3521  1.0000\n  C   C2        1.0000  0.6270  0.1667  0.8521  1.0000\n  C   C3        1.0000  0.8730  0.6667  0.6479  1.0000\n  C   C4        1.0000  0.3730  0.8333  0.1479  1.0000\n  C   C5        1.0000  0.9783  0.5301  0.2546  1.0000\n  C   C6        1.0000  0.4783  0.9699  0.7546  1.0000\n  C   C7        1.0000  0.0217  0.4699  0.7454  1.0000\n  C   C8        1.0000  0.5217  0.0301  0.2454  1.0000\n  C   C9        1.0000  0.8059  0.4708  0.1440  1.0000\n  C   C10       1.0000  0.3059  0.0292  0.6440  1.0000\n  C   C11       1.0000  0.1941  0.5292  0.8560  1.0000\n  C   C12       1.0000  0.6941  0.9708  0.3560  1.0000\n  N   N2        1.0000  0.0334  0.4565  0.3788  1.0000\n  N   N3        1.0000  0.5334  0.0435  0.8788  1.0000\n  N   N4        1.0000  0.9666  0.5435  0.6212  1.0000\n  H   H40       1.0000  0.4666  0.9565  0.1212  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8e62afbf-50e9-4be7-b784-f4ca38e9ccb2",
    "mp_id": "mp-1199672",
    "action_prompt": "Swap the spatial positions of atoms at indices 34 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaGaBP2H3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7127\n_cell_length_b   6.7127\n_cell_length_c   9.2101\n_cell_angle_alpha   69.4027\n_cell_angle_beta   69.4027\n_cell_angle_gamma   75.6993\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaGaBP2H3O10\n_chemical_formula_sum   'Na2 Ga2 B2 P4 H6 O20'\n_cell_volume   360.0360\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.1303  0.8697  0.2500  1\n  Na  Na1  1  0.8697  0.1303  0.7500  1\n  Ga  Ga2  1  0.0000  0.5000  0.0000  1\n  Ga  Ga3  1  0.5000  0.0000  0.5000  1\n  B  B4  1  0.4670  0.5330  0.7500  1\n  B  B5  1  0.5330  0.4670  0.2500  1\n  P  P6  1  0.2909  0.1623  0.8204  1\n  P  P7  1  0.8377  0.7091  0.6796  1\n  P  P8  1  0.7091  0.8377  0.1796  1\n  P  P9  1  0.1623  0.2909  0.3204  1\n  H  H10  1  0.5000  0.0000  0.0000  1\n  H  H11  1  0.0000  0.5000  0.5000  1\n  H  H12  1  0.3202  0.6964  0.9250  1\n  H  H13  1  0.3036  0.6798  0.5750  1\n  H  H14  1  0.6798  0.3036  0.0750  1\n  H  H15  1  0.6964  0.3202  0.4250  1\n  O  O16  1  0.0834  0.2734  0.1891  1\n  O  O17  1  0.7266  0.9166  0.3109  1\n  O  O18  1  0.9166  0.7266  0.8109  1\n  O  O19  1  0.2734  0.0834  0.6891  1\n  O  O20  1  0.4680  0.3154  0.7474  1\n  O  O21  1  0.6846  0.5320  0.7526  1\n  O  O22  1  0.5320  0.6846  0.2526  1\n  O  O23  1  0.3154  0.4680  0.2474  1\n  O  O24  1  0.3047  0.5715  0.8997  1\n  O  O25  1  0.4285  0.6953  0.6003  1\n  O  O26  1  0.6953  0.4285  0.1003  1\n  O  O27  1  0.5715  0.3047  0.3997  1\n  O  O28  1  0.3622  0.9704  0.9558  1\n  O  O29  1  0.0296  0.6378  0.5442  1\n  O  O30  1  0.6378  0.0296  0.0442  1\n  O  O31  1  0.9704  0.3622  0.4558  1\n  O  O32  1  0.0684  0.2833  0.8878  1\n  O  O33  1  0.7167  0.9316  0.6122  1\n  O  O34  1  0.9316  0.7167  0.1122  1\n  O  O35  1  0.2833  0.0684  0.3878  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONaGa2B2P4H6O18NaO\n_chemical_formula_sum              \"O20 Na2 Ga2 B2 P4 H6\"\n_cell_length_a       6.7127\n_cell_length_b       6.7127\n_cell_length_c       9.2101\n_cell_angle_alpha    69.4027\n_cell_angle_beta     69.4027\n_cell_angle_gamma    75.6993\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1303  0.8697  0.2500  1.0000\n  Na  Na1       1.0000  0.8697  0.1303  0.7500  1.0000\n  Ga  Ga1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Ga  Ga2       1.0000  0.5000  0.0000  0.5000  1.0000\n  B   B1        1.0000  0.4670  0.5330  0.7500  1.0000\n  B   B2        1.0000  0.5330  0.4670  0.2500  1.0000\n  P   P1        1.0000  0.2909  0.1623  0.8204  1.0000\n  P   P2        1.0000  0.8377  0.7091  0.6796  1.0000\n  P   P3        1.0000  0.7091  0.8377  0.1796  1.0000\n  P   P4        1.0000  0.1623  0.2909  0.3204  1.0000\n  H   H1        1.0000  0.5000  0.0000  0.0000  1.0000\n  H   H2        1.0000  0.0000  0.5000  0.5000  1.0000\n  H   H3        1.0000  0.3202  0.6964  0.9250  1.0000\n  H   H4        1.0000  0.3036  0.6798  0.5750  1.0000\n  H   H5        1.0000  0.6798  0.3036  0.0750  1.0000\n  H   H6        1.0000  0.6964  0.3202  0.4250  1.0000\n  O   O2        1.0000  0.0834  0.2734  0.1891  1.0000\n  O   O3        1.0000  0.7266  0.9166  0.3109  1.0000\n  O   O4        1.0000  0.9166  0.7266  0.8109  1.0000\n  O   O5        1.0000  0.2734  0.0834  0.6891  1.0000\n  O   O6        1.0000  0.4680  0.3154  0.7474  1.0000\n  O   O7        1.0000  0.6846  0.5320  0.7526  1.0000\n  O   O8        1.0000  0.5320  0.6846  0.2526  1.0000\n  O   O9        1.0000  0.3154  0.4680  0.2474  1.0000\n  O   O10       1.0000  0.3047  0.5715  0.8997  1.0000\n  O   O11       1.0000  0.4285  0.6953  0.6003  1.0000\n  O   O12       1.0000  0.6953  0.4285  0.1003  1.0000\n  O   O13       1.0000  0.5715  0.3047  0.3997  1.0000\n  O   O14       1.0000  0.3622  0.9704  0.9558  1.0000\n  O   O15       1.0000  0.0296  0.6378  0.5442  1.0000\n  O   O16       1.0000  0.6378  0.0296  0.0442  1.0000\n  O   O17       1.0000  0.9704  0.3622  0.4558  1.0000\n  O   O18       1.0000  0.0684  0.2834  0.8878  1.0000\n  O   O19       1.0000  0.7166  0.9316  0.6122  1.0000\n  Na  Na2       1.0000  0.9316  0.7167  0.1122  1.0000\n  O   O20       1.0000  0.2833  0.0684  0.3878  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "733bc511-655e-4963-be5c-206c30c1226c",
    "mp_id": "mp-1200359",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na12(CuO2)7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.6423\n_cell_length_b   10.6423\n_cell_length_c   5.6352\n_cell_angle_alpha   81.8978\n_cell_angle_beta   81.8933\n_cell_angle_gamma   134.7024\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na12(CuO2)7\n_chemical_formula_sum   'Na12 Cu7 O14'\n_cell_volume   422.1420\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.1623  0.6179  0.3834  1\n  Na  Na1  1  0.6178  0.1622  0.3835  1\n  Na  Na2  1  0.7673  0.4645  0.6117  1\n  Na  Na3  1  0.4645  0.7673  0.6117  1\n  Na  Na4  1  0.6243  0.6243  0.6185  1\n  Na  Na5  1  0.3043  0.4542  0.3890  1\n  Na  Na6  1  0.4542  0.3043  0.3890  1\n  Na  Na7  1  0.2486  0.8881  0.6408  1\n  Na  Na8  1  0.8882  0.2488  0.6408  1\n  Na  Na9  1  0.0274  0.8604  0.3350  1\n  Na  Na10  1  0.8604  0.0275  0.3351  1\n  Na  Na11  1  0.0562  0.0562  0.6712  1\n  Cu  Cu12  1  0.4601  0.0333  0.9964  1\n  Cu  Cu13  1  0.0333  0.4601  0.9964  1\n  Cu  Cu14  1  0.3349  0.1928  0.9716  1\n  Cu  Cu15  1  0.1928  0.3349  0.9716  1\n  Cu  Cu16  1  0.8810  0.5948  0.0239  1\n  Cu  Cu17  1  0.5949  0.8811  0.0239  1\n  Cu  Cu18  1  0.7387  0.7387  0.0336  1\n  O  O19  1  0.5696  -0.0004  0.7711  1\n  O  O20  1  -0.0004  0.5695  0.7711  1\n  O  O21  1  0.4654  0.9069  0.2519  1\n  O  O22  1  0.9069  0.4653  0.2519  1\n  O  O23  1  0.4584  0.1624  0.7387  1\n  O  O24  1  0.1624  0.4584  0.7387  1\n  O  O25  1  0.3209  0.3209  0.7239  1\n  O  O26  1  0.8801  0.7362  0.7737  1\n  O  O27  1  0.7362  0.8800  0.7737  1\n  O  O28  1  0.3522  0.0670  0.2270  1\n  O  O29  1  0.0670  0.3522  0.2270  1\n  O  O30  1  0.1857  0.1857  0.2299  1\n  O  O31  1  0.7558  0.6085  0.2770  1\n  O  O32  1  0.6085  0.7559  0.2770  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na9CuNa2Cu3NaCu3O14\n_chemical_formula_sum              \"Na12 Cu7 O14\"\n_cell_length_a       10.6423\n_cell_length_b       10.6423\n_cell_length_c       5.6352\n_cell_angle_alpha    81.8978\n_cell_angle_beta     81.8933\n_cell_angle_gamma    134.7024\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.1623  0.6179  0.3834  1.0000\n  Na  Na2       1.0000  0.6178  0.1622  0.3835  1.0000\n  Na  Na3       1.0000  0.7673  0.4645  0.6117  1.0000\n  Na  Na4       1.0000  0.4645  0.7673  0.6117  1.0000\n  Na  Na5       1.0000  0.6243  0.6243  0.6185  1.0000\n  Na  Na6       1.0000  0.3043  0.4542  0.3890  1.0000\n  Na  Na7       1.0000  0.4542  0.3043  0.3890  1.0000\n  Na  Na8       1.0000  0.2486  0.8881  0.6408  1.0000\n  Na  Na9       1.0000  0.8882  0.2488  0.6408  1.0000\n  Cu  Cu1       1.0000  0.0274  0.8604  0.3350  1.0000\n  Na  Na10      1.0000  0.8604  0.0275  0.3351  1.0000\n  Na  Na11      1.0000  0.0562  0.0562  0.6712  1.0000\n  Cu  Cu2       1.0000  0.4601  0.0333  0.9964  1.0000\n  Cu  Cu3       1.0000  0.0333  0.4601  0.9964  1.0000\n  Cu  Cu4       1.0000  0.3349  0.1928  0.9716  1.0000\n  Na  Na12      1.0000  0.1928  0.3349  0.9716  1.0000\n  Cu  Cu5       1.0000  0.8810  0.5948  0.0239  1.0000\n  Cu  Cu6       1.0000  0.5949  0.8811  0.0239  1.0000\n  Cu  Cu7       1.0000  0.7387  0.7387  0.0336  1.0000\n  O   O1        1.0000  0.5696  0.9996  0.7711  1.0000\n  O   O2        1.0000  0.9996  0.5695  0.7711  1.0000\n  O   O3        1.0000  0.4654  0.9069  0.2519  1.0000\n  O   O4        1.0000  0.9069  0.4653  0.2519  1.0000\n  O   O5        1.0000  0.4584  0.1624  0.7387  1.0000\n  O   O6        1.0000  0.1624  0.4584  0.7387  1.0000\n  O   O7        1.0000  0.3209  0.3209  0.7239  1.0000\n  O   O8        1.0000  0.8801  0.7362  0.7737  1.0000\n  O   O9        1.0000  0.7362  0.8800  0.7737  1.0000\n  O   O10       1.0000  0.3522  0.0670  0.2270  1.0000\n  O   O11       1.0000  0.0670  0.3522  0.2270  1.0000\n  O   O12       1.0000  0.1857  0.1857  0.2299  1.0000\n  O   O13       1.0000  0.7558  0.6085  0.2770  1.0000\n  O   O14       1.0000  0.6085  0.7559  0.2770  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "08dac6a9-8c81-4f25-94d4-567086e8b518",
    "mp_id": "mp-1200542",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ThUP4H4(CO8)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   20.3497\n_cell_length_b   5.7490\n_cell_length_c   7.3754\n_cell_angle_alpha   76.3731\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ThUP4H4(CO8)2\n_chemical_formula_sum   'Th2 U2 P8 H8 C4 O32'\n_cell_volume   838.5518\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Th  Th0  1  0.2500  0.6849  0.3972  1\n  Th  Th1  1  0.7500  0.3151  0.6028  1\n  U  U2  1  0.5000  0.5000  0.0000  1\n  U  U3  1  0.0000  0.5000  0.0000  1\n  P  P4  1  0.3643  0.1936  0.2797  1\n  P  P5  1  0.8643  0.8064  0.7203  1\n  P  P6  1  0.6357  0.8064  0.7203  1\n  P  P7  1  0.1357  0.1936  0.2797  1\n  P  P8  1  0.3748  0.9034  0.6883  1\n  P  P9  1  0.8748  0.0966  0.3117  1\n  P  P10  1  0.6252  0.0966  0.3117  1\n  P  P11  1  0.1252  0.9034  0.6883  1\n  H  H12  1  0.4496  0.9520  0.4336  1\n  H  H13  1  0.9496  0.0480  0.5664  1\n  H  H14  1  0.5504  0.0480  0.5664  1\n  H  H15  1  0.0504  0.9520  0.4336  1\n  H  H16  1  0.4443  0.2213  0.5154  1\n  H  H17  1  0.9443  0.7787  0.4846  1\n  H  H18  1  0.5557  0.7787  0.4846  1\n  H  H19  1  0.0557  0.2213  0.5154  1\n  C  C20  1  0.4157  0.0754  0.4805  1\n  C  C21  1  0.9157  0.9246  0.5195  1\n  C  C22  1  0.5843  0.9246  0.5195  1\n  C  C23  1  0.0843  0.0754  0.4805  1\n  O  O24  1  0.3249  0.4051  0.3246  1\n  O  O25  1  0.8249  0.5949  0.6754  1\n  O  O26  1  0.6751  0.5949  0.6754  1\n  O  O27  1  0.1751  0.4051  0.3246  1\n  O  O28  1  0.4102  0.2825  0.1125  1\n  O  O29  1  0.9102  0.7175  0.8875  1\n  O  O30  1  0.5898  0.7175  0.8875  1\n  O  O31  1  0.0898  0.2825  0.1125  1\n  O  O32  1  0.3197  0.9915  0.2515  1\n  O  O33  1  0.8197  0.0085  0.7485  1\n  O  O34  1  0.6803  0.0085  0.7485  1\n  O  O35  1  0.1803  0.9915  0.2515  1\n  O  O36  1  0.4300  0.7794  0.8178  1\n  O  O37  1  0.9301  0.2206  0.1822  1\n  O  O38  1  0.5699  0.2206  0.1822  1\n  O  O39  1  0.0699  0.7794  0.8178  1\n  O  O40  1  0.3351  0.0683  0.7883  1\n  O  O41  1  0.8351  0.9317  0.2117  1\n  O  O42  1  0.6649  0.9317  0.2117  1\n  O  O43  1  0.1649  0.0683  0.7883  1\n  O  O44  1  0.3269  0.7281  0.6298  1\n  O  O45  1  0.8269  0.2719  0.3702  1\n  O  O46  1  0.6731  0.2719  0.3702  1\n  O  O47  1  0.1731  0.7281  0.6298  1\n  O  O48  1  0.4942  0.6453  0.1931  1\n  O  O49  1  0.9942  0.3547  0.8069  1\n  O  O50  1  0.5058  0.3547  0.8069  1\n  O  O51  1  0.0058  0.6453  0.1931  1\n  O  O52  1  0.2500  0.2645  0.6369  1\n  O  O53  1  0.7500  0.7355  0.3631  1\n  O  O54  1  0.2500  0.5866  0.0864  1\n  O  O55  1  0.7500  0.4134  0.9136  1\n",
    "output": "data_image0\n_chemical_formula_structural       Th2U2P3OP4H8C4O7PO24\n_chemical_formula_sum              \"Th2 U2 P8 O32 H8 C4\"\n_cell_length_a       20.3497\n_cell_length_b       5.7490\n_cell_length_c       7.3754\n_cell_angle_alpha    76.3731\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Th  Th1       1.0000  0.2500  0.6849  0.3972  1.0000\n  Th  Th2       1.0000  0.7500  0.3151  0.6028  1.0000\n  U   U1        1.0000  0.5000  0.5000  0.0000  1.0000\n  U   U2        1.0000  0.0000  0.5000  0.0000  1.0000\n  P   P1        1.0000  0.3643  0.1936  0.2797  1.0000\n  P   P2        1.0000  0.8643  0.8064  0.7203  1.0000\n  P   P3        1.0000  0.6357  0.8064  0.7203  1.0000\n  O   O1        1.0000  0.1357  0.1936  0.2797  1.0000\n  P   P4        1.0000  0.3748  0.9034  0.6883  1.0000\n  P   P5        1.0000  0.8748  0.0966  0.3117  1.0000\n  P   P6        1.0000  0.6252  0.0966  0.3117  1.0000\n  P   P7        1.0000  0.1252  0.9034  0.6883  1.0000\n  H   H1        1.0000  0.4496  0.9520  0.4336  1.0000\n  H   H2        1.0000  0.9496  0.0480  0.5664  1.0000\n  H   H3        1.0000  0.5504  0.0480  0.5664  1.0000\n  H   H4        1.0000  0.0504  0.9520  0.4336  1.0000\n  H   H5        1.0000  0.4443  0.2213  0.5154  1.0000\n  H   H6        1.0000  0.9443  0.7787  0.4846  1.0000\n  H   H7        1.0000  0.5557  0.7787  0.4846  1.0000\n  H   H8        1.0000  0.0557  0.2213  0.5154  1.0000\n  C   C1        1.0000  0.4157  0.0754  0.4805  1.0000\n  C   C2        1.0000  0.9157  0.9246  0.5195  1.0000\n  C   C3        1.0000  0.5843  0.9246  0.5195  1.0000\n  C   C4        1.0000  0.0843  0.0754  0.4805  1.0000\n  O   O2        1.0000  0.3249  0.4051  0.3246  1.0000\n  O   O3        1.0000  0.8249  0.5949  0.6754  1.0000\n  O   O4        1.0000  0.6751  0.5949  0.6754  1.0000\n  O   O5        1.0000  0.1751  0.4051  0.3246  1.0000\n  O   O6        1.0000  0.4102  0.2825  0.1125  1.0000\n  O   O7        1.0000  0.9102  0.7175  0.8875  1.0000\n  O   O8        1.0000  0.5898  0.7175  0.8875  1.0000\n  P   P8        1.0000  0.0898  0.2825  0.1125  1.0000\n  O   O9        1.0000  0.3197  0.9915  0.2515  1.0000\n  O   O10       1.0000  0.8197  0.0085  0.7485  1.0000\n  O   O11       1.0000  0.6803  0.0085  0.7485  1.0000\n  O   O12       1.0000  0.1803  0.9915  0.2515  1.0000\n  O   O13       1.0000  0.4300  0.7794  0.8178  1.0000\n  O   O14       1.0000  0.9301  0.2206  0.1822  1.0000\n  O   O15       1.0000  0.5699  0.2206  0.1822  1.0000\n  O   O16       1.0000  0.0699  0.7794  0.8178  1.0000\n  O   O17       1.0000  0.3351  0.0683  0.7883  1.0000\n  O   O18       1.0000  0.8351  0.9317  0.2117  1.0000\n  O   O19       1.0000  0.6649  0.9317  0.2117  1.0000\n  O   O20       1.0000  0.1649  0.0683  0.7883  1.0000\n  O   O21       1.0000  0.3269  0.7281  0.6298  1.0000\n  O   O22       1.0000  0.8269  0.2719  0.3702  1.0000\n  O   O23       1.0000  0.6731  0.2719  0.3702  1.0000\n  O   O24       1.0000  0.1731  0.7281  0.6298  1.0000\n  O   O25       1.0000  0.4942  0.6453  0.1931  1.0000\n  O   O26       1.0000  0.9942  0.3547  0.8069  1.0000\n  O   O27       1.0000  0.5058  0.3547  0.8069  1.0000\n  O   O28       1.0000  0.0058  0.6453  0.1931  1.0000\n  O   O29       1.0000  0.2500  0.2645  0.6369  1.0000\n  O   O30       1.0000  0.7500  0.7355  0.3631  1.0000\n  O   O31       1.0000  0.2500  0.5866  0.0864  1.0000\n  O   O32       1.0000  0.7500  0.4134  0.9136  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f81c3f82-8913-4bdb-9a2c-2973edf38467",
    "mp_id": "mp-1200692",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SiC\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.0766\n_cell_length_b   3.0766\n_cell_length_c   42.8168\n_cell_angle_alpha   87.9408\n_cell_angle_beta   87.9408\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SiC\n_chemical_formula_sum   'Si17 C17'\n_cell_volume   350.6802\n_cell_formula_units_Z   17\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.0000  0.0000  1.0000  1\n  Si  Si1  1  0.9608  0.9608  0.1176  1\n  Si  Si2  1  0.8824  0.8824  0.3529  1\n  Si  Si3  1  0.8431  0.8431  0.4706  1\n  Si  Si4  1  0.7647  0.7647  0.7058  1\n  Si  Si5  1  0.7255  0.7255  0.8235  1\n  Si  Si6  1  0.6470  0.6470  0.0588  1\n  Si  Si7  1  0.5882  0.5882  0.2353  1\n  Si  Si8  1  0.5294  0.5294  0.4117  1\n  Si  Si9  1  0.4706  0.4706  0.5882  1\n  Si  Si10  1  0.4118  0.4118  0.7647  1\n  Si  Si11  1  0.3530  0.3530  0.9412  1\n  Si  Si12  1  0.2745  0.2745  0.1764  1\n  Si  Si13  1  0.2353  0.2353  0.2941  1\n  Si  Si14  1  0.1569  0.1569  0.5293  1\n  Si  Si15  1  0.1176  0.1176  0.6471  1\n  Si  Si16  1  0.0392  0.0392  0.8823  1\n  C  C17  1  0.9853  0.9853  0.0441  1\n  C  C18  1  0.9461  0.9461  0.1618  1\n  C  C19  1  0.8677  0.8677  0.3970  1\n  C  C20  1  0.8284  0.8284  0.5147  1\n  C  C21  1  0.7500  0.7500  0.7499  1\n  C  C22  1  0.7108  0.7108  0.8677  1\n  C  C23  1  0.6323  0.6323  0.1030  1\n  C  C24  1  0.5735  0.5735  0.2795  1\n  C  C25  1  0.5147  0.5147  0.4560  1\n  C  C26  1  0.4558  0.4558  0.6325  1\n  C  C27  1  0.3970  0.3970  0.8089  1\n  C  C28  1  0.3382  0.3382  0.9854  1\n  C  C29  1  0.2598  0.2598  0.2205  1\n  C  C30  1  0.2206  0.2206  0.3382  1\n  C  C31  1  0.1422  0.1422  0.5735  1\n  C  C32  1  0.1029  0.1029  0.6912  1\n  C  C33  1  0.0245  0.0245  0.9264  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si8CSi8C7SiC9\n_chemical_formula_sum              \"Si17 C17\"\n_cell_length_a       3.0766\n_cell_length_b       3.0766\n_cell_length_c       42.8168\n_cell_angle_alpha    87.9408\n_cell_angle_beta     87.9408\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.0000  0.0000  1.0000  1.0000\n  Si  Si2       1.0000  0.9608  0.9608  0.1176  1.0000\n  Si  Si3       1.0000  0.8824  0.8824  0.3529  1.0000\n  Si  Si4       1.0000  0.8431  0.8431  0.4706  1.0000\n  Si  Si5       1.0000  0.7647  0.7647  0.7058  1.0000\n  Si  Si6       1.0000  0.7255  0.7255  0.8235  1.0000\n  Si  Si7       1.0000  0.6470  0.6470  0.0588  1.0000\n  Si  Si8       1.0000  0.5882  0.5882  0.2353  1.0000\n  C   C1        1.0000  0.5294  0.5294  0.4117  1.0000\n  Si  Si9       1.0000  0.4706  0.4706  0.5882  1.0000\n  Si  Si10      1.0000  0.4118  0.4118  0.7647  1.0000\n  Si  Si11      1.0000  0.3530  0.3530  0.9412  1.0000\n  Si  Si12      1.0000  0.2745  0.2745  0.1764  1.0000\n  Si  Si13      1.0000  0.2353  0.2353  0.2941  1.0000\n  Si  Si14      1.0000  0.1569  0.1569  0.5293  1.0000\n  Si  Si15      1.0000  0.1176  0.1176  0.6471  1.0000\n  Si  Si16      1.0000  0.0392  0.0392  0.8823  1.0000\n  C   C2        1.0000  0.9853  0.9853  0.0441  1.0000\n  C   C3        1.0000  0.9461  0.9461  0.1618  1.0000\n  C   C4        1.0000  0.8677  0.8677  0.3970  1.0000\n  C   C5        1.0000  0.8284  0.8284  0.5147  1.0000\n  C   C6        1.0000  0.7500  0.7500  0.7499  1.0000\n  C   C7        1.0000  0.7108  0.7108  0.8677  1.0000\n  C   C8        1.0000  0.6323  0.6323  0.1030  1.0000\n  Si  Si17      1.0000  0.5735  0.5735  0.2795  1.0000\n  C   C9        1.0000  0.5147  0.5147  0.4560  1.0000\n  C   C10       1.0000  0.4558  0.4558  0.6325  1.0000\n  C   C11       1.0000  0.3970  0.3970  0.8089  1.0000\n  C   C12       1.0000  0.3382  0.3382  0.9854  1.0000\n  C   C13       1.0000  0.2598  0.2598  0.2205  1.0000\n  C   C14       1.0000  0.2206  0.2206  0.3382  1.0000\n  C   C15       1.0000  0.1422  0.1422  0.5735  1.0000\n  C   C16       1.0000  0.1029  0.1029  0.6912  1.0000\n  C   C17       1.0000  0.0245  0.0245  0.9264  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6eaf581f-c7e3-4c62-979c-b4ae424869b7",
    "mp_id": "mp-1200758",
    "action_prompt": "Swap the spatial positions of atoms at indices 44 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3V2(SeO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   15.6895\n_cell_length_b   9.1387\n_cell_length_c   14.5894\n_cell_angle_alpha   53.6326\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3V2(SeO4)4\n_chemical_formula_sum   'Ba12 V8 Se16 O64'\n_cell_volume   1684.4187\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6754  0.6668  0.5838  1\n  Ba  Ba1  1  0.8246  0.6668  0.0838  1\n  Ba  Ba2  1  0.3246  0.3332  0.4162  1\n  Ba  Ba3  1  0.1754  0.3332  0.9162  1\n  Ba  Ba4  1  0.6924  0.1150  0.1450  1\n  Ba  Ba5  1  0.8076  0.1150  0.6450  1\n  Ba  Ba6  1  0.3076  0.8850  0.8550  1\n  Ba  Ba7  1  0.1924  0.8850  0.3550  1\n  Ba  Ba8  1  0.9101  0.0089  0.3928  1\n  Ba  Ba9  1  0.5899  0.0089  0.8928  1\n  Ba  Ba10  1  0.0899  0.9911  0.6072  1\n  Ba  Ba11  1  0.4101  0.9911  0.1072  1\n  V  V12  1  0.7910  0.6189  0.3827  1\n  V  V13  1  0.7090  0.6189  0.8827  1\n  V  V14  1  0.2090  0.3811  0.6173  1\n  V  V15  1  0.2910  0.3811  0.1173  1\n  V  V16  1  0.5077  0.0378  0.3445  1\n  V  V17  1  0.9923  0.0378  0.8445  1\n  V  V18  1  0.4923  0.9622  0.6555  1\n  V  V19  1  0.0077  0.9622  0.1555  1\n  Se  Se20  1  0.6201  0.6697  0.2205  1\n  Se  Se21  1  0.8799  0.6697  0.7205  1\n  Se  Se22  1  0.3799  0.3303  0.7795  1\n  Se  Se23  1  0.1201  0.3303  0.2795  1\n  Se  Se24  1  0.9546  0.4670  0.3911  1\n  Se  Se25  1  0.5454  0.4670  0.8911  1\n  Se  Se26  1  0.0454  0.5330  0.6089  1\n  Se  Se27  1  0.4546  0.5330  0.1089  1\n  Se  Se28  1  0.4381  0.6799  0.4446  1\n  Se  Se29  1  0.0619  0.6799  0.9446  1\n  Se  Se30  1  0.5619  0.3201  0.5554  1\n  Se  Se31  1  0.9381  0.3201  0.0554  1\n  Se  Se32  1  0.6942  0.2008  0.3672  1\n  Se  Se33  1  0.8058  0.2008  0.8672  1\n  Se  Se34  1  0.3058  0.7992  0.6328  1\n  Se  Se35  1  0.1942  0.7992  0.1328  1\n  O  O36  1  0.7256  0.7227  0.2459  1\n  O  O37  1  0.7744  0.7227  0.7459  1\n  O  O38  1  0.2744  0.2773  0.7541  1\n  O  O39  1  0.2256  0.2773  0.2541  1\n  O  O40  1  0.5786  0.8830  0.1476  1\n  O  O41  1  0.9214  0.8830  0.6476  1\n  O  O42  1  0.4214  0.1170  0.8524  1\n  O  O43  1  0.0786  0.1170  0.3524  1\n  O  O44  1  0.6467  0.6522  0.1154  1\n  O  O45  1  0.8533  0.6522  0.6154  1\n  O  O46  1  0.3533  0.3478  0.8846  1\n  O  O47  1  0.1467  0.3478  0.3846  1\n  O  O48  1  0.8956  0.5033  0.4797  1\n  O  O49  1  0.6044  0.5033  0.9797  1\n  O  O50  1  0.1044  0.4967  0.5203  1\n  O  O51  1  0.3956  0.4967  0.0203  1\n  O  O52  1  0.8620  0.5413  0.3035  1\n  O  O53  1  0.6380  0.5413  0.8035  1\n  O  O54  1  0.1380  0.4587  0.6965  1\n  O  O55  1  0.3620  0.4587  0.1965  1\n  O  O56  1  0.9475  0.2392  0.4640  1\n  O  O57  1  0.5525  0.2392  0.9640  1\n  O  O58  1  0.0525  0.7608  0.5360  1\n  O  O59  1  0.4475  0.7608  0.0360  1\n  O  O60  1  0.7898  0.8080  0.3784  1\n  O  O61  1  0.7102  0.8080  0.8784  1\n  O  O62  1  0.2102  0.1920  0.6216  1\n  O  O63  1  0.2898  0.1920  0.1216  1\n  O  O64  1  0.7240  0.4657  0.4854  1\n  O  O65  1  0.7760  0.4657  0.9854  1\n  O  O66  1  0.2760  0.5343  0.5146  1\n  O  O67  1  0.2240  0.5343  0.0146  1\n  O  O68  1  0.3959  0.9029  0.3721  1\n  O  O69  1  0.1041  0.9029  0.8721  1\n  O  O70  1  0.6041  0.0971  0.6279  1\n  O  O71  1  0.8959  0.0971  0.1279  1\n  O  O72  1  0.5417  0.7708  0.4256  1\n  O  O73  1  0.9583  0.7708  0.9256  1\n  O  O74  1  0.4583  0.2292  0.5744  1\n  O  O75  1  0.0417  0.2292  0.0744  1\n  O  O76  1  0.4316  0.6372  0.3471  1\n  O  O77  1  0.0684  0.6372  0.8471  1\n  O  O78  1  0.5684  0.3628  0.6529  1\n  O  O79  1  0.9316  0.3628  0.1529  1\n  O  O80  1  0.6302  0.0363  0.3678  1\n  O  O81  1  0.8698  0.0363  0.8678  1\n  O  O82  1  0.3698  0.9637  0.6322  1\n  O  O83  1  0.1302  0.9637  0.1322  1\n  O  O84  1  0.7549  0.0545  0.4844  1\n  O  O85  1  0.7451  0.0545  0.9844  1\n  O  O86  1  0.2451  0.9455  0.5156  1\n  O  O87  1  0.2549  0.9455  0.0156  1\n  O  O88  1  0.7602  0.2588  0.2579  1\n  O  O89  1  0.7398  0.2588  0.7579  1\n  O  O90  1  0.2398  0.7412  0.7421  1\n  O  O91  1  0.2602  0.7412  0.2421  1\n  O  O92  1  0.5073  0.1540  0.2022  1\n  O  O93  1  0.9927  0.1540  0.7022  1\n  O  O94  1  0.4927  0.8460  0.7978  1\n  O  O95  1  0.0073  0.8460  0.2978  1\n  O  O96  1  0.4741  0.1717  0.3797  1\n  O  O97  1  0.0259  0.1717  0.8797  1\n  O  O98  1  0.5259  0.8283  0.6203  1\n  O  O99  1  0.9741  0.8283  0.1203  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOBa10V8Se16O8BaO55\n_chemical_formula_sum              \"Ba12 O64 V8 Se16\"\n_cell_length_a       15.6895\n_cell_length_b       9.1387\n_cell_length_c       14.5894\n_cell_angle_alpha    53.6326\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6754  0.6668  0.5838  1.0000\n  O   O1        1.0000  0.8246  0.6668  0.0838  1.0000\n  Ba  Ba2       1.0000  0.3246  0.3332  0.4162  1.0000\n  Ba  Ba3       1.0000  0.1754  0.3332  0.9162  1.0000\n  Ba  Ba4       1.0000  0.6924  0.1150  0.1450  1.0000\n  Ba  Ba5       1.0000  0.8076  0.1150  0.6450  1.0000\n  Ba  Ba6       1.0000  0.3076  0.8850  0.8550  1.0000\n  Ba  Ba7       1.0000  0.1924  0.8850  0.3550  1.0000\n  Ba  Ba8       1.0000  0.9101  0.0089  0.3928  1.0000\n  Ba  Ba9       1.0000  0.5899  0.0089  0.8928  1.0000\n  Ba  Ba10      1.0000  0.0899  0.9911  0.6072  1.0000\n  Ba  Ba11      1.0000  0.4101  0.9911  0.1072  1.0000\n  V   V1        1.0000  0.7910  0.6189  0.3827  1.0000\n  V   V2        1.0000  0.7090  0.6189  0.8827  1.0000\n  V   V3        1.0000  0.2090  0.3811  0.6173  1.0000\n  V   V4        1.0000  0.2910  0.3811  0.1173  1.0000\n  V   V5        1.0000  0.5077  0.0378  0.3445  1.0000\n  V   V6        1.0000  0.9923  0.0378  0.8445  1.0000\n  V   V7        1.0000  0.4923  0.9622  0.6555  1.0000\n  V   V8        1.0000  0.0077  0.9622  0.1555  1.0000\n  Se  Se1       1.0000  0.6201  0.6697  0.2205  1.0000\n  Se  Se2       1.0000  0.8799  0.6697  0.7205  1.0000\n  Se  Se3       1.0000  0.3799  0.3303  0.7795  1.0000\n  Se  Se4       1.0000  0.1201  0.3303  0.2795  1.0000\n  Se  Se5       1.0000  0.9546  0.4670  0.3911  1.0000\n  Se  Se6       1.0000  0.5454  0.4670  0.8911  1.0000\n  Se  Se7       1.0000  0.0454  0.5330  0.6089  1.0000\n  Se  Se8       1.0000  0.4546  0.5330  0.1089  1.0000\n  Se  Se9       1.0000  0.4381  0.6799  0.4446  1.0000\n  Se  Se10      1.0000  0.0619  0.6799  0.9446  1.0000\n  Se  Se11      1.0000  0.5619  0.3201  0.5554  1.0000\n  Se  Se12      1.0000  0.9381  0.3201  0.0554  1.0000\n  Se  Se13      1.0000  0.6942  0.2008  0.3672  1.0000\n  Se  Se14      1.0000  0.8058  0.2008  0.8672  1.0000\n  Se  Se15      1.0000  0.3058  0.7992  0.6328  1.0000\n  Se  Se16      1.0000  0.1942  0.7992  0.1328  1.0000\n  O   O2        1.0000  0.7256  0.7227  0.2459  1.0000\n  O   O3        1.0000  0.7744  0.7227  0.7459  1.0000\n  O   O4        1.0000  0.2744  0.2773  0.7541  1.0000\n  O   O5        1.0000  0.2256  0.2773  0.2541  1.0000\n  O   O6        1.0000  0.5786  0.8830  0.1476  1.0000\n  O   O7        1.0000  0.9214  0.8830  0.6476  1.0000\n  O   O8        1.0000  0.4214  0.1170  0.8524  1.0000\n  O   O9        1.0000  0.0786  0.1170  0.3524  1.0000\n  Ba  Ba12      1.0000  0.6467  0.6522  0.1154  1.0000\n  O   O10       1.0000  0.8533  0.6522  0.6154  1.0000\n  O   O11       1.0000  0.3533  0.3478  0.8846  1.0000\n  O   O12       1.0000  0.1467  0.3478  0.3846  1.0000\n  O   O13       1.0000  0.8956  0.5033  0.4797  1.0000\n  O   O14       1.0000  0.6044  0.5033  0.9797  1.0000\n  O   O15       1.0000  0.1044  0.4967  0.5203  1.0000\n  O   O16       1.0000  0.3956  0.4967  0.0203  1.0000\n  O   O17       1.0000  0.8620  0.5413  0.3035  1.0000\n  O   O18       1.0000  0.6380  0.5413  0.8035  1.0000\n  O   O19       1.0000  0.1380  0.4587  0.6965  1.0000\n  O   O20       1.0000  0.3620  0.4587  0.1965  1.0000\n  O   O21       1.0000  0.9475  0.2392  0.4640  1.0000\n  O   O22       1.0000  0.5525  0.2392  0.9640  1.0000\n  O   O23       1.0000  0.0525  0.7608  0.5360  1.0000\n  O   O24       1.0000  0.4475  0.7608  0.0360  1.0000\n  O   O25       1.0000  0.7898  0.8080  0.3784  1.0000\n  O   O26       1.0000  0.7102  0.8080  0.8784  1.0000\n  O   O27       1.0000  0.2102  0.1920  0.6216  1.0000\n  O   O28       1.0000  0.2898  0.1920  0.1216  1.0000\n  O   O29       1.0000  0.7240  0.4657  0.4854  1.0000\n  O   O30       1.0000  0.7760  0.4657  0.9854  1.0000\n  O   O31       1.0000  0.2760  0.5343  0.5146  1.0000\n  O   O32       1.0000  0.2240  0.5343  0.0146  1.0000\n  O   O33       1.0000  0.3959  0.9029  0.3721  1.0000\n  O   O34       1.0000  0.1041  0.9029  0.8721  1.0000\n  O   O35       1.0000  0.6041  0.0971  0.6279  1.0000\n  O   O36       1.0000  0.8959  0.0971  0.1279  1.0000\n  O   O37       1.0000  0.5417  0.7708  0.4256  1.0000\n  O   O38       1.0000  0.9583  0.7708  0.9256  1.0000\n  O   O39       1.0000  0.4583  0.2292  0.5744  1.0000\n  O   O40       1.0000  0.0417  0.2292  0.0744  1.0000\n  O   O41       1.0000  0.4316  0.6372  0.3471  1.0000\n  O   O42       1.0000  0.0684  0.6372  0.8471  1.0000\n  O   O43       1.0000  0.5684  0.3628  0.6529  1.0000\n  O   O44       1.0000  0.9316  0.3628  0.1529  1.0000\n  O   O45       1.0000  0.6302  0.0363  0.3678  1.0000\n  O   O46       1.0000  0.8698  0.0363  0.8678  1.0000\n  O   O47       1.0000  0.3698  0.9637  0.6322  1.0000\n  O   O48       1.0000  0.1302  0.9637  0.1322  1.0000\n  O   O49       1.0000  0.7549  0.0545  0.4844  1.0000\n  O   O50       1.0000  0.7451  0.0545  0.9844  1.0000\n  O   O51       1.0000  0.2451  0.9455  0.5156  1.0000\n  O   O52       1.0000  0.2549  0.9455  0.0156  1.0000\n  O   O53       1.0000  0.7602  0.2588  0.2579  1.0000\n  O   O54       1.0000  0.7398  0.2588  0.7579  1.0000\n  O   O55       1.0000  0.2398  0.7412  0.7421  1.0000\n  O   O56       1.0000  0.2602  0.7412  0.2421  1.0000\n  O   O57       1.0000  0.5073  0.1540  0.2022  1.0000\n  O   O58       1.0000  0.9927  0.1540  0.7022  1.0000\n  O   O59       1.0000  0.4927  0.8460  0.7978  1.0000\n  O   O60       1.0000  0.0073  0.8460  0.2978  1.0000\n  O   O61       1.0000  0.4741  0.1717  0.3797  1.0000\n  O   O62       1.0000  0.0259  0.1717  0.8797  1.0000\n  O   O63       1.0000  0.5259  0.8283  0.6203  1.0000\n  O   O64       1.0000  0.9741  0.8283  0.1203  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "424bf8f4-3c46-4dc3-9439-b7010dca70c5",
    "mp_id": "mp-1201497",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi2Pd(SeO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3098\n_cell_length_b   8.2485\n_cell_length_c   10.9334\n_cell_angle_alpha   70.2062\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi2Pd(SeO3)4\n_chemical_formula_sum   'Bi4 Pd2 Se8 O24'\n_cell_volume   620.2732\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.6225  0.7560  0.0931  1\n  Bi  Bi1  1  0.1225  0.7440  0.9069  1\n  Bi  Bi2  1  0.3775  0.2440  0.9069  1\n  Bi  Bi3  1  0.8775  0.2560  0.0931  1\n  Pd  Pd4  1  0.5000  0.5000  0.5000  1\n  Pd  Pd5  1  0.0000  0.0000  0.5000  1\n  Se  Se6  1  0.6732  0.6377  0.8139  1\n  Se  Se7  1  0.1732  0.8623  0.1861  1\n  Se  Se8  1  0.3268  0.3623  0.1861  1\n  Se  Se9  1  0.8268  0.1377  0.8139  1\n  Se  Se10  1  0.3324  0.1119  0.6348  1\n  Se  Se11  1  0.8324  0.3881  0.3652  1\n  Se  Se12  1  0.6676  0.8881  0.3652  1\n  Se  Se13  1  0.1676  0.6119  0.6348  1\n  O  O14  1  0.4033  0.3057  0.6570  1\n  O  O15  1  0.9033  0.1943  0.3430  1\n  O  O16  1  0.5967  0.6943  0.3430  1\n  O  O17  1  0.0967  0.8057  0.6570  1\n  O  O18  1  0.6177  0.4305  0.8229  1\n  O  O19  1  0.1177  0.0695  0.1771  1\n  O  O20  1  0.3823  0.5695  0.1771  1\n  O  O21  1  0.8823  0.9305  0.8229  1\n  O  O22  1  0.8550  0.5813  0.9279  1\n  O  O23  1  0.3550  0.9187  0.0721  1\n  O  O24  1  0.1450  0.4187  0.0721  1\n  O  O25  1  0.6450  0.0813  0.9279  1\n  O  O26  1  0.1211  0.1817  0.5617  1\n  O  O27  1  0.6211  0.3183  0.4383  1\n  O  O28  1  0.8789  0.8183  0.4383  1\n  O  O29  1  0.3789  0.6817  0.5617  1\n  O  O30  1  0.5114  0.6960  0.9067  1\n  O  O31  1  0.0114  0.8040  0.0933  1\n  O  O32  1  0.4886  0.3040  0.0933  1\n  O  O33  1  0.9886  0.1960  0.9067  1\n  O  O34  1  0.2846  0.0185  0.7974  1\n  O  O35  1  0.7846  0.4815  0.2026  1\n  O  O36  1  0.7154  0.9815  0.2026  1\n  O  O37  1  0.2154  0.5185  0.7974  1\n",
    "output": "data_image0\n_chemical_formula_structural       Bi4OPdSe8O13PdO10\n_chemical_formula_sum              \"Bi4 O24 Pd2 Se8\"\n_cell_length_a       7.3098\n_cell_length_b       8.2485\n_cell_length_c       10.9334\n_cell_angle_alpha    70.2062\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.6225  0.7560  0.0931  1.0000\n  Bi  Bi2       1.0000  0.1225  0.7440  0.9069  1.0000\n  Bi  Bi3       1.0000  0.3775  0.2440  0.9069  1.0000\n  Bi  Bi4       1.0000  0.8775  0.2560  0.0931  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Pd  Pd1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Se  Se1       1.0000  0.6732  0.6377  0.8139  1.0000\n  Se  Se2       1.0000  0.1732  0.8623  0.1861  1.0000\n  Se  Se3       1.0000  0.3268  0.3623  0.1861  1.0000\n  Se  Se4       1.0000  0.8268  0.1377  0.8139  1.0000\n  Se  Se5       1.0000  0.3324  0.1119  0.6348  1.0000\n  Se  Se6       1.0000  0.8324  0.3881  0.3652  1.0000\n  Se  Se7       1.0000  0.6676  0.8881  0.3652  1.0000\n  Se  Se8       1.0000  0.1676  0.6119  0.6348  1.0000\n  O   O2        1.0000  0.4033  0.3057  0.6570  1.0000\n  O   O3        1.0000  0.9033  0.1943  0.3430  1.0000\n  O   O4        1.0000  0.5967  0.6943  0.3430  1.0000\n  O   O5        1.0000  0.0967  0.8057  0.6570  1.0000\n  O   O6        1.0000  0.6177  0.4305  0.8229  1.0000\n  O   O7        1.0000  0.1177  0.0695  0.1771  1.0000\n  O   O8        1.0000  0.3823  0.5695  0.1771  1.0000\n  O   O9        1.0000  0.8823  0.9305  0.8229  1.0000\n  O   O10       1.0000  0.8550  0.5813  0.9279  1.0000\n  O   O11       1.0000  0.3550  0.9187  0.0721  1.0000\n  O   O12       1.0000  0.1450  0.4187  0.0721  1.0000\n  O   O13       1.0000  0.6450  0.0813  0.9279  1.0000\n  O   O14       1.0000  0.1211  0.1817  0.5617  1.0000\n  Pd  Pd2       1.0000  0.6211  0.3183  0.4383  1.0000\n  O   O15       1.0000  0.8789  0.8183  0.4383  1.0000\n  O   O16       1.0000  0.3789  0.6817  0.5617  1.0000\n  O   O17       1.0000  0.5114  0.6960  0.9067  1.0000\n  O   O18       1.0000  0.0114  0.8040  0.0933  1.0000\n  O   O19       1.0000  0.4886  0.3040  0.0933  1.0000\n  O   O20       1.0000  0.9886  0.1960  0.9067  1.0000\n  O   O21       1.0000  0.2846  0.0185  0.7974  1.0000\n  O   O22       1.0000  0.7846  0.4815  0.2026  1.0000\n  O   O23       1.0000  0.7154  0.9815  0.2026  1.0000\n  O   O24       1.0000  0.2154  0.5185  0.7974  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b2ac4c19-9319-4add-86aa-c4cef1256965",
    "mp_id": "mp-1201607",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li7CuSi2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9031\n_cell_length_b   4.3914\n_cell_length_c   17.1572\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li7CuSi2\n_chemical_formula_sum   'Li28 Cu4 Si8'\n_cell_volume   595.4495\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0303  0.2500  0.8180  1\n  Li  Li1  1  0.5303  0.2500  0.6820  1\n  Li  Li2  1  0.9697  0.7500  0.1820  1\n  Li  Li3  1  0.4697  0.7500  0.3180  1\n  Li  Li4  1  0.0535  0.2500  0.9669  1\n  Li  Li5  1  0.5535  0.2500  0.5331  1\n  Li  Li6  1  0.9465  0.7500  0.0331  1\n  Li  Li7  1  0.4465  0.7500  0.4669  1\n  Li  Li8  1  0.3092  0.2500  0.2568  1\n  Li  Li9  1  0.8092  0.2500  0.2432  1\n  Li  Li10  1  0.6908  0.7500  0.7432  1\n  Li  Li11  1  0.1908  0.7500  0.7568  1\n  Li  Li12  1  0.3552  0.2500  0.8106  1\n  Li  Li13  1  0.8552  0.2500  0.6894  1\n  Li  Li14  1  0.6448  0.7500  0.1894  1\n  Li  Li15  1  0.1448  0.7500  0.3106  1\n  Li  Li16  1  0.3894  0.2500  0.9568  1\n  Li  Li17  1  0.8894  0.2500  0.5432  1\n  Li  Li18  1  0.6106  0.7500  0.0432  1\n  Li  Li19  1  0.1106  0.7500  0.4568  1\n  Li  Li20  1  0.4762  0.2500  0.1213  1\n  Li  Li21  1  0.9762  0.2500  0.3787  1\n  Li  Li22  1  0.5238  0.7500  0.8787  1\n  Li  Li23  1  0.0238  0.7500  0.6213  1\n  Li  Li24  1  0.6380  0.2500  0.3796  1\n  Li  Li25  1  0.1380  0.2500  0.1204  1\n  Li  Li26  1  0.3620  0.7500  0.6204  1\n  Li  Li27  1  0.8620  0.7500  0.8796  1\n  Cu  Cu28  1  0.2251  0.2500  0.5377  1\n  Cu  Cu29  1  0.7251  0.2500  0.9623  1\n  Cu  Cu30  1  0.7749  0.7500  0.4623  1\n  Cu  Cu31  1  0.2749  0.7500  0.0377  1\n  Si  Si32  1  0.1879  0.2500  0.6712  1\n  Si  Si33  1  0.6879  0.2500  0.8288  1\n  Si  Si34  1  0.8121  0.7500  0.3288  1\n  Si  Si35  1  0.3121  0.7500  0.1712  1\n  Si  Si36  1  0.3029  0.2500  0.4069  1\n  Si  Si37  1  0.8029  0.2500  0.0931  1\n  Si  Si38  1  0.6971  0.7500  0.5931  1\n  Si  Si39  1  0.1971  0.7500  0.9069  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li13CuLi14CuLiCu2Si8\n_chemical_formula_sum              \"Li28 Cu4 Si8\"\n_cell_length_a       7.9031\n_cell_length_b       4.3914\n_cell_length_c       17.1572\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0303  0.2500  0.8180  1.0000\n  Li  Li2       1.0000  0.5303  0.2500  0.6820  1.0000\n  Li  Li3       1.0000  0.9697  0.7500  0.1820  1.0000\n  Li  Li4       1.0000  0.4697  0.7500  0.3180  1.0000\n  Li  Li5       1.0000  0.0535  0.2500  0.9669  1.0000\n  Li  Li6       1.0000  0.5535  0.2500  0.5331  1.0000\n  Li  Li7       1.0000  0.9465  0.7500  0.0331  1.0000\n  Li  Li8       1.0000  0.4465  0.7500  0.4669  1.0000\n  Li  Li9       1.0000  0.3092  0.2500  0.2568  1.0000\n  Li  Li10      1.0000  0.8092  0.2500  0.2432  1.0000\n  Li  Li11      1.0000  0.6908  0.7500  0.7432  1.0000\n  Li  Li12      1.0000  0.1908  0.7500  0.7568  1.0000\n  Li  Li13      1.0000  0.3552  0.2500  0.8106  1.0000\n  Cu  Cu1       1.0000  0.8552  0.2500  0.6894  1.0000\n  Li  Li14      1.0000  0.6448  0.7500  0.1894  1.0000\n  Li  Li15      1.0000  0.1448  0.7500  0.3106  1.0000\n  Li  Li16      1.0000  0.3894  0.2500  0.9568  1.0000\n  Li  Li17      1.0000  0.8894  0.2500  0.5432  1.0000\n  Li  Li18      1.0000  0.6106  0.7500  0.0432  1.0000\n  Li  Li19      1.0000  0.1106  0.7500  0.4568  1.0000\n  Li  Li20      1.0000  0.4762  0.2500  0.1213  1.0000\n  Li  Li21      1.0000  0.9762  0.2500  0.3787  1.0000\n  Li  Li22      1.0000  0.5238  0.7500  0.8787  1.0000\n  Li  Li23      1.0000  0.0238  0.7500  0.6213  1.0000\n  Li  Li24      1.0000  0.6380  0.2500  0.3796  1.0000\n  Li  Li25      1.0000  0.1380  0.2500  0.1204  1.0000\n  Li  Li26      1.0000  0.3620  0.7500  0.6204  1.0000\n  Li  Li27      1.0000  0.8620  0.7500  0.8796  1.0000\n  Cu  Cu2       1.0000  0.2251  0.2500  0.5377  1.0000\n  Li  Li28      1.0000  0.7251  0.2500  0.9623  1.0000\n  Cu  Cu3       1.0000  0.7749  0.7500  0.4623  1.0000\n  Cu  Cu4       1.0000  0.2749  0.7500  0.0377  1.0000\n  Si  Si1       1.0000  0.1879  0.2500  0.6712  1.0000\n  Si  Si2       1.0000  0.6879  0.2500  0.8288  1.0000\n  Si  Si3       1.0000  0.8121  0.7500  0.3288  1.0000\n  Si  Si4       1.0000  0.3121  0.7500  0.1712  1.0000\n  Si  Si5       1.0000  0.3029  0.2500  0.4069  1.0000\n  Si  Si6       1.0000  0.8029  0.2500  0.0931  1.0000\n  Si  Si7       1.0000  0.6971  0.7500  0.5931  1.0000\n  Si  Si8       1.0000  0.1971  0.7500  0.9069  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "90bce6e2-96d0-419f-8e76-ea0a4c887015",
    "mp_id": "mp-1201876",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2Fe(SeO)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0339\n_cell_length_b   16.5344\n_cell_length_c   17.6521\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2Fe(SeO)2\n_chemical_formula_sum   'La16 Fe8 Se16 O16'\n_cell_volume   1177.3503\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.0014  0.9770  0.0900  1\n  La  La1  1  0.5014  0.0230  0.9100  1\n  La  La2  1  0.5014  0.4770  0.4100  1\n  La  La3  1  0.0014  0.5230  0.5900  1\n  La  La4  1  0.5086  0.4822  0.0903  1\n  La  La5  1  0.0086  0.5178  0.9097  1\n  La  La6  1  0.0086  0.9822  0.4097  1\n  La  La7  1  0.5086  0.0178  0.5903  1\n  La  La8  1  0.0072  0.6775  0.0842  1\n  La  La9  1  0.5072  0.3225  0.9158  1\n  La  La10  1  0.5072  0.1775  0.4158  1\n  La  La11  1  0.0072  0.8225  0.5842  1\n  La  La12  1  0.4997  0.1719  0.0882  1\n  La  La13  1  0.9997  0.8280  0.9118  1\n  La  La14  1  0.9997  0.6720  0.4118  1\n  La  La15  1  0.4997  0.3281  0.5882  1\n  Fe  Fe16  1  0.0016  0.3844  0.7518  1\n  Fe  Fe17  1  0.5016  0.6156  0.2482  1\n  Fe  Fe18  1  0.5016  0.8844  0.7482  1\n  Fe  Fe19  1  0.0016  0.1156  0.2518  1\n  Fe  Fe20  1  0.0023  0.3381  0.2233  1\n  Fe  Fe21  1  0.5023  0.6620  0.7767  1\n  Fe  Fe22  1  0.5023  0.8380  0.2767  1\n  Fe  Fe23  1  0.0023  0.1620  0.7233  1\n  Se  Se24  1  0.0175  0.0117  0.7492  1\n  Se  Se25  1  0.5175  0.9883  0.2508  1\n  Se  Se26  1  0.5175  0.5117  0.7508  1\n  Se  Se27  1  0.0175  0.4883  0.2492  1\n  Se  Se28  1  0.0054  0.3304  0.0748  1\n  Se  Se29  1  0.5054  0.6696  0.9252  1\n  Se  Se30  1  0.5054  0.8304  0.4252  1\n  Se  Se31  1  0.0054  0.1696  0.5748  1\n  Se  Se32  1  0.5066  0.8274  0.0609  1\n  Se  Se33  1  0.0066  0.1726  0.9391  1\n  Se  Se34  1  0.0066  0.3274  0.4391  1\n  Se  Se35  1  0.5066  0.6726  0.5609  1\n  Se  Se36  1  0.0045  0.7543  0.7478  1\n  Se  Se37  1  0.5045  0.2457  0.2522  1\n  Se  Se38  1  0.5045  0.2543  0.7522  1\n  Se  Se39  1  0.0045  0.7457  0.2478  1\n  O  O40  1  0.0003  0.1173  0.1403  1\n  O  O41  1  0.5003  0.8827  0.8597  1\n  O  O42  1  0.5003  0.6173  0.3597  1\n  O  O43  1  0.0003  0.3827  0.6403  1\n  O  O44  1  0.5070  0.6221  0.1362  1\n  O  O45  1  0.0070  0.3779  0.8638  1\n  O  O46  1  0.0070  0.1221  0.3638  1\n  O  O47  1  0.5070  0.8779  0.6362  1\n  O  O48  1  0.0011  0.5380  0.4534  1\n  O  O49  1  0.5011  0.4620  0.5466  1\n  O  O50  1  0.5011  0.0380  0.0466  1\n  O  O51  1  0.0011  0.9620  0.9534  1\n  O  O52  1  0.5087  0.0420  0.4560  1\n  O  O53  1  0.0087  0.9580  0.5440  1\n  O  O54  1  0.0087  0.5420  0.0440  1\n  O  O55  1  0.5087  0.4580  0.9560  1\n",
    "output": "data_image0\n_chemical_formula_structural       La11FeLa4Fe7LaSe16O16\n_chemical_formula_sum              \"La16 Fe8 Se16 O16\"\n_cell_length_a       4.0339\n_cell_length_b       16.5344\n_cell_length_c       17.6521\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.0014  0.9770  0.0900  1.0000\n  La  La2       1.0000  0.5014  0.0230  0.9100  1.0000\n  La  La3       1.0000  0.5014  0.4770  0.4100  1.0000\n  La  La4       1.0000  0.0014  0.5230  0.5900  1.0000\n  La  La5       1.0000  0.5086  0.4822  0.0903  1.0000\n  La  La6       1.0000  0.0086  0.5178  0.9097  1.0000\n  La  La7       1.0000  0.0086  0.9822  0.4097  1.0000\n  La  La8       1.0000  0.5086  0.0178  0.5903  1.0000\n  La  La9       1.0000  0.0072  0.6775  0.0842  1.0000\n  La  La10      1.0000  0.5072  0.3225  0.9158  1.0000\n  La  La11      1.0000  0.5072  0.1775  0.4158  1.0000\n  Fe  Fe1       1.0000  0.0072  0.8225  0.5842  1.0000\n  La  La12      1.0000  0.4997  0.1719  0.0882  1.0000\n  La  La13      1.0000  0.9997  0.8280  0.9118  1.0000\n  La  La14      1.0000  0.9997  0.6720  0.4118  1.0000\n  La  La15      1.0000  0.4997  0.3281  0.5882  1.0000\n  Fe  Fe2       1.0000  0.0016  0.3844  0.7518  1.0000\n  Fe  Fe3       1.0000  0.5016  0.6156  0.2482  1.0000\n  Fe  Fe4       1.0000  0.5016  0.8844  0.7482  1.0000\n  Fe  Fe5       1.0000  0.0016  0.1156  0.2518  1.0000\n  Fe  Fe6       1.0000  0.0023  0.3381  0.2233  1.0000\n  Fe  Fe7       1.0000  0.5023  0.6620  0.7767  1.0000\n  Fe  Fe8       1.0000  0.5023  0.8380  0.2767  1.0000\n  La  La16      1.0000  0.0023  0.1620  0.7233  1.0000\n  Se  Se1       1.0000  0.0175  0.0117  0.7492  1.0000\n  Se  Se2       1.0000  0.5175  0.9883  0.2508  1.0000\n  Se  Se3       1.0000  0.5175  0.5117  0.7508  1.0000\n  Se  Se4       1.0000  0.0175  0.4883  0.2492  1.0000\n  Se  Se5       1.0000  0.0054  0.3304  0.0748  1.0000\n  Se  Se6       1.0000  0.5054  0.6696  0.9252  1.0000\n  Se  Se7       1.0000  0.5054  0.8304  0.4252  1.0000\n  Se  Se8       1.0000  0.0054  0.1696  0.5748  1.0000\n  Se  Se9       1.0000  0.5066  0.8274  0.0609  1.0000\n  Se  Se10      1.0000  0.0066  0.1726  0.9391  1.0000\n  Se  Se11      1.0000  0.0066  0.3274  0.4391  1.0000\n  Se  Se12      1.0000  0.5066  0.6726  0.5609  1.0000\n  Se  Se13      1.0000  0.0045  0.7543  0.7478  1.0000\n  Se  Se14      1.0000  0.5045  0.2457  0.2522  1.0000\n  Se  Se15      1.0000  0.5045  0.2543  0.7522  1.0000\n  Se  Se16      1.0000  0.0045  0.7457  0.2478  1.0000\n  O   O1        1.0000  0.0003  0.1173  0.1403  1.0000\n  O   O2        1.0000  0.5003  0.8827  0.8597  1.0000\n  O   O3        1.0000  0.5003  0.6173  0.3597  1.0000\n  O   O4        1.0000  0.0003  0.3827  0.6403  1.0000\n  O   O5        1.0000  0.5070  0.6221  0.1362  1.0000\n  O   O6        1.0000  0.0070  0.3779  0.8638  1.0000\n  O   O7        1.0000  0.0070  0.1221  0.3638  1.0000\n  O   O8        1.0000  0.5070  0.8779  0.6362  1.0000\n  O   O9        1.0000  0.0011  0.5380  0.4534  1.0000\n  O   O10       1.0000  0.5011  0.4620  0.5466  1.0000\n  O   O11       1.0000  0.5011  0.0380  0.0466  1.0000\n  O   O12       1.0000  0.0011  0.9620  0.9534  1.0000\n  O   O13       1.0000  0.5087  0.0420  0.4560  1.0000\n  O   O14       1.0000  0.0087  0.9580  0.5440  1.0000\n  O   O15       1.0000  0.0087  0.5420  0.0440  1.0000\n  O   O16       1.0000  0.5087  0.4580  0.9560  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0dcf6260-75e1-475c-af87-926ddf5d2d15",
    "mp_id": "mp-1201895",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Er3Ni19B10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8565\n_cell_length_b   7.8565\n_cell_length_c   5.7522\n_cell_angle_alpha   88.9063\n_cell_angle_beta   88.9063\n_cell_angle_gamma   66.9665\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Er3Ni19B10\n_chemical_formula_sum   'Er3 Ni19 B10'\n_cell_volume   326.6580\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.0000  0.0000  0.0000  1\n  Er  Er1  1  0.6254  0.6254  0.6160  1\n  Er  Er2  1  0.3746  0.3746  0.3840  1\n  Ni  Ni3  1  0.0000  0.0000  0.5000  1\n  Ni  Ni4  1  0.6222  0.6222  0.1283  1\n  Ni  Ni5  1  0.3778  0.3778  0.8717  1\n  Ni  Ni6  1  0.1625  0.1625  0.2964  1\n  Ni  Ni7  1  0.8375  0.8375  0.7036  1\n  Ni  Ni8  1  0.1819  0.1819  0.7294  1\n  Ni  Ni9  1  0.8181  0.8181  0.2706  1\n  Ni  Ni10  1  0.4831  0.9551  0.3026  1\n  Ni  Ni11  1  0.9551  0.4831  0.3026  1\n  Ni  Ni12  1  0.5169  0.0449  0.6974  1\n  Ni  Ni13  1  0.0449  0.5169  0.6974  1\n  Ni  Ni14  1  0.1221  0.6234  0.0733  1\n  Ni  Ni15  1  0.6234  0.1221  0.0733  1\n  Ni  Ni16  1  0.8779  0.3766  0.9267  1\n  Ni  Ni17  1  0.3766  0.8779  0.9267  1\n  Ni  Ni18  1  0.7700  0.2896  0.3017  1\n  Ni  Ni19  1  0.2896  0.7700  0.3017  1\n  Ni  Ni20  1  0.2300  0.7104  0.6983  1\n  Ni  Ni21  1  0.7104  0.2300  0.6983  1\n  B  B22  1  0.3846  0.6154  0.0000  1\n  B  B23  1  0.6154  0.3846  0.0000  1\n  B  B24  1  0.6502  0.8576  0.9747  1\n  B  B25  1  0.8576  0.6502  0.9747  1\n  B  B26  1  0.3498  0.1424  0.0253  1\n  B  B27  1  0.1424  0.3498  0.0253  1\n  B  B28  1  0.9349  0.3009  0.5696  1\n  B  B29  1  0.3009  0.9349  0.5696  1\n  B  B30  1  0.0651  0.6991  0.4304  1\n  B  B31  1  0.6991  0.0651  0.4304  1\n",
    "output": "data_image0\n_chemical_formula_structural       Er3Ni17BNiB3NiB6\n_chemical_formula_sum              \"Er3 Ni19 B10\"\n_cell_length_a       7.8565\n_cell_length_b       7.8565\n_cell_length_c       5.7522\n_cell_angle_alpha    88.9063\n_cell_angle_beta     88.9063\n_cell_angle_gamma    66.9665\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Er  Er1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Er  Er2       1.0000  0.6254  0.6254  0.6160  1.0000\n  Er  Er3       1.0000  0.3746  0.3746  0.3840  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ni  Ni2       1.0000  0.6222  0.6222  0.1283  1.0000\n  Ni  Ni3       1.0000  0.3778  0.3778  0.8717  1.0000\n  Ni  Ni4       1.0000  0.1625  0.1625  0.2964  1.0000\n  Ni  Ni5       1.0000  0.8375  0.8375  0.7036  1.0000\n  Ni  Ni6       1.0000  0.1819  0.1819  0.7294  1.0000\n  Ni  Ni7       1.0000  0.8181  0.8181  0.2706  1.0000\n  Ni  Ni8       1.0000  0.4831  0.9551  0.3026  1.0000\n  Ni  Ni9       1.0000  0.9551  0.4831  0.3026  1.0000\n  Ni  Ni10      1.0000  0.5169  0.0449  0.6974  1.0000\n  Ni  Ni11      1.0000  0.0449  0.5169  0.6974  1.0000\n  Ni  Ni12      1.0000  0.1221  0.6234  0.0733  1.0000\n  Ni  Ni13      1.0000  0.6234  0.1221  0.0733  1.0000\n  Ni  Ni14      1.0000  0.8779  0.3766  0.9267  1.0000\n  Ni  Ni15      1.0000  0.3766  0.8779  0.9267  1.0000\n  Ni  Ni16      1.0000  0.7700  0.2896  0.3017  1.0000\n  Ni  Ni17      1.0000  0.2896  0.7700  0.3017  1.0000\n  B   B1        1.0000  0.2300  0.7104  0.6983  1.0000\n  Ni  Ni18      1.0000  0.7104  0.2300  0.6983  1.0000\n  B   B2        1.0000  0.3846  0.6154  0.0000  1.0000\n  B   B3        1.0000  0.6154  0.3846  0.0000  1.0000\n  B   B4        1.0000  0.6502  0.8576  0.9747  1.0000\n  Ni  Ni19      1.0000  0.8576  0.6502  0.9747  1.0000\n  B   B5        1.0000  0.3498  0.1424  0.0253  1.0000\n  B   B6        1.0000  0.1424  0.3498  0.0253  1.0000\n  B   B7        1.0000  0.9349  0.3009  0.5696  1.0000\n  B   B8        1.0000  0.3009  0.9349  0.5696  1.0000\n  B   B9        1.0000  0.0651  0.6991  0.4304  1.0000\n  B   B10       1.0000  0.6991  0.0651  0.4304  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3bccb71b-7355-4cd9-b907-2246e5bf206c",
    "mp_id": "mp-1202389",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 74 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaVI5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   18.3694\n_cell_length_b   7.5922\n_cell_length_c   12.7665\n_cell_angle_alpha   55.9085\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaVI5O16\n_chemical_formula_sum   'La4 V4 I20 O64'\n_cell_volume   1474.4794\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.2334  0.0079  0.2417  1\n  La  La1  1  0.2666  0.0079  0.7417  1\n  La  La2  1  0.7666  0.9921  0.7583  1\n  La  La3  1  0.7334  0.9921  0.2583  1\n  V  V4  1  0.9990  0.4991  0.2315  1\n  V  V5  1  0.5010  0.4991  0.7315  1\n  V  V6  1  0.0010  0.5009  0.7685  1\n  V  V7  1  0.4990  0.5009  0.2685  1\n  I  I8  1  0.1240  0.4612  0.4365  1\n  I  I9  1  0.3760  0.4612  0.9365  1\n  I  I10  1  0.8760  0.5388  0.5635  1\n  I  I11  1  0.6240  0.5388  0.0635  1\n  I  I12  1  0.3704  0.8753  0.0521  1\n  I  I13  1  0.1296  0.8753  0.5521  1\n  I  I14  1  0.6296  0.1247  0.9479  1\n  I  I15  1  0.8704  0.1247  0.4479  1\n  I  I16  1  0.1639  0.6543  0.0661  1\n  I  I17  1  0.3361  0.6543  0.5661  1\n  I  I18  1  0.8361  0.3457  0.9339  1\n  I  I19  1  0.6639  0.3457  0.4339  1\n  I  I20  1  0.8252  0.6874  0.1014  1\n  I  I21  1  0.6748  0.6874  0.6014  1\n  I  I22  1  0.1748  0.3126  0.8986  1\n  I  I23  1  0.3252  0.3126  0.3986  1\n  I  I24  1  0.0048  0.9783  0.2411  1\n  I  I25  1  0.4952  0.9783  0.7411  1\n  I  I26  1  0.9952  0.0217  0.7589  1\n  I  I27  1  0.5048  0.0217  0.2589  1\n  O  O28  1  0.0881  0.3504  0.3487  1\n  O  O29  1  0.4119  0.3504  0.8487  1\n  O  O30  1  0.9119  0.6496  0.6513  1\n  O  O31  1  0.5881  0.6496  0.1513  1\n  O  O32  1  0.1866  0.6503  0.3126  1\n  O  O33  1  0.3134  0.6503  0.8126  1\n  O  O34  1  0.8134  0.3497  0.6874  1\n  O  O35  1  0.6866  0.3497  0.1874  1\n  O  O36  1  0.1941  0.2518  0.5235  1\n  O  O37  1  0.3059  0.2518  0.0235  1\n  O  O38  1  0.8059  0.7482  0.4765  1\n  O  O39  1  0.6941  0.7482  0.9765  1\n  O  O40  1  0.4293  0.6398  0.1123  1\n  O  O41  1  0.0707  0.6398  0.6123  1\n  O  O42  1  0.5707  0.3602  0.8877  1\n  O  O43  1  0.9293  0.3602  0.3877  1\n  O  O44  1  0.3035  0.8005  0.9757  1\n  O  O45  1  0.1965  0.8005  0.4757  1\n  O  O46  1  0.6965  0.1995  0.0243  1\n  O  O47  1  0.8035  0.1995  0.5243  1\n  O  O48  1  0.3167  0.7835  0.1938  1\n  O  O49  1  0.1833  0.7835  0.6938  1\n  O  O50  1  0.6833  0.2165  0.8062  1\n  O  O51  1  0.8167  0.2165  0.3062  1\n  O  O52  1  0.0649  0.6840  0.0838  1\n  O  O53  1  0.4351  0.6840  0.5838  1\n  O  O54  1  0.9351  0.3160  0.9162  1\n  O  O55  1  0.5649  0.3160  0.4162  1\n  O  O56  1  0.1679  0.3949  0.0867  1\n  O  O57  1  0.3321  0.3949  0.5867  1\n  O  O58  1  0.8321  0.6051  0.9133  1\n  O  O59  1  0.6679  0.6051  0.4133  1\n  O  O60  1  0.1613  0.8260  0.8939  1\n  O  O61  1  0.3387  0.8260  0.3939  1\n  O  O62  1  0.8387  0.1740  0.1061  1\n  O  O63  1  0.6613  0.1740  0.6061  1\n  O  O64  1  0.7787  0.7397  0.2078  1\n  O  O65  1  0.7213  0.7397  0.7078  1\n  O  O66  1  0.2213  0.2603  0.7922  1\n  O  O67  1  0.2787  0.2603  0.2922  1\n  O  O68  1  0.9218  0.7188  0.1325  1\n  O  O69  1  0.5782  0.7188  0.6325  1\n  O  O70  1  0.0782  0.2812  0.8675  1\n  O  O71  1  0.4218  0.2812  0.3675  1\n  O  O72  1  0.8237  0.9506  0.9512  1\n  O  O73  1  0.6763  0.9506  0.4512  1\n  O  O74  1  0.1763  0.0494  0.0488  1\n  O  O75  1  0.3237  0.0494  0.5488  1\n  O  O76  1  0.9486  0.9018  0.3778  1\n  O  O77  1  0.5514  0.9018  0.8778  1\n  O  O78  1  0.0514  0.0982  0.6222  1\n  O  O79  1  0.4486  0.0982  0.1222  1\n  O  O80  1  0.0946  0.0050  0.2914  1\n  O  O81  1  0.4054  0.0050  0.7914  1\n  O  O82  1  0.9054  0.9950  0.7086  1\n  O  O83  1  0.5946  0.9950  0.2086  1\n  O  O84  1  0.0230  0.6905  0.2986  1\n  O  O85  1  0.4770  0.6905  0.7986  1\n  O  O86  1  0.9770  0.3095  0.7014  1\n  O  O87  1  0.5230  0.3095  0.2014  1\n  O  O88  1  0.9828  0.3174  0.1977  1\n  O  O89  1  0.5172  0.3174  0.6977  1\n  O  O90  1  0.0172  0.6826  0.8023  1\n  O  O91  1  0.4828  0.6826  0.3023  1\n",
    "output": "data_image0\n_chemical_formula_structural       La3OV4I20O46LaO17\n_chemical_formula_sum              \"La4 O64 V4 I20\"\n_cell_length_a       18.3694\n_cell_length_b       7.5922\n_cell_length_c       12.7665\n_cell_angle_alpha    55.9085\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.2334  0.0079  0.2417  1.0000\n  La  La2       1.0000  0.2666  0.0079  0.7417  1.0000\n  La  La3       1.0000  0.7666  0.9921  0.7583  1.0000\n  O   O1        1.0000  0.7334  0.9921  0.2583  1.0000\n  V   V1        1.0000  0.9990  0.4991  0.2315  1.0000\n  V   V2        1.0000  0.5010  0.4991  0.7315  1.0000\n  V   V3        1.0000  0.0010  0.5009  0.7685  1.0000\n  V   V4        1.0000  0.4990  0.5009  0.2685  1.0000\n  I   I1        1.0000  0.1240  0.4612  0.4365  1.0000\n  I   I2        1.0000  0.3760  0.4612  0.9365  1.0000\n  I   I3        1.0000  0.8760  0.5388  0.5635  1.0000\n  I   I4        1.0000  0.6240  0.5388  0.0635  1.0000\n  I   I5        1.0000  0.3704  0.8753  0.0521  1.0000\n  I   I6        1.0000  0.1296  0.8753  0.5521  1.0000\n  I   I7        1.0000  0.6296  0.1247  0.9479  1.0000\n  I   I8        1.0000  0.8704  0.1247  0.4479  1.0000\n  I   I9        1.0000  0.1639  0.6543  0.0661  1.0000\n  I   I10       1.0000  0.3361  0.6543  0.5661  1.0000\n  I   I11       1.0000  0.8361  0.3457  0.9339  1.0000\n  I   I12       1.0000  0.6639  0.3457  0.4339  1.0000\n  I   I13       1.0000  0.8252  0.6874  0.1014  1.0000\n  I   I14       1.0000  0.6748  0.6874  0.6014  1.0000\n  I   I15       1.0000  0.1748  0.3126  0.8986  1.0000\n  I   I16       1.0000  0.3252  0.3126  0.3986  1.0000\n  I   I17       1.0000  0.0048  0.9783  0.2411  1.0000\n  I   I18       1.0000  0.4952  0.9783  0.7411  1.0000\n  I   I19       1.0000  0.9952  0.0217  0.7589  1.0000\n  I   I20       1.0000  0.5048  0.0217  0.2589  1.0000\n  O   O2        1.0000  0.0881  0.3504  0.3487  1.0000\n  O   O3        1.0000  0.4119  0.3504  0.8487  1.0000\n  O   O4        1.0000  0.9119  0.6496  0.6513  1.0000\n  O   O5        1.0000  0.5881  0.6496  0.1513  1.0000\n  O   O6        1.0000  0.1866  0.6503  0.3126  1.0000\n  O   O7        1.0000  0.3134  0.6503  0.8126  1.0000\n  O   O8        1.0000  0.8134  0.3497  0.6874  1.0000\n  O   O9        1.0000  0.6866  0.3497  0.1874  1.0000\n  O   O10       1.0000  0.1941  0.2518  0.5235  1.0000\n  O   O11       1.0000  0.3059  0.2518  0.0235  1.0000\n  O   O12       1.0000  0.8059  0.7482  0.4765  1.0000\n  O   O13       1.0000  0.6941  0.7482  0.9765  1.0000\n  O   O14       1.0000  0.4293  0.6398  0.1123  1.0000\n  O   O15       1.0000  0.0707  0.6398  0.6123  1.0000\n  O   O16       1.0000  0.5707  0.3602  0.8877  1.0000\n  O   O17       1.0000  0.9293  0.3602  0.3877  1.0000\n  O   O18       1.0000  0.3035  0.8005  0.9757  1.0000\n  O   O19       1.0000  0.1965  0.8005  0.4757  1.0000\n  O   O20       1.0000  0.6965  0.1995  0.0243  1.0000\n  O   O21       1.0000  0.8035  0.1995  0.5243  1.0000\n  O   O22       1.0000  0.3167  0.7835  0.1938  1.0000\n  O   O23       1.0000  0.1833  0.7835  0.6938  1.0000\n  O   O24       1.0000  0.6833  0.2165  0.8062  1.0000\n  O   O25       1.0000  0.8167  0.2165  0.3062  1.0000\n  O   O26       1.0000  0.0649  0.6840  0.0838  1.0000\n  O   O27       1.0000  0.4351  0.6840  0.5838  1.0000\n  O   O28       1.0000  0.9351  0.3160  0.9162  1.0000\n  O   O29       1.0000  0.5649  0.3160  0.4162  1.0000\n  O   O30       1.0000  0.1679  0.3949  0.0867  1.0000\n  O   O31       1.0000  0.3321  0.3949  0.5867  1.0000\n  O   O32       1.0000  0.8321  0.6051  0.9133  1.0000\n  O   O33       1.0000  0.6679  0.6051  0.4133  1.0000\n  O   O34       1.0000  0.1613  0.8260  0.8939  1.0000\n  O   O35       1.0000  0.3387  0.8260  0.3939  1.0000\n  O   O36       1.0000  0.8387  0.1740  0.1061  1.0000\n  O   O37       1.0000  0.6613  0.1740  0.6061  1.0000\n  O   O38       1.0000  0.7787  0.7397  0.2078  1.0000\n  O   O39       1.0000  0.7213  0.7397  0.7078  1.0000\n  O   O40       1.0000  0.2213  0.2603  0.7922  1.0000\n  O   O41       1.0000  0.2787  0.2603  0.2922  1.0000\n  O   O42       1.0000  0.9218  0.7188  0.1325  1.0000\n  O   O43       1.0000  0.5782  0.7188  0.6325  1.0000\n  O   O44       1.0000  0.0782  0.2812  0.8675  1.0000\n  O   O45       1.0000  0.4218  0.2812  0.3675  1.0000\n  O   O46       1.0000  0.8237  0.9506  0.9512  1.0000\n  O   O47       1.0000  0.6763  0.9506  0.4512  1.0000\n  La  La4       1.0000  0.1763  0.0494  0.0488  1.0000\n  O   O48       1.0000  0.3237  0.0494  0.5488  1.0000\n  O   O49       1.0000  0.9486  0.9018  0.3778  1.0000\n  O   O50       1.0000  0.5514  0.9018  0.8778  1.0000\n  O   O51       1.0000  0.0514  0.0982  0.6222  1.0000\n  O   O52       1.0000  0.4486  0.0982  0.1222  1.0000\n  O   O53       1.0000  0.0946  0.0050  0.2914  1.0000\n  O   O54       1.0000  0.4054  0.0050  0.7914  1.0000\n  O   O55       1.0000  0.9054  0.9950  0.7086  1.0000\n  O   O56       1.0000  0.5946  0.9950  0.2086  1.0000\n  O   O57       1.0000  0.0230  0.6905  0.2986  1.0000\n  O   O58       1.0000  0.4770  0.6905  0.7986  1.0000\n  O   O59       1.0000  0.9770  0.3095  0.7014  1.0000\n  O   O60       1.0000  0.5230  0.3095  0.2014  1.0000\n  O   O61       1.0000  0.9828  0.3174  0.1977  1.0000\n  O   O62       1.0000  0.5172  0.3174  0.6977  1.0000\n  O   O63       1.0000  0.0172  0.6826  0.8023  1.0000\n  O   O64       1.0000  0.4828  0.6826  0.3023  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a61c7951-2b84-4c1c-9106-528dfe8a2067",
    "mp_id": "mp-1202709",
    "action_prompt": "Swap the spatial positions of atoms at indices 32 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2SnH2Cl4O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3741\n_cell_length_b   9.2784\n_cell_length_c   12.1743\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2SnH2Cl4O\n_chemical_formula_sum   'K8 Sn4 H8 Cl16 O4'\n_cell_volume   945.9226\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6301  0.9824  0.8157  1\n  K  K1  1  0.8699  0.5176  0.3157  1\n  K  K2  1  0.3699  0.4824  0.1843  1\n  K  K3  1  0.1301  0.0176  0.6843  1\n  K  K4  1  0.3699  0.0176  0.1843  1\n  K  K5  1  0.1301  0.4824  0.6843  1\n  K  K6  1  0.6301  0.5176  0.8157  1\n  K  K7  1  0.8699  0.9824  0.3157  1\n  Sn  Sn8  1  0.0083  0.2500  0.0100  1\n  Sn  Sn9  1  0.4917  0.2500  0.5100  1\n  Sn  Sn10  1  0.9917  0.7500  0.9900  1\n  Sn  Sn11  1  0.5083  0.7500  0.4900  1\n  H  H12  1  0.5774  0.7500  0.0401  1\n  H  H13  1  0.9226  0.7500  0.5401  1\n  H  H14  1  0.4226  0.2500  0.9599  1\n  H  H15  1  0.0774  0.2500  0.4599  1\n  H  H16  1  0.4375  0.7500  0.9554  1\n  H  H17  1  0.0625  0.7500  0.4554  1\n  H  H18  1  0.5625  0.2500  0.0446  1\n  H  H19  1  0.9375  0.2500  0.5446  1\n  Cl  Cl20  1  0.8940  0.2500  0.8072  1\n  Cl  Cl21  1  0.6060  0.2500  0.3072  1\n  Cl  Cl22  1  0.1060  0.7500  0.1928  1\n  Cl  Cl23  1  0.3940  0.7500  0.6928  1\n  Cl  Cl24  1  0.7943  0.0533  0.0572  1\n  Cl  Cl25  1  0.7057  0.4467  0.5572  1\n  Cl  Cl26  1  0.2057  0.5533  0.9428  1\n  Cl  Cl27  1  0.2943  0.9467  0.4428  1\n  Cl  Cl28  1  0.2057  0.9467  0.9428  1\n  Cl  Cl29  1  0.2943  0.5533  0.4428  1\n  Cl  Cl30  1  0.7943  0.4467  0.0572  1\n  Cl  Cl31  1  0.7057  0.0533  0.5572  1\n  Cl  Cl32  1  0.8990  0.7500  0.7350  1\n  Cl  Cl33  1  0.6010  0.7500  0.2350  1\n  Cl  Cl34  1  0.1010  0.2500  0.2650  1\n  Cl  Cl35  1  0.3990  0.2500  0.7650  1\n  O  O36  1  0.5540  0.7500  0.9606  1\n  O  O37  1  0.9460  0.7500  0.4606  1\n  O  O38  1  0.4461  0.2500  0.0394  1\n  O  O39  1  0.0539  0.2500  0.5394  1\n",
    "output": "data_image0\n_chemical_formula_structural       K8Sn4H5ClH2Cl12HCl3O4\n_chemical_formula_sum              \"K8 Sn4 H8 Cl16 O4\"\n_cell_length_a       8.3741\n_cell_length_b       9.2784\n_cell_length_c       12.1743\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6301  0.9824  0.8157  1.0000\n  K   K2        1.0000  0.8699  0.5176  0.3157  1.0000\n  K   K3        1.0000  0.3699  0.4824  0.1843  1.0000\n  K   K4        1.0000  0.1301  0.0176  0.6843  1.0000\n  K   K5        1.0000  0.3699  0.0176  0.1843  1.0000\n  K   K6        1.0000  0.1301  0.4824  0.6843  1.0000\n  K   K7        1.0000  0.6301  0.5176  0.8157  1.0000\n  K   K8        1.0000  0.8699  0.9824  0.3157  1.0000\n  Sn  Sn1       1.0000  0.0083  0.2500  0.0100  1.0000\n  Sn  Sn2       1.0000  0.4917  0.2500  0.5100  1.0000\n  Sn  Sn3       1.0000  0.9917  0.7500  0.9900  1.0000\n  Sn  Sn4       1.0000  0.5083  0.7500  0.4900  1.0000\n  H   H1        1.0000  0.5774  0.7500  0.0401  1.0000\n  H   H2        1.0000  0.9226  0.7500  0.5401  1.0000\n  H   H3        1.0000  0.4226  0.2500  0.9599  1.0000\n  H   H4        1.0000  0.0774  0.2500  0.4599  1.0000\n  H   H5        1.0000  0.4375  0.7500  0.9554  1.0000\n  Cl  Cl1       1.0000  0.0625  0.7500  0.4554  1.0000\n  H   H6        1.0000  0.5625  0.2500  0.0446  1.0000\n  H   H7        1.0000  0.9375  0.2500  0.5446  1.0000\n  Cl  Cl2       1.0000  0.8940  0.2500  0.8072  1.0000\n  Cl  Cl3       1.0000  0.6060  0.2500  0.3072  1.0000\n  Cl  Cl4       1.0000  0.1060  0.7500  0.1928  1.0000\n  Cl  Cl5       1.0000  0.3940  0.7500  0.6928  1.0000\n  Cl  Cl6       1.0000  0.7943  0.0533  0.0572  1.0000\n  Cl  Cl7       1.0000  0.7057  0.4467  0.5572  1.0000\n  Cl  Cl8       1.0000  0.2057  0.5533  0.9428  1.0000\n  Cl  Cl9       1.0000  0.2943  0.9467  0.4428  1.0000\n  Cl  Cl10      1.0000  0.2057  0.9467  0.9428  1.0000\n  Cl  Cl11      1.0000  0.2943  0.5533  0.4428  1.0000\n  Cl  Cl12      1.0000  0.7943  0.4467  0.0572  1.0000\n  Cl  Cl13      1.0000  0.7057  0.0533  0.5572  1.0000\n  H   H8        1.0000  0.8990  0.7500  0.7350  1.0000\n  Cl  Cl14      1.0000  0.6010  0.7500  0.2350  1.0000\n  Cl  Cl15      1.0000  0.1010  0.2500  0.2650  1.0000\n  Cl  Cl16      1.0000  0.3990  0.2500  0.7650  1.0000\n  O   O1        1.0000  0.5540  0.7500  0.9606  1.0000\n  O   O2        1.0000  0.9460  0.7500  0.4606  1.0000\n  O   O3        1.0000  0.4461  0.2500  0.0394  1.0000\n  O   O4        1.0000  0.0539  0.2500  0.5394  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8f239336-3d75-4ee1-a016-2a2ad7a123c9",
    "mp_id": "mp-1202898",
    "action_prompt": "Swap the spatial positions of atoms at indices 43 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_InAs2NO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9728\n_cell_length_b   8.7418\n_cell_length_c   10.9483\n_cell_angle_alpha   87.0106\n_cell_angle_beta   85.0154\n_cell_angle_gamma   73.7447\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   InAs2NO7\n_chemical_formula_sum   'In4 As8 N4 O28'\n_cell_volume   729.4790\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.2319  0.2751  0.5642  1\n  In  In1  1  0.7681  0.7249  0.4358  1\n  In  In2  1  0.7494  0.2172  0.1143  1\n  In  In3  1  0.2506  0.7828  0.8857  1\n  As  As4  1  0.9282  0.3381  0.3436  1\n  As  As5  1  0.0718  0.6619  0.6564  1\n  As  As6  1  0.6532  0.1510  0.4309  1\n  As  As7  1  0.3468  0.8490  0.5691  1\n  As  As8  1  0.3745  0.3476  0.9322  1\n  As  As9  1  0.6255  0.6524  0.0678  1\n  As  As10  1  0.0577  0.2028  0.8724  1\n  As  As11  1  0.9423  0.7972  0.1276  1\n  N  N12  1  0.3316  0.5526  0.3184  1\n  N  N13  1  0.6684  0.4474  0.6816  1\n  N  N14  1  0.6272  0.0165  0.7875  1\n  N  N15  1  0.3728  0.9835  0.2125  1\n  O  O16  1  0.7747  0.5185  0.3391  1\n  O  O17  1  0.2253  0.4815  0.6609  1\n  O  O18  1  0.1134  0.3554  0.4001  1\n  O  O19  1  0.8866  0.6446  0.5999  1\n  O  O20  1  0.9651  0.2501  0.2038  1\n  O  O21  1  0.0349  0.7499  0.7962  1\n  O  O22  1  0.8493  0.2071  0.4498  1\n  O  O23  1  0.1507  0.7929  0.5502  1\n  O  O24  1  0.7004  0.9631  0.4935  1\n  O  O25  1  0.2996  0.0369  0.5065  1\n  O  O26  1  0.4967  0.2773  0.5221  1\n  O  O27  1  0.5033  0.7227  0.4779  1\n  O  O28  1  0.6089  0.1690  0.2800  1\n  O  O29  1  0.3911  0.8310  0.7200  1\n  O  O30  1  0.4072  0.5240  0.8925  1\n  O  O31  1  0.5928  0.4760  0.1075  1\n  O  O32  1  0.4885  0.2190  0.0349  1\n  O  O33  1  0.5115  0.7810  0.9651  1\n  O  O34  1  0.5175  0.1273  0.7639  1\n  O  O35  1  0.4825  0.8727  0.2361  1\n  O  O36  1  0.1532  0.3528  0.9307  1\n  O  O37  1  0.8468  0.6472  0.0693  1\n  O  O38  1  0.1780  0.0294  0.9342  1\n  O  O39  1  0.8220  0.9706  0.0658  1\n  O  O40  1  0.8479  0.2729  0.9326  1\n  O  O41  1  0.1521  0.7271  0.0674  1\n  O  O42  1  0.0707  0.2148  0.7174  1\n  O  O43  1  0.9293  0.7852  0.2826  1\n",
    "output": "data_image0\n_chemical_formula_structural       In4AsOAs6N4O27As\n_chemical_formula_sum              \"In4 As8 O28 N4\"\n_cell_length_a       7.9728\n_cell_length_b       8.7418\n_cell_length_c       10.9483\n_cell_angle_alpha    87.0106\n_cell_angle_beta     85.0154\n_cell_angle_gamma    73.7447\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.2319  0.2751  0.5642  1.0000\n  In  In2       1.0000  0.7681  0.7249  0.4358  1.0000\n  In  In3       1.0000  0.7494  0.2172  0.1143  1.0000\n  In  In4       1.0000  0.2506  0.7828  0.8857  1.0000\n  As  As1       1.0000  0.9282  0.3381  0.3436  1.0000\n  O   O1        1.0000  0.0718  0.6619  0.6564  1.0000\n  As  As2       1.0000  0.6532  0.1510  0.4309  1.0000\n  As  As3       1.0000  0.3468  0.8490  0.5691  1.0000\n  As  As4       1.0000  0.3745  0.3476  0.9322  1.0000\n  As  As5       1.0000  0.6255  0.6524  0.0678  1.0000\n  As  As6       1.0000  0.0577  0.2028  0.8724  1.0000\n  As  As7       1.0000  0.9423  0.7972  0.1276  1.0000\n  N   N1        1.0000  0.3316  0.5526  0.3184  1.0000\n  N   N2        1.0000  0.6684  0.4474  0.6816  1.0000\n  N   N3        1.0000  0.6272  0.0165  0.7875  1.0000\n  N   N4        1.0000  0.3728  0.9835  0.2125  1.0000\n  O   O2        1.0000  0.7747  0.5185  0.3391  1.0000\n  O   O3        1.0000  0.2253  0.4815  0.6609  1.0000\n  O   O4        1.0000  0.1134  0.3554  0.4001  1.0000\n  O   O5        1.0000  0.8866  0.6446  0.5999  1.0000\n  O   O6        1.0000  0.9651  0.2501  0.2038  1.0000\n  O   O7        1.0000  0.0349  0.7499  0.7962  1.0000\n  O   O8        1.0000  0.8493  0.2071  0.4498  1.0000\n  O   O9        1.0000  0.1507  0.7929  0.5502  1.0000\n  O   O10       1.0000  0.7004  0.9631  0.4935  1.0000\n  O   O11       1.0000  0.2996  0.0369  0.5065  1.0000\n  O   O12       1.0000  0.4967  0.2773  0.5221  1.0000\n  O   O13       1.0000  0.5033  0.7227  0.4779  1.0000\n  O   O14       1.0000  0.6089  0.1690  0.2800  1.0000\n  O   O15       1.0000  0.3911  0.8310  0.7200  1.0000\n  O   O16       1.0000  0.4072  0.5240  0.8925  1.0000\n  O   O17       1.0000  0.5928  0.4760  0.1075  1.0000\n  O   O18       1.0000  0.4885  0.2190  0.0349  1.0000\n  O   O19       1.0000  0.5115  0.7810  0.9651  1.0000\n  O   O20       1.0000  0.5175  0.1273  0.7639  1.0000\n  O   O21       1.0000  0.4825  0.8727  0.2361  1.0000\n  O   O22       1.0000  0.1532  0.3528  0.9307  1.0000\n  O   O23       1.0000  0.8468  0.6472  0.0693  1.0000\n  O   O24       1.0000  0.1780  0.0294  0.9342  1.0000\n  O   O25       1.0000  0.8220  0.9706  0.0658  1.0000\n  O   O26       1.0000  0.8479  0.2729  0.9326  1.0000\n  O   O27       1.0000  0.1521  0.7271  0.0674  1.0000\n  O   O28       1.0000  0.0707  0.2148  0.7174  1.0000\n  As  As8       1.0000  0.9293  0.7852  0.2826  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7da4af5a-e3ff-433d-bc03-1242c1954a33",
    "mp_id": "mp-1202901",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 36 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2YHC2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3811\n_cell_length_b   9.3811\n_cell_length_c   11.4860\n_cell_angle_alpha   84.3856\n_cell_angle_beta   84.3856\n_cell_angle_gamma   38.5338\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2YHC2O7\n_chemical_formula_sum   'Na8 Y4 H4 C8 O28'\n_cell_volume   626.3247\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.4909  0.2872  0.3816  1\n  Na  Na1  1  0.7128  0.5091  0.1184  1\n  Na  Na2  1  0.5091  0.7128  0.6184  1\n  Na  Na3  1  0.2872  0.4909  0.8816  1\n  Na  Na4  1  0.1764  0.3553  0.6423  1\n  Na  Na5  1  0.6447  0.8236  0.8577  1\n  Na  Na6  1  0.8236  0.6447  0.3577  1\n  Na  Na7  1  0.3553  0.1764  0.1423  1\n  Y  Y8  1  0.7814  0.0976  0.6309  1\n  Y  Y9  1  0.9024  0.2186  0.8691  1\n  Y  Y10  1  0.2186  0.9024  0.3691  1\n  Y  Y11  1  0.0976  0.7814  0.1309  1\n  H  H12  1  0.9407  0.2609  0.6235  1\n  H  H13  1  0.7391  0.0593  0.8765  1\n  H  H14  1  0.0593  0.7391  0.3765  1\n  H  H15  1  0.2609  0.9407  0.1235  1\n  C  C16  1  0.2327  0.6382  0.6163  1\n  C  C17  1  0.3618  0.7673  0.8837  1\n  C  C18  1  0.7673  0.3618  0.3837  1\n  C  C19  1  0.6382  0.2327  0.1163  1\n  C  C20  1  0.2825  0.1338  0.4217  1\n  C  C21  1  0.8662  0.7175  0.0783  1\n  C  C22  1  0.7175  0.8662  0.5783  1\n  C  C23  1  0.1338  0.2825  0.9217  1\n  O  O24  1  0.1807  0.8058  0.5655  1\n  O  O25  1  0.1942  0.8193  0.9345  1\n  O  O26  1  0.8193  0.1942  0.4345  1\n  O  O27  1  0.8058  0.1807  0.0655  1\n  O  O28  1  0.6930  0.0947  0.2001  1\n  O  O29  1  0.9053  0.3070  0.2999  1\n  O  O30  1  0.3070  0.9053  0.7999  1\n  O  O31  1  0.0947  0.6930  0.7001  1\n  O  O32  1  0.0128  0.3836  0.8271  1\n  O  O33  1  0.6164  0.9872  0.6729  1\n  O  O34  1  0.9872  0.6164  0.1729  1\n  O  O35  1  0.3836  0.0128  0.3271  1\n  O  O36  1  0.4085  0.4313  0.5832  1\n  O  O37  1  0.5687  0.5915  0.9168  1\n  O  O38  1  0.5915  0.5687  0.4168  1\n  O  O39  1  0.4313  0.4085  0.0832  1\n  O  O40  1  0.2408  0.2976  0.4340  1\n  O  O41  1  0.7024  0.7592  0.0660  1\n  O  O42  1  0.7592  0.7024  0.5660  1\n  O  O43  1  0.2976  0.2408  0.9340  1\n  O  O44  1  0.7810  0.9192  0.4963  1\n  O  O45  1  0.0808  0.2190  0.0037  1\n  O  O46  1  0.2190  0.0808  0.5037  1\n  O  O47  1  0.9192  0.7810  0.9963  1\n  O  O48  1  0.8263  0.2983  0.6755  1\n  O  O49  1  0.7017  0.1737  0.8245  1\n  O  O50  1  0.1737  0.7017  0.3245  1\n  O  O51  1  0.2983  0.8263  0.1755  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8YOY2H4C8O12YO15\n_chemical_formula_sum              \"Na8 Y4 O28 H4 C8\"\n_cell_length_a       9.3811\n_cell_length_b       9.3811\n_cell_length_c       11.4860\n_cell_angle_alpha    84.3856\n_cell_angle_beta     84.3856\n_cell_angle_gamma    38.5338\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.4909  0.2872  0.3816  1.0000\n  Na  Na2       1.0000  0.7128  0.5091  0.1184  1.0000\n  Na  Na3       1.0000  0.5091  0.7128  0.6184  1.0000\n  Na  Na4       1.0000  0.2872  0.4909  0.8816  1.0000\n  Na  Na5       1.0000  0.1764  0.3553  0.6423  1.0000\n  Na  Na6       1.0000  0.6447  0.8236  0.8577  1.0000\n  Na  Na7       1.0000  0.8236  0.6447  0.3577  1.0000\n  Na  Na8       1.0000  0.3553  0.1764  0.1423  1.0000\n  Y   Y1        1.0000  0.7814  0.0976  0.6309  1.0000\n  O   O1        1.0000  0.9024  0.2186  0.8691  1.0000\n  Y   Y2        1.0000  0.2186  0.9024  0.3691  1.0000\n  Y   Y3        1.0000  0.0976  0.7814  0.1309  1.0000\n  H   H1        1.0000  0.9407  0.2609  0.6235  1.0000\n  H   H2        1.0000  0.7391  0.0593  0.8765  1.0000\n  H   H3        1.0000  0.0593  0.7391  0.3765  1.0000\n  H   H4        1.0000  0.2609  0.9407  0.1235  1.0000\n  C   C1        1.0000  0.2327  0.6382  0.6163  1.0000\n  C   C2        1.0000  0.3618  0.7673  0.8837  1.0000\n  C   C3        1.0000  0.7673  0.3618  0.3837  1.0000\n  C   C4        1.0000  0.6382  0.2327  0.1163  1.0000\n  C   C5        1.0000  0.2825  0.1338  0.4217  1.0000\n  C   C6        1.0000  0.8662  0.7175  0.0783  1.0000\n  C   C7        1.0000  0.7175  0.8662  0.5783  1.0000\n  C   C8        1.0000  0.1338  0.2825  0.9217  1.0000\n  O   O2        1.0000  0.1807  0.8058  0.5655  1.0000\n  O   O3        1.0000  0.1942  0.8193  0.9345  1.0000\n  O   O4        1.0000  0.8193  0.1942  0.4345  1.0000\n  O   O5        1.0000  0.8058  0.1807  0.0655  1.0000\n  O   O6        1.0000  0.6930  0.0947  0.2001  1.0000\n  O   O7        1.0000  0.9053  0.3070  0.2999  1.0000\n  O   O8        1.0000  0.3070  0.9053  0.7999  1.0000\n  O   O9        1.0000  0.0947  0.6930  0.7001  1.0000\n  O   O10       1.0000  0.0128  0.3836  0.8271  1.0000\n  O   O11       1.0000  0.6164  0.9872  0.6729  1.0000\n  O   O12       1.0000  0.9872  0.6164  0.1729  1.0000\n  O   O13       1.0000  0.3836  0.0128  0.3271  1.0000\n  Y   Y4        1.0000  0.4085  0.4313  0.5832  1.0000\n  O   O14       1.0000  0.5687  0.5915  0.9168  1.0000\n  O   O15       1.0000  0.5915  0.5687  0.4168  1.0000\n  O   O16       1.0000  0.4313  0.4085  0.0832  1.0000\n  O   O17       1.0000  0.2408  0.2976  0.4340  1.0000\n  O   O18       1.0000  0.7024  0.7592  0.0660  1.0000\n  O   O19       1.0000  0.7592  0.7024  0.5660  1.0000\n  O   O20       1.0000  0.2976  0.2408  0.9340  1.0000\n  O   O21       1.0000  0.7810  0.9192  0.4963  1.0000\n  O   O22       1.0000  0.0808  0.2190  0.0037  1.0000\n  O   O23       1.0000  0.2190  0.0808  0.5037  1.0000\n  O   O24       1.0000  0.9192  0.7810  0.9963  1.0000\n  O   O25       1.0000  0.8263  0.2983  0.6755  1.0000\n  O   O26       1.0000  0.7017  0.1737  0.8245  1.0000\n  O   O27       1.0000  0.1737  0.7017  0.3245  1.0000\n  O   O28       1.0000  0.2983  0.8263  0.1755  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7630aa61-cc5e-4591-af58-2b76048e33ae",
    "mp_id": "mp-1203035",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Lu2Zn17\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6499\n_cell_length_b   8.9549\n_cell_length_c   8.9899\n_cell_angle_alpha   60.1285\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Lu2Zn17\n_chemical_formula_sum   'Lu4 Zn34'\n_cell_volume   603.8368\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Lu  Lu0  1  0.2500  0.9994  0.0011  1\n  Lu  Lu1  1  0.7500  0.0006  0.9989  1\n  Lu  Lu2  1  0.7500  0.6662  0.6676  1\n  Lu  Lu3  1  0.2500  0.3338  0.3324  1\n  Zn  Zn4  1  0.4026  0.6668  0.6664  1\n  Zn  Zn5  1  0.5974  0.3332  0.3336  1\n  Zn  Zn6  1  0.9026  0.3332  0.3336  1\n  Zn  Zn7  1  0.0974  0.6668  0.6664  1\n  Zn  Zn8  1  0.5000  0.0000  0.5000  1\n  Zn  Zn9  1  0.5000  0.5000  0.0000  1\n  Zn  Zn10  1  0.5000  0.5000  0.5000  1\n  Zn  Zn11  1  0.0000  0.0000  0.5000  1\n  Zn  Zn12  1  0.0000  0.5000  0.0000  1\n  Zn  Zn13  1  0.0000  0.5000  0.5000  1\n  Zn  Zn14  1  0.2500  0.9713  0.3594  1\n  Zn  Zn15  1  0.2500  0.6698  0.9711  1\n  Zn  Zn16  1  0.2500  0.3586  0.6696  1\n  Zn  Zn17  1  0.2500  0.9718  0.6696  1\n  Zn  Zn18  1  0.2500  0.6694  0.3594  1\n  Zn  Zn19  1  0.2500  0.3591  0.9711  1\n  Zn  Zn20  1  0.7500  0.0287  0.6406  1\n  Zn  Zn21  1  0.7500  0.3302  0.0289  1\n  Zn  Zn22  1  0.7500  0.6414  0.3304  1\n  Zn  Zn23  1  0.7500  0.0282  0.3304  1\n  Zn  Zn24  1  0.7500  0.3306  0.6406  1\n  Zn  Zn25  1  0.7500  0.6409  0.0289  1\n  Zn  Zn26  1  0.5156  0.3237  0.8381  1\n  Zn  Zn27  1  0.5157  0.8380  0.3240  1\n  Zn  Zn28  1  0.5156  0.8382  0.8381  1\n  Zn  Zn29  1  0.4844  0.6763  0.1619  1\n  Zn  Zn30  1  0.4843  0.1620  0.6760  1\n  Zn  Zn31  1  0.4844  0.1618  0.1619  1\n  Zn  Zn32  1  0.0156  0.6763  0.1619  1\n  Zn  Zn33  1  0.0157  0.1620  0.6760  1\n  Zn  Zn34  1  0.0156  0.1618  0.1619  1\n  Zn  Zn35  1  0.9844  0.3237  0.8381  1\n  Zn  Zn36  1  0.9843  0.8380  0.3240  1\n  Zn  Zn37  1  0.9844  0.8382  0.8381  1\n",
    "output": "data_image0\n_chemical_formula_structural       LuZnLu2Zn23LuZn10\n_chemical_formula_sum              \"Lu4 Zn34\"\n_cell_length_a       8.6499\n_cell_length_b       8.9549\n_cell_length_c       8.9899\n_cell_angle_alpha    60.1285\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Lu  Lu1       1.0000  0.2500  0.9994  0.0011  1.0000\n  Zn  Zn1       1.0000  0.7500  0.0006  0.9989  1.0000\n  Lu  Lu2       1.0000  0.7500  0.6662  0.6676  1.0000\n  Lu  Lu3       1.0000  0.2500  0.3338  0.3324  1.0000\n  Zn  Zn2       1.0000  0.4026  0.6668  0.6664  1.0000\n  Zn  Zn3       1.0000  0.5974  0.3332  0.3336  1.0000\n  Zn  Zn4       1.0000  0.9026  0.3332  0.3336  1.0000\n  Zn  Zn5       1.0000  0.0974  0.6668  0.6664  1.0000\n  Zn  Zn6       1.0000  0.5000  0.0000  0.5000  1.0000\n  Zn  Zn7       1.0000  0.5000  0.5000  0.0000  1.0000\n  Zn  Zn8       1.0000  0.5000  0.5000  0.5000  1.0000\n  Zn  Zn9       1.0000  0.0000  0.0000  0.5000  1.0000\n  Zn  Zn10      1.0000  0.0000  0.5000  0.0000  1.0000\n  Zn  Zn11      1.0000  0.0000  0.5000  0.5000  1.0000\n  Zn  Zn12      1.0000  0.2500  0.9713  0.3594  1.0000\n  Zn  Zn13      1.0000  0.2500  0.6698  0.9711  1.0000\n  Zn  Zn14      1.0000  0.2500  0.3586  0.6696  1.0000\n  Zn  Zn15      1.0000  0.2500  0.9718  0.6696  1.0000\n  Zn  Zn16      1.0000  0.2500  0.6694  0.3594  1.0000\n  Zn  Zn17      1.0000  0.2500  0.3591  0.9711  1.0000\n  Zn  Zn18      1.0000  0.7500  0.0287  0.6406  1.0000\n  Zn  Zn19      1.0000  0.7500  0.3302  0.0289  1.0000\n  Zn  Zn20      1.0000  0.7500  0.6414  0.3304  1.0000\n  Zn  Zn21      1.0000  0.7500  0.0282  0.3304  1.0000\n  Zn  Zn22      1.0000  0.7500  0.3306  0.6406  1.0000\n  Zn  Zn23      1.0000  0.7500  0.6409  0.0289  1.0000\n  Zn  Zn24      1.0000  0.5156  0.3237  0.8381  1.0000\n  Lu  Lu4       1.0000  0.5157  0.8380  0.3240  1.0000\n  Zn  Zn25      1.0000  0.5156  0.8382  0.8381  1.0000\n  Zn  Zn26      1.0000  0.4844  0.6763  0.1619  1.0000\n  Zn  Zn27      1.0000  0.4843  0.1620  0.6760  1.0000\n  Zn  Zn28      1.0000  0.4844  0.1618  0.1619  1.0000\n  Zn  Zn29      1.0000  0.0156  0.6763  0.1619  1.0000\n  Zn  Zn30      1.0000  0.0157  0.1620  0.6760  1.0000\n  Zn  Zn31      1.0000  0.0156  0.1618  0.1619  1.0000\n  Zn  Zn32      1.0000  0.9844  0.3237  0.8381  1.0000\n  Zn  Zn33      1.0000  0.9843  0.8380  0.3240  1.0000\n  Zn  Zn34      1.0000  0.9844  0.8382  0.8381  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7121648e-58f9-45c8-ba70-983dbf8958a1",
    "mp_id": "mp-1203146",
    "action_prompt": "Swap the spatial positions of atoms at indices 90 and 82 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiSi3H30C10(N2Cl)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9093\n_cell_length_b   10.4188\n_cell_length_c   12.8844\n_cell_angle_alpha   90.1187\n_cell_angle_beta   94.7122\n_cell_angle_gamma   108.3743\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiSi3H30C10(N2Cl)2\n_chemical_formula_sum   'Ti2 Si6 H60 C20 N8 Cl4'\n_cell_volume   1257.6006\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.0117  0.5914  0.8520  1\n  Ti  Ti1  1  0.9883  0.4086  0.1480  1\n  Si  Si2  1  0.1791  0.9039  0.7782  1\n  Si  Si3  1  0.8209  0.0961  0.2218  1\n  Si  Si4  1  0.6770  0.3897  0.7615  1\n  Si  Si5  1  0.3230  0.6103  0.2385  1\n  Si  Si6  1  0.8566  0.7005  0.7292  1\n  Si  Si7  1  0.1434  0.2995  0.2708  1\n  H  H8  1  0.1690  0.8880  0.5839  1\n  H  H9  1  0.8310  0.1120  0.4161  1\n  H  H10  1  0.3428  0.9814  0.6392  1\n  H  H11  1  0.6572  0.0186  0.3608  1\n  H  H12  1  0.2835  0.8015  0.6424  1\n  H  H13  1  0.7165  0.1985  0.3576  1\n  H  H14  1  0.0392  0.0577  0.7217  1\n  H  H15  1  0.9608  0.9423  0.2783  1\n  H  H16  1  0.0800  0.0700  0.8591  1\n  H  H17  1  0.9200  0.9300  0.1409  1\n  H  H18  1  0.2139  0.1497  0.7760  1\n  H  H19  1  0.7861  0.8503  0.2240  1\n  H  H20  1  0.2902  0.9273  0.9621  1\n  H  H21  1  0.7098  0.0727  0.0379  1\n  H  H22  1  0.3609  0.8260  0.8846  1\n  H  H23  1  0.6391  0.1740  0.1154  1\n  H  H24  1  0.4160  0.0042  0.8722  1\n  H  H25  1  0.5840  0.9958  0.1278  1\n  H  H26  1  0.7755  0.2457  0.6525  1\n  H  H27  1  0.2245  0.7543  0.3475  1\n  H  H28  1  0.7947  0.2081  0.7868  1\n  H  H29  1  0.2053  0.7919  0.2132  1\n  H  H30  1  0.6248  0.1490  0.7148  1\n  H  H31  1  0.3752  0.8510  0.2852  1\n  H  H32  1  0.5530  0.4514  0.9052  1\n  H  H33  1  0.4470  0.5486  0.0948  1\n  H  H34  1  0.4868  0.2757  0.8726  1\n  H  H35  1  0.5132  0.7243  0.1274  1\n  H  H36  1  0.6513  0.3427  0.9510  1\n  H  H37  1  0.3487  0.6573  0.0490  1\n  H  H38  1  0.5920  0.4251  0.5779  1\n  H  H39  1  0.4080  0.5749  0.4221  1\n  H  H40  1  0.4523  0.3226  0.6486  1\n  H  H41  1  0.5477  0.6774  0.3514  1\n  H  H42  1  0.5119  0.5005  0.6696  1\n  H  H43  1  0.4881  0.4995  0.3304  1\n  H  H44  1  0.8770  0.8481  0.9182  1\n  H  H45  1  0.1230  0.1519  0.0818  1\n  H  H46  1  0.7639  0.9470  0.8807  1\n  H  H47  1  0.2361  0.0530  0.1193  1\n  H  H48  1  0.6894  0.7813  0.9282  1\n  H  H49  1  0.3106  0.2187  0.0718  1\n  H  H50  1  0.5997  0.7453  0.6439  1\n  H  H51  1  0.4003  0.2547  0.3561  1\n  H  H52  1  0.5268  0.7211  0.7673  1\n  H  H53  1  0.4732  0.2789  0.2327  1\n  H  H54  1  0.6043  0.8879  0.7229  1\n  H  H55  1  0.3957  0.1121  0.2771  1\n  H  H56  1  0.8131  0.8970  0.5876  1\n  H  H57  1  0.1869  0.1030  0.4124  1\n  H  H58  1  0.9404  0.8735  0.5053  1\n  H  H59  1  0.0596  0.1265  0.4947  1\n  H  H60  1  0.7550  0.7931  0.4717  1\n  H  H61  1  0.2450  0.2069  0.5283  1\n  H  H62  1  0.8815  0.5192  0.5725  1\n  H  H63  1  0.1185  0.4808  0.4275  1\n  H  H64  1  0.7949  0.5751  0.4625  1\n  H  H65  1  0.2051  0.4249  0.5375  1\n  H  H66  1  0.9807  0.6532  0.4965  1\n  H  H67  1  0.0193  0.3468  0.5035  1\n  C  C68  1  0.2497  0.8919  0.6486  1\n  C  C69  1  0.7503  0.1081  0.3514  1\n  C  C70  1  0.1219  0.0589  0.7844  1\n  C  C71  1  0.8781  0.9411  0.2156  1\n  C  C72  1  0.3239  0.9149  0.8846  1\n  C  C73  1  0.6761  0.0851  0.1154  1\n  C  C74  1  0.7245  0.2348  0.7261  1\n  C  C75  1  0.2755  0.7652  0.2739  1\n  C  C76  1  0.5846  0.3630  0.8848  1\n  C  C77  1  0.4154  0.6370  0.1152  1\n  C  C78  1  0.5475  0.4132  0.6539  1\n  C  C79  1  0.4525  0.5868  0.3461  1\n  C  C80  1  0.7725  0.8438  0.8806  1\n  C  C81  1  0.2275  0.1562  0.1194  1\n  C  C82  1  0.6144  0.7853  0.7241  1\n  C  C83  1  0.3856  0.2147  0.2759  1\n  C  C84  1  0.8376  0.8233  0.5382  1\n  C  C85  1  0.1624  0.1767  0.4618  1\n  C  C86  1  0.8767  0.6079  0.5292  1\n  C  C87  1  0.1233  0.3921  0.4708  1\n  N  N88  1  0.0309  0.7586  0.7922  1\n  N  N89  1  0.9691  0.2414  0.2078  1\n  N  N90  1  0.8299  0.5353  0.7757  1\n  N  N91  1  0.1701  0.4647  0.2243  1\n  N  N92  1  0.7536  0.7905  0.7738  1\n  N  N93  1  0.2464  0.2095  0.2262  1\n  N  N94  1  0.8426  0.7045  0.5955  1\n  N  N95  1  0.1574  0.2955  0.4045  1\n  Cl  Cl96  1  0.1839  0.5251  0.7853  1\n  Cl  Cl97  1  0.8161  0.4749  0.2147  1\n  Cl  Cl98  1  0.0356  0.6579  0.0287  1\n  Cl  Cl99  1  0.9644  0.3421  0.9713  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti2Si6H60C14NC5N2CN5Cl4\n_chemical_formula_sum              \"Ti2 Si6 H60 C20 N8 Cl4\"\n_cell_length_a       9.9093\n_cell_length_b       10.4188\n_cell_length_c       12.8844\n_cell_angle_alpha    90.1187\n_cell_angle_beta     94.7122\n_cell_angle_gamma    108.3743\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.0117  0.5914  0.8520  1.0000\n  Ti  Ti2       1.0000  0.9883  0.4086  0.1480  1.0000\n  Si  Si1       1.0000  0.1791  0.9039  0.7782  1.0000\n  Si  Si2       1.0000  0.8209  0.0961  0.2218  1.0000\n  Si  Si3       1.0000  0.6770  0.3897  0.7615  1.0000\n  Si  Si4       1.0000  0.3230  0.6103  0.2385  1.0000\n  Si  Si5       1.0000  0.8566  0.7005  0.7292  1.0000\n  Si  Si6       1.0000  0.1434  0.2995  0.2708  1.0000\n  H   H1        1.0000  0.1690  0.8880  0.5839  1.0000\n  H   H2        1.0000  0.8310  0.1120  0.4161  1.0000\n  H   H3        1.0000  0.3428  0.9814  0.6392  1.0000\n  H   H4        1.0000  0.6572  0.0186  0.3608  1.0000\n  H   H5        1.0000  0.2835  0.8015  0.6424  1.0000\n  H   H6        1.0000  0.7165  0.1985  0.3576  1.0000\n  H   H7        1.0000  0.0392  0.0577  0.7217  1.0000\n  H   H8        1.0000  0.9608  0.9423  0.2783  1.0000\n  H   H9        1.0000  0.0800  0.0700  0.8591  1.0000\n  H   H10       1.0000  0.9200  0.9300  0.1409  1.0000\n  H   H11       1.0000  0.2139  0.1497  0.7760  1.0000\n  H   H12       1.0000  0.7861  0.8503  0.2240  1.0000\n  H   H13       1.0000  0.2902  0.9273  0.9621  1.0000\n  H   H14       1.0000  0.7098  0.0727  0.0379  1.0000\n  H   H15       1.0000  0.3609  0.8260  0.8846  1.0000\n  H   H16       1.0000  0.6391  0.1740  0.1154  1.0000\n  H   H17       1.0000  0.4160  0.0042  0.8722  1.0000\n  H   H18       1.0000  0.5840  0.9958  0.1278  1.0000\n  H   H19       1.0000  0.7755  0.2457  0.6525  1.0000\n  H   H20       1.0000  0.2245  0.7543  0.3475  1.0000\n  H   H21       1.0000  0.7947  0.2081  0.7868  1.0000\n  H   H22       1.0000  0.2053  0.7919  0.2132  1.0000\n  H   H23       1.0000  0.6248  0.1490  0.7148  1.0000\n  H   H24       1.0000  0.3752  0.8510  0.2852  1.0000\n  H   H25       1.0000  0.5530  0.4514  0.9052  1.0000\n  H   H26       1.0000  0.4470  0.5486  0.0948  1.0000\n  H   H27       1.0000  0.4868  0.2757  0.8726  1.0000\n  H   H28       1.0000  0.5132  0.7243  0.1274  1.0000\n  H   H29       1.0000  0.6513  0.3427  0.9510  1.0000\n  H   H30       1.0000  0.3487  0.6573  0.0490  1.0000\n  H   H31       1.0000  0.5920  0.4251  0.5779  1.0000\n  H   H32       1.0000  0.4080  0.5749  0.4221  1.0000\n  H   H33       1.0000  0.4523  0.3226  0.6486  1.0000\n  H   H34       1.0000  0.5477  0.6774  0.3514  1.0000\n  H   H35       1.0000  0.5119  0.5005  0.6696  1.0000\n  H   H36       1.0000  0.4881  0.4995  0.3304  1.0000\n  H   H37       1.0000  0.8770  0.8481  0.9182  1.0000\n  H   H38       1.0000  0.1230  0.1519  0.0818  1.0000\n  H   H39       1.0000  0.7639  0.9470  0.8807  1.0000\n  H   H40       1.0000  0.2361  0.0530  0.1193  1.0000\n  H   H41       1.0000  0.6894  0.7813  0.9282  1.0000\n  H   H42       1.0000  0.3106  0.2187  0.0718  1.0000\n  H   H43       1.0000  0.5997  0.7453  0.6439  1.0000\n  H   H44       1.0000  0.4003  0.2547  0.3561  1.0000\n  H   H45       1.0000  0.5268  0.7211  0.7673  1.0000\n  H   H46       1.0000  0.4732  0.2789  0.2327  1.0000\n  H   H47       1.0000  0.6043  0.8879  0.7229  1.0000\n  H   H48       1.0000  0.3957  0.1121  0.2771  1.0000\n  H   H49       1.0000  0.8131  0.8970  0.5876  1.0000\n  H   H50       1.0000  0.1869  0.1030  0.4124  1.0000\n  H   H51       1.0000  0.9404  0.8735  0.5053  1.0000\n  H   H52       1.0000  0.0596  0.1265  0.4947  1.0000\n  H   H53       1.0000  0.7550  0.7931  0.4717  1.0000\n  H   H54       1.0000  0.2450  0.2069  0.5283  1.0000\n  H   H55       1.0000  0.8815  0.5192  0.5725  1.0000\n  H   H56       1.0000  0.1185  0.4808  0.4275  1.0000\n  H   H57       1.0000  0.7949  0.5751  0.4625  1.0000\n  H   H58       1.0000  0.2051  0.4249  0.5375  1.0000\n  H   H59       1.0000  0.9807  0.6532  0.4965  1.0000\n  H   H60       1.0000  0.0193  0.3468  0.5035  1.0000\n  C   C1        1.0000  0.2497  0.8919  0.6486  1.0000\n  C   C2        1.0000  0.7503  0.1081  0.3514  1.0000\n  C   C3        1.0000  0.1219  0.0589  0.7844  1.0000\n  C   C4        1.0000  0.8781  0.9411  0.2156  1.0000\n  C   C5        1.0000  0.3239  0.9149  0.8846  1.0000\n  C   C6        1.0000  0.6761  0.0851  0.1154  1.0000\n  C   C7        1.0000  0.7245  0.2348  0.7261  1.0000\n  C   C8        1.0000  0.2755  0.7652  0.2739  1.0000\n  C   C9        1.0000  0.5846  0.3630  0.8848  1.0000\n  C   C10       1.0000  0.4154  0.6370  0.1152  1.0000\n  C   C11       1.0000  0.5475  0.4132  0.6539  1.0000\n  C   C12       1.0000  0.4525  0.5868  0.3461  1.0000\n  C   C13       1.0000  0.7725  0.8438  0.8806  1.0000\n  C   C14       1.0000  0.2275  0.1562  0.1194  1.0000\n  N   N1        1.0000  0.6144  0.7853  0.7241  1.0000\n  C   C15       1.0000  0.3856  0.2147  0.2759  1.0000\n  C   C16       1.0000  0.8376  0.8233  0.5382  1.0000\n  C   C17       1.0000  0.1624  0.1767  0.4618  1.0000\n  C   C18       1.0000  0.8767  0.6079  0.5292  1.0000\n  C   C19       1.0000  0.1233  0.3921  0.4708  1.0000\n  N   N2        1.0000  0.0309  0.7586  0.7922  1.0000\n  N   N3        1.0000  0.9691  0.2414  0.2078  1.0000\n  C   C20       1.0000  0.8299  0.5353  0.7757  1.0000\n  N   N4        1.0000  0.1701  0.4647  0.2243  1.0000\n  N   N5        1.0000  0.7536  0.7905  0.7738  1.0000\n  N   N6        1.0000  0.2464  0.2095  0.2262  1.0000\n  N   N7        1.0000  0.8426  0.7045  0.5955  1.0000\n  N   N8        1.0000  0.1574  0.2955  0.4045  1.0000\n  Cl  Cl1       1.0000  0.1839  0.5251  0.7853  1.0000\n  Cl  Cl2       1.0000  0.8161  0.4749  0.2147  1.0000\n  Cl  Cl3       1.0000  0.0356  0.6579  0.0287  1.0000\n  Cl  Cl4       1.0000  0.9644  0.3421  0.9713  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "333be943-4789-4e65-a17a-655490f2e357",
    "mp_id": "mp-1203196",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 40 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H2Os3C8(SO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8471\n_cell_length_b   8.8471\n_cell_length_c   11.6875\n_cell_angle_alpha   72.8712\n_cell_angle_beta   72.8712\n_cell_angle_gamma   92.0678\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H2Os3C8(SO4)2\n_chemical_formula_sum   'H4 Os6 C16 S4 O16'\n_cell_volume   827.8609\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.0550  0.7046  0.2059  1\n  H  H1  1  0.2954  0.9450  0.2941  1\n  H  H2  1  0.9450  0.2954  0.7941  1\n  H  H3  1  0.7046  0.0550  0.7059  1\n  Os  Os4  1  0.1667  0.8333  0.2500  1\n  Os  Os5  1  0.8333  0.1667  0.7500  1\n  Os  Os6  1  0.2074  0.5413  0.1986  1\n  Os  Os7  1  0.4587  0.7926  0.3014  1\n  Os  Os8  1  0.7926  0.4587  0.8014  1\n  Os  Os9  1  0.5413  0.2074  0.6986  1\n  C  C10  1  0.9818  0.8538  0.3725  1\n  C  C11  1  0.1462  0.0182  0.1275  1\n  C  C12  1  0.0182  0.1462  0.6275  1\n  C  C13  1  0.8538  0.9818  0.8725  1\n  C  C14  1  0.0273  0.3764  0.2857  1\n  C  C15  1  0.6236  0.9727  0.2143  1\n  C  C16  1  0.9727  0.6236  0.7143  1\n  C  C17  1  0.3764  0.0273  0.7857  1\n  C  C18  1  0.3499  0.3883  0.1924  1\n  C  C19  1  0.6117  0.6501  0.3076  1\n  C  C20  1  0.6501  0.6117  0.8076  1\n  C  C21  1  0.3883  0.3499  0.6924  1\n  C  C22  1  0.1889  0.5516  0.0367  1\n  C  C23  1  0.4484  0.8111  0.4633  1\n  C  C24  1  0.8111  0.4484  0.9633  1\n  C  C25  1  0.5516  0.1889  0.5367  1\n  S  S26  1  0.2235  0.5904  0.3898  1\n  S  S27  1  0.4096  0.7765  0.1102  1\n  S  S28  1  0.7765  0.4096  0.6102  1\n  S  S29  1  0.5904  0.2235  0.8898  1\n  O  O30  1  0.8653  0.8661  0.4470  1\n  O  O31  1  0.1339  0.1347  0.0530  1\n  O  O32  1  0.1347  0.1339  0.5530  1\n  O  O33  1  0.8661  0.8653  0.9470  1\n  O  O34  1  0.9246  0.2712  0.3366  1\n  O  O35  1  0.7288  0.0754  0.1634  1\n  O  O36  1  0.0754  0.7288  0.6634  1\n  O  O37  1  0.2712  0.9246  0.8366  1\n  O  O38  1  0.4404  0.2966  0.1884  1\n  O  O39  1  0.7034  0.5596  0.3116  1\n  O  O40  1  0.5596  0.7034  0.8116  1\n  O  O41  1  0.2966  0.4404  0.6884  1\n  O  O42  1  0.1812  0.5564  0.9384  1\n  O  O43  1  0.4436  0.8188  0.5616  1\n  O  O44  1  0.8188  0.4436  0.0616  1\n  O  O45  1  0.5564  0.1812  0.4384  1\n",
    "output": "data_image0\n_chemical_formula_structural       H4Os6C3OC12S4O10CO5\n_chemical_formula_sum              \"H4 Os6 C16 O16 S4\"\n_cell_length_a       8.8471\n_cell_length_b       8.8471\n_cell_length_c       11.6875\n_cell_angle_alpha    72.8712\n_cell_angle_beta     72.8712\n_cell_angle_gamma    92.0678\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.0550  0.7046  0.2059  1.0000\n  H   H2        1.0000  0.2954  0.9450  0.2941  1.0000\n  H   H3        1.0000  0.9450  0.2954  0.7941  1.0000\n  H   H4        1.0000  0.7046  0.0550  0.7059  1.0000\n  Os  Os1       1.0000  0.1667  0.8333  0.2500  1.0000\n  Os  Os2       1.0000  0.8333  0.1667  0.7500  1.0000\n  Os  Os3       1.0000  0.2074  0.5413  0.1986  1.0000\n  Os  Os4       1.0000  0.4587  0.7926  0.3014  1.0000\n  Os  Os5       1.0000  0.7926  0.4587  0.8014  1.0000\n  Os  Os6       1.0000  0.5413  0.2074  0.6986  1.0000\n  C   C1        1.0000  0.9818  0.8538  0.3725  1.0000\n  C   C2        1.0000  0.1462  0.0182  0.1275  1.0000\n  C   C3        1.0000  0.0182  0.1462  0.6275  1.0000\n  O   O1        1.0000  0.8538  0.9818  0.8725  1.0000\n  C   C4        1.0000  0.0273  0.3764  0.2857  1.0000\n  C   C5        1.0000  0.6236  0.9727  0.2143  1.0000\n  C   C6        1.0000  0.9727  0.6236  0.7143  1.0000\n  C   C7        1.0000  0.3764  0.0273  0.7857  1.0000\n  C   C8        1.0000  0.3499  0.3883  0.1924  1.0000\n  C   C9        1.0000  0.6117  0.6501  0.3076  1.0000\n  C   C10       1.0000  0.6501  0.6117  0.8076  1.0000\n  C   C11       1.0000  0.3883  0.3499  0.6924  1.0000\n  C   C12       1.0000  0.1889  0.5516  0.0367  1.0000\n  C   C13       1.0000  0.4484  0.8111  0.4633  1.0000\n  C   C14       1.0000  0.8111  0.4484  0.9633  1.0000\n  C   C15       1.0000  0.5516  0.1889  0.5367  1.0000\n  S   S1        1.0000  0.2235  0.5904  0.3898  1.0000\n  S   S2        1.0000  0.4096  0.7765  0.1102  1.0000\n  S   S3        1.0000  0.7765  0.4096  0.6102  1.0000\n  S   S4        1.0000  0.5904  0.2235  0.8898  1.0000\n  O   O2        1.0000  0.8653  0.8661  0.4470  1.0000\n  O   O3        1.0000  0.1339  0.1347  0.0530  1.0000\n  O   O4        1.0000  0.1347  0.1339  0.5530  1.0000\n  O   O5        1.0000  0.8661  0.8653  0.9470  1.0000\n  O   O6        1.0000  0.9246  0.2712  0.3366  1.0000\n  O   O7        1.0000  0.7288  0.0754  0.1634  1.0000\n  O   O8        1.0000  0.0754  0.7288  0.6634  1.0000\n  O   O9        1.0000  0.2712  0.9246  0.8366  1.0000\n  O   O10       1.0000  0.4404  0.2966  0.1884  1.0000\n  O   O11       1.0000  0.7034  0.5596  0.3116  1.0000\n  C   C16       1.0000  0.5596  0.7034  0.8116  1.0000\n  O   O12       1.0000  0.2966  0.4404  0.6884  1.0000\n  O   O13       1.0000  0.1812  0.5564  0.9384  1.0000\n  O   O14       1.0000  0.4436  0.8188  0.5616  1.0000\n  O   O15       1.0000  0.8188  0.4436  0.0616  1.0000\n  O   O16       1.0000  0.5564  0.1812  0.4384  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fa8a6202-55e2-498d-8c4b-0cc9f925e63f",
    "mp_id": "mp-1203220",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_InRhO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7086\n_cell_length_b   7.7086\n_cell_length_c   10.7916\n_cell_angle_alpha   45.7727\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   InRhO3\n_chemical_formula_sum   'In8 Rh8 O24'\n_cell_volume   459.5138\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.7448  0.5496  0.7307  1\n  In  In1  1  0.7552  0.5496  0.2307  1\n  In  In2  1  0.2552  0.4504  0.2693  1\n  In  In3  1  0.2448  0.4504  0.7693  1\n  In  In4  1  0.7342  0.0465  0.2240  1\n  In  In5  1  0.7658  0.0465  0.7240  1\n  In  In6  1  0.2658  0.9535  0.7760  1\n  In  In7  1  0.2342  0.9535  0.2760  1\n  Rh  Rh8  1  0.5000  0.0000  0.5000  1\n  Rh  Rh9  1  0.0000  0.0000  0.0000  1\n  Rh  Rh10  1  0.5000  0.5000  0.0000  1\n  Rh  Rh11  1  0.0000  0.5000  0.5000  1\n  Rh  Rh12  1  0.5000  0.0000  0.0000  1\n  Rh  Rh13  1  0.0000  0.0000  0.5000  1\n  Rh  Rh14  1  0.5000  0.5000  0.5000  1\n  Rh  Rh15  1  0.0000  0.5000  0.0000  1\n  O  O16  1  0.9732  0.3460  0.8976  1\n  O  O17  1  0.5268  0.3460  0.3976  1\n  O  O18  1  0.0268  0.6540  0.1024  1\n  O  O19  1  0.4732  0.6540  0.6024  1\n  O  O20  1  0.0396  0.1463  0.7513  1\n  O  O21  1  0.4604  0.1463  0.2513  1\n  O  O22  1  0.9604  0.8537  0.2487  1\n  O  O23  1  0.5396  0.8537  0.7487  1\n  O  O24  1  0.7525  0.9278  0.4726  1\n  O  O25  1  0.7475  0.9278  0.9726  1\n  O  O26  1  0.2475  0.0722  0.5274  1\n  O  O27  1  0.2525  0.0722  0.0274  1\n  O  O28  1  0.0961  0.2227  0.2483  1\n  O  O29  1  0.4039  0.2227  0.7483  1\n  O  O30  1  0.9039  0.7773  0.7517  1\n  O  O31  1  0.5961  0.7773  0.2517  1\n  O  O32  1  0.7493  0.4252  0.6017  1\n  O  O33  1  0.7507  0.4252  0.1017  1\n  O  O34  1  0.2507  0.5748  0.3983  1\n  O  O35  1  0.2493  0.5748  0.8983  1\n  O  O36  1  0.9023  0.2819  0.4657  1\n  O  O37  1  0.5977  0.2819  0.9657  1\n  O  O38  1  0.0977  0.7181  0.5343  1\n  O  O39  1  0.4023  0.7181  0.0343  1\n",
    "output": "data_image0\n_chemical_formula_structural       In7ORh8O18InO5\n_chemical_formula_sum              \"In8 O24 Rh8\"\n_cell_length_a       7.7086\n_cell_length_b       7.7086\n_cell_length_c       10.7916\n_cell_angle_alpha    45.7727\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.7448  0.5496  0.7307  1.0000\n  In  In2       1.0000  0.7552  0.5496  0.2307  1.0000\n  In  In3       1.0000  0.2552  0.4504  0.2693  1.0000\n  In  In4       1.0000  0.2448  0.4504  0.7693  1.0000\n  In  In5       1.0000  0.7342  0.0465  0.2240  1.0000\n  In  In6       1.0000  0.7658  0.0465  0.7240  1.0000\n  In  In7       1.0000  0.2658  0.9535  0.7760  1.0000\n  O   O1        1.0000  0.2342  0.9535  0.2760  1.0000\n  Rh  Rh1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Rh  Rh2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Rh  Rh3       1.0000  0.5000  0.5000  0.0000  1.0000\n  Rh  Rh4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Rh  Rh5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Rh  Rh6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Rh  Rh7       1.0000  0.5000  0.5000  0.5000  1.0000\n  Rh  Rh8       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.9732  0.3460  0.8976  1.0000\n  O   O3        1.0000  0.5268  0.3460  0.3976  1.0000\n  O   O4        1.0000  0.0268  0.6540  0.1024  1.0000\n  O   O5        1.0000  0.4732  0.6540  0.6024  1.0000\n  O   O6        1.0000  0.0396  0.1463  0.7513  1.0000\n  O   O7        1.0000  0.4604  0.1463  0.2513  1.0000\n  O   O8        1.0000  0.9604  0.8537  0.2487  1.0000\n  O   O9        1.0000  0.5396  0.8537  0.7487  1.0000\n  O   O10       1.0000  0.7525  0.9278  0.4726  1.0000\n  O   O11       1.0000  0.7475  0.9278  0.9726  1.0000\n  O   O12       1.0000  0.2475  0.0722  0.5274  1.0000\n  O   O13       1.0000  0.2525  0.0722  0.0274  1.0000\n  O   O14       1.0000  0.0961  0.2227  0.2483  1.0000\n  O   O15       1.0000  0.4039  0.2227  0.7483  1.0000\n  O   O16       1.0000  0.9039  0.7773  0.7517  1.0000\n  O   O17       1.0000  0.5961  0.7773  0.2517  1.0000\n  O   O18       1.0000  0.7493  0.4252  0.6017  1.0000\n  O   O19       1.0000  0.7507  0.4252  0.1017  1.0000\n  In  In8       1.0000  0.2507  0.5748  0.3983  1.0000\n  O   O20       1.0000  0.2493  0.5748  0.8983  1.0000\n  O   O21       1.0000  0.9023  0.2819  0.4657  1.0000\n  O   O22       1.0000  0.5977  0.2819  0.9657  1.0000\n  O   O23       1.0000  0.0977  0.7181  0.5343  1.0000\n  O   O24       1.0000  0.4023  0.7181  0.0343  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f7ec043b-0e00-4a23-8952-337782aaac17",
    "mp_id": "mp-1203746",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AsSXeNF10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.6555\n_cell_length_b   13.6555\n_cell_length_c   15.3675\n_cell_angle_alpha   60.8630\n_cell_angle_beta   60.8630\n_cell_angle_gamma   22.2723\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AsSXeNF10\n_chemical_formula_sum   'As4 S4 Xe4 N4 F40'\n_cell_volume   942.9220\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  As  As0  1  0.1802  0.0166  0.0253  1\n  As  As1  1  0.9834  0.8198  0.4747  1\n  As  As2  1  0.8198  0.9834  0.9747  1\n  As  As3  1  0.0166  0.1802  0.5253  1\n  S  S4  1  0.3872  0.2210  0.3206  1\n  S  S5  1  0.7790  0.6128  0.1794  1\n  S  S6  1  0.6128  0.7790  0.6794  1\n  S  S7  1  0.2210  0.3872  0.8206  1\n  Xe  Xe8  1  0.4697  0.4137  0.1823  1\n  Xe  Xe9  1  0.5863  0.5303  0.3177  1\n  Xe  Xe10  1  0.5303  0.5863  0.8177  1\n  Xe  Xe11  1  0.4137  0.4697  0.6823  1\n  N  N12  1  0.5882  0.1371  0.2846  1\n  N  N13  1  0.8629  0.4118  0.2154  1\n  N  N14  1  0.4118  0.8629  0.7154  1\n  N  N15  1  0.1371  0.5882  0.7846  1\n  F  F16  1  0.1961  0.3427  0.4191  1\n  F  F17  1  0.6573  0.8039  0.0809  1\n  F  F18  1  0.8039  0.6573  0.5809  1\n  F  F19  1  0.3427  0.1961  0.9191  1\n  F  F20  1  0.1446  0.5091  0.2607  1\n  F  F21  1  0.4909  0.8554  0.2393  1\n  F  F22  1  0.8554  0.4909  0.7393  1\n  F  F23  1  0.5091  0.1446  0.7607  1\n  F  F24  1  0.6120  0.9372  0.3843  1\n  F  F25  1  0.0628  0.3880  0.1157  1\n  F  F26  1  0.3880  0.0628  0.6157  1\n  F  F27  1  0.9372  0.6120  0.8843  1\n  F  F28  1  0.3655  0.1593  0.2769  1\n  F  F29  1  0.8407  0.6345  0.2231  1\n  F  F30  1  0.6345  0.8407  0.7231  1\n  F  F31  1  0.1593  0.3655  0.7769  1\n  F  F32  1  0.9862  0.3116  0.9946  1\n  F  F33  1  0.6884  0.0138  0.5054  1\n  F  F34  1  0.0138  0.6884  0.0054  1\n  F  F35  1  0.3116  0.9862  0.4946  1\n  F  F36  1  0.3837  0.7086  0.0563  1\n  F  F37  1  0.2914  0.6163  0.4437  1\n  F  F38  1  0.6163  0.2914  0.9437  1\n  F  F39  1  0.7086  0.3837  0.5563  1\n  F  F40  1  0.3970  0.8938  0.9153  1\n  F  F41  1  0.1062  0.6030  0.5847  1\n  F  F42  1  0.6030  0.1062  0.0847  1\n  F  F43  1  0.8938  0.3970  0.4153  1\n  F  F44  1  0.9737  0.1236  0.1371  1\n  F  F45  1  0.8764  0.0263  0.3629  1\n  F  F46  1  0.0263  0.8764  0.8629  1\n  F  F47  1  0.1236  0.9737  0.6371  1\n  F  F48  1  0.3715  0.8807  0.0928  1\n  F  F49  1  0.1193  0.6285  0.4072  1\n  F  F50  1  0.6285  0.1193  0.9072  1\n  F  F51  1  0.8807  0.3715  0.5928  1\n  F  F52  1  0.9981  0.1379  0.9595  1\n  F  F53  1  0.8621  0.0019  0.5405  1\n  F  F54  1  0.0019  0.8621  0.0405  1\n  F  F55  1  0.1379  0.9981  0.4595  1\n",
    "output": "data_image0\n_chemical_formula_structural       As4S4Xe4N3F16NF24\n_chemical_formula_sum              \"As4 S4 Xe4 N4 F40\"\n_cell_length_a       13.6555\n_cell_length_b       13.6555\n_cell_length_c       15.3675\n_cell_angle_alpha    60.8630\n_cell_angle_beta     60.8630\n_cell_angle_gamma    22.2723\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.1802  0.0166  0.0253  1.0000\n  As  As2       1.0000  0.9834  0.8198  0.4747  1.0000\n  As  As3       1.0000  0.8198  0.9834  0.9747  1.0000\n  As  As4       1.0000  0.0166  0.1802  0.5253  1.0000\n  S   S1        1.0000  0.3872  0.2210  0.3206  1.0000\n  S   S2        1.0000  0.7790  0.6128  0.1794  1.0000\n  S   S3        1.0000  0.6128  0.7790  0.6794  1.0000\n  S   S4        1.0000  0.2210  0.3872  0.8206  1.0000\n  Xe  Xe1       1.0000  0.4697  0.4137  0.1823  1.0000\n  Xe  Xe2       1.0000  0.5863  0.5303  0.3177  1.0000\n  Xe  Xe3       1.0000  0.5303  0.5863  0.8177  1.0000\n  Xe  Xe4       1.0000  0.4137  0.4697  0.6823  1.0000\n  N   N1        1.0000  0.5882  0.1371  0.2846  1.0000\n  N   N2        1.0000  0.8629  0.4118  0.2154  1.0000\n  N   N3        1.0000  0.4118  0.8629  0.7154  1.0000\n  F   F1        1.0000  0.1371  0.5882  0.7846  1.0000\n  F   F2        1.0000  0.1961  0.3427  0.4191  1.0000\n  F   F3        1.0000  0.6574  0.8039  0.0809  1.0000\n  F   F4        1.0000  0.8039  0.6573  0.5809  1.0000\n  F   F5        1.0000  0.3427  0.1961  0.9191  1.0000\n  F   F6        1.0000  0.1446  0.5091  0.2607  1.0000\n  F   F7        1.0000  0.4909  0.8554  0.2393  1.0000\n  F   F8        1.0000  0.8554  0.4909  0.7393  1.0000\n  F   F9        1.0000  0.5091  0.1446  0.7607  1.0000\n  F   F10       1.0000  0.6120  0.9372  0.3843  1.0000\n  F   F11       1.0000  0.0628  0.3880  0.1157  1.0000\n  F   F12       1.0000  0.3880  0.0628  0.6157  1.0000\n  F   F13       1.0000  0.9372  0.6120  0.8843  1.0000\n  F   F14       1.0000  0.3655  0.1593  0.2769  1.0000\n  F   F15       1.0000  0.8407  0.6345  0.2231  1.0000\n  F   F16       1.0000  0.6345  0.8407  0.7231  1.0000\n  N   N4        1.0000  0.1593  0.3655  0.7769  1.0000\n  F   F17       1.0000  0.9862  0.3116  0.9946  1.0000\n  F   F18       1.0000  0.6884  0.0138  0.5054  1.0000\n  F   F19       1.0000  0.0138  0.6884  0.0054  1.0000\n  F   F20       1.0000  0.3116  0.9862  0.4946  1.0000\n  F   F21       1.0000  0.3837  0.7086  0.0563  1.0000\n  F   F22       1.0000  0.2914  0.6163  0.4437  1.0000\n  F   F23       1.0000  0.6163  0.2914  0.9437  1.0000\n  F   F24       1.0000  0.7086  0.3837  0.5563  1.0000\n  F   F25       1.0000  0.3970  0.8938  0.9153  1.0000\n  F   F26       1.0000  0.1062  0.6030  0.5847  1.0000\n  F   F27       1.0000  0.6030  0.1062  0.0847  1.0000\n  F   F28       1.0000  0.8938  0.3970  0.4153  1.0000\n  F   F29       1.0000  0.9737  0.1236  0.1371  1.0000\n  F   F30       1.0000  0.8764  0.0263  0.3629  1.0000\n  F   F31       1.0000  0.0263  0.8764  0.8629  1.0000\n  F   F32       1.0000  0.1236  0.9737  0.6371  1.0000\n  F   F33       1.0000  0.3715  0.8807  0.0928  1.0000\n  F   F34       1.0000  0.1193  0.6285  0.4072  1.0000\n  F   F35       1.0000  0.6285  0.1193  0.9072  1.0000\n  F   F36       1.0000  0.8807  0.3715  0.5928  1.0000\n  F   F37       1.0000  0.9981  0.1379  0.9595  1.0000\n  F   F38       1.0000  0.8621  0.0019  0.5405  1.0000\n  F   F39       1.0000  0.0019  0.8621  0.0405  1.0000\n  F   F40       1.0000  0.1379  0.9981  0.4595  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4a4778b8-219c-409f-9571-47c95fef86ac",
    "mp_id": "mp-1203808",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg17(SiO3)20\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3511\n_cell_length_b   10.0504\n_cell_length_c   23.2058\n_cell_angle_alpha   87.7630\n_cell_angle_beta   83.3793\n_cell_angle_gamma   70.2118\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg17(SiO3)20\n_chemical_formula_sum   'Mg17 Si20 O60'\n_cell_volume   1166.4968\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7345  0.5000  0.5310  1\n  Mg  Mg1  1  0.2655  0.5000  0.4690  1\n  Mg  Mg2  1  0.1987  0.5000  0.6025  1\n  Mg  Mg3  1  0.8013  0.5000  0.3975  1\n  Mg  Mg4  1  0.6624  0.5000  0.6751  1\n  Mg  Mg5  1  0.3376  0.5000  0.3249  1\n  Mg  Mg6  1  0.1287  0.5000  0.7427  1\n  Mg  Mg7  1  0.8713  0.5000  0.2573  1\n  Mg  Mg8  1  0.5976  0.5000  0.8048  1\n  Mg  Mg9  1  0.4024  0.5000  0.1952  1\n  Mg  Mg10  1  0.0406  0.0000  0.9189  1\n  Mg  Mg11  1  0.9594  0.0000  0.0811  1\n  Mg  Mg12  1  0.5720  0.0000  0.8560  1\n  Mg  Mg13  1  0.4280  -0.0000  0.1440  1\n  Mg  Mg14  1  0.5000  -0.0000  0.0000  1\n  Mg  Mg15  1  0.1054  -0.0000  0.7892  1\n  Mg  Mg16  1  0.8946  0.0000  0.2108  1\n  Si  Si17  1  0.2142  0.7910  0.5332  1\n  Si  Si18  1  0.2526  0.2090  0.5332  1\n  Si  Si19  1  0.7858  0.2090  0.4668  1\n  Si  Si20  1  0.7474  0.7910  0.4668  1\n  Si  Si21  1  0.1382  0.7875  0.6674  1\n  Si  Si22  1  0.1944  0.2125  0.6674  1\n  Si  Si23  1  0.8618  0.2125  0.3326  1\n  Si  Si24  1  0.8056  0.7875  0.3326  1\n  Si  Si25  1  0.6010  0.7969  0.7365  1\n  Si  Si26  1  0.6625  0.2031  0.7365  1\n  Si  Si27  1  0.3990  0.2031  0.2635  1\n  Si  Si28  1  0.3375  0.7969  0.2635  1\n  Si  Si29  1  0.5534  0.7149  0.9327  1\n  Si  Si30  1  0.5139  0.2851  0.9327  1\n  Si  Si31  1  0.4466  0.2851  0.0673  1\n  Si  Si32  1  0.4861  0.7149  0.0673  1\n  Si  Si33  1  0.0923  0.7020  0.8636  1\n  Si  Si34  1  0.0442  0.2980  0.8636  1\n  Si  Si35  1  0.9077  0.2980  0.1364  1\n  Si  Si36  1  0.9558  0.7020  0.1364  1\n  O  O37  1  0.7878  0.5910  0.6032  1\n  O  O38  1  0.6089  0.4090  0.6032  1\n  O  O39  1  0.2122  0.4090  0.3968  1\n  O  O40  1  0.3911  0.5910  0.3968  1\n  O  O41  1  0.9463  0.8495  0.4991  1\n  O  O42  1  0.5546  0.1505  0.4991  1\n  O  O43  1  0.0537  0.1505  0.5009  1\n  O  O44  1  0.4454  0.8495  0.5009  1\n  O  O45  1  0.3194  0.6175  0.5334  1\n  O  O46  1  0.1472  0.3825  0.5334  1\n  O  O47  1  0.6806  0.3825  0.4666  1\n  O  O48  1  0.8528  0.6175  0.4666  1\n  O  O49  1  0.1442  0.8456  0.6008  1\n  O  O50  1  0.2549  0.1544  0.6008  1\n  O  O51  1  0.8558  0.1544  0.3992  1\n  O  O52  1  0.7451  0.8456  0.3992  1\n  O  O53  1  0.2506  0.6150  0.6716  1\n  O  O54  1  0.0777  0.3850  0.6716  1\n  O  O55  1  0.7494  0.3850  0.3284  1\n  O  O56  1  0.9223  0.6150  0.3284  1\n  O  O57  1  0.8326  0.8486  0.6994  1\n  O  O58  1  0.4680  0.1514  0.6994  1\n  O  O59  1  0.1674  0.1514  0.3006  1\n  O  O60  1  0.5320  0.8486  0.3006  1\n  O  O61  1  0.3187  0.8520  0.7043  1\n  O  O62  1  0.9770  0.1480  0.7043  1\n  O  O63  1  0.6813  0.1480  0.2957  1\n  O  O64  1  0.0230  0.8520  0.2957  1\n  O  O65  1  0.7163  0.6228  0.7410  1\n  O  O66  1  0.5426  0.3772  0.7410  1\n  O  O67  1  0.2837  0.3772  0.2590  1\n  O  O68  1  0.4574  0.6228  0.2590  1\n  O  O69  1  0.4931  0.8817  0.7970  1\n  O  O70  1  0.7099  0.1183  0.7970  1\n  O  O71  1  0.5069  0.1183  0.2030  1\n  O  O72  1  0.2901  0.8817  0.2030  1\n  O  O73  1  0.9598  0.9344  0.0000  1\n  O  O74  1  0.0402  0.0656  0.0000  1\n  O  O75  1  0.4522  0.8878  0.9296  1\n  O  O76  1  0.6182  0.1122  0.9296  1\n  O  O77  1  0.5478  0.1122  0.0704  1\n  O  O78  1  0.3818  0.8878  0.0704  1\n  O  O79  1  0.9816  0.8764  0.8581  1\n  O  O80  1  0.1603  0.1236  0.8581  1\n  O  O81  1  0.0184  0.1236  0.1419  1\n  O  O82  1  0.8397  0.8764  0.1419  1\n  O  O83  1  0.2104  0.6165  0.8037  1\n  O  O84  1  0.9859  0.3835  0.8037  1\n  O  O85  1  0.7896  0.3835  0.1963  1\n  O  O86  1  0.0141  0.6165  0.1963  1\n  O  O87  1  0.3548  0.6524  0.9018  1\n  O  O88  1  0.7434  0.3476  0.9018  1\n  O  O89  1  0.6452  0.3476  0.0982  1\n  O  O90  1  0.2566  0.6524  0.0982  1\n  O  O91  1  0.8515  0.6510  0.8972  1\n  O  O92  1  0.2512  0.3490  0.8972  1\n  O  O93  1  0.1485  0.3490  0.1028  1\n  O  O94  1  0.7488  0.6510  0.1028  1\n  O  O95  1  0.5662  0.6610  0.0000  1\n  O  O96  1  0.4338  0.3390  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg15SiMgSi7MgSi12O60\n_chemical_formula_sum              \"Mg17 Si20 O60\"\n_cell_length_a       5.3511\n_cell_length_b       10.0504\n_cell_length_c       23.2058\n_cell_angle_alpha    87.7630\n_cell_angle_beta     83.3793\n_cell_angle_gamma    70.2118\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7345  0.5000  0.5310  1.0000\n  Mg  Mg2       1.0000  0.2655  0.5000  0.4690  1.0000\n  Mg  Mg3       1.0000  0.1987  0.5000  0.6025  1.0000\n  Mg  Mg4       1.0000  0.8013  0.5000  0.3975  1.0000\n  Mg  Mg5       1.0000  0.6624  0.5000  0.6751  1.0000\n  Mg  Mg6       1.0000  0.3376  0.5000  0.3249  1.0000\n  Mg  Mg7       1.0000  0.1287  0.5000  0.7427  1.0000\n  Mg  Mg8       1.0000  0.8713  0.5000  0.2573  1.0000\n  Mg  Mg9       1.0000  0.5976  0.5000  0.8048  1.0000\n  Mg  Mg10      1.0000  0.4024  0.5000  0.1952  1.0000\n  Mg  Mg11      1.0000  0.0406  0.0000  0.9189  1.0000\n  Mg  Mg12      1.0000  0.9594  0.0000  0.0811  1.0000\n  Mg  Mg13      1.0000  0.5720  0.0000  0.8560  1.0000\n  Mg  Mg14      1.0000  0.4280  0.0000  0.1440  1.0000\n  Mg  Mg15      1.0000  0.5000  0.0000  0.0000  1.0000\n  Si  Si1       1.0000  0.1054  0.0000  0.7892  1.0000\n  Mg  Mg16      1.0000  0.8946  0.0000  0.2108  1.0000\n  Si  Si2       1.0000  0.2142  0.7910  0.5332  1.0000\n  Si  Si3       1.0000  0.2526  0.2090  0.5332  1.0000\n  Si  Si4       1.0000  0.7858  0.2090  0.4668  1.0000\n  Si  Si5       1.0000  0.7474  0.7910  0.4668  1.0000\n  Si  Si6       1.0000  0.1382  0.7875  0.6674  1.0000\n  Si  Si7       1.0000  0.1944  0.2125  0.6674  1.0000\n  Si  Si8       1.0000  0.8618  0.2125  0.3326  1.0000\n  Mg  Mg17      1.0000  0.8056  0.7875  0.3326  1.0000\n  Si  Si9       1.0000  0.6010  0.7969  0.7365  1.0000\n  Si  Si10      1.0000  0.6625  0.2031  0.7365  1.0000\n  Si  Si11      1.0000  0.3990  0.2031  0.2635  1.0000\n  Si  Si12      1.0000  0.3375  0.7969  0.2635  1.0000\n  Si  Si13      1.0000  0.5534  0.7149  0.9327  1.0000\n  Si  Si14      1.0000  0.5139  0.2851  0.9327  1.0000\n  Si  Si15      1.0000  0.4466  0.2851  0.0673  1.0000\n  Si  Si16      1.0000  0.4861  0.7149  0.0673  1.0000\n  Si  Si17      1.0000  0.0923  0.7020  0.8636  1.0000\n  Si  Si18      1.0000  0.0442  0.2980  0.8636  1.0000\n  Si  Si19      1.0000  0.9077  0.2980  0.1364  1.0000\n  Si  Si20      1.0000  0.9558  0.7020  0.1364  1.0000\n  O   O1        1.0000  0.7878  0.5910  0.6032  1.0000\n  O   O2        1.0000  0.6089  0.4090  0.6032  1.0000\n  O   O3        1.0000  0.2122  0.4090  0.3968  1.0000\n  O   O4        1.0000  0.3911  0.5910  0.3968  1.0000\n  O   O5        1.0000  0.9463  0.8495  0.4991  1.0000\n  O   O6        1.0000  0.5546  0.1505  0.4991  1.0000\n  O   O7        1.0000  0.0537  0.1505  0.5009  1.0000\n  O   O8        1.0000  0.4454  0.8495  0.5009  1.0000\n  O   O9        1.0000  0.3194  0.6175  0.5334  1.0000\n  O   O10       1.0000  0.1472  0.3825  0.5334  1.0000\n  O   O11       1.0000  0.6806  0.3825  0.4666  1.0000\n  O   O12       1.0000  0.8528  0.6175  0.4666  1.0000\n  O   O13       1.0000  0.1442  0.8456  0.6008  1.0000\n  O   O14       1.0000  0.2549  0.1544  0.6008  1.0000\n  O   O15       1.0000  0.8558  0.1544  0.3992  1.0000\n  O   O16       1.0000  0.7451  0.8456  0.3992  1.0000\n  O   O17       1.0000  0.2506  0.6150  0.6716  1.0000\n  O   O18       1.0000  0.0777  0.3850  0.6716  1.0000\n  O   O19       1.0000  0.7494  0.3850  0.3284  1.0000\n  O   O20       1.0000  0.9223  0.6150  0.3284  1.0000\n  O   O21       1.0000  0.8326  0.8486  0.6994  1.0000\n  O   O22       1.0000  0.4680  0.1514  0.6994  1.0000\n  O   O23       1.0000  0.1674  0.1514  0.3006  1.0000\n  O   O24       1.0000  0.5320  0.8486  0.3006  1.0000\n  O   O25       1.0000  0.3187  0.8520  0.7043  1.0000\n  O   O26       1.0000  0.9770  0.1480  0.7043  1.0000\n  O   O27       1.0000  0.6813  0.1480  0.2957  1.0000\n  O   O28       1.0000  0.0230  0.8520  0.2957  1.0000\n  O   O29       1.0000  0.7163  0.6228  0.7410  1.0000\n  O   O30       1.0000  0.5426  0.3772  0.7410  1.0000\n  O   O31       1.0000  0.2837  0.3772  0.2590  1.0000\n  O   O32       1.0000  0.4574  0.6228  0.2590  1.0000\n  O   O33       1.0000  0.4931  0.8817  0.7970  1.0000\n  O   O34       1.0000  0.7099  0.1183  0.7970  1.0000\n  O   O35       1.0000  0.5069  0.1183  0.2030  1.0000\n  O   O36       1.0000  0.2901  0.8817  0.2030  1.0000\n  O   O37       1.0000  0.9598  0.9344  0.0000  1.0000\n  O   O38       1.0000  0.0402  0.0656  0.0000  1.0000\n  O   O39       1.0000  0.4522  0.8878  0.9296  1.0000\n  O   O40       1.0000  0.6182  0.1122  0.9296  1.0000\n  O   O41       1.0000  0.5478  0.1122  0.0704  1.0000\n  O   O42       1.0000  0.3818  0.8878  0.0704  1.0000\n  O   O43       1.0000  0.9816  0.8764  0.8581  1.0000\n  O   O44       1.0000  0.1603  0.1236  0.8581  1.0000\n  O   O45       1.0000  0.0184  0.1236  0.1419  1.0000\n  O   O46       1.0000  0.8397  0.8764  0.1419  1.0000\n  O   O47       1.0000  0.2104  0.6165  0.8037  1.0000\n  O   O48       1.0000  0.9859  0.3835  0.8037  1.0000\n  O   O49       1.0000  0.7896  0.3835  0.1963  1.0000\n  O   O50       1.0000  0.0141  0.6165  0.1963  1.0000\n  O   O51       1.0000  0.3548  0.6524  0.9018  1.0000\n  O   O52       1.0000  0.7434  0.3476  0.9018  1.0000\n  O   O53       1.0000  0.6452  0.3476  0.0982  1.0000\n  O   O54       1.0000  0.2566  0.6524  0.0982  1.0000\n  O   O55       1.0000  0.8515  0.6510  0.8972  1.0000\n  O   O56       1.0000  0.2512  0.3490  0.8972  1.0000\n  O   O57       1.0000  0.1485  0.3490  0.1028  1.0000\n  O   O58       1.0000  0.7488  0.6510  0.1028  1.0000\n  O   O59       1.0000  0.5662  0.6610  0.0000  1.0000\n  O   O60       1.0000  0.4338  0.3390  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2f7ce5d8-4fa7-43a3-a142-11466dd5f74c",
    "mp_id": "mp-1203996",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 66 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sn2H10C8N2O13\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2197\n_cell_length_b   6.1626\n_cell_length_c   14.8197\n_cell_angle_alpha   90.0000\n_cell_angle_beta   109.7704\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sn2H10C8N2O13\n_chemical_formula_sum   'Sn4 H20 C16 N4 O26'\n_cell_volume   878.3285\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sn  Sn0  1  0.1176  0.7924  0.0881  1\n  Sn  Sn1  1  0.8824  0.7924  0.4119  1\n  Sn  Sn2  1  0.8824  0.2076  0.9119  1\n  Sn  Sn3  1  0.1176  0.2076  0.5881  1\n  H  H4  1  0.6552  0.9344  0.1846  1\n  H  H5  1  0.3448  0.9344  0.3154  1\n  H  H6  1  0.3448  0.0656  0.8154  1\n  H  H7  1  0.6552  0.0656  0.6846  1\n  H  H8  1  0.4833  0.8786  0.1409  1\n  H  H9  1  0.5167  0.8786  0.3591  1\n  H  H10  1  0.5167  0.1214  0.8591  1\n  H  H11  1  0.4833  0.1214  0.6409  1\n  H  H12  1  0.5355  0.1430  0.1474  1\n  H  H13  1  0.4645  0.1430  0.3526  1\n  H  H14  1  0.4645  0.8570  0.8526  1\n  H  H15  1  0.5355  0.8570  0.6474  1\n  H  H16  1  0.6543  0.0663  0.0322  1\n  H  H17  1  0.3457  0.0663  0.4678  1\n  H  H18  1  0.3457  0.9337  0.9678  1\n  H  H19  1  0.6543  0.9337  0.5322  1\n  H  H20  1  0.5920  0.7952  0.0251  1\n  H  H21  1  0.4080  0.7952  0.4749  1\n  H  H22  1  0.4080  0.2048  0.9749  1\n  H  H23  1  0.5920  0.2048  0.5251  1\n  C  C24  1  0.2527  0.3380  0.1294  1\n  C  C25  1  0.7473  0.3380  0.3706  1\n  C  C26  1  0.7473  0.6620  0.8706  1\n  C  C27  1  0.2527  0.6620  0.6294  1\n  C  C28  1  0.3772  0.4921  0.1341  1\n  C  C29  1  0.6228  0.4921  0.3659  1\n  C  C30  1  0.6228  0.5079  0.8659  1\n  C  C31  1  0.3772  0.5079  0.6341  1\n  C  C32  1  0.0752  0.7725  0.2857  1\n  C  C33  1  0.9248  0.7725  0.2143  1\n  C  C34  1  0.9248  0.2275  0.7143  1\n  C  C35  1  0.0752  0.2275  0.7857  1\n  C  C36  1  0.5687  0.9644  0.0367  1\n  C  C37  1  0.4313  0.9644  0.4633  1\n  C  C38  1  0.4313  0.0356  0.9633  1\n  C  C39  1  0.5687  0.0356  0.5367  1\n  N  N40  1  0.5613  0.9829  0.1348  1\n  N  N41  1  0.4387  0.9829  0.3652  1\n  N  N42  1  0.4387  0.0171  0.8652  1\n  N  N43  1  0.5613  0.0171  0.6348  1\n  O  O44  1  0.3500  0.6974  0.1328  1\n  O  O45  1  0.6500  0.6974  0.3672  1\n  O  O46  1  0.6500  0.3026  0.8672  1\n  O  O47  1  0.3500  0.3026  0.6328  1\n  O  O48  1  0.1322  0.4264  0.1095  1\n  O  O49  1  0.8678  0.4264  0.3905  1\n  O  O50  1  0.8678  0.5736  0.8905  1\n  O  O51  1  0.1322  0.5736  0.6095  1\n  O  O52  1  0.2789  0.1402  0.1439  1\n  O  O53  1  0.7211  0.1402  0.3561  1\n  O  O54  1  0.7211  0.8598  0.8561  1\n  O  O55  1  0.2789  0.8598  0.6439  1\n  O  O56  1  0.4911  0.4158  0.1370  1\n  O  O57  1  0.5089  0.4158  0.3630  1\n  O  O58  1  0.5089  0.5842  0.8630  1\n  O  O59  1  0.4911  0.5842  0.6370  1\n  O  O60  1  0.1726  0.7928  0.2499  1\n  O  O61  1  0.8274  0.7928  0.2501  1\n  O  O62  1  0.8274  0.2072  0.7501  1\n  O  O63  1  0.1726  0.2072  0.7499  1\n  O  O64  1  0.9066  0.7570  0.1264  1\n  O  O65  1  0.0934  0.7570  0.3736  1\n  O  O66  1  0.0934  0.2430  0.8736  1\n  O  O67  1  0.9066  0.2430  0.6264  1\n  O  O68  1  0.0000  0.2338  0.2500  1\n  O  O69  1  0.0000  0.7662  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sn4H20C16ON3O22NO3\n_chemical_formula_sum              \"Sn4 H20 C16 O26 N4\"\n_cell_length_a       10.2197\n_cell_length_b       6.1626\n_cell_length_c       14.8197\n_cell_angle_alpha    90.0000\n_cell_angle_beta     109.7704\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sn  Sn1       1.0000  0.1176  0.7924  0.0881  1.0000\n  Sn  Sn2       1.0000  0.8824  0.7924  0.4119  1.0000\n  Sn  Sn3       1.0000  0.8824  0.2076  0.9119  1.0000\n  Sn  Sn4       1.0000  0.1176  0.2076  0.5881  1.0000\n  H   H1        1.0000  0.6552  0.9344  0.1846  1.0000\n  H   H2        1.0000  0.3448  0.9344  0.3154  1.0000\n  H   H3        1.0000  0.3448  0.0656  0.8154  1.0000\n  H   H4        1.0000  0.6552  0.0656  0.6846  1.0000\n  H   H5        1.0000  0.4833  0.8786  0.1409  1.0000\n  H   H6        1.0000  0.5167  0.8786  0.3591  1.0000\n  H   H7        1.0000  0.5167  0.1214  0.8591  1.0000\n  H   H8        1.0000  0.4833  0.1214  0.6409  1.0000\n  H   H9        1.0000  0.5355  0.1430  0.1474  1.0000\n  H   H10       1.0000  0.4645  0.1430  0.3526  1.0000\n  H   H11       1.0000  0.4645  0.8570  0.8526  1.0000\n  H   H12       1.0000  0.5355  0.8570  0.6474  1.0000\n  H   H13       1.0000  0.6543  0.0663  0.0322  1.0000\n  H   H14       1.0000  0.3457  0.0663  0.4678  1.0000\n  H   H15       1.0000  0.3457  0.9337  0.9678  1.0000\n  H   H16       1.0000  0.6543  0.9337  0.5322  1.0000\n  H   H17       1.0000  0.5920  0.7952  0.0251  1.0000\n  H   H18       1.0000  0.4080  0.7952  0.4749  1.0000\n  H   H19       1.0000  0.4080  0.2048  0.9749  1.0000\n  H   H20       1.0000  0.5920  0.2048  0.5251  1.0000\n  C   C1        1.0000  0.2527  0.3380  0.1294  1.0000\n  C   C2        1.0000  0.7473  0.3380  0.3706  1.0000\n  C   C3        1.0000  0.7473  0.6620  0.8706  1.0000\n  C   C4        1.0000  0.2527  0.6620  0.6294  1.0000\n  C   C5        1.0000  0.3772  0.4921  0.1341  1.0000\n  C   C6        1.0000  0.6228  0.4921  0.3659  1.0000\n  C   C7        1.0000  0.6228  0.5079  0.8659  1.0000\n  C   C8        1.0000  0.3772  0.5079  0.6341  1.0000\n  C   C9        1.0000  0.0752  0.7725  0.2857  1.0000\n  C   C10       1.0000  0.9248  0.7725  0.2143  1.0000\n  C   C11       1.0000  0.9248  0.2275  0.7143  1.0000\n  C   C12       1.0000  0.0752  0.2275  0.7857  1.0000\n  C   C13       1.0000  0.5687  0.9644  0.0367  1.0000\n  C   C14       1.0000  0.4313  0.9644  0.4633  1.0000\n  C   C15       1.0000  0.4313  0.0356  0.9633  1.0000\n  C   C16       1.0000  0.5687  0.0356  0.5367  1.0000\n  O   O1        1.0000  0.5613  0.9829  0.1348  1.0000\n  N   N1        1.0000  0.4387  0.9829  0.3652  1.0000\n  N   N2        1.0000  0.4387  0.0171  0.8652  1.0000\n  N   N3        1.0000  0.5613  0.0171  0.6348  1.0000\n  O   O2        1.0000  0.3500  0.6974  0.1328  1.0000\n  O   O3        1.0000  0.6500  0.6974  0.3672  1.0000\n  O   O4        1.0000  0.6500  0.3026  0.8672  1.0000\n  O   O5        1.0000  0.3500  0.3026  0.6328  1.0000\n  O   O6        1.0000  0.1322  0.4264  0.1095  1.0000\n  O   O7        1.0000  0.8678  0.4264  0.3905  1.0000\n  O   O8        1.0000  0.8678  0.5736  0.8905  1.0000\n  O   O9        1.0000  0.1322  0.5736  0.6095  1.0000\n  O   O10       1.0000  0.2789  0.1402  0.1439  1.0000\n  O   O11       1.0000  0.7211  0.1402  0.3561  1.0000\n  O   O12       1.0000  0.7211  0.8598  0.8561  1.0000\n  O   O13       1.0000  0.2789  0.8598  0.6439  1.0000\n  O   O14       1.0000  0.4911  0.4158  0.1370  1.0000\n  O   O15       1.0000  0.5089  0.4158  0.3630  1.0000\n  O   O16       1.0000  0.5089  0.5842  0.8630  1.0000\n  O   O17       1.0000  0.4911  0.5842  0.6370  1.0000\n  O   O18       1.0000  0.1726  0.7928  0.2499  1.0000\n  O   O19       1.0000  0.8274  0.7928  0.2501  1.0000\n  O   O20       1.0000  0.8274  0.2072  0.7501  1.0000\n  O   O21       1.0000  0.1726  0.2072  0.7499  1.0000\n  O   O22       1.0000  0.9066  0.7570  0.1264  1.0000\n  O   O23       1.0000  0.0934  0.7570  0.3736  1.0000\n  N   N4        1.0000  0.0934  0.2430  0.8736  1.0000\n  O   O24       1.0000  0.9066  0.2430  0.6264  1.0000\n  O   O25       1.0000  0.0000  0.2338  0.2500  1.0000\n  O   O26       1.0000  0.0000  0.7662  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "885286e8-4162-43c5-9fe2-20e20cf839a1",
    "mp_id": "mp-1204064",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu3Ag5(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3011\n_cell_length_b   9.3011\n_cell_length_c   17.0047\n_cell_angle_alpha   66.1236\n_cell_angle_beta   66.1236\n_cell_angle_gamma   32.2374\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu3Ag5(PO4)4\n_chemical_formula_sum   'Cu6 Ag10 P8 O32'\n_cell_volume   711.6741\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.5000  0.0000  0.5000  1\n  Cu  Cu1  1  0.0000  0.5000  0.0000  1\n  Cu  Cu2  1  0.8252  0.3782  0.5245  1\n  Cu  Cu3  1  0.6218  0.1748  0.9755  1\n  Cu  Cu4  1  0.1748  0.6218  0.4755  1\n  Cu  Cu5  1  0.3782  0.8252  0.0245  1\n  Ag  Ag6  1  0.7273  0.2727  0.7500  1\n  Ag  Ag7  1  0.2727  0.7273  0.2500  1\n  Ag  Ag8  1  0.5854  0.1447  0.6221  1\n  Ag  Ag9  1  0.8553  0.4146  0.8779  1\n  Ag  Ag10  1  0.4146  0.8553  0.3779  1\n  Ag  Ag11  1  0.1447  0.5854  0.1221  1\n  Ag  Ag12  1  0.4312  0.9215  0.7504  1\n  Ag  Ag13  1  0.0785  0.5688  0.7496  1\n  Ag  Ag14  1  0.5688  0.0785  0.2496  1\n  Ag  Ag15  1  0.9215  0.4312  0.2504  1\n  P  P16  1  0.5164  0.0492  0.8791  1\n  P  P17  1  0.9508  0.4836  0.6209  1\n  P  P18  1  0.4836  0.9508  0.1209  1\n  P  P19  1  0.0492  0.5164  0.3791  1\n  P  P20  1  0.1963  0.8195  0.8977  1\n  P  P21  1  0.1805  0.8037  0.6023  1\n  P  P22  1  0.8037  0.1805  0.1023  1\n  P  P23  1  0.8195  0.1963  0.3977  1\n  O  O24  1  0.6386  0.7998  0.9500  1\n  O  O25  1  0.2002  0.3614  0.5500  1\n  O  O26  1  0.3614  0.2002  0.0500  1\n  O  O27  1  0.7998  0.6386  0.4500  1\n  O  O28  1  0.6402  0.0994  0.8770  1\n  O  O29  1  0.9006  0.3598  0.6230  1\n  O  O30  1  0.3598  0.9006  0.1230  1\n  O  O31  1  0.0994  0.6402  0.3770  1\n  O  O32  1  0.1995  0.3023  0.9019  1\n  O  O33  1  0.6977  0.8005  0.5981  1\n  O  O34  1  0.8005  0.6977  0.0981  1\n  O  O35  1  0.3023  0.1995  0.4019  1\n  O  O36  1  0.5869  0.9883  0.7883  1\n  O  O37  1  0.0117  0.4131  0.7117  1\n  O  O38  1  0.4131  0.0117  0.2117  1\n  O  O39  1  0.9883  0.5869  0.2883  1\n  O  O40  1  0.8857  0.1230  0.9050  1\n  O  O41  1  0.8770  0.1143  0.5950  1\n  O  O42  1  0.1143  0.8770  0.0950  1\n  O  O43  1  0.1230  0.8857  0.4050  1\n  O  O44  1  0.3595  0.8008  0.9228  1\n  O  O45  1  0.1992  0.6405  0.5772  1\n  O  O46  1  0.6405  0.1992  0.0772  1\n  O  O47  1  0.8008  0.3595  0.4228  1\n  O  O48  1  0.2193  0.6266  0.9560  1\n  O  O49  1  0.3734  0.7807  0.5440  1\n  O  O50  1  0.7807  0.3734  0.0440  1\n  O  O51  1  0.6266  0.2193  0.4560  1\n  O  O52  1  0.3068  0.7718  0.8017  1\n  O  O53  1  0.2282  0.6932  0.6983  1\n  O  O54  1  0.6932  0.2282  0.1983  1\n  O  O55  1  0.7718  0.3068  0.3017  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu6Ag9OP8OAgO30\n_chemical_formula_sum              \"Cu6 Ag10 O32 P8\"\n_cell_length_a       9.3011\n_cell_length_b       9.3011\n_cell_length_c       17.0047\n_cell_angle_alpha    66.1236\n_cell_angle_beta     66.1236\n_cell_angle_gamma    32.2374\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Cu  Cu2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Cu  Cu3       1.0000  0.8252  0.3782  0.5245  1.0000\n  Cu  Cu4       1.0000  0.6218  0.1748  0.9755  1.0000\n  Cu  Cu5       1.0000  0.1748  0.6218  0.4755  1.0000\n  Cu  Cu6       1.0000  0.3782  0.8252  0.0245  1.0000\n  Ag  Ag1       1.0000  0.7273  0.2727  0.7500  1.0000\n  Ag  Ag2       1.0000  0.2727  0.7273  0.2500  1.0000\n  Ag  Ag3       1.0000  0.5854  0.1447  0.6221  1.0000\n  Ag  Ag4       1.0000  0.8553  0.4146  0.8779  1.0000\n  Ag  Ag5       1.0000  0.4146  0.8553  0.3779  1.0000\n  Ag  Ag6       1.0000  0.1447  0.5854  0.1221  1.0000\n  Ag  Ag7       1.0000  0.4312  0.9215  0.7504  1.0000\n  Ag  Ag8       1.0000  0.0785  0.5688  0.7496  1.0000\n  Ag  Ag9       1.0000  0.5688  0.0785  0.2496  1.0000\n  O   O1        1.0000  0.9215  0.4312  0.2504  1.0000\n  P   P1        1.0000  0.5164  0.0492  0.8791  1.0000\n  P   P2        1.0000  0.9508  0.4836  0.6209  1.0000\n  P   P3        1.0000  0.4836  0.9508  0.1209  1.0000\n  P   P4        1.0000  0.0492  0.5164  0.3791  1.0000\n  P   P5        1.0000  0.1963  0.8195  0.8977  1.0000\n  P   P6        1.0000  0.1805  0.8037  0.6023  1.0000\n  P   P7        1.0000  0.8037  0.1805  0.1023  1.0000\n  P   P8        1.0000  0.8195  0.1963  0.3977  1.0000\n  O   O2        1.0000  0.6386  0.7998  0.9500  1.0000\n  Ag  Ag10      1.0000  0.2002  0.3614  0.5500  1.0000\n  O   O3        1.0000  0.3614  0.2002  0.0500  1.0000\n  O   O4        1.0000  0.7998  0.6386  0.4500  1.0000\n  O   O5        1.0000  0.6402  0.0994  0.8770  1.0000\n  O   O6        1.0000  0.9006  0.3598  0.6230  1.0000\n  O   O7        1.0000  0.3598  0.9006  0.1230  1.0000\n  O   O8        1.0000  0.0994  0.6402  0.3770  1.0000\n  O   O9        1.0000  0.1995  0.3023  0.9019  1.0000\n  O   O10       1.0000  0.6977  0.8005  0.5981  1.0000\n  O   O11       1.0000  0.8005  0.6977  0.0981  1.0000\n  O   O12       1.0000  0.3023  0.1995  0.4019  1.0000\n  O   O13       1.0000  0.5869  0.9883  0.7883  1.0000\n  O   O14       1.0000  0.0117  0.4131  0.7117  1.0000\n  O   O15       1.0000  0.4131  0.0117  0.2117  1.0000\n  O   O16       1.0000  0.9883  0.5869  0.2883  1.0000\n  O   O17       1.0000  0.8857  0.1230  0.9050  1.0000\n  O   O18       1.0000  0.8770  0.1143  0.5950  1.0000\n  O   O19       1.0000  0.1143  0.8770  0.0950  1.0000\n  O   O20       1.0000  0.1230  0.8857  0.4050  1.0000\n  O   O21       1.0000  0.3595  0.8008  0.9228  1.0000\n  O   O22       1.0000  0.1992  0.6405  0.5772  1.0000\n  O   O23       1.0000  0.6405  0.1992  0.0772  1.0000\n  O   O24       1.0000  0.8008  0.3595  0.4228  1.0000\n  O   O25       1.0000  0.2193  0.6266  0.9560  1.0000\n  O   O26       1.0000  0.3734  0.7807  0.5440  1.0000\n  O   O27       1.0000  0.7807  0.3734  0.0440  1.0000\n  O   O28       1.0000  0.6266  0.2193  0.4560  1.0000\n  O   O29       1.0000  0.3068  0.7718  0.8017  1.0000\n  O   O30       1.0000  0.2282  0.6932  0.6983  1.0000\n  O   O31       1.0000  0.6932  0.2282  0.1983  1.0000\n  O   O32       1.0000  0.7718  0.3068  0.3017  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "83fc5c6a-535e-44f2-8c23-64d9da1c92d1",
    "mp_id": "mp-1204087",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K3Mg18Sn11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.9132\n_cell_length_b   11.9132\n_cell_length_c   13.9367\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0012\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K3Mg18Sn11\n_chemical_formula_sum   'K6 Mg36 Sn22'\n_cell_volume   1712.9328\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6666  0.3333  0.0827  1\n  K  K1  1  0.3334  0.6667  0.5827  1\n  K  K2  1  0.3334  0.6667  0.9173  1\n  K  K3  1  0.6666  0.3333  0.4173  1\n  K  K4  1  0.3334  0.6667  0.2500  1\n  K  K5  1  0.6666  0.3333  0.7500  1\n  Mg  Mg6  1  0.1098  0.8545  0.2500  1\n  Mg  Mg7  1  0.1455  0.2553  0.2500  1\n  Mg  Mg8  1  0.7447  0.8902  0.2500  1\n  Mg  Mg9  1  0.8902  0.1455  0.7500  1\n  Mg  Mg10  1  0.8545  0.7447  0.7500  1\n  Mg  Mg11  1  0.2553  0.1098  0.7500  1\n  Mg  Mg12  1  0.8529  0.7311  0.0836  1\n  Mg  Mg13  1  0.2689  0.1218  0.0836  1\n  Mg  Mg14  1  0.8782  0.1471  0.0836  1\n  Mg  Mg15  1  0.1471  0.2689  0.5836  1\n  Mg  Mg16  1  0.7311  0.8782  0.5836  1\n  Mg  Mg17  1  0.1218  0.8529  0.5836  1\n  Mg  Mg18  1  0.1471  0.2689  0.9164  1\n  Mg  Mg19  1  0.7311  0.8782  0.9164  1\n  Mg  Mg20  1  0.1218  0.8529  0.9164  1\n  Mg  Mg21  1  0.8529  0.7311  0.4164  1\n  Mg  Mg22  1  0.2689  0.1218  0.4164  1\n  Mg  Mg23  1  0.8782  0.1471  0.4164  1\n  Mg  Mg24  1  0.6265  0.5673  0.2500  1\n  Mg  Mg25  1  0.4327  0.0591  0.2500  1\n  Mg  Mg26  1  0.9409  0.3735  0.2500  1\n  Mg  Mg27  1  0.3735  0.4327  0.7500  1\n  Mg  Mg28  1  0.5673  0.9409  0.7500  1\n  Mg  Mg29  1  0.0591  0.6265  0.7500  1\n  Mg  Mg30  1  0.0570  0.6230  0.0837  1\n  Mg  Mg31  1  0.3770  0.4340  0.0837  1\n  Mg  Mg32  1  0.5660  0.9430  0.0837  1\n  Mg  Mg33  1  0.9430  0.3770  0.5837  1\n  Mg  Mg34  1  0.6230  0.5660  0.5837  1\n  Mg  Mg35  1  0.4340  0.0570  0.5837  1\n  Mg  Mg36  1  0.9430  0.3770  0.9163  1\n  Mg  Mg37  1  0.6230  0.5660  0.9163  1\n  Mg  Mg38  1  0.4340  0.0570  0.9163  1\n  Mg  Mg39  1  0.0570  0.6230  0.4163  1\n  Mg  Mg40  1  0.3770  0.4340  0.4163  1\n  Mg  Mg41  1  0.5660  0.9430  0.4163  1\n  Sn  Sn42  1  0.0000  0.0000  0.1402  1\n  Sn  Sn43  1  1.0000  -0.0000  0.6402  1\n  Sn  Sn44  1  1.0000  -0.0000  0.8598  1\n  Sn  Sn45  1  0.0000  0.0000  0.3598  1\n  Sn  Sn46  1  0.2959  0.8868  0.0840  1\n  Sn  Sn47  1  0.1132  0.4092  0.0840  1\n  Sn  Sn48  1  0.5908  0.7041  0.0840  1\n  Sn  Sn49  1  0.7041  0.1132  0.5840  1\n  Sn  Sn50  1  0.8868  0.5908  0.5840  1\n  Sn  Sn51  1  0.4092  0.2959  0.5840  1\n  Sn  Sn52  1  0.7041  0.1132  0.9160  1\n  Sn  Sn53  1  0.8868  0.5908  0.9160  1\n  Sn  Sn54  1  0.4092  0.2959  0.9160  1\n  Sn  Sn55  1  0.2959  0.8868  0.4160  1\n  Sn  Sn56  1  0.1132  0.4092  0.4160  1\n  Sn  Sn57  1  0.5908  0.7041  0.4160  1\n  Sn  Sn58  1  0.8859  0.5854  0.2500  1\n  Sn  Sn59  1  0.4146  0.3005  0.2500  1\n  Sn  Sn60  1  0.6995  0.1141  0.2500  1\n  Sn  Sn61  1  0.1141  0.4146  0.7500  1\n  Sn  Sn62  1  0.5854  0.6995  0.7500  1\n  Sn  Sn63  1  0.3005  0.8859  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       K3MgK2Mg3KMg32Sn22\n_chemical_formula_sum              \"K6 Mg36 Sn22\"\n_cell_length_a       11.9132\n_cell_length_b       11.9132\n_cell_length_c       13.9367\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0012\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6666  0.3333  0.0827  1.0000\n  K   K2        1.0000  0.3334  0.6667  0.5827  1.0000\n  K   K3        1.0000  0.3334  0.6667  0.9173  1.0000\n  Mg  Mg1       1.0000  0.6666  0.3333  0.4173  1.0000\n  K   K4        1.0000  0.3334  0.6667  0.2500  1.0000\n  K   K5        1.0000  0.6666  0.3333  0.7500  1.0000\n  Mg  Mg2       1.0000  0.1098  0.8545  0.2500  1.0000\n  Mg  Mg3       1.0000  0.1455  0.2553  0.2500  1.0000\n  Mg  Mg4       1.0000  0.7447  0.8902  0.2500  1.0000\n  K   K6        1.0000  0.8902  0.1455  0.7500  1.0000\n  Mg  Mg5       1.0000  0.8545  0.7447  0.7500  1.0000\n  Mg  Mg6       1.0000  0.2553  0.1098  0.7500  1.0000\n  Mg  Mg7       1.0000  0.8529  0.7311  0.0836  1.0000\n  Mg  Mg8       1.0000  0.2689  0.1218  0.0836  1.0000\n  Mg  Mg9       1.0000  0.8782  0.1471  0.0836  1.0000\n  Mg  Mg10      1.0000  0.1471  0.2689  0.5836  1.0000\n  Mg  Mg11      1.0000  0.7311  0.8782  0.5836  1.0000\n  Mg  Mg12      1.0000  0.1218  0.8529  0.5836  1.0000\n  Mg  Mg13      1.0000  0.1471  0.2689  0.9164  1.0000\n  Mg  Mg14      1.0000  0.7311  0.8782  0.9164  1.0000\n  Mg  Mg15      1.0000  0.1218  0.8529  0.9164  1.0000\n  Mg  Mg16      1.0000  0.8529  0.7311  0.4164  1.0000\n  Mg  Mg17      1.0000  0.2689  0.1218  0.4164  1.0000\n  Mg  Mg18      1.0000  0.8782  0.1471  0.4164  1.0000\n  Mg  Mg19      1.0000  0.6265  0.5673  0.2500  1.0000\n  Mg  Mg20      1.0000  0.4327  0.0591  0.2500  1.0000\n  Mg  Mg21      1.0000  0.9409  0.3735  0.2500  1.0000\n  Mg  Mg22      1.0000  0.3735  0.4327  0.7500  1.0000\n  Mg  Mg23      1.0000  0.5673  0.9409  0.7500  1.0000\n  Mg  Mg24      1.0000  0.0591  0.6265  0.7500  1.0000\n  Mg  Mg25      1.0000  0.0570  0.6230  0.0837  1.0000\n  Mg  Mg26      1.0000  0.3770  0.4340  0.0837  1.0000\n  Mg  Mg27      1.0000  0.5660  0.9430  0.0837  1.0000\n  Mg  Mg28      1.0000  0.9430  0.3770  0.5837  1.0000\n  Mg  Mg29      1.0000  0.6230  0.5660  0.5837  1.0000\n  Mg  Mg30      1.0000  0.4340  0.0570  0.5837  1.0000\n  Mg  Mg31      1.0000  0.9430  0.3770  0.9163  1.0000\n  Mg  Mg32      1.0000  0.6230  0.5660  0.9163  1.0000\n  Mg  Mg33      1.0000  0.4340  0.0570  0.9163  1.0000\n  Mg  Mg34      1.0000  0.0570  0.6230  0.4163  1.0000\n  Mg  Mg35      1.0000  0.3770  0.4340  0.4163  1.0000\n  Mg  Mg36      1.0000  0.5660  0.9430  0.4163  1.0000\n  Sn  Sn1       1.0000  0.0000  0.0000  0.1402  1.0000\n  Sn  Sn2       1.0000  1.0000  1.0000  0.6402  1.0000\n  Sn  Sn3       1.0000  1.0000  1.0000  0.8598  1.0000\n  Sn  Sn4       1.0000  0.0000  0.0000  0.3598  1.0000\n  Sn  Sn5       1.0000  0.2959  0.8868  0.0840  1.0000\n  Sn  Sn6       1.0000  0.1132  0.4092  0.0840  1.0000\n  Sn  Sn7       1.0000  0.5908  0.7041  0.0840  1.0000\n  Sn  Sn8       1.0000  0.7041  0.1132  0.5840  1.0000\n  Sn  Sn9       1.0000  0.8868  0.5908  0.5840  1.0000\n  Sn  Sn10      1.0000  0.4092  0.2959  0.5840  1.0000\n  Sn  Sn11      1.0000  0.7041  0.1132  0.9160  1.0000\n  Sn  Sn12      1.0000  0.8868  0.5908  0.9160  1.0000\n  Sn  Sn13      1.0000  0.4092  0.2959  0.9160  1.0000\n  Sn  Sn14      1.0000  0.2959  0.8868  0.4160  1.0000\n  Sn  Sn15      1.0000  0.1132  0.4092  0.4160  1.0000\n  Sn  Sn16      1.0000  0.5908  0.7041  0.4160  1.0000\n  Sn  Sn17      1.0000  0.8859  0.5854  0.2500  1.0000\n  Sn  Sn18      1.0000  0.4146  0.3005  0.2500  1.0000\n  Sn  Sn19      1.0000  0.6995  0.1141  0.2500  1.0000\n  Sn  Sn20      1.0000  0.1141  0.4146  0.7500  1.0000\n  Sn  Sn21      1.0000  0.5854  0.6995  0.7500  1.0000\n  Sn  Sn22      1.0000  0.3005  0.8859  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f6174f45-ab6b-458a-bfdb-341843cbaf81",
    "mp_id": "mp-1204178",
    "action_prompt": "Swap the spatial positions of atoms at indices 54 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cs2AsH5O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0493\n_cell_length_b   8.5610\n_cell_length_c   14.4219\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.5857\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cs2AsH5O6\n_chemical_formula_sum   'Cs8 As4 H20 O24'\n_cell_volume   855.5400\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.2589  0.7554  0.2335  1\n  Cs  Cs1  1  0.7411  0.7446  0.7335  1\n  Cs  Cs2  1  0.7411  0.2446  0.7665  1\n  Cs  Cs3  1  0.2589  0.2554  0.2665  1\n  Cs  Cs4  1  0.7500  0.7535  0.4169  1\n  Cs  Cs5  1  0.2500  0.7465  0.9169  1\n  Cs  Cs6  1  0.2500  0.2465  0.5831  1\n  Cs  Cs7  1  0.7500  0.2535  0.0831  1\n  As  As8  1  0.7454  0.2364  0.3590  1\n  As  As9  1  0.2546  0.2636  0.8590  1\n  As  As10  1  0.2546  0.7636  0.6410  1\n  As  As11  1  0.7454  0.7364  0.1410  1\n  H  H12  1  0.1482  0.9484  0.0817  1\n  H  H13  1  0.8518  0.5516  0.5817  1\n  H  H14  1  0.8518  0.0516  0.9183  1\n  H  H15  1  0.1482  0.4484  0.4183  1\n  H  H16  1  0.3486  0.0488  0.4168  1\n  H  H17  1  0.6514  0.4512  0.9168  1\n  H  H18  1  0.6514  0.9512  0.5832  1\n  H  H19  1  0.3486  0.5488  0.0832  1\n  H  H20  1  0.7758  0.4828  0.2656  1\n  H  H21  1  0.2242  0.0172  0.7656  1\n  H  H22  1  0.2242  0.5172  0.7344  1\n  H  H23  1  0.7758  0.9828  0.2344  1\n  H  H24  1  0.1791  0.8748  0.4674  1\n  H  H25  1  0.8209  0.6252  0.9674  1\n  H  H26  1  0.8209  0.1252  0.5326  1\n  H  H27  1  0.1791  0.3748  0.0326  1\n  H  H28  1  0.3158  0.1224  0.0299  1\n  H  H29  1  0.6842  0.3776  0.5299  1\n  H  H30  1  0.6842  0.8776  0.9701  1\n  H  H31  1  0.3158  0.6224  0.4701  1\n  O  O32  1  0.8661  0.4424  0.2921  1\n  O  O33  1  0.1339  0.0576  0.7921  1\n  O  O34  1  0.1339  0.5576  0.7079  1\n  O  O35  1  0.8661  0.9424  0.2079  1\n  O  O36  1  0.5709  0.2454  0.4228  1\n  O  O37  1  0.4291  0.2546  0.9228  1\n  O  O38  1  0.4291  0.7546  0.5772  1\n  O  O39  1  0.5709  0.7454  0.0772  1\n  O  O40  1  0.6516  0.0618  0.2804  1\n  O  O41  1  0.3484  0.4382  0.7804  1\n  O  O42  1  0.3484  0.9382  0.7196  1\n  O  O43  1  0.6516  0.5618  0.2196  1\n  O  O44  1  0.9258  0.2417  0.4238  1\n  O  O45  1  0.0742  0.2583  0.9238  1\n  O  O46  1  0.0742  0.7583  0.5762  1\n  O  O47  1  0.9258  0.7417  0.0762  1\n  O  O48  1  0.2101  0.9496  0.4103  1\n  O  O49  1  0.7899  0.5504  0.9103  1\n  O  O50  1  0.7899  0.0504  0.5897  1\n  O  O51  1  0.2101  0.4496  0.0897  1\n  O  O52  1  0.2869  0.0474  0.0865  1\n  O  O53  1  0.7131  0.4526  0.5865  1\n  O  O54  1  0.7131  0.9526  0.9135  1\n  O  O55  1  0.2869  0.5474  0.4135  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs8As4H19O23HO\n_chemical_formula_sum              \"Cs8 As4 H20 O24\"\n_cell_length_a       8.0493\n_cell_length_b       8.5610\n_cell_length_c       14.4219\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.5857\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.2589  0.7554  0.2335  1.0000\n  Cs  Cs2       1.0000  0.7411  0.7446  0.7335  1.0000\n  Cs  Cs3       1.0000  0.7411  0.2446  0.7665  1.0000\n  Cs  Cs4       1.0000  0.2589  0.2554  0.2665  1.0000\n  Cs  Cs5       1.0000  0.7500  0.7535  0.4169  1.0000\n  Cs  Cs6       1.0000  0.2500  0.7465  0.9169  1.0000\n  Cs  Cs7       1.0000  0.2500  0.2465  0.5831  1.0000\n  Cs  Cs8       1.0000  0.7500  0.2535  0.0831  1.0000\n  As  As1       1.0000  0.7454  0.2364  0.3590  1.0000\n  As  As2       1.0000  0.2546  0.2636  0.8590  1.0000\n  As  As3       1.0000  0.2546  0.7636  0.6410  1.0000\n  As  As4       1.0000  0.7454  0.7364  0.1410  1.0000\n  H   H1        1.0000  0.1482  0.9484  0.0817  1.0000\n  H   H2        1.0000  0.8518  0.5516  0.5817  1.0000\n  H   H3        1.0000  0.8518  0.0516  0.9183  1.0000\n  H   H4        1.0000  0.1482  0.4484  0.4183  1.0000\n  H   H5        1.0000  0.3486  0.0488  0.4168  1.0000\n  H   H6        1.0000  0.6514  0.4512  0.9168  1.0000\n  H   H7        1.0000  0.6514  0.9512  0.5832  1.0000\n  H   H8        1.0000  0.3486  0.5488  0.0832  1.0000\n  H   H9        1.0000  0.7758  0.4828  0.2656  1.0000\n  H   H10       1.0000  0.2242  0.0172  0.7656  1.0000\n  H   H11       1.0000  0.2242  0.5172  0.7344  1.0000\n  H   H12       1.0000  0.7758  0.9828  0.2344  1.0000\n  H   H13       1.0000  0.1791  0.8748  0.4674  1.0000\n  H   H14       1.0000  0.8209  0.6252  0.9674  1.0000\n  H   H15       1.0000  0.8209  0.1252  0.5326  1.0000\n  H   H16       1.0000  0.1791  0.3748  0.0326  1.0000\n  H   H17       1.0000  0.3158  0.1224  0.0299  1.0000\n  H   H18       1.0000  0.6842  0.3776  0.5299  1.0000\n  H   H19       1.0000  0.6842  0.8776  0.9701  1.0000\n  O   O1        1.0000  0.3158  0.6224  0.4701  1.0000\n  O   O2        1.0000  0.8661  0.4424  0.2921  1.0000\n  O   O3        1.0000  0.1339  0.0576  0.7921  1.0000\n  O   O4        1.0000  0.1339  0.5576  0.7079  1.0000\n  O   O5        1.0000  0.8661  0.9424  0.2079  1.0000\n  O   O6        1.0000  0.5709  0.2454  0.4228  1.0000\n  O   O7        1.0000  0.4291  0.2546  0.9228  1.0000\n  O   O8        1.0000  0.4291  0.7546  0.5772  1.0000\n  O   O9        1.0000  0.5709  0.7454  0.0772  1.0000\n  O   O10       1.0000  0.6516  0.0618  0.2804  1.0000\n  O   O11       1.0000  0.3484  0.4382  0.7804  1.0000\n  O   O12       1.0000  0.3484  0.9382  0.7196  1.0000\n  O   O13       1.0000  0.6516  0.5618  0.2196  1.0000\n  O   O14       1.0000  0.9258  0.2417  0.4238  1.0000\n  O   O15       1.0000  0.0742  0.2583  0.9238  1.0000\n  O   O16       1.0000  0.0742  0.7583  0.5762  1.0000\n  O   O17       1.0000  0.9258  0.7417  0.0762  1.0000\n  O   O18       1.0000  0.2101  0.9496  0.4103  1.0000\n  O   O19       1.0000  0.7899  0.5504  0.9103  1.0000\n  O   O20       1.0000  0.7899  0.0504  0.5897  1.0000\n  O   O21       1.0000  0.2101  0.4496  0.0897  1.0000\n  O   O22       1.0000  0.2869  0.0474  0.0865  1.0000\n  O   O23       1.0000  0.7131  0.4526  0.5865  1.0000\n  H   H20       1.0000  0.7131  0.9526  0.9135  1.0000\n  O   O24       1.0000  0.2869  0.5474  0.4135  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1cd75840-ac35-454b-aeb9-05a63ce2674e",
    "mp_id": "mp-1204195",
    "action_prompt": "Swap the spatial positions of atoms at indices 42 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_U6Fe30P19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.6286\n_cell_length_b   3.5987\n_cell_length_c   14.6304\n_cell_angle_alpha   90.0000\n_cell_angle_beta   119.9839\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   U6Fe30P19\n_chemical_formula_sum   'U6 Fe30 P19'\n_cell_volume   667.1188\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.0995  0.0000  0.7063  1\n  U  U1  1  0.2938  0.0000  0.3934  1\n  U  U2  1  0.6067  0.0000  0.9006  1\n  U  U3  1  0.3945  0.5000  0.0988  1\n  U  U4  1  0.9011  0.5000  0.2957  1\n  U  U5  1  0.7042  0.5000  0.6053  1\n  Fe  Fe6  1  0.5355  0.0000  0.0760  1\n  Fe  Fe7  1  0.9240  0.0000  0.4595  1\n  Fe  Fe8  1  0.5405  0.0000  0.4645  1\n  Fe  Fe9  1  0.0290  0.0000  0.8911  1\n  Fe  Fe10  1  0.1089  0.0000  0.1381  1\n  Fe  Fe11  1  0.8626  0.0000  0.9708  1\n  Fe  Fe12  1  0.4159  0.0000  0.2639  1\n  Fe  Fe13  1  0.7361  0.0000  0.1521  1\n  Fe  Fe14  1  0.8480  0.0000  0.5840  1\n  Fe  Fe15  1  0.2307  0.0000  0.9578  1\n  Fe  Fe16  1  0.0424  0.0000  0.2728  1\n  Fe  Fe17  1  0.7272  0.0000  0.7695  1\n  Fe  Fe18  1  0.3492  0.0000  0.7758  1\n  Fe  Fe19  1  0.2243  0.0000  0.5735  1\n  Fe  Fe20  1  0.4266  0.0000  0.6508  1\n  Fe  Fe21  1  0.2695  0.5000  0.2314  1\n  Fe  Fe22  1  0.7686  0.5000  0.0383  1\n  Fe  Fe23  1  0.9615  0.5000  0.7302  1\n  Fe  Fe24  1  0.1598  0.5000  0.0335  1\n  Fe  Fe25  1  0.9666  0.5000  0.1263  1\n  Fe  Fe26  1  0.8737  0.5000  0.8403  1\n  Fe  Fe27  1  0.5726  0.5000  0.3482  1\n  Fe  Fe28  1  0.6518  0.5000  0.2244  1\n  Fe  Fe29  1  0.7756  0.5000  0.4274  1\n  Fe  Fe30  1  0.2640  0.5000  0.8459  1\n  Fe  Fe31  1  0.1540  0.5000  0.4181  1\n  Fe  Fe32  1  0.5819  0.5000  0.7359  1\n  Fe  Fe33  1  0.0756  0.5000  0.5405  1\n  Fe  Fe34  1  0.4594  0.5000  0.5350  1\n  Fe  Fe35  1  0.4649  0.5000  0.9244  1\n  P  P36  1  0.2535  0.0000  0.1242  1\n  P  P37  1  0.8759  0.0000  0.1294  1\n  P  P38  1  0.8705  0.0000  0.7463  1\n  P  P39  1  0.5541  0.0000  0.2371  1\n  P  P40  1  0.7628  0.0000  0.3170  1\n  P  P41  1  0.6830  0.0000  0.4457  1\n  P  P42  1  0.3716  0.0000  0.9362  1\n  P  P43  1  0.0637  0.0000  0.4354  1\n  P  P44  1  0.5646  0.0000  0.6284  1\n  P  P45  1  0.4344  0.5000  0.3715  1\n  P  P46  1  0.6284  0.5000  0.0630  1\n  P  P47  1  0.9371  0.5000  0.5656  1\n  P  P48  1  0.1255  0.5000  0.8706  1\n  P  P49  1  0.1294  0.5000  0.2550  1\n  P  P50  1  0.7448  0.5000  0.8743  1\n  P  P51  1  0.2369  0.5000  0.6822  1\n  P  P52  1  0.3178  0.5000  0.5547  1\n  P  P53  1  0.4454  0.5000  0.7632  1\n  P  P54  1  0.0002  0.5000  0.0001  1\n",
    "output": "data_image0\n_chemical_formula_structural       U6Fe28PFeP6FeP12\n_chemical_formula_sum              \"U6 Fe30 P19\"\n_cell_length_a       14.6286\n_cell_length_b       3.5987\n_cell_length_c       14.6304\n_cell_angle_alpha    90.0000\n_cell_angle_beta     119.9839\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.0995  0.0000  0.7063  1.0000\n  U   U2        1.0000  0.2938  0.0000  0.3934  1.0000\n  U   U3        1.0000  0.6067  0.0000  0.9006  1.0000\n  U   U4        1.0000  0.3945  0.5000  0.0988  1.0000\n  U   U5        1.0000  0.9011  0.5000  0.2957  1.0000\n  U   U6        1.0000  0.7042  0.5000  0.6053  1.0000\n  Fe  Fe1       1.0000  0.5355  0.0000  0.0760  1.0000\n  Fe  Fe2       1.0000  0.9240  0.0000  0.4595  1.0000\n  Fe  Fe3       1.0000  0.5405  0.0000  0.4645  1.0000\n  Fe  Fe4       1.0000  0.0290  0.0000  0.8911  1.0000\n  Fe  Fe5       1.0000  0.1089  0.0000  0.1381  1.0000\n  Fe  Fe6       1.0000  0.8626  0.0000  0.9708  1.0000\n  Fe  Fe7       1.0000  0.4159  0.0000  0.2639  1.0000\n  Fe  Fe8       1.0000  0.7361  0.0000  0.1521  1.0000\n  Fe  Fe9       1.0000  0.8480  0.0000  0.5840  1.0000\n  Fe  Fe10      1.0000  0.2307  0.0000  0.9578  1.0000\n  Fe  Fe11      1.0000  0.0424  0.0000  0.2728  1.0000\n  Fe  Fe12      1.0000  0.7272  0.0000  0.7695  1.0000\n  Fe  Fe13      1.0000  0.3492  0.0000  0.7758  1.0000\n  Fe  Fe14      1.0000  0.2243  0.0000  0.5735  1.0000\n  Fe  Fe15      1.0000  0.4266  0.0000  0.6508  1.0000\n  Fe  Fe16      1.0000  0.2695  0.5000  0.2314  1.0000\n  Fe  Fe17      1.0000  0.7686  0.5000  0.0383  1.0000\n  Fe  Fe18      1.0000  0.9615  0.5000  0.7302  1.0000\n  Fe  Fe19      1.0000  0.1598  0.5000  0.0335  1.0000\n  Fe  Fe20      1.0000  0.9666  0.5000  0.1263  1.0000\n  Fe  Fe21      1.0000  0.8737  0.5000  0.8403  1.0000\n  Fe  Fe22      1.0000  0.5726  0.5000  0.3482  1.0000\n  Fe  Fe23      1.0000  0.6518  0.5000  0.2244  1.0000\n  Fe  Fe24      1.0000  0.7756  0.5000  0.4274  1.0000\n  Fe  Fe25      1.0000  0.2640  0.5000  0.8459  1.0000\n  Fe  Fe26      1.0000  0.1540  0.5000  0.4181  1.0000\n  Fe  Fe27      1.0000  0.5819  0.5000  0.7359  1.0000\n  Fe  Fe28      1.0000  0.0756  0.5000  0.5405  1.0000\n  P   P1        1.0000  0.4594  0.5000  0.5350  1.0000\n  Fe  Fe29      1.0000  0.4649  0.5000  0.9244  1.0000\n  P   P2        1.0000  0.2535  0.0000  0.1242  1.0000\n  P   P3        1.0000  0.8759  0.0000  0.1294  1.0000\n  P   P4        1.0000  0.8705  0.0000  0.7463  1.0000\n  P   P5        1.0000  0.5541  0.0000  0.2371  1.0000\n  P   P6        1.0000  0.7628  0.0000  0.3170  1.0000\n  P   P7        1.0000  0.6830  0.0000  0.4457  1.0000\n  Fe  Fe30      1.0000  0.3716  0.0000  0.9362  1.0000\n  P   P8        1.0000  0.0637  0.0000  0.4354  1.0000\n  P   P9        1.0000  0.5646  0.0000  0.6284  1.0000\n  P   P10       1.0000  0.4344  0.5000  0.3715  1.0000\n  P   P11       1.0000  0.6284  0.5000  0.0630  1.0000\n  P   P12       1.0000  0.9371  0.5000  0.5656  1.0000\n  P   P13       1.0000  0.1255  0.5000  0.8706  1.0000\n  P   P14       1.0000  0.1294  0.5000  0.2550  1.0000\n  P   P15       1.0000  0.7448  0.5000  0.8743  1.0000\n  P   P16       1.0000  0.2369  0.5000  0.6822  1.0000\n  P   P17       1.0000  0.3178  0.5000  0.5547  1.0000\n  P   P18       1.0000  0.4454  0.5000  0.7632  1.0000\n  P   P19       1.0000  0.0002  0.5000  0.0001  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2bb8573b-b3a4-4030-afa3-fd3a6484e718",
    "mp_id": "mp-1204482",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 32 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cs2CrH4F10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2205\n_cell_length_b   7.7709\n_cell_length_c   9.9341\n_cell_angle_alpha   106.7286\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cs2CrH4F10\n_chemical_formula_sum   'Cs4 Cr2 H8 F20'\n_cell_volume   533.8113\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.7835  0.4748  0.8349  1\n  Cs  Cs1  1  0.7165  0.9748  0.3349  1\n  Cs  Cs2  1  0.2165  0.5252  0.1651  1\n  Cs  Cs3  1  0.2835  0.0252  0.6651  1\n  Cr  Cr4  1  0.5000  0.5000  0.5000  1\n  Cr  Cr5  1  0.0000  0.0000  0.0000  1\n  H  H6  1  0.2960  0.5482  0.7677  1\n  H  H7  1  0.2040  0.0482  0.2677  1\n  H  H8  1  0.7040  0.4518  0.2323  1\n  H  H9  1  0.7960  0.9518  0.7323  1\n  H  H10  1  0.5967  0.1654  0.0049  1\n  H  H11  1  0.9033  0.6654  0.5049  1\n  H  H12  1  0.4033  0.8346  0.9951  1\n  H  H13  1  0.0967  0.3346  0.4951  1\n  F  F14  1  0.2606  0.4243  0.4447  1\n  F  F15  1  0.2394  0.9243  0.9447  1\n  F  F16  1  0.7394  0.5757  0.5553  1\n  F  F17  1  0.7606  0.0757  0.0553  1\n  F  F18  1  0.5355  0.3026  0.5618  1\n  F  F19  1  0.9645  0.8026  0.0618  1\n  F  F20  1  0.4645  0.6974  0.4382  1\n  F  F21  1  0.0355  0.1974  0.9382  1\n  F  F22  1  0.4108  0.6290  0.6808  1\n  F  F23  1  0.0892  0.1290  0.1808  1\n  F  F24  1  0.5892  0.3710  0.3192  1\n  F  F25  1  0.9108  0.8710  0.8192  1\n  F  F26  1  0.2257  0.4835  0.8230  1\n  F  F27  1  0.2743  0.9835  0.3230  1\n  F  F28  1  0.7743  0.5165  0.1770  1\n  F  F29  1  0.7257  0.0165  0.6770  1\n  F  F30  1  0.5050  0.2344  0.9709  1\n  F  F31  1  0.9950  0.7344  0.4709  1\n  F  F32  1  0.4950  0.7656  0.0291  1\n  F  F33  1  0.0050  0.2656  0.5291  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2FCsCr2H8F18CsF\n_chemical_formula_sum              \"Cs4 F20 Cr2 H8\"\n_cell_length_a       7.2205\n_cell_length_b       7.7709\n_cell_length_c       9.9341\n_cell_angle_alpha    106.7286\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.7835  0.4748  0.8349  1.0000\n  Cs  Cs2       1.0000  0.7165  0.9748  0.3349  1.0000\n  F   F1        1.0000  0.2165  0.5252  0.1651  1.0000\n  Cs  Cs3       1.0000  0.2835  0.0252  0.6651  1.0000\n  Cr  Cr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.0000  0.0000  1.0000\n  H   H1        1.0000  0.2960  0.5482  0.7677  1.0000\n  H   H2        1.0000  0.2040  0.0482  0.2677  1.0000\n  H   H3        1.0000  0.7040  0.4518  0.2323  1.0000\n  H   H4        1.0000  0.7960  0.9518  0.7323  1.0000\n  H   H5        1.0000  0.5967  0.1654  0.0049  1.0000\n  H   H6        1.0000  0.9033  0.6654  0.5049  1.0000\n  H   H7        1.0000  0.4033  0.8346  0.9951  1.0000\n  H   H8        1.0000  0.0967  0.3346  0.4951  1.0000\n  F   F2        1.0000  0.2606  0.4243  0.4447  1.0000\n  F   F3        1.0000  0.2394  0.9243  0.9447  1.0000\n  F   F4        1.0000  0.7394  0.5757  0.5553  1.0000\n  F   F5        1.0000  0.7606  0.0757  0.0553  1.0000\n  F   F6        1.0000  0.5355  0.3026  0.5618  1.0000\n  F   F7        1.0000  0.9645  0.8026  0.0618  1.0000\n  F   F8        1.0000  0.4645  0.6974  0.4382  1.0000\n  F   F9        1.0000  0.0355  0.1974  0.9382  1.0000\n  F   F10       1.0000  0.4108  0.6290  0.6808  1.0000\n  F   F11       1.0000  0.0892  0.1290  0.1808  1.0000\n  F   F12       1.0000  0.5892  0.3710  0.3192  1.0000\n  F   F13       1.0000  0.9108  0.8710  0.8192  1.0000\n  F   F14       1.0000  0.2257  0.4835  0.8230  1.0000\n  F   F15       1.0000  0.2743  0.9835  0.3230  1.0000\n  F   F16       1.0000  0.7743  0.5165  0.1770  1.0000\n  F   F17       1.0000  0.7257  0.0165  0.6770  1.0000\n  F   F18       1.0000  0.5050  0.2344  0.9709  1.0000\n  F   F19       1.0000  0.9950  0.7344  0.4709  1.0000\n  Cs  Cs4       1.0000  0.4950  0.7656  0.0291  1.0000\n  F   F20       1.0000  0.0050  0.2656  0.5291  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "66fd95f9-f944-498b-8941-76235ab3bb0b",
    "mp_id": "mp-1204573",
    "action_prompt": "Swap the spatial positions of atoms at indices 47 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu3P8(Se2I)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9637\n_cell_length_b   10.0704\n_cell_length_c   27.5110\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu3P8(Se2I)3\n_chemical_formula_sum   'Cu12 P32 Se24 I12'\n_cell_volume   2206.3130\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.2960  0.9992  0.4981  1\n  Cu  Cu1  1  0.7960  0.5008  0.0019  1\n  Cu  Cu2  1  0.7040  0.0008  0.9981  1\n  Cu  Cu3  1  0.2040  0.4992  0.5019  1\n  Cu  Cu4  1  0.7040  0.0008  0.5019  1\n  Cu  Cu5  1  0.2040  0.4992  0.9981  1\n  Cu  Cu6  1  0.2960  0.9992  0.0019  1\n  Cu  Cu7  1  0.7960  0.5008  0.4981  1\n  Cu  Cu8  1  0.0654  0.8808  0.7500  1\n  Cu  Cu9  1  0.5654  0.6192  0.7500  1\n  Cu  Cu10  1  0.9346  0.1192  0.2500  1\n  Cu  Cu11  1  0.4346  0.3808  0.2500  1\n  P  P12  1  0.0218  0.9953  0.6806  1\n  P  P13  1  0.5218  0.5047  0.8194  1\n  P  P14  1  0.9782  0.0047  0.1806  1\n  P  P15  1  0.4782  0.4953  0.3194  1\n  P  P16  1  0.9782  0.0047  0.3194  1\n  P  P17  1  0.4782  0.4953  0.1806  1\n  P  P18  1  0.0218  0.9953  0.8194  1\n  P  P19  1  0.5218  0.5047  0.6806  1\n  P  P20  1  0.1403  0.0556  0.5643  1\n  P  P21  1  0.6403  0.4444  0.9357  1\n  P  P22  1  0.8597  0.9444  0.0643  1\n  P  P23  1  0.3597  0.5556  0.4357  1\n  P  P24  1  0.8597  0.9444  0.4357  1\n  P  P25  1  0.3597  0.5556  0.0643  1\n  P  P26  1  0.1403  0.0556  0.9357  1\n  P  P27  1  0.6403  0.4444  0.5643  1\n  P  P28  1  0.8595  0.0553  0.5682  1\n  P  P29  1  0.3595  0.4447  0.9318  1\n  P  P30  1  0.1405  0.9447  0.0682  1\n  P  P31  1  0.6405  0.5553  0.4318  1\n  P  P32  1  0.1405  0.9447  0.4318  1\n  P  P33  1  0.6405  0.5553  0.0682  1\n  P  P34  1  0.8595  0.0553  0.9318  1\n  P  P35  1  0.3595  0.4447  0.5682  1\n  P  P36  1  0.0045  0.2392  0.5924  1\n  P  P37  1  0.5045  0.2608  0.9076  1\n  P  P38  1  0.9955  0.7608  0.0924  1\n  P  P39  1  0.4955  0.7392  0.4076  1\n  P  P40  1  0.9955  0.7608  0.4076  1\n  P  P41  1  0.4955  0.7392  0.0924  1\n  P  P42  1  0.0045  0.2392  0.9076  1\n  P  P43  1  0.5045  0.2608  0.5924  1\n  Se  Se44  1  0.7927  0.9395  0.6356  1\n  Se  Se45  1  0.2927  0.5605  0.8644  1\n  Se  Se46  1  0.2073  0.0605  0.1356  1\n  Se  Se47  1  0.7073  0.4395  0.3644  1\n  Se  Se48  1  0.2073  0.0605  0.3644  1\n  Se  Se49  1  0.7073  0.4395  0.1356  1\n  Se  Se50  1  0.7927  0.9395  0.8644  1\n  Se  Se51  1  0.2927  0.5605  0.6356  1\n  Se  Se52  1  0.0169  0.2210  0.6744  1\n  Se  Se53  1  0.5169  0.2790  0.8256  1\n  Se  Se54  1  0.9831  0.7790  0.1744  1\n  Se  Se55  1  0.4831  0.7210  0.3256  1\n  Se  Se56  1  0.9831  0.7790  0.3256  1\n  Se  Se57  1  0.4831  0.7210  0.1744  1\n  Se  Se58  1  0.0169  0.2210  0.8256  1\n  Se  Se59  1  0.5169  0.2790  0.6744  1\n  Se  Se60  1  0.2344  0.9426  0.6293  1\n  Se  Se61  1  0.7344  0.5574  0.8707  1\n  Se  Se62  1  0.7656  0.0574  0.1293  1\n  Se  Se63  1  0.2656  0.4426  0.3707  1\n  Se  Se64  1  0.7656  0.0574  0.3707  1\n  Se  Se65  1  0.2656  0.4426  0.1293  1\n  Se  Se66  1  0.2344  0.9426  0.8707  1\n  Se  Se67  1  0.7344  0.5574  0.6293  1\n  I  I68  1  0.5009  0.1887  0.4692  1\n  I  I69  1  0.0009  0.3113  0.0308  1\n  I  I70  1  0.4991  0.8113  0.9692  1\n  I  I71  1  0.9991  0.6887  0.5308  1\n  I  I72  1  0.4991  0.8113  0.5308  1\n  I  I73  1  0.9991  0.6887  0.9692  1\n  I  I74  1  0.5009  0.1887  0.0308  1\n  I  I75  1  0.0009  0.3113  0.4692  1\n  I  I76  1  0.9072  0.6508  0.7500  1\n  I  I77  1  0.4072  0.8492  0.7500  1\n  I  I78  1  0.0928  0.3492  0.2500  1\n  I  I79  1  0.5928  0.1508  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu12P4SeP27Se3PSe20I12\n_chemical_formula_sum              \"Cu12 P32 Se24 I12\"\n_cell_length_a       7.9637\n_cell_length_b       10.0704\n_cell_length_c       27.5110\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.2960  0.9992  0.4981  1.0000\n  Cu  Cu2       1.0000  0.7960  0.5008  0.0019  1.0000\n  Cu  Cu3       1.0000  0.7040  0.0008  0.9981  1.0000\n  Cu  Cu4       1.0000  0.2040  0.4992  0.5019  1.0000\n  Cu  Cu5       1.0000  0.7040  0.0008  0.5019  1.0000\n  Cu  Cu6       1.0000  0.2040  0.4992  0.9981  1.0000\n  Cu  Cu7       1.0000  0.2960  0.9992  0.0019  1.0000\n  Cu  Cu8       1.0000  0.7960  0.5008  0.4981  1.0000\n  Cu  Cu9       1.0000  0.0654  0.8808  0.7500  1.0000\n  Cu  Cu10      1.0000  0.5654  0.6192  0.7500  1.0000\n  Cu  Cu11      1.0000  0.9347  0.1192  0.2500  1.0000\n  Cu  Cu12      1.0000  0.4347  0.3808  0.2500  1.0000\n  P   P1        1.0000  0.0218  0.9953  0.6806  1.0000\n  P   P2        1.0000  0.5218  0.5047  0.8194  1.0000\n  P   P3        1.0000  0.9782  0.0047  0.1806  1.0000\n  P   P4        1.0000  0.4782  0.4953  0.3194  1.0000\n  Se  Se1       1.0000  0.9782  0.0047  0.3194  1.0000\n  P   P5        1.0000  0.4782  0.4953  0.1806  1.0000\n  P   P6        1.0000  0.0218  0.9953  0.8194  1.0000\n  P   P7        1.0000  0.5218  0.5047  0.6806  1.0000\n  P   P8        1.0000  0.1403  0.0556  0.5643  1.0000\n  P   P9        1.0000  0.6403  0.4444  0.9357  1.0000\n  P   P10       1.0000  0.8597  0.9444  0.0643  1.0000\n  P   P11       1.0000  0.3597  0.5556  0.4357  1.0000\n  P   P12       1.0000  0.8597  0.9444  0.4357  1.0000\n  P   P13       1.0000  0.3597  0.5556  0.0643  1.0000\n  P   P14       1.0000  0.1403  0.0556  0.9357  1.0000\n  P   P15       1.0000  0.6403  0.4444  0.5643  1.0000\n  P   P16       1.0000  0.8595  0.0553  0.5682  1.0000\n  P   P17       1.0000  0.3595  0.4447  0.9318  1.0000\n  P   P18       1.0000  0.1405  0.9447  0.0682  1.0000\n  P   P19       1.0000  0.6405  0.5553  0.4318  1.0000\n  P   P20       1.0000  0.1405  0.9447  0.4318  1.0000\n  P   P21       1.0000  0.6405  0.5553  0.0682  1.0000\n  P   P22       1.0000  0.8595  0.0553  0.9318  1.0000\n  P   P23       1.0000  0.3595  0.4447  0.5682  1.0000\n  P   P24       1.0000  0.0045  0.2392  0.5924  1.0000\n  P   P25       1.0000  0.5045  0.2608  0.9076  1.0000\n  P   P26       1.0000  0.9955  0.7608  0.0924  1.0000\n  P   P27       1.0000  0.4955  0.7392  0.4076  1.0000\n  P   P28       1.0000  0.9955  0.7608  0.4076  1.0000\n  P   P29       1.0000  0.4955  0.7392  0.0924  1.0000\n  P   P30       1.0000  0.0045  0.2392  0.9076  1.0000\n  P   P31       1.0000  0.5045  0.2608  0.5924  1.0000\n  Se  Se2       1.0000  0.7927  0.9395  0.6356  1.0000\n  Se  Se3       1.0000  0.2927  0.5605  0.8644  1.0000\n  Se  Se4       1.0000  0.2073  0.0605  0.1356  1.0000\n  P   P32       1.0000  0.7073  0.4395  0.3644  1.0000\n  Se  Se5       1.0000  0.2073  0.0605  0.3644  1.0000\n  Se  Se6       1.0000  0.7073  0.4395  0.1356  1.0000\n  Se  Se7       1.0000  0.7927  0.9395  0.8644  1.0000\n  Se  Se8       1.0000  0.2927  0.5605  0.6356  1.0000\n  Se  Se9       1.0000  0.0169  0.2210  0.6744  1.0000\n  Se  Se10      1.0000  0.5169  0.2790  0.8256  1.0000\n  Se  Se11      1.0000  0.9831  0.7790  0.1744  1.0000\n  Se  Se12      1.0000  0.4831  0.7210  0.3256  1.0000\n  Se  Se13      1.0000  0.9831  0.7790  0.3256  1.0000\n  Se  Se14      1.0000  0.4831  0.7210  0.1744  1.0000\n  Se  Se15      1.0000  0.0169  0.2210  0.8256  1.0000\n  Se  Se16      1.0000  0.5169  0.2790  0.6744  1.0000\n  Se  Se17      1.0000  0.2344  0.9426  0.6293  1.0000\n  Se  Se18      1.0000  0.7344  0.5574  0.8707  1.0000\n  Se  Se19      1.0000  0.7656  0.0574  0.1293  1.0000\n  Se  Se20      1.0000  0.2656  0.4426  0.3707  1.0000\n  Se  Se21      1.0000  0.7656  0.0574  0.3707  1.0000\n  Se  Se22      1.0000  0.2656  0.4426  0.1293  1.0000\n  Se  Se23      1.0000  0.2344  0.9426  0.8707  1.0000\n  Se  Se24      1.0000  0.7344  0.5574  0.6293  1.0000\n  I   I1        1.0000  0.5009  0.1887  0.4692  1.0000\n  I   I2        1.0000  0.0009  0.3113  0.0308  1.0000\n  I   I3        1.0000  0.4991  0.8113  0.9692  1.0000\n  I   I4        1.0000  0.9991  0.6887  0.5308  1.0000\n  I   I5        1.0000  0.4991  0.8113  0.5308  1.0000\n  I   I6        1.0000  0.9991  0.6887  0.9692  1.0000\n  I   I7        1.0000  0.5009  0.1887  0.0308  1.0000\n  I   I8        1.0000  0.0009  0.3113  0.4692  1.0000\n  I   I9        1.0000  0.9072  0.6508  0.7500  1.0000\n  I   I10       1.0000  0.4072  0.8492  0.7500  1.0000\n  I   I11       1.0000  0.0928  0.3492  0.2500  1.0000\n  I   I12       1.0000  0.5928  0.1508  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "27c661eb-73b6-4031-bf1a-4e5e9e32a7c3",
    "mp_id": "mp-1204620",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 56 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZnH9C4(NO2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2369\n_cell_length_b   11.5931\n_cell_length_c   8.9385\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZnH9C4(NO2)3\n_chemical_formula_sum   'Zn4 H36 C16 N12 O24'\n_cell_volume   853.5459\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.2340  0.2500  0.2500  1\n  Zn  Zn1  1  0.2660  0.7500  0.2500  1\n  Zn  Zn2  1  0.7660  0.7500  0.7500  1\n  Zn  Zn3  1  0.7340  0.2500  0.7500  1\n  H  H4  1  0.2500  0.0000  0.3174  1\n  H  H5  1  0.2500  0.5000  0.1826  1\n  H  H6  1  0.7500  0.0000  0.6826  1\n  H  H7  1  0.7500  0.5000  0.8174  1\n  H  H8  1  0.1112  0.7829  0.9267  1\n  H  H9  1  0.1112  0.7171  0.5733  1\n  H  H10  1  0.3888  0.2829  0.5733  1\n  H  H11  1  0.3888  0.2171  0.9267  1\n  H  H12  1  0.8888  0.2171  0.0733  1\n  H  H13  1  0.8888  0.2829  0.4267  1\n  H  H14  1  0.6112  0.7171  0.4267  1\n  H  H15  1  0.6112  0.7829  0.0733  1\n  H  H16  1  0.8324  0.9190  0.0731  1\n  H  H17  1  0.8324  0.5810  0.4269  1\n  H  H18  1  0.6676  0.4190  0.4269  1\n  H  H19  1  0.6676  0.0810  0.0731  1\n  H  H20  1  0.1676  0.0810  0.9269  1\n  H  H21  1  0.1676  0.4190  0.5731  1\n  H  H22  1  0.3324  0.5810  0.5731  1\n  H  H23  1  0.3324  0.9190  0.9269  1\n  H  H24  1  0.9261  0.8780  0.2446  1\n  H  H25  1  0.9261  0.6220  0.2554  1\n  H  H26  1  0.5739  0.3780  0.2554  1\n  H  H27  1  0.5739  0.1220  0.2446  1\n  H  H28  1  0.0739  0.1220  0.7554  1\n  H  H29  1  0.0739  0.3780  0.7446  1\n  H  H30  1  0.4261  0.6220  0.7446  1\n  H  H31  1  0.4261  0.8780  0.7554  1\n  H  H32  1  0.8145  0.9392  0.4661  1\n  H  H33  1  0.8145  0.5608  0.0339  1\n  H  H34  1  0.6855  0.4392  0.0339  1\n  H  H35  1  0.6855  0.0608  0.4661  1\n  H  H36  1  0.1855  0.0608  0.5339  1\n  H  H37  1  0.1855  0.4392  0.9661  1\n  H  H38  1  0.3145  0.5608  0.9661  1\n  H  H39  1  0.3145  0.9392  0.5339  1\n  C  C40  1  0.2500  0.0000  0.1952  1\n  C  C41  1  0.2500  0.5000  0.3048  1\n  C  C42  1  0.7500  0.0000  0.8048  1\n  C  C43  1  0.7500  0.5000  0.6952  1\n  C  C44  1  0.0345  0.7185  0.9836  1\n  C  C45  1  0.0345  0.7815  0.5164  1\n  C  C46  1  0.4655  0.2185  0.5164  1\n  C  C47  1  0.4655  0.2815  0.9836  1\n  C  C48  1  0.9655  0.2815  0.0164  1\n  C  C49  1  0.9655  0.2185  0.4836  1\n  C  C50  1  0.5345  0.7815  0.4836  1\n  C  C51  1  0.5345  0.7185  0.0164  1\n  C  C52  1  0.2500  0.0000  0.7398  1\n  C  C53  1  0.2500  0.5000  0.7602  1\n  C  C54  1  0.7500  0.0000  0.2602  1\n  C  C55  1  0.7500  0.5000  0.2398  1\n  N  N56  1  0.8452  0.9267  0.1859  1\n  N  N57  1  0.8452  0.5733  0.3141  1\n  N  N58  1  0.6548  0.4267  0.3141  1\n  N  N59  1  0.6548  0.0733  0.1859  1\n  N  N60  1  0.1548  0.0733  0.8141  1\n  N  N61  1  0.1548  0.4267  0.6859  1\n  N  N62  1  0.3452  0.5733  0.6859  1\n  N  N63  1  0.3452  0.9267  0.8141  1\n  N  N64  1  0.2500  0.0000  0.5911  1\n  N  N65  1  0.2500  0.5000  0.9089  1\n  N  N66  1  0.7500  0.0000  0.4089  1\n  N  N67  1  0.7500  0.5000  0.0911  1\n  O  O68  1  0.7661  0.9044  0.8712  1\n  O  O69  1  0.7661  0.5956  0.6288  1\n  O  O70  1  0.7339  0.4044  0.6288  1\n  O  O71  1  0.7339  0.0956  0.8712  1\n  O  O72  1  0.2339  0.0956  0.1288  1\n  O  O73  1  0.2339  0.4044  0.3712  1\n  O  O74  1  0.2661  0.5956  0.3712  1\n  O  O75  1  0.2661  0.9044  0.1288  1\n  O  O76  1  0.9146  0.6772  0.9134  1\n  O  O77  1  0.9146  0.8228  0.5866  1\n  O  O78  1  0.5854  0.1772  0.5866  1\n  O  O79  1  0.5854  0.3228  0.9134  1\n  O  O80  1  0.0854  0.3228  0.0866  1\n  O  O81  1  0.0854  0.1772  0.4134  1\n  O  O82  1  0.4146  0.8228  0.4134  1\n  O  O83  1  0.4146  0.6772  0.0866  1\n  O  O84  1  0.0706  0.6900  0.1157  1\n  O  O85  1  0.0706  0.8100  0.3843  1\n  O  O86  1  0.4294  0.1900  0.3843  1\n  O  O87  1  0.4294  0.3100  0.1157  1\n  O  O88  1  0.9294  0.3100  0.8843  1\n  O  O89  1  0.9294  0.1900  0.6157  1\n  O  O90  1  0.5706  0.8100  0.6157  1\n  O  O91  1  0.5706  0.6900  0.8843  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn4H3NH32C16HN11O24\n_chemical_formula_sum              \"Zn4 H36 N12 C16 O24\"\n_cell_length_a       8.2369\n_cell_length_b       11.5931\n_cell_length_c       8.9385\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.2340  0.2500  0.2500  1.0000\n  Zn  Zn2       1.0000  0.2660  0.7500  0.2500  1.0000\n  Zn  Zn3       1.0000  0.7660  0.7500  0.7500  1.0000\n  Zn  Zn4       1.0000  0.7340  0.2500  0.7500  1.0000\n  H   H1        1.0000  0.2500  0.0000  0.3174  1.0000\n  H   H2        1.0000  0.2500  0.5000  0.1826  1.0000\n  H   H3        1.0000  0.7500  0.0000  0.6826  1.0000\n  N   N1        1.0000  0.7500  0.5000  0.8174  1.0000\n  H   H4        1.0000  0.1112  0.7829  0.9267  1.0000\n  H   H5        1.0000  0.1112  0.7171  0.5733  1.0000\n  H   H6        1.0000  0.3888  0.2829  0.5733  1.0000\n  H   H7        1.0000  0.3888  0.2171  0.9267  1.0000\n  H   H8        1.0000  0.8888  0.2171  0.0733  1.0000\n  H   H9        1.0000  0.8888  0.2829  0.4267  1.0000\n  H   H10       1.0000  0.6112  0.7171  0.4267  1.0000\n  H   H11       1.0000  0.6112  0.7829  0.0733  1.0000\n  H   H12       1.0000  0.8324  0.9190  0.0731  1.0000\n  H   H13       1.0000  0.8324  0.5810  0.4269  1.0000\n  H   H14       1.0000  0.6676  0.4190  0.4269  1.0000\n  H   H15       1.0000  0.6676  0.0810  0.0731  1.0000\n  H   H16       1.0000  0.1676  0.0810  0.9269  1.0000\n  H   H17       1.0000  0.1676  0.4190  0.5731  1.0000\n  H   H18       1.0000  0.3324  0.5810  0.5731  1.0000\n  H   H19       1.0000  0.3324  0.9190  0.9269  1.0000\n  H   H20       1.0000  0.9261  0.8780  0.2446  1.0000\n  H   H21       1.0000  0.9261  0.6220  0.2554  1.0000\n  H   H22       1.0000  0.5739  0.3780  0.2554  1.0000\n  H   H23       1.0000  0.5739  0.1220  0.2446  1.0000\n  H   H24       1.0000  0.0739  0.1220  0.7554  1.0000\n  H   H25       1.0000  0.0739  0.3780  0.7446  1.0000\n  H   H26       1.0000  0.4261  0.6220  0.7446  1.0000\n  H   H27       1.0000  0.4261  0.8780  0.7554  1.0000\n  H   H28       1.0000  0.8145  0.9392  0.4661  1.0000\n  H   H29       1.0000  0.8145  0.5608  0.0339  1.0000\n  H   H30       1.0000  0.6855  0.4392  0.0339  1.0000\n  H   H31       1.0000  0.6855  0.0608  0.4661  1.0000\n  H   H32       1.0000  0.1855  0.0608  0.5339  1.0000\n  H   H33       1.0000  0.1855  0.4392  0.9661  1.0000\n  H   H34       1.0000  0.3145  0.5608  0.9661  1.0000\n  H   H35       1.0000  0.3145  0.9392  0.5339  1.0000\n  C   C1        1.0000  0.2500  0.0000  0.1952  1.0000\n  C   C2        1.0000  0.2500  0.5000  0.3048  1.0000\n  C   C3        1.0000  0.7500  0.0000  0.8048  1.0000\n  C   C4        1.0000  0.7500  0.5000  0.6952  1.0000\n  C   C5        1.0000  0.0345  0.7185  0.9836  1.0000\n  C   C6        1.0000  0.0345  0.7815  0.5164  1.0000\n  C   C7        1.0000  0.4655  0.2185  0.5164  1.0000\n  C   C8        1.0000  0.4655  0.2815  0.9836  1.0000\n  C   C9        1.0000  0.9655  0.2815  0.0164  1.0000\n  C   C10       1.0000  0.9655  0.2185  0.4836  1.0000\n  C   C11       1.0000  0.5345  0.7815  0.4836  1.0000\n  C   C12       1.0000  0.5345  0.7185  0.0164  1.0000\n  C   C13       1.0000  0.2500  0.0000  0.7398  1.0000\n  C   C14       1.0000  0.2500  0.5000  0.7602  1.0000\n  C   C15       1.0000  0.7500  0.0000  0.2602  1.0000\n  C   C16       1.0000  0.7500  0.5000  0.2398  1.0000\n  H   H36       1.0000  0.8452  0.9267  0.1859  1.0000\n  N   N2        1.0000  0.8452  0.5733  0.3141  1.0000\n  N   N3        1.0000  0.6548  0.4267  0.3141  1.0000\n  N   N4        1.0000  0.6548  0.0733  0.1859  1.0000\n  N   N5        1.0000  0.1548  0.0733  0.8141  1.0000\n  N   N6        1.0000  0.1548  0.4267  0.6859  1.0000\n  N   N7        1.0000  0.3452  0.5733  0.6859  1.0000\n  N   N8        1.0000  0.3452  0.9267  0.8141  1.0000\n  N   N9        1.0000  0.2500  0.0000  0.5911  1.0000\n  N   N10       1.0000  0.2500  0.5000  0.9089  1.0000\n  N   N11       1.0000  0.7500  0.0000  0.4089  1.0000\n  N   N12       1.0000  0.7500  0.5000  0.0911  1.0000\n  O   O1        1.0000  0.7661  0.9044  0.8712  1.0000\n  O   O2        1.0000  0.7661  0.5956  0.6288  1.0000\n  O   O3        1.0000  0.7339  0.4044  0.6288  1.0000\n  O   O4        1.0000  0.7339  0.0956  0.8712  1.0000\n  O   O5        1.0000  0.2339  0.0956  0.1288  1.0000\n  O   O6        1.0000  0.2339  0.4044  0.3712  1.0000\n  O   O7        1.0000  0.2661  0.5956  0.3712  1.0000\n  O   O8        1.0000  0.2661  0.9044  0.1288  1.0000\n  O   O9        1.0000  0.9146  0.6772  0.9134  1.0000\n  O   O10       1.0000  0.9146  0.8228  0.5866  1.0000\n  O   O11       1.0000  0.5854  0.1772  0.5866  1.0000\n  O   O12       1.0000  0.5854  0.3228  0.9134  1.0000\n  O   O13       1.0000  0.0854  0.3228  0.0866  1.0000\n  O   O14       1.0000  0.0854  0.1772  0.4134  1.0000\n  O   O15       1.0000  0.4146  0.8228  0.4134  1.0000\n  O   O16       1.0000  0.4146  0.6772  0.0866  1.0000\n  O   O17       1.0000  0.0706  0.6900  0.1157  1.0000\n  O   O18       1.0000  0.0706  0.8100  0.3843  1.0000\n  O   O19       1.0000  0.4294  0.1900  0.3843  1.0000\n  O   O20       1.0000  0.4294  0.3100  0.1157  1.0000\n  O   O21       1.0000  0.9294  0.3100  0.8843  1.0000\n  O   O22       1.0000  0.9294  0.1900  0.6157  1.0000\n  O   O23       1.0000  0.5706  0.8100  0.6157  1.0000\n  O   O24       1.0000  0.5706  0.6900  0.8843  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0b18e108-829f-42e6-b9fc-f1a83c2ff8a8",
    "mp_id": "mp-1204800",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy3Ge13Os4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0172\n_cell_length_b   9.0172\n_cell_length_c   9.0172\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy3Ge13Os4\n_chemical_formula_sum   'Dy6 Ge26 Os8'\n_cell_volume   733.1993\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.0000  0.5000  0.7500  1\n  Dy  Dy1  1  0.5000  0.2500  0.0000  1\n  Dy  Dy2  1  0.7500  -0.0000  0.5000  1\n  Dy  Dy3  1  0.0000  0.5000  0.2500  1\n  Dy  Dy4  1  0.5000  0.7500  0.0000  1\n  Dy  Dy5  1  0.2500  -0.0000  0.5000  1\n  Ge  Ge6  1  0.5000  0.5000  0.5000  1\n  Ge  Ge7  1  0.0000  -0.0000  0.0000  1\n  Ge  Ge8  1  0.7950  0.3563  0.5000  1\n  Ge  Ge9  1  0.6437  0.5000  0.7950  1\n  Ge  Ge10  1  0.5000  0.2050  0.6437  1\n  Ge  Ge11  1  0.2050  0.6437  0.5000  1\n  Ge  Ge12  1  0.3563  0.5000  0.2050  1\n  Ge  Ge13  1  0.5000  0.7950  0.3563  1\n  Ge  Ge14  1  0.7950  0.6437  0.5000  1\n  Ge  Ge15  1  0.6437  0.5000  0.2050  1\n  Ge  Ge16  1  0.2050  0.3563  0.5000  1\n  Ge  Ge17  1  0.3563  0.5000  0.7950  1\n  Ge  Ge18  1  0.5000  0.7950  0.6437  1\n  Ge  Ge19  1  0.5000  0.2050  0.3563  1\n  Ge  Ge20  1  0.2950  -0.0000  0.8563  1\n  Ge  Ge21  1  0.1437  0.2950  0.0000  1\n  Ge  Ge22  1  0.0000  0.1437  0.7050  1\n  Ge  Ge23  1  0.7050  -0.0000  0.1437  1\n  Ge  Ge24  1  0.8563  0.7050  0.0000  1\n  Ge  Ge25  1  0.0000  0.8563  0.2950  1\n  Ge  Ge26  1  0.2950  -0.0000  0.1437  1\n  Ge  Ge27  1  0.1437  0.7050  0.0000  1\n  Ge  Ge28  1  0.7050  -0.0000  0.8563  1\n  Ge  Ge29  1  0.8563  0.2950  0.0000  1\n  Ge  Ge30  1  0.0000  0.1437  0.2950  1\n  Ge  Ge31  1  0.0000  0.8563  0.7050  1\n  Os  Os32  1  0.7500  0.2500  0.7500  1\n  Os  Os33  1  0.2500  0.7500  0.2500  1\n  Os  Os34  1  0.7500  0.7500  0.2500  1\n  Os  Os35  1  0.2500  0.2500  0.7500  1\n  Os  Os36  1  0.2500  0.7500  0.7500  1\n  Os  Os37  1  0.7500  0.2500  0.2500  1\n  Os  Os38  1  0.2500  0.2500  0.2500  1\n  Os  Os39  1  0.7500  0.7500  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy6GeOsGe24OsGeOs6\n_chemical_formula_sum              \"Dy6 Ge26 Os8\"\n_cell_length_a       9.0172\n_cell_length_b       9.0172\n_cell_length_c       9.0172\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.0000  0.5000  0.7500  1.0000\n  Dy  Dy2       1.0000  0.5000  0.2500  0.0000  1.0000\n  Dy  Dy3       1.0000  0.7500  0.0000  0.5000  1.0000\n  Dy  Dy4       1.0000  0.0000  0.5000  0.2500  1.0000\n  Dy  Dy5       1.0000  0.5000  0.7500  0.0000  1.0000\n  Dy  Dy6       1.0000  0.2500  0.0000  0.5000  1.0000\n  Ge  Ge1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Os  Os1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ge  Ge2       1.0000  0.7950  0.3563  0.5000  1.0000\n  Ge  Ge3       1.0000  0.6437  0.5000  0.7950  1.0000\n  Ge  Ge4       1.0000  0.5000  0.2050  0.6437  1.0000\n  Ge  Ge5       1.0000  0.2050  0.6437  0.5000  1.0000\n  Ge  Ge6       1.0000  0.3563  0.5000  0.2050  1.0000\n  Ge  Ge7       1.0000  0.5000  0.7950  0.3563  1.0000\n  Ge  Ge8       1.0000  0.7950  0.6437  0.5000  1.0000\n  Ge  Ge9       1.0000  0.6437  0.5000  0.2050  1.0000\n  Ge  Ge10      1.0000  0.2050  0.3563  0.5000  1.0000\n  Ge  Ge11      1.0000  0.3563  0.5000  0.7950  1.0000\n  Ge  Ge12      1.0000  0.5000  0.7950  0.6437  1.0000\n  Ge  Ge13      1.0000  0.5000  0.2050  0.3563  1.0000\n  Ge  Ge14      1.0000  0.2950  0.0000  0.8563  1.0000\n  Ge  Ge15      1.0000  0.1437  0.2950  0.0000  1.0000\n  Ge  Ge16      1.0000  0.0000  0.1437  0.7050  1.0000\n  Ge  Ge17      1.0000  0.7050  0.0000  0.1437  1.0000\n  Ge  Ge18      1.0000  0.8563  0.7050  0.0000  1.0000\n  Ge  Ge19      1.0000  0.0000  0.8563  0.2950  1.0000\n  Ge  Ge20      1.0000  0.2950  0.0000  0.1437  1.0000\n  Ge  Ge21      1.0000  0.1437  0.7050  0.0000  1.0000\n  Ge  Ge22      1.0000  0.7050  0.0000  0.8563  1.0000\n  Ge  Ge23      1.0000  0.8563  0.2950  0.0000  1.0000\n  Ge  Ge24      1.0000  0.0000  0.1437  0.2950  1.0000\n  Ge  Ge25      1.0000  0.0000  0.8563  0.7050  1.0000\n  Os  Os2       1.0000  0.7500  0.2500  0.7500  1.0000\n  Ge  Ge26      1.0000  0.2500  0.7500  0.2500  1.0000\n  Os  Os3       1.0000  0.7500  0.7500  0.2500  1.0000\n  Os  Os4       1.0000  0.2500  0.2500  0.7500  1.0000\n  Os  Os5       1.0000  0.2500  0.7500  0.7500  1.0000\n  Os  Os6       1.0000  0.7500  0.2500  0.2500  1.0000\n  Os  Os7       1.0000  0.2500  0.2500  0.2500  1.0000\n  Os  Os8       1.0000  0.7500  0.7500  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "90e6c8cb-9a5d-4c48-8c0f-642c493e8b2d",
    "mp_id": "mp-1205388",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2Pd3S4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1626\n_cell_length_b   6.2248\n_cell_length_c   13.8103\n_cell_angle_alpha   83.6591\n_cell_angle_beta   77.1079\n_cell_angle_gamma   60.3300\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2Pd3S4\n_chemical_formula_sum   'Rb4 Pd6 S8'\n_cell_volume   448.7178\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5460  0.2500  0.9080  1\n  Rb  Rb1  1  0.7040  0.2500  0.5920  1\n  Rb  Rb2  1  0.4540  0.7500  0.0920  1\n  Rb  Rb3  1  0.2960  0.7500  0.4080  1\n  Pd  Pd4  1  0.1250  0.2500  0.7500  1\n  Pd  Pd5  1  0.8750  0.7500  0.2500  1\n  Pd  Pd6  1  0.8754  0.2500  0.2491  1\n  Pd  Pd7  1  0.3746  0.2500  0.2509  1\n  Pd  Pd8  1  0.1246  0.7500  0.7509  1\n  Pd  Pd9  1  0.6254  0.7500  0.7491  1\n  S  S10  1  0.3444  0.9183  0.6360  1\n  S  S11  1  0.2373  0.9183  0.8640  1\n  S  S12  1  0.0195  0.5817  0.6360  1\n  S  S13  1  0.8987  0.5817  0.8640  1\n  S  S14  1  0.6556  0.0817  0.3640  1\n  S  S15  1  0.7627  0.0817  0.1360  1\n  S  S16  1  0.9805  0.4183  0.3640  1\n  S  S17  1  0.1013  0.4183  0.1360  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb3Pd5RbPdS8\n_chemical_formula_sum              \"Rb4 Pd6 S8\"\n_cell_length_a       6.1626\n_cell_length_b       6.2248\n_cell_length_c       13.8103\n_cell_angle_alpha    83.6591\n_cell_angle_beta     77.1079\n_cell_angle_gamma    60.3300\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5460  0.2500  0.9080  1.0000\n  Rb  Rb2       1.0000  0.7040  0.2500  0.5920  1.0000\n  Rb  Rb3       1.0000  0.4540  0.7500  0.0920  1.0000\n  Pd  Pd1       1.0000  0.2960  0.7500  0.4080  1.0000\n  Pd  Pd2       1.0000  0.1250  0.2500  0.7500  1.0000\n  Pd  Pd3       1.0000  0.8750  0.7500  0.2500  1.0000\n  Pd  Pd4       1.0000  0.8754  0.2500  0.2491  1.0000\n  Pd  Pd5       1.0000  0.3746  0.2500  0.2509  1.0000\n  Rb  Rb4       1.0000  0.1246  0.7500  0.7509  1.0000\n  Pd  Pd6       1.0000  0.6254  0.7500  0.7491  1.0000\n  S   S1        1.0000  0.3444  0.9183  0.6360  1.0000\n  S   S2        1.0000  0.2373  0.9183  0.8640  1.0000\n  S   S3        1.0000  0.0195  0.5817  0.6360  1.0000\n  S   S4        1.0000  0.8987  0.5817  0.8640  1.0000\n  S   S5        1.0000  0.6556  0.0817  0.3640  1.0000\n  S   S6        1.0000  0.7627  0.0817  0.1360  1.0000\n  S   S7        1.0000  0.9805  0.4183  0.3640  1.0000\n  S   S8        1.0000  0.1013  0.4183  0.1360  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9920072a-eb6a-4933-8aaf-c8fa4d689c9f",
    "mp_id": "mp-1205391",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TaSbO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9703\n_cell_length_b   5.5531\n_cell_length_c   11.8657\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TaSbO4\n_chemical_formula_sum   'Ta4 Sb4 O16'\n_cell_volume   327.5046\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.2500  0.6232  0.2500  1\n  Ta  Ta1  1  0.2500  0.8768  0.7500  1\n  Ta  Ta2  1  0.7500  0.3768  0.7500  1\n  Ta  Ta3  1  0.7500  0.1232  0.2500  1\n  Sb  Sb4  1  0.1974  0.2500  -0.0000  1\n  Sb  Sb5  1  0.3026  0.2500  0.5000  1\n  Sb  Sb6  1  0.6974  0.7500  0.5000  1\n  Sb  Sb7  1  0.8026  0.7500  -0.0000  1\n  O  O8  1  0.0822  0.5793  0.0948  1\n  O  O9  1  0.4178  0.9207  0.5948  1\n  O  O10  1  0.5822  0.4207  0.5948  1\n  O  O11  1  0.9178  0.0793  0.0948  1\n  O  O12  1  0.4923  0.3494  0.1982  1\n  O  O13  1  0.0077  0.1506  0.6982  1\n  O  O14  1  0.9923  0.6506  0.6982  1\n  O  O15  1  0.5077  0.8494  0.1982  1\n  O  O16  1  0.0077  0.3494  0.3018  1\n  O  O17  1  0.4923  0.1506  0.8018  1\n  O  O18  1  0.5077  0.6506  0.8018  1\n  O  O19  1  0.9923  0.8494  0.3018  1\n  O  O20  1  0.4178  0.5793  0.4052  1\n  O  O21  1  0.0822  0.9207  0.9052  1\n  O  O22  1  0.9178  0.4207  0.9052  1\n  O  O23  1  0.5822  0.0793  0.4052  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta2OTaSb4O15Ta\n_chemical_formula_sum              \"Ta4 O16 Sb4\"\n_cell_length_a       4.9703\n_cell_length_b       5.5531\n_cell_length_c       11.8657\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.2500  0.6232  0.2500  1.0000\n  Ta  Ta2       1.0000  0.2500  0.8768  0.7500  1.0000\n  O   O1        1.0000  0.7500  0.3768  0.7500  1.0000\n  Ta  Ta3       1.0000  0.7500  0.1232  0.2500  1.0000\n  Sb  Sb1       1.0000  0.1974  0.2500  0.0000  1.0000\n  Sb  Sb2       1.0000  0.3026  0.2500  0.5000  1.0000\n  Sb  Sb3       1.0000  0.6974  0.7500  0.5000  1.0000\n  Sb  Sb4       1.0000  0.8026  0.7500  0.0000  1.0000\n  O   O2        1.0000  0.0822  0.5793  0.0948  1.0000\n  O   O3        1.0000  0.4178  0.9207  0.5948  1.0000\n  O   O4        1.0000  0.5822  0.4207  0.5948  1.0000\n  O   O5        1.0000  0.9178  0.0793  0.0948  1.0000\n  O   O6        1.0000  0.4923  0.3494  0.1982  1.0000\n  O   O7        1.0000  0.0077  0.1506  0.6982  1.0000\n  O   O8        1.0000  0.9923  0.6506  0.6982  1.0000\n  O   O9        1.0000  0.5077  0.8494  0.1982  1.0000\n  O   O10       1.0000  0.0077  0.3494  0.3018  1.0000\n  O   O11       1.0000  0.4923  0.1506  0.8018  1.0000\n  O   O12       1.0000  0.5077  0.6506  0.8018  1.0000\n  O   O13       1.0000  0.9923  0.8494  0.3018  1.0000\n  O   O14       1.0000  0.4178  0.5793  0.4052  1.0000\n  O   O15       1.0000  0.0822  0.9207  0.9052  1.0000\n  O   O16       1.0000  0.9178  0.4207  0.9052  1.0000\n  Ta  Ta4       1.0000  0.5822  0.0793  0.4052  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cf7dd261-6ccc-431f-8dc4-2d87ae959bc5",
    "mp_id": "mp-1205393",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4049\n_cell_length_b   5.4049\n_cell_length_c   8.8775\n_cell_angle_alpha   84.3779\n_cell_angle_beta   84.3779\n_cell_angle_gamma   60.4474\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlO3\n_chemical_formula_sum   'Al4 O12'\n_cell_volume   224.1421\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.6672  0.6682  0.4999  1\n  Al  Al1  1  0.6682  0.6672  0.9999  1\n  Al  Al2  1  0.3328  0.3318  0.5001  1\n  Al  Al3  1  0.3318  0.3328  0.0001  1\n  O  O4  1  0.9876  0.3823  0.5990  1\n  O  O5  1  0.3823  0.9876  0.0990  1\n  O  O6  1  0.0124  0.6177  0.4010  1\n  O  O7  1  0.6177  0.0124  0.9010  1\n  O  O8  1  0.3795  0.5998  0.5983  1\n  O  O9  1  0.5998  0.3795  0.0983  1\n  O  O10  1  0.6205  0.4002  0.4017  1\n  O  O11  1  0.4002  0.6205  0.9017  1\n  O  O12  1  0.5993  0.9912  0.5985  1\n  O  O13  1  0.9912  0.5993  0.0985  1\n  O  O14  1  0.4007  0.0088  0.4015  1\n  O  O15  1  0.0088  0.4007  0.9015  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al2OAlO10AlO\n_chemical_formula_sum              \"Al4 O12\"\n_cell_length_a       5.4049\n_cell_length_b       5.4049\n_cell_length_c       8.8775\n_cell_angle_alpha    84.3779\n_cell_angle_beta     84.3779\n_cell_angle_gamma    60.4474\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.6672  0.6682  0.4999  1.0000\n  Al  Al2       1.0000  0.6682  0.6672  0.9999  1.0000\n  O   O1        1.0000  0.3328  0.3318  0.5001  1.0000\n  Al  Al3       1.0000  0.3318  0.3328  0.0001  1.0000\n  O   O2        1.0000  0.9876  0.3823  0.5990  1.0000\n  O   O3        1.0000  0.3823  0.9876  0.0990  1.0000\n  O   O4        1.0000  0.0124  0.6177  0.4010  1.0000\n  O   O5        1.0000  0.6177  0.0124  0.9010  1.0000\n  O   O6        1.0000  0.3795  0.5998  0.5983  1.0000\n  O   O7        1.0000  0.5998  0.3795  0.0983  1.0000\n  O   O8        1.0000  0.6205  0.4002  0.4017  1.0000\n  O   O9        1.0000  0.4002  0.6205  0.9017  1.0000\n  O   O10       1.0000  0.5993  0.9912  0.5985  1.0000\n  O   O11       1.0000  0.9912  0.5993  0.0985  1.0000\n  Al  Al4       1.0000  0.4007  0.0088  0.4015  1.0000\n  O   O12       1.0000  0.0088  0.4007  0.9015  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "134a89e8-c2ce-47ac-bdbf-ae9d00e2666b",
    "mp_id": "mp-1205503",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ta(SnS)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3165\n_cell_length_b   3.3165\n_cell_length_c   24.1228\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ta(SnS)2\n_chemical_formula_sum   'Ta2 Sn4 S4'\n_cell_volume   229.7841\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.6667  0.3333  0.7500  1\n  Ta  Ta1  1  0.3333  0.6667  0.2500  1\n  Sn  Sn2  1  0.6667  0.3333  0.9397  1\n  Sn  Sn3  1  0.3333  0.6667  0.0603  1\n  Sn  Sn4  1  0.3333  0.6667  0.4397  1\n  Sn  Sn5  1  0.6667  0.3333  0.5603  1\n  S  S6  1  0.6667  0.3333  0.3149  1\n  S  S7  1  0.3333  0.6667  0.6851  1\n  S  S8  1  0.3333  0.6667  0.8149  1\n  S  S9  1  0.6667  0.3333  0.1851  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta2Sn2SSnSSnS2\n_chemical_formula_sum              \"Ta2 Sn4 S4\"\n_cell_length_a       3.3165\n_cell_length_b       3.3165\n_cell_length_c       24.1228\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.6667  0.3333  0.7500  1.0000\n  Ta  Ta2       1.0000  0.3333  0.6667  0.2500  1.0000\n  Sn  Sn1       1.0000  0.6667  0.3333  0.9397  1.0000\n  Sn  Sn2       1.0000  0.3333  0.6667  0.0603  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.4397  1.0000\n  Sn  Sn3       1.0000  0.6667  0.3333  0.5603  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.3149  1.0000\n  Sn  Sn4       1.0000  0.3333  0.6667  0.6851  1.0000\n  S   S3        1.0000  0.3333  0.6667  0.8149  1.0000\n  S   S4        1.0000  0.6667  0.3333  0.1851  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "33021ab1-5cbc-4a8b-8d3f-cbbbbd29e8be",
    "mp_id": "mp-1205523",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sc2CoGe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3894\n_cell_length_b   5.3894\n_cell_length_c   9.6031\n_cell_angle_alpha   63.7645\n_cell_angle_beta   63.7645\n_cell_angle_gamma   43.5843\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sc2CoGe2\n_chemical_formula_sum   'Sc4 Co2 Ge4'\n_cell_volume   169.1088\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.9945  0.9945  0.3329  1\n  Sc  Sc1  1  0.0055  0.0055  0.6671  1\n  Sc  Sc2  1  0.8195  0.8195  0.1065  1\n  Sc  Sc3  1  0.1805  0.1805  0.8935  1\n  Co  Co4  1  0.7217  0.7217  0.6290  1\n  Co  Co5  1  0.2783  0.2783  0.3710  1\n  Ge  Ge6  1  0.6482  0.6482  0.4255  1\n  Ge  Ge7  1  0.3518  0.3518  0.5745  1\n  Ge  Ge8  1  0.5201  0.5201  0.1261  1\n  Ge  Ge9  1  0.4799  0.4799  0.8739  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc4GeCo2Ge3\n_chemical_formula_sum              \"Sc4 Ge4 Co2\"\n_cell_length_a       5.3894\n_cell_length_b       5.3894\n_cell_length_c       9.6031\n_cell_angle_alpha    63.7645\n_cell_angle_beta     63.7645\n_cell_angle_gamma    43.5843\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.9945  0.9945  0.3329  1.0000\n  Sc  Sc2       1.0000  0.0055  0.0055  0.6671  1.0000\n  Sc  Sc3       1.0000  0.8195  0.8195  0.1065  1.0000\n  Sc  Sc4       1.0000  0.1805  0.1805  0.8935  1.0000\n  Ge  Ge1       1.0000  0.7217  0.7217  0.6290  1.0000\n  Co  Co1       1.0000  0.2783  0.2783  0.3710  1.0000\n  Co  Co2       1.0000  0.6482  0.6482  0.4255  1.0000\n  Ge  Ge2       1.0000  0.3518  0.3518  0.5745  1.0000\n  Ge  Ge3       1.0000  0.5201  0.5201  0.1261  1.0000\n  Ge  Ge4       1.0000  0.4799  0.4799  0.8739  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4d17459b-ae19-4a2e-b34d-816bbd34585b",
    "mp_id": "mp-1205660",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaIn(NF3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1431\n_cell_length_b   6.1431\n_cell_length_c   6.1431\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaIn(NF3)2\n_chemical_formula_sum   'Na1 In1 N2 F6'\n_cell_volume   163.9280\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.5000  0.5000  1\n  In  In1  1  0.0000  0.0000  0.0000  1\n  N  N2  1  0.2500  0.2500  0.2500  1\n  N  N3  1  0.7500  0.7500  0.7500  1\n  F  F4  1  0.7587  0.2413  0.2413  1\n  F  F5  1  0.2413  0.7587  0.7587  1\n  F  F6  1  0.2413  0.7587  0.2413  1\n  F  F7  1  0.7587  0.2413  0.7587  1\n  F  F8  1  0.2413  0.2413  0.7587  1\n  F  F9  1  0.7587  0.7587  0.2413  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaInNF5NF\n_chemical_formula_sum              \"Na1 In1 N2 F6\"\n_cell_length_a       6.1431\n_cell_length_b       6.1431\n_cell_length_c       6.1431\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5000  0.5000  0.5000  1.0000\n  In  In1       1.0000  0.0000  0.0000  0.0000  1.0000\n  N   N1        1.0000  0.2500  0.2500  0.2500  1.0000\n  F   F1        1.0000  0.7500  0.7500  0.7500  1.0000\n  F   F2        1.0000  0.7587  0.2413  0.2413  1.0000\n  F   F3        1.0000  0.2413  0.7587  0.7587  1.0000\n  F   F4        1.0000  0.2413  0.7587  0.2413  1.0000\n  F   F5        1.0000  0.7587  0.2413  0.7587  1.0000\n  N   N2        1.0000  0.2413  0.2413  0.7587  1.0000\n  F   F6        1.0000  0.7587  0.7587  0.2413  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7230174f-243b-4929-819d-ff4b196fa410",
    "mp_id": "mp-1205745",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Er2MgCu2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.6283\n_cell_length_b   7.5403\n_cell_length_c   7.5403\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Er2MgCu2\n_chemical_formula_sum   'Er4 Mg2 Cu4'\n_cell_volume   206.2930\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.5000  0.1702  0.6702  1\n  Er  Er1  1  0.5000  0.8298  0.3298  1\n  Er  Er2  1  0.5000  0.3298  0.1702  1\n  Er  Er3  1  0.5000  0.6702  0.8298  1\n  Mg  Mg4  1  -0.0000  0.0000  0.0000  1\n  Mg  Mg5  1  -0.0000  0.5000  0.5000  1\n  Cu  Cu6  1  -0.0000  0.6223  0.1223  1\n  Cu  Cu7  1  0.0000  0.3777  0.8777  1\n  Cu  Cu8  1  0.0000  0.8777  0.6223  1\n  Cu  Cu9  1  0.0000  0.1223  0.3777  1\n",
    "output": "data_image0\n_chemical_formula_structural       CuEr3Mg2ErCu3\n_chemical_formula_sum              \"Cu4 Er4 Mg2\"\n_cell_length_a       3.6283\n_cell_length_b       7.5403\n_cell_length_c       7.5403\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.5000  0.1702  0.6702  1.0000\n  Er  Er1       1.0000  0.5000  0.8298  0.3298  1.0000\n  Er  Er2       1.0000  0.5000  0.3298  0.1702  1.0000\n  Er  Er3       1.0000  0.5000  0.6702  0.8298  1.0000\n  Mg  Mg1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Er  Er4       1.0000  0.0000  0.6223  0.1223  1.0000\n  Cu  Cu2       1.0000  0.0000  0.3777  0.8777  1.0000\n  Cu  Cu3       1.0000  0.0000  0.8777  0.6223  1.0000\n  Cu  Cu4       1.0000  0.0000  0.1223  0.3777  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "62b16d04-ae7a-400c-928d-17f6c940c7b7",
    "mp_id": "mp-1205771",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_UFe2SiC\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6589\n_cell_length_b   5.6589\n_cell_length_c   6.4845\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   141.2542\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   UFe2SiC\n_chemical_formula_sum   'U2 Fe4 Si2 C2'\n_cell_volume   129.9661\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.5605  0.4395  0.2500  1\n  U  U1  1  0.4395  0.5605  0.7500  1\n  Fe  Fe2  1  0.8363  0.1637  0.0543  1\n  Fe  Fe3  1  0.1637  0.8363  0.9457  1\n  Fe  Fe4  1  0.1637  0.8363  0.5543  1\n  Fe  Fe5  1  0.8363  0.1637  0.4457  1\n  Si  Si6  1  0.2803  0.7197  0.2500  1\n  Si  Si7  1  0.7197  0.2803  0.7500  1\n  C  C8  1  -0.0000  0.0000  0.0000  1\n  C  C9  1  -0.0000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       U2Fe4CSi2C\n_chemical_formula_sum              \"U2 Fe4 C2 Si2\"\n_cell_length_a       5.6589\n_cell_length_b       5.6589\n_cell_length_c       6.4845\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    141.2542\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.5605  0.4395  0.2500  1.0000\n  U   U2        1.0000  0.4395  0.5605  0.7500  1.0000\n  Fe  Fe1       1.0000  0.8363  0.1637  0.0543  1.0000\n  Fe  Fe2       1.0000  0.1637  0.8363  0.9457  1.0000\n  Fe  Fe3       1.0000  0.1637  0.8363  0.5543  1.0000\n  Fe  Fe4       1.0000  0.8363  0.1637  0.4457  1.0000\n  C   C1        1.0000  0.2803  0.7197  0.2500  1.0000\n  Si  Si1       1.0000  0.7197  0.2803  0.7500  1.0000\n  Si  Si2       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C2        1.0000  0.0000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f9bd1af-6e05-4532-8e97-ed5d8e65b6a1",
    "mp_id": "mp-1206201",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Gd2Co2I\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0210\n_cell_length_b   4.0210\n_cell_length_c   17.1276\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Gd2Co2I\n_chemical_formula_sum   'Gd4 Co4 I2'\n_cell_volume   239.8303\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  -0.0000  0.0000  0.1051  1\n  Gd  Gd1  1  0.0000  -0.0000  0.8949  1\n  Gd  Gd2  1  0.0000  -0.0000  0.6051  1\n  Gd  Gd3  1  -0.0000  0.0000  0.3949  1\n  Co  Co4  1  0.3333  0.6667  0.5025  1\n  Co  Co5  1  0.6667  0.3333  0.4975  1\n  Co  Co6  1  0.6667  0.3333  0.0025  1\n  Co  Co7  1  0.3333  0.6667  0.9975  1\n  I  I8  1  0.3333  0.6667  0.2500  1\n  I  I9  1  0.6667  0.3333  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd3CoGdCo3I2\n_chemical_formula_sum              \"Gd4 Co4 I2\"\n_cell_length_a       4.0210\n_cell_length_b       4.0210\n_cell_length_c       17.1276\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.0000  0.0000  0.1051  1.0000\n  Gd  Gd2       1.0000  0.0000  0.0000  0.8949  1.0000\n  Gd  Gd3       1.0000  0.0000  0.0000  0.6051  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.3949  1.0000\n  Gd  Gd4       1.0000  0.3333  0.6667  0.5025  1.0000\n  Co  Co2       1.0000  0.6667  0.3333  0.4975  1.0000\n  Co  Co3       1.0000  0.6667  0.3333  0.0025  1.0000\n  Co  Co4       1.0000  0.3333  0.6667  0.9975  1.0000\n  I   I1        1.0000  0.3333  0.6667  0.2500  1.0000\n  I   I2        1.0000  0.6667  0.3333  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9092092f-6b0b-4a47-bfe1-eda6d31f3e56",
    "mp_id": "mp-1206250",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2CdPd2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8993\n_cell_length_b   7.8993\n_cell_length_c   3.9686\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2CdPd2\n_chemical_formula_sum   'La4 Cd2 Pd4'\n_cell_volume   247.6365\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.6764  0.1764  0.5000  1\n  La  La1  1  0.3236  0.8236  0.5000  1\n  La  La2  1  0.1764  0.3236  0.5000  1\n  La  La3  1  0.8236  0.6764  0.5000  1\n  Cd  Cd4  1  0.0000  -0.0000  0.0000  1\n  Cd  Cd5  1  0.5000  0.5000  0.0000  1\n  Pd  Pd6  1  0.1268  0.6268  0.0000  1\n  Pd  Pd7  1  0.8732  0.3732  -0.0000  1\n  Pd  Pd8  1  0.6268  0.8732  0.0000  1\n  Pd  Pd9  1  0.3732  0.1268  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       La4PdCdPdCdPd2\n_chemical_formula_sum              \"La4 Pd4 Cd2\"\n_cell_length_a       7.8993\n_cell_length_b       7.8993\n_cell_length_c       3.9686\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.6764  0.1764  0.5000  1.0000\n  La  La2       1.0000  0.3236  0.8236  0.5000  1.0000\n  La  La3       1.0000  0.1764  0.3236  0.5000  1.0000\n  La  La4       1.0000  0.8236  0.6764  0.5000  1.0000\n  Pd  Pd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cd  Cd1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Pd  Pd2       1.0000  0.1268  0.6268  0.0000  1.0000\n  Cd  Cd2       1.0000  0.8732  0.3732  0.0000  1.0000\n  Pd  Pd3       1.0000  0.6268  0.8732  0.0000  1.0000\n  Pd  Pd4       1.0000  0.3732  0.1268  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4d17e822-28eb-430d-b990-c440da4607a0",
    "mp_id": "mp-1206569",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tm2MgSi2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1388\n_cell_length_b   7.0731\n_cell_length_c   7.0731\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tm2MgSi2\n_chemical_formula_sum   'Tm4 Mg2 Si4'\n_cell_volume   207.0571\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tm  Tm0  1  0.5000  0.1781  0.6781  1\n  Tm  Tm1  1  0.5000  0.8219  0.3219  1\n  Tm  Tm2  1  0.5000  0.3219  0.1781  1\n  Tm  Tm3  1  0.5000  0.6781  0.8219  1\n  Mg  Mg4  1  0.0000  0.0000  -0.0000  1\n  Mg  Mg5  1  0.0000  0.5000  0.5000  1\n  Si  Si6  1  -0.0000  0.6186  0.1186  1\n  Si  Si7  1  0.0000  0.3814  0.8814  1\n  Si  Si8  1  0.0000  0.8814  0.6186  1\n  Si  Si9  1  -0.0000  0.1186  0.3814  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tm4SiMg2Si3\n_chemical_formula_sum              \"Tm4 Si4 Mg2\"\n_cell_length_a       4.1388\n_cell_length_b       7.0731\n_cell_length_c       7.0731\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tm  Tm1       1.0000  0.5000  0.1781  0.6781  1.0000\n  Tm  Tm2       1.0000  0.5000  0.8219  0.3219  1.0000\n  Tm  Tm3       1.0000  0.5000  0.3219  0.1781  1.0000\n  Tm  Tm4       1.0000  0.5000  0.6781  0.8219  1.0000\n  Si  Si1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.0000  0.6186  0.1186  1.0000\n  Si  Si2       1.0000  0.0000  0.3814  0.8814  1.0000\n  Si  Si3       1.0000  0.0000  0.8814  0.6186  1.0000\n  Si  Si4       1.0000  0.0000  0.1186  0.3814  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e491e265-90db-4f00-aff0-9e8b1deb1149",
    "mp_id": "mp-1206737",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaSr2ReO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8092\n_cell_length_b   5.8092\n_cell_length_c   5.8092\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaSr2ReO6\n_chemical_formula_sum   'Na1 Sr2 Re1 O6'\n_cell_volume   138.6206\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.5000  0.5000  1\n  Sr  Sr1  1  0.2500  0.2500  0.2500  1\n  Sr  Sr2  1  0.7500  0.7500  0.7500  1\n  Re  Re3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.7694  0.2306  0.2306  1\n  O  O5  1  0.2306  0.7694  0.7694  1\n  O  O6  1  0.2306  0.7694  0.2306  1\n  O  O7  1  0.7694  0.2306  0.7694  1\n  O  O8  1  0.2306  0.2306  0.7694  1\n  O  O9  1  0.7694  0.7694  0.2306  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaOSrReO2SrO3\n_chemical_formula_sum              \"Na1 O6 Sr2 Re1\"\n_cell_length_a       5.8092\n_cell_length_b       5.8092\n_cell_length_c       5.8092\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Sr  Sr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Re  Re1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7694  0.2306  0.2306  1.0000\n  O   O3        1.0000  0.2306  0.7694  0.7694  1.0000\n  Sr  Sr2       1.0000  0.2306  0.7694  0.2306  1.0000\n  O   O4        1.0000  0.7694  0.2306  0.7694  1.0000\n  O   O5        1.0000  0.2306  0.2306  0.7694  1.0000\n  O   O6        1.0000  0.7694  0.7694  0.2306  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cf972d9f-6dec-4263-8302-57c6c55c0f01",
    "mp_id": "mp-1207144",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2MgPd2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7500\n_cell_length_b   7.7500\n_cell_length_c   3.8703\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2MgPd2\n_chemical_formula_sum   'Sm4 Mg2 Pd4'\n_cell_volume   232.4583\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.6706  0.1706  0.5000  1\n  Sm  Sm1  1  0.3294  0.8294  0.5000  1\n  Sm  Sm2  1  0.1706  0.3294  0.5000  1\n  Sm  Sm3  1  0.8294  0.6706  0.5000  1\n  Mg  Mg4  1  0.0000  -0.0000  0.0000  1\n  Mg  Mg5  1  0.5000  0.5000  0.0000  1\n  Pd  Pd6  1  0.1299  0.6299  -0.0000  1\n  Pd  Pd7  1  0.8701  0.3701  0.0000  1\n  Pd  Pd8  1  0.6299  0.8701  -0.0000  1\n  Pd  Pd9  1  0.3701  0.1299  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm3PdMg2Pd3Sm\n_chemical_formula_sum              \"Sm4 Pd4 Mg2\"\n_cell_length_a       7.7500\n_cell_length_b       7.7500\n_cell_length_c       3.8703\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.6706  0.1706  0.5000  1.0000\n  Sm  Sm2       1.0000  0.3294  0.8294  0.5000  1.0000\n  Sm  Sm3       1.0000  0.1706  0.3294  0.5000  1.0000\n  Pd  Pd1       1.0000  0.8294  0.6706  0.5000  1.0000\n  Mg  Mg1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Pd  Pd2       1.0000  0.1299  0.6299  0.0000  1.0000\n  Pd  Pd3       1.0000  0.8701  0.3701  0.0000  1.0000\n  Pd  Pd4       1.0000  0.6299  0.8701  0.0000  1.0000\n  Sm  Sm4       1.0000  0.3701  0.1299  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8f8fa1da-c5d1-4032-98db-9f04d117b92d",
    "mp_id": "mp-1207398",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr6Be15Pd8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0885\n_cell_length_b   8.0885\n_cell_length_c   8.0885\n_cell_angle_alpha   59.9964\n_cell_angle_beta   59.9964\n_cell_angle_gamma   59.9964\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr6Be15Pd8\n_chemical_formula_sum   'Zr6 Be15 Pd8'\n_cell_volume   374.1568\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.7008  0.2992  0.2992  1\n  Zr  Zr1  1  0.2992  0.7008  0.7008  1\n  Zr  Zr2  1  0.2992  0.7008  0.2992  1\n  Zr  Zr3  1  0.7008  0.2992  0.7008  1\n  Zr  Zr4  1  0.2992  0.2992  0.7008  1\n  Zr  Zr5  1  0.7008  0.7008  0.2992  1\n  Be  Be6  1  0.3248  0.3248  0.3248  1\n  Be  Be7  1  0.6752  0.6752  0.6752  1\n  Be  Be8  1  0.3248  0.3248  0.0256  1\n  Be  Be9  1  0.3248  0.0256  0.3248  1\n  Be  Be10  1  0.6752  0.6752  0.9744  1\n  Be  Be11  1  0.6752  0.9744  0.6752  1\n  Be  Be12  1  0.0256  0.3248  0.3248  1\n  Be  Be13  1  0.9744  0.6752  0.6752  1\n  Be  Be14  1  0.5000  -0.0000  0.0000  1\n  Be  Be15  1  -0.0000  0.5000  0.5000  1\n  Be  Be16  1  -0.0000  0.5000  0.0000  1\n  Be  Be17  1  0.5000  -0.0000  0.5000  1\n  Be  Be18  1  -0.0000  0.0000  0.5000  1\n  Be  Be19  1  0.5000  0.5000  -0.0000  1\n  Be  Be20  1  -0.0000  -0.0000  0.0000  1\n  Pd  Pd21  1  0.1251  0.1251  0.1251  1\n  Pd  Pd22  1  0.8749  0.8749  0.8749  1\n  Pd  Pd23  1  0.1251  0.1251  0.6248  1\n  Pd  Pd24  1  0.1251  0.6248  0.1251  1\n  Pd  Pd25  1  0.8749  0.8749  0.3752  1\n  Pd  Pd26  1  0.8749  0.3752  0.8749  1\n  Pd  Pd27  1  0.6248  0.1251  0.1251  1\n  Pd  Pd28  1  0.3752  0.8749  0.8749  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zr5PdBe15PdZrPd6\n_chemical_formula_sum              \"Zr6 Pd8 Be15\"\n_cell_length_a       8.0885\n_cell_length_b       8.0885\n_cell_length_c       8.0885\n_cell_angle_alpha    59.9964\n_cell_angle_beta     59.9964\n_cell_angle_gamma    59.9964\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.7008  0.2992  0.2992  1.0000\n  Zr  Zr2       1.0000  0.2992  0.7008  0.7008  1.0000\n  Zr  Zr3       1.0000  0.2992  0.7008  0.2992  1.0000\n  Zr  Zr4       1.0000  0.7008  0.2992  0.7008  1.0000\n  Zr  Zr5       1.0000  0.2992  0.2992  0.7008  1.0000\n  Pd  Pd1       1.0000  0.7008  0.7008  0.2992  1.0000\n  Be  Be1       1.0000  0.3248  0.3248  0.3248  1.0000\n  Be  Be2       1.0000  0.6752  0.6752  0.6752  1.0000\n  Be  Be3       1.0000  0.3248  0.3248  0.0256  1.0000\n  Be  Be4       1.0000  0.3248  0.0256  0.3248  1.0000\n  Be  Be5       1.0000  0.6752  0.6752  0.9744  1.0000\n  Be  Be6       1.0000  0.6752  0.9744  0.6752  1.0000\n  Be  Be7       1.0000  0.0256  0.3248  0.3248  1.0000\n  Be  Be8       1.0000  0.9744  0.6752  0.6752  1.0000\n  Be  Be9       1.0000  0.5000  1.0000  0.0000  1.0000\n  Be  Be10      1.0000  1.0000  0.5000  0.5000  1.0000\n  Be  Be11      1.0000  1.0000  0.5000  0.0000  1.0000\n  Be  Be12      1.0000  0.5000  1.0000  0.5000  1.0000\n  Be  Be13      1.0000  1.0000  0.0000  0.5000  1.0000\n  Be  Be14      1.0000  0.5000  0.5000  1.0000  1.0000\n  Be  Be15      1.0000  1.0000  1.0000  9e-07  1.0000\n  Pd  Pd2       1.0000  0.1251  0.1251  0.1251  1.0000\n  Zr  Zr6       1.0000  0.8749  0.8749  0.8749  1.0000\n  Pd  Pd3       1.0000  0.1251  0.1251  0.6248  1.0000\n  Pd  Pd4       1.0000  0.1251  0.6248  0.1251  1.0000\n  Pd  Pd5       1.0000  0.8749  0.8749  0.3752  1.0000\n  Pd  Pd6       1.0000  0.8749  0.3752  0.8749  1.0000\n  Pd  Pd7       1.0000  0.6248  0.1251  0.1251  1.0000\n  Pd  Pd8       1.0000  0.3752  0.8749  0.8749  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "338a2f35-92be-444d-8c8d-b3bd0c26cbb1",
    "mp_id": "mp-1207522",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YbPO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2363\n_cell_length_b   6.2363\n_cell_length_c   7.0912\n_cell_angle_alpha   116.0860\n_cell_angle_beta   116.0860\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YbPO2\n_chemical_formula_sum   'Yb4 P4 O8'\n_cell_volume   215.9797\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Yb  Yb0  1  0.6250  0.8750  0.2500  1\n  Yb  Yb1  1  0.6250  0.3750  0.2500  1\n  Yb  Yb2  1  0.6250  0.3750  0.7500  1\n  Yb  Yb3  1  0.1250  0.3750  0.7500  1\n  P  P4  1  0.1250  0.3750  0.2500  1\n  P  P5  1  0.1250  0.8750  0.2500  1\n  P  P6  1  0.1250  0.8750  0.7500  1\n  P  P7  1  0.6250  0.8750  0.7500  1\n  O  O8  1  0.4251  0.1698  0.3396  1\n  O  O9  1  0.9145  0.1698  0.3396  1\n  O  O10  1  0.4198  0.1751  0.8396  1\n  O  O11  1  0.8249  0.5802  0.1604  1\n  O  O12  1  0.4198  0.6645  0.8396  1\n  O  O13  1  0.3355  0.5802  0.1604  1\n  O  O14  1  0.8302  0.5749  0.6604  1\n  O  O15  1  0.8302  0.0855  0.6604  1\n",
    "output": "data_image0\n_chemical_formula_structural       Yb4P2OPO4PO3\n_chemical_formula_sum              \"Yb4 P4 O8\"\n_cell_length_a       6.2363\n_cell_length_b       6.2363\n_cell_length_c       7.0912\n_cell_angle_alpha    116.0860\n_cell_angle_beta     116.0860\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Yb  Yb1       1.0000  0.6250  0.8750  0.2500  1.0000\n  Yb  Yb2       1.0000  0.6250  0.3750  0.2500  1.0000\n  Yb  Yb3       1.0000  0.6250  0.3750  0.7500  1.0000\n  Yb  Yb4       1.0000  0.1250  0.3750  0.7500  1.0000\n  P   P1        1.0000  0.1250  0.3750  0.2500  1.0000\n  P   P2        1.0000  0.1250  0.8750  0.2500  1.0000\n  O   O1        1.0000  0.1250  0.8750  0.7500  1.0000\n  P   P3        1.0000  0.6250  0.8750  0.7500  1.0000\n  O   O2        1.0000  0.4251  0.1698  0.3396  1.0000\n  O   O3        1.0000  0.9145  0.1698  0.3396  1.0000\n  O   O4        1.0000  0.4198  0.1751  0.8396  1.0000\n  O   O5        1.0000  0.8249  0.5802  0.1604  1.0000\n  P   P4        1.0000  0.4198  0.6645  0.8396  1.0000\n  O   O6        1.0000  0.3355  0.5802  0.1604  1.0000\n  O   O7        1.0000  0.8302  0.5749  0.6604  1.0000\n  O   O8        1.0000  0.8302  0.0855  0.6604  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fcf9d761-60d1-4c30-92ce-5e33a7bf0f08",
    "mp_id": "mp-1207549",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZnRu2Br7N6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7462\n_cell_length_b   10.6820\n_cell_length_c   10.3899\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   94.4015\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZnRu2Br7N6\n_chemical_formula_sum   'Zn2 Ru4 Br14 N12'\n_cell_volume   857.1797\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.2421  0.5258  0.7500  1\n  Zn  Zn1  1  0.7579  0.4742  0.2500  1\n  Ru  Ru2  1  0.7149  0.1731  0.7500  1\n  Ru  Ru3  1  0.2851  0.8269  0.2500  1\n  Ru  Ru4  1  0.8564  0.8463  0.7500  1\n  Ru  Ru5  1  0.1436  0.1537  0.2500  1\n  Br  Br6  1  0.0336  0.1036  0.7500  1\n  Br  Br7  1  0.9664  0.8964  0.2500  1\n  Br  Br8  1  0.6385  0.5789  0.4381  1\n  Br  Br9  1  0.3615  0.4211  0.5619  1\n  Br  Br10  1  0.3615  0.4211  0.9381  1\n  Br  Br11  1  0.6385  0.5789  0.0619  1\n  Br  Br12  1  0.6760  0.9669  0.9208  1\n  Br  Br13  1  0.3240  0.0331  0.0792  1\n  Br  Br14  1  0.3240  0.0331  0.4208  1\n  Br  Br15  1  0.6760  0.9669  0.5792  1\n  Br  Br16  1  0.2779  0.7530  0.7500  1\n  Br  Br17  1  0.7221  0.2470  0.2500  1\n  Br  Br18  1  0.9282  0.4691  0.7500  1\n  Br  Br19  1  0.0718  0.5309  0.2500  1\n  N  N20  1  0.0170  0.8287  0.8779  1\n  N  N21  1  0.9830  0.1713  0.1221  1\n  N  N22  1  0.9830  0.1713  0.3779  1\n  N  N23  1  0.0170  0.8287  0.6221  1\n  N  N24  1  0.7530  0.2769  0.8800  1\n  N  N25  1  0.2470  0.7231  0.1200  1\n  N  N26  1  0.2470  0.7231  0.3800  1\n  N  N27  1  0.7530  0.2769  0.6200  1\n  N  N28  1  0.7343  0.7063  0.7500  1\n  N  N29  1  0.2657  0.2937  0.2500  1\n  N  N30  1  0.4828  0.1348  0.7500  1\n  N  N31  1  0.5172  0.8652  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn2Ru4Br12NBrN11Br\n_chemical_formula_sum              \"Zn2 Ru4 Br14 N12\"\n_cell_length_a       7.7462\n_cell_length_b       10.6820\n_cell_length_c       10.3899\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    94.4015\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.2421  0.5258  0.7500  1.0000\n  Zn  Zn2       1.0000  0.7579  0.4742  0.2500  1.0000\n  Ru  Ru1       1.0000  0.7149  0.1731  0.7500  1.0000\n  Ru  Ru2       1.0000  0.2851  0.8269  0.2500  1.0000\n  Ru  Ru3       1.0000  0.8564  0.8463  0.7500  1.0000\n  Ru  Ru4       1.0000  0.1436  0.1537  0.2500  1.0000\n  Br  Br1       1.0000  0.0336  0.1036  0.7500  1.0000\n  Br  Br2       1.0000  0.9664  0.8964  0.2500  1.0000\n  Br  Br3       1.0000  0.6385  0.5789  0.4381  1.0000\n  Br  Br4       1.0000  0.3615  0.4211  0.5619  1.0000\n  Br  Br5       1.0000  0.3615  0.4211  0.9381  1.0000\n  Br  Br6       1.0000  0.6385  0.5789  0.0619  1.0000\n  Br  Br7       1.0000  0.6760  0.9669  0.9208  1.0000\n  Br  Br8       1.0000  0.3240  0.0331  0.0792  1.0000\n  Br  Br9       1.0000  0.3240  0.0331  0.4208  1.0000\n  Br  Br10      1.0000  0.6760  0.9669  0.5792  1.0000\n  Br  Br11      1.0000  0.2779  0.7530  0.7500  1.0000\n  Br  Br12      1.0000  0.7221  0.2470  0.2500  1.0000\n  N   N1        1.0000  0.9282  0.4691  0.7500  1.0000\n  Br  Br13      1.0000  0.0718  0.5309  0.2500  1.0000\n  N   N2        1.0000  0.0170  0.8287  0.8779  1.0000\n  N   N3        1.0000  0.9830  0.1713  0.1222  1.0000\n  N   N4        1.0000  0.9830  0.1713  0.3779  1.0000\n  N   N5        1.0000  0.0170  0.8287  0.6222  1.0000\n  N   N6        1.0000  0.7530  0.2769  0.8800  1.0000\n  N   N7        1.0000  0.2470  0.7231  0.1200  1.0000\n  N   N8        1.0000  0.2470  0.7231  0.3800  1.0000\n  N   N9        1.0000  0.7530  0.2769  0.6200  1.0000\n  N   N10       1.0000  0.7343  0.7063  0.7500  1.0000\n  N   N11       1.0000  0.2657  0.2937  0.2500  1.0000\n  N   N12       1.0000  0.4828  0.1348  0.7500  1.0000\n  Br  Br14      1.0000  0.5172  0.8652  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b3a6e761-3a40-4d95-84f6-9456baa41912",
    "mp_id": "mp-1207596",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Yb(AlC)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3893\n_cell_length_b   3.3893\n_cell_length_c   17.0771\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Yb(AlC)3\n_chemical_formula_sum   'Yb2 Al6 C6'\n_cell_volume   169.8853\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Yb  Yb0  1  0.0000  0.0000  0.0000  1\n  Yb  Yb1  1  0.0000  0.0000  0.5000  1\n  Al  Al2  1  0.3333  0.6667  0.7500  1\n  Al  Al3  1  0.6667  0.3333  0.2500  1\n  Al  Al4  1  0.3333  0.6667  0.1327  1\n  Al  Al5  1  0.6667  0.3333  0.8673  1\n  Al  Al6  1  0.6667  0.3333  0.6327  1\n  Al  Al7  1  0.3333  0.6667  0.3673  1\n  C  C8  1  0.3333  0.6667  0.5910  1\n  C  C9  1  0.6667  0.3333  0.4090  1\n  C  C10  1  0.6667  0.3333  0.0910  1\n  C  C11  1  0.3333  0.6667  0.9090  1\n  C  C12  1  0.3333  0.6667  0.2500  1\n  C  C13  1  0.6667  0.3333  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       YbAl4YbAl2C6\n_chemical_formula_sum              \"Yb2 Al6 C6\"\n_cell_length_a       3.3893\n_cell_length_b       3.3893\n_cell_length_c       17.0771\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Yb  Yb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Al  Al2       1.0000  0.3333  0.6667  0.7500  1.0000\n  Al  Al3       1.0000  0.6667  0.3333  0.2500  1.0000\n  Al  Al4       1.0000  0.3333  0.6667  0.1327  1.0000\n  Yb  Yb2       1.0000  0.6667  0.3333  0.8673  1.0000\n  Al  Al5       1.0000  0.6667  0.3333  0.6327  1.0000\n  Al  Al6       1.0000  0.3333  0.6667  0.3673  1.0000\n  C   C1        1.0000  0.3333  0.6667  0.5910  1.0000\n  C   C2        1.0000  0.6667  0.3333  0.4090  1.0000\n  C   C3        1.0000  0.6667  0.3333  0.0910  1.0000\n  C   C4        1.0000  0.3333  0.6667  0.9090  1.0000\n  C   C5        1.0000  0.3333  0.6667  0.2500  1.0000\n  C   C6        1.0000  0.6667  0.3333  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a26667a8-16dd-404c-836b-98772140372e",
    "mp_id": "mp-1207733",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YCrGeO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8086\n_cell_length_b   7.4432\n_cell_length_c   8.4864\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YCrGeO5\n_chemical_formula_sum   'Y4 Cr4 Ge4 O20'\n_cell_volume   366.9034\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.5000  0.3566  0.3265  1\n  Y  Y1  1  0.5000  0.6434  0.6735  1\n  Y  Y2  1  0.5000  0.1434  0.8265  1\n  Y  Y3  1  0.5000  0.8566  0.1735  1\n  Cr  Cr4  1  0.2495  0.0000  0.5000  1\n  Cr  Cr5  1  0.7505  0.0000  0.5000  1\n  Cr  Cr6  1  0.7505  0.5000  0.0000  1\n  Cr  Cr7  1  0.2495  0.5000  0.0000  1\n  Ge  Ge8  1  0.0000  0.1173  0.1444  1\n  Ge  Ge9  1  0.0000  0.8827  0.8556  1\n  Ge  Ge10  1  0.0000  0.3826  0.6444  1\n  Ge  Ge11  1  0.0000  0.6173  0.3556  1\n  O  O12  1  0.2494  0.1108  0.2821  1\n  O  O13  1  0.7506  0.8892  0.7179  1\n  O  O14  1  0.2494  0.8892  0.7179  1\n  O  O15  1  0.7506  0.3892  0.7821  1\n  O  O16  1  0.7506  0.1108  0.2821  1\n  O  O17  1  0.2494  0.6108  0.2179  1\n  O  O18  1  0.7506  0.6108  0.2179  1\n  O  O19  1  0.2494  0.3892  0.7821  1\n  O  O20  1  0.0000  0.3426  0.0815  1\n  O  O21  1  0.0000  0.6574  0.9185  1\n  O  O22  1  0.0000  0.1574  0.5815  1\n  O  O23  1  0.0000  0.8426  0.4185  1\n  O  O24  1  0.5000  0.3316  0.0573  1\n  O  O25  1  0.5000  0.6684  0.9427  1\n  O  O26  1  0.5000  0.1684  0.5573  1\n  O  O27  1  0.5000  0.8316  0.4427  1\n  O  O28  1  0.2114  0.0000  0.0000  1\n  O  O29  1  0.7886  0.0000  0.0000  1\n  O  O30  1  0.7886  0.5000  0.5000  1\n  O  O31  1  0.2114  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y4Cr4Ge3O20Ge\n_chemical_formula_sum              \"Y4 Cr4 Ge4 O20\"\n_cell_length_a       5.8086\n_cell_length_b       7.4432\n_cell_length_c       8.4864\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.5000  0.3566  0.3265  1.0000\n  Y   Y2        1.0000  0.5000  0.6434  0.6735  1.0000\n  Y   Y3        1.0000  0.5000  0.1434  0.8265  1.0000\n  Y   Y4        1.0000  0.5000  0.8566  0.1735  1.0000\n  Cr  Cr1       1.0000  0.2495  0.0000  0.5000  1.0000\n  Cr  Cr2       1.0000  0.7505  0.0000  0.5000  1.0000\n  Cr  Cr3       1.0000  0.7505  0.5000  0.0000  1.0000\n  Cr  Cr4       1.0000  0.2495  0.5000  0.0000  1.0000\n  Ge  Ge1       1.0000  0.0000  0.1174  0.1444  1.0000\n  Ge  Ge2       1.0000  0.0000  0.8827  0.8556  1.0000\n  Ge  Ge3       1.0000  0.0000  0.3826  0.6444  1.0000\n  O   O1        1.0000  0.0000  0.6173  0.3556  1.0000\n  O   O2        1.0000  0.2494  0.1108  0.2821  1.0000\n  O   O3        1.0000  0.7506  0.8892  0.7179  1.0000\n  O   O4        1.0000  0.2494  0.8892  0.7179  1.0000\n  O   O5        1.0000  0.7506  0.3892  0.7821  1.0000\n  O   O6        1.0000  0.7506  0.1108  0.2821  1.0000\n  O   O7        1.0000  0.2494  0.6108  0.2179  1.0000\n  O   O8        1.0000  0.7506  0.6108  0.2179  1.0000\n  O   O9        1.0000  0.2494  0.3892  0.7821  1.0000\n  O   O10       1.0000  0.0000  0.3426  0.0815  1.0000\n  O   O11       1.0000  0.0000  0.6574  0.9185  1.0000\n  O   O12       1.0000  0.0000  0.1574  0.5815  1.0000\n  O   O13       1.0000  0.0000  0.8426  0.4185  1.0000\n  O   O14       1.0000  0.5000  0.3316  0.0573  1.0000\n  O   O15       1.0000  0.5000  0.6684  0.9427  1.0000\n  O   O16       1.0000  0.5000  0.1684  0.5573  1.0000\n  O   O17       1.0000  0.5000  0.8316  0.4427  1.0000\n  O   O18       1.0000  0.2114  0.0000  0.0000  1.0000\n  O   O19       1.0000  0.7886  0.0000  0.0000  1.0000\n  O   O20       1.0000  0.7886  0.5000  0.5000  1.0000\n  Ge  Ge4       1.0000  0.2114  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7451aa14-b696-4b59-9869-fda7ba777ee2",
    "mp_id": "mp-1207797",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y3Ga9Cu2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0880\n_cell_length_b   8.0880\n_cell_length_c   8.0880\n_cell_angle_alpha   150.2022\n_cell_angle_beta   104.8228\n_cell_angle_gamma   82.8992\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y3Ga9Cu2\n_chemical_formula_sum   'Y3 Ga9 Cu2'\n_cell_volume   248.7826\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.3193  0.3193  0.0000  1\n  Y  Y1  1  0.6807  0.6807  -0.0000  1\n  Y  Y2  1  0.0000  -0.0000  0.0000  1\n  Ga  Ga3  1  0.7098  0.3381  0.3717  1\n  Ga  Ga4  1  0.2902  0.6619  0.6283  1\n  Ga  Ga5  1  0.9664  0.3381  0.6283  1\n  Ga  Ga6  1  0.0336  0.6619  0.3717  1\n  Ga  Ga7  1  0.4084  0.1305  0.2779  1\n  Ga  Ga8  1  0.5916  0.8695  0.7221  1\n  Ga  Ga9  1  0.8526  0.1305  0.7221  1\n  Ga  Ga10  1  0.1474  0.8695  0.2779  1\n  Ga  Ga11  1  0.5000  -0.0000  0.5000  1\n  Cu  Cu12  1  0.7196  0.5000  0.2196  1\n  Cu  Cu13  1  0.2804  0.5000  0.7804  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y3Ga6CuGa3Cu\n_chemical_formula_sum              \"Y3 Ga9 Cu2\"\n_cell_length_a       8.0880\n_cell_length_b       8.0880\n_cell_length_c       8.0880\n_cell_angle_alpha    150.2022\n_cell_angle_beta     104.8228\n_cell_angle_gamma    82.8992\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.3193  0.3193  0.0000  1.0000\n  Y   Y2        1.0000  0.6807  0.6807  0.0000  1.0000\n  Y   Y3        1.0000  0.0000  0.0000  0.0000  1.0000\n  Ga  Ga1       1.0000  0.7098  0.3381  0.3717  1.0000\n  Ga  Ga2       1.0000  0.2902  0.6619  0.6283  1.0000\n  Ga  Ga3       1.0000  0.9664  0.3381  0.6283  1.0000\n  Ga  Ga4       1.0000  0.0336  0.6619  0.3717  1.0000\n  Ga  Ga5       1.0000  0.4084  0.1305  0.2779  1.0000\n  Ga  Ga6       1.0000  0.5916  0.8695  0.7221  1.0000\n  Cu  Cu1       1.0000  0.8526  0.1305  0.7221  1.0000\n  Ga  Ga7       1.0000  0.1474  0.8695  0.2779  1.0000\n  Ga  Ga8       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ga  Ga9       1.0000  0.7196  0.5000  0.2196  1.0000\n  Cu  Cu2       1.0000  0.2804  0.5000  0.7804  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "719c4a32-4ade-474a-84b2-0d798eb1119f",
    "mp_id": "mp-1207993",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tm5Ga3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4065\n_cell_length_b   8.4065\n_cell_length_c   6.3834\n_cell_angle_alpha   89.1030\n_cell_angle_beta   89.1030\n_cell_angle_gamma   119.7896\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tm5Ga3\n_chemical_formula_sum   'Tm10 Ga6'\n_cell_volume   391.3068\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tm  Tm0  1  0.8534  0.1466  0.5000  1\n  Tm  Tm1  1  0.1466  0.8534  0.5000  1\n  Tm  Tm2  1  0.8145  0.1855  -0.0000  1\n  Tm  Tm3  1  0.1855  0.8145  -0.0000  1\n  Tm  Tm4  1  0.5053  0.7460  0.2650  1\n  Tm  Tm5  1  0.4947  0.2540  0.7350  1\n  Tm  Tm6  1  0.2540  0.4947  0.7350  1\n  Tm  Tm7  1  0.7460  0.5053  0.2650  1\n  Tm  Tm8  1  0.2686  0.2686  0.2254  1\n  Tm  Tm9  1  0.7314  0.7314  0.7746  1\n  Ga  Ga10  1  0.9096  0.9096  0.1870  1\n  Ga  Ga11  1  0.0904  0.0904  0.8130  1\n  Ga  Ga12  1  0.5019  0.0974  0.2895  1\n  Ga  Ga13  1  0.4981  0.9026  0.7105  1\n  Ga  Ga14  1  0.9026  0.4981  0.7105  1\n  Ga  Ga15  1  0.0974  0.5019  0.2895  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tm2GaTm7Ga5Tm\n_chemical_formula_sum              \"Tm10 Ga6\"\n_cell_length_a       8.4065\n_cell_length_b       8.4065\n_cell_length_c       6.3834\n_cell_angle_alpha    89.1030\n_cell_angle_beta     89.1030\n_cell_angle_gamma    119.7896\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tm  Tm1       1.0000  0.8534  0.1466  0.5000  1.0000\n  Tm  Tm2       1.0000  0.1466  0.8534  0.5000  1.0000\n  Ga  Ga1       1.0000  0.8145  0.1855  0.0000  1.0000\n  Tm  Tm3       1.0000  0.1855  0.8145  0.0000  1.0000\n  Tm  Tm4       1.0000  0.5053  0.7460  0.2650  1.0000\n  Tm  Tm5       1.0000  0.4947  0.2540  0.7350  1.0000\n  Tm  Tm6       1.0000  0.2540  0.4947  0.7350  1.0000\n  Tm  Tm7       1.0000  0.7460  0.5053  0.2650  1.0000\n  Tm  Tm8       1.0000  0.2686  0.2686  0.2254  1.0000\n  Tm  Tm9       1.0000  0.7314  0.7314  0.7746  1.0000\n  Ga  Ga2       1.0000  0.9096  0.9096  0.1870  1.0000\n  Ga  Ga3       1.0000  0.0904  0.0904  0.8130  1.0000\n  Ga  Ga4       1.0000  0.5019  0.0974  0.2895  1.0000\n  Ga  Ga5       1.0000  0.4981  0.9026  0.7105  1.0000\n  Ga  Ga6       1.0000  0.9026  0.4981  0.7105  1.0000\n  Tm  Tm10      1.0000  0.0974  0.5019  0.2895  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6b32819d-9002-47c8-88db-b8b70db9d7d7",
    "mp_id": "mp-1208058",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlBi3F10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4844\n_cell_length_b   8.4844\n_cell_length_c   8.4844\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlBi3F10\n_chemical_formula_sum   'Tl2 Bi6 F20'\n_cell_volume   431.8613\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.2500  0.2500  0.2500  1\n  Tl  Tl1  1  0.7500  0.7500  0.7500  1\n  Bi  Bi2  1  0.7593  0.2407  0.2407  1\n  Bi  Bi3  1  0.2407  0.7593  0.7593  1\n  Bi  Bi4  1  0.2407  0.7593  0.2407  1\n  Bi  Bi5  1  0.7593  0.2407  0.7593  1\n  Bi  Bi6  1  0.2407  0.2407  0.7593  1\n  Bi  Bi7  1  0.7593  0.7593  0.2407  1\n  F  F8  1  0.8289  0.5000  0.5000  1\n  F  F9  1  0.1711  0.5000  0.5000  1\n  F  F10  1  0.5000  0.8289  0.1711  1\n  F  F11  1  0.5000  0.1711  0.8289  1\n  F  F12  1  0.5000  0.8289  0.5000  1\n  F  F13  1  0.1711  0.5000  0.8289  1\n  F  F14  1  0.5000  0.1711  0.5000  1\n  F  F15  1  0.8289  0.5000  0.1711  1\n  F  F16  1  0.5000  0.5000  0.8289  1\n  F  F17  1  0.5000  0.5000  0.1711  1\n  F  F18  1  0.1711  0.8289  0.5000  1\n  F  F19  1  0.8289  0.1711  0.5000  1\n  F  F20  1  0.1133  0.1133  0.1133  1\n  F  F21  1  0.8867  0.8867  0.8867  1\n  F  F22  1  0.1133  0.1133  0.6601  1\n  F  F23  1  0.1133  0.6601  0.1133  1\n  F  F24  1  0.8867  0.8867  0.3399  1\n  F  F25  1  0.8867  0.3399  0.8867  1\n  F  F26  1  0.6601  0.1133  0.1133  1\n  F  F27  1  0.3399  0.8867  0.8867  1\n",
    "output": "data_image0\n_chemical_formula_structural       TlBi2TlBi4F20\n_chemical_formula_sum              \"Tl2 Bi6 F20\"\n_cell_length_a       8.4844\n_cell_length_b       8.4844\n_cell_length_c       8.4844\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Bi  Bi1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Bi  Bi2       1.0000  0.7593  0.2407  0.2407  1.0000\n  Tl  Tl2       1.0000  0.2407  0.7593  0.7593  1.0000\n  Bi  Bi3       1.0000  0.2407  0.7593  0.2407  1.0000\n  Bi  Bi4       1.0000  0.7593  0.2407  0.7593  1.0000\n  Bi  Bi5       1.0000  0.2407  0.2407  0.7593  1.0000\n  Bi  Bi6       1.0000  0.7593  0.7593  0.2407  1.0000\n  F   F1        1.0000  0.8289  0.5000  0.5000  1.0000\n  F   F2        1.0000  0.1711  0.5000  0.5000  1.0000\n  F   F3        1.0000  0.5000  0.8289  0.1711  1.0000\n  F   F4        1.0000  0.5000  0.1711  0.8289  1.0000\n  F   F5        1.0000  0.5000  0.8289  0.5000  1.0000\n  F   F6        1.0000  0.1711  0.5000  0.8289  1.0000\n  F   F7        1.0000  0.5000  0.1711  0.5000  1.0000\n  F   F8        1.0000  0.8289  0.5000  0.1711  1.0000\n  F   F9        1.0000  0.5000  0.5000  0.8289  1.0000\n  F   F10       1.0000  0.5000  0.5000  0.1711  1.0000\n  F   F11       1.0000  0.1711  0.8289  0.5000  1.0000\n  F   F12       1.0000  0.8289  0.1711  0.5000  1.0000\n  F   F13       1.0000  0.1133  0.1133  0.1133  1.0000\n  F   F14       1.0000  0.8867  0.8867  0.8867  1.0000\n  F   F15       1.0000  0.1133  0.1133  0.6601  1.0000\n  F   F16       1.0000  0.1133  0.6601  0.1133  1.0000\n  F   F17       1.0000  0.8867  0.8867  0.3399  1.0000\n  F   F18       1.0000  0.8867  0.3399  0.8867  1.0000\n  F   F19       1.0000  0.6601  0.1133  0.1133  1.0000\n  F   F20       1.0000  0.3399  0.8867  0.8867  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "affe0b9d-5fea-4465-81ac-4a7e68b283c8",
    "mp_id": "mp-1208219",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tl3SnI5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1114\n_cell_length_b   9.8770\n_cell_length_c   16.5013\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tl3SnI5\n_chemical_formula_sum   'Tl12 Sn4 I20'\n_cell_volume   1485.0069\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.4386  0.4116  0.2135  1\n  Tl  Tl1  1  0.0614  0.5884  0.7135  1\n  Tl  Tl2  1  0.5614  0.9116  0.2865  1\n  Tl  Tl3  1  0.9386  0.0884  0.7865  1\n  Tl  Tl4  1  0.7250  0.2929  0.0528  1\n  Tl  Tl5  1  0.7750  0.7071  0.5528  1\n  Tl  Tl6  1  0.2750  0.7929  0.4472  1\n  Tl  Tl7  1  0.2251  0.2071  0.9472  1\n  Tl  Tl8  1  0.0849  0.6688  0.0248  1\n  Tl  Tl9  1  0.4151  0.3312  0.5248  1\n  Tl  Tl10  1  0.9151  0.1688  0.4752  1\n  Tl  Tl11  1  0.5849  0.8312  0.9752  1\n  Sn  Sn12  1  0.0773  0.0588  0.2021  1\n  Sn  Sn13  1  0.4227  0.9412  0.7021  1\n  Sn  Sn14  1  0.9227  0.5588  0.2979  1\n  Sn  Sn15  1  0.5773  0.4412  0.7979  1\n  I  I16  1  0.3981  0.0525  0.1100  1\n  I  I17  1  0.1019  0.9475  0.6100  1\n  I  I18  1  0.6019  0.5525  0.3900  1\n  I  I19  1  0.8981  0.4475  0.8900  1\n  I  I20  1  0.0756  0.4956  0.4772  1\n  I  I21  1  0.4244  0.5044  0.9772  1\n  I  I22  1  0.9244  0.9956  0.0228  1\n  I  I23  1  0.5756  0.0044  0.5228  1\n  I  I24  1  0.2624  0.1507  0.3497  1\n  I  I25  1  0.2376  0.8493  0.8497  1\n  I  I26  1  0.7376  0.6507  0.1503  1\n  I  I27  1  0.7624  0.3493  0.6503  1\n  I  I28  1  0.0859  0.3480  0.1340  1\n  I  I29  1  0.4141  0.6520  0.6340  1\n  I  I30  1  0.9141  0.8480  0.3660  1\n  I  I31  1  0.5859  0.1520  0.8660  1\n  I  I32  1  0.2246  0.7042  0.2259  1\n  I  I33  1  0.2754  0.2958  0.7259  1\n  I  I34  1  0.7754  0.2042  0.2741  1\n  I  I35  1  0.7246  0.7958  0.7741  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl2ITl9Sn4I2TlI17\n_chemical_formula_sum              \"Tl12 I20 Sn4\"\n_cell_length_a       9.1114\n_cell_length_b       9.8770\n_cell_length_c       16.5013\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.4386  0.4116  0.2135  1.0000\n  Tl  Tl2       1.0000  0.0614  0.5884  0.7135  1.0000\n  I   I1        1.0000  0.5614  0.9116  0.2865  1.0000\n  Tl  Tl3       1.0000  0.9386  0.0884  0.7865  1.0000\n  Tl  Tl4       1.0000  0.7250  0.2929  0.0528  1.0000\n  Tl  Tl5       1.0000  0.7750  0.7071  0.5528  1.0000\n  Tl  Tl6       1.0000  0.2749  0.7929  0.4472  1.0000\n  Tl  Tl7       1.0000  0.2250  0.2071  0.9472  1.0000\n  Tl  Tl8       1.0000  0.0849  0.6688  0.0248  1.0000\n  Tl  Tl9       1.0000  0.4151  0.3312  0.5248  1.0000\n  Tl  Tl10      1.0000  0.9151  0.1688  0.4752  1.0000\n  Tl  Tl11      1.0000  0.5849  0.8312  0.9752  1.0000\n  Sn  Sn1       1.0000  0.0773  0.0588  0.2021  1.0000\n  Sn  Sn2       1.0000  0.4227  0.9412  0.7021  1.0000\n  Sn  Sn3       1.0000  0.9227  0.5588  0.2979  1.0000\n  Sn  Sn4       1.0000  0.5773  0.4412  0.7979  1.0000\n  I   I2        1.0000  0.3981  0.0525  0.1100  1.0000\n  I   I3        1.0000  0.1019  0.9475  0.6100  1.0000\n  Tl  Tl12      1.0000  0.6019  0.5525  0.3900  1.0000\n  I   I4        1.0000  0.8981  0.4475  0.8900  1.0000\n  I   I5        1.0000  0.0756  0.4956  0.4772  1.0000\n  I   I6        1.0000  0.4244  0.5044  0.9772  1.0000\n  I   I7        1.0000  0.9244  0.9956  0.0228  1.0000\n  I   I8        1.0000  0.5756  0.0044  0.5228  1.0000\n  I   I9        1.0000  0.2624  0.1507  0.3497  1.0000\n  I   I10       1.0000  0.2376  0.8493  0.8497  1.0000\n  I   I11       1.0000  0.7376  0.6507  0.1503  1.0000\n  I   I12       1.0000  0.7624  0.3493  0.6503  1.0000\n  I   I13       1.0000  0.0859  0.3480  0.1340  1.0000\n  I   I14       1.0000  0.4141  0.6520  0.6340  1.0000\n  I   I15       1.0000  0.9141  0.8480  0.3660  1.0000\n  I   I16       1.0000  0.5859  0.1520  0.8660  1.0000\n  I   I17       1.0000  0.2246  0.7042  0.2259  1.0000\n  I   I18       1.0000  0.2754  0.2958  0.7259  1.0000\n  I   I19       1.0000  0.7754  0.2042  0.2741  1.0000\n  I   I20       1.0000  0.7246  0.7958  0.7741  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5fb0db97-3522-40bd-84c9-9427e5b92a79",
    "mp_id": "mp-1208275",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlAsO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0117\n_cell_length_b   10.7283\n_cell_length_c   10.8918\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlAsO6\n_chemical_formula_sum   'Tl8 As8 O48'\n_cell_volume   1053.0156\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.3577  0.6238  0.6739  1\n  Tl  Tl1  1  0.6423  0.3762  0.3261  1\n  Tl  Tl2  1  0.1423  0.1238  0.3261  1\n  Tl  Tl3  1  0.6423  0.8762  0.1739  1\n  Tl  Tl4  1  0.8577  0.8762  0.6739  1\n  Tl  Tl5  1  0.3577  0.1238  0.8261  1\n  Tl  Tl6  1  0.8577  0.3762  0.8261  1\n  Tl  Tl7  1  0.1423  0.6238  0.1739  1\n  As  As8  1  0.0416  0.6631  0.8687  1\n  As  As9  1  0.9584  0.3369  0.1313  1\n  As  As10  1  0.4584  0.1631  0.1313  1\n  As  As11  1  0.9584  0.8369  0.3687  1\n  As  As12  1  0.5416  0.8369  0.8687  1\n  As  As13  1  0.0416  0.1631  0.6313  1\n  As  As14  1  0.5416  0.3369  0.6313  1\n  As  As15  1  0.4584  0.6631  0.3687  1\n  O  O16  1  0.5146  0.6700  0.5178  1\n  O  O17  1  0.4854  0.3300  0.4822  1\n  O  O18  1  0.9854  0.1700  0.4822  1\n  O  O19  1  0.4854  0.8300  0.0178  1\n  O  O20  1  0.0146  0.8300  0.5178  1\n  O  O21  1  0.5146  0.1700  0.9822  1\n  O  O22  1  0.0146  0.3300  0.9822  1\n  O  O23  1  0.9854  0.6700  0.0178  1\n  O  O24  1  0.2207  0.6004  0.8578  1\n  O  O25  1  0.7793  0.3996  0.1422  1\n  O  O26  1  0.2793  0.1004  0.1422  1\n  O  O27  1  0.7793  0.8996  0.3578  1\n  O  O28  1  0.7207  0.8996  0.8578  1\n  O  O29  1  0.2207  0.1004  0.6422  1\n  O  O30  1  0.7207  0.3996  0.6422  1\n  O  O31  1  0.2793  0.6004  0.3578  1\n  O  O32  1  0.4220  0.9264  0.7804  1\n  O  O33  1  0.5780  0.0736  0.2196  1\n  O  O34  1  0.0780  0.4264  0.2196  1\n  O  O35  1  0.5780  0.5736  0.2804  1\n  O  O36  1  0.9220  0.5736  0.7804  1\n  O  O37  1  0.4220  0.4264  0.7196  1\n  O  O38  1  0.9220  0.0736  0.7196  1\n  O  O39  1  0.0780  0.9264  0.2804  1\n  O  O40  1  0.1869  0.5590  0.5260  1\n  O  O41  1  0.8131  0.4410  0.4740  1\n  O  O42  1  0.3131  0.0590  0.4740  1\n  O  O43  1  0.8131  0.9410  0.0260  1\n  O  O44  1  0.6869  0.9410  0.5260  1\n  O  O45  1  0.1869  0.0590  0.9740  1\n  O  O46  1  0.6869  0.4410  0.9740  1\n  O  O47  1  0.3131  0.5590  0.0260  1\n  O  O48  1  0.2398  0.8158  0.6777  1\n  O  O49  1  0.7602  0.1842  0.3223  1\n  O  O50  1  0.2602  0.3158  0.3223  1\n  O  O51  1  0.7602  0.6842  0.1777  1\n  O  O52  1  0.7398  0.6842  0.6777  1\n  O  O53  1  0.2398  0.3158  0.8223  1\n  O  O54  1  0.7398  0.1842  0.8223  1\n  O  O55  1  0.2602  0.8158  0.1777  1\n  O  O56  1  0.0464  0.8104  0.8012  1\n  O  O57  1  0.9536  0.1896  0.1988  1\n  O  O58  1  0.4536  0.3104  0.1988  1\n  O  O59  1  0.9536  0.6896  0.3012  1\n  O  O60  1  0.5464  0.6896  0.8012  1\n  O  O61  1  0.0464  0.3104  0.6988  1\n  O  O62  1  0.5464  0.1896  0.6988  1\n  O  O63  1  0.4536  0.8104  0.3012  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl8As4OAs3O42AsO5\n_chemical_formula_sum              \"Tl8 As8 O48\"\n_cell_length_a       9.0117\n_cell_length_b       10.7283\n_cell_length_c       10.8918\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.3577  0.6238  0.6739  1.0000\n  Tl  Tl2       1.0000  0.6423  0.3762  0.3261  1.0000\n  Tl  Tl3       1.0000  0.1423  0.1238  0.3261  1.0000\n  Tl  Tl4       1.0000  0.6423  0.8762  0.1739  1.0000\n  Tl  Tl5       1.0000  0.8577  0.8762  0.6739  1.0000\n  Tl  Tl6       1.0000  0.3577  0.1238  0.8261  1.0000\n  Tl  Tl7       1.0000  0.8577  0.3762  0.8261  1.0000\n  Tl  Tl8       1.0000  0.1423  0.6238  0.1739  1.0000\n  As  As1       1.0000  0.0416  0.6631  0.8687  1.0000\n  As  As2       1.0000  0.9584  0.3369  0.1313  1.0000\n  As  As3       1.0000  0.4584  0.1631  0.1313  1.0000\n  As  As4       1.0000  0.9584  0.8369  0.3687  1.0000\n  O   O1        1.0000  0.5416  0.8369  0.8687  1.0000\n  As  As5       1.0000  0.0416  0.1631  0.6313  1.0000\n  As  As6       1.0000  0.5416  0.3369  0.6313  1.0000\n  As  As7       1.0000  0.4584  0.6631  0.3687  1.0000\n  O   O2        1.0000  0.5146  0.6700  0.5178  1.0000\n  O   O3        1.0000  0.4854  0.3300  0.4822  1.0000\n  O   O4        1.0000  0.9854  0.1700  0.4822  1.0000\n  O   O5        1.0000  0.4854  0.8300  0.0178  1.0000\n  O   O6        1.0000  0.0146  0.8300  0.5178  1.0000\n  O   O7        1.0000  0.5146  0.1700  0.9822  1.0000\n  O   O8        1.0000  0.0146  0.3300  0.9822  1.0000\n  O   O9        1.0000  0.9854  0.6700  0.0178  1.0000\n  O   O10       1.0000  0.2207  0.6004  0.8578  1.0000\n  O   O11       1.0000  0.7793  0.3996  0.1422  1.0000\n  O   O12       1.0000  0.2793  0.1004  0.1422  1.0000\n  O   O13       1.0000  0.7793  0.8996  0.3578  1.0000\n  O   O14       1.0000  0.7207  0.8996  0.8578  1.0000\n  O   O15       1.0000  0.2207  0.1004  0.6422  1.0000\n  O   O16       1.0000  0.7207  0.3996  0.6422  1.0000\n  O   O17       1.0000  0.2793  0.6004  0.3578  1.0000\n  O   O18       1.0000  0.4220  0.9264  0.7804  1.0000\n  O   O19       1.0000  0.5780  0.0736  0.2196  1.0000\n  O   O20       1.0000  0.0780  0.4264  0.2196  1.0000\n  O   O21       1.0000  0.5780  0.5736  0.2804  1.0000\n  O   O22       1.0000  0.9220  0.5736  0.7804  1.0000\n  O   O23       1.0000  0.4220  0.4264  0.7196  1.0000\n  O   O24       1.0000  0.9220  0.0736  0.7196  1.0000\n  O   O25       1.0000  0.0780  0.9264  0.2804  1.0000\n  O   O26       1.0000  0.1869  0.5590  0.5260  1.0000\n  O   O27       1.0000  0.8131  0.4410  0.4740  1.0000\n  O   O28       1.0000  0.3131  0.0590  0.4740  1.0000\n  O   O29       1.0000  0.8131  0.9410  0.0260  1.0000\n  O   O30       1.0000  0.6869  0.9410  0.5260  1.0000\n  O   O31       1.0000  0.1869  0.0590  0.9740  1.0000\n  O   O32       1.0000  0.6869  0.4410  0.9740  1.0000\n  O   O33       1.0000  0.3131  0.5590  0.0260  1.0000\n  O   O34       1.0000  0.2398  0.8158  0.6777  1.0000\n  O   O35       1.0000  0.7602  0.1842  0.3223  1.0000\n  O   O36       1.0000  0.2602  0.3158  0.3223  1.0000\n  O   O37       1.0000  0.7602  0.6842  0.1777  1.0000\n  O   O38       1.0000  0.7398  0.6842  0.6777  1.0000\n  O   O39       1.0000  0.2398  0.3158  0.8223  1.0000\n  O   O40       1.0000  0.7398  0.1842  0.8223  1.0000\n  O   O41       1.0000  0.2602  0.8158  0.1777  1.0000\n  O   O42       1.0000  0.0464  0.8104  0.8012  1.0000\n  O   O43       1.0000  0.9536  0.1896  0.1988  1.0000\n  As  As8       1.0000  0.4536  0.3104  0.1988  1.0000\n  O   O44       1.0000  0.9536  0.6896  0.3012  1.0000\n  O   O45       1.0000  0.5464  0.6896  0.8012  1.0000\n  O   O46       1.0000  0.0464  0.3104  0.6988  1.0000\n  O   O47       1.0000  0.5464  0.1896  0.6988  1.0000\n  O   O48       1.0000  0.4536  0.8104  0.3012  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "06abae0b-8b88-404c-b9fa-4a71383a59b2",
    "mp_id": "mp-1208331",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TbSbIr\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5226\n_cell_length_b   7.1902\n_cell_length_c   7.8528\n_cell_angle_alpha   89.9995\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TbSbIr\n_chemical_formula_sum   'Tb4 Sb4 Ir4'\n_cell_volume   255.3605\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.2500  0.5125  0.1941  1\n  Tb  Tb1  1  0.7500  0.4875  0.8059  1\n  Tb  Tb2  1  0.7500  0.9875  0.6941  1\n  Tb  Tb3  1  0.2500  0.0125  0.3059  1\n  Sb  Sb4  1  0.2500  0.6788  0.5878  1\n  Sb  Sb5  1  0.7500  0.3212  0.4122  1\n  Sb  Sb6  1  0.7500  0.8212  0.0878  1\n  Sb  Sb7  1  0.2500  0.1788  0.9122  1\n  Ir  Ir8  1  0.2500  0.7934  0.9124  1\n  Ir  Ir9  1  0.7500  0.2066  0.0876  1\n  Ir  Ir10  1  0.7500  0.7066  0.4124  1\n  Ir  Ir11  1  0.2500  0.2934  0.5876  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tb4SbIrSb2Ir3Sb\n_chemical_formula_sum              \"Tb4 Sb4 Ir4\"\n_cell_length_a       4.5226\n_cell_length_b       7.1902\n_cell_length_c       7.8528\n_cell_angle_alpha    89.9995\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.2500  0.5125  0.1941  1.0000\n  Tb  Tb2       1.0000  0.7500  0.4875  0.8059  1.0000\n  Tb  Tb3       1.0000  0.7500  0.9875  0.6941  1.0000\n  Tb  Tb4       1.0000  0.2500  0.0125  0.3059  1.0000\n  Sb  Sb1       1.0000  0.2500  0.6788  0.5878  1.0000\n  Ir  Ir1       1.0000  0.7500  0.3212  0.4122  1.0000\n  Sb  Sb2       1.0000  0.7500  0.8212  0.0878  1.0000\n  Sb  Sb3       1.0000  0.2500  0.1788  0.9122  1.0000\n  Ir  Ir2       1.0000  0.2500  0.7934  0.9124  1.0000\n  Ir  Ir3       1.0000  0.7500  0.2066  0.0876  1.0000\n  Ir  Ir4       1.0000  0.7500  0.7066  0.4124  1.0000\n  Sb  Sb4       1.0000  0.2500  0.2934  0.5876  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fa4442ac-7ae6-4151-9664-82bbf0218534",
    "mp_id": "mp-1208361",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tb(Al5Ru)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8099\n_cell_length_b   6.8099\n_cell_length_c   9.0803\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   97.0059\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tb(Al5Ru)2\n_chemical_formula_sum   'Tb2 Al20 Ru4'\n_cell_volume   417.9527\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.8734  0.1266  0.7500  1\n  Tb  Tb1  1  0.1266  0.8734  0.2500  1\n  Al  Al2  1  0.6233  0.3767  0.5501  1\n  Al  Al3  1  0.3767  0.6233  0.4499  1\n  Al  Al4  1  0.3767  0.6233  0.0501  1\n  Al  Al5  1  0.6233  0.3767  0.9499  1\n  Al  Al6  1  0.2269  0.2269  0.5000  1\n  Al  Al7  1  0.7731  0.7731  0.5000  1\n  Al  Al8  1  0.7731  0.7731  0.0000  1\n  Al  Al9  1  0.2269  0.2269  0.0000  1\n  Al  Al10  1  0.8417  0.1583  0.1005  1\n  Al  Al11  1  0.1583  0.8417  0.8995  1\n  Al  Al12  1  0.1583  0.8417  0.6005  1\n  Al  Al13  1  0.8417  0.1583  0.3995  1\n  Al  Al14  1  0.8600  0.5895  0.7500  1\n  Al  Al15  1  0.1400  0.4105  0.2500  1\n  Al  Al16  1  0.4105  0.1400  0.7500  1\n  Al  Al17  1  0.5895  0.8600  0.2500  1\n  Al  Al18  1  0.2193  0.4811  0.7500  1\n  Al  Al19  1  0.7807  0.5189  0.2500  1\n  Al  Al20  1  0.5189  0.7807  0.7500  1\n  Al  Al21  1  0.4811  0.2193  0.2500  1\n  Ru  Ru22  1  0.0000  0.5000  0.5000  1\n  Ru  Ru23  1  0.0000  0.5000  0.0000  1\n  Ru  Ru24  1  0.5000  -0.0000  0.0000  1\n  Ru  Ru25  1  0.5000  -0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       AlTbAl16TbAl3Ru4\n_chemical_formula_sum              \"Al20 Tb2 Ru4\"\n_cell_length_a       6.8099\n_cell_length_b       6.8099\n_cell_length_c       9.0803\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    97.0059\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.8734  0.1266  0.7500  1.0000\n  Tb  Tb1       1.0000  0.1266  0.8734  0.2500  1.0000\n  Al  Al2       1.0000  0.6233  0.3767  0.5501  1.0000\n  Al  Al3       1.0000  0.3767  0.6233  0.4499  1.0000\n  Al  Al4       1.0000  0.3767  0.6233  0.0501  1.0000\n  Al  Al5       1.0000  0.6233  0.3767  0.9499  1.0000\n  Al  Al6       1.0000  0.2269  0.2269  0.5000  1.0000\n  Al  Al7       1.0000  0.7731  0.7731  0.5000  1.0000\n  Al  Al8       1.0000  0.7731  0.7731  0.0000  1.0000\n  Al  Al9       1.0000  0.2269  0.2269  0.0000  1.0000\n  Al  Al10      1.0000  0.8417  0.1583  0.1005  1.0000\n  Al  Al11      1.0000  0.1583  0.8417  0.8995  1.0000\n  Al  Al12      1.0000  0.1583  0.8417  0.6005  1.0000\n  Al  Al13      1.0000  0.8417  0.1583  0.3995  1.0000\n  Al  Al14      1.0000  0.8600  0.5895  0.7500  1.0000\n  Al  Al15      1.0000  0.1400  0.4105  0.2500  1.0000\n  Al  Al16      1.0000  0.4105  0.1400  0.7500  1.0000\n  Al  Al17      1.0000  0.5895  0.8600  0.2500  1.0000\n  Tb  Tb2       1.0000  0.2193  0.4811  0.7500  1.0000\n  Al  Al18      1.0000  0.7807  0.5189  0.2500  1.0000\n  Al  Al19      1.0000  0.5189  0.7807  0.7500  1.0000\n  Al  Al20      1.0000  0.4811  0.2193  0.2500  1.0000\n  Ru  Ru1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ru  Ru2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Ru  Ru3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ru  Ru4       1.0000  0.5000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "10f9ef42-0f26-4517-a7f8-345d7029a949",
    "mp_id": "mp-1208425",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlBr4N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4101\n_cell_length_b   10.3002\n_cell_length_c   13.2504\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlBr4N\n_chemical_formula_sum   'Tl4 Br16 N4'\n_cell_volume   1011.3482\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.2500  0.0000  0.6443  1\n  Tl  Tl1  1  0.7500  0.0000  0.3557  1\n  Tl  Tl2  1  0.2500  0.5000  0.8557  1\n  Tl  Tl3  1  0.7500  0.5000  0.1443  1\n  Br  Br4  1  0.0714  0.1938  0.5645  1\n  Br  Br5  1  0.9286  0.8062  0.4355  1\n  Br  Br6  1  0.4286  0.8062  0.5645  1\n  Br  Br7  1  0.4286  0.6938  0.9355  1\n  Br  Br8  1  0.5714  0.1938  0.4355  1\n  Br  Br9  1  0.5714  0.3062  0.0645  1\n  Br  Br10  1  0.0714  0.3062  0.9355  1\n  Br  Br11  1  0.9286  0.6938  0.0645  1\n  Br  Br12  1  0.0000  0.1130  0.1996  1\n  Br  Br13  1  1.0000  0.8870  0.8004  1\n  Br  Br14  1  0.5000  0.8870  0.1996  1\n  Br  Br15  1  0.5000  0.6130  0.3004  1\n  Br  Br16  1  0.5000  0.1130  0.8004  1\n  Br  Br17  1  0.5000  0.3870  0.6996  1\n  Br  Br18  1  0.0000  0.3870  0.3004  1\n  Br  Br19  1  1.0000  0.6130  0.6996  1\n  N  N20  1  0.1427  0.2500  0.2500  1\n  N  N21  1  0.8573  0.7500  0.7500  1\n  N  N22  1  0.3573  0.7500  0.2500  1\n  N  N23  1  0.6427  0.2500  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       BrTl3BrTlBr14N4\n_chemical_formula_sum              \"Br16 Tl4 N4\"\n_cell_length_a       7.4101\n_cell_length_b       10.3002\n_cell_length_c       13.2504\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Br  Br1       1.0000  0.2500  0.0000  0.6443  1.0000\n  Tl  Tl1       1.0000  0.7500  0.0000  0.3557  1.0000\n  Tl  Tl2       1.0000  0.2500  0.5000  0.8557  1.0000\n  Tl  Tl3       1.0000  0.7500  0.5000  0.1443  1.0000\n  Br  Br2       1.0000  0.0714  0.1938  0.5645  1.0000\n  Tl  Tl4       1.0000  0.9286  0.8062  0.4355  1.0000\n  Br  Br3       1.0000  0.4286  0.8062  0.5645  1.0000\n  Br  Br4       1.0000  0.4286  0.6938  0.9355  1.0000\n  Br  Br5       1.0000  0.5714  0.1938  0.4355  1.0000\n  Br  Br6       1.0000  0.5714  0.3062  0.0645  1.0000\n  Br  Br7       1.0000  0.0714  0.3062  0.9355  1.0000\n  Br  Br8       1.0000  0.9286  0.6938  0.0645  1.0000\n  Br  Br9       1.0000  0.0000  0.1130  0.1996  1.0000\n  Br  Br10      1.0000  1.0000  0.8870  0.8004  1.0000\n  Br  Br11      1.0000  0.5000  0.8870  0.1996  1.0000\n  Br  Br12      1.0000  0.5000  0.6130  0.3004  1.0000\n  Br  Br13      1.0000  0.5000  0.1130  0.8004  1.0000\n  Br  Br14      1.0000  0.5000  0.3870  0.6996  1.0000\n  Br  Br15      1.0000  0.0000  0.3870  0.3004  1.0000\n  Br  Br16      1.0000  1.0000  0.6130  0.6996  1.0000\n  N   N1        1.0000  0.1427  0.2500  0.2500  1.0000\n  N   N2        1.0000  0.8573  0.7500  0.7500  1.0000\n  N   N3        1.0000  0.3573  0.7500  0.2500  1.0000\n  N   N4        1.0000  0.6427  0.2500  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6f3be242-e239-4c18-971b-b286ed158f63",
    "mp_id": "mp-1208879",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SnIBr\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4023\n_cell_length_b   9.1105\n_cell_length_c   11.0598\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SnIBr\n_chemical_formula_sum   'Sn4 I4 Br4'\n_cell_volume   443.5784\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sn  Sn0  1  0.2500  0.6105  0.6573  1\n  Sn  Sn1  1  0.7500  0.3895  0.3427  1\n  Sn  Sn2  1  0.7500  0.8895  0.1573  1\n  Sn  Sn3  1  0.2500  0.1105  0.8427  1\n  I  I4  1  0.2500  0.5153  0.1796  1\n  I  I5  1  0.7500  0.4847  0.8204  1\n  I  I6  1  0.7500  0.9847  0.6796  1\n  I  I7  1  0.2500  0.0153  0.3204  1\n  Br  Br8  1  0.2500  0.8412  0.9529  1\n  Br  Br9  1  0.7500  0.1588  0.0471  1\n  Br  Br10  1  0.7500  0.6588  0.4529  1\n  Br  Br11  1  0.2500  0.3412  0.5471  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sn4IBrI2BrIBr2\n_chemical_formula_sum              \"Sn4 I4 Br4\"\n_cell_length_a       4.4023\n_cell_length_b       9.1105\n_cell_length_c       11.0598\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sn  Sn1       1.0000  0.2500  0.6105  0.6573  1.0000\n  Sn  Sn2       1.0000  0.7500  0.3895  0.3427  1.0000\n  Sn  Sn3       1.0000  0.7500  0.8895  0.1573  1.0000\n  Sn  Sn4       1.0000  0.2500  0.1105  0.8427  1.0000\n  I   I1        1.0000  0.2500  0.5153  0.1796  1.0000\n  Br  Br1       1.0000  0.7500  0.4847  0.8204  1.0000\n  I   I2        1.0000  0.7500  0.9847  0.6796  1.0000\n  I   I3        1.0000  0.2500  0.0153  0.3204  1.0000\n  Br  Br2       1.0000  0.2500  0.8412  0.9529  1.0000\n  I   I4        1.0000  0.7500  0.1588  0.0471  1.0000\n  Br  Br3       1.0000  0.7500  0.6588  0.4529  1.0000\n  Br  Br4       1.0000  0.2500  0.3412  0.5471  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ccdc4738-541a-48e7-b382-04f4eed82427",
    "mp_id": "mp-1209036",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sc2SnAu2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6844\n_cell_length_b   7.6844\n_cell_length_c   7.0665\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sc2SnAu2\n_chemical_formula_sum   'Sc8 Sn4 Au8'\n_cell_volume   417.2777\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.1510  0.1510  0.0000  1\n  Sc  Sc1  1  0.8490  0.8490  0.0000  1\n  Sc  Sc2  1  0.6510  0.3490  0.5000  1\n  Sc  Sc3  1  0.3490  0.6510  0.5000  1\n  Sc  Sc4  1  0.6839  0.3161  0.0000  1\n  Sc  Sc5  1  0.3161  0.6839  0.0000  1\n  Sc  Sc6  1  0.8161  0.8161  0.5000  1\n  Sc  Sc7  1  0.1839  0.1839  0.5000  1\n  Sn  Sn8  1  0.5000  0.0000  0.2500  1\n  Sn  Sn9  1  0.5000  0.0000  0.7500  1\n  Sn  Sn10  1  0.0000  0.5000  0.2500  1\n  Sn  Sn11  1  0.0000  0.5000  0.7500  1\n  Au  Au12  1  0.3702  0.3702  0.2159  1\n  Au  Au13  1  0.6298  0.6298  0.7841  1\n  Au  Au14  1  0.6298  0.6298  0.2159  1\n  Au  Au15  1  0.8702  0.1298  0.7159  1\n  Au  Au16  1  0.8702  0.1298  0.2841  1\n  Au  Au17  1  0.3702  0.3702  0.7841  1\n  Au  Au18  1  0.1298  0.8702  0.2841  1\n  Au  Au19  1  0.1298  0.8702  0.7159  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc6SnScSn2ScSnAu8\n_chemical_formula_sum              \"Sc8 Sn4 Au8\"\n_cell_length_a       7.6844\n_cell_length_b       7.6844\n_cell_length_c       7.0665\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.1510  0.1510  0.0000  1.0000\n  Sc  Sc2       1.0000  0.8490  0.8490  0.0000  1.0000\n  Sc  Sc3       1.0000  0.6510  0.3490  0.5000  1.0000\n  Sc  Sc4       1.0000  0.3490  0.6510  0.5000  1.0000\n  Sc  Sc5       1.0000  0.6839  0.3161  0.0000  1.0000\n  Sc  Sc6       1.0000  0.3161  0.6839  0.0000  1.0000\n  Sn  Sn1       1.0000  0.8161  0.8161  0.5000  1.0000\n  Sc  Sc7       1.0000  0.1839  0.1839  0.5000  1.0000\n  Sn  Sn2       1.0000  0.5000  0.0000  0.2500  1.0000\n  Sn  Sn3       1.0000  0.5000  0.0000  0.7500  1.0000\n  Sc  Sc8       1.0000  0.0000  0.5000  0.2500  1.0000\n  Sn  Sn4       1.0000  0.0000  0.5000  0.7500  1.0000\n  Au  Au1       1.0000  0.3702  0.3702  0.2159  1.0000\n  Au  Au2       1.0000  0.6298  0.6298  0.7841  1.0000\n  Au  Au3       1.0000  0.6298  0.6298  0.2159  1.0000\n  Au  Au4       1.0000  0.8702  0.1298  0.7159  1.0000\n  Au  Au5       1.0000  0.8702  0.1298  0.2841  1.0000\n  Au  Au6       1.0000  0.3702  0.3702  0.7841  1.0000\n  Au  Au7       1.0000  0.1298  0.8702  0.2841  1.0000\n  Au  Au8       1.0000  0.1298  0.8702  0.7159  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "84f5ea4a-a143-4905-85d5-1a9fd64364a8",
    "mp_id": "mp-1209206",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbVCuF6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9710\n_cell_length_b   7.6674\n_cell_length_c   10.4518\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbVCuF6\n_chemical_formula_sum   'Rb4 V4 Cu4 F24'\n_cell_volume   558.6411\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0105  0.2500  0.6243  1\n  Rb  Rb1  1  0.9895  0.7500  0.3757  1\n  Rb  Rb2  1  0.4895  0.7500  0.1243  1\n  Rb  Rb3  1  0.5105  0.2500  0.8757  1\n  V  V4  1  0.0000  0.0000  0.0000  1\n  V  V5  1  0.5000  0.0000  0.5000  1\n  V  V6  1  0.0000  0.5000  0.0000  1\n  V  V7  1  0.5000  0.5000  0.5000  1\n  Cu  Cu8  1  0.2094  0.2500  0.2563  1\n  Cu  Cu9  1  0.7906  0.7500  0.7437  1\n  Cu  Cu10  1  0.2906  0.7500  0.7563  1\n  Cu  Cu11  1  0.7094  0.2500  0.2437  1\n  F  F12  1  0.2697  0.0502  0.4033  1\n  F  F13  1  0.7303  0.9498  0.5967  1\n  F  F14  1  0.2303  0.9498  0.9033  1\n  F  F15  1  0.7303  0.5502  0.5967  1\n  F  F16  1  0.7697  0.0502  0.0967  1\n  F  F17  1  0.2697  0.4498  0.4033  1\n  F  F18  1  0.7697  0.4498  0.0967  1\n  F  F19  1  0.2303  0.5502  0.9033  1\n  F  F20  1  0.5704  0.2500  0.5146  1\n  F  F21  1  0.4296  0.7500  0.4854  1\n  F  F22  1  0.9296  0.7500  0.0146  1\n  F  F23  1  0.0704  0.2500  0.9854  1\n  F  F24  1  0.1480  0.5089  0.1561  1\n  F  F25  1  0.8520  0.4911  0.8439  1\n  F  F26  1  0.3520  0.4911  0.6561  1\n  F  F27  1  0.8520  0.0089  0.8439  1\n  F  F28  1  0.6480  0.5089  0.3439  1\n  F  F29  1  0.1480  0.9911  0.1561  1\n  F  F30  1  0.6480  0.9911  0.3439  1\n  F  F31  1  0.3520  0.0089  0.6561  1\n  F  F32  1  0.4538  0.2500  0.1754  1\n  F  F33  1  0.5462  0.7500  0.8246  1\n  F  F34  1  0.0462  0.7500  0.6754  1\n  F  F35  1  0.9538  0.2500  0.3246  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb4V4Cu2FCuF16CuF7\n_chemical_formula_sum              \"Rb4 V4 Cu4 F24\"\n_cell_length_a       6.9710\n_cell_length_b       7.6674\n_cell_length_c       10.4518\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0105  0.2500  0.6243  1.0000\n  Rb  Rb2       1.0000  0.9895  0.7500  0.3757  1.0000\n  Rb  Rb3       1.0000  0.4895  0.7500  0.1243  1.0000\n  Rb  Rb4       1.0000  0.5105  0.2500  0.8757  1.0000\n  V   V1        1.0000  0.0000  0.0000  0.0000  1.0000\n  V   V2        1.0000  0.5000  0.0000  0.5000  1.0000\n  V   V3        1.0000  0.0000  0.5000  0.0000  1.0000\n  V   V4        1.0000  0.5000  0.5000  0.5000  1.0000\n  Cu  Cu1       1.0000  0.2094  0.2500  0.2563  1.0000\n  Cu  Cu2       1.0000  0.7906  0.7500  0.7437  1.0000\n  F   F1        1.0000  0.2906  0.7500  0.7563  1.0000\n  Cu  Cu3       1.0000  0.7094  0.2500  0.2437  1.0000\n  F   F2        1.0000  0.2697  0.0502  0.4033  1.0000\n  F   F3        1.0000  0.7303  0.9498  0.5967  1.0000\n  F   F4        1.0000  0.2303  0.9498  0.9033  1.0000\n  F   F5        1.0000  0.7303  0.5502  0.5967  1.0000\n  F   F6        1.0000  0.7697  0.0502  0.0967  1.0000\n  F   F7        1.0000  0.2697  0.4498  0.4033  1.0000\n  F   F8        1.0000  0.7697  0.4498  0.0967  1.0000\n  F   F9        1.0000  0.2303  0.5502  0.9033  1.0000\n  F   F10       1.0000  0.5704  0.2500  0.5146  1.0000\n  F   F11       1.0000  0.4296  0.7500  0.4854  1.0000\n  F   F12       1.0000  0.9296  0.7500  0.0146  1.0000\n  F   F13       1.0000  0.0704  0.2500  0.9854  1.0000\n  F   F14       1.0000  0.1480  0.5089  0.1561  1.0000\n  F   F15       1.0000  0.8520  0.4911  0.8439  1.0000\n  F   F16       1.0000  0.3520  0.4911  0.6561  1.0000\n  F   F17       1.0000  0.8520  0.0089  0.8439  1.0000\n  Cu  Cu4       1.0000  0.6480  0.5089  0.3439  1.0000\n  F   F18       1.0000  0.1480  0.9911  0.1561  1.0000\n  F   F19       1.0000  0.6480  0.9911  0.3439  1.0000\n  F   F20       1.0000  0.3520  0.0089  0.6561  1.0000\n  F   F21       1.0000  0.4538  0.2500  0.1754  1.0000\n  F   F22       1.0000  0.5462  0.7500  0.8246  1.0000\n  F   F23       1.0000  0.0462  0.7500  0.6754  1.0000\n  F   F24       1.0000  0.9538  0.2500  0.3246  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7e067d9d-9b6d-47bc-bcb2-ffe00d1912bb",
    "mp_id": "mp-1209348",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb5(TmI4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   15.0961\n_cell_length_b   15.0961\n_cell_length_c   4.5883\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb5(TmI4)3\n_chemical_formula_sum   'Rb5 Tm3 I12'\n_cell_volume   905.5528\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.3333  0.6667  0.0000  1\n  Rb  Rb1  1  0.6667  0.3333  0.0000  1\n  Rb  Rb2  1  0.7177  0.0000  0.0000  1\n  Rb  Rb3  1  0.0000  0.7177  0.0000  1\n  Rb  Rb4  1  0.2823  0.2823  0.0000  1\n  Tm  Tm5  1  0.3222  0.0000  0.5000  1\n  Tm  Tm6  1  0.0000  0.3222  0.5000  1\n  Tm  Tm7  1  0.6778  0.6778  0.5000  1\n  I  I8  1  0.1852  0.0000  0.0000  1\n  I  I9  1  0.0000  0.1852  0.0000  1\n  I  I10  1  0.8148  0.8148  0.0000  1\n  I  I11  1  0.4573  0.0000  0.0000  1\n  I  I12  1  0.0000  0.4573  0.0000  1\n  I  I13  1  0.5427  0.5427  0.0000  1\n  I  I14  1  0.2333  0.4412  0.5000  1\n  I  I15  1  0.5588  0.7921  0.5000  1\n  I  I16  1  0.4412  0.2333  0.5000  1\n  I  I17  1  0.2079  0.7667  0.5000  1\n  I  I18  1  0.7921  0.5588  0.5000  1\n  I  I19  1  0.7667  0.2079  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbIRb3Tm3I4RbI7\n_chemical_formula_sum              \"Rb5 I12 Tm3\"\n_cell_length_a       15.0961\n_cell_length_b       15.0961\n_cell_length_c       4.5883\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.3333  0.6667  0.0000  1.0000\n  I   I1        1.0000  0.6667  0.3333  0.0000  1.0000\n  Rb  Rb2       1.0000  0.7177  0.0000  0.0000  1.0000\n  Rb  Rb3       1.0000  1.0000  0.7177  0.0000  1.0000\n  Rb  Rb4       1.0000  0.2823  0.2823  0.0000  1.0000\n  Tm  Tm1       1.0000  0.3222  0.0000  0.5000  1.0000\n  Tm  Tm2       1.0000  0.0000  0.3222  0.5000  1.0000\n  Tm  Tm3       1.0000  0.6778  0.6778  0.5000  1.0000\n  I   I2        1.0000  0.1852  0.0000  0.0000  1.0000\n  I   I3        1.0000  0.0000  0.1852  0.0000  1.0000\n  I   I4        1.0000  0.8148  0.8148  0.0000  1.0000\n  I   I5        1.0000  0.4573  0.0000  0.0000  1.0000\n  Rb  Rb5       1.0000  0.0000  0.4573  0.0000  1.0000\n  I   I6        1.0000  0.5427  0.5427  0.0000  1.0000\n  I   I7        1.0000  0.2333  0.4412  0.5000  1.0000\n  I   I8        1.0000  0.5588  0.7921  0.5000  1.0000\n  I   I9        1.0000  0.4412  0.2333  0.5000  1.0000\n  I   I10       1.0000  0.2079  0.7667  0.5000  1.0000\n  I   I11       1.0000  0.7921  0.5588  0.5000  1.0000\n  I   I12       1.0000  0.7667  0.2079  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2212ffcd-481e-43c9-8256-cfef84c6c0f5",
    "mp_id": "mp-1209483",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2LaNb2ClO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9290\n_cell_length_b   3.9290\n_cell_length_c   15.1854\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2LaNb2ClO7\n_chemical_formula_sum   'Rb2 La1 Nb2 Cl1 O7'\n_cell_volume   234.4234\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5000  0.5000  0.3664  1\n  Rb  Rb1  1  0.5000  0.5000  0.6336  1\n  La  La2  1  0.5000  0.5000  0.0000  1\n  Nb  Nb3  1  0.0000  0.0000  0.1529  1\n  Nb  Nb4  1  0.0000  0.0000  0.8471  1\n  Cl  Cl5  1  0.0000  0.0000  0.5000  1\n  O  O6  1  0.0000  0.5000  0.1240  1\n  O  O7  1  0.0000  0.5000  0.8760  1\n  O  O8  1  0.5000  0.0000  0.1240  1\n  O  O9  1  0.5000  0.0000  0.8760  1\n  O  O10  1  0.0000  0.0000  0.2720  1\n  O  O11  1  0.0000  0.0000  0.7280  1\n  O  O12  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2LaNb2O2ClO5\n_chemical_formula_sum              \"Rb2 La1 Nb2 O7 Cl1\"\n_cell_length_a       3.9290\n_cell_length_b       3.9290\n_cell_length_c       15.1854\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5000  0.5000  0.3664  1.0000\n  Rb  Rb2       1.0000  0.5000  0.5000  0.6336  1.0000\n  La  La1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Nb  Nb1       1.0000  0.0000  0.0000  0.1529  1.0000\n  Nb  Nb2       1.0000  0.0000  0.0000  0.8471  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.0000  0.5000  0.1240  1.0000\n  Cl  Cl1       1.0000  0.0000  0.5000  0.8760  1.0000\n  O   O3        1.0000  0.5000  0.0000  0.1240  1.0000\n  O   O4        1.0000  0.5000  0.0000  0.8760  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.2720  1.0000\n  O   O6        1.0000  0.0000  0.0000  0.7280  1.0000\n  O   O7        1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a26129b5-e15d-40aa-b445-47adc2a3b12c",
    "mp_id": "mp-1209534",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 82 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3Sm2(BO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4227\n_cell_length_b   8.8011\n_cell_length_c   16.5694\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3Sm2(BO3)4\n_chemical_formula_sum   'Sr12 Sm8 B16 O48'\n_cell_volume   1082.4465\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.0286  0.3295  0.4583  1\n  Sr  Sr1  1  0.9714  0.6705  0.9583  1\n  Sr  Sr2  1  0.5286  0.1705  0.4583  1\n  Sr  Sr3  1  0.4714  0.8295  0.9583  1\n  Sr  Sr4  1  0.1796  0.8480  0.4136  1\n  Sr  Sr5  1  0.8204  0.1520  0.9136  1\n  Sr  Sr6  1  0.6796  0.6520  0.4136  1\n  Sr  Sr7  1  0.3204  0.3480  0.9136  1\n  Sr  Sr8  1  0.3129  0.3508  0.6644  1\n  Sr  Sr9  1  0.6871  0.6492  0.1644  1\n  Sr  Sr10  1  0.8129  0.1492  0.6644  1\n  Sr  Sr11  1  0.1871  0.8508  0.1644  1\n  Sm  Sm12  1  0.3181  0.4652  0.2902  1\n  Sm  Sm13  1  0.6819  0.5348  0.7902  1\n  Sm  Sm14  1  0.8181  0.0348  0.2902  1\n  Sm  Sm15  1  0.1819  0.9652  0.7902  1\n  Sm  Sm16  1  0.0308  0.3295  0.1199  1\n  Sm  Sm17  1  0.9692  0.6705  0.6199  1\n  Sm  Sm18  1  0.5308  0.1705  0.1199  1\n  Sm  Sm19  1  0.4692  0.8295  0.6199  1\n  B  B20  1  0.1705  0.0611  0.9979  1\n  B  B21  1  0.8295  0.9389  0.4979  1\n  B  B22  1  0.6705  0.4389  0.9979  1\n  B  B23  1  0.3295  0.5611  0.4979  1\n  B  B24  1  0.0082  0.3726  0.7869  1\n  B  B25  1  0.9918  0.6274  0.2869  1\n  B  B26  1  0.5082  0.1274  0.7869  1\n  B  B27  1  0.4918  0.8726  0.2869  1\n  B  B28  1  0.1608  0.0447  0.5846  1\n  B  B29  1  0.8392  0.9553  0.0846  1\n  B  B30  1  0.6608  0.4553  0.5846  1\n  B  B31  1  0.3392  0.5447  0.0846  1\n  B  B32  1  0.2169  0.1461  0.2874  1\n  B  B33  1  0.7831  0.8539  0.7874  1\n  B  B34  1  0.7169  0.3539  0.2874  1\n  B  B35  1  0.2831  0.6461  0.7874  1\n  O  O36  1  0.2456  0.2203  0.2140  1\n  O  O37  1  0.7544  0.7797  0.7140  1\n  O  O38  1  0.7456  0.2797  0.2140  1\n  O  O39  1  0.2544  0.7203  0.7140  1\n  O  O40  1  0.0929  0.1904  0.5844  1\n  O  O41  1  0.9071  0.8096  0.0844  1\n  O  O42  1  0.5929  0.3096  0.5844  1\n  O  O43  1  0.4071  0.6904  0.0844  1\n  O  O44  1  0.0927  0.2055  0.0005  1\n  O  O45  1  0.9073  0.7945  0.5005  1\n  O  O46  1  0.5927  0.2945  0.0005  1\n  O  O47  1  0.4073  0.7055  0.5005  1\n  O  O48  1  0.1318  0.0084  0.2907  1\n  O  O49  1  0.8682  0.9916  0.7907  1\n  O  O50  1  0.6318  0.4916  0.2907  1\n  O  O51  1  0.3682  0.5084  0.7907  1\n  O  O52  1  0.1987  0.5030  0.0339  1\n  O  O53  1  0.8013  0.4970  0.5339  1\n  O  O54  1  0.6987  0.9970  0.0339  1\n  O  O55  1  0.3013  0.0030  0.5339  1\n  O  O56  1  0.1109  0.2411  0.7842  1\n  O  O57  1  0.8891  0.7589  0.2842  1\n  O  O58  1  0.6109  0.2589  0.7842  1\n  O  O59  1  0.3891  0.7411  0.2842  1\n  O  O60  1  0.0471  0.5520  0.2158  1\n  O  O61  1  0.9529  0.4480  0.7158  1\n  O  O62  1  0.5471  0.9480  0.2158  1\n  O  O63  1  0.4529  0.0520  0.7158  1\n  O  O64  1  0.2679  0.2242  0.3559  1\n  O  O65  1  0.7321  0.7758  0.8559  1\n  O  O66  1  0.7679  0.2758  0.3559  1\n  O  O67  1  0.2321  0.7242  0.8559  1\n  O  O68  1  0.3837  0.4622  0.4380  1\n  O  O69  1  0.6163  0.5378  0.9380  1\n  O  O70  1  0.8837  0.0378  0.4380  1\n  O  O71  1  0.1163  0.9622  0.9380  1\n  O  O72  1  0.4046  0.4374  0.1398  1\n  O  O73  1  0.5954  0.5626  0.6398  1\n  O  O74  1  0.9046  0.0626  0.1398  1\n  O  O75  1  0.0954  0.9374  0.6398  1\n  O  O76  1  0.3054  0.0262  0.0531  1\n  O  O77  1  0.6946  0.9738  0.5531  1\n  O  O78  1  0.8054  0.4738  0.0531  1\n  O  O79  1  0.1946  0.5262  0.5531  1\n  O  O80  1  0.0574  0.5709  0.3594  1\n  O  O81  1  0.9426  0.4291  0.8594  1\n  O  O82  1  0.5574  0.9291  0.3594  1\n  O  O83  1  0.4426  0.0709  0.8594  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr9OSr2Sm8B16O46SrO\n_chemical_formula_sum              \"Sr12 O48 Sm8 B16\"\n_cell_length_a       7.4227\n_cell_length_b       8.8011\n_cell_length_c       16.5694\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.0286  0.3295  0.4583  1.0000\n  Sr  Sr2       1.0000  0.9714  0.6705  0.9583  1.0000\n  Sr  Sr3       1.0000  0.5286  0.1705  0.4583  1.0000\n  Sr  Sr4       1.0000  0.4714  0.8295  0.9583  1.0000\n  Sr  Sr5       1.0000  0.1796  0.8480  0.4136  1.0000\n  Sr  Sr6       1.0000  0.8204  0.1520  0.9136  1.0000\n  Sr  Sr7       1.0000  0.6796  0.6520  0.4136  1.0000\n  Sr  Sr8       1.0000  0.3204  0.3480  0.9136  1.0000\n  Sr  Sr9       1.0000  0.3129  0.3508  0.6644  1.0000\n  O   O1        1.0000  0.6871  0.6492  0.1644  1.0000\n  Sr  Sr10      1.0000  0.8129  0.1492  0.6644  1.0000\n  Sr  Sr11      1.0000  0.1871  0.8508  0.1644  1.0000\n  Sm  Sm1       1.0000  0.3181  0.4652  0.2902  1.0000\n  Sm  Sm2       1.0000  0.6819  0.5348  0.7902  1.0000\n  Sm  Sm3       1.0000  0.8181  0.0348  0.2902  1.0000\n  Sm  Sm4       1.0000  0.1819  0.9652  0.7902  1.0000\n  Sm  Sm5       1.0000  0.0308  0.3295  0.1199  1.0000\n  Sm  Sm6       1.0000  0.9692  0.6705  0.6199  1.0000\n  Sm  Sm7       1.0000  0.5308  0.1705  0.1199  1.0000\n  Sm  Sm8       1.0000  0.4692  0.8295  0.6199  1.0000\n  B   B1        1.0000  0.1705  0.0611  0.9979  1.0000\n  B   B2        1.0000  0.8295  0.9389  0.4979  1.0000\n  B   B3        1.0000  0.6705  0.4389  0.9979  1.0000\n  B   B4        1.0000  0.3295  0.5611  0.4979  1.0000\n  B   B5        1.0000  0.0082  0.3726  0.7869  1.0000\n  B   B6        1.0000  0.9918  0.6274  0.2869  1.0000\n  B   B7        1.0000  0.5082  0.1274  0.7869  1.0000\n  B   B8        1.0000  0.4918  0.8726  0.2869  1.0000\n  B   B9        1.0000  0.1608  0.0447  0.5846  1.0000\n  B   B10       1.0000  0.8392  0.9553  0.0846  1.0000\n  B   B11       1.0000  0.6608  0.4553  0.5846  1.0000\n  B   B12       1.0000  0.3392  0.5447  0.0846  1.0000\n  B   B13       1.0000  0.2169  0.1461  0.2874  1.0000\n  B   B14       1.0000  0.7831  0.8539  0.7874  1.0000\n  B   B15       1.0000  0.7169  0.3539  0.2874  1.0000\n  B   B16       1.0000  0.2831  0.6461  0.7874  1.0000\n  O   O2        1.0000  0.2456  0.2203  0.2140  1.0000\n  O   O3        1.0000  0.7544  0.7797  0.7140  1.0000\n  O   O4        1.0000  0.7456  0.2797  0.2140  1.0000\n  O   O5        1.0000  0.2544  0.7203  0.7140  1.0000\n  O   O6        1.0000  0.0929  0.1904  0.5844  1.0000\n  O   O7        1.0000  0.9071  0.8096  0.0844  1.0000\n  O   O8        1.0000  0.5929  0.3096  0.5844  1.0000\n  O   O9        1.0000  0.4071  0.6904  0.0844  1.0000\n  O   O10       1.0000  0.0927  0.2055  0.0005  1.0000\n  O   O11       1.0000  0.9073  0.7945  0.5005  1.0000\n  O   O12       1.0000  0.5927  0.2945  0.0005  1.0000\n  O   O13       1.0000  0.4073  0.7055  0.5005  1.0000\n  O   O14       1.0000  0.1318  0.0084  0.2907  1.0000\n  O   O15       1.0000  0.8682  0.9916  0.7907  1.0000\n  O   O16       1.0000  0.6318  0.4916  0.2907  1.0000\n  O   O17       1.0000  0.3682  0.5084  0.7907  1.0000\n  O   O18       1.0000  0.1987  0.5030  0.0339  1.0000\n  O   O19       1.0000  0.8013  0.4970  0.5339  1.0000\n  O   O20       1.0000  0.6987  0.9970  0.0339  1.0000\n  O   O21       1.0000  0.3013  0.0030  0.5339  1.0000\n  O   O22       1.0000  0.1109  0.2411  0.7842  1.0000\n  O   O23       1.0000  0.8891  0.7589  0.2842  1.0000\n  O   O24       1.0000  0.6109  0.2589  0.7842  1.0000\n  O   O25       1.0000  0.3891  0.7411  0.2842  1.0000\n  O   O26       1.0000  0.0471  0.5520  0.2158  1.0000\n  O   O27       1.0000  0.9529  0.4480  0.7158  1.0000\n  O   O28       1.0000  0.5471  0.9480  0.2158  1.0000\n  O   O29       1.0000  0.4529  0.0520  0.7158  1.0000\n  O   O30       1.0000  0.2679  0.2242  0.3559  1.0000\n  O   O31       1.0000  0.7321  0.7758  0.8559  1.0000\n  O   O32       1.0000  0.7679  0.2758  0.3559  1.0000\n  O   O33       1.0000  0.2321  0.7242  0.8559  1.0000\n  O   O34       1.0000  0.3837  0.4622  0.4380  1.0000\n  O   O35       1.0000  0.6163  0.5378  0.9380  1.0000\n  O   O36       1.0000  0.8837  0.0378  0.4380  1.0000\n  O   O37       1.0000  0.1163  0.9622  0.9380  1.0000\n  O   O38       1.0000  0.4046  0.4374  0.1398  1.0000\n  O   O39       1.0000  0.5954  0.5626  0.6398  1.0000\n  O   O40       1.0000  0.9046  0.0626  0.1398  1.0000\n  O   O41       1.0000  0.0954  0.9374  0.6398  1.0000\n  O   O42       1.0000  0.3054  0.0262  0.0531  1.0000\n  O   O43       1.0000  0.6946  0.9738  0.5531  1.0000\n  O   O44       1.0000  0.8054  0.4738  0.0531  1.0000\n  O   O45       1.0000  0.1946  0.5262  0.5531  1.0000\n  O   O46       1.0000  0.0574  0.5709  0.3594  1.0000\n  O   O47       1.0000  0.9426  0.4291  0.8594  1.0000\n  Sr  Sr12      1.0000  0.5574  0.9291  0.3594  1.0000\n  O   O48       1.0000  0.4426  0.0709  0.8594  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6fbc72f7-2f27-432c-b1b8-ef423374e5f8",
    "mp_id": "mp-1209695",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 62 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm23Mg4Ni7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.8885\n_cell_length_b   9.8885\n_cell_length_c   22.3893\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm23Mg4Ni7\n_chemical_formula_sum   'Sm46 Mg8 Ni14'\n_cell_volume   1895.9656\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.2076  0.4151  0.7191  1\n  Sm  Sm1  1  0.2076  0.7924  0.7191  1\n  Sm  Sm2  1  0.7924  0.5849  0.2191  1\n  Sm  Sm3  1  0.5849  0.7924  0.7191  1\n  Sm  Sm4  1  0.7924  0.2076  0.2191  1\n  Sm  Sm5  1  0.4151  0.2076  0.2191  1\n  Sm  Sm6  1  0.7921  0.5843  0.9478  1\n  Sm  Sm7  1  0.7921  0.2079  0.9478  1\n  Sm  Sm8  1  0.2079  0.4157  0.4478  1\n  Sm  Sm9  1  0.4157  0.2079  0.9478  1\n  Sm  Sm10  1  0.2079  0.7921  0.4478  1\n  Sm  Sm11  1  0.5843  0.7921  0.4478  1\n  Sm  Sm12  1  0.2112  0.4225  0.9910  1\n  Sm  Sm13  1  0.2112  0.7888  0.9910  1\n  Sm  Sm14  1  0.7888  0.5775  0.4910  1\n  Sm  Sm15  1  0.5775  0.7888  0.9910  1\n  Sm  Sm16  1  0.7888  0.2112  0.4910  1\n  Sm  Sm17  1  0.4225  0.2112  0.4910  1\n  Sm  Sm18  1  0.8713  0.7426  0.6339  1\n  Sm  Sm19  1  0.8713  0.1287  0.6339  1\n  Sm  Sm20  1  0.1287  0.2574  0.1339  1\n  Sm  Sm21  1  0.2574  0.1287  0.6339  1\n  Sm  Sm22  1  0.1287  0.8713  0.1339  1\n  Sm  Sm23  1  0.7426  0.8713  0.1339  1\n  Sm  Sm24  1  0.4573  0.9146  0.8562  1\n  Sm  Sm25  1  0.4573  0.5427  0.8562  1\n  Sm  Sm26  1  0.5427  0.0854  0.3562  1\n  Sm  Sm27  1  0.0854  0.5427  0.8562  1\n  Sm  Sm28  1  0.5427  0.4573  0.3562  1\n  Sm  Sm29  1  0.9146  0.4573  0.3562  1\n  Sm  Sm30  1  0.0000  0.0000  0.0005  1\n  Sm  Sm31  1  0.0000  0.0000  0.5005  1\n  Sm  Sm32  1  0.4604  0.9208  0.5854  1\n  Sm  Sm33  1  0.4604  0.5396  0.5854  1\n  Sm  Sm34  1  0.5396  0.0792  0.0854  1\n  Sm  Sm35  1  0.0792  0.5396  0.5854  1\n  Sm  Sm36  1  0.5396  0.4604  0.0854  1\n  Sm  Sm37  1  0.9208  0.4604  0.0854  1\n  Sm  Sm38  1  0.7950  0.5901  0.7818  1\n  Sm  Sm39  1  0.7950  0.2050  0.7818  1\n  Sm  Sm40  1  0.2050  0.4099  0.2818  1\n  Sm  Sm41  1  0.4099  0.2050  0.7818  1\n  Sm  Sm42  1  0.2050  0.7950  0.2818  1\n  Sm  Sm43  1  0.5901  0.7950  0.2818  1\n  Sm  Sm44  1  0.6667  0.3333  0.6447  1\n  Sm  Sm45  1  0.3333  0.6667  0.1447  1\n  Mg  Mg46  1  0.0000  0.0000  0.7499  1\n  Mg  Mg47  1  0.0000  0.0000  0.2499  1\n  Mg  Mg48  1  0.1058  0.2116  0.8630  1\n  Mg  Mg49  1  0.1058  0.8942  0.8630  1\n  Mg  Mg50  1  0.8942  0.7884  0.3630  1\n  Mg  Mg51  1  0.7884  0.8942  0.8630  1\n  Mg  Mg52  1  0.8942  0.1058  0.3630  1\n  Mg  Mg53  1  0.2116  0.1058  0.3630  1\n  Ni  Ni54  1  0.5212  0.0425  0.7100  1\n  Ni  Ni55  1  0.5212  0.4788  0.7100  1\n  Ni  Ni56  1  0.4788  0.9575  0.2100  1\n  Ni  Ni57  1  0.9575  0.4788  0.7100  1\n  Ni  Ni58  1  0.4788  0.5212  0.2100  1\n  Ni  Ni59  1  0.0425  0.5212  0.2100  1\n  Ni  Ni60  1  0.6667  0.3333  0.8634  1\n  Ni  Ni61  1  0.3333  0.6667  0.3634  1\n  Ni  Ni62  1  0.1433  0.2866  0.5645  1\n  Ni  Ni63  1  0.1433  0.8567  0.5645  1\n  Ni  Ni64  1  0.8567  0.7134  0.0645  1\n  Ni  Ni65  1  0.7134  0.8567  0.5645  1\n  Ni  Ni66  1  0.8567  0.1433  0.0645  1\n  Ni  Ni67  1  0.2866  0.1433  0.0645  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm36NiSm9Mg8Ni8SmNi5\n_chemical_formula_sum              \"Sm46 Ni14 Mg8\"\n_cell_length_a       9.8885\n_cell_length_b       9.8885\n_cell_length_c       22.3893\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.2076  0.4151  0.7191  1.0000\n  Sm  Sm2       1.0000  0.2076  0.7924  0.7191  1.0000\n  Sm  Sm3       1.0000  0.7924  0.5849  0.2191  1.0000\n  Sm  Sm4       1.0000  0.5849  0.7924  0.7191  1.0000\n  Sm  Sm5       1.0000  0.7924  0.2076  0.2191  1.0000\n  Sm  Sm6       1.0000  0.4151  0.2076  0.2191  1.0000\n  Sm  Sm7       1.0000  0.7921  0.5843  0.9478  1.0000\n  Sm  Sm8       1.0000  0.7921  0.2079  0.9478  1.0000\n  Sm  Sm9       1.0000  0.2079  0.4157  0.4478  1.0000\n  Sm  Sm10      1.0000  0.4157  0.2079  0.9478  1.0000\n  Sm  Sm11      1.0000  0.2079  0.7921  0.4478  1.0000\n  Sm  Sm12      1.0000  0.5843  0.7921  0.4478  1.0000\n  Sm  Sm13      1.0000  0.2112  0.4225  0.9910  1.0000\n  Sm  Sm14      1.0000  0.2112  0.7888  0.9910  1.0000\n  Sm  Sm15      1.0000  0.7888  0.5775  0.4910  1.0000\n  Sm  Sm16      1.0000  0.5775  0.7888  0.9910  1.0000\n  Sm  Sm17      1.0000  0.7888  0.2112  0.4910  1.0000\n  Sm  Sm18      1.0000  0.4225  0.2112  0.4910  1.0000\n  Sm  Sm19      1.0000  0.8713  0.7426  0.6339  1.0000\n  Sm  Sm20      1.0000  0.8713  0.1287  0.6339  1.0000\n  Sm  Sm21      1.0000  0.1287  0.2574  0.1339  1.0000\n  Sm  Sm22      1.0000  0.2574  0.1287  0.6339  1.0000\n  Sm  Sm23      1.0000  0.1287  0.8713  0.1339  1.0000\n  Sm  Sm24      1.0000  0.7426  0.8713  0.1339  1.0000\n  Sm  Sm25      1.0000  0.4573  0.9146  0.8562  1.0000\n  Sm  Sm26      1.0000  0.4573  0.5427  0.8562  1.0000\n  Sm  Sm27      1.0000  0.5427  0.0854  0.3562  1.0000\n  Sm  Sm28      1.0000  0.0854  0.5427  0.8562  1.0000\n  Sm  Sm29      1.0000  0.5427  0.4573  0.3562  1.0000\n  Sm  Sm30      1.0000  0.9146  0.4573  0.3562  1.0000\n  Sm  Sm31      1.0000  0.0000  0.0000  0.0005  1.0000\n  Sm  Sm32      1.0000  0.0000  0.0000  0.5005  1.0000\n  Sm  Sm33      1.0000  0.4604  0.9208  0.5854  1.0000\n  Sm  Sm34      1.0000  0.4604  0.5396  0.5854  1.0000\n  Sm  Sm35      1.0000  0.5396  0.0792  0.0854  1.0000\n  Sm  Sm36      1.0000  0.0792  0.5396  0.5854  1.0000\n  Ni  Ni1       1.0000  0.5396  0.4604  0.0854  1.0000\n  Sm  Sm37      1.0000  0.9208  0.4604  0.0854  1.0000\n  Sm  Sm38      1.0000  0.7950  0.5901  0.7818  1.0000\n  Sm  Sm39      1.0000  0.7950  0.2050  0.7818  1.0000\n  Sm  Sm40      1.0000  0.2050  0.4099  0.2818  1.0000\n  Sm  Sm41      1.0000  0.4099  0.2050  0.7818  1.0000\n  Sm  Sm42      1.0000  0.2050  0.7950  0.2818  1.0000\n  Sm  Sm43      1.0000  0.5901  0.7950  0.2818  1.0000\n  Sm  Sm44      1.0000  0.6667  0.3333  0.6447  1.0000\n  Sm  Sm45      1.0000  0.3333  0.6667  0.1447  1.0000\n  Mg  Mg1       1.0000  0.0000  0.0000  0.7499  1.0000\n  Mg  Mg2       1.0000  0.0000  0.0000  0.2499  1.0000\n  Mg  Mg3       1.0000  0.1058  0.2116  0.8630  1.0000\n  Mg  Mg4       1.0000  0.1058  0.8942  0.8630  1.0000\n  Mg  Mg5       1.0000  0.8942  0.7884  0.3630  1.0000\n  Mg  Mg6       1.0000  0.7884  0.8942  0.8630  1.0000\n  Mg  Mg7       1.0000  0.8942  0.1058  0.3630  1.0000\n  Mg  Mg8       1.0000  0.2116  0.1058  0.3630  1.0000\n  Ni  Ni2       1.0000  0.5212  0.0425  0.7100  1.0000\n  Ni  Ni3       1.0000  0.5212  0.4788  0.7100  1.0000\n  Ni  Ni4       1.0000  0.4788  0.9575  0.2100  1.0000\n  Ni  Ni5       1.0000  0.9575  0.4788  0.7100  1.0000\n  Ni  Ni6       1.0000  0.4788  0.5212  0.2100  1.0000\n  Ni  Ni7       1.0000  0.0425  0.5212  0.2100  1.0000\n  Ni  Ni8       1.0000  0.6667  0.3333  0.8634  1.0000\n  Ni  Ni9       1.0000  0.3333  0.6667  0.3634  1.0000\n  Sm  Sm46      1.0000  0.1433  0.2866  0.5645  1.0000\n  Ni  Ni10      1.0000  0.1433  0.8567  0.5645  1.0000\n  Ni  Ni11      1.0000  0.8567  0.7134  0.0645  1.0000\n  Ni  Ni12      1.0000  0.7134  0.8567  0.5645  1.0000\n  Ni  Ni13      1.0000  0.8567  0.1433  0.0645  1.0000\n  Ni  Ni14      1.0000  0.2866  0.1433  0.0645  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7277430c-c935-4de2-9103-3ca9b3df3964",
    "mp_id": "mp-1210015",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiPt(CN)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3848\n_cell_length_b   7.3848\n_cell_length_c   7.3848\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiPt(CN)6\n_chemical_formula_sum   'Ni1 Pt1 C6 N6'\n_cell_volume   284.7791\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.5000  0.5000  0.5000  1\n  Pt  Pt1  1  0.0000  0.0000  0.0000  1\n  C  C2  1  0.8067  0.1933  0.1933  1\n  C  C3  1  0.1933  0.8067  0.8067  1\n  C  C4  1  0.1933  0.8067  0.1933  1\n  C  C5  1  0.8067  0.1933  0.8067  1\n  C  C6  1  0.1933  0.1933  0.8067  1\n  C  C7  1  0.8067  0.8067  0.1933  1\n  N  N8  1  0.6954  0.3046  0.3046  1\n  N  N9  1  0.3046  0.6954  0.6954  1\n  N  N10  1  0.3046  0.6954  0.3046  1\n  N  N11  1  0.6954  0.3046  0.6954  1\n  N  N12  1  0.3046  0.3046  0.6954  1\n  N  N13  1  0.6954  0.6954  0.3046  1\n",
    "output": "data_image0\n_chemical_formula_structural       NiPtC5N3CN3\n_chemical_formula_sum              \"Ni1 Pt1 C6 N6\"\n_cell_length_a       7.3848\n_cell_length_b       7.3848\n_cell_length_c       7.3848\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Pt  Pt1       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.8067  0.1933  0.1933  1.0000\n  C   C2        1.0000  0.1933  0.8067  0.8067  1.0000\n  C   C3        1.0000  0.1933  0.8067  0.1933  1.0000\n  C   C4        1.0000  0.8067  0.1933  0.8067  1.0000\n  C   C5        1.0000  0.1933  0.1933  0.8067  1.0000\n  N   N1        1.0000  0.8067  0.8067  0.1933  1.0000\n  N   N2        1.0000  0.6954  0.3046  0.3046  1.0000\n  N   N3        1.0000  0.3046  0.6954  0.6954  1.0000\n  C   C6        1.0000  0.3046  0.6954  0.3046  1.0000\n  N   N4        1.0000  0.6954  0.3046  0.6954  1.0000\n  N   N5        1.0000  0.3046  0.3046  0.6954  1.0000\n  N   N6        1.0000  0.6954  0.6954  0.3046  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7e1c770e-55a1-4b6f-b772-bf01164c81c1",
    "mp_id": "mp-1210035",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd2CoRuO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8210\n_cell_length_b   5.4468\n_cell_length_c   9.5216\n_cell_angle_alpha   55.1586\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd2CoRuO6\n_chemical_formula_sum   'Nd4 Co2 Ru2 O12'\n_cell_volume   247.7706\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.4333  0.2298  0.7493  1\n  Nd  Nd1  1  0.5667  0.7702  0.2507  1\n  Nd  Nd2  1  0.9333  0.7702  0.7507  1\n  Nd  Nd3  1  0.0667  0.2298  0.2493  1\n  Co  Co4  1  0.0000  0.5000  0.5000  1\n  Co  Co5  1  0.5000  0.5000  0.0000  1\n  Ru  Ru6  1  0.0000  0.0000  0.0000  1\n  Ru  Ru7  1  0.5000  0.0000  0.5000  1\n  O  O8  1  0.1959  0.7478  0.9508  1\n  O  O9  1  0.8041  0.2522  0.0492  1\n  O  O10  1  0.6959  0.2522  0.5492  1\n  O  O11  1  0.3041  0.7478  0.4508  1\n  O  O12  1  0.7054  0.8654  0.9447  1\n  O  O13  1  0.2946  0.1346  0.0553  1\n  O  O14  1  0.2054  0.1346  0.5553  1\n  O  O15  1  0.7946  0.8654  0.4447  1\n  O  O16  1  0.0327  0.3478  0.7533  1\n  O  O17  1  0.9673  0.6522  0.2467  1\n  O  O18  1  0.5327  0.6522  0.7467  1\n  O  O19  1  0.4673  0.3478  0.2533  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd4Co2RuO5RuO7\n_chemical_formula_sum              \"Nd4 Co2 Ru2 O12\"\n_cell_length_a       5.8210\n_cell_length_b       5.4468\n_cell_length_c       9.5216\n_cell_angle_alpha    55.1586\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.4333  0.2298  0.7493  1.0000\n  Nd  Nd2       1.0000  0.5667  0.7702  0.2507  1.0000\n  Nd  Nd3       1.0000  0.9333  0.7702  0.7507  1.0000\n  Nd  Nd4       1.0000  0.0667  0.2298  0.2493  1.0000\n  Co  Co1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Co  Co2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ru  Ru1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.1959  0.7478  0.9508  1.0000\n  O   O3        1.0000  0.8041  0.2522  0.0492  1.0000\n  O   O4        1.0000  0.6959  0.2522  0.5492  1.0000\n  O   O5        1.0000  0.3041  0.7478  0.4508  1.0000\n  Ru  Ru2       1.0000  0.7054  0.8654  0.9447  1.0000\n  O   O6        1.0000  0.2946  0.1346  0.0553  1.0000\n  O   O7        1.0000  0.2054  0.1346  0.5553  1.0000\n  O   O8        1.0000  0.7946  0.8654  0.4447  1.0000\n  O   O9        1.0000  0.0327  0.3478  0.7533  1.0000\n  O   O10       1.0000  0.9673  0.6522  0.2467  1.0000\n  O   O11       1.0000  0.5327  0.6522  0.7467  1.0000\n  O   O12       1.0000  0.4673  0.3478  0.2533  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dbfa14e1-7a6e-45ec-aa1c-9f32a9353ee6",
    "mp_id": "mp-1210161",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaSc(WO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1529\n_cell_length_b   5.8770\n_cell_length_c   10.1935\n_cell_angle_alpha   90.0000\n_cell_angle_beta   91.4424\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaSc(WO4)2\n_chemical_formula_sum   'Na2 Sc2 W4 O16'\n_cell_volume   308.5997\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.7500  0.6705  0.5000  1\n  Na  Na1  1  0.2500  0.3295  0.5000  1\n  Sc  Sc2  1  0.7500  0.6719  0.0000  1\n  Sc  Sc3  1  0.2500  0.3281  0.0000  1\n  W  W4  1  0.2475  0.8289  0.7612  1\n  W  W5  1  0.7525  0.1711  0.2388  1\n  W  W6  1  0.2525  0.8289  0.2388  1\n  W  W7  1  0.7475  0.1711  0.7612  1\n  O  O8  1  0.6203  0.3686  0.6452  1\n  O  O9  1  0.3797  0.6314  0.3548  1\n  O  O10  1  0.8797  0.3686  0.3548  1\n  O  O11  1  0.1203  0.6314  0.6452  1\n  O  O12  1  0.5604  0.9025  0.6711  1\n  O  O13  1  0.4396  0.0975  0.3289  1\n  O  O14  1  0.9396  0.9025  0.3289  1\n  O  O15  1  0.0604  0.0975  0.6711  1\n  O  O16  1  0.9383  0.8830  0.8714  1\n  O  O17  1  0.0617  0.1170  0.1286  1\n  O  O18  1  0.5617  0.8830  0.1286  1\n  O  O19  1  0.4383  0.1170  0.8714  1\n  O  O20  1  0.9001  0.3715  0.8893  1\n  O  O21  1  0.0999  0.6285  0.1107  1\n  O  O22  1  0.5999  0.3715  0.1107  1\n  O  O23  1  0.4001  0.6285  0.8893  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2Sc2W2OWO2WO13\n_chemical_formula_sum              \"Na2 Sc2 W4 O16\"\n_cell_length_a       5.1529\n_cell_length_b       5.8770\n_cell_length_c       10.1935\n_cell_angle_alpha    90.0000\n_cell_angle_beta     91.4424\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.7500  0.6705  0.5000  1.0000\n  Na  Na2       1.0000  0.2500  0.3295  0.5000  1.0000\n  Sc  Sc1       1.0000  0.7500  0.6719  0.0000  1.0000\n  Sc  Sc2       1.0000  0.2500  0.3281  0.0000  1.0000\n  W   W1        1.0000  0.2475  0.8289  0.7612  1.0000\n  W   W2        1.0000  0.7525  0.1711  0.2388  1.0000\n  O   O1        1.0000  0.2525  0.8289  0.2388  1.0000\n  W   W3        1.0000  0.7475  0.1711  0.7612  1.0000\n  O   O2        1.0000  0.6203  0.3686  0.6452  1.0000\n  O   O3        1.0000  0.3797  0.6314  0.3548  1.0000\n  W   W4        1.0000  0.8797  0.3686  0.3548  1.0000\n  O   O4        1.0000  0.1203  0.6314  0.6452  1.0000\n  O   O5        1.0000  0.5604  0.9025  0.6711  1.0000\n  O   O6        1.0000  0.4396  0.0975  0.3289  1.0000\n  O   O7        1.0000  0.9396  0.9025  0.3289  1.0000\n  O   O8        1.0000  0.0604  0.0975  0.6711  1.0000\n  O   O9        1.0000  0.9383  0.8830  0.8714  1.0000\n  O   O10       1.0000  0.0617  0.1170  0.1286  1.0000\n  O   O11       1.0000  0.5617  0.8830  0.1286  1.0000\n  O   O12       1.0000  0.4383  0.1170  0.8714  1.0000\n  O   O13       1.0000  0.9001  0.3715  0.8893  1.0000\n  O   O14       1.0000  0.0999  0.6285  0.1107  1.0000\n  O   O15       1.0000  0.5999  0.3715  0.1107  1.0000\n  O   O16       1.0000  0.4001  0.6285  0.8893  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4dd34874-1e3e-4358-b6d1-6ab28ef678f5",
    "mp_id": "mp-1210237",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaEuCu2F8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4747\n_cell_length_b   6.4747\n_cell_length_c   6.4747\n_cell_angle_alpha   129.4413\n_cell_angle_beta   129.4413\n_cell_angle_gamma   74.3016\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaEuCu2F8\n_chemical_formula_sum   'Na1 Eu1 Cu2 F8'\n_cell_volume   157.8071\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.5000  0.0000  1\n  Eu  Eu1  1  0.0000  0.0000  0.0000  1\n  Cu  Cu2  1  0.7500  0.2500  0.5000  1\n  Cu  Cu3  1  0.2500  0.7500  0.5000  1\n  F  F4  1  0.4451  0.2957  0.4920  1\n  F  F5  1  0.8037  0.9531  0.5080  1\n  F  F6  1  0.2957  0.8037  0.8506  1\n  F  F7  1  0.1963  0.7043  0.1494  1\n  F  F8  1  0.9531  0.4451  0.1494  1\n  F  F9  1  0.5549  0.0469  0.8506  1\n  F  F10  1  0.0469  0.1963  0.4920  1\n  F  F11  1  0.7043  0.5549  0.5080  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaFCu2F7Eu\n_chemical_formula_sum              \"Na1 F8 Cu2 Eu1\"\n_cell_length_a       6.4747\n_cell_length_b       6.4747\n_cell_length_c       6.4747\n_cell_angle_alpha    129.4413\n_cell_angle_beta     129.4413\n_cell_angle_gamma    74.3016\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5000  0.5000  0.0000  1.0000\n  F   F1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Cu  Cu1       1.0000  0.7500  0.2500  0.5000  1.0000\n  Cu  Cu2       1.0000  0.2500  0.7500  0.5000  1.0000\n  F   F2        1.0000  0.4451  0.2957  0.4920  1.0000\n  F   F3        1.0000  0.8037  0.9531  0.5080  1.0000\n  F   F4        1.0000  0.2957  0.8037  0.8506  1.0000\n  F   F5        1.0000  0.1963  0.7043  0.1494  1.0000\n  F   F6        1.0000  0.9531  0.4451  0.1494  1.0000\n  F   F7        1.0000  0.5549  0.0469  0.8506  1.0000\n  F   F8        1.0000  0.0469  0.1963  0.4920  1.0000\n  Eu  Eu1       1.0000  0.7043  0.5549  0.5080  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1ce0ba4c-df2c-427b-b665-a928a717c838",
    "mp_id": "mp-1210462",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaHN\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8978\n_cell_length_b   7.8978\n_cell_length_c   8.4864\n_cell_angle_alpha   118.0484\n_cell_angle_beta   118.0484\n_cell_angle_gamma   89.3973\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaHN\n_chemical_formula_sum   'Na8 H8 N8'\n_cell_volume   396.9504\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5760  0.7536  0.5189  1\n  Na  Na1  1  0.9429  0.7653  0.5189  1\n  Na  Na2  1  0.2464  0.4240  0.4811  1\n  Na  Na3  1  0.6740  0.9964  0.9811  1\n  Na  Na4  1  0.2347  0.0571  0.4811  1\n  Na  Na5  1  0.3071  0.9847  0.9811  1\n  Na  Na6  1  0.0036  0.3260  0.0189  1\n  Na  Na7  1  0.0153  0.6929  0.0189  1\n  H  H8  1  0.4595  0.6272  0.9021  1\n  H  H9  1  0.4425  0.2748  0.9021  1\n  H  H10  1  0.3728  0.5405  0.0979  1\n  H  H11  1  0.7905  0.1228  0.5979  1\n  H  H12  1  0.7252  0.5575  0.0979  1\n  H  H13  1  0.8075  0.4752  0.5979  1\n  H  H14  1  0.8772  0.2095  0.4021  1\n  H  H15  1  0.5248  0.1925  0.4021  1\n  N  N16  1  0.4237  0.7052  0.8252  1\n  N  N17  1  0.4014  0.1199  0.8252  1\n  N  N18  1  0.2948  0.5763  0.1748  1\n  N  N19  1  0.8263  0.0448  0.6748  1\n  N  N20  1  0.8801  0.5986  0.1748  1\n  N  N21  1  0.8486  0.6301  0.6748  1\n  N  N22  1  0.9552  0.1737  0.3252  1\n  N  N23  1  0.3699  0.1514  0.3252  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8HNH6N6HN\n_chemical_formula_sum              \"Na8 H8 N8\"\n_cell_length_a       7.8978\n_cell_length_b       7.8978\n_cell_length_c       8.4864\n_cell_angle_alpha    118.0484\n_cell_angle_beta     118.0484\n_cell_angle_gamma    89.3973\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5760  0.7536  0.5189  1.0000\n  Na  Na2       1.0000  0.9429  0.7653  0.5189  1.0000\n  Na  Na3       1.0000  0.2464  0.4240  0.4811  1.0000\n  Na  Na4       1.0000  0.6740  0.9964  0.9811  1.0000\n  Na  Na5       1.0000  0.2347  0.0571  0.4811  1.0000\n  Na  Na6       1.0000  0.3071  0.9847  0.9811  1.0000\n  Na  Na7       1.0000  0.0036  0.3260  0.0189  1.0000\n  Na  Na8       1.0000  0.0153  0.6929  0.0189  1.0000\n  H   H1        1.0000  0.4595  0.6272  0.9021  1.0000\n  N   N1        1.0000  0.4425  0.2748  0.9021  1.0000\n  H   H2        1.0000  0.3728  0.5405  0.0979  1.0000\n  H   H3        1.0000  0.7905  0.1228  0.5979  1.0000\n  H   H4        1.0000  0.7252  0.5575  0.0979  1.0000\n  H   H5        1.0000  0.8075  0.4752  0.5979  1.0000\n  H   H6        1.0000  0.8772  0.2095  0.4021  1.0000\n  H   H7        1.0000  0.5248  0.1925  0.4021  1.0000\n  N   N2        1.0000  0.4237  0.7052  0.8252  1.0000\n  N   N3        1.0000  0.4014  0.1199  0.8252  1.0000\n  N   N4        1.0000  0.2948  0.5763  0.1748  1.0000\n  N   N5        1.0000  0.8263  0.0448  0.6748  1.0000\n  N   N6        1.0000  0.8801  0.5986  0.1748  1.0000\n  N   N7        1.0000  0.8486  0.6301  0.6748  1.0000\n  H   H8        1.0000  0.9552  0.1737  0.3252  1.0000\n  N   N8        1.0000  0.3699  0.1514  0.3252  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9d56177d-f45e-41b7-9f9e-6dbcf49b8f7e",
    "mp_id": "mp-1210502",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 28 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2Mn2Cd(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8604\n_cell_length_b   8.8604\n_cell_length_c   6.8044\n_cell_angle_alpha   72.5600\n_cell_angle_beta   72.5600\n_cell_angle_gamma   91.9440\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2Mn2Cd(PO4)3\n_chemical_formula_sum   'Na4 Mn4 Cd2 P6 O24'\n_cell_volume   481.6918\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9814  0.0186  0.2500  1\n  Na  Na1  1  0.0186  0.9814  0.7500  1\n  Na  Na2  1  0.5000  0.5000  0.0000  1\n  Na  Na3  1  0.5000  0.5000  0.5000  1\n  Mn  Mn4  1  0.3836  0.0645  0.3631  1\n  Mn  Mn5  1  0.6164  0.9355  0.6369  1\n  Mn  Mn6  1  0.9355  0.6164  0.1369  1\n  Mn  Mn7  1  0.0645  0.3836  0.8631  1\n  Cd  Cd8  1  0.2673  0.7327  0.2500  1\n  Cd  Cd9  1  0.7327  0.2673  0.7500  1\n  P  P10  1  0.7176  0.2824  0.2500  1\n  P  P11  1  0.2824  0.7176  0.7500  1\n  P  P12  1  0.6562  0.8718  0.1256  1\n  P  P13  1  0.3438  0.1282  0.8744  1\n  P  P14  1  0.1282  0.3438  0.3744  1\n  P  P15  1  0.8718  0.6562  0.6256  1\n  O  O16  1  0.5440  0.2627  0.2460  1\n  O  O17  1  0.4560  0.7373  0.7540  1\n  O  O18  1  0.7373  0.4560  0.2540  1\n  O  O19  1  0.2627  0.5440  0.7460  1\n  O  O20  1  0.5367  0.7233  0.1776  1\n  O  O21  1  0.4633  0.2767  0.8224  1\n  O  O22  1  0.2767  0.4633  0.3224  1\n  O  O23  1  0.7233  0.5367  0.6776  1\n  O  O24  1  0.7444  0.1645  0.4555  1\n  O  O25  1  0.2556  0.8355  0.5445  1\n  O  O26  1  0.8355  0.2556  0.0445  1\n  O  O27  1  0.1645  0.7444  0.9555  1\n  O  O28  1  0.5978  0.9525  0.3067  1\n  O  O29  1  0.4022  0.0475  0.6933  1\n  O  O30  1  0.0475  0.4022  0.1933  1\n  O  O31  1  0.9525  0.5978  0.8067  1\n  O  O32  1  0.8273  0.8285  0.1159  1\n  O  O33  1  0.1727  0.1715  0.8841  1\n  O  O34  1  0.1715  0.1727  0.3841  1\n  O  O35  1  0.8285  0.8273  0.6159  1\n  O  O36  1  0.3279  0.0055  0.1009  1\n  O  O37  1  0.6721  0.9945  0.8991  1\n  O  O38  1  0.9945  0.6721  0.3991  1\n  O  O39  1  0.0055  0.3279  0.6009  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Mn4Cd2POP4O12PO11\n_chemical_formula_sum              \"Na4 Mn4 Cd2 P6 O24\"\n_cell_length_a       8.8604\n_cell_length_b       8.8604\n_cell_length_c       6.8044\n_cell_angle_alpha    72.5600\n_cell_angle_beta     72.5600\n_cell_angle_gamma    91.9440\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9814  0.0186  0.2500  1.0000\n  Na  Na2       1.0000  0.0186  0.9814  0.7500  1.0000\n  Na  Na3       1.0000  0.5000  0.5000  0.0000  1.0000\n  Na  Na4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.3836  0.0645  0.3631  1.0000\n  Mn  Mn2       1.0000  0.6164  0.9355  0.6369  1.0000\n  Mn  Mn3       1.0000  0.9355  0.6164  0.1369  1.0000\n  Mn  Mn4       1.0000  0.0645  0.3836  0.8631  1.0000\n  Cd  Cd1       1.0000  0.2673  0.7327  0.2500  1.0000\n  Cd  Cd2       1.0000  0.7327  0.2673  0.7500  1.0000\n  P   P1        1.0000  0.7176  0.2824  0.2500  1.0000\n  O   O1        1.0000  0.2824  0.7176  0.7500  1.0000\n  P   P2        1.0000  0.6562  0.8718  0.1256  1.0000\n  P   P3        1.0000  0.3438  0.1282  0.8744  1.0000\n  P   P4        1.0000  0.1282  0.3438  0.3744  1.0000\n  P   P5        1.0000  0.8718  0.6562  0.6256  1.0000\n  O   O2        1.0000  0.5440  0.2627  0.2460  1.0000\n  O   O3        1.0000  0.4560  0.7373  0.7540  1.0000\n  O   O4        1.0000  0.7373  0.4560  0.2540  1.0000\n  O   O5        1.0000  0.2627  0.5440  0.7460  1.0000\n  O   O6        1.0000  0.5367  0.7233  0.1776  1.0000\n  O   O7        1.0000  0.4633  0.2767  0.8224  1.0000\n  O   O8        1.0000  0.2767  0.4633  0.3224  1.0000\n  O   O9        1.0000  0.7233  0.5367  0.6776  1.0000\n  O   O10       1.0000  0.7444  0.1645  0.4555  1.0000\n  O   O11       1.0000  0.2556  0.8355  0.5445  1.0000\n  O   O12       1.0000  0.8355  0.2556  0.0445  1.0000\n  O   O13       1.0000  0.1645  0.7444  0.9555  1.0000\n  P   P6        1.0000  0.5978  0.9525  0.3067  1.0000\n  O   O14       1.0000  0.4022  0.0475  0.6933  1.0000\n  O   O15       1.0000  0.0475  0.4022  0.1933  1.0000\n  O   O16       1.0000  0.9525  0.5978  0.8067  1.0000\n  O   O17       1.0000  0.8273  0.8285  0.1159  1.0000\n  O   O18       1.0000  0.1727  0.1715  0.8841  1.0000\n  O   O19       1.0000  0.1715  0.1727  0.3841  1.0000\n  O   O20       1.0000  0.8285  0.8273  0.6159  1.0000\n  O   O21       1.0000  0.3279  0.0055  0.1009  1.0000\n  O   O22       1.0000  0.6721  0.9945  0.8991  1.0000\n  O   O23       1.0000  0.9945  0.6721  0.3991  1.0000\n  O   O24       1.0000  0.0055  0.3279  0.6009  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e53646ba-18bc-4658-9160-30e4a80f7f71",
    "mp_id": "mp-1210518",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3Mg2(MoO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.2031\n_cell_length_b   9.2031\n_cell_length_c   7.1917\n_cell_angle_alpha   74.7905\n_cell_angle_beta   74.7905\n_cell_angle_gamma   95.4173\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3Mg2(MoO4)3\n_chemical_formula_sum   'Na6 Mg4 Mo6 O24'\n_cell_volume   558.4102\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2357  0.7643  0.2500  1\n  Na  Na1  1  0.7643  0.2357  0.7500  1\n  Na  Na2  1  0.0000  0.0000  0.0000  1\n  Na  Na3  1  0.0000  0.0000  0.5000  1\n  Na  Na4  1  0.5289  0.4711  0.2500  1\n  Na  Na5  1  0.4711  0.5289  0.7500  1\n  Mg  Mg6  1  0.5552  0.8703  0.3741  1\n  Mg  Mg7  1  0.4448  0.1297  0.6259  1\n  Mg  Mg8  1  0.1297  0.4448  0.1259  1\n  Mg  Mg9  1  0.8703  0.5552  0.8741  1\n  Mo  Mo10  1  0.7816  0.2184  0.2500  1\n  Mo  Mo11  1  0.2184  0.7816  0.7500  1\n  Mo  Mo12  1  0.3787  0.1597  0.1261  1\n  Mo  Mo13  1  0.6213  0.8403  0.8739  1\n  Mo  Mo14  1  0.8403  0.6213  0.3739  1\n  Mo  Mo15  1  0.1597  0.3787  0.6261  1\n  O  O16  1  0.4563  0.0976  0.3377  1\n  O  O17  1  0.5437  0.9024  0.6623  1\n  O  O18  1  0.9024  0.5437  0.1623  1\n  O  O19  1  0.0976  0.4563  0.8377  1\n  O  O20  1  0.5063  0.8499  0.1124  1\n  O  O21  1  0.4937  0.1501  0.8876  1\n  O  O22  1  0.1501  0.4937  0.3876  1\n  O  O23  1  0.8499  0.5063  0.6124  1\n  O  O24  1  0.2041  0.0365  0.1897  1\n  O  O25  1  0.7959  0.9635  0.8103  1\n  O  O26  1  0.9635  0.7959  0.3103  1\n  O  O27  1  0.0365  0.2041  0.6897  1\n  O  O28  1  0.7575  0.0209  0.2266  1\n  O  O29  1  0.2425  0.9791  0.7734  1\n  O  O30  1  0.9791  0.2425  0.2734  1\n  O  O31  1  0.0209  0.7575  0.7266  1\n  O  O32  1  0.6581  0.2629  0.4748  1\n  O  O33  1  0.3419  0.7371  0.5252  1\n  O  O34  1  0.7371  0.3419  0.0252  1\n  O  O35  1  0.2629  0.6581  0.9748  1\n  O  O36  1  0.6468  0.6611  0.4049  1\n  O  O37  1  0.3532  0.3389  0.5951  1\n  O  O38  1  0.3389  0.3532  0.0951  1\n  O  O39  1  0.6611  0.6468  0.9049  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na6OMg3Mo6O9MgO14\n_chemical_formula_sum              \"Na6 O24 Mg4 Mo6\"\n_cell_length_a       9.2031\n_cell_length_b       9.2031\n_cell_length_c       7.1917\n_cell_angle_alpha    74.7905\n_cell_angle_beta     74.7905\n_cell_angle_gamma    95.4173\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2357  0.7643  0.2500  1.0000\n  Na  Na2       1.0000  0.7643  0.2357  0.7500  1.0000\n  Na  Na3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Na  Na4       1.0000  0.0000  0.0000  0.5000  1.0000\n  Na  Na5       1.0000  0.5289  0.4711  0.2500  1.0000\n  Na  Na6       1.0000  0.4711  0.5289  0.7500  1.0000\n  O   O1        1.0000  0.5552  0.8703  0.3741  1.0000\n  Mg  Mg1       1.0000  0.4448  0.1297  0.6259  1.0000\n  Mg  Mg2       1.0000  0.1297  0.4448  0.1259  1.0000\n  Mg  Mg3       1.0000  0.8703  0.5552  0.8741  1.0000\n  Mo  Mo1       1.0000  0.7816  0.2184  0.2500  1.0000\n  Mo  Mo2       1.0000  0.2184  0.7816  0.7500  1.0000\n  Mo  Mo3       1.0000  0.3787  0.1597  0.1261  1.0000\n  Mo  Mo4       1.0000  0.6213  0.8403  0.8739  1.0000\n  Mo  Mo5       1.0000  0.8403  0.6213  0.3739  1.0000\n  Mo  Mo6       1.0000  0.1597  0.3787  0.6261  1.0000\n  O   O2        1.0000  0.4563  0.0976  0.3377  1.0000\n  O   O3        1.0000  0.5437  0.9024  0.6623  1.0000\n  O   O4        1.0000  0.9024  0.5437  0.1623  1.0000\n  O   O5        1.0000  0.0976  0.4563  0.8377  1.0000\n  O   O6        1.0000  0.5063  0.8499  0.1124  1.0000\n  O   O7        1.0000  0.4937  0.1501  0.8876  1.0000\n  O   O8        1.0000  0.1501  0.4937  0.3876  1.0000\n  O   O9        1.0000  0.8499  0.5063  0.6124  1.0000\n  O   O10       1.0000  0.2041  0.0365  0.1897  1.0000\n  Mg  Mg4       1.0000  0.7959  0.9635  0.8103  1.0000\n  O   O11       1.0000  0.9635  0.7959  0.3103  1.0000\n  O   O12       1.0000  0.0365  0.2041  0.6897  1.0000\n  O   O13       1.0000  0.7575  0.0209  0.2266  1.0000\n  O   O14       1.0000  0.2425  0.9791  0.7734  1.0000\n  O   O15       1.0000  0.9791  0.2425  0.2734  1.0000\n  O   O16       1.0000  0.0209  0.7575  0.7266  1.0000\n  O   O17       1.0000  0.6581  0.2629  0.4748  1.0000\n  O   O18       1.0000  0.3419  0.7371  0.5252  1.0000\n  O   O19       1.0000  0.7371  0.3419  0.0252  1.0000\n  O   O20       1.0000  0.2629  0.6581  0.9748  1.0000\n  O   O21       1.0000  0.6468  0.6611  0.4049  1.0000\n  O   O22       1.0000  0.3532  0.3389  0.5951  1.0000\n  O   O23       1.0000  0.3389  0.3532  0.0951  1.0000\n  O   O24       1.0000  0.6611  0.6468  0.9049  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b584652c-61a2-4935-9837-3a5005a2ae5e",
    "mp_id": "mp-1210584",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgPt3O4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8161\n_cell_length_b   5.8161\n_cell_length_c   5.8161\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgPt3O4\n_chemical_formula_sum   'Mg2 Pt6 O8'\n_cell_volume   196.7462\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.0000  0.0000  1\n  Mg  Mg1  1  0.5000  0.5000  0.5000  1\n  Pt  Pt2  1  0.2500  0.0000  0.5000  1\n  Pt  Pt3  1  0.7500  0.0000  0.5000  1\n  Pt  Pt4  1  0.5000  0.2500  0.0000  1\n  Pt  Pt5  1  0.5000  0.7500  0.0000  1\n  Pt  Pt6  1  0.0000  0.5000  0.2500  1\n  Pt  Pt7  1  0.0000  0.5000  0.7500  1\n  O  O8  1  0.2500  0.2500  0.2500  1\n  O  O9  1  0.7500  0.7500  0.7500  1\n  O  O10  1  0.7500  0.7500  0.2500  1\n  O  O11  1  0.7500  0.2500  0.7500  1\n  O  O12  1  0.2500  0.2500  0.7500  1\n  O  O13  1  0.2500  0.7500  0.2500  1\n  O  O14  1  0.2500  0.7500  0.7500  1\n  O  O15  1  0.7500  0.2500  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2Pt3OPt2O4PtO3\n_chemical_formula_sum              \"Mg2 Pt6 O8\"\n_cell_length_a       5.8161\n_cell_length_b       5.8161\n_cell_length_c       5.8161\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Pt  Pt1       1.0000  0.2500  0.0000  0.5000  1.0000\n  Pt  Pt2       1.0000  0.7500  0.0000  0.5000  1.0000\n  Pt  Pt3       1.0000  0.5000  0.2500  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.7500  0.0000  1.0000\n  Pt  Pt4       1.0000  0.0000  0.5000  0.2500  1.0000\n  Pt  Pt5       1.0000  0.0000  0.5000  0.7500  1.0000\n  O   O2        1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O3        1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O4        1.0000  0.7500  0.7500  0.2500  1.0000\n  O   O5        1.0000  0.7500  0.2500  0.7500  1.0000\n  Pt  Pt6       1.0000  0.2500  0.2500  0.7500  1.0000\n  O   O6        1.0000  0.2500  0.7500  0.2500  1.0000\n  O   O7        1.0000  0.2500  0.7500  0.7500  1.0000\n  O   O8        1.0000  0.7500  0.2500  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6e608ef2-3c58-464c-9dca-4ed08c339928",
    "mp_id": "mp-1211181",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2P2O13\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0699\n_cell_length_b   7.0699\n_cell_length_c   12.3101\n_cell_angle_alpha   69.5029\n_cell_angle_beta   69.5029\n_cell_angle_gamma   72.3566\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2P2O13\n_chemical_formula_sum   'Na4 P4 O26'\n_cell_volume   528.3139\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.3924  0.0992  0.7632  1\n  Na  Na1  1  0.6076  0.9008  0.2368  1\n  Na  Na2  1  0.9008  0.6076  0.7368  1\n  Na  Na3  1  0.0992  0.3924  0.2632  1\n  P  P4  1  0.2863  0.4779  0.8667  1\n  P  P5  1  0.7137  0.5221  0.1333  1\n  P  P6  1  0.5221  0.7137  0.6333  1\n  P  P7  1  0.4779  0.2863  0.3667  1\n  O  O8  1  0.6200  0.0903  0.3461  1\n  O  O9  1  0.3800  0.9097  0.6539  1\n  O  O10  1  0.9097  0.3800  0.1539  1\n  O  O11  1  0.0903  0.6200  0.8461  1\n  O  O12  1  0.4834  0.5166  0.7500  1\n  O  O13  1  0.5166  0.4834  0.2500  1\n  O  O14  1  0.4164  0.6600  0.5385  1\n  O  O15  1  0.5836  0.3401  0.4615  1\n  O  O16  1  0.3401  0.5836  0.9615  1\n  O  O17  1  0.6600  0.4164  0.0385  1\n  O  O18  1  0.3096  0.2504  0.9148  1\n  O  O19  1  0.6904  0.7496  0.0852  1\n  O  O20  1  0.7496  0.6904  0.5852  1\n  O  O21  1  0.2504  0.3096  0.4148  1\n  O  O22  1  0.8213  0.0782  0.8830  1\n  O  O23  1  0.1787  0.9218  0.1170  1\n  O  O24  1  0.9218  0.1787  0.6170  1\n  O  O25  1  0.0782  0.8213  0.3830  1\n  O  O26  1  0.9453  0.1913  0.8504  1\n  O  O27  1  0.0547  0.8087  0.1496  1\n  O  O28  1  0.8087  0.0547  0.6496  1\n  O  O29  1  0.1913  0.9453  0.3504  1\n  O  O30  1  0.3246  0.4982  0.5851  1\n  O  O31  1  0.6754  0.5018  0.4149  1\n  O  O32  1  0.5018  0.6754  0.9149  1\n  O  O33  1  0.4982  0.3246  0.0851  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2ONaP4O8NaO17\n_chemical_formula_sum              \"Na4 O26 P4\"\n_cell_length_a       7.0699\n_cell_length_b       7.0699\n_cell_length_c       12.3101\n_cell_angle_alpha    69.5029\n_cell_angle_beta     69.5029\n_cell_angle_gamma    72.3566\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.3924  0.0992  0.7632  1.0000\n  Na  Na2       1.0000  0.6076  0.9008  0.2368  1.0000\n  O   O1        1.0000  0.9008  0.6076  0.7368  1.0000\n  Na  Na3       1.0000  0.0992  0.3924  0.2632  1.0000\n  P   P1        1.0000  0.2863  0.4779  0.8667  1.0000\n  P   P2        1.0000  0.7137  0.5221  0.1333  1.0000\n  P   P3        1.0000  0.5221  0.7137  0.6333  1.0000\n  P   P4        1.0000  0.4779  0.2863  0.3667  1.0000\n  O   O2        1.0000  0.6200  0.0903  0.3461  1.0000\n  O   O3        1.0000  0.3800  0.9097  0.6539  1.0000\n  O   O4        1.0000  0.9097  0.3800  0.1539  1.0000\n  O   O5        1.0000  0.0903  0.6200  0.8461  1.0000\n  O   O6        1.0000  0.4834  0.5166  0.7500  1.0000\n  O   O7        1.0000  0.5166  0.4834  0.2500  1.0000\n  O   O8        1.0000  0.4164  0.6600  0.5385  1.0000\n  O   O9        1.0000  0.5836  0.3400  0.4615  1.0000\n  Na  Na4       1.0000  0.3400  0.5836  0.9615  1.0000\n  O   O10       1.0000  0.6599  0.4164  0.0385  1.0000\n  O   O11       1.0000  0.3096  0.2504  0.9148  1.0000\n  O   O12       1.0000  0.6904  0.7496  0.0852  1.0000\n  O   O13       1.0000  0.7496  0.6904  0.5852  1.0000\n  O   O14       1.0000  0.2504  0.3096  0.4148  1.0000\n  O   O15       1.0000  0.8213  0.0782  0.8830  1.0000\n  O   O16       1.0000  0.1787  0.9218  0.1170  1.0000\n  O   O17       1.0000  0.9218  0.1787  0.6170  1.0000\n  O   O18       1.0000  0.0782  0.8213  0.3830  1.0000\n  O   O19       1.0000  0.9453  0.1913  0.8504  1.0000\n  O   O20       1.0000  0.0547  0.8087  0.1496  1.0000\n  O   O21       1.0000  0.8087  0.0547  0.6496  1.0000\n  O   O22       1.0000  0.1913  0.9453  0.3504  1.0000\n  O   O23       1.0000  0.3246  0.4982  0.5851  1.0000\n  O   O24       1.0000  0.6754  0.5018  0.4149  1.0000\n  O   O25       1.0000  0.5018  0.6754  0.9149  1.0000\n  O   O26       1.0000  0.4982  0.3246  0.0851  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72142c1a-445c-46f5-b7b8-0e6aa421b824",
    "mp_id": "mp-1211192",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaCaP2NO10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6228\n_cell_length_b   9.6228\n_cell_length_c   5.8694\n_cell_angle_alpha   82.5709\n_cell_angle_beta   82.5709\n_cell_angle_gamma   116.3820\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaCaP2NO10\n_chemical_formula_sum   'Na2 Ca2 P4 N2 O20'\n_cell_volume   472.0146\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6698  0.5461  0.6587  1\n  Na  Na1  1  0.5461  0.6698  0.1587  1\n  Ca  Ca2  1  0.8970  0.3439  0.8744  1\n  Ca  Ca3  1  0.3439  0.8970  0.3744  1\n  P  P4  1  0.3136  0.5663  0.7514  1\n  P  P5  1  0.5663  0.3136  0.2514  1\n  P  P6  1  0.1355  0.7233  0.9473  1\n  P  P7  1  0.7233  0.1355  0.4473  1\n  N  N8  1  0.0291  0.1610  0.3750  1\n  N  N9  1  0.1610  0.0291  0.8750  1\n  O  O10  1  0.6530  0.3475  0.9963  1\n  O  O11  1  0.3475  0.6530  0.4963  1\n  O  O12  1  0.5704  0.9805  0.5364  1\n  O  O13  1  0.9805  0.5704  0.0364  1\n  O  O14  1  0.0422  0.0263  0.9203  1\n  O  O15  1  0.0263  0.0422  0.4203  1\n  O  O16  1  0.2811  0.6828  0.9181  1\n  O  O17  1  0.6828  0.2811  0.4181  1\n  O  O18  1  0.1624  0.4076  0.8091  1\n  O  O19  1  0.4076  0.1624  0.3091  1\n  O  O20  1  0.1421  0.8163  0.7037  1\n  O  O21  1  0.8163  0.1421  0.2037  1\n  O  O22  1  0.9407  0.5959  0.6461  1\n  O  O23  1  0.5959  0.9407  0.1461  1\n  O  O24  1  0.8401  0.1728  0.6146  1\n  O  O25  1  0.1728  0.8401  0.1146  1\n  O  O26  1  0.4542  0.5600  0.8321  1\n  O  O27  1  0.5600  0.4542  0.3321  1\n  O  O28  1  0.8134  0.8027  0.8534  1\n  O  O29  1  0.8027  0.8134  0.3534  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONaCa2P4N2O12NaO7\n_chemical_formula_sum              \"O20 Na2 Ca2 P4 N2\"\n_cell_length_a       9.6228\n_cell_length_b       9.6228\n_cell_length_c       5.8694\n_cell_angle_alpha    82.5709\n_cell_angle_beta     82.5709\n_cell_angle_gamma    116.3820\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.6698  0.5461  0.6587  1.0000\n  Na  Na1       1.0000  0.5461  0.6698  0.1587  1.0000\n  Ca  Ca1       1.0000  0.8970  0.3439  0.8744  1.0000\n  Ca  Ca2       1.0000  0.3439  0.8970  0.3744  1.0000\n  P   P1        1.0000  0.3136  0.5663  0.7514  1.0000\n  P   P2        1.0000  0.5663  0.3136  0.2514  1.0000\n  P   P3        1.0000  0.1355  0.7233  0.9473  1.0000\n  P   P4        1.0000  0.7233  0.1355  0.4473  1.0000\n  N   N1        1.0000  0.0291  0.1610  0.3750  1.0000\n  N   N2        1.0000  0.1610  0.0291  0.8750  1.0000\n  O   O2        1.0000  0.6530  0.3475  0.9963  1.0000\n  O   O3        1.0000  0.3475  0.6530  0.4963  1.0000\n  O   O4        1.0000  0.5704  0.9805  0.5364  1.0000\n  O   O5        1.0000  0.9805  0.5704  0.0364  1.0000\n  O   O6        1.0000  0.0422  0.0263  0.9203  1.0000\n  O   O7        1.0000  0.0263  0.0422  0.4203  1.0000\n  O   O8        1.0000  0.2811  0.6828  0.9181  1.0000\n  O   O9        1.0000  0.6828  0.2811  0.4181  1.0000\n  O   O10       1.0000  0.1624  0.4076  0.8091  1.0000\n  O   O11       1.0000  0.4076  0.1624  0.3091  1.0000\n  O   O12       1.0000  0.1421  0.8163  0.7037  1.0000\n  O   O13       1.0000  0.8163  0.1421  0.2037  1.0000\n  Na  Na2       1.0000  0.9407  0.5959  0.6461  1.0000\n  O   O14       1.0000  0.5959  0.9407  0.1461  1.0000\n  O   O15       1.0000  0.8401  0.1728  0.6146  1.0000\n  O   O16       1.0000  0.1728  0.8401  0.1146  1.0000\n  O   O17       1.0000  0.4542  0.5600  0.8321  1.0000\n  O   O18       1.0000  0.5600  0.4542  0.3321  1.0000\n  O   O19       1.0000  0.8134  0.8027  0.8534  1.0000\n  O   O20       1.0000  0.8027  0.8134  0.3534  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "493b44b4-9d13-4107-8106-05a925f311d0",
    "mp_id": "mp-1211198",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3SiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2766\n_cell_length_b   5.2766\n_cell_length_c   6.2549\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.8184\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3SiO4\n_chemical_formula_sum   'Li6 Si2 O8'\n_cell_volume   174.1472\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8223  0.1777  0.7500  1\n  Li  Li1  1  0.1777  0.8223  0.2500  1\n  Li  Li2  1  0.1779  0.8221  0.7500  1\n  Li  Li3  1  0.8221  0.1779  0.2500  1\n  Li  Li4  1  0.6947  0.6947  0.0000  1\n  Li  Li5  1  0.3053  0.3053  0.5000  1\n  Si  Si6  1  0.3191  0.3191  0.0000  1\n  Si  Si7  1  0.6809  0.6809  0.5000  1\n  O  O8  1  0.8036  0.8031  0.7167  1\n  O  O9  1  0.1964  0.1969  0.2167  1\n  O  O10  1  0.1969  0.1964  0.7833  1\n  O  O11  1  0.8031  0.8036  0.2833  1\n  O  O12  1  0.6311  0.2882  0.0002  1\n  O  O13  1  0.3689  0.7118  0.5002  1\n  O  O14  1  0.7118  0.3689  0.4998  1\n  O  O15  1  0.2882  0.6311  0.9998  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OLi2Si2O4LiO3\n_chemical_formula_sum              \"Li6 O8 Si2\"\n_cell_length_a       5.2766\n_cell_length_b       5.2766\n_cell_length_c       6.2549\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.8184\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8223  0.1777  0.7500  1.0000\n  Li  Li2       1.0000  0.1777  0.8223  0.2500  1.0000\n  Li  Li3       1.0000  0.1779  0.8221  0.7500  1.0000\n  O   O1        1.0000  0.8221  0.1779  0.2500  1.0000\n  Li  Li4       1.0000  0.6947  0.6947  0.0000  1.0000\n  Li  Li5       1.0000  0.3053  0.3053  0.5000  1.0000\n  Si  Si1       1.0000  0.3191  0.3191  0.0000  1.0000\n  Si  Si2       1.0000  0.6809  0.6809  0.5000  1.0000\n  O   O2        1.0000  0.8036  0.8031  0.7167  1.0000\n  O   O3        1.0000  0.1964  0.1969  0.2167  1.0000\n  O   O4        1.0000  0.1969  0.1964  0.7833  1.0000\n  O   O5        1.0000  0.8031  0.8036  0.2833  1.0000\n  Li  Li6       1.0000  0.6311  0.2882  0.0002  1.0000\n  O   O6        1.0000  0.3689  0.7118  0.5002  1.0000\n  O   O7        1.0000  0.7118  0.3689  0.4998  1.0000\n  O   O8        1.0000  0.2882  0.6311  0.9998  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "70c5b243-3014-4b35-8e40-67b37331389e",
    "mp_id": "mp-1211303",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KHg5Br11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1506\n_cell_length_b   10.1506\n_cell_length_c   6.9907\n_cell_angle_alpha   72.2232\n_cell_angle_beta   72.2232\n_cell_angle_gamma   101.1256\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KHg5Br11\n_chemical_formula_sum   'K1 Hg5 Br11'\n_cell_volume   619.7545\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0000  0.0000  0.0000  1\n  Hg  Hg1  1  0.3466  0.0155  0.3162  1\n  Hg  Hg2  1  0.6534  0.9845  0.6838  1\n  Hg  Hg3  1  0.9845  0.6534  0.6838  1\n  Hg  Hg4  1  0.0155  0.3466  0.3162  1\n  Hg  Hg5  1  0.5000  0.5000  0.0000  1\n  Br  Br6  1  0.6478  0.6478  0.6098  1\n  Br  Br7  1  0.3522  0.3522  0.3902  1\n  Br  Br8  1  0.7039  0.1398  0.3014  1\n  Br  Br9  1  0.2961  0.8602  0.6986  1\n  Br  Br10  1  0.8602  0.2961  0.6986  1\n  Br  Br11  1  0.1398  0.7039  0.3014  1\n  Br  Br12  1  0.0000  0.0000  0.5000  1\n  Br  Br13  1  0.5817  0.8309  0.0730  1\n  Br  Br14  1  0.4183  0.1691  0.9270  1\n  Br  Br15  1  0.1691  0.4183  0.9270  1\n  Br  Br16  1  0.8309  0.5817  0.0730  1\n",
    "output": "data_image0\n_chemical_formula_structural       BrHg5BrKBr9\n_chemical_formula_sum              \"Br11 Hg5 K1\"\n_cell_length_a       10.1506\n_cell_length_b       10.1506\n_cell_length_c       6.9907\n_cell_angle_alpha    72.2232\n_cell_angle_beta     72.2232\n_cell_angle_gamma    101.1256\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Br  Br1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Hg  Hg1       1.0000  0.3466  0.0155  0.3162  1.0000\n  Hg  Hg2       1.0000  0.6534  0.9845  0.6838  1.0000\n  Hg  Hg3       1.0000  0.9845  0.6534  0.6838  1.0000\n  Hg  Hg4       1.0000  0.0155  0.3466  0.3162  1.0000\n  Hg  Hg5       1.0000  0.5000  0.5000  0.0000  1.0000\n  Br  Br2       1.0000  0.6478  0.6478  0.6098  1.0000\n  K   K1        1.0000  0.3522  0.3522  0.3902  1.0000\n  Br  Br3       1.0000  0.7039  0.1398  0.3014  1.0000\n  Br  Br4       1.0000  0.2961  0.8602  0.6986  1.0000\n  Br  Br5       1.0000  0.8602  0.2961  0.6986  1.0000\n  Br  Br6       1.0000  0.1398  0.7039  0.3014  1.0000\n  Br  Br7       1.0000  0.0000  0.0000  0.5000  1.0000\n  Br  Br8       1.0000  0.5817  0.8309  0.0730  1.0000\n  Br  Br9       1.0000  0.4183  0.1691  0.9270  1.0000\n  Br  Br10      1.0000  0.1691  0.4183  0.9270  1.0000\n  Br  Br11      1.0000  0.8309  0.5817  0.0730  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2a75bbc8-78e1-4710-8842-1aab4564d3f1",
    "mp_id": "mp-1211402",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La3SiI3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.0205\n_cell_length_b   11.0185\n_cell_length_c   11.0195\n_cell_angle_alpha   109.4658\n_cell_angle_beta   109.4735\n_cell_angle_gamma   109.4686\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La3SiI3\n_chemical_formula_sum   'La12 Si4 I12'\n_cell_volume   1030.1454\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.4687  0.4844  0.2344  1\n  La  La1  1  0.7500  0.2344  0.2657  1\n  La  La2  1  0.7500  0.0157  0.4844  1\n  La  La3  1  0.2343  0.4687  0.4844  1\n  La  La4  1  0.2656  0.7500  0.2344  1\n  La  La5  1  0.0311  0.2656  0.0156  1\n  La  La6  1  0.0156  0.0313  0.2656  1\n  La  La7  1  0.4844  0.7500  0.0156  1\n  La  La8  1  0.4845  0.2345  0.4689  1\n  La  La9  1  0.0157  0.4844  0.7500  1\n  La  La10  1  0.2656  0.0156  0.0313  1\n  La  La11  1  0.2344  0.2656  0.7500  1\n  Si  Si12  1  0.2500  0.2500  0.2500  1\n  Si  Si13  1  0.5000  0.0000  0.2500  1\n  Si  Si14  1  0.0000  0.2500  0.5000  1\n  Si  Si15  1  0.2500  0.5000  0.0000  1\n  I  I16  1  0.2500  0.7586  0.7415  1\n  I  I17  1  0.5171  0.5087  0.7585  1\n  I  I18  1  0.9828  0.7415  0.9914  1\n  I  I19  1  0.7415  0.2500  0.7585  1\n  I  I20  1  0.9913  0.9828  0.7413  1\n  I  I21  1  0.2500  0.9915  0.5086  1\n  I  I22  1  0.7586  0.5172  0.5087  1\n  I  I23  1  0.5086  0.2500  0.9915  1\n  I  I24  1  0.7585  0.7414  0.2499  1\n  I  I25  1  0.7415  0.9913  0.9829  1\n  I  I26  1  0.9913  0.5085  0.2498  1\n  I  I27  1  0.5086  0.7585  0.5171  1\n",
    "output": "data_image0\n_chemical_formula_structural       La7ILa4Si4I7LaI4\n_chemical_formula_sum              \"La12 I12 Si4\"\n_cell_length_a       11.0205\n_cell_length_b       11.0185\n_cell_length_c       11.0195\n_cell_angle_alpha    109.4658\n_cell_angle_beta     109.4735\n_cell_angle_gamma    109.4686\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.4687  0.4844  0.2344  1.0000\n  La  La2       1.0000  0.7500  0.2344  0.2657  1.0000\n  La  La3       1.0000  0.7500  0.0157  0.4844  1.0000\n  La  La4       1.0000  0.2343  0.4687  0.4844  1.0000\n  La  La5       1.0000  0.2656  0.7500  0.2344  1.0000\n  La  La6       1.0000  0.0311  0.2656  0.0156  1.0000\n  La  La7       1.0000  0.0156  0.0313  0.2656  1.0000\n  I   I1        1.0000  0.4844  0.7500  0.0156  1.0000\n  La  La8       1.0000  0.4845  0.2345  0.4689  1.0000\n  La  La9       1.0000  0.0157  0.4844  0.7500  1.0000\n  La  La10      1.0000  0.2656  0.0156  0.0313  1.0000\n  La  La11      1.0000  0.2344  0.2656  0.7500  1.0000\n  Si  Si1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Si  Si2       1.0000  0.5000  0.0000  0.2500  1.0000\n  Si  Si3       1.0000  0.0000  0.2500  0.5000  1.0000\n  Si  Si4       1.0000  0.2500  0.5000  0.0000  1.0000\n  I   I2        1.0000  0.2500  0.7586  0.7415  1.0000\n  I   I3        1.0000  0.5171  0.5087  0.7585  1.0000\n  I   I4        1.0000  0.9828  0.7415  0.9914  1.0000\n  I   I5        1.0000  0.7415  0.2500  0.7585  1.0000\n  I   I6        1.0000  0.9913  0.9828  0.7413  1.0000\n  I   I7        1.0000  0.2500  0.9915  0.5086  1.0000\n  I   I8        1.0000  0.7586  0.5172  0.5087  1.0000\n  La  La12      1.0000  0.5086  0.2500  0.9915  1.0000\n  I   I9        1.0000  0.7585  0.7414  0.2499  1.0000\n  I   I10       1.0000  0.7415  0.9913  0.9829  1.0000\n  I   I11       1.0000  0.9913  0.5085  0.2498  1.0000\n  I   I12       1.0000  0.5086  0.7585  0.5171  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f34e7755-9225-4376-9570-8ca314c26221",
    "mp_id": "mp-1211546",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KLi3TiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9922\n_cell_length_b   7.6496\n_cell_length_c   10.1488\n_cell_angle_alpha   83.4681\n_cell_angle_beta   76.4119\n_cell_angle_gamma   79.6535\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KLi3TiO4\n_chemical_formula_sum   'K4 Li12 Ti4 O16'\n_cell_volume   443.5765\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0027  0.3815  0.8855  1\n  K  K1  1  0.9973  0.6185  0.1145  1\n  K  K2  1  0.0466  0.1412  0.6275  1\n  K  K3  1  0.9534  0.8588  0.3725  1\n  Li  Li4  1  0.8089  0.0588  0.1023  1\n  Li  Li5  1  0.1911  0.9412  0.8977  1\n  Li  Li6  1  0.4794  0.3218  0.6118  1\n  Li  Li7  1  0.5206  0.6782  0.3882  1\n  Li  Li8  1  0.1926  0.1752  0.1466  1\n  Li  Li9  1  0.8074  0.8248  0.8534  1\n  Li  Li10  1  0.5332  0.4265  0.1282  1\n  Li  Li11  1  0.4668  0.5735  0.8718  1\n  Li  Li12  1  0.4347  0.0467  0.3776  1\n  Li  Li13  1  0.5653  0.9533  0.6224  1\n  Li  Li14  1  0.1856  0.4466  0.3977  1\n  Li  Li15  1  0.8144  0.5534  0.6023  1\n  Ti  Ti16  1  0.8330  0.2954  0.3511  1\n  Ti  Ti17  1  0.1670  0.7046  0.6489  1\n  Ti  Ti18  1  0.4436  0.7907  0.1341  1\n  Ti  Ti19  1  0.5564  0.2093  0.8659  1\n  O  O20  1  0.6387  0.1585  0.4690  1\n  O  O21  1  0.3613  0.8415  0.5310  1\n  O  O22  1  0.1836  0.9366  0.0949  1\n  O  O23  1  0.8164  0.0634  0.9051  1\n  O  O24  1  0.3477  0.6083  0.2579  1\n  O  O25  1  0.6523  0.3917  0.7421  1\n  O  O26  1  0.1392  0.2041  0.3485  1\n  O  O27  1  0.8608  0.7959  0.6515  1\n  O  O28  1  0.1929  0.4818  0.5890  1\n  O  O29  1  0.8071  0.5182  0.4110  1\n  O  O30  1  0.3763  0.3291  0.0110  1\n  O  O31  1  0.6237  0.6708  0.9890  1\n  O  O32  1  0.8201  0.2916  0.1722  1\n  O  O33  1  0.1799  0.7084  0.8278  1\n  O  O34  1  0.3904  0.1030  0.7765  1\n  O  O35  1  0.6096  0.8970  0.2235  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Li11OTi4O7LiO8\n_chemical_formula_sum              \"K4 Li12 O16 Ti4\"\n_cell_length_a       5.9922\n_cell_length_b       7.6496\n_cell_length_c       10.1488\n_cell_angle_alpha    83.4681\n_cell_angle_beta     76.4119\n_cell_angle_gamma    79.6535\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0027  0.3815  0.8855  1.0000\n  K   K2        1.0000  0.9973  0.6185  0.1145  1.0000\n  K   K3        1.0000  0.0466  0.1412  0.6275  1.0000\n  K   K4        1.0000  0.9534  0.8588  0.3725  1.0000\n  Li  Li1       1.0000  0.8089  0.0588  0.1023  1.0000\n  Li  Li2       1.0000  0.1911  0.9412  0.8977  1.0000\n  Li  Li3       1.0000  0.4794  0.3218  0.6118  1.0000\n  Li  Li4       1.0000  0.5206  0.6782  0.3882  1.0000\n  Li  Li5       1.0000  0.1926  0.1752  0.1466  1.0000\n  Li  Li6       1.0000  0.8074  0.8248  0.8534  1.0000\n  Li  Li7       1.0000  0.5332  0.4265  0.1282  1.0000\n  Li  Li8       1.0000  0.4668  0.5735  0.8718  1.0000\n  Li  Li9       1.0000  0.4347  0.0467  0.3776  1.0000\n  Li  Li10      1.0000  0.5653  0.9533  0.6224  1.0000\n  Li  Li11      1.0000  0.1856  0.4466  0.3977  1.0000\n  O   O1        1.0000  0.8144  0.5534  0.6023  1.0000\n  Ti  Ti1       1.0000  0.8330  0.2954  0.3511  1.0000\n  Ti  Ti2       1.0000  0.1670  0.7046  0.6489  1.0000\n  Ti  Ti3       1.0000  0.4436  0.7907  0.1341  1.0000\n  Ti  Ti4       1.0000  0.5564  0.2093  0.8659  1.0000\n  O   O2        1.0000  0.6387  0.1585  0.4690  1.0000\n  O   O3        1.0000  0.3613  0.8415  0.5310  1.0000\n  O   O4        1.0000  0.1836  0.9366  0.0949  1.0000\n  O   O5        1.0000  0.8164  0.0634  0.9051  1.0000\n  O   O6        1.0000  0.3477  0.6083  0.2579  1.0000\n  O   O7        1.0000  0.6523  0.3917  0.7421  1.0000\n  O   O8        1.0000  0.1392  0.2041  0.3485  1.0000\n  Li  Li12      1.0000  0.8608  0.7959  0.6515  1.0000\n  O   O9        1.0000  0.1929  0.4818  0.5890  1.0000\n  O   O10       1.0000  0.8071  0.5182  0.4110  1.0000\n  O   O11       1.0000  0.3763  0.3291  0.0110  1.0000\n  O   O12       1.0000  0.6237  0.6708  0.9890  1.0000\n  O   O13       1.0000  0.8201  0.2916  0.1722  1.0000\n  O   O14       1.0000  0.1799  0.7084  0.8278  1.0000\n  O   O15       1.0000  0.3904  0.1030  0.7765  1.0000\n  O   O16       1.0000  0.6096  0.8970  0.2235  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "82c374c9-4b4a-451a-96e3-96a57a296147",
    "mp_id": "mp-1211686",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KDy(MoO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1456\n_cell_length_b   8.1345\n_cell_length_c   18.4476\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KDy(MoO4)2\n_chemical_formula_sum   'K4 Dy4 Mo8 O32'\n_cell_volume   772.1575\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0000  0.7500  0.7699  1\n  K  K1  1  0.0000  0.2500  0.2301  1\n  K  K2  1  0.5000  0.2500  0.7301  1\n  K  K3  1  0.5000  0.7500  0.2699  1\n  Dy  Dy4  1  0.0000  0.7500  0.0060  1\n  Dy  Dy5  1  0.0000  0.2500  0.9940  1\n  Dy  Dy6  1  0.5000  0.2500  0.4940  1\n  Dy  Dy7  1  0.5000  0.7500  0.5060  1\n  Mo  Mo8  1  0.0231  0.5163  0.3992  1\n  Mo  Mo9  1  0.9769  0.4837  0.6008  1\n  Mo  Mo10  1  0.4769  0.0163  0.1008  1\n  Mo  Mo11  1  0.9769  0.9837  0.3992  1\n  Mo  Mo12  1  0.5231  0.9837  0.8992  1\n  Mo  Mo13  1  0.0231  0.0163  0.6008  1\n  Mo  Mo14  1  0.5231  0.4837  0.1008  1\n  Mo  Mo15  1  0.4769  0.5163  0.8992  1\n  O  O16  1  0.1023  0.9745  0.3107  1\n  O  O17  1  0.8977  0.0255  0.6893  1\n  O  O18  1  0.3977  0.4745  0.1893  1\n  O  O19  1  0.8977  0.5255  0.3107  1\n  O  O20  1  0.6023  0.5255  0.8107  1\n  O  O21  1  0.1023  0.4745  0.6893  1\n  O  O22  1  0.6023  0.0255  0.1893  1\n  O  O23  1  0.3977  0.9745  0.8107  1\n  O  O24  1  0.2693  0.8385  0.0988  1\n  O  O25  1  0.7307  0.1615  0.9012  1\n  O  O26  1  0.2307  0.3384  0.4012  1\n  O  O27  1  0.7307  0.6615  0.0988  1\n  O  O28  1  0.7693  0.6615  0.5988  1\n  O  O29  1  0.2693  0.3384  0.9012  1\n  O  O30  1  0.7693  0.1615  0.4012  1\n  O  O31  1  0.2307  0.8385  0.5988  1\n  O  O32  1  0.2488  0.5043  0.0349  1\n  O  O33  1  0.7512  0.4957  0.9651  1\n  O  O34  1  0.2512  0.0043  0.4651  1\n  O  O35  1  0.7512  0.9957  0.0349  1\n  O  O36  1  0.7488  0.9957  0.5349  1\n  O  O37  1  0.2488  0.0043  0.9651  1\n  O  O38  1  0.7488  0.4957  0.4651  1\n  O  O39  1  0.2512  0.5043  0.5349  1\n  O  O40  1  0.2460  0.6893  0.4076  1\n  O  O41  1  0.7540  0.3107  0.5924  1\n  O  O42  1  0.2540  0.1893  0.0924  1\n  O  O43  1  0.7540  0.8107  0.4076  1\n  O  O44  1  0.7460  0.8107  0.9076  1\n  O  O45  1  0.2460  0.1893  0.5924  1\n  O  O46  1  0.7460  0.3107  0.0924  1\n  O  O47  1  0.2540  0.6893  0.9076  1\n",
    "output": "data_image0\n_chemical_formula_structural       KOK2Dy4Mo8O13KO18\n_chemical_formula_sum              \"K4 O32 Dy4 Mo8\"\n_cell_length_a       5.1456\n_cell_length_b       8.1345\n_cell_length_c       18.4476\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0000  0.7500  0.7699  1.0000\n  O   O1        1.0000  0.0000  0.2500  0.2301  1.0000\n  K   K2        1.0000  0.5000  0.2500  0.7301  1.0000\n  K   K3        1.0000  0.5000  0.7500  0.2699  1.0000\n  Dy  Dy1       1.0000  0.0000  0.7500  0.0060  1.0000\n  Dy  Dy2       1.0000  0.0000  0.2500  0.9940  1.0000\n  Dy  Dy3       1.0000  0.5000  0.2500  0.4940  1.0000\n  Dy  Dy4       1.0000  0.5000  0.7500  0.5060  1.0000\n  Mo  Mo1       1.0000  0.0231  0.5163  0.3992  1.0000\n  Mo  Mo2       1.0000  0.9769  0.4837  0.6008  1.0000\n  Mo  Mo3       1.0000  0.4769  0.0163  0.1008  1.0000\n  Mo  Mo4       1.0000  0.9769  0.9837  0.3992  1.0000\n  Mo  Mo5       1.0000  0.5231  0.9837  0.8992  1.0000\n  Mo  Mo6       1.0000  0.0231  0.0163  0.6008  1.0000\n  Mo  Mo7       1.0000  0.5231  0.4837  0.1008  1.0000\n  Mo  Mo8       1.0000  0.4769  0.5163  0.8992  1.0000\n  O   O2        1.0000  0.1023  0.9745  0.3107  1.0000\n  O   O3        1.0000  0.8977  0.0255  0.6893  1.0000\n  O   O4        1.0000  0.3977  0.4745  0.1893  1.0000\n  O   O5        1.0000  0.8977  0.5255  0.3107  1.0000\n  O   O6        1.0000  0.6023  0.5255  0.8107  1.0000\n  O   O7        1.0000  0.1023  0.4745  0.6893  1.0000\n  O   O8        1.0000  0.6023  0.0255  0.1893  1.0000\n  O   O9        1.0000  0.3977  0.9745  0.8107  1.0000\n  O   O10       1.0000  0.2693  0.8385  0.0988  1.0000\n  O   O11       1.0000  0.7307  0.1615  0.9012  1.0000\n  O   O12       1.0000  0.2307  0.3384  0.4012  1.0000\n  O   O13       1.0000  0.7307  0.6615  0.0988  1.0000\n  O   O14       1.0000  0.7693  0.6615  0.5988  1.0000\n  K   K4        1.0000  0.2693  0.3384  0.9012  1.0000\n  O   O15       1.0000  0.7693  0.1615  0.4012  1.0000\n  O   O16       1.0000  0.2307  0.8385  0.5988  1.0000\n  O   O17       1.0000  0.2488  0.5043  0.0349  1.0000\n  O   O18       1.0000  0.7512  0.4957  0.9651  1.0000\n  O   O19       1.0000  0.2512  0.0043  0.4651  1.0000\n  O   O20       1.0000  0.7512  0.9957  0.0349  1.0000\n  O   O21       1.0000  0.7488  0.9957  0.5349  1.0000\n  O   O22       1.0000  0.2488  0.0043  0.9651  1.0000\n  O   O23       1.0000  0.7488  0.4957  0.4651  1.0000\n  O   O24       1.0000  0.2512  0.5043  0.5349  1.0000\n  O   O25       1.0000  0.2460  0.6893  0.4076  1.0000\n  O   O26       1.0000  0.7540  0.3107  0.5924  1.0000\n  O   O27       1.0000  0.2540  0.1893  0.0924  1.0000\n  O   O28       1.0000  0.7540  0.8107  0.4076  1.0000\n  O   O29       1.0000  0.7460  0.8107  0.9076  1.0000\n  O   O30       1.0000  0.2460  0.1893  0.5924  1.0000\n  O   O31       1.0000  0.7460  0.3107  0.0924  1.0000\n  O   O32       1.0000  0.2540  0.6893  0.9076  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72ab84f1-d190-43fa-a415-75fff6a0b6bf",
    "mp_id": "mp-1211861",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KB(CN)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7552\n_cell_length_b   8.7552\n_cell_length_c   9.0160\n_cell_angle_alpha   119.0476\n_cell_angle_beta   119.0476\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KB(CN)2\n_chemical_formula_sum   'K4 B4 C8 N8'\n_cell_volume   502.4311\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6250  0.8750  0.2500  1\n  K  K1  1  0.6250  0.3750  0.2500  1\n  K  K2  1  0.6250  0.3750  0.7500  1\n  K  K3  1  0.1250  0.3750  0.7500  1\n  B  B4  1  0.1250  0.3750  0.2500  1\n  B  B5  1  0.1250  0.8750  0.2500  1\n  B  B6  1  0.1250  0.8750  0.7500  1\n  B  B7  1  0.6250  0.8750  0.7500  1\n  C  C8  1  0.2171  0.2621  0.1655  1\n  C  C9  1  0.9484  0.9034  0.1655  1\n  C  C10  1  0.1534  0.9671  0.6655  1\n  C  C11  1  0.0329  0.4879  0.3345  1\n  C  C12  1  0.5121  0.6984  0.6655  1\n  C  C13  1  0.3016  0.8466  0.3345  1\n  C  C14  1  0.0966  0.7829  0.8345  1\n  C  C15  1  0.7379  0.0516  0.8345  1\n  N  N16  1  0.3050  0.1786  0.1045  1\n  N  N17  1  0.7995  0.9259  0.1045  1\n  N  N18  1  0.1759  0.0550  0.6045  1\n  N  N19  1  0.9450  0.5714  0.3955  1\n  N  N20  1  0.4286  0.5495  0.6045  1\n  N  N21  1  0.4505  0.8241  0.3955  1\n  N  N22  1  0.0741  0.6950  0.8955  1\n  N  N23  1  0.8214  0.2005  0.8955  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4B4CNC6N2CN5\n_chemical_formula_sum              \"K4 B4 C8 N8\"\n_cell_length_a       8.7552\n_cell_length_b       8.7552\n_cell_length_c       9.0160\n_cell_angle_alpha    119.0476\n_cell_angle_beta     119.0476\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6250  0.8750  0.2500  1.0000\n  K   K2        1.0000  0.6250  0.3750  0.2500  1.0000\n  K   K3        1.0000  0.6250  0.3750  0.7500  1.0000\n  K   K4        1.0000  0.1250  0.3750  0.7500  1.0000\n  B   B1        1.0000  0.1250  0.3750  0.2500  1.0000\n  B   B2        1.0000  0.1250  0.8750  0.2500  1.0000\n  B   B3        1.0000  0.1250  0.8750  0.7500  1.0000\n  B   B4        1.0000  0.6250  0.8750  0.7500  1.0000\n  C   C1        1.0000  0.2171  0.2621  0.1655  1.0000\n  N   N1        1.0000  0.9484  0.9034  0.1655  1.0000\n  C   C2        1.0000  0.1534  0.9671  0.6655  1.0000\n  C   C3        1.0000  0.0329  0.4879  0.3345  1.0000\n  C   C4        1.0000  0.5121  0.6984  0.6655  1.0000\n  C   C5        1.0000  0.3016  0.8466  0.3345  1.0000\n  C   C6        1.0000  0.0966  0.7829  0.8345  1.0000\n  C   C7        1.0000  0.7379  0.0516  0.8345  1.0000\n  N   N2        1.0000  0.3050  0.1786  0.1045  1.0000\n  N   N3        1.0000  0.7995  0.9259  0.1045  1.0000\n  C   C8        1.0000  0.1759  0.0550  0.6045  1.0000\n  N   N4        1.0000  0.9450  0.5714  0.3955  1.0000\n  N   N5        1.0000  0.4286  0.5495  0.6045  1.0000\n  N   N6        1.0000  0.4505  0.8241  0.3955  1.0000\n  N   N7        1.0000  0.0741  0.6950  0.8955  1.0000\n  N   N8        1.0000  0.8214  0.2005  0.8955  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3de397bc-5acb-4e97-961e-06444dcd6232",
    "mp_id": "mp-1211971",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 52 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KTm(SO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1821\n_cell_length_b   10.0447\n_cell_length_c   10.9511\n_cell_angle_alpha   81.2669\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KTm(SO5)2\n_chemical_formula_sum   'K4 Tm4 S8 O40'\n_cell_volume   889.6049\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2690  0.9107  0.1340  1\n  K  K1  1  0.7310  0.0893  0.8660  1\n  K  K2  1  0.7690  0.5893  0.8660  1\n  K  K3  1  0.2310  0.4107  0.1340  1\n  Tm  Tm4  1  0.7643  0.9672  0.3180  1\n  Tm  Tm5  1  0.2357  0.0328  0.6820  1\n  Tm  Tm6  1  0.2643  0.5328  0.6820  1\n  Tm  Tm7  1  0.7357  0.4672  0.3180  1\n  S  S8  1  0.6484  0.6899  0.5317  1\n  S  S9  1  0.3516  0.3101  0.4683  1\n  S  S10  1  0.1484  0.8101  0.4683  1\n  S  S11  1  0.8516  0.1899  0.5317  1\n  S  S12  1  0.7727  0.7931  0.1167  1\n  S  S13  1  0.2273  0.2069  0.8833  1\n  S  S14  1  0.2727  0.7069  0.8833  1\n  S  S15  1  0.7273  0.2931  0.1167  1\n  O  O16  1  0.6214  0.8522  0.1644  1\n  O  O17  1  0.3786  0.1478  0.8356  1\n  O  O18  1  0.1214  0.6478  0.8356  1\n  O  O19  1  0.8786  0.3522  0.1644  1\n  O  O20  1  0.9113  0.8532  0.1807  1\n  O  O21  1  0.0887  0.1468  0.8193  1\n  O  O22  1  0.4113  0.6468  0.8193  1\n  O  O23  1  0.5887  0.3532  0.1807  1\n  O  O24  1  0.9817  0.8722  0.4363  1\n  O  O25  1  0.0183  0.1278  0.5637  1\n  O  O26  1  0.4817  0.6278  0.5637  1\n  O  O27  1  0.5183  0.3722  0.4363  1\n  O  O28  1  0.6168  0.8119  0.4391  1\n  O  O29  1  0.3832  0.1881  0.5609  1\n  O  O30  1  0.1168  0.6881  0.5609  1\n  O  O31  1  0.8832  0.3119  0.4391  1\n  O  O32  1  0.2856  0.6797  0.0176  1\n  O  O33  1  0.7144  0.3203  0.9824  1\n  O  O34  1  0.7856  0.8203  0.9824  1\n  O  O35  1  0.2144  0.1797  0.0176  1\n  O  O36  1  0.4735  0.5519  0.2884  1\n  O  O37  1  0.5265  0.4481  0.7116  1\n  O  O38  1  0.9735  0.9481  0.7116  1\n  O  O39  1  0.0265  0.0519  0.2884  1\n  O  O40  1  0.7299  0.7219  0.6410  1\n  O  O41  1  0.2701  0.2781  0.3590  1\n  O  O42  1  0.2299  0.7781  0.3590  1\n  O  O43  1  0.7701  0.2219  0.6410  1\n  O  O44  1  0.7450  0.5928  0.4700  1\n  O  O45  1  0.2550  0.4072  0.5300  1\n  O  O46  1  0.2450  0.9072  0.5300  1\n  O  O47  1  0.7550  0.0928  0.4700  1\n  O  O48  1  0.7746  0.6425  0.1586  1\n  O  O49  1  0.2254  0.3575  0.8414  1\n  O  O50  1  0.2746  0.8575  0.8414  1\n  O  O51  1  0.7254  0.1425  0.1586  1\n  O  O52  1  0.5107  0.9677  0.7046  1\n  O  O53  1  0.4893  0.0323  0.2954  1\n  O  O54  1  0.0107  0.5323  0.2954  1\n  O  O55  1  0.9893  0.4677  0.7046  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4TmOTm2S8O36TmO3\n_chemical_formula_sum              \"K4 Tm4 O40 S8\"\n_cell_length_a       8.1821\n_cell_length_b       10.0447\n_cell_length_c       10.9511\n_cell_angle_alpha    81.2669\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2690  0.9107  0.1340  1.0000\n  K   K2        1.0000  0.7310  0.0893  0.8660  1.0000\n  K   K3        1.0000  0.7690  0.5893  0.8660  1.0000\n  K   K4        1.0000  0.2310  0.4107  0.1340  1.0000\n  Tm  Tm1       1.0000  0.7643  0.9672  0.3180  1.0000\n  O   O1        1.0000  0.2357  0.0328  0.6820  1.0000\n  Tm  Tm2       1.0000  0.2643  0.5328  0.6820  1.0000\n  Tm  Tm3       1.0000  0.7357  0.4672  0.3180  1.0000\n  S   S1        1.0000  0.6484  0.6899  0.5317  1.0000\n  S   S2        1.0000  0.3516  0.3101  0.4683  1.0000\n  S   S3        1.0000  0.1484  0.8101  0.4683  1.0000\n  S   S4        1.0000  0.8516  0.1899  0.5317  1.0000\n  S   S5        1.0000  0.7727  0.7931  0.1167  1.0000\n  S   S6        1.0000  0.2273  0.2069  0.8833  1.0000\n  S   S7        1.0000  0.2727  0.7069  0.8833  1.0000\n  S   S8        1.0000  0.7273  0.2931  0.1167  1.0000\n  O   O2        1.0000  0.6214  0.8522  0.1644  1.0000\n  O   O3        1.0000  0.3786  0.1478  0.8356  1.0000\n  O   O4        1.0000  0.1214  0.6478  0.8356  1.0000\n  O   O5        1.0000  0.8786  0.3522  0.1644  1.0000\n  O   O6        1.0000  0.9113  0.8532  0.1807  1.0000\n  O   O7        1.0000  0.0887  0.1468  0.8193  1.0000\n  O   O8        1.0000  0.4113  0.6468  0.8193  1.0000\n  O   O9        1.0000  0.5887  0.3532  0.1807  1.0000\n  O   O10       1.0000  0.9817  0.8722  0.4363  1.0000\n  O   O11       1.0000  0.0183  0.1278  0.5637  1.0000\n  O   O12       1.0000  0.4817  0.6278  0.5637  1.0000\n  O   O13       1.0000  0.5183  0.3722  0.4363  1.0000\n  O   O14       1.0000  0.6168  0.8119  0.4391  1.0000\n  O   O15       1.0000  0.3832  0.1881  0.5609  1.0000\n  O   O16       1.0000  0.1168  0.6881  0.5609  1.0000\n  O   O17       1.0000  0.8832  0.3119  0.4391  1.0000\n  O   O18       1.0000  0.2856  0.6797  0.0176  1.0000\n  O   O19       1.0000  0.7144  0.3203  0.9824  1.0000\n  O   O20       1.0000  0.7856  0.8203  0.9824  1.0000\n  O   O21       1.0000  0.2144  0.1797  0.0176  1.0000\n  O   O22       1.0000  0.4735  0.5519  0.2884  1.0000\n  O   O23       1.0000  0.5265  0.4481  0.7116  1.0000\n  O   O24       1.0000  0.9735  0.9481  0.7116  1.0000\n  O   O25       1.0000  0.0265  0.0519  0.2884  1.0000\n  O   O26       1.0000  0.7299  0.7219  0.6410  1.0000\n  O   O27       1.0000  0.2701  0.2781  0.3590  1.0000\n  O   O28       1.0000  0.2299  0.7781  0.3590  1.0000\n  O   O29       1.0000  0.7701  0.2219  0.6410  1.0000\n  O   O30       1.0000  0.7450  0.5928  0.4700  1.0000\n  O   O31       1.0000  0.2550  0.4072  0.5300  1.0000\n  O   O32       1.0000  0.2450  0.9072  0.5300  1.0000\n  O   O33       1.0000  0.7550  0.0928  0.4700  1.0000\n  O   O34       1.0000  0.7746  0.6425  0.1586  1.0000\n  O   O35       1.0000  0.2254  0.3575  0.8414  1.0000\n  O   O36       1.0000  0.2746  0.8575  0.8414  1.0000\n  O   O37       1.0000  0.7254  0.1425  0.1586  1.0000\n  Tm  Tm4       1.0000  0.5107  0.9677  0.7046  1.0000\n  O   O38       1.0000  0.4893  0.0323  0.2954  1.0000\n  O   O39       1.0000  0.0107  0.5323  0.2954  1.0000\n  O   O40       1.0000  0.9893  0.4677  0.7046  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a7c11691-659b-464c-ad63-b268ffb07b36",
    "mp_id": "mp-1212118",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HoSbRh\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5375\n_cell_length_b   7.1166\n_cell_length_c   7.7719\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HoSbRh\n_chemical_formula_sum   'Ho4 Sb4 Rh4'\n_cell_volume   250.9679\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.2500  0.5097  0.2025  1\n  Ho  Ho1  1  0.7500  0.4903  0.7975  1\n  Ho  Ho2  1  0.7500  0.9903  0.7025  1\n  Ho  Ho3  1  0.2500  0.0097  0.2975  1\n  Sb  Sb4  1  0.2500  0.6957  0.5916  1\n  Sb  Sb5  1  0.7500  0.3043  0.4084  1\n  Sb  Sb6  1  0.7500  0.8043  0.0916  1\n  Sb  Sb7  1  0.2500  0.1957  0.9084  1\n  Rh  Rh8  1  0.2500  0.8049  0.9190  1\n  Rh  Rh9  1  0.7500  0.1951  0.0810  1\n  Rh  Rh10  1  0.7500  0.6951  0.4190  1\n  Rh  Rh11  1  0.2500  0.3049  0.5810  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ho4RhSb4Rh3\n_chemical_formula_sum              \"Ho4 Rh4 Sb4\"\n_cell_length_a       4.5375\n_cell_length_b       7.1166\n_cell_length_c       7.7719\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.2500  0.5097  0.2025  1.0000\n  Ho  Ho2       1.0000  0.7500  0.4903  0.7975  1.0000\n  Ho  Ho3       1.0000  0.7500  0.9903  0.7025  1.0000\n  Ho  Ho4       1.0000  0.2500  0.0097  0.2975  1.0000\n  Rh  Rh1       1.0000  0.2500  0.6957  0.5916  1.0000\n  Sb  Sb1       1.0000  0.7500  0.3043  0.4084  1.0000\n  Sb  Sb2       1.0000  0.7500  0.8043  0.0916  1.0000\n  Sb  Sb3       1.0000  0.2500  0.1957  0.9084  1.0000\n  Sb  Sb4       1.0000  0.2500  0.8049  0.9190  1.0000\n  Rh  Rh2       1.0000  0.7500  0.1951  0.0810  1.0000\n  Rh  Rh3       1.0000  0.7500  0.6951  0.4190  1.0000\n  Rh  Rh4       1.0000  0.2500  0.3049  0.5810  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "20ed2f0e-77cf-46eb-930a-9a411ce63cdd",
    "mp_id": "mp-1212387",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GdHfF7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7257\n_cell_length_b   6.0742\n_cell_length_c   8.2406\n_cell_angle_alpha   102.2587\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GdHfF7\n_chemical_formula_sum   'Gd2 Hf2 F14'\n_cell_volume   280.0632\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.6994  0.6577  0.6875  1\n  Gd  Gd1  1  0.1994  0.3423  0.3125  1\n  Hf  Hf2  1  0.7089  0.8107  0.2248  1\n  Hf  Hf3  1  0.2089  0.1893  0.7752  1\n  F  F4  1  0.8867  0.4500  0.4743  1\n  F  F5  1  0.3867  0.5500  0.5257  1\n  F  F6  1  0.4285  0.9346  0.7718  1\n  F  F7  1  0.9285  0.0654  0.2282  1\n  F  F8  1  0.9528  0.9624  0.7609  1\n  F  F9  1  0.4528  0.0376  0.2391  1\n  F  F10  1  0.9960  0.4513  0.7882  1\n  F  F11  1  0.4960  0.5487  0.2118  1\n  F  F12  1  0.7003  0.7576  0.9791  1\n  F  F13  1  0.2003  0.2424  0.0209  1\n  F  F14  1  0.7094  0.8644  0.4718  1\n  F  F15  1  0.2094  0.1356  0.5282  1\n  F  F16  1  0.4944  0.3812  0.7855  1\n  F  F17  1  0.9944  0.6188  0.2145  1\n",
    "output": "data_image0\n_chemical_formula_structural       FGdHf2FGdF12\n_chemical_formula_sum              \"F14 Gd2 Hf2\"\n_cell_length_a       5.7257\n_cell_length_b       6.0742\n_cell_length_c       8.2406\n_cell_angle_alpha    102.2587\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.6994  0.6577  0.6875  1.0000\n  Gd  Gd1       1.0000  0.1994  0.3423  0.3125  1.0000\n  Hf  Hf1       1.0000  0.7089  0.8107  0.2248  1.0000\n  Hf  Hf2       1.0000  0.2089  0.1893  0.7752  1.0000\n  F   F2        1.0000  0.8867  0.4500  0.4743  1.0000\n  Gd  Gd2       1.0000  0.3867  0.5500  0.5257  1.0000\n  F   F3        1.0000  0.4285  0.9346  0.7718  1.0000\n  F   F4        1.0000  0.9285  0.0654  0.2282  1.0000\n  F   F5        1.0000  0.9528  0.9624  0.7609  1.0000\n  F   F6        1.0000  0.4528  0.0376  0.2391  1.0000\n  F   F7        1.0000  0.9960  0.4513  0.7882  1.0000\n  F   F8        1.0000  0.4960  0.5487  0.2118  1.0000\n  F   F9        1.0000  0.7003  0.7576  0.9791  1.0000\n  F   F10       1.0000  0.2003  0.2424  0.0209  1.0000\n  F   F11       1.0000  0.7094  0.8644  0.4718  1.0000\n  F   F12       1.0000  0.2094  0.1356  0.5282  1.0000\n  F   F13       1.0000  0.4944  0.3812  0.7855  1.0000\n  F   F14       1.0000  0.9944  0.6188  0.2145  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8c88ea0f-b246-4436-a5e2-1eb573a26e2a",
    "mp_id": "mp-1212504",
    "action_prompt": "Swap the spatial positions of atoms at indices 59 and 41 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd2P3H5WO9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8124\n_cell_length_b   9.8591\n_cell_length_c   13.5471\n_cell_angle_alpha   64.2921\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd2P3H5WO9\n_chemical_formula_sum   'Nd8 P12 H20 W4 O36'\n_cell_volume   1060.5006\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.9604  0.6880  0.2514  1\n  Nd  Nd1  1  0.0396  0.3120  0.7486  1\n  Nd  Nd2  1  0.4604  0.3120  0.2486  1\n  Nd  Nd3  1  0.5396  0.6880  0.7514  1\n  Nd  Nd4  1  0.7999  0.9217  0.4586  1\n  Nd  Nd5  1  0.2001  0.0783  0.5414  1\n  Nd  Nd6  1  0.2999  0.0783  0.0414  1\n  Nd  Nd7  1  0.7001  0.9217  0.9586  1\n  P  P8  1  0.4134  0.9671  0.3328  1\n  P  P9  1  0.5866  0.0329  0.6672  1\n  P  P10  1  0.9134  0.0329  0.1672  1\n  P  P11  1  0.0866  0.9671  0.8328  1\n  P  P12  1  0.3018  0.7311  0.0790  1\n  P  P13  1  0.6982  0.2689  0.9210  1\n  P  P14  1  0.8018  0.2689  0.4210  1\n  P  P15  1  0.1982  0.7311  0.5790  1\n  P  P16  1  0.7508  0.5615  0.0610  1\n  P  P17  1  0.2492  0.4385  0.9390  1\n  P  P18  1  0.2508  0.4385  0.4390  1\n  P  P19  1  0.7492  0.5615  0.5610  1\n  H  H20  1  0.4823  0.7386  0.2825  1\n  H  H21  1  0.5177  0.2614  0.7175  1\n  H  H22  1  0.9823  0.2614  0.2175  1\n  H  H23  1  0.0177  0.7386  0.7825  1\n  H  H24  1  0.5223  0.4899  0.2864  1\n  H  H25  1  0.4777  0.5101  0.7136  1\n  H  H26  1  0.0223  0.5101  0.2136  1\n  H  H27  1  0.9777  0.4899  0.7864  1\n  H  H28  1  0.3169  0.8494  0.3427  1\n  H  H29  1  0.6831  0.1507  0.6573  1\n  H  H30  1  0.8169  0.1507  0.1573  1\n  H  H31  1  0.1831  0.8494  0.8427  1\n  H  H32  1  0.2288  0.7406  0.9840  1\n  H  H33  1  0.7712  0.2594  0.0160  1\n  H  H34  1  0.7288  0.2594  0.5160  1\n  H  H35  1  0.2712  0.7406  0.4840  1\n  H  H36  1  0.8943  0.4970  0.0574  1\n  H  H37  1  0.1057  0.5030  0.9426  1\n  H  H38  1  0.3943  0.5030  0.4426  1\n  H  H39  1  0.6057  0.4970  0.5574  1\n  W  W40  1  0.6252  0.5975  0.3392  1\n  W  W41  1  0.3748  0.4025  0.6608  1\n  W  W42  1  0.1252  0.4025  0.1608  1\n  W  W43  1  0.8748  0.5975  0.8392  1\n  O  O44  1  0.8326  0.4394  0.3583  1\n  O  O45  1  0.1674  0.5606  0.6417  1\n  O  O46  1  0.3326  0.5606  0.1417  1\n  O  O47  1  0.6674  0.4394  0.8583  1\n  O  O48  1  0.5644  0.9050  0.3907  1\n  O  O49  1  0.4356  0.0950  0.6093  1\n  O  O50  1  0.0644  0.0950  0.1093  1\n  O  O51  1  0.9356  0.9050  0.8907  1\n  O  O52  1  0.1901  0.7971  0.1361  1\n  O  O53  1  0.8099  0.2029  0.8639  1\n  O  O54  1  0.6901  0.2029  0.3639  1\n  O  O55  1  0.3099  0.7971  0.6361  1\n  O  O56  1  0.4394  0.8404  0.0405  1\n  O  O57  1  0.5606  0.1596  0.9595  1\n  O  O58  1  0.9394  0.1596  0.4595  1\n  O  O59  1  0.0606  0.8404  0.5405  1\n  O  O60  1  0.7736  0.6712  0.1141  1\n  O  O61  1  0.2264  0.3288  0.8859  1\n  O  O62  1  0.2736  0.3288  0.3859  1\n  O  O63  1  0.7264  0.6712  0.6141  1\n  O  O64  1  0.7935  0.6659  0.4385  1\n  O  O65  1  0.2065  0.3341  0.5615  1\n  O  O66  1  0.2935  0.3341  0.0615  1\n  O  O67  1  0.7065  0.6659  0.9385  1\n  O  O68  1  0.8345  0.9370  0.1155  1\n  O  O69  1  0.1655  0.0630  0.8845  1\n  O  O70  1  0.3345  0.0630  0.3845  1\n  O  O71  1  0.6655  0.9370  0.6155  1\n  O  O72  1  0.9312  0.9288  0.2915  1\n  O  O73  1  0.0688  0.0712  0.7085  1\n  O  O74  1  0.4312  0.0712  0.2085  1\n  O  O75  1  0.5688  0.9288  0.7915  1\n  O  O76  1  0.6435  0.4307  0.1179  1\n  O  O77  1  0.3565  0.5693  0.8821  1\n  O  O78  1  0.1435  0.5693  0.3821  1\n  O  O79  1  0.8565  0.4307  0.6179  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd8P12H20WOW2O15WO20\n_chemical_formula_sum              \"Nd8 P12 H20 W4 O36\"\n_cell_length_a       8.8124\n_cell_length_b       9.8591\n_cell_length_c       13.5471\n_cell_angle_alpha    64.2921\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.9604  0.6880  0.2514  1.0000\n  Nd  Nd2       1.0000  0.0396  0.3120  0.7486  1.0000\n  Nd  Nd3       1.0000  0.4604  0.3120  0.2486  1.0000\n  Nd  Nd4       1.0000  0.5396  0.6880  0.7514  1.0000\n  Nd  Nd5       1.0000  0.7999  0.9217  0.4586  1.0000\n  Nd  Nd6       1.0000  0.2001  0.0783  0.5414  1.0000\n  Nd  Nd7       1.0000  0.2999  0.0783  0.0414  1.0000\n  Nd  Nd8       1.0000  0.7001  0.9217  0.9586  1.0000\n  P   P1        1.0000  0.4134  0.9671  0.3328  1.0000\n  P   P2        1.0000  0.5866  0.0329  0.6672  1.0000\n  P   P3        1.0000  0.9134  0.0329  0.1672  1.0000\n  P   P4        1.0000  0.0866  0.9671  0.8328  1.0000\n  P   P5        1.0000  0.3018  0.7311  0.0790  1.0000\n  P   P6        1.0000  0.6982  0.2689  0.9210  1.0000\n  P   P7        1.0000  0.8018  0.2689  0.4210  1.0000\n  P   P8        1.0000  0.1982  0.7311  0.5790  1.0000\n  P   P9        1.0000  0.7508  0.5615  0.0610  1.0000\n  P   P10       1.0000  0.2492  0.4385  0.9390  1.0000\n  P   P11       1.0000  0.2508  0.4385  0.4390  1.0000\n  P   P12       1.0000  0.7492  0.5615  0.5610  1.0000\n  H   H1        1.0000  0.4823  0.7386  0.2825  1.0000\n  H   H2        1.0000  0.5177  0.2614  0.7175  1.0000\n  H   H3        1.0000  0.9823  0.2614  0.2175  1.0000\n  H   H4        1.0000  0.0177  0.7386  0.7825  1.0000\n  H   H5        1.0000  0.5223  0.4899  0.2864  1.0000\n  H   H6        1.0000  0.4777  0.5101  0.7136  1.0000\n  H   H7        1.0000  0.0223  0.5101  0.2136  1.0000\n  H   H8        1.0000  0.9777  0.4899  0.7864  1.0000\n  H   H9        1.0000  0.3169  0.8494  0.3427  1.0000\n  H   H10       1.0000  0.6831  0.1506  0.6573  1.0000\n  H   H11       1.0000  0.8169  0.1507  0.1573  1.0000\n  H   H12       1.0000  0.1831  0.8494  0.8427  1.0000\n  H   H13       1.0000  0.2288  0.7406  0.9840  1.0000\n  H   H14       1.0000  0.7712  0.2594  0.0160  1.0000\n  H   H15       1.0000  0.7288  0.2594  0.5160  1.0000\n  H   H16       1.0000  0.2712  0.7406  0.4840  1.0000\n  H   H17       1.0000  0.8943  0.4970  0.0574  1.0000\n  H   H18       1.0000  0.1057  0.5030  0.9426  1.0000\n  H   H19       1.0000  0.3943  0.5030  0.4426  1.0000\n  H   H20       1.0000  0.6057  0.4970  0.5574  1.0000\n  W   W1        1.0000  0.6252  0.5975  0.3392  1.0000\n  O   O1        1.0000  0.3748  0.4025  0.6608  1.0000\n  W   W2        1.0000  0.1252  0.4025  0.1608  1.0000\n  W   W3        1.0000  0.8748  0.5975  0.8392  1.0000\n  O   O2        1.0000  0.8326  0.4394  0.3583  1.0000\n  O   O3        1.0000  0.1674  0.5606  0.6417  1.0000\n  O   O4        1.0000  0.3326  0.5606  0.1417  1.0000\n  O   O5        1.0000  0.6674  0.4394  0.8583  1.0000\n  O   O6        1.0000  0.5644  0.9050  0.3907  1.0000\n  O   O7        1.0000  0.4356  0.0950  0.6093  1.0000\n  O   O8        1.0000  0.0644  0.0950  0.1093  1.0000\n  O   O9        1.0000  0.9356  0.9050  0.8907  1.0000\n  O   O10       1.0000  0.1901  0.7971  0.1361  1.0000\n  O   O11       1.0000  0.8099  0.2029  0.8639  1.0000\n  O   O12       1.0000  0.6901  0.2029  0.3639  1.0000\n  O   O13       1.0000  0.3099  0.7971  0.6361  1.0000\n  O   O14       1.0000  0.4394  0.8404  0.0405  1.0000\n  O   O15       1.0000  0.5606  0.1596  0.9595  1.0000\n  O   O16       1.0000  0.9394  0.1596  0.4595  1.0000\n  W   W4        1.0000  0.0606  0.8404  0.5405  1.0000\n  O   O17       1.0000  0.7736  0.6712  0.1141  1.0000\n  O   O18       1.0000  0.2264  0.3288  0.8859  1.0000\n  O   O19       1.0000  0.2736  0.3288  0.3859  1.0000\n  O   O20       1.0000  0.7264  0.6712  0.6141  1.0000\n  O   O21       1.0000  0.7935  0.6659  0.4385  1.0000\n  O   O22       1.0000  0.2065  0.3341  0.5615  1.0000\n  O   O23       1.0000  0.2935  0.3341  0.0615  1.0000\n  O   O24       1.0000  0.7065  0.6659  0.9385  1.0000\n  O   O25       1.0000  0.8345  0.9370  0.1155  1.0000\n  O   O26       1.0000  0.1655  0.0630  0.8845  1.0000\n  O   O27       1.0000  0.3345  0.0630  0.3845  1.0000\n  O   O28       1.0000  0.6655  0.9370  0.6155  1.0000\n  O   O29       1.0000  0.9312  0.9288  0.2915  1.0000\n  O   O30       1.0000  0.0688  0.0712  0.7085  1.0000\n  O   O31       1.0000  0.4312  0.0712  0.2085  1.0000\n  O   O32       1.0000  0.5688  0.9288  0.7915  1.0000\n  O   O33       1.0000  0.6435  0.4307  0.1179  1.0000\n  O   O34       1.0000  0.3565  0.5693  0.8821  1.0000\n  O   O35       1.0000  0.1435  0.5693  0.3821  1.0000\n  O   O36       1.0000  0.8565  0.4307  0.6179  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d4bbcb35-cf6a-4a40-8c01-38fac435a195",
    "mp_id": "mp-1212600",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HI(ClO)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7118\n_cell_length_b   8.6255\n_cell_length_c   10.5328\n_cell_angle_alpha   85.2815\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HI(ClO)4\n_chemical_formula_sum   'H2 I2 Cl8 O8'\n_cell_volume   517.1696\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.0000  0.5000  0.5000  1\n  H  H1  1  0.5000  0.5000  0.0000  1\n  I  I2  1  0.0000  0.0000  0.0000  1\n  I  I3  1  0.5000  0.0000  0.5000  1\n  Cl  Cl4  1  0.9736  0.2718  0.0592  1\n  Cl  Cl5  1  0.0264  0.7282  0.9408  1\n  Cl  Cl6  1  0.4736  0.7282  0.4408  1\n  Cl  Cl7  1  0.5264  0.2718  0.5592  1\n  Cl  Cl8  1  0.1662  0.0767  0.3565  1\n  Cl  Cl9  1  0.8338  0.9233  0.6435  1\n  Cl  Cl10  1  0.6662  0.9233  0.1435  1\n  Cl  Cl11  1  0.3338  0.0767  0.8565  1\n  O  O12  1  0.9408  0.4866  0.3890  1\n  O  O13  1  0.0592  0.5134  0.6110  1\n  O  O14  1  0.4408  0.5134  0.1110  1\n  O  O15  1  0.5592  0.4866  0.8890  1\n  O  O16  1  0.0660  0.5710  0.3108  1\n  O  O17  1  0.9340  0.4290  0.6892  1\n  O  O18  1  0.5660  0.4290  0.1892  1\n  O  O19  1  0.4340  0.5710  0.8108  1\n",
    "output": "data_image0\n_chemical_formula_structural       H2I2ClOCl6O2ClO5\n_chemical_formula_sum              \"H2 I2 Cl8 O8\"\n_cell_length_a       5.7118\n_cell_length_b       8.6255\n_cell_length_c       10.5328\n_cell_angle_alpha    85.2815\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.0000  0.5000  0.5000  1.0000\n  H   H2        1.0000  0.5000  0.5000  0.0000  1.0000\n  I   I1        1.0000  0.0000  0.0000  0.0000  1.0000\n  I   I2        1.0000  0.5000  0.0000  0.5000  1.0000\n  Cl  Cl1       1.0000  0.9736  0.2718  0.0592  1.0000\n  O   O1        1.0000  0.0264  0.7282  0.9408  1.0000\n  Cl  Cl2       1.0000  0.4736  0.7282  0.4408  1.0000\n  Cl  Cl3       1.0000  0.5264  0.2718  0.5592  1.0000\n  Cl  Cl4       1.0000  0.1662  0.0767  0.3565  1.0000\n  Cl  Cl5       1.0000  0.8338  0.9233  0.6435  1.0000\n  Cl  Cl6       1.0000  0.6662  0.9233  0.1435  1.0000\n  Cl  Cl7       1.0000  0.3338  0.0767  0.8565  1.0000\n  O   O2        1.0000  0.9408  0.4866  0.3890  1.0000\n  O   O3        1.0000  0.0592  0.5134  0.6110  1.0000\n  Cl  Cl8       1.0000  0.4408  0.5134  0.1110  1.0000\n  O   O4        1.0000  0.5592  0.4866  0.8890  1.0000\n  O   O5        1.0000  0.0660  0.5710  0.3108  1.0000\n  O   O6        1.0000  0.9340  0.4290  0.6892  1.0000\n  O   O7        1.0000  0.5660  0.4290  0.1892  1.0000\n  O   O8        1.0000  0.4340  0.5710  0.8108  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "df6bfc35-16bb-4917-91a9-f7f04dedc80d",
    "mp_id": "mp-1212621",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 42 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H2C3NClOF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6361\n_cell_length_b   10.1849\n_cell_length_c   12.2570\n_cell_angle_alpha   80.8654\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H2C3NClOF4\n_chemical_formula_sum   'H8 C12 N4 Cl4 O4 F16'\n_cell_volume   694.6682\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.9784  0.8694  0.0246  1\n  H  H1  1  0.0216  0.1306  0.9754  1\n  H  H2  1  0.4784  0.6306  0.9754  1\n  H  H3  1  0.5216  0.3694  0.0246  1\n  H  H4  1  0.7966  0.7475  0.1032  1\n  H  H5  1  0.2034  0.2525  0.8968  1\n  H  H6  1  0.2966  0.7525  0.8968  1\n  H  H7  1  0.7034  0.2475  0.1032  1\n  C  C8  1  0.7227  0.9454  0.1115  1\n  C  C9  1  0.2773  0.0546  0.8885  1\n  C  C10  1  0.2227  0.5546  0.8885  1\n  C  C11  1  0.7773  0.4454  0.1115  1\n  C  C12  1  0.5897  0.8936  0.3160  1\n  C  C13  1  0.4103  0.1064  0.6840  1\n  C  C14  1  0.0897  0.6064  0.6840  1\n  C  C15  1  0.9103  0.3936  0.3160  1\n  C  C16  1  0.5115  0.9062  0.1925  1\n  C  C17  1  0.4885  0.0938  0.8075  1\n  C  C18  1  0.0115  0.5938  0.8075  1\n  C  C19  1  0.9885  0.4062  0.1925  1\n  N  N20  1  0.8409  0.8458  0.0793  1\n  N  N21  1  0.1591  0.1542  0.9207  1\n  N  N22  1  0.3409  0.6542  0.9207  1\n  N  N23  1  0.6591  0.3458  0.0793  1\n  Cl  Cl24  1  0.8535  0.6466  0.5914  1\n  Cl  Cl25  1  0.1465  0.3534  0.4086  1\n  Cl  Cl26  1  0.3535  0.8534  0.4086  1\n  Cl  Cl27  1  0.6465  0.1466  0.5914  1\n  O  O28  1  0.7313  0.5659  0.0836  1\n  O  O29  1  0.2687  0.4341  0.9164  1\n  O  O30  1  0.2313  0.9341  0.9164  1\n  O  O31  1  0.7687  0.0659  0.0836  1\n  F  F32  1  0.7588  0.7962  0.3337  1\n  F  F33  1  0.2412  0.2038  0.6663  1\n  F  F34  1  0.2588  0.7038  0.6663  1\n  F  F35  1  0.7412  0.2962  0.3337  1\n  F  F36  1  0.4168  0.7859  0.1774  1\n  F  F37  1  0.5832  0.2141  0.8226  1\n  F  F38  1  0.9168  0.7141  0.8226  1\n  F  F39  1  0.0832  0.2859  0.1774  1\n  F  F40  1  0.8066  0.5092  0.3336  1\n  F  F41  1  0.1934  0.4908  0.6664  1\n  F  F42  1  0.3066  0.9908  0.6664  1\n  F  F43  1  0.6934  0.0092  0.3336  1\n  F  F44  1  0.3375  0.0002  0.1722  1\n  F  F45  1  0.6625  0.9998  0.8278  1\n  F  F46  1  0.8375  0.4998  0.8278  1\n  F  F47  1  0.1625  0.5002  0.1722  1\n",
    "output": "data_image0\n_chemical_formula_structural       H8C2FC9N4Cl4O4F10CF5\n_chemical_formula_sum              \"H8 C12 F16 N4 Cl4 O4\"\n_cell_length_a       5.6361\n_cell_length_b       10.1849\n_cell_length_c       12.2570\n_cell_angle_alpha    80.8654\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.9784  0.8694  0.0246  1.0000\n  H   H2        1.0000  0.0216  0.1306  0.9754  1.0000\n  H   H3        1.0000  0.4784  0.6306  0.9754  1.0000\n  H   H4        1.0000  0.5216  0.3694  0.0246  1.0000\n  H   H5        1.0000  0.7966  0.7475  0.1032  1.0000\n  H   H6        1.0000  0.2034  0.2525  0.8968  1.0000\n  H   H7        1.0000  0.2966  0.7525  0.8968  1.0000\n  H   H8        1.0000  0.7034  0.2475  0.1032  1.0000\n  C   C1        1.0000  0.7227  0.9454  0.1115  1.0000\n  C   C2        1.0000  0.2773  0.0546  0.8885  1.0000\n  F   F1        1.0000  0.2227  0.5546  0.8885  1.0000\n  C   C3        1.0000  0.7773  0.4454  0.1115  1.0000\n  C   C4        1.0000  0.5897  0.8936  0.3160  1.0000\n  C   C5        1.0000  0.4103  0.1064  0.6840  1.0000\n  C   C6        1.0000  0.0897  0.6064  0.6840  1.0000\n  C   C7        1.0000  0.9103  0.3936  0.3160  1.0000\n  C   C8        1.0000  0.5115  0.9062  0.1925  1.0000\n  C   C9        1.0000  0.4885  0.0938  0.8075  1.0000\n  C   C10       1.0000  0.0115  0.5938  0.8075  1.0000\n  C   C11       1.0000  0.9885  0.4062  0.1925  1.0000\n  N   N1        1.0000  0.8409  0.8458  0.0793  1.0000\n  N   N2        1.0000  0.1591  0.1542  0.9207  1.0000\n  N   N3        1.0000  0.3409  0.6542  0.9207  1.0000\n  N   N4        1.0000  0.6591  0.3458  0.0793  1.0000\n  Cl  Cl1       1.0000  0.8535  0.6466  0.5914  1.0000\n  Cl  Cl2       1.0000  0.1465  0.3534  0.4086  1.0000\n  Cl  Cl3       1.0000  0.3535  0.8534  0.4086  1.0000\n  Cl  Cl4       1.0000  0.6465  0.1466  0.5914  1.0000\n  O   O1        1.0000  0.7313  0.5659  0.0836  1.0000\n  O   O2        1.0000  0.2687  0.4341  0.9164  1.0000\n  O   O3        1.0000  0.2313  0.9341  0.9164  1.0000\n  O   O4        1.0000  0.7687  0.0659  0.0836  1.0000\n  F   F2        1.0000  0.7588  0.7962  0.3337  1.0000\n  F   F3        1.0000  0.2412  0.2038  0.6663  1.0000\n  F   F4        1.0000  0.2588  0.7038  0.6663  1.0000\n  F   F5        1.0000  0.7412  0.2962  0.3337  1.0000\n  F   F6        1.0000  0.4168  0.7859  0.1774  1.0000\n  F   F7        1.0000  0.5832  0.2141  0.8226  1.0000\n  F   F8        1.0000  0.9168  0.7141  0.8226  1.0000\n  F   F9        1.0000  0.0832  0.2859  0.1774  1.0000\n  F   F10       1.0000  0.8066  0.5092  0.3336  1.0000\n  F   F11       1.0000  0.1934  0.4908  0.6664  1.0000\n  C   C12       1.0000  0.3066  0.9908  0.6664  1.0000\n  F   F12       1.0000  0.6934  0.0092  0.3336  1.0000\n  F   F13       1.0000  0.3375  0.0002  0.1722  1.0000\n  F   F14       1.0000  0.6625  0.9998  0.8278  1.0000\n  F   F15       1.0000  0.8375  0.4998  0.8278  1.0000\n  F   F16       1.0000  0.1625  0.5002  0.1722  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4974f070-1195-4848-8aa7-a3cdd5c199da",
    "mp_id": "mp-1212645",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 38 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H6CN8O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6463\n_cell_length_b   7.4590\n_cell_length_c   9.9602\n_cell_angle_alpha   110.5990\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H6CN8O5\n_chemical_formula_sum   'H12 C2 N16 O10'\n_cell_volume   531.7422\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.7500  0.2431  0.2295  1\n  H  H1  1  0.2500  0.7569  0.7705  1\n  H  H2  1  0.7500  0.2507  0.9784  1\n  H  H3  1  0.2500  0.7493  0.0216  1\n  H  H4  1  0.7500  0.5581  0.7101  1\n  H  H5  1  0.2500  0.4420  0.2899  1\n  H  H6  1  0.7500  0.4540  0.2334  1\n  H  H7  1  0.2500  0.5460  0.7666  1\n  H  H8  1  0.7500  0.3081  0.6310  1\n  H  H9  1  0.2500  0.6919  0.3690  1\n  H  H10  1  0.7500  0.1171  0.7893  1\n  H  H11  1  0.2500  0.8829  0.2107  1\n  C  C12  1  0.7500  0.4096  0.8506  1\n  C  C13  1  0.2500  0.5904  0.1494  1\n  N  N14  1  0.7500  0.2450  0.8726  1\n  N  N15  1  0.2500  0.7550  0.1274  1\n  N  N16  1  0.7500  0.7908  0.5591  1\n  N  N17  1  0.2500  0.2092  0.4409  1\n  N  N18  1  0.7500  0.9669  0.4037  1\n  N  N19  1  0.2500  0.0331  0.5963  1\n  N  N20  1  0.7500  0.7309  0.9698  1\n  N  N21  1  0.2500  0.2691  0.0302  1\n  N  N22  1  0.7500  0.9665  0.5427  1\n  N  N23  1  0.2500  0.0335  0.4573  1\n  N  N24  1  0.7500  0.5680  0.9769  1\n  N  N25  1  0.2500  0.4320  0.0231  1\n  N  N26  1  0.7500  0.4266  0.7222  1\n  N  N27  1  0.2500  0.5734  0.2778  1\n  N  N28  1  0.7500  0.8891  0.9835  1\n  N  N29  1  0.2500  0.1109  0.0165  1\n  O  O30  1  0.7500  0.8233  0.2934  1\n  O  O31  1  0.2500  0.1767  0.7066  1\n  O  O32  1  0.7500  0.1365  0.4041  1\n  O  O33  1  0.2500  0.8635  0.5959  1\n  O  O34  1  0.7500  0.3210  0.1684  1\n  O  O35  1  0.2500  0.6790  0.8316  1\n  O  O36  1  0.7500  0.6308  0.4631  1\n  O  O37  1  0.2500  0.3692  0.5369  1\n  O  O38  1  0.7500  0.8115  0.6910  1\n  O  O39  1  0.2500  0.1885  0.3090  1\n",
    "output": "data_image0\n_chemical_formula_structural       H2OH9C2N16O8HO\n_chemical_formula_sum              \"H12 O10 C2 N16\"\n_cell_length_a       7.6463\n_cell_length_b       7.4590\n_cell_length_c       9.9602\n_cell_angle_alpha    110.5990\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.7500  0.2431  0.2295  1.0000\n  H   H2        1.0000  0.2500  0.7569  0.7705  1.0000\n  O   O1        1.0000  0.7500  0.2507  0.9784  1.0000\n  H   H3        1.0000  0.2500  0.7493  0.0216  1.0000\n  H   H4        1.0000  0.7500  0.5581  0.7101  1.0000\n  H   H5        1.0000  0.2500  0.4420  0.2899  1.0000\n  H   H6        1.0000  0.7500  0.4540  0.2334  1.0000\n  H   H7        1.0000  0.2500  0.5460  0.7666  1.0000\n  H   H8        1.0000  0.7500  0.3081  0.6310  1.0000\n  H   H9        1.0000  0.2500  0.6919  0.3690  1.0000\n  H   H10       1.0000  0.7500  0.1171  0.7893  1.0000\n  H   H11       1.0000  0.2500  0.8829  0.2107  1.0000\n  C   C1        1.0000  0.7500  0.4096  0.8506  1.0000\n  C   C2        1.0000  0.2500  0.5904  0.1494  1.0000\n  N   N1        1.0000  0.7500  0.2450  0.8726  1.0000\n  N   N2        1.0000  0.2500  0.7550  0.1274  1.0000\n  N   N3        1.0000  0.7500  0.7908  0.5591  1.0000\n  N   N4        1.0000  0.2500  0.2092  0.4409  1.0000\n  N   N5        1.0000  0.7500  0.9669  0.4037  1.0000\n  N   N6        1.0000  0.2500  0.0331  0.5963  1.0000\n  N   N7        1.0000  0.7500  0.7309  0.9698  1.0000\n  N   N8        1.0000  0.2500  0.2691  0.0302  1.0000\n  N   N9        1.0000  0.7500  0.9665  0.5427  1.0000\n  N   N10       1.0000  0.2500  0.0335  0.4573  1.0000\n  N   N11       1.0000  0.7500  0.5680  0.9769  1.0000\n  N   N12       1.0000  0.2500  0.4320  0.0231  1.0000\n  N   N13       1.0000  0.7500  0.4266  0.7222  1.0000\n  N   N14       1.0000  0.2500  0.5734  0.2778  1.0000\n  N   N15       1.0000  0.7500  0.8891  0.9835  1.0000\n  N   N16       1.0000  0.2500  0.1109  0.0165  1.0000\n  O   O2        1.0000  0.7500  0.8233  0.2934  1.0000\n  O   O3        1.0000  0.2500  0.1767  0.7066  1.0000\n  O   O4        1.0000  0.7500  0.1365  0.4041  1.0000\n  O   O5        1.0000  0.2500  0.8635  0.5959  1.0000\n  O   O6        1.0000  0.7500  0.3210  0.1684  1.0000\n  O   O7        1.0000  0.2500  0.6790  0.8316  1.0000\n  O   O8        1.0000  0.7500  0.6308  0.4631  1.0000\n  O   O9        1.0000  0.2500  0.3692  0.5369  1.0000\n  H   H12       1.0000  0.7500  0.8115  0.6910  1.0000\n  O   O10       1.0000  0.2500  0.1885  0.3090  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a64d8f24-93b4-44b4-acae-7fa35dac07f0",
    "mp_id": "mp-1212670",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GaGe(MoS2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5076\n_cell_length_b   7.5076\n_cell_length_c   7.5076\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GaGe(MoS2)4\n_chemical_formula_sum   'Ga1 Ge1 Mo4 S8'\n_cell_volume   299.2134\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ga  Ga0  1  0.0000  0.0000  0.0000  1\n  Ge  Ge1  1  0.2500  0.2500  0.2500  1\n  Mo  Mo2  1  0.4066  0.4066  0.4066  1\n  Mo  Mo3  1  0.4066  0.4066  0.7803  1\n  Mo  Mo4  1  0.4066  0.7803  0.4066  1\n  Mo  Mo5  1  0.7803  0.4066  0.4066  1\n  S  S6  1  0.1271  0.1271  0.1271  1\n  S  S7  1  0.1271  0.1271  0.6186  1\n  S  S8  1  0.1271  0.6186  0.1271  1\n  S  S9  1  0.6186  0.1271  0.1271  1\n  S  S10  1  0.6243  0.6243  0.6243  1\n  S  S11  1  0.6243  0.6243  0.1272  1\n  S  S12  1  0.6243  0.1272  0.6243  1\n  S  S13  1  0.1272  0.6243  0.6243  1\n",
    "output": "data_image0\n_chemical_formula_structural       SGeMo4SGaS6\n_chemical_formula_sum              \"S8 Ge1 Mo4 Ga1\"\n_cell_length_a       7.5076\n_cell_length_b       7.5076\n_cell_length_c       7.5076\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Ge  Ge1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Mo  Mo1       1.0000  0.4066  0.4066  0.4066  1.0000\n  Mo  Mo2       1.0000  0.4066  0.4066  0.7803  1.0000\n  Mo  Mo3       1.0000  0.4066  0.7803  0.4066  1.0000\n  Mo  Mo4       1.0000  0.7803  0.4066  0.4066  1.0000\n  S   S2        1.0000  0.1271  0.1271  0.1271  1.0000\n  Ga  Ga1       1.0000  0.1271  0.1271  0.6186  1.0000\n  S   S3        1.0000  0.1271  0.6186  0.1271  1.0000\n  S   S4        1.0000  0.6186  0.1271  0.1271  1.0000\n  S   S5        1.0000  0.6243  0.6243  0.6243  1.0000\n  S   S6        1.0000  0.6243  0.6243  0.1272  1.0000\n  S   S7        1.0000  0.6243  0.1272  0.6243  1.0000\n  S   S8        1.0000  0.1272  0.6243  0.6243  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ff09e099-f67f-4cf4-98d5-03fe7a791a76",
    "mp_id": "mp-1212757",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_EuCoO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2929\n_cell_length_b   5.2800\n_cell_length_c   7.5793\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   EuCoO3\n_chemical_formula_sum   'Eu4 Co4 O12'\n_cell_volume   211.8165\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.0030  0.4669  0.2500  1\n  Eu  Eu1  1  0.9970  0.5331  0.7500  1\n  Eu  Eu2  1  0.5030  0.0331  0.7500  1\n  Eu  Eu3  1  0.4970  0.9669  0.2500  1\n  Co  Co4  1  0.0000  0.0000  -0.0000  1\n  Co  Co5  1  0.5000  0.5000  -0.0000  1\n  Co  Co6  1  0.0000  0.0000  0.5000  1\n  Co  Co7  1  0.5000  0.5000  0.5000  1\n  O  O8  1  0.2968  0.2033  0.0313  1\n  O  O9  1  0.7032  0.7967  0.9687  1\n  O  O10  1  0.7968  0.2967  0.9687  1\n  O  O11  1  0.7032  0.7967  0.5313  1\n  O  O12  1  0.2032  0.7033  0.0313  1\n  O  O13  1  0.2968  0.2033  0.4687  1\n  O  O14  1  0.2032  0.7033  0.4687  1\n  O  O15  1  0.7968  0.2967  0.5313  1\n  O  O16  1  0.5622  0.5082  0.2500  1\n  O  O17  1  0.4378  0.4918  0.7500  1\n  O  O18  1  0.0622  0.9918  0.7500  1\n  O  O19  1  0.9378  0.0082  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Eu2OEuCo4OEuO10\n_chemical_formula_sum              \"Eu4 O12 Co4\"\n_cell_length_a       5.2929\n_cell_length_b       5.2800\n_cell_length_c       7.5793\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.0030  0.4669  0.2500  1.0000\n  Eu  Eu2       1.0000  0.9970  0.5331  0.7500  1.0000\n  O   O1        1.0000  0.5030  0.0331  0.7500  1.0000\n  Eu  Eu3       1.0000  0.4970  0.9669  0.2500  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Co  Co3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Co  Co4       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.2968  0.2033  0.0313  1.0000\n  Eu  Eu4       1.0000  0.7032  0.7967  0.9687  1.0000\n  O   O3        1.0000  0.7968  0.2967  0.9687  1.0000\n  O   O4        1.0000  0.7032  0.7967  0.5313  1.0000\n  O   O5        1.0000  0.2032  0.7033  0.0313  1.0000\n  O   O6        1.0000  0.2968  0.2033  0.4687  1.0000\n  O   O7        1.0000  0.2032  0.7033  0.4687  1.0000\n  O   O8        1.0000  0.7968  0.2967  0.5313  1.0000\n  O   O9        1.0000  0.5622  0.5082  0.2500  1.0000\n  O   O10       1.0000  0.4378  0.4918  0.7500  1.0000\n  O   O11       1.0000  0.0622  0.9918  0.7500  1.0000\n  O   O12       1.0000  0.9378  0.0082  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5e3f09bc-93c4-4d77-95a1-ebdcfabf745d",
    "mp_id": "mp-1213080",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsNbCl6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9416\n_cell_length_b   6.9416\n_cell_length_c   12.4452\n_cell_angle_alpha   79.2795\n_cell_angle_beta   79.2795\n_cell_angle_gamma   55.4237\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsNbCl6\n_chemical_formula_sum   'Cs2 Nb2 Cl12'\n_cell_volume   482.7361\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.8849  0.1151  0.7500  1\n  Cs  Cs1  1  0.1151  0.8849  0.2500  1\n  Nb  Nb2  1  0.5000  -0.0000  0.5000  1\n  Nb  Nb3  1  -0.0000  0.5000  -0.0000  1\n  Cl  Cl4  1  0.4634  0.6967  0.6050  1\n  Cl  Cl5  1  0.5366  0.3033  0.3950  1\n  Cl  Cl6  1  0.3033  0.5366  0.8950  1\n  Cl  Cl7  1  0.6967  0.4634  0.1050  1\n  Cl  Cl8  1  0.3700  0.2015  0.6600  1\n  Cl  Cl9  1  0.6300  0.7985  0.3400  1\n  Cl  Cl10  1  0.7985  0.6300  0.8400  1\n  Cl  Cl11  1  0.2015  0.3700  0.1600  1\n  Cl  Cl12  1  0.7962  0.8964  0.0396  1\n  Cl  Cl13  1  0.2038  0.1036  0.9604  1\n  Cl  Cl14  1  0.1036  0.2038  0.4604  1\n  Cl  Cl15  1  0.8964  0.7962  0.5396  1\n",
    "output": "data_image0\n_chemical_formula_structural       ClCsNb2CsCl11\n_chemical_formula_sum              \"Cl12 Cs2 Nb2\"\n_cell_length_a       6.9416\n_cell_length_b       6.9416\n_cell_length_c       12.4452\n_cell_angle_alpha    79.2795\n_cell_angle_beta     79.2795\n_cell_angle_gamma    55.4237\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cl  Cl1       1.0000  0.8849  0.1151  0.7500  1.0000\n  Cs  Cs1       1.0000  0.1151  0.8849  0.2500  1.0000\n  Nb  Nb1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Nb  Nb2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Cs  Cs2       1.0000  0.4634  0.6967  0.6050  1.0000\n  Cl  Cl2       1.0000  0.5366  0.3033  0.3950  1.0000\n  Cl  Cl3       1.0000  0.3033  0.5366  0.8950  1.0000\n  Cl  Cl4       1.0000  0.6967  0.4634  0.1050  1.0000\n  Cl  Cl5       1.0000  0.3700  0.2015  0.6600  1.0000\n  Cl  Cl6       1.0000  0.6300  0.7985  0.3400  1.0000\n  Cl  Cl7       1.0000  0.7985  0.6300  0.8400  1.0000\n  Cl  Cl8       1.0000  0.2015  0.3700  0.1600  1.0000\n  Cl  Cl9       1.0000  0.7962  0.8964  0.0396  1.0000\n  Cl  Cl10      1.0000  0.2038  0.1036  0.9604  1.0000\n  Cl  Cl11      1.0000  0.1036  0.2038  0.4604  1.0000\n  Cl  Cl12      1.0000  0.8964  0.7962  0.5396  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "18eb13f4-7120-4314-92d1-faa88b84350e",
    "mp_id": "mp-1213206",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsP7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.2593\n_cell_length_b   9.6313\n_cell_length_c   9.7240\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsP7\n_chemical_formula_sum   'Cs4 P28'\n_cell_volume   867.1769\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.2854  0.7472  0.7463  1\n  Cs  Cs1  1  0.7146  0.2528  0.2463  1\n  Cs  Cs2  1  0.7146  0.2472  0.7463  1\n  Cs  Cs3  1  0.2854  0.7528  0.2463  1\n  P  P4  1  0.6640  0.8688  0.6140  1\n  P  P5  1  0.3360  0.1312  0.1140  1\n  P  P6  1  0.3360  0.3688  0.6140  1\n  P  P7  1  0.6640  0.6312  0.1140  1\n  P  P8  1  0.8911  0.6811  0.8408  1\n  P  P9  1  0.1089  0.3189  0.3408  1\n  P  P10  1  0.1089  0.1811  0.8408  1\n  P  P11  1  0.8911  0.8189  0.3408  1\n  P  P12  1  0.9356  0.8389  0.9995  1\n  P  P13  1  0.0644  0.1611  0.4995  1\n  P  P14  1  0.0644  0.3389  0.9995  1\n  P  P15  1  0.9356  0.6611  0.4995  1\n  P  P16  1  0.5853  0.8175  -0.0009  1\n  P  P17  1  0.4147  0.1825  0.4991  1\n  P  P18  1  0.4147  0.3175  -0.0009  1\n  P  P19  1  0.5853  0.6825  0.4991  1\n  P  P20  1  0.7505  0.9713  0.9993  1\n  P  P21  1  0.2495  0.0287  0.4993  1\n  P  P22  1  0.2495  0.4713  0.9993  1\n  P  P23  1  0.7505  0.5287  0.4993  1\n  P  P24  1  0.8909  0.8184  0.6585  1\n  P  P25  1  0.1091  0.1816  0.1585  1\n  P  P26  1  0.1091  0.3184  0.6585  1\n  P  P27  1  0.8909  0.6816  0.1585  1\n  P  P28  1  0.6642  0.6306  0.8852  1\n  P  P29  1  0.3358  0.3694  0.3852  1\n  P  P30  1  0.3358  0.1306  0.8852  1\n  P  P31  1  0.6642  0.8694  0.3852  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2PCsP12CsP15\n_chemical_formula_sum              \"Cs4 P28\"\n_cell_length_a       9.2593\n_cell_length_b       9.6313\n_cell_length_c       9.7240\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.2854  0.7472  0.7463  1.0000\n  Cs  Cs2       1.0000  0.7146  0.2528  0.2463  1.0000\n  P   P1        1.0000  0.7146  0.2472  0.7463  1.0000\n  Cs  Cs3       1.0000  0.2854  0.7528  0.2463  1.0000\n  P   P2        1.0000  0.6640  0.8688  0.6140  1.0000\n  P   P3        1.0000  0.3360  0.1312  0.1140  1.0000\n  P   P4        1.0000  0.3360  0.3688  0.6140  1.0000\n  P   P5        1.0000  0.6640  0.6312  0.1140  1.0000\n  P   P6        1.0000  0.8911  0.6811  0.8408  1.0000\n  P   P7        1.0000  0.1089  0.3189  0.3408  1.0000\n  P   P8        1.0000  0.1089  0.1811  0.8408  1.0000\n  P   P9        1.0000  0.8911  0.8189  0.3408  1.0000\n  P   P10       1.0000  0.9356  0.8389  0.9995  1.0000\n  P   P11       1.0000  0.0644  0.1611  0.4995  1.0000\n  P   P12       1.0000  0.0644  0.3389  0.9995  1.0000\n  P   P13       1.0000  0.9356  0.6611  0.4995  1.0000\n  Cs  Cs4       1.0000  0.5853  0.8175  0.9991  1.0000\n  P   P14       1.0000  0.4147  0.1825  0.4991  1.0000\n  P   P15       1.0000  0.4147  0.3175  0.9991  1.0000\n  P   P16       1.0000  0.5853  0.6825  0.4991  1.0000\n  P   P17       1.0000  0.7505  0.9713  0.9993  1.0000\n  P   P18       1.0000  0.2495  0.0287  0.4993  1.0000\n  P   P19       1.0000  0.2495  0.4713  0.9993  1.0000\n  P   P20       1.0000  0.7505  0.5287  0.4993  1.0000\n  P   P21       1.0000  0.8909  0.8184  0.6585  1.0000\n  P   P22       1.0000  0.1091  0.1816  0.1585  1.0000\n  P   P23       1.0000  0.1091  0.3184  0.6585  1.0000\n  P   P24       1.0000  0.8909  0.6816  0.1585  1.0000\n  P   P25       1.0000  0.6642  0.6306  0.8852  1.0000\n  P   P26       1.0000  0.3358  0.3694  0.3852  1.0000\n  P   P27       1.0000  0.3358  0.1306  0.8852  1.0000\n  P   P28       1.0000  0.6642  0.8694  0.3852  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b7fb21ac-a5d2-4a26-9a67-0c9653534d19",
    "mp_id": "mp-1213529",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ni3SnH12(OF)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2519\n_cell_length_b   7.7092\n_cell_length_c   11.4274\n_cell_angle_alpha   89.1775\n_cell_angle_beta   92.1746\n_cell_angle_gamma   127.3153\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ni3SnH12(OF)6\n_chemical_formula_sum   'Ni3 Sn1 H12 O6 F6'\n_cell_volume   717.7239\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.0000  0.0000  0.5000  1\n  Ni  Ni1  1  0.5000  0.5000  0.0000  1\n  Ni  Ni2  1  0.0000  0.5000  0.0000  1\n  Sn  Sn3  1  0.0000  0.0000  0.0000  1\n  H  H4  1  0.7340  0.1764  0.9127  1\n  H  H5  1  0.2660  0.8236  0.0873  1\n  H  H6  1  0.8779  0.1628  0.5790  1\n  H  H7  1  0.1221  0.8372  0.4210  1\n  H  H8  1  0.5737  0.6754  0.7215  1\n  H  H9  1  0.4263  0.3246  0.2785  1\n  H  H10  1  0.9068  0.0518  0.6912  1\n  H  H11  1  0.0932  0.9482  0.3088  1\n  H  H12  1  0.6668  0.7993  0.8352  1\n  H  H13  1  0.3332  0.2007  0.1648  1\n  H  H14  1  0.8726  0.2084  0.8413  1\n  H  H15  1  0.1274  0.7916  0.1587  1\n  O  O16  1  0.8850  0.0458  0.5989  1\n  O  O17  1  0.1150  0.9542  0.4011  1\n  O  O18  1  0.5571  0.7148  0.7971  1\n  O  O19  1  0.4429  0.2852  0.2029  1\n  O  O20  1  0.8312  0.2901  0.8707  1\n  O  O21  1  0.1688  0.7099  0.1293  1\n  F  F22  1  0.9535  0.2477  0.0702  1\n  F  F23  1  0.0465  0.7523  0.9298  1\n  F  F24  1  0.9269  0.0678  0.8075  1\n  F  F25  1  0.0731  0.9322  0.1925  1\n  F  F26  1  0.7295  0.7274  0.0012  1\n  F  F27  1  0.2705  0.2726  0.9988  1\n",
    "output": "data_image0\n_chemical_formula_structural       HNi2SnNiH11O6F6\n_chemical_formula_sum              \"H12 Ni3 Sn1 O6 F6\"\n_cell_length_a       10.2519\n_cell_length_b       7.7092\n_cell_length_c       11.4274\n_cell_angle_alpha    89.1775\n_cell_angle_beta     92.1746\n_cell_angle_gamma    127.3153\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.0000  0.0000  0.5000  1.0000\n  Ni  Ni1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Sn  Sn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ni  Ni3       1.0000  0.7340  0.1764  0.9127  1.0000\n  H   H2        1.0000  0.2660  0.8236  0.0873  1.0000\n  H   H3        1.0000  0.8779  0.1628  0.5790  1.0000\n  H   H4        1.0000  0.1221  0.8372  0.4210  1.0000\n  H   H5        1.0000  0.5737  0.6754  0.7215  1.0000\n  H   H6        1.0000  0.4263  0.3246  0.2785  1.0000\n  H   H7        1.0000  0.9068  0.0518  0.6912  1.0000\n  H   H8        1.0000  0.0932  0.9482  0.3088  1.0000\n  H   H9        1.0000  0.6668  0.7993  0.8352  1.0000\n  H   H10       1.0000  0.3332  0.2007  0.1648  1.0000\n  H   H11       1.0000  0.8726  0.2084  0.8413  1.0000\n  H   H12       1.0000  0.1274  0.7916  0.1587  1.0000\n  O   O1        1.0000  0.8850  0.0458  0.5989  1.0000\n  O   O2        1.0000  0.1150  0.9542  0.4011  1.0000\n  O   O3        1.0000  0.5571  0.7148  0.7971  1.0000\n  O   O4        1.0000  0.4429  0.2852  0.2029  1.0000\n  O   O5        1.0000  0.8312  0.2901  0.8707  1.0000\n  O   O6        1.0000  0.1688  0.7099  0.1293  1.0000\n  F   F1        1.0000  0.9535  0.2477  0.0702  1.0000\n  F   F2        1.0000  0.0465  0.7523  0.9298  1.0000\n  F   F3        1.0000  0.9269  0.0678  0.8075  1.0000\n  F   F4        1.0000  0.0731  0.9322  0.1925  1.0000\n  F   F5        1.0000  0.7295  0.7274  0.0012  1.0000\n  F   F6        1.0000  0.2705  0.2726  0.9988  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a24c1661-09f1-486b-89d1-6fe81d0699e5",
    "mp_id": "mp-1213562",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_DyCrC6(N3O2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7190\n_cell_length_b   7.7190\n_cell_length_c   13.5956\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0728\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   DyCrC6(N3O2)2\n_chemical_formula_sum   'Dy2 Cr2 C12 N12 O8'\n_cell_volume   701.0319\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.6645  0.3355  0.2500  1\n  Dy  Dy1  1  0.3355  0.6645  0.7500  1\n  Cr  Cr2  1  0.0000  0.0000  0.0000  1\n  Cr  Cr3  1  0.0000  0.0000  0.5000  1\n  C  C4  1  0.8631  0.1369  0.0747  1\n  C  C5  1  0.1369  0.8631  0.9253  1\n  C  C6  1  0.1369  0.8631  0.5747  1\n  C  C7  1  0.8631  0.1369  0.4253  1\n  C  C8  1  0.8597  0.7547  0.0938  1\n  C  C9  1  0.1403  0.2453  0.9062  1\n  C  C10  1  0.1403  0.2453  0.5938  1\n  C  C11  1  0.2453  0.1403  0.4062  1\n  C  C12  1  0.8597  0.7547  0.4062  1\n  C  C13  1  0.7547  0.8597  0.5938  1\n  C  C14  1  0.7547  0.8597  0.9062  1\n  C  C15  1  0.2453  0.1403  0.0938  1\n  N  N16  1  0.7863  0.6134  0.1448  1\n  N  N17  1  0.2137  0.3866  0.8552  1\n  N  N18  1  0.2137  0.3866  0.6448  1\n  N  N19  1  0.3866  0.2137  0.3552  1\n  N  N20  1  0.7863  0.6134  0.3552  1\n  N  N21  1  0.6134  0.7863  0.6448  1\n  N  N22  1  0.6134  0.7863  0.8552  1\n  N  N23  1  0.3866  0.2137  0.1448  1\n  N  N24  1  0.7914  0.2086  0.1244  1\n  N  N25  1  0.2086  0.7914  0.8756  1\n  N  N26  1  0.2086  0.7914  0.6244  1\n  N  N27  1  0.7914  0.2086  0.3756  1\n  O  O28  1  0.1637  0.5725  0.2500  1\n  O  O29  1  0.8363  0.4275  0.7500  1\n  O  O30  1  0.4275  0.8363  0.2500  1\n  O  O31  1  0.5725  0.1637  0.7500  1\n  O  O32  1  0.3227  0.6773  0.1750  1\n  O  O33  1  0.6773  0.3227  0.8250  1\n  O  O34  1  0.6773  0.3227  0.6750  1\n  O  O35  1  0.3227  0.6773  0.3250  1\n",
    "output": "data_image0\n_chemical_formula_structural       DyNCr2C12N4DyN7O8\n_chemical_formula_sum              \"Dy2 N12 Cr2 C12 O8\"\n_cell_length_a       7.7190\n_cell_length_b       7.7190\n_cell_length_c       13.5956\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0728\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.6645  0.3355  0.2500  1.0000\n  N   N1        1.0000  0.3355  0.6645  0.7500  1.0000\n  Cr  Cr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.0000  0.5000  1.0000\n  C   C1        1.0000  0.8631  0.1369  0.0747  1.0000\n  C   C2        1.0000  0.1369  0.8631  0.9253  1.0000\n  C   C3        1.0000  0.1369  0.8631  0.5747  1.0000\n  C   C4        1.0000  0.8631  0.1369  0.4253  1.0000\n  C   C5        1.0000  0.8597  0.7547  0.0938  1.0000\n  C   C6        1.0000  0.1403  0.2453  0.9062  1.0000\n  C   C7        1.0000  0.1403  0.2453  0.5938  1.0000\n  C   C8        1.0000  0.2453  0.1403  0.4062  1.0000\n  C   C9        1.0000  0.8597  0.7547  0.4062  1.0000\n  C   C10       1.0000  0.7547  0.8597  0.5938  1.0000\n  C   C11       1.0000  0.7547  0.8597  0.9062  1.0000\n  C   C12       1.0000  0.2453  0.1403  0.0938  1.0000\n  N   N2        1.0000  0.7863  0.6134  0.1448  1.0000\n  N   N3        1.0000  0.2137  0.3866  0.8552  1.0000\n  N   N4        1.0000  0.2137  0.3866  0.6448  1.0000\n  N   N5        1.0000  0.3866  0.2137  0.3552  1.0000\n  Dy  Dy2       1.0000  0.7863  0.6134  0.3552  1.0000\n  N   N6        1.0000  0.6134  0.7863  0.6448  1.0000\n  N   N7        1.0000  0.6134  0.7863  0.8552  1.0000\n  N   N8        1.0000  0.3866  0.2137  0.1448  1.0000\n  N   N9        1.0000  0.7914  0.2086  0.1244  1.0000\n  N   N10       1.0000  0.2086  0.7914  0.8756  1.0000\n  N   N11       1.0000  0.2086  0.7914  0.6244  1.0000\n  N   N12       1.0000  0.7914  0.2086  0.3756  1.0000\n  O   O1        1.0000  0.1637  0.5725  0.2500  1.0000\n  O   O2        1.0000  0.8363  0.4275  0.7500  1.0000\n  O   O3        1.0000  0.4275  0.8363  0.2500  1.0000\n  O   O4        1.0000  0.5725  0.1637  0.7500  1.0000\n  O   O5        1.0000  0.3227  0.6773  0.1750  1.0000\n  O   O6        1.0000  0.6773  0.3227  0.8250  1.0000\n  O   O7        1.0000  0.6773  0.3227  0.6750  1.0000\n  O   O8        1.0000  0.3227  0.6773  0.3250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a4e77004-883b-40c5-b7a0-786436d6c5e0",
    "mp_id": "mp-1213790",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co2BO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.1663\n_cell_length_b   9.2219\n_cell_length_c   9.3662\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co2BO4\n_chemical_formula_sum   'Co8 B4 O16'\n_cell_volume   273.4814\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.2500  0.6189  0.5706  1\n  Co  Co1  1  0.7500  0.3811  0.4294  1\n  Co  Co2  1  0.7500  0.8811  0.0706  1\n  Co  Co3  1  0.2500  0.1189  0.9294  1\n  Co  Co4  1  0.2500  0.6031  0.2003  1\n  Co  Co5  1  0.7500  0.3969  0.7997  1\n  Co  Co6  1  0.7500  0.8969  0.7003  1\n  Co  Co7  1  0.2500  0.1031  0.2997  1\n  B  B8  1  0.2500  0.6630  0.8817  1\n  B  B9  1  0.7500  0.3370  0.1183  1\n  B  B10  1  0.7500  0.8370  0.3817  1\n  B  B11  1  0.2500  0.1630  0.6183  1\n  O  O12  1  0.2500  0.0167  0.1237  1\n  O  O13  1  0.7500  0.9833  0.8763  1\n  O  O14  1  0.7500  0.4833  0.6237  1\n  O  O15  1  0.2500  0.5167  0.3763  1\n  O  O16  1  0.2500  0.7462  0.7574  1\n  O  O17  1  0.7500  0.2538  0.2426  1\n  O  O18  1  0.7500  0.7538  0.2574  1\n  O  O19  1  0.2500  0.2462  0.7426  1\n  O  O20  1  0.2500  0.5137  0.8698  1\n  O  O21  1  0.7500  0.4863  0.1302  1\n  O  O22  1  0.7500  0.9863  0.3698  1\n  O  O23  1  0.2500  0.0137  0.6302  1\n  O  O24  1  0.2500  0.7271  0.0157  1\n  O  O25  1  0.7500  0.2729  0.9843  1\n  O  O26  1  0.7500  0.7729  0.5157  1\n  O  O27  1  0.2500  0.2271  0.4843  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co3OCo4B4O2CoO13\n_chemical_formula_sum              \"Co8 O16 B4\"\n_cell_length_a       3.1663\n_cell_length_b       9.2219\n_cell_length_c       9.3662\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.2500  0.6189  0.5706  1.0000\n  Co  Co2       1.0000  0.7500  0.3811  0.4294  1.0000\n  Co  Co3       1.0000  0.7500  0.8811  0.0706  1.0000\n  O   O1        1.0000  0.2500  0.1189  0.9294  1.0000\n  Co  Co4       1.0000  0.2500  0.6031  0.2003  1.0000\n  Co  Co5       1.0000  0.7500  0.3969  0.7997  1.0000\n  Co  Co6       1.0000  0.7500  0.8969  0.7003  1.0000\n  Co  Co7       1.0000  0.2500  0.1031  0.2997  1.0000\n  B   B1        1.0000  0.2500  0.6630  0.8817  1.0000\n  B   B2        1.0000  0.7500  0.3370  0.1183  1.0000\n  B   B3        1.0000  0.7500  0.8370  0.3817  1.0000\n  B   B4        1.0000  0.2500  0.1630  0.6183  1.0000\n  O   O2        1.0000  0.2500  0.0167  0.1237  1.0000\n  O   O3        1.0000  0.7500  0.9833  0.8763  1.0000\n  Co  Co8       1.0000  0.7500  0.4833  0.6237  1.0000\n  O   O4        1.0000  0.2500  0.5167  0.3763  1.0000\n  O   O5        1.0000  0.2500  0.7462  0.7574  1.0000\n  O   O6        1.0000  0.7500  0.2538  0.2426  1.0000\n  O   O7        1.0000  0.7500  0.7538  0.2574  1.0000\n  O   O8        1.0000  0.2500  0.2462  0.7426  1.0000\n  O   O9        1.0000  0.2500  0.5137  0.8698  1.0000\n  O   O10       1.0000  0.7500  0.4863  0.1302  1.0000\n  O   O11       1.0000  0.7500  0.9863  0.3698  1.0000\n  O   O12       1.0000  0.2500  0.0137  0.6302  1.0000\n  O   O13       1.0000  0.2500  0.7271  0.0157  1.0000\n  O   O14       1.0000  0.7500  0.2729  0.9843  1.0000\n  O   O15       1.0000  0.7500  0.7729  0.5157  1.0000\n  O   O16       1.0000  0.2500  0.2271  0.4843  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d932ac45-aa2c-4f12-9a8c-05c8f16794b3",
    "mp_id": "mp-1214336",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaSmCuBO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5273\n_cell_length_b   5.5273\n_cell_length_c   7.5897\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaSmCuBO5\n_chemical_formula_sum   'Ba2 Sm2 Cu2 B2 O10'\n_cell_volume   231.8688\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.0000  0.0078  1\n  Ba  Ba1  1  0.5000  0.5000  0.0078  1\n  Sm  Sm2  1  0.0000  0.0000  0.5132  1\n  Sm  Sm3  1  0.5000  0.5000  0.5132  1\n  Cu  Cu4  1  0.5000  0.0000  0.7319  1\n  Cu  Cu5  1  0.0000  0.5000  0.7319  1\n  B  B6  1  0.5000  0.0000  0.2530  1\n  B  B7  1  0.0000  0.5000  0.2530  1\n  O  O8  1  0.1563  0.6563  0.3403  1\n  O  O9  1  0.8437  0.3437  0.3403  1\n  O  O10  1  0.3437  0.1563  0.3403  1\n  O  O11  1  0.6563  0.8437  0.3403  1\n  O  O12  1  0.5000  0.0000  0.0687  1\n  O  O13  1  0.0000  0.5000  0.0687  1\n  O  O14  1  0.2525  0.7525  0.7138  1\n  O  O15  1  0.7475  0.2475  0.7138  1\n  O  O16  1  0.2475  0.2525  0.7138  1\n  O  O17  1  0.7525  0.7475  0.7138  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOSm2Cu2B2O4BaO5\n_chemical_formula_sum              \"Ba2 O10 Sm2 Cu2 B2\"\n_cell_length_a       5.5273\n_cell_length_b       5.5273\n_cell_length_c       7.5897\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.0000  0.0078  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0078  1.0000\n  Sm  Sm1       1.0000  0.0000  0.0000  0.5132  1.0000\n  Sm  Sm2       1.0000  0.5000  0.5000  0.5132  1.0000\n  Cu  Cu1       1.0000  0.5000  0.0000  0.7319  1.0000\n  Cu  Cu2       1.0000  0.0000  0.5000  0.7319  1.0000\n  B   B1        1.0000  0.5000  0.0000  0.2530  1.0000\n  B   B2        1.0000  0.0000  0.5000  0.2530  1.0000\n  O   O2        1.0000  0.1563  0.6563  0.3403  1.0000\n  O   O3        1.0000  0.8437  0.3437  0.3403  1.0000\n  O   O4        1.0000  0.3437  0.1563  0.3403  1.0000\n  O   O5        1.0000  0.6563  0.8437  0.3403  1.0000\n  Ba  Ba2       1.0000  0.5000  0.0000  0.0687  1.0000\n  O   O6        1.0000  0.0000  0.5000  0.0687  1.0000\n  O   O7        1.0000  0.2525  0.7525  0.7138  1.0000\n  O   O8        1.0000  0.7475  0.2475  0.7138  1.0000\n  O   O9        1.0000  0.2475  0.2525  0.7138  1.0000\n  O   O10       1.0000  0.7525  0.7475  0.7138  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "776a7296-c16a-4b67-aa76-2837fd7013cb",
    "mp_id": "mp-1214464",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaNb(O6F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5964\n_cell_length_b   7.5964\n_cell_length_c   7.5964\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaNb(O6F)2\n_chemical_formula_sum   'Ca2 Nb2 O24 F4'\n_cell_volume   309.9679\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0000  0.0000  0.0000  1\n  Ca  Ca1  1  0.7500  0.7500  0.7500  1\n  Nb  Nb2  1  0.5000  0.5000  0.5000  1\n  Nb  Nb3  1  0.2500  0.2500  0.2500  1\n  O  O4  1  0.5221  0.5221  0.1882  1\n  O  O5  1  0.7677  0.1882  0.5221  1\n  O  O6  1  0.1882  0.7677  0.5221  1\n  O  O7  1  0.5221  0.1882  0.5221  1\n  O  O8  1  0.9823  0.2279  0.5618  1\n  O  O9  1  0.2279  0.2279  0.5618  1\n  O  O10  1  0.5221  0.5221  0.7677  1\n  O  O11  1  0.1882  0.5221  0.7677  1\n  O  O12  1  0.2279  0.5618  0.2279  1\n  O  O13  1  0.9823  0.5618  0.2279  1\n  O  O14  1  0.7677  0.5221  0.1882  1\n  O  O15  1  0.2279  0.9823  0.2279  1\n  O  O16  1  0.5618  0.9823  0.2279  1\n  O  O17  1  0.5221  0.7677  0.5221  1\n  O  O18  1  0.5618  0.2279  0.9823  1\n  O  O19  1  0.2279  0.2279  0.9823  1\n  O  O20  1  0.1882  0.5221  0.5221  1\n  O  O21  1  0.5221  0.1882  0.7677  1\n  O  O22  1  0.7677  0.5221  0.5221  1\n  O  O23  1  0.5221  0.7677  0.1882  1\n  O  O24  1  0.2279  0.5618  0.9823  1\n  O  O25  1  0.5618  0.2279  0.2279  1\n  O  O26  1  0.2279  0.9823  0.5618  1\n  O  O27  1  0.9823  0.2279  0.2279  1\n  F  F28  1  0.8750  0.8750  0.8750  1\n  F  F29  1  0.3750  0.8750  0.8750  1\n  F  F30  1  0.8750  0.3750  0.8750  1\n  F  F31  1  0.8750  0.8750  0.3750  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2Nb2O17FO6F3O\n_chemical_formula_sum              \"Ca2 Nb2 O24 F4\"\n_cell_length_a       7.5964\n_cell_length_b       7.5964\n_cell_length_c       7.5964\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ca  Ca2       1.0000  0.7500  0.7500  0.7500  1.0000\n  Nb  Nb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Nb  Nb2       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.5221  0.5221  0.1882  1.0000\n  O   O2        1.0000  0.7677  0.1882  0.5221  1.0000\n  O   O3        1.0000  0.1882  0.7677  0.5221  1.0000\n  O   O4        1.0000  0.5221  0.1882  0.5221  1.0000\n  O   O5        1.0000  0.9823  0.2279  0.5618  1.0000\n  O   O6        1.0000  0.2279  0.2279  0.5618  1.0000\n  O   O7        1.0000  0.5221  0.5221  0.7677  1.0000\n  O   O8        1.0000  0.1882  0.5221  0.7677  1.0000\n  O   O9        1.0000  0.2279  0.5618  0.2279  1.0000\n  O   O10       1.0000  0.9823  0.5618  0.2279  1.0000\n  O   O11       1.0000  0.7677  0.5221  0.1882  1.0000\n  O   O12       1.0000  0.2279  0.9823  0.2279  1.0000\n  O   O13       1.0000  0.5618  0.9823  0.2279  1.0000\n  O   O14       1.0000  0.5221  0.7677  0.5221  1.0000\n  O   O15       1.0000  0.5618  0.2279  0.9823  1.0000\n  O   O16       1.0000  0.2279  0.2279  0.9823  1.0000\n  O   O17       1.0000  0.1882  0.5221  0.5221  1.0000\n  F   F1        1.0000  0.5221  0.1882  0.7677  1.0000\n  O   O18       1.0000  0.7677  0.5221  0.5221  1.0000\n  O   O19       1.0000  0.5221  0.7677  0.1882  1.0000\n  O   O20       1.0000  0.2279  0.5618  0.9823  1.0000\n  O   O21       1.0000  0.5618  0.2279  0.2279  1.0000\n  O   O22       1.0000  0.2279  0.9823  0.5618  1.0000\n  O   O23       1.0000  0.9823  0.2279  0.2279  1.0000\n  F   F2        1.0000  0.8750  0.8750  0.8750  1.0000\n  F   F3        1.0000  0.3750  0.8750  0.8750  1.0000\n  F   F4        1.0000  0.8750  0.3750  0.8750  1.0000\n  O   O24       1.0000  0.8750  0.8750  0.3750  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "296b8a84-2500-4285-9f17-a83b5863c3c5",
    "mp_id": "mp-1214610",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaC12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2456\n_cell_length_b   5.7945\n_cell_length_c   26.5130\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   116.9126\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaC12\n_chemical_formula_sum   'Ca1 C12'\n_cell_volume   718.5992\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0000  0.0000  0.0000  1\n  C  C1  1  0.6187  0.4999  0.5000  1\n  C  C2  1  0.3813  0.5001  0.5000  1\n  C  C3  1  0.5271  0.8135  0.0000  1\n  C  C4  1  0.8812  0.4999  0.5000  1\n  C  C5  1  0.4729  0.1865  0.0000  1\n  C  C6  1  0.1188  0.5001  0.5000  1\n  C  C7  1  0.0000  0.5000  0.6662  1\n  C  C8  1  0.2863  0.8135  0.0000  1\n  C  C9  1  0.0000  0.5000  0.3338  1\n  C  C10  1  0.7137  0.1865  0.0000  1\n  C  C11  1  0.5000  0.5000  0.3338  1\n  C  C12  1  0.5000  0.5000  0.6662  1\n",
    "output": "data_image0\n_chemical_formula_structural       C4CaC8\n_chemical_formula_sum              \"C12 Ca1\"\n_cell_length_a       5.2456\n_cell_length_b       5.7945\n_cell_length_c       26.5130\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    116.9126\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C2        1.0000  0.6187  0.4999  0.5000  1.0000\n  C   C3        1.0000  0.3813  0.5001  0.5000  1.0000\n  C   C4        1.0000  0.5271  0.8135  0.0000  1.0000\n  Ca  Ca1       1.0000  0.8812  0.4999  0.5000  1.0000\n  C   C5        1.0000  0.4729  0.1865  0.0000  1.0000\n  C   C6        1.0000  0.1188  0.5001  0.5000  1.0000\n  C   C7        1.0000  0.0000  0.5000  0.6662  1.0000\n  C   C8        1.0000  0.2863  0.8135  0.0000  1.0000\n  C   C9        1.0000  0.0000  0.5000  0.3338  1.0000\n  C   C10       1.0000  0.7137  0.1865  0.0000  1.0000\n  C   C11       1.0000  0.5000  0.5000  0.3338  1.0000\n  C   C12       1.0000  0.5000  0.5000  0.6662  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8b754b86-e44c-43cb-96b0-4bbcb708f3e7",
    "mp_id": "mp-1214788",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaPtO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8658\n_cell_length_b   5.8658\n_cell_length_c   34.9964\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaPtO3\n_chemical_formula_sum   'Ba14 Pt14 O42'\n_cell_volume   1042.8134\n_cell_formula_units_Z   14\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.0000  0.8939  1\n  Ba  Ba1  1  0.0000  0.0000  0.1061  1\n  Ba  Ba2  1  0.0000  0.0000  0.3939  1\n  Ba  Ba3  1  0.0000  0.0000  0.6061  1\n  Ba  Ba4  1  0.6667  0.3333  0.8181  1\n  Ba  Ba5  1  0.3333  0.6667  0.1819  1\n  Ba  Ba6  1  0.3333  0.6667  0.3181  1\n  Ba  Ba7  1  0.6667  0.3333  0.6819  1\n  Ba  Ba8  1  0.6667  0.3333  0.2500  1\n  Ba  Ba9  1  0.3333  0.6667  0.7500  1\n  Ba  Ba10  1  0.6667  0.3333  0.9583  1\n  Ba  Ba11  1  0.3333  0.6667  0.0417  1\n  Ba  Ba12  1  0.3333  0.6667  0.4583  1\n  Ba  Ba13  1  0.6667  0.3333  0.5417  1\n  Pt  Pt14  1  0.0000  0.0000  0.7901  1\n  Pt  Pt15  1  0.0000  0.0000  0.2099  1\n  Pt  Pt16  1  0.0000  0.0000  0.2901  1\n  Pt  Pt17  1  0.0000  0.0000  0.7099  1\n  Pt  Pt18  1  0.0000  0.0000  0.0000  1\n  Pt  Pt19  1  0.0000  0.0000  0.5000  1\n  Pt  Pt20  1  0.6667  0.3333  0.4362  1\n  Pt  Pt21  1  0.3333  0.6667  0.5638  1\n  Pt  Pt22  1  0.3333  0.6667  0.9362  1\n  Pt  Pt23  1  0.6667  0.3333  0.0638  1\n  Pt  Pt24  1  0.6667  0.3333  0.3564  1\n  Pt  Pt25  1  0.3333  0.6667  0.6436  1\n  Pt  Pt26  1  0.3333  0.6667  0.8564  1\n  Pt  Pt27  1  0.6667  0.3333  0.1436  1\n  O  O28  1  0.8206  0.1794  0.3171  1\n  O  O29  1  0.1794  0.8206  0.6829  1\n  O  O30  1  0.3587  0.1794  0.3171  1\n  O  O31  1  0.1794  0.8206  0.8171  1\n  O  O32  1  0.6413  0.8206  0.6829  1\n  O  O33  1  0.8206  0.1794  0.1829  1\n  O  O34  1  0.8206  0.6413  0.3171  1\n  O  O35  1  0.6413  0.8206  0.8171  1\n  O  O36  1  0.1794  0.3587  0.6829  1\n  O  O37  1  0.3587  0.1794  0.1829  1\n  O  O38  1  0.1794  0.3587  0.8171  1\n  O  O39  1  0.8206  0.6413  0.1829  1\n  O  O40  1  0.8521  0.1479  0.7500  1\n  O  O41  1  0.1479  0.8521  0.2500  1\n  O  O42  1  0.2959  0.1479  0.7500  1\n  O  O43  1  0.7041  0.8521  0.2500  1\n  O  O44  1  0.8521  0.7041  0.7500  1\n  O  O45  1  0.1479  0.2959  0.2500  1\n  O  O46  1  0.4831  0.5169  0.8956  1\n  O  O47  1  0.5169  0.4831  0.1044  1\n  O  O48  1  0.0337  0.5169  0.8956  1\n  O  O49  1  0.5169  0.4831  0.3956  1\n  O  O50  1  0.9663  0.4831  0.1044  1\n  O  O51  1  0.4831  0.5169  0.6044  1\n  O  O52  1  0.4831  0.9663  0.8956  1\n  O  O53  1  0.9663  0.4831  0.3956  1\n  O  O54  1  0.5169  0.0337  0.1044  1\n  O  O55  1  0.0337  0.5169  0.6044  1\n  O  O56  1  0.5169  0.0337  0.3956  1\n  O  O57  1  0.4831  0.9663  0.6044  1\n  O  O58  1  0.8490  0.1510  0.4605  1\n  O  O59  1  0.1510  0.8490  0.5395  1\n  O  O60  1  0.3020  0.1510  0.4605  1\n  O  O61  1  0.1510  0.8490  0.9605  1\n  O  O62  1  0.6980  0.8490  0.5395  1\n  O  O63  1  0.8490  0.1510  0.0395  1\n  O  O64  1  0.8490  0.6980  0.4605  1\n  O  O65  1  0.6980  0.8490  0.9605  1\n  O  O66  1  0.1510  0.3020  0.5395  1\n  O  O67  1  0.3020  0.1510  0.0395  1\n  O  O68  1  0.1510  0.3020  0.9605  1\n  O  O69  1  0.8490  0.6980  0.0395  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba11PtBa2Pt11BaPt2O42\n_chemical_formula_sum              \"Ba14 Pt14 O42\"\n_cell_length_a       5.8658\n_cell_length_b       5.8658\n_cell_length_c       34.9964\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.0000  0.8939  1.0000\n  Ba  Ba2       1.0000  0.0000  0.0000  0.1061  1.0000\n  Ba  Ba3       1.0000  0.0000  0.0000  0.3939  1.0000\n  Ba  Ba4       1.0000  0.0000  0.0000  0.6061  1.0000\n  Ba  Ba5       1.0000  0.6667  0.3333  0.8181  1.0000\n  Ba  Ba6       1.0000  0.3333  0.6667  0.1819  1.0000\n  Ba  Ba7       1.0000  0.3333  0.6667  0.3181  1.0000\n  Ba  Ba8       1.0000  0.6667  0.3333  0.6819  1.0000\n  Ba  Ba9       1.0000  0.6667  0.3333  0.2500  1.0000\n  Ba  Ba10      1.0000  0.3333  0.6667  0.7500  1.0000\n  Ba  Ba11      1.0000  0.6667  0.3333  0.9583  1.0000\n  Pt  Pt1       1.0000  0.3333  0.6667  0.0417  1.0000\n  Ba  Ba12      1.0000  0.3333  0.6667  0.4583  1.0000\n  Ba  Ba13      1.0000  0.6667  0.3333  0.5417  1.0000\n  Pt  Pt2       1.0000  0.0000  0.0000  0.7901  1.0000\n  Pt  Pt3       1.0000  0.0000  0.0000  0.2099  1.0000\n  Pt  Pt4       1.0000  0.0000  0.0000  0.2901  1.0000\n  Pt  Pt5       1.0000  0.0000  0.0000  0.7099  1.0000\n  Pt  Pt6       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pt  Pt7       1.0000  0.0000  0.0000  0.5000  1.0000\n  Pt  Pt8       1.0000  0.6667  0.3333  0.4362  1.0000\n  Pt  Pt9       1.0000  0.3333  0.6667  0.5638  1.0000\n  Pt  Pt10      1.0000  0.3333  0.6667  0.9362  1.0000\n  Pt  Pt11      1.0000  0.6667  0.3333  0.0638  1.0000\n  Pt  Pt12      1.0000  0.6667  0.3333  0.3564  1.0000\n  Ba  Ba14      1.0000  0.3333  0.6667  0.6436  1.0000\n  Pt  Pt13      1.0000  0.3333  0.6667  0.8564  1.0000\n  Pt  Pt14      1.0000  0.6667  0.3333  0.1436  1.0000\n  O   O1        1.0000  0.8206  0.1794  0.3171  1.0000\n  O   O2        1.0000  0.1794  0.8206  0.6829  1.0000\n  O   O3        1.0000  0.3587  0.1794  0.3171  1.0000\n  O   O4        1.0000  0.1794  0.8206  0.8171  1.0000\n  O   O5        1.0000  0.6413  0.8206  0.6829  1.0000\n  O   O6        1.0000  0.8206  0.1794  0.1829  1.0000\n  O   O7        1.0000  0.8206  0.6413  0.3171  1.0000\n  O   O8        1.0000  0.6413  0.8206  0.8171  1.0000\n  O   O9        1.0000  0.1794  0.3587  0.6829  1.0000\n  O   O10       1.0000  0.3587  0.1794  0.1829  1.0000\n  O   O11       1.0000  0.1794  0.3587  0.8171  1.0000\n  O   O12       1.0000  0.8206  0.6413  0.1829  1.0000\n  O   O13       1.0000  0.8521  0.1479  0.7500  1.0000\n  O   O14       1.0000  0.1479  0.8521  0.2500  1.0000\n  O   O15       1.0000  0.2959  0.1479  0.7500  1.0000\n  O   O16       1.0000  0.7041  0.8521  0.2500  1.0000\n  O   O17       1.0000  0.8521  0.7041  0.7500  1.0000\n  O   O18       1.0000  0.1479  0.2959  0.2500  1.0000\n  O   O19       1.0000  0.4831  0.5169  0.8956  1.0000\n  O   O20       1.0000  0.5169  0.4831  0.1044  1.0000\n  O   O21       1.0000  0.0337  0.5169  0.8956  1.0000\n  O   O22       1.0000  0.5169  0.4831  0.3956  1.0000\n  O   O23       1.0000  0.9663  0.4831  0.1044  1.0000\n  O   O24       1.0000  0.4831  0.5169  0.6044  1.0000\n  O   O25       1.0000  0.4831  0.9663  0.8956  1.0000\n  O   O26       1.0000  0.9663  0.4831  0.3956  1.0000\n  O   O27       1.0000  0.5169  0.0337  0.1044  1.0000\n  O   O28       1.0000  0.0337  0.5169  0.6044  1.0000\n  O   O29       1.0000  0.5169  0.0337  0.3956  1.0000\n  O   O30       1.0000  0.4831  0.9663  0.6044  1.0000\n  O   O31       1.0000  0.8490  0.1510  0.4605  1.0000\n  O   O32       1.0000  0.1510  0.8490  0.5395  1.0000\n  O   O33       1.0000  0.3020  0.1510  0.4605  1.0000\n  O   O34       1.0000  0.1510  0.8490  0.9605  1.0000\n  O   O35       1.0000  0.6980  0.8490  0.5395  1.0000\n  O   O36       1.0000  0.8490  0.1510  0.0395  1.0000\n  O   O37       1.0000  0.8490  0.6980  0.4605  1.0000\n  O   O38       1.0000  0.6980  0.8490  0.9605  1.0000\n  O   O39       1.0000  0.1510  0.3020  0.5395  1.0000\n  O   O40       1.0000  0.3020  0.1510  0.0395  1.0000\n  O   O41       1.0000  0.1510  0.3020  0.9605  1.0000\n  O   O42       1.0000  0.8490  0.6980  0.0395  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cae244e3-79d0-4020-a0ef-48de2175c389",
    "mp_id": "mp-1214890",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlCo(OF)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5328\n_cell_length_b   7.9674\n_cell_length_c   7.9674\n_cell_angle_alpha   100.3209\n_cell_angle_beta   91.7804\n_cell_angle_gamma   91.7804\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlCo(OF)6\n_chemical_formula_sum   'Al2 Co2 O12 F12'\n_cell_volume   345.1351\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.5000  0.5000  0.0000  1\n  Al  Al1  1  0.5000  0.0000  0.5000  1\n  Co  Co2  1  0.0000  0.0000  0.0000  1\n  Co  Co3  1  0.0000  0.5000  0.5000  1\n  O  O4  1  0.6860  0.4565  0.4565  1\n  O  O5  1  0.3140  0.5435  0.5435  1\n  O  O6  1  0.0000  0.8511  0.1489  1\n  O  O7  1  0.0000  0.1489  0.8511  1\n  O  O8  1  0.1760  0.8531  0.8531  1\n  O  O9  1  0.8240  0.1469  0.1469  1\n  O  O10  1  0.7489  0.8868  0.8868  1\n  O  O11  1  0.2511  0.1132  0.1132  1\n  O  O12  1  0.9585  0.5308  0.7286  1\n  O  O13  1  0.0415  0.4692  0.2714  1\n  O  O14  1  0.0415  0.2714  0.4692  1\n  O  O15  1  0.9585  0.7286  0.5308  1\n  F  F16  1  0.5828  0.5199  0.7838  1\n  F  F17  1  0.4172  0.4801  0.2162  1\n  F  F18  1  0.4172  0.2162  0.4801  1\n  F  F19  1  0.5828  0.7838  0.5199  1\n  F  F20  1  0.7911  0.5944  0.0864  1\n  F  F21  1  0.2089  0.4056  0.9136  1\n  F  F22  1  0.2089  0.9136  0.4056  1\n  F  F23  1  0.7911  0.0864  0.5944  1\n  F  F24  1  0.3732  0.7132  0.0296  1\n  F  F25  1  0.6268  0.2868  0.9704  1\n  F  F26  1  0.6268  0.9704  0.2868  1\n  F  F27  1  0.3732  0.0296  0.7132  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al2Co2O5FO6F6OF5\n_chemical_formula_sum              \"Al2 Co2 O12 F12\"\n_cell_length_a       5.5328\n_cell_length_b       7.9674\n_cell_length_c       7.9674\n_cell_angle_alpha    100.3209\n_cell_angle_beta     91.7804\n_cell_angle_gamma    91.7804\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Al  Al2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co2       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.6860  0.4565  0.4565  1.0000\n  O   O2        1.0000  0.3140  0.5435  0.5435  1.0000\n  O   O3        1.0000  0.0000  0.8511  0.1489  1.0000\n  O   O4        1.0000  0.0000  0.1489  0.8511  1.0000\n  O   O5        1.0000  0.1760  0.8531  0.8531  1.0000\n  F   F1        1.0000  0.8240  0.1469  0.1469  1.0000\n  O   O6        1.0000  0.7489  0.8868  0.8868  1.0000\n  O   O7        1.0000  0.2511  0.1132  0.1132  1.0000\n  O   O8        1.0000  0.9585  0.5308  0.7286  1.0000\n  O   O9        1.0000  0.0415  0.4692  0.2714  1.0000\n  O   O10       1.0000  0.0415  0.2714  0.4692  1.0000\n  O   O11       1.0000  0.9585  0.7286  0.5308  1.0000\n  F   F2        1.0000  0.5828  0.5199  0.7838  1.0000\n  F   F3        1.0000  0.4172  0.4801  0.2162  1.0000\n  F   F4        1.0000  0.4172  0.2162  0.4801  1.0000\n  F   F5        1.0000  0.5828  0.7838  0.5199  1.0000\n  F   F6        1.0000  0.7911  0.5944  0.0864  1.0000\n  F   F7        1.0000  0.2089  0.4056  0.9136  1.0000\n  O   O12       1.0000  0.2089  0.9136  0.4056  1.0000\n  F   F8        1.0000  0.7911  0.0864  0.5944  1.0000\n  F   F9        1.0000  0.3732  0.7132  0.0296  1.0000\n  F   F10       1.0000  0.6268  0.2868  0.9704  1.0000\n  F   F11       1.0000  0.6268  0.9704  0.2868  1.0000\n  F   F12       1.0000  0.3732  0.0296  0.7132  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8f137302-d8d0-4491-8b95-b5e83fbed747",
    "mp_id": "mp-1214936",
    "action_prompt": "Swap the spatial positions of atoms at indices 61 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Be3Co2(NF6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9154\n_cell_length_b   9.9154\n_cell_length_c   9.9154\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Be3Co2(NF6)2\n_chemical_formula_sum   'Be12 Co8 N8 F48'\n_cell_volume   974.8468\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Be  Be0  1  0.0201  0.2103  0.3755  1\n  Be  Be1  1  0.4799  0.7897  0.8755  1\n  Be  Be2  1  0.9799  0.7103  0.1245  1\n  Be  Be3  1  0.3755  0.0201  0.2103  1\n  Be  Be4  1  0.5201  0.2897  0.6245  1\n  Be  Be5  1  0.8755  0.4799  0.7897  1\n  Be  Be6  1  0.1245  0.9799  0.7103  1\n  Be  Be7  1  0.6245  0.5201  0.2897  1\n  Be  Be8  1  0.2103  0.3755  0.0201  1\n  Be  Be9  1  0.7103  0.1245  0.9799  1\n  Be  Be10  1  0.2897  0.6245  0.5201  1\n  Be  Be11  1  0.7897  0.8755  0.4799  1\n  Co  Co12  1  0.3372  0.3372  0.3372  1\n  Co  Co13  1  0.1628  0.6628  0.8372  1\n  Co  Co14  1  0.6628  0.8372  0.1628  1\n  Co  Co15  1  0.8372  0.1628  0.6628  1\n  Co  Co16  1  0.6066  0.6066  0.6066  1\n  Co  Co17  1  0.8934  0.3934  0.1066  1\n  Co  Co18  1  0.3934  0.1066  0.8934  1\n  Co  Co19  1  0.1066  0.8934  0.3934  1\n  N  N20  1  0.0439  0.0439  0.0439  1\n  N  N21  1  0.4561  0.9561  0.5439  1\n  N  N22  1  0.9561  0.5439  0.4561  1\n  N  N23  1  0.5439  0.4561  0.9561  1\n  N  N24  1  0.8177  0.8177  0.8177  1\n  N  N25  1  0.6823  0.1823  0.3177  1\n  N  N26  1  0.1823  0.3177  0.6823  1\n  N  N27  1  0.3177  0.6823  0.1823  1\n  F  F28  1  0.0157  0.0573  0.3342  1\n  F  F29  1  0.4843  0.9427  0.8342  1\n  F  F30  1  0.9843  0.5573  0.1658  1\n  F  F31  1  0.3342  0.0157  0.0573  1\n  F  F32  1  0.5157  0.4427  0.6658  1\n  F  F33  1  0.8342  0.4843  0.9427  1\n  F  F34  1  0.1658  0.9843  0.5573  1\n  F  F35  1  0.6658  0.5157  0.4427  1\n  F  F36  1  0.0573  0.3342  0.0157  1\n  F  F37  1  0.5573  0.1658  0.9843  1\n  F  F38  1  0.4427  0.6658  0.5157  1\n  F  F39  1  0.9427  0.8342  0.4843  1\n  F  F40  1  0.2723  0.4936  0.4347  1\n  F  F41  1  0.2277  0.5064  0.9347  1\n  F  F42  1  0.7277  0.9936  0.0653  1\n  F  F43  1  0.4347  0.2723  0.4936  1\n  F  F44  1  0.7723  0.0064  0.5653  1\n  F  F45  1  0.9347  0.2277  0.5064  1\n  F  F46  1  0.0653  0.7277  0.9936  1\n  F  F47  1  0.5653  0.7723  0.0064  1\n  F  F48  1  0.4936  0.4347  0.2723  1\n  F  F49  1  0.9936  0.0653  0.7277  1\n  F  F50  1  0.0064  0.5653  0.7723  1\n  F  F51  1  0.5064  0.9347  0.2277  1\n  F  F52  1  0.0469  0.8006  0.2339  1\n  F  F53  1  0.4531  0.1994  0.7339  1\n  F  F54  1  0.9531  0.3006  0.2661  1\n  F  F55  1  0.2339  0.0469  0.8006  1\n  F  F56  1  0.5469  0.6994  0.7661  1\n  F  F57  1  0.7339  0.4531  0.1994  1\n  F  F58  1  0.2661  0.9531  0.3006  1\n  F  F59  1  0.7661  0.5469  0.6994  1\n  F  F60  1  0.8006  0.2339  0.0469  1\n  F  F61  1  0.3006  0.2661  0.9531  1\n  F  F62  1  0.6994  0.7661  0.5469  1\n  F  F63  1  0.1994  0.7339  0.4531  1\n  F  F64  1  0.1703  0.2524  0.3963  1\n  F  F65  1  0.3297  0.7476  0.8963  1\n  F  F66  1  0.8297  0.7524  0.1037  1\n  F  F67  1  0.3963  0.1703  0.2524  1\n  F  F68  1  0.6703  0.2476  0.6037  1\n  F  F69  1  0.8963  0.3297  0.7476  1\n  F  F70  1  0.1037  0.8297  0.7524  1\n  F  F71  1  0.6037  0.6703  0.2476  1\n  F  F72  1  0.2524  0.3963  0.1703  1\n  F  F73  1  0.7524  0.1037  0.8297  1\n  F  F74  1  0.2476  0.6037  0.6703  1\n  F  F75  1  0.7476  0.8963  0.3297  1\n",
    "output": "data_image0\n_chemical_formula_structural       Be12Co8N6FNF33NF14\n_chemical_formula_sum              \"Be12 Co8 N8 F48\"\n_cell_length_a       9.9154\n_cell_length_b       9.9154\n_cell_length_c       9.9154\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Be  Be1       1.0000  0.0201  0.2103  0.3755  1.0000\n  Be  Be2       1.0000  0.4799  0.7897  0.8755  1.0000\n  Be  Be3       1.0000  0.9799  0.7103  0.1245  1.0000\n  Be  Be4       1.0000  0.3755  0.0201  0.2103  1.0000\n  Be  Be5       1.0000  0.5201  0.2897  0.6245  1.0000\n  Be  Be6       1.0000  0.8755  0.4799  0.7897  1.0000\n  Be  Be7       1.0000  0.1245  0.9799  0.7103  1.0000\n  Be  Be8       1.0000  0.6245  0.5201  0.2897  1.0000\n  Be  Be9       1.0000  0.2103  0.3755  0.0201  1.0000\n  Be  Be10      1.0000  0.7103  0.1245  0.9799  1.0000\n  Be  Be11      1.0000  0.2897  0.6245  0.5201  1.0000\n  Be  Be12      1.0000  0.7897  0.8755  0.4799  1.0000\n  Co  Co1       1.0000  0.3372  0.3372  0.3372  1.0000\n  Co  Co2       1.0000  0.1628  0.6628  0.8372  1.0000\n  Co  Co3       1.0000  0.6628  0.8372  0.1628  1.0000\n  Co  Co4       1.0000  0.8372  0.1628  0.6628  1.0000\n  Co  Co5       1.0000  0.6066  0.6066  0.6066  1.0000\n  Co  Co6       1.0000  0.8934  0.3934  0.1066  1.0000\n  Co  Co7       1.0000  0.3934  0.1066  0.8934  1.0000\n  Co  Co8       1.0000  0.1066  0.8934  0.3934  1.0000\n  N   N1        1.0000  0.0439  0.0439  0.0439  1.0000\n  N   N2        1.0000  0.4561  0.9561  0.5439  1.0000\n  N   N3        1.0000  0.9561  0.5439  0.4561  1.0000\n  N   N4        1.0000  0.5439  0.4561  0.9561  1.0000\n  N   N5        1.0000  0.8177  0.8177  0.8177  1.0000\n  N   N6        1.0000  0.6823  0.1823  0.3177  1.0000\n  F   F1        1.0000  0.1823  0.3177  0.6823  1.0000\n  N   N7        1.0000  0.3177  0.6823  0.1823  1.0000\n  F   F2        1.0000  0.0157  0.0573  0.3342  1.0000\n  F   F3        1.0000  0.4843  0.9427  0.8342  1.0000\n  F   F4        1.0000  0.9843  0.5573  0.1658  1.0000\n  F   F5        1.0000  0.3342  0.0157  0.0573  1.0000\n  F   F6        1.0000  0.5157  0.4427  0.6658  1.0000\n  F   F7        1.0000  0.8342  0.4843  0.9427  1.0000\n  F   F8        1.0000  0.1658  0.9843  0.5573  1.0000\n  F   F9        1.0000  0.6658  0.5157  0.4427  1.0000\n  F   F10       1.0000  0.0573  0.3342  0.0157  1.0000\n  F   F11       1.0000  0.5573  0.1658  0.9843  1.0000\n  F   F12       1.0000  0.4427  0.6658  0.5157  1.0000\n  F   F13       1.0000  0.9427  0.8342  0.4843  1.0000\n  F   F14       1.0000  0.2723  0.4936  0.4347  1.0000\n  F   F15       1.0000  0.2277  0.5064  0.9347  1.0000\n  F   F16       1.0000  0.7277  0.9936  0.0653  1.0000\n  F   F17       1.0000  0.4347  0.2723  0.4936  1.0000\n  F   F18       1.0000  0.7723  0.0064  0.5653  1.0000\n  F   F19       1.0000  0.9347  0.2277  0.5064  1.0000\n  F   F20       1.0000  0.0653  0.7277  0.9936  1.0000\n  F   F21       1.0000  0.5653  0.7723  0.0064  1.0000\n  F   F22       1.0000  0.4936  0.4347  0.2723  1.0000\n  F   F23       1.0000  0.9936  0.0653  0.7277  1.0000\n  F   F24       1.0000  0.0064  0.5653  0.7723  1.0000\n  F   F25       1.0000  0.5064  0.9347  0.2277  1.0000\n  F   F26       1.0000  0.0469  0.8006  0.2339  1.0000\n  F   F27       1.0000  0.4531  0.1994  0.7339  1.0000\n  F   F28       1.0000  0.9531  0.3006  0.2661  1.0000\n  F   F29       1.0000  0.2339  0.0469  0.8006  1.0000\n  F   F30       1.0000  0.5469  0.6994  0.7661  1.0000\n  F   F31       1.0000  0.7339  0.4531  0.1994  1.0000\n  F   F32       1.0000  0.2661  0.9531  0.3006  1.0000\n  F   F33       1.0000  0.7661  0.5469  0.6994  1.0000\n  F   F34       1.0000  0.8006  0.2339  0.0469  1.0000\n  N   N8        1.0000  0.3006  0.2661  0.9531  1.0000\n  F   F35       1.0000  0.6994  0.7661  0.5469  1.0000\n  F   F36       1.0000  0.1994  0.7339  0.4531  1.0000\n  F   F37       1.0000  0.1703  0.2524  0.3963  1.0000\n  F   F38       1.0000  0.3297  0.7476  0.8963  1.0000\n  F   F39       1.0000  0.8297  0.7524  0.1037  1.0000\n  F   F40       1.0000  0.3963  0.1703  0.2524  1.0000\n  F   F41       1.0000  0.6703  0.2476  0.6037  1.0000\n  F   F42       1.0000  0.8963  0.3297  0.7476  1.0000\n  F   F43       1.0000  0.1037  0.8297  0.7524  1.0000\n  F   F44       1.0000  0.6037  0.6703  0.2476  1.0000\n  F   F45       1.0000  0.2524  0.3963  0.1703  1.0000\n  F   F46       1.0000  0.7524  0.1037  0.8297  1.0000\n  F   F47       1.0000  0.2476  0.6037  0.6703  1.0000\n  F   F48       1.0000  0.7476  0.8963  0.3297  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0ae5a089-e80e-42ab-bc97-6fcb4015ad57",
    "mp_id": "mp-1215141",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Be2Ni(NF7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5416\n_cell_length_b   8.6176\n_cell_length_c   11.2639\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   103.5951\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Be2Ni(NF7)2\n_chemical_formula_sum   'Be4 Ni2 N4 F28'\n_cell_volume   617.1822\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Be  Be0  1  0.8989  0.5623  0.8637  1\n  Be  Be1  1  0.1011  0.4377  0.1363  1\n  Be  Be2  1  0.1011  0.9377  0.3637  1\n  Be  Be3  1  0.8989  0.0623  0.6363  1\n  Ni  Ni4  1  0.5000  0.0000  0.0000  1\n  Ni  Ni5  1  0.5000  0.5000  0.5000  1\n  N  N6  1  0.7204  0.7322  0.1490  1\n  N  N7  1  0.2796  0.2678  0.8510  1\n  N  N8  1  0.2796  0.7678  0.6490  1\n  N  N9  1  0.7204  0.2322  0.3510  1\n  F  F10  1  0.3891  0.4264  0.8564  1\n  F  F11  1  0.6109  0.5736  0.1436  1\n  F  F12  1  0.6109  0.0736  0.3564  1\n  F  F13  1  0.3891  0.9264  0.6436  1\n  F  F14  1  0.8393  0.9216  0.5717  1\n  F  F15  1  0.1607  0.0784  0.4283  1\n  F  F16  1  0.1607  0.5784  0.0717  1\n  F  F17  1  0.8393  0.4216  0.9283  1\n  F  F18  1  0.3970  0.8449  0.8991  1\n  F  F19  1  0.6030  0.1551  0.1009  1\n  F  F20  1  0.6030  0.6551  0.3991  1\n  F  F21  1  0.3970  0.3449  0.6009  1\n  F  F22  1  0.8166  0.7550  0.0388  1\n  F  F23  1  0.1834  0.2450  0.9612  1\n  F  F24  1  0.1834  0.7450  0.5388  1\n  F  F25  1  0.8166  0.2550  0.4612  1\n  F  F26  1  0.4553  0.6853  0.6339  1\n  F  F27  1  0.5447  0.3147  0.3661  1\n  F  F28  1  0.5447  0.8147  0.1339  1\n  F  F29  1  0.4553  0.1853  0.8661  1\n  F  F30  1  0.7498  0.0213  0.9353  1\n  F  F31  1  0.2502  0.9787  0.0647  1\n  F  F32  1  0.2502  0.4787  0.4353  1\n  F  F33  1  0.7498  0.5213  0.5647  1\n  F  F34  1  0.9342  0.6987  0.7938  1\n  F  F35  1  0.0658  0.3013  0.2062  1\n  F  F36  1  0.0658  0.8013  0.2938  1\n  F  F37  1  0.9342  0.1987  0.7062  1\n",
    "output": "data_image0\n_chemical_formula_structural       Be4Ni2N3F22NF6\n_chemical_formula_sum              \"Be4 Ni2 N4 F28\"\n_cell_length_a       6.5416\n_cell_length_b       8.6176\n_cell_length_c       11.2639\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    103.5951\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Be  Be1       1.0000  0.8989  0.5623  0.8637  1.0000\n  Be  Be2       1.0000  0.1011  0.4377  0.1363  1.0000\n  Be  Be3       1.0000  0.1011  0.9377  0.3637  1.0000\n  Be  Be4       1.0000  0.8989  0.0623  0.6363  1.0000\n  Ni  Ni1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.5000  0.5000  0.5000  1.0000\n  N   N1        1.0000  0.7204  0.7322  0.1490  1.0000\n  N   N2        1.0000  0.2796  0.2678  0.8510  1.0000\n  N   N3        1.0000  0.2796  0.7678  0.6490  1.0000\n  F   F1        1.0000  0.7204  0.2322  0.3510  1.0000\n  F   F2        1.0000  0.3891  0.4264  0.8564  1.0000\n  F   F3        1.0000  0.6109  0.5736  0.1436  1.0000\n  F   F4        1.0000  0.6109  0.0736  0.3564  1.0000\n  F   F5        1.0000  0.3891  0.9264  0.6436  1.0000\n  F   F6        1.0000  0.8393  0.9216  0.5717  1.0000\n  F   F7        1.0000  0.1607  0.0784  0.4283  1.0000\n  F   F8        1.0000  0.1607  0.5784  0.0717  1.0000\n  F   F9        1.0000  0.8393  0.4216  0.9283  1.0000\n  F   F10       1.0000  0.3970  0.8449  0.8991  1.0000\n  F   F11       1.0000  0.6030  0.1551  0.1009  1.0000\n  F   F12       1.0000  0.6030  0.6551  0.3991  1.0000\n  F   F13       1.0000  0.3970  0.3449  0.6009  1.0000\n  F   F14       1.0000  0.8166  0.7550  0.0388  1.0000\n  F   F15       1.0000  0.1834  0.2450  0.9612  1.0000\n  F   F16       1.0000  0.1834  0.7450  0.5388  1.0000\n  F   F17       1.0000  0.8166  0.2550  0.4612  1.0000\n  F   F18       1.0000  0.4553  0.6853  0.6339  1.0000\n  F   F19       1.0000  0.5447  0.3147  0.3661  1.0000\n  F   F20       1.0000  0.5447  0.8147  0.1339  1.0000\n  F   F21       1.0000  0.4553  0.1853  0.8661  1.0000\n  F   F22       1.0000  0.7498  0.0213  0.9353  1.0000\n  N   N4        1.0000  0.2502  0.9787  0.0647  1.0000\n  F   F23       1.0000  0.2502  0.4787  0.4353  1.0000\n  F   F24       1.0000  0.7498  0.5213  0.5647  1.0000\n  F   F25       1.0000  0.9342  0.6987  0.7938  1.0000\n  F   F26       1.0000  0.0658  0.3013  0.2062  1.0000\n  F   F27       1.0000  0.0658  0.8013  0.2938  1.0000\n  F   F28       1.0000  0.9342  0.1987  0.7062  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ae66a260-cb2d-4023-8cee-ca53d513f339",
    "mp_id": "mp-1215289",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZrTa(SiRu)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7711\n_cell_length_b   6.5647\n_cell_length_c   11.2693\n_cell_angle_alpha   89.7138\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZrTa(SiRu)2\n_chemical_formula_sum   'Zr3 Ta3 Si6 Ru6'\n_cell_volume   278.9823\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.5000  0.2881  0.2900  1\n  Zr  Zr1  1  0.5000  0.2888  0.7103  1\n  Zr  Zr2  1  0.5000  0.7891  0.2091  1\n  Ta  Ta3  1  0.5000  0.4231  0.9989  1\n  Ta  Ta4  1  0.5000  0.9206  0.5023  1\n  Ta  Ta5  1  0.5000  0.7889  0.7912  1\n  Si  Si6  1  0.5000  0.0056  0.9959  1\n  Si  Si7  1  0.5000  0.5073  0.5001  1\n  Si  Si8  1  0.0000  0.9927  0.6674  1\n  Si  Si9  1  0.0000  0.4982  0.1622  1\n  Si  Si10  1  0.0000  0.5028  0.8351  1\n  Si  Si11  1  0.0000  0.9968  0.3377  1\n  Ru  Ru12  1  0.0000  0.2515  0.5024  1\n  Ru  Ru13  1  0.0000  0.7536  0.9968  1\n  Ru  Ru14  1  0.0000  0.6249  0.6243  1\n  Ru  Ru15  1  0.0000  0.1230  0.1210  1\n  Ru  Ru16  1  0.0000  0.1224  0.8764  1\n  Ru  Ru17  1  0.0000  0.6227  0.3789  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zr3Ta3Si3RuSi2Ru5Si\n_chemical_formula_sum              \"Zr3 Ta3 Si6 Ru6\"\n_cell_length_a       3.7711\n_cell_length_b       6.5647\n_cell_length_c       11.2693\n_cell_angle_alpha    89.7138\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.5000  0.2881  0.2900  1.0000\n  Zr  Zr2       1.0000  0.5000  0.2888  0.7103  1.0000\n  Zr  Zr3       1.0000  0.5000  0.7891  0.2091  1.0000\n  Ta  Ta1       1.0000  0.5000  0.4231  0.9989  1.0000\n  Ta  Ta2       1.0000  0.5000  0.9206  0.5023  1.0000\n  Ta  Ta3       1.0000  0.5000  0.7889  0.7912  1.0000\n  Si  Si1       1.0000  0.5000  0.0056  0.9959  1.0000\n  Si  Si2       1.0000  0.5000  0.5073  0.5001  1.0000\n  Si  Si3       1.0000  0.0000  0.9927  0.6674  1.0000\n  Ru  Ru1       1.0000  0.0000  0.4982  0.1622  1.0000\n  Si  Si4       1.0000  0.0000  0.5028  0.8351  1.0000\n  Si  Si5       1.0000  0.0000  0.9968  0.3377  1.0000\n  Ru  Ru2       1.0000  0.0000  0.2515  0.5024  1.0000\n  Ru  Ru3       1.0000  0.0000  0.7536  0.9968  1.0000\n  Ru  Ru4       1.0000  0.0000  0.6249  0.6243  1.0000\n  Ru  Ru5       1.0000  0.0000  0.1230  0.1210  1.0000\n  Ru  Ru6       1.0000  0.0000  0.1224  0.8764  1.0000\n  Si  Si6       1.0000  0.0000  0.6227  0.3789  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72bcd502-f5ab-4fbd-b09a-2b9162de680c",
    "mp_id": "mp-1215601",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr2Cr3Si\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9948\n_cell_length_b   4.9948\n_cell_length_c   8.4083\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr2Cr3Si\n_chemical_formula_sum   'Zr4 Cr6 Si2'\n_cell_volume   181.6633\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.3333  0.6667  0.4363  1\n  Zr  Zr1  1  0.6667  0.3333  0.5637  1\n  Zr  Zr2  1  0.6667  0.3333  0.9363  1\n  Zr  Zr3  1  0.3333  0.6667  0.0637  1\n  Cr  Cr4  1  0.8284  0.1716  0.2500  1\n  Cr  Cr5  1  0.8284  0.6569  0.2500  1\n  Cr  Cr6  1  0.3431  0.1716  0.2500  1\n  Cr  Cr7  1  0.1716  0.8284  0.7500  1\n  Cr  Cr8  1  0.1716  0.3431  0.7500  1\n  Cr  Cr9  1  0.6569  0.8284  0.7500  1\n  Si  Si10  1  0.0000  0.0000  0.5000  1\n  Si  Si11  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zr4Cr5SiCrSi\n_chemical_formula_sum              \"Zr4 Cr6 Si2\"\n_cell_length_a       4.9948\n_cell_length_b       4.9948\n_cell_length_c       8.4083\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.3333  0.6667  0.4363  1.0000\n  Zr  Zr2       1.0000  0.6667  0.3333  0.5637  1.0000\n  Zr  Zr3       1.0000  0.6667  0.3333  0.9363  1.0000\n  Zr  Zr4       1.0000  0.3333  0.6667  0.0637  1.0000\n  Cr  Cr1       1.0000  0.8284  0.1716  0.2500  1.0000\n  Cr  Cr2       1.0000  0.8284  0.6569  0.2500  1.0000\n  Cr  Cr3       1.0000  0.3431  0.1716  0.2500  1.0000\n  Cr  Cr4       1.0000  0.1716  0.8284  0.7500  1.0000\n  Cr  Cr5       1.0000  0.1716  0.3431  0.7500  1.0000\n  Si  Si1       1.0000  0.6569  0.8284  0.7500  1.0000\n  Cr  Cr6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Si  Si2       1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9386f732-2bed-4b7b-b693-4c7bcbcbc756",
    "mp_id": "mp-1215607",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr2TiSnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7608\n_cell_length_b   4.8952\n_cell_length_c   5.1966\n_cell_angle_alpha   89.1691\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr2TiSnO8\n_chemical_formula_sum   'Zr2 Ti1 Sn1 O8'\n_cell_volume   146.5333\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.1757  0.0000  0.0000  1\n  Zr  Zr1  1  0.3032  0.5000  0.5000  1\n  Ti  Ti2  1  0.8153  0.0000  0.5000  1\n  Sn  Sn3  1  0.6822  0.5000  0.0000  1\n  O  O4  1  0.4006  0.7164  0.1689  1\n  O  O5  1  0.0985  0.7807  0.6718  1\n  O  O6  1  0.0985  0.2193  0.3282  1\n  O  O7  1  0.4006  0.2836  0.8311  1\n  O  O8  1  0.6185  0.2533  0.3337  1\n  O  O9  1  0.8942  0.2297  0.8096  1\n  O  O10  1  0.8942  0.7703  0.1904  1\n  O  O11  1  0.6185  0.7467  0.6663  1\n",
    "output": "data_image0\n_chemical_formula_structural       ZrOTiSnO7Zr\n_chemical_formula_sum              \"Zr2 O8 Ti1 Sn1\"\n_cell_length_a       5.7608\n_cell_length_b       4.8952\n_cell_length_c       5.1966\n_cell_angle_alpha    89.1691\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.1757  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.3032  0.5000  0.5000  1.0000\n  Ti  Ti1       1.0000  0.8153  0.0000  0.5000  1.0000\n  Sn  Sn1       1.0000  0.6822  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.4006  0.7164  0.1689  1.0000\n  O   O3        1.0000  0.0985  0.7807  0.6718  1.0000\n  O   O4        1.0000  0.0985  0.2193  0.3282  1.0000\n  O   O5        1.0000  0.4006  0.2836  0.8311  1.0000\n  O   O6        1.0000  0.6185  0.2533  0.3337  1.0000\n  O   O7        1.0000  0.8942  0.2297  0.8096  1.0000\n  O   O8        1.0000  0.8942  0.7703  0.1904  1.0000\n  Zr  Zr2       1.0000  0.6185  0.7467  0.6663  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "14ec6df6-900d-481f-8c39-6051f87cc9cf",
    "mp_id": "mp-1215624",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zn4CdSe5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1179\n_cell_length_b   14.9445\n_cell_length_c   4.1179\n_cell_angle_alpha   82.0810\n_cell_angle_beta   90.0000\n_cell_angle_gamma   82.0810\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zn4CdSe5\n_chemical_formula_sum   'Zn4 Cd1 Se5'\n_cell_volume   248.5627\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.9955  0.0091  0.9955  1\n  Zn  Zn1  1  0.3992  0.2016  0.3992  1\n  Zn  Zn2  1  0.8008  0.3984  0.8008  1\n  Zn  Zn3  1  0.2045  0.5909  0.2045  1\n  Cd  Cd4  1  0.6000  0.8000  0.6000  1\n  Se  Se5  1  0.3500  0.3000  0.8500  1\n  Se  Se6  1  0.7524  0.4952  0.2524  1\n  Se  Se7  1  0.1569  0.6861  0.6569  1\n  Se  Se8  1  0.5431  0.9139  0.0431  1\n  Se  Se9  1  0.9476  0.1048  0.4476  1\n",
    "output": "data_image0\n_chemical_formula_structural       ZnSeZn2CdZnSe4\n_chemical_formula_sum              \"Zn4 Se5 Cd1\"\n_cell_length_a       4.1179\n_cell_length_b       14.9445\n_cell_length_c       4.1179\n_cell_angle_alpha    82.0810\n_cell_angle_beta     90.0000\n_cell_angle_gamma    82.0810\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.9955  0.0091  0.9955  1.0000\n  Se  Se1       1.0000  0.3992  0.2016  0.3992  1.0000\n  Zn  Zn2       1.0000  0.8008  0.3984  0.8008  1.0000\n  Zn  Zn3       1.0000  0.2045  0.5909  0.2045  1.0000\n  Cd  Cd1       1.0000  0.6000  0.8000  0.6000  1.0000\n  Zn  Zn4       1.0000  0.3500  0.3000  0.8500  1.0000\n  Se  Se2       1.0000  0.7524  0.4952  0.2524  1.0000\n  Se  Se3       1.0000  0.1569  0.6861  0.6569  1.0000\n  Se  Se4       1.0000  0.5431  0.9139  0.0431  1.0000\n  Se  Se5       1.0000  0.9476  0.1048  0.4476  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "573e01e4-79a3-4fb5-b08e-72b1b2c76916",
    "mp_id": "mp-1215653",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr4Ti(PbO3)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2357\n_cell_length_b   4.2357\n_cell_length_c   20.7834\n_cell_angle_alpha   89.3541\n_cell_angle_beta   89.3541\n_cell_angle_gamma   88.9340\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr4Ti(PbO3)5\n_chemical_formula_sum   'Zr4 Ti1 Pb5 O15'\n_cell_volume   372.7705\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.4712  0.4712  0.8905  1\n  Zr  Zr1  1  0.4699  0.4699  0.4981  1\n  Zr  Zr2  1  0.4726  0.4726  0.2951  1\n  Zr  Zr3  1  0.4729  0.4729  0.0932  1\n  Ti  Ti4  1  0.4942  0.4942  0.6940  1\n  Pb  Pb5  1  0.0255  0.0255  0.0018  1\n  Pb  Pb6  1  0.0287  0.0287  0.7969  1\n  Pb  Pb7  1  0.0247  0.0247  0.6095  1\n  Pb  Pb8  1  0.0256  0.0256  0.4054  1\n  Pb  Pb9  1  0.0254  0.0254  0.2036  1\n  O  O10  1  0.9560  0.4203  0.8832  1\n  O  O11  1  0.9325  0.4257  0.6895  1\n  O  O12  1  0.9550  0.4201  0.4896  1\n  O  O13  1  0.9567  0.4200  0.2875  1\n  O  O14  1  0.9571  0.4202  0.0862  1\n  O  O15  1  0.4285  0.4285  0.9890  1\n  O  O16  1  0.4260  0.4260  0.7834  1\n  O  O17  1  0.4223  0.4223  0.5981  1\n  O  O18  1  0.4274  0.4274  0.3936  1\n  O  O19  1  0.4266  0.4266  0.1914  1\n  O  O20  1  0.4203  0.9560  0.8832  1\n  O  O21  1  0.4257  0.9325  0.6895  1\n  O  O22  1  0.4201  0.9550  0.4896  1\n  O  O23  1  0.4200  0.9567  0.2875  1\n  O  O24  1  0.4202  0.9571  0.0862  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zr2OZrTiPb5O12ZrO2\n_chemical_formula_sum              \"Zr4 O15 Ti1 Pb5\"\n_cell_length_a       4.2357\n_cell_length_b       4.2357\n_cell_length_c       20.7834\n_cell_angle_alpha    89.3541\n_cell_angle_beta     89.3541\n_cell_angle_gamma    88.9340\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.4712  0.4712  0.8905  1.0000\n  Zr  Zr2       1.0000  0.4699  0.4699  0.4981  1.0000\n  O   O1        1.0000  0.4726  0.4726  0.2951  1.0000\n  Zr  Zr3       1.0000  0.4729  0.4729  0.0932  1.0000\n  Ti  Ti1       1.0000  0.4942  0.4942  0.6940  1.0000\n  Pb  Pb1       1.0000  0.0255  0.0255  0.0018  1.0000\n  Pb  Pb2       1.0000  0.0287  0.0287  0.7969  1.0000\n  Pb  Pb3       1.0000  0.0247  0.0247  0.6095  1.0000\n  Pb  Pb4       1.0000  0.0256  0.0256  0.4054  1.0000\n  Pb  Pb5       1.0000  0.0254  0.0254  0.2036  1.0000\n  O   O2        1.0000  0.9560  0.4203  0.8832  1.0000\n  O   O3        1.0000  0.9325  0.4257  0.6895  1.0000\n  O   O4        1.0000  0.9550  0.4201  0.4896  1.0000\n  O   O5        1.0000  0.9567  0.4200  0.2875  1.0000\n  O   O6        1.0000  0.9571  0.4202  0.0862  1.0000\n  O   O7        1.0000  0.4285  0.4285  0.9890  1.0000\n  O   O8        1.0000  0.4260  0.4260  0.7834  1.0000\n  O   O9        1.0000  0.4223  0.4223  0.5981  1.0000\n  O   O10       1.0000  0.4274  0.4274  0.3936  1.0000\n  O   O11       1.0000  0.4266  0.4266  0.1914  1.0000\n  O   O12       1.0000  0.4203  0.9560  0.8832  1.0000\n  O   O13       1.0000  0.4257  0.9325  0.6895  1.0000\n  Zr  Zr4       1.0000  0.4201  0.9550  0.4896  1.0000\n  O   O14       1.0000  0.4200  0.9567  0.2875  1.0000\n  O   O15       1.0000  0.4202  0.9571  0.0862  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e16ae99-bf68-4599-9b60-678bb9571116",
    "mp_id": "mp-1215929",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YMgAl4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5207\n_cell_length_b   5.5207\n_cell_length_c   8.9130\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YMgAl4\n_chemical_formula_sum   'Y2 Mg2 Al8'\n_cell_volume   235.2619\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.6667  0.3333  0.9301  1\n  Y  Y1  1  0.3333  0.6667  0.0699  1\n  Mg  Mg2  1  0.3333  0.6667  0.4410  1\n  Mg  Mg3  1  0.6667  0.3333  0.5590  1\n  Al  Al4  1  0.0000  0.0000  0.5000  1\n  Al  Al5  1  0.0000  0.0000  0.0000  1\n  Al  Al6  1  0.8298  0.1702  0.2520  1\n  Al  Al7  1  0.8298  0.6597  0.2520  1\n  Al  Al8  1  0.3403  0.1702  0.2520  1\n  Al  Al9  1  0.1702  0.8298  0.7480  1\n  Al  Al10  1  0.1702  0.3403  0.7480  1\n  Al  Al11  1  0.6597  0.8298  0.7480  1\n",
    "output": "data_image0\n_chemical_formula_structural       YMg2YAl8\n_chemical_formula_sum              \"Y2 Mg2 Al8\"\n_cell_length_a       5.5207\n_cell_length_b       5.5207\n_cell_length_c       8.9130\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.6667  0.3333  0.9301  1.0000\n  Mg  Mg1       1.0000  0.3333  0.6667  0.0699  1.0000\n  Mg  Mg2       1.0000  0.3333  0.6667  0.4410  1.0000\n  Y   Y2        1.0000  0.6667  0.3333  0.5590  1.0000\n  Al  Al1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Al  Al2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al3       1.0000  0.8298  0.1702  0.2520  1.0000\n  Al  Al4       1.0000  0.8298  0.6597  0.2520  1.0000\n  Al  Al5       1.0000  0.3403  0.1702  0.2520  1.0000\n  Al  Al6       1.0000  0.1702  0.8298  0.7480  1.0000\n  Al  Al7       1.0000  0.1702  0.3403  0.7480  1.0000\n  Al  Al8       1.0000  0.6597  0.8298  0.7480  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a9770128-f722-4c17-a265-90b55a5bb605",
    "mp_id": "mp-1216177",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y4UPd15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1097\n_cell_length_b   4.1097\n_cell_length_c   20.4768\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y4UPd15\n_chemical_formula_sum   'Y4 U1 Pd15'\n_cell_volume   345.8455\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0000  -0.0000  0.2024  1\n  Y  Y1  1  0.0000  -0.0000  0.4005  1\n  Y  Y2  1  -0.0000  0.0000  0.5995  1\n  Y  Y3  1  -0.0000  0.0000  0.7976  1\n  U  U4  1  0.0000  -0.0000  0.0000  1\n  Pd  Pd5  1  0.5000  0.5000  0.0000  1\n  Pd  Pd6  1  0.5000  0.5000  0.1999  1\n  Pd  Pd7  1  0.5000  0.5000  0.3998  1\n  Pd  Pd8  1  0.5000  0.5000  0.6002  1\n  Pd  Pd9  1  0.5000  0.5000  0.8001  1\n  Pd  Pd10  1  0.5000  -0.0000  0.0987  1\n  Pd  Pd11  1  0.5000  -0.0000  0.3001  1\n  Pd  Pd12  1  0.5000  -0.0000  0.5000  1\n  Pd  Pd13  1  0.5000  0.0000  0.6999  1\n  Pd  Pd14  1  0.5000  0.0000  0.9013  1\n  Pd  Pd15  1  0.0000  0.5000  0.0987  1\n  Pd  Pd16  1  0.0000  0.5000  0.3001  1\n  Pd  Pd17  1  -0.0000  0.5000  0.5000  1\n  Pd  Pd18  1  -0.0000  0.5000  0.6999  1\n  Pd  Pd19  1  -0.0000  0.5000  0.9013  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y4Pd6UPd9\n_chemical_formula_sum              \"Y4 Pd15 U1\"\n_cell_length_a       4.1097\n_cell_length_b       4.1097\n_cell_length_c       20.4768\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0000  0.0000  0.2024  1.0000\n  Y   Y2        1.0000  0.0000  0.0000  0.4005  1.0000\n  Y   Y3        1.0000  0.0000  0.0000  0.5995  1.0000\n  Y   Y4        1.0000  0.0000  0.0000  0.7976  1.0000\n  Pd  Pd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pd  Pd2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Pd  Pd3       1.0000  0.5000  0.5000  0.1999  1.0000\n  Pd  Pd4       1.0000  0.5000  0.5000  0.3998  1.0000\n  Pd  Pd5       1.0000  0.5000  0.5000  0.6002  1.0000\n  Pd  Pd6       1.0000  0.5000  0.5000  0.8001  1.0000\n  U   U1        1.0000  0.5000  0.0000  0.0987  1.0000\n  Pd  Pd7       1.0000  0.5000  0.0000  0.3001  1.0000\n  Pd  Pd8       1.0000  0.5000  0.0000  0.5000  1.0000\n  Pd  Pd9       1.0000  0.5000  0.0000  0.6999  1.0000\n  Pd  Pd10      1.0000  0.5000  0.0000  0.9013  1.0000\n  Pd  Pd11      1.0000  0.0000  0.5000  0.0987  1.0000\n  Pd  Pd12      1.0000  0.0000  0.5000  0.3001  1.0000\n  Pd  Pd13      1.0000  0.0000  0.5000  0.5000  1.0000\n  Pd  Pd14      1.0000  0.0000  0.5000  0.6999  1.0000\n  Pd  Pd15      1.0000  0.0000  0.5000  0.9013  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2222d318-4902-49bd-8fc5-18eccbf3499e",
    "mp_id": "mp-1216179",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y(Fe5Si)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7516\n_cell_length_b   6.3519\n_cell_length_c   6.3519\n_cell_angle_alpha   98.3840\n_cell_angle_beta   111.9643\n_cell_angle_gamma   68.0357\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y(Fe5Si)2\n_chemical_formula_sum   'Y1 Fe10 Si2'\n_cell_volume   164.8870\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0000  0.0000  0.0000  1\n  Fe  Fe1  1  0.6384  0.3616  0.6384  1\n  Fe  Fe2  1  0.3616  0.6384  0.3616  1\n  Fe  Fe3  1  0.0000  0.3549  0.3549  1\n  Fe  Fe4  1  0.0000  0.6451  0.6451  1\n  Fe  Fe5  1  0.5000  0.7897  0.7897  1\n  Fe  Fe6  1  0.5000  0.2103  0.2103  1\n  Fe  Fe7  1  0.5000  0.0000  0.5000  1\n  Fe  Fe8  1  0.0000  0.0000  0.5000  1\n  Fe  Fe9  1  0.5000  0.5000  0.0000  1\n  Fe  Fe10  1  0.0000  0.5000  0.0000  1\n  Si  Si11  1  0.7356  0.7644  0.2356  1\n  Si  Si12  1  0.2644  0.2356  0.7644  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe6YFe4Si2\n_chemical_formula_sum              \"Fe10 Y1 Si2\"\n_cell_length_a       4.7516\n_cell_length_b       6.3519\n_cell_length_c       6.3519\n_cell_angle_alpha    98.3840\n_cell_angle_beta     111.9643\n_cell_angle_gamma    68.0357\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.6384  0.3616  0.6384  1.0000\n  Fe  Fe3       1.0000  0.3616  0.6384  0.3616  1.0000\n  Fe  Fe4       1.0000  0.0000  0.3549  0.3549  1.0000\n  Fe  Fe5       1.0000  0.0000  0.6451  0.6451  1.0000\n  Fe  Fe6       1.0000  0.5000  0.7897  0.7897  1.0000\n  Y   Y1        1.0000  0.5000  0.2103  0.2103  1.0000\n  Fe  Fe7       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe8       1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe9       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe10      1.0000  0.0000  0.5000  0.0000  1.0000\n  Si  Si1       1.0000  0.7356  0.7644  0.2356  1.0000\n  Si  Si2       1.0000  0.2644  0.2356  0.7644  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5282a7cf-4fa3-4c4c-b09b-db8bcecb81ee",
    "mp_id": "mp-1216787",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiNb2ZnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8021\n_cell_length_b   4.7414\n_cell_length_c   5.0327\n_cell_angle_alpha   88.5175\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiNb2ZnO8\n_chemical_formula_sum   'Ti1 Nb2 Zn1 O8'\n_cell_volume   138.4043\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.1680  0.5000  0.5000  1\n  Nb  Nb1  1  0.8118  0.5000  0.0000  1\n  Nb  Nb2  1  0.3165  0.0000  0.0000  1\n  Zn  Zn3  1  0.6910  0.0000  0.5000  1\n  O  O4  1  0.9000  0.2910  0.6833  1\n  O  O5  1  0.6121  0.2256  0.1574  1\n  O  O6  1  0.6121  0.7744  0.8426  1\n  O  O7  1  0.9000  0.7090  0.3167  1\n  O  O8  1  0.1222  0.7353  0.8207  1\n  O  O9  1  0.3720  0.7587  0.3231  1\n  O  O10  1  0.3720  0.2413  0.6769  1\n  O  O11  1  0.1222  0.2647  0.1793  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONb2ZnO7Ti\n_chemical_formula_sum              \"O8 Nb2 Zn1 Ti1\"\n_cell_length_a       5.8021\n_cell_length_b       4.7414\n_cell_length_c       5.0327\n_cell_angle_alpha    88.5175\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1680  0.5000  0.5000  1.0000\n  Nb  Nb1       1.0000  0.8118  0.5000  0.0000  1.0000\n  Nb  Nb2       1.0000  0.3165  0.0000  0.0000  1.0000\n  Zn  Zn1       1.0000  0.6910  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.9000  0.2910  0.6833  1.0000\n  O   O3        1.0000  0.6121  0.2256  0.1574  1.0000\n  O   O4        1.0000  0.6121  0.7744  0.8426  1.0000\n  O   O5        1.0000  0.9000  0.7090  0.3167  1.0000\n  O   O6        1.0000  0.1222  0.7353  0.8207  1.0000\n  O   O7        1.0000  0.3720  0.7587  0.3231  1.0000\n  O   O8        1.0000  0.3720  0.2413  0.6769  1.0000\n  Ti  Ti1       1.0000  0.1222  0.2647  0.1793  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aac5bfba-0089-40b7-8d4c-5a3585c8ea0b",
    "mp_id": "mp-1216925",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TmTiFe11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6745\n_cell_length_b   6.4184\n_cell_length_c   6.4184\n_cell_angle_alpha   98.1453\n_cell_angle_beta   111.3550\n_cell_angle_gamma   68.6450\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TmTiFe11\n_chemical_formula_sum   'Tm1 Ti1 Fe11'\n_cell_volume   167.0232\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tm  Tm0  1  0.0063  0.9937  0.0063  1\n  Ti  Ti1  1  0.6316  0.3684  0.6316  1\n  Fe  Fe2  1  0.7287  0.7713  0.2287  1\n  Fe  Fe3  1  0.2762  0.2238  0.7762  1\n  Fe  Fe4  1  0.4995  0.7836  0.7827  1\n  Fe  Fe5  1  0.4995  0.2173  0.2164  1\n  Fe  Fe6  1  0.5009  0.9976  0.5003  1\n  Fe  Fe7  1  0.0018  0.9976  0.5003  1\n  Fe  Fe8  1  0.5009  0.4997  0.0024  1\n  Fe  Fe9  1  0.0018  0.4997  0.0024  1\n  Fe  Fe10  1  0.3527  0.6473  0.3527  1\n  Fe  Fe11  1  1.0000  0.3557  0.3556  1\n  Fe  Fe12  1  1.0000  0.6444  0.6443  1\n",
    "output": "data_image0\n_chemical_formula_structural       TmFe5TiFe6\n_chemical_formula_sum              \"Tm1 Fe11 Ti1\"\n_cell_length_a       4.6745\n_cell_length_b       6.4184\n_cell_length_c       6.4184\n_cell_angle_alpha    98.1453\n_cell_angle_beta     111.3550\n_cell_angle_gamma    68.6450\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tm  Tm1       1.0000  0.0063  0.9937  0.0063  1.0000\n  Fe  Fe1       1.0000  0.6316  0.3684  0.6316  1.0000\n  Fe  Fe2       1.0000  0.7287  0.7713  0.2287  1.0000\n  Fe  Fe3       1.0000  0.2762  0.2238  0.7762  1.0000\n  Fe  Fe4       1.0000  0.4995  0.7836  0.7827  1.0000\n  Fe  Fe5       1.0000  0.4995  0.2173  0.2164  1.0000\n  Ti  Ti1       1.0000  0.5009  0.9976  0.5003  1.0000\n  Fe  Fe6       1.0000  0.0018  0.9976  0.5003  1.0000\n  Fe  Fe7       1.0000  0.5009  0.4997  0.0024  1.0000\n  Fe  Fe8       1.0000  0.0018  0.4997  0.0024  1.0000\n  Fe  Fe9       1.0000  0.3527  0.6473  0.3527  1.0000\n  Fe  Fe10      1.0000  1.0000  0.3557  0.3556  1.0000\n  Fe  Fe11      1.0000  1.0000  0.6444  0.6443  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "03e1b57e-233e-4dca-8dd5-495024cf0e82",
    "mp_id": "mp-1217133",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti5CN4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.4111\n_cell_length_b   12.4111\n_cell_length_c   12.4111\n_cell_angle_alpha   13.9398\n_cell_angle_beta   13.9398\n_cell_angle_gamma   13.9398\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti5CN4\n_chemical_formula_sum   'Ti5 C1 N4'\n_cell_volume   96.5571\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.6005  0.6005  0.6005  1\n  Ti  Ti1  1  0.0000  0.0000  -0.0000  1\n  Ti  Ti2  1  0.3995  0.3995  0.3995  1\n  Ti  Ti3  1  0.1998  0.1998  0.1998  1\n  Ti  Ti4  1  0.8002  0.8002  0.8002  1\n  C  C5  1  0.5000  0.5000  0.5000  1\n  N  N6  1  0.0989  0.0989  0.0989  1\n  N  N7  1  0.6999  0.6999  0.6999  1\n  N  N8  1  0.3001  0.3001  0.3001  1\n  N  N9  1  0.9011  0.9011  0.9011  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti2CTi3N4\n_chemical_formula_sum              \"Ti5 C1 N4\"\n_cell_length_a       12.4111\n_cell_length_b       12.4111\n_cell_length_c       12.4111\n_cell_angle_alpha    13.9398\n_cell_angle_beta     13.9398\n_cell_angle_gamma    13.9398\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.6005  0.6005  0.6005  1.0000\n  Ti  Ti2       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.3995  0.3995  0.3995  1.0000\n  Ti  Ti3       1.0000  0.1998  0.1998  0.1998  1.0000\n  Ti  Ti4       1.0000  0.8002  0.8002  0.8002  1.0000\n  Ti  Ti5       1.0000  0.5000  0.5000  0.5000  1.0000\n  N   N1        1.0000  0.0989  0.0989  0.0989  1.0000\n  N   N2        1.0000  0.6999  0.6999  0.6999  1.0000\n  N   N3        1.0000  0.3001  0.3001  0.3001  1.0000\n  N   N4        1.0000  0.9011  0.9011  0.9011  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "427f40c1-879b-4362-ae67-9be30e820b2a",
    "mp_id": "mp-1217420",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Th3(OsRu2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3525\n_cell_length_b   5.4345\n_cell_length_c   13.3429\n_cell_angle_alpha   89.1050\n_cell_angle_beta   89.2532\n_cell_angle_gamma   61.9785\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Th3(OsRu2)2\n_chemical_formula_sum   'Th6 Os4 Ru8'\n_cell_volume   342.5711\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Th  Th0  1  0.3343  0.3344  0.7909  1\n  Th  Th1  1  0.9995  0.0014  0.1257  1\n  Th  Th2  1  0.6671  0.6681  0.4588  1\n  Th  Th3  1  0.3329  0.3319  0.5412  1\n  Th  Th4  1  0.0005  0.9986  0.8743  1\n  Th  Th5  1  0.6657  0.6656  0.2091  1\n  Os  Os6  1  0.5000  0.5000  0.0000  1\n  Os  Os7  1  0.1663  0.1667  0.3337  1\n  Os  Os8  1  0.8337  0.8333  0.6663  1\n  Os  Os9  1  0.0000  0.5000  0.0000  1\n  Ru  Ru10  1  0.6664  0.1670  0.3334  1\n  Ru  Ru11  1  0.3336  0.8330  0.6666  1\n  Ru  Ru12  1  0.3318  0.3339  0.1671  1\n  Ru  Ru13  1  0.0000  0.0000  0.5000  1\n  Ru  Ru14  1  0.6682  0.6661  0.8329  1\n  Ru  Ru15  1  0.5000  0.0000  0.0000  1\n  Ru  Ru16  1  0.1666  0.6667  0.3334  1\n  Ru  Ru17  1  0.8334  0.3333  0.6666  1\n",
    "output": "data_image0\n_chemical_formula_structural       ThRuTh4Os4Ru3ThRu4\n_chemical_formula_sum              \"Th6 Ru8 Os4\"\n_cell_length_a       5.3525\n_cell_length_b       5.4345\n_cell_length_c       13.3429\n_cell_angle_alpha    89.1050\n_cell_angle_beta     89.2532\n_cell_angle_gamma    61.9785\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Th  Th1       1.0000  0.3343  0.3344  0.7909  1.0000\n  Ru  Ru1       1.0000  0.9995  0.0014  0.1257  1.0000\n  Th  Th2       1.0000  0.6671  0.6681  0.4588  1.0000\n  Th  Th3       1.0000  0.3329  0.3319  0.5412  1.0000\n  Th  Th4       1.0000  0.0005  0.9986  0.8743  1.0000\n  Th  Th5       1.0000  0.6657  0.6656  0.2091  1.0000\n  Os  Os1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Os  Os2       1.0000  0.1663  0.1667  0.3337  1.0000\n  Os  Os3       1.0000  0.8337  0.8333  0.6663  1.0000\n  Os  Os4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Ru  Ru2       1.0000  0.6664  0.1670  0.3334  1.0000\n  Ru  Ru3       1.0000  0.3336  0.8330  0.6666  1.0000\n  Ru  Ru4       1.0000  0.3318  0.3339  0.1671  1.0000\n  Th  Th6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ru  Ru5       1.0000  0.6682  0.6661  0.8329  1.0000\n  Ru  Ru6       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ru  Ru7       1.0000  0.1666  0.6667  0.3334  1.0000\n  Ru  Ru8       1.0000  0.8334  0.3333  0.6666  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4c62cba3-ee17-4d39-8122-4508e6de0046",
    "mp_id": "mp-1217464",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TbTiFe11N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8204\n_cell_length_b   6.5341\n_cell_length_c   6.5341\n_cell_angle_alpha   97.3656\n_cell_angle_beta   111.6458\n_cell_angle_gamma   68.3542\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TbTiFe11N\n_chemical_formula_sum   'Tb1 Ti1 Fe11 N1'\n_cell_volume   177.7966\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.0064  0.9936  0.0064  1\n  Ti  Ti1  1  0.6349  0.3651  0.6349  1\n  Fe  Fe2  1  0.7259  0.7741  0.2259  1\n  Fe  Fe3  1  0.2773  0.2227  0.7773  1\n  Fe  Fe4  1  0.4971  0.7800  0.7742  1\n  Fe  Fe5  1  0.4971  0.2258  0.2200  1\n  Fe  Fe6  1  0.5001  0.9969  0.4986  1\n  Fe  Fe7  1  0.0016  0.9969  0.4986  1\n  Fe  Fe8  1  0.5001  0.5014  0.0031  1\n  Fe  Fe9  1  0.0016  0.5014  0.0031  1\n  Fe  Fe10  1  0.3576  0.6424  0.3576  1\n  Fe  Fe11  1  0.9996  0.3595  0.3588  1\n  Fe  Fe12  1  0.9996  0.6412  0.6405  1\n  N  N13  1  0.5012  0.9988  0.0012  1\n",
    "output": "data_image0\n_chemical_formula_structural       TbTiFe6NFe5\n_chemical_formula_sum              \"Tb1 Ti1 Fe11 N1\"\n_cell_length_a       4.8204\n_cell_length_b       6.5341\n_cell_length_c       6.5341\n_cell_angle_alpha    97.3656\n_cell_angle_beta     111.6458\n_cell_angle_gamma    68.3542\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.0064  0.9936  0.0064  1.0000\n  Ti  Ti1       1.0000  0.6349  0.3651  0.6349  1.0000\n  Fe  Fe1       1.0000  0.7259  0.7741  0.2259  1.0000\n  Fe  Fe2       1.0000  0.2773  0.2227  0.7773  1.0000\n  Fe  Fe3       1.0000  0.4971  0.7800  0.7742  1.0000\n  Fe  Fe4       1.0000  0.4971  0.2258  0.2200  1.0000\n  Fe  Fe5       1.0000  0.5001  0.9969  0.4986  1.0000\n  Fe  Fe6       1.0000  0.0016  0.9969  0.4986  1.0000\n  N   N1        1.0000  0.5001  0.5014  0.0031  1.0000\n  Fe  Fe7       1.0000  0.0016  0.5014  0.0031  1.0000\n  Fe  Fe8       1.0000  0.3576  0.6424  0.3576  1.0000\n  Fe  Fe9       1.0000  0.9996  0.3595  0.3588  1.0000\n  Fe  Fe10      1.0000  0.9996  0.6412  0.6405  1.0000\n  Fe  Fe11      1.0000  0.5012  0.9988  0.0012  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1e93ee2f-5e67-478f-8348-f3c1f1860085",
    "mp_id": "mp-1217479",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ThUH8(C2O5)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9782\n_cell_length_b   6.9782\n_cell_length_c   9.6120\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   103.0677\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ThUH8(C2O5)4\n_chemical_formula_sum   'Th1 U1 H8 C8 O20'\n_cell_volume   455.9387\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Th  Th0  1  0.0000  0.0000  0.0000  1\n  U  U1  1  0.5000  0.5000  0.5000  1\n  H  H2  1  0.8614  0.2900  0.4527  1\n  H  H3  1  0.1386  0.7100  0.4527  1\n  H  H4  1  0.2900  0.8614  0.5473  1\n  H  H5  1  0.7100  0.1386  0.5473  1\n  H  H6  1  0.6368  0.2111  0.0471  1\n  H  H7  1  0.3632  0.7889  0.0471  1\n  H  H8  1  0.2111  0.6368  0.9529  1\n  H  H9  1  0.7889  0.3632  0.9529  1\n  C  C10  1  0.6529  0.7646  0.2187  1\n  C  C11  1  0.3471  0.2354  0.2187  1\n  C  C12  1  0.7646  0.6529  0.7813  1\n  C  C13  1  0.2354  0.3471  0.7813  1\n  C  C14  1  0.8439  0.7329  0.2838  1\n  C  C15  1  0.1561  0.2671  0.2838  1\n  C  C16  1  0.7329  0.8439  0.7162  1\n  C  C17  1  0.2671  0.1561  0.7162  1\n  O  O18  1  0.8267  0.6382  0.3982  1\n  O  O19  1  0.1733  0.3618  0.3982  1\n  O  O20  1  0.6382  0.8267  0.6018  1\n  O  O21  1  0.3618  0.1733  0.6018  1\n  O  O22  1  0.6660  0.8571  0.1037  1\n  O  O23  1  0.3340  0.1429  0.1037  1\n  O  O24  1  0.8571  0.6660  0.8963  1\n  O  O25  1  0.1429  0.3340  0.8963  1\n  O  O26  1  0.7341  0.2659  0.5000  1\n  O  O27  1  0.2659  0.7341  0.5000  1\n  O  O28  1  0.7646  0.2354  0.0000  1\n  O  O29  1  0.2354  0.7646  0.0000  1\n  O  O30  1  0.4967  0.6949  0.2847  1\n  O  O31  1  0.5033  0.3051  0.2847  1\n  O  O32  1  0.6949  0.4967  0.7153  1\n  O  O33  1  0.3051  0.5033  0.7153  1\n  O  O34  1  0.0018  0.8022  0.2201  1\n  O  O35  1  0.9982  0.1978  0.2201  1\n  O  O36  1  0.8022  0.0018  0.7799  1\n  O  O37  1  0.1978  0.9982  0.7799  1\n",
    "output": "data_image0\n_chemical_formula_structural       ThUOH7C8O2HO17\n_chemical_formula_sum              \"Th1 U1 O20 H8 C8\"\n_cell_length_a       6.9782\n_cell_length_b       6.9782\n_cell_length_c       9.6120\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    103.0677\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Th  Th1       1.0000  0.0000  0.0000  0.0000  1.0000\n  U   U1        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.8614  0.2900  0.4527  1.0000\n  H   H1        1.0000  0.1386  0.7100  0.4527  1.0000\n  H   H2        1.0000  0.2900  0.8614  0.5473  1.0000\n  H   H3        1.0000  0.7100  0.1386  0.5473  1.0000\n  H   H4        1.0000  0.6368  0.2111  0.0471  1.0000\n  H   H5        1.0000  0.3632  0.7889  0.0471  1.0000\n  H   H6        1.0000  0.2111  0.6368  0.9529  1.0000\n  H   H7        1.0000  0.7889  0.3632  0.9529  1.0000\n  C   C1        1.0000  0.6529  0.7646  0.2187  1.0000\n  C   C2        1.0000  0.3471  0.2354  0.2187  1.0000\n  C   C3        1.0000  0.7646  0.6529  0.7813  1.0000\n  C   C4        1.0000  0.2354  0.3471  0.7813  1.0000\n  C   C5        1.0000  0.8439  0.7329  0.2838  1.0000\n  C   C6        1.0000  0.1561  0.2671  0.2838  1.0000\n  C   C7        1.0000  0.7329  0.8439  0.7162  1.0000\n  C   C8        1.0000  0.2671  0.1561  0.7162  1.0000\n  O   O2        1.0000  0.8267  0.6382  0.3982  1.0000\n  O   O3        1.0000  0.1733  0.3618  0.3982  1.0000\n  H   H8        1.0000  0.6382  0.8267  0.6018  1.0000\n  O   O4        1.0000  0.3618  0.1733  0.6018  1.0000\n  O   O5        1.0000  0.6660  0.8571  0.1037  1.0000\n  O   O6        1.0000  0.3340  0.1429  0.1037  1.0000\n  O   O7        1.0000  0.8571  0.6660  0.8963  1.0000\n  O   O8        1.0000  0.1429  0.3340  0.8963  1.0000\n  O   O9        1.0000  0.7341  0.2659  0.5000  1.0000\n  O   O10       1.0000  0.2659  0.7341  0.5000  1.0000\n  O   O11       1.0000  0.7646  0.2354  0.0000  1.0000\n  O   O12       1.0000  0.2354  0.7646  0.0000  1.0000\n  O   O13       1.0000  0.4967  0.6949  0.2847  1.0000\n  O   O14       1.0000  0.5033  0.3051  0.2847  1.0000\n  O   O15       1.0000  0.6949  0.4967  0.7153  1.0000\n  O   O16       1.0000  0.3051  0.5033  0.7153  1.0000\n  O   O17       1.0000  0.0018  0.8022  0.2201  1.0000\n  O   O18       1.0000  0.9982  0.1978  0.2201  1.0000\n  O   O19       1.0000  0.8022  0.0018  0.7799  1.0000\n  O   O20       1.0000  0.1978  0.9982  0.7799  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cd450ecf-80e1-4ef2-a06a-1799319166e3",
    "mp_id": "mp-1217682",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tb2HfAl9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2176\n_cell_length_b   4.2176\n_cell_length_c   12.6105\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tb2HfAl9\n_chemical_formula_sum   'Tb2 Hf1 Al9'\n_cell_volume   224.3191\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.0000  0.0000  0.3286  1\n  Tb  Tb1  1  0.0000  0.0000  0.6714  1\n  Hf  Hf2  1  0.0000  0.0000  0.0000  1\n  Al  Al3  1  0.5000  0.5000  0.0000  1\n  Al  Al4  1  0.5000  0.5000  0.3322  1\n  Al  Al5  1  0.5000  0.5000  0.6678  1\n  Al  Al6  1  0.5000  0.0000  0.1579  1\n  Al  Al7  1  0.5000  0.0000  0.5000  1\n  Al  Al8  1  0.5000  0.0000  0.8421  1\n  Al  Al9  1  0.0000  0.5000  0.1579  1\n  Al  Al10  1  0.0000  0.5000  0.5000  1\n  Al  Al11  1  0.0000  0.5000  0.8421  1\n",
    "output": "data_image0\n_chemical_formula_structural       TbHfTbAl9\n_chemical_formula_sum              \"Tb2 Hf1 Al9\"\n_cell_length_a       4.2176\n_cell_length_b       4.2176\n_cell_length_c       12.6105\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.0000  0.0000  0.3286  1.0000\n  Hf  Hf1       1.0000  0.0000  0.0000  0.6714  1.0000\n  Tb  Tb2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Al  Al2       1.0000  0.5000  0.5000  0.3322  1.0000\n  Al  Al3       1.0000  0.5000  0.5000  0.6678  1.0000\n  Al  Al4       1.0000  0.5000  0.0000  0.1579  1.0000\n  Al  Al5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Al  Al6       1.0000  0.5000  0.0000  0.8421  1.0000\n  Al  Al7       1.0000  0.0000  0.5000  0.1579  1.0000\n  Al  Al8       1.0000  0.0000  0.5000  0.5000  1.0000\n  Al  Al9       1.0000  0.0000  0.5000  0.8421  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fa59ed78-6969-4604-853e-6e36fcd148a7",
    "mp_id": "mp-1217834",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tb(MnAl)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6308\n_cell_length_b   6.6308\n_cell_length_c   6.6308\n_cell_angle_alpha   136.4269\n_cell_angle_beta   99.1136\n_cell_angle_gamma   96.7255\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tb(MnAl)6\n_chemical_formula_sum   'Tb1 Mn6 Al6'\n_cell_volume   186.5418\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.0000  0.0000  0.0000  1\n  Mn  Mn1  1  0.5000  0.5000  0.5000  1\n  Mn  Mn2  1  0.5000  0.0000  0.0000  1\n  Mn  Mn3  1  0.0000  0.5000  0.0000  1\n  Mn  Mn4  1  0.0000  0.0000  0.5000  1\n  Mn  Mn5  1  0.7637  0.5000  0.2637  1\n  Mn  Mn6  1  0.2363  0.5000  0.7363  1\n  Al  Al7  1  0.6530  0.6530  0.0000  1\n  Al  Al8  1  0.3470  0.3470  0.0000  1\n  Al  Al9  1  0.3388  0.0000  0.3388  1\n  Al  Al10  1  0.6612  0.0000  0.6612  1\n  Al  Al11  1  0.1970  0.6970  0.5000  1\n  Al  Al12  1  0.8030  0.3030  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       TbMn4AlMnAl4MnAl\n_chemical_formula_sum              \"Tb1 Mn6 Al6\"\n_cell_length_a       6.6308\n_cell_length_b       6.6308\n_cell_length_c       6.6308\n_cell_angle_alpha    136.4269\n_cell_angle_beta     99.1136\n_cell_angle_gamma    96.7255\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mn  Mn3       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mn  Mn4       1.0000  0.0000  0.0000  0.5000  1.0000\n  Al  Al1       1.0000  0.7637  0.5000  0.2637  1.0000\n  Mn  Mn5       1.0000  0.2363  0.5000  0.7363  1.0000\n  Al  Al2       1.0000  0.6530  0.6530  0.0000  1.0000\n  Al  Al3       1.0000  0.3470  0.3470  0.0000  1.0000\n  Al  Al4       1.0000  0.3388  0.0000  0.3388  1.0000\n  Al  Al5       1.0000  0.6612  0.0000  0.6612  1.0000\n  Mn  Mn6       1.0000  0.1970  0.6970  0.5000  1.0000\n  Al  Al6       1.0000  0.8030  0.3030  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bb541b6d-e229-4089-ac75-e94666f979ad",
    "mp_id": "mp-1218011",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrPr3CrNiO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8037\n_cell_length_b   6.8037\n_cell_length_c   5.5041\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   132.2500\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrPr3CrNiO8\n_chemical_formula_sum   'Sr1 Pr3 Cr1 Ni1 O8'\n_cell_volume   188.5980\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.1428  0.8572  0.5000  1\n  Pr  Pr1  1  0.6364  0.3636  0.0000  1\n  Pr  Pr2  1  0.3613  0.6387  0.0000  1\n  Pr  Pr3  1  0.8643  0.1357  0.5000  1\n  Cr  Cr4  1  0.5007  0.4993  0.5000  1\n  Ni  Ni5  1  0.0031  0.9969  0.0000  1\n  O  O6  1  0.7414  0.7494  0.2476  1\n  O  O7  1  0.2506  0.2586  0.7524  1\n  O  O8  1  0.7414  0.7494  0.7524  1\n  O  O9  1  0.2506  0.2586  0.2476  1\n  O  O10  1  0.8218  0.1782  0.0000  1\n  O  O11  1  0.3366  0.6634  0.5000  1\n  O  O12  1  0.1762  0.8238  0.0000  1\n  O  O13  1  0.6725  0.3275  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrPr3ONiOCrO6\n_chemical_formula_sum              \"Sr1 Pr3 O8 Ni1 Cr1\"\n_cell_length_a       6.8037\n_cell_length_b       6.8037\n_cell_length_c       5.5041\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    132.2500\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.1428  0.8572  0.5000  1.0000\n  Pr  Pr1       1.0000  0.6364  0.3636  0.0000  1.0000\n  Pr  Pr2       1.0000  0.3613  0.6387  0.0000  1.0000\n  Pr  Pr3       1.0000  0.8643  0.1357  0.5000  1.0000\n  O   O1        1.0000  0.5007  0.4993  0.5000  1.0000\n  Ni  Ni1       1.0000  0.0031  0.9969  0.0000  1.0000\n  O   O2        1.0000  0.7414  0.7494  0.2476  1.0000\n  Cr  Cr1       1.0000  0.2506  0.2586  0.7524  1.0000\n  O   O3        1.0000  0.7414  0.7494  0.7524  1.0000\n  O   O4        1.0000  0.2506  0.2586  0.2476  1.0000\n  O   O5        1.0000  0.8218  0.1782  0.0000  1.0000\n  O   O6        1.0000  0.3366  0.6634  0.5000  1.0000\n  O   O7        1.0000  0.1762  0.8238  0.0000  1.0000\n  O   O8        1.0000  0.6725  0.3275  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0091bcbb-d4c9-4741-b52d-63d3c512b4c0",
    "mp_id": "mp-1218423",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr4HfTi3O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9241\n_cell_length_b   8.9241\n_cell_length_c   4.0085\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   126.8247\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr4HfTi3O12\n_chemical_formula_sum   'Sr4 Hf1 Ti3 O12'\n_cell_volume   255.5374\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.6143  0.8708  0.5000  1\n  Sr  Sr1  1  0.8708  0.6143  0.5000  1\n  Sr  Sr2  1  0.1292  0.3857  0.5000  1\n  Sr  Sr3  1  0.3857  0.1292  0.5000  1\n  Hf  Hf4  1  0.0000  0.0000  0.0000  1\n  Ti  Ti5  1  0.2506  0.7494  0.0000  1\n  Ti  Ti6  1  0.5000  0.5000  0.0000  1\n  Ti  Ti7  1  0.7494  0.2506  0.0000  1\n  O  O8  1  0.3750  0.6250  0.0000  1\n  O  O9  1  0.6250  0.3750  0.0000  1\n  O  O10  1  0.8700  0.1300  0.0000  1\n  O  O11  1  0.1300  0.8700  0.0000  1\n  O  O12  1  0.5000  0.0000  0.0000  1\n  O  O13  1  0.7419  0.7419  0.0000  1\n  O  O14  1  0.0000  0.5000  0.0000  1\n  O  O15  1  0.2581  0.2581  0.0000  1\n  O  O16  1  0.2527  0.7473  0.5000  1\n  O  O17  1  0.5000  0.5000  0.5000  1\n  O  O18  1  0.7473  0.2527  0.5000  1\n  O  O19  1  0.0000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSr2HfTi3O4SrO7\n_chemical_formula_sum              \"Sr4 O12 Hf1 Ti3\"\n_cell_length_a       8.9241\n_cell_length_b       8.9241\n_cell_length_c       4.0085\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    126.8247\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.6143  0.8708  0.5000  1.0000\n  O   O1        1.0000  0.8708  0.6143  0.5000  1.0000\n  Sr  Sr2       1.0000  0.1292  0.3857  0.5000  1.0000\n  Sr  Sr3       1.0000  0.3857  0.1292  0.5000  1.0000\n  Hf  Hf1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ti  Ti1       1.0000  0.2506  0.7494  0.0000  1.0000\n  Ti  Ti2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ti  Ti3       1.0000  0.7494  0.2506  0.0000  1.0000\n  O   O2        1.0000  0.3750  0.6250  0.0000  1.0000\n  O   O3        1.0000  0.6250  0.3750  0.0000  1.0000\n  O   O4        1.0000  0.8700  0.1300  0.0000  1.0000\n  O   O5        1.0000  0.1300  0.8700  0.0000  1.0000\n  Sr  Sr4       1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O6        1.0000  0.7419  0.7419  0.0000  1.0000\n  O   O7        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O8        1.0000  0.2581  0.2581  0.0000  1.0000\n  O   O9        1.0000  0.2527  0.7473  0.5000  1.0000\n  O   O10       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O11       1.0000  0.7473  0.2527  0.5000  1.0000\n  O   O12       1.0000  0.0000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f0b3878a-c1f4-425e-8256-78bc717d90aa",
    "mp_id": "mp-1218682",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr8Fe4Co4O23\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7325\n_cell_length_b   8.7325\n_cell_length_c   8.7325\n_cell_angle_alpha   101.3858\n_cell_angle_beta   101.3858\n_cell_angle_gamma   127.2411\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr8Fe4Co4O23\n_chemical_formula_sum   'Sr8 Fe4 Co4 O23'\n_cell_volume   474.9257\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.0000  0.2577  0.2577  1\n  Sr  Sr1  1  0.0000  0.7423  0.7423  1\n  Sr  Sr2  1  0.7423  0.0000  0.7423  1\n  Sr  Sr3  1  0.2577  0.0000  0.2577  1\n  Sr  Sr4  1  0.5000  0.7538  0.2538  1\n  Sr  Sr5  1  0.5000  0.2462  0.7462  1\n  Sr  Sr6  1  0.2462  0.5000  0.7462  1\n  Sr  Sr7  1  0.7538  0.5000  0.2538  1\n  Fe  Fe8  1  0.0000  0.0000  0.5000  1\n  Fe  Fe9  1  0.5000  0.5000  0.5000  1\n  Fe  Fe10  1  0.5000  0.0000  0.0000  1\n  Fe  Fe11  1  0.0000  0.5000  0.0000  1\n  Co  Co12  1  0.7410  0.7410  0.0000  1\n  Co  Co13  1  0.2590  0.2590  0.0000  1\n  Co  Co14  1  0.7500  0.2500  0.5000  1\n  Co  Co15  1  0.2500  0.7500  0.5000  1\n  O  O16  1  0.8951  0.8951  0.2354  1\n  O  O17  1  0.6598  0.6598  0.7646  1\n  O  O18  1  0.6598  0.8951  0.0000  1\n  O  O19  1  0.8951  0.6598  0.0000  1\n  O  O20  1  0.1049  0.1049  0.7646  1\n  O  O21  1  0.3402  0.3402  0.2354  1\n  O  O22  1  0.3402  0.1049  0.0000  1\n  O  O23  1  0.1049  0.3402  0.0000  1\n  O  O24  1  0.7381  0.7381  0.4763  1\n  O  O25  1  0.2619  0.2619  0.5237  1\n  O  O26  1  0.2619  0.7381  0.0000  1\n  O  O27  1  0.7381  0.2619  0.0000  1\n  O  O28  1  0.3736  0.8736  0.7471  1\n  O  O29  1  0.1264  0.6264  0.2529  1\n  O  O30  1  0.1264  0.8736  0.5000  1\n  O  O31  1  0.3736  0.6264  0.5000  1\n  O  O32  1  0.6264  0.3736  0.5000  1\n  O  O33  1  0.8736  0.1264  0.5000  1\n  O  O34  1  0.8736  0.3736  0.7471  1\n  O  O35  1  0.6264  0.1264  0.2529  1\n  O  O36  1  0.5000  0.5000  0.0000  1\n  O  O37  1  0.0000  0.5000  0.5000  1\n  O  O38  1  0.5000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr8FeOFe2Co4O14FeO8\n_chemical_formula_sum              \"Sr8 Fe4 O23 Co4\"\n_cell_length_a       8.7325\n_cell_length_b       8.7325\n_cell_length_c       8.7325\n_cell_angle_alpha    101.3858\n_cell_angle_beta     101.3858\n_cell_angle_gamma    127.2411\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.0000  0.2577  0.2577  1.0000\n  Sr  Sr2       1.0000  0.0000  0.7423  0.7423  1.0000\n  Sr  Sr3       1.0000  0.7423  0.0000  0.7423  1.0000\n  Sr  Sr4       1.0000  0.2577  0.0000  0.2577  1.0000\n  Sr  Sr5       1.0000  0.5000  0.7538  0.2538  1.0000\n  Sr  Sr6       1.0000  0.5000  0.2462  0.7462  1.0000\n  Sr  Sr7       1.0000  0.2462  0.5000  0.7462  1.0000\n  Sr  Sr8       1.0000  0.7538  0.5000  0.2538  1.0000\n  Fe  Fe1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe3       1.0000  0.0000  0.5000  0.0000  1.0000\n  Co  Co1       1.0000  0.7410  0.7410  0.0000  1.0000\n  Co  Co2       1.0000  0.2590  0.2590  0.0000  1.0000\n  Co  Co3       1.0000  0.7500  0.2500  0.5000  1.0000\n  Co  Co4       1.0000  0.2500  0.7500  0.5000  1.0000\n  O   O2        1.0000  0.8951  0.8951  0.2354  1.0000\n  O   O3        1.0000  0.6598  0.6598  0.7646  1.0000\n  O   O4        1.0000  0.6598  0.8951  0.0000  1.0000\n  O   O5        1.0000  0.8951  0.6598  0.0000  1.0000\n  O   O6        1.0000  0.1049  0.1049  0.7646  1.0000\n  O   O7        1.0000  0.3402  0.3402  0.2354  1.0000\n  O   O8        1.0000  0.3402  0.1049  0.0000  1.0000\n  O   O9        1.0000  0.1049  0.3402  0.0000  1.0000\n  O   O10       1.0000  0.7381  0.7381  0.4763  1.0000\n  O   O11       1.0000  0.2619  0.2619  0.5237  1.0000\n  O   O12       1.0000  0.2619  0.7381  0.0000  1.0000\n  O   O13       1.0000  0.7381  0.2619  0.0000  1.0000\n  O   O14       1.0000  0.3736  0.8736  0.7471  1.0000\n  O   O15       1.0000  0.1264  0.6264  0.2529  1.0000\n  Fe  Fe4       1.0000  0.1264  0.8736  0.5000  1.0000\n  O   O16       1.0000  0.3736  0.6264  0.5000  1.0000\n  O   O17       1.0000  0.6264  0.3736  0.5000  1.0000\n  O   O18       1.0000  0.8736  0.1264  0.5000  1.0000\n  O   O19       1.0000  0.8736  0.3736  0.7471  1.0000\n  O   O20       1.0000  0.6264  0.1264  0.2529  1.0000\n  O   O21       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O22       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O23       1.0000  0.5000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e7c498c-53dd-439f-bade-ab043412624d",
    "mp_id": "mp-1218922",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SnTe(PbS)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   17.5830\n_cell_length_b   17.5830\n_cell_length_c   17.5830\n_cell_angle_alpha   14.0991\n_cell_angle_beta   14.0991\n_cell_angle_gamma   14.0991\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SnTe(PbS)4\n_chemical_formula_sum   'Sn1 Te1 Pb4 S4'\n_cell_volume   280.7700\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sn  Sn0  1  0.5949  0.5949  0.5949  1\n  Te  Te1  1  0.2981  0.2981  0.2981  1\n  Pb  Pb2  1  0.0040  0.0040  0.0040  1\n  Pb  Pb3  1  0.4017  0.4017  0.4017  1\n  Pb  Pb4  1  0.8001  0.8001  0.8001  1\n  Pb  Pb5  1  0.1988  0.1988  0.1988  1\n  S  S6  1  0.7022  0.7022  0.7022  1\n  S  S7  1  0.1007  0.1007  0.1007  1\n  S  S8  1  0.5002  0.5002  0.5002  1\n  S  S9  1  0.8995  0.8995  0.8995  1\n",
    "output": "data_image0\n_chemical_formula_structural       SnTePb3SPbS3\n_chemical_formula_sum              \"Sn1 Te1 Pb4 S4\"\n_cell_length_a       17.5830\n_cell_length_b       17.5830\n_cell_length_c       17.5830\n_cell_angle_alpha    14.0991\n_cell_angle_beta     14.0991\n_cell_angle_gamma    14.0991\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sn  Sn1       1.0000  0.5949  0.5949  0.5949  1.0000\n  Te  Te1       1.0000  0.2981  0.2981  0.2981  1.0000\n  Pb  Pb1       1.0000  0.0040  0.0040  0.0040  1.0000\n  Pb  Pb2       1.0000  0.4017  0.4017  0.4017  1.0000\n  Pb  Pb3       1.0000  0.8001  0.8001  0.8001  1.0000\n  S   S1        1.0000  0.1988  0.1988  0.1988  1.0000\n  Pb  Pb4       1.0000  0.7022  0.7022  0.7022  1.0000\n  S   S2        1.0000  0.1007  0.1007  0.1007  1.0000\n  S   S3        1.0000  0.5002  0.5002  0.5002  1.0000\n  S   S4        1.0000  0.8995  0.8995  0.8995  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cfd61e96-acec-4101-8c7f-32e2a86702e9",
    "mp_id": "mp-1219071",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SmEuB12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8423\n_cell_length_b   5.8423\n_cell_length_c   5.8423\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SmEuB12\n_chemical_formula_sum   'Sm1 Eu1 B12'\n_cell_volume   141.0064\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.5000  0.5000  0.5000  1\n  Eu  Eu1  1  -0.0000  0.0000  0.0000  1\n  B  B2  1  0.8998  0.6002  0.6002  1\n  B  B3  1  0.3998  0.1002  0.1002  1\n  B  B4  1  0.8998  0.8998  0.6002  1\n  B  B5  1  0.3998  0.3998  0.1002  1\n  B  B6  1  0.6002  0.8998  0.6002  1\n  B  B7  1  0.1002  0.3998  0.1002  1\n  B  B8  1  0.6002  0.6002  0.8998  1\n  B  B9  1  0.1002  0.1002  0.3998  1\n  B  B10  1  0.8998  0.6002  0.8998  1\n  B  B11  1  0.3998  0.1002  0.3998  1\n  B  B12  1  0.6002  0.8998  0.8998  1\n  B  B13  1  0.1002  0.3998  0.3998  1\n",
    "output": "data_image0\n_chemical_formula_structural       SmB4EuB8\n_chemical_formula_sum              \"Sm1 B12 Eu1\"\n_cell_length_a       5.8423\n_cell_length_b       5.8423\n_cell_length_c       5.8423\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.5000  0.5000  0.5000  1.0000\n  B   B1        1.0000  0.0000  0.0000  0.0000  1.0000\n  B   B2        1.0000  0.8998  0.6002  0.6002  1.0000\n  B   B3        1.0000  0.3998  0.1002  0.1002  1.0000\n  B   B4        1.0000  0.8998  0.8998  0.6002  1.0000\n  Eu  Eu1       1.0000  0.3998  0.3998  0.1002  1.0000\n  B   B5        1.0000  0.6002  0.8998  0.6002  1.0000\n  B   B6        1.0000  0.1002  0.3998  0.1002  1.0000\n  B   B7        1.0000  0.6002  0.6002  0.8998  1.0000\n  B   B8        1.0000  0.1002  0.1002  0.3998  1.0000\n  B   B9        1.0000  0.8998  0.6002  0.8998  1.0000\n  B   B10       1.0000  0.3998  0.1002  0.3998  1.0000\n  B   B11       1.0000  0.6002  0.8998  0.8998  1.0000\n  B   B12       1.0000  0.1002  0.3998  0.3998  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f5454533-fbde-4b71-8294-a0f7e50f8a4b",
    "mp_id": "mp-1219127",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Re3HgO9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4397\n_cell_length_b   7.4397\n_cell_length_c   3.7894\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Re3HgO9\n_chemical_formula_sum   'Re3 Hg1 O9'\n_cell_volume   181.6406\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Re  Re0  1  0.5000  0.5000  0.4963  1\n  Re  Re1  1  0.5000  0.0000  0.4963  1\n  Re  Re2  1  0.0000  0.5000  0.4963  1\n  Hg  Hg3  1  0.0000  0.0000  0.7440  1\n  O  O4  1  0.5748  0.7874  0.5017  1\n  O  O5  1  0.2126  0.7874  0.5017  1\n  O  O6  1  0.2126  0.4252  0.5017  1\n  O  O7  1  0.7874  0.5748  0.5017  1\n  O  O8  1  0.7874  0.2126  0.5017  1\n  O  O9  1  0.4252  0.2126  0.5017  1\n  O  O10  1  0.5000  0.5000  0.9984  1\n  O  O11  1  0.5000  0.0000  0.9984  1\n  O  O12  1  0.0000  0.5000  0.9984  1\n",
    "output": "data_image0\n_chemical_formula_structural       ORe2HgO7ReO\n_chemical_formula_sum              \"O9 Re3 Hg1\"\n_cell_length_a       7.4397\n_cell_length_b       7.4397\n_cell_length_c       3.7894\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.5000  0.4963  1.0000\n  Re  Re1       1.0000  0.5000  0.0000  0.4963  1.0000\n  Re  Re2       1.0000  0.0000  0.5000  0.4963  1.0000\n  Hg  Hg1       1.0000  0.0000  0.0000  0.7440  1.0000\n  O   O2        1.0000  0.5748  0.7874  0.5017  1.0000\n  O   O3        1.0000  0.2126  0.7874  0.5017  1.0000\n  O   O4        1.0000  0.2126  0.4252  0.5017  1.0000\n  O   O5        1.0000  0.7874  0.5748  0.5017  1.0000\n  O   O6        1.0000  0.7874  0.2126  0.5017  1.0000\n  O   O7        1.0000  0.4252  0.2126  0.5017  1.0000\n  O   O8        1.0000  0.5000  0.5000  0.9984  1.0000\n  Re  Re3       1.0000  0.5000  0.0000  0.9984  1.0000\n  O   O9        1.0000  0.0000  0.5000  0.9984  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5c762ef2-1ffd-4275-b351-2bb4db42ac03",
    "mp_id": "mp-1219578",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbSO3F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2319\n_cell_length_b   7.7449\n_cell_length_c   9.0664\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbSO3F\n_chemical_formula_sum   'Rb4 S4 O12 F4'\n_cell_volume   437.5935\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.2500  0.3420  0.8250  1\n  Rb  Rb1  1  0.2500  0.1580  0.3250  1\n  Rb  Rb2  1  0.7500  0.6580  0.1750  1\n  Rb  Rb3  1  0.7500  0.8420  0.6750  1\n  S  S4  1  0.2500  0.8020  0.9390  1\n  S  S5  1  0.2500  0.6980  0.4390  1\n  S  S6  1  0.7500  0.1980  0.0610  1\n  S  S7  1  0.7500  0.3020  0.5610  1\n  O  O8  1  0.0532  0.7055  0.9119  1\n  O  O9  1  0.4468  0.7945  0.4119  1\n  O  O10  1  0.5532  0.2945  0.0881  1\n  O  O11  1  0.9468  0.2055  0.5881  1\n  O  O12  1  0.9468  0.2945  0.0881  1\n  O  O13  1  0.5532  0.2055  0.5881  1\n  O  O14  1  0.4468  0.7055  0.9119  1\n  O  O15  1  0.0532  0.7945  0.4119  1\n  O  O16  1  0.2500  0.9126  0.0673  1\n  O  O17  1  0.2500  0.5874  0.5673  1\n  O  O18  1  0.7500  0.0874  0.9327  1\n  O  O19  1  0.7500  0.4126  0.4327  1\n  F  F20  1  0.2500  0.9420  0.8003  1\n  F  F21  1  0.2500  0.5580  0.3003  1\n  F  F22  1  0.7500  0.0580  0.1997  1\n  F  F23  1  0.7500  0.4420  0.6997  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb4S4O5FO6F2OF\n_chemical_formula_sum              \"Rb4 S4 O12 F4\"\n_cell_length_a       6.2319\n_cell_length_b       7.7449\n_cell_length_c       9.0664\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.2500  0.3420  0.8250  1.0000\n  Rb  Rb2       1.0000  0.2500  0.1580  0.3250  1.0000\n  Rb  Rb3       1.0000  0.7500  0.6580  0.1750  1.0000\n  Rb  Rb4       1.0000  0.7500  0.8420  0.6750  1.0000\n  S   S1        1.0000  0.2500  0.8020  0.9390  1.0000\n  S   S2        1.0000  0.2500  0.6980  0.4390  1.0000\n  S   S3        1.0000  0.7500  0.1980  0.0610  1.0000\n  S   S4        1.0000  0.7500  0.3020  0.5610  1.0000\n  O   O1        1.0000  0.0532  0.7055  0.9119  1.0000\n  O   O2        1.0000  0.4468  0.7945  0.4119  1.0000\n  O   O3        1.0000  0.5532  0.2945  0.0881  1.0000\n  O   O4        1.0000  0.9468  0.2055  0.5881  1.0000\n  O   O5        1.0000  0.9468  0.2945  0.0881  1.0000\n  F   F1        1.0000  0.5532  0.2055  0.5881  1.0000\n  O   O6        1.0000  0.4468  0.7055  0.9119  1.0000\n  O   O7        1.0000  0.0532  0.7945  0.4119  1.0000\n  O   O8        1.0000  0.2500  0.9126  0.0673  1.0000\n  O   O9        1.0000  0.2500  0.5874  0.5673  1.0000\n  O   O10       1.0000  0.7500  0.0874  0.9327  1.0000\n  O   O11       1.0000  0.7500  0.4126  0.4327  1.0000\n  F   F2        1.0000  0.2500  0.9420  0.8003  1.0000\n  F   F3        1.0000  0.2500  0.5580  0.3003  1.0000\n  O   O12       1.0000  0.7500  0.0580  0.1997  1.0000\n  F   F4        1.0000  0.7500  0.4420  0.6997  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8bf45b22-bb94-49c5-b412-0996c0b1947e",
    "mp_id": "mp-1219615",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbSNO\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6862\n_cell_length_b   7.6237\n_cell_length_c   8.3700\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbSNO\n_chemical_formula_sum   'Rb4 S4 N4 O4'\n_cell_volume   426.6509\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.2492  0.3570  0.6422  1\n  Rb  Rb1  1  0.2508  0.1430  0.1422  1\n  Rb  Rb2  1  0.7492  0.6430  0.3578  1\n  Rb  Rb3  1  0.7508  0.8570  0.8578  1\n  S  S4  1  0.2477  0.8371  0.6089  1\n  S  S5  1  0.2523  0.6629  0.1089  1\n  S  S6  1  0.7477  0.1629  0.3911  1\n  S  S7  1  0.7523  0.3371  0.8911  1\n  N  N8  1  0.0565  0.7397  0.6092  1\n  N  N9  1  0.4435  0.7603  0.1092  1\n  N  N10  1  0.5565  0.2603  0.3908  1\n  N  N11  1  0.9435  0.2397  0.8908  1\n  O  O12  1  0.9465  0.2601  0.3900  1\n  O  O13  1  0.5535  0.2399  0.8900  1\n  O  O14  1  0.4465  0.7399  0.6100  1\n  O  O15  1  0.0535  0.7601  0.1100  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbNRb2S4NRbN2O4\n_chemical_formula_sum              \"Rb4 N4 S4 O4\"\n_cell_length_a       6.6862\n_cell_length_b       7.6237\n_cell_length_c       8.3700\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.2492  0.3570  0.6422  1.0000\n  N   N1        1.0000  0.2508  0.1430  0.1422  1.0000\n  Rb  Rb2       1.0000  0.7492  0.6430  0.3578  1.0000\n  Rb  Rb3       1.0000  0.7508  0.8570  0.8578  1.0000\n  S   S1        1.0000  0.2477  0.8371  0.6089  1.0000\n  S   S2        1.0000  0.2523  0.6629  0.1089  1.0000\n  S   S3        1.0000  0.7477  0.1629  0.3911  1.0000\n  S   S4        1.0000  0.7523  0.3371  0.8911  1.0000\n  N   N2        1.0000  0.0565  0.7397  0.6092  1.0000\n  Rb  Rb4       1.0000  0.4435  0.7603  0.1092  1.0000\n  N   N3        1.0000  0.5565  0.2603  0.3908  1.0000\n  N   N4        1.0000  0.9435  0.2397  0.8908  1.0000\n  O   O1        1.0000  0.9465  0.2601  0.3900  1.0000\n  O   O2        1.0000  0.5535  0.2399  0.8900  1.0000\n  O   O3        1.0000  0.4465  0.7399  0.6100  1.0000\n  O   O4        1.0000  0.0535  0.7601  0.1100  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9b37cc3f-6bc4-4598-af95-d68b675db06a",
    "mp_id": "mp-1219892",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr6Ge3Se14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.7390\n_cell_length_b   10.7390\n_cell_length_c   6.1074\n_cell_angle_alpha   90.0020\n_cell_angle_beta   90.0002\n_cell_angle_gamma   119.9998\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr6Ge3Se14\n_chemical_formula_sum   'Pr6 Ge3 Se14'\n_cell_volume   609.9783\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.3097  0.1040  0.7554  1\n  Pr  Pr1  1  0.7943  0.6903  0.7554  1\n  Pr  Pr2  1  0.8960  0.2057  0.7554  1\n  Pr  Pr3  1  0.0250  0.5630  0.2494  1\n  Pr  Pr4  1  0.5380  0.9750  0.2494  1\n  Pr  Pr5  1  0.4370  0.4620  0.2494  1\n  Ge  Ge6  1  -0.0000  0.0000  0.1710  1\n  Ge  Ge7  1  0.3333  0.6667  0.6636  1\n  Ge  Ge8  1  0.6667  0.3333  0.5169  1\n  Se  Se9  1  0.0000  -0.0000  0.5508  1\n  Se  Se10  1  0.3334  0.6667  0.0441  1\n  Se  Se11  1  0.1485  0.2308  0.0140  1\n  Se  Se12  1  0.0823  0.8515  0.0140  1\n  Se  Se13  1  0.7692  0.9177  0.0140  1\n  Se  Se14  1  0.1845  0.4359  0.5080  1\n  Se  Se15  1  0.2514  0.8156  0.5080  1\n  Se  Se16  1  0.5641  0.7486  0.5080  1\n  Se  Se17  1  0.4125  0.1721  0.2785  1\n  Se  Se18  1  0.7595  0.5875  0.2785  1\n  Se  Se19  1  0.8279  0.2404  0.2786  1\n  Se  Se20  1  0.9232  0.4991  0.7672  1\n  Se  Se21  1  0.5759  0.0768  0.7671  1\n  Se  Se22  1  0.5009  0.4241  0.7672  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pr5SeGe3Se10PrSe3\n_chemical_formula_sum              \"Pr6 Se14 Ge3\"\n_cell_length_a       10.7390\n_cell_length_b       10.7390\n_cell_length_c       6.1074\n_cell_angle_alpha    90.0020\n_cell_angle_beta     90.0002\n_cell_angle_gamma    119.9998\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.3097  0.1040  0.7554  1.0000\n  Pr  Pr2       1.0000  0.7943  0.6903  0.7554  1.0000\n  Pr  Pr3       1.0000  0.8960  0.2057  0.7554  1.0000\n  Pr  Pr4       1.0000  0.0250  0.5630  0.2494  1.0000\n  Pr  Pr5       1.0000  0.5380  0.9750  0.2494  1.0000\n  Se  Se1       1.0000  0.4370  0.4620  0.2494  1.0000\n  Ge  Ge1       1.0000  1.0000  0.0000  0.1710  1.0000\n  Ge  Ge2       1.0000  0.3333  0.6667  0.6636  1.0000\n  Ge  Ge3       1.0000  0.6667  0.3333  0.5169  1.0000\n  Se  Se2       1.0000  0.0000  1.0000  0.5508  1.0000\n  Se  Se3       1.0000  0.3334  0.6667  0.0441  1.0000\n  Se  Se4       1.0000  0.1485  0.2308  0.0140  1.0000\n  Se  Se5       1.0000  0.0823  0.8515  0.0140  1.0000\n  Se  Se6       1.0000  0.7692  0.9177  0.0140  1.0000\n  Se  Se7       1.0000  0.1845  0.4359  0.5080  1.0000\n  Se  Se8       1.0000  0.2514  0.8156  0.5080  1.0000\n  Se  Se9       1.0000  0.5641  0.7486  0.5080  1.0000\n  Se  Se10      1.0000  0.4125  0.1721  0.2785  1.0000\n  Se  Se11      1.0000  0.7595  0.5875  0.2785  1.0000\n  Pr  Pr6       1.0000  0.8279  0.2404  0.2786  1.0000\n  Se  Se12      1.0000  0.9232  0.4991  0.7672  1.0000\n  Se  Se13      1.0000  0.5759  0.0768  0.7671  1.0000\n  Se  Se14      1.0000  0.5009  0.4241  0.7672  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a824d956-76bc-48ed-a6dc-7a8262a666b5",
    "mp_id": "mp-1219893",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2MnRhO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8969\n_cell_length_b   5.5890\n_cell_length_c   9.3798\n_cell_angle_alpha   55.0449\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2MnRhO6\n_chemical_formula_sum   'Pr4 Mn2 Rh2 O12'\n_cell_volume   253.3690\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.5669  0.7290  0.7511  1\n  Pr  Pr1  1  0.0669  0.2710  0.7489  1\n  Pr  Pr2  1  0.4331  0.2710  0.2489  1\n  Pr  Pr3  1  0.9331  0.7290  0.2511  1\n  Mn  Mn4  1  0.5000  0.0000  0.0000  1\n  Mn  Mn5  1  0.0000  0.0000  0.5000  1\n  Rh  Rh6  1  0.5000  0.5000  0.5000  1\n  Rh  Rh7  1  0.0000  0.5000  0.0000  1\n  O  O8  1  0.7970  0.2477  0.9497  1\n  O  O9  1  0.2970  0.7523  0.5503  1\n  O  O10  1  0.2012  0.3536  0.4516  1\n  O  O11  1  0.7012  0.6464  0.0484  1\n  O  O12  1  0.2030  0.7523  0.0503  1\n  O  O13  1  0.7030  0.2477  0.4497  1\n  O  O14  1  0.7988  0.6464  0.5484  1\n  O  O15  1  0.2988  0.3536  0.9516  1\n  O  O16  1  0.9674  0.8567  0.7452  1\n  O  O17  1  0.4674  0.1433  0.7548  1\n  O  O18  1  0.0326  0.1433  0.2548  1\n  O  O19  1  0.5326  0.8567  0.2452  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pr2MnPr2MnRh2O12\n_chemical_formula_sum              \"Pr4 Mn2 Rh2 O12\"\n_cell_length_a       5.8969\n_cell_length_b       5.5890\n_cell_length_c       9.3798\n_cell_angle_alpha    55.0449\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.5669  0.7290  0.7511  1.0000\n  Pr  Pr2       1.0000  0.0669  0.2710  0.7489  1.0000\n  Mn  Mn1       1.0000  0.4331  0.2710  0.2489  1.0000\n  Pr  Pr3       1.0000  0.9331  0.7290  0.2511  1.0000\n  Pr  Pr4       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mn  Mn2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Rh  Rh1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Rh  Rh2       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.7970  0.2477  0.9497  1.0000\n  O   O2        1.0000  0.2970  0.7523  0.5503  1.0000\n  O   O3        1.0000  0.2012  0.3536  0.4516  1.0000\n  O   O4        1.0000  0.7012  0.6464  0.0484  1.0000\n  O   O5        1.0000  0.2030  0.7523  0.0503  1.0000\n  O   O6        1.0000  0.7030  0.2477  0.4497  1.0000\n  O   O7        1.0000  0.7988  0.6464  0.5484  1.0000\n  O   O8        1.0000  0.2988  0.3536  0.9516  1.0000\n  O   O9        1.0000  0.9674  0.8567  0.7452  1.0000\n  O   O10       1.0000  0.4674  0.1433  0.7548  1.0000\n  O   O11       1.0000  0.0326  0.1433  0.2548  1.0000\n  O   O12       1.0000  0.5326  0.8567  0.2452  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9c097a1e-a799-4ab1-a372-030e5ec0d092",
    "mp_id": "mp-1220065",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb3(Cr5Se8)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.9652\n_cell_length_b   11.5762\n_cell_length_c   11.7316\n_cell_angle_alpha   111.1508\n_cell_angle_beta   81.5753\n_cell_angle_gamma   117.3005\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb3(Cr5Se8)4\n_chemical_formula_sum   'Rb3 Cr20 Se32'\n_cell_volume   1233.8062\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.2318  0.7317  0.7319  1\n  Rb  Rb1  1  0.5000  0.0000  0.0000  1\n  Rb  Rb2  1  0.7682  0.2683  0.2681  1\n  Cr  Cr3  1  0.7937  0.6093  0.1293  1\n  Cr  Cr4  1  0.0429  0.8589  0.3786  1\n  Cr  Cr5  1  0.2921  0.1073  0.6272  1\n  Cr  Cr6  1  0.5432  0.3585  0.8781  1\n  Cr  Cr7  1  0.9571  0.1411  0.6214  1\n  Cr  Cr8  1  0.2063  0.3907  0.8707  1\n  Cr  Cr9  1  0.4568  0.6415  0.1219  1\n  Cr  Cr10  1  0.7079  0.8927  0.3728  1\n  Cr  Cr11  1  0.3742  0.8745  0.3758  1\n  Cr  Cr12  1  0.6258  0.1255  0.6242  1\n  Cr  Cr13  1  0.8756  0.3753  0.8743  1\n  Cr  Cr14  1  0.1244  0.6247  0.1257  1\n  Cr  Cr15  1  0.4125  0.3224  0.4862  1\n  Cr  Cr16  1  0.6625  0.5711  0.7356  1\n  Cr  Cr17  1  0.9112  0.8207  0.9852  1\n  Cr  Cr18  1  0.1617  0.0710  0.2358  1\n  Cr  Cr19  1  0.3375  0.4289  0.2644  1\n  Cr  Cr20  1  0.5875  0.6776  0.5138  1\n  Cr  Cr21  1  0.8383  0.9290  0.7642  1\n  Cr  Cr22  1  0.0888  0.1793  0.0148  1\n  Se  Se23  1  0.3439  0.5005  0.4917  1\n  Se  Se24  1  0.5938  0.7508  0.7418  1\n  Se  Se25  1  0.8443  0.0015  0.9923  1\n  Se  Se26  1  0.0945  0.2506  0.2420  1\n  Se  Se27  1  0.4062  0.2492  0.2582  1\n  Se  Se28  1  0.6561  0.4995  0.5083  1\n  Se  Se29  1  0.9055  0.7494  0.7580  1\n  Se  Se30  1  0.1557  0.9985  0.0077  1\n  Se  Se31  1  0.0684  0.3928  0.7234  1\n  Se  Se32  1  0.3186  0.6443  0.9736  1\n  Se  Se33  1  0.5701  0.8957  0.2249  1\n  Se  Se34  1  0.8205  0.1449  0.4754  1\n  Se  Se35  1  0.6814  0.3557  0.0264  1\n  Se  Se36  1  0.9316  0.6072  0.2766  1\n  Se  Se37  1  0.1795  0.8551  0.5246  1\n  Se  Se38  1  0.4299  0.1043  0.7751  1\n  Se  Se39  1  0.2655  0.6161  0.2718  1\n  Se  Se40  1  0.5155  0.8664  0.5219  1\n  Se  Se41  1  0.7656  0.1163  0.7718  1\n  Se  Se42  1  0.0159  0.3663  0.0216  1\n  Se  Se43  1  0.4845  0.1336  0.4781  1\n  Se  Se44  1  0.7345  0.3839  0.7282  1\n  Se  Se45  1  0.9841  0.6337  0.9784  1\n  Se  Se46  1  0.2344  0.8837  0.2282  1\n  Se  Se47  1  0.5953  0.6181  0.2738  1\n  Se  Se48  1  0.8455  0.8675  0.5238  1\n  Se  Se49  1  0.0956  0.1176  0.7736  1\n  Se  Se50  1  0.3457  0.3683  0.0241  1\n  Se  Se51  1  0.1545  0.1325  0.4762  1\n  Se  Se52  1  0.4047  0.3819  0.7262  1\n  Se  Se53  1  0.6543  0.6317  0.9759  1\n  Se  Se54  1  0.9044  0.8824  0.2264  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb3Cr17SeCr2Se6CrSe25\n_chemical_formula_sum              \"Rb3 Cr20 Se32\"\n_cell_length_a       10.9652\n_cell_length_b       11.5762\n_cell_length_c       11.7316\n_cell_angle_alpha    111.1508\n_cell_angle_beta     81.5753\n_cell_angle_gamma    117.3005\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.2318  0.7317  0.7319  1.0000\n  Rb  Rb2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Rb  Rb3       1.0000  0.7682  0.2683  0.2681  1.0000\n  Cr  Cr1       1.0000  0.7937  0.6093  0.1293  1.0000\n  Cr  Cr2       1.0000  0.0429  0.8589  0.3786  1.0000\n  Cr  Cr3       1.0000  0.2921  0.1073  0.6272  1.0000\n  Cr  Cr4       1.0000  0.5432  0.3585  0.8781  1.0000\n  Cr  Cr5       1.0000  0.9571  0.1411  0.6214  1.0000\n  Cr  Cr6       1.0000  0.2063  0.3907  0.8707  1.0000\n  Cr  Cr7       1.0000  0.4568  0.6415  0.1219  1.0000\n  Cr  Cr8       1.0000  0.7079  0.8927  0.3728  1.0000\n  Cr  Cr9       1.0000  0.3742  0.8745  0.3758  1.0000\n  Cr  Cr10      1.0000  0.6258  0.1255  0.6242  1.0000\n  Cr  Cr11      1.0000  0.8756  0.3753  0.8743  1.0000\n  Cr  Cr12      1.0000  0.1244  0.6247  0.1257  1.0000\n  Cr  Cr13      1.0000  0.4125  0.3224  0.4862  1.0000\n  Cr  Cr14      1.0000  0.6625  0.5711  0.7356  1.0000\n  Cr  Cr15      1.0000  0.9112  0.8207  0.9852  1.0000\n  Cr  Cr16      1.0000  0.1617  0.0710  0.2358  1.0000\n  Cr  Cr17      1.0000  0.3375  0.4289  0.2644  1.0000\n  Se  Se1       1.0000  0.5875  0.6776  0.5138  1.0000\n  Cr  Cr18      1.0000  0.8383  0.9290  0.7642  1.0000\n  Cr  Cr19      1.0000  0.0888  0.1793  0.0148  1.0000\n  Se  Se2       1.0000  0.3439  0.5005  0.4917  1.0000\n  Se  Se3       1.0000  0.5938  0.7508  0.7418  1.0000\n  Se  Se4       1.0000  0.8443  0.0015  0.9923  1.0000\n  Se  Se5       1.0000  0.0945  0.2506  0.2420  1.0000\n  Se  Se6       1.0000  0.4062  0.2492  0.2582  1.0000\n  Se  Se7       1.0000  0.6561  0.4995  0.5083  1.0000\n  Cr  Cr20      1.0000  0.9055  0.7494  0.7580  1.0000\n  Se  Se8       1.0000  0.1557  0.9985  0.0077  1.0000\n  Se  Se9       1.0000  0.0684  0.3928  0.7234  1.0000\n  Se  Se10      1.0000  0.3186  0.6443  0.9736  1.0000\n  Se  Se11      1.0000  0.5701  0.8957  0.2249  1.0000\n  Se  Se12      1.0000  0.8205  0.1449  0.4754  1.0000\n  Se  Se13      1.0000  0.6814  0.3557  0.0264  1.0000\n  Se  Se14      1.0000  0.9316  0.6072  0.2766  1.0000\n  Se  Se15      1.0000  0.1795  0.8551  0.5246  1.0000\n  Se  Se16      1.0000  0.4299  0.1043  0.7751  1.0000\n  Se  Se17      1.0000  0.2655  0.6161  0.2718  1.0000\n  Se  Se18      1.0000  0.5155  0.8664  0.5219  1.0000\n  Se  Se19      1.0000  0.7656  0.1163  0.7718  1.0000\n  Se  Se20      1.0000  0.0159  0.3663  0.0216  1.0000\n  Se  Se21      1.0000  0.4845  0.1336  0.4781  1.0000\n  Se  Se22      1.0000  0.7345  0.3839  0.7282  1.0000\n  Se  Se23      1.0000  0.9841  0.6337  0.9784  1.0000\n  Se  Se24      1.0000  0.2344  0.8837  0.2282  1.0000\n  Se  Se25      1.0000  0.5953  0.6181  0.2738  1.0000\n  Se  Se26      1.0000  0.8455  0.8675  0.5238  1.0000\n  Se  Se27      1.0000  0.0956  0.1176  0.7736  1.0000\n  Se  Se28      1.0000  0.3457  0.3683  0.0241  1.0000\n  Se  Se29      1.0000  0.1545  0.1325  0.4762  1.0000\n  Se  Se30      1.0000  0.4047  0.3819  0.7262  1.0000\n  Se  Se31      1.0000  0.6543  0.6317  0.9759  1.0000\n  Se  Se32      1.0000  0.9044  0.8824  0.2264  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9ab5b7c1-bcf6-48d7-a73e-69cf7a3aced1",
    "mp_id": "mp-1220070",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2Fe20Si2C\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4043\n_cell_length_b   7.8495\n_cell_length_c   7.8235\n_cell_angle_alpha   100.5057\n_cell_angle_beta   114.3005\n_cell_angle_gamma   65.6067\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2Fe20Si2C\n_chemical_formula_sum   'Pr2 Fe20 Si2 C1'\n_cell_volume   326.4120\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.3742  0.7511  0.2541  1\n  Pr  Pr1  1  0.6258  0.2489  0.7459  1\n  Fe  Fe2  1  0.1774  0.5829  0.8253  1\n  Fe  Fe3  1  0.4344  0.3235  0.0807  1\n  Fe  Fe4  1  0.2698  0.4196  0.3315  1\n  Fe  Fe5  1  0.8562  0.8327  0.9177  1\n  Fe  Fe6  1  0.1909  0.1676  0.4214  1\n  Fe  Fe7  1  0.4375  0.9195  0.6711  1\n  Fe  Fe8  1  0.2579  0.6760  0.5774  1\n  Fe  Fe9  1  0.8572  0.0786  0.1747  1\n  Fe  Fe10  1  0.8226  0.4171  0.1747  1\n  Fe  Fe11  1  0.5656  0.6765  0.9193  1\n  Fe  Fe12  1  0.7302  0.5804  0.6685  1\n  Fe  Fe13  1  0.1438  0.1673  0.0823  1\n  Fe  Fe14  1  0.8091  0.8324  0.5786  1\n  Fe  Fe15  1  0.5625  0.0805  0.3289  1\n  Fe  Fe16  1  0.7421  0.3240  0.4226  1\n  Fe  Fe17  1  0.1428  0.9214  0.8253  1\n  Fe  Fe18  1  0.1231  0.2481  0.7488  1\n  Fe  Fe19  1  0.8769  0.7519  0.2512  1\n  Fe  Fe20  1  0.0000  0.5000  0.0000  1\n  Fe  Fe21  1  0.0000  0.5000  0.5000  1\n  Si  Si22  1  0.5000  0.0000  0.0000  1\n  Si  Si23  1  0.0000  0.0000  0.5000  1\n  C  C24  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pr2Fe18CFeSi2Fe\n_chemical_formula_sum              \"Pr2 Fe20 C1 Si2\"\n_cell_length_a       6.4043\n_cell_length_b       7.8495\n_cell_length_c       7.8235\n_cell_angle_alpha    100.5057\n_cell_angle_beta     114.3005\n_cell_angle_gamma    65.6067\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.3742  0.7511  0.2541  1.0000\n  Pr  Pr2       1.0000  0.6258  0.2489  0.7459  1.0000\n  Fe  Fe1       1.0000  0.1774  0.5829  0.8253  1.0000\n  Fe  Fe2       1.0000  0.4344  0.3235  0.0807  1.0000\n  Fe  Fe3       1.0000  0.2698  0.4196  0.3315  1.0000\n  Fe  Fe4       1.0000  0.8562  0.8327  0.9177  1.0000\n  Fe  Fe5       1.0000  0.1909  0.1676  0.4214  1.0000\n  Fe  Fe6       1.0000  0.4375  0.9195  0.6711  1.0000\n  Fe  Fe7       1.0000  0.2579  0.6760  0.5774  1.0000\n  Fe  Fe8       1.0000  0.8572  0.0786  0.1747  1.0000\n  Fe  Fe9       1.0000  0.8226  0.4171  0.1747  1.0000\n  Fe  Fe10      1.0000  0.5656  0.6765  0.9193  1.0000\n  Fe  Fe11      1.0000  0.7302  0.5804  0.6685  1.0000\n  Fe  Fe12      1.0000  0.1438  0.1673  0.0823  1.0000\n  Fe  Fe13      1.0000  0.8091  0.8324  0.5786  1.0000\n  Fe  Fe14      1.0000  0.5625  0.0805  0.3289  1.0000\n  Fe  Fe15      1.0000  0.7421  0.3240  0.4226  1.0000\n  Fe  Fe16      1.0000  0.1428  0.9214  0.8253  1.0000\n  Fe  Fe17      1.0000  0.1231  0.2481  0.7488  1.0000\n  Fe  Fe18      1.0000  0.8769  0.7519  0.2512  1.0000\n  C   C1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Fe  Fe19      1.0000  0.0000  0.5000  0.5000  1.0000\n  Si  Si1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Si  Si2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe20      1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2d5873bf-4dfd-4706-b5db-89fd90bbbfe9",
    "mp_id": "mp-1220202",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd4Zn3Au5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6197\n_cell_length_b   7.1651\n_cell_length_c   7.9787\n_cell_angle_alpha   89.6612\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd4Zn3Au5\n_chemical_formula_sum   'Nd4 Zn3 Au5'\n_cell_volume   264.0935\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.5000  0.5044  0.7880  1\n  Nd  Nd1  1  0.5000  0.0017  0.7175  1\n  Nd  Nd2  1  0.0000  0.4899  0.2128  1\n  Nd  Nd3  1  0.0000  0.9941  0.2814  1\n  Zn  Zn4  1  0.5000  0.6950  0.4196  1\n  Zn  Zn5  1  0.0000  0.7987  0.9191  1\n  Zn  Zn6  1  0.0000  0.3109  0.5759  1\n  Au  Au7  1  0.5000  0.7727  0.0878  1\n  Au  Au8  1  0.5000  0.2883  0.4303  1\n  Au  Au9  1  -0.0000  0.2161  0.8930  1\n  Au  Au10  1  -0.0000  0.7186  0.5868  1\n  Au  Au11  1  0.5000  0.2097  0.0875  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd4Zn2Au2ZnAu3\n_chemical_formula_sum              \"Nd4 Zn3 Au5\"\n_cell_length_a       4.6197\n_cell_length_b       7.1651\n_cell_length_c       7.9787\n_cell_angle_alpha    89.6612\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.5000  0.5044  0.7880  1.0000\n  Nd  Nd2       1.0000  0.5000  0.0017  0.7175  1.0000\n  Nd  Nd3       1.0000  0.0000  0.4899  0.2128  1.0000\n  Nd  Nd4       1.0000  0.0000  0.9941  0.2814  1.0000\n  Zn  Zn1       1.0000  0.5000  0.6950  0.4196  1.0000\n  Zn  Zn2       1.0000  0.0000  0.7987  0.9191  1.0000\n  Au  Au1       1.0000  0.0000  0.3109  0.5759  1.0000\n  Au  Au2       1.0000  0.5000  0.7727  0.0878  1.0000\n  Zn  Zn3       1.0000  0.5000  0.2883  0.4303  1.0000\n  Au  Au3       1.0000  0.0000  0.2161  0.8930  1.0000\n  Au  Au4       1.0000  0.0000  0.7186  0.5868  1.0000\n  Au  Au5       1.0000  0.5000  0.2097  0.0875  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "50447f93-8c4c-43a7-a060-59bf44b33904",
    "mp_id": "mp-1220419",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd2(CoCu)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0656\n_cell_length_b   5.0812\n_cell_length_c   8.6659\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd2(CoCu)5\n_chemical_formula_sum   'Nd2 Co5 Cu5'\n_cell_volume   179.0228\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.0000  0.5000  0.0000  1\n  Nd  Nd1  1  0.0000  0.0000  0.5000  1\n  Co  Co2  1  0.0000  0.5000  0.3455  1\n  Co  Co3  1  0.0000  0.0000  0.8357  1\n  Co  Co4  1  0.0000  0.0000  0.1643  1\n  Co  Co5  1  0.0000  0.5000  0.6545  1\n  Co  Co6  1  0.5000  0.5000  0.5000  1\n  Cu  Cu7  1  0.5000  0.0000  0.0000  1\n  Cu  Cu8  1  0.5000  0.7502  0.2514  1\n  Cu  Cu9  1  0.5000  0.2498  0.7486  1\n  Cu  Cu10  1  0.5000  0.2498  0.2514  1\n  Cu  Cu11  1  0.5000  0.7502  0.7486  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd2CuCo5Cu4\n_chemical_formula_sum              \"Nd2 Cu5 Co5\"\n_cell_length_a       4.0656\n_cell_length_b       5.0812\n_cell_length_c       8.6659\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Nd  Nd2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cu  Cu1       1.0000  0.0000  0.5000  0.3455  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.8357  1.0000\n  Co  Co2       1.0000  0.0000  0.0000  0.1643  1.0000\n  Co  Co3       1.0000  0.0000  0.5000  0.6545  1.0000\n  Co  Co4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Co  Co5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Cu  Cu2       1.0000  0.5000  0.7502  0.2514  1.0000\n  Cu  Cu3       1.0000  0.5000  0.2498  0.7486  1.0000\n  Cu  Cu4       1.0000  0.5000  0.2498  0.2514  1.0000\n  Cu  Cu5       1.0000  0.5000  0.7502  0.7486  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1cf7df95-c15f-4789-873e-2e1242a36ba3",
    "mp_id": "mp-1220444",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nb6CdS8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7115\n_cell_length_b   9.7115\n_cell_length_c   3.3803\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nb6CdS8\n_chemical_formula_sum   'Nb6 Cd1 S8'\n_cell_volume   276.0960\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.1137  0.6274  0.2499  1\n  Nb  Nb1  1  0.5137  0.8863  0.2499  1\n  Nb  Nb2  1  0.3725  0.4863  0.2499  1\n  Nb  Nb3  1  0.8863  0.3725  0.7501  1\n  Nb  Nb4  1  0.4863  0.1137  0.7501  1\n  Nb  Nb5  1  0.6274  0.5137  0.7501  1\n  Cd  Cd6  1  0.0000  0.0000  0.5000  1\n  S  S7  1  0.6667  0.3333  0.2499  1\n  S  S8  1  0.3333  0.6667  0.7501  1\n  S  S9  1  0.2873  0.9434  0.2503  1\n  S  S10  1  0.6561  0.7127  0.2503  1\n  S  S11  1  0.0566  0.3439  0.2503  1\n  S  S12  1  0.7127  0.0566  0.7497  1\n  S  S13  1  0.3439  0.2873  0.7497  1\n  S  S14  1  0.9434  0.6561  0.7497  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbSNb4CdS7Nb\n_chemical_formula_sum              \"Nb6 S8 Cd1\"\n_cell_length_a       9.7115\n_cell_length_b       9.7115\n_cell_length_c       3.3803\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.1137  0.6274  0.2499  1.0000\n  S   S1        1.0000  0.5137  0.8863  0.2499  1.0000\n  Nb  Nb2       1.0000  0.3725  0.4863  0.2499  1.0000\n  Nb  Nb3       1.0000  0.8863  0.3725  0.7501  1.0000\n  Nb  Nb4       1.0000  0.4863  0.1137  0.7501  1.0000\n  Nb  Nb5       1.0000  0.6274  0.5137  0.7501  1.0000\n  Cd  Cd1       1.0000  0.0000  0.0000  0.5000  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.2499  1.0000\n  S   S3        1.0000  0.3333  0.6667  0.7501  1.0000\n  S   S4        1.0000  0.2873  0.9434  0.2503  1.0000\n  S   S5        1.0000  0.6561  0.7127  0.2503  1.0000\n  S   S6        1.0000  0.0566  0.3439  0.2503  1.0000\n  S   S7        1.0000  0.7127  0.0566  0.7497  1.0000\n  S   S8        1.0000  0.3439  0.2873  0.7497  1.0000\n  Nb  Nb6       1.0000  0.9434  0.6561  0.7497  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e50b218b-89ff-4d21-a85b-ea8a948f3ddd",
    "mp_id": "mp-1220553",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ni2N11Cl8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2684\n_cell_length_b   8.3267\n_cell_length_c   9.4844\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ni2N11Cl8\n_chemical_formula_sum   'Ni2 N11 Cl8'\n_cell_volume   495.0367\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.0000  0.0000  0.0000  1\n  Ni  Ni1  1  0.5000  0.5000  0.5000  1\n  N  N2  1  0.0000  0.7727  0.0000  1\n  N  N3  1  0.5000  0.2709  0.5000  1\n  N  N4  1  0.5000  0.7291  0.5000  1\n  N  N5  1  0.0000  0.2273  0.0000  1\n  N  N6  1  0.5000  0.6423  0.0000  1\n  N  N7  1  0.0000  0.1428  0.5000  1\n  N  N8  1  0.0000  0.8572  0.5000  1\n  N  N9  1  0.5000  0.3577  0.0000  1\n  N  N10  1  0.5000  0.0000  0.0000  1\n  N  N11  1  0.5000  0.5000  0.0000  1\n  N  N12  1  0.0000  0.0000  0.5000  1\n  Cl  Cl13  1  0.2602  0.5000  0.6692  1\n  Cl  Cl14  1  0.7356  0.0000  0.1629  1\n  Cl  Cl15  1  0.2644  0.0000  0.8371  1\n  Cl  Cl16  1  0.7398  0.5000  0.3308  1\n  Cl  Cl17  1  0.7398  0.5000  0.6692  1\n  Cl  Cl18  1  0.2644  0.0000  0.1629  1\n  Cl  Cl19  1  0.7356  0.0000  0.8371  1\n  Cl  Cl20  1  0.2602  0.5000  0.3308  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ni2N10ClNCl7\n_chemical_formula_sum              \"Ni2 N11 Cl8\"\n_cell_length_a       6.2684\n_cell_length_b       8.3267\n_cell_length_c       9.4844\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.5000  0.5000  0.5000  1.0000\n  N   N1        1.0000  0.0000  0.7727  0.0000  1.0000\n  N   N2        1.0000  0.5000  0.2709  0.5000  1.0000\n  N   N3        1.0000  0.5000  0.7291  0.5000  1.0000\n  N   N4        1.0000  0.0000  0.2273  0.0000  1.0000\n  N   N5        1.0000  0.5000  0.6423  0.0000  1.0000\n  N   N6        1.0000  0.0000  0.1428  0.5000  1.0000\n  N   N7        1.0000  0.0000  0.8572  0.5000  1.0000\n  N   N8        1.0000  0.5000  0.3577  0.0000  1.0000\n  N   N9        1.0000  0.5000  0.0000  0.0000  1.0000\n  N   N10       1.0000  0.5000  0.5000  0.0000  1.0000\n  Cl  Cl1       1.0000  0.0000  0.0000  0.5000  1.0000\n  N   N11       1.0000  0.2602  0.5000  0.6692  1.0000\n  Cl  Cl2       1.0000  0.7356  0.0000  0.1629  1.0000\n  Cl  Cl3       1.0000  0.2644  0.0000  0.8371  1.0000\n  Cl  Cl4       1.0000  0.7398  0.5000  0.3308  1.0000\n  Cl  Cl5       1.0000  0.7398  0.5000  0.6692  1.0000\n  Cl  Cl6       1.0000  0.2644  0.0000  0.1629  1.0000\n  Cl  Cl7       1.0000  0.7356  0.0000  0.8371  1.0000\n  Cl  Cl8       1.0000  0.2602  0.5000  0.3308  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c8722fc3-dbc2-4248-a62f-17c7ce89f951",
    "mp_id": "mp-1220692",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nb3IrS8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7036\n_cell_length_b   6.7036\n_cell_length_c   8.5375\n_cell_angle_alpha   53.9803\n_cell_angle_beta   53.9803\n_cell_angle_gamma   60.0152\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nb3IrS8\n_chemical_formula_sum   'Nb3 Ir1 S8'\n_cell_volume   243.9322\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.5000  0.5000  0.0000  1\n  Nb  Nb1  1  0.5000  0.0000  0.0000  1\n  Nb  Nb2  1  0.0000  0.5000  0.0000  1\n  Ir  Ir3  1  0.0000  0.0000  0.0000  1\n  S  S4  1  0.0389  0.0389  0.2468  1\n  S  S5  1  0.5430  0.5430  0.2478  1\n  S  S6  1  0.5527  0.0393  0.2461  1\n  S  S7  1  0.0393  0.5527  0.2461  1\n  S  S8  1  0.4473  0.9607  0.7539  1\n  S  S9  1  0.9607  0.4473  0.7539  1\n  S  S10  1  0.9611  0.9611  0.7532  1\n  S  S11  1  0.4570  0.4570  0.7522  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbSNbIrS3NbS4\n_chemical_formula_sum              \"Nb3 S8 Ir1\"\n_cell_length_a       6.7036\n_cell_length_b       6.7036\n_cell_length_c       8.5375\n_cell_angle_alpha    53.9803\n_cell_angle_beta     53.9803\n_cell_angle_gamma    60.0152\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.5000  0.5000  0.0000  1.0000\n  S   S1        1.0000  0.5000  0.0000  0.0000  1.0000\n  Nb  Nb2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Ir  Ir1       1.0000  0.0000  0.0000  0.0000  1.0000\n  S   S2        1.0000  0.0389  0.0389  0.2468  1.0000\n  S   S3        1.0000  0.5430  0.5430  0.2478  1.0000\n  S   S4        1.0000  0.5527  0.0393  0.2461  1.0000\n  Nb  Nb3       1.0000  0.0393  0.5527  0.2461  1.0000\n  S   S5        1.0000  0.4473  0.9607  0.7539  1.0000\n  S   S6        1.0000  0.9607  0.4473  0.7539  1.0000\n  S   S7        1.0000  0.9611  0.9611  0.7532  1.0000\n  S   S8        1.0000  0.4570  0.4570  0.7522  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f9809ab4-d8a3-4e4f-9274-4432b8f47997",
    "mp_id": "mp-1220760",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaYIrO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3969\n_cell_length_b   9.3969\n_cell_length_c   3.2572\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   118.3852\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaYIrO4\n_chemical_formula_sum   'Na3 Y3 Ir3 O12'\n_cell_volume   253.0361\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9815  0.9815  0.0000  1\n  Na  Na1  1  0.6982  0.0001  0.5000  1\n  Na  Na2  1  0.0001  0.6982  0.5000  1\n  Y  Y3  1  0.6855  0.3418  0.5000  1\n  Y  Y4  1  0.3418  0.6855  0.5000  1\n  Y  Y5  1  0.2986  0.2986  0.5000  1\n  Ir  Ir6  1  0.6680  0.6680  0.0000  1\n  Ir  Ir7  1  0.3263  0.0025  0.0000  1\n  Ir  Ir8  1  0.0025  0.3263  0.0000  1\n  O  O9  1  0.5356  0.7849  0.0000  1\n  O  O10  1  0.2157  0.7585  0.0000  1\n  O  O11  1  0.2561  0.4507  0.0000  1\n  O  O12  1  0.7849  0.5356  0.0000  1\n  O  O13  1  0.7585  0.2157  0.0000  1\n  O  O14  1  0.4507  0.2561  0.0000  1\n  O  O15  1  0.5389  0.5389  0.5000  1\n  O  O16  1  0.4531  0.9990  0.5000  1\n  O  O17  1  0.9990  0.4531  0.5000  1\n  O  O18  1  0.7983  0.7983  0.5000  1\n  O  O19  1  0.1934  0.0134  0.5000  1\n  O  O20  1  0.0134  0.1934  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na3Y3Ir2O2IrO10\n_chemical_formula_sum              \"Na3 Y3 Ir3 O12\"\n_cell_length_a       9.3969\n_cell_length_b       9.3969\n_cell_length_c       3.2572\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    118.3852\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9815  0.9815  0.0000  1.0000\n  Na  Na2       1.0000  0.6982  0.0001  0.5000  1.0000\n  Na  Na3       1.0000  0.0001  0.6982  0.5000  1.0000\n  Y   Y1        1.0000  0.6855  0.3418  0.5000  1.0000\n  Y   Y2        1.0000  0.3418  0.6855  0.5000  1.0000\n  Y   Y3        1.0000  0.2986  0.2986  0.5000  1.0000\n  Ir  Ir1       1.0000  0.6680  0.6680  0.0000  1.0000\n  Ir  Ir2       1.0000  0.3263  0.0025  0.0000  1.0000\n  O   O1        1.0000  0.0025  0.3263  0.0000  1.0000\n  O   O2        1.0000  0.5356  0.7849  0.0000  1.0000\n  Ir  Ir3       1.0000  0.2157  0.7585  0.0000  1.0000\n  O   O3        1.0000  0.2561  0.4507  0.0000  1.0000\n  O   O4        1.0000  0.7849  0.5356  0.0000  1.0000\n  O   O5        1.0000  0.7585  0.2157  0.0000  1.0000\n  O   O6        1.0000  0.4507  0.2561  0.0000  1.0000\n  O   O7        1.0000  0.5389  0.5389  0.5000  1.0000\n  O   O8        1.0000  0.4531  0.9990  0.5000  1.0000\n  O   O9        1.0000  0.9990  0.4531  0.5000  1.0000\n  O   O10       1.0000  0.7983  0.7983  0.5000  1.0000\n  O   O11       1.0000  0.1934  0.0134  0.5000  1.0000\n  O   O12       1.0000  0.0134  0.1934  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9a8da741-e912-4f24-84a1-782b35fb1ae5",
    "mp_id": "mp-1221207",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na4Ca2SiP4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1533\n_cell_length_b   9.1533\n_cell_length_c   6.9856\n_cell_angle_alpha   88.9690\n_cell_angle_beta   88.9690\n_cell_angle_gamma   119.5929\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na4Ca2SiP4\n_chemical_formula_sum   'Na8 Ca4 Si2 P8'\n_cell_volume   508.6016\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.4735  0.9437  0.3892  1\n  Na  Na1  1  0.9437  0.4735  0.8892  1\n  Na  Na2  1  0.8623  0.7194  0.1876  1\n  Na  Na3  1  0.2875  0.1357  0.2184  1\n  Na  Na4  1  0.8496  0.1392  0.2047  1\n  Na  Na5  1  0.1357  0.2875  0.7184  1\n  Na  Na6  1  0.7194  0.8623  0.6876  1\n  Na  Na7  1  0.1392  0.8496  0.7047  1\n  Ca  Ca8  1  0.0525  0.5284  0.3882  1\n  Ca  Ca9  1  0.4794  0.5305  0.3861  1\n  Ca  Ca10  1  0.5284  0.0525  0.8882  1\n  Ca  Ca11  1  0.5305  0.4794  0.8861  1\n  Si  Si12  1  0.6627  0.3295  0.5004  1\n  Si  Si13  1  0.3295  0.6627  0.0004  1\n  P  P14  1  0.6601  0.3358  0.1718  1\n  P  P15  1  0.3358  0.6601  0.6718  1\n  P  P16  1  0.2028  0.3932  0.1238  1\n  P  P17  1  0.6061  0.8007  0.0899  1\n  P  P18  1  0.2015  0.8061  0.1038  1\n  P  P19  1  0.8007  0.6061  0.5899  1\n  P  P20  1  0.3932  0.2028  0.6238  1\n  P  P21  1  0.8061  0.2015  0.6038  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8Ca3SiCaSiP8\n_chemical_formula_sum              \"Na8 Ca4 Si2 P8\"\n_cell_length_a       9.1533\n_cell_length_b       9.1533\n_cell_length_c       6.9856\n_cell_angle_alpha    88.9690\n_cell_angle_beta     88.9690\n_cell_angle_gamma    119.5929\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.4735  0.9437  0.3892  1.0000\n  Na  Na2       1.0000  0.9437  0.4735  0.8892  1.0000\n  Na  Na3       1.0000  0.8623  0.7194  0.1876  1.0000\n  Na  Na4       1.0000  0.2875  0.1357  0.2184  1.0000\n  Na  Na5       1.0000  0.8496  0.1392  0.2047  1.0000\n  Na  Na6       1.0000  0.1357  0.2875  0.7184  1.0000\n  Na  Na7       1.0000  0.7194  0.8623  0.6876  1.0000\n  Na  Na8       1.0000  0.1392  0.8496  0.7047  1.0000\n  Ca  Ca1       1.0000  0.0525  0.5284  0.3882  1.0000\n  Ca  Ca2       1.0000  0.4794  0.5305  0.3861  1.0000\n  Ca  Ca3       1.0000  0.5284  0.0525  0.8882  1.0000\n  Si  Si1       1.0000  0.5305  0.4794  0.8861  1.0000\n  Ca  Ca4       1.0000  0.6627  0.3295  0.5004  1.0000\n  Si  Si2       1.0000  0.3295  0.6627  0.0004  1.0000\n  P   P1        1.0000  0.6601  0.3358  0.1718  1.0000\n  P   P2        1.0000  0.3358  0.6601  0.6718  1.0000\n  P   P3        1.0000  0.2028  0.3932  0.1238  1.0000\n  P   P4        1.0000  0.6061  0.8007  0.0899  1.0000\n  P   P5        1.0000  0.2015  0.8061  0.1038  1.0000\n  P   P6        1.0000  0.8007  0.6061  0.5899  1.0000\n  P   P7        1.0000  0.3932  0.2028  0.6238  1.0000\n  P   P8        1.0000  0.8061  0.2015  0.6038  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e5ede7dc-f490-4e47-b030-4b80f87f5c76",
    "mp_id": "mp-1221380",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3EuTi2Nb2O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5031\n_cell_length_b   5.5864\n_cell_length_c   7.8304\n_cell_angle_alpha   89.9389\n_cell_angle_beta   89.9555\n_cell_angle_gamma   89.7689\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3EuTi2Nb2O12\n_chemical_formula_sum   'Na3 Eu1 Ti2 Nb2 O12'\n_cell_volume   240.7227\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.4966  0.5156  0.7485  1\n  Na  Na1  1  0.0028  0.0133  0.7495  1\n  Na  Na2  1  0.5070  0.4696  0.2500  1\n  Eu  Eu3  1  0.9978  0.9574  0.2500  1\n  Ti  Ti4  1  0.4974  0.9836  0.0075  1\n  Ti  Ti5  1  0.0081  0.4819  0.4938  1\n  Nb  Nb6  1  0.5004  0.9901  0.5120  1\n  Nb  Nb7  1  0.0034  0.4839  0.9869  1\n  O  O8  1  0.2084  0.8008  0.9809  1\n  O  O9  1  0.2820  0.2942  0.5329  1\n  O  O10  1  0.7927  0.2175  0.4592  1\n  O  O11  1  0.7183  0.7333  0.0453  1\n  O  O12  1  0.7895  0.2144  0.0414  1\n  O  O13  1  0.7222  0.7306  0.4554  1\n  O  O14  1  0.2055  0.7964  0.5214  1\n  O  O15  1  0.2883  0.2906  0.9647  1\n  O  O16  1  0.5617  0.9853  0.7544  1\n  O  O17  1  0.9287  0.4979  0.7463  1\n  O  O18  1  0.4239  0.0253  0.2470  1\n  O  O19  1  0.0651  0.5184  0.2529  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na3EuOTiNb2O6TiO5\n_chemical_formula_sum              \"Na3 Eu1 O12 Ti2 Nb2\"\n_cell_length_a       5.5031\n_cell_length_b       5.5864\n_cell_length_c       7.8304\n_cell_angle_alpha    89.9389\n_cell_angle_beta     89.9555\n_cell_angle_gamma    89.7689\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.4966  0.5156  0.7485  1.0000\n  Na  Na2       1.0000  0.0028  0.0133  0.7495  1.0000\n  Na  Na3       1.0000  0.5070  0.4696  0.2500  1.0000\n  Eu  Eu1       1.0000  0.9978  0.9574  0.2500  1.0000\n  O   O1        1.0000  0.4974  0.9836  0.0075  1.0000\n  Ti  Ti1       1.0000  0.0081  0.4819  0.4938  1.0000\n  Nb  Nb1       1.0000  0.5004  0.9901  0.5120  1.0000\n  Nb  Nb2       1.0000  0.0034  0.4839  0.9869  1.0000\n  O   O2        1.0000  0.2084  0.8008  0.9809  1.0000\n  O   O3        1.0000  0.2820  0.2942  0.5329  1.0000\n  O   O4        1.0000  0.7927  0.2175  0.4592  1.0000\n  O   O5        1.0000  0.7183  0.7333  0.0453  1.0000\n  O   O6        1.0000  0.7895  0.2144  0.0414  1.0000\n  O   O7        1.0000  0.7222  0.7306  0.4554  1.0000\n  Ti  Ti2       1.0000  0.2055  0.7964  0.5214  1.0000\n  O   O8        1.0000  0.2883  0.2906  0.9647  1.0000\n  O   O9        1.0000  0.5617  0.9853  0.7544  1.0000\n  O   O10       1.0000  0.9287  0.4979  0.7463  1.0000\n  O   O11       1.0000  0.4239  0.0253  0.2470  1.0000\n  O   O12       1.0000  0.0651  0.5184  0.2529  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3de0f90a-19f9-4778-8a02-77ece4f5bf58",
    "mp_id": "mp-1221838",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3Cr2O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1290\n_cell_length_b   6.1290\n_cell_length_c   5.8933\n_cell_angle_alpha   90.0000\n_cell_angle_beta   58.6679\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3Cr2O8\n_chemical_formula_sum   'Mn3 Cr2 O8'\n_cell_volume   153.3101\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.2500  0.3750  0.3750  1\n  Mn  Mn1  1  0.2500  0.8750  0.3750  1\n  Mn  Mn2  1  0.7500  0.3750  0.3750  1\n  Cr  Cr3  1  0.5075  0.7537  0.7388  1\n  Cr  Cr4  1  0.9925  0.9963  0.0112  1\n  O  O5  1  0.2518  0.1259  0.6223  1\n  O  O6  1  0.7470  0.1137  0.1393  1\n  O  O7  1  0.7470  0.6333  0.1393  1\n  O  O8  1  0.2274  0.1137  0.1393  1\n  O  O9  1  0.2482  0.6241  0.1277  1\n  O  O10  1  0.7530  0.6363  0.6107  1\n  O  O11  1  0.7530  0.1167  0.6107  1\n  O  O12  1  0.2726  0.6363  0.6107  1\n",
    "output": "data_image0\n_chemical_formula_structural       OMn2Cr2O7Mn\n_chemical_formula_sum              \"O8 Mn3 Cr2\"\n_cell_length_a       6.1290\n_cell_length_b       6.1290\n_cell_length_c       5.8933\n_cell_angle_alpha    90.0000\n_cell_angle_beta     58.6679\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2500  0.3750  0.3750  1.0000\n  Mn  Mn1       1.0000  0.2500  0.8750  0.3750  1.0000\n  Mn  Mn2       1.0000  0.7500  0.3750  0.3750  1.0000\n  Cr  Cr1       1.0000  0.5075  0.7537  0.7388  1.0000\n  Cr  Cr2       1.0000  0.9925  0.9963  0.0112  1.0000\n  O   O2        1.0000  0.2518  0.1259  0.6223  1.0000\n  O   O3        1.0000  0.7470  0.1137  0.1393  1.0000\n  O   O4        1.0000  0.7470  0.6333  0.1393  1.0000\n  O   O5        1.0000  0.2274  0.1137  0.1393  1.0000\n  O   O6        1.0000  0.2482  0.6241  0.1277  1.0000\n  O   O7        1.0000  0.7530  0.6363  0.6107  1.0000\n  O   O8        1.0000  0.7530  0.1167  0.6107  1.0000\n  Mn  Mn3       1.0000  0.2726  0.6363  0.6107  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "79978ccd-72e3-4924-a425-8c38c2949191",
    "mp_id": "mp-1221843",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3(Al2Si)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5394\n_cell_length_b   4.5394\n_cell_length_c   12.9620\n_cell_angle_alpha   85.0630\n_cell_angle_beta   85.0630\n_cell_angle_gamma   119.6495\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3(Al2Si)2\n_chemical_formula_sum   'Mn6 Al8 Si4'\n_cell_volume   228.6998\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.1245  0.3755  0.2500  1\n  Mn  Mn1  1  0.4592  0.7094  0.5833  1\n  Mn  Mn2  1  0.7906  0.0408  0.9167  1\n  Mn  Mn3  1  0.2020  0.9503  0.0884  1\n  Mn  Mn4  1  0.5497  0.2980  0.4116  1\n  Mn  Mn5  1  0.8775  0.6225  0.7500  1\n  Al  Al6  1  0.1308  0.0395  0.5816  1\n  Al  Al7  1  0.4605  0.3692  0.9184  1\n  Al  Al8  1  0.8785  0.2897  0.0825  1\n  Al  Al9  1  0.2103  0.6215  0.4175  1\n  Al  Al10  1  0.5440  0.9560  0.7500  1\n  Al  Al11  1  0.5373  0.6292  0.0858  1\n  Al  Al12  1  0.8708  0.9627  0.4142  1\n  Al  Al13  1  0.2051  0.2949  0.7500  1\n  Si  Si14  1  0.4552  0.0448  0.2500  1\n  Si  Si15  1  0.7861  0.3792  0.5826  1\n  Si  Si16  1  0.1208  0.7139  0.9174  1\n  Si  Si17  1  0.7971  0.7029  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn6Al7Si4Al\n_chemical_formula_sum              \"Mn6 Al8 Si4\"\n_cell_length_a       4.5394\n_cell_length_b       4.5394\n_cell_length_c       12.9620\n_cell_angle_alpha    85.0630\n_cell_angle_beta     85.0630\n_cell_angle_gamma    119.6495\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.1245  0.3755  0.2500  1.0000\n  Mn  Mn2       1.0000  0.4592  0.7094  0.5833  1.0000\n  Mn  Mn3       1.0000  0.7906  0.0408  0.9167  1.0000\n  Mn  Mn4       1.0000  0.2020  0.9503  0.0884  1.0000\n  Mn  Mn5       1.0000  0.5497  0.2980  0.4116  1.0000\n  Mn  Mn6       1.0000  0.8775  0.6225  0.7500  1.0000\n  Al  Al1       1.0000  0.1308  0.0395  0.5816  1.0000\n  Al  Al2       1.0000  0.4605  0.3692  0.9184  1.0000\n  Al  Al3       1.0000  0.8785  0.2897  0.0825  1.0000\n  Al  Al4       1.0000  0.2103  0.6215  0.4175  1.0000\n  Al  Al5       1.0000  0.5440  0.9560  0.7500  1.0000\n  Al  Al6       1.0000  0.5373  0.6292  0.0858  1.0000\n  Al  Al7       1.0000  0.8708  0.9626  0.4142  1.0000\n  Si  Si1       1.0000  0.2051  0.2949  0.7500  1.0000\n  Si  Si2       1.0000  0.4552  0.0448  0.2500  1.0000\n  Si  Si3       1.0000  0.7861  0.3792  0.5826  1.0000\n  Si  Si4       1.0000  0.1208  0.7139  0.9174  1.0000\n  Al  Al8       1.0000  0.7971  0.7029  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dfcc6474-c369-4c88-a330-f0e109a04e88",
    "mp_id": "mp-1221998",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2108\n_cell_length_b   6.7780\n_cell_length_c   4.2142\n_cell_angle_alpha   90.0004\n_cell_angle_beta   90.0000\n_cell_angle_gamma   71.9142\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe2O3\n_chemical_formula_sum   'Mg2 Fe4 O6'\n_cell_volume   114.3321\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  1.0000  0.0000  0.0000  1\n  Mg  Mg1  1  0.5000  0.0000  0.5000  1\n  Fe  Fe2  1  0.8262  0.3477  0.5000  1\n  Fe  Fe3  1  0.6738  0.6522  -0.0000  1\n  Fe  Fe4  1  0.3262  0.3477  0.0000  1\n  Fe  Fe5  1  0.1738  0.6522  0.5000  1\n  O  O6  1  0.5000  0.0000  0.0000  1\n  O  O7  1  -0.0000  0.0000  0.5000  1\n  O  O8  1  0.8390  0.3223  0.0000  1\n  O  O9  1  0.3390  0.3222  0.5000  1\n  O  O10  1  0.1611  0.6777  1.0000  1\n  O  O11  1  0.6611  0.6777  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2Fe2OFeOFeO4\n_chemical_formula_sum              \"Mg2 Fe4 O6\"\n_cell_length_a       4.2108\n_cell_length_b       6.7780\n_cell_length_c       4.2142\n_cell_angle_alpha    90.0004\n_cell_angle_beta     90.0000\n_cell_angle_gamma    71.9142\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  1.0000  0.0000  0.0000  1.0000\n  Mg  Mg2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe1       1.0000  0.8262  0.3477  0.5000  1.0000\n  Fe  Fe2       1.0000  0.6738  0.6522  1.0000  1.0000\n  O   O1        1.0000  0.3262  0.3477  0.0000  1.0000\n  Fe  Fe3       1.0000  0.1738  0.6522  0.5000  1.0000\n  O   O2        1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe4       1.0000  1.0000  0.0000  0.5000  1.0000\n  O   O3        1.0000  0.8390  0.3223  0.0000  1.0000\n  O   O4        1.0000  0.3390  0.3222  0.5000  1.0000\n  O   O5        1.0000  0.1611  0.6777  1.0000  1.0000\n  O   O6        1.0000  0.6611  0.6777  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "40c830d3-56a2-49b9-b350-c63f773e4b81",
    "mp_id": "mp-1222146",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgIn2Ga2CuO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3706\n_cell_length_b   5.8944\n_cell_length_c   8.6839\n_cell_angle_alpha   76.6525\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgIn2Ga2CuO8\n_chemical_formula_sum   'Mg1 In2 Ga2 Cu1 O8'\n_cell_volume   167.8693\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.7158  0.3575  1\n  In  In1  1  0.0000  0.9992  0.9990  1\n  In  In2  1  0.5000  0.5013  0.9982  1\n  Ga  Ga3  1  0.0000  0.7886  0.6419  1\n  Ga  Ga4  1  0.0000  0.2055  0.3623  1\n  Cu  Cu5  1  0.5000  0.2865  0.6428  1\n  O  O6  1  0.5000  0.3602  0.3902  1\n  O  O7  1  0.0000  0.8796  0.3867  1\n  O  O8  1  0.5000  0.6457  0.6138  1\n  O  O9  1  0.0000  0.1173  0.6099  1\n  O  O10  1  0.5000  0.2114  0.8762  1\n  O  O11  1  0.0000  0.7067  0.8709  1\n  O  O12  1  0.5000  0.7898  0.1196  1\n  O  O13  1  0.0000  0.2924  0.1311  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgInOGa2CuO4InO3\n_chemical_formula_sum              \"Mg1 In2 O8 Ga2 Cu1\"\n_cell_length_a       3.3706\n_cell_length_b       5.8944\n_cell_length_c       8.6839\n_cell_angle_alpha    76.6525\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.7158  0.3575  1.0000\n  In  In1       1.0000  0.0000  0.9992  0.9990  1.0000\n  O   O1        1.0000  0.5000  0.5013  0.9982  1.0000\n  Ga  Ga1       1.0000  0.0000  0.7886  0.6419  1.0000\n  Ga  Ga2       1.0000  0.0000  0.2055  0.3623  1.0000\n  Cu  Cu1       1.0000  0.5000  0.2865  0.6428  1.0000\n  O   O2        1.0000  0.5000  0.3602  0.3902  1.0000\n  O   O3        1.0000  0.0000  0.8796  0.3867  1.0000\n  O   O4        1.0000  0.5000  0.6457  0.6138  1.0000\n  O   O5        1.0000  0.0000  0.1173  0.6099  1.0000\n  In  In2       1.0000  0.5000  0.2114  0.8762  1.0000\n  O   O6        1.0000  0.0000  0.7067  0.8709  1.0000\n  O   O7        1.0000  0.5000  0.7898  0.1196  1.0000\n  O   O8        1.0000  0.0000  0.2924  0.1311  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b0d0602d-fca8-4418-87c9-bd4dcc3f7878",
    "mp_id": "mp-1222327",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiNd(MoO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8503\n_cell_length_b   6.8503\n_cell_length_c   6.8503\n_cell_angle_alpha   134.4107\n_cell_angle_beta   134.4107\n_cell_angle_gamma   66.4473\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiNd(MoO4)2\n_chemical_formula_sum   'Li1 Nd1 Mo2 O8'\n_cell_volume   161.4604\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7500  0.2500  0.5000  1\n  Nd  Nd1  1  0.5000  0.5000  0.0000  1\n  Mo  Mo2  1  0.2500  0.7500  0.5000  1\n  Mo  Mo3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.4852  0.5944  0.4060  1\n  O  O5  1  0.1884  0.0792  0.5940  1\n  O  O6  1  0.3301  0.2351  0.3974  1\n  O  O7  1  0.8377  0.9327  0.6026  1\n  O  O8  1  0.7649  0.1623  0.0950  1\n  O  O9  1  0.0673  0.6699  0.9050  1\n  O  O10  1  0.9208  0.5148  0.1092  1\n  O  O11  1  0.4056  0.8116  0.8908  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOMo2O4NdO3\n_chemical_formula_sum              \"Li1 O8 Mo2 Nd1\"\n_cell_length_a       6.8503\n_cell_length_b       6.8503\n_cell_length_c       6.8503\n_cell_angle_alpha    134.4107\n_cell_angle_beta     134.4107\n_cell_angle_gamma    66.4473\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7500  0.2500  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Mo  Mo1       1.0000  0.2500  0.7500  0.5000  1.0000\n  Mo  Mo2       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.4852  0.5944  0.4060  1.0000\n  O   O3        1.0000  0.1884  0.0792  0.5940  1.0000\n  O   O4        1.0000  0.3301  0.2351  0.3974  1.0000\n  O   O5        1.0000  0.8377  0.9327  0.6026  1.0000\n  Nd  Nd1       1.0000  0.7649  0.1623  0.0950  1.0000\n  O   O6        1.0000  0.0673  0.6699  0.9050  1.0000\n  O   O7        1.0000  0.9208  0.5148  0.1092  1.0000\n  O   O8        1.0000  0.4056  0.8116  0.8908  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9d84ea72-b85b-4fec-bb99-d4a7e2e55f1c",
    "mp_id": "mp-1222509",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4WO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1620\n_cell_length_b   5.1620\n_cell_length_c   5.3089\n_cell_angle_alpha   76.7377\n_cell_angle_beta   76.7377\n_cell_angle_gamma   116.1276\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4WO6\n_chemical_formula_sum   'Li4 W1 O6'\n_cell_volume   114.4408\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8178  0.1822  0.5000  1\n  Li  Li1  1  0.3449  0.6551  0.0000  1\n  Li  Li2  1  0.6551  0.3449  0.0000  1\n  Li  Li3  1  0.1822  0.8178  0.5000  1\n  W  W4  1  0.0000  0.0000  0.0000  1\n  O  O5  1  0.3898  0.0659  0.7645  1\n  O  O6  1  0.9341  0.6102  0.2355  1\n  O  O7  1  0.0659  0.3898  0.7645  1\n  O  O8  1  0.6102  0.9341  0.2355  1\n  O  O9  1  0.7869  0.7869  0.7849  1\n  O  O10  1  0.2131  0.2131  0.2151  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOLi2WO5Li\n_chemical_formula_sum              \"Li4 O6 W1\"\n_cell_length_a       5.1620\n_cell_length_b       5.1620\n_cell_length_c       5.3089\n_cell_angle_alpha    76.7377\n_cell_angle_beta     76.7377\n_cell_angle_gamma    116.1276\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8178  0.1822  0.5000  1.0000\n  O   O1        1.0000  0.3449  0.6551  0.0000  1.0000\n  Li  Li2       1.0000  0.6551  0.3449  0.0000  1.0000\n  Li  Li3       1.0000  0.1822  0.8178  0.5000  1.0000\n  W   W1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.3898  0.0659  0.7645  1.0000\n  O   O3        1.0000  0.9341  0.6102  0.2355  1.0000\n  O   O4        1.0000  0.0659  0.3898  0.7645  1.0000\n  O   O5        1.0000  0.6102  0.9341  0.2355  1.0000\n  O   O6        1.0000  0.7869  0.7869  0.7849  1.0000\n  Li  Li4       1.0000  0.2131  0.2131  0.2151  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "de745461-9656-4944-9c20-eb59746b2fa0",
    "mp_id": "mp-1222563",
    "action_prompt": "Swap the spatial positions of atoms at indices 39 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Sc3In(SiO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7368\n_cell_length_b   7.4845\n_cell_length_c   9.6741\n_cell_angle_alpha   102.7487\n_cell_angle_beta   101.7473\n_cell_angle_gamma   96.2766\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Sc3In(SiO3)8\n_chemical_formula_sum   'Li4 Sc3 In1 Si8 O24'\n_cell_volume   459.6818\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7477  0.2508  0.4990  1\n  Li  Li1  1  0.7489  0.7509  0.9993  1\n  Li  Li2  1  0.2521  0.7494  0.5004  1\n  Li  Li3  1  0.2513  0.2490  0.0013  1\n  Sc  Sc4  1  0.3914  0.4291  0.3209  1\n  Sc  Sc5  1  0.6096  0.0721  0.1809  1\n  Sc  Sc6  1  0.6084  0.5689  0.6781  1\n  In  In7  1  0.3949  0.9277  0.8222  1\n  Si  Si8  1  0.8852  0.9962  0.7812  1\n  Si  Si9  1  0.8858  0.4954  0.2818  1\n  Si  Si10  1  0.2858  0.1692  0.5533  1\n  Si  Si11  1  0.2856  0.6680  0.0549  1\n  Si  Si12  1  0.1140  0.0051  0.2178  1\n  Si  Si13  1  0.1133  0.5037  0.7181  1\n  Si  Si14  1  0.7131  0.8312  0.4455  1\n  Si  Si15  1  0.7141  0.3328  0.9458  1\n  O  O16  1  0.8430  0.7079  0.3426  1\n  O  O17  1  0.8407  0.2082  0.8417  1\n  O  O18  1  0.1335  0.0543  0.3955  1\n  O  O19  1  0.1347  0.5537  0.8961  1\n  O  O20  1  0.1563  0.2913  0.6573  1\n  O  O21  1  0.1564  0.7922  0.1575  1\n  O  O22  1  0.8655  0.9469  0.6034  1\n  O  O23  1  0.8659  0.4476  0.1039  1\n  O  O24  1  0.1155  0.9928  0.8684  1\n  O  O25  1  0.1198  0.4887  0.3619  1\n  O  O26  1  0.3757  0.0121  0.6269  1\n  O  O27  1  0.3730  0.5144  0.1346  1\n  O  O28  1  0.8796  0.0111  0.1379  1\n  O  O29  1  0.8798  0.5109  0.6377  1\n  O  O30  1  0.6269  0.9853  0.3656  1\n  O  O31  1  0.6269  0.4862  0.8653  1\n  O  O32  1  0.7070  0.8456  0.8094  1\n  O  O33  1  0.7051  0.3477  0.3097  1\n  O  O34  1  0.4615  0.3201  0.5233  1\n  O  O35  1  0.4642  0.8177  0.0265  1\n  O  O36  1  0.2957  0.1526  0.1908  1\n  O  O37  1  0.2944  0.6471  0.6865  1\n  O  O38  1  0.5383  0.6804  0.4760  1\n  O  O39  1  0.5393  0.1860  0.9806  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Sc3InSi3OSi4O23Si\n_chemical_formula_sum              \"Li4 Sc3 In1 Si8 O24\"\n_cell_length_a       6.7368\n_cell_length_b       7.4845\n_cell_length_c       9.6741\n_cell_angle_alpha    102.7487\n_cell_angle_beta     101.7473\n_cell_angle_gamma    96.2766\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7477  0.2508  0.4990  1.0000\n  Li  Li2       1.0000  0.7489  0.7509  0.9993  1.0000\n  Li  Li3       1.0000  0.2521  0.7494  0.5004  1.0000\n  Li  Li4       1.0000  0.2513  0.2490  0.0013  1.0000\n  Sc  Sc1       1.0000  0.3914  0.4291  0.3209  1.0000\n  Sc  Sc2       1.0000  0.6096  0.0721  0.1809  1.0000\n  Sc  Sc3       1.0000  0.6084  0.5689  0.6781  1.0000\n  In  In1       1.0000  0.3949  0.9277  0.8222  1.0000\n  Si  Si1       1.0000  0.8852  0.9962  0.7812  1.0000\n  Si  Si2       1.0000  0.8858  0.4954  0.2818  1.0000\n  Si  Si3       1.0000  0.2858  0.1692  0.5533  1.0000\n  O   O1        1.0000  0.2856  0.6680  0.0549  1.0000\n  Si  Si4       1.0000  0.1140  0.0051  0.2178  1.0000\n  Si  Si5       1.0000  0.1133  0.5037  0.7181  1.0000\n  Si  Si6       1.0000  0.7131  0.8312  0.4455  1.0000\n  Si  Si7       1.0000  0.7141  0.3328  0.9458  1.0000\n  O   O2        1.0000  0.8430  0.7079  0.3426  1.0000\n  O   O3        1.0000  0.8407  0.2082  0.8417  1.0000\n  O   O4        1.0000  0.1335  0.0543  0.3955  1.0000\n  O   O5        1.0000  0.1347  0.5537  0.8961  1.0000\n  O   O6        1.0000  0.1563  0.2913  0.6573  1.0000\n  O   O7        1.0000  0.1564  0.7922  0.1575  1.0000\n  O   O8        1.0000  0.8655  0.9469  0.6034  1.0000\n  O   O9        1.0000  0.8659  0.4476  0.1039  1.0000\n  O   O10       1.0000  0.1155  0.9928  0.8684  1.0000\n  O   O11       1.0000  0.1198  0.4887  0.3619  1.0000\n  O   O12       1.0000  0.3757  0.0121  0.6269  1.0000\n  O   O13       1.0000  0.3730  0.5144  0.1346  1.0000\n  O   O14       1.0000  0.8796  0.0111  0.1379  1.0000\n  O   O15       1.0000  0.8798  0.5109  0.6377  1.0000\n  O   O16       1.0000  0.6269  0.9853  0.3656  1.0000\n  O   O17       1.0000  0.6269  0.4862  0.8653  1.0000\n  O   O18       1.0000  0.7070  0.8456  0.8094  1.0000\n  O   O19       1.0000  0.7051  0.3477  0.3097  1.0000\n  O   O20       1.0000  0.4615  0.3201  0.5233  1.0000\n  O   O21       1.0000  0.4642  0.8177  0.0265  1.0000\n  O   O22       1.0000  0.2957  0.1526  0.1908  1.0000\n  O   O23       1.0000  0.2944  0.6471  0.6865  1.0000\n  O   O24       1.0000  0.5383  0.6804  0.4760  1.0000\n  Si  Si8       1.0000  0.5393  0.1860  0.9806  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f0e28e06-adae-4201-a31b-1349f725d0bc",
    "mp_id": "mp-1222827",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaPr(MnSi)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9966\n_cell_length_b   3.9966\n_cell_length_c   10.5884\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaPr(MnSi)4\n_chemical_formula_sum   'La1 Pr1 Mn4 Si4'\n_cell_volume   169.1233\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.0000  0.0000  0.0000  1\n  Pr  Pr1  1  0.5000  0.5000  0.5000  1\n  Mn  Mn2  1  0.0000  0.5000  0.2507  1\n  Mn  Mn3  1  0.5000  0.0000  0.7493  1\n  Mn  Mn4  1  0.5000  0.0000  0.2507  1\n  Mn  Mn5  1  0.0000  0.5000  0.7493  1\n  Si  Si6  1  0.5000  0.5000  0.1286  1\n  Si  Si7  1  0.0000  0.0000  0.6264  1\n  Si  Si8  1  0.0000  0.0000  0.3736  1\n  Si  Si9  1  0.5000  0.5000  0.8714  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnPrMnLaMn2Si4\n_chemical_formula_sum              \"Mn4 Pr1 La1 Si4\"\n_cell_length_a       3.9966\n_cell_length_b       3.9966\n_cell_length_c       10.5884\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pr  Pr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.0000  0.5000  0.2507  1.0000\n  La  La1       1.0000  0.5000  0.0000  0.7493  1.0000\n  Mn  Mn3       1.0000  0.5000  0.0000  0.2507  1.0000\n  Mn  Mn4       1.0000  0.0000  0.5000  0.7493  1.0000\n  Si  Si1       1.0000  0.5000  0.5000  0.1286  1.0000\n  Si  Si2       1.0000  0.0000  0.0000  0.6264  1.0000\n  Si  Si3       1.0000  0.0000  0.0000  0.3736  1.0000\n  Si  Si4       1.0000  0.5000  0.5000  0.8714  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2a53e486-db7c-428e-be47-6822942bc219",
    "mp_id": "mp-1223169",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La3YHf4O14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5564\n_cell_length_b   7.5564\n_cell_length_c   7.5564\n_cell_angle_alpha   58.6149\n_cell_angle_beta   58.6149\n_cell_angle_gamma   58.6149\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La3YHf4O14\n_chemical_formula_sum   'La3 Y1 Hf4 O14'\n_cell_volume   295.4301\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.0000  0.5000  0.5000  1\n  La  La1  1  0.5000  0.5000  0.0000  1\n  La  La2  1  0.5000  0.0000  0.5000  1\n  Y  Y3  1  0.5000  0.5000  0.5000  1\n  Hf  Hf4  1  0.0000  0.0000  0.0000  1\n  Hf  Hf5  1  0.5000  0.0000  0.0000  1\n  Hf  Hf6  1  0.0000  0.0000  0.5000  1\n  Hf  Hf7  1  0.0000  0.5000  0.0000  1\n  O  O8  1  0.1321  0.1321  0.1321  1\n  O  O9  1  0.8679  0.8679  0.8679  1\n  O  O10  1  0.8749  0.3731  0.3731  1\n  O  O11  1  0.3595  0.8915  0.8915  1\n  O  O12  1  0.3731  0.3731  0.8749  1\n  O  O13  1  0.8915  0.8915  0.3595  1\n  O  O14  1  0.8915  0.3595  0.8915  1\n  O  O15  1  0.3731  0.8749  0.3731  1\n  O  O16  1  0.1251  0.6269  0.6269  1\n  O  O17  1  0.6405  0.1085  0.1085  1\n  O  O18  1  0.6269  0.6269  0.1251  1\n  O  O19  1  0.1085  0.1085  0.6405  1\n  O  O20  1  0.1085  0.6405  0.1085  1\n  O  O21  1  0.6269  0.1251  0.6269  1\n",
    "output": "data_image0\n_chemical_formula_structural       La2OYHf4O9LaO4\n_chemical_formula_sum              \"La3 O14 Y1 Hf4\"\n_cell_length_a       7.5564\n_cell_length_b       7.5564\n_cell_length_c       7.5564\n_cell_angle_alpha    58.6149\n_cell_angle_beta     58.6149\n_cell_angle_gamma    58.6149\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.0000  0.5000  0.5000  1.0000\n  La  La2       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.0000  0.5000  1.0000\n  Y   Y1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Hf  Hf1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Hf  Hf2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Hf  Hf3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Hf  Hf4       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.1321  0.1321  0.1321  1.0000\n  O   O3        1.0000  0.8679  0.8679  0.8679  1.0000\n  O   O4        1.0000  0.8749  0.3731  0.3731  1.0000\n  O   O5        1.0000  0.3595  0.8915  0.8915  1.0000\n  O   O6        1.0000  0.3731  0.3731  0.8749  1.0000\n  O   O7        1.0000  0.8915  0.8915  0.3595  1.0000\n  O   O8        1.0000  0.8915  0.3595  0.8915  1.0000\n  O   O9        1.0000  0.3731  0.8749  0.3731  1.0000\n  O   O10       1.0000  0.1251  0.6269  0.6269  1.0000\n  La  La3       1.0000  0.6405  0.1085  0.1085  1.0000\n  O   O11       1.0000  0.6269  0.6269  0.1251  1.0000\n  O   O12       1.0000  0.1085  0.1085  0.6405  1.0000\n  O   O13       1.0000  0.1085  0.6405  0.1085  1.0000\n  O   O14       1.0000  0.6269  0.1251  0.6269  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b2cdc1e9-9728-4082-a493-0ea1b68222e8",
    "mp_id": "mp-1223295",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2MgZr2H4(OF3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9082\n_cell_length_b   6.9321\n_cell_length_c   7.5372\n_cell_angle_alpha   64.4040\n_cell_angle_beta   89.8481\n_cell_angle_gamma   73.8498\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2MgZr2H4(OF3)4\n_chemical_formula_sum   'Li2 Mg1 Zr2 H4 O4 F12'\n_cell_volume   309.7816\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0722  0.4733  0.3248  1\n  Li  Li1  1  0.9278  0.5267  0.6752  1\n  Mg  Mg2  1  0.5000  0.0000  0.0000  1\n  Zr  Zr3  1  0.9989  0.9910  0.7504  1\n  Zr  Zr4  1  0.0011  0.0090  0.2496  1\n  H  H5  1  0.2482  0.4505  0.8619  1\n  H  H6  1  0.7518  0.5495  0.1381  1\n  H  H7  1  0.4642  0.4394  0.7975  1\n  H  H8  1  0.5358  0.5606  0.2025  1\n  O  O9  1  0.3818  0.3447  0.8719  1\n  O  O10  1  0.6182  0.6553  0.1281  1\n  O  O11  1  0.3979  0.3472  0.3308  1\n  O  O12  1  0.6021  0.6528  0.6692  1\n  F  F13  1  0.0351  0.6588  0.8119  1\n  F  F14  1  0.9649  0.3412  0.1881  1\n  F  F15  1  0.2917  0.9709  0.8321  1\n  F  F16  1  0.7083  0.0291  0.1679  1\n  F  F17  1  0.0428  0.7925  0.0824  1\n  F  F18  1  0.9572  0.2074  0.9176  1\n  F  F19  1  0.6991  0.0348  0.8039  1\n  F  F20  1  0.3009  0.9652  0.1961  1\n  F  F21  1  0.1777  0.9719  0.5146  1\n  F  F22  1  0.8223  0.0281  0.4854  1\n  F  F23  1  0.9376  0.3289  0.5543  1\n  F  F24  1  0.0624  0.6711  0.4457  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2MgZr2H2FHO4F3HF8\n_chemical_formula_sum              \"Li2 Mg1 Zr2 H4 F12 O4\"\n_cell_length_a       6.9082\n_cell_length_b       6.9321\n_cell_length_c       7.5372\n_cell_angle_alpha    64.4040\n_cell_angle_beta     89.8481\n_cell_angle_gamma    73.8498\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0722  0.4733  0.3248  1.0000\n  Li  Li2       1.0000  0.9278  0.5267  0.6752  1.0000\n  Mg  Mg1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Zr  Zr1       1.0000  0.9989  0.9910  0.7504  1.0000\n  Zr  Zr2       1.0000  0.0011  0.0090  0.2496  1.0000\n  H   H1        1.0000  0.2482  0.4505  0.8619  1.0000\n  H   H2        1.0000  0.7518  0.5495  0.1381  1.0000\n  F   F1        1.0000  0.4642  0.4394  0.7975  1.0000\n  H   H3        1.0000  0.5358  0.5606  0.2025  1.0000\n  O   O1        1.0000  0.3818  0.3447  0.8719  1.0000\n  O   O2        1.0000  0.6182  0.6553  0.1281  1.0000\n  O   O3        1.0000  0.3979  0.3472  0.3308  1.0000\n  O   O4        1.0000  0.6021  0.6528  0.6692  1.0000\n  F   F2        1.0000  0.0351  0.6588  0.8119  1.0000\n  F   F3        1.0000  0.9649  0.3412  0.1881  1.0000\n  F   F4        1.0000  0.2917  0.9709  0.8321  1.0000\n  H   H4        1.0000  0.7083  0.0291  0.1679  1.0000\n  F   F5        1.0000  0.0428  0.7925  0.0824  1.0000\n  F   F6        1.0000  0.9572  0.2074  0.9176  1.0000\n  F   F7        1.0000  0.6991  0.0348  0.8039  1.0000\n  F   F8        1.0000  0.3009  0.9652  0.1961  1.0000\n  F   F9        1.0000  0.1777  0.9719  0.5146  1.0000\n  F   F10       1.0000  0.8223  0.0281  0.4854  1.0000\n  F   F11       1.0000  0.9376  0.3289  0.5543  1.0000\n  F   F12       1.0000  0.0624  0.6711  0.4457  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "954c651d-df78-4b83-825b-fd71fc7cf577",
    "mp_id": "mp-1223429",
    "action_prompt": "Swap the spatial positions of atoms at indices 39 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KNaP6(PbO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7762\n_cell_length_b   9.7762\n_cell_length_c   7.2237\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KNaP6(PbO3)8\n_chemical_formula_sum   'K1 Na1 P6 Pb8 O24'\n_cell_volume   597.8972\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6667  0.3333  0.5169  1\n  Na  Na1  1  0.0000  0.0000  0.9983  1\n  P  P2  1  0.3467  0.2863  0.7548  1\n  P  P3  1  0.9396  0.6533  0.7548  1\n  P  P4  1  0.7137  0.0604  0.7548  1\n  P  P5  1  0.3086  0.0407  0.2411  1\n  P  P6  1  0.7321  0.6914  0.2411  1\n  P  P7  1  0.9593  0.2679  0.2411  1\n  Pb  Pb8  1  0.3345  0.4081  0.2467  1\n  Pb  Pb9  1  0.0735  0.6655  0.2467  1\n  Pb  Pb10  1  0.5919  0.9265  0.2467  1\n  Pb  Pb11  1  0.3274  0.9154  0.7519  1\n  Pb  Pb12  1  0.5879  0.6726  0.7519  1\n  Pb  Pb13  1  0.0846  0.4121  0.7519  1\n  Pb  Pb14  1  0.6667  0.3333  0.0142  1\n  Pb  Pb15  1  0.0000  0.0000  0.5121  1\n  O  O16  1  0.1654  0.1899  0.7601  1\n  O  O17  1  0.0245  0.8346  0.7601  1\n  O  O18  1  0.8101  0.9755  0.7601  1\n  O  O19  1  0.4883  0.1462  0.2445  1\n  O  O20  1  0.6579  0.5117  0.2445  1\n  O  O21  1  0.8538  0.3421  0.2445  1\n  O  O22  1  0.4172  0.1753  0.7641  1\n  O  O23  1  0.7582  0.5828  0.7641  1\n  O  O24  1  0.8247  0.2418  0.7641  1\n  O  O25  1  0.2274  0.1414  0.2190  1\n  O  O26  1  0.9140  0.7726  0.2190  1\n  O  O27  1  0.8586  0.0860  0.2190  1\n  O  O28  1  0.4139  0.4009  0.9215  1\n  O  O29  1  0.9870  0.5861  0.9215  1\n  O  O30  1  0.5991  0.0130  0.9215  1\n  O  O31  1  0.2454  0.9428  0.4209  1\n  O  O32  1  0.6974  0.7546  0.4209  1\n  O  O33  1  0.0572  0.3026  0.4209  1\n  O  O34  1  0.2565  0.9200  0.0813  1\n  O  O35  1  0.6635  0.7435  0.0813  1\n  O  O36  1  0.0800  0.3365  0.0813  1\n  O  O37  1  0.4070  0.3892  0.5803  1\n  O  O38  1  0.9823  0.5930  0.5803  1\n  O  O39  1  0.6108  0.0177  0.5803  1\n",
    "output": "data_image0\n_chemical_formula_structural       KNaP6Pb2OPb5O23Pb\n_chemical_formula_sum              \"K1 Na1 P6 Pb8 O24\"\n_cell_length_a       9.7762\n_cell_length_b       9.7762\n_cell_length_c       7.2237\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6667  0.3333  0.5169  1.0000\n  Na  Na1       1.0000  0.0000  0.0000  0.9983  1.0000\n  P   P1        1.0000  0.3467  0.2863  0.7548  1.0000\n  P   P2        1.0000  0.9396  0.6533  0.7548  1.0000\n  P   P3        1.0000  0.7137  0.0604  0.7548  1.0000\n  P   P4        1.0000  0.3086  0.0407  0.2411  1.0000\n  P   P5        1.0000  0.7321  0.6914  0.2411  1.0000\n  P   P6        1.0000  0.9593  0.2679  0.2411  1.0000\n  Pb  Pb1       1.0000  0.3345  0.4081  0.2467  1.0000\n  Pb  Pb2       1.0000  0.0735  0.6655  0.2467  1.0000\n  O   O1        1.0000  0.5919  0.9265  0.2467  1.0000\n  Pb  Pb3       1.0000  0.3274  0.9154  0.7519  1.0000\n  Pb  Pb4       1.0000  0.5879  0.6726  0.7519  1.0000\n  Pb  Pb5       1.0000  0.0846  0.4121  0.7519  1.0000\n  Pb  Pb6       1.0000  0.6667  0.3333  0.0142  1.0000\n  Pb  Pb7       1.0000  0.0000  0.0000  0.5121  1.0000\n  O   O2        1.0000  0.1654  0.1899  0.7601  1.0000\n  O   O3        1.0000  0.0245  0.8346  0.7601  1.0000\n  O   O4        1.0000  0.8101  0.9755  0.7601  1.0000\n  O   O5        1.0000  0.4883  0.1462  0.2445  1.0000\n  O   O6        1.0000  0.6579  0.5117  0.2445  1.0000\n  O   O7        1.0000  0.8538  0.3421  0.2445  1.0000\n  O   O8        1.0000  0.4172  0.1753  0.7641  1.0000\n  O   O9        1.0000  0.7582  0.5828  0.7641  1.0000\n  O   O10       1.0000  0.8247  0.2418  0.7641  1.0000\n  O   O11       1.0000  0.2274  0.1414  0.2190  1.0000\n  O   O12       1.0000  0.9140  0.7726  0.2190  1.0000\n  O   O13       1.0000  0.8586  0.0860  0.2190  1.0000\n  O   O14       1.0000  0.4139  0.4009  0.9215  1.0000\n  O   O15       1.0000  0.9870  0.5861  0.9215  1.0000\n  O   O16       1.0000  0.5991  0.0130  0.9215  1.0000\n  O   O17       1.0000  0.2454  0.9428  0.4209  1.0000\n  O   O18       1.0000  0.6974  0.7546  0.4209  1.0000\n  O   O19       1.0000  0.0572  0.3026  0.4209  1.0000\n  O   O20       1.0000  0.2565  0.9200  0.0813  1.0000\n  O   O21       1.0000  0.6635  0.7435  0.0813  1.0000\n  O   O22       1.0000  0.0800  0.3365  0.0813  1.0000\n  O   O23       1.0000  0.4070  0.3892  0.5803  1.0000\n  O   O24       1.0000  0.9823  0.5930  0.5803  1.0000\n  Pb  Pb8       1.0000  0.6108  0.0177  0.5803  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "add58fec-8508-445c-9693-016a492cf6f7",
    "mp_id": "mp-1223578",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KMg2AlFe(SiO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.2334\n_cell_length_b   10.6703\n_cell_length_c   11.4034\n_cell_angle_alpha   113.9811\n_cell_angle_beta   82.6101\n_cell_angle_gamma   90.7278\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KMg2AlFe(SiO4)3\n_chemical_formula_sum   'K4 Mg8 Al4 Fe4 Si12 O48'\n_cell_volume   1017.0186\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2477  0.6351  0.0267  1\n  K  K1  1  0.2477  0.1351  0.0267  1\n  K  K2  1  0.7477  0.3851  0.0267  1\n  K  K3  1  0.7477  0.8851  0.0267  1\n  Mg  Mg4  1  0.1695  0.9943  0.4954  1\n  Mg  Mg5  1  0.1696  0.4943  0.4953  1\n  Mg  Mg6  1  0.6696  0.7443  0.4953  1\n  Mg  Mg7  1  0.6696  0.2443  0.4953  1\n  Mg  Mg8  1  0.3306  0.7531  0.4961  1\n  Mg  Mg9  1  0.3306  0.2532  0.4961  1\n  Mg  Mg10  1  0.8306  0.5032  0.4961  1\n  Mg  Mg11  1  0.8306  0.0032  0.4961  1\n  Al  Al12  1  0.0489  0.9735  0.2275  1\n  Al  Al13  1  0.0489  0.4735  0.2275  1\n  Al  Al14  1  0.5489  0.7236  0.2275  1\n  Al  Al15  1  0.5489  0.2236  0.2275  1\n  Fe  Fe16  1  0.4970  0.9957  0.4957  1\n  Fe  Fe17  1  0.9970  0.7455  0.4956  1\n  Fe  Fe18  1  0.4971  0.4957  0.4956  1\n  Fe  Fe19  1  0.9970  0.2456  0.4956  1\n  Si  Si20  1  0.3826  0.4692  0.2236  1\n  Si  Si21  1  0.3826  0.9692  0.2236  1\n  Si  Si22  1  0.8826  0.2192  0.2236  1\n  Si  Si23  1  0.8826  0.7192  0.2236  1\n  Si  Si24  1  0.4531  0.7759  0.7686  1\n  Si  Si25  1  0.4531  0.2759  0.7686  1\n  Si  Si26  1  0.9531  0.5259  0.7686  1\n  Si  Si27  1  0.9531  0.0260  0.7686  1\n  Si  Si28  1  0.1206  0.2776  0.7686  1\n  Si  Si29  1  0.1205  0.7776  0.7686  1\n  Si  Si30  1  0.6206  0.0276  0.7686  1\n  Si  Si31  1  0.6206  0.5276  0.7686  1\n  O  O32  1  0.5025  0.3413  0.1669  1\n  O  O33  1  0.5025  0.8413  0.1669  1\n  O  O34  1  0.0025  0.0913  0.1668  1\n  O  O35  1  0.0025  0.5913  0.1668  1\n  O  O36  1  0.0254  0.9256  0.8265  1\n  O  O37  1  0.0254  0.4255  0.8264  1\n  O  O38  1  0.5254  0.6755  0.8265  1\n  O  O39  1  0.5254  0.1756  0.8265  1\n  O  O40  1  0.4371  0.5845  0.1710  1\n  O  O41  1  0.4371  0.0845  0.1710  1\n  O  O42  1  0.9371  0.3345  0.1709  1\n  O  O43  1  0.9371  0.8345  0.1710  1\n  O  O44  1  0.2295  0.9129  0.1693  1\n  O  O45  1  0.2295  0.4129  0.1693  1\n  O  O46  1  0.7295  0.6629  0.1693  1\n  O  O47  1  0.7295  0.1629  0.1693  1\n  O  O48  1  0.0312  0.1754  0.8263  1\n  O  O49  1  0.0312  0.6753  0.8263  1\n  O  O50  1  0.5312  0.9253  0.8263  1\n  O  O51  1  0.5312  0.4253  0.8263  1\n  O  O52  1  0.2780  0.8060  0.8280  1\n  O  O53  1  0.2780  0.3060  0.8280  1\n  O  O54  1  0.7780  0.5560  0.8280  1\n  O  O55  1  0.7780  0.0560  0.8280  1\n  O  O56  1  0.0187  0.0448  0.4001  1\n  O  O57  1  0.0187  0.5448  0.4001  1\n  O  O58  1  0.5187  0.7948  0.4001  1\n  O  O59  1  0.5187  0.2948  0.4001  1\n  O  O60  1  0.3543  0.5367  0.3869  1\n  O  O61  1  0.3543  0.0367  0.3870  1\n  O  O62  1  0.8543  0.2867  0.3869  1\n  O  O63  1  0.8542  0.7867  0.3869  1\n  O  O64  1  0.4793  0.7104  0.6106  1\n  O  O65  1  0.4793  0.2104  0.6106  1\n  O  O66  1  0.9792  0.4605  0.6106  1\n  O  O67  1  0.9792  0.9605  0.6106  1\n  O  O68  1  0.1495  0.2122  0.6113  1\n  O  O69  1  0.1495  0.7123  0.6114  1\n  O  O70  1  0.6495  0.9623  0.6114  1\n  O  O71  1  0.6495  0.4623  0.6114  1\n  O  O72  1  0.1588  0.7847  0.4115  1\n  O  O73  1  0.1589  0.2847  0.4115  1\n  O  O74  1  0.6589  0.5346  0.4113  1\n  O  O75  1  0.6588  0.0346  0.4114  1\n  O  O76  1  0.3356  0.9660  0.5897  1\n  O  O77  1  0.3357  0.4660  0.5896  1\n  O  O78  1  0.8356  0.7160  0.5898  1\n  O  O79  1  0.8357  0.2161  0.5897  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Mg8AlOAl2Fe4Si12O7AlO40\n_chemical_formula_sum              \"K4 Mg8 Al4 O48 Fe4 Si12\"\n_cell_length_a       9.2334\n_cell_length_b       10.6703\n_cell_length_c       11.4034\n_cell_angle_alpha    113.9811\n_cell_angle_beta     82.6101\n_cell_angle_gamma    90.7278\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2477  0.6351  0.0267  1.0000\n  K   K2        1.0000  0.2477  0.1351  0.0267  1.0000\n  K   K3        1.0000  0.7477  0.3851  0.0267  1.0000\n  K   K4        1.0000  0.7477  0.8851  0.0267  1.0000\n  Mg  Mg1       1.0000  0.1695  0.9943  0.4954  1.0000\n  Mg  Mg2       1.0000  0.1696  0.4943  0.4953  1.0000\n  Mg  Mg3       1.0000  0.6696  0.7443  0.4953  1.0000\n  Mg  Mg4       1.0000  0.6696  0.2443  0.4953  1.0000\n  Mg  Mg5       1.0000  0.3306  0.7531  0.4961  1.0000\n  Mg  Mg6       1.0000  0.3306  0.2532  0.4961  1.0000\n  Mg  Mg7       1.0000  0.8306  0.5032  0.4961  1.0000\n  Mg  Mg8       1.0000  0.8306  0.0032  0.4961  1.0000\n  Al  Al1       1.0000  0.0489  0.9735  0.2275  1.0000\n  O   O1        1.0000  0.0489  0.4735  0.2275  1.0000\n  Al  Al2       1.0000  0.5489  0.7236  0.2275  1.0000\n  Al  Al3       1.0000  0.5489  0.2236  0.2275  1.0000\n  Fe  Fe1       1.0000  0.4970  0.9957  0.4957  1.0000\n  Fe  Fe2       1.0000  0.9970  0.7455  0.4956  1.0000\n  Fe  Fe3       1.0000  0.4971  0.4957  0.4956  1.0000\n  Fe  Fe4       1.0000  0.9970  0.2456  0.4956  1.0000\n  Si  Si1       1.0000  0.3826  0.4692  0.2236  1.0000\n  Si  Si2       1.0000  0.3826  0.9692  0.2236  1.0000\n  Si  Si3       1.0000  0.8826  0.2192  0.2236  1.0000\n  Si  Si4       1.0000  0.8826  0.7192  0.2236  1.0000\n  Si  Si5       1.0000  0.4531  0.7759  0.7686  1.0000\n  Si  Si6       1.0000  0.4531  0.2759  0.7686  1.0000\n  Si  Si7       1.0000  0.9531  0.5259  0.7686  1.0000\n  Si  Si8       1.0000  0.9531  0.0260  0.7686  1.0000\n  Si  Si9       1.0000  0.1206  0.2776  0.7686  1.0000\n  Si  Si10      1.0000  0.1205  0.7776  0.7686  1.0000\n  Si  Si11      1.0000  0.6206  0.0276  0.7686  1.0000\n  Si  Si12      1.0000  0.6206  0.5276  0.7686  1.0000\n  O   O2        1.0000  0.5025  0.3413  0.1669  1.0000\n  O   O3        1.0000  0.5025  0.8413  0.1669  1.0000\n  O   O4        1.0000  0.0025  0.0913  0.1668  1.0000\n  O   O5        1.0000  0.0025  0.5913  0.1668  1.0000\n  O   O6        1.0000  0.0254  0.9256  0.8265  1.0000\n  O   O7        1.0000  0.0254  0.4255  0.8264  1.0000\n  O   O8        1.0000  0.5254  0.6755  0.8265  1.0000\n  Al  Al4       1.0000  0.5254  0.1756  0.8265  1.0000\n  O   O9        1.0000  0.4371  0.5845  0.1710  1.0000\n  O   O10       1.0000  0.4371  0.0845  0.1710  1.0000\n  O   O11       1.0000  0.9371  0.3345  0.1709  1.0000\n  O   O12       1.0000  0.9371  0.8345  0.1710  1.0000\n  O   O13       1.0000  0.2295  0.9129  0.1693  1.0000\n  O   O14       1.0000  0.2295  0.4129  0.1693  1.0000\n  O   O15       1.0000  0.7295  0.6629  0.1693  1.0000\n  O   O16       1.0000  0.7295  0.1629  0.1693  1.0000\n  O   O17       1.0000  0.0312  0.1754  0.8263  1.0000\n  O   O18       1.0000  0.0312  0.6753  0.8263  1.0000\n  O   O19       1.0000  0.5312  0.9253  0.8263  1.0000\n  O   O20       1.0000  0.5312  0.4253  0.8263  1.0000\n  O   O21       1.0000  0.2780  0.8060  0.8280  1.0000\n  O   O22       1.0000  0.2780  0.3060  0.8280  1.0000\n  O   O23       1.0000  0.7780  0.5560  0.8280  1.0000\n  O   O24       1.0000  0.7780  0.0560  0.8280  1.0000\n  O   O25       1.0000  0.0187  0.0448  0.4001  1.0000\n  O   O26       1.0000  0.0187  0.5448  0.4001  1.0000\n  O   O27       1.0000  0.5187  0.7948  0.4001  1.0000\n  O   O28       1.0000  0.5187  0.2948  0.4001  1.0000\n  O   O29       1.0000  0.3543  0.5367  0.3869  1.0000\n  O   O30       1.0000  0.3543  0.0367  0.3870  1.0000\n  O   O31       1.0000  0.8543  0.2867  0.3869  1.0000\n  O   O32       1.0000  0.8542  0.7867  0.3869  1.0000\n  O   O33       1.0000  0.4793  0.7104  0.6106  1.0000\n  O   O34       1.0000  0.4793  0.2104  0.6106  1.0000\n  O   O35       1.0000  0.9792  0.4605  0.6106  1.0000\n  O   O36       1.0000  0.9792  0.9605  0.6106  1.0000\n  O   O37       1.0000  0.1495  0.2122  0.6113  1.0000\n  O   O38       1.0000  0.1495  0.7123  0.6114  1.0000\n  O   O39       1.0000  0.6495  0.9623  0.6114  1.0000\n  O   O40       1.0000  0.6495  0.4623  0.6114  1.0000\n  O   O41       1.0000  0.1588  0.7847  0.4115  1.0000\n  O   O42       1.0000  0.1589  0.2847  0.4115  1.0000\n  O   O43       1.0000  0.6589  0.5346  0.4113  1.0000\n  O   O44       1.0000  0.6588  0.0346  0.4114  1.0000\n  O   O45       1.0000  0.3356  0.9660  0.5897  1.0000\n  O   O46       1.0000  0.3357  0.4660  0.5896  1.0000\n  O   O47       1.0000  0.8356  0.7160  0.5898  1.0000\n  O   O48       1.0000  0.8357  0.2161  0.5897  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "204d14a3-ed5c-482c-881d-e45d471643df",
    "mp_id": "mp-1223597",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KCa3Mg3Al(SiO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0016\n_cell_length_b   5.3234\n_cell_length_c   9.7837\n_cell_angle_alpha   74.7182\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KCa3Mg3Al(SiO3)8\n_chemical_formula_sum   'K1 Ca3 Mg3 Al1 Si8 O24'\n_cell_volume   452.2514\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.8111  0.5000  0.5000  1\n  Ca  Ca1  1  0.3017  0.0000  0.0000  1\n  Ca  Ca2  1  0.1941  0.0000  0.5000  1\n  Ca  Ca3  1  0.6957  0.5000  0.0000  1\n  Mg  Mg4  1  0.4065  0.5000  0.5000  1\n  Mg  Mg5  1  0.9053  0.0000  0.0000  1\n  Mg  Mg6  1  0.0915  0.5000  0.0000  1\n  Al  Al7  1  0.5983  0.0000  0.5000  1\n  Si  Si8  1  0.0927  0.6866  0.2850  1\n  Si  Si9  1  0.5933  0.1844  0.7819  1\n  Si  Si10  1  0.0927  0.3134  0.7150  1\n  Si  Si11  1  0.5933  0.8156  0.2181  1\n  Si  Si12  1  0.9034  0.8158  0.7142  1\n  Si  Si13  1  0.4102  0.3072  0.2158  1\n  Si  Si14  1  0.9034  0.1842  0.2858  1\n  Si  Si15  1  0.4102  0.6928  0.7842  1\n  O  O16  1  0.0192  0.3867  0.3426  1\n  O  O17  1  0.5205  0.8866  0.8551  1\n  O  O18  1  0.0192  0.6133  0.6574  1\n  O  O19  1  0.5205  0.1134  0.1449  1\n  O  O20  1  0.9887  0.1025  0.6533  1\n  O  O21  1  0.4814  0.6083  0.1584  1\n  O  O22  1  0.9887  0.8975  0.3467  1\n  O  O23  1  0.4814  0.3917  0.8416  1\n  O  O24  1  0.0896  0.7752  0.1131  1\n  O  O25  1  0.5754  0.2475  0.6106  1\n  O  O26  1  0.0896  0.2248  0.8869  1\n  O  O27  1  0.5754  0.7525  0.3894  1\n  O  O28  1  0.9045  0.7255  0.8861  1\n  O  O29  1  0.4252  0.2127  0.3882  1\n  O  O30  1  0.9045  0.2745  0.1139  1\n  O  O31  1  0.4252  0.7873  0.6118  1\n  O  O32  1  0.2483  0.6983  0.3641  1\n  O  O33  1  0.7490  0.2128  0.8562  1\n  O  O34  1  0.2483  0.3017  0.6359  1\n  O  O35  1  0.7490  0.7872  0.1438  1\n  O  O36  1  0.7433  0.8266  0.6373  1\n  O  O37  1  0.2532  0.2909  0.1414  1\n  O  O38  1  0.7433  0.1734  0.3627  1\n  O  O39  1  0.2532  0.7091  0.8586  1\n",
    "output": "data_image0\n_chemical_formula_structural       KCa2OMg3AlSi8O14CaO9\n_chemical_formula_sum              \"K1 Ca3 O24 Mg3 Al1 Si8\"\n_cell_length_a       9.0016\n_cell_length_b       5.3234\n_cell_length_c       9.7837\n_cell_angle_alpha    74.7182\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.8111  0.5000  0.5000  1.0000\n  Ca  Ca1       1.0000  0.3017  0.0000  0.0000  1.0000\n  Ca  Ca2       1.0000  0.1941  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.6957  0.5000  0.0000  1.0000\n  Mg  Mg1       1.0000  0.4065  0.5000  0.5000  1.0000\n  Mg  Mg2       1.0000  0.9053  0.0000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.0915  0.5000  0.0000  1.0000\n  Al  Al1       1.0000  0.5983  0.0000  0.5000  1.0000\n  Si  Si1       1.0000  0.0927  0.6866  0.2850  1.0000\n  Si  Si2       1.0000  0.5933  0.1844  0.7819  1.0000\n  Si  Si3       1.0000  0.0927  0.3134  0.7150  1.0000\n  Si  Si4       1.0000  0.5933  0.8156  0.2181  1.0000\n  Si  Si5       1.0000  0.9034  0.8158  0.7142  1.0000\n  Si  Si6       1.0000  0.4102  0.3072  0.2158  1.0000\n  Si  Si7       1.0000  0.9034  0.1842  0.2858  1.0000\n  Si  Si8       1.0000  0.4102  0.6928  0.7842  1.0000\n  O   O2        1.0000  0.0192  0.3867  0.3426  1.0000\n  O   O3        1.0000  0.5205  0.8866  0.8551  1.0000\n  O   O4        1.0000  0.0192  0.6133  0.6574  1.0000\n  O   O5        1.0000  0.5205  0.1134  0.1449  1.0000\n  O   O6        1.0000  0.9887  0.1025  0.6533  1.0000\n  O   O7        1.0000  0.4814  0.6083  0.1584  1.0000\n  O   O8        1.0000  0.9887  0.8975  0.3467  1.0000\n  O   O9        1.0000  0.4814  0.3917  0.8416  1.0000\n  O   O10       1.0000  0.0896  0.7752  0.1131  1.0000\n  O   O11       1.0000  0.5754  0.2475  0.6106  1.0000\n  O   O12       1.0000  0.0896  0.2248  0.8869  1.0000\n  O   O13       1.0000  0.5754  0.7525  0.3894  1.0000\n  O   O14       1.0000  0.9045  0.7255  0.8861  1.0000\n  O   O15       1.0000  0.4252  0.2127  0.3882  1.0000\n  Ca  Ca3       1.0000  0.9045  0.2745  0.1139  1.0000\n  O   O16       1.0000  0.4252  0.7873  0.6118  1.0000\n  O   O17       1.0000  0.2483  0.6983  0.3641  1.0000\n  O   O18       1.0000  0.7490  0.2128  0.8562  1.0000\n  O   O19       1.0000  0.2483  0.3017  0.6359  1.0000\n  O   O20       1.0000  0.7490  0.7872  0.1438  1.0000\n  O   O21       1.0000  0.7433  0.8266  0.6373  1.0000\n  O   O22       1.0000  0.2532  0.2909  0.1414  1.0000\n  O   O23       1.0000  0.7433  0.1734  0.3627  1.0000\n  O   O24       1.0000  0.2532  0.7091  0.8586  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e5addbf9-43a8-4b34-9f6a-664ec54b4516",
    "mp_id": "mp-1223626",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KBa4(FeAs)10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9605\n_cell_length_b   8.9605\n_cell_length_c   8.9605\n_cell_angle_alpha   121.0462\n_cell_angle_beta   121.0462\n_cell_angle_gamma   88.1972\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KBa4(FeAs)10\n_chemical_formula_sum   'K1 Ba4 Fe10 As10'\n_cell_volume   500.4165\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0000  0.0000  0.0000  1\n  Ba  Ba1  1  0.3936  0.8023  0.1959  1\n  Ba  Ba2  1  0.8023  0.6064  0.4087  1\n  Ba  Ba3  1  0.1977  0.3936  0.5913  1\n  Ba  Ba4  1  0.6064  0.1977  0.8041  1\n  Fe  Fe5  1  0.9499  0.6497  0.1005  1\n  Fe  Fe6  1  0.3503  0.4508  0.3002  1\n  Fe  Fe7  1  0.7500  0.2500  0.5000  1\n  Fe  Fe8  1  0.1506  0.0501  0.6998  1\n  Fe  Fe9  1  0.5492  0.8494  0.8995  1\n  Fe  Fe10  1  0.6497  0.5492  0.6998  1\n  Fe  Fe11  1  0.0501  0.3503  0.8995  1\n  Fe  Fe12  1  0.4508  0.1506  0.1005  1\n  Fe  Fe13  1  0.8494  0.9499  0.3002  1\n  Fe  Fe14  1  0.2500  0.7500  0.5000  1\n  As  As15  1  0.9448  0.5449  0.8008  1\n  As  As16  1  0.3442  0.3442  0.0000  1\n  As  As17  1  0.7441  0.1440  0.1992  1\n  As  As18  1  0.1440  0.9448  0.3999  1\n  As  As19  1  0.5449  0.7441  0.6001  1\n  As  As20  1  0.6558  0.6558  0.0000  1\n  As  As21  1  0.0552  0.4551  0.1992  1\n  As  As22  1  0.4551  0.2559  0.3999  1\n  As  As23  1  0.8560  0.0552  0.6001  1\n  As  As24  1  0.2559  0.8560  0.8008  1\n",
    "output": "data_image0\n_chemical_formula_structural       KBaAsBa2Fe10As6BaAs3\n_chemical_formula_sum              \"K1 Ba4 As10 Fe10\"\n_cell_length_a       8.9605\n_cell_length_b       8.9605\n_cell_length_c       8.9605\n_cell_angle_alpha    121.0462\n_cell_angle_beta     121.0462\n_cell_angle_gamma    88.1972\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Ba  Ba1       1.0000  0.3936  0.8023  0.1959  1.0000\n  As  As1       1.0000  0.8023  0.6064  0.4087  1.0000\n  Ba  Ba2       1.0000  0.1977  0.3936  0.5913  1.0000\n  Ba  Ba3       1.0000  0.6064  0.1977  0.8041  1.0000\n  Fe  Fe1       1.0000  0.9499  0.6497  0.1005  1.0000\n  Fe  Fe2       1.0000  0.3503  0.4508  0.3002  1.0000\n  Fe  Fe3       1.0000  0.7500  0.2500  0.5000  1.0000\n  Fe  Fe4       1.0000  0.1506  0.0501  0.6998  1.0000\n  Fe  Fe5       1.0000  0.5492  0.8494  0.8995  1.0000\n  Fe  Fe6       1.0000  0.6497  0.5492  0.6998  1.0000\n  Fe  Fe7       1.0000  0.0501  0.3503  0.8995  1.0000\n  Fe  Fe8       1.0000  0.4508  0.1506  0.1005  1.0000\n  Fe  Fe9       1.0000  0.8494  0.9499  0.3002  1.0000\n  Fe  Fe10      1.0000  0.2500  0.7500  0.5000  1.0000\n  As  As2       1.0000  0.9448  0.5449  0.8008  1.0000\n  As  As3       1.0000  0.3442  0.3442  0.0000  1.0000\n  As  As4       1.0000  0.7441  0.1440  0.1992  1.0000\n  As  As5       1.0000  0.1440  0.9448  0.3999  1.0000\n  As  As6       1.0000  0.5449  0.7441  0.6001  1.0000\n  As  As7       1.0000  0.6558  0.6558  0.0000  1.0000\n  Ba  Ba4       1.0000  0.0552  0.4551  0.1992  1.0000\n  As  As8       1.0000  0.4551  0.2559  0.3999  1.0000\n  As  As9       1.0000  0.8560  0.0552  0.6001  1.0000\n  As  As10      1.0000  0.2559  0.8560  0.8008  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4ae95173-84eb-4bf8-a16a-1ca85c3c2689",
    "mp_id": "mp-1223895",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HoSc(BRh)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3308\n_cell_length_b   5.3308\n_cell_length_c   7.4110\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HoSc(BRh)8\n_chemical_formula_sum   'Ho1 Sc1 B8 Rh8'\n_cell_volume   210.6025\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.5000  0.5000  0.0000  1\n  Sc  Sc1  1  0.0000  0.0000  0.5000  1\n  B  B2  1  0.3314  0.0000  0.1500  1\n  B  B3  1  0.6686  0.0000  0.1500  1\n  B  B4  1  0.5000  0.8298  0.6494  1\n  B  B5  1  0.5000  0.1702  0.6494  1\n  B  B6  1  0.1702  0.5000  0.3506  1\n  B  B7  1  0.8298  0.5000  0.3506  1\n  B  B8  1  0.0000  0.6686  0.8500  1\n  B  B9  1  0.0000  0.3314  0.8500  1\n  Rh  Rh10  1  0.7524  0.0000  0.8510  1\n  Rh  Rh11  1  0.2476  0.0000  0.8510  1\n  Rh  Rh12  1  0.5000  0.2501  0.3565  1\n  Rh  Rh13  1  0.5000  0.7499  0.3565  1\n  Rh  Rh14  1  0.7499  0.5000  0.6435  1\n  Rh  Rh15  1  0.2501  0.5000  0.6435  1\n  Rh  Rh16  1  0.0000  0.2476  0.1490  1\n  Rh  Rh17  1  0.0000  0.7524  0.1490  1\n",
    "output": "data_image0\n_chemical_formula_structural       HoScB3RhB5Rh7\n_chemical_formula_sum              \"Ho1 Sc1 B8 Rh8\"\n_cell_length_a       5.3308\n_cell_length_b       5.3308\n_cell_length_c       7.4110\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Sc  Sc1       1.0000  0.0000  0.0000  0.5000  1.0000\n  B   B1        1.0000  0.3314  0.0000  0.1500  1.0000\n  B   B2        1.0000  0.6686  0.0000  0.1500  1.0000\n  B   B3        1.0000  0.5000  0.8298  0.6494  1.0000\n  Rh  Rh1       1.0000  0.5000  0.1702  0.6494  1.0000\n  B   B4        1.0000  0.1702  0.5000  0.3506  1.0000\n  B   B5        1.0000  0.8298  0.5000  0.3506  1.0000\n  B   B6        1.0000  0.0000  0.6686  0.8500  1.0000\n  B   B7        1.0000  0.0000  0.3314  0.8500  1.0000\n  B   B8        1.0000  0.7524  0.0000  0.8510  1.0000\n  Rh  Rh2       1.0000  0.2476  0.0000  0.8510  1.0000\n  Rh  Rh3       1.0000  0.5000  0.2501  0.3565  1.0000\n  Rh  Rh4       1.0000  0.5000  0.7499  0.3565  1.0000\n  Rh  Rh5       1.0000  0.7499  0.5000  0.6435  1.0000\n  Rh  Rh6       1.0000  0.2501  0.5000  0.6435  1.0000\n  Rh  Rh7       1.0000  0.0000  0.2476  0.1490  1.0000\n  Rh  Rh8       1.0000  0.0000  0.7524  0.1490  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5d874e44-2a4a-4eaa-b80c-195b65a2c29e",
    "mp_id": "mp-1224478",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2GaP2H3(O4F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3933\n_cell_length_b   4.7962\n_cell_length_c   11.0085\n_cell_angle_alpha   86.4414\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2GaP2H3(O4F)2\n_chemical_formula_sum   'K4 Ga2 P4 H6 O16 F4'\n_cell_volume   442.3019\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5986  0.4909  0.5794  1\n  K  K1  1  0.0986  0.5091  0.4206  1\n  K  K2  1  0.3984  0.5014  0.9157  1\n  K  K3  1  0.8984  0.4986  0.0843  1\n  Ga  Ga4  1  0.0037  0.4993  0.7498  1\n  Ga  Ga5  1  0.5037  0.5007  0.2502  1\n  P  P6  1  0.7675  0.9847  0.8359  1\n  P  P7  1  0.2675  0.0153  0.1641  1\n  P  P8  1  0.2424  0.0143  0.6671  1\n  P  P9  1  0.7424  0.9857  0.3329  1\n  H  H10  1  0.6603  0.9524  0.0229  1\n  H  H11  1  0.1603  0.0476  0.9771  1\n  H  H12  1  0.3406  0.0436  0.4783  1\n  H  H13  1  0.8406  0.9564  0.5217  1\n  H  H14  1  0.5162  0.9786  0.7532  1\n  H  H15  1  0.0162  0.0214  0.2468  1\n  O  O16  1  0.8134  0.2465  0.7584  1\n  O  O17  1  0.3134  0.7535  0.2416  1\n  O  O18  1  0.1912  0.7511  0.7438  1\n  O  O19  1  0.6912  0.2489  0.2562  1\n  O  O20  1  0.7121  0.0945  0.9642  1\n  O  O21  1  0.2121  0.9055  0.0358  1\n  O  O22  1  0.2873  0.9028  0.5361  1\n  O  O23  1  0.7873  0.0972  0.4639  1\n  O  O24  1  0.8959  0.7626  0.8591  1\n  O  O25  1  0.3959  0.2374  0.1409  1\n  O  O26  1  0.1122  0.2363  0.6449  1\n  O  O27  1  0.6122  0.7637  0.3551  1\n  O  O28  1  0.6187  0.8417  0.7793  1\n  O  O29  1  0.1187  0.1583  0.2207  1\n  O  O30  1  0.3939  0.1405  0.7209  1\n  O  O31  1  0.8939  0.8595  0.2791  1\n  F  F32  1  0.9079  0.6794  0.6043  1\n  F  F33  1  0.4079  0.3206  0.3957  1\n  F  F34  1  0.0908  0.3156  0.8985  1\n  F  F35  1  0.5908  0.6844  0.1015  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Ga2P4H3OH2O15HF4\n_chemical_formula_sum              \"K4 Ga2 P4 H6 O16 F4\"\n_cell_length_a       8.3933\n_cell_length_b       4.7962\n_cell_length_c       11.0085\n_cell_angle_alpha    86.4414\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5986  0.4909  0.5794  1.0000\n  K   K2        1.0000  0.0986  0.5091  0.4206  1.0000\n  K   K3        1.0000  0.3984  0.5014  0.9157  1.0000\n  K   K4        1.0000  0.8984  0.4986  0.0843  1.0000\n  Ga  Ga1       1.0000  0.0037  0.4993  0.7498  1.0000\n  Ga  Ga2       1.0000  0.5037  0.5007  0.2502  1.0000\n  P   P1        1.0000  0.7675  0.9847  0.8359  1.0000\n  P   P2        1.0000  0.2675  0.0153  0.1641  1.0000\n  P   P3        1.0000  0.2424  0.0143  0.6671  1.0000\n  P   P4        1.0000  0.7424  0.9857  0.3329  1.0000\n  H   H1        1.0000  0.6603  0.9524  0.0229  1.0000\n  H   H2        1.0000  0.1603  0.0476  0.9771  1.0000\n  H   H3        1.0000  0.3406  0.0436  0.4783  1.0000\n  O   O1        1.0000  0.8406  0.9564  0.5217  1.0000\n  H   H4        1.0000  0.5162  0.9786  0.7532  1.0000\n  H   H5        1.0000  0.0162  0.0214  0.2468  1.0000\n  O   O2        1.0000  0.8134  0.2465  0.7584  1.0000\n  O   O3        1.0000  0.3134  0.7535  0.2416  1.0000\n  O   O4        1.0000  0.1912  0.7511  0.7438  1.0000\n  O   O5        1.0000  0.6912  0.2489  0.2562  1.0000\n  O   O6        1.0000  0.7121  0.0945  0.9642  1.0000\n  O   O7        1.0000  0.2121  0.9055  0.0358  1.0000\n  O   O8        1.0000  0.2873  0.9028  0.5361  1.0000\n  O   O9        1.0000  0.7873  0.0972  0.4639  1.0000\n  O   O10       1.0000  0.8959  0.7626  0.8591  1.0000\n  O   O11       1.0000  0.3959  0.2374  0.1409  1.0000\n  O   O12       1.0000  0.1122  0.2363  0.6449  1.0000\n  O   O13       1.0000  0.6122  0.7637  0.3551  1.0000\n  O   O14       1.0000  0.6187  0.8417  0.7793  1.0000\n  O   O15       1.0000  0.1187  0.1583  0.2207  1.0000\n  O   O16       1.0000  0.3939  0.1405  0.7209  1.0000\n  H   H6        1.0000  0.8939  0.8595  0.2791  1.0000\n  F   F1        1.0000  0.9079  0.6794  0.6043  1.0000\n  F   F2        1.0000  0.4079  0.3206  0.3957  1.0000\n  F   F3        1.0000  0.0908  0.3156  0.8985  1.0000\n  F   F4        1.0000  0.5908  0.6844  0.1015  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3f062a13-af71-4e9a-a47a-87017340339b",
    "mp_id": "mp-1224502",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HfAlCo\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0901\n_cell_length_b   5.0901\n_cell_length_c   8.0930\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.1533\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HfAlCo\n_chemical_formula_sum   'Hf4 Al4 Co4'\n_cell_volume   183.1185\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.3340  0.6660  0.2065  1\n  Hf  Hf1  1  0.6701  0.3299  0.3256  1\n  Hf  Hf2  1  0.6701  0.3299  0.6744  1\n  Hf  Hf3  1  0.3340  0.6660  0.7935  1\n  Al  Al4  1  0.9941  0.0059  0.2653  1\n  Al  Al5  1  0.9941  0.0059  0.7347  1\n  Al  Al6  1  0.8317  0.6564  0.0000  1\n  Al  Al7  1  0.3436  0.1683  0.0000  1\n  Co  Co8  1  0.8316  0.1684  0.0000  1\n  Co  Co9  1  0.1734  0.3472  0.5000  1\n  Co  Co10  1  0.6528  0.8266  0.5000  1\n  Co  Co11  1  0.1705  0.8295  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hf4Al2CoAl2Co3\n_chemical_formula_sum              \"Hf4 Al4 Co4\"\n_cell_length_a       5.0901\n_cell_length_b       5.0901\n_cell_length_c       8.0930\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.1533\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hf  Hf1       1.0000  0.3340  0.6660  0.2065  1.0000\n  Hf  Hf2       1.0000  0.6701  0.3299  0.3256  1.0000\n  Hf  Hf3       1.0000  0.6701  0.3299  0.6744  1.0000\n  Hf  Hf4       1.0000  0.3340  0.6660  0.7935  1.0000\n  Al  Al1       1.0000  0.9941  0.0059  0.2653  1.0000\n  Al  Al2       1.0000  0.9941  0.0059  0.7347  1.0000\n  Co  Co1       1.0000  0.8317  0.6564  0.0000  1.0000\n  Al  Al3       1.0000  0.3436  0.1683  0.0000  1.0000\n  Al  Al4       1.0000  0.8316  0.1684  0.0000  1.0000\n  Co  Co2       1.0000  0.1734  0.3472  0.5000  1.0000\n  Co  Co3       1.0000  0.6528  0.8266  0.5000  1.0000\n  Co  Co4       1.0000  0.1705  0.8295  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3850557f-523a-4977-8c1d-b1d6dab9a663",
    "mp_id": "mp-1225147",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe4Ni4PdS8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1215\n_cell_length_b   7.1215\n_cell_length_c   7.1215\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe4Ni4PdS8\n_chemical_formula_sum   'Fe4 Ni4 Pd1 S8'\n_cell_volume   255.3860\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.8744  0.8744  0.3768  1\n  Fe  Fe1  1  0.8744  0.3768  0.8744  1\n  Fe  Fe2  1  0.3768  0.8744  0.8744  1\n  Fe  Fe3  1  0.8744  0.8744  0.8744  1\n  Ni  Ni4  1  0.1274  0.1274  0.6179  1\n  Ni  Ni5  1  0.1274  0.6179  0.1274  1\n  Ni  Ni6  1  0.6179  0.1274  0.1274  1\n  Ni  Ni7  1  0.1274  0.1274  0.1274  1\n  Pd  Pd8  1  0.5000  0.5000  0.5000  1\n  S  S9  1  0.7486  0.7486  0.2514  1\n  S  S10  1  0.2514  0.7486  0.2514  1\n  S  S11  1  0.7486  0.2514  0.2514  1\n  S  S12  1  0.2514  0.2514  0.7486  1\n  S  S13  1  0.7486  0.2514  0.7486  1\n  S  S14  1  0.2514  0.7486  0.7486  1\n  S  S15  1  0.7500  0.7500  0.7500  1\n  S  S16  1  0.2500  0.2500  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       SFe3Ni4PdFeS7\n_chemical_formula_sum              \"S8 Fe4 Ni4 Pd1\"\n_cell_length_a       7.1215\n_cell_length_b       7.1215\n_cell_length_c       7.1215\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.8744  0.8744  0.3768  1.0000\n  Fe  Fe1       1.0000  0.8744  0.3768  0.8744  1.0000\n  Fe  Fe2       1.0000  0.3768  0.8744  0.8744  1.0000\n  Fe  Fe3       1.0000  0.8744  0.8744  0.8744  1.0000\n  Ni  Ni1       1.0000  0.1274  0.1274  0.6179  1.0000\n  Ni  Ni2       1.0000  0.1274  0.6179  0.1274  1.0000\n  Ni  Ni3       1.0000  0.6179  0.1274  0.1274  1.0000\n  Ni  Ni4       1.0000  0.1274  0.1274  0.1274  1.0000\n  Pd  Pd1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe4       1.0000  0.7486  0.7486  0.2514  1.0000\n  S   S2        1.0000  0.2514  0.7486  0.2514  1.0000\n  S   S3        1.0000  0.7486  0.2514  0.2514  1.0000\n  S   S4        1.0000  0.2514  0.2514  0.7486  1.0000\n  S   S5        1.0000  0.7486  0.2514  0.7486  1.0000\n  S   S6        1.0000  0.2514  0.7486  0.7486  1.0000\n  S   S7        1.0000  0.7500  0.7500  0.7500  1.0000\n  S   S8        1.0000  0.2500  0.2500  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8040615d-b7f1-4363-bfc4-8d59bb838323",
    "mp_id": "mp-1225213",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Gd8MgAlNi2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6380\n_cell_length_b   9.6459\n_cell_length_c   9.6376\n_cell_angle_alpha   89.9771\n_cell_angle_beta   59.5857\n_cell_angle_gamma   119.5945\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Gd8MgAlNi2\n_chemical_formula_sum   'Gd16 Mg2 Al2 Ni4'\n_cell_volume   633.3158\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.6930  0.3480  0.9574  1\n  Gd  Gd1  1  0.3058  0.3481  0.3457  1\n  Gd  Gd2  1  0.3018  0.9547  0.3473  1\n  Gd  Gd3  1  0.6981  0.3512  0.3484  1\n  Gd  Gd4  1  0.3795  0.1904  0.8108  1\n  Gd  Gd5  1  0.9989  0.8100  0.8100  1\n  Gd  Gd6  1  0.0019  0.1870  0.8135  1\n  Gd  Gd7  1  0.6202  0.8092  0.1879  1\n  Gd  Gd8  1  0.0008  0.1898  0.1899  1\n  Gd  Gd9  1  0.0012  0.8070  0.1933  1\n  Gd  Gd10  1  0.1288  0.5638  0.9397  1\n  Gd  Gd11  1  0.4959  0.9314  0.9405  1\n  Gd  Gd12  1  0.4995  0.5646  0.9373  1\n  Gd  Gd13  1  0.8693  0.9307  0.5656  1\n  Gd  Gd14  1  0.5032  0.5637  0.5657  1\n  Gd  Gd15  1  0.4990  0.9343  0.5655  1\n  Mg  Mg16  1  0.8456  0.2719  0.5745  1\n  Mg  Mg17  1  0.1544  0.5808  0.5734  1\n  Al  Al18  1  0.1552  0.5810  0.2631  1\n  Al  Al19  1  0.8462  0.5824  0.5720  1\n  Ni  Ni20  1  0.2844  0.1412  0.5733  1\n  Ni  Ni21  1  0.7159  0.1425  0.1421  1\n  Ni  Ni22  1  0.7182  0.5746  0.1414  1\n  Ni  Ni23  1  0.2832  0.1417  0.1419  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd13AlGd2Mg2AlGdNi4\n_chemical_formula_sum              \"Gd16 Al2 Mg2 Ni4\"\n_cell_length_a       9.6380\n_cell_length_b       9.6459\n_cell_length_c       9.6376\n_cell_angle_alpha    89.9771\n_cell_angle_beta     59.5857\n_cell_angle_gamma    119.5945\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.6930  0.3480  0.9574  1.0000\n  Gd  Gd2       1.0000  0.3058  0.3481  0.3457  1.0000\n  Gd  Gd3       1.0000  0.3018  0.9547  0.3473  1.0000\n  Gd  Gd4       1.0000  0.6981  0.3512  0.3484  1.0000\n  Gd  Gd5       1.0000  0.3795  0.1904  0.8108  1.0000\n  Gd  Gd6       1.0000  0.9989  0.8100  0.8100  1.0000\n  Gd  Gd7       1.0000  0.0019  0.1870  0.8135  1.0000\n  Gd  Gd8       1.0000  0.6202  0.8092  0.1879  1.0000\n  Gd  Gd9       1.0000  0.0008  0.1898  0.1899  1.0000\n  Gd  Gd10      1.0000  0.0012  0.8070  0.1933  1.0000\n  Gd  Gd11      1.0000  0.1288  0.5638  0.9397  1.0000\n  Gd  Gd12      1.0000  0.4959  0.9314  0.9405  1.0000\n  Gd  Gd13      1.0000  0.4995  0.5646  0.9373  1.0000\n  Al  Al1       1.0000  0.8693  0.9307  0.5656  1.0000\n  Gd  Gd14      1.0000  0.5032  0.5637  0.5657  1.0000\n  Gd  Gd15      1.0000  0.4990  0.9343  0.5655  1.0000\n  Mg  Mg1       1.0000  0.8456  0.2719  0.5745  1.0000\n  Mg  Mg2       1.0000  0.1544  0.5808  0.5734  1.0000\n  Al  Al2       1.0000  0.1552  0.5810  0.2631  1.0000\n  Gd  Gd16      1.0000  0.8462  0.5824  0.5720  1.0000\n  Ni  Ni1       1.0000  0.2844  0.1412  0.5733  1.0000\n  Ni  Ni2       1.0000  0.7159  0.1425  0.1421  1.0000\n  Ni  Ni3       1.0000  0.7182  0.5746  0.1414  1.0000\n  Ni  Ni4       1.0000  0.2832  0.1417  0.1419  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "42ffd50b-7e97-4893-a85a-306f66ecc63a",
    "mp_id": "mp-1225229",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Gd(Fe5Si)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7324\n_cell_length_b   6.3608\n_cell_length_c   6.3608\n_cell_angle_alpha   98.3601\n_cell_angle_beta   111.8388\n_cell_angle_gamma   68.1612\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Gd(Fe5Si)2\n_chemical_formula_sum   'Gd1 Fe10 Si2'\n_cell_volume   164.9673\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.0000  0.0000  0.0000  1\n  Fe  Fe1  1  0.6385  0.3615  0.6385  1\n  Fe  Fe2  1  0.3615  0.6385  0.3615  1\n  Fe  Fe3  1  0.0000  0.3549  0.3549  1\n  Fe  Fe4  1  0.0000  0.6451  0.6451  1\n  Fe  Fe5  1  0.5000  0.7888  0.7888  1\n  Fe  Fe6  1  0.5000  0.2112  0.2112  1\n  Fe  Fe7  1  0.5000  0.0000  0.5000  1\n  Fe  Fe8  1  0.0000  0.0000  0.5000  1\n  Fe  Fe9  1  0.5000  0.5000  0.0000  1\n  Fe  Fe10  1  0.0000  0.5000  0.0000  1\n  Si  Si11  1  0.7370  0.7630  0.2370  1\n  Si  Si12  1  0.2630  0.2370  0.7630  1\n",
    "output": "data_image0\n_chemical_formula_structural       GdFe5SiFe4SiFe\n_chemical_formula_sum              \"Gd1 Fe10 Si2\"\n_cell_length_a       4.7324\n_cell_length_b       6.3608\n_cell_length_c       6.3608\n_cell_angle_alpha    98.3601\n_cell_angle_beta     111.8388\n_cell_angle_gamma    68.1612\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe1       1.0000  0.6385  0.3615  0.6385  1.0000\n  Fe  Fe2       1.0000  0.3615  0.6385  0.3615  1.0000\n  Fe  Fe3       1.0000  0.0000  0.3549  0.3549  1.0000\n  Fe  Fe4       1.0000  0.0000  0.6451  0.6451  1.0000\n  Fe  Fe5       1.0000  0.5000  0.7888  0.7888  1.0000\n  Si  Si1       1.0000  0.5000  0.2112  0.2112  1.0000\n  Fe  Fe6       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe7       1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe8       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe9       1.0000  0.0000  0.5000  0.0000  1.0000\n  Si  Si2       1.0000  0.7370  0.7630  0.2370  1.0000\n  Fe  Fe10      1.0000  0.2630  0.2370  0.7630  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6378c7f2-ca0e-470c-ad20-9afe525934b7",
    "mp_id": "mp-1225237",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GaP2C3N2O8F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.5236\n_cell_length_b   9.5236\n_cell_length_c   7.3223\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.9348\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GaP2C3N2O8F\n_chemical_formula_sum   'Ga2 P4 C6 N4 O16 F2'\n_cell_volume   611.6242\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ga  Ga0  1  0.0000  0.0000  0.0000  1\n  Ga  Ga1  1  0.0000  0.0000  0.5000  1\n  P  P2  1  0.7303  0.0001  0.7500  1\n  P  P3  1  0.0001  0.7303  0.2500  1\n  P  P4  1  0.2697  0.9999  0.2500  1\n  P  P5  1  0.9999  0.2697  0.7500  1\n  C  C6  1  0.6003  0.3997  0.7500  1\n  C  C7  1  0.3997  0.6003  0.2500  1\n  C  C8  1  0.4866  0.2663  0.7500  1\n  C  C9  1  0.2663  0.4866  0.2500  1\n  C  C10  1  0.5134  0.7337  0.2500  1\n  C  C11  1  0.7337  0.5134  0.7500  1\n  N  N12  1  0.3839  0.1429  0.7500  1\n  N  N13  1  0.1429  0.3839  0.2500  1\n  N  N14  1  0.6161  0.8571  0.2500  1\n  N  N15  1  0.8571  0.6161  0.7500  1\n  O  O16  1  0.7856  0.9437  0.5777  1\n  O  O17  1  0.9437  0.7856  0.4223  1\n  O  O18  1  0.7856  0.9437  0.9223  1\n  O  O19  1  0.9437  0.7856  0.0777  1\n  O  O20  1  0.2144  0.0563  0.4223  1\n  O  O21  1  0.0563  0.2144  0.5777  1\n  O  O22  1  0.2144  0.0563  0.0777  1\n  O  O23  1  0.0563  0.2144  0.9223  1\n  O  O24  1  0.5595  0.9552  0.7500  1\n  O  O25  1  0.9552  0.5595  0.2500  1\n  O  O26  1  0.4405  0.0448  0.2500  1\n  O  O27  1  0.0448  0.4405  0.7500  1\n  O  O28  1  0.8141  0.1859  0.7500  1\n  O  O29  1  0.1859  0.8141  0.2500  1\n  O  O30  1  0.2184  0.7816  0.7500  1\n  O  O31  1  0.7816  0.2184  0.2500  1\n  F  F32  1  0.0477  0.9523  0.7500  1\n  F  F33  1  0.9523  0.0477  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ga2POP2C6N4O12PO3F2\n_chemical_formula_sum              \"Ga2 P4 O16 C6 N4 F2\"\n_cell_length_a       9.5236\n_cell_length_b       9.5236\n_cell_length_c       7.3223\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.9348\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ga  Ga1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ga  Ga2       1.0000  0.0000  0.0000  0.5000  1.0000\n  P   P1        1.0000  0.7303  0.0001  0.7500  1.0000\n  O   O1        1.0000  0.0001  0.7303  0.2500  1.0000\n  P   P2        1.0000  0.2697  0.9999  0.2500  1.0000\n  P   P3        1.0000  0.9999  0.2697  0.7500  1.0000\n  C   C1        1.0000  0.6003  0.3997  0.7500  1.0000\n  C   C2        1.0000  0.3997  0.6003  0.2500  1.0000\n  C   C3        1.0000  0.4866  0.2663  0.7500  1.0000\n  C   C4        1.0000  0.2663  0.4866  0.2500  1.0000\n  C   C5        1.0000  0.5134  0.7337  0.2500  1.0000\n  C   C6        1.0000  0.7337  0.5134  0.7500  1.0000\n  N   N1        1.0000  0.3839  0.1429  0.7500  1.0000\n  N   N2        1.0000  0.1429  0.3839  0.2500  1.0000\n  N   N3        1.0000  0.6161  0.8571  0.2500  1.0000\n  N   N4        1.0000  0.8571  0.6161  0.7500  1.0000\n  O   O2        1.0000  0.7856  0.9437  0.5777  1.0000\n  O   O3        1.0000  0.9437  0.7856  0.4223  1.0000\n  O   O4        1.0000  0.7856  0.9437  0.9223  1.0000\n  O   O5        1.0000  0.9437  0.7856  0.0777  1.0000\n  O   O6        1.0000  0.2144  0.0563  0.4223  1.0000\n  O   O7        1.0000  0.0563  0.2144  0.5777  1.0000\n  O   O8        1.0000  0.2144  0.0563  0.0777  1.0000\n  O   O9        1.0000  0.0563  0.2144  0.9223  1.0000\n  O   O10       1.0000  0.5595  0.9552  0.7500  1.0000\n  O   O11       1.0000  0.9552  0.5595  0.2500  1.0000\n  O   O12       1.0000  0.4405  0.0448  0.2500  1.0000\n  O   O13       1.0000  0.0448  0.4405  0.7500  1.0000\n  P   P4        1.0000  0.8141  0.1859  0.7500  1.0000\n  O   O14       1.0000  0.1859  0.8141  0.2500  1.0000\n  O   O15       1.0000  0.2184  0.7816  0.7500  1.0000\n  O   O16       1.0000  0.7816  0.2184  0.2500  1.0000\n  F   F1        1.0000  0.0477  0.9523  0.7500  1.0000\n  F   F2        1.0000  0.9523  0.0477  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a404e7c1-570d-4eb9-8c90-bde59651124d",
    "mp_id": "mp-1225440",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu2FeSbO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4011\n_cell_length_b   7.4011\n_cell_length_c   7.4011\n_cell_angle_alpha   120.5468\n_cell_angle_beta   119.4876\n_cell_angle_gamma   89.9726\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu2FeSbO7\n_chemical_formula_sum   'Eu4 Fe2 Sb2 O14'\n_cell_volume   286.5629\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.0000  0.0000  0.5000  1\n  Eu  Eu1  1  0.0000  0.5000  0.0000  1\n  Eu  Eu2  1  0.0000  0.0000  0.0000  1\n  Eu  Eu3  1  0.5000  0.0000  0.5000  1\n  Fe  Fe4  1  0.5000  0.5000  0.5000  1\n  Fe  Fe5  1  0.5000  0.0000  0.0000  1\n  Sb  Sb6  1  0.5000  0.5000  0.0000  1\n  Sb  Sb7  1  0.0000  0.5000  0.5000  1\n  O  O8  1  0.1245  0.8745  0.2500  1\n  O  O9  1  0.8755  0.1255  0.7500  1\n  O  O10  1  0.4210  0.1710  0.2500  1\n  O  O11  1  0.8282  0.5782  0.2500  1\n  O  O12  1  0.4201  0.5773  0.2460  1\n  O  O13  1  0.8313  0.1741  0.2540  1\n  O  O14  1  0.4201  0.1741  0.8428  1\n  O  O15  1  0.8313  0.5773  0.6572  1\n  O  O16  1  0.5790  0.8290  0.7500  1\n  O  O17  1  0.1718  0.4218  0.7500  1\n  O  O18  1  0.5799  0.4227  0.7540  1\n  O  O19  1  0.1687  0.8259  0.7460  1\n  O  O20  1  0.5799  0.8259  0.1572  1\n  O  O21  1  0.1687  0.4227  0.3428  1\n",
    "output": "data_image0\n_chemical_formula_structural       Eu2OEuFe2Sb2O4EuO9\n_chemical_formula_sum              \"Eu4 O14 Fe2 Sb2\"\n_cell_length_a       7.4011\n_cell_length_b       7.4011\n_cell_length_c       7.4011\n_cell_angle_alpha    120.5468\n_cell_angle_beta     119.4876\n_cell_angle_gamma    89.9726\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Eu  Eu2       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Eu  Eu3       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Sb  Sb1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Sb  Sb2       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.1245  0.8745  0.2500  1.0000\n  O   O3        1.0000  0.8755  0.1255  0.7500  1.0000\n  O   O4        1.0000  0.4210  0.1710  0.2500  1.0000\n  O   O5        1.0000  0.8282  0.5782  0.2500  1.0000\n  Eu  Eu4       1.0000  0.4201  0.5773  0.2460  1.0000\n  O   O6        1.0000  0.8313  0.1741  0.2540  1.0000\n  O   O7        1.0000  0.4201  0.1741  0.8428  1.0000\n  O   O8        1.0000  0.8313  0.5773  0.6572  1.0000\n  O   O9        1.0000  0.5790  0.8290  0.7500  1.0000\n  O   O10       1.0000  0.1718  0.4218  0.7500  1.0000\n  O   O11       1.0000  0.5799  0.4227  0.7540  1.0000\n  O   O12       1.0000  0.1687  0.8259  0.7460  1.0000\n  O   O13       1.0000  0.5799  0.8259  0.1572  1.0000\n  O   O14       1.0000  0.1687  0.4227  0.3428  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d6db1013-b6e8-483a-b40e-e6e3e18fbf88",
    "mp_id": "mp-1225651",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_DyCrS3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7012\n_cell_length_b   12.9915\n_cell_length_c   16.2042\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   DyCrS3\n_chemical_formula_sum   'Dy8 Cr8 S24'\n_cell_volume   779.1695\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.5000  0.2584  0.8943  1\n  Dy  Dy1  1  0.5000  0.7416  0.1057  1\n  Dy  Dy2  1  0.0000  0.2416  0.3943  1\n  Dy  Dy3  1  0.0000  0.7584  0.6057  1\n  Dy  Dy4  1  0.5000  0.6705  0.8463  1\n  Dy  Dy5  1  0.5000  0.3295  0.1537  1\n  Dy  Dy6  1  0.0000  0.8295  0.3463  1\n  Dy  Dy7  1  0.0000  0.1705  0.6537  1\n  Cr  Cr8  1  0.5000  0.0000  0.0000  1\n  Cr  Cr9  1  0.0000  0.5000  0.5000  1\n  Cr  Cr10  1  0.5000  0.0000  0.5000  1\n  Cr  Cr11  1  0.0000  0.5000  0.0000  1\n  Cr  Cr12  1  0.5000  0.5215  0.3164  1\n  Cr  Cr13  1  0.5000  0.4785  0.6836  1\n  Cr  Cr14  1  0.0000  0.9785  0.8164  1\n  Cr  Cr15  1  0.0000  0.0215  0.1836  1\n  S  S16  1  0.5000  0.8908  0.8840  1\n  S  S17  1  0.5000  0.1092  0.1160  1\n  S  S18  1  0.0000  0.6092  0.3840  1\n  S  S19  1  0.0000  0.3908  0.6160  1\n  S  S20  1  0.5000  0.5271  0.0952  1\n  S  S21  1  0.5000  0.4729  0.9048  1\n  S  S22  1  0.0000  0.9729  0.5952  1\n  S  S23  1  0.0000  0.0271  0.4048  1\n  S  S24  1  0.5000  0.8034  0.7141  1\n  S  S25  1  0.5000  0.1966  0.2859  1\n  S  S26  1  0.0000  0.6966  0.2141  1\n  S  S27  1  0.0000  0.3034  0.7859  1\n  S  S28  1  0.5000  0.9157  0.2368  1\n  S  S29  1  0.5000  0.0843  0.7632  1\n  S  S30  1  0.0000  0.5843  0.7368  1\n  S  S31  1  0.0000  0.4157  0.2632  1\n  S  S32  1  0.5000  0.5867  0.5688  1\n  S  S33  1  0.5000  0.4133  0.4312  1\n  S  S34  1  0.0000  0.9133  0.0688  1\n  S  S35  1  0.0000  0.0867  0.9312  1\n  S  S36  1  0.5000  0.8155  0.4715  1\n  S  S37  1  0.5000  0.1845  0.5285  1\n  S  S38  1  0.0000  0.6845  0.9715  1\n  S  S39  1  0.0000  0.3155  0.0285  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy8Cr5SCr2S11CrS12\n_chemical_formula_sum              \"Dy8 Cr8 S24\"\n_cell_length_a       3.7012\n_cell_length_b       12.9915\n_cell_length_c       16.2042\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.5000  0.2584  0.8943  1.0000\n  Dy  Dy2       1.0000  0.5000  0.7416  0.1057  1.0000\n  Dy  Dy3       1.0000  0.0000  0.2416  0.3943  1.0000\n  Dy  Dy4       1.0000  0.0000  0.7584  0.6057  1.0000\n  Dy  Dy5       1.0000  0.5000  0.6705  0.8463  1.0000\n  Dy  Dy6       1.0000  0.5000  0.3295  0.1537  1.0000\n  Dy  Dy7       1.0000  0.0000  0.8295  0.3463  1.0000\n  Dy  Dy8       1.0000  0.0000  0.1705  0.6537  1.0000\n  Cr  Cr1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Cr  Cr3       1.0000  0.5000  0.0000  0.5000  1.0000\n  Cr  Cr4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Cr  Cr5       1.0000  0.5000  0.5215  0.3164  1.0000\n  S   S1        1.0000  0.5000  0.4785  0.6836  1.0000\n  Cr  Cr6       1.0000  0.0000  0.9785  0.8164  1.0000\n  Cr  Cr7       1.0000  0.0000  0.0215  0.1836  1.0000\n  S   S2        1.0000  0.5000  0.8908  0.8840  1.0000\n  S   S3        1.0000  0.5000  0.1092  0.1160  1.0000\n  S   S4        1.0000  0.0000  0.6092  0.3840  1.0000\n  S   S5        1.0000  0.0000  0.3908  0.6160  1.0000\n  S   S6        1.0000  0.5000  0.5271  0.0952  1.0000\n  S   S7        1.0000  0.5000  0.4729  0.9048  1.0000\n  S   S8        1.0000  0.0000  0.9729  0.5952  1.0000\n  S   S9        1.0000  0.0000  0.0271  0.4048  1.0000\n  S   S10       1.0000  0.5000  0.8034  0.7141  1.0000\n  S   S11       1.0000  0.5000  0.1966  0.2859  1.0000\n  S   S12       1.0000  0.0000  0.6966  0.2141  1.0000\n  Cr  Cr8       1.0000  0.0000  0.3034  0.7859  1.0000\n  S   S13       1.0000  0.5000  0.9157  0.2368  1.0000\n  S   S14       1.0000  0.5000  0.0843  0.7632  1.0000\n  S   S15       1.0000  0.0000  0.5843  0.7368  1.0000\n  S   S16       1.0000  0.0000  0.4157  0.2632  1.0000\n  S   S17       1.0000  0.5000  0.5867  0.5688  1.0000\n  S   S18       1.0000  0.5000  0.4133  0.4312  1.0000\n  S   S19       1.0000  0.0000  0.9133  0.0688  1.0000\n  S   S20       1.0000  0.0000  0.0867  0.9312  1.0000\n  S   S21       1.0000  0.5000  0.8155  0.4715  1.0000\n  S   S22       1.0000  0.5000  0.1845  0.5285  1.0000\n  S   S23       1.0000  0.0000  0.6845  0.9715  1.0000\n  S   S24       1.0000  0.0000  0.3155  0.0285  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "874bf71d-8365-4164-8ac5-33b968d9dfdd",
    "mp_id": "mp-1225781",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_DyScSi\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1482\n_cell_length_b   8.5842\n_cell_length_c   9.1219\n_cell_angle_alpha   122.1069\n_cell_angle_beta   89.9981\n_cell_angle_gamma   90.0097\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   DyScSi\n_chemical_formula_sum   'Dy6 Sc6 Si6'\n_cell_volume   407.7964\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.7501  0.2766  0.9772  1\n  Dy  Dy1  1  0.7500  0.7235  0.7007  1\n  Dy  Dy2  1  0.7500  0.9999  0.3118  1\n  Dy  Dy3  1  0.2499  0.7464  0.9964  1\n  Dy  Dy4  1  0.2500  0.2539  0.2500  1\n  Dy  Dy5  1  0.2500  0.0000  0.7549  1\n  Sc  Sc6  1  0.4992  0.3081  0.6576  1\n  Sc  Sc7  1  0.4991  0.6918  0.3494  1\n  Sc  Sc8  1  0.0009  0.6919  0.3494  1\n  Sc  Sc9  1  0.0009  0.3082  0.6576  1\n  Sc  Sc10  1  0.7499  0.6478  0.9964  1\n  Sc  Sc11  1  0.7501  0.3517  0.3482  1\n  Si  Si12  1  0.5597  0.0001  0.0250  1\n  Si  Si13  1  0.9403  0.0002  0.0250  1\n  Si  Si14  1  0.7500  0.9999  0.6216  1\n  Si  Si15  1  0.2501  0.4062  0.9862  1\n  Si  Si16  1  0.2500  0.5939  0.5801  1\n  Si  Si17  1  0.2500  1.0000  0.4124  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy6Sc4SiScSi2ScSi3\n_chemical_formula_sum              \"Dy6 Sc6 Si6\"\n_cell_length_a       6.1482\n_cell_length_b       8.5842\n_cell_length_c       9.1219\n_cell_angle_alpha    122.1069\n_cell_angle_beta     89.9981\n_cell_angle_gamma    90.0097\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.7501  0.2766  0.9772  1.0000\n  Dy  Dy2       1.0000  0.7500  0.7235  0.7007  1.0000\n  Dy  Dy3       1.0000  0.7500  0.9999  0.3118  1.0000\n  Dy  Dy4       1.0000  0.2499  0.7464  0.9964  1.0000\n  Dy  Dy5       1.0000  0.2500  0.2539  0.2500  1.0000\n  Dy  Dy6       1.0000  0.2500  0.0000  0.7549  1.0000\n  Sc  Sc1       1.0000  0.4992  0.3081  0.6576  1.0000\n  Sc  Sc2       1.0000  0.4991  0.6918  0.3494  1.0000\n  Sc  Sc3       1.0000  0.0009  0.6919  0.3494  1.0000\n  Sc  Sc4       1.0000  0.0009  0.3082  0.6576  1.0000\n  Si  Si1       1.0000  0.7499  0.6478  0.9964  1.0000\n  Sc  Sc5       1.0000  0.7501  0.3517  0.3482  1.0000\n  Si  Si2       1.0000  0.5597  0.0001  0.0250  1.0000\n  Si  Si3       1.0000  0.9403  0.0002  0.0250  1.0000\n  Sc  Sc6       1.0000  0.7500  0.9999  0.6216  1.0000\n  Si  Si4       1.0000  0.2501  0.4062  0.9862  1.0000\n  Si  Si5       1.0000  0.2500  0.5939  0.5801  1.0000\n  Si  Si6       1.0000  0.2500  1.0000  0.4124  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a1275e3d-d684-4dad-bb47-f3de2d793698",
    "mp_id": "mp-1226113",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CuH18PdC4N4O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1549\n_cell_length_b   7.3831\n_cell_length_c   9.0982\n_cell_angle_alpha   66.6051\n_cell_angle_beta   66.8459\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CuH18PdC4N4O11\n_chemical_formula_sum   'Cu1 H18 Pd1 C4 N4 O11'\n_cell_volume   398.5744\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.5214  0.5000  0.0000  1\n  H  H1  1  0.7836  0.1901  0.8314  1\n  H  H2  1  0.3876  0.9805  0.8287  1\n  H  H3  1  0.6150  0.8099  0.1686  1\n  H  H4  1  0.2163  0.0195  0.1713  1\n  H  H5  1  0.0107  0.1889  0.6845  1\n  H  H6  1  0.3043  0.1252  0.6841  1\n  H  H7  1  0.6952  0.8111  0.3155  1\n  H  H8  1  0.9884  0.8748  0.3159  1\n  H  H9  1  0.8265  0.9847  0.7985  1\n  H  H10  1  0.3759  0.2171  0.7979  1\n  H  H11  1  0.6250  0.0153  0.2015  1\n  H  H12  1  0.1738  0.7829  0.2021  1\n  H  H13  1  0.7887  0.1901  0.4030  1\n  H  H14  1  0.8131  0.4057  0.3953  1\n  H  H15  1  0.1917  0.8099  0.5970  1\n  H  H16  1  0.2084  0.5943  0.6047  1\n  H  H17  1  0.9628  0.5523  0.8910  1\n  H  H18  1  0.8538  0.4477  0.1090  1\n  Pd  Pd19  1  0.0006  0.0000  0.0000  1\n  C  C20  1  0.3240  0.4316  0.3484  1\n  C  C21  1  0.3212  0.2226  0.3464  1\n  C  C22  1  0.6724  0.5684  0.6516  1\n  C  C23  1  0.6676  0.7774  0.6536  1\n  N  N24  1  0.8921  0.1019  0.8067  1\n  N  N25  1  0.3021  0.0918  0.8060  1\n  N  N26  1  0.6989  0.8981  0.1933  1\n  N  N27  1  0.1080  0.9082  0.1940  1\n  O  O28  1  0.2554  0.4380  0.4945  1\n  O  O29  1  0.2461  0.0712  0.4911  1\n  O  O30  1  0.7499  0.5620  0.5055  1\n  O  O31  1  0.7371  0.9288  0.5089  1\n  O  O32  1  0.8476  0.3329  0.3206  1\n  O  O33  1  0.1682  0.6671  0.6794  1\n  O  O34  1  0.3981  0.5848  0.1950  1\n  O  O35  1  0.3999  0.2228  0.1917  1\n  O  O36  1  0.5931  0.4152  0.8050  1\n  O  O37  1  0.5917  0.7772  0.8083  1\n  O  O38  1  0.8304  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       CuH13NH4PdC4HN3O11\n_chemical_formula_sum              \"Cu1 H18 N4 Pd1 C4 O11\"\n_cell_length_a       7.1549\n_cell_length_b       7.3831\n_cell_length_c       9.0982\n_cell_angle_alpha    66.6051\n_cell_angle_beta     66.8459\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.5214  0.5000  0.0000  1.0000\n  H   H1        1.0000  0.7836  0.1901  0.8314  1.0000\n  H   H2        1.0000  0.3876  0.9805  0.8287  1.0000\n  H   H3        1.0000  0.6150  0.8099  0.1686  1.0000\n  H   H4        1.0000  0.2163  0.0195  0.1713  1.0000\n  H   H5        1.0000  0.0107  0.1889  0.6845  1.0000\n  H   H6        1.0000  0.3043  0.1252  0.6841  1.0000\n  H   H7        1.0000  0.6952  0.8111  0.3155  1.0000\n  H   H8        1.0000  0.9884  0.8748  0.3159  1.0000\n  H   H9        1.0000  0.8265  0.9847  0.7985  1.0000\n  H   H10       1.0000  0.3759  0.2171  0.7979  1.0000\n  H   H11       1.0000  0.6250  0.0153  0.2015  1.0000\n  H   H12       1.0000  0.1738  0.7829  0.2021  1.0000\n  H   H13       1.0000  0.7887  0.1901  0.4030  1.0000\n  N   N1        1.0000  0.8131  0.4057  0.3953  1.0000\n  H   H14       1.0000  0.1917  0.8099  0.5970  1.0000\n  H   H15       1.0000  0.2084  0.5943  0.6047  1.0000\n  H   H16       1.0000  0.9628  0.5523  0.8910  1.0000\n  H   H17       1.0000  0.8538  0.4477  0.1090  1.0000\n  Pd  Pd1       1.0000  0.0006  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.3240  0.4316  0.3484  1.0000\n  C   C2        1.0000  0.3212  0.2226  0.3464  1.0000\n  C   C3        1.0000  0.6724  0.5684  0.6516  1.0000\n  C   C4        1.0000  0.6676  0.7774  0.6536  1.0000\n  H   H18       1.0000  0.8921  0.1019  0.8067  1.0000\n  N   N2        1.0000  0.3021  0.0918  0.8060  1.0000\n  N   N3        1.0000  0.6989  0.8981  0.1933  1.0000\n  N   N4        1.0000  0.1080  0.9082  0.1940  1.0000\n  O   O1        1.0000  0.2554  0.4380  0.4945  1.0000\n  O   O2        1.0000  0.2461  0.0712  0.4911  1.0000\n  O   O3        1.0000  0.7499  0.5620  0.5055  1.0000\n  O   O4        1.0000  0.7371  0.9288  0.5089  1.0000\n  O   O5        1.0000  0.8476  0.3329  0.3206  1.0000\n  O   O6        1.0000  0.1682  0.6671  0.6794  1.0000\n  O   O7        1.0000  0.3981  0.5848  0.1950  1.0000\n  O   O8        1.0000  0.3999  0.2228  0.1917  1.0000\n  O   O9        1.0000  0.5931  0.4152  0.8050  1.0000\n  O   O10       1.0000  0.5917  0.7772  0.8083  1.0000\n  O   O11       1.0000  0.8304  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6cef4d02-236b-4c83-927c-79695fd57ff4",
    "mp_id": "mp-1226144",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cr12As5C\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.2187\n_cell_length_b   6.4544\n_cell_length_c   11.1814\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cr12As5C\n_chemical_formula_sum   'Cr12 As5 C1'\n_cell_volume   232.2890\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.0000  0.7276  0.5000  1\n  Cr  Cr1  1  0.0000  0.2647  0.0000  1\n  Cr  Cr2  1  0.0000  0.3864  0.3895  1\n  Cr  Cr3  1  0.0000  0.8692  0.8634  1\n  Cr  Cr4  1  0.0000  0.8692  0.1366  1\n  Cr  Cr5  1  0.0000  0.3864  0.6106  1\n  Cr  Cr6  1  0.5000  0.1298  0.5000  1\n  Cr  Cr7  1  0.5000  0.5995  0.0000  1\n  Cr  Cr8  1  0.5000  0.2041  0.2057  1\n  Cr  Cr9  1  0.5000  0.6788  0.6784  1\n  Cr  Cr10  1  0.5000  0.6788  0.3216  1\n  Cr  Cr11  1  0.5000  0.2041  0.7943  1\n  As  As12  1  0.0000  0.9985  0.3400  1\n  As  As13  1  0.0000  0.5018  0.8268  1\n  As  As14  1  0.0000  0.5018  0.1732  1\n  As  As15  1  0.0000  0.9985  0.6600  1\n  As  As16  1  0.5000  0.9973  0.0000  1\n  C  C17  1  0.5000  0.5033  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr4AsCr7As3CrAsC\n_chemical_formula_sum              \"Cr12 As5 C1\"\n_cell_length_a       3.2187\n_cell_length_b       6.4544\n_cell_length_c       11.1814\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.0000  0.7276  0.5000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.2647  0.0000  1.0000\n  Cr  Cr3       1.0000  0.0000  0.3864  0.3895  1.0000\n  Cr  Cr4       1.0000  0.0000  0.8692  0.8634  1.0000\n  As  As1       1.0000  0.0000  0.8692  0.1366  1.0000\n  Cr  Cr5       1.0000  0.0000  0.3864  0.6106  1.0000\n  Cr  Cr6       1.0000  0.5000  0.1298  0.5000  1.0000\n  Cr  Cr7       1.0000  0.5000  0.5995  0.0000  1.0000\n  Cr  Cr8       1.0000  0.5000  0.2041  0.2057  1.0000\n  Cr  Cr9       1.0000  0.5000  0.6788  0.6784  1.0000\n  Cr  Cr10      1.0000  0.5000  0.6788  0.3216  1.0000\n  Cr  Cr11      1.0000  0.5000  0.2041  0.7943  1.0000\n  As  As2       1.0000  0.0000  0.9985  0.3400  1.0000\n  As  As3       1.0000  0.0000  0.5018  0.8268  1.0000\n  As  As4       1.0000  0.0000  0.5018  0.1732  1.0000\n  Cr  Cr12      1.0000  0.0000  0.9985  0.6600  1.0000\n  As  As5       1.0000  0.5000  0.9973  0.0000  1.0000\n  C   C1        1.0000  0.5000  0.5033  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8aadf4b0-c4c7-4880-8b2e-c0faa9da5533",
    "mp_id": "mp-1226291",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrAgSnS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4566\n_cell_length_b   7.4566\n_cell_length_c   7.4566\n_cell_angle_alpha   120.8838\n_cell_angle_beta   118.9358\n_cell_angle_gamma   90.1646\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrAgSnS4\n_chemical_formula_sum   'Cr2 Ag2 Sn2 S8'\n_cell_volume   293.4549\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.5000  0.0000  0.0000  1\n  Cr  Cr1  1  0.5000  0.5000  0.5000  1\n  Ag  Ag2  1  0.8848  0.6348  0.2500  1\n  Ag  Ag3  1  0.1152  0.3652  0.7500  1\n  Sn  Sn4  1  0.5000  0.0000  0.5000  1\n  Sn  Sn5  1  0.0000  0.0000  0.0000  1\n  S  S6  1  0.7300  0.7400  0.5100  1\n  S  S7  1  0.7300  0.2200  0.9900  1\n  S  S8  1  0.7185  0.7550  0.9634  1\n  S  S9  1  0.2916  0.7550  0.5366  1\n  S  S10  1  0.2700  0.2600  0.4900  1\n  S  S11  1  0.2700  0.7800  0.0100  1\n  S  S12  1  0.2815  0.2450  0.0366  1\n  S  S13  1  0.7084  0.2450  0.4634  1\n",
    "output": "data_image0\n_chemical_formula_structural       CrSAg2Sn2S4CrS3\n_chemical_formula_sum              \"Cr2 S8 Ag2 Sn2\"\n_cell_length_a       7.4566\n_cell_length_b       7.4566\n_cell_length_c       7.4566\n_cell_angle_alpha    120.8838\n_cell_angle_beta     118.9358\n_cell_angle_gamma    90.1646\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.5000  0.0000  0.0000  1.0000\n  S   S1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Ag  Ag1       1.0000  0.8848  0.6348  0.2500  1.0000\n  Ag  Ag2       1.0000  0.1152  0.3652  0.7500  1.0000\n  Sn  Sn1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Sn  Sn2       1.0000  0.0000  0.0000  0.0000  1.0000\n  S   S2        1.0000  0.7300  0.7400  0.5100  1.0000\n  S   S3        1.0000  0.7300  0.2200  0.9900  1.0000\n  S   S4        1.0000  0.7185  0.7550  0.9634  1.0000\n  S   S5        1.0000  0.2916  0.7550  0.5366  1.0000\n  Cr  Cr2       1.0000  0.2700  0.2600  0.4900  1.0000\n  S   S6        1.0000  0.2700  0.7800  0.0100  1.0000\n  S   S7        1.0000  0.2815  0.2450  0.0366  1.0000\n  S   S8        1.0000  0.7084  0.2450  0.4634  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1f8c2c48-8ca9-4bd1-8aa4-2f779bd22610",
    "mp_id": "mp-1226695",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CoH15Br2(N3O)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9257\n_cell_length_b   6.8439\n_cell_length_c   11.0435\n_cell_angle_alpha   86.0682\n_cell_angle_beta   85.7564\n_cell_angle_gamma   80.7579\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CoH15Br2(N3O)2\n_chemical_formula_sum   'Co2 H30 Br4 N12 O4'\n_cell_volume   514.3841\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.7001  0.2943  0.7501  1\n  Co  Co1  1  0.2999  0.7057  0.2499  1\n  H  H2  1  0.5694  0.9787  0.7089  1\n  H  H3  1  0.0082  0.4107  0.8074  1\n  H  H4  1  0.4306  0.0213  0.2911  1\n  H  H5  1  0.9918  0.5893  0.1926  1\n  H  H6  1  0.5304  0.2807  0.9597  1\n  H  H7  1  0.7131  0.4651  0.5415  1\n  H  H8  1  0.4696  0.7193  0.0403  1\n  H  H9  1  0.2869  0.5349  0.4585  1\n  H  H10  1  0.4076  0.1769  0.6833  1\n  H  H11  1  0.8232  0.5931  0.8070  1\n  H  H12  1  0.5924  0.8231  0.3167  1\n  H  H13  1  0.1768  0.4069  0.1930  1\n  H  H14  1  0.7223  0.3926  0.9646  1\n  H  H15  1  0.6145  0.2634  0.5335  1\n  H  H16  1  0.2777  0.6074  0.0354  1\n  H  H17  1  0.3855  0.7366  0.4665  1\n  H  H18  1  0.4360  0.0871  0.8236  1\n  H  H19  1  0.9412  0.5298  0.6773  1\n  H  H20  1  0.5640  0.9129  0.1764  1\n  H  H21  1  0.0588  0.4702  0.3227  1\n  H  H22  1  0.7493  0.1495  0.9664  1\n  H  H23  1  0.8534  0.2487  0.5361  1\n  H  H24  1  0.2507  0.8505  0.0336  1\n  H  H25  1  0.1466  0.7513  0.4639  1\n  H  H26  1  0.0489  0.1054  0.7237  1\n  H  H27  1  0.9511  0.8946  0.2763  1\n  H  H28  1  0.8942  0.9714  0.6811  1\n  H  H29  1  0.1058  0.0286  0.3189  1\n  H  H30  1  0.9246  0.9822  0.8278  1\n  H  H31  1  0.0754  0.0178  0.1722  1\n  Br  Br32  1  0.7790  0.8092  0.5135  1\n  Br  Br33  1  0.1820  0.2211  0.9834  1\n  Br  Br34  1  0.2210  0.1908  0.4865  1\n  Br  Br35  1  0.8180  0.7789  0.0166  1\n  N  N36  1  0.4924  0.5129  0.7500  1\n  N  N37  1  0.5076  0.4871  0.2500  1\n  N  N38  1  0.5105  0.1126  0.7420  1\n  N  N39  1  0.8905  0.4746  0.7597  1\n  N  N40  1  0.4895  0.8874  0.2580  1\n  N  N41  1  0.1095  0.5254  0.2403  1\n  N  N42  1  0.6741  0.2773  0.9284  1\n  N  N43  1  0.7220  0.3191  0.5720  1\n  N  N44  1  0.3259  0.7227  0.0716  1\n  N  N45  1  0.2780  0.6809  0.4280  1\n  N  N46  1  0.9156  0.0639  0.7466  1\n  N  N47  1  0.0844  0.9361  0.2534  1\n  O  O48  1  0.4964  0.6522  0.8160  1\n  O  O49  1  0.3547  0.5150  0.6837  1\n  O  O50  1  0.5036  0.3478  0.1840  1\n  O  O51  1  0.6453  0.4850  0.3163  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co2H12BrH17BrHBr2N12O4\n_chemical_formula_sum              \"Co2 H30 Br4 N12 O4\"\n_cell_length_a       6.9257\n_cell_length_b       6.8439\n_cell_length_c       11.0435\n_cell_angle_alpha    86.0682\n_cell_angle_beta     85.7564\n_cell_angle_gamma    80.7579\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.7001  0.2943  0.7501  1.0000\n  Co  Co2       1.0000  0.2999  0.7057  0.2499  1.0000\n  H   H1        1.0000  0.5694  0.9787  0.7089  1.0000\n  H   H2        1.0000  0.0082  0.4107  0.8074  1.0000\n  H   H3        1.0000  0.4306  0.0213  0.2911  1.0000\n  H   H4        1.0000  0.9918  0.5893  0.1926  1.0000\n  H   H5        1.0000  0.5304  0.2807  0.9597  1.0000\n  H   H6        1.0000  0.7131  0.4651  0.5415  1.0000\n  H   H7        1.0000  0.4696  0.7193  0.0403  1.0000\n  H   H8        1.0000  0.2869  0.5349  0.4585  1.0000\n  H   H9        1.0000  0.4076  0.1769  0.6833  1.0000\n  H   H10       1.0000  0.8232  0.5931  0.8070  1.0000\n  H   H11       1.0000  0.5924  0.8231  0.3167  1.0000\n  H   H12       1.0000  0.1768  0.4069  0.1930  1.0000\n  Br  Br1       1.0000  0.7223  0.3926  0.9646  1.0000\n  H   H13       1.0000  0.6145  0.2634  0.5335  1.0000\n  H   H14       1.0000  0.2777  0.6074  0.0354  1.0000\n  H   H15       1.0000  0.3855  0.7366  0.4665  1.0000\n  H   H16       1.0000  0.4360  0.0871  0.8236  1.0000\n  H   H17       1.0000  0.9412  0.5298  0.6773  1.0000\n  H   H18       1.0000  0.5640  0.9129  0.1764  1.0000\n  H   H19       1.0000  0.0588  0.4702  0.3227  1.0000\n  H   H20       1.0000  0.7493  0.1495  0.9664  1.0000\n  H   H21       1.0000  0.8534  0.2487  0.5361  1.0000\n  H   H22       1.0000  0.2507  0.8505  0.0336  1.0000\n  H   H23       1.0000  0.1466  0.7513  0.4639  1.0000\n  H   H24       1.0000  0.0489  0.1054  0.7237  1.0000\n  H   H25       1.0000  0.9511  0.8946  0.2763  1.0000\n  H   H26       1.0000  0.8942  0.9714  0.6811  1.0000\n  H   H27       1.0000  0.1058  0.0286  0.3189  1.0000\n  H   H28       1.0000  0.9246  0.9822  0.8278  1.0000\n  H   H29       1.0000  0.0754  0.0178  0.1722  1.0000\n  Br  Br2       1.0000  0.7790  0.8092  0.5135  1.0000\n  H   H30       1.0000  0.1820  0.2211  0.9834  1.0000\n  Br  Br3       1.0000  0.2210  0.1908  0.4865  1.0000\n  Br  Br4       1.0000  0.8180  0.7789  0.0166  1.0000\n  N   N1        1.0000  0.4924  0.5129  0.7500  1.0000\n  N   N2        1.0000  0.5076  0.4871  0.2500  1.0000\n  N   N3        1.0000  0.5105  0.1126  0.7420  1.0000\n  N   N4        1.0000  0.8905  0.4746  0.7597  1.0000\n  N   N5        1.0000  0.4895  0.8874  0.2580  1.0000\n  N   N6        1.0000  0.1095  0.5254  0.2403  1.0000\n  N   N7        1.0000  0.6741  0.2773  0.9284  1.0000\n  N   N8        1.0000  0.7220  0.3191  0.5720  1.0000\n  N   N9        1.0000  0.3259  0.7227  0.0716  1.0000\n  N   N10       1.0000  0.2780  0.6809  0.4280  1.0000\n  N   N11       1.0000  0.9156  0.0639  0.7466  1.0000\n  N   N12       1.0000  0.0844  0.9361  0.2534  1.0000\n  O   O1        1.0000  0.4964  0.6522  0.8160  1.0000\n  O   O2        1.0000  0.3547  0.5150  0.6837  1.0000\n  O   O3        1.0000  0.5036  0.3478  0.1840  1.0000\n  O   O4        1.0000  0.6453  0.4850  0.3163  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4b4bffe4-eb52-4784-b96d-92e8ce3f7e47",
    "mp_id": "mp-1227099",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaYTi2O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3731\n_cell_length_b   5.5866\n_cell_length_c   7.7174\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaYTi2O6\n_chemical_formula_sum   'Ca2 Y2 Ti4 O12'\n_cell_volume   231.6573\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.9881  0.8044  0.5000  1\n  Ca  Ca1  1  0.4881  0.1956  0.0000  1\n  Y  Y2  1  0.5155  0.3133  0.5000  1\n  Y  Y3  1  0.0155  0.6867  0.0000  1\n  Ti  Ti4  1  0.0003  0.2471  0.7505  1\n  Ti  Ti5  1  0.5003  0.7529  0.2505  1\n  Ti  Ti6  1  0.0003  0.2471  0.2495  1\n  Ti  Ti7  1  0.5003  0.7529  0.7495  1\n  O  O8  1  0.1932  0.9467  0.1978  1\n  O  O9  1  0.2954  0.4582  0.7970  1\n  O  O10  1  0.7954  0.5418  0.7030  1\n  O  O11  1  0.6932  0.0533  0.3022  1\n  O  O12  1  0.7954  0.5418  0.2970  1\n  O  O13  1  0.6932  0.0533  0.6978  1\n  O  O14  1  0.1932  0.9467  0.8022  1\n  O  O15  1  0.2954  0.4582  0.2030  1\n  O  O16  1  0.4146  0.7187  0.5000  1\n  O  O17  1  0.1039  0.2219  0.5000  1\n  O  O18  1  0.6039  0.7781  0.0000  1\n  O  O19  1  0.9146  0.2813  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       OCaY2Ti4OCaO10\n_chemical_formula_sum              \"O12 Ca2 Y2 Ti4\"\n_cell_length_a       5.3731\n_cell_length_b       5.5866\n_cell_length_c       7.7174\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.9881  0.8044  0.5000  1.0000\n  Ca  Ca1       1.0000  0.4881  0.1956  0.0000  1.0000\n  Y   Y1        1.0000  0.5155  0.3133  0.5000  1.0000\n  Y   Y2        1.0000  0.0155  0.6867  0.0000  1.0000\n  Ti  Ti1       1.0000  0.0003  0.2471  0.7505  1.0000\n  Ti  Ti2       1.0000  0.5003  0.7529  0.2505  1.0000\n  Ti  Ti3       1.0000  0.0003  0.2471  0.2495  1.0000\n  Ti  Ti4       1.0000  0.5003  0.7529  0.7495  1.0000\n  O   O2        1.0000  0.1932  0.9467  0.1978  1.0000\n  Ca  Ca2       1.0000  0.2954  0.4582  0.7970  1.0000\n  O   O3        1.0000  0.7954  0.5418  0.7030  1.0000\n  O   O4        1.0000  0.6932  0.0533  0.3022  1.0000\n  O   O5        1.0000  0.7954  0.5418  0.2970  1.0000\n  O   O6        1.0000  0.6932  0.0533  0.6978  1.0000\n  O   O7        1.0000  0.1932  0.9467  0.8022  1.0000\n  O   O8        1.0000  0.2954  0.4582  0.2030  1.0000\n  O   O9        1.0000  0.4146  0.7187  0.5000  1.0000\n  O   O10       1.0000  0.1039  0.2219  0.5000  1.0000\n  O   O11       1.0000  0.6039  0.7781  0.0000  1.0000\n  O   O12       1.0000  0.9146  0.2813  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "38980de6-249f-46c1-a84c-8515ea8eecb9",
    "mp_id": "mp-1227106",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMg3(SiO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6803\n_cell_length_b   6.6803\n_cell_length_c   5.3168\n_cell_angle_alpha   76.9894\n_cell_angle_beta   76.9894\n_cell_angle_gamma   84.6398\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMg3(SiO3)4\n_chemical_formula_sum   'Ca1 Mg3 Si4 O12'\n_cell_volume   225.0169\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2997  0.7003  0.5000  1\n  Mg  Mg1  1  0.9066  0.0934  0.5000  1\n  Mg  Mg2  1  0.0954  0.9046  0.0000  1\n  Mg  Mg3  1  0.7456  0.2544  0.0000  1\n  Si  Si4  1  0.7996  0.6169  0.5003  1\n  Si  Si5  1  0.3831  0.2004  0.4997  1\n  Si  Si6  1  0.1956  0.3833  0.0073  1\n  Si  Si7  1  0.6167  0.8044  0.9927  1\n  O  O8  1  0.9714  0.7906  0.3981  1\n  O  O9  1  0.2094  0.0286  0.6019  1\n  O  O10  1  0.0239  0.2082  0.1054  1\n  O  O11  1  0.7918  0.9761  0.8946  1\n  O  O12  1  0.8677  0.3802  0.6103  1\n  O  O13  1  0.6198  0.1323  0.3897  1\n  O  O14  1  0.1107  0.6160  0.9233  1\n  O  O15  1  0.3840  0.8893  0.0767  1\n  O  O16  1  0.6637  0.6351  0.2642  1\n  O  O17  1  0.3649  0.3363  0.7358  1\n  O  O18  1  0.3255  0.3750  0.2422  1\n  O  O19  1  0.6250  0.6745  0.7578  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaMgOMgSi4O11Mg\n_chemical_formula_sum              \"Ca1 Mg3 O12 Si4\"\n_cell_length_a       6.6803\n_cell_length_b       6.6803\n_cell_length_c       5.3168\n_cell_angle_alpha    76.9894\n_cell_angle_beta     76.9894\n_cell_angle_gamma    84.6398\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2997  0.7003  0.5000  1.0000\n  Mg  Mg1       1.0000  0.9066  0.0934  0.5000  1.0000\n  O   O1        1.0000  0.0954  0.9046  0.0000  1.0000\n  Mg  Mg2       1.0000  0.7456  0.2544  0.0000  1.0000\n  Si  Si1       1.0000  0.7996  0.6169  0.5003  1.0000\n  Si  Si2       1.0000  0.3831  0.2004  0.4997  1.0000\n  Si  Si3       1.0000  0.1956  0.3833  0.0073  1.0000\n  Si  Si4       1.0000  0.6167  0.8044  0.9927  1.0000\n  O   O2        1.0000  0.9714  0.7906  0.3981  1.0000\n  O   O3        1.0000  0.2094  0.0286  0.6019  1.0000\n  O   O4        1.0000  0.0239  0.2082  0.1054  1.0000\n  O   O5        1.0000  0.7918  0.9761  0.8946  1.0000\n  O   O6        1.0000  0.8677  0.3802  0.6103  1.0000\n  O   O7        1.0000  0.6198  0.1323  0.3897  1.0000\n  O   O8        1.0000  0.1107  0.6160  0.9233  1.0000\n  O   O9        1.0000  0.3840  0.8893  0.0767  1.0000\n  O   O10       1.0000  0.6637  0.6351  0.2642  1.0000\n  O   O11       1.0000  0.3649  0.3363  0.7358  1.0000\n  O   O12       1.0000  0.3255  0.3750  0.2422  1.0000\n  Mg  Mg3       1.0000  0.6250  0.6745  0.7578  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6a1f6933-d064-4f9b-9061-8fdfac3a5365",
    "mp_id": "mp-1227447",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 35 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe5GeP\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7667\n_cell_length_b   6.7281\n_cell_length_c   12.4587\n_cell_angle_alpha   89.7411\n_cell_angle_beta   90.5149\n_cell_angle_gamma   120.1898\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe5GeP\n_chemical_formula_sum   'Fe30 Ge6 P6'\n_cell_volume   490.2596\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.9974  0.0000  0.5501  1\n  Fe  Fe1  1  0.0119  0.0000  0.0473  1\n  Fe  Fe2  1  0.3641  0.0000  0.2856  1\n  Fe  Fe3  1  0.6329  0.6391  0.2803  1\n  Fe  Fe4  1  0.9937  0.3609  0.2803  1\n  Fe  Fe5  1  0.6332  0.0000  0.7916  1\n  Fe  Fe6  1  0.3823  0.3784  0.7959  1\n  Fe  Fe7  1  0.0039  0.6216  0.7959  1\n  Fe  Fe8  1  0.6798  0.0000  0.1742  1\n  Fe  Fe9  1  0.3192  0.3303  0.1694  1\n  Fe  Fe10  1  0.9889  0.6697  0.1694  1\n  Fe  Fe11  1  0.3287  0.0000  0.6798  1\n  Fe  Fe12  1  0.6751  0.6730  0.6797  1\n  Fe  Fe13  1  0.0021  0.3270  0.6797  1\n  Fe  Fe14  1  0.7192  0.0000  0.3827  1\n  Fe  Fe15  1  0.2792  0.2829  0.3824  1\n  Fe  Fe16  1  0.9963  0.7171  0.3824  1\n  Fe  Fe17  1  0.2818  0.0000  0.8915  1\n  Fe  Fe18  1  0.7388  0.7379  0.8846  1\n  Fe  Fe19  1  0.0009  0.2621  0.8846  1\n  Fe  Fe20  1  0.6629  0.3311  0.3925  1\n  Fe  Fe21  1  0.3318  0.6689  0.3925  1\n  Fe  Fe22  1  0.3234  0.6548  0.9136  1\n  Fe  Fe23  1  0.6686  0.3452  0.9136  1\n  Fe  Fe24  1  0.3576  0.0000  0.0893  1\n  Fe  Fe25  1  0.6355  0.6185  0.0691  1\n  Fe  Fe26  1  0.0170  0.3815  0.0691  1\n  Fe  Fe27  1  0.6487  0.0000  0.5896  1\n  Fe  Fe28  1  0.3468  0.3498  0.5919  1\n  Fe  Fe29  1  0.9971  0.6502  0.5919  1\n  Ge  Ge30  1  0.0036  0.0000  0.2478  1\n  Ge  Ge31  1  0.0065  0.0000  0.7495  1\n  Ge  Ge32  1  0.3391  0.0000  0.4858  1\n  Ge  Ge33  1  0.6544  0.6538  0.4835  1\n  Ge  Ge34  1  0.0005  0.3462  0.4835  1\n  Ge  Ge35  1  0.6642  0.0000  0.9854  1\n  P  P36  1  0.3280  0.3340  0.9825  1\n  P  P37  1  0.9940  0.6660  0.9825  1\n  P  P38  1  0.6619  0.3368  0.2079  1\n  P  P39  1  0.3251  0.6632  0.2079  1\n  P  P40  1  0.3359  0.6682  0.7237  1\n  P  P41  1  0.6677  0.3318  0.7237  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe3GeFe26Ge5FeP6\n_chemical_formula_sum              \"Fe30 Ge6 P6\"\n_cell_length_a       6.7667\n_cell_length_b       6.7281\n_cell_length_c       12.4587\n_cell_angle_alpha    89.7411\n_cell_angle_beta     90.5149\n_cell_angle_gamma    120.1898\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.9974  0.0000  0.5501  1.0000\n  Fe  Fe2       1.0000  0.0119  0.0000  0.0473  1.0000\n  Fe  Fe3       1.0000  0.3641  0.0000  0.2856  1.0000\n  Ge  Ge1       1.0000  0.6329  0.6391  0.2803  1.0000\n  Fe  Fe4       1.0000  0.9937  0.3609  0.2803  1.0000\n  Fe  Fe5       1.0000  0.6332  0.0000  0.7916  1.0000\n  Fe  Fe6       1.0000  0.3823  0.3784  0.7959  1.0000\n  Fe  Fe7       1.0000  0.0039  0.6216  0.7959  1.0000\n  Fe  Fe8       1.0000  0.6798  0.0000  0.1742  1.0000\n  Fe  Fe9       1.0000  0.3192  0.3303  0.1694  1.0000\n  Fe  Fe10      1.0000  0.9889  0.6697  0.1694  1.0000\n  Fe  Fe11      1.0000  0.3287  0.0000  0.6798  1.0000\n  Fe  Fe12      1.0000  0.6751  0.6730  0.6797  1.0000\n  Fe  Fe13      1.0000  0.0021  0.3270  0.6797  1.0000\n  Fe  Fe14      1.0000  0.7192  0.0000  0.3827  1.0000\n  Fe  Fe15      1.0000  0.2792  0.2829  0.3824  1.0000\n  Fe  Fe16      1.0000  0.9963  0.7171  0.3824  1.0000\n  Fe  Fe17      1.0000  0.2818  0.0000  0.8915  1.0000\n  Fe  Fe18      1.0000  0.7388  0.7378  0.8846  1.0000\n  Fe  Fe19      1.0000  0.0009  0.2621  0.8846  1.0000\n  Fe  Fe20      1.0000  0.6629  0.3311  0.3925  1.0000\n  Fe  Fe21      1.0000  0.3318  0.6689  0.3925  1.0000\n  Fe  Fe22      1.0000  0.3234  0.6548  0.9136  1.0000\n  Fe  Fe23      1.0000  0.6686  0.3452  0.9136  1.0000\n  Fe  Fe24      1.0000  0.3576  0.0000  0.0893  1.0000\n  Fe  Fe25      1.0000  0.6355  0.6185  0.0691  1.0000\n  Fe  Fe26      1.0000  0.0170  0.3815  0.0691  1.0000\n  Fe  Fe27      1.0000  0.6487  0.0000  0.5896  1.0000\n  Fe  Fe28      1.0000  0.3468  0.3498  0.5919  1.0000\n  Fe  Fe29      1.0000  0.9971  0.6502  0.5919  1.0000\n  Ge  Ge2       1.0000  0.0036  0.0000  0.2478  1.0000\n  Ge  Ge3       1.0000  0.0065  0.0000  0.7495  1.0000\n  Ge  Ge4       1.0000  0.3391  0.0000  0.4858  1.0000\n  Ge  Ge5       1.0000  0.6544  0.6538  0.4835  1.0000\n  Ge  Ge6       1.0000  0.0005  0.3462  0.4835  1.0000\n  Fe  Fe30      1.0000  0.6642  0.0000  0.9854  1.0000\n  P   P1        1.0000  0.3280  0.3340  0.9825  1.0000\n  P   P2        1.0000  0.9940  0.6660  0.9825  1.0000\n  P   P3        1.0000  0.6619  0.3368  0.2079  1.0000\n  P   P4        1.0000  0.3251  0.6632  0.2079  1.0000\n  P   P5        1.0000  0.3359  0.6682  0.7237  1.0000\n  P   P6        1.0000  0.6677  0.3318  0.7237  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a3fd2bdd-f5a8-4bab-a502-7d65aeb535bd",
    "mp_id": "mp-1227574",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca4Cd3Au5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2507\n_cell_length_b   7.4100\n_cell_length_c   8.8559\n_cell_angle_alpha   90.2664\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca4Cd3Au5\n_chemical_formula_sum   'Ca4 Cd3 Au5'\n_cell_volume   278.9379\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.5000  0.5434  0.8147  1\n  Ca  Ca1  1  0.5000  0.0393  0.6764  1\n  Ca  Ca2  1  0.0000  0.4636  0.1934  1\n  Ca  Ca3  1  0.0000  0.9422  0.3252  1\n  Cd  Cd4  1  0.5000  0.1439  0.0631  1\n  Cd  Cd5  1  0.0000  0.3644  0.5599  1\n  Cd  Cd6  1  0.0000  0.8628  0.9369  1\n  Au  Au7  1  0.5000  0.7500  0.1242  1\n  Au  Au8  1  0.5000  0.2453  0.3711  1\n  Au  Au9  1  0.0000  0.2507  0.8684  1\n  Au  Au10  1  0.0000  0.7471  0.6339  1\n  Au  Au11  1  0.5000  0.6473  0.4327  1\n",
    "output": "data_image0\n_chemical_formula_structural       AuCa3Cd3CaAu4\n_chemical_formula_sum              \"Au5 Ca4 Cd3\"\n_cell_length_a       4.2507\n_cell_length_b       7.4100\n_cell_length_c       8.8559\n_cell_angle_alpha    90.2664\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Au  Au1       1.0000  0.5000  0.5434  0.8147  1.0000\n  Ca  Ca1       1.0000  0.5000  0.0393  0.6764  1.0000\n  Ca  Ca2       1.0000  0.0000  0.4636  0.1934  1.0000\n  Ca  Ca3       1.0000  0.0000  0.9422  0.3252  1.0000\n  Cd  Cd1       1.0000  0.5000  0.1439  0.0631  1.0000\n  Cd  Cd2       1.0000  0.0000  0.3644  0.5599  1.0000\n  Cd  Cd3       1.0000  0.0000  0.8628  0.9369  1.0000\n  Ca  Ca4       1.0000  0.5000  0.7500  0.1242  1.0000\n  Au  Au2       1.0000  0.5000  0.2453  0.3711  1.0000\n  Au  Au3       1.0000  0.0000  0.2507  0.8684  1.0000\n  Au  Au4       1.0000  0.0000  0.7471  0.6339  1.0000\n  Au  Au5       1.0000  0.5000  0.6473  0.4327  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b0a570f1-038c-4356-a6ff-e2ff52208f65",
    "mp_id": "mp-1227644",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca4Mg3Fe(SiO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3224\n_cell_length_b   6.7116\n_cell_length_c   13.3984\n_cell_angle_alpha   90.4010\n_cell_angle_beta   101.1638\n_cell_angle_gamma   101.7277\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca4Mg3Fe(SiO3)8\n_chemical_formula_sum   'Ca4 Mg3 Fe1 Si8 O24'\n_cell_volume   459.2196\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.1004  0.7010  0.8506  1\n  Ca  Ca1  1  0.6001  0.7002  0.3499  1\n  Ca  Ca2  1  0.3986  0.2974  0.6488  1\n  Ca  Ca3  1  0.8997  0.2992  0.1495  1\n  Mg  Mg4  1  0.2965  0.0927  0.0465  1\n  Mg  Mg5  1  0.7036  0.9071  0.9538  1\n  Mg  Mg6  1  0.2041  0.9081  0.4538  1\n  Fe  Fe7  1  0.7963  0.0933  0.5464  1\n  Si  Si8  1  0.8672  0.6215  0.5974  1\n  Si  Si9  1  0.3661  0.6203  0.0967  1\n  Si  Si10  1  0.0413  0.1944  0.8115  1\n  Si  Si11  1  0.5403  0.1936  0.3095  1\n  Si  Si12  1  0.6338  0.3799  0.9035  1\n  Si  Si13  1  0.1350  0.3813  0.4025  1\n  Si  Si14  1  0.4585  0.8054  0.6908  1\n  Si  Si15  1  0.9593  0.8066  0.1899  1\n  O  O16  1  0.1690  0.6321  0.6672  1\n  O  O17  1  0.6694  0.6332  0.1665  1\n  O  O18  1  0.8136  0.3334  0.8168  1\n  O  O19  1  0.3142  0.3340  0.3159  1\n  O  O20  1  0.3308  0.3674  0.8338  1\n  O  O21  1  0.8305  0.3666  0.3336  1\n  O  O22  1  0.6871  0.6680  0.6837  1\n  O  O23  1  0.1862  0.6669  0.1833  1\n  O  O24  1  0.7355  0.3911  0.5575  1\n  O  O25  1  0.2369  0.3889  0.0573  1\n  O  O26  1  0.0175  0.1145  0.6962  1\n  O  O27  1  0.5150  0.1154  0.1938  1\n  O  O28  1  0.7632  0.6114  0.9426  1\n  O  O29  1  0.2634  0.6123  0.4424  1\n  O  O30  1  0.4854  0.8847  0.8063  1\n  O  O31  1  0.9849  0.8852  0.3056  1\n  O  O32  1  0.8719  0.7930  0.5127  1\n  O  O33  1  0.3720  0.7963  0.0142  1\n  O  O34  1  0.0405  0.0284  0.8988  1\n  O  O35  1  0.5371  0.0255  0.3958  1\n  O  O36  1  0.6280  0.2036  0.9858  1\n  O  O37  1  0.1364  0.2055  0.4847  1\n  O  O38  1  0.4509  0.9693  0.6026  1\n  O  O39  1  0.9596  0.9716  0.1018  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca4Mg2OFeSi8O3MgO20\n_chemical_formula_sum              \"Ca4 Mg3 O24 Fe1 Si8\"\n_cell_length_a       5.3224\n_cell_length_b       6.7116\n_cell_length_c       13.3984\n_cell_angle_alpha    90.4010\n_cell_angle_beta     101.1638\n_cell_angle_gamma    101.7277\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.1004  0.7010  0.8506  1.0000\n  Ca  Ca2       1.0000  0.6001  0.7002  0.3499  1.0000\n  Ca  Ca3       1.0000  0.3986  0.2974  0.6488  1.0000\n  Ca  Ca4       1.0000  0.8997  0.2992  0.1495  1.0000\n  Mg  Mg1       1.0000  0.2965  0.0927  0.0465  1.0000\n  Mg  Mg2       1.0000  0.7036  0.9071  0.9538  1.0000\n  O   O1        1.0000  0.2041  0.9081  0.4538  1.0000\n  Fe  Fe1       1.0000  0.7963  0.0933  0.5464  1.0000\n  Si  Si1       1.0000  0.8672  0.6215  0.5974  1.0000\n  Si  Si2       1.0000  0.3661  0.6203  0.0967  1.0000\n  Si  Si3       1.0000  0.0413  0.1944  0.8115  1.0000\n  Si  Si4       1.0000  0.5403  0.1936  0.3095  1.0000\n  Si  Si5       1.0000  0.6338  0.3799  0.9035  1.0000\n  Si  Si6       1.0000  0.1350  0.3813  0.4025  1.0000\n  Si  Si7       1.0000  0.4585  0.8054  0.6908  1.0000\n  Si  Si8       1.0000  0.9593  0.8066  0.1899  1.0000\n  O   O2        1.0000  0.1690  0.6321  0.6672  1.0000\n  O   O3        1.0000  0.6694  0.6332  0.1665  1.0000\n  O   O4        1.0000  0.8136  0.3334  0.8168  1.0000\n  Mg  Mg3       1.0000  0.3142  0.3340  0.3159  1.0000\n  O   O5        1.0000  0.3308  0.3674  0.8338  1.0000\n  O   O6        1.0000  0.8305  0.3666  0.3336  1.0000\n  O   O7        1.0000  0.6871  0.6680  0.6837  1.0000\n  O   O8        1.0000  0.1862  0.6669  0.1833  1.0000\n  O   O9        1.0000  0.7355  0.3911  0.5575  1.0000\n  O   O10       1.0000  0.2369  0.3889  0.0573  1.0000\n  O   O11       1.0000  0.0175  0.1145  0.6962  1.0000\n  O   O12       1.0000  0.5150  0.1154  0.1938  1.0000\n  O   O13       1.0000  0.7632  0.6114  0.9426  1.0000\n  O   O14       1.0000  0.2634  0.6123  0.4424  1.0000\n  O   O15       1.0000  0.4854  0.8847  0.8063  1.0000\n  O   O16       1.0000  0.9849  0.8852  0.3056  1.0000\n  O   O17       1.0000  0.8719  0.7930  0.5127  1.0000\n  O   O18       1.0000  0.3720  0.7963  0.0142  1.0000\n  O   O19       1.0000  0.0405  0.0284  0.8988  1.0000\n  O   O20       1.0000  0.5371  0.0255  0.3958  1.0000\n  O   O21       1.0000  0.6280  0.2036  0.9858  1.0000\n  O   O22       1.0000  0.1364  0.2055  0.4847  1.0000\n  O   O23       1.0000  0.4509  0.9693  0.6026  1.0000\n  O   O24       1.0000  0.9596  0.9716  0.1018  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ed96f38c-c993-4ff2-8b3e-c4ba3d30fd9f",
    "mp_id": "mp-1227756",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca2LaGeS4Cl3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.8554\n_cell_length_b   9.8554\n_cell_length_c   6.3958\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   121.4700\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca2LaGeS4Cl3\n_chemical_formula_sum   'Ca4 La2 Ge2 S8 Cl6'\n_cell_volume   529.8491\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6255  0.8062  0.4273  1\n  Ca  Ca1  1  0.1938  0.3745  0.4273  1\n  Ca  Ca2  1  0.3745  0.1938  0.9273  1\n  Ca  Ca3  1  0.8062  0.6255  0.9273  1\n  La  La4  1  0.1880  0.8120  0.4275  1\n  La  La5  1  0.8120  0.1880  0.9275  1\n  Ge  Ge6  1  0.6639  0.3361  0.5025  1\n  Ge  Ge7  1  0.3361  0.6639  0.0025  1\n  S  S8  1  0.6661  0.3339  0.1494  1\n  S  S9  1  0.3339  0.6661  0.6494  1\n  S  S10  1  0.0904  0.5405  0.1428  1\n  S  S11  1  0.4595  0.9096  0.1428  1\n  S  S12  1  0.4543  0.5457  0.1439  1\n  S  S13  1  0.9096  0.4595  0.6428  1\n  S  S14  1  0.5405  0.0904  0.6428  1\n  S  S15  1  0.5457  0.4543  0.6439  1\n  Cl  Cl16  1  0.2450  0.1226  0.3259  1\n  Cl  Cl17  1  0.8774  0.7550  0.3259  1\n  Cl  Cl18  1  0.8782  0.1218  0.3352  1\n  Cl  Cl19  1  0.7550  0.8774  0.8259  1\n  Cl  Cl20  1  0.1226  0.2450  0.8259  1\n  Cl  Cl21  1  0.1218  0.8782  0.8352  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaSCa2La2Ge2S5CaS2Cl6\n_chemical_formula_sum              \"Ca4 S8 La2 Ge2 Cl6\"\n_cell_length_a       9.8554\n_cell_length_b       9.8554\n_cell_length_c       6.3958\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    121.4700\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.6255  0.8062  0.4273  1.0000\n  S   S1        1.0000  0.1938  0.3745  0.4273  1.0000\n  Ca  Ca2       1.0000  0.3745  0.1938  0.9273  1.0000\n  Ca  Ca3       1.0000  0.8062  0.6255  0.9273  1.0000\n  La  La1       1.0000  0.1880  0.8120  0.4275  1.0000\n  La  La2       1.0000  0.8120  0.1880  0.9275  1.0000\n  Ge  Ge1       1.0000  0.6639  0.3361  0.5025  1.0000\n  Ge  Ge2       1.0000  0.3361  0.6639  0.0025  1.0000\n  S   S2        1.0000  0.6661  0.3339  0.1494  1.0000\n  S   S3        1.0000  0.3339  0.6661  0.6494  1.0000\n  S   S4        1.0000  0.0904  0.5405  0.1428  1.0000\n  S   S5        1.0000  0.4595  0.9096  0.1428  1.0000\n  S   S6        1.0000  0.4543  0.5457  0.1439  1.0000\n  Ca  Ca4       1.0000  0.9096  0.4595  0.6428  1.0000\n  S   S7        1.0000  0.5405  0.0904  0.6428  1.0000\n  S   S8        1.0000  0.5457  0.4543  0.6439  1.0000\n  Cl  Cl1       1.0000  0.2450  0.1226  0.3259  1.0000\n  Cl  Cl2       1.0000  0.8774  0.7550  0.3259  1.0000\n  Cl  Cl3       1.0000  0.8782  0.1218  0.3352  1.0000\n  Cl  Cl4       1.0000  0.7550  0.8774  0.8259  1.0000\n  Cl  Cl5       1.0000  0.1226  0.2450  0.8259  1.0000\n  Cl  Cl6       1.0000  0.1218  0.8782  0.8352  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fb7472c9-8ab7-4242-8c4f-8b349b21e9e1",
    "mp_id": "mp-1227836",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaNd(FeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6070\n_cell_length_b   5.6070\n_cell_length_c   5.6070\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaNd(FeO3)2\n_chemical_formula_sum   'Ba1 Nd1 Fe2 O6'\n_cell_volume   124.6441\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.0000  0.0000  1\n  Nd  Nd1  1  0.5000  0.5000  0.5000  1\n  Fe  Fe2  1  0.7500  0.7500  0.7500  1\n  Fe  Fe3  1  0.2500  0.2500  0.2500  1\n  O  O4  1  0.0000  0.5000  0.5000  1\n  O  O5  1  0.5000  0.0000  0.0000  1\n  O  O6  1  0.5000  0.5000  0.0000  1\n  O  O7  1  0.0000  0.0000  0.5000  1\n  O  O8  1  0.5000  0.0000  0.5000  1\n  O  O9  1  0.0000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaNdOFeO4FeO\n_chemical_formula_sum              \"Ba1 Nd1 O6 Fe2\"\n_cell_length_a       5.6070\n_cell_length_b       5.6070\n_cell_length_c       5.6070\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Nd  Nd1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Fe  Fe1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O2        1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O3        1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O4        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O6        1.0000  0.0000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2e473a6b-8971-4542-8682-1b704f066b80",
    "mp_id": "mp-1227849",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaV4O15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3224\n_cell_length_b   6.3156\n_cell_length_c   9.5926\n_cell_angle_alpha   95.4026\n_cell_angle_beta   110.1334\n_cell_angle_gamma   75.2456\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaV4O15\n_chemical_formula_sum   'Ca1 V4 O15'\n_cell_volume   347.7558\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2642  0.7492  0.4984  1\n  V  V1  1  0.9012  0.7188  0.0779  1\n  V  V2  1  0.1392  0.2516  0.9408  1\n  V  V3  1  0.7127  0.3011  0.0820  1\n  V  V4  1  0.3020  0.6926  0.9134  1\n  O  O5  1  0.2768  0.9772  0.9880  1\n  O  O6  1  0.7694  0.0255  0.0299  1\n  O  O7  1  0.4111  0.3109  0.5212  1\n  O  O8  1  0.6583  0.7037  0.5241  1\n  O  O9  1  0.6631  0.8662  0.4394  1\n  O  O10  1  0.2963  0.1695  0.4744  1\n  O  O11  1  0.9917  0.3657  0.0748  1\n  O  O12  1  0.0287  0.6821  0.9216  1\n  O  O13  1  0.0773  0.7327  0.2533  1\n  O  O14  1  0.9608  0.2584  0.7730  1\n  O  O15  1  0.7311  0.3107  0.2541  1\n  O  O16  1  0.2894  0.7008  0.7388  1\n  O  O17  1  0.6155  0.6332  0.0352  1\n  O  O18  1  0.3872  0.3680  0.9552  1\n  O  O19  1  0.8549  0.9373  0.4876  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaOV3O6VO8\n_chemical_formula_sum              \"Ca1 O15 V4\"\n_cell_length_a       6.3224\n_cell_length_b       6.3156\n_cell_length_c       9.5926\n_cell_angle_alpha    95.4026\n_cell_angle_beta     110.1334\n_cell_angle_gamma    75.2456\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2642  0.7492  0.4984  1.0000\n  O   O1        1.0000  0.9012  0.7188  0.0779  1.0000\n  V   V1        1.0000  0.1392  0.2516  0.9408  1.0000\n  V   V2        1.0000  0.7127  0.3011  0.0820  1.0000\n  V   V3        1.0000  0.3020  0.6926  0.9134  1.0000\n  O   O2        1.0000  0.2768  0.9772  0.9880  1.0000\n  O   O3        1.0000  0.7694  0.0255  0.0299  1.0000\n  O   O4        1.0000  0.4111  0.3109  0.5212  1.0000\n  O   O5        1.0000  0.6583  0.7037  0.5241  1.0000\n  O   O6        1.0000  0.6631  0.8662  0.4394  1.0000\n  O   O7        1.0000  0.2963  0.1695  0.4744  1.0000\n  V   V4        1.0000  0.9917  0.3657  0.0748  1.0000\n  O   O8        1.0000  0.0287  0.6821  0.9216  1.0000\n  O   O9        1.0000  0.0773  0.7327  0.2533  1.0000\n  O   O10       1.0000  0.9608  0.2584  0.7730  1.0000\n  O   O11       1.0000  0.7311  0.3107  0.2541  1.0000\n  O   O12       1.0000  0.2894  0.7008  0.7388  1.0000\n  O   O13       1.0000  0.6155  0.6332  0.0352  1.0000\n  O   O14       1.0000  0.3872  0.3680  0.9552  1.0000\n  O   O15       1.0000  0.8549  0.9373  0.4876  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b63aaf1f-0232-441f-a8a2-81e454975ab7",
    "mp_id": "mp-1227954",
    "action_prompt": "Swap the spatial positions of atoms at indices 31 and 42 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMn25FeSi4SbO44\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7880\n_cell_length_b   13.2287\n_cell_length_c   11.7517\n_cell_angle_alpha   63.5890\n_cell_angle_beta   89.9953\n_cell_angle_gamma   104.8635\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMn25FeSi4SbO44\n_chemical_formula_sum   'Ca1 Mn25 Fe1 Si4 Sb1 O44'\n_cell_volume   905.5109\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.4997  0.9996  0.4999  1\n  Mn  Mn1  1  0.2494  0.9999  0.7508  1\n  Mn  Mn2  1  0.7505  1.0000  0.2492  1\n  Mn  Mn3  1  0.9990  0.9981  0.5009  1\n  Mn  Mn4  1  0.5010  0.0018  0.9991  1\n  Mn  Mn5  1  0.7505  0.9999  0.7508  1\n  Mn  Mn6  1  0.2495  1.0000  0.2492  1\n  Mn  Mn7  1  0.0039  0.4996  0.9946  1\n  Mn  Mn8  1  0.4959  0.5003  0.5055  1\n  Mn  Mn9  1  0.7499  0.4998  0.7500  1\n  Mn  Mn10  1  0.2502  0.5005  0.2498  1\n  Mn  Mn11  1  0.4957  0.4996  0.9945  1\n  Mn  Mn12  1  0.0044  0.5003  0.5055  1\n  Mn  Mn13  1  0.0001  0.9999  0.0006  1\n  Mn  Mn14  1  0.3650  0.2327  0.4673  1\n  Mn  Mn15  1  0.8673  0.2342  0.9665  1\n  Mn  Mn16  1  0.8676  0.2327  0.4673  1\n  Mn  Mn17  1  0.3669  0.2343  0.9665  1\n  Mn  Mn18  1  0.1167  0.2333  0.7167  1\n  Mn  Mn19  1  0.6168  0.2338  0.2154  1\n  Mn  Mn20  1  0.6328  0.7643  0.5338  1\n  Mn  Mn21  1  0.1346  0.7688  0.0325  1\n  Mn  Mn22  1  0.1313  0.7642  0.5339  1\n  Mn  Mn23  1  0.6343  0.7689  0.0325  1\n  Mn  Mn24  1  0.8839  0.7678  0.2827  1\n  Mn  Mn25  1  0.3825  0.7650  0.7850  1\n  Fe  Fe26  1  0.2501  0.5002  0.7499  1\n  Si  Si27  1  0.8679  0.7358  0.7983  1\n  Si  Si28  1  0.3680  0.7360  0.2992  1\n  Si  Si29  1  0.1321  0.2642  0.2003  1\n  Si  Si30  1  0.6321  0.2641  0.7023  1\n  Sb  Sb31  1  0.7499  0.4998  0.2502  1\n  O  O32  1  0.9667  0.4067  0.8754  1\n  O  O33  1  0.4739  0.4103  0.3710  1\n  O  O34  1  0.4403  0.4071  0.8752  1\n  O  O35  1  0.9361  0.4100  0.3712  1\n  O  O36  1  0.7059  0.4121  0.1407  1\n  O  O37  1  0.2028  0.4053  0.6390  1\n  O  O38  1  0.0250  0.5909  0.1290  1\n  O  O39  1  0.5341  0.5917  0.6249  1\n  O  O40  1  0.5663  0.5913  0.1287  1\n  O  O41  1  0.0574  0.5915  0.6251  1\n  O  O42  1  0.2964  0.5930  0.8629  1\n  O  O43  1  0.7945  0.5888  0.3578  1\n  O  O44  1  0.7956  0.5912  0.8716  1\n  O  O45  1  0.2953  0.5908  0.3711  1\n  O  O46  1  0.2047  0.4093  0.1292  1\n  O  O47  1  0.7043  0.4086  0.6283  1\n  O  O48  1  0.7396  0.0578  0.0673  1\n  O  O49  1  0.2307  0.0551  0.5716  1\n  O  O50  1  0.3184  0.0577  0.0674  1\n  O  O51  1  0.8243  0.0552  0.5716  1\n  O  O52  1  0.5276  0.0551  0.2734  1\n  O  O53  1  0.0286  0.0573  0.7797  1\n  O  O54  1  0.2654  0.9470  0.9297  1\n  O  O55  1  0.7650  0.9405  0.4310  1\n  O  O56  1  0.6816  0.9467  0.9299  1\n  O  O57  1  0.1754  0.9405  0.4310  1\n  O  O58  1  0.4703  0.9405  0.7272  1\n  O  O59  1  0.9738  0.9477  0.2195  1\n  O  O60  1  0.6027  0.2051  0.3982  1\n  O  O61  1  0.0994  0.1992  0.8998  1\n  O  O62  1  0.9028  0.8059  0.0960  1\n  O  O63  1  0.3955  0.7908  0.6053  1\n  O  O64  1  0.0921  0.7858  0.8389  1\n  O  O65  1  0.5910  0.7847  0.3418  1\n  O  O66  1  0.8920  0.7843  0.6408  1\n  O  O67  1  0.3932  0.7862  0.1418  1\n  O  O68  1  0.6935  0.7857  0.8391  1\n  O  O69  1  0.1938  0.7848  0.3417  1\n  O  O70  1  0.9092  0.2156  0.1573  1\n  O  O71  1  0.4075  0.2140  0.6619  1\n  O  O72  1  0.1066  0.2135  0.3575  1\n  O  O73  1  0.6082  0.2158  0.8600  1\n  O  O74  1  0.3063  0.2155  0.1575  1\n  O  O75  1  0.8066  0.2141  0.6618  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaMn25FeSi4O11SbO33\n_chemical_formula_sum              \"Ca1 Mn25 Fe1 Si4 O44 Sb1\"\n_cell_length_a       6.7880\n_cell_length_b       13.2287\n_cell_length_c       11.7517\n_cell_angle_alpha    63.5890\n_cell_angle_beta     89.9953\n_cell_angle_gamma    104.8635\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.4997  0.9996  0.4999  1.0000\n  Mn  Mn1       1.0000  0.2494  0.9999  0.7508  1.0000\n  Mn  Mn2       1.0000  0.7505  1.0000  0.2492  1.0000\n  Mn  Mn3       1.0000  0.9990  0.9981  0.5009  1.0000\n  Mn  Mn4       1.0000  0.5010  0.0018  0.9991  1.0000\n  Mn  Mn5       1.0000  0.7505  0.9999  0.7508  1.0000\n  Mn  Mn6       1.0000  0.2495  1.0000  0.2492  1.0000\n  Mn  Mn7       1.0000  0.0039  0.4996  0.9946  1.0000\n  Mn  Mn8       1.0000  0.4959  0.5003  0.5055  1.0000\n  Mn  Mn9       1.0000  0.7499  0.4998  0.7500  1.0000\n  Mn  Mn10      1.0000  0.2502  0.5005  0.2498  1.0000\n  Mn  Mn11      1.0000  0.4957  0.4996  0.9945  1.0000\n  Mn  Mn12      1.0000  0.0044  0.5003  0.5055  1.0000\n  Mn  Mn13      1.0000  0.0001  0.9999  0.0006  1.0000\n  Mn  Mn14      1.0000  0.3650  0.2327  0.4673  1.0000\n  Mn  Mn15      1.0000  0.8673  0.2342  0.9665  1.0000\n  Mn  Mn16      1.0000  0.8676  0.2327  0.4673  1.0000\n  Mn  Mn17      1.0000  0.3669  0.2343  0.9665  1.0000\n  Mn  Mn18      1.0000  0.1167  0.2333  0.7167  1.0000\n  Mn  Mn19      1.0000  0.6168  0.2338  0.2154  1.0000\n  Mn  Mn20      1.0000  0.6328  0.7643  0.5338  1.0000\n  Mn  Mn21      1.0000  0.1346  0.7688  0.0325  1.0000\n  Mn  Mn22      1.0000  0.1313  0.7642  0.5339  1.0000\n  Mn  Mn23      1.0000  0.6343  0.7689  0.0325  1.0000\n  Mn  Mn24      1.0000  0.8839  0.7678  0.2827  1.0000\n  Mn  Mn25      1.0000  0.3825  0.7650  0.7850  1.0000\n  Fe  Fe1       1.0000  0.2501  0.5002  0.7499  1.0000\n  Si  Si1       1.0000  0.8679  0.7358  0.7983  1.0000\n  Si  Si2       1.0000  0.3680  0.7360  0.2992  1.0000\n  Si  Si3       1.0000  0.1321  0.2642  0.2003  1.0000\n  Si  Si4       1.0000  0.6321  0.2641  0.7023  1.0000\n  O   O1        1.0000  0.7499  0.4998  0.2502  1.0000\n  O   O2        1.0000  0.9667  0.4067  0.8754  1.0000\n  O   O3        1.0000  0.4739  0.4103  0.3710  1.0000\n  O   O4        1.0000  0.4403  0.4071  0.8752  1.0000\n  O   O5        1.0000  0.9361  0.4100  0.3712  1.0000\n  O   O6        1.0000  0.7059  0.4121  0.1407  1.0000\n  O   O7        1.0000  0.2028  0.4053  0.6390  1.0000\n  O   O8        1.0000  0.0250  0.5909  0.1290  1.0000\n  O   O9        1.0000  0.5341  0.5917  0.6249  1.0000\n  O   O10       1.0000  0.5663  0.5913  0.1287  1.0000\n  O   O11       1.0000  0.0574  0.5915  0.6251  1.0000\n  Sb  Sb1       1.0000  0.2964  0.5930  0.8629  1.0000\n  O   O12       1.0000  0.7945  0.5888  0.3578  1.0000\n  O   O13       1.0000  0.7956  0.5912  0.8716  1.0000\n  O   O14       1.0000  0.2953  0.5908  0.3711  1.0000\n  O   O15       1.0000  0.2047  0.4093  0.1292  1.0000\n  O   O16       1.0000  0.7043  0.4086  0.6283  1.0000\n  O   O17       1.0000  0.7396  0.0578  0.0673  1.0000\n  O   O18       1.0000  0.2307  0.0551  0.5716  1.0000\n  O   O19       1.0000  0.3184  0.0577  0.0674  1.0000\n  O   O20       1.0000  0.8243  0.0552  0.5716  1.0000\n  O   O21       1.0000  0.5276  0.0551  0.2734  1.0000\n  O   O22       1.0000  0.0286  0.0573  0.7797  1.0000\n  O   O23       1.0000  0.2654  0.9470  0.9297  1.0000\n  O   O24       1.0000  0.7650  0.9405  0.4310  1.0000\n  O   O25       1.0000  0.6816  0.9467  0.9299  1.0000\n  O   O26       1.0000  0.1754  0.9405  0.4310  1.0000\n  O   O27       1.0000  0.4703  0.9405  0.7272  1.0000\n  O   O28       1.0000  0.9738  0.9477  0.2195  1.0000\n  O   O29       1.0000  0.6027  0.2051  0.3982  1.0000\n  O   O30       1.0000  0.0994  0.1992  0.8998  1.0000\n  O   O31       1.0000  0.9028  0.8059  0.0960  1.0000\n  O   O32       1.0000  0.3955  0.7908  0.6053  1.0000\n  O   O33       1.0000  0.0921  0.7858  0.8389  1.0000\n  O   O34       1.0000  0.5910  0.7847  0.3418  1.0000\n  O   O35       1.0000  0.8920  0.7843  0.6408  1.0000\n  O   O36       1.0000  0.3932  0.7862  0.1418  1.0000\n  O   O37       1.0000  0.6935  0.7857  0.8391  1.0000\n  O   O38       1.0000  0.1938  0.7848  0.3417  1.0000\n  O   O39       1.0000  0.9092  0.2156  0.1573  1.0000\n  O   O40       1.0000  0.4075  0.2140  0.6619  1.0000\n  O   O41       1.0000  0.1066  0.2135  0.3575  1.0000\n  O   O42       1.0000  0.6082  0.2159  0.8600  1.0000\n  O   O43       1.0000  0.3063  0.2155  0.1575  1.0000\n  O   O44       1.0000  0.8066  0.2141  0.6618  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9c8c69b0-d797-4cb6-9a24-8574bbd5438e",
    "mp_id": "mp-1228056",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3NaB24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2560\n_cell_length_b   4.2560\n_cell_length_c   16.9684\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3NaB24\n_chemical_formula_sum   'Ba3 Na1 B24'\n_cell_volume   307.3575\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.0000  0.2456  1\n  Ba  Ba1  1  0.0000  0.0000  0.5000  1\n  Ba  Ba2  1  0.0000  0.0000  0.7544  1\n  Na  Na3  1  0.0000  0.0000  0.0000  1\n  B  B4  1  0.2022  0.5000  0.1229  1\n  B  B5  1  0.2045  0.5000  0.3747  1\n  B  B6  1  0.2045  0.5000  0.6253  1\n  B  B7  1  0.2022  0.5000  0.8771  1\n  B  B8  1  0.5000  0.5000  0.1977  1\n  B  B9  1  0.5000  0.5000  0.4488  1\n  B  B10  1  0.5000  0.5000  0.6998  1\n  B  B11  1  0.5000  0.5000  0.9509  1\n  B  B12  1  0.5000  0.2022  0.1229  1\n  B  B13  1  0.5000  0.2045  0.3747  1\n  B  B14  1  0.5000  0.2045  0.6253  1\n  B  B15  1  0.5000  0.2022  0.8771  1\n  B  B16  1  0.5000  0.5000  0.0491  1\n  B  B17  1  0.5000  0.5000  0.3002  1\n  B  B18  1  0.5000  0.5000  0.5512  1\n  B  B19  1  0.5000  0.5000  0.8023  1\n  B  B20  1  0.5000  0.7978  0.1229  1\n  B  B21  1  0.5000  0.7955  0.3747  1\n  B  B22  1  0.5000  0.7955  0.6253  1\n  B  B23  1  0.5000  0.7978  0.8771  1\n  B  B24  1  0.7978  0.5000  0.1229  1\n  B  B25  1  0.7955  0.5000  0.3747  1\n  B  B26  1  0.7955  0.5000  0.6253  1\n  B  B27  1  0.7978  0.5000  0.8771  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaNaBa2B24\n_chemical_formula_sum              \"Ba3 Na1 B24\"\n_cell_length_a       4.2560\n_cell_length_b       4.2560\n_cell_length_c       16.9684\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.0000  0.2456  1.0000\n  Na  Na1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ba  Ba2       1.0000  0.0000  0.0000  0.7544  1.0000\n  Ba  Ba3       1.0000  0.0000  0.0000  0.0000  1.0000\n  B   B1        1.0000  0.2022  0.5000  0.1229  1.0000\n  B   B2        1.0000  0.2045  0.5000  0.3747  1.0000\n  B   B3        1.0000  0.2045  0.5000  0.6253  1.0000\n  B   B4        1.0000  0.2022  0.5000  0.8771  1.0000\n  B   B5        1.0000  0.5000  0.5000  0.1977  1.0000\n  B   B6        1.0000  0.5000  0.5000  0.4488  1.0000\n  B   B7        1.0000  0.5000  0.5000  0.6998  1.0000\n  B   B8        1.0000  0.5000  0.5000  0.9509  1.0000\n  B   B9        1.0000  0.5000  0.2022  0.1229  1.0000\n  B   B10       1.0000  0.5000  0.2045  0.3747  1.0000\n  B   B11       1.0000  0.5000  0.2045  0.6253  1.0000\n  B   B12       1.0000  0.5000  0.2022  0.8771  1.0000\n  B   B13       1.0000  0.5000  0.5000  0.0491  1.0000\n  B   B14       1.0000  0.5000  0.5000  0.3002  1.0000\n  B   B15       1.0000  0.5000  0.5000  0.5512  1.0000\n  B   B16       1.0000  0.5000  0.5000  0.8023  1.0000\n  B   B17       1.0000  0.5000  0.7978  0.1229  1.0000\n  B   B18       1.0000  0.5000  0.7955  0.3747  1.0000\n  B   B19       1.0000  0.5000  0.7955  0.6253  1.0000\n  B   B20       1.0000  0.5000  0.7978  0.8771  1.0000\n  B   B21       1.0000  0.7978  0.5000  0.1229  1.0000\n  B   B22       1.0000  0.7955  0.5000  0.3747  1.0000\n  B   B23       1.0000  0.7955  0.5000  0.6253  1.0000\n  B   B24       1.0000  0.7978  0.5000  0.8771  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "98c81247-403c-48bc-a3cb-321d222c9e7b",
    "mp_id": "mp-1228315",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba4Y2Cu7O15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   25.6828\n_cell_length_b   25.6828\n_cell_length_c   3.9125\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   171.3265\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba4Y2Cu7O15\n_chemical_formula_sum   'Ba4 Y2 Cu7 O15'\n_cell_volume   389.1823\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.3115  0.6885  0.5000  1\n  Ba  Ba1  1  0.6885  0.3115  0.5000  1\n  Ba  Ba2  1  0.4580  0.5420  0.5000  1\n  Ba  Ba3  1  0.5420  0.4580  0.5000  1\n  Y  Y4  1  0.3848  0.6152  0.5000  1\n  Y  Y5  1  0.6152  0.3848  0.5000  1\n  Cu  Cu6  1  0.9184  0.0816  0.0000  1\n  Cu  Cu7  1  0.0816  0.9184  0.0000  1\n  Cu  Cu8  1  0.7701  0.2299  0.0000  1\n  Cu  Cu9  1  0.2299  0.7701  0.0000  1\n  Cu  Cu10  1  0.8513  0.1487  0.0000  1\n  Cu  Cu11  1  0.1487  0.8513  0.0000  1\n  Cu  Cu12  1  0.0000  0.0000  0.0000  1\n  O  O13  1  0.2668  0.7332  0.0000  1\n  O  O14  1  0.7332  0.2668  0.0000  1\n  O  O15  1  0.8557  0.1443  0.5000  1\n  O  O16  1  0.1443  0.8557  0.5000  1\n  O  O17  1  0.4133  0.5867  0.0000  1\n  O  O18  1  0.5867  0.4133  0.0000  1\n  O  O19  1  0.8062  0.1938  0.0000  1\n  O  O20  1  0.1938  0.8062  0.0000  1\n  O  O21  1  0.9120  0.0880  0.5000  1\n  O  O22  1  0.0880  0.9120  0.5000  1\n  O  O23  1  0.9633  0.0367  0.0000  1\n  O  O24  1  0.0367  0.9633  0.0000  1\n  O  O25  1  0.3574  0.6426  0.0000  1\n  O  O26  1  0.6426  0.3574  0.0000  1\n  O  O27  1  0.0000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba4OYCu7O8YO6\n_chemical_formula_sum              \"Ba4 O15 Y2 Cu7\"\n_cell_length_a       25.6828\n_cell_length_b       25.6828\n_cell_length_c       3.9125\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    171.3265\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.3115  0.6885  0.5000  1.0000\n  Ba  Ba2       1.0000  0.6885  0.3115  0.5000  1.0000\n  Ba  Ba3       1.0000  0.4580  0.5420  0.5000  1.0000\n  Ba  Ba4       1.0000  0.5420  0.4580  0.5000  1.0000\n  O   O1        1.0000  0.3848  0.6152  0.5000  1.0000\n  Y   Y1        1.0000  0.6152  0.3848  0.5000  1.0000\n  Cu  Cu1       1.0000  0.9184  0.0816  0.0000  1.0000\n  Cu  Cu2       1.0000  0.0816  0.9184  0.0000  1.0000\n  Cu  Cu3       1.0000  0.7701  0.2299  0.0000  1.0000\n  Cu  Cu4       1.0000  0.2299  0.7701  0.0000  1.0000\n  Cu  Cu5       1.0000  0.8513  0.1487  0.0000  1.0000\n  Cu  Cu6       1.0000  0.1487  0.8513  0.0000  1.0000\n  Cu  Cu7       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2668  0.7332  0.0000  1.0000\n  O   O3        1.0000  0.7332  0.2668  0.0000  1.0000\n  O   O4        1.0000  0.8557  0.1443  0.5000  1.0000\n  O   O5        1.0000  0.1443  0.8557  0.5000  1.0000\n  O   O6        1.0000  0.4133  0.5867  0.0000  1.0000\n  O   O7        1.0000  0.5867  0.4133  0.0000  1.0000\n  O   O8        1.0000  0.8062  0.1938  0.0000  1.0000\n  O   O9        1.0000  0.1938  0.8062  0.0000  1.0000\n  Y   Y2        1.0000  0.9120  0.0880  0.5000  1.0000\n  O   O10       1.0000  0.0880  0.9120  0.5000  1.0000\n  O   O11       1.0000  0.9633  0.0367  0.0000  1.0000\n  O   O12       1.0000  0.0367  0.9633  0.0000  1.0000\n  O   O13       1.0000  0.3574  0.6426  0.0000  1.0000\n  O   O14       1.0000  0.6426  0.3574  0.0000  1.0000\n  O   O15       1.0000  0.0000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7e2b9ed4-bc60-4a4e-964e-bd0a049c6fa6",
    "mp_id": "mp-1228494",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2PrPbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2981\n_cell_length_b   6.2981\n_cell_length_c   6.3555\n_cell_angle_alpha   60.0979\n_cell_angle_beta   60.0979\n_cell_angle_gamma   59.8093\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2PrPbO6\n_chemical_formula_sum   'Ba2 Pr1 Pb1 O6'\n_cell_volume   178.2643\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7515  0.7515  0.2398  1\n  Ba  Ba1  1  0.2485  0.2485  0.7602  1\n  Pr  Pr2  1  0.0000  0.0000  0.5000  1\n  Pb  Pb3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.7860  0.3002  0.1970  1\n  O  O5  1  0.6998  0.2140  0.8030  1\n  O  O6  1  0.2140  0.6998  0.8030  1\n  O  O7  1  0.3002  0.7860  0.1970  1\n  O  O8  1  0.2592  0.2592  0.3165  1\n  O  O9  1  0.7408  0.7408  0.6835  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2PbPrO6\n_chemical_formula_sum              \"Ba2 Pb1 Pr1 O6\"\n_cell_length_a       6.2981\n_cell_length_b       6.2981\n_cell_length_c       6.3555\n_cell_angle_alpha    60.0979\n_cell_angle_beta     60.0979\n_cell_angle_gamma    59.8093\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7515  0.7515  0.2398  1.0000\n  Ba  Ba2       1.0000  0.2485  0.2485  0.7602  1.0000\n  Pb  Pb1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Pr  Pr1       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.7860  0.3002  0.1970  1.0000\n  O   O2        1.0000  0.6998  0.2140  0.8030  1.0000\n  O   O3        1.0000  0.2140  0.6998  0.8030  1.0000\n  O   O4        1.0000  0.3002  0.7860  0.1970  1.0000\n  O   O5        1.0000  0.2592  0.2592  0.3165  1.0000\n  O   O6        1.0000  0.7408  0.7408  0.6835  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fe2b998a-72d0-43f2-92db-18fab4a0810f",
    "mp_id": "mp-1228522",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al2Zn2S5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1445\n_cell_length_b   6.5024\n_cell_length_c   9.8796\n_cell_angle_alpha   70.8676\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al2Zn2S5\n_chemical_formula_sum   'Al4 Zn4 S10'\n_cell_volume   372.9270\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.8784  0.1618  0.4997  1\n  Al  Al1  1  0.8758  0.3707  0.1030  1\n  Al  Al2  1  0.3758  0.6293  0.8970  1\n  Al  Al3  1  0.3784  0.8382  0.5003  1\n  Zn  Zn4  1  0.8793  0.9691  0.8886  1\n  Zn  Zn5  1  0.8645  0.7602  0.3088  1\n  Zn  Zn6  1  0.3793  0.0309  0.1114  1\n  Zn  Zn7  1  0.3645  0.2398  0.6912  1\n  S  S8  1  0.4939  0.9600  0.9005  1\n  S  S9  1  0.5019  0.5726  0.6986  1\n  S  S10  1  0.5089  0.1638  0.4954  1\n  S  S11  1  0.4901  0.7556  0.3096  1\n  S  S12  1  0.5072  0.3767  0.0948  1\n  S  S13  1  0.9939  0.0400  0.0995  1\n  S  S14  1  0.0072  0.6233  0.9052  1\n  S  S15  1  0.9901  0.2444  0.6904  1\n  S  S16  1  0.0089  0.8362  0.5046  1\n  S  S17  1  0.0019  0.4274  0.3014  1\n",
    "output": "data_image0\n_chemical_formula_structural       AlSAl2Zn4S6AlS3\n_chemical_formula_sum              \"Al4 S10 Zn4\"\n_cell_length_a       6.1445\n_cell_length_b       6.5024\n_cell_length_c       9.8796\n_cell_angle_alpha    70.8676\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.8784  0.1618  0.4997  1.0000\n  S   S1        1.0000  0.8758  0.3707  0.1030  1.0000\n  Al  Al2       1.0000  0.3758  0.6293  0.8970  1.0000\n  Al  Al3       1.0000  0.3784  0.8382  0.5003  1.0000\n  Zn  Zn1       1.0000  0.8793  0.9691  0.8886  1.0000\n  Zn  Zn2       1.0000  0.8645  0.7602  0.3088  1.0000\n  Zn  Zn3       1.0000  0.3793  0.0309  0.1114  1.0000\n  Zn  Zn4       1.0000  0.3645  0.2398  0.6912  1.0000\n  S   S2        1.0000  0.4939  0.9600  0.9005  1.0000\n  S   S3        1.0000  0.5019  0.5726  0.6986  1.0000\n  S   S4        1.0000  0.5089  0.1638  0.4954  1.0000\n  S   S5        1.0000  0.4901  0.7556  0.3096  1.0000\n  S   S6        1.0000  0.5072  0.3767  0.0948  1.0000\n  S   S7        1.0000  0.9939  0.0400  0.0995  1.0000\n  Al  Al4       1.0000  0.0072  0.6233  0.9052  1.0000\n  S   S8        1.0000  0.9901  0.2444  0.6904  1.0000\n  S   S9        1.0000  0.0089  0.8362  0.5046  1.0000\n  S   S10       1.0000  0.0019  0.4274  0.3014  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ff909b88-f6df-43fb-9731-7f1fd893d905",
    "mp_id": "mp-1228836",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaFe12O19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0108\n_cell_length_b   6.0108\n_cell_length_c   23.5489\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaFe12O19\n_chemical_formula_sum   'Ba2 Fe24 O38'\n_cell_volume   736.8148\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6667  0.3333  0.2509  1\n  Ba  Ba1  1  0.3333  0.6667  0.7509  1\n  Fe  Fe2  1  0.1688  0.8313  0.6084  1\n  Fe  Fe3  1  0.1688  0.3375  0.6084  1\n  Fe  Fe4  1  0.6625  0.8313  0.6084  1\n  Fe  Fe5  1  0.8325  0.1675  0.3908  1\n  Fe  Fe6  1  0.8325  0.6651  0.3908  1\n  Fe  Fe7  1  0.3349  0.1675  0.3908  1\n  Fe  Fe8  1  0.8313  0.1688  0.1084  1\n  Fe  Fe9  1  0.8313  0.6625  0.1084  1\n  Fe  Fe10  1  0.3375  0.1688  0.1084  1\n  Fe  Fe11  1  0.1675  0.8325  0.8908  1\n  Fe  Fe12  1  0.1675  0.3349  0.8908  1\n  Fe  Fe13  1  0.6651  0.8325  0.8908  1\n  Fe  Fe14  1  0.3333  0.6667  0.3092  1\n  Fe  Fe15  1  0.6667  0.3333  0.6908  1\n  Fe  Fe16  1  0.6667  0.3333  0.8092  1\n  Fe  Fe17  1  0.3333  0.6667  0.1908  1\n  Fe  Fe18  1  0.3333  0.6667  0.4721  1\n  Fe  Fe19  1  0.6667  0.3333  0.5271  1\n  Fe  Fe20  1  0.6667  0.3333  0.9721  1\n  Fe  Fe21  1  0.3333  0.6667  0.0271  1\n  Fe  Fe22  1  0.0000  0.0000  0.4998  1\n  Fe  Fe23  1  0.0000  0.0000  0.9998  1\n  Fe  Fe24  1  0.0000  0.0000  0.2432  1\n  Fe  Fe25  1  0.0000  0.0000  0.7432  1\n  O  O26  1  0.0000  0.0000  0.3487  1\n  O  O27  1  0.0000  0.0000  0.6517  1\n  O  O28  1  0.0000  0.0000  0.8487  1\n  O  O29  1  0.0000  0.0000  0.1517  1\n  O  O30  1  0.5027  0.4973  0.3501  1\n  O  O31  1  0.5027  0.0055  0.3501  1\n  O  O32  1  0.9945  0.4973  0.3501  1\n  O  O33  1  0.4966  0.5034  0.6496  1\n  O  O34  1  0.4966  0.9933  0.6496  1\n  O  O35  1  0.0067  0.5034  0.6496  1\n  O  O36  1  0.4973  0.5027  0.8501  1\n  O  O37  1  0.4973  0.9945  0.8501  1\n  O  O38  1  0.0055  0.5027  0.8501  1\n  O  O39  1  0.5034  0.4966  0.1496  1\n  O  O40  1  0.5034  0.0067  0.1496  1\n  O  O41  1  0.9933  0.4966  0.1496  1\n  O  O42  1  0.1554  0.8446  0.4475  1\n  O  O43  1  0.1554  0.3107  0.4475  1\n  O  O44  1  0.6893  0.8446  0.4475  1\n  O  O45  1  0.8447  0.1553  0.5527  1\n  O  O46  1  0.8447  0.6894  0.5527  1\n  O  O47  1  0.3106  0.1553  0.5527  1\n  O  O48  1  0.8446  0.1554  0.9475  1\n  O  O49  1  0.8446  0.6893  0.9475  1\n  O  O50  1  0.3107  0.1554  0.9475  1\n  O  O51  1  0.1553  0.8447  0.0527  1\n  O  O52  1  0.1553  0.3106  0.0527  1\n  O  O53  1  0.6894  0.8447  0.0527  1\n  O  O54  1  0.1824  0.8176  0.2494  1\n  O  O55  1  0.1824  0.3648  0.2494  1\n  O  O56  1  0.6352  0.8176  0.2494  1\n  O  O57  1  0.8176  0.1824  0.7494  1\n  O  O58  1  0.8176  0.6352  0.7494  1\n  O  O59  1  0.3648  0.1824  0.7494  1\n  O  O60  1  0.3333  0.6667  0.5553  1\n  O  O61  1  0.6667  0.3333  0.4444  1\n  O  O62  1  0.6667  0.3333  0.0553  1\n  O  O63  1  0.3333  0.6667  0.9444  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2FeOFe22O13FeO24\n_chemical_formula_sum              \"Ba2 Fe24 O38\"\n_cell_length_a       6.0108\n_cell_length_b       6.0108\n_cell_length_c       23.5489\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6667  0.3333  0.2509  1.0000\n  Ba  Ba2       1.0000  0.3333  0.6667  0.7509  1.0000\n  Fe  Fe1       1.0000  0.1688  0.8313  0.6084  1.0000\n  O   O1        1.0000  0.1688  0.3375  0.6084  1.0000\n  Fe  Fe2       1.0000  0.6625  0.8313  0.6084  1.0000\n  Fe  Fe3       1.0000  0.8325  0.1675  0.3908  1.0000\n  Fe  Fe4       1.0000  0.8325  0.6651  0.3908  1.0000\n  Fe  Fe5       1.0000  0.3349  0.1675  0.3908  1.0000\n  Fe  Fe6       1.0000  0.8313  0.1688  0.1084  1.0000\n  Fe  Fe7       1.0000  0.8313  0.6625  0.1084  1.0000\n  Fe  Fe8       1.0000  0.3375  0.1688  0.1084  1.0000\n  Fe  Fe9       1.0000  0.1675  0.8325  0.8908  1.0000\n  Fe  Fe10      1.0000  0.1675  0.3349  0.8908  1.0000\n  Fe  Fe11      1.0000  0.6651  0.8325  0.8908  1.0000\n  Fe  Fe12      1.0000  0.3333  0.6667  0.3092  1.0000\n  Fe  Fe13      1.0000  0.6667  0.3333  0.6908  1.0000\n  Fe  Fe14      1.0000  0.6667  0.3333  0.8092  1.0000\n  Fe  Fe15      1.0000  0.3333  0.6667  0.1908  1.0000\n  Fe  Fe16      1.0000  0.3333  0.6667  0.4721  1.0000\n  Fe  Fe17      1.0000  0.6667  0.3333  0.5271  1.0000\n  Fe  Fe18      1.0000  0.6667  0.3333  0.9721  1.0000\n  Fe  Fe19      1.0000  0.3333  0.6667  0.0271  1.0000\n  Fe  Fe20      1.0000  0.0000  0.0000  0.4998  1.0000\n  Fe  Fe21      1.0000  0.0000  0.0000  0.9998  1.0000\n  Fe  Fe22      1.0000  0.0000  0.0000  0.2432  1.0000\n  Fe  Fe23      1.0000  0.0000  0.0000  0.7432  1.0000\n  O   O2        1.0000  0.0000  0.0000  0.3487  1.0000\n  O   O3        1.0000  0.0000  0.0000  0.6517  1.0000\n  O   O4        1.0000  0.0000  0.0000  0.8487  1.0000\n  O   O5        1.0000  0.0000  0.0000  0.1517  1.0000\n  O   O6        1.0000  0.5027  0.4973  0.3501  1.0000\n  O   O7        1.0000  0.5027  0.0055  0.3501  1.0000\n  O   O8        1.0000  0.9945  0.4973  0.3501  1.0000\n  O   O9        1.0000  0.4966  0.5034  0.6496  1.0000\n  O   O10       1.0000  0.4966  0.9933  0.6496  1.0000\n  O   O11       1.0000  0.0067  0.5034  0.6496  1.0000\n  O   O12       1.0000  0.4973  0.5027  0.8501  1.0000\n  O   O13       1.0000  0.4973  0.9945  0.8501  1.0000\n  O   O14       1.0000  0.0055  0.5027  0.8501  1.0000\n  Fe  Fe24      1.0000  0.5034  0.4966  0.1496  1.0000\n  O   O15       1.0000  0.5034  0.0067  0.1496  1.0000\n  O   O16       1.0000  0.9933  0.4966  0.1496  1.0000\n  O   O17       1.0000  0.1554  0.8446  0.4475  1.0000\n  O   O18       1.0000  0.1554  0.3107  0.4475  1.0000\n  O   O19       1.0000  0.6893  0.8446  0.4475  1.0000\n  O   O20       1.0000  0.8447  0.1553  0.5527  1.0000\n  O   O21       1.0000  0.8447  0.6894  0.5527  1.0000\n  O   O22       1.0000  0.3106  0.1553  0.5527  1.0000\n  O   O23       1.0000  0.8446  0.1554  0.9475  1.0000\n  O   O24       1.0000  0.8446  0.6893  0.9475  1.0000\n  O   O25       1.0000  0.3107  0.1554  0.9475  1.0000\n  O   O26       1.0000  0.1553  0.8447  0.0527  1.0000\n  O   O27       1.0000  0.1553  0.3106  0.0527  1.0000\n  O   O28       1.0000  0.6894  0.8447  0.0527  1.0000\n  O   O29       1.0000  0.1824  0.8176  0.2494  1.0000\n  O   O30       1.0000  0.1824  0.3648  0.2494  1.0000\n  O   O31       1.0000  0.6352  0.8176  0.2494  1.0000\n  O   O32       1.0000  0.8176  0.1824  0.7494  1.0000\n  O   O33       1.0000  0.8176  0.6352  0.7494  1.0000\n  O   O34       1.0000  0.3648  0.1824  0.7494  1.0000\n  O   O35       1.0000  0.3333  0.6667  0.5553  1.0000\n  O   O36       1.0000  0.6667  0.3333  0.4444  1.0000\n  O   O37       1.0000  0.6667  0.3333  0.0553  1.0000\n  O   O38       1.0000  0.3333  0.6667  0.9444  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "20fa7b41-3c8a-45c7-9fb3-6c90e129dc62",
    "mp_id": "mp-1229286",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 78 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba51(Pd12O5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.2604\n_cell_length_b   11.2312\n_cell_length_c   27.6901\n_cell_angle_alpha   89.7848\n_cell_angle_beta   90.1426\n_cell_angle_gamma   120.2613\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba51(Pd12O5)2\n_chemical_formula_sum   'Ba51 Pd24 O10'\n_cell_volume   3024.6945\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.3334  0.6668  0.9162  1\n  Ba  Ba1  1  0.9993  -0.0000  0.2503  1\n  Ba  Ba2  1  0.6667  0.3335  0.5834  1\n  Ba  Ba3  1  0.1310  0.8681  0.9673  1\n  Ba  Ba4  1  0.7984  0.2015  0.3007  1\n  Ba  Ba5  1  0.4646  0.5352  0.6341  1\n  Ba  Ba6  1  0.1313  0.2623  0.9670  1\n  Ba  Ba7  1  0.7973  0.5960  0.3006  1\n  Ba  Ba8  1  0.4651  0.9299  0.6337  1\n  Ba  Ba9  1  0.3331  0.6663  0.7654  1\n  Ba  Ba10  1  0.0003  0.9997  0.0993  1\n  Ba  Ba11  1  0.6665  0.3331  0.4321  1\n  Ba  Ba12  1  0.7364  0.8678  0.9673  1\n  Ba  Ba13  1  0.4033  0.2018  0.3005  1\n  Ba  Ba14  1  0.0705  0.5351  0.6339  1\n  Ba  Ba15  1  0.7889  0.5764  0.8869  1\n  Ba  Ba16  1  0.4566  0.9118  0.2191  1\n  Ba  Ba17  1  0.1218  0.2432  0.5537  1\n  Ba  Ba18  1  0.5635  0.4637  0.7749  1\n  Ba  Ba19  1  0.2185  0.7820  0.1093  1\n  Ba  Ba20  1  0.8970  0.1306  0.4417  1\n  Ba  Ba21  1  0.4321  0.2146  0.8918  1\n  Ba  Ba22  1  0.0877  0.5425  0.2191  1\n  Ba  Ba23  1  0.7665  0.8820  0.5584  1\n  Ba  Ba24  1  0.5499  0.0995  0.7756  1\n  Ba  Ba25  1  0.1983  0.4321  0.1090  1\n  Ba  Ba26  1  0.8835  0.7660  0.4421  1\n  Ba  Ba27  1  0.7832  0.2164  0.8925  1\n  Ba  Ba28  1  0.4484  0.5502  0.2243  1\n  Ba  Ba29  1  0.1159  0.8818  0.5585  1\n  Ba  Ba30  1  0.9003  0.4640  0.7749  1\n  Ba  Ba31  1  0.5673  0.8011  0.1091  1\n  Ba  Ba32  1  0.2341  0.1312  0.4417  1\n  Ba  Ba33  1  0.8762  0.7527  0.6961  1\n  Ba  Ba34  1  0.5421  0.0848  0.0307  1\n  Ba  Ba35  1  0.2091  0.4197  0.3626  1\n  Ba  Ba36  1  0.1045  0.8664  0.8094  1\n  Ba  Ba37  1  0.7830  0.2165  0.1417  1\n  Ba  Ba38  1  0.4379  0.5335  0.4761  1\n  Ba  Ba39  1  0.2384  0.1193  0.6907  1\n  Ba  Ba40  1  0.9151  0.4584  0.0307  1\n  Ba  Ba41  1  0.5731  0.7872  0.3572  1\n  Ba  Ba42  1  0.1197  0.2393  0.8095  1\n  Ba  Ba43  1  0.8040  0.5711  0.1423  1\n  Ba  Ba44  1  0.4529  0.9056  0.4761  1\n  Ba  Ba45  1  0.8811  0.1192  0.6905  1\n  Ba  Ba46  1  0.5496  0.4519  0.0250  1\n  Ba  Ba47  1  0.2141  0.7848  0.3573  1\n  Ba  Ba48  1  0.7624  0.8663  0.8093  1\n  Ba  Ba49  1  0.4284  0.1961  0.1422  1\n  Ba  Ba50  1  0.0956  0.5327  0.4762  1\n  Pd  Pd51  1  0.4777  0.5171  0.8801  1\n  Pd  Pd52  1  0.1483  0.8556  0.2140  1\n  Pd  Pd53  1  0.8111  0.1843  0.5469  1\n  Pd  Pd54  1  0.4797  0.9598  0.8792  1\n  Pd  Pd55  1  0.1487  0.2923  0.2136  1\n  Pd  Pd56  1  0.8126  0.6261  0.5463  1\n  Pd  Pd57  1  0.6646  0.3303  0.6932  1\n  Pd  Pd58  1  0.3365  0.6656  0.0261  1\n  Pd  Pd59  1  0.9973  0.9962  0.3600  1\n  Pd  Pd60  1  0.0404  0.5182  0.8792  1\n  Pd  Pd61  1  0.7069  0.8517  0.2144  1\n  Pd  Pd62  1  0.3726  0.1843  0.5472  1\n  Pd  Pd63  1  0.1948  0.8079  0.7014  1\n  Pd  Pd64  1  0.8608  0.1398  0.0341  1\n  Pd  Pd65  1  0.5271  0.4739  0.3680  1\n  Pd  Pd66  1  0.1932  0.3862  0.7016  1\n  Pd  Pd67  1  0.8606  0.7219  0.0347  1\n  Pd  Pd68  1  0.5267  0.0529  0.3684  1\n  Pd  Pd69  1  0.0004  0.0012  0.8950  1\n  Pd  Pd70  1  0.6662  0.3342  0.2287  1\n  Pd  Pd71  1  0.3341  0.6682  0.5617  1\n  Pd  Pd72  1  0.6127  0.8076  0.7014  1\n  Pd  Pd73  1  0.2796  0.1404  0.0340  1\n  Pd  Pd74  1  0.9455  0.4734  0.3686  1\n  O  O75  1  0.6634  0.3270  0.8343  1\n  O  O76  1  0.3361  0.6637  0.1683  1\n  O  O77  1  0.9966  0.9939  0.5011  1\n  O  O78  1  0.0012  0.0026  0.7490  1\n  O  O79  1  0.6660  0.3355  0.0819  1\n  O  O80  1  0.3343  0.6696  0.4156  1\n  O  O81  1  0.5011  0.0007  0.1251  1\n  O  O82  1  0.1669  0.3335  0.4580  1\n  O  O83  1  0.8338  0.6670  0.7913  1\n  O  O84  1  0.9994  0.4989  0.1251  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba35OBa15Pd24O3BaO6\n_chemical_formula_sum              \"Ba51 O10 Pd24\"\n_cell_length_a       11.2604\n_cell_length_b       11.2312\n_cell_length_c       27.6901\n_cell_angle_alpha    89.7848\n_cell_angle_beta     90.1426\n_cell_angle_gamma    120.2613\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.3334  0.6668  0.9162  1.0000\n  Ba  Ba2       1.0000  0.9993  1.0000  0.2503  1.0000\n  Ba  Ba3       1.0000  0.6667  0.3335  0.5834  1.0000\n  Ba  Ba4       1.0000  0.1310  0.8681  0.9673  1.0000\n  Ba  Ba5       1.0000  0.7984  0.2015  0.3007  1.0000\n  Ba  Ba6       1.0000  0.4646  0.5352  0.6341  1.0000\n  Ba  Ba7       1.0000  0.1313  0.2623  0.9670  1.0000\n  Ba  Ba8       1.0000  0.7973  0.5960  0.3006  1.0000\n  Ba  Ba9       1.0000  0.4651  0.9299  0.6337  1.0000\n  Ba  Ba10      1.0000  0.3331  0.6663  0.7654  1.0000\n  Ba  Ba11      1.0000  0.0003  0.9997  0.0993  1.0000\n  Ba  Ba12      1.0000  0.6665  0.3331  0.4321  1.0000\n  Ba  Ba13      1.0000  0.7364  0.8678  0.9673  1.0000\n  Ba  Ba14      1.0000  0.4033  0.2018  0.3005  1.0000\n  Ba  Ba15      1.0000  0.0705  0.5351  0.6339  1.0000\n  Ba  Ba16      1.0000  0.7889  0.5764  0.8869  1.0000\n  Ba  Ba17      1.0000  0.4566  0.9118  0.2191  1.0000\n  Ba  Ba18      1.0000  0.1218  0.2432  0.5537  1.0000\n  Ba  Ba19      1.0000  0.5635  0.4637  0.7749  1.0000\n  Ba  Ba20      1.0000  0.2185  0.7820  0.1093  1.0000\n  Ba  Ba21      1.0000  0.8970  0.1306  0.4417  1.0000\n  Ba  Ba22      1.0000  0.4321  0.2146  0.8918  1.0000\n  Ba  Ba23      1.0000  0.0877  0.5425  0.2191  1.0000\n  Ba  Ba24      1.0000  0.7665  0.8820  0.5584  1.0000\n  Ba  Ba25      1.0000  0.5499  0.0995  0.7756  1.0000\n  Ba  Ba26      1.0000  0.1983  0.4321  0.1090  1.0000\n  Ba  Ba27      1.0000  0.8835  0.7660  0.4421  1.0000\n  Ba  Ba28      1.0000  0.7832  0.2164  0.8925  1.0000\n  Ba  Ba29      1.0000  0.4484  0.5502  0.2243  1.0000\n  Ba  Ba30      1.0000  0.1159  0.8818  0.5585  1.0000\n  Ba  Ba31      1.0000  0.9003  0.4640  0.7749  1.0000\n  Ba  Ba32      1.0000  0.5673  0.8011  0.1091  1.0000\n  Ba  Ba33      1.0000  0.2341  0.1312  0.4417  1.0000\n  Ba  Ba34      1.0000  0.8762  0.7527  0.6961  1.0000\n  Ba  Ba35      1.0000  0.5421  0.0848  0.0307  1.0000\n  O   O1        1.0000  0.2091  0.4197  0.3626  1.0000\n  Ba  Ba36      1.0000  0.1045  0.8664  0.8094  1.0000\n  Ba  Ba37      1.0000  0.7830  0.2165  0.1417  1.0000\n  Ba  Ba38      1.0000  0.4379  0.5335  0.4761  1.0000\n  Ba  Ba39      1.0000  0.2384  0.1193  0.6907  1.0000\n  Ba  Ba40      1.0000  0.9151  0.4584  0.0307  1.0000\n  Ba  Ba41      1.0000  0.5731  0.7872  0.3572  1.0000\n  Ba  Ba42      1.0000  0.1197  0.2393  0.8095  1.0000\n  Ba  Ba43      1.0000  0.8040  0.5711  0.1423  1.0000\n  Ba  Ba44      1.0000  0.4529  0.9056  0.4761  1.0000\n  Ba  Ba45      1.0000  0.8811  0.1192  0.6905  1.0000\n  Ba  Ba46      1.0000  0.5496  0.4519  0.0250  1.0000\n  Ba  Ba47      1.0000  0.2141  0.7848  0.3573  1.0000\n  Ba  Ba48      1.0000  0.7624  0.8663  0.8093  1.0000\n  Ba  Ba49      1.0000  0.4284  0.1961  0.1422  1.0000\n  Ba  Ba50      1.0000  0.0956  0.5327  0.4762  1.0000\n  Pd  Pd1       1.0000  0.4777  0.5171  0.8801  1.0000\n  Pd  Pd2       1.0000  0.1483  0.8556  0.2140  1.0000\n  Pd  Pd3       1.0000  0.8111  0.1843  0.5469  1.0000\n  Pd  Pd4       1.0000  0.4797  0.9598  0.8792  1.0000\n  Pd  Pd5       1.0000  0.1487  0.2923  0.2136  1.0000\n  Pd  Pd6       1.0000  0.8126  0.6261  0.5463  1.0000\n  Pd  Pd7       1.0000  0.6646  0.3303  0.6932  1.0000\n  Pd  Pd8       1.0000  0.3365  0.6656  0.0261  1.0000\n  Pd  Pd9       1.0000  0.9973  0.9962  0.3600  1.0000\n  Pd  Pd10      1.0000  0.0404  0.5182  0.8792  1.0000\n  Pd  Pd11      1.0000  0.7069  0.8517  0.2144  1.0000\n  Pd  Pd12      1.0000  0.3726  0.1843  0.5472  1.0000\n  Pd  Pd13      1.0000  0.1948  0.8079  0.7014  1.0000\n  Pd  Pd14      1.0000  0.8608  0.1398  0.0341  1.0000\n  Pd  Pd15      1.0000  0.5271  0.4739  0.3680  1.0000\n  Pd  Pd16      1.0000  0.1932  0.3862  0.7016  1.0000\n  Pd  Pd17      1.0000  0.8606  0.7219  0.0347  1.0000\n  Pd  Pd18      1.0000  0.5267  0.0529  0.3684  1.0000\n  Pd  Pd19      1.0000  0.0004  0.0012  0.8950  1.0000\n  Pd  Pd20      1.0000  0.6662  0.3342  0.2287  1.0000\n  Pd  Pd21      1.0000  0.3341  0.6682  0.5617  1.0000\n  Pd  Pd22      1.0000  0.6127  0.8076  0.7014  1.0000\n  Pd  Pd23      1.0000  0.2796  0.1404  0.0340  1.0000\n  Pd  Pd24      1.0000  0.9455  0.4734  0.3686  1.0000\n  O   O2        1.0000  0.6634  0.3270  0.8343  1.0000\n  O   O3        1.0000  0.3361  0.6637  0.1683  1.0000\n  O   O4        1.0000  0.9966  0.9939  0.5011  1.0000\n  Ba  Ba51      1.0000  0.0012  0.0026  0.7490  1.0000\n  O   O5        1.0000  0.6660  0.3355  0.0819  1.0000\n  O   O6        1.0000  0.3343  0.6696  0.4156  1.0000\n  O   O7        1.0000  0.5011  0.0007  0.1251  1.0000\n  O   O8        1.0000  0.1669  0.3335  0.4580  1.0000\n  O   O9        1.0000  0.8338  0.6670  0.7913  1.0000\n  O   O10       1.0000  0.9994  0.4989  0.1251  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "edf047c5-f450-4845-9cb7-52342956ce55",
    "mp_id": "mp-1232260",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg(InS2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7276\n_cell_length_b   12.3900\n_cell_length_c   12.6738\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg(InS2)2\n_chemical_formula_sum   'Mg4 In8 S16'\n_cell_volume   585.3417\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7500  0.1246  0.4254  1\n  Mg  Mg1  1  0.2500  0.8754  0.5746  1\n  Mg  Mg2  1  0.2500  0.3754  0.9254  1\n  Mg  Mg3  1  0.7500  0.6246  0.0746  1\n  In  In4  1  0.2500  0.1094  0.0871  1\n  In  In5  1  0.7500  0.8906  0.9129  1\n  In  In6  1  0.7500  0.3906  0.5871  1\n  In  In7  1  0.2500  0.6094  0.4129  1\n  In  In8  1  0.2500  0.1452  0.7022  1\n  In  In9  1  0.7500  0.8548  0.2978  1\n  In  In10  1  0.7500  0.3548  0.2022  1\n  In  In11  1  0.2500  0.6452  0.7978  1\n  S  S12  1  0.7500  0.0253  0.6095  1\n  S  S13  1  0.2500  0.9747  0.3905  1\n  S  S14  1  0.2500  0.4747  0.1095  1\n  S  S15  1  0.7500  0.5253  0.8905  1\n  S  S16  1  0.2500  0.0322  0.8817  1\n  S  S17  1  0.7500  0.9678  0.1183  1\n  S  S18  1  0.7500  0.4678  0.3817  1\n  S  S19  1  0.2500  0.5322  0.6183  1\n  S  S20  1  0.2500  0.2145  0.2649  1\n  S  S21  1  0.7500  0.7855  0.7351  1\n  S  S22  1  0.7500  0.2855  0.7649  1\n  S  S23  1  0.2500  0.7145  0.2351  1\n  S  S24  1  0.7500  0.2507  0.0228  1\n  S  S25  1  0.2500  0.7493  0.9772  1\n  S  S26  1  0.2500  0.2493  0.5228  1\n  S  S27  1  0.7500  0.7507  0.4772  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4InSIn6S13InS2\n_chemical_formula_sum              \"Mg4 In8 S16\"\n_cell_length_a       3.7276\n_cell_length_b       12.3900\n_cell_length_c       12.6738\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7500  0.1246  0.4254  1.0000\n  Mg  Mg2       1.0000  0.2500  0.8754  0.5746  1.0000\n  Mg  Mg3       1.0000  0.2500  0.3754  0.9254  1.0000\n  Mg  Mg4       1.0000  0.7500  0.6246  0.0746  1.0000\n  In  In1       1.0000  0.2500  0.1094  0.0871  1.0000\n  S   S1        1.0000  0.7500  0.8906  0.9129  1.0000\n  In  In2       1.0000  0.7500  0.3906  0.5871  1.0000\n  In  In3       1.0000  0.2500  0.6094  0.4129  1.0000\n  In  In4       1.0000  0.2500  0.1452  0.7022  1.0000\n  In  In5       1.0000  0.7500  0.8548  0.2978  1.0000\n  In  In6       1.0000  0.7500  0.3548  0.2022  1.0000\n  In  In7       1.0000  0.2500  0.6452  0.7978  1.0000\n  S   S2        1.0000  0.7500  0.0253  0.6095  1.0000\n  S   S3        1.0000  0.2500  0.9747  0.3905  1.0000\n  S   S4        1.0000  0.2500  0.4747  0.1095  1.0000\n  S   S5        1.0000  0.7500  0.5253  0.8905  1.0000\n  S   S6        1.0000  0.2500  0.0322  0.8817  1.0000\n  S   S7        1.0000  0.7500  0.9678  0.1183  1.0000\n  S   S8        1.0000  0.7500  0.4678  0.3817  1.0000\n  S   S9        1.0000  0.2500  0.5322  0.6183  1.0000\n  S   S10       1.0000  0.2500  0.2145  0.2649  1.0000\n  S   S11       1.0000  0.7500  0.7855  0.7351  1.0000\n  S   S12       1.0000  0.7500  0.2855  0.7649  1.0000\n  S   S13       1.0000  0.2500  0.7145  0.2351  1.0000\n  S   S14       1.0000  0.7500  0.2507  0.0228  1.0000\n  In  In8       1.0000  0.2500  0.7493  0.9772  1.0000\n  S   S15       1.0000  0.2500  0.2493  0.5228  1.0000\n  S   S16       1.0000  0.7500  0.7507  0.4772  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ab79a459-8412-4dc0-a53e-3575b744cb18",
    "mp_id": "mp-1232340",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2CaCu2MoO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9305\n_cell_length_b   3.9305\n_cell_length_c   12.4258\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2CaCu2MoO8\n_chemical_formula_sum   'Ba2 Ca1 Cu2 Mo1 O8'\n_cell_volume   191.9629\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5000  0.5000  0.7867  1\n  Ba  Ba1  1  0.5000  0.5000  0.2133  1\n  Ca  Ca2  1  0.5000  0.5000  0.5000  1\n  Cu  Cu3  1  0.0000  0.0000  0.3788  1\n  Cu  Cu4  1  0.0000  0.0000  0.6212  1\n  Mo  Mo5  1  0.0000  0.0000  0.0000  1\n  O  O6  1  0.5000  0.0000  0.6263  1\n  O  O7  1  0.0000  0.5000  0.6263  1\n  O  O8  1  0.5000  0.0000  0.3737  1\n  O  O9  1  0.0000  0.5000  0.3737  1\n  O  O10  1  0.0000  0.5000  0.0000  1\n  O  O11  1  0.5000  0.0000  0.0000  1\n  O  O12  1  0.0000  0.0000  0.1537  1\n  O  O13  1  0.0000  0.0000  0.8463  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBaCaCu2MoO3BaO4\n_chemical_formula_sum              \"O8 Ba2 Ca1 Cu2 Mo1\"\n_cell_length_a       3.9305\n_cell_length_b       3.9305\n_cell_length_c       12.4258\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.5000  0.7867  1.0000\n  Ba  Ba1       1.0000  0.5000  0.5000  0.2133  1.0000\n  Ca  Ca1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cu  Cu1       1.0000  0.0000  0.0000  0.3788  1.0000\n  Cu  Cu2       1.0000  0.0000  0.0000  0.6212  1.0000\n  Mo  Mo1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.5000  0.0000  0.6263  1.0000\n  O   O3        1.0000  0.0000  0.5000  0.6263  1.0000\n  O   O4        1.0000  0.5000  0.0000  0.3737  1.0000\n  Ba  Ba2       1.0000  0.0000  0.5000  0.3737  1.0000\n  O   O5        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O7        1.0000  0.0000  0.0000  0.1537  1.0000\n  O   O8        1.0000  0.0000  0.0000  0.8463  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d7e9eef4-6b51-421d-b5b4-63746fb6653d",
    "mp_id": "mp-1233155",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb12Ca(ClO)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9971\n_cell_length_b   8.4185\n_cell_length_c   11.3557\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   99.6215\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb12Ca(ClO)4\n_chemical_formula_sum   'Rb12 Ca1 Cl4 O4'\n_cell_volume   753.7580\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0982  0.5005  0.2500  1\n  Rb  Rb1  1  0.2436  0.1651  0.4866  1\n  Rb  Rb2  1  0.2436  0.1651  0.0134  1\n  Rb  Rb3  1  0.2895  0.6913  0.9504  1\n  Rb  Rb4  1  0.2895  0.6913  0.5496  1\n  Rb  Rb5  1  0.4518  0.9561  0.2500  1\n  Rb  Rb6  1  0.5627  0.0458  0.7500  1\n  Rb  Rb7  1  0.7349  0.3018  0.0312  1\n  Rb  Rb8  1  0.7349  0.3018  0.4688  1\n  Rb  Rb9  1  0.7720  0.8449  0.0512  1\n  Rb  Rb10  1  0.7720  0.8449  0.4488  1\n  Rb  Rb11  1  0.8550  0.6005  0.7500  1\n  Ca  Ca12  1  0.1034  0.3211  0.7500  1\n  Cl  Cl13  1  0.9294  0.1296  0.2500  1\n  Cl  Cl14  1  0.5069  0.5063  0.2500  1\n  Cl  Cl15  1  0.4592  0.4126  0.7500  1\n  Cl  Cl16  1  0.0485  0.9810  0.7500  1\n  O  O17  1  0.0245  0.4256  0.9063  1\n  O  O18  1  0.0245  0.4256  0.5937  1\n  O  O19  1  0.5114  0.9947  1.0000  1\n  O  O20  1  0.5114  0.9947  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb3ORb8CaCl4O3Rb\n_chemical_formula_sum              \"Rb12 O4 Ca1 Cl4\"\n_cell_length_a       7.9971\n_cell_length_b       8.4185\n_cell_length_c       11.3557\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    99.6215\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0982  0.5005  0.2500  1.0000\n  Rb  Rb2       1.0000  0.2436  0.1651  0.4866  1.0000\n  Rb  Rb3       1.0000  0.2436  0.1651  0.0134  1.0000\n  O   O1        1.0000  0.2895  0.6913  0.9504  1.0000\n  Rb  Rb4       1.0000  0.2895  0.6913  0.5496  1.0000\n  Rb  Rb5       1.0000  0.4518  0.9561  0.2500  1.0000\n  Rb  Rb6       1.0000  0.5627  0.0458  0.7500  1.0000\n  Rb  Rb7       1.0000  0.7349  0.3018  0.0312  1.0000\n  Rb  Rb8       1.0000  0.7349  0.3018  0.4688  1.0000\n  Rb  Rb9       1.0000  0.7720  0.8449  0.0512  1.0000\n  Rb  Rb10      1.0000  0.7720  0.8449  0.4488  1.0000\n  Rb  Rb11      1.0000  0.8550  0.6005  0.7500  1.0000\n  Ca  Ca1       1.0000  0.1034  0.3211  0.7500  1.0000\n  Cl  Cl1       1.0000  0.9294  0.1296  0.2500  1.0000\n  Cl  Cl2       1.0000  0.5069  0.5063  0.2500  1.0000\n  Cl  Cl3       1.0000  0.4592  0.4126  0.7500  1.0000\n  Cl  Cl4       1.0000  0.0485  0.9810  0.7500  1.0000\n  O   O2        1.0000  0.0245  0.4256  0.9063  1.0000\n  O   O3        1.0000  0.0245  0.4256  0.5937  1.0000\n  O   O4        1.0000  0.5114  0.9947  1.0000  1.0000\n  Rb  Rb12      1.0000  0.5114  0.9947  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "64226651-ac14-4201-9321-5c40f3e2ad0f",
    "mp_id": "mp-1233280",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV4(CuO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6190\n_cell_length_b   6.3395\n_cell_length_c   6.4568\n_cell_angle_alpha   107.7412\n_cell_angle_beta   110.6870\n_cell_angle_gamma   107.8451\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV4(CuO4)3\n_chemical_formula_sum   'Mg1 V4 Cu3 O12'\n_cell_volume   213.7619\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6736  0.5391  0.1337  1\n  V  V1  1  0.5222  0.5047  0.5147  1\n  V  V2  1  0.0116  0.5081  0.0146  1\n  V  V3  1  0.0143  0.0008  0.5058  1\n  V  V4  1  0.5259  0.9979  0.0080  1\n  Cu  Cu5  1  0.0194  0.5112  0.5101  1\n  Cu  Cu6  1  0.2851  0.4240  0.8610  1\n  Cu  Cu7  1  0.5198  0.0066  0.5131  1\n  O  O8  1  0.1261  0.8239  0.3250  1\n  O  O9  1  0.8223  0.6852  0.5005  1\n  O  O10  1  0.3161  0.5041  0.1918  1\n  O  O11  1  0.2110  0.6987  0.8839  1\n  O  O12  1  0.7390  0.5265  0.8397  1\n  O  O13  1  0.2141  0.3289  0.5226  1\n  O  O14  1  0.7147  0.8942  0.1949  1\n  O  O15  1  0.3459  0.1367  0.8383  1\n  O  O16  1  0.8339  0.3201  0.1416  1\n  O  O17  1  0.5279  0.8145  0.6950  1\n  O  O18  1  0.5080  0.2010  0.3325  1\n  O  O19  1  0.8920  0.1780  0.6920  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgV4Cu2O10CuO2\n_chemical_formula_sum              \"Mg1 V4 Cu3 O12\"\n_cell_length_a       6.6190\n_cell_length_b       6.3395\n_cell_length_c       6.4568\n_cell_angle_alpha    107.7412\n_cell_angle_beta     110.6870\n_cell_angle_gamma    107.8451\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6736  0.5391  0.1337  1.0000\n  V   V1        1.0000  0.5222  0.5047  0.5147  1.0000\n  V   V2        1.0000  0.0116  0.5081  0.0146  1.0000\n  V   V3        1.0000  0.0143  0.0008  0.5058  1.0000\n  V   V4        1.0000  0.5259  0.9979  0.0080  1.0000\n  Cu  Cu1       1.0000  0.0194  0.5112  0.5101  1.0000\n  Cu  Cu2       1.0000  0.2851  0.4240  0.8610  1.0000\n  O   O1        1.0000  0.5198  0.0066  0.5131  1.0000\n  O   O2        1.0000  0.1261  0.8239  0.3250  1.0000\n  O   O3        1.0000  0.8223  0.6852  0.5005  1.0000\n  O   O4        1.0000  0.3161  0.5041  0.1918  1.0000\n  O   O5        1.0000  0.2110  0.6987  0.8839  1.0000\n  O   O6        1.0000  0.7390  0.5265  0.8397  1.0000\n  O   O7        1.0000  0.2141  0.3289  0.5226  1.0000\n  O   O8        1.0000  0.7147  0.8942  0.1949  1.0000\n  O   O9        1.0000  0.3459  0.1367  0.8383  1.0000\n  O   O10       1.0000  0.8339  0.3201  0.1416  1.0000\n  Cu  Cu3       1.0000  0.5279  0.8145  0.6950  1.0000\n  O   O11       1.0000  0.5080  0.2010  0.3325  1.0000\n  O   O12       1.0000  0.8920  0.1780  0.6920  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b1b64a21-1262-44f6-9c6d-b9ea5485c9a2",
    "mp_id": "mp-1233390",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTi3V5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9268\n_cell_length_b   5.9122\n_cell_length_c   9.4145\n_cell_angle_alpha   91.0827\n_cell_angle_beta   89.5759\n_cell_angle_gamma   119.9243\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTi3V5O16\n_chemical_formula_sum   'Mg1 Ti3 V5 O16'\n_cell_volume   285.8595\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8240  0.6362  0.4494  1\n  Ti  Ti1  1  0.1636  0.8210  0.1844  1\n  Ti  Ti2  1  0.1763  0.3247  0.2191  1\n  Ti  Ti3  1  0.3206  0.1230  0.7084  1\n  V  V4  1  0.3446  0.6763  0.4866  1\n  V  V5  1  0.6683  0.8559  0.2099  1\n  V  V6  1  0.6737  0.3251  0.9877  1\n  V  V7  1  0.8587  0.1945  0.7027  1\n  V  V8  1  0.7776  0.6562  0.7461  1\n  O  O9  1  0.1480  0.8258  0.5928  1\n  O  O10  1  0.0527  0.5361  0.3367  1\n  O  O11  1  0.3351  0.6576  0.1023  1\n  O  O12  1  0.0055  0.9925  0.3169  1\n  O  O13  1  0.0034  0.0134  0.8124  1\n  O  O14  1  0.1599  0.3414  0.6049  1\n  O  O15  1  0.4986  0.9606  0.3297  1\n  O  O16  1  0.4926  0.5260  0.3392  1\n  O  O17  1  0.3377  0.1633  0.1061  1\n  O  O18  1  0.6780  0.8341  0.5996  1\n  O  O19  1  0.5025  0.4747  0.8493  1\n  O  O20  1  0.5232  0.0408  0.8205  1\n  O  O21  1  0.6648  0.3573  0.6061  1\n  O  O22  1  0.8307  0.6681  0.1065  1\n  O  O23  1  0.9424  0.4826  0.8399  1\n  O  O24  1  0.8509  0.1796  0.1085  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgTi3V2OV2OVO14\n_chemical_formula_sum              \"Mg1 Ti3 V5 O16\"\n_cell_length_a       5.9268\n_cell_length_b       5.9122\n_cell_length_c       9.4145\n_cell_angle_alpha    91.0827\n_cell_angle_beta     89.5759\n_cell_angle_gamma    119.9243\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8240  0.6362  0.4494  1.0000\n  Ti  Ti1       1.0000  0.1636  0.8210  0.1844  1.0000\n  Ti  Ti2       1.0000  0.1763  0.3247  0.2191  1.0000\n  Ti  Ti3       1.0000  0.3206  0.1230  0.7084  1.0000\n  V   V1        1.0000  0.3446  0.6763  0.4866  1.0000\n  V   V2        1.0000  0.6683  0.8559  0.2099  1.0000\n  O   O1        1.0000  0.6737  0.3251  0.9877  1.0000\n  V   V3        1.0000  0.8587  0.1945  0.7027  1.0000\n  V   V4        1.0000  0.7776  0.6562  0.7461  1.0000\n  O   O2        1.0000  0.1480  0.8258  0.5928  1.0000\n  V   V5        1.0000  0.0527  0.5361  0.3367  1.0000\n  O   O3        1.0000  0.3351  0.6576  0.1023  1.0000\n  O   O4        1.0000  0.0055  0.9925  0.3169  1.0000\n  O   O5        1.0000  0.0034  0.0134  0.8124  1.0000\n  O   O6        1.0000  0.1599  0.3414  0.6049  1.0000\n  O   O7        1.0000  0.4986  0.9606  0.3297  1.0000\n  O   O8        1.0000  0.4926  0.5260  0.3392  1.0000\n  O   O9        1.0000  0.3377  0.1633  0.1061  1.0000\n  O   O10       1.0000  0.6780  0.8341  0.5996  1.0000\n  O   O11       1.0000  0.5025  0.4747  0.8493  1.0000\n  O   O12       1.0000  0.5232  0.0408  0.8205  1.0000\n  O   O13       1.0000  0.6648  0.3573  0.6061  1.0000\n  O   O14       1.0000  0.8307  0.6681  0.1065  1.0000\n  O   O15       1.0000  0.9424  0.4826  0.8399  1.0000\n  O   O16       1.0000  0.8509  0.1796  0.1085  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "625ea233-fb93-47e6-8ee8-2f5ffc4c50e1",
    "mp_id": "mp-1233443",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba10MgAs6(ClO12)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.0144\n_cell_length_b   10.8815\n_cell_length_c   7.7957\n_cell_angle_alpha   88.3960\n_cell_angle_beta   91.7911\n_cell_angle_gamma   117.0547\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba10MgAs6(ClO12)2\n_chemical_formula_sum   'Ba10 Mg1 As6 Cl2 O24'\n_cell_volume   831.5886\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6626  0.3083  0.5210  1\n  Ba  Ba1  1  0.3316  0.6603  0.5019  1\n  Ba  Ba2  1  0.0359  0.2904  0.2437  1\n  Ba  Ba3  1  0.3205  0.6540  0.0015  1\n  Ba  Ba4  1  0.7613  0.7652  0.2391  1\n  Ba  Ba5  1  0.2633  0.0152  0.2364  1\n  Ba  Ba6  1  0.7828  0.0117  0.7356  1\n  Ba  Ba7  1  0.9911  0.7395  0.7393  1\n  Ba  Ba8  1  0.6868  0.3906  0.0059  1\n  Ba  Ba9  1  0.2671  0.2755  0.7519  1\n  Mg  Mg10  1  0.5753  0.0794  0.9209  1\n  As  As11  1  0.9691  0.5921  0.2507  1\n  As  As12  1  0.6172  0.6427  0.7322  1\n  As  As13  1  0.3372  0.9492  0.7528  1\n  As  As14  1  0.4186  0.3821  0.2583  1\n  As  As15  1  0.0417  0.4282  0.7368  1\n  As  As16  1  0.6152  0.0076  0.2505  1\n  Cl  Cl17  1  0.0241  0.0261  0.9958  1\n  Cl  Cl18  1  0.0130  0.0190  0.4820  1\n  O  O19  1  0.6914  0.7482  0.9050  1\n  O  O20  1  0.3262  0.4742  0.2597  1\n  O  O21  1  0.3814  0.2670  0.4303  1\n  O  O22  1  0.4421  0.5525  0.7564  1\n  O  O23  1  0.1212  0.3813  0.5681  1\n  O  O24  1  0.6874  0.5292  0.7193  1\n  O  O25  1  0.7209  0.2203  0.8004  1\n  O  O26  1  0.1484  0.6137  0.7386  1\n  O  O27  1  0.5923  0.4890  0.2624  1\n  O  O28  1  0.7152  0.0178  0.0799  1\n  O  O29  1  0.1178  0.3842  0.9227  1\n  O  O30  1  0.8734  0.4130  0.2679  1\n  O  O31  1  0.4655  0.8973  0.7943  1\n  O  O32  1  0.9090  0.6386  0.0641  1\n  O  O33  1  0.9282  0.6692  0.4124  1\n  O  O34  1  0.4271  0.1256  0.7794  1\n  O  O35  1  0.3787  0.2823  0.0766  1\n  O  O36  1  0.7088  0.0833  0.4303  1\n  O  O37  1  0.1394  0.6343  0.2453  1\n  O  O38  1  0.2271  0.8816  0.9211  1\n  O  O39  1  0.4915  0.8404  0.2690  1\n  O  O40  1  0.2607  0.8981  0.5560  1\n  O  O41  1  0.6517  0.7511  0.5554  1\n  O  O42  1  0.5363  0.1080  0.1708  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3OBa6MgAs6Cl2OBaO22\n_chemical_formula_sum              \"Ba10 O24 Mg1 As6 Cl2\"\n_cell_length_a       11.0144\n_cell_length_b       10.8815\n_cell_length_c       7.7957\n_cell_angle_alpha    88.3960\n_cell_angle_beta     91.7911\n_cell_angle_gamma    117.0547\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6626  0.3083  0.5210  1.0000\n  Ba  Ba2       1.0000  0.3316  0.6603  0.5019  1.0000\n  Ba  Ba3       1.0000  0.0359  0.2904  0.2437  1.0000\n  O   O1        1.0000  0.3205  0.6540  0.0015  1.0000\n  Ba  Ba4       1.0000  0.7613  0.7652  0.2391  1.0000\n  Ba  Ba5       1.0000  0.2633  0.0152  0.2364  1.0000\n  Ba  Ba6       1.0000  0.7828  0.0117  0.7356  1.0000\n  Ba  Ba7       1.0000  0.9911  0.7395  0.7393  1.0000\n  Ba  Ba8       1.0000  0.6868  0.3906  0.0059  1.0000\n  Ba  Ba9       1.0000  0.2671  0.2755  0.7519  1.0000\n  Mg  Mg1       1.0000  0.5753  0.0794  0.9209  1.0000\n  As  As1       1.0000  0.9691  0.5921  0.2507  1.0000\n  As  As2       1.0000  0.6172  0.6427  0.7322  1.0000\n  As  As3       1.0000  0.3372  0.9492  0.7528  1.0000\n  As  As4       1.0000  0.4186  0.3821  0.2583  1.0000\n  As  As5       1.0000  0.0417  0.4282  0.7368  1.0000\n  As  As6       1.0000  0.6152  0.0076  0.2505  1.0000\n  Cl  Cl1       1.0000  0.0241  0.0261  0.9958  1.0000\n  Cl  Cl2       1.0000  0.0130  0.0190  0.4820  1.0000\n  O   O2        1.0000  0.6914  0.7482  0.9050  1.0000\n  Ba  Ba10      1.0000  0.3262  0.4742  0.2597  1.0000\n  O   O3        1.0000  0.3814  0.2670  0.4303  1.0000\n  O   O4        1.0000  0.4421  0.5525  0.7564  1.0000\n  O   O5        1.0000  0.1212  0.3813  0.5681  1.0000\n  O   O6        1.0000  0.6874  0.5292  0.7193  1.0000\n  O   O7        1.0000  0.7209  0.2203  0.8004  1.0000\n  O   O8        1.0000  0.1484  0.6137  0.7386  1.0000\n  O   O9        1.0000  0.5923  0.4890  0.2624  1.0000\n  O   O10       1.0000  0.7152  0.0178  0.0799  1.0000\n  O   O11       1.0000  0.1178  0.3842  0.9227  1.0000\n  O   O12       1.0000  0.8734  0.4130  0.2679  1.0000\n  O   O13       1.0000  0.4655  0.8973  0.7943  1.0000\n  O   O14       1.0000  0.9090  0.6386  0.0641  1.0000\n  O   O15       1.0000  0.9282  0.6692  0.4124  1.0000\n  O   O16       1.0000  0.4271  0.1256  0.7794  1.0000\n  O   O17       1.0000  0.3787  0.2823  0.0766  1.0000\n  O   O18       1.0000  0.7088  0.0833  0.4303  1.0000\n  O   O19       1.0000  0.1394  0.6343  0.2453  1.0000\n  O   O20       1.0000  0.2271  0.8816  0.9211  1.0000\n  O   O21       1.0000  0.4915  0.8404  0.2690  1.0000\n  O   O22       1.0000  0.2607  0.8981  0.5560  1.0000\n  O   O23       1.0000  0.6517  0.7511  0.5554  1.0000\n  O   O24       1.0000  0.5363  0.1080  0.1708  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f0afed3-20f6-4936-8793-0d69930ab1aa",
    "mp_id": "mp-1233468",
    "action_prompt": "Swap the spatial positions of atoms at indices 37 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe6Sb10(IO3)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9193\n_cell_length_b   9.3575\n_cell_length_c   12.4430\n_cell_angle_alpha   81.1173\n_cell_angle_beta   85.0163\n_cell_angle_gamma   73.9859\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe6Sb10(IO3)6\n_chemical_formula_sum   'Mg1 Fe6 Sb10 I6 O18'\n_cell_volume   874.7294\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  -0.0000  0.5000  1\n  Fe  Fe1  1  0.7715  0.9752  0.3278  1\n  Fe  Fe2  1  0.2285  0.0248  0.6722  1\n  Fe  Fe3  1  0.0350  0.9505  0.1239  1\n  Fe  Fe4  1  0.9650  0.0495  0.8761  1\n  Fe  Fe5  1  0.6225  0.0869  0.0572  1\n  Fe  Fe6  1  0.3775  0.9131  0.9428  1\n  Sb  Sb7  1  0.8990  0.1884  0.5028  1\n  Sb  Sb8  1  0.1010  0.8116  0.4972  1\n  Sb  Sb9  1  0.2251  0.1842  0.2512  1\n  Sb  Sb10  1  0.7749  0.8158  0.7488  1\n  Sb  Sb11  1  0.5472  0.1888  0.7369  1\n  Sb  Sb12  1  0.4528  0.8112  0.2631  1\n  Sb  Sb13  1  0.2146  0.2624  0.9743  1\n  Sb  Sb14  1  0.7854  0.7376  0.0257  1\n  Sb  Sb15  1  0.7902  0.3144  0.2024  1\n  Sb  Sb16  1  0.2098  0.6856  0.7976  1\n  I  I17  1  0.7230  0.3436  0.9332  1\n  I  I18  1  0.2770  0.6564  0.0668  1\n  I  I19  1  0.9011  0.6758  0.2965  1\n  I  I20  1  0.0989  0.3242  0.7035  1\n  I  I21  1  0.4755  0.3194  0.4147  1\n  I  I22  1  0.5245  0.6806  0.5853  1\n  O  O23  1  0.1429  0.0683  0.9839  1\n  O  O24  1  0.8571  0.9317  0.0161  1\n  O  O25  1  0.8494  0.9745  0.4785  1\n  O  O26  1  0.1506  0.0255  0.5215  1\n  O  O27  1  0.7893  0.1032  0.1845  1\n  O  O28  1  0.2107  0.8968  0.8155  1\n  O  O29  1  0.4445  0.1272  0.8912  1\n  O  O30  1  0.5555  0.8728  0.1088  1\n  O  O31  1  0.7869  0.0301  0.7715  1\n  O  O32  1  0.2131  0.9699  0.2285  1\n  O  O33  1  0.4861  0.0350  0.6599  1\n  O  O34  1  0.5139  0.9650  0.3401  1\n  O  O35  1  0.0399  0.2851  0.1360  1\n  O  O36  1  0.9601  0.7149  0.8640  1\n  O  O37  1  0.0619  0.7773  0.6632  1\n  O  O38  1  0.9381  0.2227  0.3368  1\n  O  O39  1  0.6241  0.8044  0.8978  1\n  O  O40  1  0.3759  0.1956  0.1022  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFe5OSb10I6O14FeO3\n_chemical_formula_sum              \"Mg1 Fe6 O18 Sb10 I6\"\n_cell_length_a       7.9193\n_cell_length_b       9.3575\n_cell_length_c       12.4430\n_cell_angle_alpha    81.1173\n_cell_angle_beta     85.0163\n_cell_angle_gamma    73.9859\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe1       1.0000  0.7715  0.9752  0.3278  1.0000\n  Fe  Fe2       1.0000  0.2285  0.0248  0.6722  1.0000\n  Fe  Fe3       1.0000  0.0350  0.9505  0.1239  1.0000\n  Fe  Fe4       1.0000  0.9650  0.0495  0.8761  1.0000\n  Fe  Fe5       1.0000  0.6225  0.0869  0.0572  1.0000\n  O   O1        1.0000  0.3775  0.9131  0.9428  1.0000\n  Sb  Sb1       1.0000  0.8990  0.1884  0.5028  1.0000\n  Sb  Sb2       1.0000  0.1010  0.8116  0.4972  1.0000\n  Sb  Sb3       1.0000  0.2251  0.1842  0.2512  1.0000\n  Sb  Sb4       1.0000  0.7749  0.8158  0.7488  1.0000\n  Sb  Sb5       1.0000  0.5472  0.1888  0.7369  1.0000\n  Sb  Sb6       1.0000  0.4528  0.8112  0.2631  1.0000\n  Sb  Sb7       1.0000  0.2146  0.2624  0.9743  1.0000\n  Sb  Sb8       1.0000  0.7854  0.7376  0.0257  1.0000\n  Sb  Sb9       1.0000  0.7902  0.3144  0.2024  1.0000\n  Sb  Sb10      1.0000  0.2098  0.6856  0.7976  1.0000\n  I   I1        1.0000  0.7230  0.3436  0.9332  1.0000\n  I   I2        1.0000  0.2770  0.6564  0.0668  1.0000\n  I   I3        1.0000  0.9011  0.6758  0.2965  1.0000\n  I   I4        1.0000  0.0989  0.3242  0.7035  1.0000\n  I   I5        1.0000  0.4755  0.3194  0.4147  1.0000\n  I   I6        1.0000  0.5245  0.6806  0.5853  1.0000\n  O   O2        1.0000  0.1429  0.0683  0.9839  1.0000\n  O   O3        1.0000  0.8571  0.9317  0.0161  1.0000\n  O   O4        1.0000  0.8494  0.9745  0.4785  1.0000\n  O   O5        1.0000  0.1506  0.0255  0.5215  1.0000\n  O   O6        1.0000  0.7893  0.1032  0.1845  1.0000\n  O   O7        1.0000  0.2107  0.8968  0.8155  1.0000\n  O   O8        1.0000  0.4445  0.1272  0.8912  1.0000\n  O   O9        1.0000  0.5555  0.8728  0.1088  1.0000\n  O   O10       1.0000  0.7869  0.0301  0.7715  1.0000\n  O   O11       1.0000  0.2131  0.9699  0.2285  1.0000\n  O   O12       1.0000  0.4861  0.0350  0.6599  1.0000\n  O   O13       1.0000  0.5139  0.9650  0.3401  1.0000\n  O   O14       1.0000  0.0399  0.2851  0.1360  1.0000\n  O   O15       1.0000  0.9601  0.7149  0.8640  1.0000\n  Fe  Fe6       1.0000  0.0619  0.7773  0.6632  1.0000\n  O   O16       1.0000  0.9381  0.2227  0.3368  1.0000\n  O   O17       1.0000  0.6241  0.8044  0.8978  1.0000\n  O   O18       1.0000  0.3759  0.1956  0.1022  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "94e73e6a-8c1b-4fb1-a601-71d216a00ddc",
    "mp_id": "mp-1233776",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaCd4(TcO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4602\n_cell_length_b   5.4154\n_cell_length_c   9.3312\n_cell_angle_alpha   81.3831\n_cell_angle_beta   98.6106\n_cell_angle_gamma   92.5478\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaCd4(TcO3)4\n_chemical_formula_sum   'Ca1 Cd4 Tc4 O12'\n_cell_volume   269.6583\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0880  0.9205  0.1545  1\n  Cd  Cd1  1  0.4412  0.5404  0.3231  1\n  Cd  Cd2  1  0.7950  0.2242  0.3130  1\n  Cd  Cd3  1  0.4895  0.4697  0.7549  1\n  Cd  Cd4  1  0.0260  0.0186  0.7466  1\n  Tc  Tc5  1  0.0463  0.4466  0.9666  1\n  Tc  Tc6  1  0.4572  0.0303  0.5363  1\n  Tc  Tc7  1  0.9525  0.5651  0.5359  1\n  Tc  Tc8  1  0.5642  0.9178  0.9706  1\n  O  O9  1  0.7919  0.6592  0.9839  1\n  O  O10  1  0.7167  0.2848  0.6206  1\n  O  O11  1  0.1981  0.2813  0.5514  1\n  O  O12  1  0.2976  0.6910  0.0197  1\n  O  O13  1  0.3145  0.2048  0.9287  1\n  O  O14  1  0.1904  0.8055  0.4156  1\n  O  O15  1  0.7108  0.8119  0.5200  1\n  O  O16  1  0.8288  0.1606  0.9407  1\n  O  O17  1  0.6276  0.9182  0.1882  1\n  O  O18  1  0.1104  0.3280  0.1900  1\n  O  O19  1  0.4601  0.8823  0.7482  1\n  O  O20  1  0.0479  0.6011  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaCd4TcOTc2O10TcO\n_chemical_formula_sum              \"Ca1 Cd4 Tc4 O12\"\n_cell_length_a       5.4602\n_cell_length_b       5.4154\n_cell_length_c       9.3312\n_cell_angle_alpha    81.3831\n_cell_angle_beta     98.6106\n_cell_angle_gamma    92.5478\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0880  0.9205  0.1545  1.0000\n  Cd  Cd1       1.0000  0.4412  0.5404  0.3231  1.0000\n  Cd  Cd2       1.0000  0.7950  0.2242  0.3130  1.0000\n  Cd  Cd3       1.0000  0.4895  0.4697  0.7549  1.0000\n  Cd  Cd4       1.0000  0.0260  0.0186  0.7466  1.0000\n  Tc  Tc1       1.0000  0.0463  0.4466  0.9666  1.0000\n  O   O1        1.0000  0.4572  0.0303  0.5363  1.0000\n  Tc  Tc2       1.0000  0.9525  0.5651  0.5359  1.0000\n  Tc  Tc3       1.0000  0.5642  0.9178  0.9706  1.0000\n  O   O2        1.0000  0.7919  0.6592  0.9839  1.0000\n  O   O3        1.0000  0.7167  0.2848  0.6206  1.0000\n  O   O4        1.0000  0.1981  0.2813  0.5514  1.0000\n  O   O5        1.0000  0.2976  0.6910  0.0197  1.0000\n  O   O6        1.0000  0.3145  0.2048  0.9287  1.0000\n  O   O7        1.0000  0.1904  0.8055  0.4156  1.0000\n  O   O8        1.0000  0.7108  0.8119  0.5200  1.0000\n  O   O9        1.0000  0.8288  0.1606  0.9407  1.0000\n  O   O10       1.0000  0.6276  0.9182  0.1882  1.0000\n  O   O11       1.0000  0.1104  0.3280  0.1900  1.0000\n  Tc  Tc4       1.0000  0.4601  0.8823  0.7482  1.0000\n  O   O12       1.0000  0.0479  0.6011  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "49b4e58b-b221-45cf-aa1a-56b375092630",
    "mp_id": "mp-1233932",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMn2(P2O7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0907\n_cell_length_b   5.3335\n_cell_length_c   10.5862\n_cell_angle_alpha   85.9830\n_cell_angle_beta   108.9367\n_cell_angle_gamma   104.1001\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMn2(P2O7)2\n_chemical_formula_sum   'Ca1 Mn2 P4 O14'\n_cell_volume   315.4617\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2751  0.5900  0.5439  1\n  Mn  Mn1  1  0.8659  0.5116  0.1815  1\n  Mn  Mn2  1  0.1415  0.4674  0.8258  1\n  P  P3  1  0.1168  0.0779  0.3261  1\n  P  P4  1  0.7173  0.6370  0.8762  1\n  P  P5  1  0.3151  0.3688  0.1356  1\n  P  P6  1  0.8882  0.9128  0.6712  1\n  O  O7  1  0.0566  0.7841  0.3480  1\n  O  O8  1  0.8876  0.1810  0.2651  1\n  O  O9  1  0.4516  0.5581  0.7886  1\n  O  O10  1  0.1578  0.5487  0.1428  1\n  O  O11  1  0.2842  0.3011  0.9905  1\n  O  O12  1  0.6531  0.8187  0.5652  1\n  O  O13  1  0.8379  0.8967  0.8161  1\n  O  O14  1  0.2363  0.1022  0.2057  1\n  O  O15  1  0.2895  0.2310  0.4473  1\n  O  O16  1  0.7432  0.7028  0.0183  1\n  O  O17  1  0.8462  0.4293  0.8629  1\n  O  O18  1  0.5742  0.4884  0.2157  1\n  O  O19  1  0.0645  0.7303  0.6886  1\n  O  O20  1  0.0224  0.1934  0.6679  1\n",
    "output": "data_image0\n_chemical_formula_structural       PMn2CaP3O14\n_chemical_formula_sum              \"P4 Mn2 Ca1 O14\"\n_cell_length_a       6.0907\n_cell_length_b       5.3335\n_cell_length_c       10.5862\n_cell_angle_alpha    85.9830\n_cell_angle_beta     108.9367\n_cell_angle_gamma    104.1001\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.2751  0.5900  0.5439  1.0000\n  Mn  Mn1       1.0000  0.8659  0.5116  0.1815  1.0000\n  Mn  Mn2       1.0000  0.1415  0.4674  0.8258  1.0000\n  Ca  Ca1       1.0000  0.1168  0.0779  0.3261  1.0000\n  P   P2        1.0000  0.7173  0.6370  0.8762  1.0000\n  P   P3        1.0000  0.3151  0.3688  0.1356  1.0000\n  P   P4        1.0000  0.8882  0.9128  0.6712  1.0000\n  O   O1        1.0000  0.0566  0.7841  0.3480  1.0000\n  O   O2        1.0000  0.8876  0.1810  0.2651  1.0000\n  O   O3        1.0000  0.4516  0.5581  0.7886  1.0000\n  O   O4        1.0000  0.1578  0.5487  0.1428  1.0000\n  O   O5        1.0000  0.2842  0.3011  0.9905  1.0000\n  O   O6        1.0000  0.6531  0.8187  0.5652  1.0000\n  O   O7        1.0000  0.8379  0.8967  0.8161  1.0000\n  O   O8        1.0000  0.2363  0.1022  0.2057  1.0000\n  O   O9        1.0000  0.2895  0.2310  0.4473  1.0000\n  O   O10       1.0000  0.7432  0.7028  0.0183  1.0000\n  O   O11       1.0000  0.8462  0.4293  0.8629  1.0000\n  O   O12       1.0000  0.5742  0.4884  0.2157  1.0000\n  O   O13       1.0000  0.0645  0.7303  0.6886  1.0000\n  O   O14       1.0000  0.0224  0.1934  0.6679  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0c1fd580-27bb-4a59-9ac9-a30303307a2d",
    "mp_id": "mp-1233998",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn8(SO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4035\n_cell_length_b   8.9884\n_cell_length_c   13.0285\n_cell_angle_alpha   87.0916\n_cell_angle_beta   93.8783\n_cell_angle_gamma   99.9548\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn8(SO3)8\n_chemical_formula_sum   'Mg1 Mn8 S8 O24'\n_cell_volume   621.3388\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.4021  0.2771  0.8693  1\n  Mn  Mn1  1  0.3247  0.6150  0.9136  1\n  Mn  Mn2  1  0.6625  0.8982  0.4126  1\n  Mn  Mn3  1  0.6111  0.4110  0.1088  1\n  Mn  Mn4  1  0.3833  0.1037  0.5820  1\n  Mn  Mn5  1  0.0986  0.1836  0.2533  1\n  Mn  Mn6  1  0.9520  0.2289  0.7434  1\n  Mn  Mn7  1  0.8768  0.8058  0.7320  1\n  Mn  Mn8  1  0.1049  0.6919  0.2509  1\n  S  S9  1  0.5632  0.4850  0.6888  1\n  S  S10  1  0.4957  0.0251  0.1797  1\n  S  S11  1  0.5267  0.5251  0.3274  1\n  S  S12  1  0.4733  0.9625  0.7960  1\n  S  S13  1  0.0957  0.7632  0.5034  1\n  S  S14  1  0.8988  0.7491  0.0085  1\n  S  S15  1  0.9389  0.2491  0.4807  1\n  S  S16  1  0.9858  0.2582  0.0081  1\n  O  O17  1  0.7183  0.0269  0.2631  1\n  O  O18  1  0.4454  0.4844  0.7965  1\n  O  O19  1  0.2363  0.9442  0.7215  1\n  O  O20  1  0.7332  0.5405  0.2454  1\n  O  O21  1  0.2343  0.3821  0.9882  1\n  O  O22  1  0.6889  0.1335  0.4820  1\n  O  O23  1  0.6564  0.6231  0.0144  1\n  O  O24  1  0.3370  0.8882  0.5044  1\n  O  O25  1  0.7531  0.3153  0.9540  1\n  O  O26  1  0.1047  0.1743  0.4139  1\n  O  O27  1  0.0894  0.6887  0.0855  1\n  O  O28  1  0.9016  0.8361  0.5580  1\n  O  O29  1  0.6819  0.0176  0.7170  1\n  O  O30  1  0.2888  0.4488  0.2660  1\n  O  O31  1  0.2615  0.9468  0.2349  1\n  O  O32  1  0.8293  0.5738  0.7056  1\n  O  O33  1  0.0116  0.7296  0.9031  1\n  O  O34  1  0.9789  0.7708  0.3910  1\n  O  O35  1  0.9397  0.2936  0.1219  1\n  O  O36  1  0.0778  0.2270  0.5889  1\n  O  O37  1  0.5269  0.8003  0.8206  1\n  O  O38  1  0.4656  0.6884  0.3340  1\n  O  O39  1  0.4383  0.1916  0.1732  1\n  O  O40  1  0.6055  0.3167  0.6858  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgSMn7S4MnS3O24\n_chemical_formula_sum              \"Mg1 S8 Mn8 O24\"\n_cell_length_a       5.4035\n_cell_length_b       8.9884\n_cell_length_c       13.0285\n_cell_angle_alpha    87.0916\n_cell_angle_beta     93.8783\n_cell_angle_gamma    99.9548\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.4021  0.2771  0.8693  1.0000\n  S   S1        1.0000  0.3247  0.6150  0.9136  1.0000\n  Mn  Mn1       1.0000  0.6625  0.8982  0.4126  1.0000\n  Mn  Mn2       1.0000  0.6111  0.4110  0.1088  1.0000\n  Mn  Mn3       1.0000  0.3833  0.1037  0.5820  1.0000\n  Mn  Mn4       1.0000  0.0986  0.1836  0.2533  1.0000\n  Mn  Mn5       1.0000  0.9520  0.2289  0.7434  1.0000\n  Mn  Mn6       1.0000  0.8768  0.8058  0.7320  1.0000\n  Mn  Mn7       1.0000  0.1049  0.6919  0.2509  1.0000\n  S   S2        1.0000  0.5632  0.4850  0.6888  1.0000\n  S   S3        1.0000  0.4957  0.0251  0.1797  1.0000\n  S   S4        1.0000  0.5267  0.5251  0.3274  1.0000\n  S   S5        1.0000  0.4733  0.9625  0.7960  1.0000\n  Mn  Mn8       1.0000  0.0957  0.7632  0.5034  1.0000\n  S   S6        1.0000  0.8988  0.7491  0.0085  1.0000\n  S   S7        1.0000  0.9389  0.2491  0.4807  1.0000\n  S   S8        1.0000  0.9858  0.2582  0.0081  1.0000\n  O   O1        1.0000  0.7183  0.0269  0.2631  1.0000\n  O   O2        1.0000  0.4454  0.4844  0.7965  1.0000\n  O   O3        1.0000  0.2363  0.9442  0.7215  1.0000\n  O   O4        1.0000  0.7332  0.5405  0.2454  1.0000\n  O   O5        1.0000  0.2343  0.3821  0.9882  1.0000\n  O   O6        1.0000  0.6889  0.1335  0.4820  1.0000\n  O   O7        1.0000  0.6564  0.6231  0.0144  1.0000\n  O   O8        1.0000  0.3370  0.8882  0.5044  1.0000\n  O   O9        1.0000  0.7531  0.3153  0.9540  1.0000\n  O   O10       1.0000  0.1047  0.1743  0.4139  1.0000\n  O   O11       1.0000  0.0894  0.6887  0.0855  1.0000\n  O   O12       1.0000  0.9016  0.8361  0.5580  1.0000\n  O   O13       1.0000  0.6819  0.0176  0.7170  1.0000\n  O   O14       1.0000  0.2888  0.4488  0.2660  1.0000\n  O   O15       1.0000  0.2615  0.9468  0.2349  1.0000\n  O   O16       1.0000  0.8293  0.5738  0.7056  1.0000\n  O   O17       1.0000  0.0116  0.7296  0.9031  1.0000\n  O   O18       1.0000  0.9789  0.7708  0.3910  1.0000\n  O   O19       1.0000  0.9397  0.2936  0.1219  1.0000\n  O   O20       1.0000  0.0778  0.2270  0.5889  1.0000\n  O   O21       1.0000  0.5269  0.8003  0.8206  1.0000\n  O   O22       1.0000  0.4656  0.6884  0.3340  1.0000\n  O   O23       1.0000  0.4383  0.1916  0.1732  1.0000\n  O   O24       1.0000  0.6055  0.3167  0.6858  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d877b20a-bdb4-4269-ade3-95d2140607fb",
    "mp_id": "mp-1234032",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe8(O7F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8213\n_cell_length_b   4.8391\n_cell_length_c   11.8254\n_cell_angle_alpha   90.2890\n_cell_angle_beta   90.4070\n_cell_angle_gamma   90.5205\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe8(O7F)2\n_chemical_formula_sum   'Mg1 Fe8 O14 F2'\n_cell_volume   275.8708\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0036  0.4969  0.2488  1\n  Fe  Fe1  1  0.0027  0.9956  0.0059  1\n  Fe  Fe2  1  0.9977  0.9959  0.2528  1\n  Fe  Fe3  1  0.0335  0.0206  0.5047  1\n  Fe  Fe4  1  0.0005  0.9882  0.7478  1\n  Fe  Fe5  1  0.5013  0.4969  0.1207  1\n  Fe  Fe6  1  0.4966  0.4864  0.6351  1\n  Fe  Fe7  1  0.4665  0.5240  0.8768  1\n  Fe  Fe8  1  0.5022  0.4908  0.3779  1\n  O  O9  1  0.1581  0.7780  0.1360  1\n  O  O10  1  0.1989  0.8011  0.6255  1\n  O  O11  1  0.1696  0.8131  0.8786  1\n  O  O12  1  0.1646  0.7781  0.3681  1\n  O  O13  1  0.3110  0.3073  0.0020  1\n  O  O14  1  0.3399  0.2860  0.2460  1\n  O  O15  1  0.3362  0.3044  0.5035  1\n  O  O16  1  0.2993  0.3075  0.7602  1\n  O  O17  1  0.6717  0.6974  0.0020  1\n  O  O18  1  0.6653  0.7059  0.2483  1\n  O  O19  1  0.6797  0.6893  0.7569  1\n  O  O20  1  0.8399  0.2156  0.1349  1\n  O  O21  1  0.8500  0.2239  0.3686  1\n  O  O22  1  0.8165  0.1919  0.6282  1\n  F  F23  1  0.6960  0.7097  0.5009  1\n  F  F24  1  0.7987  0.1956  0.8810  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFeOFe7O13F2\n_chemical_formula_sum              \"Mg1 Fe8 O14 F2\"\n_cell_length_a       4.8213\n_cell_length_b       4.8391\n_cell_length_c       11.8254\n_cell_angle_alpha    90.2890\n_cell_angle_beta     90.4070\n_cell_angle_gamma    90.5205\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0036  0.4969  0.2488  1.0000\n  Fe  Fe1       1.0000  0.0027  0.9956  0.0059  1.0000\n  O   O1        1.0000  0.9977  0.9959  0.2528  1.0000\n  Fe  Fe2       1.0000  0.0335  0.0206  0.5047  1.0000\n  Fe  Fe3       1.0000  0.0005  0.9882  0.7478  1.0000\n  Fe  Fe4       1.0000  0.5013  0.4969  0.1207  1.0000\n  Fe  Fe5       1.0000  0.4966  0.4864  0.6351  1.0000\n  Fe  Fe6       1.0000  0.4665  0.5240  0.8768  1.0000\n  Fe  Fe7       1.0000  0.5022  0.4908  0.3779  1.0000\n  Fe  Fe8       1.0000  0.1581  0.7780  0.1360  1.0000\n  O   O2        1.0000  0.1989  0.8011  0.6255  1.0000\n  O   O3        1.0000  0.1696  0.8131  0.8786  1.0000\n  O   O4        1.0000  0.1646  0.7781  0.3681  1.0000\n  O   O5        1.0000  0.3110  0.3073  0.0020  1.0000\n  O   O6        1.0000  0.3399  0.2860  0.2460  1.0000\n  O   O7        1.0000  0.3362  0.3044  0.5035  1.0000\n  O   O8        1.0000  0.2993  0.3075  0.7602  1.0000\n  O   O9        1.0000  0.6717  0.6974  0.0020  1.0000\n  O   O10       1.0000  0.6653  0.7059  0.2483  1.0000\n  O   O11       1.0000  0.6797  0.6893  0.7569  1.0000\n  O   O12       1.0000  0.8399  0.2156  0.1349  1.0000\n  O   O13       1.0000  0.8500  0.2239  0.3686  1.0000\n  O   O14       1.0000  0.8165  0.1919  0.6282  1.0000\n  F   F1        1.0000  0.6960  0.7097  0.5009  1.0000\n  F   F2        1.0000  0.7987  0.1956  0.8810  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "02ab54b8-f8e3-4150-af8c-369f288d7f26",
    "mp_id": "mp-1234239",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe3Co2Sb(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8035\n_cell_length_b   8.7109\n_cell_length_c   8.7207\n_cell_angle_alpha   60.0603\n_cell_angle_beta   60.7734\n_cell_angle_gamma   60.5787\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe3Co2Sb(PO4)6\n_chemical_formula_sum   'Mg1 Fe3 Co2 Sb1 P6 O24'\n_cell_volume   477.8754\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2305  0.2572  0.2556  1\n  Fe  Fe1  1  0.0592  0.6472  0.6471  1\n  Fe  Fe2  1  0.4493  0.8488  0.8503  1\n  Fe  Fe3  1  0.8774  0.3740  0.3749  1\n  Co  Co4  1  0.0434  0.9909  0.9835  1\n  Co  Co5  1  0.4790  0.5076  0.5094  1\n  Sb  Sb6  1  0.6200  0.1263  0.1263  1\n  P  P7  1  0.2457  0.2530  0.5535  1\n  P  P8  1  0.2445  0.9477  0.2530  1\n  P  P9  1  0.2442  0.5557  0.9480  1\n  P  P10  1  0.7518  0.4651  0.0370  1\n  P  P11  1  0.7494  0.0377  0.7465  1\n  P  P12  1  0.7478  0.7462  0.4674  1\n  O  O13  1  0.0770  0.1155  0.3003  1\n  O  O14  1  0.0766  0.5080  0.1154  1\n  O  O15  1  0.0769  0.3017  0.5054  1\n  O  O16  1  0.2439  0.0861  0.7412  1\n  O  O17  1  0.4123  0.2057  0.3796  1\n  O  O18  1  0.2629  0.4132  0.5687  1\n  O  O19  1  0.2424  0.9278  0.0867  1\n  O  O20  1  0.2612  0.7564  0.4139  1\n  O  O21  1  0.5836  0.5927  0.9717  1\n  O  O22  1  0.2596  0.5704  0.7569  1\n  O  O23  1  0.8052  0.2553  0.0425  1\n  O  O24  1  0.5818  0.9723  0.8518  1\n  O  O25  1  0.4129  0.0020  0.2053  1\n  O  O26  1  0.2445  0.7427  0.9277  1\n  O  O27  1  0.7020  0.4530  0.2378  1\n  O  O28  1  0.4119  0.3794  0.0022  1\n  O  O29  1  0.6981  0.2399  0.6080  1\n  O  O30  1  0.8043  0.0425  0.8970  1\n  O  O31  1  0.6957  0.6070  0.4562  1\n  O  O32  1  0.5813  0.8512  0.5945  1\n  O  O33  1  0.8015  0.8959  0.2584  1\n  O  O34  1  0.9229  0.6593  0.5169  1\n  O  O35  1  0.9259  0.5143  0.8989  1\n  O  O36  1  0.9232  0.9004  0.6603  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFe3Co2SbOP5O3PO20\n_chemical_formula_sum              \"Mg1 Fe3 Co2 Sb1 O24 P6\"\n_cell_length_a       8.8035\n_cell_length_b       8.7109\n_cell_length_c       8.7207\n_cell_angle_alpha    60.0603\n_cell_angle_beta     60.7734\n_cell_angle_gamma    60.5787\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2305  0.2572  0.2556  1.0000\n  Fe  Fe1       1.0000  0.0592  0.6472  0.6471  1.0000\n  Fe  Fe2       1.0000  0.4493  0.8488  0.8503  1.0000\n  Fe  Fe3       1.0000  0.8774  0.3740  0.3749  1.0000\n  Co  Co1       1.0000  0.0434  0.9909  0.9835  1.0000\n  Co  Co2       1.0000  0.4790  0.5076  0.5094  1.0000\n  Sb  Sb1       1.0000  0.6200  0.1263  0.1263  1.0000\n  O   O1        1.0000  0.2457  0.2530  0.5535  1.0000\n  P   P1        1.0000  0.2445  0.9477  0.2530  1.0000\n  P   P2        1.0000  0.2442  0.5557  0.9480  1.0000\n  P   P3        1.0000  0.7518  0.4651  0.0370  1.0000\n  P   P4        1.0000  0.7494  0.0377  0.7465  1.0000\n  P   P5        1.0000  0.7478  0.7462  0.4674  1.0000\n  O   O2        1.0000  0.0770  0.1155  0.3003  1.0000\n  O   O3        1.0000  0.0766  0.5080  0.1154  1.0000\n  O   O4        1.0000  0.0769  0.3017  0.5054  1.0000\n  P   P6        1.0000  0.2439  0.0861  0.7412  1.0000\n  O   O5        1.0000  0.4123  0.2057  0.3796  1.0000\n  O   O6        1.0000  0.2629  0.4132  0.5687  1.0000\n  O   O7        1.0000  0.2424  0.9278  0.0867  1.0000\n  O   O8        1.0000  0.2612  0.7564  0.4139  1.0000\n  O   O9        1.0000  0.5836  0.5927  0.9717  1.0000\n  O   O10       1.0000  0.2596  0.5704  0.7569  1.0000\n  O   O11       1.0000  0.8052  0.2553  0.0425  1.0000\n  O   O12       1.0000  0.5818  0.9723  0.8518  1.0000\n  O   O13       1.0000  0.4129  0.0020  0.2053  1.0000\n  O   O14       1.0000  0.2445  0.7427  0.9277  1.0000\n  O   O15       1.0000  0.7020  0.4530  0.2378  1.0000\n  O   O16       1.0000  0.4119  0.3794  0.0022  1.0000\n  O   O17       1.0000  0.6981  0.2399  0.6080  1.0000\n  O   O18       1.0000  0.8043  0.0425  0.8970  1.0000\n  O   O19       1.0000  0.6957  0.6070  0.4562  1.0000\n  O   O20       1.0000  0.5813  0.8512  0.5945  1.0000\n  O   O21       1.0000  0.8015  0.8959  0.2584  1.0000\n  O   O22       1.0000  0.9229  0.6593  0.5169  1.0000\n  O   O23       1.0000  0.9259  0.5143  0.8989  1.0000\n  O   O24       1.0000  0.9232  0.9004  0.6603  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4495d540-b040-4640-97ff-8e7ad8a65461",
    "mp_id": "mp-12343",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsSmZnTe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4940\n_cell_length_b   8.9591\n_cell_length_c   11.9224\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   104.5254\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsSmZnTe3\n_chemical_formula_sum   'Cs2 Sm2 Zn2 Te6'\n_cell_volume   464.6821\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.7471  0.4941  0.7500  1\n  Cs  Cs1  1  0.2529  0.5059  0.2500  1\n  Sm  Sm2  1  0.0000  0.0000  0.0000  1\n  Sm  Sm3  1  0.0000  0.0000  0.5000  1\n  Zn  Zn4  1  0.4649  0.9297  0.7500  1\n  Zn  Zn5  1  0.5351  0.0703  0.2500  1\n  Te  Te6  1  0.3802  0.7603  0.5630  1\n  Te  Te7  1  0.6198  0.2397  0.4370  1\n  Te  Te8  1  0.9394  0.8788  0.2500  1\n  Te  Te9  1  0.0606  0.1212  0.7500  1\n  Te  Te10  1  0.3802  0.7603  0.9370  1\n  Te  Te11  1  0.6198  0.2397  0.0630  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2Sm2ZnTe4ZnTe2\n_chemical_formula_sum              \"Cs2 Sm2 Zn2 Te6\"\n_cell_length_a       4.4940\n_cell_length_b       8.9591\n_cell_length_c       11.9224\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    104.5254\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.7471  0.4941  0.7500  1.0000\n  Cs  Cs2       1.0000  0.2529  0.5059  0.2500  1.0000\n  Sm  Sm1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Sm  Sm2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Zn  Zn1       1.0000  0.4649  0.9297  0.7500  1.0000\n  Te  Te1       1.0000  0.5351  0.0703  0.2500  1.0000\n  Te  Te2       1.0000  0.3802  0.7603  0.5630  1.0000\n  Te  Te3       1.0000  0.6198  0.2397  0.4370  1.0000\n  Te  Te4       1.0000  0.9394  0.8788  0.2500  1.0000\n  Zn  Zn2       1.0000  0.0606  0.1212  0.7500  1.0000\n  Te  Te5       1.0000  0.3802  0.7603  0.9370  1.0000\n  Te  Te6       1.0000  0.6198  0.2397  0.0630  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cee299c2-b403-443b-846f-2d50eeeeada2",
    "mp_id": "mp-1234325",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaV4(NiO6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2685\n_cell_length_b   7.2626\n_cell_length_c   5.5830\n_cell_angle_alpha   79.8107\n_cell_angle_beta   100.1947\n_cell_angle_gamma   99.8457\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaV4(NiO6)2\n_chemical_formula_sum   'Ca1 V4 Ni2 O12'\n_cell_volume   282.5056\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.5479  0.5480  0.2509  1\n  V  V1  1  0.1844  0.6490  0.6591  1\n  V  V2  1  0.3733  0.8852  0.1243  1\n  V  V3  1  0.6490  0.1836  0.8412  1\n  V  V4  1  0.8849  0.3734  0.3754  1\n  Ni  Ni5  1  0.0753  0.0754  0.7499  1\n  Ni  Ni6  1  0.9153  0.9154  0.2500  1\n  O  O7  1  0.0419  0.8231  0.6186  1\n  O  O8  1  0.0680  0.4152  0.6872  1\n  O  O9  1  0.1635  0.9841  0.1107  1\n  O  O10  1  0.3222  0.6796  0.4254  1\n  O  O11  1  0.4150  0.0680  0.8125  1\n  O  O12  1  0.3323  0.6698  0.9448  1\n  O  O13  1  0.6797  0.3224  0.0740  1\n  O  O14  1  0.6156  0.8861  0.2438  1\n  O  O15  1  0.6698  0.3309  0.5551  1\n  O  O16  1  0.8230  0.0409  0.8815  1\n  O  O17  1  0.8845  0.6159  0.2568  1\n  O  O18  1  0.9845  0.1639  0.3888  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaV4NiO12Ni\n_chemical_formula_sum              \"Ca1 V4 Ni2 O12\"\n_cell_length_a       7.2685\n_cell_length_b       7.2626\n_cell_length_c       5.5830\n_cell_angle_alpha    79.8107\n_cell_angle_beta     100.1947\n_cell_angle_gamma    99.8457\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.5479  0.5480  0.2509  1.0000\n  V   V1        1.0000  0.1844  0.6490  0.6591  1.0000\n  V   V2        1.0000  0.3733  0.8852  0.1243  1.0000\n  V   V3        1.0000  0.6490  0.1836  0.8412  1.0000\n  V   V4        1.0000  0.8849  0.3734  0.3754  1.0000\n  Ni  Ni1       1.0000  0.0753  0.0754  0.7499  1.0000\n  O   O1        1.0000  0.9153  0.9154  0.2500  1.0000\n  O   O2        1.0000  0.0419  0.8231  0.6186  1.0000\n  O   O3        1.0000  0.0680  0.4152  0.6872  1.0000\n  O   O4        1.0000  0.1635  0.9841  0.1107  1.0000\n  O   O5        1.0000  0.3222  0.6796  0.4254  1.0000\n  O   O6        1.0000  0.4150  0.0680  0.8125  1.0000\n  O   O7        1.0000  0.3323  0.6698  0.9448  1.0000\n  O   O8        1.0000  0.6797  0.3224  0.0740  1.0000\n  O   O9        1.0000  0.6156  0.8861  0.2438  1.0000\n  O   O10       1.0000  0.6698  0.3309  0.5551  1.0000\n  O   O11       1.0000  0.8230  0.0409  0.8815  1.0000\n  O   O12       1.0000  0.8845  0.6159  0.2568  1.0000\n  Ni  Ni2       1.0000  0.9845  0.1639  0.3888  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "62a25402-94e6-435b-ab9e-a4421a587bee",
    "mp_id": "mp-1234413",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe8(O7F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9829\n_cell_length_b   7.4099\n_cell_length_c   5.6574\n_cell_angle_alpha   108.3489\n_cell_angle_beta   104.8664\n_cell_angle_gamma   78.4363\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe8(O7F)2\n_chemical_formula_sum   'Mg1 Fe8 O14 F2'\n_cell_volume   266.2505\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8149  0.1069  0.6175  1\n  Fe  Fe1  1  0.6792  0.3799  0.3895  1\n  Fe  Fe2  1  0.5026  0.9823  0.9725  1\n  Fe  Fe3  1  0.2414  0.2477  0.5221  1\n  Fe  Fe4  1  0.7491  0.7514  0.4696  1\n  Fe  Fe5  1  0.4974  0.4949  0.9486  1\n  Fe  Fe6  1  0.9898  0.9855  0.0593  1\n  Fe  Fe7  1  0.2516  0.7432  0.5119  1\n  Fe  Fe8  1  0.0312  0.4809  0.0506  1\n  O  O9  1  0.9494  0.1865  0.3908  1\n  O  O10  1  0.9835  0.2276  0.9407  1\n  O  O11  1  0.5372  0.2473  0.0774  1\n  O  O12  1  0.3238  0.0076  0.6561  1\n  O  O13  1  0.5544  0.3104  0.6200  1\n  O  O14  1  0.7789  0.5272  0.1721  1\n  O  O15  1  0.7307  0.9426  0.8091  1\n  O  O16  1  0.2255  0.4327  0.8455  1\n  O  O17  1  0.4937  0.6335  0.3520  1\n  O  O18  1  0.6725  0.9349  0.2795  1\n  O  O19  1  0.1877  0.4782  0.3845  1\n  O  O20  1  0.4260  0.7272  0.8363  1\n  O  O21  1  0.0766  0.7552  0.1817  1\n  O  O22  1  0.0162  0.8456  0.6576  1\n  F  F23  1  0.8326  0.5515  0.6953  1\n  F  F24  1  0.2781  0.0472  0.1909  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFe4OFe3OFeO12F2\n_chemical_formula_sum              \"Mg1 Fe8 O14 F2\"\n_cell_length_a       6.9829\n_cell_length_b       7.4099\n_cell_length_c       5.6574\n_cell_angle_alpha    108.3489\n_cell_angle_beta     104.8664\n_cell_angle_gamma    78.4363\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8149  0.1069  0.6175  1.0000\n  Fe  Fe1       1.0000  0.6792  0.3799  0.3895  1.0000\n  Fe  Fe2       1.0000  0.5026  0.9823  0.9725  1.0000\n  Fe  Fe3       1.0000  0.2414  0.2477  0.5221  1.0000\n  Fe  Fe4       1.0000  0.7491  0.7514  0.4696  1.0000\n  O   O1        1.0000  0.4974  0.4949  0.9486  1.0000\n  Fe  Fe5       1.0000  0.9898  0.9855  0.0593  1.0000\n  Fe  Fe6       1.0000  0.2516  0.7432  0.5119  1.0000\n  Fe  Fe7       1.0000  0.0312  0.4809  0.0506  1.0000\n  O   O2        1.0000  0.9494  0.1865  0.3908  1.0000\n  Fe  Fe8       1.0000  0.9835  0.2276  0.9407  1.0000\n  O   O3        1.0000  0.5372  0.2473  0.0774  1.0000\n  O   O4        1.0000  0.3238  0.0076  0.6561  1.0000\n  O   O5        1.0000  0.5544  0.3104  0.6200  1.0000\n  O   O6        1.0000  0.7789  0.5272  0.1721  1.0000\n  O   O7        1.0000  0.7307  0.9426  0.8091  1.0000\n  O   O8        1.0000  0.2255  0.4327  0.8455  1.0000\n  O   O9        1.0000  0.4937  0.6335  0.3520  1.0000\n  O   O10       1.0000  0.6725  0.9349  0.2795  1.0000\n  O   O11       1.0000  0.1877  0.4782  0.3845  1.0000\n  O   O12       1.0000  0.4260  0.7272  0.8363  1.0000\n  O   O13       1.0000  0.0766  0.7552  0.1817  1.0000\n  O   O14       1.0000  0.0162  0.8456  0.6576  1.0000\n  F   F1        1.0000  0.8326  0.5515  0.6953  1.0000\n  F   F2        1.0000  0.2781  0.0472  0.1909  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6d9d72ac-088d-4008-b78f-8a2950c6ed39",
    "mp_id": "mp-1234620",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe10(O4F)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9068\n_cell_length_b   12.9006\n_cell_length_c   5.5890\n_cell_angle_alpha   103.8671\n_cell_angle_beta   88.8334\n_cell_angle_gamma   90.6210\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe10(O4F)4\n_chemical_formula_sum   'Mg1 Fe10 O16 F4'\n_cell_volume   343.4019\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.9883  0.2975  0.1023  1\n  Fe  Fe1  1  0.5142  0.9879  0.4908  1\n  Fe  Fe2  1  0.4688  0.4147  0.2865  1\n  Fe  Fe3  1  0.4848  0.1975  0.8891  1\n  Fe  Fe4  1  0.5052  0.6103  0.6823  1\n  Fe  Fe5  1  0.5281  0.8005  0.0846  1\n  Fe  Fe6  1  0.9468  0.4055  0.7427  1\n  Fe  Fe7  1  0.0049  0.8033  0.6039  1\n  Fe  Fe8  1  0.0359  0.1806  0.4523  1\n  Fe  Fe9  1  0.9717  0.5938  0.2056  1\n  Fe  Fe10  1  0.0330  0.9955  0.0157  1\n  O  O11  1  0.8331  0.2538  0.7537  1\n  O  O12  1  0.8361  0.8639  0.9243  1\n  O  O13  1  0.8144  0.6674  0.5153  1\n  O  O14  1  0.8395  0.0474  0.3298  1\n  O  O15  1  0.8229  0.4471  0.1064  1\n  O  O16  1  0.6561  0.4688  0.6058  1\n  O  O17  1  0.6745  0.6587  0.0076  1\n  O  O18  1  0.6868  0.8517  0.4123  1\n  O  O19  1  0.3281  0.3392  0.9654  1\n  O  O20  1  0.3267  0.7435  0.7784  1\n  O  O21  1  0.3502  0.1275  0.5736  1\n  O  O22  1  0.3380  0.9317  0.1726  1\n  O  O23  1  0.2963  0.5520  0.3819  1\n  O  O24  1  0.1653  0.1435  0.0863  1\n  O  O25  1  0.1965  0.9414  0.6878  1\n  O  O26  1  0.1460  0.3335  0.4446  1\n  F  F27  1  0.6916  0.0556  0.8360  1\n  F  F28  1  0.6534  0.2531  0.2389  1\n  F  F29  1  0.1659  0.5430  0.8688  1\n  F  F30  1  0.1828  0.7401  0.2665  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFeOFe8O11FeO4F4\n_chemical_formula_sum              \"Mg1 Fe10 O16 F4\"\n_cell_length_a       4.9068\n_cell_length_b       12.9006\n_cell_length_c       5.5890\n_cell_angle_alpha    103.8671\n_cell_angle_beta     88.8334\n_cell_angle_gamma    90.6210\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.9883  0.2975  0.1023  1.0000\n  Fe  Fe1       1.0000  0.5142  0.9879  0.4908  1.0000\n  O   O1        1.0000  0.4688  0.4147  0.2865  1.0000\n  Fe  Fe2       1.0000  0.4848  0.1975  0.8891  1.0000\n  Fe  Fe3       1.0000  0.5052  0.6103  0.6823  1.0000\n  Fe  Fe4       1.0000  0.5281  0.8005  0.0846  1.0000\n  Fe  Fe5       1.0000  0.9468  0.4055  0.7427  1.0000\n  Fe  Fe6       1.0000  0.0049  0.8033  0.6039  1.0000\n  Fe  Fe7       1.0000  0.0359  0.1806  0.4523  1.0000\n  Fe  Fe8       1.0000  0.9717  0.5938  0.2056  1.0000\n  Fe  Fe9       1.0000  0.0330  0.9955  0.0157  1.0000\n  O   O2        1.0000  0.8331  0.2538  0.7537  1.0000\n  O   O3        1.0000  0.8361  0.8639  0.9243  1.0000\n  O   O4        1.0000  0.8144  0.6674  0.5153  1.0000\n  O   O5        1.0000  0.8395  0.0474  0.3298  1.0000\n  O   O6        1.0000  0.8229  0.4471  0.1064  1.0000\n  O   O7        1.0000  0.6561  0.4688  0.6058  1.0000\n  O   O8        1.0000  0.6745  0.6587  0.0076  1.0000\n  O   O9        1.0000  0.6868  0.8517  0.4123  1.0000\n  O   O10       1.0000  0.3281  0.3392  0.9654  1.0000\n  O   O11       1.0000  0.3267  0.7435  0.7784  1.0000\n  O   O12       1.0000  0.3502  0.1275  0.5736  1.0000\n  Fe  Fe10      1.0000  0.3380  0.9317  0.1726  1.0000\n  O   O13       1.0000  0.2963  0.5520  0.3819  1.0000\n  O   O14       1.0000  0.1653  0.1435  0.0863  1.0000\n  O   O15       1.0000  0.1965  0.9414  0.6878  1.0000\n  O   O16       1.0000  0.1460  0.3335  0.4446  1.0000\n  F   F1        1.0000  0.6916  0.0556  0.8360  1.0000\n  F   F2        1.0000  0.6534  0.2531  0.2389  1.0000\n  F   F3        1.0000  0.1659  0.5430  0.8688  1.0000\n  F   F4        1.0000  0.1828  0.7401  0.2665  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6e7afe0d-733e-4231-9bf7-9d6349598273",
    "mp_id": "mp-1234667",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV12(BO5)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.1924\n_cell_length_b   9.7011\n_cell_length_c   12.9388\n_cell_angle_alpha   90.5538\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV12(BO5)4\n_chemical_formula_sum   'Mg1 V12 B4 O20'\n_cell_volume   400.6859\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.4966  0.8616  1\n  V  V1  1  0.5000  0.0060  0.2254  1\n  V  V2  1  0.5000  0.9952  0.7744  1\n  V  V3  1  0.5000  0.4928  0.6959  1\n  V  V4  1  0.5000  0.5074  0.2814  1\n  V  V5  1  0.5000  0.0011  0.4984  1\n  V  V6  1  0.5000  0.4878  0.0311  1\n  V  V7  1  0.0000  0.2462  0.3888  1\n  V  V8  1  0.0000  0.7597  0.6036  1\n  V  V9  1  1.0000  0.2322  0.8908  1\n  V  V10  1  1.0000  0.7515  0.1173  1\n  V  V11  1  1.0000  0.9929  0.0052  1\n  V  V12  1  0.0000  0.5024  0.4909  1\n  B  B13  1  1.0000  0.2717  0.1461  1\n  B  B14  1  0.0000  0.7350  0.8589  1\n  B  B15  1  0.0000  0.2203  0.6383  1\n  B  B16  1  1.0000  0.7792  0.3586  1\n  O  O17  1  1.0000  0.3431  0.0493  1\n  O  O18  1  0.0000  0.6577  0.9524  1\n  O  O19  1  0.0000  0.1533  0.5440  1\n  O  O20  1  0.0000  0.8499  0.4528  1\n  O  O21  1  1.0000  0.1296  0.1448  1\n  O  O22  1  0.0000  0.8736  0.8573  1\n  O  O23  1  0.0000  0.3678  0.6392  1\n  O  O24  1  1.0000  0.6343  0.3557  1\n  O  O25  1  0.5000  0.1196  0.3626  1\n  O  O26  1  0.5000  0.8857  0.6363  1\n  O  O27  1  0.5000  0.3887  0.8584  1\n  O  O28  1  0.5000  0.6208  0.1459  1\n  O  O29  1  1.0000  0.3495  0.2363  1\n  O  O30  1  0.0000  0.6516  0.7658  1\n  O  O31  1  0.0000  0.1498  0.7318  1\n  O  O32  1  1.0000  0.8532  0.2665  1\n  O  O33  1  0.5000  0.3928  0.4205  1\n  O  O34  1  0.5000  0.6092  0.5677  1\n  O  O35  1  0.5000  0.0982  0.9240  1\n  O  O36  1  0.5000  0.8937  0.0814  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgV12B3O7BO13\n_chemical_formula_sum              \"Mg1 V12 B4 O20\"\n_cell_length_a       3.1924\n_cell_length_b       9.7011\n_cell_length_c       12.9388\n_cell_angle_alpha    90.5538\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.4966  0.8616  1.0000\n  V   V1        1.0000  0.5000  0.0060  0.2254  1.0000\n  V   V2        1.0000  0.5000  0.9952  0.7744  1.0000\n  V   V3        1.0000  0.5000  0.4928  0.6959  1.0000\n  V   V4        1.0000  0.5000  0.5074  0.2814  1.0000\n  V   V5        1.0000  0.5000  0.0011  0.4984  1.0000\n  V   V6        1.0000  0.5000  0.4878  0.0311  1.0000\n  V   V7        1.0000  9e-08  0.2462  0.3888  1.0000\n  V   V8        1.0000  0.0000  0.7597  0.6036  1.0000\n  V   V9        1.0000  1.0000  0.2322  0.8908  1.0000\n  V   V10       1.0000  1.0000  0.7515  0.1173  1.0000\n  V   V11       1.0000  1.0000  0.9929  0.0052  1.0000\n  V   V12       1.0000  0.0000  0.5024  0.4909  1.0000\n  B   B1        1.0000  1.0000  0.2717  0.1461  1.0000\n  B   B2        1.0000  0.0000  0.7350  0.8589  1.0000\n  B   B3        1.0000  0.0000  0.2203  0.6383  1.0000\n  O   O1        1.0000  1.0000  0.7792  0.3586  1.0000\n  O   O2        1.0000  1.0000  0.3431  0.0493  1.0000\n  O   O3        1.0000  3e-08  0.6577  0.9524  1.0000\n  O   O4        1.0000  0.0000  0.1533  0.5440  1.0000\n  O   O5        1.0000  0.0000  0.8499  0.4528  1.0000\n  O   O6        1.0000  1.0000  0.1296  0.1448  1.0000\n  O   O7        1.0000  0.0000  0.8736  0.8573  1.0000\n  B   B4        1.0000  0.0000  0.3678  0.6392  1.0000\n  O   O8        1.0000  1.0000  0.6343  0.3557  1.0000\n  O   O9        1.0000  0.5000  0.1196  0.3626  1.0000\n  O   O10       1.0000  0.5000  0.8857  0.6363  1.0000\n  O   O11       1.0000  0.5000  0.3887  0.8584  1.0000\n  O   O12       1.0000  0.5000  0.6208  0.1459  1.0000\n  O   O13       1.0000  1.0000  0.3495  0.2363  1.0000\n  O   O14       1.0000  0.0000  0.6516  0.7658  1.0000\n  O   O15       1.0000  0.0000  0.1498  0.7318  1.0000\n  O   O16       1.0000  1.0000  0.8532  0.2665  1.0000\n  O   O17       1.0000  0.5000  0.3928  0.4205  1.0000\n  O   O18       1.0000  0.5000  0.6092  0.5677  1.0000\n  O   O19       1.0000  0.5000  0.0982  0.9240  1.0000\n  O   O20       1.0000  0.5000  0.8937  0.0814  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e502a6af-e909-4786-808d-cf1fc99856db",
    "mp_id": "mp-1234741",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgAs4(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0806\n_cell_length_b   8.4042\n_cell_length_c   9.0034\n_cell_angle_alpha   96.5679\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgAs4(PO4)4\n_chemical_formula_sum   'Mg1 As4 P4 O16'\n_cell_volume   381.9081\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2500  0.8908  0.0613  1\n  As  As1  1  0.2500  0.6569  0.6874  1\n  As  As2  1  0.7500  0.3245  0.2608  1\n  As  As3  1  0.7500  0.1784  0.7803  1\n  As  As4  1  0.2500  0.6747  0.2569  1\n  P  P5  1  0.2500  0.3049  0.6115  1\n  P  P6  1  0.7500  0.6833  0.4148  1\n  P  P7  1  0.7500  0.8363  0.8628  1\n  P  P8  1  0.2500  0.2019  0.0994  1\n  O  O9  1  0.2500  0.3638  0.4621  1\n  O  O10  1  0.7500  0.6194  0.5655  1\n  O  O11  1  0.7500  0.9148  0.0218  1\n  O  O12  1  0.2500  0.1054  0.9431  1\n  O  O13  1  0.2500  0.4527  0.7438  1\n  O  O14  1  0.7500  0.5439  0.2762  1\n  O  O15  1  0.7500  0.9555  0.7390  1\n  O  O16  1  0.2500  0.0865  0.2169  1\n  O  O17  1  0.0036  0.3194  0.1126  1\n  O  O18  1  0.4930  0.7310  0.8435  1\n  O  O19  1  0.9937  0.7876  0.3859  1\n  O  O20  1  0.4962  0.1983  0.6382  1\n  O  O21  1  0.0070  0.7310  0.8435  1\n  O  O22  1  0.4964  0.3194  0.1126  1\n  O  O23  1  0.0038  0.1983  0.6382  1\n  O  O24  1  0.5063  0.7876  0.3859  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgAs3OP4O7AsO8\n_chemical_formula_sum              \"Mg1 As4 O16 P4\"\n_cell_length_a       5.0806\n_cell_length_b       8.4042\n_cell_length_c       9.0034\n_cell_angle_alpha    96.5679\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2500  0.8908  0.0613  1.0000\n  As  As1       1.0000  0.2500  0.6569  0.6874  1.0000\n  As  As2       1.0000  0.7500  0.3245  0.2608  1.0000\n  As  As3       1.0000  0.7500  0.1784  0.7803  1.0000\n  O   O1        1.0000  0.2500  0.6747  0.2569  1.0000\n  P   P1        1.0000  0.2500  0.3049  0.6115  1.0000\n  P   P2        1.0000  0.7500  0.6833  0.4148  1.0000\n  P   P3        1.0000  0.7500  0.8363  0.8628  1.0000\n  P   P4        1.0000  0.2500  0.2019  0.0994  1.0000\n  O   O2        1.0000  0.2500  0.3638  0.4621  1.0000\n  O   O3        1.0000  0.7500  0.6194  0.5655  1.0000\n  O   O4        1.0000  0.7500  0.9148  0.0218  1.0000\n  O   O5        1.0000  0.2500  0.1054  0.9431  1.0000\n  O   O6        1.0000  0.2500  0.4527  0.7438  1.0000\n  O   O7        1.0000  0.7500  0.5439  0.2762  1.0000\n  O   O8        1.0000  0.7500  0.9555  0.7390  1.0000\n  As  As4       1.0000  0.2500  0.0865  0.2169  1.0000\n  O   O9        1.0000  0.0036  0.3194  0.1126  1.0000\n  O   O10       1.0000  0.4930  0.7310  0.8435  1.0000\n  O   O11       1.0000  0.9937  0.7876  0.3859  1.0000\n  O   O12       1.0000  0.4962  0.1983  0.6382  1.0000\n  O   O13       1.0000  0.0070  0.7310  0.8435  1.0000\n  O   O14       1.0000  0.4964  0.3194  0.1126  1.0000\n  O   O15       1.0000  0.0038  0.1983  0.6382  1.0000\n  O   O16       1.0000  0.5063  0.7876  0.3859  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ef42a29b-5928-49d0-9985-033a4cd2f39b",
    "mp_id": "mp-1235023",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiZn2(FeO2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1558\n_cell_length_b   6.1558\n_cell_length_c   5.9170\n_cell_angle_alpha   61.2751\n_cell_angle_beta   61.2751\n_cell_angle_gamma   57.2667\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiZn2(FeO2)4\n_chemical_formula_sum   'Li1 Zn2 Fe4 O8'\n_cell_volume   157.8201\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0246  0.0246  0.4754  1\n  Zn  Zn1  1  0.0962  0.5617  0.6710  1\n  Zn  Zn2  1  0.5617  0.0962  0.6710  1\n  Fe  Fe3  1  0.9828  0.9828  0.0172  1\n  Fe  Fe4  1  0.2945  0.2945  0.2055  1\n  Fe  Fe5  1  0.6228  0.6228  0.1484  1\n  Fe  Fe6  1  0.6228  0.6228  0.6061  1\n  O  O7  1  0.3984  0.3984  0.3758  1\n  O  O8  1  0.3984  0.3984  0.8274  1\n  O  O9  1  0.4011  0.9075  0.3457  1\n  O  O10  1  0.9075  0.4011  0.3457  1\n  O  O11  1  0.3723  0.8516  0.8881  1\n  O  O12  1  0.8516  0.3723  0.8881  1\n  O  O13  1  0.8681  0.8681  0.4046  1\n  O  O14  1  0.8681  0.8681  0.8593  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiZn2Fe2OFeO6FeO\n_chemical_formula_sum              \"Li1 Zn2 Fe4 O8\"\n_cell_length_a       6.1558\n_cell_length_b       6.1558\n_cell_length_c       5.9170\n_cell_angle_alpha    61.2751\n_cell_angle_beta     61.2751\n_cell_angle_gamma    57.2667\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0246  0.0246  0.4754  1.0000\n  Zn  Zn1       1.0000  0.0962  0.5617  0.6710  1.0000\n  Zn  Zn2       1.0000  0.5617  0.0962  0.6710  1.0000\n  Fe  Fe1       1.0000  0.9828  0.9828  0.0172  1.0000\n  Fe  Fe2       1.0000  0.2945  0.2945  0.2055  1.0000\n  O   O1        1.0000  0.6228  0.6228  0.1484  1.0000\n  Fe  Fe3       1.0000  0.6228  0.6228  0.6061  1.0000\n  O   O2        1.0000  0.3984  0.3984  0.3758  1.0000\n  O   O3        1.0000  0.3984  0.3984  0.8274  1.0000\n  O   O4        1.0000  0.4011  0.9075  0.3457  1.0000\n  O   O5        1.0000  0.9075  0.4011  0.3457  1.0000\n  O   O6        1.0000  0.3723  0.8516  0.8881  1.0000\n  O   O7        1.0000  0.8516  0.3723  0.8881  1.0000\n  Fe  Fe4       1.0000  0.8681  0.8681  0.4046  1.0000\n  O   O8        1.0000  0.8681  0.8681  0.8593  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eefc9f7b-7a66-406a-8298-17169443af9f",
    "mp_id": "mp-1235295",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiVFe(P2O7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9507\n_cell_length_b   8.0409\n_cell_length_c   7.0468\n_cell_angle_alpha   90.0693\n_cell_angle_beta   106.1785\n_cell_angle_gamma   88.8232\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiVFe(P2O7)2\n_chemical_formula_sum   'Li1 V1 Fe1 P4 O14'\n_cell_volume   269.3528\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2764  0.1587  0.0685  1\n  V  V1  1  0.2130  0.5115  0.7239  1\n  Fe  Fe2  1  0.8019  0.9978  0.2804  1\n  P  P3  1  0.3836  0.1938  0.5008  1\n  P  P4  1  0.2475  0.7703  0.1070  1\n  P  P5  1  0.7736  0.2752  0.8861  1\n  P  P6  1  0.6076  0.6917  0.4949  1\n  O  O7  1  0.0571  0.3201  0.8490  1\n  O  O8  1  0.1738  0.6607  0.9213  1\n  O  O9  1  0.1520  0.0683  0.4722  1\n  O  O10  1  0.2692  0.3716  0.5195  1\n  O  O11  1  0.3916  0.6868  0.6142  1\n  O  O12  1  0.5846  0.4250  0.8952  1\n  O  O13  1  0.6072  0.1538  0.7116  1\n  O  O14  1  0.4438  0.6450  0.2691  1\n  O  O15  1  0.4188  0.9230  0.0858  1\n  O  O16  1  0.5381  0.1876  0.3404  1\n  O  O17  1  0.7216  0.8651  0.4917  1\n  O  O18  1  0.8344  0.5549  0.5584  1\n  O  O19  1  0.8534  0.1647  0.0706  1\n  O  O20  1  0.9841  0.8158  0.1672  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiVFeOP3O7PO6\n_chemical_formula_sum              \"Li1 V1 Fe1 O14 P4\"\n_cell_length_a       4.9507\n_cell_length_b       8.0409\n_cell_length_c       7.0468\n_cell_angle_alpha    90.0693\n_cell_angle_beta     106.1785\n_cell_angle_gamma    88.8232\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2764  0.1587  0.0685  1.0000\n  V   V1        1.0000  0.2130  0.5115  0.7239  1.0000\n  Fe  Fe1       1.0000  0.8019  0.9978  0.2804  1.0000\n  O   O1        1.0000  0.3836  0.1938  0.5008  1.0000\n  P   P1        1.0000  0.2475  0.7703  0.1070  1.0000\n  P   P2        1.0000  0.7736  0.2752  0.8861  1.0000\n  P   P3        1.0000  0.6075  0.6917  0.4949  1.0000\n  O   O2        1.0000  0.0571  0.3201  0.8490  1.0000\n  O   O3        1.0000  0.1738  0.6607  0.9213  1.0000\n  O   O4        1.0000  0.1520  0.0683  0.4722  1.0000\n  O   O5        1.0000  0.2692  0.3716  0.5195  1.0000\n  O   O6        1.0000  0.3916  0.6868  0.6142  1.0000\n  O   O7        1.0000  0.5846  0.4250  0.8952  1.0000\n  O   O8        1.0000  0.6072  0.1538  0.7116  1.0000\n  P   P4        1.0000  0.4438  0.6450  0.2691  1.0000\n  O   O9        1.0000  0.4188  0.9230  0.0858  1.0000\n  O   O10       1.0000  0.5381  0.1876  0.3404  1.0000\n  O   O11       1.0000  0.7216  0.8651  0.4917  1.0000\n  O   O12       1.0000  0.8344  0.5549  0.5584  1.0000\n  O   O13       1.0000  0.8534  0.1647  0.0706  1.0000\n  O   O14       1.0000  0.9841  0.8158  0.1672  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "24530c18-a064-4886-b85f-4f1c694d8613",
    "mp_id": "mp-1235548",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2LiNb2(TeO6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4099\n_cell_length_b   7.4103\n_cell_length_c   7.5061\n_cell_angle_alpha   90.0000\n_cell_angle_beta   60.4307\n_cell_angle_gamma   120.0017\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2LiNb2(TeO6)2\n_chemical_formula_sum   'Rb2 Li1 Nb2 Te2 O12'\n_cell_volume   293.3140\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.6687  0.3344  0.4997  1\n  Rb  Rb1  1  0.3313  0.6656  0.5003  1\n  Li  Li2  1  0.0000  0.5000  0.0000  1\n  Nb  Nb3  1  0.5000  0.5000  0.0000  1\n  Nb  Nb4  1  0.5000  0.0000  0.0000  1\n  Te  Te5  1  0.0000  0.0000  0.5000  1\n  Te  Te6  1  0.0000  0.0000  0.0000  1\n  O  O7  1  0.8614  0.9307  0.3240  1\n  O  O8  1  0.6379  0.3189  0.9283  1\n  O  O9  1  0.2538  0.9280  0.9208  1\n  O  O10  1  0.2457  0.3090  0.3164  1\n  O  O11  1  0.2538  0.3258  0.9208  1\n  O  O12  1  0.2457  0.9367  0.3164  1\n  O  O13  1  0.1386  0.0693  0.6760  1\n  O  O14  1  0.3621  0.6811  0.0717  1\n  O  O15  1  0.7462  0.0720  0.0792  1\n  O  O16  1  0.7543  0.6910  0.6836  1\n  O  O17  1  0.7462  0.6742  0.0792  1\n  O  O18  1  0.7543  0.0633  0.6836  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2TeNb2LiTeO12\n_chemical_formula_sum              \"Rb2 Te2 Nb2 Li1 O12\"\n_cell_length_a       7.4099\n_cell_length_b       7.4103\n_cell_length_c       7.5061\n_cell_angle_alpha    90.0000\n_cell_angle_beta     60.4307\n_cell_angle_gamma    120.0017\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.6687  0.3344  0.4997  1.0000\n  Rb  Rb2       1.0000  0.3313  0.6656  0.5003  1.0000\n  Te  Te1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Nb  Nb1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Nb  Nb2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Li  Li1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Te  Te2       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.8614  0.9307  0.3240  1.0000\n  O   O2        1.0000  0.6379  0.3189  0.9283  1.0000\n  O   O3        1.0000  0.2538  0.9280  0.9208  1.0000\n  O   O4        1.0000  0.2457  0.3090  0.3164  1.0000\n  O   O5        1.0000  0.2538  0.3258  0.9208  1.0000\n  O   O6        1.0000  0.2457  0.9367  0.3164  1.0000\n  O   O7        1.0000  0.1386  0.0693  0.6760  1.0000\n  O   O8        1.0000  0.3621  0.6811  0.0717  1.0000\n  O   O9        1.0000  0.7462  0.0720  0.0792  1.0000\n  O   O10       1.0000  0.7543  0.6910  0.6836  1.0000\n  O   O11       1.0000  0.7462  0.6742  0.0792  1.0000\n  O   O12       1.0000  0.7543  0.0633  0.6836  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fe237f3a-912b-4bb1-8d90-08300d1e49db",
    "mp_id": "mp-1235562",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2LiH2(SeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4603\n_cell_length_b   6.2041\n_cell_length_c   7.4607\n_cell_angle_alpha   107.5473\n_cell_angle_beta   108.6435\n_cell_angle_gamma   85.3206\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2LiH2(SeO3)2\n_chemical_formula_sum   'K2 Li1 H2 Se2 O6'\n_cell_volume   228.3039\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2744  0.6591  0.1734  1\n  K  K1  1  0.6777  0.3174  0.8938  1\n  Li  Li2  1  0.6827  0.0219  0.3111  1\n  H  H3  1  0.2217  0.0988  0.0041  1\n  H  H4  1  0.7550  0.7907  0.0170  1\n  Se  Se5  1  0.1701  0.2737  0.4193  1\n  Se  Se6  1  0.0284  0.8619  0.6713  1\n  O  O7  1  0.1781  0.1290  0.8720  1\n  O  O8  1  0.7298  0.7472  0.1253  1\n  O  O9  1  0.8529  0.2877  0.2933  1\n  O  O10  1  0.9873  0.7000  0.8037  1\n  O  O11  1  0.3180  0.1235  0.2484  1\n  O  O12  1  0.7364  0.9683  0.5745  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2LiH2OSeO2SeO3\n_chemical_formula_sum              \"K2 Li1 H2 O6 Se2\"\n_cell_length_a       5.4603\n_cell_length_b       6.2041\n_cell_length_c       7.4607\n_cell_angle_alpha    107.5473\n_cell_angle_beta     108.6435\n_cell_angle_gamma    85.3206\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2744  0.6591  0.1734  1.0000\n  K   K2        1.0000  0.6777  0.3174  0.8938  1.0000\n  Li  Li1       1.0000  0.6827  0.0219  0.3111  1.0000\n  H   H1        1.0000  0.2217  0.0988  0.0041  1.0000\n  H   H2        1.0000  0.7550  0.7907  0.0170  1.0000\n  O   O1        1.0000  0.1701  0.2737  0.4193  1.0000\n  Se  Se1       1.0000  0.0284  0.8619  0.6713  1.0000\n  O   O2        1.0000  0.1781  0.1290  0.8720  1.0000\n  O   O3        1.0000  0.7298  0.7472  0.1253  1.0000\n  Se  Se2       1.0000  0.8529  0.2877  0.2933  1.0000\n  O   O4        1.0000  0.9873  0.7000  0.8037  1.0000\n  O   O5        1.0000  0.3180  0.1235  0.2484  1.0000\n  O   O6        1.0000  0.7364  0.9683  0.5745  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "981b66de-d132-440b-b762-4a7d6749d898",
    "mp_id": "mp-1235571",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li(SiO2)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9669\n_cell_length_b   6.9669\n_cell_length_c   6.4790\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li(SiO2)5\n_chemical_formula_sum   'Li1 Si5 O10'\n_cell_volume   314.4769\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.5000  1\n  Si  Si1  1  0.2693  0.0000  0.1192  1\n  Si  Si2  1  0.0000  0.7307  0.8808  1\n  Si  Si3  1  0.0000  0.2693  0.8808  1\n  Si  Si4  1  0.7307  0.0000  0.1192  1\n  Si  Si5  1  0.0000  0.0000  0.5000  1\n  O  O6  1  0.1926  0.0000  0.3570  1\n  O  O7  1  0.0000  0.8074  0.6430  1\n  O  O8  1  0.0000  0.1926  0.6430  1\n  O  O9  1  0.8074  0.0000  0.3570  1\n  O  O10  1  0.1922  0.1922  0.0000  1\n  O  O11  1  0.1922  0.8078  0.0000  1\n  O  O12  1  0.8078  0.1922  0.0000  1\n  O  O13  1  0.8078  0.8078  0.0000  1\n  O  O14  1  0.5000  0.0000  0.1199  1\n  O  O15  1  0.0000  0.5000  0.8801  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiSi2OSi2O2SiO7\n_chemical_formula_sum              \"Li1 Si5 O10\"\n_cell_length_a       6.9669\n_cell_length_b       6.9669\n_cell_length_c       6.4790\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Si  Si1       1.0000  0.2693  0.0000  0.1192  1.0000\n  Si  Si2       1.0000  0.0000  0.7307  0.8808  1.0000\n  O   O1        1.0000  0.0000  0.2693  0.8808  1.0000\n  Si  Si3       1.0000  0.7307  0.0000  0.1192  1.0000\n  Si  Si4       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.1926  0.0000  0.3570  1.0000\n  O   O3        1.0000  0.0000  0.8074  0.6430  1.0000\n  Si  Si5       1.0000  0.0000  0.1926  0.6430  1.0000\n  O   O4        1.0000  0.8074  0.0000  0.3570  1.0000\n  O   O5        1.0000  0.1922  0.1922  0.0000  1.0000\n  O   O6        1.0000  0.1922  0.8078  0.0000  1.0000\n  O   O7        1.0000  0.8078  0.1922  0.0000  1.0000\n  O   O8        1.0000  0.8078  0.8078  0.0000  1.0000\n  O   O9        1.0000  0.5000  0.0000  0.1199  1.0000\n  O   O10       1.0000  0.0000  0.5000  0.8801  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5be0676f-4df9-43c7-abf1-5855e8511892",
    "mp_id": "mp-1235672",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaLiV2Ni3(HO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0282\n_cell_length_b   5.9982\n_cell_length_c   7.8994\n_cell_angle_alpha   65.8968\n_cell_angle_beta   68.1177\n_cell_angle_gamma   60.4988\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaLiV2Ni3(HO5)2\n_chemical_formula_sum   'Ba1 Li1 V2 Ni3 H2 O10'\n_cell_volume   221.5656\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0965  0.4698  0.4923  1\n  Li  Li1  1  0.5238  0.7940  0.6416  1\n  V  V2  1  0.5873  0.1066  0.7451  1\n  V  V3  1  0.4298  0.9102  0.2445  1\n  Ni  Ni4  1  0.0075  0.0207  0.9913  1\n  Ni  Ni5  1  0.0026  0.5054  0.0042  1\n  Ni  Ni6  1  0.5185  0.5008  0.9939  1\n  H  H7  1  0.1957  0.7651  0.7294  1\n  H  H8  1  0.7359  0.2235  0.2823  1\n  O  O9  1  0.2292  0.2460  0.8326  1\n  O  O10  1  0.7404  0.2610  0.7993  1\n  O  O11  1  0.7723  0.7797  0.1783  1\n  O  O12  1  0.2981  0.7787  0.1616  1\n  O  O13  1  0.7298  0.7340  0.8226  1\n  O  O14  1  0.2967  0.2626  0.1736  1\n  O  O15  1  0.3309  0.8041  0.4892  1\n  O  O16  1  0.5903  0.1337  0.5103  1\n  O  O17  1  0.2114  0.7337  0.8585  1\n  O  O18  1  0.7971  0.2829  0.1413  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOV2Ni3H2O9Li\n_chemical_formula_sum              \"Ba1 O10 V2 Ni3 H2 Li1\"\n_cell_length_a       6.0282\n_cell_length_b       5.9982\n_cell_length_c       7.8994\n_cell_angle_alpha    65.8968\n_cell_angle_beta     68.1177\n_cell_angle_gamma    60.4988\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0965  0.4698  0.4923  1.0000\n  O   O1        1.0000  0.5238  0.7940  0.6416  1.0000\n  V   V1        1.0000  0.5873  0.1066  0.7451  1.0000\n  V   V2        1.0000  0.4298  0.9102  0.2445  1.0000\n  Ni  Ni1       1.0000  0.0075  0.0207  0.9913  1.0000\n  Ni  Ni2       1.0000  0.0026  0.5054  0.0042  1.0000\n  Ni  Ni3       1.0000  0.5185  0.5008  0.9939  1.0000\n  H   H1        1.0000  0.1957  0.7651  0.7294  1.0000\n  H   H2        1.0000  0.7359  0.2235  0.2823  1.0000\n  O   O2        1.0000  0.2292  0.2460  0.8326  1.0000\n  O   O3        1.0000  0.7404  0.2610  0.7993  1.0000\n  O   O4        1.0000  0.7723  0.7797  0.1783  1.0000\n  O   O5        1.0000  0.2981  0.7787  0.1616  1.0000\n  O   O6        1.0000  0.7298  0.7340  0.8225  1.0000\n  O   O7        1.0000  0.2967  0.2626  0.1736  1.0000\n  O   O8        1.0000  0.3309  0.8041  0.4892  1.0000\n  O   O9        1.0000  0.5903  0.1337  0.5103  1.0000\n  O   O10       1.0000  0.2114  0.7337  0.8585  1.0000\n  Li  Li1       1.0000  0.7971  0.2829  0.1413  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3147e9ed-6318-4254-9642-0b4bfdd2e0f0",
    "mp_id": "mp-1235780",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiLa4Ni3WO12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4722\n_cell_length_b   8.6972\n_cell_length_c   5.5679\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.1679\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiLa4Ni3WO12\n_chemical_formula_sum   'Li1 La4 Ni3 W1 O12'\n_cell_volume   264.9914\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.0000  1\n  La  La1  1  0.5000  0.2172  0.0000  1\n  La  La2  1  0.0000  0.7044  0.5000  1\n  La  La3  1  0.5000  0.7828  0.0000  1\n  La  La4  1  0.0000  0.2957  0.5000  1\n  Ni  Ni5  1  0.0000  0.0000  0.0000  1\n  Ni  Ni6  1  0.5000  0.5000  0.5000  1\n  Ni  Ni7  1  0.0000  0.5000  0.0000  1\n  W  W8  1  0.5000  0.0000  0.5000  1\n  O  O9  1  0.0000  0.2407  0.0000  1\n  O  O10  1  0.5000  0.7630  0.5000  1\n  O  O11  1  0.2800  0.5000  0.2235  1\n  O  O12  1  0.7995  0.0000  0.6794  1\n  O  O13  1  0.2065  0.5000  0.7044  1\n  O  O14  1  0.6756  0.0000  0.1783  1\n  O  O15  1  0.0000  0.7593  0.0000  1\n  O  O16  1  0.5000  0.2370  0.5000  1\n  O  O17  1  0.7200  0.5000  0.7765  1\n  O  O18  1  0.2005  0.0000  0.3206  1\n  O  O19  1  0.7935  0.5000  0.2956  1\n  O  O20  1  0.3244  0.0000  0.8217  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiLa3Ni3LaWO12\n_chemical_formula_sum              \"Li1 La4 Ni3 W1 O12\"\n_cell_length_a       5.4722\n_cell_length_b       8.6972\n_cell_length_c       5.5679\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.1679\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.5000  0.0000  1.0000\n  La  La1       1.0000  0.5000  0.2172  0.0000  1.0000\n  La  La2       1.0000  0.0000  0.7044  0.5000  1.0000\n  La  La3       1.0000  0.5000  0.7828  0.0000  1.0000\n  Ni  Ni1       1.0000  0.0000  0.2957  0.5000  1.0000\n  Ni  Ni2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ni  Ni3       1.0000  0.5000  0.5000  0.5000  1.0000\n  La  La4       1.0000  0.0000  0.5000  0.0000  1.0000\n  W   W1        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.2407  0.0000  1.0000\n  O   O2        1.0000  0.5000  0.7630  0.5000  1.0000\n  O   O3        1.0000  0.2800  0.5000  0.2235  1.0000\n  O   O4        1.0000  0.7995  0.0000  0.6794  1.0000\n  O   O5        1.0000  0.2065  0.5000  0.7044  1.0000\n  O   O6        1.0000  0.6756  0.0000  0.1783  1.0000\n  O   O7        1.0000  0.0000  0.7593  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.2370  0.5000  1.0000\n  O   O9        1.0000  0.7200  0.5000  0.7765  1.0000\n  O   O10       1.0000  0.2005  0.0000  0.3206  1.0000\n  O   O11       1.0000  0.7935  0.5000  0.2956  1.0000\n  O   O12       1.0000  0.3244  0.0000  0.8217  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9bbcd24f-77f7-46e0-8c70-d5e6bec17856",
    "mp_id": "mp-1236433",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2LiTa2(NO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8753\n_cell_length_b   5.8873\n_cell_length_c   5.8868\n_cell_angle_alpha   88.1895\n_cell_angle_beta   121.1163\n_cell_angle_gamma   121.1188\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2LiTa2(NO2)2\n_chemical_formula_sum   'Sr2 Li1 Ta2 N2 O4'\n_cell_volume   141.3251\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5000  0.2001  0.7259  1\n  Sr  Sr1  1  0.5000  0.7742  0.3000  1\n  Li  Li2  1  0.5000  0.5600  0.9400  1\n  Ta  Ta3  1  0.0135  0.0117  0.0024  1\n  Ta  Ta4  1  0.9865  0.4982  0.4889  1\n  N  N5  1  0.0001  0.2560  0.2437  1\n  N  N6  1  0.9999  0.7559  0.7437  1\n  O  O7  1  0.0647  0.2866  0.7778  1\n  O  O8  1  0.5000  0.7821  0.7179  1\n  O  O9  1  0.9353  0.7220  0.2132  1\n  O  O10  1  0.5000  0.2210  0.2788  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2LiNTa2NO4\n_chemical_formula_sum              \"Sr2 Li1 N2 Ta2 O4\"\n_cell_length_a       5.8753\n_cell_length_b       5.8873\n_cell_length_c       5.8868\n_cell_angle_alpha    88.1895\n_cell_angle_beta     121.1163\n_cell_angle_gamma    121.1188\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5000  0.2001  0.7259  1.0000\n  Sr  Sr2       1.0000  0.5000  0.7742  0.3000  1.0000\n  Li  Li1       1.0000  0.5000  0.5600  0.9400  1.0000\n  N   N1        1.0000  0.0135  0.0117  0.0024  1.0000\n  Ta  Ta1       1.0000  0.9865  0.4982  0.4889  1.0000\n  Ta  Ta2       1.0000  0.0001  0.2560  0.2437  1.0000\n  N   N2        1.0000  0.9999  0.7559  0.7437  1.0000\n  O   O1        1.0000  0.0647  0.2866  0.7778  1.0000\n  O   O2        1.0000  0.5000  0.7821  0.7179  1.0000\n  O   O3        1.0000  0.9353  0.7220  0.2132  1.0000\n  O   O4        1.0000  0.5000  0.2210  0.2788  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1b27d47e-2c18-4247-b503-34fd82a5ef4c",
    "mp_id": "mp-1236543",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2LiMn2O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8818\n_cell_length_b   6.1638\n_cell_length_c   5.2234\n_cell_angle_alpha   104.0713\n_cell_angle_beta   90.0004\n_cell_angle_gamma   118.4934\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2LiMn2O6\n_chemical_formula_sum   'Ba2 Li1 Mn2 O6'\n_cell_volume   159.9358\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6644  0.3288  0.2332  1\n  Ba  Ba1  1  0.3737  0.7474  0.6170  1\n  Li  Li2  1  0.2057  0.4116  0.9985  1\n  Mn  Mn3  1  0.0006  0.0012  0.5103  1\n  Mn  Mn4  1  0.9789  0.9578  0.0044  1\n  O  O5  1  0.8371  0.6742  0.7025  1\n  O  O6  1  0.1453  0.8402  0.2205  1\n  O  O7  1  0.6950  0.8402  0.2206  1\n  O  O8  1  0.2793  0.1320  0.8106  1\n  O  O9  1  0.1445  0.2890  0.2965  1\n  O  O10  1  0.8527  0.1320  0.8106  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOLiMn2OBaO4\n_chemical_formula_sum              \"Ba2 O6 Li1 Mn2\"\n_cell_length_a       5.8818\n_cell_length_b       6.1638\n_cell_length_c       5.2234\n_cell_angle_alpha    104.0713\n_cell_angle_beta     90.0004\n_cell_angle_gamma    118.4934\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6644  0.3288  0.2332  1.0000\n  O   O1        1.0000  0.3737  0.7474  0.6170  1.0000\n  Li  Li1       1.0000  0.2057  0.4116  0.9985  1.0000\n  Mn  Mn1       1.0000  0.0006  0.0012  0.5103  1.0000\n  Mn  Mn2       1.0000  0.9789  0.9578  0.0044  1.0000\n  O   O2        1.0000  0.8371  0.6742  0.7025  1.0000\n  Ba  Ba2       1.0000  0.1453  0.8402  0.2205  1.0000\n  O   O3        1.0000  0.6950  0.8402  0.2206  1.0000\n  O   O4        1.0000  0.2793  0.1320  0.8106  1.0000\n  O   O5        1.0000  0.1445  0.2890  0.2965  1.0000\n  O   O6        1.0000  0.8527  0.1320  0.8106  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f642311f-7143-489c-be35-d846b66097cb",
    "mp_id": "mp-1237278",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZnO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2354\n_cell_length_b   3.2303\n_cell_length_c   7.6673\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZnO2\n_chemical_formula_sum   'Zn4 O8'\n_cell_volume   129.6666\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.1623  0.9985  0.5964  1\n  Zn  Zn1  1  0.6623  0.5015  0.4036  1\n  Zn  Zn2  1  0.8377  0.4985  0.9036  1\n  Zn  Zn3  1  0.3377  0.0015  0.0964  1\n  O  O4  1  0.4008  0.4975  0.6205  1\n  O  O5  1  0.9008  0.0025  0.3795  1\n  O  O6  1  0.5992  0.9975  0.8795  1\n  O  O7  1  0.0992  0.5025  0.1205  1\n  O  O8  1  0.0856  0.0002  0.8709  1\n  O  O9  1  0.5856  0.4998  0.1291  1\n  O  O10  1  0.9144  0.5002  0.6291  1\n  O  O11  1  0.4144  0.9998  0.3709  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn2OZnO5ZnO2\n_chemical_formula_sum              \"Zn4 O8\"\n_cell_length_a       5.2354\n_cell_length_b       3.2303\n_cell_length_c       7.6673\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.1623  0.9985  0.5964  1.0000\n  Zn  Zn2       1.0000  0.6623  0.5015  0.4036  1.0000\n  O   O1        1.0000  0.8377  0.4985  0.9036  1.0000\n  Zn  Zn3       1.0000  0.3377  0.0015  0.0964  1.0000\n  O   O2        1.0000  0.4008  0.4975  0.6205  1.0000\n  O   O3        1.0000  0.9008  0.0025  0.3795  1.0000\n  O   O4        1.0000  0.5992  0.9975  0.8795  1.0000\n  O   O5        1.0000  0.0992  0.5025  0.1205  1.0000\n  O   O6        1.0000  0.0856  0.0002  0.8709  1.0000\n  Zn  Zn4       1.0000  0.5856  0.4998  0.1291  1.0000\n  O   O7        1.0000  0.9144  0.5002  0.6291  1.0000\n  O   O8        1.0000  0.4144  0.9998  0.3709  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c682964c-6b46-4547-88da-10eeb466a67f",
    "mp_id": "mp-1237483",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg4Si3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8997\n_cell_length_b   13.5063\n_cell_length_c   14.9268\n_cell_angle_alpha   144.2399\n_cell_angle_beta   37.1512\n_cell_angle_gamma   134.1182\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg4Si3\n_chemical_formula_sum   'Mg8 Si6'\n_cell_volume   556.5509\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.2595  0.6163  0.2072  1\n  Mg  Mg1  1  0.6420  0.0973  0.9205  1\n  Mg  Mg2  1  0.6420  0.5973  0.4205  1\n  Mg  Mg3  1  0.0366  0.5098  0.6509  1\n  Mg  Mg4  1  0.4191  0.4908  0.8642  1\n  Mg  Mg5  1  0.4191  0.9908  0.3642  1\n  Mg  Mg6  1  0.2595  0.1163  0.7072  1\n  Mg  Mg7  1  0.0366  0.0098  0.1509  1\n  Si  Si8  1  0.3394  0.3036  0.2857  1\n  Si  Si9  1  0.9364  0.3704  0.0650  1\n  Si  Si10  1  0.3394  0.8036  0.7857  1\n  Si  Si11  1  0.7421  0.2367  0.5064  1\n  Si  Si12  1  0.7421  0.7367  0.0064  1\n  Si  Si13  1  0.9364  0.8704  0.5650  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg5SiMg2Si3MgSi2\n_chemical_formula_sum              \"Mg8 Si6\"\n_cell_length_a       7.8997\n_cell_length_b       13.5063\n_cell_length_c       14.9268\n_cell_angle_alpha    144.2399\n_cell_angle_beta     37.1512\n_cell_angle_gamma    134.1182\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.2595  0.6163  0.2072  1.0000\n  Mg  Mg2       1.0000  0.6420  0.0973  0.9205  1.0000\n  Mg  Mg3       1.0000  0.6420  0.5973  0.4205  1.0000\n  Mg  Mg4       1.0000  0.0366  0.5098  0.6509  1.0000\n  Mg  Mg5       1.0000  0.4191  0.4908  0.8642  1.0000\n  Si  Si1       1.0000  0.4191  0.9908  0.3642  1.0000\n  Mg  Mg6       1.0000  0.2595  0.1163  0.7072  1.0000\n  Mg  Mg7       1.0000  0.0366  0.0098  0.1509  1.0000\n  Si  Si2       1.0000  0.3394  0.3036  0.2857  1.0000\n  Si  Si3       1.0000  0.9364  0.3704  0.0650  1.0000\n  Si  Si4       1.0000  0.3394  0.8036  0.7857  1.0000\n  Mg  Mg8       1.0000  0.7421  0.2367  0.5064  1.0000\n  Si  Si5       1.0000  0.7421  0.7367  0.0064  1.0000\n  Si  Si6       1.0000  0.9364  0.8704  0.5650  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "35598012-1597-4ac1-ae9a-8927a52b4a0a",
    "mp_id": "mp-1238409",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 37 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H9C3SN4O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0938\n_cell_length_b   7.3777\n_cell_length_c   7.9530\n_cell_angle_alpha   111.3852\n_cell_angle_beta   90.8921\n_cell_angle_gamma   91.1465\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H9C3SN4O3\n_chemical_formula_sum   'H18 C6 S2 N8 O6'\n_cell_volume   387.3752\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.1545  0.2649  0.5999  1\n  H  H1  1  0.8455  0.7351  0.4001  1\n  H  H2  1  0.1151  0.3478  0.4155  1\n  H  H3  1  0.8849  0.6522  0.5845  1\n  H  H4  1  0.9265  0.4014  0.1323  1\n  H  H5  1  0.0735  0.5986  0.8677  1\n  H  H6  1  0.2642  0.9241  0.0809  1\n  H  H7  1  0.7358  0.0759  0.9191  1\n  H  H8  1  0.6194  0.3020  0.3422  1\n  H  H9  1  0.3806  0.6980  0.6578  1\n  H  H10  1  0.3916  0.6344  0.4221  1\n  H  H11  1  0.6084  0.3656  0.5779  1\n  H  H12  1  0.1365  0.4862  0.1483  1\n  H  H13  1  0.8635  0.5138  0.8517  1\n  H  H14  1  0.3008  0.8042  0.2820  1\n  H  H15  1  0.6992  0.1958  0.7180  1\n  H  H16  1  0.1774  0.1628  0.1363  1\n  H  H17  1  0.8226  0.8372  0.8637  1\n  C  C18  1  0.7089  0.0928  0.4393  1\n  C  C19  1  0.2911  0.9072  0.5607  1\n  C  C20  1  0.5624  0.4487  0.0517  1\n  C  C21  1  0.4376  0.5513  0.9483  1\n  C  C22  1  0.2168  0.0790  0.3479  1\n  C  C23  1  0.7832  0.9210  0.6521  1\n  S  S24  1  0.2458  0.0823  0.7592  1\n  S  S25  1  0.7542  0.9177  0.2408  1\n  N  N26  1  0.6467  0.2679  0.4542  1\n  N  N27  1  0.3533  0.7321  0.5458  1\n  N  N28  1  0.7295  0.0748  0.6064  1\n  N  N29  1  0.2705  0.9252  0.3936  1\n  N  N30  1  0.1587  0.2459  0.4661  1\n  N  N31  1  0.8413  0.7541  0.5339  1\n  N  N32  1  0.2268  0.0541  0.1747  1\n  N  N33  1  0.7732  0.9459  0.8253  1\n  O  O34  1  0.5063  0.4480  0.2007  1\n  O  O35  1  0.4937  0.5520  0.7993  1\n  O  O36  1  0.2853  0.6281  0.0253  1\n  O  O37  1  0.7147  0.3719  0.9747  1\n  O  O38  1  0.0465  0.4214  0.2032  1\n  O  O39  1  0.9535  0.5786  0.7968  1\n",
    "output": "data_image0\n_chemical_formula_structural       H14OH3C6S2N8O3HO2\n_chemical_formula_sum              \"H18 O6 C6 S2 N8\"\n_cell_length_a       7.0938\n_cell_length_b       7.3777\n_cell_length_c       7.9530\n_cell_angle_alpha    111.3852\n_cell_angle_beta     90.8921\n_cell_angle_gamma    91.1465\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.1545  0.2649  0.5999  1.0000\n  H   H2        1.0000  0.8455  0.7351  0.4001  1.0000\n  H   H3        1.0000  0.1151  0.3478  0.4155  1.0000\n  H   H4        1.0000  0.8849  0.6522  0.5845  1.0000\n  H   H5        1.0000  0.9265  0.4014  0.1323  1.0000\n  H   H6        1.0000  0.0735  0.5986  0.8677  1.0000\n  H   H7        1.0000  0.2642  0.9241  0.0809  1.0000\n  H   H8        1.0000  0.7358  0.0759  0.9191  1.0000\n  H   H9        1.0000  0.6194  0.3020  0.3422  1.0000\n  H   H10       1.0000  0.3806  0.6980  0.6578  1.0000\n  H   H11       1.0000  0.3916  0.6344  0.4221  1.0000\n  H   H12       1.0000  0.6084  0.3656  0.5779  1.0000\n  H   H13       1.0000  0.1365  0.4862  0.1483  1.0000\n  H   H14       1.0000  0.8635  0.5138  0.8517  1.0000\n  O   O1        1.0000  0.3008  0.8042  0.2820  1.0000\n  H   H15       1.0000  0.6992  0.1958  0.7180  1.0000\n  H   H16       1.0000  0.1774  0.1628  0.1363  1.0000\n  H   H17       1.0000  0.8226  0.8372  0.8637  1.0000\n  C   C1        1.0000  0.7089  0.0928  0.4393  1.0000\n  C   C2        1.0000  0.2911  0.9072  0.5607  1.0000\n  C   C3        1.0000  0.5624  0.4487  0.0517  1.0000\n  C   C4        1.0000  0.4376  0.5513  0.9483  1.0000\n  C   C5        1.0000  0.2168  0.0790  0.3479  1.0000\n  C   C6        1.0000  0.7832  0.9210  0.6521  1.0000\n  S   S1        1.0000  0.2458  0.0823  0.7592  1.0000\n  S   S2        1.0000  0.7542  0.9177  0.2408  1.0000\n  N   N1        1.0000  0.6467  0.2679  0.4542  1.0000\n  N   N2        1.0000  0.3533  0.7321  0.5458  1.0000\n  N   N3        1.0000  0.7295  0.0748  0.6064  1.0000\n  N   N4        1.0000  0.2705  0.9252  0.3936  1.0000\n  N   N5        1.0000  0.1587  0.2459  0.4661  1.0000\n  N   N6        1.0000  0.8413  0.7541  0.5339  1.0000\n  N   N7        1.0000  0.2268  0.0541  0.1747  1.0000\n  N   N8        1.0000  0.7732  0.9459  0.8253  1.0000\n  O   O2        1.0000  0.5063  0.4480  0.2007  1.0000\n  O   O3        1.0000  0.4937  0.5520  0.7993  1.0000\n  O   O4        1.0000  0.2853  0.6281  0.0253  1.0000\n  H   H18       1.0000  0.7147  0.3719  0.9747  1.0000\n  O   O5        1.0000  0.0465  0.4214  0.2032  1.0000\n  O   O6        1.0000  0.9535  0.5786  0.7968  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8ea95c97-2c20-4601-ad57-af8a934596c1",
    "mp_id": "mp-1239078",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HoBi2C\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.7294\n_cell_length_b   10.7294\n_cell_length_c   7.1455\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HoBi2C\n_chemical_formula_sum   'Ho8 Bi16 C8'\n_cell_volume   822.5951\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.7453  0.2453  0.2500  1\n  Ho  Ho1  1  0.2547  0.7547  0.7500  1\n  Ho  Ho2  1  0.2547  0.7547  0.2500  1\n  Ho  Ho3  1  0.2453  0.2547  0.7500  1\n  Ho  Ho4  1  0.7453  0.2453  0.7500  1\n  Ho  Ho5  1  0.7547  0.7453  0.2500  1\n  Ho  Ho6  1  0.7547  0.7453  0.7500  1\n  Ho  Ho7  1  0.2453  0.2547  0.2500  1\n  Bi  Bi8  1  0.4928  0.1572  0.0000  1\n  Bi  Bi9  1  0.5072  0.8428  0.0000  1\n  Bi  Bi10  1  0.1572  0.5072  0.5000  1\n  Bi  Bi11  1  0.9928  0.3428  0.0000  1\n  Bi  Bi12  1  0.8428  0.4928  0.5000  1\n  Bi  Bi13  1  0.0072  0.6572  0.0000  1\n  Bi  Bi14  1  0.6572  0.9928  0.5000  1\n  Bi  Bi15  1  0.3428  0.0072  0.5000  1\n  Bi  Bi16  1  0.1713  0.0028  0.0000  1\n  Bi  Bi17  1  0.8287  0.9972  0.0000  1\n  Bi  Bi18  1  0.0028  0.8287  0.5000  1\n  Bi  Bi19  1  0.6713  0.4972  0.0000  1\n  Bi  Bi20  1  0.9972  0.1713  0.5000  1\n  Bi  Bi21  1  0.3287  0.5028  0.0000  1\n  Bi  Bi22  1  0.5028  0.6713  0.5000  1\n  Bi  Bi23  1  0.4972  0.3287  0.5000  1\n  C  C24  1  0.4977  0.3651  0.0000  1\n  C  C25  1  0.5023  0.6349  0.0000  1\n  C  C26  1  0.3651  0.5023  0.5000  1\n  C  C27  1  0.9977  0.1349  0.0000  1\n  C  C28  1  0.6349  0.4977  0.5000  1\n  C  C29  1  0.0023  0.8651  0.0000  1\n  C  C30  1  0.8651  0.9977  0.5000  1\n  C  C31  1  0.1349  0.0023  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ho4BiHo3Bi13HoBi2C8\n_chemical_formula_sum              \"Ho8 Bi16 C8\"\n_cell_length_a       10.7294\n_cell_length_b       10.7294\n_cell_length_c       7.1455\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.7453  0.2453  0.2500  1.0000\n  Ho  Ho2       1.0000  0.2547  0.7547  0.7500  1.0000\n  Ho  Ho3       1.0000  0.2547  0.7547  0.2500  1.0000\n  Ho  Ho4       1.0000  0.2453  0.2547  0.7500  1.0000\n  Bi  Bi1       1.0000  0.7453  0.2453  0.7500  1.0000\n  Ho  Ho5       1.0000  0.7547  0.7453  0.2500  1.0000\n  Ho  Ho6       1.0000  0.7547  0.7453  0.7500  1.0000\n  Ho  Ho7       1.0000  0.2453  0.2547  0.2500  1.0000\n  Bi  Bi2       1.0000  0.4928  0.1572  0.0000  1.0000\n  Bi  Bi3       1.0000  0.5072  0.8428  0.0000  1.0000\n  Bi  Bi4       1.0000  0.1572  0.5072  0.5000  1.0000\n  Bi  Bi5       1.0000  0.9928  0.3428  0.0000  1.0000\n  Bi  Bi6       1.0000  0.8428  0.4928  0.5000  1.0000\n  Bi  Bi7       1.0000  0.0072  0.6572  0.0000  1.0000\n  Bi  Bi8       1.0000  0.6572  0.9928  0.5000  1.0000\n  Bi  Bi9       1.0000  0.3428  0.0072  0.5000  1.0000\n  Bi  Bi10      1.0000  0.1713  0.0028  0.0000  1.0000\n  Bi  Bi11      1.0000  0.8287  0.9972  0.0000  1.0000\n  Bi  Bi12      1.0000  0.0028  0.8287  0.5000  1.0000\n  Bi  Bi13      1.0000  0.6713  0.4972  0.0000  1.0000\n  Bi  Bi14      1.0000  0.9972  0.1713  0.5000  1.0000\n  Ho  Ho8       1.0000  0.3287  0.5028  0.0000  1.0000\n  Bi  Bi15      1.0000  0.5028  0.6713  0.5000  1.0000\n  Bi  Bi16      1.0000  0.4972  0.3287  0.5000  1.0000\n  C   C1        1.0000  0.4977  0.3651  0.0000  1.0000\n  C   C2        1.0000  0.5023  0.6349  0.0000  1.0000\n  C   C3        1.0000  0.3651  0.5023  0.5000  1.0000\n  C   C4        1.0000  0.9977  0.1349  0.0000  1.0000\n  C   C5        1.0000  0.6349  0.4977  0.5000  1.0000\n  C   C6        1.0000  0.0023  0.8651  0.0000  1.0000\n  C   C7        1.0000  0.8651  0.9977  0.5000  1.0000\n  C   C8        1.0000  0.1349  0.0023  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9ee3aba6-a2f6-4969-aff7-0c43b5e6a63f",
    "mp_id": "mp-1239118",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsLi2(HO)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2604\n_cell_length_b   6.7658\n_cell_length_c   6.3055\n_cell_angle_alpha   114.0922\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsLi2(HO)3\n_chemical_formula_sum   'Cs2 Li4 H6 O6'\n_cell_volume   243.8154\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.2500  0.2213  0.1899  1\n  Cs  Cs1  1  0.7500  0.7787  0.8101  1\n  Li  Li2  1  0.5483  0.2550  0.6990  1\n  Li  Li3  1  0.0483  0.7450  0.3010  1\n  Li  Li4  1  0.4517  0.7450  0.3010  1\n  Li  Li5  1  0.9517  0.2550  0.6990  1\n  H  H6  1  0.2500  0.0559  0.6384  1\n  H  H7  1  0.7500  0.9441  0.3616  1\n  H  H8  1  0.2500  0.5876  0.9367  1\n  H  H9  1  0.7500  0.4124  0.0633  1\n  H  H10  1  0.2500  0.7282  0.6703  1\n  H  H11  1  0.7500  0.2718  0.3297  1\n  O  O12  1  0.2500  0.7398  0.5215  1\n  O  O13  1  0.7500  0.2602  0.4785  1\n  O  O14  1  0.2500  0.7334  0.0595  1\n  O  O15  1  0.7500  0.2666  0.9405  1\n  O  O16  1  0.2500  0.2144  0.6841  1\n  O  O17  1  0.7500  0.7856  0.3159  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiCsLi2CsLiH6O6\n_chemical_formula_sum              \"Li4 Cs2 H6 O6\"\n_cell_length_a       6.2604\n_cell_length_b       6.7658\n_cell_length_c       6.3055\n_cell_angle_alpha    114.0922\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2500  0.2213  0.1899  1.0000\n  Cs  Cs1       1.0000  0.7500  0.7787  0.8101  1.0000\n  Li  Li2       1.0000  0.5483  0.2550  0.6990  1.0000\n  Li  Li3       1.0000  0.0483  0.7450  0.3010  1.0000\n  Cs  Cs2       1.0000  0.4517  0.7450  0.3010  1.0000\n  Li  Li4       1.0000  0.9517  0.2550  0.6990  1.0000\n  H   H1        1.0000  0.2500  0.0559  0.6384  1.0000\n  H   H2        1.0000  0.7500  0.9441  0.3616  1.0000\n  H   H3        1.0000  0.2500  0.5876  0.9367  1.0000\n  H   H4        1.0000  0.7500  0.4124  0.0633  1.0000\n  H   H5        1.0000  0.2500  0.7282  0.6703  1.0000\n  H   H6        1.0000  0.7500  0.2718  0.3297  1.0000\n  O   O1        1.0000  0.2500  0.7398  0.5215  1.0000\n  O   O2        1.0000  0.7500  0.2602  0.4785  1.0000\n  O   O3        1.0000  0.2500  0.7334  0.0595  1.0000\n  O   O4        1.0000  0.7500  0.2666  0.9405  1.0000\n  O   O5        1.0000  0.2500  0.2144  0.6841  1.0000\n  O   O6        1.0000  0.7500  0.7856  0.3159  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "34fd5b1c-21ed-479d-9ba9-eecdfdc2414b",
    "mp_id": "mp-1239141",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TaCr3(CuS4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.1950\n_cell_length_b   5.7458\n_cell_length_c   8.9297\n_cell_angle_alpha   50.8777\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TaCr3(CuS4)2\n_chemical_formula_sum   'Ta2 Cr6 Cu4 S16'\n_cell_volume   485.4160\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.5000  0.0000  0.0000  1\n  Ta  Ta1  1  0.0000  0.0000  0.5000  1\n  Cr  Cr2  1  0.0000  0.5000  0.0000  1\n  Cr  Cr3  1  0.5000  0.5000  0.5000  1\n  Cr  Cr4  1  0.7519  0.2289  0.7625  1\n  Cr  Cr5  1  0.2481  0.7711  0.2375  1\n  Cr  Cr6  1  0.7481  0.2289  0.2625  1\n  Cr  Cr7  1  0.2519  0.7711  0.7375  1\n  Cu  Cu8  1  0.9150  0.8522  0.2565  1\n  Cu  Cu9  1  0.0850  0.1478  0.7435  1\n  Cu  Cu10  1  0.5850  0.8522  0.7565  1\n  Cu  Cu11  1  0.4150  0.1478  0.2435  1\n  S  S12  1  0.8302  0.2738  0.9999  1\n  S  S13  1  0.1698  0.7262  0.0001  1\n  S  S14  1  0.6709  0.7477  0.0160  1\n  S  S15  1  0.3291  0.2523  0.9840  1\n  S  S16  1  0.3302  0.7262  0.5001  1\n  S  S17  1  0.6698  0.2738  0.4999  1\n  S  S18  1  0.1709  0.2523  0.4840  1\n  S  S19  1  0.8291  0.7477  0.5160  1\n  S  S20  1  0.9136  0.9906  0.7570  1\n  S  S21  1  0.0864  0.0094  0.2430  1\n  S  S22  1  0.5864  0.9906  0.2570  1\n  S  S23  1  0.4136  0.0094  0.7430  1\n  S  S24  1  0.9126  0.4756  0.2483  1\n  S  S25  1  0.0874  0.5244  0.7517  1\n  S  S26  1  0.5874  0.4756  0.7483  1\n  S  S27  1  0.4126  0.5244  0.2517  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta2Cr3SCr2Cu4S7CrS8\n_chemical_formula_sum              \"Ta2 Cr6 S16 Cu4\"\n_cell_length_a       12.1950\n_cell_length_b       5.7458\n_cell_length_c       8.9297\n_cell_angle_alpha    50.8777\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ta  Ta2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cr  Cr1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Cr  Cr2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr3       1.0000  0.7519  0.2289  0.7625  1.0000\n  S   S1        1.0000  0.2481  0.7711  0.2375  1.0000\n  Cr  Cr4       1.0000  0.7481  0.2289  0.2625  1.0000\n  Cr  Cr5       1.0000  0.2519  0.7711  0.7375  1.0000\n  Cu  Cu1       1.0000  0.9150  0.8522  0.2565  1.0000\n  Cu  Cu2       1.0000  0.0850  0.1478  0.7435  1.0000\n  Cu  Cu3       1.0000  0.5850  0.8522  0.7565  1.0000\n  Cu  Cu4       1.0000  0.4150  0.1478  0.2435  1.0000\n  S   S2        1.0000  0.8302  0.2738  0.9999  1.0000\n  S   S3        1.0000  0.1698  0.7262  0.0001  1.0000\n  S   S4        1.0000  0.6709  0.7477  0.0160  1.0000\n  S   S5        1.0000  0.3291  0.2523  0.9840  1.0000\n  S   S6        1.0000  0.3302  0.7262  0.5001  1.0000\n  S   S7        1.0000  0.6698  0.2738  0.4999  1.0000\n  S   S8        1.0000  0.1709  0.2523  0.4840  1.0000\n  Cr  Cr6       1.0000  0.8291  0.7477  0.5160  1.0000\n  S   S9        1.0000  0.9136  0.9906  0.7570  1.0000\n  S   S10       1.0000  0.0864  0.0094  0.2430  1.0000\n  S   S11       1.0000  0.5864  0.9906  0.2570  1.0000\n  S   S12       1.0000  0.4136  0.0094  0.7430  1.0000\n  S   S13       1.0000  0.9126  0.4756  0.2483  1.0000\n  S   S14       1.0000  0.0874  0.5244  0.7517  1.0000\n  S   S15       1.0000  0.5874  0.4756  0.7483  1.0000\n  S   S16       1.0000  0.4126  0.5244  0.2517  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c81a1850-08da-495a-aaa6-21b5f822341a",
    "mp_id": "mp-1239223",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TaCr3(CuS4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4404\n_cell_length_b   5.9109\n_cell_length_c   11.4756\n_cell_angle_alpha   89.7349\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TaCr3(CuS4)2\n_chemical_formula_sum   'Ta1 Cr3 Cu2 S8'\n_cell_volume   233.3635\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.5000  0.5283  0.2537  1\n  Cr  Cr1  1  0.0000  0.0176  0.7603  1\n  Cr  Cr2  1  0.0000  0.9689  0.2459  1\n  Cr  Cr3  1  0.5000  0.4868  0.7396  1\n  Cu  Cu4  1  0.5000  0.5041  0.9939  1\n  Cu  Cu5  1  0.0000  0.0086  0.5062  1\n  S  S6  1  0.5000  0.1744  0.8722  1\n  S  S7  1  0.5000  0.8368  0.1174  1\n  S  S8  1  0.0000  0.6659  0.3874  1\n  S  S9  1  0.0000  0.3320  0.6270  1\n  S  S10  1  0.0000  0.6621  0.8611  1\n  S  S11  1  0.0000  0.3218  0.1338  1\n  S  S12  1  0.5000  0.1501  0.3613  1\n  S  S13  1  0.5000  0.8428  0.6402  1\n",
    "output": "data_image0\n_chemical_formula_structural       SCr3Cu2S3TaS4\n_chemical_formula_sum              \"S8 Cr3 Cu2 Ta1\"\n_cell_length_a       3.4404\n_cell_length_b       5.9109\n_cell_length_c       11.4756\n_cell_angle_alpha    89.7349\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.5000  0.5283  0.2537  1.0000\n  Cr  Cr1       1.0000  0.0000  0.0176  0.7603  1.0000\n  Cr  Cr2       1.0000  0.0000  0.9689  0.2459  1.0000\n  Cr  Cr3       1.0000  0.5000  0.4868  0.7396  1.0000\n  Cu  Cu1       1.0000  0.5000  0.5041  0.9939  1.0000\n  Cu  Cu2       1.0000  0.0000  0.0086  0.5062  1.0000\n  S   S2        1.0000  0.5000  0.1744  0.8722  1.0000\n  S   S3        1.0000  0.5000  0.8368  0.1174  1.0000\n  S   S4        1.0000  0.0000  0.6659  0.3874  1.0000\n  Ta  Ta1       1.0000  0.0000  0.3320  0.6270  1.0000\n  S   S5        1.0000  0.0000  0.6621  0.8611  1.0000\n  S   S6        1.0000  0.0000  0.3218  0.1338  1.0000\n  S   S7        1.0000  0.5000  0.1501  0.3613  1.0000\n  S   S8        1.0000  0.5000  0.8428  0.6402  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "71efc216-dd26-453f-835e-6caedc6dd1dc",
    "mp_id": "mp-1245280",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 60 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZnS\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.9173\n_cell_length_b   13.5205\n_cell_length_c   12.4585\n_cell_angle_alpha   90.7849\n_cell_angle_beta   91.5562\n_cell_angle_gamma   88.8885\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZnS\n_chemical_formula_sum   'Zn50 S50'\n_cell_volume   2342.7832\n_cell_formula_units_Z   50\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.4391  0.9270  0.8954  1\n  Zn  Zn1  1  0.3837  0.2728  0.1907  1\n  Zn  Zn2  1  0.7397  0.2014  0.9349  1\n  Zn  Zn3  1  0.5662  0.2800  0.8805  1\n  Zn  Zn4  1  0.1469  0.1496  0.2029  1\n  Zn  Zn5  1  0.8430  0.2901  0.6516  1\n  Zn  Zn6  1  0.5105  0.9140  0.6344  1\n  Zn  Zn7  1  0.7933  0.1844  0.1504  1\n  Zn  Zn8  1  0.2777  0.1055  0.7041  1\n  Zn  Zn9  1  0.5152  0.7175  0.8708  1\n  Zn  Zn10  1  0.7179  0.4408  0.4941  1\n  Zn  Zn11  1  0.7339  0.9269  0.0905  1\n  Zn  Zn12  1  0.8037  0.6196  0.0890  1\n  Zn  Zn13  1  0.9762  0.0514  0.9888  1\n  Zn  Zn14  1  0.1928  0.6557  0.0276  1\n  Zn  Zn15  1  0.6934  0.4495  0.0517  1\n  Zn  Zn16  1  0.9811  0.1141  0.4616  1\n  Zn  Zn17  1  0.0615  0.7724  0.2662  1\n  Zn  Zn18  1  0.9480  0.0242  0.3037  1\n  Zn  Zn19  1  0.0717  0.9419  0.7202  1\n  Zn  Zn20  1  0.8936  0.2872  0.8527  1\n  Zn  Zn21  1  0.5866  0.2982  0.6784  1\n  Zn  Zn22  1  0.8186  0.4701  0.1994  1\n  Zn  Zn23  1  0.5943  0.1659  0.4206  1\n  Zn  Zn24  1  0.2907  0.0827  0.0223  1\n  Zn  Zn25  1  0.2913  0.7086  0.6751  1\n  Zn  Zn26  1  0.8352  0.8089  0.8401  1\n  Zn  Zn27  1  0.5735  0.7912  0.0296  1\n  Zn  Zn28  1  0.6697  0.0381  0.8970  1\n  Zn  Zn29  1  0.5224  0.1386  0.7458  1\n  Zn  Zn30  1  0.3644  0.8682  0.1681  1\n  Zn  Zn31  1  0.0028  0.3886  0.4418  1\n  Zn  Zn32  1  0.3869  0.7527  0.4119  1\n  Zn  Zn33  1  0.2647  0.3102  0.4528  1\n  Zn  Zn34  1  0.2961  0.0323  0.3600  1\n  Zn  Zn35  1  0.6111  0.7718  0.2788  1\n  Zn  Zn36  1  0.5760  0.3839  0.2642  1\n  Zn  Zn37  1  0.6608  0.7124  0.6639  1\n  Zn  Zn38  1  0.1739  0.2182  0.6033  1\n  Zn  Zn39  1  0.4472  0.5021  0.4671  1\n  Zn  Zn40  1  0.2228  0.4935  0.2764  1\n  Zn  Zn41  1  0.4718  0.5353  0.7431  1\n  Zn  Zn42  1  0.2894  0.3659  0.6443  1\n  Zn  Zn43  1  0.9780  0.5968  0.3537  1\n  Zn  Zn44  1  0.9288  0.1349  0.7365  1\n  Zn  Zn45  1  0.1429  0.7735  0.8900  1\n  Zn  Zn46  1  0.0145  0.6222  0.9917  1\n  Zn  Zn47  1  0.8141  0.5117  0.8038  1\n  Zn  Zn48  1  0.2125  0.4112  0.9947  1\n  Zn  Zn49  1  0.8268  0.8941  0.5344  1\n  S  S50  1  0.6283  0.0089  0.7145  1\n  S  S51  1  0.0490  0.0214  0.1557  1\n  S  S52  1  0.4610  0.1588  0.5525  1\n  S  S53  1  0.9069  0.2104  0.0218  1\n  S  S54  1  0.0085  0.2620  0.5602  1\n  S  S55  1  0.2400  0.2463  0.0858  1\n  S  S56  1  0.3519  0.3975  0.3354  1\n  S  S57  1  0.7124  0.7638  0.1374  1\n  S  S58  1  0.7294  0.3290  0.1931  1\n  S  S59  1  0.7196  0.3798  0.8845  1\n  S  S60  1  0.4556  0.4067  0.6275  1\n  S  S61  1  0.6173  0.6006  0.7857  1\n  S  S62  1  0.5296  0.2211  0.2582  1\n  S  S63  1  0.3254  0.5812  0.8182  1\n  S  S64  1  0.3314  0.6289  0.5120  1\n  S  S65  1  0.7760  0.0370  0.2345  1\n  S  S66  1  0.4200  0.8133  0.7449  1\n  S  S67  1  0.2746  0.5344  0.1107  1\n  S  S68  1  0.1327  0.7824  0.7093  1\n  S  S69  1  0.8110  0.7732  0.6651  1\n  S  S70  1  0.0417  0.4495  0.9887  1\n  S  S71  1  0.6945  0.2701  0.5428  1\n  S  S72  1  0.0665  0.0780  0.8361  1\n  S  S73  1  0.1897  0.1657  0.3863  1\n  S  S74  1  0.4546  0.7414  0.2456  1\n  S  S75  1  0.2069  0.9319  0.9622  1\n  S  S76  1  0.5965  0.5119  0.3900  1\n  S  S77  1  0.9980  0.7560  0.4349  1\n  S  S78  1  0.4658  0.3501  0.0090  1\n  S  S79  1  0.8351  0.4634  0.6314  1\n  S  S80  1  0.9905  0.4193  0.8334  1\n  S  S81  1  0.8600  0.6485  0.9119  1\n  S  S82  1  0.5568  0.7726  0.5315  1\n  S  S83  1  0.8662  0.4720  0.3744  1\n  S  S84  1  0.2166  0.8088  0.2561  1\n  S  S85  1  0.1150  0.5061  0.4079  1\n  S  S86  1  0.5701  0.9715  0.0251  1\n  S  S87  1  0.8343  0.9486  0.9440  1\n  S  S88  1  0.2418  0.4537  0.8039  1\n  S  S89  1  0.6804  0.7869  0.4409  1\n  S  S90  1  0.5306  0.4674  0.0932  1\n  S  S91  1  0.3837  0.0885  0.8531  1\n  S  S92  1  0.2519  0.8710  0.4057  1\n  S  S93  1  0.3643  0.0344  0.1901  1\n  S  S94  1  0.6964  0.0269  0.3737  1\n  S  S95  1  0.3224  0.8311  0.9903  1\n  S  S96  1  0.9413  0.0039  0.6133  1\n  S  S97  1  0.8884  0.8481  0.3665  1\n  S  S98  1  0.3926  0.0230  0.5456  1\n  S  S99  1  0.9710  0.6617  0.1701  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn36SZn13S10ZnS39\n_chemical_formula_sum              \"Zn50 S50\"\n_cell_length_a       13.9173\n_cell_length_b       13.5205\n_cell_length_c       12.4585\n_cell_angle_alpha    90.7849\n_cell_angle_beta     91.5562\n_cell_angle_gamma    88.8885\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.4391  0.9270  0.8954  1.0000\n  Zn  Zn2       1.0000  0.3837  0.2728  0.1907  1.0000\n  Zn  Zn3       1.0000  0.7397  0.2014  0.9349  1.0000\n  Zn  Zn4       1.0000  0.5662  0.2800  0.8805  1.0000\n  Zn  Zn5       1.0000  0.1469  0.1496  0.2029  1.0000\n  Zn  Zn6       1.0000  0.8430  0.2901  0.6516  1.0000\n  Zn  Zn7       1.0000  0.5105  0.9140  0.6344  1.0000\n  Zn  Zn8       1.0000  0.7933  0.1844  0.1504  1.0000\n  Zn  Zn9       1.0000  0.2777  0.1055  0.7041  1.0000\n  Zn  Zn10      1.0000  0.5152  0.7175  0.8708  1.0000\n  Zn  Zn11      1.0000  0.7179  0.4408  0.4941  1.0000\n  Zn  Zn12      1.0000  0.7339  0.9269  0.0905  1.0000\n  Zn  Zn13      1.0000  0.8037  0.6196  0.0890  1.0000\n  Zn  Zn14      1.0000  0.9762  0.0514  0.9888  1.0000\n  Zn  Zn15      1.0000  0.1928  0.6557  0.0276  1.0000\n  Zn  Zn16      1.0000  0.6934  0.4495  0.0517  1.0000\n  Zn  Zn17      1.0000  0.9811  0.1141  0.4616  1.0000\n  Zn  Zn18      1.0000  0.0615  0.7724  0.2662  1.0000\n  Zn  Zn19      1.0000  0.9480  0.0242  0.3037  1.0000\n  Zn  Zn20      1.0000  0.0717  0.9419  0.7202  1.0000\n  Zn  Zn21      1.0000  0.8936  0.2872  0.8527  1.0000\n  Zn  Zn22      1.0000  0.5866  0.2982  0.6784  1.0000\n  Zn  Zn23      1.0000  0.8186  0.4701  0.1994  1.0000\n  Zn  Zn24      1.0000  0.5943  0.1659  0.4206  1.0000\n  Zn  Zn25      1.0000  0.2907  0.0827  0.0223  1.0000\n  Zn  Zn26      1.0000  0.2913  0.7086  0.6751  1.0000\n  Zn  Zn27      1.0000  0.8352  0.8089  0.8401  1.0000\n  Zn  Zn28      1.0000  0.5735  0.7912  0.0296  1.0000\n  Zn  Zn29      1.0000  0.6697  0.0381  0.8970  1.0000\n  Zn  Zn30      1.0000  0.5224  0.1386  0.7458  1.0000\n  Zn  Zn31      1.0000  0.3644  0.8682  0.1681  1.0000\n  Zn  Zn32      1.0000  0.0028  0.3886  0.4418  1.0000\n  Zn  Zn33      1.0000  0.3869  0.7527  0.4119  1.0000\n  Zn  Zn34      1.0000  0.2647  0.3102  0.4528  1.0000\n  Zn  Zn35      1.0000  0.2961  0.0323  0.3600  1.0000\n  Zn  Zn36      1.0000  0.6111  0.7718  0.2788  1.0000\n  S   S1        1.0000  0.5760  0.3839  0.2642  1.0000\n  Zn  Zn37      1.0000  0.6608  0.7124  0.6639  1.0000\n  Zn  Zn38      1.0000  0.1739  0.2182  0.6033  1.0000\n  Zn  Zn39      1.0000  0.4472  0.5021  0.4671  1.0000\n  Zn  Zn40      1.0000  0.2228  0.4935  0.2764  1.0000\n  Zn  Zn41      1.0000  0.4718  0.5353  0.7431  1.0000\n  Zn  Zn42      1.0000  0.2894  0.3659  0.6443  1.0000\n  Zn  Zn43      1.0000  0.9780  0.5968  0.3537  1.0000\n  Zn  Zn44      1.0000  0.9288  0.1349  0.7365  1.0000\n  Zn  Zn45      1.0000  0.1429  0.7735  0.8900  1.0000\n  Zn  Zn46      1.0000  0.0145  0.6222  0.9917  1.0000\n  Zn  Zn47      1.0000  0.8141  0.5117  0.8038  1.0000\n  Zn  Zn48      1.0000  0.2125  0.4112  0.9947  1.0000\n  Zn  Zn49      1.0000  0.8268  0.8941  0.5344  1.0000\n  S   S2        1.0000  0.6283  0.0089  0.7145  1.0000\n  S   S3        1.0000  0.0490  0.0214  0.1557  1.0000\n  S   S4        1.0000  0.4610  0.1588  0.5525  1.0000\n  S   S5        1.0000  0.9069  0.2104  0.0218  1.0000\n  S   S6        1.0000  0.0085  0.2620  0.5602  1.0000\n  S   S7        1.0000  0.2400  0.2463  0.0858  1.0000\n  S   S8        1.0000  0.3519  0.3975  0.3354  1.0000\n  S   S9        1.0000  0.7124  0.7638  0.1374  1.0000\n  S   S10       1.0000  0.7294  0.3290  0.1931  1.0000\n  S   S11       1.0000  0.7196  0.3798  0.8845  1.0000\n  Zn  Zn50      1.0000  0.4556  0.4067  0.6275  1.0000\n  S   S12       1.0000  0.6173  0.6006  0.7857  1.0000\n  S   S13       1.0000  0.5296  0.2211  0.2582  1.0000\n  S   S14       1.0000  0.3254  0.5812  0.8182  1.0000\n  S   S15       1.0000  0.3314  0.6289  0.5120  1.0000\n  S   S16       1.0000  0.7760  0.0370  0.2345  1.0000\n  S   S17       1.0000  0.4200  0.8133  0.7449  1.0000\n  S   S18       1.0000  0.2746  0.5344  0.1107  1.0000\n  S   S19       1.0000  0.1327  0.7824  0.7093  1.0000\n  S   S20       1.0000  0.8110  0.7732  0.6651  1.0000\n  S   S21       1.0000  0.0417  0.4495  0.9887  1.0000\n  S   S22       1.0000  0.6945  0.2701  0.5428  1.0000\n  S   S23       1.0000  0.0665  0.0780  0.8361  1.0000\n  S   S24       1.0000  0.1897  0.1657  0.3863  1.0000\n  S   S25       1.0000  0.4546  0.7414  0.2456  1.0000\n  S   S26       1.0000  0.2069  0.9319  0.9622  1.0000\n  S   S27       1.0000  0.5965  0.5119  0.3900  1.0000\n  S   S28       1.0000  0.9980  0.7560  0.4349  1.0000\n  S   S29       1.0000  0.4658  0.3501  0.0090  1.0000\n  S   S30       1.0000  0.8351  0.4634  0.6314  1.0000\n  S   S31       1.0000  0.9905  0.4193  0.8334  1.0000\n  S   S32       1.0000  0.8600  0.6485  0.9119  1.0000\n  S   S33       1.0000  0.5568  0.7726  0.5315  1.0000\n  S   S34       1.0000  0.8662  0.4720  0.3744  1.0000\n  S   S35       1.0000  0.2166  0.8088  0.2561  1.0000\n  S   S36       1.0000  0.1150  0.5061  0.4079  1.0000\n  S   S37       1.0000  0.5701  0.9715  0.0251  1.0000\n  S   S38       1.0000  0.8343  0.9486  0.9440  1.0000\n  S   S39       1.0000  0.2418  0.4537  0.8039  1.0000\n  S   S40       1.0000  0.6804  0.7869  0.4409  1.0000\n  S   S41       1.0000  0.5306  0.4674  0.0932  1.0000\n  S   S42       1.0000  0.3837  0.0885  0.8531  1.0000\n  S   S43       1.0000  0.2519  0.8710  0.4057  1.0000\n  S   S44       1.0000  0.3643  0.0344  0.1901  1.0000\n  S   S45       1.0000  0.6964  0.0269  0.3737  1.0000\n  S   S46       1.0000  0.3224  0.8311  0.9903  1.0000\n  S   S47       1.0000  0.9413  0.0039  0.6133  1.0000\n  S   S48       1.0000  0.8884  0.8481  0.3665  1.0000\n  S   S49       1.0000  0.3926  0.0230  0.5456  1.0000\n  S   S50       1.0000  0.9710  0.6617  0.1701  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "444bd1b0-13a4-497b-946d-86a102bfe3da",
    "mp_id": "mp-1245339",
    "action_prompt": "Swap the spatial positions of atoms at indices 47 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co5(SiN3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2951\n_cell_length_b   10.2951\n_cell_length_c   5.1539\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co5(SiN3)2\n_chemical_formula_sum   'Co20 Si8 N24'\n_cell_volume   546.2500\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.3140  0.1101  0.7745  1\n  Co  Co1  1  0.1860  0.6101  0.7745  1\n  Co  Co2  1  0.6860  0.8899  0.7745  1\n  Co  Co3  1  0.8140  0.3899  0.7745  1\n  Co  Co4  1  0.8899  0.3140  0.2255  1\n  Co  Co5  1  0.6101  0.8140  0.2255  1\n  Co  Co6  1  0.1101  0.6860  0.2255  1\n  Co  Co7  1  0.3899  0.1860  0.2255  1\n  Co  Co8  1  0.5000  0.0000  -0.0000  1\n  Co  Co9  1  0.0000  0.5000  0.0000  1\n  Co  Co10  1  0.4108  0.4234  0.6963  1\n  Co  Co11  1  0.0892  0.9234  0.6963  1\n  Co  Co12  1  0.5892  0.5766  0.6963  1\n  Co  Co13  1  0.9108  0.0766  0.6963  1\n  Co  Co14  1  0.5766  0.4108  0.3037  1\n  Co  Co15  1  0.9234  0.9108  0.3037  1\n  Co  Co16  1  0.4234  0.5892  0.3037  1\n  Co  Co17  1  0.0766  0.0892  0.3037  1\n  Co  Co18  1  0.5000  0.0000  0.5000  1\n  Co  Co19  1  -0.0000  0.5000  0.5000  1\n  Si  Si20  1  0.6159  0.2345  0.7598  1\n  Si  Si21  1  0.8841  0.7345  0.7598  1\n  Si  Si22  1  0.3841  0.7655  0.7598  1\n  Si  Si23  1  0.1159  0.2655  0.7598  1\n  Si  Si24  1  0.7655  0.6159  0.2402  1\n  Si  Si25  1  0.7345  0.1159  0.2402  1\n  Si  Si26  1  0.2345  0.3841  0.2402  1\n  Si  Si27  1  0.2655  0.8841  0.2402  1\n  N  N28  1  0.4726  0.1774  0.8980  1\n  N  N29  1  0.0274  0.6774  0.8980  1\n  N  N30  1  0.5274  0.8226  0.8980  1\n  N  N31  1  0.9726  0.3226  0.8980  1\n  N  N32  1  0.8226  0.4726  0.1020  1\n  N  N33  1  0.6774  0.9726  0.1020  1\n  N  N34  1  0.1774  0.5274  0.1020  1\n  N  N35  1  0.3226  0.0274  0.1020  1\n  N  N36  1  0.6341  0.3966  0.6596  1\n  N  N37  1  0.8659  0.8966  0.6596  1\n  N  N38  1  0.3659  0.6034  0.6596  1\n  N  N39  1  0.1341  0.1034  0.6596  1\n  N  N40  1  0.6034  0.6341  0.3404  1\n  N  N41  1  0.8966  0.1341  0.3404  1\n  N  N42  1  0.3966  0.3659  0.3404  1\n  N  N43  1  0.1034  0.8659  0.3404  1\n  N  N44  1  0.2294  0.2706  0.0000  1\n  N  N45  1  0.2706  0.7706  0.0000  1\n  N  N46  1  0.7706  0.7294  -0.0000  1\n  N  N47  1  0.7294  0.2294  -0.0000  1\n  N  N48  1  0.6307  0.1307  0.5000  1\n  N  N49  1  0.8693  0.6307  0.5000  1\n  N  N50  1  0.3693  0.8693  0.5000  1\n  N  N51  1  0.1307  0.3693  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co10NCo9Si8N19CoN4\n_chemical_formula_sum              \"Co20 N24 Si8\"\n_cell_length_a       10.2951\n_cell_length_b       10.2951\n_cell_length_c       5.1539\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.3140  0.1101  0.7745  1.0000\n  Co  Co2       1.0000  0.1860  0.6101  0.7745  1.0000\n  Co  Co3       1.0000  0.6860  0.8899  0.7745  1.0000\n  Co  Co4       1.0000  0.8140  0.3899  0.7745  1.0000\n  Co  Co5       1.0000  0.8899  0.3140  0.2255  1.0000\n  Co  Co6       1.0000  0.6101  0.8140  0.2255  1.0000\n  Co  Co7       1.0000  0.1101  0.6860  0.2255  1.0000\n  Co  Co8       1.0000  0.3899  0.1860  0.2255  1.0000\n  Co  Co9       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co10      1.0000  0.0000  0.5000  0.0000  1.0000\n  N   N1        1.0000  0.4108  0.4234  0.6963  1.0000\n  Co  Co11      1.0000  0.0892  0.9234  0.6963  1.0000\n  Co  Co12      1.0000  0.5892  0.5766  0.6963  1.0000\n  Co  Co13      1.0000  0.9108  0.0766  0.6963  1.0000\n  Co  Co14      1.0000  0.5766  0.4108  0.3037  1.0000\n  Co  Co15      1.0000  0.9234  0.9108  0.3037  1.0000\n  Co  Co16      1.0000  0.4234  0.5892  0.3037  1.0000\n  Co  Co17      1.0000  0.0766  0.0892  0.3037  1.0000\n  Co  Co18      1.0000  0.5000  0.0000  0.5000  1.0000\n  Co  Co19      1.0000  0.0000  0.5000  0.5000  1.0000\n  Si  Si1       1.0000  0.6159  0.2345  0.7598  1.0000\n  Si  Si2       1.0000  0.8841  0.7345  0.7598  1.0000\n  Si  Si3       1.0000  0.3841  0.7655  0.7598  1.0000\n  Si  Si4       1.0000  0.1159  0.2655  0.7598  1.0000\n  Si  Si5       1.0000  0.7655  0.6159  0.2402  1.0000\n  Si  Si6       1.0000  0.7345  0.1159  0.2402  1.0000\n  Si  Si7       1.0000  0.2345  0.3841  0.2402  1.0000\n  Si  Si8       1.0000  0.2655  0.8841  0.2402  1.0000\n  N   N2        1.0000  0.4726  0.1774  0.8980  1.0000\n  N   N3        1.0000  0.0274  0.6774  0.8980  1.0000\n  N   N4        1.0000  0.5274  0.8226  0.8980  1.0000\n  N   N5        1.0000  0.9726  0.3226  0.8980  1.0000\n  N   N6        1.0000  0.8226  0.4726  0.1020  1.0000\n  N   N7        1.0000  0.6774  0.9726  0.1020  1.0000\n  N   N8        1.0000  0.1774  0.5274  0.1020  1.0000\n  N   N9        1.0000  0.3226  0.0274  0.1020  1.0000\n  N   N10       1.0000  0.6341  0.3966  0.6596  1.0000\n  N   N11       1.0000  0.8659  0.8966  0.6596  1.0000\n  N   N12       1.0000  0.3659  0.6034  0.6596  1.0000\n  N   N13       1.0000  0.1341  0.1034  0.6596  1.0000\n  N   N14       1.0000  0.6034  0.6341  0.3404  1.0000\n  N   N15       1.0000  0.8966  0.1341  0.3404  1.0000\n  N   N16       1.0000  0.3966  0.3659  0.3404  1.0000\n  N   N17       1.0000  0.1034  0.8659  0.3404  1.0000\n  N   N18       1.0000  0.2294  0.2706  0.0000  1.0000\n  N   N19       1.0000  0.2706  0.7706  0.0000  1.0000\n  N   N20       1.0000  0.7706  0.7294  0.0000  1.0000\n  Co  Co20      1.0000  0.7294  0.2294  0.0000  1.0000\n  N   N21       1.0000  0.6307  0.1307  0.5000  1.0000\n  N   N22       1.0000  0.8693  0.6307  0.5000  1.0000\n  N   N23       1.0000  0.3693  0.8693  0.5000  1.0000\n  N   N24       1.0000  0.1307  0.3693  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1b009fef-a420-4417-9a4e-4f2f4bcd40ce",
    "mp_id": "mp-1245361",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 85 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li7IrN4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7864\n_cell_length_b   9.7864\n_cell_length_c   9.7864\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li7IrN4\n_chemical_formula_sum   'Li56 Ir8 N32'\n_cell_volume   937.2807\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3663  0.6337  0.1337  1\n  Li  Li1  1  0.6337  0.1337  0.3663  1\n  Li  Li2  1  0.1337  0.3663  0.6337  1\n  Li  Li3  1  0.8663  0.8663  0.8663  1\n  Li  Li4  1  0.6337  0.3663  0.8663  1\n  Li  Li5  1  0.3663  0.8663  0.6337  1\n  Li  Li6  1  0.8663  0.6337  0.3663  1\n  Li  Li7  1  0.1337  0.1337  0.1337  1\n  Li  Li8  1  0.3675  0.6312  0.3842  1\n  Li  Li9  1  0.6325  0.1312  0.1158  1\n  Li  Li10  1  0.1325  0.3688  0.8842  1\n  Li  Li11  1  0.8675  0.8688  0.6158  1\n  Li  Li12  1  0.3842  0.3675  0.6312  1\n  Li  Li13  1  0.1158  0.6325  0.1312  1\n  Li  Li14  1  0.8842  0.1325  0.3688  1\n  Li  Li15  1  0.6158  0.8675  0.8688  1\n  Li  Li16  1  0.6312  0.3842  0.3675  1\n  Li  Li17  1  0.1312  0.1158  0.6325  1\n  Li  Li18  1  0.3688  0.8842  0.1325  1\n  Li  Li19  1  0.8688  0.6158  0.8675  1\n  Li  Li20  1  0.6325  0.3688  0.6158  1\n  Li  Li21  1  0.3675  0.8688  0.8842  1\n  Li  Li22  1  0.8675  0.6312  0.1158  1\n  Li  Li23  1  0.1325  0.1312  0.3842  1\n  Li  Li24  1  0.6158  0.6325  0.3688  1\n  Li  Li25  1  0.8842  0.3675  0.8688  1\n  Li  Li26  1  0.1158  0.8675  0.6312  1\n  Li  Li27  1  0.3842  0.1325  0.1312  1\n  Li  Li28  1  0.3688  0.6158  0.6325  1\n  Li  Li29  1  0.8688  0.8842  0.3675  1\n  Li  Li30  1  0.6312  0.1158  0.8675  1\n  Li  Li31  1  0.1312  0.3842  0.1325  1\n  Li  Li32  1  0.3934  0.8663  0.3824  1\n  Li  Li33  1  0.6066  0.3663  0.1176  1\n  Li  Li34  1  0.1066  0.1337  0.8824  1\n  Li  Li35  1  0.8934  0.6337  0.6176  1\n  Li  Li36  1  0.3824  0.3934  0.8663  1\n  Li  Li37  1  0.1176  0.6066  0.3663  1\n  Li  Li38  1  0.8824  0.1066  0.1337  1\n  Li  Li39  1  0.6176  0.8934  0.6337  1\n  Li  Li40  1  0.8663  0.3824  0.3934  1\n  Li  Li41  1  0.3663  0.1176  0.6066  1\n  Li  Li42  1  0.1337  0.8824  0.1066  1\n  Li  Li43  1  0.6337  0.6176  0.8934  1\n  Li  Li44  1  0.6066  0.1337  0.6176  1\n  Li  Li45  1  0.3934  0.6337  0.8824  1\n  Li  Li46  1  0.8934  0.8663  0.1176  1\n  Li  Li47  1  0.1066  0.3663  0.3824  1\n  Li  Li48  1  0.6176  0.6066  0.1337  1\n  Li  Li49  1  0.8824  0.3934  0.6337  1\n  Li  Li50  1  0.1176  0.8934  0.8663  1\n  Li  Li51  1  0.3824  0.1066  0.3663  1\n  Li  Li52  1  0.1337  0.6176  0.6066  1\n  Li  Li53  1  0.6337  0.8824  0.3934  1\n  Li  Li54  1  0.8663  0.1176  0.8934  1\n  Li  Li55  1  0.3663  0.3824  0.1066  1\n  Ir  Ir56  1  0.1270  0.8730  0.3730  1\n  Ir  Ir57  1  0.8730  0.3730  0.1270  1\n  Ir  Ir58  1  0.3730  0.1270  0.8730  1\n  Ir  Ir59  1  0.6270  0.6270  0.6270  1\n  Ir  Ir60  1  0.8730  0.1270  0.6270  1\n  Ir  Ir61  1  0.1270  0.6270  0.8730  1\n  Ir  Ir62  1  0.6270  0.8730  0.1270  1\n  Ir  Ir63  1  0.3730  0.3730  0.3730  1\n  N  N64  1  0.2437  0.7563  0.2563  1\n  N  N65  1  0.7563  0.2563  0.2437  1\n  N  N66  1  0.2563  0.2437  0.7563  1\n  N  N67  1  0.7437  0.7437  0.7437  1\n  N  N68  1  0.7563  0.2437  0.7437  1\n  N  N69  1  0.2437  0.7437  0.7563  1\n  N  N70  1  0.7437  0.7563  0.2437  1\n  N  N71  1  0.2563  0.2563  0.2563  1\n  N  N72  1  0.0156  0.9931  0.2538  1\n  N  N73  1  0.9844  0.4931  0.2462  1\n  N  N74  1  0.4844  0.0069  0.7538  1\n  N  N75  1  0.5156  0.5069  0.7462  1\n  N  N76  1  0.2538  0.0156  0.9931  1\n  N  N77  1  0.2462  0.9844  0.4931  1\n  N  N78  1  0.7538  0.4844  0.0069  1\n  N  N79  1  0.7462  0.5156  0.5069  1\n  N  N80  1  0.9931  0.2538  0.0156  1\n  N  N81  1  0.4931  0.2462  0.9844  1\n  N  N82  1  0.0069  0.7538  0.4844  1\n  N  N83  1  0.5069  0.7462  0.5156  1\n  N  N84  1  0.9844  0.0069  0.7462  1\n  N  N85  1  0.0156  0.5069  0.7538  1\n  N  N86  1  0.5156  0.9931  0.2462  1\n  N  N87  1  0.4844  0.4931  0.2538  1\n  N  N88  1  0.7462  0.9844  0.0069  1\n  N  N89  1  0.7538  0.0156  0.5069  1\n  N  N90  1  0.2462  0.5156  0.9931  1\n  N  N91  1  0.2538  0.4844  0.4931  1\n  N  N92  1  0.0069  0.7462  0.9844  1\n  N  N93  1  0.5069  0.7538  0.0156  1\n  N  N94  1  0.9931  0.2462  0.5156  1\n  N  N95  1  0.4931  0.2538  0.4844  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li38NLi17Ir8N21LiN10\n_chemical_formula_sum              \"Li56 N32 Ir8\"\n_cell_length_a       9.7864\n_cell_length_b       9.7864\n_cell_length_c       9.7864\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3663  0.6337  0.1337  1.0000\n  Li  Li2       1.0000  0.6337  0.1337  0.3663  1.0000\n  Li  Li3       1.0000  0.1337  0.3663  0.6337  1.0000\n  Li  Li4       1.0000  0.8663  0.8663  0.8663  1.0000\n  Li  Li5       1.0000  0.6337  0.3663  0.8663  1.0000\n  Li  Li6       1.0000  0.3663  0.8663  0.6337  1.0000\n  Li  Li7       1.0000  0.8663  0.6337  0.3663  1.0000\n  Li  Li8       1.0000  0.1337  0.1337  0.1337  1.0000\n  Li  Li9       1.0000  0.3675  0.6312  0.3842  1.0000\n  Li  Li10      1.0000  0.6325  0.1312  0.1158  1.0000\n  Li  Li11      1.0000  0.1325  0.3688  0.8842  1.0000\n  Li  Li12      1.0000  0.8675  0.8688  0.6158  1.0000\n  Li  Li13      1.0000  0.3842  0.3675  0.6312  1.0000\n  Li  Li14      1.0000  0.1158  0.6325  0.1312  1.0000\n  Li  Li15      1.0000  0.8842  0.1325  0.3688  1.0000\n  Li  Li16      1.0000  0.6158  0.8675  0.8688  1.0000\n  Li  Li17      1.0000  0.6312  0.3842  0.3675  1.0000\n  Li  Li18      1.0000  0.1312  0.1158  0.6325  1.0000\n  Li  Li19      1.0000  0.3688  0.8842  0.1325  1.0000\n  Li  Li20      1.0000  0.8688  0.6158  0.8675  1.0000\n  Li  Li21      1.0000  0.6325  0.3688  0.6158  1.0000\n  Li  Li22      1.0000  0.3675  0.8688  0.8842  1.0000\n  Li  Li23      1.0000  0.8675  0.6312  0.1158  1.0000\n  Li  Li24      1.0000  0.1325  0.1312  0.3842  1.0000\n  Li  Li25      1.0000  0.6158  0.6325  0.3688  1.0000\n  Li  Li26      1.0000  0.8842  0.3675  0.8688  1.0000\n  Li  Li27      1.0000  0.1158  0.8675  0.6312  1.0000\n  Li  Li28      1.0000  0.3842  0.1325  0.1312  1.0000\n  Li  Li29      1.0000  0.3688  0.6158  0.6325  1.0000\n  Li  Li30      1.0000  0.8688  0.8842  0.3675  1.0000\n  Li  Li31      1.0000  0.6312  0.1158  0.8675  1.0000\n  Li  Li32      1.0000  0.1312  0.3842  0.1325  1.0000\n  Li  Li33      1.0000  0.3934  0.8663  0.3824  1.0000\n  Li  Li34      1.0000  0.6066  0.3663  0.1176  1.0000\n  Li  Li35      1.0000  0.1066  0.1337  0.8824  1.0000\n  Li  Li36      1.0000  0.8934  0.6337  0.6176  1.0000\n  Li  Li37      1.0000  0.3824  0.3934  0.8663  1.0000\n  Li  Li38      1.0000  0.1176  0.6066  0.3663  1.0000\n  N   N1        1.0000  0.8824  0.1066  0.1337  1.0000\n  Li  Li39      1.0000  0.6176  0.8934  0.6337  1.0000\n  Li  Li40      1.0000  0.8663  0.3824  0.3934  1.0000\n  Li  Li41      1.0000  0.3663  0.1176  0.6066  1.0000\n  Li  Li42      1.0000  0.1337  0.8824  0.1066  1.0000\n  Li  Li43      1.0000  0.6337  0.6176  0.8934  1.0000\n  Li  Li44      1.0000  0.6066  0.1337  0.6176  1.0000\n  Li  Li45      1.0000  0.3934  0.6337  0.8824  1.0000\n  Li  Li46      1.0000  0.8934  0.8663  0.1176  1.0000\n  Li  Li47      1.0000  0.1066  0.3663  0.3824  1.0000\n  Li  Li48      1.0000  0.6176  0.6066  0.1337  1.0000\n  Li  Li49      1.0000  0.8824  0.3934  0.6337  1.0000\n  Li  Li50      1.0000  0.1176  0.8934  0.8663  1.0000\n  Li  Li51      1.0000  0.3824  0.1066  0.3663  1.0000\n  Li  Li52      1.0000  0.1337  0.6176  0.6066  1.0000\n  Li  Li53      1.0000  0.6337  0.8824  0.3934  1.0000\n  Li  Li54      1.0000  0.8663  0.1176  0.8934  1.0000\n  Li  Li55      1.0000  0.3663  0.3824  0.1066  1.0000\n  Ir  Ir1       1.0000  0.1270  0.8730  0.3730  1.0000\n  Ir  Ir2       1.0000  0.8730  0.3730  0.1270  1.0000\n  Ir  Ir3       1.0000  0.3730  0.1270  0.8730  1.0000\n  Ir  Ir4       1.0000  0.6270  0.6270  0.6270  1.0000\n  Ir  Ir5       1.0000  0.8730  0.1270  0.6270  1.0000\n  Ir  Ir6       1.0000  0.1270  0.6270  0.8730  1.0000\n  Ir  Ir7       1.0000  0.6270  0.8730  0.1270  1.0000\n  Ir  Ir8       1.0000  0.3730  0.3730  0.3730  1.0000\n  N   N2        1.0000  0.2437  0.7563  0.2563  1.0000\n  N   N3        1.0000  0.7563  0.2563  0.2437  1.0000\n  N   N4        1.0000  0.2563  0.2437  0.7563  1.0000\n  N   N5        1.0000  0.7437  0.7437  0.7437  1.0000\n  N   N6        1.0000  0.7563  0.2437  0.7437  1.0000\n  N   N7        1.0000  0.2437  0.7437  0.7563  1.0000\n  N   N8        1.0000  0.7437  0.7563  0.2437  1.0000\n  N   N9        1.0000  0.2563  0.2563  0.2563  1.0000\n  N   N10       1.0000  0.0156  0.9931  0.2538  1.0000\n  N   N11       1.0000  0.9844  0.4931  0.2462  1.0000\n  N   N12       1.0000  0.4844  0.0069  0.7538  1.0000\n  N   N13       1.0000  0.5156  0.5069  0.7462  1.0000\n  N   N14       1.0000  0.2538  0.0156  0.9931  1.0000\n  N   N15       1.0000  0.2462  0.9844  0.4931  1.0000\n  N   N16       1.0000  0.7538  0.4844  0.0069  1.0000\n  N   N17       1.0000  0.7462  0.5156  0.5069  1.0000\n  N   N18       1.0000  0.9931  0.2538  0.0156  1.0000\n  N   N19       1.0000  0.4931  0.2462  0.9844  1.0000\n  N   N20       1.0000  0.0069  0.7538  0.4844  1.0000\n  N   N21       1.0000  0.5069  0.7462  0.5156  1.0000\n  N   N22       1.0000  0.9844  0.0069  0.7462  1.0000\n  Li  Li56      1.0000  0.0156  0.5069  0.7538  1.0000\n  N   N23       1.0000  0.5156  0.9931  0.2462  1.0000\n  N   N24       1.0000  0.4844  0.4931  0.2538  1.0000\n  N   N25       1.0000  0.7462  0.9844  0.0069  1.0000\n  N   N26       1.0000  0.7538  0.0156  0.5069  1.0000\n  N   N27       1.0000  0.2462  0.5156  0.9931  1.0000\n  N   N28       1.0000  0.2538  0.4844  0.4931  1.0000\n  N   N29       1.0000  0.0069  0.7462  0.9844  1.0000\n  N   N30       1.0000  0.5069  0.7538  0.0156  1.0000\n  N   N31       1.0000  0.9931  0.2462  0.5156  1.0000\n  N   N32       1.0000  0.4931  0.2538  0.4844  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "774527ba-d39f-4c1e-b8ae-cb9319492da8",
    "mp_id": "mp-1245365",
    "action_prompt": "Swap the spatial positions of atoms at indices 33 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaOsN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7675\n_cell_length_b   11.4327\n_cell_length_c   14.8684\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaOsN2\n_chemical_formula_sum   'Na16 Os16 N32'\n_cell_volume   980.3926\n_cell_formula_units_Z   16\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2215  0.9683  0.4415  1\n  Na  Na1  1  0.7215  0.5317  0.5585  1\n  Na  Na2  1  0.7785  0.4683  0.0585  1\n  Na  Na3  1  0.2785  0.0317  0.9415  1\n  Na  Na4  1  0.7785  0.0317  0.5585  1\n  Na  Na5  1  0.2785  0.4683  0.4415  1\n  Na  Na6  1  0.2215  0.5317  0.9415  1\n  Na  Na7  1  0.7215  0.9683  0.0585  1\n  Na  Na8  1  0.2773  0.2573  0.3125  1\n  Na  Na9  1  0.7773  0.2427  0.6875  1\n  Na  Na10  1  0.7227  0.7573  0.1875  1\n  Na  Na11  1  0.2227  0.7427  0.8125  1\n  Na  Na12  1  0.7227  0.7427  0.6875  1\n  Na  Na13  1  0.2227  0.7573  0.3125  1\n  Na  Na14  1  0.2773  0.2427  0.8125  1\n  Na  Na15  1  0.7773  0.2573  0.1875  1\n  Os  Os16  1  0.6806  0.0211  0.3118  1\n  Os  Os17  1  0.1806  0.4789  0.6882  1\n  Os  Os18  1  0.3194  0.5211  0.1882  1\n  Os  Os19  1  0.8194  0.9789  0.8118  1\n  Os  Os20  1  0.3194  0.9789  0.6882  1\n  Os  Os21  1  0.8194  0.5211  0.3118  1\n  Os  Os22  1  0.6806  0.4789  0.8118  1\n  Os  Os23  1  0.1806  0.0211  0.1882  1\n  Os  Os24  1  0.7706  0.2786  0.4355  1\n  Os  Os25  1  0.2706  0.2214  0.5645  1\n  Os  Os26  1  0.2294  0.7786  0.0645  1\n  Os  Os27  1  0.7294  0.7214  0.9355  1\n  Os  Os28  1  0.2294  0.7214  0.5645  1\n  Os  Os29  1  0.7294  0.7786  0.4355  1\n  Os  Os30  1  0.7706  0.2214  0.9355  1\n  Os  Os31  1  0.2706  0.2786  0.0645  1\n  N  N32  1  0.0890  0.2627  0.4644  1\n  N  N33  1  0.5890  0.2373  0.5356  1\n  N  N34  1  0.9110  0.7627  0.0356  1\n  N  N35  1  0.4110  0.7373  0.9644  1\n  N  N36  1  0.9110  0.7373  0.5356  1\n  N  N37  1  0.4110  0.7627  0.4644  1\n  N  N38  1  0.0890  0.2373  0.9644  1\n  N  N39  1  0.5890  0.2627  0.0356  1\n  N  N40  1  0.7056  0.4393  0.4127  1\n  N  N41  1  0.2056  0.0607  0.5873  1\n  N  N42  1  0.2944  0.9393  0.0873  1\n  N  N43  1  0.7944  0.5607  0.9127  1\n  N  N44  1  0.2944  0.5607  0.5873  1\n  N  N45  1  0.7944  0.9393  0.4127  1\n  N  N46  1  0.7056  0.0607  0.9127  1\n  N  N47  1  0.2056  0.4393  0.0873  1\n  N  N48  1  0.6834  0.1833  0.3367  1\n  N  N49  1  0.1834  0.3167  0.6633  1\n  N  N50  1  0.3166  0.6833  0.1633  1\n  N  N51  1  0.8166  0.8167  0.8367  1\n  N  N52  1  0.3166  0.8167  0.6633  1\n  N  N53  1  0.8166  0.6833  0.3367  1\n  N  N54  1  0.6834  0.3167  0.8367  1\n  N  N55  1  0.1834  0.1833  0.1633  1\n  N  N56  1  0.6318  0.4791  0.2116  1\n  N  N57  1  0.1318  0.0209  0.7884  1\n  N  N58  1  0.3682  0.9791  0.2884  1\n  N  N59  1  0.8682  0.5209  0.7116  1\n  N  N60  1  0.3682  0.5209  0.7884  1\n  N  N61  1  0.8682  0.9791  0.2116  1\n  N  N62  1  0.6318  0.0209  0.7116  1\n  N  N63  1  0.1318  0.4791  0.2884  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4NNa11Os16NNaN30\n_chemical_formula_sum              \"Na16 N32 Os16\"\n_cell_length_a       5.7675\n_cell_length_b       11.4327\n_cell_length_c       14.8684\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2215  0.9683  0.4415  1.0000\n  Na  Na2       1.0000  0.7215  0.5317  0.5585  1.0000\n  Na  Na3       1.0000  0.7785  0.4683  0.0585  1.0000\n  Na  Na4       1.0000  0.2785  0.0317  0.9415  1.0000\n  N   N1        1.0000  0.7785  0.0317  0.5585  1.0000\n  Na  Na5       1.0000  0.2785  0.4683  0.4415  1.0000\n  Na  Na6       1.0000  0.2215  0.5317  0.9415  1.0000\n  Na  Na7       1.0000  0.7215  0.9683  0.0585  1.0000\n  Na  Na8       1.0000  0.2773  0.2573  0.3125  1.0000\n  Na  Na9       1.0000  0.7773  0.2427  0.6875  1.0000\n  Na  Na10      1.0000  0.7227  0.7573  0.1875  1.0000\n  Na  Na11      1.0000  0.2227  0.7427  0.8125  1.0000\n  Na  Na12      1.0000  0.7227  0.7427  0.6875  1.0000\n  Na  Na13      1.0000  0.2227  0.7573  0.3125  1.0000\n  Na  Na14      1.0000  0.2773  0.2427  0.8125  1.0000\n  Na  Na15      1.0000  0.7773  0.2573  0.1875  1.0000\n  Os  Os1       1.0000  0.6806  0.0211  0.3118  1.0000\n  Os  Os2       1.0000  0.1806  0.4789  0.6882  1.0000\n  Os  Os3       1.0000  0.3194  0.5211  0.1882  1.0000\n  Os  Os4       1.0000  0.8194  0.9789  0.8118  1.0000\n  Os  Os5       1.0000  0.3194  0.9789  0.6882  1.0000\n  Os  Os6       1.0000  0.8194  0.5211  0.3118  1.0000\n  Os  Os7       1.0000  0.6806  0.4789  0.8118  1.0000\n  Os  Os8       1.0000  0.1806  0.0211  0.1882  1.0000\n  Os  Os9       1.0000  0.7706  0.2786  0.4355  1.0000\n  Os  Os10      1.0000  0.2706  0.2214  0.5645  1.0000\n  Os  Os11      1.0000  0.2294  0.7786  0.0645  1.0000\n  Os  Os12      1.0000  0.7294  0.7214  0.9355  1.0000\n  Os  Os13      1.0000  0.2294  0.7214  0.5645  1.0000\n  Os  Os14      1.0000  0.7294  0.7786  0.4355  1.0000\n  Os  Os15      1.0000  0.7706  0.2214  0.9355  1.0000\n  Os  Os16      1.0000  0.2706  0.2786  0.0645  1.0000\n  N   N2        1.0000  0.0890  0.2627  0.4644  1.0000\n  Na  Na16      1.0000  0.5890  0.2373  0.5356  1.0000\n  N   N3        1.0000  0.9110  0.7627  0.0356  1.0000\n  N   N4        1.0000  0.4110  0.7373  0.9644  1.0000\n  N   N5        1.0000  0.9110  0.7373  0.5356  1.0000\n  N   N6        1.0000  0.4110  0.7627  0.4644  1.0000\n  N   N7        1.0000  0.0890  0.2373  0.9644  1.0000\n  N   N8        1.0000  0.5890  0.2627  0.0356  1.0000\n  N   N9        1.0000  0.7056  0.4393  0.4127  1.0000\n  N   N10       1.0000  0.2056  0.0607  0.5873  1.0000\n  N   N11       1.0000  0.2944  0.9393  0.0873  1.0000\n  N   N12       1.0000  0.7944  0.5607  0.9127  1.0000\n  N   N13       1.0000  0.2944  0.5607  0.5873  1.0000\n  N   N14       1.0000  0.7944  0.9393  0.4127  1.0000\n  N   N15       1.0000  0.7056  0.0607  0.9127  1.0000\n  N   N16       1.0000  0.2056  0.4393  0.0873  1.0000\n  N   N17       1.0000  0.6834  0.1833  0.3367  1.0000\n  N   N18       1.0000  0.1834  0.3167  0.6633  1.0000\n  N   N19       1.0000  0.3166  0.6833  0.1633  1.0000\n  N   N20       1.0000  0.8166  0.8167  0.8367  1.0000\n  N   N21       1.0000  0.3166  0.8167  0.6633  1.0000\n  N   N22       1.0000  0.8166  0.6833  0.3367  1.0000\n  N   N23       1.0000  0.6834  0.3167  0.8367  1.0000\n  N   N24       1.0000  0.1834  0.1833  0.1633  1.0000\n  N   N25       1.0000  0.6318  0.4791  0.2116  1.0000\n  N   N26       1.0000  0.1318  0.0209  0.7884  1.0000\n  N   N27       1.0000  0.3682  0.9791  0.2884  1.0000\n  N   N28       1.0000  0.8682  0.5209  0.7116  1.0000\n  N   N29       1.0000  0.3682  0.5209  0.7884  1.0000\n  N   N30       1.0000  0.8682  0.9791  0.2116  1.0000\n  N   N31       1.0000  0.6318  0.0209  0.7116  1.0000\n  N   N32       1.0000  0.1318  0.4791  0.2884  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bdf9986b-0e67-48cb-b5f4-51d3de468488",
    "mp_id": "mp-1245626",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YAlN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7792\n_cell_length_b   6.8944\n_cell_length_c   5.7342\n_cell_angle_alpha   90.0000\n_cell_angle_beta   109.0591\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YAlN2\n_chemical_formula_sum   'Y4 Al4 N8'\n_cell_volume   215.9483\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.3678  0.9026  0.7018  1\n  Y  Y1  1  0.6322  0.4026  0.7982  1\n  Y  Y2  1  0.6322  0.0974  0.2982  1\n  Y  Y3  1  0.3678  0.5974  0.2018  1\n  Al  Al4  1  0.1168  0.3514  0.6056  1\n  Al  Al5  1  0.8832  0.8514  0.8944  1\n  Al  Al6  1  0.8832  0.6486  0.3944  1\n  Al  Al7  1  0.1168  0.1486  0.1056  1\n  N  N8  1  0.2248  0.8952  0.0324  1\n  N  N9  1  0.7752  0.3952  0.4676  1\n  N  N10  1  0.7752  0.1048  0.9676  1\n  N  N11  1  0.2248  0.6048  0.5324  1\n  N  N12  1  0.2652  0.3281  0.9510  1\n  N  N13  1  0.7348  0.8281  0.5490  1\n  N  N14  1  0.7348  0.6719  0.0490  1\n  N  N15  1  0.2652  0.1719  0.4510  1\n",
    "output": "data_image0\n_chemical_formula_structural       YNY2Al4N4YN3\n_chemical_formula_sum              \"Y4 N8 Al4\"\n_cell_length_a       5.7792\n_cell_length_b       6.8944\n_cell_length_c       5.7342\n_cell_angle_alpha    90.0000\n_cell_angle_beta     109.0591\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.3678  0.9026  0.7018  1.0000\n  N   N1        1.0000  0.6322  0.4026  0.7982  1.0000\n  Y   Y2        1.0000  0.6322  0.0974  0.2982  1.0000\n  Y   Y3        1.0000  0.3678  0.5974  0.2018  1.0000\n  Al  Al1       1.0000  0.1168  0.3514  0.6056  1.0000\n  Al  Al2       1.0000  0.8832  0.8514  0.8944  1.0000\n  Al  Al3       1.0000  0.8832  0.6486  0.3944  1.0000\n  Al  Al4       1.0000  0.1168  0.1486  0.1056  1.0000\n  N   N2        1.0000  0.2248  0.8952  0.0324  1.0000\n  N   N3        1.0000  0.7752  0.3952  0.4676  1.0000\n  N   N4        1.0000  0.7752  0.1048  0.9676  1.0000\n  N   N5        1.0000  0.2248  0.6048  0.5324  1.0000\n  Y   Y4        1.0000  0.2652  0.3281  0.9510  1.0000\n  N   N6        1.0000  0.7348  0.8281  0.5490  1.0000\n  N   N7        1.0000  0.7348  0.6719  0.0490  1.0000\n  N   N8        1.0000  0.2652  0.1719  0.4510  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d8749bcc-599b-444e-9d81-73b66cc54c7c",
    "mp_id": "mp-1245657",
    "action_prompt": "Swap the spatial positions of atoms at indices 39 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba7TiN6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.6364\n_cell_length_b   7.0708\n_cell_length_c   14.5896\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba7TiN6\n_chemical_formula_sum   'Ba28 Ti4 N24'\n_cell_volume   1303.5689\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0343  0.7423  0.9801  1\n  Ba  Ba1  1  0.4657  0.7577  0.4801  1\n  Ba  Ba2  1  0.5343  0.7577  0.0199  1\n  Ba  Ba3  1  0.9657  0.7423  0.5199  1\n  Ba  Ba4  1  0.9657  0.2577  0.0199  1\n  Ba  Ba5  1  0.5343  0.2423  0.5199  1\n  Ba  Ba6  1  0.4657  0.2423  0.9801  1\n  Ba  Ba7  1  0.0343  0.2577  0.4801  1\n  Ba  Ba8  1  0.2267  0.8364  0.6273  1\n  Ba  Ba9  1  0.2733  0.6636  0.1273  1\n  Ba  Ba10  1  0.7267  0.6636  0.3727  1\n  Ba  Ba11  1  0.7733  0.8364  0.8727  1\n  Ba  Ba12  1  0.7733  0.1636  0.3727  1\n  Ba  Ba13  1  0.7267  0.3364  0.8727  1\n  Ba  Ba14  1  0.2733  0.3364  0.6273  1\n  Ba  Ba15  1  0.2267  0.1636  0.1273  1\n  Ba  Ba16  1  0.2873  0.5979  0.8743  1\n  Ba  Ba17  1  0.2127  0.9021  0.3743  1\n  Ba  Ba18  1  0.7873  0.9021  0.1257  1\n  Ba  Ba19  1  0.7127  0.5979  0.6257  1\n  Ba  Ba20  1  0.7127  0.4021  0.1257  1\n  Ba  Ba21  1  0.7873  0.0979  0.6257  1\n  Ba  Ba22  1  0.2127  0.0979  0.8743  1\n  Ba  Ba23  1  0.2873  0.4021  0.3743  1\n  Ba  Ba24  1  0.0000  0.4294  0.7500  1\n  Ba  Ba25  1  0.5000  0.0706  0.2500  1\n  Ba  Ba26  1  0.0000  0.5706  0.2500  1\n  Ba  Ba27  1  0.5000  0.9294  0.7500  1\n  Ti  Ti28  1  0.0000  0.9231  0.7500  1\n  Ti  Ti29  1  0.5000  0.5769  0.2500  1\n  Ti  Ti30  1  0.0000  0.0769  0.2500  1\n  Ti  Ti31  1  0.5000  0.4231  0.7500  1\n  N  N32  1  0.1170  0.7566  0.7903  1\n  N  N33  1  0.3830  0.7434  0.2903  1\n  N  N34  1  0.6170  0.7434  0.2097  1\n  N  N35  1  0.8830  0.7566  0.7097  1\n  N  N36  1  0.8830  0.2434  0.2097  1\n  N  N37  1  0.6170  0.2566  0.7097  1\n  N  N38  1  0.3830  0.2566  0.7903  1\n  N  N39  1  0.1170  0.2434  0.2903  1\n  N  N40  1  0.1628  0.6020  0.4983  1\n  N  N41  1  0.3372  0.8980  0.9983  1\n  N  N42  1  0.6628  0.8980  0.5017  1\n  N  N43  1  0.8372  0.6020  0.0017  1\n  N  N44  1  0.8372  0.3980  0.5017  1\n  N  N45  1  0.6628  0.1020  0.0017  1\n  N  N46  1  0.3372  0.1020  0.4983  1\n  N  N47  1  0.1628  0.3980  0.9983  1\n  N  N48  1  0.4483  0.5804  0.6495  1\n  N  N49  1  0.0517  0.9196  0.1495  1\n  N  N50  1  0.9483  0.9196  0.3505  1\n  N  N51  1  0.5517  0.5804  0.8505  1\n  N  N52  1  0.5517  0.4196  0.3505  1\n  N  N53  1  0.9483  0.0804  0.8505  1\n  N  N54  1  0.0517  0.0804  0.6495  1\n  N  N55  1  0.4483  0.4196  0.1495  1\n",
    "output": "data_image0\n_chemical_formula_structural       NBa27Ti4N7BaN16\n_chemical_formula_sum              \"N24 Ba28 Ti4\"\n_cell_length_a       12.6364\n_cell_length_b       7.0708\n_cell_length_c       14.5896\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  N   N1        1.0000  0.0343  0.7423  0.9801  1.0000\n  Ba  Ba1       1.0000  0.4657  0.7577  0.4801  1.0000\n  Ba  Ba2       1.0000  0.5343  0.7577  0.0199  1.0000\n  Ba  Ba3       1.0000  0.9657  0.7423  0.5199  1.0000\n  Ba  Ba4       1.0000  0.9657  0.2577  0.0199  1.0000\n  Ba  Ba5       1.0000  0.5343  0.2423  0.5199  1.0000\n  Ba  Ba6       1.0000  0.4657  0.2423  0.9801  1.0000\n  Ba  Ba7       1.0000  0.0343  0.2577  0.4801  1.0000\n  Ba  Ba8       1.0000  0.2267  0.8364  0.6273  1.0000\n  Ba  Ba9       1.0000  0.2733  0.6636  0.1273  1.0000\n  Ba  Ba10      1.0000  0.7267  0.6636  0.3727  1.0000\n  Ba  Ba11      1.0000  0.7733  0.8364  0.8727  1.0000\n  Ba  Ba12      1.0000  0.7733  0.1636  0.3727  1.0000\n  Ba  Ba13      1.0000  0.7267  0.3364  0.8727  1.0000\n  Ba  Ba14      1.0000  0.2733  0.3364  0.6273  1.0000\n  Ba  Ba15      1.0000  0.2267  0.1636  0.1273  1.0000\n  Ba  Ba16      1.0000  0.2873  0.5979  0.8743  1.0000\n  Ba  Ba17      1.0000  0.2126  0.9021  0.3743  1.0000\n  Ba  Ba18      1.0000  0.7873  0.9021  0.1257  1.0000\n  Ba  Ba19      1.0000  0.7127  0.5979  0.6257  1.0000\n  Ba  Ba20      1.0000  0.7127  0.4021  0.1257  1.0000\n  Ba  Ba21      1.0000  0.7873  0.0979  0.6257  1.0000\n  Ba  Ba22      1.0000  0.2126  0.0979  0.8743  1.0000\n  Ba  Ba23      1.0000  0.2873  0.4021  0.3743  1.0000\n  Ba  Ba24      1.0000  0.0000  0.4294  0.7500  1.0000\n  Ba  Ba25      1.0000  0.5000  0.0706  0.2500  1.0000\n  Ba  Ba26      1.0000  0.0000  0.5706  0.2500  1.0000\n  Ba  Ba27      1.0000  0.5000  0.9294  0.7500  1.0000\n  Ti  Ti1       1.0000  0.0000  0.9231  0.7500  1.0000\n  Ti  Ti2       1.0000  0.5000  0.5769  0.2500  1.0000\n  Ti  Ti3       1.0000  0.0000  0.0769  0.2500  1.0000\n  Ti  Ti4       1.0000  0.5000  0.4231  0.7500  1.0000\n  N   N2        1.0000  0.1170  0.7566  0.7903  1.0000\n  N   N3        1.0000  0.3830  0.7434  0.2903  1.0000\n  N   N4        1.0000  0.6170  0.7434  0.2097  1.0000\n  N   N5        1.0000  0.8830  0.7566  0.7097  1.0000\n  N   N6        1.0000  0.8830  0.2434  0.2097  1.0000\n  N   N7        1.0000  0.6170  0.2566  0.7097  1.0000\n  N   N8        1.0000  0.3830  0.2566  0.7903  1.0000\n  Ba  Ba28      1.0000  0.1170  0.2434  0.2903  1.0000\n  N   N9        1.0000  0.1628  0.6020  0.4983  1.0000\n  N   N10       1.0000  0.3372  0.8980  0.9983  1.0000\n  N   N11       1.0000  0.6628  0.8980  0.5017  1.0000\n  N   N12       1.0000  0.8372  0.6020  0.0017  1.0000\n  N   N13       1.0000  0.8372  0.3980  0.5017  1.0000\n  N   N14       1.0000  0.6628  0.1020  0.0017  1.0000\n  N   N15       1.0000  0.3372  0.1020  0.4983  1.0000\n  N   N16       1.0000  0.1628  0.3980  0.9983  1.0000\n  N   N17       1.0000  0.4483  0.5804  0.6495  1.0000\n  N   N18       1.0000  0.0517  0.9196  0.1495  1.0000\n  N   N19       1.0000  0.9483  0.9196  0.3505  1.0000\n  N   N20       1.0000  0.5517  0.5804  0.8505  1.0000\n  N   N21       1.0000  0.5517  0.4196  0.3505  1.0000\n  N   N22       1.0000  0.9483  0.0804  0.8505  1.0000\n  N   N23       1.0000  0.0517  0.0804  0.6495  1.0000\n  N   N24       1.0000  0.4483  0.4196  0.1495  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d22e5d97-0f29-48eb-93d7-af791b82ccfd",
    "mp_id": "mp-1245740",
    "action_prompt": "Swap the spatial positions of atoms at indices 37 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca7SeN6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.1308\n_cell_length_b   6.3898\n_cell_length_c   12.5240\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca7SeN6\n_chemical_formula_sum   'Ca28 Se4 N24'\n_cell_volume   970.7823\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0604  0.7065  0.0012  1\n  Ca  Ca1  1  0.4396  0.7935  0.5012  1\n  Ca  Ca2  1  0.5604  0.7935  0.9988  1\n  Ca  Ca3  1  0.9396  0.7065  0.4988  1\n  Ca  Ca4  1  0.9396  0.2935  0.9988  1\n  Ca  Ca5  1  0.5604  0.2065  0.4988  1\n  Ca  Ca6  1  0.4396  0.2065  0.0012  1\n  Ca  Ca7  1  0.0604  0.2935  0.5012  1\n  Ca  Ca8  1  0.2204  0.8906  0.6537  1\n  Ca  Ca9  1  0.2796  0.6094  0.1537  1\n  Ca  Ca10  1  0.7204  0.6094  0.3463  1\n  Ca  Ca11  1  0.7796  0.8906  0.8463  1\n  Ca  Ca12  1  0.7796  0.1094  0.3463  1\n  Ca  Ca13  1  0.7204  0.3906  0.8463  1\n  Ca  Ca14  1  0.2796  0.3906  0.6537  1\n  Ca  Ca15  1  0.2204  0.1094  0.1537  1\n  Ca  Ca16  1  0.3041  0.6589  0.8867  1\n  Ca  Ca17  1  0.1959  0.8411  0.3867  1\n  Ca  Ca18  1  0.8041  0.8411  0.1133  1\n  Ca  Ca19  1  0.6959  0.6589  0.6133  1\n  Ca  Ca20  1  0.6959  0.3411  0.1133  1\n  Ca  Ca21  1  0.8041  0.1589  0.6133  1\n  Ca  Ca22  1  0.1959  0.1589  0.8867  1\n  Ca  Ca23  1  0.3041  0.3411  0.3867  1\n  Ca  Ca24  1  0.0000  0.5653  0.7500  1\n  Ca  Ca25  1  0.5000  0.9347  0.2500  1\n  Ca  Ca26  1  0.0000  0.4347  0.2500  1\n  Ca  Ca27  1  0.5000  0.0653  0.7500  1\n  Se  Se28  1  0.0000  0.0499  0.7500  1\n  Se  Se29  1  0.5000  0.4501  0.2500  1\n  Se  Se30  1  0.0000  0.9501  0.2500  1\n  Se  Se31  1  0.5000  0.5499  0.7500  1\n  N  N32  1  0.1405  0.8010  0.8335  1\n  N  N33  1  0.3595  0.6990  0.3335  1\n  N  N34  1  0.6405  0.6990  0.1665  1\n  N  N35  1  0.8595  0.8010  0.6665  1\n  N  N36  1  0.8595  0.1990  0.1665  1\n  N  N37  1  0.6405  0.3010  0.6665  1\n  N  N38  1  0.3595  0.3010  0.8335  1\n  N  N39  1  0.1405  0.1990  0.3335  1\n  N  N40  1  0.1319  0.6437  0.5372  1\n  N  N41  1  0.3681  0.8563  0.0372  1\n  N  N42  1  0.6319  0.8563  0.4628  1\n  N  N43  1  0.8681  0.6437  0.9628  1\n  N  N44  1  0.8681  0.3563  0.4628  1\n  N  N45  1  0.6319  0.1437  0.9628  1\n  N  N46  1  0.3681  0.1437  0.5372  1\n  N  N47  1  0.1319  0.3563  0.0372  1\n  N  N48  1  0.3938  0.7236  0.6966  1\n  N  N49  1  0.1062  0.7764  0.1966  1\n  N  N50  1  0.8938  0.7764  0.3034  1\n  N  N51  1  0.6062  0.7236  0.8034  1\n  N  N52  1  0.6062  0.2764  0.3034  1\n  N  N53  1  0.8938  0.2236  0.8034  1\n  N  N54  1  0.1062  0.2236  0.6966  1\n  N  N55  1  0.3938  0.2764  0.1966  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca10NCa17Se4N5CaN18\n_chemical_formula_sum              \"Ca28 N24 Se4\"\n_cell_length_a       12.1308\n_cell_length_b       6.3898\n_cell_length_c       12.5240\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0604  0.7065  0.0012  1.0000\n  Ca  Ca2       1.0000  0.4396  0.7935  0.5012  1.0000\n  Ca  Ca3       1.0000  0.5604  0.7935  0.9988  1.0000\n  Ca  Ca4       1.0000  0.9396  0.7065  0.4988  1.0000\n  Ca  Ca5       1.0000  0.9396  0.2935  0.9988  1.0000\n  Ca  Ca6       1.0000  0.5604  0.2065  0.4988  1.0000\n  Ca  Ca7       1.0000  0.4396  0.2065  0.0012  1.0000\n  Ca  Ca8       1.0000  0.0604  0.2935  0.5012  1.0000\n  Ca  Ca9       1.0000  0.2204  0.8906  0.6537  1.0000\n  Ca  Ca10      1.0000  0.2796  0.6094  0.1537  1.0000\n  N   N1        1.0000  0.7204  0.6094  0.3463  1.0000\n  Ca  Ca11      1.0000  0.7796  0.8906  0.8463  1.0000\n  Ca  Ca12      1.0000  0.7796  0.1094  0.3463  1.0000\n  Ca  Ca13      1.0000  0.7204  0.3906  0.8463  1.0000\n  Ca  Ca14      1.0000  0.2796  0.3906  0.6537  1.0000\n  Ca  Ca15      1.0000  0.2204  0.1094  0.1537  1.0000\n  Ca  Ca16      1.0000  0.3041  0.6589  0.8867  1.0000\n  Ca  Ca17      1.0000  0.1959  0.8411  0.3867  1.0000\n  Ca  Ca18      1.0000  0.8041  0.8411  0.1133  1.0000\n  Ca  Ca19      1.0000  0.6959  0.6589  0.6133  1.0000\n  Ca  Ca20      1.0000  0.6959  0.3411  0.1133  1.0000\n  Ca  Ca21      1.0000  0.8041  0.1589  0.6133  1.0000\n  Ca  Ca22      1.0000  0.1959  0.1589  0.8867  1.0000\n  Ca  Ca23      1.0000  0.3041  0.3411  0.3867  1.0000\n  Ca  Ca24      1.0000  0.0000  0.5653  0.7500  1.0000\n  Ca  Ca25      1.0000  0.5000  0.9347  0.2500  1.0000\n  Ca  Ca26      1.0000  0.0000  0.4347  0.2500  1.0000\n  Ca  Ca27      1.0000  0.5000  0.0653  0.7500  1.0000\n  Se  Se1       1.0000  0.0000  0.0499  0.7500  1.0000\n  Se  Se2       1.0000  0.5000  0.4501  0.2500  1.0000\n  Se  Se3       1.0000  0.0000  0.9501  0.2500  1.0000\n  Se  Se4       1.0000  0.5000  0.5499  0.7500  1.0000\n  N   N2        1.0000  0.1405  0.8010  0.8335  1.0000\n  N   N3        1.0000  0.3595  0.6990  0.3335  1.0000\n  N   N4        1.0000  0.6405  0.6990  0.1665  1.0000\n  N   N5        1.0000  0.8595  0.8010  0.6665  1.0000\n  N   N6        1.0000  0.8595  0.1990  0.1665  1.0000\n  Ca  Ca28      1.0000  0.6405  0.3010  0.6665  1.0000\n  N   N7        1.0000  0.3595  0.3010  0.8335  1.0000\n  N   N8        1.0000  0.1405  0.1990  0.3335  1.0000\n  N   N9        1.0000  0.1319  0.6437  0.5372  1.0000\n  N   N10       1.0000  0.3681  0.8563  0.0372  1.0000\n  N   N11       1.0000  0.6319  0.8563  0.4628  1.0000\n  N   N12       1.0000  0.8681  0.6437  0.9628  1.0000\n  N   N13       1.0000  0.8681  0.3563  0.4628  1.0000\n  N   N14       1.0000  0.6319  0.1437  0.9628  1.0000\n  N   N15       1.0000  0.3681  0.1437  0.5372  1.0000\n  N   N16       1.0000  0.1319  0.3563  0.0372  1.0000\n  N   N17       1.0000  0.3938  0.7236  0.6966  1.0000\n  N   N18       1.0000  0.1062  0.7764  0.1966  1.0000\n  N   N19       1.0000  0.8938  0.7764  0.3034  1.0000\n  N   N20       1.0000  0.6062  0.7236  0.8034  1.0000\n  N   N21       1.0000  0.6062  0.2764  0.3034  1.0000\n  N   N22       1.0000  0.8938  0.2236  0.8034  1.0000\n  N   N23       1.0000  0.1062  0.2236  0.6966  1.0000\n  N   N24       1.0000  0.3938  0.2764  0.1966  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "507364b9-7b81-4285-8fce-d47e3996a980",
    "mp_id": "mp-1246144",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba4CoN4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3335\n_cell_length_b   6.8012\n_cell_length_c   9.7034\n_cell_angle_alpha   74.5536\n_cell_angle_beta   67.9126\n_cell_angle_gamma   68.4333\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba4CoN4\n_chemical_formula_sum   'Ba8 Co2 N8'\n_cell_volume   412.4224\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.8111  0.6073  0.1574  1\n  Ba  Ba1  1  0.1889  0.3927  0.8426  1\n  Ba  Ba2  1  0.6793  0.1734  0.0306  1\n  Ba  Ba3  1  0.3207  0.8266  0.9694  1\n  Ba  Ba4  1  0.7725  0.4360  0.6503  1\n  Ba  Ba5  1  0.2275  0.5640  0.3497  1\n  Ba  Ba6  1  0.2435  0.9403  0.5503  1\n  Ba  Ba7  1  0.7565  0.0597  0.4497  1\n  Co  Co8  1  0.8167  0.8157  0.7856  1\n  Co  Co9  1  0.1833  0.1843  0.2144  1\n  N  N10  1  0.9748  0.7281  0.6023  1\n  N  N11  1  0.0252  0.2719  0.3977  1\n  N  N12  1  0.9911  0.8455  0.8633  1\n  N  N13  1  0.0089  0.1545  0.1367  1\n  N  N14  1  0.7432  0.5804  0.9005  1\n  N  N15  1  0.2568  0.4196  0.0995  1\n  N  N16  1  0.3899  0.9486  0.2318  1\n  N  N17  1  0.6101  0.0514  0.7682  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba8NCoN7Co\n_chemical_formula_sum              \"Ba8 N8 Co2\"\n_cell_length_a       7.3335\n_cell_length_b       6.8012\n_cell_length_c       9.7034\n_cell_angle_alpha    74.5536\n_cell_angle_beta     67.9126\n_cell_angle_gamma    68.4333\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.8111  0.6073  0.1574  1.0000\n  Ba  Ba2       1.0000  0.1889  0.3927  0.8426  1.0000\n  Ba  Ba3       1.0000  0.6793  0.1734  0.0306  1.0000\n  Ba  Ba4       1.0000  0.3207  0.8266  0.9694  1.0000\n  Ba  Ba5       1.0000  0.7725  0.4360  0.6503  1.0000\n  Ba  Ba6       1.0000  0.2275  0.5640  0.3497  1.0000\n  Ba  Ba7       1.0000  0.2435  0.9403  0.5503  1.0000\n  Ba  Ba8       1.0000  0.7565  0.0597  0.4497  1.0000\n  N   N1        1.0000  0.8167  0.8157  0.7856  1.0000\n  Co  Co1       1.0000  0.1833  0.1843  0.2144  1.0000\n  N   N2        1.0000  0.9748  0.7281  0.6023  1.0000\n  N   N3        1.0000  0.0252  0.2719  0.3977  1.0000\n  N   N4        1.0000  0.9911  0.8455  0.8633  1.0000\n  N   N5        1.0000  0.0089  0.1545  0.1367  1.0000\n  N   N6        1.0000  0.7432  0.5804  0.9005  1.0000\n  N   N7        1.0000  0.2568  0.4196  0.0995  1.0000\n  N   N8        1.0000  0.3899  0.9486  0.2318  1.0000\n  Co  Co2       1.0000  0.6101  0.0514  0.7682  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bd7abc01-2e1c-488d-848c-860131f1886a",
    "mp_id": "mp-1246228",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca3(TaN2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1549\n_cell_length_b   10.3337\n_cell_length_c   9.3864\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca3(TaN2)2\n_chemical_formula_sum   'Ca12 Ta8 N16'\n_cell_volume   597.0017\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6163  0.1533  0.4257  1\n  Ca  Ca1  1  0.8837  0.8467  0.4257  1\n  Ca  Ca2  1  0.6163  0.3467  0.0743  1\n  Ca  Ca3  1  0.8837  0.6533  0.0743  1\n  Ca  Ca4  1  0.3837  0.8467  0.5743  1\n  Ca  Ca5  1  0.1163  0.1533  0.5743  1\n  Ca  Ca6  1  0.3837  0.6533  0.9257  1\n  Ca  Ca7  1  0.1163  0.3467  0.9257  1\n  Ca  Ca8  1  0.7500  0.5000  0.3912  1\n  Ca  Ca9  1  0.7500  0.0000  0.1088  1\n  Ca  Ca10  1  0.2500  0.5000  0.6088  1\n  Ca  Ca11  1  0.2500  0.0000  0.8912  1\n  Ta  Ta12  1  0.7500  0.5000  0.7272  1\n  Ta  Ta13  1  0.7500  0.0000  0.7728  1\n  Ta  Ta14  1  0.2500  0.5000  0.2728  1\n  Ta  Ta15  1  0.2500  0.0000  0.2272  1\n  Ta  Ta16  1  0.5748  0.2500  0.7500  1\n  Ta  Ta17  1  0.9252  0.7500  0.7500  1\n  Ta  Ta18  1  0.4252  0.7500  0.2500  1\n  Ta  Ta19  1  0.0748  0.2500  0.2500  1\n  N  N20  1  0.7670  0.3401  0.6042  1\n  N  N21  1  0.7330  0.6599  0.6042  1\n  N  N22  1  0.7670  0.1599  0.8958  1\n  N  N23  1  0.7330  0.8401  0.8958  1\n  N  N24  1  0.2330  0.6599  0.3958  1\n  N  N25  1  0.2670  0.3401  0.3958  1\n  N  N26  1  0.2330  0.8401  0.1042  1\n  N  N27  1  0.2670  0.1599  0.1042  1\n  N  N28  1  0.4866  0.4329  0.8361  1\n  N  N29  1  0.0134  0.5671  0.8361  1\n  N  N30  1  0.4866  0.0671  0.6639  1\n  N  N31  1  0.0134  0.9329  0.6639  1\n  N  N32  1  0.5134  0.5671  0.1639  1\n  N  N33  1  0.9866  0.4329  0.1639  1\n  N  N34  1  0.5134  0.9329  0.3361  1\n  N  N35  1  0.9866  0.0671  0.3361  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca3TaCa8TaCaTa6N16\n_chemical_formula_sum              \"Ca12 Ta8 N16\"\n_cell_length_a       6.1549\n_cell_length_b       10.3337\n_cell_length_c       9.3864\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.6163  0.1533  0.4257  1.0000\n  Ca  Ca2       1.0000  0.8837  0.8467  0.4257  1.0000\n  Ca  Ca3       1.0000  0.6163  0.3467  0.0743  1.0000\n  Ta  Ta1       1.0000  0.8837  0.6533  0.0743  1.0000\n  Ca  Ca4       1.0000  0.3837  0.8467  0.5743  1.0000\n  Ca  Ca5       1.0000  0.1163  0.1533  0.5743  1.0000\n  Ca  Ca6       1.0000  0.3837  0.6533  0.9257  1.0000\n  Ca  Ca7       1.0000  0.1163  0.3467  0.9257  1.0000\n  Ca  Ca8       1.0000  0.7500  0.5000  0.3912  1.0000\n  Ca  Ca9       1.0000  0.7500  0.0000  0.1088  1.0000\n  Ca  Ca10      1.0000  0.2500  0.5000  0.6088  1.0000\n  Ca  Ca11      1.0000  0.2500  0.0000  0.8912  1.0000\n  Ta  Ta2       1.0000  0.7500  0.5000  0.7272  1.0000\n  Ca  Ca12      1.0000  0.7500  0.0000  0.7728  1.0000\n  Ta  Ta3       1.0000  0.2500  0.5000  0.2728  1.0000\n  Ta  Ta4       1.0000  0.2500  0.0000  0.2272  1.0000\n  Ta  Ta5       1.0000  0.5748  0.2500  0.7500  1.0000\n  Ta  Ta6       1.0000  0.9252  0.7500  0.7500  1.0000\n  Ta  Ta7       1.0000  0.4252  0.7500  0.2500  1.0000\n  Ta  Ta8       1.0000  0.0748  0.2500  0.2500  1.0000\n  N   N1        1.0000  0.7670  0.3401  0.6042  1.0000\n  N   N2        1.0000  0.7330  0.6599  0.6042  1.0000\n  N   N3        1.0000  0.7670  0.1599  0.8958  1.0000\n  N   N4        1.0000  0.7330  0.8401  0.8958  1.0000\n  N   N5        1.0000  0.2330  0.6599  0.3958  1.0000\n  N   N6        1.0000  0.2670  0.3401  0.3958  1.0000\n  N   N7        1.0000  0.2330  0.8401  0.1042  1.0000\n  N   N8        1.0000  0.2670  0.1599  0.1042  1.0000\n  N   N9        1.0000  0.4866  0.4329  0.8361  1.0000\n  N   N10       1.0000  0.0134  0.5671  0.8361  1.0000\n  N   N11       1.0000  0.4866  0.0671  0.6639  1.0000\n  N   N12       1.0000  0.0134  0.9329  0.6639  1.0000\n  N   N13       1.0000  0.5134  0.5671  0.1639  1.0000\n  N   N14       1.0000  0.9866  0.4329  0.1639  1.0000\n  N   N15       1.0000  0.5134  0.9329  0.3361  1.0000\n  N   N16       1.0000  0.9866  0.0671  0.3361  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "43b2a9fa-521c-4299-a069-0ae0b7f83acb",
    "mp_id": "mp-1246371",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 40 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu9As4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9906\n_cell_length_b   8.9906\n_cell_length_c   8.9906\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu9As4\n_chemical_formula_sum   'Cu36 As16'\n_cell_volume   726.7095\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.3290  0.6710  0.6710  1\n  Cu  Cu1  1  0.6436  0.0000  0.0000  1\n  Cu  Cu2  1  0.0000  0.0000  0.3564  1\n  Cu  Cu3  1  0.0000  0.0000  0.6436  1\n  Cu  Cu4  1  0.0000  0.6436  0.0000  1\n  Cu  Cu5  1  0.0000  0.3564  0.0000  1\n  Cu  Cu6  1  0.8535  0.5000  0.5000  1\n  Cu  Cu7  1  0.1465  0.5000  0.5000  1\n  Cu  Cu8  1  0.5000  0.5000  0.8535  1\n  Cu  Cu9  1  0.5000  0.5000  0.1465  1\n  Cu  Cu10  1  0.3564  0.0000  0.0000  1\n  Cu  Cu11  1  0.5000  0.8535  0.5000  1\n  Cu  Cu12  1  0.3202  0.3202  0.0278  1\n  Cu  Cu13  1  0.6798  0.0278  0.6798  1\n  Cu  Cu14  1  0.6798  0.9722  0.3202  1\n  Cu  Cu15  1  0.9722  0.6798  0.3202  1\n  Cu  Cu16  1  0.0278  0.6798  0.6798  1\n  Cu  Cu17  1  0.3202  0.6798  0.9722  1\n  Cu  Cu18  1  0.6798  0.3202  0.9722  1\n  Cu  Cu19  1  0.0278  0.3202  0.3202  1\n  Cu  Cu20  1  0.3202  0.0278  0.3202  1\n  Cu  Cu21  1  0.9722  0.3202  0.6798  1\n  Cu  Cu22  1  0.3202  0.9722  0.6798  1\n  Cu  Cu23  1  0.6798  0.6798  0.0278  1\n  Cu  Cu24  1  0.6710  0.6710  0.3290  1\n  Cu  Cu25  1  0.6710  0.3290  0.6710  1\n  Cu  Cu26  1  0.3290  0.3290  0.3290  1\n  Cu  Cu27  1  0.8304  0.1696  0.1696  1\n  Cu  Cu28  1  0.1696  0.1696  0.8304  1\n  Cu  Cu29  1  0.1696  0.8304  0.1696  1\n  Cu  Cu30  1  0.8304  0.8304  0.8304  1\n  Cu  Cu31  1  0.6021  0.3979  0.3979  1\n  Cu  Cu32  1  0.3979  0.3979  0.6021  1\n  Cu  Cu33  1  0.3979  0.6021  0.3979  1\n  Cu  Cu34  1  0.6021  0.6021  0.6021  1\n  Cu  Cu35  1  0.5000  0.1465  0.5000  1\n  As  As36  1  0.1274  0.1274  0.1274  1\n  As  As37  1  0.8726  0.1274  0.8726  1\n  As  As38  1  0.8726  0.8726  0.1274  1\n  As  As39  1  0.1274  0.8726  0.8726  1\n  As  As40  1  0.8062  0.4673  0.1938  1\n  As  As41  1  0.4673  0.8062  0.1938  1\n  As  As42  1  0.8062  0.5327  0.8062  1\n  As  As43  1  0.5327  0.8062  0.8062  1\n  As  As44  1  0.1938  0.8062  0.4673  1\n  As  As45  1  0.8062  0.1938  0.4673  1\n  As  As46  1  0.5327  0.1938  0.1938  1\n  As  As47  1  0.4673  0.1938  0.8062  1\n  As  As48  1  0.1938  0.4673  0.8062  1\n  As  As49  1  0.1938  0.5327  0.1938  1\n  As  As50  1  0.8062  0.8062  0.5327  1\n  As  As51  1  0.1938  0.1938  0.5327  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu11AsCu24As4CuAs11\n_chemical_formula_sum              \"Cu36 As16\"\n_cell_length_a       8.9906\n_cell_length_b       8.9906\n_cell_length_c       8.9906\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.3290  0.6710  0.6710  1.0000\n  Cu  Cu2       1.0000  0.6436  0.0000  0.0000  1.0000\n  Cu  Cu3       1.0000  0.0000  0.0000  0.3564  1.0000\n  Cu  Cu4       1.0000  0.0000  0.0000  0.6436  1.0000\n  Cu  Cu5       1.0000  0.0000  0.6436  0.0000  1.0000\n  Cu  Cu6       1.0000  0.0000  0.3564  0.0000  1.0000\n  Cu  Cu7       1.0000  0.8535  0.5000  0.5000  1.0000\n  Cu  Cu8       1.0000  0.1465  0.5000  0.5000  1.0000\n  Cu  Cu9       1.0000  0.5000  0.5000  0.8535  1.0000\n  Cu  Cu10      1.0000  0.5000  0.5000  0.1465  1.0000\n  Cu  Cu11      1.0000  0.3564  0.0000  0.0000  1.0000\n  As  As1       1.0000  0.5000  0.8535  0.5000  1.0000\n  Cu  Cu12      1.0000  0.3202  0.3202  0.0278  1.0000\n  Cu  Cu13      1.0000  0.6798  0.0278  0.6798  1.0000\n  Cu  Cu14      1.0000  0.6798  0.9722  0.3202  1.0000\n  Cu  Cu15      1.0000  0.9722  0.6798  0.3202  1.0000\n  Cu  Cu16      1.0000  0.0278  0.6798  0.6798  1.0000\n  Cu  Cu17      1.0000  0.3202  0.6798  0.9722  1.0000\n  Cu  Cu18      1.0000  0.6798  0.3202  0.9722  1.0000\n  Cu  Cu19      1.0000  0.0278  0.3202  0.3202  1.0000\n  Cu  Cu20      1.0000  0.3202  0.0278  0.3202  1.0000\n  Cu  Cu21      1.0000  0.9722  0.3202  0.6798  1.0000\n  Cu  Cu22      1.0000  0.3202  0.9722  0.6798  1.0000\n  Cu  Cu23      1.0000  0.6798  0.6798  0.0278  1.0000\n  Cu  Cu24      1.0000  0.6710  0.6710  0.3290  1.0000\n  Cu  Cu25      1.0000  0.6710  0.3290  0.6710  1.0000\n  Cu  Cu26      1.0000  0.3290  0.3290  0.3290  1.0000\n  Cu  Cu27      1.0000  0.8304  0.1696  0.1696  1.0000\n  Cu  Cu28      1.0000  0.1696  0.1696  0.8304  1.0000\n  Cu  Cu29      1.0000  0.1696  0.8304  0.1696  1.0000\n  Cu  Cu30      1.0000  0.8304  0.8304  0.8304  1.0000\n  Cu  Cu31      1.0000  0.6021  0.3979  0.3979  1.0000\n  Cu  Cu32      1.0000  0.3979  0.3979  0.6021  1.0000\n  Cu  Cu33      1.0000  0.3979  0.6021  0.3979  1.0000\n  Cu  Cu34      1.0000  0.6021  0.6021  0.6021  1.0000\n  Cu  Cu35      1.0000  0.5000  0.1465  0.5000  1.0000\n  As  As2       1.0000  0.1274  0.1274  0.1274  1.0000\n  As  As3       1.0000  0.8726  0.1274  0.8726  1.0000\n  As  As4       1.0000  0.8726  0.8726  0.1274  1.0000\n  As  As5       1.0000  0.1274  0.8726  0.8726  1.0000\n  Cu  Cu36      1.0000  0.8062  0.4673  0.1938  1.0000\n  As  As6       1.0000  0.4673  0.8062  0.1938  1.0000\n  As  As7       1.0000  0.8062  0.5327  0.8062  1.0000\n  As  As8       1.0000  0.5327  0.8062  0.8062  1.0000\n  As  As9       1.0000  0.1938  0.8062  0.4673  1.0000\n  As  As10      1.0000  0.8062  0.1938  0.4673  1.0000\n  As  As11      1.0000  0.5327  0.1938  0.1938  1.0000\n  As  As12      1.0000  0.4673  0.1938  0.8062  1.0000\n  As  As13      1.0000  0.1938  0.4673  0.8062  1.0000\n  As  As14      1.0000  0.1938  0.5327  0.1938  1.0000\n  As  As15      1.0000  0.8062  0.8062  0.5327  1.0000\n  As  As16      1.0000  0.1938  0.1938  0.5327  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4c337989-a9e6-4f24-ba48-c47fc758d852",
    "mp_id": "mp-1246720",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VZnN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6025\n_cell_length_b   6.4222\n_cell_length_c   5.2475\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VZnN2\n_chemical_formula_sum   'V4 Zn4 N8'\n_cell_volume   188.8074\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.5758  0.3761  0.9976  1\n  V  V1  1  0.4242  0.6239  0.4976  1\n  V  V2  1  0.9242  0.8761  0.4976  1\n  V  V3  1  0.0758  0.1239  0.9976  1\n  Zn  Zn4  1  0.5843  0.8772  0.0015  1\n  Zn  Zn5  1  0.4157  0.1228  0.5015  1\n  Zn  Zn6  1  0.9157  0.3772  0.5015  1\n  Zn  Zn7  1  0.0843  0.6228  0.0015  1\n  N  N8  1  0.5726  0.3874  0.3563  1\n  N  N9  1  0.4274  0.6126  0.8563  1\n  N  N10  1  0.9274  0.8874  0.8563  1\n  N  N11  1  0.0726  0.1126  0.3563  1\n  N  N12  1  0.6021  0.8607  0.3946  1\n  N  N13  1  0.3979  0.1393  0.8946  1\n  N  N14  1  0.8979  0.3607  0.8946  1\n  N  N15  1  0.1021  0.6393  0.3946  1\n",
    "output": "data_image0\n_chemical_formula_structural       VNV2Zn4N2VN5\n_chemical_formula_sum              \"V4 N8 Zn4\"\n_cell_length_a       5.6025\n_cell_length_b       6.4222\n_cell_length_c       5.2475\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.5758  0.3761  0.9976  1.0000\n  N   N1        1.0000  0.4242  0.6239  0.4976  1.0000\n  V   V2        1.0000  0.9242  0.8761  0.4976  1.0000\n  V   V3        1.0000  0.0758  0.1239  0.9976  1.0000\n  Zn  Zn1       1.0000  0.5843  0.8772  0.0015  1.0000\n  Zn  Zn2       1.0000  0.4157  0.1228  0.5015  1.0000\n  Zn  Zn3       1.0000  0.9157  0.3772  0.5015  1.0000\n  Zn  Zn4       1.0000  0.0843  0.6228  0.0015  1.0000\n  N   N2        1.0000  0.5726  0.3874  0.3563  1.0000\n  N   N3        1.0000  0.4274  0.6126  0.8563  1.0000\n  V   V4        1.0000  0.9274  0.8874  0.8563  1.0000\n  N   N4        1.0000  0.0726  0.1126  0.3563  1.0000\n  N   N5        1.0000  0.6021  0.8607  0.3946  1.0000\n  N   N6        1.0000  0.3979  0.1393  0.8946  1.0000\n  N   N7        1.0000  0.8979  0.3607  0.8946  1.0000\n  N   N8        1.0000  0.1021  0.6393  0.3946  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4f1b9bd5-6271-48d4-8045-4f32f84c5f49",
    "mp_id": "mp-1246726",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_DyMg2Mn3S8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4836\n_cell_length_b   7.4898\n_cell_length_c   7.4915\n_cell_angle_alpha   59.1886\n_cell_angle_beta   59.1828\n_cell_angle_gamma   59.1884\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   DyMg2Mn3S8\n_chemical_formula_sum   'Dy1 Mg2 Mn3 S8'\n_cell_volume   291.4138\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.5000  0.5000  0.5000  1\n  Mg  Mg1  1  0.8744  0.8745  0.8745  1\n  Mg  Mg2  1  0.1256  0.1255  0.1255  1\n  Mn  Mn3  1  0.5000  0.5000  1.0000  1\n  Mn  Mn4  1  1.0000  0.5001  0.5000  1\n  Mn  Mn5  1  0.5001  1.0000  0.5000  1\n  S  S6  1  0.7402  0.7402  0.7401  1\n  S  S7  1  0.2456  0.2454  0.7199  1\n  S  S8  1  0.2455  0.7199  0.2454  1\n  S  S9  1  0.7198  0.2455  0.2455  1\n  S  S10  1  0.7544  0.2801  0.7546  1\n  S  S11  1  0.2802  0.7545  0.7545  1\n  S  S12  1  0.2598  0.2598  0.2599  1\n  S  S13  1  0.7544  0.7546  0.2801  1\n",
    "output": "data_image0\n_chemical_formula_structural       SMg2Mn3S6DyS\n_chemical_formula_sum              \"S8 Mg2 Mn3 Dy1\"\n_cell_length_a       7.4836\n_cell_length_b       7.4898\n_cell_length_c       7.4915\n_cell_angle_alpha    59.1886\n_cell_angle_beta     59.1828\n_cell_angle_gamma    59.1884\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg1       1.0000  0.8744  0.8745  0.8745  1.0000\n  Mg  Mg2       1.0000  0.1256  0.1255  0.1255  1.0000\n  Mn  Mn1       1.0000  0.5000  0.5000  1.0000  1.0000\n  Mn  Mn2       1.0000  1.0000  0.5001  0.5000  1.0000\n  Mn  Mn3       1.0000  0.5001  1.0000  0.5000  1.0000\n  S   S2        1.0000  0.7402  0.7402  0.7401  1.0000\n  S   S3        1.0000  0.2456  0.2454  0.7199  1.0000\n  S   S4        1.0000  0.2455  0.7199  0.2454  1.0000\n  S   S5        1.0000  0.7198  0.2455  0.2455  1.0000\n  S   S6        1.0000  0.7544  0.2801  0.7546  1.0000\n  S   S7        1.0000  0.2802  0.7545  0.7545  1.0000\n  Dy  Dy1       1.0000  0.2598  0.2598  0.2599  1.0000\n  S   S8        1.0000  0.7544  0.7546  0.2801  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2e84691b-3b80-49d3-8543-e01bee7d4672",
    "mp_id": "mp-1246860",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3(TiN2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3163\n_cell_length_b   8.8815\n_cell_length_c   5.7966\n_cell_angle_alpha   90.0000\n_cell_angle_beta   92.3546\n_cell_angle_gamma   127.3707\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3(TiN2)2\n_chemical_formula_sum   'Sr6 Ti4 N8'\n_cell_volume   298.9422\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2317  0.9827  0.0478  1\n  Sr  Sr1  1  0.7683  0.7511  0.4522  1\n  Sr  Sr2  1  0.7683  0.0173  0.9522  1\n  Sr  Sr3  1  0.2317  0.2489  0.5478  1\n  Sr  Sr4  1  0.0000  0.6049  0.7500  1\n  Sr  Sr5  1  0.0000  0.3951  0.2500  1\n  Ti  Ti6  1  0.5939  0.1792  0.5834  1\n  Ti  Ti7  1  0.4061  0.5853  0.9166  1\n  Ti  Ti8  1  0.4061  0.8208  0.4166  1\n  Ti  Ti9  1  0.5939  0.4147  0.0834  1\n  N  N10  1  0.2685  0.9553  0.5269  1\n  N  N11  1  0.7315  0.6869  0.9731  1\n  N  N12  1  0.7315  0.0447  0.4731  1\n  N  N13  1  0.2685  0.3131  0.0269  1\n  N  N14  1  0.6620  0.2647  0.9095  1\n  N  N15  1  0.3380  0.6027  0.5905  1\n  N  N16  1  0.3380  0.7353  0.0905  1\n  N  N17  1  0.6620  0.3973  0.4095  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrTiSr5Ti3N8\n_chemical_formula_sum              \"Sr6 Ti4 N8\"\n_cell_length_a       7.3163\n_cell_length_b       8.8815\n_cell_length_c       5.7966\n_cell_angle_alpha    90.0000\n_cell_angle_beta     92.3546\n_cell_angle_gamma    127.3707\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2317  0.9827  0.0478  1.0000\n  Ti  Ti1       1.0000  0.7683  0.7511  0.4522  1.0000\n  Sr  Sr2       1.0000  0.7683  0.0173  0.9522  1.0000\n  Sr  Sr3       1.0000  0.2317  0.2489  0.5478  1.0000\n  Sr  Sr4       1.0000  1.0000  0.6049  0.7500  1.0000\n  Sr  Sr5       1.0000  0.0000  0.3951  0.2500  1.0000\n  Sr  Sr6       1.0000  0.5939  0.1792  0.5834  1.0000\n  Ti  Ti2       1.0000  0.4061  0.5853  0.9166  1.0000\n  Ti  Ti3       1.0000  0.4061  0.8208  0.4166  1.0000\n  Ti  Ti4       1.0000  0.5939  0.4147  0.0834  1.0000\n  N   N1        1.0000  0.2685  0.9553  0.5269  1.0000\n  N   N2        1.0000  0.7315  0.6869  0.9731  1.0000\n  N   N3        1.0000  0.7315  0.0447  0.4731  1.0000\n  N   N4        1.0000  0.2685  0.3131  0.0269  1.0000\n  N   N5        1.0000  0.6620  0.2647  0.9095  1.0000\n  N   N6        1.0000  0.3380  0.6027  0.5905  1.0000\n  N   N7        1.0000  0.3380  0.7353  0.0905  1.0000\n  N   N8        1.0000  0.6620  0.3973  0.4095  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e0dba557-9623-449e-b34e-1e7017ff51da",
    "mp_id": "mp-1247094",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YMg2V3S8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4965\n_cell_length_b   7.4727\n_cell_length_c   7.4781\n_cell_angle_alpha   59.1466\n_cell_angle_beta   59.1074\n_cell_angle_gamma   59.0152\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YMg2V3S8\n_chemical_formula_sum   'Y1 Mg2 V3 S8'\n_cell_volume   290.0689\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.5000  0.5000  0.5000  1\n  Mg  Mg1  1  0.8736  0.8738  0.8739  1\n  Mg  Mg2  1  0.1264  0.1262  0.1261  1\n  V  V3  1  0.5001  0.5000  0.9999  1\n  V  V4  1  0.9999  0.4999  0.5001  1\n  V  V5  1  0.5000  0.0001  0.5000  1\n  S  S6  1  0.7378  0.7401  0.7373  1\n  S  S7  1  0.2447  0.2451  0.7230  1\n  S  S8  1  0.2463  0.7229  0.2456  1\n  S  S9  1  0.7228  0.2455  0.2446  1\n  S  S10  1  0.7537  0.2771  0.7544  1\n  S  S11  1  0.2772  0.7545  0.7554  1\n  S  S12  1  0.2622  0.2600  0.2626  1\n  S  S13  1  0.7553  0.7550  0.2771  1\n",
    "output": "data_image0\n_chemical_formula_structural       YMgSV3S3MgS4\n_chemical_formula_sum              \"Y1 Mg2 S8 V3\"\n_cell_length_a       7.4965\n_cell_length_b       7.4727\n_cell_length_c       7.4781\n_cell_angle_alpha    59.1466\n_cell_angle_beta     59.1074\n_cell_angle_gamma    59.0152\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg1       1.0000  0.8736  0.8738  0.8739  1.0000\n  S   S1        1.0000  0.1264  0.1262  0.1261  1.0000\n  V   V1        1.0000  0.5001  0.5000  0.9999  1.0000\n  V   V2        1.0000  0.9999  0.4999  0.5001  1.0000\n  V   V3        1.0000  0.5000  0.0001  0.5000  1.0000\n  S   S2        1.0000  0.7378  0.7401  0.7373  1.0000\n  S   S3        1.0000  0.2447  0.2451  0.7230  1.0000\n  S   S4        1.0000  0.2463  0.7229  0.2456  1.0000\n  Mg  Mg2       1.0000  0.7228  0.2455  0.2446  1.0000\n  S   S5        1.0000  0.7537  0.2771  0.7544  1.0000\n  S   S6        1.0000  0.2772  0.7545  0.7554  1.0000\n  S   S7        1.0000  0.2622  0.2600  0.2626  1.0000\n  S   S8        1.0000  0.7553  0.7550  0.2771  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "45d71a54-1f6b-4723-9168-16c17ba7a232",
    "mp_id": "mp-1247286",
    "action_prompt": "Swap the spatial positions of atoms at indices 48 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_In7SiN6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.6043\n_cell_length_b   7.4417\n_cell_length_c   12.2057\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   In7SiN6\n_chemical_formula_sum   'In28 Si4 N24'\n_cell_volume   963.2014\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.0243  0.7681  0.9801  1\n  In  In1  1  0.4757  0.7319  0.4801  1\n  In  In2  1  0.5243  0.7319  0.0199  1\n  In  In3  1  0.9757  0.7681  0.5199  1\n  In  In4  1  0.9757  0.2319  0.0199  1\n  In  In5  1  0.5243  0.2681  0.5199  1\n  In  In6  1  0.4757  0.2681  0.9801  1\n  In  In7  1  0.0243  0.2319  0.4801  1\n  In  In8  1  0.2220  0.6449  0.5876  1\n  In  In9  1  0.2780  0.8551  0.0876  1\n  In  In10  1  0.7220  0.8551  0.4124  1\n  In  In11  1  0.7780  0.6449  0.9124  1\n  In  In12  1  0.7780  0.3551  0.4124  1\n  In  In13  1  0.7220  0.1449  0.9124  1\n  In  In14  1  0.2780  0.1449  0.5876  1\n  In  In15  1  0.2220  0.3551  0.0876  1\n  In  In16  1  0.2184  0.5620  0.8309  1\n  In  In17  1  0.2816  0.9380  0.3309  1\n  In  In18  1  0.7184  0.9380  0.1691  1\n  In  In19  1  0.7816  0.5620  0.6691  1\n  In  In20  1  0.7816  0.4380  0.1691  1\n  In  In21  1  0.7184  0.0620  0.6691  1\n  In  In22  1  0.2816  0.0620  0.8309  1\n  In  In23  1  0.2184  0.4380  0.3309  1\n  In  In24  1  0.0000  0.3703  0.7500  1\n  In  In25  1  0.5000  0.1297  0.2500  1\n  In  In26  1  0.0000  0.6297  0.2500  1\n  In  In27  1  0.5000  0.8703  0.7500  1\n  Si  Si28  1  0.0000  0.9800  0.7500  1\n  Si  Si29  1  0.5000  0.5200  0.2500  1\n  Si  Si30  1  0.0000  0.0200  0.2500  1\n  Si  Si31  1  0.5000  0.4800  0.7500  1\n  N  N32  1  0.1185  0.8683  0.8240  1\n  N  N33  1  0.3815  0.6317  0.3240  1\n  N  N34  1  0.6185  0.6317  0.1760  1\n  N  N35  1  0.8815  0.8683  0.6760  1\n  N  N36  1  0.8815  0.1317  0.1760  1\n  N  N37  1  0.6185  0.3683  0.6760  1\n  N  N38  1  0.3815  0.3683  0.8240  1\n  N  N39  1  0.1185  0.1317  0.3240  1\n  N  N40  1  0.2015  0.3882  0.5032  1\n  N  N41  1  0.2985  0.1118  0.0032  1\n  N  N42  1  0.7015  0.1118  0.4968  1\n  N  N43  1  0.7985  0.3882  0.9968  1\n  N  N44  1  0.7985  0.6118  0.4968  1\n  N  N45  1  0.7015  0.8882  0.9968  1\n  N  N46  1  0.2985  0.8882  0.5032  1\n  N  N47  1  0.2015  0.6118  0.0032  1\n  N  N48  1  0.4243  0.6293  0.6532  1\n  N  N49  1  0.0757  0.8707  0.1532  1\n  N  N50  1  0.9243  0.8707  0.3468  1\n  N  N51  1  0.5757  0.6293  0.8468  1\n  N  N52  1  0.5757  0.3707  0.3468  1\n  N  N53  1  0.9243  0.1293  0.8468  1\n  N  N54  1  0.0757  0.1293  0.6532  1\n  N  N55  1  0.4243  0.3707  0.1532  1\n",
    "output": "data_image0\n_chemical_formula_structural       In12NIn15Si4N16InN7\n_chemical_formula_sum              \"In28 N24 Si4\"\n_cell_length_a       10.6043\n_cell_length_b       7.4417\n_cell_length_c       12.2057\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.0243  0.7681  0.9801  1.0000\n  In  In2       1.0000  0.4757  0.7319  0.4801  1.0000\n  In  In3       1.0000  0.5243  0.7319  0.0199  1.0000\n  In  In4       1.0000  0.9757  0.7681  0.5199  1.0000\n  In  In5       1.0000  0.9757  0.2319  0.0199  1.0000\n  In  In6       1.0000  0.5243  0.2681  0.5199  1.0000\n  In  In7       1.0000  0.4757  0.2681  0.9801  1.0000\n  In  In8       1.0000  0.0243  0.2319  0.4801  1.0000\n  In  In9       1.0000  0.2220  0.6449  0.5876  1.0000\n  In  In10      1.0000  0.2780  0.8551  0.0876  1.0000\n  In  In11      1.0000  0.7220  0.8551  0.4124  1.0000\n  In  In12      1.0000  0.7780  0.6449  0.9124  1.0000\n  N   N1        1.0000  0.7780  0.3551  0.4124  1.0000\n  In  In13      1.0000  0.7220  0.1449  0.9124  1.0000\n  In  In14      1.0000  0.2780  0.1449  0.5876  1.0000\n  In  In15      1.0000  0.2220  0.3551  0.0876  1.0000\n  In  In16      1.0000  0.2184  0.5620  0.8309  1.0000\n  In  In17      1.0000  0.2816  0.9380  0.3309  1.0000\n  In  In18      1.0000  0.7184  0.9380  0.1691  1.0000\n  In  In19      1.0000  0.7816  0.5620  0.6691  1.0000\n  In  In20      1.0000  0.7816  0.4380  0.1691  1.0000\n  In  In21      1.0000  0.7184  0.0620  0.6691  1.0000\n  In  In22      1.0000  0.2816  0.0620  0.8309  1.0000\n  In  In23      1.0000  0.2184  0.4380  0.3309  1.0000\n  In  In24      1.0000  0.0000  0.3703  0.7500  1.0000\n  In  In25      1.0000  0.5000  0.1297  0.2500  1.0000\n  In  In26      1.0000  0.0000  0.6297  0.2500  1.0000\n  In  In27      1.0000  0.5000  0.8703  0.7500  1.0000\n  Si  Si1       1.0000  0.0000  0.9800  0.7500  1.0000\n  Si  Si2       1.0000  0.5000  0.5200  0.2500  1.0000\n  Si  Si3       1.0000  0.0000  0.0200  0.2500  1.0000\n  Si  Si4       1.0000  0.5000  0.4800  0.7500  1.0000\n  N   N2        1.0000  0.1185  0.8683  0.8240  1.0000\n  N   N3        1.0000  0.3815  0.6317  0.3240  1.0000\n  N   N4        1.0000  0.6185  0.6317  0.1760  1.0000\n  N   N5        1.0000  0.8815  0.8683  0.6760  1.0000\n  N   N6        1.0000  0.8815  0.1317  0.1760  1.0000\n  N   N7        1.0000  0.6185  0.3683  0.6760  1.0000\n  N   N8        1.0000  0.3815  0.3683  0.8240  1.0000\n  N   N9        1.0000  0.1185  0.1317  0.3240  1.0000\n  N   N10       1.0000  0.2015  0.3882  0.5032  1.0000\n  N   N11       1.0000  0.2985  0.1118  0.0032  1.0000\n  N   N12       1.0000  0.7015  0.1118  0.4968  1.0000\n  N   N13       1.0000  0.7985  0.3882  0.9968  1.0000\n  N   N14       1.0000  0.7985  0.6118  0.4968  1.0000\n  N   N15       1.0000  0.7015  0.8882  0.9968  1.0000\n  N   N16       1.0000  0.2985  0.8882  0.5032  1.0000\n  N   N17       1.0000  0.2015  0.6118  0.0032  1.0000\n  In  In28      1.0000  0.4243  0.6293  0.6532  1.0000\n  N   N18       1.0000  0.0757  0.8707  0.1532  1.0000\n  N   N19       1.0000  0.9243  0.8707  0.3468  1.0000\n  N   N20       1.0000  0.5757  0.6293  0.8468  1.0000\n  N   N21       1.0000  0.5757  0.3707  0.3468  1.0000\n  N   N22       1.0000  0.9243  0.1293  0.8468  1.0000\n  N   N23       1.0000  0.0757  0.1293  0.6532  1.0000\n  N   N24       1.0000  0.4243  0.3707  0.1532  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bfb6347e-4302-472e-a57a-24c66ee84fe9",
    "mp_id": "mp-1247309",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La3Mg2TiS8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0959\n_cell_length_b   7.9474\n_cell_length_c   8.0945\n_cell_angle_alpha   59.3873\n_cell_angle_beta   59.9974\n_cell_angle_gamma   59.3769\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La3Mg2TiS8\n_chemical_formula_sum   'La3 Mg2 Ti1 S8'\n_cell_volume   364.7815\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.5000  0.5000  0.5000  1\n  La  La1  1  0.5000  0.5000  0.0000  1\n  La  La2  1  1.0000  0.5000  0.5000  1\n  Mg  Mg3  1  0.8752  0.8745  0.8752  1\n  Mg  Mg4  1  0.1248  0.1255  0.1248  1\n  Ti  Ti5  1  0.5000  1.0000  0.5000  1\n  S  S6  1  0.7296  0.7777  0.7295  1\n  S  S7  1  0.2704  0.2223  0.7368  1\n  S  S8  1  0.2514  0.7457  0.2514  1\n  S  S9  1  0.7367  0.2221  0.2706  1\n  S  S10  1  0.7486  0.2543  0.7485  1\n  S  S11  1  0.2633  0.7779  0.7294  1\n  S  S12  1  0.2704  0.2223  0.2705  1\n  S  S13  1  0.7296  0.7777  0.2632  1\n",
    "output": "data_image0\n_chemical_formula_structural       SLa2Mg2TiS3LaS4\n_chemical_formula_sum              \"S8 La3 Mg2 Ti1\"\n_cell_length_a       8.0959\n_cell_length_b       7.9474\n_cell_length_c       8.0945\n_cell_angle_alpha    59.3873\n_cell_angle_beta     59.9974\n_cell_angle_gamma    59.3769\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.5000  0.5000  0.5000  1.0000\n  La  La1       1.0000  0.5000  0.5000  6e-06  1.0000\n  La  La2       1.0000  1.0000  0.5000  0.5000  1.0000\n  Mg  Mg1       1.0000  0.8752  0.8745  0.8752  1.0000\n  Mg  Mg2       1.0000  0.1248  0.1255  0.1248  1.0000\n  Ti  Ti1       1.0000  0.5000  1.0000  0.5000  1.0000\n  S   S2        1.0000  0.7296  0.7777  0.7295  1.0000\n  S   S3        1.0000  0.2704  0.2223  0.7368  1.0000\n  S   S4        1.0000  0.2514  0.7457  0.2514  1.0000\n  La  La3       1.0000  0.7367  0.2221  0.2706  1.0000\n  S   S5        1.0000  0.7486  0.2543  0.7485  1.0000\n  S   S6        1.0000  0.2633  0.7779  0.7294  1.0000\n  S   S7        1.0000  0.2704  0.2223  0.2705  1.0000\n  S   S8        1.0000  0.7296  0.7777  0.2632  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6d00e60a-a55d-47a6-8bc3-6cf3603f83d8",
    "mp_id": "mp-1247354",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Re(C2N3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5058\n_cell_length_b   13.2603\n_cell_length_c   11.4076\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   27.9519\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Re(C2N3)3\n_chemical_formula_sum   'Re2 C12 N18'\n_cell_volume   532.1901\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Re  Re0  1  0.0000  0.2803  0.2500  1\n  Re  Re1  1  0.0000  0.7197  0.7500  1\n  C  C2  1  0.6811  0.7851  0.2500  1\n  C  C3  1  0.6811  0.5338  0.7500  1\n  C  C4  1  0.3189  0.2149  0.7500  1\n  C  C5  1  0.3189  0.4662  0.2500  1\n  C  C6  1  0.6818  0.3036  0.9086  1\n  C  C7  1  0.6818  0.0146  0.0914  1\n  C  C8  1  0.6818  0.3036  0.5914  1\n  C  C9  1  0.6818  0.0146  0.4086  1\n  C  C10  1  0.3182  0.6964  0.0914  1\n  C  C11  1  0.3182  0.9854  0.9086  1\n  C  C12  1  0.3182  0.6964  0.4086  1\n  C  C13  1  0.3182  0.9854  0.5914  1\n  N  N14  1  0.0000  0.5775  0.2500  1\n  N  N15  1  0.0000  0.4225  0.7500  1\n  N  N16  1  0.3808  0.9753  0.2500  1\n  N  N17  1  0.3808  0.6439  0.7500  1\n  N  N18  1  0.6192  0.0247  0.7500  1\n  N  N19  1  0.6192  0.3561  0.2500  1\n  N  N20  1  0.0000  0.1197  0.9570  1\n  N  N21  1  0.0000  0.8803  0.0430  1\n  N  N22  1  0.0000  0.1197  0.5430  1\n  N  N23  1  0.0000  0.8803  0.4570  1\n  N  N24  1  0.3833  0.4733  0.8670  1\n  N  N25  1  0.3833  0.1433  0.1330  1\n  N  N26  1  0.3833  0.4733  0.6330  1\n  N  N27  1  0.3833  0.1433  0.3670  1\n  N  N28  1  0.6167  0.5267  0.1330  1\n  N  N29  1  0.6167  0.8567  0.8670  1\n  N  N30  1  0.6167  0.5267  0.3670  1\n  N  N31  1  0.6167  0.8567  0.6330  1\n",
    "output": "data_image0\n_chemical_formula_structural       Re2NC11N10CN7\n_chemical_formula_sum              \"Re2 N18 C12\"\n_cell_length_a       7.5058\n_cell_length_b       13.2603\n_cell_length_c       11.4076\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    27.9519\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Re  Re1       1.0000  0.0000  0.2803  0.2500  1.0000\n  Re  Re2       1.0000  0.0000  0.7197  0.7500  1.0000\n  N   N1        1.0000  0.6811  0.7851  0.2500  1.0000\n  C   C1        1.0000  0.6811  0.5338  0.7500  1.0000\n  C   C2        1.0000  0.3189  0.2149  0.7500  1.0000\n  C   C3        1.0000  0.3189  0.4662  0.2500  1.0000\n  C   C4        1.0000  0.6818  0.3036  0.9086  1.0000\n  C   C5        1.0000  0.6818  0.0146  0.0914  1.0000\n  C   C6        1.0000  0.6818  0.3036  0.5914  1.0000\n  C   C7        1.0000  0.6818  0.0146  0.4086  1.0000\n  C   C8        1.0000  0.3182  0.6964  0.0914  1.0000\n  C   C9        1.0000  0.3182  0.9854  0.9086  1.0000\n  C   C10       1.0000  0.3182  0.6964  0.4086  1.0000\n  C   C11       1.0000  0.3182  0.9854  0.5914  1.0000\n  N   N2        1.0000  0.0000  0.5775  0.2500  1.0000\n  N   N3        1.0000  0.0000  0.4225  0.7500  1.0000\n  N   N4        1.0000  0.3808  0.9753  0.2500  1.0000\n  N   N5        1.0000  0.3808  0.6439  0.7500  1.0000\n  N   N6        1.0000  0.6192  0.0247  0.7500  1.0000\n  N   N7        1.0000  0.6192  0.3561  0.2500  1.0000\n  N   N8        1.0000  0.0000  0.1197  0.9570  1.0000\n  N   N9        1.0000  0.0000  0.8803  0.0430  1.0000\n  N   N10       1.0000  0.0000  0.1197  0.5430  1.0000\n  N   N11       1.0000  0.0000  0.8803  0.4570  1.0000\n  C   C12       1.0000  0.3833  0.4733  0.8670  1.0000\n  N   N12       1.0000  0.3833  0.1433  0.1330  1.0000\n  N   N13       1.0000  0.3833  0.4733  0.6330  1.0000\n  N   N14       1.0000  0.3833  0.1433  0.3670  1.0000\n  N   N15       1.0000  0.6167  0.5267  0.1330  1.0000\n  N   N16       1.0000  0.6167  0.8567  0.8670  1.0000\n  N   N17       1.0000  0.6167  0.5267  0.3670  1.0000\n  N   N18       1.0000  0.6167  0.8567  0.6330  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c0906452-9a51-49e0-b325-32cbf316d1ac",
    "mp_id": "mp-1247634",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca4TiMn3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5937\n_cell_length_b   11.0451\n_cell_length_c   15.6324\n_cell_angle_alpha   90.6108\n_cell_angle_beta   89.9871\n_cell_angle_gamma   92.2520\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca4TiMn3O10\n_chemical_formula_sum   'Ca16 Ti4 Mn12 O40'\n_cell_volume   965.0183\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0600  0.9795  0.1196  1\n  Ca  Ca1  1  0.0428  0.9829  0.6198  1\n  Ca  Ca2  1  0.9673  0.5412  0.1239  1\n  Ca  Ca3  1  0.9648  0.5498  0.6259  1\n  Ca  Ca4  1  0.9947  0.5152  0.3716  1\n  Ca  Ca5  1  0.9572  0.5239  0.8694  1\n  Ca  Ca6  1  0.0194  0.9600  0.3883  1\n  Ca  Ca7  1  0.0160  0.9531  0.8781  1\n  Ca  Ca8  1  0.4597  0.2468  0.3949  1\n  Ca  Ca9  1  0.5255  0.2442  0.8847  1\n  Ca  Ca10  1  0.5297  0.7614  0.3805  1\n  Ca  Ca11  1  0.4916  0.7318  0.8644  1\n  Ca  Ca12  1  0.4614  0.2278  0.1217  1\n  Ca  Ca13  1  0.4784  0.2259  0.6199  1\n  Ca  Ca14  1  0.5088  0.7636  0.1269  1\n  Ca  Ca15  1  0.5206  0.7833  0.6206  1\n  Ti  Ti16  1  0.5308  0.9863  0.9943  1\n  Ti  Ti17  1  0.0346  0.2411  0.9789  1\n  Ti  Ti18  1  0.8942  0.2621  0.2419  1\n  Ti  Ti19  1  0.5555  0.9917  0.2542  1\n  Mn  Mn20  1  0.5171  0.0025  0.4980  1\n  Mn  Mn21  1  0.4471  0.5000  0.9938  1\n  Mn  Mn22  1  0.4731  0.5042  0.4945  1\n  Mn  Mn23  1  0.0221  0.2337  0.5168  1\n  Mn  Mn24  1  0.9827  0.7425  0.0011  1\n  Mn  Mn25  1  0.0063  0.7474  0.5020  1\n  Mn  Mn26  1  0.9072  0.2734  0.7378  1\n  Mn  Mn27  1  0.0156  0.7479  0.2481  1\n  Mn  Mn28  1  0.0074  0.7564  0.7490  1\n  Mn  Mn29  1  0.5343  0.0018  0.7556  1\n  Mn  Mn30  1  0.5141  0.5023  0.2548  1\n  Mn  Mn31  1  0.4951  0.5048  0.7434  1\n  O  O32  1  0.1941  0.5698  0.2485  1\n  O  O33  1  0.1883  0.5939  0.7581  1\n  O  O34  1  0.7365  0.3852  0.1851  1\n  O  O35  1  0.7075  0.4000  0.6718  1\n  O  O36  1  0.8253  0.9182  0.2297  1\n  O  O37  1  0.8392  0.9073  0.7401  1\n  O  O38  1  0.6059  0.1706  0.2588  1\n  O  O39  1  0.5901  0.1758  0.7541  1\n  O  O40  1  0.7118  0.6560  0.2307  1\n  O  O41  1  0.7094  0.6583  0.7280  1\n  O  O42  1  0.3097  0.8686  0.2623  1\n  O  O43  1  0.2990  0.8618  0.7803  1\n  O  O44  1  0.2923  0.3541  0.5158  1\n  O  O45  1  0.2346  0.3542  0.0343  1\n  O  O46  1  0.3007  0.8546  0.4837  1\n  O  O47  1  0.3244  0.8599  0.9773  1\n  O  O48  1  0.7286  0.1996  0.0107  1\n  O  O49  1  0.7027  0.1638  0.5024  1\n  O  O50  1  0.6766  0.6278  0.0342  1\n  O  O51  1  0.7024  0.6375  0.5225  1\n  O  O52  1  0.8110  0.9015  0.0139  1\n  O  O53  1  0.8003  0.8918  0.5140  1\n  O  O54  1  0.2307  0.0995  0.4723  1\n  O  O55  1  0.2242  0.1093  0.9715  1\n  O  O56  1  0.1822  0.5966  0.4938  1\n  O  O57  1  0.1567  0.5971  0.9868  1\n  O  O58  1  0.6054  0.9882  0.3697  1\n  O  O59  1  0.6153  0.0216  0.8804  1\n  O  O60  1  0.5934  0.4538  0.3794  1\n  O  O61  1  0.5563  0.4589  0.8708  1\n  O  O62  1  0.4738  0.0116  0.1191  1\n  O  O63  1  0.4621  0.9988  0.6347  1\n  O  O64  1  0.0792  0.1794  0.1699  1\n  O  O65  1  0.0736  0.1938  0.6427  1\n  O  O66  1  0.0852  0.7560  0.1230  1\n  O  O67  1  0.0864  0.7587  0.6281  1\n  O  O68  1  0.0516  0.3021  0.3397  1\n  O  O69  1  0.0047  0.2976  0.8686  1\n  O  O70  1  0.9483  0.7455  0.3717  1\n  O  O71  1  0.9129  0.7431  0.8773  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca16Ti4Mn10OMnO3MnO36\n_chemical_formula_sum              \"Ca16 Ti4 Mn12 O40\"\n_cell_length_a       5.5937\n_cell_length_b       11.0451\n_cell_length_c       15.6324\n_cell_angle_alpha    90.6108\n_cell_angle_beta     89.9871\n_cell_angle_gamma    92.2520\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0600  0.9795  0.1196  1.0000\n  Ca  Ca2       1.0000  0.0428  0.9829  0.6198  1.0000\n  Ca  Ca3       1.0000  0.9673  0.5412  0.1239  1.0000\n  Ca  Ca4       1.0000  0.9648  0.5498  0.6259  1.0000\n  Ca  Ca5       1.0000  0.9947  0.5152  0.3716  1.0000\n  Ca  Ca6       1.0000  0.9572  0.5239  0.8694  1.0000\n  Ca  Ca7       1.0000  0.0194  0.9600  0.3883  1.0000\n  Ca  Ca8       1.0000  0.0160  0.9531  0.8781  1.0000\n  Ca  Ca9       1.0000  0.4597  0.2468  0.3949  1.0000\n  Ca  Ca10      1.0000  0.5255  0.2442  0.8847  1.0000\n  Ca  Ca11      1.0000  0.5297  0.7614  0.3805  1.0000\n  Ca  Ca12      1.0000  0.4916  0.7318  0.8644  1.0000\n  Ca  Ca13      1.0000  0.4614  0.2278  0.1217  1.0000\n  Ca  Ca14      1.0000  0.4784  0.2259  0.6199  1.0000\n  Ca  Ca15      1.0000  0.5088  0.7636  0.1269  1.0000\n  Ca  Ca16      1.0000  0.5206  0.7833  0.6206  1.0000\n  Ti  Ti1       1.0000  0.5308  0.9863  0.9943  1.0000\n  Ti  Ti2       1.0000  0.0346  0.2411  0.9789  1.0000\n  Ti  Ti3       1.0000  0.8942  0.2621  0.2419  1.0000\n  Ti  Ti4       1.0000  0.5555  0.9917  0.2542  1.0000\n  Mn  Mn1       1.0000  0.5171  0.0025  0.4980  1.0000\n  Mn  Mn2       1.0000  0.4471  0.5000  0.9938  1.0000\n  Mn  Mn3       1.0000  0.4731  0.5042  0.4945  1.0000\n  Mn  Mn4       1.0000  0.0221  0.2337  0.5168  1.0000\n  Mn  Mn5       1.0000  0.9827  0.7425  0.0011  1.0000\n  Mn  Mn6       1.0000  0.0063  0.7474  0.5020  1.0000\n  Mn  Mn7       1.0000  0.9072  0.2734  0.7378  1.0000\n  Mn  Mn8       1.0000  0.0156  0.7479  0.2481  1.0000\n  Mn  Mn9       1.0000  0.0074  0.7564  0.7490  1.0000\n  Mn  Mn10      1.0000  0.5343  0.0018  0.7556  1.0000\n  O   O1        1.0000  0.5141  0.5023  0.2548  1.0000\n  Mn  Mn11      1.0000  0.4951  0.5048  0.7434  1.0000\n  O   O2        1.0000  0.1941  0.5698  0.2485  1.0000\n  O   O3        1.0000  0.1883  0.5939  0.7581  1.0000\n  O   O4        1.0000  0.7365  0.3852  0.1851  1.0000\n  Mn  Mn12      1.0000  0.7075  0.4000  0.6718  1.0000\n  O   O5        1.0000  0.8253  0.9182  0.2297  1.0000\n  O   O6        1.0000  0.8392  0.9073  0.7401  1.0000\n  O   O7        1.0000  0.6059  0.1706  0.2588  1.0000\n  O   O8        1.0000  0.5901  0.1758  0.7541  1.0000\n  O   O9        1.0000  0.7118  0.6560  0.2307  1.0000\n  O   O10       1.0000  0.7094  0.6583  0.7280  1.0000\n  O   O11       1.0000  0.3097  0.8686  0.2623  1.0000\n  O   O12       1.0000  0.2990  0.8618  0.7803  1.0000\n  O   O13       1.0000  0.2923  0.3541  0.5158  1.0000\n  O   O14       1.0000  0.2346  0.3542  0.0343  1.0000\n  O   O15       1.0000  0.3007  0.8546  0.4837  1.0000\n  O   O16       1.0000  0.3244  0.8599  0.9773  1.0000\n  O   O17       1.0000  0.7286  0.1996  0.0107  1.0000\n  O   O18       1.0000  0.7027  0.1638  0.5024  1.0000\n  O   O19       1.0000  0.6766  0.6278  0.0342  1.0000\n  O   O20       1.0000  0.7024  0.6375  0.5225  1.0000\n  O   O21       1.0000  0.8110  0.9015  0.0139  1.0000\n  O   O22       1.0000  0.8003  0.8918  0.5140  1.0000\n  O   O23       1.0000  0.2307  0.0995  0.4723  1.0000\n  O   O24       1.0000  0.2242  0.1093  0.9715  1.0000\n  O   O25       1.0000  0.1822  0.5966  0.4938  1.0000\n  O   O26       1.0000  0.1567  0.5971  0.9868  1.0000\n  O   O27       1.0000  0.6054  0.9882  0.3697  1.0000\n  O   O28       1.0000  0.6153  0.0216  0.8804  1.0000\n  O   O29       1.0000  0.5934  0.4538  0.3794  1.0000\n  O   O30       1.0000  0.5563  0.4589  0.8708  1.0000\n  O   O31       1.0000  0.4738  0.0116  0.1191  1.0000\n  O   O32       1.0000  0.4621  0.9988  0.6347  1.0000\n  O   O33       1.0000  0.0792  0.1794  0.1699  1.0000\n  O   O34       1.0000  0.0736  0.1938  0.6427  1.0000\n  O   O35       1.0000  0.0852  0.7560  0.1230  1.0000\n  O   O36       1.0000  0.0864  0.7587  0.6281  1.0000\n  O   O37       1.0000  0.0516  0.3021  0.3397  1.0000\n  O   O38       1.0000  0.0047  0.2976  0.8686  1.0000\n  O   O39       1.0000  0.9483  0.7455  0.3717  1.0000\n  O   O40       1.0000  0.9129  0.7431  0.8773  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7b3e6958-6bfb-436f-affa-f0a57d7b2203",
    "mp_id": "mp-1247690",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCa7Mn8O24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6189\n_cell_length_b   7.6189\n_cell_length_c   7.6189\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCa7Mn8O24\n_chemical_formula_sum   'Sr1 Ca7 Mn8 O24'\n_cell_volume   442.2645\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.2500  0.2500  1\n  Ca  Ca1  1  0.2500  0.2500  0.7500  1\n  Ca  Ca2  1  0.2500  0.7500  0.2500  1\n  Ca  Ca3  1  0.2500  0.7500  0.7500  1\n  Ca  Ca4  1  0.7500  0.2500  0.2500  1\n  Ca  Ca5  1  0.7500  0.2500  0.7500  1\n  Ca  Ca6  1  0.7500  0.7500  0.2500  1\n  Ca  Ca7  1  0.7500  0.7500  0.7500  1\n  Mn  Mn8  1  0.9996  0.9996  0.9996  1\n  Mn  Mn9  1  0.9996  0.9996  0.5004  1\n  Mn  Mn10  1  0.9996  0.5004  0.9996  1\n  Mn  Mn11  1  0.9996  0.5004  0.5004  1\n  Mn  Mn12  1  0.5004  0.9996  0.9996  1\n  Mn  Mn13  1  0.5004  0.9996  0.5004  1\n  Mn  Mn14  1  0.5004  0.5004  0.9996  1\n  Mn  Mn15  1  0.5004  0.5004  0.5004  1\n  O  O16  1  0.9983  0.9983  0.2500  1\n  O  O17  1  0.9999  0.9999  0.7500  1\n  O  O18  1  0.9983  0.5017  0.2500  1\n  O  O19  1  0.9999  0.5001  0.7500  1\n  O  O20  1  0.5017  0.9983  0.2500  1\n  O  O21  1  0.5001  0.9999  0.7500  1\n  O  O22  1  0.5017  0.5017  0.2500  1\n  O  O23  1  0.5001  0.5001  0.7500  1\n  O  O24  1  0.2500  0.9983  0.9983  1\n  O  O25  1  0.2500  0.9983  0.5017  1\n  O  O26  1  0.2500  0.5017  0.9983  1\n  O  O27  1  0.2500  0.5017  0.5017  1\n  O  O28  1  0.7500  0.9999  0.9999  1\n  O  O29  1  0.7500  0.9999  0.5001  1\n  O  O30  1  0.7500  0.5001  0.9999  1\n  O  O31  1  0.7500  0.5001  0.5001  1\n  O  O32  1  0.9983  0.2500  0.9983  1\n  O  O33  1  0.9983  0.2500  0.5017  1\n  O  O34  1  0.9999  0.7500  0.9999  1\n  O  O35  1  0.9999  0.7500  0.5001  1\n  O  O36  1  0.5017  0.2500  0.9983  1\n  O  O37  1  0.5017  0.2500  0.5017  1\n  O  O38  1  0.5001  0.7500  0.9999  1\n  O  O39  1  0.5001  0.7500  0.5001  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrCa7Mn2OMn5O11MnO12\n_chemical_formula_sum              \"Sr1 Ca7 Mn8 O24\"\n_cell_length_a       7.6189\n_cell_length_b       7.6189\n_cell_length_c       7.6189\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Ca  Ca1       1.0000  0.2500  0.2500  0.7500  1.0000\n  Ca  Ca2       1.0000  0.2500  0.7500  0.2500  1.0000\n  Ca  Ca3       1.0000  0.2500  0.7500  0.7500  1.0000\n  Ca  Ca4       1.0000  0.7500  0.2500  0.2500  1.0000\n  Ca  Ca5       1.0000  0.7500  0.2500  0.7500  1.0000\n  Ca  Ca6       1.0000  0.7500  0.7500  0.2500  1.0000\n  Ca  Ca7       1.0000  0.7500  0.7500  0.7500  1.0000\n  Mn  Mn1       1.0000  0.9996  0.9996  0.9996  1.0000\n  Mn  Mn2       1.0000  0.9996  0.9996  0.5004  1.0000\n  O   O1        1.0000  0.9996  0.5004  0.9996  1.0000\n  Mn  Mn3       1.0000  0.9996  0.5004  0.5004  1.0000\n  Mn  Mn4       1.0000  0.5004  0.9996  0.9996  1.0000\n  Mn  Mn5       1.0000  0.5004  0.9996  0.5004  1.0000\n  Mn  Mn6       1.0000  0.5004  0.5004  0.9996  1.0000\n  Mn  Mn7       1.0000  0.5004  0.5004  0.5004  1.0000\n  O   O2        1.0000  0.9983  0.9983  0.2500  1.0000\n  O   O3        1.0000  0.9999  0.9999  0.7500  1.0000\n  O   O4        1.0000  0.9983  0.5017  0.2500  1.0000\n  O   O5        1.0000  0.9999  0.5001  0.7500  1.0000\n  O   O6        1.0000  0.5017  0.9983  0.2500  1.0000\n  O   O7        1.0000  0.5001  0.9999  0.7500  1.0000\n  O   O8        1.0000  0.5017  0.5017  0.2500  1.0000\n  O   O9        1.0000  0.5001  0.5001  0.7500  1.0000\n  O   O10       1.0000  0.2500  0.9983  0.9983  1.0000\n  O   O11       1.0000  0.2500  0.9983  0.5017  1.0000\n  O   O12       1.0000  0.2500  0.5017  0.9983  1.0000\n  Mn  Mn8       1.0000  0.2500  0.5017  0.5017  1.0000\n  O   O13       1.0000  0.7500  0.9999  0.9999  1.0000\n  O   O14       1.0000  0.7500  0.9999  0.5001  1.0000\n  O   O15       1.0000  0.7500  0.5001  0.9999  1.0000\n  O   O16       1.0000  0.7500  0.5001  0.5001  1.0000\n  O   O17       1.0000  0.9983  0.2500  0.9983  1.0000\n  O   O18       1.0000  0.9983  0.2500  0.5017  1.0000\n  O   O19       1.0000  0.9999  0.7500  0.9999  1.0000\n  O   O20       1.0000  0.9999  0.7500  0.5001  1.0000\n  O   O21       1.0000  0.5017  0.2500  0.9983  1.0000\n  O   O22       1.0000  0.5017  0.2500  0.5017  1.0000\n  O   O23       1.0000  0.5001  0.7500  0.9999  1.0000\n  O   O24       1.0000  0.5001  0.7500  0.5001  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c27bc27d-b6d6-4b1c-86ab-a325a2249b43",
    "mp_id": "mp-1250148",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na5(SiO3)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8167\n_cell_length_b   8.3375\n_cell_length_c   9.6072\n_cell_angle_alpha   65.3410\n_cell_angle_beta   69.0814\n_cell_angle_gamma   57.4602\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na5(SiO3)6\n_chemical_formula_sum   'Na5 Si6 O18'\n_cell_volume   472.4507\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  0.5000  0.5000  1\n  Na  Na1  1  0.9047  0.3244  0.0080  1\n  Na  Na2  1  0.6737  0.0551  0.5153  1\n  Na  Na3  1  0.0953  0.6756  0.9920  1\n  Na  Na4  1  0.3263  0.9449  0.4847  1\n  Si  Si5  1  0.1889  0.8092  0.2595  1\n  Si  Si6  1  0.8111  0.1908  0.7405  1\n  Si  Si7  1  0.6479  0.5801  0.2712  1\n  Si  Si8  1  0.4331  0.3873  0.2379  1\n  Si  Si9  1  0.3521  0.4199  0.7288  1\n  Si  Si10  1  0.5669  0.6127  0.7621  1\n  O  O11  1  0.6229  0.3946  0.2708  1\n  O  O12  1  0.3771  0.6054  0.7292  1\n  O  O13  1  0.0862  0.9998  0.1183  1\n  O  O14  1  0.0087  0.8777  0.4031  1\n  O  O15  1  0.9138  0.0002  0.8817  1\n  O  O16  1  0.9913  0.1223  0.5969  1\n  O  O17  1  0.4137  0.7716  0.2730  1\n  O  O18  1  0.2213  0.6017  0.2458  1\n  O  O19  1  0.5863  0.2284  0.7270  1\n  O  O20  1  0.7787  0.3983  0.7542  1\n  O  O21  1  0.8260  0.6104  0.1282  1\n  O  O22  1  0.4109  0.1943  0.3423  1\n  O  O23  1  0.5087  0.5959  0.9566  1\n  O  O24  1  0.2568  0.4673  0.5843  1\n  O  O25  1  0.4913  0.4041  0.0434  1\n  O  O26  1  0.7432  0.5327  0.4157  1\n  O  O27  1  0.5891  0.8057  0.6577  1\n  O  O28  1  0.1740  0.3896  0.8718  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na5Si5O8SiO10\n_chemical_formula_sum              \"Na5 Si6 O18\"\n_cell_length_a       7.8167\n_cell_length_b       8.3375\n_cell_length_c       9.6072\n_cell_angle_alpha    65.3410\n_cell_angle_beta     69.0814\n_cell_angle_gamma    57.4602\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  1.0000  0.5000  0.5000  1.0000\n  Na  Na2       1.0000  0.9047  0.3244  0.0080  1.0000\n  Na  Na3       1.0000  0.6737  0.0551  0.5153  1.0000\n  Na  Na4       1.0000  0.0953  0.6756  0.9920  1.0000\n  Na  Na5       1.0000  0.3263  0.9449  0.4847  1.0000\n  Si  Si1       1.0000  0.1889  0.8092  0.2595  1.0000\n  Si  Si2       1.0000  0.8111  0.1908  0.7405  1.0000\n  Si  Si3       1.0000  0.6479  0.5801  0.2712  1.0000\n  Si  Si4       1.0000  0.4331  0.3873  0.2379  1.0000\n  Si  Si5       1.0000  0.3521  0.4199  0.7288  1.0000\n  O   O1        1.0000  0.5669  0.6127  0.7621  1.0000\n  O   O2        1.0000  0.6229  0.3946  0.2708  1.0000\n  O   O3        1.0000  0.3771  0.6054  0.7292  1.0000\n  O   O4        1.0000  0.0862  0.9998  0.1183  1.0000\n  O   O5        1.0000  0.0087  0.8777  0.4031  1.0000\n  O   O6        1.0000  0.9138  0.0002  0.8817  1.0000\n  O   O7        1.0000  0.9913  0.1223  0.5969  1.0000\n  O   O8        1.0000  0.4137  0.7716  0.2730  1.0000\n  Si  Si6       1.0000  0.2213  0.6017  0.2458  1.0000\n  O   O9        1.0000  0.5863  0.2284  0.7270  1.0000\n  O   O10       1.0000  0.7787  0.3983  0.7542  1.0000\n  O   O11       1.0000  0.8260  0.6104  0.1282  1.0000\n  O   O12       1.0000  0.4109  0.1943  0.3423  1.0000\n  O   O13       1.0000  0.5087  0.5959  0.9566  1.0000\n  O   O14       1.0000  0.2568  0.4673  0.5843  1.0000\n  O   O15       1.0000  0.4913  0.4041  0.0434  1.0000\n  O   O16       1.0000  0.7432  0.5327  0.4157  1.0000\n  O   O17       1.0000  0.5891  0.8057  0.6577  1.0000\n  O   O18       1.0000  0.1740  0.3896  0.8718  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f031280b-0116-4077-9bad-c7bc8e1d6a53",
    "mp_id": "mp-1250558",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Si2TeO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6170\n_cell_length_b   9.6170\n_cell_length_c   10.6609\n_cell_angle_alpha   58.9593\n_cell_angle_beta   58.9593\n_cell_angle_gamma   48.3120\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Si2TeO7\n_chemical_formula_sum   'Si8 Te4 O28'\n_cell_volume   607.4603\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.5266  0.1327  0.6649  1\n  Si  Si1  1  0.1327  0.5266  0.1649  1\n  Si  Si2  1  0.5413  0.1904  0.0988  1\n  Si  Si3  1  0.1904  0.5413  0.5988  1\n  Si  Si4  1  0.8673  0.4734  0.8351  1\n  Si  Si5  1  0.4587  0.8096  0.9012  1\n  Si  Si6  1  0.8096  0.4587  0.4012  1\n  Si  Si7  1  0.4734  0.8673  0.3351  1\n  Te  Te8  1  0.7922  0.2078  0.7500  1\n  Te  Te9  1  0.2078  0.7922  0.2500  1\n  Te  Te10  1  0.0000  0.0000  0.0000  1\n  Te  Te11  1  0.0000  0.0000  0.5000  1\n  O  O12  1  0.8800  0.2625  0.3736  1\n  O  O13  1  0.9497  0.9225  0.4014  1\n  O  O14  1  0.4469  0.7125  0.0893  1\n  O  O15  1  0.9225  0.9497  0.9014  1\n  O  O16  1  0.2607  0.9122  0.3318  1\n  O  O17  1  0.0074  0.5218  0.6679  1\n  O  O18  1  0.7125  0.4469  0.5893  1\n  O  O19  1  0.0878  0.7393  0.1682  1\n  O  O20  1  0.9926  0.4782  0.3321  1\n  O  O21  1  0.6352  0.6427  0.3223  1\n  O  O22  1  0.0503  0.0775  0.5986  1\n  O  O23  1  0.7393  0.0878  0.6682  1\n  O  O24  1  0.4782  0.9926  0.8321  1\n  O  O25  1  0.2625  0.8800  0.8736  1\n  O  O26  1  0.6427  0.6352  0.8223  1\n  O  O27  1  0.9122  0.2607  0.8318  1\n  O  O28  1  0.9045  0.4205  0.9853  1\n  O  O29  1  0.3648  0.3573  0.6777  1\n  O  O30  1  0.5795  0.0955  0.5147  1\n  O  O31  1  0.3573  0.3648  0.1777  1\n  O  O32  1  0.5218  0.0074  0.1679  1\n  O  O33  1  0.0775  0.0503  0.0986  1\n  O  O34  1  0.4205  0.9045  0.4853  1\n  O  O35  1  0.5531  0.2875  0.9107  1\n  O  O36  1  0.0955  0.5795  0.0147  1\n  O  O37  1  0.2875  0.5531  0.4107  1\n  O  O38  1  0.7375  0.1200  0.1264  1\n  O  O39  1  0.1200  0.7375  0.6264  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si8Te3O2TeO26\n_chemical_formula_sum              \"Si8 Te4 O28\"\n_cell_length_a       9.6170\n_cell_length_b       9.6170\n_cell_length_c       10.6609\n_cell_angle_alpha    58.9593\n_cell_angle_beta     58.9593\n_cell_angle_gamma    48.3120\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.5266  0.1327  0.6649  1.0000\n  Si  Si2       1.0000  0.1327  0.5266  0.1649  1.0000\n  Si  Si3       1.0000  0.5413  0.1904  0.0988  1.0000\n  Si  Si4       1.0000  0.1904  0.5413  0.5988  1.0000\n  Si  Si5       1.0000  0.8673  0.4734  0.8351  1.0000\n  Si  Si6       1.0000  0.4587  0.8096  0.9012  1.0000\n  Si  Si7       1.0000  0.8096  0.4587  0.4012  1.0000\n  Si  Si8       1.0000  0.4734  0.8673  0.3351  1.0000\n  Te  Te1       1.0000  0.7922  0.2078  0.7500  1.0000\n  Te  Te2       1.0000  0.2078  0.7922  0.2500  1.0000\n  Te  Te3       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.8800  0.2625  0.3736  1.0000\n  Te  Te4       1.0000  0.9497  0.9225  0.4014  1.0000\n  O   O3        1.0000  0.4469  0.7125  0.0893  1.0000\n  O   O4        1.0000  0.9225  0.9497  0.9014  1.0000\n  O   O5        1.0000  0.2607  0.9122  0.3318  1.0000\n  O   O6        1.0000  0.0074  0.5218  0.6679  1.0000\n  O   O7        1.0000  0.7125  0.4469  0.5893  1.0000\n  O   O8        1.0000  0.0878  0.7393  0.1682  1.0000\n  O   O9        1.0000  0.9926  0.4782  0.3321  1.0000\n  O   O10       1.0000  0.6352  0.6427  0.3223  1.0000\n  O   O11       1.0000  0.0503  0.0775  0.5986  1.0000\n  O   O12       1.0000  0.7393  0.0878  0.6682  1.0000\n  O   O13       1.0000  0.4782  0.9926  0.8321  1.0000\n  O   O14       1.0000  0.2625  0.8800  0.8736  1.0000\n  O   O15       1.0000  0.6427  0.6352  0.8223  1.0000\n  O   O16       1.0000  0.9122  0.2607  0.8318  1.0000\n  O   O17       1.0000  0.9045  0.4205  0.9853  1.0000\n  O   O18       1.0000  0.3648  0.3573  0.6777  1.0000\n  O   O19       1.0000  0.5795  0.0955  0.5147  1.0000\n  O   O20       1.0000  0.3573  0.3648  0.1777  1.0000\n  O   O21       1.0000  0.5218  0.0074  0.1679  1.0000\n  O   O22       1.0000  0.0775  0.0503  0.0986  1.0000\n  O   O23       1.0000  0.4205  0.9045  0.4853  1.0000\n  O   O24       1.0000  0.5531  0.2875  0.9107  1.0000\n  O   O25       1.0000  0.0955  0.5795  0.0147  1.0000\n  O   O26       1.0000  0.2875  0.5531  0.4107  1.0000\n  O   O27       1.0000  0.7375  0.1200  0.1264  1.0000\n  O   O28       1.0000  0.1200  0.7375  0.6264  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "15bf7990-9a41-4d6f-b66c-e2b575d71e7d",
    "mp_id": "mp-1253019",
    "action_prompt": "Swap the spatial positions of atoms at indices 51 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe(SiO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1129\n_cell_length_b   10.7615\n_cell_length_c   18.8324\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe(SiO3)2\n_chemical_formula_sum   'Fe8 Si16 O48'\n_cell_volume   1036.2031\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.4373  0.5486  0.3744  1\n  Fe  Fe1  1  0.5627  0.4514  0.6256  1\n  Fe  Fe2  1  0.9373  0.4514  0.1256  1\n  Fe  Fe3  1  0.0627  0.5486  0.8744  1\n  Fe  Fe4  1  0.4373  0.0486  0.1256  1\n  Fe  Fe5  1  0.5627  0.9514  0.8744  1\n  Fe  Fe6  1  0.9373  0.9514  0.3744  1\n  Fe  Fe7  1  0.0627  0.0486  0.6256  1\n  Si  Si8  1  0.6226  0.1682  0.2778  1\n  Si  Si9  1  0.7623  0.3302  0.9724  1\n  Si  Si10  1  0.7377  0.3302  0.4724  1\n  Si  Si11  1  0.8774  0.6682  0.7222  1\n  Si  Si12  1  0.1226  0.8318  0.2222  1\n  Si  Si13  1  0.3774  0.3318  0.7778  1\n  Si  Si14  1  0.2623  0.1698  0.9724  1\n  Si  Si15  1  0.7623  0.8302  0.5276  1\n  Si  Si16  1  0.7377  0.8302  0.0276  1\n  Si  Si17  1  0.8774  0.1682  0.7778  1\n  Si  Si18  1  0.3774  0.8318  0.7222  1\n  Si  Si19  1  0.6226  0.6682  0.2222  1\n  Si  Si20  1  0.2377  0.6698  0.0276  1\n  Si  Si21  1  0.1226  0.3318  0.2778  1\n  Si  Si22  1  0.2377  0.1698  0.4724  1\n  Si  Si23  1  0.2623  0.6698  0.5276  1\n  O  O24  1  0.8057  0.0436  0.8219  1\n  O  O25  1  0.3302  0.5459  0.5730  1\n  O  O26  1  0.1943  0.9564  0.1781  1\n  O  O27  1  0.7674  0.8577  0.4430  1\n  O  O28  1  0.2674  0.6423  0.4430  1\n  O  O29  1  0.9653  0.7168  0.5473  1\n  O  O30  1  0.8708  0.1383  0.6929  1\n  O  O31  1  0.1292  0.3617  0.1929  1\n  O  O32  1  0.7674  0.3577  0.0570  1\n  O  O33  1  0.8708  0.6383  0.8071  1\n  O  O34  1  0.3057  0.9564  0.6781  1\n  O  O35  1  0.7326  0.8577  0.9430  1\n  O  O36  1  0.6698  0.4541  0.4270  1\n  O  O37  1  0.3708  0.3617  0.6929  1\n  O  O38  1  0.6943  0.5436  0.1781  1\n  O  O39  1  0.3302  0.0459  0.9270  1\n  O  O40  1  0.3057  0.4564  0.8219  1\n  O  O41  1  0.1711  0.2198  0.7972  1\n  O  O42  1  0.3289  0.2198  0.2972  1\n  O  O43  1  0.5347  0.2168  0.4527  1\n  O  O44  1  0.7326  0.3577  0.5570  1\n  O  O45  1  0.6292  0.1383  0.1929  1\n  O  O46  1  0.8302  0.9541  0.5730  1\n  O  O47  1  0.1711  0.7198  0.7028  1\n  O  O48  1  0.2326  0.6423  0.9430  1\n  O  O49  1  0.6292  0.6383  0.3071  1\n  O  O50  1  0.6698  0.9541  0.0730  1\n  O  O51  1  0.2674  0.1423  0.0570  1\n  O  O52  1  0.1698  0.0459  0.4270  1\n  O  O53  1  0.6711  0.2802  0.7972  1\n  O  O54  1  0.1943  0.4564  0.3219  1\n  O  O55  1  0.8289  0.2802  0.2972  1\n  O  O56  1  0.8289  0.7802  0.2028  1\n  O  O57  1  0.8302  0.4541  0.9270  1\n  O  O58  1  0.2326  0.1423  0.5570  1\n  O  O59  1  0.1698  0.5459  0.0730  1\n  O  O60  1  0.3289  0.7198  0.2028  1\n  O  O61  1  0.0347  0.2832  0.4527  1\n  O  O62  1  0.4653  0.2832  0.9527  1\n  O  O63  1  0.6711  0.7802  0.7028  1\n  O  O64  1  0.4653  0.7832  0.5473  1\n  O  O65  1  0.5347  0.7168  0.0473  1\n  O  O66  1  0.0347  0.7832  0.0473  1\n  O  O67  1  0.3708  0.8617  0.8071  1\n  O  O68  1  0.6943  0.0436  0.3219  1\n  O  O69  1  0.9653  0.2168  0.9527  1\n  O  O70  1  0.1292  0.8617  0.3071  1\n  O  O71  1  0.8057  0.5436  0.6781  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe8Si12OSi3O27SiO20\n_chemical_formula_sum              \"Fe8 Si16 O48\"\n_cell_length_a       5.1129\n_cell_length_b       10.7615\n_cell_length_c       18.8324\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.4373  0.5486  0.3744  1.0000\n  Fe  Fe2       1.0000  0.5627  0.4514  0.6256  1.0000\n  Fe  Fe3       1.0000  0.9373  0.4514  0.1256  1.0000\n  Fe  Fe4       1.0000  0.0627  0.5486  0.8744  1.0000\n  Fe  Fe5       1.0000  0.4373  0.0486  0.1256  1.0000\n  Fe  Fe6       1.0000  0.5627  0.9514  0.8744  1.0000\n  Fe  Fe7       1.0000  0.9373  0.9514  0.3744  1.0000\n  Fe  Fe8       1.0000  0.0627  0.0486  0.6256  1.0000\n  Si  Si1       1.0000  0.6226  0.1682  0.2778  1.0000\n  Si  Si2       1.0000  0.7623  0.3302  0.9724  1.0000\n  Si  Si3       1.0000  0.7377  0.3302  0.4724  1.0000\n  Si  Si4       1.0000  0.8774  0.6682  0.7222  1.0000\n  Si  Si5       1.0000  0.1226  0.8318  0.2222  1.0000\n  Si  Si6       1.0000  0.3774  0.3318  0.7778  1.0000\n  Si  Si7       1.0000  0.2623  0.1698  0.9724  1.0000\n  Si  Si8       1.0000  0.7623  0.8302  0.5276  1.0000\n  Si  Si9       1.0000  0.7377  0.8302  0.0276  1.0000\n  Si  Si10      1.0000  0.8774  0.1682  0.7778  1.0000\n  Si  Si11      1.0000  0.3774  0.8318  0.7222  1.0000\n  Si  Si12      1.0000  0.6226  0.6682  0.2222  1.0000\n  O   O1        1.0000  0.2377  0.6698  0.0276  1.0000\n  Si  Si13      1.0000  0.1226  0.3318  0.2778  1.0000\n  Si  Si14      1.0000  0.2377  0.1698  0.4724  1.0000\n  Si  Si15      1.0000  0.2623  0.6698  0.5276  1.0000\n  O   O2        1.0000  0.8057  0.0436  0.8219  1.0000\n  O   O3        1.0000  0.3302  0.5459  0.5730  1.0000\n  O   O4        1.0000  0.1943  0.9564  0.1781  1.0000\n  O   O5        1.0000  0.7674  0.8577  0.4430  1.0000\n  O   O6        1.0000  0.2674  0.6423  0.4430  1.0000\n  O   O7        1.0000  0.9653  0.7168  0.5473  1.0000\n  O   O8        1.0000  0.8708  0.1383  0.6929  1.0000\n  O   O9        1.0000  0.1292  0.3617  0.1929  1.0000\n  O   O10       1.0000  0.7674  0.3577  0.0570  1.0000\n  O   O11       1.0000  0.8708  0.6383  0.8071  1.0000\n  O   O12       1.0000  0.3057  0.9564  0.6781  1.0000\n  O   O13       1.0000  0.7326  0.8577  0.9430  1.0000\n  O   O14       1.0000  0.6698  0.4541  0.4270  1.0000\n  O   O15       1.0000  0.3708  0.3617  0.6929  1.0000\n  O   O16       1.0000  0.6943  0.5436  0.1781  1.0000\n  O   O17       1.0000  0.3302  0.0459  0.9270  1.0000\n  O   O18       1.0000  0.3057  0.4564  0.8219  1.0000\n  O   O19       1.0000  0.1711  0.2198  0.7972  1.0000\n  O   O20       1.0000  0.3289  0.2198  0.2972  1.0000\n  O   O21       1.0000  0.5347  0.2168  0.4527  1.0000\n  O   O22       1.0000  0.7326  0.3577  0.5570  1.0000\n  O   O23       1.0000  0.6292  0.1383  0.1929  1.0000\n  O   O24       1.0000  0.8302  0.9541  0.5730  1.0000\n  O   O25       1.0000  0.1711  0.7198  0.7028  1.0000\n  O   O26       1.0000  0.2326  0.6423  0.9430  1.0000\n  O   O27       1.0000  0.6292  0.6383  0.3071  1.0000\n  O   O28       1.0000  0.6698  0.9541  0.0730  1.0000\n  Si  Si16      1.0000  0.2674  0.1423  0.0570  1.0000\n  O   O29       1.0000  0.1698  0.0459  0.4270  1.0000\n  O   O30       1.0000  0.6711  0.2802  0.7972  1.0000\n  O   O31       1.0000  0.1943  0.4564  0.3219  1.0000\n  O   O32       1.0000  0.8289  0.2802  0.2972  1.0000\n  O   O33       1.0000  0.8289  0.7802  0.2028  1.0000\n  O   O34       1.0000  0.8302  0.4541  0.9270  1.0000\n  O   O35       1.0000  0.2326  0.1423  0.5570  1.0000\n  O   O36       1.0000  0.1698  0.5459  0.0730  1.0000\n  O   O37       1.0000  0.3289  0.7198  0.2028  1.0000\n  O   O38       1.0000  0.0347  0.2832  0.4527  1.0000\n  O   O39       1.0000  0.4653  0.2832  0.9527  1.0000\n  O   O40       1.0000  0.6711  0.7802  0.7028  1.0000\n  O   O41       1.0000  0.4653  0.7832  0.5473  1.0000\n  O   O42       1.0000  0.5347  0.7168  0.0473  1.0000\n  O   O43       1.0000  0.0347  0.7832  0.0473  1.0000\n  O   O44       1.0000  0.3708  0.8617  0.8071  1.0000\n  O   O45       1.0000  0.6943  0.0436  0.3219  1.0000\n  O   O46       1.0000  0.9653  0.2168  0.9527  1.0000\n  O   O47       1.0000  0.1292  0.8617  0.3071  1.0000\n  O   O48       1.0000  0.8057  0.5436  0.6781  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2d4b2cf3-595d-40a1-8e00-0e47b0c63197",
    "mp_id": "mp-1262123",
    "action_prompt": "Swap the spatial positions of atoms at indices 34 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al13(CuS8)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0168\n_cell_length_b   7.0168\n_cell_length_c   17.2611\n_cell_angle_alpha   89.7878\n_cell_angle_beta   89.7878\n_cell_angle_gamma   60.3830\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al13(CuS8)3\n_chemical_formula_sum   'Al13 Cu3 S24'\n_cell_volume   738.8226\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.3392  0.8216  0.1628  1\n  Al  Al1  1  0.0045  0.4927  0.4993  1\n  Al  Al2  1  0.6679  0.1630  0.8359  1\n  Al  Al3  1  0.1636  0.1636  0.3390  1\n  Al  Al4  1  0.8369  0.8369  0.6677  1\n  Al  Al5  1  0.8216  0.3392  0.1628  1\n  Al  Al6  1  0.4927  0.0045  0.4993  1\n  Al  Al7  1  0.1630  0.6679  0.8359  1\n  Al  Al8  1  0.3394  0.3394  0.1625  1\n  Al  Al9  1  0.6688  0.6688  0.8359  1\n  Al  Al10  1  0.8304  0.8304  0.2938  1\n  Al  Al11  1  0.4927  0.4927  0.6248  1\n  Al  Al12  1  0.1664  0.1664  0.9509  1\n  Cu  Cu13  1  0.8337  0.8337  0.0448  1\n  Cu  Cu14  1  0.5035  0.5035  0.3769  1\n  Cu  Cu15  1  0.1664  0.1664  0.7059  1\n  S  S16  1  0.6572  0.6572  0.0855  1\n  S  S17  1  0.3238  0.3238  0.4181  1\n  S  S18  1  0.9905  0.9905  0.7535  1\n  S  S19  1  0.1849  0.6578  0.0855  1\n  S  S20  1  0.8514  0.3269  0.4193  1\n  S  S21  1  0.5219  0.9882  0.7522  1\n  S  S22  1  0.4997  0.4997  0.2427  1\n  S  S23  1  0.1700  0.1700  0.5772  1\n  S  S24  1  0.8332  0.8332  0.9106  1\n  S  S25  1  0.6578  0.1849  0.0855  1\n  S  S26  1  0.3269  0.8514  0.4193  1\n  S  S27  1  0.9882  0.5219  0.7522  1\n  S  S28  1  0.0125  0.4758  0.2468  1\n  S  S29  1  0.6752  0.1461  0.5808  1\n  S  S30  1  0.3430  0.8135  0.9136  1\n  S  S31  1  0.1665  0.1665  0.0900  1\n  S  S32  1  0.8316  0.8316  0.4236  1\n  S  S33  1  0.5006  0.5006  0.7581  1\n  S  S34  1  0.4758  0.0125  0.2468  1\n  S  S35  1  0.1461  0.6752  0.5808  1\n  S  S36  1  0.8135  0.3430  0.9136  1\n  S  S37  1  0.0105  0.0105  0.2474  1\n  S  S38  1  0.6759  0.6759  0.5808  1\n  S  S39  1  0.3435  0.3435  0.9134  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al5SAl7Cu3S18AlS5\n_chemical_formula_sum              \"Al13 S24 Cu3\"\n_cell_length_a       7.0168\n_cell_length_b       7.0168\n_cell_length_c       17.2611\n_cell_angle_alpha    89.7878\n_cell_angle_beta     89.7878\n_cell_angle_gamma    60.3830\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.3392  0.8216  0.1628  1.0000\n  Al  Al2       1.0000  0.0045  0.4927  0.4993  1.0000\n  Al  Al3       1.0000  0.6679  0.1630  0.8359  1.0000\n  Al  Al4       1.0000  0.1636  0.1636  0.3390  1.0000\n  Al  Al5       1.0000  0.8369  0.8369  0.6677  1.0000\n  S   S1        1.0000  0.8216  0.3392  0.1628  1.0000\n  Al  Al6       1.0000  0.4927  0.0045  0.4993  1.0000\n  Al  Al7       1.0000  0.1630  0.6679  0.8359  1.0000\n  Al  Al8       1.0000  0.3394  0.3394  0.1625  1.0000\n  Al  Al9       1.0000  0.6688  0.6688  0.8359  1.0000\n  Al  Al10      1.0000  0.8304  0.8304  0.2938  1.0000\n  Al  Al11      1.0000  0.4927  0.4927  0.6248  1.0000\n  Al  Al12      1.0000  0.1664  0.1664  0.9510  1.0000\n  Cu  Cu1       1.0000  0.8337  0.8337  0.0448  1.0000\n  Cu  Cu2       1.0000  0.5035  0.5035  0.3769  1.0000\n  Cu  Cu3       1.0000  0.1664  0.1664  0.7059  1.0000\n  S   S2        1.0000  0.6572  0.6572  0.0855  1.0000\n  S   S3        1.0000  0.3238  0.3238  0.4181  1.0000\n  S   S4        1.0000  0.9905  0.9905  0.7535  1.0000\n  S   S5        1.0000  0.1849  0.6578  0.0855  1.0000\n  S   S6        1.0000  0.8514  0.3269  0.4193  1.0000\n  S   S7        1.0000  0.5219  0.9882  0.7522  1.0000\n  S   S8        1.0000  0.4997  0.4997  0.2427  1.0000\n  S   S9        1.0000  0.1700  0.1700  0.5772  1.0000\n  S   S10       1.0000  0.8332  0.8332  0.9106  1.0000\n  S   S11       1.0000  0.6578  0.1849  0.0855  1.0000\n  S   S12       1.0000  0.3269  0.8514  0.4193  1.0000\n  S   S13       1.0000  0.9882  0.5219  0.7522  1.0000\n  S   S14       1.0000  0.0125  0.4758  0.2468  1.0000\n  S   S15       1.0000  0.6752  0.1461  0.5808  1.0000\n  S   S16       1.0000  0.3430  0.8135  0.9136  1.0000\n  S   S17       1.0000  0.1665  0.1665  0.0900  1.0000\n  S   S18       1.0000  0.8316  0.8316  0.4236  1.0000\n  S   S19       1.0000  0.5006  0.5006  0.7581  1.0000\n  Al  Al13      1.0000  0.4758  0.0125  0.2468  1.0000\n  S   S20       1.0000  0.1461  0.6752  0.5808  1.0000\n  S   S21       1.0000  0.8135  0.3430  0.9136  1.0000\n  S   S22       1.0000  0.0105  0.0105  0.2474  1.0000\n  S   S23       1.0000  0.6759  0.6759  0.5808  1.0000\n  S   S24       1.0000  0.3435  0.3435  0.9134  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "32be66f6-1525-4013-bc37-c5dbff218940",
    "mp_id": "mp-12645",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiHoO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1327\n_cell_length_b   6.0941\n_cell_length_c   6.2171\n_cell_angle_alpha   90.0000\n_cell_angle_beta   119.3362\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiHoO2\n_chemical_formula_sum   'Li4 Ho4 O8'\n_cell_volume   202.5553\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2935  0.6564  0.0628  1\n  Li  Li1  1  0.7065  0.1564  0.4372  1\n  Li  Li2  1  0.7065  0.3436  0.9372  1\n  Li  Li3  1  0.2935  0.8436  0.5628  1\n  Ho  Ho4  1  0.2328  0.1308  0.9774  1\n  Ho  Ho5  1  0.2328  0.3692  0.4774  1\n  Ho  Ho6  1  0.7672  0.8692  0.0226  1\n  Ho  Ho7  1  0.7672  0.6308  0.5226  1\n  O  O8  1  0.4540  0.3917  0.2629  1\n  O  O9  1  0.9879  0.1729  0.1533  1\n  O  O10  1  0.5460  0.8917  0.2371  1\n  O  O11  1  0.5460  0.6083  0.7371  1\n  O  O12  1  0.0121  0.8271  0.8467  1\n  O  O13  1  0.0121  0.6729  0.3467  1\n  O  O14  1  0.9879  0.3271  0.6533  1\n  O  O15  1  0.4540  0.1083  0.7629  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Ho3O8Ho\n_chemical_formula_sum              \"Li4 Ho4 O8\"\n_cell_length_a       6.1327\n_cell_length_b       6.0941\n_cell_length_c       6.2171\n_cell_angle_alpha    90.0000\n_cell_angle_beta     119.3362\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2935  0.6564  0.0628  1.0000\n  Li  Li2       1.0000  0.7065  0.1564  0.4372  1.0000\n  Li  Li3       1.0000  0.7065  0.3436  0.9372  1.0000\n  Li  Li4       1.0000  0.2935  0.8436  0.5628  1.0000\n  Ho  Ho1       1.0000  0.2328  0.1308  0.9774  1.0000\n  Ho  Ho2       1.0000  0.2328  0.3692  0.4774  1.0000\n  Ho  Ho3       1.0000  0.7672  0.8692  0.0226  1.0000\n  O   O1        1.0000  0.7672  0.6308  0.5226  1.0000\n  O   O2        1.0000  0.4540  0.3917  0.2629  1.0000\n  O   O3        1.0000  0.9879  0.1729  0.1533  1.0000\n  O   O4        1.0000  0.5460  0.8917  0.2371  1.0000\n  O   O5        1.0000  0.5460  0.6083  0.7371  1.0000\n  O   O6        1.0000  0.0121  0.8271  0.8467  1.0000\n  O   O7        1.0000  0.0121  0.6729  0.3467  1.0000\n  O   O8        1.0000  0.9879  0.3271  0.6533  1.0000\n  Ho  Ho4       1.0000  0.4540  0.1083  0.7629  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "26b50b25-4508-4ece-9f35-33bc21d91f6a",
    "mp_id": "mp-1273464",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Fe3SnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9593\n_cell_length_b   10.1887\n_cell_length_c   6.0971\n_cell_angle_alpha   106.0731\n_cell_angle_beta   60.5178\n_cell_angle_gamma   89.3761\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Fe3SnO8\n_chemical_formula_sum   'Li4 Fe6 Sn2 O16'\n_cell_volume   304.8332\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3133  0.5642  0.3649  1\n  Li  Li1  1  0.8213  0.0639  0.3632  1\n  Li  Li2  1  0.1871  0.9359  0.6343  1\n  Li  Li3  1  0.6787  0.4361  0.6374  1\n  Fe  Fe4  1  0.2502  0.7503  0.9997  1\n  Fe  Fe5  1  0.7500  0.7500  0.9996  1\n  Fe  Fe6  1  0.9936  0.4991  0.0011  1\n  Fe  Fe7  1  0.7499  0.2499  0.0002  1\n  Fe  Fe8  1  0.2498  0.2501  0.0005  1\n  Fe  Fe9  1  0.5062  0.0007  0.9992  1\n  Sn  Sn10  1  0.7500  0.7497  0.4999  1\n  Sn  Sn11  1  0.2499  0.2503  0.5003  1\n  O  O12  1  0.0868  0.6339  0.7981  1\n  O  O13  1  0.6045  0.1345  0.8025  1\n  O  O14  1  0.4131  0.8666  0.2014  1\n  O  O15  1  0.8958  0.3648  0.1980  1\n  O  O16  1  0.8755  0.8596  0.2264  1\n  O  O17  1  0.4065  0.3612  0.2315  1\n  O  O18  1  0.1104  0.6221  0.2254  1\n  O  O19  1  0.6230  0.1277  0.2197  1\n  O  O20  1  0.6519  0.6317  0.2262  1\n  O  O21  1  0.1611  0.1293  0.2268  1\n  O  O22  1  0.8489  0.8678  0.7727  1\n  O  O23  1  0.3380  0.3715  0.7746  1\n  O  O24  1  0.3894  0.8772  0.7739  1\n  O  O25  1  0.8771  0.3727  0.7802  1\n  O  O26  1  0.6242  0.6404  0.7738  1\n  O  O27  1  0.0940  0.1389  0.7686  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2OLiFe6Sn2O2LiO13\n_chemical_formula_sum              \"Li4 O16 Fe6 Sn2\"\n_cell_length_a       5.9593\n_cell_length_b       10.1887\n_cell_length_c       6.0971\n_cell_angle_alpha    106.0731\n_cell_angle_beta     60.5178\n_cell_angle_gamma    89.3761\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3133  0.5642  0.3649  1.0000\n  Li  Li2       1.0000  0.8213  0.0639  0.3632  1.0000\n  O   O1        1.0000  0.1871  0.9359  0.6343  1.0000\n  Li  Li3       1.0000  0.6787  0.4361  0.6374  1.0000\n  Fe  Fe1       1.0000  0.2502  0.7503  0.9997  1.0000\n  Fe  Fe2       1.0000  0.7500  0.7500  0.9995  1.0000\n  Fe  Fe3       1.0000  0.9936  0.4991  0.0011  1.0000\n  Fe  Fe4       1.0000  0.7499  0.2499  0.0002  1.0000\n  Fe  Fe5       1.0000  0.2498  0.2501  0.0005  1.0000\n  Fe  Fe6       1.0000  0.5062  0.0007  0.9992  1.0000\n  Sn  Sn1       1.0000  0.7500  0.7497  0.4999  1.0000\n  Sn  Sn2       1.0000  0.2499  0.2503  0.5003  1.0000\n  O   O2        1.0000  0.0868  0.6339  0.7981  1.0000\n  O   O3        1.0000  0.6045  0.1345  0.8025  1.0000\n  Li  Li4       1.0000  0.4131  0.8666  0.2014  1.0000\n  O   O4        1.0000  0.8958  0.3648  0.1980  1.0000\n  O   O5        1.0000  0.8755  0.8596  0.2264  1.0000\n  O   O6        1.0000  0.4065  0.3612  0.2315  1.0000\n  O   O7        1.0000  0.1104  0.6221  0.2254  1.0000\n  O   O8        1.0000  0.6230  0.1277  0.2197  1.0000\n  O   O9        1.0000  0.6519  0.6317  0.2262  1.0000\n  O   O10       1.0000  0.1611  0.1293  0.2268  1.0000\n  O   O11       1.0000  0.8489  0.8678  0.7727  1.0000\n  O   O12       1.0000  0.3380  0.3715  0.7746  1.0000\n  O   O13       1.0000  0.3894  0.8772  0.7739  1.0000\n  O   O14       1.0000  0.8771  0.3727  0.7802  1.0000\n  O   O15       1.0000  0.6242  0.6404  0.7738  1.0000\n  O   O16       1.0000  0.0940  0.1389  0.7686  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3c35a026-801f-485a-beb8-16b912966ea9",
    "mp_id": "mp-1274050",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaMn3V4O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5406\n_cell_length_b   6.5246\n_cell_length_c   6.5369\n_cell_angle_alpha   70.1852\n_cell_angle_beta   71.1875\n_cell_angle_gamma   109.8523\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaMn3V4O12\n_chemical_formula_sum   'Ca1 Mn3 V4 O12'\n_cell_volume   214.5543\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.9998  0.9999  0.0001  1\n  Mn  Mn1  1  0.4998  0.4999  0.9999  1\n  Mn  Mn2  1  0.0004  0.5002  0.4999  1\n  Mn  Mn3  1  0.5000  0.0003  0.5003  1\n  V  V4  1  0.5000  0.0000  0.0000  1\n  V  V5  1  0.0000  0.0000  0.5000  1\n  V  V6  1  0.0000  0.4999  0.0001  1\n  V  V7  1  0.5000  0.5000  0.5001  1\n  O  O8  1  0.1032  0.8020  0.7136  1\n  O  O9  1  0.4843  0.1978  0.6990  1\n  O  O10  1  0.5155  0.8021  0.3012  1\n  O  O11  1  0.8969  0.1980  0.2864  1\n  O  O12  1  0.7024  0.8960  0.8059  1\n  O  O13  1  0.7048  0.5145  0.1902  1\n  O  O14  1  0.2951  0.4855  0.8097  1\n  O  O15  1  0.2976  0.1040  0.1940  1\n  O  O16  1  0.1856  0.2901  0.5107  1\n  O  O17  1  0.8006  0.2897  0.8954  1\n  O  O18  1  0.1994  0.7103  0.1044  1\n  O  O19  1  0.8146  0.7098  0.4892  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaMn3V2OVO3VO8\n_chemical_formula_sum              \"Ca1 Mn3 V4 O12\"\n_cell_length_a       6.5406\n_cell_length_b       6.5246\n_cell_length_c       6.5369\n_cell_angle_alpha    70.1852\n_cell_angle_beta     71.1875\n_cell_angle_gamma    109.8523\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.9998  0.9999  0.0001  1.0000\n  Mn  Mn1       1.0000  0.4998  0.4999  0.9999  1.0000\n  Mn  Mn2       1.0000  0.0004  0.5002  0.4999  1.0000\n  Mn  Mn3       1.0000  0.5000  0.0003  0.5003  1.0000\n  V   V1        1.0000  0.5000  0.0000  0.0000  1.0000\n  V   V2        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.4999  0.0001  1.0000\n  V   V3        1.0000  0.5000  0.5000  0.5001  1.0000\n  O   O2        1.0000  0.1032  0.8020  0.7136  1.0000\n  O   O3        1.0000  0.4843  0.1978  0.6990  1.0000\n  O   O4        1.0000  0.5155  0.8021  0.3012  1.0000\n  V   V4        1.0000  0.8969  0.1980  0.2864  1.0000\n  O   O5        1.0000  0.7024  0.8960  0.8059  1.0000\n  O   O6        1.0000  0.7048  0.5145  0.1902  1.0000\n  O   O7        1.0000  0.2951  0.4855  0.8097  1.0000\n  O   O8        1.0000  0.2976  0.1040  0.1940  1.0000\n  O   O9        1.0000  0.1856  0.2901  0.5107  1.0000\n  O   O10       1.0000  0.8006  0.2897  0.8954  1.0000\n  O   O11       1.0000  0.1994  0.7103  0.1044  1.0000\n  O   O12       1.0000  0.8146  0.7098  0.4892  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c803b2d2-edb2-45c7-9c51-2b660626c14e",
    "mp_id": "mp-1275879",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3TiV2O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9731\n_cell_length_b   6.6617\n_cell_length_c   6.7318\n_cell_angle_alpha   97.1067\n_cell_angle_beta   64.2271\n_cell_angle_gamma   77.0489\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3TiV2O6\n_chemical_formula_sum   'Li6 Ti2 V4 O12'\n_cell_volume   227.4948\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7468  0.3348  0.8396  1\n  Li  Li1  1  0.2482  0.3351  0.8388  1\n  Li  Li2  1  0.7531  0.9956  0.5016  1\n  Li  Li3  1  0.2527  0.9954  0.5015  1\n  Li  Li4  1  0.2534  0.6697  0.1610  1\n  Li  Li5  1  0.7535  0.6696  0.1611  1\n  Ti  Ti6  1  0.9957  0.3407  0.3427  1\n  Ti  Ti7  1  0.4962  0.3406  0.3417  1\n  V  V8  1  0.0015  0.6673  0.6661  1\n  V  V9  1  0.0039  0.9919  0.9932  1\n  V  V10  1  0.5018  0.6676  0.6663  1\n  V  V11  1  0.5039  0.9916  0.9931  1\n  O  O12  1  0.1188  0.0194  0.2404  1\n  O  O13  1  0.6191  0.0191  0.2403  1\n  O  O14  1  0.8839  0.6491  0.4089  1\n  O  O15  1  0.3841  0.6489  0.4092  1\n  O  O16  1  0.6260  0.6731  0.9158  1\n  O  O17  1  0.1261  0.6735  0.9155  1\n  O  O18  1  0.8755  0.0028  0.7607  1\n  O  O19  1  0.3754  0.0026  0.7609  1\n  O  O20  1  0.1390  0.3309  0.5613  1\n  O  O21  1  0.6386  0.3313  0.5616  1\n  O  O22  1  0.3637  0.3250  0.1088  1\n  O  O23  1  0.8633  0.3250  0.1089  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiVLi4Ti2V2LiVO12\n_chemical_formula_sum              \"Li6 V4 Ti2 O12\"\n_cell_length_a       5.9731\n_cell_length_b       6.6617\n_cell_length_c       6.7318\n_cell_angle_alpha    97.1067\n_cell_angle_beta     64.2271\n_cell_angle_gamma    77.0489\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7468  0.3348  0.8396  1.0000\n  V   V1        1.0000  0.2482  0.3351  0.8388  1.0000\n  Li  Li2       1.0000  0.7531  0.9956  0.5016  1.0000\n  Li  Li3       1.0000  0.2527  0.9954  0.5015  1.0000\n  Li  Li4       1.0000  0.2534  0.6697  0.1610  1.0000\n  Li  Li5       1.0000  0.7535  0.6696  0.1611  1.0000\n  Ti  Ti1       1.0000  0.9957  0.3407  0.3427  1.0000\n  Ti  Ti2       1.0000  0.4962  0.3406  0.3417  1.0000\n  V   V2        1.0000  0.0015  0.6673  0.6661  1.0000\n  V   V3        1.0000  0.0039  0.9919  0.9932  1.0000\n  Li  Li6       1.0000  0.5018  0.6676  0.6663  1.0000\n  V   V4        1.0000  0.5039  0.9916  0.9931  1.0000\n  O   O1        1.0000  0.1188  0.0194  0.2404  1.0000\n  O   O2        1.0000  0.6191  0.0191  0.2403  1.0000\n  O   O3        1.0000  0.8839  0.6491  0.4089  1.0000\n  O   O4        1.0000  0.3841  0.6489  0.4092  1.0000\n  O   O5        1.0000  0.6260  0.6731  0.9158  1.0000\n  O   O6        1.0000  0.1261  0.6735  0.9155  1.0000\n  O   O7        1.0000  0.8755  0.0028  0.7607  1.0000\n  O   O8        1.0000  0.3754  0.0026  0.7609  1.0000\n  O   O9        1.0000  0.1390  0.3309  0.5613  1.0000\n  O   O10       1.0000  0.6386  0.3313  0.5616  1.0000\n  O   O11       1.0000  0.3637  0.3250  0.1088  1.0000\n  O   O12       1.0000  0.8633  0.3250  0.1089  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "35f3deaa-1e97-4b6f-8475-b46b60961a47",
    "mp_id": "mp-1278738",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaMnO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9475\n_cell_length_b   5.5683\n_cell_length_c   5.5683\n_cell_angle_alpha   90.0143\n_cell_angle_beta   89.9996\n_cell_angle_gamma   90.0005\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaMnO3\n_chemical_formula_sum   'La2 Mn2 O6'\n_cell_volume   122.3988\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.0000  1.0000  1.0000  1\n  La  La1  1  0.0000  0.5000  0.5000  1\n  Mn  Mn2  1  0.5000  0.0000  0.5000  1\n  Mn  Mn3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.0000  0.5000  0.0000  1\n  O  O5  1  0.0000  1.0000  0.5000  1\n  O  O6  1  0.5000  0.2411  0.7411  1\n  O  O7  1  0.5000  0.7589  0.2589  1\n  O  O8  1  0.5000  0.2411  0.2589  1\n  O  O9  1  0.5000  0.7589  0.7411  1\n",
    "output": "data_image0\n_chemical_formula_structural       LaOMn2LaO5\n_chemical_formula_sum              \"La2 O6 Mn2\"\n_cell_length_a       3.9475\n_cell_length_b       5.5683\n_cell_length_c       5.5683\n_cell_angle_alpha    90.0143\n_cell_angle_beta     89.9996\n_cell_angle_gamma    90.0005\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.0000  1.0000  1.0000  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.5000  0.5000  2e-06  1.0000\n  La  La2       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  1.0000  0.5000  1.0000\n  O   O3        1.0000  0.5000  0.2411  0.7411  1.0000\n  O   O4        1.0000  0.5000  0.7589  0.2589  1.0000\n  O   O5        1.0000  0.5000  0.2411  0.2589  1.0000\n  O   O6        1.0000  0.5000  0.7589  0.7411  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "95bd4393-a97b-40f7-b95b-8af86c142820",
    "mp_id": "mp-1290926",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3(CoO2)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9458\n_cell_length_b   11.2814\n_cell_length_c   7.7873\n_cell_angle_alpha   87.6194\n_cell_angle_beta   108.5299\n_cell_angle_gamma   97.6043\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3(CoO2)5\n_chemical_formula_sum   'Na6 Co10 O20'\n_cell_volume   408.3544\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.8121  0.2514  0.8000  1\n  Na  Na1  1  0.3179  0.7508  0.8002  1\n  Na  Na2  1  0.0188  0.2491  0.1949  1\n  Na  Na3  1  0.5054  0.7442  0.1935  1\n  Na  Na4  1  0.6228  0.2487  0.4045  1\n  Na  Na5  1  0.1111  0.7444  0.4068  1\n  Co  Co6  1  0.9090  0.5074  0.7999  1\n  Co  Co7  1  0.3977  0.0153  0.8002  1\n  Co  Co8  1  0.4961  0.4981  0.9960  1\n  Co  Co9  1  0.9946  0.9903  0.9985  1\n  Co  Co10  1  0.3000  0.4981  0.6038  1\n  Co  Co11  1  0.7975  0.9901  0.6024  1\n  Co  Co12  1  0.6049  0.0030  0.2047  1\n  Co  Co13  1  0.0986  0.5021  0.1958  1\n  Co  Co14  1  0.1995  0.0027  0.3942  1\n  Co  Co15  1  0.7027  0.5020  0.4041  1\n  O  O16  1  0.0883  0.0943  0.7998  1\n  O  O17  1  0.5889  0.5857  0.8000  1\n  O  O18  1  0.2096  0.4160  0.7999  1\n  O  O19  1  0.6838  0.9076  0.8012  1\n  O  O20  1  0.3060  0.0928  0.2140  1\n  O  O21  1  0.7865  0.5869  0.2001  1\n  O  O22  1  0.8928  0.0924  0.3847  1\n  O  O23  1  0.3865  0.5870  0.4001  1\n  O  O24  1  0.7078  0.0948  0.0185  1\n  O  O25  1  0.2116  0.5950  0.9881  1\n  O  O26  1  0.4911  0.0946  0.5820  1\n  O  O27  1  0.0234  0.5949  0.6120  1\n  O  O28  1  0.8112  0.4161  0.9954  1\n  O  O29  1  0.3252  0.9108  0.0184  1\n  O  O30  1  0.6155  0.4160  0.6043  1\n  O  O31  1  0.1064  0.9103  0.5828  1\n  O  O32  1  0.0045  0.4076  0.4161  1\n  O  O33  1  0.4870  0.9082  0.3823  1\n  O  O34  1  0.3882  0.4077  0.1837  1\n  O  O35  1  0.9053  0.9075  0.2170  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na5OCo10O12NaO7\n_chemical_formula_sum              \"Na6 O20 Co10\"\n_cell_length_a       4.9458\n_cell_length_b       11.2814\n_cell_length_c       7.7873\n_cell_angle_alpha    87.6194\n_cell_angle_beta     108.5299\n_cell_angle_gamma    97.6043\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.8121  0.2514  0.8000  1.0000\n  Na  Na2       1.0000  0.3179  0.7508  0.8002  1.0000\n  Na  Na3       1.0000  0.0188  0.2491  0.1949  1.0000\n  Na  Na4       1.0000  0.5054  0.7442  0.1935  1.0000\n  Na  Na5       1.0000  0.6228  0.2487  0.4045  1.0000\n  O   O1        1.0000  0.1111  0.7444  0.4068  1.0000\n  Co  Co1       1.0000  0.9090  0.5074  0.7999  1.0000\n  Co  Co2       1.0000  0.3977  0.0153  0.8002  1.0000\n  Co  Co3       1.0000  0.4961  0.4981  0.9960  1.0000\n  Co  Co4       1.0000  0.9946  0.9903  0.9985  1.0000\n  Co  Co5       1.0000  0.3000  0.4981  0.6038  1.0000\n  Co  Co6       1.0000  0.7975  0.9901  0.6024  1.0000\n  Co  Co7       1.0000  0.6049  0.0030  0.2047  1.0000\n  Co  Co8       1.0000  0.0986  0.5021  0.1958  1.0000\n  Co  Co9       1.0000  0.1995  0.0027  0.3942  1.0000\n  Co  Co10      1.0000  0.7027  0.5020  0.4041  1.0000\n  O   O2        1.0000  0.0883  0.0943  0.7998  1.0000\n  O   O3        1.0000  0.5889  0.5857  0.8000  1.0000\n  O   O4        1.0000  0.2096  0.4160  0.7999  1.0000\n  O   O5        1.0000  0.6838  0.9076  0.8012  1.0000\n  O   O6        1.0000  0.3060  0.0928  0.2140  1.0000\n  O   O7        1.0000  0.7865  0.5869  0.2001  1.0000\n  O   O8        1.0000  0.8928  0.0924  0.3847  1.0000\n  O   O9        1.0000  0.3865  0.5870  0.4001  1.0000\n  O   O10       1.0000  0.7078  0.0948  0.0185  1.0000\n  O   O11       1.0000  0.2116  0.5950  0.9881  1.0000\n  O   O12       1.0000  0.4911  0.0946  0.5820  1.0000\n  O   O13       1.0000  0.0234  0.5949  0.6120  1.0000\n  Na  Na6       1.0000  0.8112  0.4161  0.9954  1.0000\n  O   O14       1.0000  0.3252  0.9108  0.0184  1.0000\n  O   O15       1.0000  0.6155  0.4160  0.6043  1.0000\n  O   O16       1.0000  0.1064  0.9103  0.5828  1.0000\n  O   O17       1.0000  0.0045  0.4076  0.4161  1.0000\n  O   O18       1.0000  0.4870  0.9082  0.3823  1.0000\n  O   O19       1.0000  0.3882  0.4077  0.1837  1.0000\n  O   O20       1.0000  0.9053  0.9075  0.2170  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "65a7f901-8e2a-429e-83c1-77a851ac1ddc",
    "mp_id": "mp-1290947",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Mn2P2O8F3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4736\n_cell_length_b   6.4440\n_cell_length_c   6.9753\n_cell_angle_alpha   61.1512\n_cell_angle_beta   62.0806\n_cell_angle_gamma   88.3183\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Mn2P2O8F3\n_chemical_formula_sum   'Li3 Mn2 P2 O8 F3'\n_cell_volume   217.8185\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2080  0.2372  0.0053  1\n  Li  Li1  1  0.2319  0.7088  0.0597  1\n  Li  Li2  1  0.7581  0.7897  0.0034  1\n  Mn  Mn3  1  0.2033  0.1954  0.6014  1\n  Mn  Mn4  1  0.8055  0.8106  0.3842  1\n  P  P5  1  0.7590  0.2418  0.4994  1\n  P  P6  1  0.2606  0.7428  0.4967  1\n  O  O7  1  0.8605  0.1532  0.3101  1\n  O  O8  1  0.4782  0.1527  0.6726  1\n  O  O9  1  0.8548  0.1381  0.6861  1\n  O  O10  1  0.8468  0.5243  0.3241  1\n  O  O11  1  0.1765  0.4596  0.6846  1\n  O  O12  1  0.5369  0.8289  0.3089  1\n  O  O13  1  0.1537  0.8304  0.3217  1\n  O  O14  1  0.1763  0.8503  0.6712  1\n  F  F15  1  0.0085  0.9746  0.0167  1\n  F  F16  1  0.3399  0.4322  0.2236  1\n  F  F17  1  0.6166  0.6545  0.7304  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3Mn2P2O4FO4F2\n_chemical_formula_sum              \"Li3 Mn2 P2 O8 F3\"\n_cell_length_a       6.4736\n_cell_length_b       6.4440\n_cell_length_c       6.9753\n_cell_angle_alpha    61.1512\n_cell_angle_beta     62.0806\n_cell_angle_gamma    88.3183\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2080  0.2372  0.0053  1.0000\n  Li  Li2       1.0000  0.2319  0.7088  0.0597  1.0000\n  Li  Li3       1.0000  0.7581  0.7897  0.0034  1.0000\n  Mn  Mn1       1.0000  0.2033  0.1954  0.6014  1.0000\n  Mn  Mn2       1.0000  0.8055  0.8106  0.3842  1.0000\n  P   P1        1.0000  0.7590  0.2418  0.4994  1.0000\n  P   P2        1.0000  0.2606  0.7428  0.4967  1.0000\n  O   O1        1.0000  0.8605  0.1532  0.3101  1.0000\n  O   O2        1.0000  0.4782  0.1527  0.6726  1.0000\n  O   O3        1.0000  0.8548  0.1381  0.6861  1.0000\n  O   O4        1.0000  0.8468  0.5243  0.3241  1.0000\n  F   F1        1.0000  0.1765  0.4596  0.6846  1.0000\n  O   O5        1.0000  0.5369  0.8289  0.3089  1.0000\n  O   O6        1.0000  0.1537  0.8304  0.3217  1.0000\n  O   O7        1.0000  0.1763  0.8503  0.6712  1.0000\n  O   O8        1.0000  0.0085  0.9746  0.0167  1.0000\n  F   F2        1.0000  0.3399  0.4322  0.2236  1.0000\n  F   F3        1.0000  0.6166  0.6545  0.7304  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9c00db9a-b2fa-4f07-b622-4ff2646a8a8f",
    "mp_id": "mp-1293037",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiVPO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4915\n_cell_length_b   7.2763\n_cell_length_c   11.5053\n_cell_angle_alpha   86.0259\n_cell_angle_beta   75.0830\n_cell_angle_gamma   109.6792\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiVPO5\n_chemical_formula_sum   'Li4 V4 P4 O20'\n_cell_volume   412.0926\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9887  0.4088  0.1960  1\n  Li  Li1  1  0.4889  0.9086  0.6964  1\n  Li  Li2  1  0.5111  0.0914  0.3036  1\n  Li  Li3  1  0.0113  0.5912  0.8040  1\n  V  V4  1  0.3855  0.3416  0.9428  1\n  V  V5  1  0.6147  0.6582  0.0571  1\n  V  V6  1  0.8852  0.8418  0.4429  1\n  V  V7  1  0.1146  0.1583  0.5571  1\n  P  P8  1  0.0412  0.9947  0.1641  1\n  P  P9  1  0.5413  0.4948  0.6641  1\n  P  P10  1  0.4587  0.5053  0.3359  1\n  P  P11  1  0.9587  0.0052  0.8360  1\n  O  O12  1  0.6382  0.3860  0.3009  1\n  O  O13  1  0.1384  0.8861  0.8012  1\n  O  O14  1  0.8616  0.1139  0.1988  1\n  O  O15  1  0.3619  0.6141  0.6991  1\n  O  O16  1  0.7709  0.0110  0.5121  1\n  O  O17  1  0.2711  0.5108  0.0120  1\n  O  O18  1  0.7292  0.4890  0.9879  1\n  O  O19  1  0.2289  0.9890  0.4879  1\n  O  O20  1  0.9046  0.7996  0.1210  1\n  O  O21  1  0.4044  0.2999  0.6209  1\n  O  O22  1  0.5955  0.7001  0.3790  1\n  O  O23  1  0.0954  0.2004  0.8790  1\n  O  O24  1  0.1348  0.9391  0.2768  1\n  O  O25  1  0.6350  0.4387  0.7767  1\n  O  O26  1  0.3651  0.5613  0.2232  1\n  O  O27  1  0.8651  0.0609  0.7232  1\n  O  O28  1  0.3128  0.1211  0.0639  1\n  O  O29  1  0.8128  0.6212  0.5639  1\n  O  O30  1  0.1871  0.3788  0.4361  1\n  O  O31  1  0.6872  0.8788  0.9362  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OV3P4O10VO9\n_chemical_formula_sum              \"Li4 O20 V4 P4\"\n_cell_length_a       5.4915\n_cell_length_b       7.2763\n_cell_length_c       11.5053\n_cell_angle_alpha    86.0259\n_cell_angle_beta     75.0830\n_cell_angle_gamma    109.6792\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9887  0.4088  0.1960  1.0000\n  Li  Li2       1.0000  0.4889  0.9086  0.6964  1.0000\n  Li  Li3       1.0000  0.5111  0.0914  0.3036  1.0000\n  Li  Li4       1.0000  0.0113  0.5912  0.8040  1.0000\n  O   O1        1.0000  0.3855  0.3416  0.9428  1.0000\n  V   V1        1.0000  0.6147  0.6582  0.0571  1.0000\n  V   V2        1.0000  0.8852  0.8418  0.4429  1.0000\n  V   V3        1.0000  0.1146  0.1583  0.5571  1.0000\n  P   P1        1.0000  0.0412  0.9947  0.1641  1.0000\n  P   P2        1.0000  0.5413  0.4948  0.6641  1.0000\n  P   P3        1.0000  0.4587  0.5053  0.3359  1.0000\n  P   P4        1.0000  0.9587  0.0052  0.8360  1.0000\n  O   O2        1.0000  0.6382  0.3860  0.3009  1.0000\n  O   O3        1.0000  0.1384  0.8861  0.8012  1.0000\n  O   O4        1.0000  0.8616  0.1139  0.1988  1.0000\n  O   O5        1.0000  0.3619  0.6141  0.6991  1.0000\n  O   O6        1.0000  0.7709  0.0110  0.5121  1.0000\n  O   O7        1.0000  0.2711  0.5108  0.0120  1.0000\n  O   O8        1.0000  0.7292  0.4890  0.9879  1.0000\n  O   O9        1.0000  0.2289  0.9890  0.4879  1.0000\n  O   O10       1.0000  0.9046  0.7996  0.1210  1.0000\n  O   O11       1.0000  0.4044  0.2999  0.6209  1.0000\n  V   V4        1.0000  0.5955  0.7001  0.3790  1.0000\n  O   O12       1.0000  0.0954  0.2004  0.8790  1.0000\n  O   O13       1.0000  0.1348  0.9391  0.2768  1.0000\n  O   O14       1.0000  0.6350  0.4387  0.7767  1.0000\n  O   O15       1.0000  0.3651  0.5613  0.2232  1.0000\n  O   O16       1.0000  0.8651  0.0610  0.7232  1.0000\n  O   O17       1.0000  0.3128  0.1211  0.0639  1.0000\n  O   O18       1.0000  0.8128  0.6212  0.5639  1.0000\n  O   O19       1.0000  0.1871  0.3788  0.4361  1.0000\n  O   O20       1.0000  0.6872  0.8788  0.9362  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d5eb98df-1461-46f7-9e27-aa42be1bcf6b",
    "mp_id": "mp-1294897",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KMnIO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1259\n_cell_length_b   5.1319\n_cell_length_c   24.4442\n_cell_angle_alpha   90.1688\n_cell_angle_beta   90.0796\n_cell_angle_gamma   120.3227\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KMnIO6\n_chemical_formula_sum   'K4 Mn4 I4 O24'\n_cell_volume   555.0437\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6667  0.3332  0.1250  1\n  K  K1  1  0.6672  0.3347  0.3751  1\n  K  K2  1  0.6654  0.3321  0.6249  1\n  K  K3  1  0.6669  0.3333  0.8749  1\n  Mn  Mn4  1  0.3242  0.6713  0.5000  1\n  Mn  Mn5  1  0.3335  0.6662  0.7500  1\n  Mn  Mn6  1  0.3330  0.6669  1.0000  1\n  Mn  Mn7  1  0.3329  0.6669  0.2500  1\n  I  I8  1  0.0004  0.9998  1.0000  1\n  I  I9  1  0.0004  0.9999  0.2500  1\n  I  I10  1  0.9996  0.0002  0.5000  1\n  I  I11  1  0.0005  0.9998  0.7500  1\n  O  O12  1  0.0446  0.3273  0.2058  1\n  O  O13  1  0.0723  0.3422  0.4552  1\n  O  O14  1  0.0464  0.3289  0.7059  1\n  O  O15  1  0.0444  0.3273  0.9558  1\n  O  O16  1  0.2835  0.9542  0.2059  1\n  O  O17  1  0.2790  0.9452  0.4554  1\n  O  O18  1  0.2822  0.9508  0.7059  1\n  O  O19  1  0.2834  0.9543  0.9559  1\n  O  O20  1  0.2851  0.3308  0.0441  1\n  O  O21  1  0.2853  0.3308  0.2942  1\n  O  O22  1  0.2688  0.3257  0.5456  1\n  O  O23  1  0.2843  0.3344  0.7942  1\n  O  O24  1  0.6695  0.7149  0.2059  1\n  O  O25  1  0.6729  0.7311  0.4545  1\n  O  O26  1  0.6659  0.7159  0.7058  1\n  O  O27  1  0.6694  0.7148  0.9558  1\n  O  O28  1  0.6722  0.9556  0.0442  1\n  O  O29  1  0.6723  0.9558  0.2942  1\n  O  O30  1  0.6597  0.9296  0.5447  1\n  O  O31  1  0.6706  0.9531  0.7941  1\n  O  O32  1  0.0454  0.7171  0.0441  1\n  O  O33  1  0.0454  0.7169  0.2941  1\n  O  O34  1  0.0574  0.7207  0.5448  1\n  O  O35  1  0.0492  0.7183  0.7941  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Mn4IOI2O17IO6\n_chemical_formula_sum              \"K4 Mn4 I4 O24\"\n_cell_length_a       5.1259\n_cell_length_b       5.1319\n_cell_length_c       24.4442\n_cell_angle_alpha    90.1688\n_cell_angle_beta     90.0796\n_cell_angle_gamma    120.3227\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6667  0.3332  0.1250  1.0000\n  K   K2        1.0000  0.6672  0.3347  0.3751  1.0000\n  K   K3        1.0000  0.6654  0.3321  0.6249  1.0000\n  K   K4        1.0000  0.6669  0.3333  0.8749  1.0000\n  Mn  Mn1       1.0000  0.3242  0.6713  0.5000  1.0000\n  Mn  Mn2       1.0000  0.3335  0.6662  0.7500  1.0000\n  Mn  Mn3       1.0000  0.3330  0.6669  1.0000  1.0000\n  Mn  Mn4       1.0000  0.3329  0.6669  0.2500  1.0000\n  I   I1        1.0000  0.0004  0.9998  1.0000  1.0000\n  O   O1        1.0000  0.0004  0.9999  0.2500  1.0000\n  I   I2        1.0000  0.9996  0.0002  0.5000  1.0000\n  I   I3        1.0000  0.0005  0.9997  0.7500  1.0000\n  O   O2        1.0000  0.0446  0.3273  0.2058  1.0000\n  O   O3        1.0000  0.0723  0.3422  0.4552  1.0000\n  O   O4        1.0000  0.0464  0.3289  0.7059  1.0000\n  O   O5        1.0000  0.0444  0.3273  0.9558  1.0000\n  O   O6        1.0000  0.2835  0.9542  0.2059  1.0000\n  O   O7        1.0000  0.2790  0.9452  0.4554  1.0000\n  O   O8        1.0000  0.2822  0.9508  0.7059  1.0000\n  O   O9        1.0000  0.2834  0.9543  0.9559  1.0000\n  O   O10       1.0000  0.2851  0.3308  0.0441  1.0000\n  O   O11       1.0000  0.2853  0.3308  0.2942  1.0000\n  O   O12       1.0000  0.2688  0.3257  0.5456  1.0000\n  O   O13       1.0000  0.2843  0.3344  0.7942  1.0000\n  O   O14       1.0000  0.6695  0.7149  0.2059  1.0000\n  O   O15       1.0000  0.6729  0.7311  0.4545  1.0000\n  O   O16       1.0000  0.6659  0.7159  0.7058  1.0000\n  O   O17       1.0000  0.6694  0.7148  0.9558  1.0000\n  O   O18       1.0000  0.6722  0.9556  0.0442  1.0000\n  I   I4        1.0000  0.6723  0.9558  0.2942  1.0000\n  O   O19       1.0000  0.6597  0.9296  0.5447  1.0000\n  O   O20       1.0000  0.6706  0.9531  0.7941  1.0000\n  O   O21       1.0000  0.0454  0.7171  0.0441  1.0000\n  O   O22       1.0000  0.0454  0.7169  0.2941  1.0000\n  O   O23       1.0000  0.0574  0.7207  0.5448  1.0000\n  O   O24       1.0000  0.0492  0.7183  0.7941  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "302b638e-ef2d-4425-82d7-2b63039ed237",
    "mp_id": "mp-1297758",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaFeTeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2702\n_cell_length_b   10.4295\n_cell_length_c   9.1242\n_cell_angle_alpha   90.0003\n_cell_angle_beta   89.9999\n_cell_angle_gamma   89.9695\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaFeTeO6\n_chemical_formula_sum   'La4 Fe4 Te4 O24'\n_cell_volume   501.5087\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.0000  0.5000  0.0000  1\n  La  La1  1  0.5000  0.5000  0.5000  1\n  La  La2  1  0.0000  1.0000  0.0000  1\n  La  La3  1  0.5000  0.0000  0.5000  1\n  Fe  Fe4  1  0.5000  0.7500  0.8335  1\n  Fe  Fe5  1  0.0000  0.2500  0.6665  1\n  Fe  Fe6  1  1.0000  0.7500  0.3335  1\n  Fe  Fe7  1  0.5000  0.2500  0.1664  1\n  Te  Te8  1  0.0000  0.7500  0.6672  1\n  Te  Te9  1  0.5000  0.7500  0.1673  1\n  Te  Te10  1  0.0000  0.2500  0.3328  1\n  Te  Te11  1  0.5000  0.2500  0.8327  1\n  O  O12  1  0.6953  0.6441  0.6827  1\n  O  O13  1  0.1953  0.6441  0.1827  1\n  O  O14  1  0.6953  0.1441  0.3173  1\n  O  O15  1  0.1953  0.1441  0.8174  1\n  O  O16  1  0.3047  0.3559  0.3173  1\n  O  O17  1  0.8047  0.3559  0.8174  1\n  O  O18  1  0.3047  0.8559  0.6827  1\n  O  O19  1  0.8047  0.8559  0.1827  1\n  O  O20  1  0.1756  0.6441  0.8119  1\n  O  O21  1  0.6756  0.6441  0.3119  1\n  O  O22  1  0.1756  0.1441  0.1881  1\n  O  O23  1  0.6756  0.1441  0.6881  1\n  O  O24  1  0.8244  0.3559  0.1881  1\n  O  O25  1  0.3244  0.3559  0.6881  1\n  O  O26  1  0.8244  0.8559  0.8119  1\n  O  O27  1  0.3244  0.8559  0.3119  1\n  O  O28  1  0.1303  0.6446  0.5069  1\n  O  O29  1  0.6303  0.6446  0.0069  1\n  O  O30  1  0.1303  0.1446  0.4931  1\n  O  O31  1  0.6303  0.1446  0.9931  1\n  O  O32  1  0.8697  0.3554  0.4931  1\n  O  O33  1  0.3697  0.3554  0.9931  1\n  O  O34  1  0.8697  0.8554  0.5069  1\n  O  O35  1  0.3697  0.8554  0.0069  1\n",
    "output": "data_image0\n_chemical_formula_structural       La2TeLaFe4TeLaTe2O24\n_chemical_formula_sum              \"La4 Te4 Fe4 O24\"\n_cell_length_a       5.2702\n_cell_length_b       10.4295\n_cell_length_c       9.1242\n_cell_angle_alpha    90.0003\n_cell_angle_beta     89.9999\n_cell_angle_gamma    89.9695\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  1e-06  0.5000  9e-06  1.0000\n  La  La2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Te  Te1       1.0000  0.0000  1.0000  6e-06  1.0000\n  La  La3       1.0000  0.5000  2e-06  0.5000  1.0000\n  Fe  Fe1       1.0000  0.5000  0.7500  0.8335  1.0000\n  Fe  Fe2       1.0000  0.0000  0.2500  0.6665  1.0000\n  Fe  Fe3       1.0000  1.0000  0.7500  0.3335  1.0000\n  Fe  Fe4       1.0000  0.5000  0.2500  0.1664  1.0000\n  Te  Te2       1.0000  0.0000  0.7500  0.6672  1.0000\n  La  La4       1.0000  0.5000  0.7500  0.1672  1.0000\n  Te  Te3       1.0000  1e-06  0.2500  0.3328  1.0000\n  Te  Te4       1.0000  0.5000  0.2500  0.8327  1.0000\n  O   O1        1.0000  0.6953  0.6441  0.6827  1.0000\n  O   O2        1.0000  0.1953  0.6441  0.1827  1.0000\n  O   O3        1.0000  0.6953  0.1441  0.3173  1.0000\n  O   O4        1.0000  0.1953  0.1441  0.8174  1.0000\n  O   O5        1.0000  0.3047  0.3559  0.3173  1.0000\n  O   O6        1.0000  0.8047  0.3559  0.8174  1.0000\n  O   O7        1.0000  0.3047  0.8559  0.6827  1.0000\n  O   O8        1.0000  0.8047  0.8559  0.1827  1.0000\n  O   O9        1.0000  0.1756  0.6441  0.8119  1.0000\n  O   O10       1.0000  0.6756  0.6441  0.3119  1.0000\n  O   O11       1.0000  0.1756  0.1441  0.1881  1.0000\n  O   O12       1.0000  0.6756  0.1441  0.6881  1.0000\n  O   O13       1.0000  0.8244  0.3559  0.1881  1.0000\n  O   O14       1.0000  0.3244  0.3559  0.6881  1.0000\n  O   O15       1.0000  0.8244  0.8559  0.8119  1.0000\n  O   O16       1.0000  0.3244  0.8559  0.3119  1.0000\n  O   O17       1.0000  0.1303  0.6446  0.5069  1.0000\n  O   O18       1.0000  0.6303  0.6446  0.0069  1.0000\n  O   O19       1.0000  0.1303  0.1446  0.4931  1.0000\n  O   O20       1.0000  0.6303  0.1446  0.9931  1.0000\n  O   O21       1.0000  0.8697  0.3554  0.4931  1.0000\n  O   O22       1.0000  0.3697  0.3554  0.9931  1.0000\n  O   O23       1.0000  0.8697  0.8554  0.5069  1.0000\n  O   O24       1.0000  0.3697  0.8554  0.0069  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "94bd59ec-1060-4667-a733-5b65623eb1da",
    "mp_id": "mp-1299593",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Mn3TeO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2750\n_cell_length_b   6.2734\n_cell_length_c   10.4253\n_cell_angle_alpha   105.7852\n_cell_angle_beta   105.7052\n_cell_angle_gamma   60.9952\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Mn3TeO8\n_chemical_formula_sum   'Li6 Mn6 Te2 O16'\n_cell_volume   340.6573\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2152  0.7582  0.7382  1\n  Li  Li1  1  0.7853  0.2408  0.2618  1\n  Li  Li2  1  0.7518  0.7465  0.7500  1\n  Li  Li3  1  0.2482  0.2530  0.2501  1\n  Li  Li4  1  0.2608  0.7162  0.2380  1\n  Li  Li5  1  0.7397  0.2837  0.7620  1\n  Mn  Mn6  1  0.9991  0.5004  0.0001  1\n  Mn  Mn7  1  0.5005  0.0001  0.5003  1\n  Mn  Mn8  1  0.4995  0.0003  0.9998  1\n  Mn  Mn9  1  0.0006  0.0002  0.5004  1\n  Mn  Mn10  1  0.4994  0.4998  0.9998  1\n  Mn  Mn11  1  0.0003  0.5000  0.5000  1\n  Te  Te12  1  0.5003  0.5000  0.5000  1\n  Te  Te13  1  0.9997  0.0001  0.9999  1\n  O  O14  1  0.6723  0.6152  0.8964  1\n  O  O15  1  0.1150  0.1720  0.3966  1\n  O  O16  1  0.8858  0.8280  0.6036  1\n  O  O17  1  0.3268  0.3850  0.1036  1\n  O  O18  1  0.1636  0.6011  0.3925  1\n  O  O19  1  0.6737  0.1110  0.8872  1\n  O  O20  1  0.5959  0.6148  0.3791  1\n  O  O21  1  0.1135  0.0985  0.8797  1\n  O  O22  1  0.1018  0.6639  0.8913  1\n  O  O23  1  0.6109  0.1737  0.3871  1\n  O  O24  1  0.3258  0.8890  0.1125  1\n  O  O25  1  0.8369  0.3991  0.6076  1\n  O  O26  1  0.8858  0.9016  0.1200  1\n  O  O27  1  0.4046  0.3853  0.6210  1\n  O  O28  1  0.3899  0.8262  0.6131  1\n  O  O29  1  0.8974  0.3361  0.1085  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2OLi3Mn6Te2O5LiO10\n_chemical_formula_sum              \"Li6 O16 Mn6 Te2\"\n_cell_length_a       6.2750\n_cell_length_b       6.2734\n_cell_length_c       10.4253\n_cell_angle_alpha    105.7852\n_cell_angle_beta     105.7052\n_cell_angle_gamma    60.9952\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2152  0.7582  0.7382  1.0000\n  Li  Li2       1.0000  0.7853  0.2408  0.2618  1.0000\n  O   O1        1.0000  0.7518  0.7465  0.7500  1.0000\n  Li  Li3       1.0000  0.2482  0.2530  0.2501  1.0000\n  Li  Li4       1.0000  0.2608  0.7162  0.2380  1.0000\n  Li  Li5       1.0000  0.7397  0.2837  0.7620  1.0000\n  Mn  Mn1       1.0000  0.9991  0.5004  0.0001  1.0000\n  Mn  Mn2       1.0000  0.5005  0.0001  0.5003  1.0000\n  Mn  Mn3       1.0000  0.4995  0.0003  0.9998  1.0000\n  Mn  Mn4       1.0000  0.0006  0.0002  0.5004  1.0000\n  Mn  Mn5       1.0000  0.4994  0.4998  0.9998  1.0000\n  Mn  Mn6       1.0000  0.0003  0.5000  0.5000  1.0000\n  Te  Te1       1.0000  0.5003  0.5000  0.5000  1.0000\n  Te  Te2       1.0000  0.9997  0.0001  0.9999  1.0000\n  O   O2        1.0000  0.6723  0.6152  0.8964  1.0000\n  O   O3        1.0000  0.1150  0.1720  0.3966  1.0000\n  O   O4        1.0000  0.8858  0.8280  0.6036  1.0000\n  O   O5        1.0000  0.3268  0.3850  0.1036  1.0000\n  O   O6        1.0000  0.1636  0.6011  0.3925  1.0000\n  Li  Li6       1.0000  0.6737  0.1110  0.8872  1.0000\n  O   O7        1.0000  0.5959  0.6148  0.3791  1.0000\n  O   O8        1.0000  0.1135  0.0985  0.8797  1.0000\n  O   O9        1.0000  0.1018  0.6639  0.8913  1.0000\n  O   O10       1.0000  0.6109  0.1737  0.3871  1.0000\n  O   O11       1.0000  0.3258  0.8890  0.1125  1.0000\n  O   O12       1.0000  0.8369  0.3991  0.6076  1.0000\n  O   O13       1.0000  0.8858  0.9016  0.1200  1.0000\n  O   O14       1.0000  0.4046  0.3853  0.6210  1.0000\n  O   O15       1.0000  0.3899  0.8262  0.6131  1.0000\n  O   O16       1.0000  0.8974  0.3361  0.1085  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a2ae5395-1ee3-4b14-931b-e14c5bd04bda",
    "mp_id": "mp-1301981",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2YNi3O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5640\n_cell_length_b   12.1673\n_cell_length_c   5.5640\n_cell_angle_alpha   76.9681\n_cell_angle_beta   90.7648\n_cell_angle_gamma   76.9678\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2YNi3O7\n_chemical_formula_sum   'Ba4 Y2 Ni6 O14'\n_cell_volume   356.7008\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5912  0.8177  0.0912  1\n  Ba  Ba1  1  0.0912  0.8177  0.5912  1\n  Ba  Ba2  1  0.9088  0.1823  0.4088  1\n  Ba  Ba3  1  0.4088  0.1823  0.9088  1\n  Y  Y4  1  0.7500  0.5000  0.2500  1\n  Y  Y5  1  0.2500  0.5000  0.7500  1\n  Ni  Ni6  1  0.5000  0.9999  0.5000  1\n  Ni  Ni7  1  0.0000  1.0000  0.0000  1\n  Ni  Ni8  1  0.6707  0.6588  0.6707  1\n  Ni  Ni9  1  0.1713  0.6574  0.1714  1\n  Ni  Ni10  1  0.3293  0.3412  0.3293  1\n  Ni  Ni11  1  0.8286  0.3427  0.8286  1\n  O  O12  1  0.7632  1.0000  0.2369  1\n  O  O13  1  0.2368  1.0000  0.7632  1\n  O  O14  1  0.4377  0.6237  0.4377  1\n  O  O15  1  0.9385  0.6237  0.9385  1\n  O  O16  1  0.0615  0.3763  0.0615  1\n  O  O17  1  0.5623  0.3763  0.5623  1\n  O  O18  1  0.9386  0.6239  0.4375  1\n  O  O19  1  0.4375  0.6239  0.9386  1\n  O  O20  1  0.5625  0.3761  0.0614  1\n  O  O21  1  0.0614  0.3761  0.5625  1\n  O  O22  1  0.5817  0.8364  0.5817  1\n  O  O23  1  0.0811  0.8379  0.0811  1\n  O  O24  1  0.4182  0.1636  0.4183  1\n  O  O25  1  0.9189  0.1621  0.9189  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba4OYNi6O5YO8\n_chemical_formula_sum              \"Ba4 O14 Y2 Ni6\"\n_cell_length_a       5.5640\n_cell_length_b       12.1673\n_cell_length_c       5.5640\n_cell_angle_alpha    76.9681\n_cell_angle_beta     90.7648\n_cell_angle_gamma    76.9678\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.5912  0.8177  0.0912  1.0000\n  Ba  Ba2       1.0000  0.0912  0.8177  0.5912  1.0000\n  Ba  Ba3       1.0000  0.9088  0.1823  0.4088  1.0000\n  Ba  Ba4       1.0000  0.4088  0.1823  0.9088  1.0000\n  O   O1        1.0000  0.7500  0.5000  0.2500  1.0000\n  Y   Y1        1.0000  0.2500  0.5000  0.7500  1.0000\n  Ni  Ni1       1.0000  0.5000  0.9999  0.5000  1.0000\n  Ni  Ni2       1.0000  0.0000  1.0000  0.0000  1.0000\n  Ni  Ni3       1.0000  0.6707  0.6588  0.6707  1.0000\n  Ni  Ni4       1.0000  0.1713  0.6574  0.1714  1.0000\n  Ni  Ni5       1.0000  0.3293  0.3412  0.3293  1.0000\n  Ni  Ni6       1.0000  0.8286  0.3427  0.8286  1.0000\n  O   O2        1.0000  0.7632  1.0000  0.2369  1.0000\n  O   O3        1.0000  0.2368  1.0000  0.7632  1.0000\n  O   O4        1.0000  0.4377  0.6237  0.4377  1.0000\n  O   O5        1.0000  0.9385  0.6237  0.9385  1.0000\n  O   O6        1.0000  0.0615  0.3763  0.0615  1.0000\n  Y   Y2        1.0000  0.5623  0.3763  0.5623  1.0000\n  O   O7        1.0000  0.9386  0.6239  0.4375  1.0000\n  O   O8        1.0000  0.4375  0.6239  0.9386  1.0000\n  O   O9        1.0000  0.5625  0.3761  0.0614  1.0000\n  O   O10       1.0000  0.0614  0.3761  0.5625  1.0000\n  O   O11       1.0000  0.5817  0.8364  0.5817  1.0000\n  O   O12       1.0000  0.0811  0.8379  0.0811  1.0000\n  O   O13       1.0000  0.4182  0.1636  0.4183  1.0000\n  O   O14       1.0000  0.9189  0.1621  0.9189  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e358a19-90da-40e1-b776-eca3fb49463c",
    "mp_id": "mp-1302395",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Ti2Mn3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1560\n_cell_length_b   10.1057\n_cell_length_c   8.2102\n_cell_angle_alpha   113.5704\n_cell_angle_beta   97.8501\n_cell_angle_gamma   98.4789\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Ti2Mn3O10\n_chemical_formula_sum   'Li4 Ti4 Mn6 O20'\n_cell_volume   378.6867\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2397  0.4587  0.4028  1\n  Li  Li1  1  0.2395  0.9588  0.4027  1\n  Li  Li2  1  0.7675  0.0387  0.5935  1\n  Li  Li3  1  0.7669  0.5388  0.5931  1\n  Ti  Ti4  1  0.1305  0.3428  0.6816  1\n  Ti  Ti5  1  0.1311  0.8426  0.6818  1\n  Ti  Ti6  1  0.8609  0.1521  0.3201  1\n  Ti  Ti7  1  0.8613  0.6523  0.3202  1\n  Mn  Mn8  1  0.9956  0.7491  0.9969  1\n  Mn  Mn9  1  0.6938  0.9428  0.8968  1\n  Mn  Mn10  1  0.3039  0.5604  0.1050  1\n  Mn  Mn11  1  0.9956  0.2490  0.9970  1\n  Mn  Mn12  1  0.6934  0.4428  0.8969  1\n  Mn  Mn13  1  0.3042  0.0606  0.1050  1\n  O  O14  1  0.0089  0.0405  0.8506  1\n  O  O15  1  0.0087  0.5406  0.8508  1\n  O  O16  1  0.9545  0.4579  0.1255  1\n  O  O17  1  0.9546  0.9578  0.1253  1\n  O  O18  1  0.3519  0.3643  0.9355  1\n  O  O19  1  0.3522  0.8644  0.9355  1\n  O  O20  1  0.6500  0.1345  0.0655  1\n  O  O21  1  0.6497  0.6346  0.0659  1\n  O  O22  1  0.0950  0.1455  0.5171  1\n  O  O23  1  0.0953  0.6454  0.5172  1\n  O  O24  1  0.9231  0.3562  0.4845  1\n  O  O25  1  0.9239  0.8562  0.4848  1\n  O  O26  1  0.1783  0.2411  0.2106  1\n  O  O27  1  0.1783  0.7411  0.2106  1\n  O  O28  1  0.8179  0.2646  0.7825  1\n  O  O29  1  0.8179  0.7645  0.7825  1\n  O  O30  1  0.4749  0.4362  0.6875  1\n  O  O31  1  0.4753  0.9362  0.6876  1\n  O  O32  1  0.5526  0.0645  0.3435  1\n  O  O33  1  0.5529  0.5645  0.3435  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi3Ti4Mn6O9LiO10\n_chemical_formula_sum              \"O20 Li4 Ti4 Mn6\"\n_cell_length_a       5.1560\n_cell_length_b       10.1057\n_cell_length_c       8.2102\n_cell_angle_alpha    113.5704\n_cell_angle_beta     97.8501\n_cell_angle_gamma    98.4789\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2397  0.4587  0.4028  1.0000\n  Li  Li1       1.0000  0.2395  0.9588  0.4027  1.0000\n  Li  Li2       1.0000  0.7675  0.0387  0.5935  1.0000\n  Li  Li3       1.0000  0.7669  0.5388  0.5931  1.0000\n  Ti  Ti1       1.0000  0.1305  0.3428  0.6816  1.0000\n  Ti  Ti2       1.0000  0.1311  0.8426  0.6818  1.0000\n  Ti  Ti3       1.0000  0.8609  0.1521  0.3201  1.0000\n  Ti  Ti4       1.0000  0.8613  0.6523  0.3202  1.0000\n  Mn  Mn1       1.0000  0.9956  0.7491  0.9969  1.0000\n  Mn  Mn2       1.0000  0.6938  0.9428  0.8968  1.0000\n  Mn  Mn3       1.0000  0.3039  0.5604  0.1050  1.0000\n  Mn  Mn4       1.0000  0.9956  0.2490  0.9970  1.0000\n  Mn  Mn5       1.0000  0.6934  0.4428  0.8969  1.0000\n  Mn  Mn6       1.0000  0.3042  0.0606  0.1050  1.0000\n  O   O2        1.0000  0.0089  0.0405  0.8506  1.0000\n  O   O3        1.0000  0.0087  0.5406  0.8508  1.0000\n  O   O4        1.0000  0.9545  0.4579  0.1255  1.0000\n  O   O5        1.0000  0.9546  0.9578  0.1253  1.0000\n  O   O6        1.0000  0.3519  0.3643  0.9355  1.0000\n  O   O7        1.0000  0.3522  0.8644  0.9355  1.0000\n  O   O8        1.0000  0.6500  0.1345  0.0655  1.0000\n  O   O9        1.0000  0.6497  0.6346  0.0659  1.0000\n  O   O10       1.0000  0.0950  0.1455  0.5171  1.0000\n  Li  Li4       1.0000  0.0953  0.6454  0.5172  1.0000\n  O   O11       1.0000  0.9231  0.3562  0.4845  1.0000\n  O   O12       1.0000  0.9239  0.8562  0.4848  1.0000\n  O   O13       1.0000  0.1783  0.2411  0.2106  1.0000\n  O   O14       1.0000  0.1783  0.7411  0.2106  1.0000\n  O   O15       1.0000  0.8179  0.2646  0.7825  1.0000\n  O   O16       1.0000  0.8179  0.7645  0.7825  1.0000\n  O   O17       1.0000  0.4749  0.4362  0.6875  1.0000\n  O   O18       1.0000  0.4753  0.9362  0.6876  1.0000\n  O   O19       1.0000  0.5526  0.0645  0.3435  1.0000\n  O   O20       1.0000  0.5529  0.5645  0.3435  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a65256e8-fd56-4b99-91dd-1781b80280d8",
    "mp_id": "mp-1307565",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Cr3SnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0069\n_cell_length_b   5.9538\n_cell_length_c   10.7091\n_cell_angle_alpha   89.7507\n_cell_angle_beta   106.3011\n_cell_angle_gamma   120.2863\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Cr3SnO8\n_chemical_formula_sum   'Li4 Cr6 Sn2 O16'\n_cell_volume   313.0463\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1239  0.0655  0.1813  1\n  Li  Li1  1  0.1230  0.5656  0.6813  1\n  Li  Li2  1  0.8770  0.4344  0.3188  1\n  Li  Li3  1  0.8761  0.9344  0.8187  1\n  Cr  Cr4  1  0.5001  0.0000  1.0000  1\n  Cr  Cr5  1  0.0001  0.0003  0.5000  1\n  Cr  Cr6  1  1.0000  0.5000  0.0000  1\n  Cr  Cr7  1  0.5001  0.9999  0.5001  1\n  Cr  Cr8  1  0.4998  0.5000  0.0000  1\n  Cr  Cr9  1  0.4999  0.5000  0.4999  1\n  Sn  Sn10  1  0.5043  0.2501  0.7500  1\n  Sn  Sn11  1  0.4957  0.7500  0.2500  1\n  O  O12  1  0.2765  0.1487  0.3997  1\n  O  O13  1  0.2718  0.6488  0.8997  1\n  O  O14  1  0.7281  0.3512  0.1003  1\n  O  O15  1  0.7235  0.8512  0.6003  1\n  O  O16  1  0.7178  0.3626  0.6140  1\n  O  O17  1  0.7136  0.8661  0.1130  1\n  O  O18  1  0.2569  0.9012  0.6155  1\n  O  O19  1  0.2597  0.4011  0.1155  1\n  O  O20  1  0.2655  0.3662  0.6130  1\n  O  O21  1  0.2588  0.8626  0.1140  1\n  O  O22  1  0.7413  0.1374  0.8860  1\n  O  O23  1  0.7345  0.6340  0.3870  1\n  O  O24  1  0.7402  0.5989  0.8846  1\n  O  O25  1  0.7430  0.0989  0.3845  1\n  O  O26  1  0.2865  0.1339  0.8871  1\n  O  O27  1  0.2821  0.6373  0.3860  1\n",
    "output": "data_image0\n_chemical_formula_structural       CrLi4Cr5Sn2O16\n_chemical_formula_sum              \"Cr6 Li4 Sn2 O16\"\n_cell_length_a       6.0069\n_cell_length_b       5.9538\n_cell_length_c       10.7091\n_cell_angle_alpha    89.7507\n_cell_angle_beta     106.3011\n_cell_angle_gamma    120.2863\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.1239  0.0655  0.1813  1.0000\n  Li  Li1       1.0000  0.1230  0.5656  0.6813  1.0000\n  Li  Li2       1.0000  0.8770  0.4344  0.3188  1.0000\n  Li  Li3       1.0000  0.8761  0.9344  0.8187  1.0000\n  Li  Li4       1.0000  0.5001  0.0000  1.0000  1.0000\n  Cr  Cr2       1.0000  0.0001  0.0003  0.5000  1.0000\n  Cr  Cr3       1.0000  1.0000  0.5000  0.0000  1.0000\n  Cr  Cr4       1.0000  0.5001  0.9999  0.5001  1.0000\n  Cr  Cr5       1.0000  0.4998  0.5000  0.0000  1.0000\n  Cr  Cr6       1.0000  0.4999  0.5000  0.4999  1.0000\n  Sn  Sn1       1.0000  0.5043  0.2501  0.7500  1.0000\n  Sn  Sn2       1.0000  0.4957  0.7500  0.2500  1.0000\n  O   O1        1.0000  0.2765  0.1487  0.3997  1.0000\n  O   O2        1.0000  0.2718  0.6488  0.8997  1.0000\n  O   O3        1.0000  0.7281  0.3512  0.1003  1.0000\n  O   O4        1.0000  0.7235  0.8512  0.6003  1.0000\n  O   O5        1.0000  0.7178  0.3626  0.6140  1.0000\n  O   O6        1.0000  0.7136  0.8661  0.1130  1.0000\n  O   O7        1.0000  0.2569  0.9012  0.6155  1.0000\n  O   O8        1.0000  0.2597  0.4011  0.1155  1.0000\n  O   O9        1.0000  0.2655  0.3662  0.6130  1.0000\n  O   O10       1.0000  0.2588  0.8626  0.1140  1.0000\n  O   O11       1.0000  0.7413  0.1374  0.8860  1.0000\n  O   O12       1.0000  0.7345  0.6340  0.3870  1.0000\n  O   O13       1.0000  0.7402  0.5989  0.8846  1.0000\n  O   O14       1.0000  0.7430  0.0989  0.3845  1.0000\n  O   O15       1.0000  0.2865  0.1339  0.8871  1.0000\n  O   O16       1.0000  0.2821  0.6373  0.3860  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a3f521eb-b8a0-4b3c-b931-a22e4241349e",
    "mp_id": "mp-1310460",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6Mn(FeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.2278\n_cell_length_b   14.7990\n_cell_length_c   6.1592\n_cell_angle_alpha   82.9714\n_cell_angle_beta   105.3287\n_cell_angle_gamma   94.8733\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6Mn(FeO3)2\n_chemical_formula_sum   'Li12 Mn2 Fe4 O12'\n_cell_volume   281.1909\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9900  0.3000  0.6863  1\n  Li  Li1  1  0.9941  0.8025  0.1866  1\n  Li  Li2  1  0.6378  0.3125  0.9614  1\n  Li  Li3  1  0.6351  0.8107  0.4626  1\n  Li  Li4  1  0.9665  0.1426  0.7959  1\n  Li  Li5  1  0.9787  0.6457  0.2964  1\n  Li  Li6  1  0.6632  0.4699  0.8521  1\n  Li  Li7  1  0.6542  0.9677  0.3512  1\n  Li  Li8  1  0.3321  0.1345  0.5160  1\n  Li  Li9  1  0.3318  0.6335  0.0173  1\n  Li  Li10  1  0.3007  0.4787  0.1311  1\n  Li  Li11  1  0.2976  0.9800  0.6298  1\n  Mn  Mn12  1  0.3149  0.8073  0.8245  1\n  Mn  Mn13  1  0.3136  0.3067  0.3233  1\n  Fe  Fe14  1  0.9866  0.4727  0.4951  1\n  Fe  Fe15  1  0.6501  0.6390  0.6581  1\n  Fe  Fe16  1  0.9798  0.9734  0.9897  1\n  Fe  Fe17  1  0.6467  0.1397  0.1523  1\n  O  O18  1  0.4891  0.3781  0.6375  1\n  O  O19  1  0.5030  0.8760  0.1417  1\n  O  O20  1  0.1374  0.2352  0.0069  1\n  O  O21  1  0.1268  0.7372  0.5073  1\n  O  O22  1  0.8407  0.2086  0.4708  1\n  O  O23  1  0.8375  0.7074  0.9679  1\n  O  O24  1  0.7912  0.4039  0.1752  1\n  O  O25  1  0.7912  0.9060  0.6799  1\n  O  O26  1  0.1533  0.0428  0.2974  1\n  O  O27  1  0.1734  0.5432  0.8085  1\n  O  O28  1  0.4563  0.0699  0.8408  1\n  O  O29  1  0.4826  0.5699  0.3532  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li12MnOFe4O10MnO\n_chemical_formula_sum              \"Li12 Mn2 O12 Fe4\"\n_cell_length_a       3.2278\n_cell_length_b       14.7990\n_cell_length_c       6.1592\n_cell_angle_alpha    82.9714\n_cell_angle_beta     105.3287\n_cell_angle_gamma    94.8733\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9900  0.3000  0.6863  1.0000\n  Li  Li2       1.0000  0.9941  0.8025  0.1866  1.0000\n  Li  Li3       1.0000  0.6378  0.3125  0.9614  1.0000\n  Li  Li4       1.0000  0.6351  0.8107  0.4626  1.0000\n  Li  Li5       1.0000  0.9665  0.1426  0.7959  1.0000\n  Li  Li6       1.0000  0.9787  0.6457  0.2964  1.0000\n  Li  Li7       1.0000  0.6632  0.4699  0.8521  1.0000\n  Li  Li8       1.0000  0.6542  0.9677  0.3512  1.0000\n  Li  Li9       1.0000  0.3321  0.1345  0.5160  1.0000\n  Li  Li10      1.0000  0.3318  0.6335  0.0173  1.0000\n  Li  Li11      1.0000  0.3007  0.4787  0.1311  1.0000\n  Li  Li12      1.0000  0.2976  0.9800  0.6298  1.0000\n  Mn  Mn1       1.0000  0.3149  0.8073  0.8245  1.0000\n  O   O1        1.0000  0.3136  0.3067  0.3233  1.0000\n  Fe  Fe1       1.0000  0.9866  0.4727  0.4951  1.0000\n  Fe  Fe2       1.0000  0.6501  0.6390  0.6581  1.0000\n  Fe  Fe3       1.0000  0.9798  0.9734  0.9897  1.0000\n  Fe  Fe4       1.0000  0.6467  0.1397  0.1523  1.0000\n  O   O2        1.0000  0.4891  0.3781  0.6375  1.0000\n  O   O3        1.0000  0.5030  0.8760  0.1417  1.0000\n  O   O4        1.0000  0.1374  0.2352  0.0069  1.0000\n  O   O5        1.0000  0.1268  0.7372  0.5073  1.0000\n  O   O6        1.0000  0.8407  0.2086  0.4708  1.0000\n  O   O7        1.0000  0.8375  0.7074  0.9679  1.0000\n  O   O8        1.0000  0.7912  0.4039  0.1752  1.0000\n  O   O9        1.0000  0.7912  0.9060  0.6799  1.0000\n  O   O10       1.0000  0.1533  0.0428  0.2974  1.0000\n  O   O11       1.0000  0.1734  0.5432  0.8085  1.0000\n  Mn  Mn2       1.0000  0.4563  0.0699  0.8408  1.0000\n  O   O12       1.0000  0.4826  0.5699  0.3532  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6eaaeb0c-1284-4d51-b38d-799af2c3ba79",
    "mp_id": "mp-1311133",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co4(CuO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2335\n_cell_length_b   6.2273\n_cell_length_c   6.2339\n_cell_angle_alpha   71.7303\n_cell_angle_beta   109.7240\n_cell_angle_gamma   69.4588\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co4(CuO4)3\n_chemical_formula_sum   'Co4 Cu3 O12'\n_cell_volume   185.9440\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.0001  0.5000  0.0001  1\n  Co  Co1  1  0.0001  1.0000  0.5000  1\n  Co  Co2  1  0.4999  0.5000  0.5000  1\n  Co  Co3  1  0.5000  0.0000  0.9999  1\n  Cu  Cu4  1  0.5002  0.9999  0.5001  1\n  Cu  Cu5  1  0.9999  0.5002  0.5000  1\n  Cu  Cu6  1  0.5000  0.4999  0.0001  1\n  O  O7  1  0.1792  0.1371  0.6736  1\n  O  O8  1  0.8206  0.8631  0.3263  1\n  O  O9  1  0.1825  0.5012  0.3195  1\n  O  O10  1  0.3141  0.1835  0.1343  1\n  O  O11  1  0.8639  0.2949  0.1924  1\n  O  O12  1  0.5032  0.3317  0.8044  1\n  O  O13  1  0.6915  0.1719  0.5249  1\n  O  O14  1  0.1363  0.7050  0.8076  1\n  O  O15  1  0.8173  0.4989  0.6805  1\n  O  O16  1  0.6860  0.8165  0.8657  1\n  O  O17  1  0.4969  0.6682  0.1956  1\n  O  O18  1  0.3085  0.8281  0.4750  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co4OCu2O2CuO9\n_chemical_formula_sum              \"Co4 O12 Cu3\"\n_cell_length_a       6.2335\n_cell_length_b       6.2273\n_cell_length_c       6.2339\n_cell_angle_alpha    71.7303\n_cell_angle_beta     109.7240\n_cell_angle_gamma    69.4588\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.0000  0.5000  0.0001  1.0000\n  Co  Co2       1.0000  0.0001  1.0000  0.5000  1.0000\n  Co  Co3       1.0000  0.4999  0.5000  0.5000  1.0000\n  Co  Co4       1.0000  0.5000  0.0000  0.9999  1.0000\n  O   O1        1.0000  0.5002  0.9999  0.5001  1.0000\n  Cu  Cu1       1.0000  0.9999  0.5002  0.5000  1.0000\n  Cu  Cu2       1.0000  0.5000  0.4999  0.0001  1.0000\n  O   O2        1.0000  0.1792  0.1371  0.6736  1.0000\n  O   O3        1.0000  0.8206  0.8631  0.3263  1.0000\n  Cu  Cu3       1.0000  0.1825  0.5012  0.3195  1.0000\n  O   O4        1.0000  0.3141  0.1835  0.1343  1.0000\n  O   O5        1.0000  0.8639  0.2949  0.1924  1.0000\n  O   O6        1.0000  0.5032  0.3317  0.8044  1.0000\n  O   O7        1.0000  0.6915  0.1719  0.5249  1.0000\n  O   O8        1.0000  0.1363  0.7050  0.8076  1.0000\n  O   O9        1.0000  0.8173  0.4989  0.6805  1.0000\n  O   O10       1.0000  0.6860  0.8165  0.8657  1.0000\n  O   O11       1.0000  0.4968  0.6682  0.1956  1.0000\n  O   O12       1.0000  0.3085  0.8281  0.4750  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "491c24a3-e2bb-4743-8edd-6b3a1759bc37",
    "mp_id": "mp-1323",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 59 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AlF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3266\n_cell_length_b   10.3266\n_cell_length_c   7.2758\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AlF3\n_chemical_formula_sum   'Al16 F48'\n_cell_volume   775.8778\n_cell_formula_units_Z   16\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.5000  0.3364  0.6716  1\n  Al  Al1  1  0.5000  0.6636  0.6716  1\n  Al  Al2  1  0.1636  0.0000  0.6716  1\n  Al  Al3  1  0.8364  0.0000  0.6716  1\n  Al  Al4  1  0.3364  0.5000  0.3284  1\n  Al  Al5  1  0.0000  0.1636  0.3284  1\n  Al  Al6  1  0.0000  0.8364  0.3284  1\n  Al  Al7  1  0.6636  0.5000  0.3284  1\n  Al  Al8  1  0.5000  0.0000  0.5877  1\n  Al  Al9  1  0.0000  0.5000  0.4123  1\n  Al  Al10  1  0.5000  0.0000  0.0907  1\n  Al  Al11  1  0.0000  0.5000  0.9093  1\n  Al  Al12  1  0.2500  0.7500  0.0000  1\n  Al  Al13  1  0.2500  0.2500  0.0000  1\n  Al  Al14  1  0.7500  0.7500  0.0000  1\n  Al  Al15  1  0.7500  0.2500  0.0000  1\n  F  F16  1  0.5000  0.5000  0.7551  1\n  F  F17  1  0.0000  0.0000  0.7551  1\n  F  F18  1  0.0000  0.0000  0.2449  1\n  F  F19  1  0.5000  0.5000  0.2449  1\n  F  F20  1  0.1234  0.8766  0.5000  1\n  F  F21  1  0.3766  0.3766  0.5000  1\n  F  F22  1  0.6234  0.6234  0.5000  1\n  F  F23  1  0.8766  0.1234  0.5000  1\n  F  F24  1  0.3766  0.6234  0.5000  1\n  F  F25  1  0.1234  0.1234  0.5000  1\n  F  F26  1  0.8766  0.8766  0.5000  1\n  F  F27  1  0.6234  0.3766  0.5000  1\n  F  F28  1  0.5000  0.1736  0.5892  1\n  F  F29  1  0.5000  0.8264  0.5892  1\n  F  F30  1  0.3264  0.0000  0.5892  1\n  F  F31  1  0.1736  0.5000  0.4108  1\n  F  F32  1  0.6736  0.0000  0.5892  1\n  F  F33  1  0.8713  0.6287  0.9093  1\n  F  F34  1  0.1287  0.3713  0.9093  1\n  F  F35  1  0.1287  0.6287  0.9093  1\n  F  F36  1  0.6287  0.8713  0.0907  1\n  F  F37  1  0.3713  0.1287  0.0907  1\n  F  F38  1  0.3713  0.8713  0.0907  1\n  F  F39  1  0.6287  0.1287  0.0907  1\n  F  F40  1  0.6981  0.3722  0.1630  1\n  F  F41  1  0.8722  0.8019  0.1630  1\n  F  F42  1  0.1278  0.1981  0.1630  1\n  F  F43  1  0.3019  0.6278  0.1630  1\n  F  F44  1  0.8019  0.8722  0.8370  1\n  F  F45  1  0.1981  0.1278  0.8370  1\n  F  F46  1  0.3722  0.6981  0.8370  1\n  F  F47  1  0.6278  0.3019  0.8370  1\n  F  F48  1  0.8019  0.1278  0.8370  1\n  F  F49  1  0.6278  0.6981  0.8370  1\n  F  F50  1  0.3722  0.3019  0.8370  1\n  F  F51  1  0.1981  0.8722  0.8370  1\n  F  F52  1  0.6981  0.6278  0.1630  1\n  F  F53  1  0.3019  0.3722  0.1630  1\n  F  F54  1  0.1278  0.8019  0.1630  1\n  F  F55  1  0.8722  0.1981  0.1630  1\n  F  F56  1  0.0000  0.5000  0.1586  1\n  F  F57  1  0.5000  0.0000  0.8414  1\n  F  F58  1  0.0000  0.5000  0.6621  1\n  F  F59  1  0.5000  0.0000  0.3379  1\n  F  F60  1  0.8264  0.5000  0.4108  1\n  F  F61  1  0.0000  0.6736  0.4108  1\n  F  F62  1  0.0000  0.3264  0.4108  1\n  F  F63  1  0.8713  0.3713  0.9093  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al13FAl2F43AlF4\n_chemical_formula_sum              \"Al16 F48\"\n_cell_length_a       10.3266\n_cell_length_b       10.3266\n_cell_length_c       7.2758\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.5000  0.3364  0.6716  1.0000\n  Al  Al2       1.0000  0.5000  0.6636  0.6716  1.0000\n  Al  Al3       1.0000  0.1636  0.0000  0.6716  1.0000\n  Al  Al4       1.0000  0.8364  0.0000  0.6716  1.0000\n  Al  Al5       1.0000  0.3364  0.5000  0.3284  1.0000\n  Al  Al6       1.0000  0.0000  0.1636  0.3284  1.0000\n  Al  Al7       1.0000  0.0000  0.8364  0.3284  1.0000\n  Al  Al8       1.0000  0.6636  0.5000  0.3284  1.0000\n  Al  Al9       1.0000  0.5000  0.0000  0.5877  1.0000\n  Al  Al10      1.0000  0.0000  0.5000  0.4123  1.0000\n  Al  Al11      1.0000  0.5000  0.0000  0.0907  1.0000\n  Al  Al12      1.0000  0.0000  0.5000  0.9093  1.0000\n  Al  Al13      1.0000  0.2500  0.7500  0.0000  1.0000\n  F   F1        1.0000  0.2500  0.2500  0.0000  1.0000\n  Al  Al14      1.0000  0.7500  0.7500  0.0000  1.0000\n  Al  Al15      1.0000  0.7500  0.2500  0.0000  1.0000\n  F   F2        1.0000  0.5000  0.5000  0.7551  1.0000\n  F   F3        1.0000  0.0000  0.0000  0.7551  1.0000\n  F   F4        1.0000  0.0000  0.0000  0.2449  1.0000\n  F   F5        1.0000  0.5000  0.5000  0.2449  1.0000\n  F   F6        1.0000  0.1234  0.8766  0.5000  1.0000\n  F   F7        1.0000  0.3766  0.3766  0.5000  1.0000\n  F   F8        1.0000  0.6234  0.6234  0.5000  1.0000\n  F   F9        1.0000  0.8766  0.1234  0.5000  1.0000\n  F   F10       1.0000  0.3766  0.6234  0.5000  1.0000\n  F   F11       1.0000  0.1234  0.1234  0.5000  1.0000\n  F   F12       1.0000  0.8766  0.8766  0.5000  1.0000\n  F   F13       1.0000  0.6234  0.3766  0.5000  1.0000\n  F   F14       1.0000  0.5000  0.1736  0.5892  1.0000\n  F   F15       1.0000  0.5000  0.8264  0.5892  1.0000\n  F   F16       1.0000  0.3264  0.0000  0.5892  1.0000\n  F   F17       1.0000  0.1736  0.5000  0.4108  1.0000\n  F   F18       1.0000  0.6736  0.0000  0.5892  1.0000\n  F   F19       1.0000  0.8713  0.6287  0.9093  1.0000\n  F   F20       1.0000  0.1287  0.3713  0.9093  1.0000\n  F   F21       1.0000  0.1287  0.6287  0.9093  1.0000\n  F   F22       1.0000  0.6287  0.8713  0.0907  1.0000\n  F   F23       1.0000  0.3713  0.1287  0.0907  1.0000\n  F   F24       1.0000  0.3713  0.8713  0.0907  1.0000\n  F   F25       1.0000  0.6287  0.1287  0.0907  1.0000\n  F   F26       1.0000  0.6981  0.3722  0.1630  1.0000\n  F   F27       1.0000  0.8722  0.8019  0.1630  1.0000\n  F   F28       1.0000  0.1278  0.1981  0.1630  1.0000\n  F   F29       1.0000  0.3019  0.6278  0.1630  1.0000\n  F   F30       1.0000  0.8019  0.8722  0.8370  1.0000\n  F   F31       1.0000  0.1981  0.1278  0.8370  1.0000\n  F   F32       1.0000  0.3722  0.6981  0.8370  1.0000\n  F   F33       1.0000  0.6278  0.3019  0.8370  1.0000\n  F   F34       1.0000  0.8019  0.1278  0.8370  1.0000\n  F   F35       1.0000  0.6278  0.6981  0.8370  1.0000\n  F   F36       1.0000  0.3722  0.3019  0.8370  1.0000\n  F   F37       1.0000  0.1981  0.8722  0.8370  1.0000\n  F   F38       1.0000  0.6981  0.6278  0.1630  1.0000\n  F   F39       1.0000  0.3019  0.3722  0.1630  1.0000\n  F   F40       1.0000  0.1278  0.8019  0.1630  1.0000\n  F   F41       1.0000  0.8722  0.1981  0.1630  1.0000\n  F   F42       1.0000  0.0000  0.5000  0.1586  1.0000\n  F   F43       1.0000  0.5000  0.0000  0.8414  1.0000\n  F   F44       1.0000  0.0000  0.5000  0.6621  1.0000\n  Al  Al16      1.0000  0.5000  0.0000  0.3379  1.0000\n  F   F45       1.0000  0.8264  0.5000  0.4108  1.0000\n  F   F46       1.0000  0.0000  0.6736  0.4108  1.0000\n  F   F47       1.0000  0.0000  0.3264  0.4108  1.0000\n  F   F48       1.0000  0.8713  0.3713  0.9093  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "581f1d66-20be-4b5e-9954-13ed42fcb287",
    "mp_id": "mp-1329989",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YCu3(WO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9931\n_cell_length_b   9.5256\n_cell_length_c   17.5000\n_cell_angle_alpha   60.2969\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YCu3(WO4)6\n_chemical_formula_sum   'Y2 Cu6 W12 O48'\n_cell_volume   867.7735\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.3400  0.5000  0.2500  1\n  Y  Y1  1  0.6600  0.5000  0.7500  1\n  Cu  Cu2  1  0.7071  0.3333  0.4147  1\n  Cu  Cu3  1  0.7071  0.6667  0.0853  1\n  Cu  Cu4  1  0.6950  0.0000  0.7500  1\n  Cu  Cu5  1  0.2929  0.6667  0.5853  1\n  Cu  Cu6  1  0.3050  0.0000  0.2500  1\n  Cu  Cu7  1  0.2929  0.3333  0.9147  1\n  W  W8  1  0.8258  0.9177  0.5840  1\n  W  W9  1  0.8257  0.2348  0.2524  1\n  W  W10  1  0.8336  0.5789  0.9235  1\n  W  W11  1  0.8336  0.4211  0.5765  1\n  W  W12  1  0.8257  0.7652  0.2476  1\n  W  W13  1  0.8258  0.0823  0.9160  1\n  W  W14  1  0.1742  0.0823  0.4160  1\n  W  W15  1  0.1664  0.4211  0.0765  1\n  W  W16  1  0.1743  0.7652  0.7476  1\n  W  W17  1  0.1664  0.5789  0.4235  1\n  W  W18  1  0.1742  0.9177  0.0840  1\n  W  W19  1  0.1743  0.2348  0.7524  1\n  O  O20  1  0.6729  0.3353  0.5192  1\n  O  O21  1  0.6583  0.6659  0.1923  1\n  O  O22  1  0.6654  0.0041  0.8543  1\n  O  O23  1  0.6654  0.9959  0.6457  1\n  O  O24  1  0.6583  0.3341  0.3077  1\n  O  O25  1  0.6729  0.6647  0.9808  1\n  O  O26  1  0.3271  0.6647  0.4808  1\n  O  O27  1  0.3346  0.9959  0.1457  1\n  O  O28  1  0.3417  0.3341  0.8077  1\n  O  O29  1  0.3346  0.0041  0.3543  1\n  O  O30  1  0.3271  0.3353  0.0192  1\n  O  O31  1  0.3417  0.6659  0.6923  1\n  O  O32  1  0.0993  0.8740  0.5238  1\n  O  O33  1  0.0949  0.2070  0.1883  1\n  O  O34  1  0.0949  0.5404  0.8544  1\n  O  O35  1  0.0949  0.4596  0.6456  1\n  O  O36  1  0.0949  0.7930  0.3117  1\n  O  O37  1  0.0993  0.1260  0.9762  1\n  O  O38  1  0.9007  0.1260  0.4762  1\n  O  O39  1  0.9051  0.4596  0.1456  1\n  O  O40  1  0.9051  0.7930  0.8117  1\n  O  O41  1  0.9051  0.5404  0.3544  1\n  O  O42  1  0.9007  0.8740  0.0238  1\n  O  O43  1  0.9051  0.2070  0.6883  1\n  O  O44  1  0.3861  0.5184  0.3718  1\n  O  O45  1  0.3973  0.8455  0.0460  1\n  O  O46  1  0.4014  0.1795  0.7080  1\n  O  O47  1  0.3973  0.1545  0.4540  1\n  O  O48  1  0.3861  0.4816  0.1282  1\n  O  O49  1  0.4014  0.8205  0.7920  1\n  O  O50  1  0.6139  0.4816  0.6282  1\n  O  O51  1  0.5986  0.8205  0.2920  1\n  O  O52  1  0.6027  0.1545  0.9540  1\n  O  O53  1  0.6027  0.8455  0.5460  1\n  O  O54  1  0.5986  0.1795  0.2080  1\n  O  O55  1  0.6139  0.5184  0.8718  1\n  O  O56  1  0.1106  0.3741  0.5187  1\n  O  O57  1  0.1069  0.7061  0.1840  1\n  O  O58  1  0.1079  0.0405  0.8505  1\n  O  O59  1  0.8894  0.6259  0.4813  1\n  O  O60  1  0.8921  0.9595  0.1495  1\n  O  O61  1  0.8931  0.2939  0.8160  1\n  O  O62  1  0.1079  0.9595  0.6495  1\n  O  O63  1  0.1069  0.2939  0.3160  1\n  O  O64  1  0.1106  0.6259  0.9813  1\n  O  O65  1  0.8921  0.0405  0.3505  1\n  O  O66  1  0.8894  0.3741  0.0187  1\n  O  O67  1  0.8931  0.7061  0.6840  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y2Cu4WCuW6CuW5O48\n_chemical_formula_sum              \"Y2 Cu6 W12 O48\"\n_cell_length_a       5.9931\n_cell_length_b       9.5256\n_cell_length_c       17.5000\n_cell_angle_alpha    60.2969\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.3400  0.5000  0.2500  1.0000\n  Y   Y2        1.0000  0.6600  0.5000  0.7500  1.0000\n  Cu  Cu1       1.0000  0.7071  0.3333  0.4147  1.0000\n  Cu  Cu2       1.0000  0.7071  0.6667  0.0853  1.0000\n  Cu  Cu3       1.0000  0.6950  0.0000  0.7500  1.0000\n  Cu  Cu4       1.0000  0.2929  0.6667  0.5853  1.0000\n  W   W1        1.0000  0.3050  0.0000  0.2500  1.0000\n  Cu  Cu5       1.0000  0.2929  0.3333  0.9147  1.0000\n  W   W2        1.0000  0.8258  0.9177  0.5840  1.0000\n  W   W3        1.0000  0.8257  0.2348  0.2524  1.0000\n  W   W4        1.0000  0.8336  0.5789  0.9235  1.0000\n  W   W5        1.0000  0.8336  0.4211  0.5765  1.0000\n  W   W6        1.0000  0.8257  0.7652  0.2476  1.0000\n  W   W7        1.0000  0.8258  0.0823  0.9160  1.0000\n  Cu  Cu6       1.0000  0.1742  0.0823  0.4160  1.0000\n  W   W8        1.0000  0.1664  0.4211  0.0765  1.0000\n  W   W9        1.0000  0.1743  0.7652  0.7476  1.0000\n  W   W10       1.0000  0.1664  0.5789  0.4235  1.0000\n  W   W11       1.0000  0.1742  0.9177  0.0840  1.0000\n  W   W12       1.0000  0.1743  0.2348  0.7524  1.0000\n  O   O1        1.0000  0.6729  0.3353  0.5192  1.0000\n  O   O2        1.0000  0.6583  0.6659  0.1923  1.0000\n  O   O3        1.0000  0.6654  0.0041  0.8543  1.0000\n  O   O4        1.0000  0.6654  0.9959  0.6457  1.0000\n  O   O5        1.0000  0.6583  0.3341  0.3077  1.0000\n  O   O6        1.0000  0.6729  0.6647  0.9808  1.0000\n  O   O7        1.0000  0.3271  0.6647  0.4808  1.0000\n  O   O8        1.0000  0.3346  0.9959  0.1457  1.0000\n  O   O9        1.0000  0.3417  0.3341  0.8077  1.0000\n  O   O10       1.0000  0.3346  0.0041  0.3543  1.0000\n  O   O11       1.0000  0.3271  0.3353  0.0192  1.0000\n  O   O12       1.0000  0.3417  0.6659  0.6923  1.0000\n  O   O13       1.0000  0.0993  0.8740  0.5238  1.0000\n  O   O14       1.0000  0.0949  0.2070  0.1883  1.0000\n  O   O15       1.0000  0.0949  0.5404  0.8544  1.0000\n  O   O16       1.0000  0.0949  0.4596  0.6456  1.0000\n  O   O17       1.0000  0.0949  0.7930  0.3117  1.0000\n  O   O18       1.0000  0.0993  0.1260  0.9762  1.0000\n  O   O19       1.0000  0.9007  0.1260  0.4762  1.0000\n  O   O20       1.0000  0.9051  0.4596  0.1456  1.0000\n  O   O21       1.0000  0.9051  0.7930  0.8117  1.0000\n  O   O22       1.0000  0.9051  0.5404  0.3544  1.0000\n  O   O23       1.0000  0.9007  0.8740  0.0238  1.0000\n  O   O24       1.0000  0.9051  0.2070  0.6883  1.0000\n  O   O25       1.0000  0.3861  0.5184  0.3718  1.0000\n  O   O26       1.0000  0.3973  0.8455  0.0460  1.0000\n  O   O27       1.0000  0.4014  0.1795  0.7080  1.0000\n  O   O28       1.0000  0.3973  0.1545  0.4540  1.0000\n  O   O29       1.0000  0.3861  0.4816  0.1282  1.0000\n  O   O30       1.0000  0.4014  0.8205  0.7920  1.0000\n  O   O31       1.0000  0.6139  0.4816  0.6282  1.0000\n  O   O32       1.0000  0.5986  0.8205  0.2920  1.0000\n  O   O33       1.0000  0.6027  0.1545  0.9540  1.0000\n  O   O34       1.0000  0.6027  0.8455  0.5460  1.0000\n  O   O35       1.0000  0.5986  0.1795  0.2080  1.0000\n  O   O36       1.0000  0.6139  0.5184  0.8718  1.0000\n  O   O37       1.0000  0.1106  0.3741  0.5187  1.0000\n  O   O38       1.0000  0.1069  0.7061  0.1840  1.0000\n  O   O39       1.0000  0.1079  0.0405  0.8505  1.0000\n  O   O40       1.0000  0.8894  0.6259  0.4813  1.0000\n  O   O41       1.0000  0.8921  0.9595  0.1495  1.0000\n  O   O42       1.0000  0.8931  0.2939  0.8160  1.0000\n  O   O43       1.0000  0.1079  0.9595  0.6495  1.0000\n  O   O44       1.0000  0.1069  0.2939  0.3160  1.0000\n  O   O45       1.0000  0.1106  0.6259  0.9813  1.0000\n  O   O46       1.0000  0.8921  0.0405  0.3505  1.0000\n  O   O47       1.0000  0.8894  0.3741  0.0187  1.0000\n  O   O48       1.0000  0.8931  0.7061  0.6840  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8f9fa0e4-d875-438d-af7c-1b5f0169f8c3",
    "mp_id": "mp-1330925",
    "action_prompt": "Swap the spatial positions of atoms at indices 61 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ZnCuSb2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5315\n_cell_length_b   10.3598\n_cell_length_c   10.8399\n_cell_angle_alpha   83.1285\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ZnCuSb2O7\n_chemical_formula_sum   'Zn6 Cu6 Sb12 O42'\n_cell_volume   951.1963\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.4429  0.8640  0.5793  1\n  Zn  Zn1  1  0.9359  0.5000  0.7500  1\n  Zn  Zn2  1  0.4429  0.1360  0.9207  1\n  Zn  Zn3  1  0.0641  0.5000  0.2500  1\n  Zn  Zn4  1  0.5571  0.1360  0.4207  1\n  Zn  Zn5  1  0.5571  0.8640  0.0793  1\n  Cu  Cu6  1  0.9244  0.1979  0.4144  1\n  Cu  Cu7  1  0.0756  0.8021  0.5856  1\n  Cu  Cu8  1  0.4305  0.5000  0.2500  1\n  Cu  Cu9  1  0.9244  0.8021  0.0856  1\n  Cu  Cu10  1  0.5695  0.5000  0.7500  1\n  Cu  Cu11  1  0.0756  0.1979  0.9144  1\n  Sb  Sb12  1  0.2221  0.8211  0.2944  1\n  Sb  Sb13  1  0.7511  0.8367  0.3736  1\n  Sb  Sb14  1  0.2489  0.8367  0.8736  1\n  Sb  Sb15  1  0.7779  0.8211  0.7944  1\n  Sb  Sb16  1  0.2742  0.4964  0.9636  1\n  Sb  Sb17  1  0.7511  0.1633  0.1264  1\n  Sb  Sb18  1  0.7258  0.4964  0.4636  1\n  Sb  Sb19  1  0.2489  0.1633  0.6264  1\n  Sb  Sb20  1  0.2742  0.5036  0.5364  1\n  Sb  Sb21  1  0.7258  0.5036  0.0364  1\n  Sb  Sb22  1  0.7779  0.1789  0.7056  1\n  Sb  Sb23  1  0.2221  0.1789  0.2056  1\n  O  O24  1  0.7427  0.7887  0.9738  1\n  O  O25  1  0.7609  0.1441  0.3044  1\n  O  O26  1  0.8496  0.0000  0.7500  1\n  O  O27  1  0.9218  0.4942  0.1118  1\n  O  O28  1  0.4097  0.0628  0.5631  1\n  O  O29  1  0.9311  0.7273  0.7098  1\n  O  O30  1  0.3464  0.6765  0.9416  1\n  O  O31  1  0.0782  0.4942  0.6118  1\n  O  O32  1  0.7412  0.5444  0.8580  1\n  O  O33  1  0.4097  0.9372  0.9369  1\n  O  O34  1  0.7412  0.4556  0.6420  1\n  O  O35  1  0.4398  0.4204  0.8804  1\n  O  O36  1  0.9567  0.1449  0.0624  1\n  O  O37  1  0.0689  0.7273  0.2098  1\n  O  O38  1  0.6536  0.3235  0.0584  1\n  O  O39  1  0.3464  0.3235  0.5584  1\n  O  O40  1  0.9311  0.2727  0.7902  1\n  O  O41  1  0.5903  0.9372  0.4369  1\n  O  O42  1  0.2573  0.7887  0.4738  1\n  O  O43  1  0.5602  0.5796  0.1196  1\n  O  O44  1  0.4189  0.1954  0.2803  1\n  O  O45  1  0.2588  0.4556  0.1420  1\n  O  O46  1  0.0433  0.1449  0.5624  1\n  O  O47  1  0.2588  0.5444  0.3580  1\n  O  O48  1  0.9218  0.5058  0.3882  1\n  O  O49  1  0.5602  0.4204  0.3804  1\n  O  O50  1  0.0782  0.5058  0.8882  1\n  O  O51  1  0.5811  0.1954  0.7803  1\n  O  O52  1  0.5811  0.8046  0.7197  1\n  O  O53  1  0.0433  0.8551  0.9376  1\n  O  O54  1  0.0689  0.2727  0.2902  1\n  O  O55  1  0.7427  0.2113  0.5262  1\n  O  O56  1  0.1504  0.0000  0.2500  1\n  O  O57  1  0.2391  0.1441  0.8044  1\n  O  O58  1  0.5903  0.0628  0.0631  1\n  O  O59  1  0.9567  0.8551  0.4376  1\n  O  O60  1  0.2573  0.2113  0.0262  1\n  O  O61  1  0.7609  0.8559  0.1956  1\n  O  O62  1  0.4398  0.5796  0.6196  1\n  O  O63  1  0.6536  0.6765  0.4416  1\n  O  O64  1  0.2391  0.8559  0.6956  1\n  O  O65  1  0.4189  0.8046  0.2197  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn3OZn2Cu6Sb12O37ZnO4\n_chemical_formula_sum              \"Zn6 O42 Cu6 Sb12\"\n_cell_length_a       8.5315\n_cell_length_b       10.3598\n_cell_length_c       10.8399\n_cell_angle_alpha    83.1285\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.4429  0.8640  0.5793  1.0000\n  Zn  Zn2       1.0000  0.9359  0.5000  0.7500  1.0000\n  Zn  Zn3       1.0000  0.4429  0.1360  0.9207  1.0000\n  O   O1        1.0000  0.0641  0.5000  0.2500  1.0000\n  Zn  Zn4       1.0000  0.5571  0.1360  0.4207  1.0000\n  Zn  Zn5       1.0000  0.5571  0.8640  0.0793  1.0000\n  Cu  Cu1       1.0000  0.9244  0.1979  0.4144  1.0000\n  Cu  Cu2       1.0000  0.0756  0.8021  0.5856  1.0000\n  Cu  Cu3       1.0000  0.4305  0.5000  0.2500  1.0000\n  Cu  Cu4       1.0000  0.9244  0.8021  0.0856  1.0000\n  Cu  Cu5       1.0000  0.5695  0.5000  0.7500  1.0000\n  Cu  Cu6       1.0000  0.0756  0.1979  0.9144  1.0000\n  Sb  Sb1       1.0000  0.2221  0.8211  0.2944  1.0000\n  Sb  Sb2       1.0000  0.7511  0.8367  0.3736  1.0000\n  Sb  Sb3       1.0000  0.2489  0.8367  0.8736  1.0000\n  Sb  Sb4       1.0000  0.7779  0.8211  0.7944  1.0000\n  Sb  Sb5       1.0000  0.2742  0.4964  0.9636  1.0000\n  Sb  Sb6       1.0000  0.7511  0.1633  0.1264  1.0000\n  Sb  Sb7       1.0000  0.7258  0.4964  0.4636  1.0000\n  Sb  Sb8       1.0000  0.2489  0.1633  0.6264  1.0000\n  Sb  Sb9       1.0000  0.2742  0.5036  0.5364  1.0000\n  Sb  Sb10      1.0000  0.7258  0.5036  0.0364  1.0000\n  Sb  Sb11      1.0000  0.7779  0.1789  0.7056  1.0000\n  Sb  Sb12      1.0000  0.2221  0.1789  0.2056  1.0000\n  O   O2        1.0000  0.7427  0.7887  0.9738  1.0000\n  O   O3        1.0000  0.7609  0.1441  0.3044  1.0000\n  O   O4        1.0000  0.8496  0.0000  0.7500  1.0000\n  O   O5        1.0000  0.9218  0.4942  0.1118  1.0000\n  O   O6        1.0000  0.4097  0.0628  0.5631  1.0000\n  O   O7        1.0000  0.9311  0.7273  0.7098  1.0000\n  O   O8        1.0000  0.3464  0.6765  0.9416  1.0000\n  O   O9        1.0000  0.0782  0.4942  0.6118  1.0000\n  O   O10       1.0000  0.7412  0.5444  0.8580  1.0000\n  O   O11       1.0000  0.4097  0.9372  0.9369  1.0000\n  O   O12       1.0000  0.7412  0.4556  0.6420  1.0000\n  O   O13       1.0000  0.4398  0.4204  0.8804  1.0000\n  O   O14       1.0000  0.9567  0.1449  0.0624  1.0000\n  O   O15       1.0000  0.0689  0.7273  0.2098  1.0000\n  O   O16       1.0000  0.6536  0.3235  0.0584  1.0000\n  O   O17       1.0000  0.3464  0.3235  0.5584  1.0000\n  O   O18       1.0000  0.9311  0.2727  0.7902  1.0000\n  O   O19       1.0000  0.5903  0.9372  0.4369  1.0000\n  O   O20       1.0000  0.2573  0.7887  0.4738  1.0000\n  O   O21       1.0000  0.5602  0.5796  0.1196  1.0000\n  O   O22       1.0000  0.4189  0.1954  0.2803  1.0000\n  O   O23       1.0000  0.2588  0.4556  0.1420  1.0000\n  O   O24       1.0000  0.0433  0.1449  0.5624  1.0000\n  O   O25       1.0000  0.2588  0.5444  0.3580  1.0000\n  O   O26       1.0000  0.9218  0.5058  0.3882  1.0000\n  O   O27       1.0000  0.5602  0.4204  0.3804  1.0000\n  O   O28       1.0000  0.0782  0.5058  0.8882  1.0000\n  O   O29       1.0000  0.5811  0.1954  0.7803  1.0000\n  O   O30       1.0000  0.5811  0.8046  0.7197  1.0000\n  O   O31       1.0000  0.0433  0.8551  0.9376  1.0000\n  O   O32       1.0000  0.0689  0.2727  0.2902  1.0000\n  O   O33       1.0000  0.7427  0.2113  0.5262  1.0000\n  O   O34       1.0000  0.1504  0.0000  0.2500  1.0000\n  O   O35       1.0000  0.2391  0.1441  0.8044  1.0000\n  O   O36       1.0000  0.5903  0.0628  0.0631  1.0000\n  O   O37       1.0000  0.9567  0.8551  0.4376  1.0000\n  O   O38       1.0000  0.2573  0.2113  0.0262  1.0000\n  Zn  Zn6       1.0000  0.7609  0.8559  0.1956  1.0000\n  O   O39       1.0000  0.4398  0.5796  0.6196  1.0000\n  O   O40       1.0000  0.6536  0.6765  0.4416  1.0000\n  O   O41       1.0000  0.2391  0.8559  0.6956  1.0000\n  O   O42       1.0000  0.4189  0.8046  0.2197  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6713ee3f-9340-4927-a452-8e3046d8a7b7",
    "mp_id": "mp-1337025",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti4(FeO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4784\n_cell_length_b   6.4784\n_cell_length_c   6.4784\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti4(FeO4)3\n_chemical_formula_sum   'Ti4 Fe3 O12'\n_cell_volume   209.3072\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.5000  0.5000  0.5000  1\n  Ti  Ti1  1  0.0000  0.5000  0.0000  1\n  Ti  Ti2  1  0.0000  0.0000  0.5000  1\n  Ti  Ti3  1  0.5000  0.0000  0.0000  1\n  Fe  Fe4  1  0.5000  0.5000  0.0000  1\n  Fe  Fe5  1  0.5000  0.0000  0.5000  1\n  Fe  Fe6  1  0.0000  0.5000  0.5000  1\n  O  O7  1  0.1979  0.8890  0.6911  1\n  O  O8  1  0.1979  0.5067  0.3089  1\n  O  O9  1  0.8021  0.4933  0.6911  1\n  O  O10  1  0.3089  0.1979  0.5067  1\n  O  O11  1  0.8890  0.6911  0.1979  1\n  O  O12  1  0.1110  0.3089  0.8021  1\n  O  O13  1  0.3089  0.8021  0.1110  1\n  O  O14  1  0.5067  0.3089  0.1979  1\n  O  O15  1  0.8021  0.1110  0.3089  1\n  O  O16  1  0.6911  0.1979  0.8890  1\n  O  O17  1  0.6911  0.8021  0.4933  1\n  O  O18  1  0.4933  0.6911  0.8021  1\n",
    "output": "data_image0\n_chemical_formula_structural       TiFeTi3Fe2O12\n_chemical_formula_sum              \"Ti4 Fe3 O12\"\n_cell_length_a       6.4784\n_cell_length_b       6.4784\n_cell_length_c       6.4784\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Ti  Ti2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ti  Ti3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ti  Ti4       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe3       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.1979  0.8890  0.6911  1.0000\n  O   O2        1.0000  0.1979  0.5067  0.3089  1.0000\n  O   O3        1.0000  0.8021  0.4933  0.6911  1.0000\n  O   O4        1.0000  0.3089  0.1979  0.5067  1.0000\n  O   O5        1.0000  0.8890  0.6911  0.1979  1.0000\n  O   O6        1.0000  0.1110  0.3089  0.8021  1.0000\n  O   O7        1.0000  0.3089  0.8021  0.1110  1.0000\n  O   O8        1.0000  0.5067  0.3089  0.1979  1.0000\n  O   O9        1.0000  0.8021  0.1110  0.3089  1.0000\n  O   O10       1.0000  0.6911  0.1979  0.8890  1.0000\n  O   O11       1.0000  0.6911  0.8021  0.4933  1.0000\n  O   O12       1.0000  0.4933  0.6911  0.8021  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "754e92ab-2ad7-40ec-8975-b77e55e39283",
    "mp_id": "mp-1337931",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 32 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RhSCl5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.9943\n_cell_length_b   13.9943\n_cell_length_c   27.5338\n_cell_angle_alpha   61.8623\n_cell_angle_beta   61.8623\n_cell_angle_gamma   29.2912\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RhSCl5\n_chemical_formula_sum   'Rh12 S12 Cl60'\n_cell_volume   2303.5357\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rh  Rh0  1  0.9376  0.8398  0.9378  1\n  Rh  Rh1  1  0.3150  0.0601  0.4156  1\n  Rh  Rh2  1  0.0601  0.3150  0.9156  1\n  Rh  Rh3  1  0.0180  0.6372  0.8525  1\n  Rh  Rh4  1  0.6850  0.9399  0.5844  1\n  Rh  Rh5  1  0.1602  0.0624  0.5622  1\n  Rh  Rh6  1  0.0624  0.1602  0.0622  1\n  Rh  Rh7  1  0.9399  0.6850  0.0844  1\n  Rh  Rh8  1  0.3628  0.9820  0.6475  1\n  Rh  Rh9  1  0.6372  0.0180  0.3525  1\n  Rh  Rh10  1  0.8398  0.9376  0.4378  1\n  Rh  Rh11  1  0.9820  0.3628  0.1475  1\n  S  S12  1  0.9199  0.2948  0.9137  1\n  S  S13  1  0.2948  0.9199  0.4137  1\n  S  S14  1  0.7544  0.5392  0.2173  1\n  S  S15  1  0.7053  0.0801  0.5863  1\n  S  S16  1  0.0801  0.7053  0.0863  1\n  S  S17  1  0.7291  0.1292  0.8815  1\n  S  S18  1  0.2456  0.4608  0.7827  1\n  S  S19  1  0.2709  0.8708  0.1185  1\n  S  S20  1  0.5392  0.7544  0.7173  1\n  S  S21  1  0.4608  0.2456  0.2827  1\n  S  S22  1  0.1292  0.7291  0.3815  1\n  S  S23  1  0.8708  0.2709  0.6185  1\n  Cl  Cl24  1  0.1730  0.2131  0.5675  1\n  Cl  Cl25  1  0.3765  0.4426  0.0683  1\n  Cl  Cl26  1  0.9352  0.3144  0.8329  1\n  Cl  Cl27  1  0.5574  0.6235  0.4317  1\n  Cl  Cl28  1  0.5323  0.1451  0.5012  1\n  Cl  Cl29  1  0.4426  0.3765  0.5683  1\n  Cl  Cl30  1  0.6959  0.8538  0.1599  1\n  Cl  Cl31  1  0.6856  0.0648  0.6671  1\n  Cl  Cl32  1  0.1451  0.5323  0.0012  1\n  Cl  Cl33  1  0.5835  0.3381  0.9180  1\n  Cl  Cl34  1  0.6619  0.4165  0.5820  1\n  Cl  Cl35  1  0.3734  0.1407  0.6419  1\n  Cl  Cl36  1  0.1407  0.3734  0.1419  1\n  Cl  Cl37  1  0.3354  0.8389  0.6389  1\n  Cl  Cl38  1  0.2131  0.1730  0.0675  1\n  Cl  Cl39  1  0.3284  0.5443  0.7353  1\n  Cl  Cl40  1  0.1209  0.8820  0.3138  1\n  Cl  Cl41  1  0.9045  0.1505  0.0569  1\n  Cl  Cl42  1  0.2706  0.0122  0.9781  1\n  Cl  Cl43  1  0.1395  0.3024  0.3401  1\n  Cl  Cl44  1  0.8270  0.7869  0.4325  1\n  Cl  Cl45  1  0.5443  0.3284  0.2353  1\n  Cl  Cl46  1  0.6235  0.5574  0.9317  1\n  Cl  Cl47  1  0.3144  0.9352  0.3329  1\n  Cl  Cl48  1  0.4461  0.8882  0.7730  1\n  Cl  Cl49  1  0.6646  0.1611  0.3611  1\n  Cl  Cl50  1  0.8389  0.3354  0.1389  1\n  Cl  Cl51  1  0.3381  0.5835  0.4180  1\n  Cl  Cl52  1  0.3024  0.1395  0.8401  1\n  Cl  Cl53  1  0.6215  0.8569  0.3579  1\n  Cl  Cl54  1  0.4503  0.6690  0.7645  1\n  Cl  Cl55  1  0.7801  0.6611  0.0837  1\n  Cl  Cl56  1  0.8495  0.0955  0.4431  1\n  Cl  Cl57  1  0.0533  0.1953  0.7053  1\n  Cl  Cl58  1  0.0122  0.2706  0.4781  1\n  Cl  Cl59  1  0.0955  0.8495  0.9431  1\n  Cl  Cl60  1  0.1611  0.6646  0.8611  1\n  Cl  Cl61  1  0.1180  0.8791  0.1862  1\n  Cl  Cl62  1  0.1144  0.5418  0.7277  1\n  Cl  Cl63  1  0.6611  0.7801  0.5837  1\n  Cl  Cl64  1  0.0603  0.6812  0.1679  1\n  Cl  Cl65  1  0.8549  0.4677  0.9988  1\n  Cl  Cl66  1  0.8882  0.4461  0.2730  1\n  Cl  Cl67  1  0.8538  0.6959  0.6599  1\n  Cl  Cl68  1  0.7869  0.8270  0.9325  1\n  Cl  Cl69  1  0.2199  0.3389  0.9163  1\n  Cl  Cl70  1  0.8056  0.9397  0.7939  1\n  Cl  Cl71  1  0.9878  0.7294  0.5219  1\n  Cl  Cl72  1  0.4677  0.8549  0.4988  1\n  Cl  Cl73  1  0.1505  0.9045  0.5569  1\n  Cl  Cl74  1  0.8820  0.1209  0.8138  1\n  Cl  Cl75  1  0.4165  0.6619  0.0820  1\n  Cl  Cl76  1  0.3389  0.2199  0.4163  1\n  Cl  Cl77  1  0.6716  0.4557  0.2647  1\n  Cl  Cl78  1  0.8791  0.1180  0.6862  1\n  Cl  Cl79  1  0.9397  0.8056  0.2939  1\n  Cl  Cl80  1  0.5418  0.1144  0.2277  1\n  Cl  Cl81  1  0.8593  0.6266  0.8581  1\n  Cl  Cl82  1  0.1953  0.0533  0.2053  1\n  Cl  Cl83  1  0.7294  0.9878  0.0219  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rh10ClRhS12Cl8RhCl51\n_chemical_formula_sum              \"Rh12 Cl60 S12\"\n_cell_length_a       13.9943\n_cell_length_b       13.9943\n_cell_length_c       27.5338\n_cell_angle_alpha    61.8623\n_cell_angle_beta     61.8623\n_cell_angle_gamma    29.2912\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rh  Rh1       1.0000  0.9376  0.8398  0.9378  1.0000\n  Rh  Rh2       1.0000  0.3150  0.0601  0.4156  1.0000\n  Rh  Rh3       1.0000  0.0601  0.3150  0.9156  1.0000\n  Rh  Rh4       1.0000  0.0180  0.6372  0.8525  1.0000\n  Rh  Rh5       1.0000  0.6850  0.9399  0.5844  1.0000\n  Rh  Rh6       1.0000  0.1602  0.0624  0.5622  1.0000\n  Rh  Rh7       1.0000  0.0624  0.1602  0.0622  1.0000\n  Rh  Rh8       1.0000  0.9399  0.6850  0.0844  1.0000\n  Rh  Rh9       1.0000  0.3628  0.9820  0.6475  1.0000\n  Rh  Rh10      1.0000  0.6372  0.0180  0.3525  1.0000\n  Cl  Cl1       1.0000  0.8398  0.9376  0.4378  1.0000\n  Rh  Rh11      1.0000  0.9820  0.3628  0.1475  1.0000\n  S   S1        1.0000  0.9199  0.2948  0.9137  1.0000\n  S   S2        1.0000  0.2948  0.9199  0.4137  1.0000\n  S   S3        1.0000  0.7544  0.5392  0.2173  1.0000\n  S   S4        1.0000  0.7053  0.0801  0.5863  1.0000\n  S   S5        1.0000  0.0801  0.7053  0.0863  1.0000\n  S   S6        1.0000  0.7291  0.1292  0.8815  1.0000\n  S   S7        1.0000  0.2456  0.4608  0.7827  1.0000\n  S   S8        1.0000  0.2709  0.8708  0.1185  1.0000\n  S   S9        1.0000  0.5392  0.7544  0.7173  1.0000\n  S   S10       1.0000  0.4608  0.2456  0.2827  1.0000\n  S   S11       1.0000  0.1292  0.7291  0.3815  1.0000\n  S   S12       1.0000  0.8708  0.2709  0.6185  1.0000\n  Cl  Cl2       1.0000  0.1730  0.2131  0.5675  1.0000\n  Cl  Cl3       1.0000  0.3765  0.4426  0.0683  1.0000\n  Cl  Cl4       1.0000  0.9352  0.3144  0.8329  1.0000\n  Cl  Cl5       1.0000  0.5574  0.6235  0.4317  1.0000\n  Cl  Cl6       1.0000  0.5323  0.1451  0.5012  1.0000\n  Cl  Cl7       1.0000  0.4426  0.3765  0.5683  1.0000\n  Cl  Cl8       1.0000  0.6959  0.8538  0.1599  1.0000\n  Cl  Cl9       1.0000  0.6856  0.0648  0.6671  1.0000\n  Rh  Rh12      1.0000  0.1451  0.5323  0.0012  1.0000\n  Cl  Cl10      1.0000  0.5835  0.3381  0.9180  1.0000\n  Cl  Cl11      1.0000  0.6619  0.4165  0.5820  1.0000\n  Cl  Cl12      1.0000  0.3734  0.1407  0.6419  1.0000\n  Cl  Cl13      1.0000  0.1407  0.3734  0.1419  1.0000\n  Cl  Cl14      1.0000  0.3354  0.8389  0.6389  1.0000\n  Cl  Cl15      1.0000  0.2131  0.1730  0.0675  1.0000\n  Cl  Cl16      1.0000  0.3284  0.5443  0.7353  1.0000\n  Cl  Cl17      1.0000  0.1209  0.8820  0.3138  1.0000\n  Cl  Cl18      1.0000  0.9045  0.1505  0.0569  1.0000\n  Cl  Cl19      1.0000  0.2706  0.0122  0.9781  1.0000\n  Cl  Cl20      1.0000  0.1395  0.3024  0.3401  1.0000\n  Cl  Cl21      1.0000  0.8270  0.7869  0.4325  1.0000\n  Cl  Cl22      1.0000  0.5443  0.3284  0.2353  1.0000\n  Cl  Cl23      1.0000  0.6235  0.5574  0.9317  1.0000\n  Cl  Cl24      1.0000  0.3144  0.9352  0.3329  1.0000\n  Cl  Cl25      1.0000  0.4461  0.8882  0.7730  1.0000\n  Cl  Cl26      1.0000  0.6646  0.1611  0.3611  1.0000\n  Cl  Cl27      1.0000  0.8389  0.3354  0.1389  1.0000\n  Cl  Cl28      1.0000  0.3381  0.5835  0.4180  1.0000\n  Cl  Cl29      1.0000  0.3024  0.1395  0.8401  1.0000\n  Cl  Cl30      1.0000  0.6215  0.8569  0.3579  1.0000\n  Cl  Cl31      1.0000  0.4503  0.6690  0.7645  1.0000\n  Cl  Cl32      1.0000  0.7801  0.6611  0.0837  1.0000\n  Cl  Cl33      1.0000  0.8495  0.0955  0.4431  1.0000\n  Cl  Cl34      1.0000  0.0533  0.1953  0.7053  1.0000\n  Cl  Cl35      1.0000  0.0122  0.2706  0.4781  1.0000\n  Cl  Cl36      1.0000  0.0955  0.8495  0.9431  1.0000\n  Cl  Cl37      1.0000  0.1611  0.6646  0.8611  1.0000\n  Cl  Cl38      1.0000  0.1180  0.8791  0.1862  1.0000\n  Cl  Cl39      1.0000  0.1144  0.5418  0.7277  1.0000\n  Cl  Cl40      1.0000  0.6611  0.7801  0.5837  1.0000\n  Cl  Cl41      1.0000  0.0603  0.6812  0.1679  1.0000\n  Cl  Cl42      1.0000  0.8549  0.4677  0.9988  1.0000\n  Cl  Cl43      1.0000  0.8882  0.4461  0.2730  1.0000\n  Cl  Cl44      1.0000  0.8538  0.6959  0.6599  1.0000\n  Cl  Cl45      1.0000  0.7869  0.8270  0.9325  1.0000\n  Cl  Cl46      1.0000  0.2199  0.3389  0.9163  1.0000\n  Cl  Cl47      1.0000  0.8056  0.9397  0.7939  1.0000\n  Cl  Cl48      1.0000  0.9878  0.7294  0.5219  1.0000\n  Cl  Cl49      1.0000  0.4677  0.8549  0.4988  1.0000\n  Cl  Cl50      1.0000  0.1505  0.9045  0.5569  1.0000\n  Cl  Cl51      1.0000  0.8820  0.1209  0.8138  1.0000\n  Cl  Cl52      1.0000  0.4165  0.6619  0.0820  1.0000\n  Cl  Cl53      1.0000  0.3389  0.2199  0.4163  1.0000\n  Cl  Cl54      1.0000  0.6716  0.4557  0.2647  1.0000\n  Cl  Cl55      1.0000  0.8791  0.1180  0.6862  1.0000\n  Cl  Cl56      1.0000  0.9397  0.8056  0.2939  1.0000\n  Cl  Cl57      1.0000  0.5418  0.1144  0.2277  1.0000\n  Cl  Cl58      1.0000  0.8593  0.6266  0.8581  1.0000\n  Cl  Cl59      1.0000  0.1953  0.0533  0.2053  1.0000\n  Cl  Cl60      1.0000  0.7294  0.9878  0.0219  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f57b478d-40af-4240-b02b-637fdda7b580",
    "mp_id": "mp-1344766",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zn2AgSbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7537\n_cell_length_b   5.4890\n_cell_length_c   5.5900\n_cell_angle_alpha   82.4694\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zn2AgSbO6\n_chemical_formula_sum   'Zn4 Ag2 Sb2 O12'\n_cell_volume   235.8578\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zn  Zn0  1  0.2500  0.5443  0.4845  1\n  Zn  Zn1  1  0.7500  0.4557  0.5155  1\n  Zn  Zn2  1  0.2500  0.0152  0.9392  1\n  Zn  Zn3  1  0.7500  0.9848  0.0608  1\n  Ag  Ag4  1  0.5000  0.0000  0.5000  1\n  Ag  Ag5  1  0.0000  0.0000  0.5000  1\n  Sb  Sb6  1  0.5000  0.5000  0.0000  1\n  Sb  Sb7  1  0.0000  0.5000  0.0000  1\n  O  O8  1  0.5621  0.6540  0.6607  1\n  O  O9  1  0.9264  0.2010  0.8803  1\n  O  O10  1  0.0621  0.3460  0.3393  1\n  O  O11  1  0.4264  0.7990  0.1197  1\n  O  O12  1  0.5736  0.2010  0.8803  1\n  O  O13  1  0.0736  0.7990  0.1197  1\n  O  O14  1  0.7500  0.6022  0.1251  1\n  O  O15  1  0.9379  0.6540  0.6607  1\n  O  O16  1  0.2500  0.8889  0.6030  1\n  O  O17  1  0.4379  0.3460  0.3393  1\n  O  O18  1  0.2500  0.3978  0.8749  1\n  O  O19  1  0.7500  0.1111  0.3970  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zn4Ag2OSbO9SbO2\n_chemical_formula_sum              \"Zn4 Ag2 O12 Sb2\"\n_cell_length_a       7.7537\n_cell_length_b       5.4890\n_cell_length_c       5.5900\n_cell_angle_alpha    82.4694\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zn  Zn1       1.0000  0.2500  0.5443  0.4845  1.0000\n  Zn  Zn2       1.0000  0.7500  0.4557  0.5155  1.0000\n  Zn  Zn3       1.0000  0.2500  0.0152  0.9392  1.0000\n  Zn  Zn4       1.0000  0.7500  0.9848  0.0608  1.0000\n  Ag  Ag1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ag  Ag2       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Sb  Sb1       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.5621  0.6540  0.6607  1.0000\n  O   O3        1.0000  0.9264  0.2010  0.8803  1.0000\n  O   O4        1.0000  0.0621  0.3460  0.3393  1.0000\n  O   O5        1.0000  0.4264  0.7990  0.1197  1.0000\n  O   O6        1.0000  0.5736  0.2010  0.8803  1.0000\n  O   O7        1.0000  0.0736  0.7990  0.1197  1.0000\n  O   O8        1.0000  0.7500  0.6022  0.1251  1.0000\n  O   O9        1.0000  0.9379  0.6540  0.6607  1.0000\n  O   O10       1.0000  0.2500  0.8889  0.6030  1.0000\n  Sb  Sb2       1.0000  0.4379  0.3460  0.3393  1.0000\n  O   O11       1.0000  0.2500  0.3978  0.8749  1.0000\n  O   O12       1.0000  0.7500  0.1111  0.3970  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f04c583b-e48c-446a-adee-ffee539e3dab",
    "mp_id": "mp-1347018",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HoZn(CoO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4749\n_cell_length_b   5.1556\n_cell_length_c   8.9818\n_cell_angle_alpha   56.4517\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HoZn(CoO3)2\n_chemical_formula_sum   'Ho2 Zn2 Co4 O12'\n_cell_volume   211.2913\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.3274  0.7730  0.2472  1\n  Ho  Ho1  1  0.6726  0.7730  0.7472  1\n  Zn  Zn2  1  0.7954  0.2335  0.2517  1\n  Zn  Zn3  1  0.2046  0.2335  0.7517  1\n  Co  Co4  1  0.7629  0.0024  0.9988  1\n  Co  Co5  1  0.7644  0.4990  0.5009  1\n  Co  Co6  1  0.2371  0.0024  0.4988  1\n  Co  Co7  1  0.2356  0.4990  0.0009  1\n  O  O8  1  0.8001  0.3690  0.7390  1\n  O  O9  1  0.0554  0.1370  0.0615  1\n  O  O10  1  0.0629  0.7693  0.4394  1\n  O  O11  1  0.5716  0.2420  0.0591  1\n  O  O12  1  0.5672  0.8689  0.4411  1\n  O  O13  1  0.2803  0.6078  0.7609  1\n  O  O14  1  0.1999  0.3690  0.2390  1\n  O  O15  1  0.9446  0.1370  0.5615  1\n  O  O16  1  0.9371  0.7693  0.9394  1\n  O  O17  1  0.4328  0.8689  0.9411  1\n  O  O18  1  0.4284  0.2420  0.5591  1\n  O  O19  1  0.7197  0.6078  0.2609  1\n",
    "output": "data_image0\n_chemical_formula_structural       OHoZn2Co4O9HoO2\n_chemical_formula_sum              \"O12 Ho2 Zn2 Co4\"\n_cell_length_a       5.4749\n_cell_length_b       5.1556\n_cell_length_c       8.9818\n_cell_angle_alpha    56.4517\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.3274  0.7730  0.2472  1.0000\n  Ho  Ho1       1.0000  0.6726  0.7730  0.7472  1.0000\n  Zn  Zn1       1.0000  0.7954  0.2335  0.2517  1.0000\n  Zn  Zn2       1.0000  0.2046  0.2335  0.7517  1.0000\n  Co  Co1       1.0000  0.7629  0.0024  0.9988  1.0000\n  Co  Co2       1.0000  0.7644  0.4990  0.5009  1.0000\n  Co  Co3       1.0000  0.2371  0.0024  0.4988  1.0000\n  Co  Co4       1.0000  0.2356  0.4990  0.0009  1.0000\n  O   O2        1.0000  0.8001  0.3690  0.7390  1.0000\n  O   O3        1.0000  0.0554  0.1370  0.0615  1.0000\n  O   O4        1.0000  0.0629  0.7693  0.4394  1.0000\n  O   O5        1.0000  0.5716  0.2420  0.0591  1.0000\n  O   O6        1.0000  0.5672  0.8689  0.4411  1.0000\n  O   O7        1.0000  0.2803  0.6078  0.7609  1.0000\n  O   O8        1.0000  0.1999  0.3690  0.2390  1.0000\n  O   O9        1.0000  0.9446  0.1370  0.5615  1.0000\n  O   O10       1.0000  0.9371  0.7693  0.9394  1.0000\n  Ho  Ho2       1.0000  0.4328  0.8689  0.9411  1.0000\n  O   O11       1.0000  0.4284  0.2420  0.5591  1.0000\n  O   O12       1.0000  0.7197  0.6078  0.2609  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "05774f3b-aa21-465a-8547-831fbcff2801",
    "mp_id": "mp-1348043",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2TaVO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5551\n_cell_length_b   5.2222\n_cell_length_c   5.4450\n_cell_angle_alpha   89.6958\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2TaVO6\n_chemical_formula_sum   'Mg4 Ta2 V2 O12'\n_cell_volume   214.8263\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7500  0.9958  0.0420  1\n  Mg  Mg1  1  0.7500  0.5168  0.5651  1\n  Mg  Mg2  1  0.2500  0.4832  0.4349  1\n  Mg  Mg3  1  0.2500  0.0042  0.9580  1\n  Ta  Ta4  1  0.0000  0.0000  0.5000  1\n  Ta  Ta5  1  0.5000  0.0000  0.5000  1\n  V  V6  1  0.0000  0.5000  0.0000  1\n  V  V7  1  0.5000  0.5000  0.0000  1\n  O  O8  1  0.4307  0.1716  0.1887  1\n  O  O9  1  0.5692  0.6868  0.3211  1\n  O  O10  1  0.5693  0.8284  0.8113  1\n  O  O11  1  0.0692  0.3132  0.6789  1\n  O  O12  1  0.2500  0.8642  0.5568  1\n  O  O13  1  0.4308  0.3132  0.6789  1\n  O  O14  1  0.9308  0.6868  0.3211  1\n  O  O15  1  0.0693  0.1716  0.1887  1\n  O  O16  1  0.7500  0.3824  0.9419  1\n  O  O17  1  0.9307  0.8284  0.8113  1\n  O  O18  1  0.2500  0.6176  0.0581  1\n  O  O19  1  0.7500  0.1358  0.4432  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg4OTaV2O2TaO9\n_chemical_formula_sum              \"Mg4 O12 Ta2 V2\"\n_cell_length_a       7.5551\n_cell_length_b       5.2222\n_cell_length_c       5.4450\n_cell_angle_alpha    89.6958\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7500  0.9958  0.0420  1.0000\n  Mg  Mg2       1.0000  0.7500  0.5168  0.5651  1.0000\n  Mg  Mg3       1.0000  0.2500  0.4832  0.4349  1.0000\n  Mg  Mg4       1.0000  0.2500  0.0042  0.9580  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.5000  1.0000\n  Ta  Ta1       1.0000  0.5000  0.0000  0.5000  1.0000\n  V   V1        1.0000  0.0000  0.5000  0.0000  1.0000\n  V   V2        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.4307  0.1716  0.1887  1.0000\n  O   O3        1.0000  0.5692  0.6868  0.3211  1.0000\n  Ta  Ta2       1.0000  0.5693  0.8284  0.8113  1.0000\n  O   O4        1.0000  0.0692  0.3132  0.6789  1.0000\n  O   O5        1.0000  0.2500  0.8642  0.5568  1.0000\n  O   O6        1.0000  0.4308  0.3132  0.6789  1.0000\n  O   O7        1.0000  0.9308  0.6868  0.3211  1.0000\n  O   O8        1.0000  0.0693  0.1716  0.1887  1.0000\n  O   O9        1.0000  0.7500  0.3824  0.9419  1.0000\n  O   O10       1.0000  0.9307  0.8284  0.8113  1.0000\n  O   O11       1.0000  0.2500  0.6176  0.0581  1.0000\n  O   O12       1.0000  0.7500  0.1358  0.4432  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e89cafa4-78fa-429b-a10a-213fbaf6c773",
    "mp_id": "mp-1350284",
    "action_prompt": "Swap the spatial positions of atoms at indices 46 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MnFe4(BiO3)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6470\n_cell_length_b   5.7106\n_cell_length_c   23.2512\n_cell_angle_alpha   96.2859\n_cell_angle_beta   89.7392\n_cell_angle_gamma   119.6250\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MnFe4(BiO3)5\n_chemical_formula_sum   'Mn2 Fe8 Bi10 O30'\n_cell_volume   646.7969\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0085  0.8739  0.1434  1\n  Mn  Mn1  1  0.4060  0.4637  0.3445  1\n  Fe  Fe2  1  0.8130  0.0821  0.5450  1\n  Fe  Fe3  1  0.2114  0.6791  0.7450  1\n  Fe  Fe4  1  0.6111  0.2807  0.9446  1\n  Fe  Fe5  1  0.1140  0.7811  0.4444  1\n  Fe  Fe6  1  0.5137  0.3806  0.6450  1\n  Fe  Fe7  1  0.9130  0.9800  0.8444  1\n  Fe  Fe8  1  0.3084  0.5779  0.0439  1\n  Fe  Fe9  1  0.7182  0.1855  0.2462  1\n  Bi  Bi10  1  0.1040  0.8980  0.2988  1\n  Bi  Bi11  1  0.5039  0.5054  0.5006  1\n  Bi  Bi12  1  0.9026  0.1032  0.7008  1\n  Bi  Bi13  1  0.3017  0.7031  0.9001  1\n  Bi  Bi14  1  0.7017  0.3047  0.1016  1\n  Bi  Bi15  1  0.9966  0.0008  0.0001  1\n  Bi  Bi16  1  0.4095  0.6158  0.2009  1\n  Bi  Bi17  1  0.8029  0.2012  0.4003  1\n  Bi  Bi18  1  0.2030  0.8052  0.6011  1\n  Bi  Bi19  1  0.6012  0.4032  0.8004  1\n  O  O20  1  0.6100  0.7781  0.2926  1\n  O  O21  1  0.0126  0.3932  0.4866  1\n  O  O22  1  0.4155  0.9917  0.6871  1\n  O  O23  1  0.8157  0.5928  0.8867  1\n  O  O24  1  0.2105  0.1890  0.0878  1\n  O  O25  1  0.3200  0.9578  0.2120  1\n  O  O26  1  0.7034  0.5548  0.4068  1\n  O  O27  1  0.1061  0.1499  0.6078  1\n  O  O28  1  0.5065  0.7504  0.8073  1\n  O  O29  1  0.9023  0.3486  0.0080  1\n  O  O30  1  0.2006  0.6128  0.3771  1\n  O  O31  1  0.5955  0.2153  0.5779  1\n  O  O32  1  0.9952  0.8148  0.7772  1\n  O  O33  1  0.3888  0.4104  0.9763  1\n  O  O34  1  0.8010  0.0153  0.1780  1\n  O  O35  1  0.1074  0.3168  0.2820  1\n  O  O36  1  0.4954  0.9125  0.4776  1\n  O  O37  1  0.8965  0.5142  0.6777  1\n  O  O38  1  0.2962  0.1138  0.8764  1\n  O  O39  1  0.6842  0.7044  0.0733  1\n  O  O40  1  0.5476  0.2587  0.3121  1\n  O  O41  1  0.9517  0.8488  0.5075  1\n  O  O42  1  0.3503  0.4481  0.7077  1\n  O  O43  1  0.7529  0.0502  0.9074  1\n  O  O44  1  0.1574  0.6555  0.1077  1\n  O  O45  1  0.1709  0.1003  0.3898  1\n  O  O46  1  0.5626  0.6921  0.5875  1\n  O  O47  1  0.9629  0.2923  0.7871  1\n  O  O48  1  0.3594  0.8901  0.9862  1\n  O  O49  1  0.7758  0.5148  0.1853  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn2Fe5OFe2Bi10O26FeO3\n_chemical_formula_sum              \"Mn2 Fe8 O30 Bi10\"\n_cell_length_a       5.6470\n_cell_length_b       5.7106\n_cell_length_c       23.2512\n_cell_angle_alpha    96.2859\n_cell_angle_beta     89.7392\n_cell_angle_gamma    119.6250\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0085  0.8739  0.1434  1.0000\n  Mn  Mn2       1.0000  0.4060  0.4637  0.3445  1.0000\n  Fe  Fe1       1.0000  0.8130  0.0821  0.5450  1.0000\n  Fe  Fe2       1.0000  0.2114  0.6791  0.7450  1.0000\n  Fe  Fe3       1.0000  0.6111  0.2807  0.9446  1.0000\n  Fe  Fe4       1.0000  0.1140  0.7811  0.4444  1.0000\n  Fe  Fe5       1.0000  0.5137  0.3806  0.6450  1.0000\n  O   O1        1.0000  0.9130  0.9800  0.8444  1.0000\n  Fe  Fe6       1.0000  0.3084  0.5779  0.0439  1.0000\n  Fe  Fe7       1.0000  0.7182  0.1855  0.2462  1.0000\n  Bi  Bi1       1.0000  0.1040  0.8980  0.2988  1.0000\n  Bi  Bi2       1.0000  0.5039  0.5054  0.5006  1.0000\n  Bi  Bi3       1.0000  0.9026  0.1032  0.7008  1.0000\n  Bi  Bi4       1.0000  0.3017  0.7031  0.9001  1.0000\n  Bi  Bi5       1.0000  0.7017  0.3047  0.1016  1.0000\n  Bi  Bi6       1.0000  0.9966  0.0008  0.0001  1.0000\n  Bi  Bi7       1.0000  0.4095  0.6158  0.2009  1.0000\n  Bi  Bi8       1.0000  0.8029  0.2012  0.4003  1.0000\n  Bi  Bi9       1.0000  0.2030  0.8052  0.6011  1.0000\n  Bi  Bi10      1.0000  0.6012  0.4032  0.8004  1.0000\n  O   O2        1.0000  0.6100  0.7781  0.2926  1.0000\n  O   O3        1.0000  0.0126  0.3932  0.4866  1.0000\n  O   O4        1.0000  0.4155  0.9917  0.6871  1.0000\n  O   O5        1.0000  0.8157  0.5928  0.8867  1.0000\n  O   O6        1.0000  0.2105  0.1890  0.0878  1.0000\n  O   O7        1.0000  0.3200  0.9578  0.2120  1.0000\n  O   O8        1.0000  0.7034  0.5548  0.4068  1.0000\n  O   O9        1.0000  0.1061  0.1499  0.6078  1.0000\n  O   O10       1.0000  0.5065  0.7504  0.8073  1.0000\n  O   O11       1.0000  0.9023  0.3486  0.0080  1.0000\n  O   O12       1.0000  0.2006  0.6128  0.3771  1.0000\n  O   O13       1.0000  0.5955  0.2153  0.5779  1.0000\n  O   O14       1.0000  0.9952  0.8148  0.7772  1.0000\n  O   O15       1.0000  0.3888  0.4104  0.9763  1.0000\n  O   O16       1.0000  0.8010  0.0153  0.1780  1.0000\n  O   O17       1.0000  0.1074  0.3168  0.2820  1.0000\n  O   O18       1.0000  0.4954  0.9125  0.4776  1.0000\n  O   O19       1.0000  0.8965  0.5142  0.6777  1.0000\n  O   O20       1.0000  0.2962  0.1138  0.8764  1.0000\n  O   O21       1.0000  0.6842  0.7044  0.0733  1.0000\n  O   O22       1.0000  0.5476  0.2587  0.3121  1.0000\n  O   O23       1.0000  0.9517  0.8488  0.5075  1.0000\n  O   O24       1.0000  0.3503  0.4481  0.7077  1.0000\n  O   O25       1.0000  0.7529  0.0502  0.9074  1.0000\n  O   O26       1.0000  0.1574  0.6555  0.1077  1.0000\n  O   O27       1.0000  0.1709  0.1003  0.3898  1.0000\n  Fe  Fe8       1.0000  0.5626  0.6921  0.5875  1.0000\n  O   O28       1.0000  0.9629  0.2923  0.7871  1.0000\n  O   O29       1.0000  0.3594  0.8901  0.9862  1.0000\n  O   O30       1.0000  0.7758  0.5148  0.1853  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "21311d7c-0e73-451b-99ed-984f17546650",
    "mp_id": "mp-1354141",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6330\n_cell_length_b   5.6381\n_cell_length_c   16.9358\n_cell_angle_alpha   60.0029\n_cell_angle_beta   60.0952\n_cell_angle_gamma   59.9813\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiO2\n_chemical_formula_sum   'Ni12 O24'\n_cell_volume   380.5603\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.4965  0.4963  0.1692  1\n  Ni  Ni1  1  0.0003  0.5007  0.4997  1\n  Ni  Ni2  1  0.5004  0.4979  0.3341  1\n  Ni  Ni3  1  0.4964  0.9988  0.1693  1\n  Ni  Ni4  1  0.5006  0.5006  0.4997  1\n  Ni  Ni5  1  0.9997  0.4959  0.1692  1\n  Ni  Ni6  1  0.5006  0.5030  0.6657  1\n  Ni  Ni7  1  0.5007  0.0004  0.4997  1\n  Ni  Ni8  1  0.5015  0.5018  0.8317  1\n  Ni  Ni9  1  0.5016  0.0021  0.8314  1\n  Ni  Ni10  1  0.0014  0.5018  0.8316  1\n  Ni  Ni11  1  0.8822  0.8802  0.9512  1\n  O  O12  1  0.2423  0.2423  0.1004  1\n  O  O13  1  0.2429  0.7133  0.1002  1\n  O  O14  1  0.2621  0.2611  0.2385  1\n  O  O15  1  0.7097  0.2459  0.0994  1\n  O  O16  1  0.2644  0.2645  0.4218  1\n  O  O17  1  0.2937  0.7332  0.2462  1\n  O  O18  1  0.7371  0.7370  0.0962  1\n  O  O19  1  0.7359  0.2918  0.2460  1\n  O  O20  1  0.2658  0.7050  0.4213  1\n  O  O21  1  0.2660  0.2652  0.5679  1\n  O  O22  1  0.7064  0.2641  0.4219  1\n  O  O23  1  0.7358  0.7331  0.2460  1\n  O  O24  1  0.2663  0.2684  0.7527  1\n  O  O25  1  0.2953  0.7370  0.5775  1\n  O  O26  1  0.7353  0.7360  0.4312  1\n  O  O27  1  0.7352  0.2968  0.5781  1\n  O  O28  1  0.2675  0.2671  0.8993  1\n  O  O29  1  0.2652  0.7093  0.7533  1\n  O  O30  1  0.7078  0.2673  0.7531  1\n  O  O31  1  0.7366  0.7368  0.5775  1\n  O  O32  1  0.2886  0.7507  0.9033  1\n  O  O33  1  0.7516  0.2872  0.9033  1\n  O  O34  1  0.7355  0.7365  0.7638  1\n  O  O35  1  0.7496  0.7494  0.9036  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ni10ONiO12NiO11\n_chemical_formula_sum              \"Ni12 O24\"\n_cell_length_a       5.6330\n_cell_length_b       5.6381\n_cell_length_c       16.9358\n_cell_angle_alpha    60.0029\n_cell_angle_beta     60.0952\n_cell_angle_gamma    59.9813\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.4965  0.4963  0.1692  1.0000\n  Ni  Ni2       1.0000  0.0003  0.5007  0.4997  1.0000\n  Ni  Ni3       1.0000  0.5004  0.4979  0.3341  1.0000\n  Ni  Ni4       1.0000  0.4964  0.9988  0.1693  1.0000\n  Ni  Ni5       1.0000  0.5006  0.5006  0.4997  1.0000\n  Ni  Ni6       1.0000  0.9997  0.4959  0.1692  1.0000\n  Ni  Ni7       1.0000  0.5006  0.5030  0.6657  1.0000\n  Ni  Ni8       1.0000  0.5007  0.0004  0.4997  1.0000\n  Ni  Ni9       1.0000  0.5015  0.5018  0.8317  1.0000\n  Ni  Ni10      1.0000  0.5016  0.0021  0.8314  1.0000\n  O   O1        1.0000  0.0014  0.5018  0.8316  1.0000\n  Ni  Ni11      1.0000  0.8822  0.8802  0.9512  1.0000\n  O   O2        1.0000  0.2423  0.2423  0.1004  1.0000\n  O   O3        1.0000  0.2429  0.7133  0.1002  1.0000\n  O   O4        1.0000  0.2621  0.2611  0.2385  1.0000\n  O   O5        1.0000  0.7097  0.2459  0.0994  1.0000\n  O   O6        1.0000  0.2644  0.2645  0.4218  1.0000\n  O   O7        1.0000  0.2937  0.7332  0.2462  1.0000\n  O   O8        1.0000  0.7371  0.7370  0.0962  1.0000\n  O   O9        1.0000  0.7359  0.2918  0.2460  1.0000\n  O   O10       1.0000  0.2658  0.7050  0.4213  1.0000\n  O   O11       1.0000  0.2660  0.2652  0.5679  1.0000\n  O   O12       1.0000  0.7064  0.2641  0.4219  1.0000\n  O   O13       1.0000  0.7358  0.7331  0.2460  1.0000\n  Ni  Ni12      1.0000  0.2663  0.2684  0.7527  1.0000\n  O   O14       1.0000  0.2953  0.7370  0.5775  1.0000\n  O   O15       1.0000  0.7353  0.7360  0.4312  1.0000\n  O   O16       1.0000  0.7352  0.2968  0.5781  1.0000\n  O   O17       1.0000  0.2675  0.2671  0.8993  1.0000\n  O   O18       1.0000  0.2652  0.7093  0.7533  1.0000\n  O   O19       1.0000  0.7078  0.2673  0.7531  1.0000\n  O   O20       1.0000  0.7366  0.7368  0.5775  1.0000\n  O   O21       1.0000  0.2886  0.7507  0.9033  1.0000\n  O   O22       1.0000  0.7516  0.2872  0.9033  1.0000\n  O   O23       1.0000  0.7355  0.7365  0.7638  1.0000\n  O   O24       1.0000  0.7496  0.7494  0.9036  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4ff4000e-0b60-4b44-874f-44fb81425225",
    "mp_id": "mp-13560",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YB2Pd7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9942\n_cell_length_b   5.9942\n_cell_length_c   5.9942\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YB2Pd7\n_chemical_formula_sum   'Y1 B2 Pd7'\n_cell_volume   152.2914\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0000  0.0000  0.0000  1\n  B  B1  1  0.7500  0.7500  0.7500  1\n  B  B2  1  0.2500  0.2500  0.2500  1\n  Pd  Pd3  1  0.5000  0.0000  0.5000  1\n  Pd  Pd4  1  0.0000  0.0000  0.5000  1\n  Pd  Pd5  1  0.5000  0.5000  0.0000  1\n  Pd  Pd6  1  0.5000  0.5000  0.5000  1\n  Pd  Pd7  1  0.0000  0.5000  0.5000  1\n  Pd  Pd8  1  0.5000  0.0000  0.0000  1\n  Pd  Pd9  1  0.0000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       YBPd7B\n_chemical_formula_sum              \"Y1 B2 Pd7\"\n_cell_length_a       5.9942\n_cell_length_b       5.9942\n_cell_length_c       5.9942\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0000  0.0000  0.0000  1.0000\n  B   B1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Pd  Pd1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Pd  Pd2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Pd  Pd3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Pd  Pd4       1.0000  0.5000  0.5000  0.0000  1.0000\n  Pd  Pd5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Pd  Pd6       1.0000  0.0000  0.5000  0.5000  1.0000\n  Pd  Pd7       1.0000  0.5000  0.0000  0.0000  1.0000\n  B   B2        1.0000  0.0000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7c4a148b-ea61-44df-b610-29617c3b0418",
    "mp_id": "mp-1368020",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca2CuWO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7216\n_cell_length_b   5.5096\n_cell_length_c   9.4007\n_cell_angle_alpha   54.3730\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca2CuWO6\n_chemical_formula_sum   'Ca4 Cu2 W2 O12'\n_cell_volume   240.8788\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0573  0.2661  0.7472  1\n  Ca  Ca1  1  0.5573  0.7339  0.7528  1\n  Ca  Ca2  1  0.9427  0.7339  0.2528  1\n  Ca  Ca3  1  0.4427  0.2661  0.2472  1\n  Cu  Cu4  1  0.0000  0.5000  0.0000  1\n  Cu  Cu5  1  0.5000  0.5000  0.5000  1\n  W  W6  1  0.0000  0.0000  0.5000  1\n  W  W7  1  0.5000  0.0000  0.0000  1\n  O  O8  1  0.2814  0.7611  0.5538  1\n  O  O9  1  0.7814  0.2389  0.9462  1\n  O  O10  1  0.7186  0.2389  0.4462  1\n  O  O11  1  0.2186  0.7611  0.0538  1\n  O  O12  1  0.1890  0.3332  0.4538  1\n  O  O13  1  0.6890  0.6668  0.0462  1\n  O  O14  1  0.8110  0.6668  0.5462  1\n  O  O15  1  0.3110  0.3332  0.9538  1\n  O  O16  1  0.4674  0.1505  0.7540  1\n  O  O17  1  0.9674  0.8495  0.7460  1\n  O  O18  1  0.0326  0.1505  0.2540  1\n  O  O19  1  0.5326  0.8495  0.2460  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca4CuOW2O9CuO2\n_chemical_formula_sum              \"Ca4 Cu2 O12 W2\"\n_cell_length_a       5.7216\n_cell_length_b       5.5096\n_cell_length_c       9.4007\n_cell_angle_alpha    54.3730\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0573  0.2661  0.7472  1.0000\n  Ca  Ca2       1.0000  0.5573  0.7339  0.7528  1.0000\n  Ca  Ca3       1.0000  0.9427  0.7339  0.2528  1.0000\n  Ca  Ca4       1.0000  0.4427  0.2661  0.2472  1.0000\n  Cu  Cu1       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  W   W1        1.0000  0.0000  0.0000  0.5000  1.0000\n  W   W2        1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2814  0.7611  0.5538  1.0000\n  O   O3        1.0000  0.7814  0.2389  0.9462  1.0000\n  O   O4        1.0000  0.7186  0.2389  0.4462  1.0000\n  O   O5        1.0000  0.2186  0.7611  0.0538  1.0000\n  O   O6        1.0000  0.1890  0.3332  0.4538  1.0000\n  O   O7        1.0000  0.6890  0.6668  0.0462  1.0000\n  O   O8        1.0000  0.8110  0.6668  0.5462  1.0000\n  O   O9        1.0000  0.3110  0.3332  0.9538  1.0000\n  O   O10       1.0000  0.4674  0.1505  0.7540  1.0000\n  Cu  Cu2       1.0000  0.9674  0.8495  0.7460  1.0000\n  O   O11       1.0000  0.0326  0.1505  0.2540  1.0000\n  O   O12       1.0000  0.5326  0.8495  0.2460  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f668be48-b4e0-4470-9c44-8a54b069f68f",
    "mp_id": "mp-1370295",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Ti2Mn3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2404\n_cell_length_b   5.2908\n_cell_length_c   7.8887\n_cell_angle_alpha   107.9592\n_cell_angle_beta   101.1121\n_cell_angle_gamma   101.6364\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Ti2Mn3O10\n_chemical_formula_sum   'Li5 Ti2 Mn3 O10'\n_cell_volume   196.0161\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2176  0.4952  0.3996  1\n  Li  Li1  1  0.3926  0.5099  0.7845  1\n  Li  Li2  1  0.5051  0.9888  0.5061  1\n  Li  Li3  1  0.7855  0.5006  0.6038  1\n  Li  Li4  1  0.6053  0.4855  0.2213  1\n  Ti  Ti5  1  0.0995  0.0290  0.6882  1\n  Ti  Ti6  1  0.9011  0.9693  0.3144  1\n  Mn  Mn7  1  0.9977  0.5001  0.0007  1\n  Mn  Mn8  1  0.6872  0.9904  0.8952  1\n  Mn  Mn9  1  0.3115  0.0083  0.1077  1\n  O  O10  1  0.0505  0.2325  0.8332  1\n  O  O11  1  0.1349  0.7857  0.5422  1\n  O  O12  1  0.3160  0.7519  0.9352  1\n  O  O13  1  0.2172  0.2612  0.2345  1\n  O  O14  1  0.4250  0.2344  0.6527  1\n  O  O15  1  0.5745  0.7630  0.3495  1\n  O  O16  1  0.7782  0.7382  0.7656  1\n  O  O17  1  0.6801  0.2475  0.0659  1\n  O  O18  1  0.8647  0.2111  0.4596  1\n  O  O19  1  0.9475  0.7664  0.1678  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5TiMn2TiMnO10\n_chemical_formula_sum              \"Li5 Ti2 Mn3 O10\"\n_cell_length_a       5.2404\n_cell_length_b       5.2908\n_cell_length_c       7.8887\n_cell_angle_alpha    107.9592\n_cell_angle_beta     101.1121\n_cell_angle_gamma    101.6364\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2176  0.4952  0.3996  1.0000\n  Li  Li2       1.0000  0.3926  0.5099  0.7845  1.0000\n  Li  Li3       1.0000  0.5051  0.9888  0.5061  1.0000\n  Li  Li4       1.0000  0.7855  0.5006  0.6038  1.0000\n  Li  Li5       1.0000  0.6053  0.4855  0.2213  1.0000\n  Ti  Ti1       1.0000  0.0995  0.0290  0.6882  1.0000\n  Mn  Mn1       1.0000  0.9011  0.9693  0.3144  1.0000\n  Mn  Mn2       1.0000  0.9977  0.5001  0.0007  1.0000\n  Ti  Ti2       1.0000  0.6872  0.9904  0.8952  1.0000\n  Mn  Mn3       1.0000  0.3115  0.0083  0.1077  1.0000\n  O   O1        1.0000  0.0505  0.2325  0.8332  1.0000\n  O   O2        1.0000  0.1349  0.7857  0.5422  1.0000\n  O   O3        1.0000  0.3160  0.7519  0.9352  1.0000\n  O   O4        1.0000  0.2172  0.2612  0.2345  1.0000\n  O   O5        1.0000  0.4250  0.2344  0.6527  1.0000\n  O   O6        1.0000  0.5745  0.7630  0.3495  1.0000\n  O   O7        1.0000  0.7782  0.7382  0.7656  1.0000\n  O   O8        1.0000  0.6801  0.2475  0.0659  1.0000\n  O   O9        1.0000  0.8647  0.2111  0.4596  1.0000\n  O   O10       1.0000  0.9475  0.7664  0.1678  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "381b1c0b-b7e0-485b-ae79-aaa2bb1a1b74",
    "mp_id": "mp-1373337",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li9Mn2Co5O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1401\n_cell_length_b   5.8303\n_cell_length_c   10.3370\n_cell_angle_alpha   104.8057\n_cell_angle_beta   95.1781\n_cell_angle_gamma   108.1616\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li9Mn2Co5O16\n_chemical_formula_sum   'Li9 Mn2 Co5 O16'\n_cell_volume   279.6610\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3786  0.8062  0.1222  1\n  Li  Li1  1  0.1229  0.9405  0.3718  1\n  Li  Li2  1  0.8814  0.0710  0.6205  1\n  Li  Li3  1  0.6243  0.2000  0.8815  1\n  Li  Li4  1  0.3787  0.3196  0.1239  1\n  Li  Li5  1  0.1250  0.4347  0.3728  1\n  Li  Li6  1  0.8783  0.5588  0.6230  1\n  Li  Li7  1  0.6101  0.6714  0.8847  1\n  Li  Li8  1  0.9995  0.4960  0.0021  1\n  Mn  Mn9  1  0.0057  0.0011  0.0022  1\n  Mn  Mn10  1  0.2431  0.8748  0.7523  1\n  Co  Co11  1  0.7527  0.1220  0.2488  1\n  Co  Co12  1  0.4938  0.2524  0.4982  1\n  Co  Co13  1  0.2456  0.3815  0.7510  1\n  Co  Co14  1  0.7520  0.6147  0.2503  1\n  Co  Co15  1  0.5003  0.7502  0.5002  1\n  O  O16  1  0.7078  0.6718  0.0658  1\n  O  O17  1  0.4856  0.7816  0.3125  1\n  O  O18  1  0.1976  0.9264  0.5691  1\n  O  O19  1  0.9673  0.0375  0.8137  1\n  O  O20  1  0.7207  0.1401  0.0661  1\n  O  O21  1  0.4336  0.2736  0.3233  1\n  O  O22  1  0.2062  0.4318  0.5682  1\n  O  O23  1  0.9712  0.5441  0.8035  1\n  O  O24  1  0.0762  0.9678  0.1735  1\n  O  O25  1  0.7868  0.0711  0.4356  1\n  O  O26  1  0.5251  0.2219  0.6837  1\n  O  O27  1  0.2993  0.3298  0.9301  1\n  O  O28  1  0.0165  0.4511  0.1979  1\n  O  O29  1  0.7952  0.5753  0.4343  1\n  O  O30  1  0.5226  0.7230  0.6896  1\n  O  O31  1  0.2965  0.8580  0.9277  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li9Mn2Co2OCo2O14CoO\n_chemical_formula_sum              \"Li9 Mn2 Co5 O16\"\n_cell_length_a       5.1401\n_cell_length_b       5.8303\n_cell_length_c       10.3370\n_cell_angle_alpha    104.8057\n_cell_angle_beta     95.1781\n_cell_angle_gamma    108.1616\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3786  0.8062  0.1222  1.0000\n  Li  Li2       1.0000  0.1229  0.9405  0.3718  1.0000\n  Li  Li3       1.0000  0.8814  0.0710  0.6205  1.0000\n  Li  Li4       1.0000  0.6243  0.2000  0.8815  1.0000\n  Li  Li5       1.0000  0.3787  0.3196  0.1239  1.0000\n  Li  Li6       1.0000  0.1250  0.4347  0.3728  1.0000\n  Li  Li7       1.0000  0.8783  0.5588  0.6230  1.0000\n  Li  Li8       1.0000  0.6101  0.6714  0.8847  1.0000\n  Li  Li9       1.0000  0.9995  0.4960  0.0021  1.0000\n  Mn  Mn1       1.0000  0.0057  0.0011  0.0022  1.0000\n  Mn  Mn2       1.0000  0.2431  0.8748  0.7523  1.0000\n  Co  Co1       1.0000  0.7527  0.1220  0.2488  1.0000\n  Co  Co2       1.0000  0.4938  0.2524  0.4982  1.0000\n  O   O1        1.0000  0.2456  0.3815  0.7510  1.0000\n  Co  Co3       1.0000  0.7520  0.6147  0.2503  1.0000\n  Co  Co4       1.0000  0.5003  0.7502  0.5002  1.0000\n  O   O2        1.0000  0.7078  0.6718  0.0658  1.0000\n  O   O3        1.0000  0.4856  0.7816  0.3125  1.0000\n  O   O4        1.0000  0.1976  0.9264  0.5691  1.0000\n  O   O5        1.0000  0.9673  0.0375  0.8137  1.0000\n  O   O6        1.0000  0.7207  0.1401  0.0661  1.0000\n  O   O7        1.0000  0.4336  0.2736  0.3233  1.0000\n  O   O8        1.0000  0.2062  0.4318  0.5682  1.0000\n  O   O9        1.0000  0.9712  0.5441  0.8035  1.0000\n  O   O10       1.0000  0.0762  0.9678  0.1735  1.0000\n  O   O11       1.0000  0.7868  0.0711  0.4356  1.0000\n  O   O12       1.0000  0.5251  0.2219  0.6837  1.0000\n  O   O13       1.0000  0.2993  0.3298  0.9301  1.0000\n  O   O14       1.0000  0.0165  0.4511  0.1979  1.0000\n  O   O15       1.0000  0.7952  0.5753  0.4343  1.0000\n  Co  Co5       1.0000  0.5226  0.7230  0.6896  1.0000\n  O   O16       1.0000  0.2965  0.8580  0.9277  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "32fbae6e-3ad1-44c0-a821-0487c43e6168",
    "mp_id": "mp-1376405",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaNiF5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9721\n_cell_length_b   5.4009\n_cell_length_c   7.5252\n_cell_angle_alpha   69.8367\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaNiF5\n_chemical_formula_sum   'Ca4 Ni4 F20'\n_cell_volume   380.4583\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0220  0.5372  0.7415  1\n  Ca  Ca1  1  0.5220  0.4628  0.7585  1\n  Ca  Ca2  1  0.9780  0.4628  0.2585  1\n  Ca  Ca3  1  0.4780  0.5372  0.2415  1\n  Ni  Ni4  1  0.7527  0.1109  0.6004  1\n  Ni  Ni5  1  0.2527  0.8891  0.8996  1\n  Ni  Ni6  1  0.2473  0.8891  0.3996  1\n  Ni  Ni7  1  0.7473  0.1109  0.1004  1\n  F  F8  1  0.8748  0.4045  0.5557  1\n  F  F9  1  0.3748  0.5955  0.9443  1\n  F  F10  1  0.1252  0.5955  0.4443  1\n  F  F11  1  0.6252  0.4045  0.0557  1\n  F  F12  1  0.6155  0.3632  0.5002  1\n  F  F13  1  0.1155  0.6368  -0.0002  1\n  F  F14  1  0.3845  0.6368  0.4998  1\n  F  F15  1  0.8845  0.3632  0.0002  1\n  F  F16  1  0.3961  0.1034  0.7995  1\n  F  F17  1  0.8961  0.8966  0.7005  1\n  F  F18  1  0.6039  0.8966  0.2005  1\n  F  F19  1  0.1039  0.1034  0.2995  1\n  F  F20  1  0.1375  0.1628  0.8691  1\n  F  F21  1  0.6375  0.8372  0.6309  1\n  F  F22  1  0.8625  0.8372  0.1309  1\n  F  F23  1  0.3625  0.1628  0.3691  1\n  F  F24  1  0.6931  0.1412  0.8421  1\n  F  F25  1  0.1931  0.8588  0.6579  1\n  F  F26  1  0.3069  0.8588  0.1579  1\n  F  F27  1  0.8069  0.1412  0.3421  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaFCa2Ni4F3CaF16\n_chemical_formula_sum              \"Ca4 F20 Ni4\"\n_cell_length_a       9.9721\n_cell_length_b       5.4009\n_cell_length_c       7.5252\n_cell_angle_alpha    69.8367\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0220  0.5372  0.7415  1.0000\n  F   F1        1.0000  0.5220  0.4628  0.7585  1.0000\n  Ca  Ca2       1.0000  0.9780  0.4628  0.2585  1.0000\n  Ca  Ca3       1.0000  0.4780  0.5372  0.2415  1.0000\n  Ni  Ni1       1.0000  0.7527  0.1109  0.6004  1.0000\n  Ni  Ni2       1.0000  0.2527  0.8891  0.8996  1.0000\n  Ni  Ni3       1.0000  0.2473  0.8891  0.3996  1.0000\n  Ni  Ni4       1.0000  0.7473  0.1109  0.1004  1.0000\n  F   F2        1.0000  0.8748  0.4045  0.5557  1.0000\n  F   F3        1.0000  0.3748  0.5955  0.9443  1.0000\n  F   F4        1.0000  0.1252  0.5955  0.4443  1.0000\n  Ca  Ca4       1.0000  0.6252  0.4045  0.0557  1.0000\n  F   F5        1.0000  0.6155  0.3632  0.5002  1.0000\n  F   F6        1.0000  0.1155  0.6368  0.9998  1.0000\n  F   F7        1.0000  0.3845  0.6368  0.4998  1.0000\n  F   F8        1.0000  0.8845  0.3632  0.0002  1.0000\n  F   F9        1.0000  0.3961  0.1034  0.7995  1.0000\n  F   F10       1.0000  0.8961  0.8966  0.7005  1.0000\n  F   F11       1.0000  0.6039  0.8966  0.2005  1.0000\n  F   F12       1.0000  0.1039  0.1034  0.2995  1.0000\n  F   F13       1.0000  0.1375  0.1628  0.8691  1.0000\n  F   F14       1.0000  0.6375  0.8372  0.6309  1.0000\n  F   F15       1.0000  0.8625  0.8372  0.1309  1.0000\n  F   F16       1.0000  0.3625  0.1628  0.3691  1.0000\n  F   F17       1.0000  0.6931  0.1412  0.8421  1.0000\n  F   F18       1.0000  0.1931  0.8588  0.6579  1.0000\n  F   F19       1.0000  0.3069  0.8588  0.1579  1.0000\n  F   F20       1.0000  0.8069  0.1412  0.3421  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ed0c6152-b50e-44f2-8892-45a399079a19",
    "mp_id": "mp-1377393",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr9Zn2(CuO7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.3528\n_cell_length_b   11.3528\n_cell_length_c   11.3641\n_cell_angle_alpha   81.5230\n_cell_angle_beta   81.5230\n_cell_angle_gamma   18.5286\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr9Zn2(CuO7)2\n_chemical_formula_sum   'Sr9 Zn2 Cu2 O14'\n_cell_volume   460.2230\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.6944  0.6944  0.4275  1\n  Sr  Sr1  1  0.6793  0.6793  0.0831  1\n  Sr  Sr2  1  0.6816  0.6816  0.7880  1\n  Sr  Sr3  1  0.3087  0.3087  0.2177  1\n  Sr  Sr4  1  0.5152  0.5152  0.1746  1\n  Sr  Sr5  1  0.4961  0.4961  0.5005  1\n  Sr  Sr6  1  0.3075  0.3075  0.5811  1\n  Sr  Sr7  1  0.4819  0.4819  0.8058  1\n  Sr  Sr8  1  0.3213  0.3213  0.8755  1\n  Zn  Zn9  1  0.8951  0.8951  0.0444  1\n  Zn  Zn10  1  0.1102  0.1102  0.2980  1\n  Cu  Cu11  1  0.1054  0.1054  0.6217  1\n  Cu  Cu12  1  0.8923  0.8923  0.3748  1\n  O  O13  1  0.2009  0.2009  0.2756  1\n  O  O14  1  0.8034  0.8034  0.0735  1\n  O  O15  1  0.9725  0.9725  0.3529  1\n  O  O16  1  0.0888  0.0888  0.1392  1\n  O  O17  1  0.8106  0.8106  0.4015  1\n  O  O18  1  0.5919  0.5919  0.3649  1\n  O  O19  1  0.2053  0.2053  0.9256  1\n  O  O20  1  0.7902  0.7902  0.7287  1\n  O  O21  1  0.4174  0.4174  0.1006  1\n  O  O22  1  0.1872  0.1872  0.5981  1\n  O  O23  1  0.0251  0.0251  0.6449  1\n  O  O24  1  0.5772  0.5772  0.9119  1\n  O  O25  1  0.9113  0.9113  0.8727  1\n  O  O26  1  0.4037  0.4037  0.6540  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2OSr6Zn2Cu2O13Sr\n_chemical_formula_sum              \"Sr9 O14 Zn2 Cu2\"\n_cell_length_a       11.3528\n_cell_length_b       11.3528\n_cell_length_c       11.3641\n_cell_angle_alpha    81.5230\n_cell_angle_beta     81.5230\n_cell_angle_gamma    18.5286\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.6944  0.6944  0.4275  1.0000\n  Sr  Sr2       1.0000  0.6793  0.6793  0.0831  1.0000\n  O   O1        1.0000  0.6816  0.6816  0.7880  1.0000\n  Sr  Sr3       1.0000  0.3087  0.3087  0.2177  1.0000\n  Sr  Sr4       1.0000  0.5152  0.5152  0.1746  1.0000\n  Sr  Sr5       1.0000  0.4961  0.4961  0.5005  1.0000\n  Sr  Sr6       1.0000  0.3075  0.3075  0.5811  1.0000\n  Sr  Sr7       1.0000  0.4819  0.4819  0.8058  1.0000\n  Sr  Sr8       1.0000  0.3213  0.3213  0.8755  1.0000\n  Zn  Zn1       1.0000  0.8951  0.8951  0.0444  1.0000\n  Zn  Zn2       1.0000  0.1102  0.1102  0.2980  1.0000\n  Cu  Cu1       1.0000  0.1054  0.1054  0.6217  1.0000\n  Cu  Cu2       1.0000  0.8923  0.8923  0.3748  1.0000\n  O   O2        1.0000  0.2008  0.2009  0.2756  1.0000\n  O   O3        1.0000  0.8034  0.8034  0.0735  1.0000\n  O   O4        1.0000  0.9725  0.9725  0.3529  1.0000\n  O   O5        1.0000  0.0888  0.0888  0.1392  1.0000\n  O   O6        1.0000  0.8106  0.8106  0.4015  1.0000\n  O   O7        1.0000  0.5919  0.5919  0.3649  1.0000\n  O   O8        1.0000  0.2053  0.2053  0.9256  1.0000\n  O   O9        1.0000  0.7902  0.7902  0.7287  1.0000\n  O   O10       1.0000  0.4174  0.4174  0.1006  1.0000\n  O   O11       1.0000  0.1872  0.1872  0.5981  1.0000\n  O   O12       1.0000  0.0251  0.0251  0.6449  1.0000\n  O   O13       1.0000  0.5772  0.5772  0.9119  1.0000\n  O   O14       1.0000  0.9113  0.9113  0.8727  1.0000\n  Sr  Sr9       1.0000  0.4037  0.4037  0.6540  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b85f3492-6dd4-4836-aadb-8dfe2c7a68f1",
    "mp_id": "mp-1377991",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg3V2(BiO6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5272\n_cell_length_b   7.5808\n_cell_length_c   7.4158\n_cell_angle_alpha   114.9675\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg3V2(BiO6)2\n_chemical_formula_sum   'Mg3 V2 Bi2 O12'\n_cell_volume   281.6879\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7500  0.1002  0.2726  1\n  Mg  Mg1  1  0.2500  0.9002  0.7263  1\n  Mg  Mg2  1  0.2500  0.2855  0.1069  1\n  V  V3  1  0.7500  0.1938  0.8001  1\n  V  V4  1  0.2500  0.8028  0.2012  1\n  Bi  Bi5  1  0.2500  0.4099  0.5954  1\n  Bi  Bi6  1  0.7500  0.5859  0.4086  1\n  O  O7  1  0.7500  0.1022  0.5443  1\n  O  O8  1  0.2500  0.8961  0.4553  1\n  O  O9  1  0.2500  0.5477  0.0981  1\n  O  O10  1  0.7500  0.4369  0.8984  1\n  O  O11  1  0.0027  0.8974  0.1259  1\n  O  O12  1  0.4855  0.1178  0.8868  1\n  O  O13  1  0.0145  0.1178  0.8868  1\n  O  O14  1  0.4973  0.8974  0.1259  1\n  O  O15  1  0.5007  0.3275  0.3308  1\n  O  O16  1  0.0170  0.6675  0.6544  1\n  O  O17  1  0.9993  0.3275  0.3308  1\n  O  O18  1  0.4830  0.6675  0.6544  1\n",
    "output": "data_image0\n_chemical_formula_structural       OMg2V2Bi2O5MgO6\n_chemical_formula_sum              \"O12 Mg3 V2 Bi2\"\n_cell_length_a       5.5272\n_cell_length_b       7.5808\n_cell_length_c       7.4158\n_cell_angle_alpha    114.9675\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7500  0.1002  0.2726  1.0000\n  Mg  Mg1       1.0000  0.2500  0.9002  0.7263  1.0000\n  Mg  Mg2       1.0000  0.2500  0.2855  0.1069  1.0000\n  V   V1        1.0000  0.7500  0.1938  0.8001  1.0000\n  V   V2        1.0000  0.2500  0.8028  0.2012  1.0000\n  Bi  Bi1       1.0000  0.2500  0.4099  0.5954  1.0000\n  Bi  Bi2       1.0000  0.7500  0.5859  0.4086  1.0000\n  O   O2        1.0000  0.7500  0.1022  0.5443  1.0000\n  O   O3        1.0000  0.2500  0.8961  0.4553  1.0000\n  O   O4        1.0000  0.2500  0.5477  0.0981  1.0000\n  O   O5        1.0000  0.7500  0.4369  0.8984  1.0000\n  O   O6        1.0000  0.0027  0.8974  0.1259  1.0000\n  Mg  Mg3       1.0000  0.4855  0.1178  0.8868  1.0000\n  O   O7        1.0000  0.0145  0.1178  0.8868  1.0000\n  O   O8        1.0000  0.4973  0.8974  0.1259  1.0000\n  O   O9        1.0000  0.5007  0.3275  0.3308  1.0000\n  O   O10       1.0000  0.0170  0.6675  0.6544  1.0000\n  O   O11       1.0000  0.9993  0.3275  0.3308  1.0000\n  O   O12       1.0000  0.4830  0.6675  0.6544  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "509aac98-1e88-421d-a2ef-9098d6a12c42",
    "mp_id": "mp-1385417",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaLa2VO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6918\n_cell_length_b   5.6918\n_cell_length_c   5.6918\n_cell_angle_alpha   62.3738\n_cell_angle_beta   62.3738\n_cell_angle_gamma   62.3738\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaLa2VO6\n_chemical_formula_sum   'Ca1 La2 V1 O6'\n_cell_volume   137.2889\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.5000  0.5000  0.5000  1\n  La  La1  1  0.7614  0.7614  0.7614  1\n  La  La2  1  0.2386  0.2386  0.2386  1\n  V  V3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.7858  0.3294  0.1311  1\n  O  O5  1  0.1311  0.7858  0.3294  1\n  O  O6  1  0.3294  0.1311  0.7858  1\n  O  O7  1  0.2142  0.6706  0.8689  1\n  O  O8  1  0.6706  0.8689  0.2142  1\n  O  O9  1  0.8689  0.2142  0.6706  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaOLaVO4LaO\n_chemical_formula_sum              \"Ca1 O6 La2 V1\"\n_cell_length_a       5.6918\n_cell_length_b       5.6918\n_cell_length_c       5.6918\n_cell_angle_alpha    62.3738\n_cell_angle_beta     62.3738\n_cell_angle_gamma    62.3738\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.7614  0.7614  0.7614  1.0000\n  La  La1       1.0000  0.2386  0.2386  0.2386  1.0000\n  V   V1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7858  0.3294  0.1311  1.0000\n  O   O3        1.0000  0.1311  0.7858  0.3294  1.0000\n  O   O4        1.0000  0.3294  0.1311  0.7858  1.0000\n  O   O5        1.0000  0.2142  0.6706  0.8689  1.0000\n  La  La2       1.0000  0.6706  0.8689  0.2142  1.0000\n  O   O6        1.0000  0.8689  0.2142  0.6706  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a9b8571a-312d-46d7-9bb1-e52090b83008",
    "mp_id": "mp-1388114",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaCrF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5377\n_cell_length_b   6.5377\n_cell_length_c   6.5377\n_cell_angle_alpha   130.9414\n_cell_angle_beta   130.9415\n_cell_angle_gamma   71.9067\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaCrF4\n_chemical_formula_sum   'Ca2 Cr2 F8'\n_cell_volume   155.9459\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.7500  0.7500  1.0000  1\n  Ca  Ca1  1  0.2500  0.2500  0.0000  1\n  Cr  Cr2  1  0.0000  0.5000  0.5000  1\n  Cr  Cr3  1  0.5000  1.0000  0.5000  1\n  F  F4  1  0.9462  0.4462  0.1321  1\n  F  F5  1  0.6858  0.1859  0.1321  1\n  F  F6  1  0.0538  0.5538  0.8679  1\n  F  F7  1  0.5538  0.6859  0.5000  1\n  F  F8  1  0.3141  0.8141  0.8679  1\n  F  F9  1  0.8141  0.9462  0.5000  1\n  F  F10  1  0.4462  0.3141  0.5000  1\n  F  F11  1  0.1859  0.0538  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2FCrFCrF6\n_chemical_formula_sum              \"Ca2 F8 Cr2\"\n_cell_length_a       6.5377\n_cell_length_b       6.5377\n_cell_length_c       6.5377\n_cell_angle_alpha    130.9414\n_cell_angle_beta     130.9415\n_cell_angle_gamma    71.9067\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.7500  0.7500  0.0000  1.0000\n  Ca  Ca2       1.0000  0.2500  0.2500  0.0000  1.0000\n  F   F1        1.0000  0.0000  0.5000  0.5000  1.0000\n  Cr  Cr1       1.0000  0.5000  1.0000  0.5000  1.0000\n  F   F2        1.0000  0.9462  0.4462  0.1321  1.0000\n  Cr  Cr2       1.0000  0.6858  0.1859  0.1321  1.0000\n  F   F3        1.0000  0.0538  0.5538  0.8679  1.0000\n  F   F4        1.0000  0.5538  0.6859  0.5000  1.0000\n  F   F5        1.0000  0.3141  0.8141  0.8679  1.0000\n  F   F6        1.0000  0.8141  0.9462  0.5000  1.0000\n  F   F7        1.0000  0.4462  0.3141  0.5000  1.0000\n  F   F8        1.0000  0.1859  0.0538  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "556c3bc9-93f6-42d7-9855-7092ccad88a1",
    "mp_id": "mp-1388425",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V2ZnO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4256\n_cell_length_b   4.9159\n_cell_length_c   11.7791\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V2ZnO5\n_chemical_formula_sum   'V4 Zn2 O10'\n_cell_volume   198.3581\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0000  0.6010  0.8494  1\n  V  V1  1  0.5000  0.3990  0.6506  1\n  V  V2  1  0.5000  0.3990  0.3494  1\n  V  V3  1  0.0000  0.6010  0.1506  1\n  Zn  Zn4  1  0.5000  0.1706  0.0000  1\n  Zn  Zn5  1  0.0000  0.8294  0.5000  1\n  O  O6  1  0.5000  0.5863  0.5000  1\n  O  O7  1  0.0000  0.4137  0.0000  1\n  O  O8  1  0.5000  0.4316  0.8224  1\n  O  O9  1  0.0000  0.5684  0.6776  1\n  O  O10  1  0.5000  0.4316  0.1776  1\n  O  O11  1  0.0000  0.5684  0.3224  1\n  O  O12  1  0.0000  0.9320  0.1144  1\n  O  O13  1  0.5000  0.0680  0.3856  1\n  O  O14  1  0.5000  0.0680  0.6144  1\n  O  O15  1  0.0000  0.9320  0.8856  1\n",
    "output": "data_image0\n_chemical_formula_structural       V2OVZn2O2VO7\n_chemical_formula_sum              \"V4 O10 Zn2\"\n_cell_length_a       3.4256\n_cell_length_b       4.9159\n_cell_length_c       11.7791\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0000  0.6010  0.8494  1.0000\n  V   V2        1.0000  0.5000  0.3990  0.6506  1.0000\n  O   O1        1.0000  0.5000  0.3990  0.3494  1.0000\n  V   V3        1.0000  0.0000  0.6010  0.1506  1.0000\n  Zn  Zn1       1.0000  0.5000  0.1706  0.0000  1.0000\n  Zn  Zn2       1.0000  0.0000  0.8294  0.5000  1.0000\n  O   O2        1.0000  0.5000  0.5863  0.5000  1.0000\n  O   O3        1.0000  0.0000  0.4137  0.0000  1.0000\n  V   V4        1.0000  0.5000  0.4316  0.8224  1.0000\n  O   O4        1.0000  0.0000  0.5684  0.6776  1.0000\n  O   O5        1.0000  0.5000  0.4316  0.1776  1.0000\n  O   O6        1.0000  0.0000  0.5684  0.3224  1.0000\n  O   O7        1.0000  0.0000  0.9320  0.1144  1.0000\n  O   O8        1.0000  0.5000  0.0680  0.3856  1.0000\n  O   O9        1.0000  0.5000  0.0680  0.6144  1.0000\n  O   O10       1.0000  0.0000  0.9320  0.8856  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ecf89361-c50c-4890-8475-8ea2a6100390",
    "mp_id": "mp-1391777",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V4ZnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0985\n_cell_length_b   6.0985\n_cell_length_c   6.0985\n_cell_angle_alpha   58.2711\n_cell_angle_beta   58.2711\n_cell_angle_gamma   58.2711\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V4ZnO8\n_chemical_formula_sum   'V4 Zn1 O8'\n_cell_volume   154.0313\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0000  0.5000  0.5000  1\n  V  V1  1  0.5000  0.0000  0.5000  1\n  V  V2  1  0.5000  0.5000  0.0000  1\n  V  V3  1  0.0000  0.0000  0.0000  1\n  Zn  Zn4  1  0.5000  0.5000  0.5000  1\n  O  O5  1  0.2734  0.7567  0.7567  1\n  O  O6  1  0.2433  0.2433  0.7266  1\n  O  O7  1  0.7266  0.2433  0.2433  1\n  O  O8  1  0.2433  0.7266  0.2433  1\n  O  O9  1  0.2686  0.2686  0.2686  1\n  O  O10  1  0.7314  0.7314  0.7314  1\n  O  O11  1  0.7567  0.2734  0.7567  1\n  O  O12  1  0.7567  0.7567  0.2734  1\n",
    "output": "data_image0\n_chemical_formula_structural       VZnV3O8\n_chemical_formula_sum              \"V4 Zn1 O8\"\n_cell_length_a       6.0985\n_cell_length_b       6.0985\n_cell_length_c       6.0985\n_cell_angle_alpha    58.2711\n_cell_angle_beta     58.2711\n_cell_angle_gamma    58.2711\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0000  0.5000  0.5000  1.0000\n  Zn  Zn1       1.0000  0.5000  0.0000  0.5000  1.0000\n  V   V2        1.0000  0.5000  0.5000  0.0000  1.0000\n  V   V3        1.0000  0.0000  0.0000  0.0000  1.0000\n  V   V4        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2734  0.7567  0.7567  1.0000\n  O   O2        1.0000  0.2433  0.2433  0.7266  1.0000\n  O   O3        1.0000  0.7266  0.2433  0.2433  1.0000\n  O   O4        1.0000  0.2433  0.7266  0.2433  1.0000\n  O   O5        1.0000  0.2686  0.2686  0.2686  1.0000\n  O   O6        1.0000  0.7314  0.7314  0.7314  1.0000\n  O   O7        1.0000  0.7567  0.2734  0.7567  1.0000\n  O   O8        1.0000  0.7567  0.7567  0.2734  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e26a1100-41a0-4973-bc30-ce01cb02ea22",
    "mp_id": "mp-14005",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KRuO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6287\n_cell_length_b   5.6284\n_cell_length_c   7.4644\n_cell_angle_alpha   112.1402\n_cell_angle_beta   112.1404\n_cell_angle_gamma   90.0107\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KRuO4\n_chemical_formula_sum   'K2 Ru2 O8'\n_cell_volume   200.0838\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6250  0.8752  0.2503  1\n  K  K1  1  0.3752  0.1251  0.7504  1\n  Ru  Ru2  1  0.1251  0.3753  0.2503  1\n  Ru  Ru3  1  0.8753  0.6250  0.7504  1\n  O  O4  1  0.2742  0.4229  0.0991  1\n  O  O5  1  0.6765  0.7742  0.5993  1\n  O  O6  1  0.9229  0.3248  0.5993  1\n  O  O7  1  0.8248  0.1765  0.0993  1\n  O  O8  1  0.1769  0.8213  0.9003  1\n  O  O9  1  0.0789  0.6769  0.4003  1\n  O  O10  1  0.3213  0.2238  0.4004  1\n  O  O11  1  0.7238  0.5789  0.9006  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2RuO7RuO\n_chemical_formula_sum              \"K2 Ru2 O8\"\n_cell_length_a       5.6287\n_cell_length_b       5.6284\n_cell_length_c       7.4644\n_cell_angle_alpha    112.1402\n_cell_angle_beta     112.1404\n_cell_angle_gamma    90.0107\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6250  0.8752  0.2503  1.0000\n  K   K2        1.0000  0.3752  0.1251  0.7504  1.0000\n  Ru  Ru1       1.0000  0.1251  0.3753  0.2503  1.0000\n  O   O1        1.0000  0.8753  0.6250  0.7504  1.0000\n  O   O2        1.0000  0.2742  0.4229  0.0991  1.0000\n  O   O3        1.0000  0.6765  0.7742  0.5993  1.0000\n  O   O4        1.0000  0.9229  0.3248  0.5993  1.0000\n  O   O5        1.0000  0.8248  0.1765  0.0993  1.0000\n  O   O6        1.0000  0.1769  0.8213  0.9003  1.0000\n  O   O7        1.0000  0.0789  0.6769  0.4003  1.0000\n  Ru  Ru2       1.0000  0.3213  0.2238  0.4004  1.0000\n  O   O8        1.0000  0.7238  0.5789  0.9006  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dc3fca90-cc12-4be0-b728-ec17a89dd04c",
    "mp_id": "mp-1401385",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaWO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9634\n_cell_length_b   8.6212\n_cell_length_c   8.8959\n_cell_angle_alpha   88.9527\n_cell_angle_beta   99.3777\n_cell_angle_gamma   99.0602\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaWO2\n_chemical_formula_sum   'Ca4 W4 O8'\n_cell_volume   221.4351\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.8463  0.4784  0.7318  1\n  Ca  Ca1  1  0.1537  0.5216  0.2682  1\n  Ca  Ca2  1  0.6553  0.8146  0.9744  1\n  Ca  Ca3  1  0.3447  0.1854  0.0256  1\n  W  W4  1  0.0673  0.1723  0.3907  1\n  W  W5  1  0.6698  0.1128  0.6949  1\n  W  W6  1  0.3302  0.8872  0.3051  1\n  W  W7  1  0.9327  0.8277  0.6093  1\n  O  O8  1  0.3188  0.7053  0.4660  1\n  O  O9  1  0.8582  0.0336  0.1720  1\n  O  O10  1  0.1418  0.9664  0.8280  1\n  O  O11  1  0.6812  0.2947  0.5340  1\n  O  O12  1  0.5517  0.3135  0.2556  1\n  O  O13  1  0.2880  0.2800  0.7932  1\n  O  O14  1  0.4483  0.6865  0.7444  1\n  O  O15  1  0.7120  0.7200  0.2068  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca3W4CaO8\n_chemical_formula_sum              \"Ca4 W4 O8\"\n_cell_length_a       2.9634\n_cell_length_b       8.6212\n_cell_length_c       8.8959\n_cell_angle_alpha    88.9527\n_cell_angle_beta     99.3777\n_cell_angle_gamma    99.0602\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.8463  0.4784  0.7318  1.0000\n  Ca  Ca2       1.0000  0.1537  0.5216  0.2682  1.0000\n  Ca  Ca3       1.0000  0.6553  0.8146  0.9744  1.0000\n  W   W1        1.0000  0.3447  0.1854  0.0256  1.0000\n  W   W2        1.0000  0.0673  0.1723  0.3907  1.0000\n  W   W3        1.0000  0.6698  0.1128  0.6949  1.0000\n  W   W4        1.0000  0.3302  0.8872  0.3051  1.0000\n  Ca  Ca4       1.0000  0.9327  0.8277  0.6093  1.0000\n  O   O1        1.0000  0.3188  0.7053  0.4660  1.0000\n  O   O2        1.0000  0.8582  0.0336  0.1720  1.0000\n  O   O3        1.0000  0.1418  0.9664  0.8280  1.0000\n  O   O4        1.0000  0.6812  0.2947  0.5340  1.0000\n  O   O5        1.0000  0.5517  0.3135  0.2556  1.0000\n  O   O6        1.0000  0.2880  0.2800  0.7932  1.0000\n  O   O7        1.0000  0.4483  0.6865  0.7444  1.0000\n  O   O8        1.0000  0.7120  0.7200  0.2068  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9f8e20ec-e90c-42e6-99eb-c5078927bfd5",
    "mp_id": "mp-1405211",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgNiO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.8872\n_cell_length_b   8.1425\n_cell_length_c   8.4132\n_cell_angle_alpha   83.3537\n_cell_angle_beta   80.1801\n_cell_angle_gamma   80.0422\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgNiO2\n_chemical_formula_sum   'Mg4 Ni4 O8'\n_cell_volume   191.1937\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8451  0.2280  0.5719  1\n  Mg  Mg1  1  0.1549  0.7720  0.4281  1\n  Mg  Mg2  1  0.5790  0.1310  0.2092  1\n  Mg  Mg3  1  0.4210  0.8690  0.7908  1\n  Ni  Ni4  1  0.1292  0.5541  0.6917  1\n  Ni  Ni5  1  0.7122  0.1901  0.8828  1\n  Ni  Ni6  1  0.2878  0.8099  0.1172  1\n  Ni  Ni7  1  0.8708  0.4459  0.3083  1\n  O  O8  1  0.3191  0.5954  0.2663  1\n  O  O9  1  0.8668  0.8217  0.9457  1\n  O  O10  1  0.1332  0.1783  0.0543  1\n  O  O11  1  0.6809  0.4047  0.7337  1\n  O  O12  1  0.5894  0.7188  0.6115  1\n  O  O13  1  0.3359  0.1063  0.7106  1\n  O  O14  1  0.4106  0.2812  0.3885  1\n  O  O15  1  0.6641  0.8937  0.2894  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg2OMgNi4O2MgO5\n_chemical_formula_sum              \"Mg4 O8 Ni4\"\n_cell_length_a       2.8872\n_cell_length_b       8.1425\n_cell_length_c       8.4132\n_cell_angle_alpha    83.3537\n_cell_angle_beta     80.1801\n_cell_angle_gamma    80.0422\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8451  0.2280  0.5719  1.0000\n  Mg  Mg2       1.0000  0.1549  0.7720  0.4281  1.0000\n  O   O1        1.0000  0.5790  0.1310  0.2092  1.0000\n  Mg  Mg3       1.0000  0.4210  0.8690  0.7908  1.0000\n  Ni  Ni1       1.0000  0.1292  0.5541  0.6917  1.0000\n  Ni  Ni2       1.0000  0.7122  0.1901  0.8828  1.0000\n  Ni  Ni3       1.0000  0.2878  0.8099  0.1172  1.0000\n  Ni  Ni4       1.0000  0.8708  0.4459  0.3083  1.0000\n  O   O2        1.0000  0.3191  0.5954  0.2663  1.0000\n  O   O3        1.0000  0.8668  0.8217  0.9457  1.0000\n  Mg  Mg4       1.0000  0.1332  0.1783  0.0543  1.0000\n  O   O4        1.0000  0.6809  0.4047  0.7337  1.0000\n  O   O5        1.0000  0.5894  0.7188  0.6115  1.0000\n  O   O6        1.0000  0.3359  0.1063  0.7106  1.0000\n  O   O7        1.0000  0.4106  0.2812  0.3885  1.0000\n  O   O8        1.0000  0.6641  0.8937  0.2894  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "369ba565-4b7e-4094-af8f-e89cf534f159",
    "mp_id": "mp-1412002",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2Fe3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9161\n_cell_length_b   5.9161\n_cell_length_c   4.9285\n_cell_angle_alpha   71.9926\n_cell_angle_beta   71.9926\n_cell_angle_gamma   58.7128\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2Fe3O8\n_chemical_formula_sum   'Mg2 Fe3 O8'\n_cell_volume   137.8302\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7229  0.7229  0.3397  1\n  Mg  Mg1  1  0.2771  0.2771  0.6603  1\n  Fe  Fe2  1  0.0000  0.0000  0.5000  1\n  Fe  Fe3  1  0.7416  0.2584  0.0000  1\n  Fe  Fe4  1  0.2584  0.7416  0.0000  1\n  O  O5  1  0.3936  0.3936  0.9342  1\n  O  O6  1  0.6064  0.6064  0.0658  1\n  O  O7  1  0.8923  0.8923  0.9260  1\n  O  O8  1  0.1077  0.1077  0.0740  1\n  O  O9  1  0.3452  0.8845  0.6042  1\n  O  O10  1  0.8845  0.3452  0.6042  1\n  O  O11  1  0.1155  0.6548  0.3958  1\n  O  O12  1  0.6548  0.1155  0.3958  1\n",
    "output": "data_image0\n_chemical_formula_structural       OMgFe3O3MgO4\n_chemical_formula_sum              \"O8 Mg2 Fe3\"\n_cell_length_a       5.9161\n_cell_length_b       5.9161\n_cell_length_c       4.9285\n_cell_angle_alpha    71.9926\n_cell_angle_beta     71.9926\n_cell_angle_gamma    58.7128\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7229  0.7229  0.3397  1.0000\n  Mg  Mg1       1.0000  0.2771  0.2771  0.6603  1.0000\n  Fe  Fe1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.7416  0.2584  0.0000  1.0000\n  Fe  Fe3       1.0000  0.2584  0.7416  0.0000  1.0000\n  O   O2        1.0000  0.3936  0.3936  0.9342  1.0000\n  O   O3        1.0000  0.6064  0.6064  0.0658  1.0000\n  O   O4        1.0000  0.8923  0.8923  0.9260  1.0000\n  Mg  Mg2       1.0000  0.1077  0.1077  0.0740  1.0000\n  O   O5        1.0000  0.3452  0.8845  0.6042  1.0000\n  O   O6        1.0000  0.8845  0.3452  0.6042  1.0000\n  O   O7        1.0000  0.1155  0.6548  0.3958  1.0000\n  O   O8        1.0000  0.6548  0.1155  0.3958  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1ae10ec2-da02-4386-aa9d-df8b12af2fcf",
    "mp_id": "mp-1419122",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_UCl5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9134\n_cell_length_b   7.5458\n_cell_length_c   10.2672\n_cell_angle_alpha   108.5498\n_cell_angle_beta   91.0426\n_cell_angle_gamma   116.2038\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   UCl5\n_chemical_formula_sum   'U2 Cl10'\n_cell_volume   447.6014\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.8926  0.0005  0.2113  1\n  U  U1  1  0.1074  0.9995  0.7887  1\n  Cl  Cl2  1  0.5174  0.7718  0.4204  1\n  Cl  Cl3  1  0.4826  0.2282  0.5796  1\n  Cl  Cl4  1  0.2726  0.2135  0.9575  1\n  Cl  Cl5  1  0.7274  0.7865  0.0425  1\n  Cl  Cl6  1  0.2551  0.7705  0.8477  1\n  Cl  Cl7  1  0.7449  0.2295  0.1523  1\n  Cl  Cl8  1  0.9516  0.2290  0.7478  1\n  Cl  Cl9  1  0.0484  0.7710  0.2522  1\n  Cl  Cl10  1  0.8946  0.7662  0.6735  1\n  Cl  Cl11  1  0.1054  0.2338  0.3265  1\n",
    "output": "data_image0\n_chemical_formula_structural       UClUCl9\n_chemical_formula_sum              \"U2 Cl10\"\n_cell_length_a       6.9134\n_cell_length_b       7.5458\n_cell_length_c       10.2672\n_cell_angle_alpha    108.5498\n_cell_angle_beta     91.0426\n_cell_angle_gamma    116.2038\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.8926  0.0005  0.2113  1.0000\n  Cl  Cl1       1.0000  0.1074  0.9995  0.7887  1.0000\n  U   U2        1.0000  0.5174  0.7718  0.4204  1.0000\n  Cl  Cl2       1.0000  0.4826  0.2282  0.5796  1.0000\n  Cl  Cl3       1.0000  0.2726  0.2135  0.9575  1.0000\n  Cl  Cl4       1.0000  0.7274  0.7865  0.0425  1.0000\n  Cl  Cl5       1.0000  0.2551  0.7705  0.8477  1.0000\n  Cl  Cl6       1.0000  0.7449  0.2295  0.1523  1.0000\n  Cl  Cl7       1.0000  0.9516  0.2290  0.7478  1.0000\n  Cl  Cl8       1.0000  0.0484  0.7710  0.2522  1.0000\n  Cl  Cl9       1.0000  0.8946  0.7662  0.6735  1.0000\n  Cl  Cl10      1.0000  0.1054  0.2338  0.3265  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "10bcfa0d-502c-493b-80df-c8b472711ac0",
    "mp_id": "mp-1439",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.5453\n_cell_length_b   4.9092\n_cell_length_c   5.5196\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiO2\n_chemical_formula_sum   'Ti4 O8'\n_cell_volume   123.1649\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.5000  0.7500  0.3270  1\n  Ti  Ti1  1  -0.0000  0.2500  0.1730  1\n  Ti  Ti2  1  0.5000  0.2500  0.6730  1\n  Ti  Ti3  1  -0.0000  0.7500  0.8270  1\n  O  O4  1  0.7285  0.0814  0.3817  1\n  O  O5  1  0.2285  0.9186  0.1183  1\n  O  O6  1  0.7715  0.5814  0.1183  1\n  O  O7  1  0.2715  0.4186  0.3817  1\n  O  O8  1  0.7285  0.5814  0.6183  1\n  O  O9  1  0.2285  0.4186  0.8817  1\n  O  O10  1  0.7715  0.0814  0.8817  1\n  O  O11  1  0.2715  0.9186  0.6183  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti2OTiOTiO6\n_chemical_formula_sum              \"Ti4 O8\"\n_cell_length_a       4.5453\n_cell_length_b       4.9092\n_cell_length_c       5.5196\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.5000  0.7500  0.3270  1.0000\n  Ti  Ti2       1.0000  0.0000  0.2500  0.1730  1.0000\n  O   O1        1.0000  0.5000  0.2500  0.6730  1.0000\n  Ti  Ti3       1.0000  0.0000  0.7500  0.8270  1.0000\n  O   O2        1.0000  0.7285  0.0814  0.3817  1.0000\n  Ti  Ti4       1.0000  0.2285  0.9186  0.1183  1.0000\n  O   O3        1.0000  0.7715  0.5814  0.1183  1.0000\n  O   O4        1.0000  0.2715  0.4186  0.3817  1.0000\n  O   O5        1.0000  0.7285  0.5814  0.6183  1.0000\n  O   O6        1.0000  0.2285  0.4186  0.8817  1.0000\n  O   O7        1.0000  0.7715  0.0814  0.8817  1.0000\n  O   O8        1.0000  0.2715  0.9186  0.6183  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "736b3f7c-a4bd-4ecb-915f-117b88b5e1de",
    "mp_id": "mp-14555",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaCd(BO2)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9879\n_cell_length_b   8.8833\n_cell_length_c   13.0421\n_cell_angle_alpha   48.0920\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaCd(BO2)5\n_chemical_formula_sum   'La4 Cd4 B20 O40'\n_cell_volume   688.7466\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.1774  0.9579  0.2350  1\n  La  La1  1  0.6774  0.0421  0.2650  1\n  La  La2  1  0.8226  0.0421  0.7650  1\n  La  La3  1  0.3226  0.9579  0.7350  1\n  Cd  Cd4  1  0.4090  0.4854  0.1240  1\n  Cd  Cd5  1  0.9090  0.5146  0.3760  1\n  Cd  Cd6  1  0.5910  0.5146  0.8760  1\n  Cd  Cd7  1  0.0910  0.4854  0.6240  1\n  B  B8  1  0.5784  0.6612  0.2548  1\n  B  B9  1  0.1739  0.5253  0.9073  1\n  B  B10  1  0.6739  0.4747  0.5927  1\n  B  B11  1  0.8261  0.4747  0.0927  1\n  B  B12  1  0.3261  0.5253  0.4073  1\n  B  B13  1  0.8952  0.8541  0.4973  1\n  B  B14  1  0.3952  0.1459  0.0027  1\n  B  B15  1  0.1048  0.1459  0.5027  1\n  B  B16  1  0.6048  0.8541  0.9973  1\n  B  B17  1  0.0784  0.3388  0.2452  1\n  B  B18  1  0.4216  0.3388  0.7452  1\n  B  B19  1  0.9216  0.6612  0.7548  1\n  B  B20  1  0.3268  0.0842  0.4004  1\n  B  B21  1  0.8268  0.9158  0.0996  1\n  B  B22  1  0.6732  0.9158  0.5996  1\n  B  B23  1  0.1732  0.0842  0.9004  1\n  B  B24  1  0.5296  0.2755  0.4425  1\n  B  B25  1  0.0296  0.7245  0.0575  1\n  B  B26  1  0.4704  0.7245  0.5575  1\n  B  B27  1  0.9704  0.2755  0.9425  1\n  O  O28  1  0.2129  0.1962  0.2754  1\n  O  O29  1  0.6711  0.4205  0.0784  1\n  O  O30  1  0.1711  0.5795  0.4216  1\n  O  O31  1  0.3289  0.5795  0.9216  1\n  O  O32  1  0.8289  0.4205  0.5784  1\n  O  O33  1  0.4445  0.1232  0.1124  1\n  O  O34  1  0.9445  0.8768  0.3876  1\n  O  O35  1  0.5555  0.8768  0.8875  1\n  O  O36  1  0.7129  0.8038  0.2246  1\n  O  O37  1  0.0555  0.1232  0.6125  1\n  O  O38  1  0.2871  0.1962  0.7754  1\n  O  O39  1  0.7871  0.8038  0.7246  1\n  O  O40  1  0.5348  0.7079  0.1253  1\n  O  O41  1  0.0348  0.2921  0.3747  1\n  O  O42  1  0.4652  0.2921  0.8747  1\n  O  O43  1  0.9652  0.7079  0.6253  1\n  O  O44  1  0.4248  0.6876  0.3043  1\n  O  O45  1  0.9248  0.3124  0.1957  1\n  O  O46  1  0.5752  0.3124  0.6957  1\n  O  O47  1  0.0752  0.6876  0.8043  1\n  O  O48  1  0.6403  0.4517  0.3571  1\n  O  O49  1  0.1403  0.5483  0.1429  1\n  O  O50  1  0.3597  0.5483  0.6429  1\n  O  O51  1  0.8597  0.4517  0.8571  1\n  O  O52  1  0.4681  0.2232  0.3612  1\n  O  O53  1  0.9681  0.7768  0.1388  1\n  O  O54  1  0.5319  0.7768  0.6388  1\n  O  O55  1  0.0319  0.2232  0.8612  1\n  O  O56  1  0.3906  0.9052  0.4242  1\n  O  O57  1  0.8906  0.0948  0.0758  1\n  O  O58  1  0.6094  0.0948  0.5758  1\n  O  O59  1  0.1196  0.3287  0.9857  1\n  O  O60  1  0.2322  0.0238  0.5199  1\n  O  O61  1  0.7322  0.9762  0.9801  1\n  O  O62  1  0.7678  0.9762  0.4801  1\n  O  O63  1  0.2678  0.0238  0.0199  1\n  O  O64  1  0.3804  0.3287  0.4857  1\n  O  O65  1  0.8804  0.6713  0.0143  1\n  O  O66  1  0.6196  0.6713  0.5143  1\n  O  O67  1  0.1094  0.9052  0.9242  1\n",
    "output": "data_image0\n_chemical_formula_structural       La4Cd4B4OB16O39\n_chemical_formula_sum              \"La4 Cd4 B20 O40\"\n_cell_length_a       7.9879\n_cell_length_b       8.8833\n_cell_length_c       13.0421\n_cell_angle_alpha    48.0920\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.1774  0.9579  0.2350  1.0000\n  La  La2       1.0000  0.6774  0.0421  0.2650  1.0000\n  La  La3       1.0000  0.8226  0.0421  0.7650  1.0000\n  La  La4       1.0000  0.3226  0.9579  0.7350  1.0000\n  Cd  Cd1       1.0000  0.4090  0.4854  0.1240  1.0000\n  Cd  Cd2       1.0000  0.9090  0.5146  0.3760  1.0000\n  Cd  Cd3       1.0000  0.5910  0.5146  0.8760  1.0000\n  Cd  Cd4       1.0000  0.0910  0.4854  0.6240  1.0000\n  B   B1        1.0000  0.5784  0.6612  0.2548  1.0000\n  B   B2        1.0000  0.1739  0.5253  0.9073  1.0000\n  B   B3        1.0000  0.6739  0.4747  0.5927  1.0000\n  B   B4        1.0000  0.8261  0.4747  0.0927  1.0000\n  O   O1        1.0000  0.3261  0.5253  0.4073  1.0000\n  B   B5        1.0000  0.8952  0.8541  0.4973  1.0000\n  B   B6        1.0000  0.3952  0.1459  0.0027  1.0000\n  B   B7        1.0000  0.1048  0.1459  0.5027  1.0000\n  B   B8        1.0000  0.6048  0.8541  0.9973  1.0000\n  B   B9        1.0000  0.0784  0.3388  0.2452  1.0000\n  B   B10       1.0000  0.4216  0.3388  0.7452  1.0000\n  B   B11       1.0000  0.9216  0.6612  0.7548  1.0000\n  B   B12       1.0000  0.3268  0.0842  0.4004  1.0000\n  B   B13       1.0000  0.8268  0.9158  0.0996  1.0000\n  B   B14       1.0000  0.6732  0.9158  0.5996  1.0000\n  B   B15       1.0000  0.1732  0.0842  0.9004  1.0000\n  B   B16       1.0000  0.5296  0.2755  0.4425  1.0000\n  B   B17       1.0000  0.0296  0.7245  0.0575  1.0000\n  B   B18       1.0000  0.4704  0.7245  0.5575  1.0000\n  B   B19       1.0000  0.9704  0.2755  0.9425  1.0000\n  B   B20       1.0000  0.2129  0.1962  0.2754  1.0000\n  O   O2        1.0000  0.6711  0.4205  0.0784  1.0000\n  O   O3        1.0000  0.1711  0.5795  0.4216  1.0000\n  O   O4        1.0000  0.3289  0.5795  0.9216  1.0000\n  O   O5        1.0000  0.8289  0.4205  0.5784  1.0000\n  O   O6        1.0000  0.4445  0.1232  0.1124  1.0000\n  O   O7        1.0000  0.9445  0.8768  0.3876  1.0000\n  O   O8        1.0000  0.5555  0.8768  0.8875  1.0000\n  O   O9        1.0000  0.7129  0.8038  0.2246  1.0000\n  O   O10       1.0000  0.0555  0.1232  0.6125  1.0000\n  O   O11       1.0000  0.2871  0.1962  0.7754  1.0000\n  O   O12       1.0000  0.7871  0.8038  0.7246  1.0000\n  O   O13       1.0000  0.5348  0.7079  0.1253  1.0000\n  O   O14       1.0000  0.0348  0.2921  0.3747  1.0000\n  O   O15       1.0000  0.4652  0.2921  0.8747  1.0000\n  O   O16       1.0000  0.9652  0.7079  0.6253  1.0000\n  O   O17       1.0000  0.4248  0.6876  0.3043  1.0000\n  O   O18       1.0000  0.9248  0.3124  0.1957  1.0000\n  O   O19       1.0000  0.5752  0.3124  0.6957  1.0000\n  O   O20       1.0000  0.0752  0.6876  0.8043  1.0000\n  O   O21       1.0000  0.6403  0.4517  0.3571  1.0000\n  O   O22       1.0000  0.1403  0.5483  0.1429  1.0000\n  O   O23       1.0000  0.3597  0.5483  0.6429  1.0000\n  O   O24       1.0000  0.8597  0.4517  0.8571  1.0000\n  O   O25       1.0000  0.4681  0.2232  0.3612  1.0000\n  O   O26       1.0000  0.9681  0.7768  0.1388  1.0000\n  O   O27       1.0000  0.5319  0.7768  0.6388  1.0000\n  O   O28       1.0000  0.0319  0.2232  0.8612  1.0000\n  O   O29       1.0000  0.3906  0.9052  0.4242  1.0000\n  O   O30       1.0000  0.8906  0.0948  0.0758  1.0000\n  O   O31       1.0000  0.6094  0.0948  0.5758  1.0000\n  O   O32       1.0000  0.1196  0.3287  0.9857  1.0000\n  O   O33       1.0000  0.2322  0.0238  0.5199  1.0000\n  O   O34       1.0000  0.7322  0.9762  0.9801  1.0000\n  O   O35       1.0000  0.7678  0.9762  0.4801  1.0000\n  O   O36       1.0000  0.2678  0.0238  0.0199  1.0000\n  O   O37       1.0000  0.3804  0.3287  0.4857  1.0000\n  O   O38       1.0000  0.8804  0.6713  0.0143  1.0000\n  O   O39       1.0000  0.6196  0.6713  0.5143  1.0000\n  O   O40       1.0000  0.1094  0.9052  0.9242  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d253ec92-f96c-448b-94c5-d46e6065cded",
    "mp_id": "mp-14556",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 66 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SmCd(BO2)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9803\n_cell_length_b   8.7086\n_cell_length_c   12.7559\n_cell_angle_alpha   49.0293\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SmCd(BO2)5\n_chemical_formula_sum   'Sm4 Cd4 B20 O40'\n_cell_volume   669.3453\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.1831  0.9520  0.2403  1\n  Sm  Sm1  1  0.6831  0.0480  0.2597  1\n  Sm  Sm2  1  0.8169  0.0480  0.7597  1\n  Sm  Sm3  1  0.3169  0.9520  0.7403  1\n  Cd  Cd4  1  0.4050  0.4731  0.1287  1\n  Cd  Cd5  1  0.9050  0.5269  0.3713  1\n  Cd  Cd6  1  0.5950  0.5269  0.8713  1\n  Cd  Cd7  1  0.0950  0.4731  0.6287  1\n  B  B8  1  0.5738  0.6683  0.2478  1\n  B  B9  1  0.1746  0.5292  0.9055  1\n  B  B10  1  0.6746  0.4708  0.5945  1\n  B  B11  1  0.8254  0.4708  0.0945  1\n  B  B12  1  0.3254  0.5292  0.4055  1\n  B  B13  1  0.8945  0.8547  0.4889  1\n  B  B14  1  0.3945  0.1453  0.0111  1\n  B  B15  1  0.1055  0.1453  0.5111  1\n  B  B16  1  0.6055  0.8547  0.9889  1\n  B  B17  1  0.0738  0.3317  0.2522  1\n  B  B18  1  0.4262  0.3317  0.7522  1\n  B  B19  1  0.9262  0.6683  0.7478  1\n  B  B20  1  0.3238  0.0776  0.4052  1\n  B  B21  1  0.8238  0.9224  0.0948  1\n  B  B22  1  0.6762  0.9224  0.5948  1\n  B  B23  1  0.1762  0.0776  0.9052  1\n  B  B24  1  0.5303  0.2791  0.4418  1\n  B  B25  1  0.0303  0.7209  0.0582  1\n  B  B26  1  0.4697  0.7209  0.5582  1\n  B  B27  1  0.9697  0.2791  0.9418  1\n  O  O28  1  0.2054  0.1849  0.2823  1\n  O  O29  1  0.6709  0.4135  0.0806  1\n  O  O30  1  0.1709  0.5865  0.4194  1\n  O  O31  1  0.3291  0.5865  0.9194  1\n  O  O32  1  0.8291  0.4135  0.5806  1\n  O  O33  1  0.4401  0.1229  0.1233  1\n  O  O34  1  0.9401  0.8771  0.3767  1\n  O  O35  1  0.5599  0.8771  0.8767  1\n  O  O36  1  0.7054  0.8151  0.2177  1\n  O  O37  1  0.0599  0.1229  0.6233  1\n  O  O38  1  0.2946  0.1849  0.7823  1\n  O  O39  1  0.7946  0.8151  0.7177  1\n  O  O40  1  0.5321  0.7126  0.1165  1\n  O  O41  1  0.0321  0.2874  0.3835  1\n  O  O42  1  0.4679  0.2874  0.8835  1\n  O  O43  1  0.9679  0.7126  0.6165  1\n  O  O44  1  0.4186  0.6931  0.2976  1\n  O  O45  1  0.9186  0.3069  0.2024  1\n  O  O46  1  0.5814  0.3069  0.7024  1\n  O  O47  1  0.0814  0.6931  0.7976  1\n  O  O48  1  0.6377  0.4589  0.3505  1\n  O  O49  1  0.1377  0.5411  0.1495  1\n  O  O50  1  0.3623  0.5411  0.6495  1\n  O  O51  1  0.8623  0.4589  0.8505  1\n  O  O52  1  0.4661  0.2184  0.3628  1\n  O  O53  1  0.9661  0.7816  0.1372  1\n  O  O54  1  0.5339  0.7816  0.6372  1\n  O  O55  1  0.0339  0.2184  0.8628  1\n  O  O56  1  0.3839  0.8970  0.4270  1\n  O  O57  1  0.8839  0.1030  0.0730  1\n  O  O58  1  0.6161  0.1030  0.5730  1\n  O  O59  1  0.1171  0.3324  0.9879  1\n  O  O60  1  0.2342  0.0227  0.5271  1\n  O  O61  1  0.7342  0.9773  0.9729  1\n  O  O62  1  0.7658  0.9773  0.4729  1\n  O  O63  1  0.2658  0.0227  0.0271  1\n  O  O64  1  0.3829  0.3324  0.4879  1\n  O  O65  1  0.8829  0.6676  0.0121  1\n  O  O66  1  0.6171  0.6676  0.5121  1\n  O  O67  1  0.1161  0.8970  0.9270  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm4OCd3B20O38CdO\n_chemical_formula_sum              \"Sm4 O40 Cd4 B20\"\n_cell_length_a       7.9803\n_cell_length_b       8.7086\n_cell_length_c       12.7559\n_cell_angle_alpha    49.0293\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.1831  0.9520  0.2403  1.0000\n  Sm  Sm2       1.0000  0.6831  0.0480  0.2597  1.0000\n  Sm  Sm3       1.0000  0.8169  0.0480  0.7597  1.0000\n  Sm  Sm4       1.0000  0.3169  0.9520  0.7403  1.0000\n  O   O1        1.0000  0.4050  0.4731  0.1287  1.0000\n  Cd  Cd1       1.0000  0.9050  0.5269  0.3713  1.0000\n  Cd  Cd2       1.0000  0.5950  0.5269  0.8713  1.0000\n  Cd  Cd3       1.0000  0.0950  0.4731  0.6287  1.0000\n  B   B1        1.0000  0.5738  0.6683  0.2478  1.0000\n  B   B2        1.0000  0.1746  0.5292  0.9055  1.0000\n  B   B3        1.0000  0.6746  0.4708  0.5945  1.0000\n  B   B4        1.0000  0.8254  0.4708  0.0945  1.0000\n  B   B5        1.0000  0.3254  0.5292  0.4055  1.0000\n  B   B6        1.0000  0.8945  0.8547  0.4890  1.0000\n  B   B7        1.0000  0.3945  0.1453  0.0111  1.0000\n  B   B8        1.0000  0.1055  0.1453  0.5111  1.0000\n  B   B9        1.0000  0.6055  0.8547  0.9889  1.0000\n  B   B10       1.0000  0.0738  0.3317  0.2522  1.0000\n  B   B11       1.0000  0.4262  0.3317  0.7522  1.0000\n  B   B12       1.0000  0.9262  0.6683  0.7478  1.0000\n  B   B13       1.0000  0.3238  0.0776  0.4052  1.0000\n  B   B14       1.0000  0.8238  0.9224  0.0948  1.0000\n  B   B15       1.0000  0.6762  0.9224  0.5948  1.0000\n  B   B16       1.0000  0.1762  0.0776  0.9052  1.0000\n  B   B17       1.0000  0.5303  0.2791  0.4418  1.0000\n  B   B18       1.0000  0.0303  0.7209  0.0582  1.0000\n  B   B19       1.0000  0.4697  0.7209  0.5582  1.0000\n  B   B20       1.0000  0.9697  0.2791  0.9418  1.0000\n  O   O2        1.0000  0.2054  0.1849  0.2823  1.0000\n  O   O3        1.0000  0.6709  0.4135  0.0806  1.0000\n  O   O4        1.0000  0.1709  0.5865  0.4194  1.0000\n  O   O5        1.0000  0.3291  0.5865  0.9194  1.0000\n  O   O6        1.0000  0.8291  0.4135  0.5806  1.0000\n  O   O7        1.0000  0.4401  0.1229  0.1233  1.0000\n  O   O8        1.0000  0.9401  0.8771  0.3767  1.0000\n  O   O9        1.0000  0.5599  0.8771  0.8767  1.0000\n  O   O10       1.0000  0.7054  0.8151  0.2177  1.0000\n  O   O11       1.0000  0.0599  0.1229  0.6233  1.0000\n  O   O12       1.0000  0.2946  0.1849  0.7823  1.0000\n  O   O13       1.0000  0.7946  0.8151  0.7177  1.0000\n  O   O14       1.0000  0.5321  0.7126  0.1165  1.0000\n  O   O15       1.0000  0.0321  0.2874  0.3835  1.0000\n  O   O16       1.0000  0.4679  0.2874  0.8835  1.0000\n  O   O17       1.0000  0.9679  0.7126  0.6165  1.0000\n  O   O18       1.0000  0.4186  0.6931  0.2976  1.0000\n  O   O19       1.0000  0.9186  0.3069  0.2024  1.0000\n  O   O20       1.0000  0.5814  0.3069  0.7024  1.0000\n  O   O21       1.0000  0.0814  0.6931  0.7976  1.0000\n  O   O22       1.0000  0.6377  0.4589  0.3505  1.0000\n  O   O23       1.0000  0.1377  0.5411  0.1495  1.0000\n  O   O24       1.0000  0.3623  0.5411  0.6495  1.0000\n  O   O25       1.0000  0.8623  0.4589  0.8505  1.0000\n  O   O26       1.0000  0.4661  0.2184  0.3628  1.0000\n  O   O27       1.0000  0.9661  0.7816  0.1372  1.0000\n  O   O28       1.0000  0.5339  0.7816  0.6372  1.0000\n  O   O29       1.0000  0.0339  0.2184  0.8628  1.0000\n  O   O30       1.0000  0.3839  0.8970  0.4270  1.0000\n  O   O31       1.0000  0.8839  0.1030  0.0730  1.0000\n  O   O32       1.0000  0.6161  0.1030  0.5730  1.0000\n  O   O33       1.0000  0.1171  0.3324  0.9879  1.0000\n  O   O34       1.0000  0.2342  0.0227  0.5271  1.0000\n  O   O35       1.0000  0.7342  0.9773  0.9729  1.0000\n  O   O36       1.0000  0.7658  0.9773  0.4729  1.0000\n  O   O37       1.0000  0.2658  0.0227  0.0271  1.0000\n  O   O38       1.0000  0.3829  0.3324  0.4879  1.0000\n  O   O39       1.0000  0.8829  0.6676  0.0121  1.0000\n  Cd  Cd4       1.0000  0.6171  0.6676  0.5121  1.0000\n  O   O40       1.0000  0.1161  0.8970  0.9270  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6cc6ea4d-15ad-430c-b614-ca3fa14695fa",
    "mp_id": "mp-1516666",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaDyNbSnO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9373\n_cell_length_b   5.9727\n_cell_length_c   8.4913\n_cell_angle_alpha   89.6151\n_cell_angle_beta   89.8849\n_cell_angle_gamma   90.6953\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaDyNbSnO6\n_chemical_formula_sum   'Ba2 Dy2 Nb2 Sn2 O12'\n_cell_volume   301.0838\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5042  0.5188  0.2509  1\n  Ba  Ba1  1  0.4958  0.4812  0.7491  1\n  Dy  Dy2  1  -0.0000  0.5000  -0.0000  1\n  Dy  Dy3  1  0.5000  0.0000  0.5000  1\n  Nb  Nb4  1  0.5000  0.0000  -0.0000  1\n  Nb  Nb5  1  -0.0000  0.5000  0.5000  1\n  Sn  Sn6  1  0.0034  0.0137  0.2528  1\n  Sn  Sn7  1  0.9966  0.9863  0.7472  1\n  O  O8  1  0.2322  0.2012  0.9493  1\n  O  O9  1  0.2733  0.6987  0.5197  1\n  O  O10  1  0.7678  0.7988  0.0507  1\n  O  O11  1  0.7267  0.3013  0.4803  1\n  O  O12  1  0.3029  0.7291  0.9734  1\n  O  O13  1  0.1965  0.2237  0.5435  1\n  O  O14  1  0.6971  0.2709  0.0266  1\n  O  O15  1  0.8035  0.7763  0.4565  1\n  O  O16  1  0.4081  0.0034  0.2360  1\n  O  O17  1  0.0537  0.4711  0.2644  1\n  O  O18  1  0.5919  0.9966  0.7640  1\n  O  O19  1  0.9463  0.5289  0.7356  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2NbDy2NbSn2O12\n_chemical_formula_sum              \"Ba2 Nb2 Dy2 Sn2 O12\"\n_cell_length_a       5.9373\n_cell_length_b       5.9727\n_cell_length_c       8.4913\n_cell_angle_alpha    89.6151\n_cell_angle_beta     89.8849\n_cell_angle_gamma    90.6953\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.5042  0.5188  0.2509  1.0000\n  Ba  Ba2       1.0000  0.4958  0.4812  0.7491  1.0000\n  Nb  Nb1       1.0000  0.0000  0.5000  0.0000  1.0000\n  Dy  Dy1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Dy  Dy2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Nb  Nb2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Sn  Sn1       1.0000  0.0034  0.0137  0.2528  1.0000\n  Sn  Sn2       1.0000  0.9966  0.9863  0.7472  1.0000\n  O   O1        1.0000  0.2322  0.2012  0.9493  1.0000\n  O   O2        1.0000  0.2733  0.6987  0.5197  1.0000\n  O   O3        1.0000  0.7678  0.7988  0.0507  1.0000\n  O   O4        1.0000  0.7267  0.3013  0.4803  1.0000\n  O   O5        1.0000  0.3029  0.7291  0.9734  1.0000\n  O   O6        1.0000  0.1965  0.2237  0.5435  1.0000\n  O   O7        1.0000  0.6971  0.2709  0.0266  1.0000\n  O   O8        1.0000  0.8035  0.7763  0.4565  1.0000\n  O   O9        1.0000  0.4081  0.0034  0.2360  1.0000\n  O   O10       1.0000  0.0537  0.4711  0.2644  1.0000\n  O   O11       1.0000  0.5919  0.9966  0.7640  1.0000\n  O   O12       1.0000  0.9463  0.5289  0.7356  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0b99a326-f629-4c3b-b437-871d132fa8b7",
    "mp_id": "mp-1517169",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCaDyFeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7194\n_cell_length_b   5.7194\n_cell_length_c   5.7194\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCaDyFeO6\n_chemical_formula_sum   'Sr1 Ca1 Dy1 Fe1 O6'\n_cell_volume   132.2944\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.2500  0.2500  1\n  Ca  Ca1  1  0.7500  0.7500  0.7500  1\n  Dy  Dy2  1  0.0000  0.0000  0.0000  1\n  Fe  Fe3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7312  0.2688  0.2688  1\n  O  O5  1  0.2688  0.7312  0.7312  1\n  O  O6  1  0.7312  0.2688  0.7312  1\n  O  O7  1  0.2688  0.7312  0.2688  1\n  O  O8  1  0.7312  0.7312  0.2688  1\n  O  O9  1  0.2688  0.2688  0.7312  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrODyFeO5Ca\n_chemical_formula_sum              \"Sr1 O6 Dy1 Fe1 Ca1\"\n_cell_length_a       5.7194\n_cell_length_b       5.7194\n_cell_length_c       5.7194\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Dy  Dy1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7312  0.2688  0.2688  1.0000\n  O   O3        1.0000  0.2688  0.7312  0.7312  1.0000\n  O   O4        1.0000  0.7312  0.2688  0.7312  1.0000\n  O   O5        1.0000  0.2688  0.7312  0.2688  1.0000\n  O   O6        1.0000  0.7312  0.7312  0.2688  1.0000\n  Ca  Ca1       1.0000  0.2688  0.2688  0.7312  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a4dcda83-f525-42b1-ae43-373344c257dd",
    "mp_id": "mp-1517627",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KSrNbBiO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9854\n_cell_length_b   5.9854\n_cell_length_c   5.9854\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KSrNbBiO6\n_chemical_formula_sum   'K1 Sr1 Nb1 Bi1 O6'\n_cell_volume   151.6239\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  Sr  Sr1  1  0.2500  0.2500  0.2500  1\n  Nb  Nb2  1  0.5000  0.5000  0.5000  1\n  Bi  Bi3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.7371  0.2629  0.2629  1\n  O  O5  1  0.2629  0.7371  0.7371  1\n  O  O6  1  0.7371  0.2629  0.7371  1\n  O  O7  1  0.2629  0.7371  0.2629  1\n  O  O8  1  0.7371  0.7371  0.2629  1\n  O  O9  1  0.2629  0.2629  0.7371  1\n",
    "output": "data_image0\n_chemical_formula_structural       OSrNbBiO3KO2\n_chemical_formula_sum              \"O6 Sr1 Nb1 Bi1 K1\"\n_cell_length_a       5.9854\n_cell_length_b       5.9854\n_cell_length_c       5.9854\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Nb  Nb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Bi  Bi1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7371  0.2629  0.2629  1.0000\n  O   O3        1.0000  0.2629  0.7371  0.7371  1.0000\n  O   O4        1.0000  0.7371  0.2629  0.7371  1.0000\n  K   K1        1.0000  0.2629  0.7371  0.2629  1.0000\n  O   O5        1.0000  0.7371  0.7371  0.2629  1.0000\n  O   O6        1.0000  0.2629  0.2629  0.7371  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4cd117e4-b867-476c-b2ca-388ee1f0bbbf",
    "mp_id": "mp-1518007",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaCaEuNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4335\n_cell_length_b   8.4839\n_cell_length_c   8.4704\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaCaEuNbO6\n_chemical_formula_sum   'Ba4 Ca4 Eu4 Nb4 O24'\n_cell_volume   606.0477\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  -0.0000  0.0000  1\n  Ba  Ba1  1  0.5000  0.5000  0.5000  1\n  Ba  Ba2  1  0.5000  -0.0000  0.5000  1\n  Ba  Ba3  1  0.0000  -0.0000  0.5000  1\n  Ca  Ca4  1  0.0000  0.5000  0.5000  1\n  Ca  Ca5  1  0.5000  0.5000  0.0000  1\n  Ca  Ca6  1  0.5000  -0.0000  0.0000  1\n  Ca  Ca7  1  0.0000  0.5000  0.0000  1\n  Eu  Eu8  1  0.7475  0.7470  0.7552  1\n  Eu  Eu9  1  0.2525  0.2530  0.7552  1\n  Eu  Eu10  1  0.2525  0.7470  0.2448  1\n  Eu  Eu11  1  0.7475  0.2530  0.2448  1\n  Nb  Nb12  1  0.2471  0.2580  0.2451  1\n  Nb  Nb13  1  0.7529  0.7420  0.2451  1\n  Nb  Nb14  1  0.7529  0.2580  0.7549  1\n  Nb  Nb15  1  0.2471  0.7420  0.7549  1\n  O  O16  1  0.0164  0.2073  0.2678  1\n  O  O17  1  0.9836  0.7927  0.2678  1\n  O  O18  1  0.9836  0.2073  0.7322  1\n  O  O19  1  0.0164  0.7927  0.7322  1\n  O  O20  1  0.2954  0.0224  0.1996  1\n  O  O21  1  0.2954  0.9776  0.8004  1\n  O  O22  1  0.7046  0.9776  0.1996  1\n  O  O23  1  0.7046  0.0224  0.8004  1\n  O  O24  1  0.2041  0.3072  0.0155  1\n  O  O25  1  0.7959  0.3072  0.9845  1\n  O  O26  1  0.2041  0.6928  0.9845  1\n  O  O27  1  0.7959  0.6928  0.0155  1\n  O  O28  1  0.4809  0.3059  0.2048  1\n  O  O29  1  0.5191  0.6941  0.2048  1\n  O  O30  1  0.5191  0.3059  0.7952  1\n  O  O31  1  0.4809  0.6941  0.7952  1\n  O  O32  1  0.2030  0.4852  0.3023  1\n  O  O33  1  0.2030  0.5148  0.6977  1\n  O  O34  1  0.7970  0.5148  0.3023  1\n  O  O35  1  0.7970  0.4852  0.6977  1\n  O  O36  1  0.2811  0.2216  0.4800  1\n  O  O37  1  0.7189  0.2216  0.5200  1\n  O  O38  1  0.2811  0.7784  0.5200  1\n  O  O39  1  0.7189  0.7784  0.4800  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba4Ca4Eu4ONb3O13NbO10\n_chemical_formula_sum              \"Ba4 Ca4 Eu4 O24 Nb4\"\n_cell_length_a       8.4335\n_cell_length_b       8.4839\n_cell_length_c       8.4704\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ba  Ba2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ba  Ba3       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ba  Ba4       1.0000  0.0000  0.0000  0.5000  1.0000\n  Ca  Ca1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ca  Ca2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Ca  Ca3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ca  Ca4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Eu  Eu1       1.0000  0.7475  0.7470  0.7552  1.0000\n  Eu  Eu2       1.0000  0.2525  0.2530  0.7552  1.0000\n  Eu  Eu3       1.0000  0.2525  0.7470  0.2448  1.0000\n  Eu  Eu4       1.0000  0.7475  0.2530  0.2448  1.0000\n  O   O1        1.0000  0.2471  0.2580  0.2451  1.0000\n  Nb  Nb1       1.0000  0.7529  0.7420  0.2451  1.0000\n  Nb  Nb2       1.0000  0.7529  0.2580  0.7549  1.0000\n  Nb  Nb3       1.0000  0.2471  0.7420  0.7549  1.0000\n  O   O2        1.0000  0.0164  0.2073  0.2678  1.0000\n  O   O3        1.0000  0.9836  0.7927  0.2678  1.0000\n  O   O4        1.0000  0.9836  0.2073  0.7322  1.0000\n  O   O5        1.0000  0.0164  0.7927  0.7322  1.0000\n  O   O6        1.0000  0.2954  0.0224  0.1996  1.0000\n  O   O7        1.0000  0.2954  0.9776  0.8004  1.0000\n  O   O8        1.0000  0.7046  0.9776  0.1996  1.0000\n  O   O9        1.0000  0.7046  0.0224  0.8004  1.0000\n  O   O10       1.0000  0.2041  0.3072  0.0155  1.0000\n  O   O11       1.0000  0.7959  0.3072  0.9845  1.0000\n  O   O12       1.0000  0.2041  0.6928  0.9845  1.0000\n  O   O13       1.0000  0.7959  0.6928  0.0155  1.0000\n  O   O14       1.0000  0.4809  0.3059  0.2048  1.0000\n  Nb  Nb4       1.0000  0.5191  0.6941  0.2048  1.0000\n  O   O15       1.0000  0.5191  0.3059  0.7952  1.0000\n  O   O16       1.0000  0.4809  0.6941  0.7952  1.0000\n  O   O17       1.0000  0.2030  0.4852  0.3023  1.0000\n  O   O18       1.0000  0.2030  0.5148  0.6977  1.0000\n  O   O19       1.0000  0.7970  0.5148  0.3023  1.0000\n  O   O20       1.0000  0.7970  0.4852  0.6977  1.0000\n  O   O21       1.0000  0.2811  0.2216  0.4800  1.0000\n  O   O22       1.0000  0.7189  0.2216  0.5200  1.0000\n  O   O23       1.0000  0.2811  0.7784  0.5200  1.0000\n  O   O24       1.0000  0.7189  0.7784  0.4800  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "84329fba-3697-43fb-ab8d-b938f31e8e37",
    "mp_id": "mp-1518014",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrLaEuSbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9841\n_cell_length_b   5.9841\n_cell_length_c   8.6807\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrLaEuSbO6\n_chemical_formula_sum   'Sr2 La2 Eu2 Sb2 O12'\n_cell_volume   310.8485\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5000  -0.0000  0.2500  1\n  Sr  Sr1  1  0.0000  0.5000  0.7500  1\n  La  La2  1  -0.0000  -0.0000  0.0000  1\n  La  La3  1  0.5000  0.5000  0.5000  1\n  Eu  Eu4  1  -0.0000  0.5000  0.2500  1\n  Eu  Eu5  1  0.5000  0.0000  0.7500  1\n  Sb  Sb6  1  0.0000  0.0000  0.5000  1\n  Sb  Sb7  1  0.5000  0.5000  0.0000  1\n  O  O8  1  -0.0000  0.0000  0.2683  1\n  O  O9  1  0.5000  0.5000  0.2317  1\n  O  O10  1  0.0000  0.0000  0.7317  1\n  O  O11  1  0.5000  0.5000  0.7683  1\n  O  O12  1  0.3437  0.2016  0.9983  1\n  O  O13  1  0.6563  0.7984  0.9983  1\n  O  O14  1  0.7984  0.3437  0.0017  1\n  O  O15  1  0.2016  0.6563  0.0017  1\n  O  O16  1  0.8437  0.2984  0.4983  1\n  O  O17  1  0.1563  0.7016  0.4983  1\n  O  O18  1  0.2984  0.1563  0.5017  1\n  O  O19  1  0.7016  0.8437  0.5017  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2LaOEu2Sb2O11La\n_chemical_formula_sum              \"Sr2 La2 O12 Eu2 Sb2\"\n_cell_length_a       5.9841\n_cell_length_b       5.9841\n_cell_length_c       8.6807\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5000  0.0000  0.2500  1.0000\n  Sr  Sr2       1.0000  0.0000  0.5000  0.7500  1.0000\n  La  La1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Eu  Eu1       1.0000  0.0000  0.5000  0.2500  1.0000\n  Eu  Eu2       1.0000  0.5000  0.0000  0.7500  1.0000\n  Sb  Sb1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Sb  Sb2       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.0000  0.2683  1.0000\n  O   O3        1.0000  0.5000  0.5000  0.2317  1.0000\n  O   O4        1.0000  0.0000  0.0000  0.7317  1.0000\n  O   O5        1.0000  0.5000  0.5000  0.7683  1.0000\n  O   O6        1.0000  0.3437  0.2016  0.9983  1.0000\n  O   O7        1.0000  0.6563  0.7984  0.9983  1.0000\n  O   O8        1.0000  0.7984  0.3437  0.0017  1.0000\n  O   O9        1.0000  0.2016  0.6563  0.0017  1.0000\n  O   O10       1.0000  0.8437  0.2984  0.4983  1.0000\n  O   O11       1.0000  0.1563  0.7016  0.4983  1.0000\n  O   O12       1.0000  0.2984  0.1563  0.5017  1.0000\n  La  La2       1.0000  0.7016  0.8437  0.5017  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bc8e027a-8409-45ef-ba31-f1905faec3bc",
    "mp_id": "mp-1518246",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCaTbGeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7978\n_cell_length_b   5.7978\n_cell_length_c   5.7978\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCaTbGeO6\n_chemical_formula_sum   'Sr1 Ca1 Tb1 Ge1 O6'\n_cell_volume   137.8087\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7500  0.7500  0.7500  1\n  Ca  Ca1  1  0.2500  0.2500  0.2500  1\n  Tb  Tb2  1  0.5000  0.5000  0.5000  1\n  Ge  Ge3  1  -0.0000  0.0000  0.0000  1\n  O  O4  1  0.7691  0.2309  0.2309  1\n  O  O5  1  0.2309  0.7691  0.7691  1\n  O  O6  1  0.7691  0.2309  0.7691  1\n  O  O7  1  0.2309  0.7691  0.2309  1\n  O  O8  1  0.7691  0.7691  0.2309  1\n  O  O9  1  0.2309  0.2309  0.7691  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOTbGeO5Ca\n_chemical_formula_sum              \"Sr1 O6 Tb1 Ge1 Ca1\"\n_cell_length_a       5.7978\n_cell_length_b       5.7978\n_cell_length_c       5.7978\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Tb  Tb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ge  Ge1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7691  0.2309  0.2309  1.0000\n  O   O3        1.0000  0.2309  0.7691  0.7691  1.0000\n  O   O4        1.0000  0.7691  0.2309  0.7691  1.0000\n  O   O5        1.0000  0.2309  0.7691  0.2309  1.0000\n  O   O6        1.0000  0.7691  0.7691  0.2309  1.0000\n  Ca  Ca1       1.0000  0.2309  0.2309  0.7691  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eca99349-ab71-4f0b-bcf5-508c763e173b",
    "mp_id": "mp-1518458",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaSrCeNiO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8065\n_cell_length_b   5.8065\n_cell_length_c   5.8065\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaSrCeNiO6\n_chemical_formula_sum   'Ba1 Sr1 Ce1 Ni1 O6'\n_cell_volume   138.4304\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.2500  0.2500  1\n  Sr  Sr1  1  0.7500  0.7500  0.7500  1\n  Ce  Ce2  1  0.0000  -0.0000  -0.0000  1\n  Ni  Ni3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7321  0.2679  0.2679  1\n  O  O5  1  0.2679  0.7321  0.7321  1\n  O  O6  1  0.7321  0.2679  0.7321  1\n  O  O7  1  0.2679  0.7321  0.2679  1\n  O  O8  1  0.7321  0.7321  0.2679  1\n  O  O9  1  0.2679  0.2679  0.7321  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaSrCeO3NiO3\n_chemical_formula_sum              \"Ba1 Sr1 Ce1 O6 Ni1\"\n_cell_length_a       5.8065\n_cell_length_b       5.8065\n_cell_length_c       5.8065\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Sr  Sr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Ce  Ce1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7321  0.2679  0.2679  1.0000\n  O   O3        1.0000  0.2679  0.7321  0.7321  1.0000\n  Ni  Ni1       1.0000  0.7321  0.2679  0.7321  1.0000\n  O   O4        1.0000  0.2679  0.7321  0.2679  1.0000\n  O   O5        1.0000  0.7321  0.7321  0.2679  1.0000\n  O   O6        1.0000  0.2679  0.2679  0.7321  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7386ac27-0b6a-46c6-811c-fb1110b046a5",
    "mp_id": "mp-1518757",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_EuZr2SnO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2282\n_cell_length_b   5.8021\n_cell_length_c   5.8021\n_cell_angle_alpha   90.4160\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   EuZr2SnO6\n_chemical_formula_sum   'Eu1 Zr2 Sn1 O6'\n_cell_volume   142.3384\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.5000  0.5000  0.5000  1\n  Zr  Zr1  1  -0.0000  -0.0000  0.5000  1\n  Zr  Zr2  1  -0.0000  0.5000  0.0000  1\n  Sn  Sn3  1  0.5000  -0.0000  0.0000  1\n  O  O4  1  0.5000  -0.0000  0.5000  1\n  O  O5  1  0.5000  0.5000  0.0000  1\n  O  O6  1  -0.0000  0.3167  0.6833  1\n  O  O7  1  -0.0000  0.6833  0.3167  1\n  O  O8  1  -0.0000  0.8135  0.8135  1\n  O  O9  1  0.0000  0.1865  0.1865  1\n",
    "output": "data_image0\n_chemical_formula_structural       OZr2SnO3EuO2\n_chemical_formula_sum              \"O6 Zr2 Sn1 Eu1\"\n_cell_length_a       4.2282\n_cell_length_b       5.8021\n_cell_length_c       5.8021\n_cell_angle_alpha    90.4160\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Zr  Zr1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Zr  Zr2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Sn  Sn1       1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O3        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O4        1.0000  0.0000  0.3167  0.6833  1.0000\n  Eu  Eu1       1.0000  0.0000  0.6833  0.3167  1.0000\n  O   O5        1.0000  0.0000  0.8135  0.8135  1.0000\n  O   O6        1.0000  0.0000  0.1865  0.1865  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e4ce62ce-6634-494f-b79d-2c54e63c56a4",
    "mp_id": "mp-1519002",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaEuZrNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8271\n_cell_length_b   5.8271\n_cell_length_c   5.8271\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaEuZrNbO6\n_chemical_formula_sum   'Ca1 Eu1 Zr1 Nb1 O6'\n_cell_volume   139.9077\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.7500  0.7500  0.7500  1\n  Eu  Eu1  1  0.2500  0.2500  0.2500  1\n  Zr  Zr2  1  0.5000  0.5000  0.5000  1\n  Nb  Nb3  1  0.0000  -0.0000  0.0000  1\n  O  O4  1  0.7540  0.2460  0.2460  1\n  O  O5  1  0.2460  0.7540  0.7540  1\n  O  O6  1  0.7540  0.2460  0.7540  1\n  O  O7  1  0.2460  0.7540  0.2460  1\n  O  O8  1  0.7540  0.7540  0.2460  1\n  O  O9  1  0.2460  0.2460  0.7540  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaEuONbO4ZrO\n_chemical_formula_sum              \"Ca1 Eu1 O6 Nb1 Zr1\"\n_cell_length_a       5.8271\n_cell_length_b       5.8271\n_cell_length_c       5.8271\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Eu  Eu1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Nb  Nb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7540  0.2460  0.2460  1.0000\n  O   O3        1.0000  0.2460  0.7540  0.7540  1.0000\n  O   O4        1.0000  0.7540  0.2460  0.7540  1.0000\n  O   O5        1.0000  0.2460  0.7540  0.2460  1.0000\n  Zr  Zr1       1.0000  0.7540  0.7540  0.2460  1.0000\n  O   O6        1.0000  0.2460  0.2460  0.7540  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b620aba2-14de-454e-8885-87a198ede69d",
    "mp_id": "mp-1519698",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KEuDyBiO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6906\n_cell_length_b   8.6327\n_cell_length_c   8.6242\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KEuDyBiO6\n_chemical_formula_sum   'K4 Eu4 Dy4 Bi4 O24'\n_cell_volume   647.0221\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  -0.0000  0.5000  0.5000  1\n  K  K1  1  0.5000  -0.0000  0.5000  1\n  K  K2  1  0.5000  -0.0000  -0.0000  1\n  K  K3  1  -0.0000  0.5000  -0.0000  1\n  Eu  Eu4  1  0.5000  0.5000  -0.0000  1\n  Eu  Eu5  1  -0.0000  -0.0000  0.5000  1\n  Eu  Eu6  1  -0.0000  -0.0000  -0.0000  1\n  Eu  Eu7  1  0.5000  0.5000  0.5000  1\n  Dy  Dy8  1  0.2500  0.2500  0.2500  1\n  Dy  Dy9  1  0.7500  0.7500  0.2500  1\n  Dy  Dy10  1  0.7500  0.2500  0.7500  1\n  Dy  Dy11  1  0.2500  0.7500  0.7500  1\n  Bi  Bi12  1  0.7500  0.7500  0.7500  1\n  Bi  Bi13  1  0.2500  0.2500  0.7500  1\n  Bi  Bi14  1  0.2500  0.7500  0.2500  1\n  Bi  Bi15  1  0.7500  0.2500  0.2500  1\n  O  O16  1  0.9932  0.2002  0.2909  1\n  O  O17  1  0.0068  0.7998  0.2909  1\n  O  O18  1  0.0068  0.2002  0.7091  1\n  O  O19  1  0.9932  0.7998  0.7091  1\n  O  O20  1  0.2874  0.9922  0.2030  1\n  O  O21  1  0.2874  0.0078  0.7970  1\n  O  O22  1  0.7126  0.0078  0.2030  1\n  O  O23  1  0.7126  0.9922  0.7970  1\n  O  O24  1  0.2035  0.2890  0.9924  1\n  O  O25  1  0.7965  0.2890  0.0076  1\n  O  O26  1  0.2035  0.7110  0.0076  1\n  O  O27  1  0.7965  0.7110  0.9924  1\n  O  O28  1  0.5068  0.2998  0.2091  1\n  O  O29  1  0.4932  0.7002  0.2091  1\n  O  O30  1  0.4932  0.2998  0.7909  1\n  O  O31  1  0.5068  0.7002  0.7909  1\n  O  O32  1  0.2126  0.5078  0.2970  1\n  O  O33  1  0.2126  0.4922  0.7030  1\n  O  O34  1  0.7874  0.4922  0.2970  1\n  O  O35  1  0.7874  0.5078  0.7030  1\n  O  O36  1  0.2965  0.2110  0.5076  1\n  O  O37  1  0.7035  0.2110  0.4924  1\n  O  O38  1  0.2965  0.7890  0.4924  1\n  O  O39  1  0.7035  0.7890  0.5076  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Eu4ODy3Bi4O17DyO6\n_chemical_formula_sum              \"K4 Eu4 O24 Dy4 Bi4\"\n_cell_length_a       8.6906\n_cell_length_b       8.6327\n_cell_length_c       8.6242\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0000  0.5000  0.5000  1.0000\n  K   K2        1.0000  0.5000  0.0000  0.5000  1.0000\n  K   K3        1.0000  0.5000  0.0000  0.0000  1.0000\n  K   K4        1.0000  0.0000  0.5000  0.0000  1.0000\n  Eu  Eu1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Eu  Eu2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Eu  Eu3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Eu  Eu4       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Dy  Dy1       1.0000  0.7500  0.7500  0.2500  1.0000\n  Dy  Dy2       1.0000  0.7500  0.2500  0.7500  1.0000\n  Dy  Dy3       1.0000  0.2500  0.7500  0.7500  1.0000\n  Bi  Bi1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Bi  Bi2       1.0000  0.2500  0.2500  0.7500  1.0000\n  Bi  Bi3       1.0000  0.2500  0.7500  0.2500  1.0000\n  Bi  Bi4       1.0000  0.7500  0.2500  0.2500  1.0000\n  O   O2        1.0000  0.9932  0.2002  0.2909  1.0000\n  O   O3        1.0000  0.0068  0.7998  0.2909  1.0000\n  O   O4        1.0000  0.0068  0.2002  0.7091  1.0000\n  O   O5        1.0000  0.9932  0.7998  0.7091  1.0000\n  O   O6        1.0000  0.2874  0.9922  0.2030  1.0000\n  O   O7        1.0000  0.2874  0.0078  0.7970  1.0000\n  O   O8        1.0000  0.7126  0.0078  0.2030  1.0000\n  O   O9        1.0000  0.7126  0.9922  0.7970  1.0000\n  O   O10       1.0000  0.2035  0.2890  0.9924  1.0000\n  O   O11       1.0000  0.7965  0.2890  0.0076  1.0000\n  O   O12       1.0000  0.2035  0.7110  0.0076  1.0000\n  O   O13       1.0000  0.7965  0.7110  0.9924  1.0000\n  O   O14       1.0000  0.5068  0.2998  0.2091  1.0000\n  O   O15       1.0000  0.4932  0.7002  0.2091  1.0000\n  O   O16       1.0000  0.4932  0.2998  0.7909  1.0000\n  O   O17       1.0000  0.5068  0.7002  0.7909  1.0000\n  O   O18       1.0000  0.2126  0.5078  0.2970  1.0000\n  Dy  Dy4       1.0000  0.2126  0.4922  0.7030  1.0000\n  O   O19       1.0000  0.7874  0.4922  0.2970  1.0000\n  O   O20       1.0000  0.7874  0.5078  0.7030  1.0000\n  O   O21       1.0000  0.2965  0.2110  0.5076  1.0000\n  O   O22       1.0000  0.7035  0.2110  0.4924  1.0000\n  O   O23       1.0000  0.2965  0.7890  0.4924  1.0000\n  O   O24       1.0000  0.7035  0.7890  0.5076  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f5870379-beee-4fe7-a38b-3354b6354384",
    "mp_id": "mp-1519736",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCaYNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9449\n_cell_length_b   5.9449\n_cell_length_c   5.9449\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCaYNbO6\n_chemical_formula_sum   'Sr1 Ca1 Y1 Nb1 O6'\n_cell_volume   148.5634\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7500  0.7500  0.7500  1\n  Ca  Ca1  1  0.2500  0.2500  0.2500  1\n  Y  Y2  1  0.5000  0.5000  0.5000  1\n  Nb  Nb3  1  0.0000  -0.0000  0.0000  1\n  O  O4  1  0.7621  0.2379  0.2379  1\n  O  O5  1  0.2379  0.7621  0.7621  1\n  O  O6  1  0.7621  0.2379  0.7621  1\n  O  O7  1  0.2379  0.7621  0.2379  1\n  O  O8  1  0.7621  0.7621  0.2379  1\n  O  O9  1  0.2379  0.2379  0.7621  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrCaYONbO5\n_chemical_formula_sum              \"Sr1 Ca1 Y1 O6 Nb1\"\n_cell_length_a       5.9449\n_cell_length_b       5.9449\n_cell_length_c       5.9449\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Ca  Ca1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Y   Y1        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Nb  Nb1       1.0000  0.7621  0.2379  0.2379  1.0000\n  O   O2        1.0000  0.2379  0.7621  0.7621  1.0000\n  O   O3        1.0000  0.7621  0.2379  0.7621  1.0000\n  O   O4        1.0000  0.2379  0.7621  0.2379  1.0000\n  O   O5        1.0000  0.7621  0.7621  0.2379  1.0000\n  O   O6        1.0000  0.2379  0.2379  0.7621  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f5b7689-9b63-4fc1-829b-7c6194becd5d",
    "mp_id": "mp-1519860",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KIn(GeO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3064\n_cell_length_b   5.3064\n_cell_length_c   7.5105\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   88.8390\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KIn(GeO3)4\n_chemical_formula_sum   'K1 In1 Ge4 O12'\n_cell_volume   211.4323\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9844  0.0156  0.0000  1\n  In  In1  1  0.5185  0.4815  0.5000  1\n  Ge  Ge2  1  0.4944  0.9905  0.2452  1\n  Ge  Ge3  1  0.4944  0.9905  0.7548  1\n  Ge  Ge4  1  0.0095  0.5056  0.7548  1\n  Ge  Ge5  1  0.0095  0.5056  0.2452  1\n  O  O6  1  0.2211  0.2203  0.2652  1\n  O  O7  1  0.7797  0.7789  0.2652  1\n  O  O8  1  0.7797  0.7789  0.7348  1\n  O  O9  1  0.2211  0.2203  0.7348  1\n  O  O10  1  0.2960  0.7040  0.3058  1\n  O  O11  1  0.7108  0.2892  0.2371  1\n  O  O12  1  0.7108  0.2892  0.7629  1\n  O  O13  1  0.2960  0.7040  0.6942  1\n  O  O14  1  0.4746  0.9579  -0.0000  1\n  O  O15  1  0.5212  0.0682  0.5000  1\n  O  O16  1  0.0421  0.5254  0.0000  1\n  O  O17  1  0.9318  0.4788  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       KOGe4O11In\n_chemical_formula_sum              \"K1 O12 Ge4 In1\"\n_cell_length_a       5.3064\n_cell_length_b       5.3064\n_cell_length_c       7.5105\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    88.8390\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9844  0.0156  0.0000  1.0000\n  O   O1        1.0000  0.5185  0.4815  0.5000  1.0000\n  Ge  Ge1       1.0000  0.4944  0.9905  0.2452  1.0000\n  Ge  Ge2       1.0000  0.4944  0.9905  0.7548  1.0000\n  Ge  Ge3       1.0000  0.0095  0.5056  0.7548  1.0000\n  Ge  Ge4       1.0000  0.0095  0.5056  0.2452  1.0000\n  O   O2        1.0000  0.2211  0.2203  0.2652  1.0000\n  O   O3        1.0000  0.7797  0.7789  0.2652  1.0000\n  O   O4        1.0000  0.7797  0.7789  0.7348  1.0000\n  O   O5        1.0000  0.2211  0.2203  0.7348  1.0000\n  O   O6        1.0000  0.2960  0.7040  0.3058  1.0000\n  O   O7        1.0000  0.7108  0.2892  0.2371  1.0000\n  O   O8        1.0000  0.7108  0.2892  0.7629  1.0000\n  O   O9        1.0000  0.2960  0.7040  0.6942  1.0000\n  O   O10       1.0000  0.4746  0.9579  0.0000  1.0000\n  O   O11       1.0000  0.5212  0.0682  0.5000  1.0000\n  O   O12       1.0000  0.0421  0.5254  0.0000  1.0000\n  In  In1       1.0000  0.9318  0.4788  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "82fe9b13-d226-4ff1-b0b2-53193ad2cc80",
    "mp_id": "mp-1519983",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu2YNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9619\n_cell_length_b   5.9619\n_cell_length_c   5.9619\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu2YNbO6\n_chemical_formula_sum   'Eu2 Y1 Nb1 O6'\n_cell_volume   149.8422\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.2500  0.2500  0.2500  1\n  Eu  Eu1  1  0.7500  0.7500  0.7500  1\n  Y  Y2  1  0.5000  0.5000  0.5000  1\n  Nb  Nb3  1  -0.0000  0.0000  0.0000  1\n  O  O4  1  0.7619  0.2381  0.2381  1\n  O  O5  1  0.2381  0.7619  0.7619  1\n  O  O6  1  0.7619  0.2381  0.7619  1\n  O  O7  1  0.2381  0.7619  0.2381  1\n  O  O8  1  0.7619  0.7619  0.2381  1\n  O  O9  1  0.2381  0.2381  0.7619  1\n",
    "output": "data_image0\n_chemical_formula_structural       EuOYNbO5Eu\n_chemical_formula_sum              \"Eu2 O6 Y1 Nb1\"\n_cell_length_a       5.9619\n_cell_length_b       5.9619\n_cell_length_c       5.9619\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Y   Y1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Nb  Nb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7619  0.2381  0.2381  1.0000\n  O   O3        1.0000  0.2381  0.7619  0.7619  1.0000\n  O   O4        1.0000  0.7619  0.2381  0.7619  1.0000\n  O   O5        1.0000  0.2381  0.7619  0.2381  1.0000\n  O   O6        1.0000  0.7619  0.7619  0.2381  1.0000\n  Eu  Eu2       1.0000  0.2381  0.2381  0.7619  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "222adb52-5b0d-49dd-b5e7-a8a11ebbd5b1",
    "mp_id": "mp-1519998",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KPrMnNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6660\n_cell_length_b   5.6660\n_cell_length_c   5.6660\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KPrMnNbO6\n_chemical_formula_sum   'K1 Pr1 Mn1 Nb1 O6'\n_cell_volume   128.6241\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7500  0.7500  0.7500  1\n  Pr  Pr1  1  0.2500  0.2500  0.2500  1\n  Mn  Mn2  1  0.0000  -0.0000  -0.0000  1\n  Nb  Nb3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7491  0.2509  0.2509  1\n  O  O5  1  0.2509  0.7491  0.7491  1\n  O  O6  1  0.7491  0.2509  0.7491  1\n  O  O7  1  0.2509  0.7491  0.2509  1\n  O  O8  1  0.7491  0.7491  0.2509  1\n  O  O9  1  0.2509  0.2509  0.7491  1\n",
    "output": "data_image0\n_chemical_formula_structural       KPrONbO4MnO\n_chemical_formula_sum              \"K1 Pr1 O6 Nb1 Mn1\"\n_cell_length_a       5.6660\n_cell_length_b       5.6660\n_cell_length_c       5.6660\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Pr  Pr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Nb  Nb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7491  0.2509  0.2509  1.0000\n  O   O3        1.0000  0.2509  0.7491  0.7491  1.0000\n  O   O4        1.0000  0.7491  0.2509  0.7491  1.0000\n  O   O5        1.0000  0.2509  0.7491  0.2509  1.0000\n  Mn  Mn1       1.0000  0.7491  0.7491  0.2509  1.0000\n  O   O6        1.0000  0.2509  0.2509  0.7491  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "021874e1-6270-410f-9ffd-1b86996a07db",
    "mp_id": "mp-1520500",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2CeHfO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4835\n_cell_length_b   8.4835\n_cell_length_c   8.4835\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2CeHfO6\n_chemical_formula_sum   'Sr8 Ce4 Hf4 O24'\n_cell_volume   610.5647\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5000  0.5000  0.5000  1\n  Sr  Sr1  1  -0.0000  0.0000  -0.0000  1\n  Sr  Sr2  1  -0.0000  0.0000  0.5000  1\n  Sr  Sr3  1  -0.0000  0.5000  -0.0000  1\n  Sr  Sr4  1  0.5000  0.0000  -0.0000  1\n  Sr  Sr5  1  0.5000  0.5000  -0.0000  1\n  Sr  Sr6  1  0.5000  0.0000  0.5000  1\n  Sr  Sr7  1  -0.0000  0.5000  0.5000  1\n  Ce  Ce8  1  0.7500  0.7500  0.7500  1\n  Ce  Ce9  1  0.7500  0.2500  0.2500  1\n  Ce  Ce10  1  0.2500  0.7500  0.2500  1\n  Ce  Ce11  1  0.2500  0.2500  0.7500  1\n  Hf  Hf12  1  0.2500  0.2500  0.2500  1\n  Hf  Hf13  1  0.2500  0.7500  0.7500  1\n  Hf  Hf14  1  0.7500  0.2500  0.7500  1\n  Hf  Hf15  1  0.7500  0.7500  0.2500  1\n  O  O16  1  0.2144  0.2931  0.4911  1\n  O  O17  1  0.2144  0.7069  0.5089  1\n  O  O18  1  0.7856  0.2931  0.5089  1\n  O  O19  1  0.7856  0.7069  0.4911  1\n  O  O20  1  0.2931  0.4911  0.2144  1\n  O  O21  1  0.7069  0.5089  0.2144  1\n  O  O22  1  0.2931  0.5089  0.7856  1\n  O  O23  1  0.7069  0.4911  0.7856  1\n  O  O24  1  0.4911  0.2144  0.2931  1\n  O  O25  1  0.5089  0.2144  0.7069  1\n  O  O26  1  0.5089  0.7856  0.2931  1\n  O  O27  1  0.4911  0.7856  0.7069  1\n  O  O28  1  0.2856  0.2069  0.0089  1\n  O  O29  1  0.2856  0.7931  0.9911  1\n  O  O30  1  0.7144  0.2069  0.9911  1\n  O  O31  1  0.7144  0.7931  0.0089  1\n  O  O32  1  0.2069  0.0089  0.2856  1\n  O  O33  1  0.7931  0.9911  0.2856  1\n  O  O34  1  0.2069  0.9911  0.7144  1\n  O  O35  1  0.7931  0.0089  0.7144  1\n  O  O36  1  0.0089  0.2856  0.2069  1\n  O  O37  1  0.9911  0.2856  0.7931  1\n  O  O38  1  0.9911  0.7144  0.2069  1\n  O  O39  1  0.0089  0.7144  0.7931  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr8Ce3OHf4O9CeO14\n_chemical_formula_sum              \"Sr8 Ce4 O24 Hf4\"\n_cell_length_a       8.4835\n_cell_length_b       8.4835\n_cell_length_c       8.4835\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Sr  Sr2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Sr  Sr3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Sr  Sr4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Sr  Sr5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Sr  Sr6       1.0000  0.5000  0.5000  0.0000  1.0000\n  Sr  Sr7       1.0000  0.5000  0.0000  0.5000  1.0000\n  Sr  Sr8       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ce  Ce1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Ce  Ce2       1.0000  0.7500  0.2500  0.2500  1.0000\n  Ce  Ce3       1.0000  0.2500  0.7500  0.2500  1.0000\n  O   O1        1.0000  0.2500  0.2500  0.7500  1.0000\n  Hf  Hf1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Hf  Hf2       1.0000  0.2500  0.7500  0.7500  1.0000\n  Hf  Hf3       1.0000  0.7500  0.2500  0.7500  1.0000\n  Hf  Hf4       1.0000  0.7500  0.7500  0.2500  1.0000\n  O   O2        1.0000  0.2144  0.2931  0.4911  1.0000\n  O   O3        1.0000  0.2144  0.7069  0.5089  1.0000\n  O   O4        1.0000  0.7856  0.2931  0.5089  1.0000\n  O   O5        1.0000  0.7856  0.7069  0.4911  1.0000\n  O   O6        1.0000  0.2931  0.4911  0.2144  1.0000\n  O   O7        1.0000  0.7069  0.5089  0.2144  1.0000\n  O   O8        1.0000  0.2931  0.5089  0.7856  1.0000\n  O   O9        1.0000  0.7069  0.4911  0.7856  1.0000\n  O   O10       1.0000  0.4911  0.2144  0.2931  1.0000\n  Ce  Ce4       1.0000  0.5089  0.2144  0.7069  1.0000\n  O   O11       1.0000  0.5089  0.7856  0.2931  1.0000\n  O   O12       1.0000  0.4911  0.7856  0.7069  1.0000\n  O   O13       1.0000  0.2856  0.2069  0.0089  1.0000\n  O   O14       1.0000  0.2856  0.7931  0.9911  1.0000\n  O   O15       1.0000  0.7144  0.2069  0.9911  1.0000\n  O   O16       1.0000  0.7144  0.7931  0.0089  1.0000\n  O   O17       1.0000  0.2069  0.0089  0.2856  1.0000\n  O   O18       1.0000  0.7931  0.9911  0.2856  1.0000\n  O   O19       1.0000  0.2069  0.9911  0.7144  1.0000\n  O   O20       1.0000  0.7931  0.0089  0.7144  1.0000\n  O   O21       1.0000  0.0089  0.2856  0.2069  1.0000\n  O   O22       1.0000  0.9911  0.2856  0.7931  1.0000\n  O   O23       1.0000  0.9911  0.7144  0.2069  1.0000\n  O   O24       1.0000  0.0089  0.7144  0.7931  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dc628aa0-4ee1-4180-a4b9-80778758aad6",
    "mp_id": "mp-1521011",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaCaYWO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8736\n_cell_length_b   5.8736\n_cell_length_c   5.8736\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaCaYWO6\n_chemical_formula_sum   'Na1 Ca1 Y1 W1 O6'\n_cell_volume   143.2855\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2500  0.2500  0.2500  1\n  Ca  Ca1  1  0.7500  0.7500  0.7500  1\n  Y  Y2  1  0.5000  0.5000  0.5000  1\n  W  W3  1  0.0000  -0.0000  -0.0000  1\n  O  O4  1  0.7663  0.2337  0.2337  1\n  O  O5  1  0.2337  0.7663  0.7663  1\n  O  O6  1  0.7663  0.2337  0.7663  1\n  O  O7  1  0.2337  0.7663  0.2337  1\n  O  O8  1  0.7663  0.7663  0.2337  1\n  O  O9  1  0.2337  0.2337  0.7663  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaNaYWO6\n_chemical_formula_sum              \"Ca1 Na1 Y1 W1 O6\"\n_cell_length_a       5.8736\n_cell_length_b       5.8736\n_cell_length_c       5.8736\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Na  Na1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Y   Y1        1.0000  0.5000  0.5000  0.5000  1.0000\n  W   W1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.7663  0.2337  0.2337  1.0000\n  O   O2        1.0000  0.2337  0.7663  0.7663  1.0000\n  O   O3        1.0000  0.7663  0.2337  0.7663  1.0000\n  O   O4        1.0000  0.2337  0.7663  0.2337  1.0000\n  O   O5        1.0000  0.7663  0.7663  0.2337  1.0000\n  O   O6        1.0000  0.2337  0.2337  0.7663  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "39e99b53-dc7e-470f-ac3a-152fc1083c84",
    "mp_id": "mp-1521056",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2SmSbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0123\n_cell_length_b   6.0123\n_cell_length_c   6.0123\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2SmSbO6\n_chemical_formula_sum   'Sr2 Sm1 Sb1 O6'\n_cell_volume   153.6746\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.2500  0.2500  1\n  Sr  Sr1  1  0.7500  0.7500  0.7500  1\n  Sm  Sm2  1  0.5000  0.5000  0.5000  1\n  Sb  Sb3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.7654  0.2346  0.2346  1\n  O  O5  1  0.2346  0.7654  0.7654  1\n  O  O6  1  0.7654  0.2346  0.7654  1\n  O  O7  1  0.2346  0.7654  0.2346  1\n  O  O8  1  0.7654  0.7654  0.2346  1\n  O  O9  1  0.2346  0.2346  0.7654  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSmSbO2SrO3\n_chemical_formula_sum              \"Sr2 O6 Sm1 Sb1\"\n_cell_length_a       6.0123\n_cell_length_b       6.0123\n_cell_length_c       6.0123\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Sm  Sm1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Sb  Sb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7654  0.2346  0.2346  1.0000\n  O   O3        1.0000  0.2346  0.7654  0.7654  1.0000\n  Sr  Sr2       1.0000  0.7654  0.2346  0.7654  1.0000\n  O   O4        1.0000  0.2346  0.7654  0.2346  1.0000\n  O   O5        1.0000  0.7654  0.7654  0.2346  1.0000\n  O   O6        1.0000  0.2346  0.2346  0.7654  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c1bd05eb-11a7-430e-af3a-09e6baf666bf",
    "mp_id": "mp-1521082",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2PrSeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0763\n_cell_length_b   6.0763\n_cell_length_c   6.0763\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2PrSeO6\n_chemical_formula_sum   'Ba2 Pr1 Se1 O6'\n_cell_volume   158.6397\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.2500  0.2500  1\n  Ba  Ba1  1  0.7500  0.7500  0.7500  1\n  Pr  Pr2  1  0.0000  0.0000  0.0000  1\n  Se  Se3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7289  0.2711  0.2711  1\n  O  O5  1  0.2711  0.7289  0.7289  1\n  O  O6  1  0.7289  0.2711  0.7289  1\n  O  O7  1  0.2711  0.7289  0.2711  1\n  O  O8  1  0.7289  0.7289  0.2711  1\n  O  O9  1  0.2711  0.2711  0.7289  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBaPrSeOBaO4\n_chemical_formula_sum              \"O6 Ba2 Pr1 Se1\"\n_cell_length_a       6.0763\n_cell_length_b       6.0763\n_cell_length_c       6.0763\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Ba  Ba1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Pr  Pr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Se  Se1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7289  0.2711  0.2711  1.0000\n  Ba  Ba2       1.0000  0.2711  0.7289  0.7289  1.0000\n  O   O3        1.0000  0.7289  0.2711  0.7289  1.0000\n  O   O4        1.0000  0.2711  0.7289  0.2711  1.0000\n  O   O5        1.0000  0.7289  0.7289  0.2711  1.0000\n  O   O6        1.0000  0.2711  0.2711  0.7289  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7c19b87f-0230-4a2c-8fd7-3c55edbc517d",
    "mp_id": "mp-1521221",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaSrPrZrO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2429\n_cell_length_b   6.2429\n_cell_length_c   6.2429\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaSrPrZrO6\n_chemical_formula_sum   'Ba1 Sr1 Pr1 Zr1 O6'\n_cell_volume   172.0470\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7500  0.7500  0.7500  1\n  Sr  Sr1  1  0.2500  0.2500  0.2500  1\n  Pr  Pr2  1  0.0000  0.0000  -0.0000  1\n  Zr  Zr3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7376  0.2624  0.2624  1\n  O  O5  1  0.2624  0.7376  0.7376  1\n  O  O6  1  0.7376  0.2624  0.7376  1\n  O  O7  1  0.2624  0.7376  0.2624  1\n  O  O8  1  0.7376  0.7376  0.2624  1\n  O  O9  1  0.2624  0.2624  0.7376  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOPrZrOSrO4\n_chemical_formula_sum              \"Ba1 O6 Pr1 Zr1 Sr1\"\n_cell_length_a       6.2429\n_cell_length_b       6.2429\n_cell_length_c       6.2429\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O1        1.0000  0.2500  0.2500  0.2500  1.0000\n  Pr  Pr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Zr  Zr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7376  0.2624  0.2624  1.0000\n  Sr  Sr1       1.0000  0.2624  0.7376  0.7376  1.0000\n  O   O3        1.0000  0.7376  0.2624  0.7376  1.0000\n  O   O4        1.0000  0.2624  0.7376  0.2624  1.0000\n  O   O5        1.0000  0.7376  0.7376  0.2624  1.0000\n  O   O6        1.0000  0.2624  0.2624  0.7376  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "91dde411-45ab-4954-9bfa-2c91b7c3581a",
    "mp_id": "mp-1521309",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2SmVO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8847\n_cell_length_b   5.8847\n_cell_length_c   5.8847\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2SmVO6\n_chemical_formula_sum   'Sr2 Sm1 V1 O6'\n_cell_volume   144.0952\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.2500  0.2500  1\n  Sr  Sr1  1  0.7500  0.7500  0.7500  1\n  Sm  Sm2  1  0.0000  0.0000  0.0000  1\n  V  V3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7283  0.2717  0.2717  1\n  O  O5  1  0.2717  0.7283  0.7283  1\n  O  O6  1  0.7283  0.2717  0.7283  1\n  O  O7  1  0.2717  0.7283  0.2717  1\n  O  O8  1  0.7283  0.7283  0.2717  1\n  O  O9  1  0.2717  0.2717  0.7283  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSmVO2SrO3\n_chemical_formula_sum              \"Sr2 O6 Sm1 V1\"\n_cell_length_a       5.8847\n_cell_length_b       5.8847\n_cell_length_c       5.8847\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.7500  0.7500  0.7500  1.0000\n  Sm  Sm1       1.0000  0.0000  0.0000  0.0000  1.0000\n  V   V1        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7283  0.2717  0.2717  1.0000\n  O   O3        1.0000  0.2717  0.7283  0.7283  1.0000\n  Sr  Sr2       1.0000  0.7283  0.2717  0.7283  1.0000\n  O   O4        1.0000  0.2717  0.7283  0.2717  1.0000\n  O   O5        1.0000  0.7283  0.7283  0.2717  1.0000\n  O   O6        1.0000  0.2717  0.2717  0.7283  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "29e0ef8a-17e7-4b1a-8b80-fed98e315c53",
    "mp_id": "mp-1521702",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KEu(GeO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4313\n_cell_length_b   5.4313\n_cell_length_c   7.6651\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.3090\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KEu(GeO3)4\n_chemical_formula_sum   'K1 Eu1 Ge4 O12'\n_cell_volume   226.0968\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9950  0.9950  0.5000  1\n  Eu  Eu1  1  0.5156  0.5156  -0.0000  1\n  Ge  Ge2  1  0.4944  0.0101  0.7434  1\n  Ge  Ge3  1  0.4944  0.0101  0.2566  1\n  Ge  Ge4  1  0.0101  0.4944  0.2566  1\n  Ge  Ge5  1  0.0101  0.4944  0.7434  1\n  O  O6  1  0.7464  0.2518  0.7792  1\n  O  O7  1  0.2518  0.7464  0.7792  1\n  O  O8  1  0.2518  0.7464  0.2208  1\n  O  O9  1  0.7464  0.2518  0.2208  1\n  O  O10  1  0.7141  0.7141  0.7613  1\n  O  O11  1  0.2706  0.2706  0.7778  1\n  O  O12  1  0.2706  0.2706  0.2222  1\n  O  O13  1  0.7141  0.7141  0.2387  1\n  O  O14  1  0.5154  0.9828  -0.0000  1\n  O  O15  1  0.4914  0.0240  0.5000  1\n  O  O16  1  0.9828  0.5154  -0.0000  1\n  O  O17  1  0.0240  0.4914  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       KEuOGe3O9GeO2\n_chemical_formula_sum              \"K1 Eu1 O12 Ge4\"\n_cell_length_a       5.4313\n_cell_length_b       5.4313\n_cell_length_c       7.6651\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.3090\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9950  0.9950  0.5000  1.0000\n  Eu  Eu1       1.0000  0.5156  0.5156  0.0000  1.0000\n  O   O1        1.0000  0.4944  0.0101  0.7434  1.0000\n  Ge  Ge1       1.0000  0.4944  0.0101  0.2566  1.0000\n  Ge  Ge2       1.0000  0.0101  0.4944  0.2566  1.0000\n  Ge  Ge3       1.0000  0.0101  0.4944  0.7434  1.0000\n  O   O2        1.0000  0.7464  0.2518  0.7792  1.0000\n  O   O3        1.0000  0.2518  0.7464  0.7792  1.0000\n  O   O4        1.0000  0.2518  0.7464  0.2208  1.0000\n  O   O5        1.0000  0.7464  0.2518  0.2208  1.0000\n  O   O6        1.0000  0.7141  0.7141  0.7613  1.0000\n  O   O7        1.0000  0.2706  0.2706  0.7778  1.0000\n  O   O8        1.0000  0.2706  0.2706  0.2222  1.0000\n  O   O9        1.0000  0.7141  0.7141  0.2387  1.0000\n  O   O10       1.0000  0.5154  0.9828  0.0000  1.0000\n  Ge  Ge4       1.0000  0.4914  0.0240  0.5000  1.0000\n  O   O11       1.0000  0.9828  0.5154  0.0000  1.0000\n  O   O12       1.0000  0.0240  0.4914  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4c6573e3-02d1-4c38-b95b-91b370f7d097",
    "mp_id": "mp-1522205",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KSm(NiO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4191\n_cell_length_b   5.4191\n_cell_length_c   7.6348\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.3974\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KSm(NiO3)4\n_chemical_formula_sum   'K1 Sm1 Ni4 O12'\n_cell_volume   224.1991\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0096  0.0096  -0.0000  1\n  Sm  Sm1  1  0.4875  0.4875  0.5000  1\n  Ni  Ni2  1  0.5018  0.9969  0.7533  1\n  Ni  Ni3  1  0.5018  0.9969  0.2467  1\n  Ni  Ni4  1  0.9969  0.5018  0.2467  1\n  Ni  Ni5  1  0.9969  0.5018  0.7533  1\n  O  O6  1  0.7381  0.2608  0.7284  1\n  O  O7  1  0.2608  0.7381  0.7284  1\n  O  O8  1  0.2608  0.7381  0.2716  1\n  O  O9  1  0.7381  0.2608  0.2716  1\n  O  O10  1  0.7242  0.7242  0.7153  1\n  O  O11  1  0.2726  0.2726  0.7454  1\n  O  O12  1  0.2726  0.2726  0.2546  1\n  O  O13  1  0.7242  0.7242  0.2847  1\n  O  O14  1  0.5175  0.9862  -0.0000  1\n  O  O15  1  0.4856  0.0270  0.5000  1\n  O  O16  1  0.9862  0.5175  -0.0000  1\n  O  O17  1  0.0270  0.4856  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       KSmNi3O6NiO6\n_chemical_formula_sum              \"K1 Sm1 Ni4 O12\"\n_cell_length_a       5.4191\n_cell_length_b       5.4191\n_cell_length_c       7.6348\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.3974\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0096  0.0096  0.0000  1.0000\n  Sm  Sm1       1.0000  0.4875  0.4875  0.5000  1.0000\n  Ni  Ni1       1.0000  0.5018  0.9969  0.7533  1.0000\n  Ni  Ni2       1.0000  0.5018  0.9969  0.2467  1.0000\n  Ni  Ni3       1.0000  0.9969  0.5018  0.2467  1.0000\n  O   O1        1.0000  0.9969  0.5018  0.7533  1.0000\n  O   O2        1.0000  0.7381  0.2608  0.7284  1.0000\n  O   O3        1.0000  0.2608  0.7381  0.7284  1.0000\n  O   O4        1.0000  0.2608  0.7381  0.2716  1.0000\n  O   O5        1.0000  0.7381  0.2608  0.2716  1.0000\n  O   O6        1.0000  0.7242  0.7242  0.7153  1.0000\n  Ni  Ni4       1.0000  0.2726  0.2726  0.7454  1.0000\n  O   O7        1.0000  0.2726  0.2726  0.2546  1.0000\n  O   O8        1.0000  0.7242  0.7242  0.2847  1.0000\n  O   O9        1.0000  0.5175  0.9862  0.0000  1.0000\n  O   O10       1.0000  0.4856  0.0270  0.5000  1.0000\n  O   O11       1.0000  0.9862  0.5175  0.0000  1.0000\n  O   O12       1.0000  0.0270  0.4856  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2ce403b6-b2f4-464a-8c27-e4ac610eb59a",
    "mp_id": "mp-1522629",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KGd(FeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6103\n_cell_length_b   5.6875\n_cell_length_c   8.0872\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KGd(FeO3)2\n_chemical_formula_sum   'K2 Gd2 Fe4 O12'\n_cell_volume   258.0482\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5059  0.7299  0.5000  1\n  K  K1  1  0.0059  0.2701  -0.0000  1\n  Gd  Gd2  1  0.4933  0.7781  -0.0000  1\n  Gd  Gd3  1  0.9933  0.2219  0.5000  1\n  Fe  Fe4  1  0.9986  0.7556  0.2519  1\n  Fe  Fe5  1  0.4986  0.2444  0.2481  1\n  Fe  Fe6  1  0.9986  0.7556  0.7481  1\n  Fe  Fe7  1  0.4986  0.2444  0.7519  1\n  O  O8  1  0.4053  0.2544  0.5000  1\n  O  O9  1  0.9053  0.7456  0.0000  1\n  O  O10  1  0.5338  0.2232  -0.0000  1\n  O  O11  1  0.0338  0.7768  0.5000  1\n  O  O12  1  0.2354  0.0208  0.2296  1\n  O  O13  1  0.7354  0.9792  0.2704  1\n  O  O14  1  0.7968  0.4508  0.7034  1\n  O  O15  1  0.2968  0.5492  0.7966  1\n  O  O16  1  0.7968  0.4508  0.2966  1\n  O  O17  1  0.2968  0.5492  0.2034  1\n  O  O18  1  0.2354  0.0208  0.7704  1\n  O  O19  1  0.7354  0.9792  0.7296  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Gd2OFe3O10FeO\n_chemical_formula_sum              \"K2 Gd2 O12 Fe4\"\n_cell_length_a       5.6103\n_cell_length_b       5.6875\n_cell_length_c       8.0872\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5059  0.7299  0.5000  1.0000\n  K   K2        1.0000  0.0059  0.2701  0.0000  1.0000\n  Gd  Gd1       1.0000  0.4933  0.7781  0.0000  1.0000\n  Gd  Gd2       1.0000  0.9933  0.2219  0.5000  1.0000\n  O   O1        1.0000  0.9986  0.7556  0.2519  1.0000\n  Fe  Fe1       1.0000  0.4986  0.2444  0.2481  1.0000\n  Fe  Fe2       1.0000  0.9986  0.7556  0.7481  1.0000\n  Fe  Fe3       1.0000  0.4986  0.2444  0.7519  1.0000\n  O   O2        1.0000  0.4053  0.2544  0.5000  1.0000\n  O   O3        1.0000  0.9053  0.7456  0.0000  1.0000\n  O   O4        1.0000  0.5338  0.2232  0.0000  1.0000\n  O   O5        1.0000  0.0338  0.7768  0.5000  1.0000\n  O   O6        1.0000  0.2354  0.0208  0.2296  1.0000\n  O   O7        1.0000  0.7354  0.9792  0.2704  1.0000\n  O   O8        1.0000  0.7968  0.4508  0.7034  1.0000\n  O   O9        1.0000  0.2968  0.5492  0.7966  1.0000\n  O   O10       1.0000  0.7968  0.4508  0.2966  1.0000\n  O   O11       1.0000  0.2968  0.5492  0.2034  1.0000\n  Fe  Fe4       1.0000  0.2354  0.0208  0.7704  1.0000\n  O   O12       1.0000  0.7354  0.9792  0.7296  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "764bba52-ad50-48d2-bcde-ccee0e2220e5",
    "mp_id": "mp-1522792",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaNaSrMnO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8352\n_cell_length_b   5.8352\n_cell_length_c   5.8352\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaNaSrMnO6\n_chemical_formula_sum   'Ba1 Na1 Sr1 Mn1 O6'\n_cell_volume   140.4954\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7500  0.7500  0.7500  1\n  Na  Na1  1  0.5000  0.5000  0.5000  1\n  Sr  Sr2  1  0.2500  0.2500  0.2500  1\n  Mn  Mn3  1  0.0000  0.0000  -0.0000  1\n  O  O4  1  0.7711  0.2289  0.2289  1\n  O  O5  1  0.2289  0.7711  0.7711  1\n  O  O6  1  0.7711  0.2289  0.7711  1\n  O  O7  1  0.2289  0.7711  0.2289  1\n  O  O8  1  0.7711  0.7711  0.2289  1\n  O  O9  1  0.2289  0.2289  0.7711  1\n",
    "output": "data_image0\n_chemical_formula_structural       BaOSrMnO3NaO2\n_chemical_formula_sum              \"Ba1 O6 Sr1 Mn1 Na1\"\n_cell_length_a       5.8352\n_cell_length_b       5.8352\n_cell_length_c       5.8352\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7711  0.2289  0.2289  1.0000\n  O   O3        1.0000  0.2289  0.7711  0.7711  1.0000\n  O   O4        1.0000  0.7711  0.2289  0.7711  1.0000\n  Na  Na1       1.0000  0.2289  0.7711  0.2289  1.0000\n  O   O5        1.0000  0.7711  0.7711  0.2289  1.0000\n  O   O6        1.0000  0.2289  0.2289  0.7711  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5dac70e0-f2c3-4c03-9689-a9ffada926a6",
    "mp_id": "mp-1523004",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaSrTbSeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7068\n_cell_length_b   5.7068\n_cell_length_c   5.7068\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaSrTbSeO6\n_chemical_formula_sum   'Na1 Sr1 Tb1 Se1 O6'\n_cell_volume   131.4228\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.7500  0.7500  0.7500  1\n  Sr  Sr1  1  0.2500  0.2500  0.2500  1\n  Tb  Tb2  1  0.5000  0.5000  0.5000  1\n  Se  Se3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.7743  0.2257  0.2257  1\n  O  O5  1  0.2257  0.7743  0.7743  1\n  O  O6  1  0.7743  0.2257  0.7743  1\n  O  O7  1  0.2257  0.7743  0.2257  1\n  O  O8  1  0.7743  0.7743  0.2257  1\n  O  O9  1  0.2257  0.2257  0.7743  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaSrTbO2SeO4\n_chemical_formula_sum              \"Na1 Sr1 Tb1 O6 Se1\"\n_cell_length_a       5.7068\n_cell_length_b       5.7068\n_cell_length_c       5.7068\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Tb  Tb1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.7743  0.2257  0.2257  1.0000\n  Se  Se1       1.0000  0.2257  0.7743  0.7743  1.0000\n  O   O3        1.0000  0.7743  0.2257  0.7743  1.0000\n  O   O4        1.0000  0.2257  0.7743  0.2257  1.0000\n  O   O5        1.0000  0.7743  0.7743  0.2257  1.0000\n  O   O6        1.0000  0.2257  0.2257  0.7743  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e14dd72d-3f97-4fd5-a403-ec218cc7f7ba",
    "mp_id": "mp-1523044",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCePrCoO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7503\n_cell_length_b   5.7503\n_cell_length_c   5.7503\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCePrCoO6\n_chemical_formula_sum   'Sr1 Ce1 Pr1 Co1 O6'\n_cell_volume   134.4504\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2500  0.2500  0.2500  1\n  Ce  Ce1  1  0.0000  0.0000  0.0000  1\n  Pr  Pr2  1  0.7500  0.7500  0.7500  1\n  Co  Co3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7325  0.2675  0.2675  1\n  O  O5  1  0.2675  0.7325  0.7325  1\n  O  O6  1  0.7325  0.2675  0.7325  1\n  O  O7  1  0.2675  0.7325  0.2675  1\n  O  O8  1  0.7325  0.7325  0.2675  1\n  O  O9  1  0.2675  0.2675  0.7325  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrCePrO3CoO3\n_chemical_formula_sum              \"Sr1 Ce1 Pr1 O6 Co1\"\n_cell_length_a       5.7503\n_cell_length_b       5.7503\n_cell_length_c       5.7503\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Ce  Ce1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pr  Pr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7325  0.2675  0.2675  1.0000\n  O   O3        1.0000  0.2675  0.7325  0.7325  1.0000\n  Co  Co1       1.0000  0.7325  0.2675  0.7325  1.0000\n  O   O4        1.0000  0.2675  0.7325  0.2675  1.0000\n  O   O5        1.0000  0.7325  0.7325  0.2675  1.0000\n  O   O6        1.0000  0.2675  0.2675  0.7325  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fdb303bb-2bef-4274-87a7-d20cb1149039",
    "mp_id": "mp-1523067",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_EuHfCrSnO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6894\n_cell_length_b   5.6894\n_cell_length_c   5.6894\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   EuHfCrSnO6\n_chemical_formula_sum   'Eu1 Hf1 Cr1 Sn1 O6'\n_cell_volume   130.2207\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.2500  0.2500  0.2500  1\n  Hf  Hf1  1  0.5000  0.5000  0.5000  1\n  Cr  Cr2  1  -0.0000  -0.0000  -0.0000  1\n  Sn  Sn3  1  0.7500  0.7500  0.7500  1\n  O  O4  1  0.7560  0.2440  0.2440  1\n  O  O5  1  0.2440  0.7560  0.7560  1\n  O  O6  1  0.7560  0.2440  0.7560  1\n  O  O7  1  0.2440  0.7560  0.2440  1\n  O  O8  1  0.7560  0.7560  0.2440  1\n  O  O9  1  0.2440  0.2440  0.7560  1\n",
    "output": "data_image0\n_chemical_formula_structural       EuOCrSnO3HfO2\n_chemical_formula_sum              \"Eu1 O6 Cr1 Sn1 Hf1\"\n_cell_length_a       5.6894\n_cell_length_b       5.6894\n_cell_length_c       5.6894\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Sn  Sn1       1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O2        1.0000  0.7560  0.2440  0.2440  1.0000\n  O   O3        1.0000  0.2440  0.7560  0.7560  1.0000\n  O   O4        1.0000  0.7560  0.2440  0.7560  1.0000\n  Hf  Hf1       1.0000  0.2440  0.7560  0.2440  1.0000\n  O   O5        1.0000  0.7560  0.7560  0.2440  1.0000\n  O   O6        1.0000  0.2440  0.2440  0.7560  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e8e00d70-a944-49ba-8170-067b61547eab",
    "mp_id": "mp-1523239",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KEuNb4O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6255\n_cell_length_b   5.6255\n_cell_length_c   7.9911\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.4597\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KEuNb4O12\n_chemical_formula_sum   'K1 Eu1 Nb4 O12'\n_cell_volume   252.8830\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9860  0.0140  0.0000  1\n  Eu  Eu1  1  0.5199  0.4801  0.5000  1\n  Nb  Nb2  1  0.4888  0.0043  0.2484  1\n  Nb  Nb3  1  0.4888  0.0043  0.7516  1\n  Nb  Nb4  1  0.9957  0.5112  0.7516  1\n  Nb  Nb5  1  0.9957  0.5112  0.2484  1\n  O  O6  1  0.2271  0.2245  0.2630  1\n  O  O7  1  0.7755  0.7729  0.2630  1\n  O  O8  1  0.7755  0.7729  0.7370  1\n  O  O9  1  0.2271  0.2245  0.7370  1\n  O  O10  1  0.2903  0.7097  0.2931  1\n  O  O11  1  0.7186  0.2814  0.2378  1\n  O  O12  1  0.7186  0.2814  0.7622  1\n  O  O13  1  0.2903  0.7097  0.7069  1\n  O  O14  1  0.4778  0.9691  0.0000  1\n  O  O15  1  0.5238  0.0418  0.5000  1\n  O  O16  1  0.0309  0.5222  0.0000  1\n  O  O17  1  0.9582  0.4762  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       KEuNbONb3O11\n_chemical_formula_sum              \"K1 Eu1 Nb4 O12\"\n_cell_length_a       5.6255\n_cell_length_b       5.6255\n_cell_length_c       7.9911\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.4597\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9860  0.0140  0.0000  1.0000\n  Eu  Eu1       1.0000  0.5199  0.4801  0.5000  1.0000\n  Nb  Nb1       1.0000  0.4888  0.0043  0.2484  1.0000\n  O   O1        1.0000  0.4888  0.0043  0.7516  1.0000\n  Nb  Nb2       1.0000  0.9957  0.5112  0.7516  1.0000\n  Nb  Nb3       1.0000  0.9957  0.5112  0.2484  1.0000\n  Nb  Nb4       1.0000  0.2271  0.2245  0.2630  1.0000\n  O   O2        1.0000  0.7755  0.7729  0.2630  1.0000\n  O   O3        1.0000  0.7755  0.7729  0.7370  1.0000\n  O   O4        1.0000  0.2271  0.2245  0.7370  1.0000\n  O   O5        1.0000  0.2903  0.7097  0.2931  1.0000\n  O   O6        1.0000  0.7186  0.2814  0.2378  1.0000\n  O   O7        1.0000  0.7186  0.2814  0.7622  1.0000\n  O   O8        1.0000  0.2903  0.7097  0.7069  1.0000\n  O   O9        1.0000  0.4778  0.9691  0.0000  1.0000\n  O   O10       1.0000  0.5238  0.0418  0.5000  1.0000\n  O   O11       1.0000  0.0309  0.5222  0.0000  1.0000\n  O   O12       1.0000  0.9582  0.4762  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "274aad28-050f-42a4-a76f-b98b0a7695b7",
    "mp_id": "mp-15896",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu2SiSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6856\n_cell_length_b   6.6710\n_cell_length_c   6.7444\n_cell_angle_alpha   60.3594\n_cell_angle_beta   80.9871\n_cell_angle_gamma   71.5330\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu2SiSe3\n_chemical_formula_sum   'Cu4 Si2 Se6'\n_cell_volume   247.9727\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.5026  0.2332  0.5096  1\n  Cu  Cu1  1  0.0026  0.7428  0.4904  1\n  Cu  Cu2  1  0.5002  0.5841  0.8260  1\n  Cu  Cu3  1  0.0002  0.4101  0.1740  1\n  Si  Si4  1  0.5243  0.8858  0.1697  1\n  Si  Si5  1  0.0243  0.0555  0.8303  1\n  Se  Se6  1  0.1226  0.6987  0.8305  1\n  Se  Se7  1  0.6226  0.5292  0.1695  1\n  Se  Se8  1  0.6269  0.8671  0.4839  1\n  Se  Se9  1  0.1269  0.3510  0.5161  1\n  Se  Se10  1  0.1449  0.0306  0.1571  1\n  Se  Se11  1  0.6449  0.1877  0.8429  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu3SeSi2CuSe5\n_chemical_formula_sum              \"Cu4 Se6 Si2\"\n_cell_length_a       6.6856\n_cell_length_b       6.6710\n_cell_length_c       6.7444\n_cell_angle_alpha    60.3594\n_cell_angle_beta     80.9871\n_cell_angle_gamma    71.5330\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.5026  0.2332  0.5096  1.0000\n  Cu  Cu2       1.0000  0.0026  0.7428  0.4904  1.0000\n  Cu  Cu3       1.0000  0.5002  0.5841  0.8260  1.0000\n  Se  Se1       1.0000  0.0002  0.4101  0.1740  1.0000\n  Si  Si1       1.0000  0.5243  0.8858  0.1697  1.0000\n  Si  Si2       1.0000  0.0243  0.0555  0.8303  1.0000\n  Cu  Cu4       1.0000  0.1226  0.6987  0.8305  1.0000\n  Se  Se2       1.0000  0.6226  0.5292  0.1695  1.0000\n  Se  Se3       1.0000  0.6269  0.8671  0.4839  1.0000\n  Se  Se4       1.0000  0.1269  0.3510  0.5161  1.0000\n  Se  Se5       1.0000  0.1449  0.0306  0.1571  1.0000\n  Se  Se6       1.0000  0.6449  0.1877  0.8429  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4b4fc329-257f-49d4-874d-a5d0f5d75233",
    "mp_id": "mp-1643677",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn5(Si2O7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8126\n_cell_length_b   8.9715\n_cell_length_c   9.5800\n_cell_angle_alpha   103.6498\n_cell_angle_beta   80.5975\n_cell_angle_gamma   75.9498\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn5(Si2O7)2\n_chemical_formula_sum   'Mn10 Si8 O28'\n_cell_volume   615.3934\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.5124  0.4898  0.4883  1\n  Mn  Mn1  1  0.9871  0.0104  0.0116  1\n  Mn  Mn2  1  0.0065  0.4456  0.6500  1\n  Mn  Mn3  1  0.4749  0.9427  0.1549  1\n  Mn  Mn4  1  0.0250  0.5578  0.3457  1\n  Mn  Mn5  1  0.4941  0.0539  0.8497  1\n  Mn  Mn6  1  0.8837  0.6784  0.9815  1\n  Mn  Mn7  1  0.3863  0.1744  0.4745  1\n  Mn  Mn8  1  0.1143  0.3259  0.0252  1\n  Mn  Mn9  1  0.6155  0.8216  0.5190  1\n  Si  Si10  1  0.5528  0.6699  0.8123  1\n  Si  Si11  1  0.0370  0.1801  0.3331  1\n  Si  Si12  1  0.4633  0.3200  0.1667  1\n  Si  Si13  1  0.9478  0.8297  0.6877  1\n  Si  Si14  1  0.6711  0.5600  0.1799  1\n  Si  Si15  1  0.1612  0.0673  0.6991  1\n  Si  Si16  1  0.3388  0.4331  0.8008  1\n  Si  Si17  1  0.8286  0.9400  0.3204  1\n  O  O18  1  0.4739  0.8623  0.9108  1\n  O  O19  1  0.9787  0.3696  0.4386  1\n  O  O20  1  0.5214  0.1304  0.0614  1\n  O  O21  1  0.0262  0.6376  0.5885  1\n  O  O22  1  0.6072  0.7099  0.1152  1\n  O  O23  1  0.1165  0.2192  0.6303  1\n  O  O24  1  0.3842  0.2806  0.8688  1\n  O  O25  1  0.8899  0.7904  0.3863  1\n  O  O26  1  0.6122  0.4026  0.1013  1\n  O  O27  1  0.0883  0.9207  0.6211  1\n  O  O28  1  0.4118  0.5793  0.8790  1\n  O  O29  1  0.8882  0.0971  0.3985  1\n  O  O30  1  0.7636  0.5818  0.8058  1\n  O  O31  1  0.2468  0.0826  0.3191  1\n  O  O32  1  0.2532  0.4175  0.1809  1\n  O  O33  1  0.7369  0.9181  0.6947  1\n  O  O34  1  0.5864  0.6084  0.3609  1\n  O  O35  1  0.0751  0.1232  0.8794  1\n  O  O36  1  0.4236  0.3787  0.6204  1\n  O  O37  1  0.9133  0.8904  0.1392  1\n  O  O38  1  0.8939  0.5197  0.1430  1\n  O  O39  1  0.3857  0.0071  0.6676  1\n  O  O40  1  0.1143  0.4925  0.8326  1\n  O  O41  1  0.6058  0.9815  0.3570  1\n  O  O42  1  0.0168  0.1785  0.1622  1\n  O  O43  1  0.5354  0.6571  0.6393  1\n  O  O44  1  0.9664  0.8407  0.8603  1\n  O  O45  1  0.4841  0.3221  0.3375  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiMn9Si4MnSi3O28\n_chemical_formula_sum              \"Si8 Mn10 O28\"\n_cell_length_a       7.8126\n_cell_length_b       8.9715\n_cell_length_c       9.5800\n_cell_angle_alpha    103.6498\n_cell_angle_beta     80.5975\n_cell_angle_gamma    75.9498\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.5124  0.4898  0.4883  1.0000\n  Mn  Mn1       1.0000  0.9871  0.0104  0.0116  1.0000\n  Mn  Mn2       1.0000  0.0065  0.4456  0.6500  1.0000\n  Mn  Mn3       1.0000  0.4749  0.9427  0.1549  1.0000\n  Mn  Mn4       1.0000  0.0250  0.5578  0.3457  1.0000\n  Mn  Mn5       1.0000  0.4941  0.0539  0.8497  1.0000\n  Mn  Mn6       1.0000  0.8837  0.6784  0.9815  1.0000\n  Mn  Mn7       1.0000  0.3863  0.1744  0.4745  1.0000\n  Mn  Mn8       1.0000  0.1143  0.3259  0.0252  1.0000\n  Mn  Mn9       1.0000  0.6155  0.8216  0.5190  1.0000\n  Si  Si2       1.0000  0.5528  0.6699  0.8123  1.0000\n  Si  Si3       1.0000  0.0370  0.1801  0.3331  1.0000\n  Si  Si4       1.0000  0.4633  0.3200  0.1667  1.0000\n  Si  Si5       1.0000  0.9478  0.8297  0.6877  1.0000\n  Mn  Mn10      1.0000  0.6711  0.5600  0.1799  1.0000\n  Si  Si6       1.0000  0.1612  0.0673  0.6991  1.0000\n  Si  Si7       1.0000  0.3388  0.4331  0.8008  1.0000\n  Si  Si8       1.0000  0.8286  0.9400  0.3204  1.0000\n  O   O1        1.0000  0.4739  0.8623  0.9108  1.0000\n  O   O2        1.0000  0.9787  0.3696  0.4386  1.0000\n  O   O3        1.0000  0.5214  0.1304  0.0614  1.0000\n  O   O4        1.0000  0.0262  0.6376  0.5885  1.0000\n  O   O5        1.0000  0.6072  0.7099  0.1152  1.0000\n  O   O6        1.0000  0.1165  0.2192  0.6303  1.0000\n  O   O7        1.0000  0.3842  0.2806  0.8688  1.0000\n  O   O8        1.0000  0.8899  0.7904  0.3863  1.0000\n  O   O9        1.0000  0.6122  0.4026  0.1013  1.0000\n  O   O10       1.0000  0.0883  0.9207  0.6211  1.0000\n  O   O11       1.0000  0.4118  0.5793  0.8790  1.0000\n  O   O12       1.0000  0.8882  0.0971  0.3985  1.0000\n  O   O13       1.0000  0.7636  0.5818  0.8058  1.0000\n  O   O14       1.0000  0.2468  0.0826  0.3191  1.0000\n  O   O15       1.0000  0.2532  0.4175  0.1809  1.0000\n  O   O16       1.0000  0.7369  0.9181  0.6947  1.0000\n  O   O17       1.0000  0.5864  0.6084  0.3609  1.0000\n  O   O18       1.0000  0.0751  0.1232  0.8794  1.0000\n  O   O19       1.0000  0.4236  0.3787  0.6204  1.0000\n  O   O20       1.0000  0.9133  0.8904  0.1392  1.0000\n  O   O21       1.0000  0.8939  0.5197  0.1430  1.0000\n  O   O22       1.0000  0.3857  0.0071  0.6676  1.0000\n  O   O23       1.0000  0.1143  0.4925  0.8326  1.0000\n  O   O24       1.0000  0.6058  0.9815  0.3570  1.0000\n  O   O25       1.0000  0.0168  0.1785  0.1622  1.0000\n  O   O26       1.0000  0.5354  0.6571  0.6393  1.0000\n  O   O27       1.0000  0.9664  0.8406  0.8603  1.0000\n  O   O28       1.0000  0.4841  0.3221  0.3375  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b8e05438-be33-4b56-9c9e-13746f99f389",
    "mp_id": "mp-1645697",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4TiCo5O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9756\n_cell_length_b   20.0437\n_cell_length_c   4.9493\n_cell_angle_alpha   94.3754\n_cell_angle_beta   119.6915\n_cell_angle_gamma   93.7550\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4TiCo5O12\n_chemical_formula_sum   'Li8 Ti2 Co10 O24'\n_cell_volume   424.4795\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5820  0.3730  0.2386  1\n  Li  Li1  1  0.5723  0.8742  0.2290  1\n  Li  Li2  1  0.7632  0.1273  0.4163  1\n  Li  Li3  1  0.7725  0.6261  0.4347  1\n  Li  Li4  1  0.2229  0.3698  0.5796  1\n  Li  Li5  1  0.2245  0.8709  0.5763  1\n  Li  Li6  1  0.4182  0.1298  0.7667  1\n  Li  Li7  1  0.4178  0.6287  0.7748  1\n  Ti  Ti8  1  0.9946  0.0005  0.0037  1\n  Ti  Ti9  1  0.9921  0.4996  0.0061  1\n  Co  Co10  1  0.8341  0.7499  0.1686  1\n  Co  Co11  1  0.1582  0.2498  0.8373  1\n  Co  Co12  1  0.1620  0.7501  0.8344  1\n  Co  Co13  1  0.6786  0.0006  0.3265  1\n  Co  Co14  1  0.6761  0.4997  0.3278  1\n  Co  Co15  1  0.4912  0.2499  0.5028  1\n  Co  Co16  1  0.4944  0.7501  0.5035  1\n  Co  Co17  1  0.8235  0.2499  0.1693  1\n  Co  Co18  1  0.3448  0.0004  0.6604  1\n  Co  Co19  1  0.3429  0.4996  0.6623  1\n  O  O20  1  0.2029  0.2996  0.2185  1\n  O  O21  1  0.2003  0.7996  0.2047  1\n  O  O22  1  0.7786  0.2000  0.7885  1\n  O  O23  1  0.7945  0.7008  0.7983  1\n  O  O24  1  0.3849  0.0526  0.3691  1\n  O  O25  1  0.3841  0.5519  0.3712  1\n  O  O26  1  0.6358  0.4471  0.6186  1\n  O  O27  1  0.6380  0.9477  0.6168  1\n  O  O28  1  0.7256  0.0585  0.0515  1\n  O  O29  1  0.7249  0.5581  0.0544  1\n  O  O30  1  0.9519  0.4420  0.2790  1\n  O  O31  1  0.9545  0.9428  0.2786  1\n  O  O32  1  0.0402  0.0514  0.6833  1\n  O  O33  1  0.0382  0.5502  0.6855  1\n  O  O34  1  0.3197  0.4490  0.9632  1\n  O  O35  1  0.3219  0.9498  0.9623  1\n  O  O36  1  0.4752  0.1980  0.1297  1\n  O  O37  1  0.4698  0.7002  0.1315  1\n  O  O38  1  0.1198  0.1983  0.4851  1\n  O  O39  1  0.1353  0.6939  0.5063  1\n  O  O40  1  0.8624  0.3014  0.5217  1\n  O  O41  1  0.8763  0.8016  0.5294  1\n  O  O42  1  0.5055  0.3018  0.8761  1\n  O  O43  1  0.4943  0.8041  0.8576  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OTi2Co10O20LiO3\n_chemical_formula_sum              \"Li8 O24 Ti2 Co10\"\n_cell_length_a       4.9756\n_cell_length_b       20.0437\n_cell_length_c       4.9493\n_cell_angle_alpha    94.3754\n_cell_angle_beta     119.6915\n_cell_angle_gamma    93.7550\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5820  0.3730  0.2386  1.0000\n  Li  Li2       1.0000  0.5723  0.8742  0.2290  1.0000\n  Li  Li3       1.0000  0.7632  0.1273  0.4163  1.0000\n  Li  Li4       1.0000  0.7725  0.6261  0.4347  1.0000\n  Li  Li5       1.0000  0.2229  0.3698  0.5796  1.0000\n  Li  Li6       1.0000  0.2245  0.8709  0.5763  1.0000\n  Li  Li7       1.0000  0.4182  0.1298  0.7667  1.0000\n  O   O1        1.0000  0.4178  0.6287  0.7748  1.0000\n  Ti  Ti1       1.0000  0.9946  0.0005  0.0037  1.0000\n  Ti  Ti2       1.0000  0.9921  0.4996  0.0061  1.0000\n  Co  Co1       1.0000  0.8341  0.7499  0.1686  1.0000\n  Co  Co2       1.0000  0.1582  0.2498  0.8373  1.0000\n  Co  Co3       1.0000  0.1620  0.7501  0.8344  1.0000\n  Co  Co4       1.0000  0.6786  0.0006  0.3265  1.0000\n  Co  Co5       1.0000  0.6761  0.4997  0.3278  1.0000\n  Co  Co6       1.0000  0.4912  0.2499  0.5028  1.0000\n  Co  Co7       1.0000  0.4944  0.7501  0.5035  1.0000\n  Co  Co8       1.0000  0.8235  0.2499  0.1693  1.0000\n  Co  Co9       1.0000  0.3448  0.0004  0.6604  1.0000\n  Co  Co10      1.0000  0.3429  0.4996  0.6623  1.0000\n  O   O2        1.0000  0.2029  0.2996  0.2185  1.0000\n  O   O3        1.0000  0.2003  0.7996  0.2047  1.0000\n  O   O4        1.0000  0.7786  0.2000  0.7885  1.0000\n  O   O5        1.0000  0.7945  0.7008  0.7983  1.0000\n  O   O6        1.0000  0.3849  0.0526  0.3691  1.0000\n  O   O7        1.0000  0.3841  0.5519  0.3712  1.0000\n  O   O8        1.0000  0.6358  0.4471  0.6186  1.0000\n  O   O9        1.0000  0.6380  0.9477  0.6168  1.0000\n  O   O10       1.0000  0.7256  0.0585  0.0515  1.0000\n  O   O11       1.0000  0.7249  0.5581  0.0544  1.0000\n  O   O12       1.0000  0.9519  0.4420  0.2790  1.0000\n  O   O13       1.0000  0.9545  0.9428  0.2786  1.0000\n  O   O14       1.0000  0.0402  0.0514  0.6833  1.0000\n  O   O15       1.0000  0.0382  0.5502  0.6855  1.0000\n  O   O16       1.0000  0.3197  0.4490  0.9632  1.0000\n  O   O17       1.0000  0.3219  0.9498  0.9623  1.0000\n  O   O18       1.0000  0.4752  0.1980  0.1297  1.0000\n  O   O19       1.0000  0.4698  0.7002  0.1315  1.0000\n  O   O20       1.0000  0.1198  0.1983  0.4851  1.0000\n  O   O21       1.0000  0.1353  0.6939  0.5063  1.0000\n  Li  Li8       1.0000  0.8624  0.3014  0.5217  1.0000\n  O   O22       1.0000  0.8763  0.8016  0.5294  1.0000\n  O   O23       1.0000  0.5055  0.3018  0.8761  1.0000\n  O   O24       1.0000  0.4943  0.8041  0.8576  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "080432db-7bc8-49b9-8921-686cbcb46a3b",
    "mp_id": "mp-1661789",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMnCO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3776\n_cell_length_b   9.1845\n_cell_length_c   9.6131\n_cell_angle_alpha   90.0003\n_cell_angle_beta   98.2526\n_cell_angle_gamma   89.9998\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMnCO4\n_chemical_formula_sum   'Li4 Mn4 C4 O16'\n_cell_volume   295.1266\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2027  0.3201  0.9118  1\n  Li  Li1  1  0.2027  0.1799  0.4118  1\n  Li  Li2  1  0.7973  0.8201  0.5882  1\n  Li  Li3  1  0.7973  0.6799  0.0882  1\n  Mn  Mn4  1  0.2243  0.5645  0.3896  1\n  Mn  Mn5  1  0.7757  0.0645  0.1104  1\n  Mn  Mn6  1  0.2243  0.9355  0.8896  1\n  Mn  Mn7  1  0.7757  0.4355  0.6104  1\n  C  C8  1  0.2071  0.6320  0.8422  1\n  C  C9  1  0.2070  0.8680  0.3422  1\n  C  C10  1  0.7929  0.1320  0.6578  1\n  C  C11  1  0.7930  0.3680  0.1578  1\n  O  O12  1  0.1874  0.5090  0.7716  1\n  O  O13  1  0.1874  0.9910  0.2716  1\n  O  O14  1  0.8126  0.0090  0.7285  1\n  O  O15  1  0.8126  0.4910  0.2284  1\n  O  O16  1  0.2712  0.1105  0.9965  1\n  O  O17  1  0.2712  0.3895  0.4965  1\n  O  O18  1  0.7288  0.6105  0.5035  1\n  O  O19  1  0.7288  0.8895  0.0035  1\n  O  O20  1  0.1900  0.7550  0.7710  1\n  O  O21  1  0.1900  0.7450  0.2710  1\n  O  O22  1  0.8100  0.2550  0.7290  1\n  O  O23  1  0.8100  0.2450  0.2290  1\n  O  O24  1  0.2479  0.6320  0.9749  1\n  O  O25  1  0.2479  0.8680  0.4749  1\n  O  O26  1  0.7521  0.1320  0.5251  1\n  O  O27  1  0.7522  0.3680  0.0251  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Mn2OMnC4O5MnO10\n_chemical_formula_sum              \"Li4 Mn4 O16 C4\"\n_cell_length_a       3.3776\n_cell_length_b       9.1845\n_cell_length_c       9.6131\n_cell_angle_alpha    90.0003\n_cell_angle_beta     98.2526\n_cell_angle_gamma    89.9998\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2027  0.3201  0.9118  1.0000\n  Li  Li2       1.0000  0.2027  0.1799  0.4118  1.0000\n  Li  Li3       1.0000  0.7973  0.8201  0.5882  1.0000\n  Li  Li4       1.0000  0.7973  0.6799  0.0882  1.0000\n  Mn  Mn1       1.0000  0.2243  0.5645  0.3896  1.0000\n  Mn  Mn2       1.0000  0.7757  0.0645  0.1104  1.0000\n  O   O1        1.0000  0.2243  0.9355  0.8896  1.0000\n  Mn  Mn3       1.0000  0.7757  0.4355  0.6104  1.0000\n  C   C1        1.0000  0.2071  0.6320  0.8422  1.0000\n  C   C2        1.0000  0.2070  0.8680  0.3422  1.0000\n  C   C3        1.0000  0.7929  0.1320  0.6578  1.0000\n  C   C4        1.0000  0.7930  0.3680  0.1578  1.0000\n  O   O2        1.0000  0.1874  0.5090  0.7716  1.0000\n  O   O3        1.0000  0.1874  0.9910  0.2716  1.0000\n  O   O4        1.0000  0.8126  0.0090  0.7284  1.0000\n  O   O5        1.0000  0.8126  0.4910  0.2284  1.0000\n  O   O6        1.0000  0.2712  0.1105  0.9965  1.0000\n  Mn  Mn4       1.0000  0.2712  0.3895  0.4965  1.0000\n  O   O7        1.0000  0.7288  0.6105  0.5035  1.0000\n  O   O8        1.0000  0.7288  0.8895  0.0035  1.0000\n  O   O9        1.0000  0.1900  0.7550  0.7710  1.0000\n  O   O10       1.0000  0.1900  0.7450  0.2710  1.0000\n  O   O11       1.0000  0.8100  0.2550  0.7290  1.0000\n  O   O12       1.0000  0.8100  0.2450  0.2290  1.0000\n  O   O13       1.0000  0.2479  0.6320  0.9749  1.0000\n  O   O14       1.0000  0.2479  0.8680  0.4749  1.0000\n  O   O15       1.0000  0.7521  0.1320  0.5251  1.0000\n  O   O16       1.0000  0.7522  0.3680  0.0251  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "945780fb-04f2-408f-9baf-af2a5216c7af",
    "mp_id": "mp-1661936",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg2V3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9158\n_cell_length_b   5.9159\n_cell_length_c   9.5056\n_cell_angle_alpha   90.0017\n_cell_angle_beta   89.9978\n_cell_angle_gamma   120.0004\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg2V3O8\n_chemical_formula_sum   'Mg4 V6 O16'\n_cell_volume   288.0998\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6667  0.3333  0.0222  1\n  Mg  Mg1  1  0.3333  0.6667  0.5223  1\n  Mg  Mg2  1  0.6667  0.3333  0.4215  1\n  Mg  Mg3  1  0.3334  0.6667  0.9215  1\n  V  V4  1  0.8377  0.1638  0.7444  1\n  V  V5  1  0.8362  0.6738  0.7444  1\n  V  V6  1  0.3262  0.1623  0.7444  1\n  V  V7  1  0.6737  0.8365  0.2442  1\n  V  V8  1  0.1627  0.3263  0.2442  1\n  V  V9  1  0.1635  0.8373  0.2442  1\n  O  O10  1  1.0000  0.0000  0.3531  1\n  O  O11  1  0.0000  0.0000  0.8534  1\n  O  O12  1  0.3333  0.6667  0.1318  1\n  O  O13  1  0.6667  0.3333  0.6319  1\n  O  O14  1  0.8516  0.1781  0.1456  1\n  O  O15  1  0.6734  0.8220  0.6459  1\n  O  O16  1  0.1486  0.3266  0.6459  1\n  O  O17  1  0.8218  0.6734  0.1456  1\n  O  O18  1  0.3265  0.1484  0.1456  1\n  O  O19  1  0.1780  0.8514  0.6459  1\n  O  O20  1  0.5056  0.4684  0.8650  1\n  O  O21  1  0.0372  0.5317  0.3648  1\n  O  O22  1  0.4944  0.9628  0.3648  1\n  O  O23  1  0.5316  0.0372  0.8650  1\n  O  O24  1  0.9628  0.4944  0.8650  1\n  O  O25  1  0.4683  0.5056  0.3648  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg3OV6O14MgO\n_chemical_formula_sum              \"Mg4 O16 V6\"\n_cell_length_a       5.9158\n_cell_length_b       5.9159\n_cell_length_c       9.5056\n_cell_angle_alpha    90.0017\n_cell_angle_beta     89.9978\n_cell_angle_gamma    120.0004\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6667  0.3333  0.0222  1.0000\n  Mg  Mg2       1.0000  0.3333  0.6667  0.5223  1.0000\n  Mg  Mg3       1.0000  0.6667  0.3333  0.4215  1.0000\n  O   O1        1.0000  0.3334  0.6667  0.9215  1.0000\n  V   V1        1.0000  0.8377  0.1638  0.7444  1.0000\n  V   V2        1.0000  0.8362  0.6738  0.7444  1.0000\n  V   V3        1.0000  0.3262  0.1623  0.7444  1.0000\n  V   V4        1.0000  0.6737  0.8365  0.2442  1.0000\n  V   V5        1.0000  0.1627  0.3263  0.2442  1.0000\n  V   V6        1.0000  0.1635  0.8373  0.2442  1.0000\n  O   O2        1.0000  1.0000  0.0000  0.3531  1.0000\n  O   O3        1.0000  0.0000  0.0000  0.8534  1.0000\n  O   O4        1.0000  0.3333  0.6667  0.1318  1.0000\n  O   O5        1.0000  0.6667  0.3333  0.6319  1.0000\n  O   O6        1.0000  0.8516  0.1781  0.1456  1.0000\n  O   O7        1.0000  0.6734  0.8220  0.6459  1.0000\n  O   O8        1.0000  0.1486  0.3266  0.6459  1.0000\n  O   O9        1.0000  0.8218  0.6734  0.1456  1.0000\n  O   O10       1.0000  0.3265  0.1484  0.1456  1.0000\n  O   O11       1.0000  0.1780  0.8514  0.6459  1.0000\n  O   O12       1.0000  0.5056  0.4684  0.8650  1.0000\n  O   O13       1.0000  0.0372  0.5317  0.3648  1.0000\n  O   O14       1.0000  0.4944  0.9628  0.3648  1.0000\n  O   O15       1.0000  0.5316  0.0372  0.8650  1.0000\n  Mg  Mg4       1.0000  0.9628  0.4944  0.8650  1.0000\n  O   O16       1.0000  0.4683  0.5056  0.3648  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2dc617ba-0134-443b-829b-109fb0eb30cb",
    "mp_id": "mp-1662795",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Ti2Fe3Sb3O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2734\n_cell_length_b   10.6651\n_cell_length_c   9.8256\n_cell_angle_alpha   89.7187\n_cell_angle_beta   91.4250\n_cell_angle_gamma   90.9513\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Ti2Fe3Sb3O16\n_chemical_formula_sum   'Li8 Ti4 Fe6 Sb6 O32'\n_cell_volume   657.0863\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5041  0.1640  0.8992  1\n  Li  Li1  1  0.0154  0.6598  0.8953  1\n  Li  Li2  1  0.9838  0.0124  0.9851  1\n  Li  Li3  1  0.4829  0.5035  0.9826  1\n  Li  Li4  1  0.0020  0.0020  0.5045  1\n  Li  Li5  1  0.5049  0.5032  0.5016  1\n  Li  Li6  1  0.4762  0.8386  0.4010  1\n  Li  Li7  1  0.9815  0.3311  0.4028  1\n  Ti  Ti8  1  0.5212  0.1548  0.4997  1\n  Ti  Ti9  1  0.0215  0.6544  0.5028  1\n  Ti  Ti10  1  0.5542  0.8179  0.9676  1\n  Ti  Ti11  1  0.0418  0.3296  0.9736  1\n  Fe  Fe12  1  0.2370  0.5899  0.2086  1\n  Fe  Fe13  1  0.7593  0.9098  0.7081  1\n  Fe  Fe14  1  0.2557  0.4062  0.7071  1\n  Fe  Fe15  1  0.7296  0.0855  0.2140  1\n  Fe  Fe16  1  0.5147  0.6639  0.7102  1\n  Fe  Fe17  1  0.0148  0.1658  0.7133  1\n  Sb  Sb18  1  0.2695  0.9085  0.7174  1\n  Sb  Sb19  1  0.7654  0.4071  0.7143  1\n  Sb  Sb20  1  0.4944  0.3354  0.2228  1\n  Sb  Sb21  1  0.9896  0.8375  0.2171  1\n  Sb  Sb22  1  0.2381  0.0905  0.2208  1\n  Sb  Sb23  1  0.7436  0.5931  0.2140  1\n  O  O24  1  0.2474  0.2295  0.3567  1\n  O  O25  1  0.7617  0.7542  0.3304  1\n  O  O26  1  0.4708  0.1575  0.1037  1\n  O  O27  1  0.9757  0.6800  0.1032  1\n  O  O28  1  0.9914  0.0010  0.3180  1\n  O  O29  1  0.5033  0.5293  0.3201  1\n  O  O30  1  0.0217  0.9912  0.8018  1\n  O  O31  1  0.5211  0.4930  0.7972  1\n  O  O32  1  0.2102  0.9288  0.1080  1\n  O  O33  1  0.7356  0.4387  0.1010  1\n  O  O34  1  0.7411  0.0789  0.5814  1\n  O  O35  1  0.2434  0.5789  0.5780  1\n  O  O36  1  0.4990  0.8300  0.6081  1\n  O  O37  1  0.9917  0.3294  0.6044  1\n  O  O38  1  0.7422  0.7548  0.8569  1\n  O  O39  1  0.2320  0.2619  0.8595  1\n  O  O40  1  0.5254  0.3256  0.5921  1\n  O  O41  1  0.0325  0.8229  0.5958  1\n  O  O42  1  0.2757  0.0673  0.6000  1\n  O  O43  1  0.7780  0.5723  0.5931  1\n  O  O44  1  0.7034  0.2367  0.3508  1\n  O  O45  1  0.1961  0.7500  0.3407  1\n  O  O46  1  0.4688  0.0205  0.3447  1\n  O  O47  1  0.9727  0.5305  0.3428  1\n  O  O48  1  0.4994  0.9736  0.8505  1\n  O  O49  1  0.9937  0.4781  0.8392  1\n  O  O50  1  0.2907  0.7616  0.8498  1\n  O  O51  1  0.7809  0.2635  0.8492  1\n  O  O52  1  0.7566  0.9155  0.0930  1\n  O  O53  1  0.2162  0.4374  0.0737  1\n  O  O54  1  0.5119  0.6726  0.0893  1\n  O  O55  1  0.0084  0.1709  0.0993  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOLi6Ti4Fe6Sb6LiO31\n_chemical_formula_sum              \"Li8 O32 Ti4 Fe6 Sb6\"\n_cell_length_a       6.2734\n_cell_length_b       10.6651\n_cell_length_c       9.8256\n_cell_angle_alpha    89.7187\n_cell_angle_beta     91.4250\n_cell_angle_gamma    90.9513\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5041  0.1640  0.8992  1.0000\n  O   O1        1.0000  0.0154  0.6598  0.8953  1.0000\n  Li  Li2       1.0000  0.9838  0.0124  0.9851  1.0000\n  Li  Li3       1.0000  0.4829  0.5035  0.9826  1.0000\n  Li  Li4       1.0000  0.0020  0.0020  0.5045  1.0000\n  Li  Li5       1.0000  0.5049  0.5032  0.5016  1.0000\n  Li  Li6       1.0000  0.4762  0.8386  0.4010  1.0000\n  Li  Li7       1.0000  0.9815  0.3311  0.4028  1.0000\n  Ti  Ti1       1.0000  0.5212  0.1548  0.4997  1.0000\n  Ti  Ti2       1.0000  0.0215  0.6544  0.5028  1.0000\n  Ti  Ti3       1.0000  0.5542  0.8179  0.9676  1.0000\n  Ti  Ti4       1.0000  0.0418  0.3296  0.9736  1.0000\n  Fe  Fe1       1.0000  0.2370  0.5899  0.2086  1.0000\n  Fe  Fe2       1.0000  0.7593  0.9098  0.7081  1.0000\n  Fe  Fe3       1.0000  0.2557  0.4062  0.7071  1.0000\n  Fe  Fe4       1.0000  0.7296  0.0855  0.2140  1.0000\n  Fe  Fe5       1.0000  0.5147  0.6639  0.7102  1.0000\n  Fe  Fe6       1.0000  0.0148  0.1658  0.7133  1.0000\n  Sb  Sb1       1.0000  0.2695  0.9085  0.7174  1.0000\n  Sb  Sb2       1.0000  0.7654  0.4071  0.7143  1.0000\n  Sb  Sb3       1.0000  0.4944  0.3354  0.2228  1.0000\n  Sb  Sb4       1.0000  0.9896  0.8375  0.2171  1.0000\n  Sb  Sb5       1.0000  0.2381  0.0905  0.2208  1.0000\n  Sb  Sb6       1.0000  0.7436  0.5931  0.2140  1.0000\n  Li  Li8       1.0000  0.2474  0.2295  0.3567  1.0000\n  O   O2        1.0000  0.7617  0.7542  0.3304  1.0000\n  O   O3        1.0000  0.4708  0.1575  0.1037  1.0000\n  O   O4        1.0000  0.9757  0.6800  0.1032  1.0000\n  O   O5        1.0000  0.9914  0.0010  0.3180  1.0000\n  O   O6        1.0000  0.5033  0.5293  0.3201  1.0000\n  O   O7        1.0000  0.0217  0.9912  0.8018  1.0000\n  O   O8        1.0000  0.5211  0.4930  0.7972  1.0000\n  O   O9        1.0000  0.2102  0.9288  0.1080  1.0000\n  O   O10       1.0000  0.7356  0.4387  0.1010  1.0000\n  O   O11       1.0000  0.7411  0.0789  0.5814  1.0000\n  O   O12       1.0000  0.2434  0.5789  0.5780  1.0000\n  O   O13       1.0000  0.4990  0.8300  0.6081  1.0000\n  O   O14       1.0000  0.9917  0.3294  0.6044  1.0000\n  O   O15       1.0000  0.7422  0.7548  0.8569  1.0000\n  O   O16       1.0000  0.2320  0.2619  0.8595  1.0000\n  O   O17       1.0000  0.5254  0.3256  0.5921  1.0000\n  O   O18       1.0000  0.0325  0.8229  0.5958  1.0000\n  O   O19       1.0000  0.2757  0.0673  0.6000  1.0000\n  O   O20       1.0000  0.7780  0.5723  0.5931  1.0000\n  O   O21       1.0000  0.7034  0.2367  0.3508  1.0000\n  O   O22       1.0000  0.1961  0.7500  0.3407  1.0000\n  O   O23       1.0000  0.4688  0.0205  0.3447  1.0000\n  O   O24       1.0000  0.9727  0.5305  0.3428  1.0000\n  O   O25       1.0000  0.4994  0.9736  0.8505  1.0000\n  O   O26       1.0000  0.9937  0.4781  0.8392  1.0000\n  O   O27       1.0000  0.2907  0.7616  0.8498  1.0000\n  O   O28       1.0000  0.7809  0.2635  0.8492  1.0000\n  O   O29       1.0000  0.7566  0.9155  0.0930  1.0000\n  O   O30       1.0000  0.2162  0.4374  0.0737  1.0000\n  O   O31       1.0000  0.5119  0.6726  0.0893  1.0000\n  O   O32       1.0000  0.0084  0.1709  0.0993  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e05eb13e-33a8-4e17-9325-5694c82ccbdf",
    "mp_id": "mp-1666930",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Cr2Co3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0762\n_cell_length_b   7.8044\n_cell_length_c   10.1599\n_cell_angle_alpha   109.3086\n_cell_angle_beta   99.4559\n_cell_angle_gamma   70.6573\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Cr2Co3O10\n_chemical_formula_sum   'Li10 Cr4 Co6 O20'\n_cell_volume   357.7441\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0062  0.5042  0.2501  1\n  Li  Li1  1  0.9990  0.5023  0.7511  1\n  Li  Li2  1  0.5015  0.4171  0.1050  1\n  Li  Li3  1  0.4957  0.4140  0.6025  1\n  Li  Li4  1  0.4907  0.5885  0.3923  1\n  Li  Li5  1  0.5002  0.5859  0.8994  1\n  Li  Li6  1  0.5117  0.7823  0.2034  1\n  Li  Li7  1  0.5140  0.7876  0.6983  1\n  Li  Li8  1  0.4924  0.2125  0.3023  1\n  Li  Li9  1  0.4848  0.2131  0.7981  1\n  Cr  Cr10  1  0.0053  0.6946  0.0553  1\n  Cr  Cr11  1  0.9999  0.6963  0.5471  1\n  Cr  Cr12  1  0.9993  0.3031  0.4498  1\n  Cr  Cr13  1  0.0007  0.3039  0.9493  1\n  Co  Co14  1  0.4997  0.9987  0.4974  1\n  Co  Co15  1  0.5021  0.9983  0.0009  1\n  Co  Co16  1  0.9993  0.8988  0.3504  1\n  Co  Co17  1  0.0095  0.8886  0.8454  1\n  Co  Co18  1  0.9935  0.1097  0.1566  1\n  Co  Co19  1  0.9873  0.1144  0.6554  1\n  O  O20  1  0.2333  0.8594  0.0268  1\n  O  O21  1  0.2322  0.8665  0.5176  1\n  O  O22  1  0.7570  0.1326  0.4728  1\n  O  O23  1  0.7711  0.1378  0.9728  1\n  O  O24  1  0.7709  0.9459  0.1790  1\n  O  O25  1  0.7504  0.9479  0.6614  1\n  O  O26  1  0.2378  0.0440  0.3352  1\n  O  O27  1  0.2404  0.0507  0.8280  1\n  O  O28  1  0.7708  0.5445  0.0701  1\n  O  O29  1  0.7674  0.5484  0.5673  1\n  O  O30  1  0.2320  0.4501  0.4301  1\n  O  O31  1  0.2323  0.4528  0.9307  1\n  O  O32  1  0.2600  0.2298  0.1122  1\n  O  O33  1  0.2521  0.2295  0.6101  1\n  O  O34  1  0.7573  0.7731  0.3849  1\n  O  O35  1  0.7443  0.7688  0.8903  1\n  O  O36  1  0.2293  0.6675  0.2298  1\n  O  O37  1  0.2254  0.6691  0.7254  1\n  O  O38  1  0.7741  0.3318  0.2724  1\n  O  O39  1  0.7690  0.3358  0.7730  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li10CrOCr2Co6O13CrO6\n_chemical_formula_sum              \"Li10 Cr4 O20 Co6\"\n_cell_length_a       5.0762\n_cell_length_b       7.8044\n_cell_length_c       10.1599\n_cell_angle_alpha    109.3086\n_cell_angle_beta     99.4559\n_cell_angle_gamma    70.6573\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0062  0.5042  0.2501  1.0000\n  Li  Li2       1.0000  0.9990  0.5023  0.7511  1.0000\n  Li  Li3       1.0000  0.5015  0.4171  0.1050  1.0000\n  Li  Li4       1.0000  0.4957  0.4140  0.6025  1.0000\n  Li  Li5       1.0000  0.4907  0.5885  0.3923  1.0000\n  Li  Li6       1.0000  0.5002  0.5859  0.8994  1.0000\n  Li  Li7       1.0000  0.5117  0.7823  0.2034  1.0000\n  Li  Li8       1.0000  0.5140  0.7876  0.6983  1.0000\n  Li  Li9       1.0000  0.4924  0.2125  0.3023  1.0000\n  Li  Li10      1.0000  0.4848  0.2131  0.7981  1.0000\n  Cr  Cr1       1.0000  0.0053  0.6946  0.0553  1.0000\n  O   O1        1.0000  0.9999  0.6963  0.5471  1.0000\n  Cr  Cr2       1.0000  0.9993  0.3031  0.4498  1.0000\n  Cr  Cr3       1.0000  0.0007  0.3039  0.9493  1.0000\n  Co  Co1       1.0000  0.4997  0.9987  0.4974  1.0000\n  Co  Co2       1.0000  0.5021  0.9983  0.0009  1.0000\n  Co  Co3       1.0000  0.9993  0.8988  0.3504  1.0000\n  Co  Co4       1.0000  0.0095  0.8886  0.8454  1.0000\n  Co  Co5       1.0000  0.9935  0.1097  0.1566  1.0000\n  Co  Co6       1.0000  0.9873  0.1144  0.6554  1.0000\n  O   O2        1.0000  0.2333  0.8594  0.0268  1.0000\n  O   O3        1.0000  0.2322  0.8665  0.5176  1.0000\n  O   O4        1.0000  0.7570  0.1326  0.4728  1.0000\n  O   O5        1.0000  0.7711  0.1378  0.9728  1.0000\n  O   O6        1.0000  0.7709  0.9459  0.1790  1.0000\n  O   O7        1.0000  0.7504  0.9479  0.6614  1.0000\n  O   O8        1.0000  0.2378  0.0440  0.3352  1.0000\n  O   O9        1.0000  0.2404  0.0507  0.8280  1.0000\n  O   O10       1.0000  0.7708  0.5445  0.0701  1.0000\n  O   O11       1.0000  0.7674  0.5484  0.5673  1.0000\n  O   O12       1.0000  0.2320  0.4501  0.4301  1.0000\n  O   O13       1.0000  0.2323  0.4528  0.9307  1.0000\n  O   O14       1.0000  0.2600  0.2298  0.1122  1.0000\n  Cr  Cr4       1.0000  0.2521  0.2295  0.6101  1.0000\n  O   O15       1.0000  0.7573  0.7731  0.3849  1.0000\n  O   O16       1.0000  0.7443  0.7688  0.8903  1.0000\n  O   O17       1.0000  0.2293  0.6675  0.2298  1.0000\n  O   O18       1.0000  0.2254  0.6691  0.7254  1.0000\n  O   O19       1.0000  0.7741  0.3318  0.2724  1.0000\n  O   O20       1.0000  0.7690  0.3358  0.7730  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ff4e1fe6-8e6d-4595-a441-d9f35d448470",
    "mp_id": "mp-17024",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2NbN3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7158\n_cell_length_b   6.7158\n_cell_length_c   13.3569\n_cell_angle_alpha   89.3250\n_cell_angle_beta   89.3250\n_cell_angle_gamma   124.8547\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2NbN3\n_chemical_formula_sum   'Ba8 Nb4 N12'\n_cell_volume   494.1925\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0476  0.4444  0.1428  1\n  Ba  Ba1  1  0.4444  0.0476  0.6428  1\n  Ba  Ba2  1  0.9524  0.5556  0.8572  1\n  Ba  Ba3  1  0.5556  0.9524  0.3572  1\n  Ba  Ba4  1  0.1285  0.3556  0.5770  1\n  Ba  Ba5  1  0.6444  0.8715  0.9230  1\n  Ba  Ba6  1  0.8715  0.6444  0.4230  1\n  Ba  Ba7  1  0.3556  0.1285  0.0770  1\n  Nb  Nb8  1  0.2587  0.2639  0.3342  1\n  Nb  Nb9  1  0.7413  0.7361  0.6658  1\n  Nb  Nb10  1  0.7361  0.7413  0.1658  1\n  Nb  Nb11  1  0.2639  0.2587  0.8342  1\n  N  N12  1  0.1336  0.3126  0.9512  1\n  N  N13  1  0.6874  0.8664  0.5488  1\n  N  N14  1  0.8664  0.6874  0.0488  1\n  N  N15  1  0.3126  0.1336  0.4512  1\n  N  N16  1  0.9948  0.0052  0.7500  1\n  N  N17  1  0.0052  0.9948  0.2500  1\n  N  N18  1  0.4343  0.5657  0.7500  1\n  N  N19  1  0.5287  0.8439  0.1290  1\n  N  N20  1  0.8439  0.5287  0.6290  1\n  N  N21  1  0.4713  0.1561  0.8710  1\n  N  N22  1  0.1561  0.4713  0.3710  1\n  N  N23  1  0.5657  0.4343  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba7NNb4BaN11\n_chemical_formula_sum              \"Ba8 N12 Nb4\"\n_cell_length_a       6.7158\n_cell_length_b       6.7158\n_cell_length_c       13.3569\n_cell_angle_alpha    89.3250\n_cell_angle_beta     89.3250\n_cell_angle_gamma    124.8547\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0476  0.4444  0.1428  1.0000\n  Ba  Ba2       1.0000  0.4444  0.0476  0.6428  1.0000\n  Ba  Ba3       1.0000  0.9524  0.5556  0.8572  1.0000\n  Ba  Ba4       1.0000  0.5556  0.9524  0.3572  1.0000\n  Ba  Ba5       1.0000  0.1285  0.3556  0.5770  1.0000\n  Ba  Ba6       1.0000  0.6444  0.8715  0.9230  1.0000\n  Ba  Ba7       1.0000  0.8715  0.6444  0.4230  1.0000\n  N   N1        1.0000  0.3556  0.1285  0.0770  1.0000\n  Nb  Nb1       1.0000  0.2587  0.2639  0.3342  1.0000\n  Nb  Nb2       1.0000  0.7413  0.7361  0.6658  1.0000\n  Nb  Nb3       1.0000  0.7361  0.7413  0.1658  1.0000\n  Nb  Nb4       1.0000  0.2639  0.2587  0.8342  1.0000\n  Ba  Ba8       1.0000  0.1336  0.3126  0.9512  1.0000\n  N   N2        1.0000  0.6874  0.8664  0.5488  1.0000\n  N   N3        1.0000  0.8664  0.6874  0.0488  1.0000\n  N   N4        1.0000  0.3126  0.1336  0.4512  1.0000\n  N   N5        1.0000  0.9948  0.0052  0.7500  1.0000\n  N   N6        1.0000  0.0052  0.9948  0.2500  1.0000\n  N   N7        1.0000  0.4343  0.5657  0.7500  1.0000\n  N   N8        1.0000  0.5287  0.8439  0.1290  1.0000\n  N   N9        1.0000  0.8439  0.5287  0.6290  1.0000\n  N   N10       1.0000  0.4713  0.1561  0.8710  1.0000\n  N   N11       1.0000  0.1561  0.4713  0.3710  1.0000\n  N   N12       1.0000  0.5657  0.4343  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d0562a6d-5f30-4fda-8747-232ee30b51d3",
    "mp_id": "mp-17282",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrTh2Se5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9526\n_cell_length_b   8.7874\n_cell_length_c   12.6553\n_cell_angle_alpha   90.0280\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrTh2Se5\n_chemical_formula_sum   'Sr4 Th8 Se20'\n_cell_volume   884.3924\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.9659  0.5056  0.8258  1\n  Sr  Sr1  1  0.4659  0.4944  0.6742  1\n  Sr  Sr2  1  0.0341  0.4944  0.1742  1\n  Sr  Sr3  1  0.5341  0.5056  0.3258  1\n  Th  Th4  1  0.5738  0.2518  0.0083  1\n  Th  Th5  1  0.9262  0.2518  0.5083  1\n  Th  Th6  1  0.4262  0.7482  0.9917  1\n  Th  Th7  1  0.0738  0.7482  0.4917  1\n  Th  Th8  1  0.5178  0.0021  0.3205  1\n  Th  Th9  1  0.0178  0.9979  0.1795  1\n  Th  Th10  1  0.4822  0.9979  0.6795  1\n  Th  Th11  1  0.9822  0.0021  0.8205  1\n  Se  Se12  1  0.8396  0.9575  0.6014  1\n  Se  Se13  1  0.8283  0.7750  0.3149  1\n  Se  Se14  1  0.6717  0.7750  0.8149  1\n  Se  Se15  1  0.1717  0.2250  0.6851  1\n  Se  Se16  1  0.5429  0.2218  0.5017  1\n  Se  Se17  1  0.0429  0.7782  0.9983  1\n  Se  Se18  1  0.4571  0.7782  0.4983  1\n  Se  Se19  1  0.9571  0.2218  0.0017  1\n  Se  Se20  1  0.1973  0.7644  0.7167  1\n  Se  Se21  1  0.6973  0.2356  0.7833  1\n  Se  Se22  1  0.8027  0.2356  0.2833  1\n  Se  Se23  1  0.6604  0.9575  0.1014  1\n  Se  Se24  1  0.8284  0.5409  0.5892  1\n  Se  Se25  1  0.3284  0.4591  0.9108  1\n  Se  Se26  1  0.1716  0.4591  0.4108  1\n  Se  Se27  1  0.6716  0.5409  0.0892  1\n  Se  Se28  1  0.3027  0.7644  0.2167  1\n  Se  Se29  1  0.3396  0.0425  0.8986  1\n  Se  Se30  1  0.1604  0.0425  0.3986  1\n  Se  Se31  1  0.3283  0.2250  0.1851  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr4SeTh7Se9ThSe10\n_chemical_formula_sum              \"Sr4 Se20 Th8\"\n_cell_length_a       7.9526\n_cell_length_b       8.7874\n_cell_length_c       12.6553\n_cell_angle_alpha    90.0280\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.9659  0.5056  0.8258  1.0000\n  Sr  Sr2       1.0000  0.4659  0.4944  0.6742  1.0000\n  Sr  Sr3       1.0000  0.0341  0.4944  0.1742  1.0000\n  Sr  Sr4       1.0000  0.5341  0.5056  0.3258  1.0000\n  Se  Se1       1.0000  0.5738  0.2518  0.0083  1.0000\n  Th  Th1       1.0000  0.9262  0.2518  0.5083  1.0000\n  Th  Th2       1.0000  0.4262  0.7482  0.9917  1.0000\n  Th  Th3       1.0000  0.0738  0.7482  0.4917  1.0000\n  Th  Th4       1.0000  0.5178  0.0021  0.3205  1.0000\n  Th  Th5       1.0000  0.0178  0.9979  0.1795  1.0000\n  Th  Th6       1.0000  0.4822  0.9979  0.6795  1.0000\n  Th  Th7       1.0000  0.9822  0.0021  0.8205  1.0000\n  Se  Se2       1.0000  0.8396  0.9575  0.6014  1.0000\n  Se  Se3       1.0000  0.8283  0.7750  0.3149  1.0000\n  Se  Se4       1.0000  0.6717  0.7750  0.8149  1.0000\n  Se  Se5       1.0000  0.1717  0.2250  0.6851  1.0000\n  Se  Se6       1.0000  0.5429  0.2218  0.5017  1.0000\n  Se  Se7       1.0000  0.0429  0.7782  0.9983  1.0000\n  Se  Se8       1.0000  0.4571  0.7782  0.4983  1.0000\n  Se  Se9       1.0000  0.9571  0.2218  0.0017  1.0000\n  Se  Se10      1.0000  0.1973  0.7644  0.7167  1.0000\n  Th  Th8       1.0000  0.6973  0.2356  0.7833  1.0000\n  Se  Se11      1.0000  0.8027  0.2356  0.2833  1.0000\n  Se  Se12      1.0000  0.6604  0.9575  0.1014  1.0000\n  Se  Se13      1.0000  0.8284  0.5409  0.5892  1.0000\n  Se  Se14      1.0000  0.3284  0.4591  0.9108  1.0000\n  Se  Se15      1.0000  0.1716  0.4591  0.4108  1.0000\n  Se  Se16      1.0000  0.6716  0.5409  0.0892  1.0000\n  Se  Se17      1.0000  0.3027  0.7644  0.2167  1.0000\n  Se  Se18      1.0000  0.3396  0.0425  0.8986  1.0000\n  Se  Se19      1.0000  0.1604  0.0425  0.3986  1.0000\n  Se  Se20      1.0000  0.3283  0.2250  0.1851  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5a698cad-f8a2-4523-b7f9-961a031cf697",
    "mp_id": "mp-17344",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbEr2Cu3S5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2294\n_cell_length_b   7.2294\n_cell_length_c   16.4334\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   148.4308\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbEr2Cu3S5\n_chemical_formula_sum   'Rb2 Er4 Cu6 S10'\n_cell_volume   449.6486\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5655  0.4345  0.7500  1\n  Rb  Rb1  1  0.4345  0.5655  0.2500  1\n  Er  Er2  1  0.3079  0.6921  0.5929  1\n  Er  Er3  1  0.6921  0.3079  0.4071  1\n  Er  Er4  1  0.3079  0.6921  0.9071  1\n  Er  Er5  1  0.6921  0.3079  0.0929  1\n  Cu  Cu6  1  0.0840  0.9160  0.9634  1\n  Cu  Cu7  1  0.9160  0.0840  0.0366  1\n  Cu  Cu8  1  0.9160  0.0840  0.4634  1\n  Cu  Cu9  1  0.8453  0.1547  0.7500  1\n  Cu  Cu10  1  0.1547  0.8453  0.2500  1\n  Cu  Cu11  1  0.0840  0.9160  0.5366  1\n  S  S12  1  0.6683  0.3317  0.5694  1\n  S  S13  1  0.3317  0.6683  0.4306  1\n  S  S14  1  0.3317  0.6683  0.0694  1\n  S  S15  1  0.6683  0.3317  0.9306  1\n  S  S16  1  0.7382  0.2618  0.2500  1\n  S  S17  1  0.2618  0.7382  0.7500  1\n  S  S18  1  0.0619  0.9381  0.1133  1\n  S  S19  1  0.0619  0.9381  0.3867  1\n  S  S20  1  0.9381  0.0619  0.8867  1\n  S  S21  1  0.9381  0.0619  0.6133  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2Er4Cu4SCuS9Cu\n_chemical_formula_sum              \"Rb2 Er4 Cu6 S10\"\n_cell_length_a       7.2294\n_cell_length_b       7.2294\n_cell_length_c       16.4334\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    148.4308\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5655  0.4345  0.7500  1.0000\n  Rb  Rb2       1.0000  0.4345  0.5655  0.2500  1.0000\n  Er  Er1       1.0000  0.3079  0.6921  0.5929  1.0000\n  Er  Er2       1.0000  0.6921  0.3079  0.4071  1.0000\n  Er  Er3       1.0000  0.3079  0.6921  0.9071  1.0000\n  Er  Er4       1.0000  0.6921  0.3079  0.0929  1.0000\n  Cu  Cu1       1.0000  0.0840  0.9160  0.9634  1.0000\n  Cu  Cu2       1.0000  0.9160  0.0840  0.0366  1.0000\n  Cu  Cu3       1.0000  0.9160  0.0840  0.4634  1.0000\n  Cu  Cu4       1.0000  0.8453  0.1547  0.7500  1.0000\n  S   S1        1.0000  0.1547  0.8453  0.2500  1.0000\n  Cu  Cu5       1.0000  0.0840  0.9160  0.5366  1.0000\n  S   S2        1.0000  0.6683  0.3317  0.5694  1.0000\n  S   S3        1.0000  0.3317  0.6683  0.4306  1.0000\n  S   S4        1.0000  0.3317  0.6683  0.0694  1.0000\n  S   S5        1.0000  0.6683  0.3317  0.9306  1.0000\n  S   S6        1.0000  0.7382  0.2618  0.2500  1.0000\n  S   S7        1.0000  0.2618  0.7382  0.7500  1.0000\n  S   S8        1.0000  0.0619  0.9381  0.1133  1.0000\n  S   S9        1.0000  0.0619  0.9381  0.3867  1.0000\n  S   S10       1.0000  0.9381  0.0619  0.8867  1.0000\n  Cu  Cu6       1.0000  0.9381  0.0619  0.6133  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5a7b6e5d-acf5-4b8c-9e7a-6e444dce89b4",
    "mp_id": "mp-17676",
    "action_prompt": "Swap the spatial positions of atoms at indices 29 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2SnS3F2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0142\n_cell_length_b   6.0347\n_cell_length_c   19.0946\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2SnS3F2\n_chemical_formula_sum   'Sr8 Sn4 S12 F8'\n_cell_volume   693.0164\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2469  0.4977  0.0737  1\n  Sr  Sr1  1  0.7469  0.0023  0.4263  1\n  Sr  Sr2  1  0.2531  0.9977  0.9263  1\n  Sr  Sr3  1  0.7531  0.5023  0.5737  1\n  Sr  Sr4  1  0.2469  0.4977  0.4263  1\n  Sr  Sr5  1  0.7469  0.0023  0.0737  1\n  Sr  Sr6  1  0.2531  0.9977  0.5737  1\n  Sr  Sr7  1  0.7531  0.5023  0.9263  1\n  Sn  Sn8  1  0.8430  0.4256  0.2500  1\n  Sn  Sn9  1  0.3430  0.0744  0.2500  1\n  Sn  Sn10  1  0.6570  0.9256  0.7500  1\n  Sn  Sn11  1  0.1570  0.5744  0.7500  1\n  S  S12  1  0.7435  0.5139  0.3669  1\n  S  S13  1  0.2435  0.9861  0.1331  1\n  S  S14  1  0.7565  0.0139  0.6331  1\n  S  S15  1  0.2565  0.4861  0.8669  1\n  S  S16  1  0.2513  0.4764  0.2500  1\n  S  S17  1  0.7513  0.0236  0.2500  1\n  S  S18  1  0.2487  0.9764  0.7500  1\n  S  S19  1  0.7487  0.5236  0.7500  1\n  S  S20  1  0.7435  0.5139  0.1331  1\n  S  S21  1  0.2435  0.9861  0.3669  1\n  S  S22  1  0.7565  0.0139  0.8669  1\n  S  S23  1  0.2565  0.4861  0.6331  1\n  F  F24  1  0.5009  0.7477  0.4998  1\n  F  F25  1  0.0009  0.7523  0.0002  1\n  F  F26  1  0.9991  0.2477  0.5002  1\n  F  F27  1  0.4991  0.2523  0.9998  1\n  F  F28  1  0.4991  0.2523  0.5002  1\n  F  F29  1  0.9991  0.2477  0.9998  1\n  F  F30  1  0.0009  0.7523  0.4998  1\n  F  F31  1  0.5009  0.7477  0.0002  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr8Sn3FS12F5SnF2\n_chemical_formula_sum              \"Sr8 Sn4 F8 S12\"\n_cell_length_a       6.0142\n_cell_length_b       6.0347\n_cell_length_c       19.0946\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2469  0.4977  0.0737  1.0000\n  Sr  Sr2       1.0000  0.7469  0.0023  0.4263  1.0000\n  Sr  Sr3       1.0000  0.2531  0.9977  0.9263  1.0000\n  Sr  Sr4       1.0000  0.7531  0.5023  0.5737  1.0000\n  Sr  Sr5       1.0000  0.2469  0.4977  0.4263  1.0000\n  Sr  Sr6       1.0000  0.7469  0.0023  0.0737  1.0000\n  Sr  Sr7       1.0000  0.2531  0.9977  0.5737  1.0000\n  Sr  Sr8       1.0000  0.7531  0.5023  0.9263  1.0000\n  Sn  Sn1       1.0000  0.8430  0.4256  0.2500  1.0000\n  Sn  Sn2       1.0000  0.3430  0.0744  0.2500  1.0000\n  Sn  Sn3       1.0000  0.6570  0.9256  0.7500  1.0000\n  F   F1        1.0000  0.1570  0.5744  0.7500  1.0000\n  S   S1        1.0000  0.7435  0.5139  0.3669  1.0000\n  S   S2        1.0000  0.2435  0.9861  0.1331  1.0000\n  S   S3        1.0000  0.7565  0.0139  0.6331  1.0000\n  S   S4        1.0000  0.2565  0.4861  0.8669  1.0000\n  S   S5        1.0000  0.2513  0.4764  0.2500  1.0000\n  S   S6        1.0000  0.7513  0.0236  0.2500  1.0000\n  S   S7        1.0000  0.2487  0.9764  0.7500  1.0000\n  S   S8        1.0000  0.7487  0.5236  0.7500  1.0000\n  S   S9        1.0000  0.7435  0.5139  0.1331  1.0000\n  S   S10       1.0000  0.2435  0.9861  0.3669  1.0000\n  S   S11       1.0000  0.7565  0.0139  0.8669  1.0000\n  S   S12       1.0000  0.2565  0.4861  0.6331  1.0000\n  F   F2        1.0000  0.5009  0.7477  0.4998  1.0000\n  F   F3        1.0000  0.0009  0.7523  0.0002  1.0000\n  F   F4        1.0000  0.9991  0.2477  0.5002  1.0000\n  F   F5        1.0000  0.4991  0.2523  0.9998  1.0000\n  F   F6        1.0000  0.4991  0.2523  0.5002  1.0000\n  Sn  Sn4       1.0000  0.9991  0.2477  0.9998  1.0000\n  F   F7        1.0000  0.0009  0.7523  0.4998  1.0000\n  F   F8        1.0000  0.5009  0.7477  0.0002  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2e32a4fb-6110-4c34-a623-cb50557301fa",
    "mp_id": "mp-17770",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsPr(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1736\n_cell_length_b   8.8178\n_cell_length_c   9.2268\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   99.4569\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsPr(PO3)4\n_chemical_formula_sum   'Cs2 Pr2 P8 O24'\n_cell_volume   575.7145\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.6702  0.1746  0.3321  1\n  Cs  Cs1  1  0.3298  0.8254  0.8321  1\n  Pr  Pr2  1  0.7984  0.6976  0.4956  1\n  Pr  Pr3  1  0.2016  0.3024  0.9956  1\n  P  P4  1  0.6455  0.5436  0.8692  1\n  P  P5  1  0.3545  0.4564  0.3692  1\n  P  P6  1  0.0602  0.3742  0.6041  1\n  P  P7  1  0.9398  0.6258  0.1041  1\n  P  P8  1  0.3065  0.7731  0.4230  1\n  P  P9  1  0.6935  0.2269  0.9230  1\n  P  P10  1  0.0838  0.9297  0.2216  1\n  P  P11  1  0.9162  0.0703  0.7216  1\n  O  O12  1  0.8477  0.5941  0.2469  1\n  O  O13  1  0.1523  0.4059  0.7469  1\n  O  O14  1  0.2097  0.3618  0.4797  1\n  O  O15  1  0.7903  0.6382  0.9797  1\n  O  O16  1  0.2750  0.6122  0.3388  1\n  O  O17  1  0.7250  0.3878  0.8388  1\n  O  O18  1  0.5399  0.4906  0.4428  1\n  O  O19  1  0.4601  0.5094  0.9428  1\n  O  O20  1  0.5074  0.8168  0.4667  1\n  O  O21  1  0.4926  0.1832  0.9667  1\n  O  O22  1  0.0451  0.8015  0.0980  1\n  O  O23  1  0.9549  0.1985  0.5980  1\n  O  O24  1  0.0746  0.0896  0.8269  1\n  O  O25  1  0.9254  0.9104  0.3269  1\n  O  O26  1  0.1426  0.0778  0.1490  1\n  O  O27  1  0.8574  0.9222  0.6490  1\n  O  O28  1  0.9233  0.4693  0.5505  1\n  O  O29  1  0.0767  0.5307  0.0505  1\n  O  O30  1  0.7271  0.1126  0.7953  1\n  O  O31  1  0.2729  0.8874  0.2953  1\n  O  O32  1  0.3406  0.3673  0.2332  1\n  O  O33  1  0.6594  0.6327  0.7332  1\n  O  O34  1  0.8448  0.2322  0.0334  1\n  O  O35  1  0.1552  0.7678  0.5334  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2Pr2OP7O22PO\n_chemical_formula_sum              \"Cs2 Pr2 O24 P8\"\n_cell_length_a       7.1736\n_cell_length_b       8.8178\n_cell_length_c       9.2268\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    99.4569\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.6702  0.1746  0.3321  1.0000\n  Cs  Cs2       1.0000  0.3298  0.8254  0.8321  1.0000\n  Pr  Pr1       1.0000  0.7984  0.6976  0.4956  1.0000\n  Pr  Pr2       1.0000  0.2016  0.3024  0.9956  1.0000\n  O   O1        1.0000  0.6455  0.5436  0.8692  1.0000\n  P   P1        1.0000  0.3545  0.4564  0.3692  1.0000\n  P   P2        1.0000  0.0602  0.3742  0.6041  1.0000\n  P   P3        1.0000  0.9398  0.6258  0.1041  1.0000\n  P   P4        1.0000  0.3065  0.7731  0.4230  1.0000\n  P   P5        1.0000  0.6935  0.2269  0.9230  1.0000\n  P   P6        1.0000  0.0838  0.9297  0.2216  1.0000\n  P   P7        1.0000  0.9162  0.0703  0.7216  1.0000\n  O   O2        1.0000  0.8477  0.5941  0.2469  1.0000\n  O   O3        1.0000  0.1523  0.4059  0.7469  1.0000\n  O   O4        1.0000  0.2097  0.3618  0.4797  1.0000\n  O   O5        1.0000  0.7903  0.6382  0.9797  1.0000\n  O   O6        1.0000  0.2750  0.6122  0.3388  1.0000\n  O   O7        1.0000  0.7250  0.3878  0.8388  1.0000\n  O   O8        1.0000  0.5399  0.4906  0.4428  1.0000\n  O   O9        1.0000  0.4601  0.5094  0.9428  1.0000\n  O   O10       1.0000  0.5074  0.8168  0.4667  1.0000\n  O   O11       1.0000  0.4926  0.1832  0.9667  1.0000\n  O   O12       1.0000  0.0451  0.8015  0.0980  1.0000\n  O   O13       1.0000  0.9549  0.1985  0.5980  1.0000\n  O   O14       1.0000  0.0746  0.0896  0.8269  1.0000\n  O   O15       1.0000  0.9254  0.9104  0.3269  1.0000\n  O   O16       1.0000  0.1426  0.0778  0.1490  1.0000\n  O   O17       1.0000  0.8574  0.9222  0.6490  1.0000\n  O   O18       1.0000  0.9233  0.4693  0.5505  1.0000\n  O   O19       1.0000  0.0767  0.5307  0.0505  1.0000\n  O   O20       1.0000  0.7271  0.1126  0.7953  1.0000\n  O   O21       1.0000  0.2729  0.8874  0.2953  1.0000\n  O   O22       1.0000  0.3406  0.3673  0.2332  1.0000\n  O   O23       1.0000  0.6594  0.6327  0.7332  1.0000\n  P   P8        1.0000  0.8448  0.2322  0.0334  1.0000\n  O   O24       1.0000  0.1552  0.7678  0.5334  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7aee93ea-b86e-45ba-809c-1b8edfd23a06",
    "mp_id": "mp-17838",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KTb3F10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1852\n_cell_length_b   8.1851\n_cell_length_c   8.1851\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0004\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KTb3F10\n_chemical_formula_sum   'K2 Tb6 F20'\n_cell_volume   387.7626\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2500  0.2500  0.2500  1\n  K  K1  1  0.7500  0.7500  0.7500  1\n  Tb  Tb2  1  0.7601  0.7601  0.2399  1\n  Tb  Tb3  1  0.7601  0.2399  0.2399  1\n  Tb  Tb4  1  0.2399  0.7601  0.7601  1\n  Tb  Tb5  1  0.2399  0.7601  0.2399  1\n  Tb  Tb6  1  0.2399  0.2399  0.7601  1\n  Tb  Tb7  1  0.7601  0.2399  0.7601  1\n  F  F8  1  0.8878  0.8879  0.8879  1\n  F  F9  1  0.6634  0.1122  0.1122  1\n  F  F10  1  0.1122  0.1121  0.6636  1\n  F  F11  1  0.1122  0.6636  0.1121  1\n  F  F12  1  0.8878  0.8879  0.3364  1\n  F  F13  1  0.8878  0.3364  0.8879  1\n  F  F14  1  0.3366  0.8878  0.8878  1\n  F  F15  1  0.1122  0.1121  0.1121  1\n  F  F16  1  0.5000  0.1678  0.5000  1\n  F  F17  1  0.1680  0.4999  0.4999  1\n  F  F18  1  0.5000  0.1678  0.8321  1\n  F  F19  1  0.8320  0.5001  0.1679  1\n  F  F20  1  0.1680  0.4999  0.8321  1\n  F  F21  1  0.5000  0.5000  0.1679  1\n  F  F22  1  0.8320  0.1679  0.5001  1\n  F  F23  1  0.5000  0.8322  0.1679  1\n  F  F24  1  0.5000  0.5000  0.8321  1\n  F  F25  1  0.1680  0.8321  0.4999  1\n  F  F26  1  0.8320  0.5001  0.5001  1\n  F  F27  1  0.5000  0.8322  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Tb4FTbF8TbF11\n_chemical_formula_sum              \"K2 Tb6 F20\"\n_cell_length_a       8.1852\n_cell_length_b       8.1851\n_cell_length_c       8.1851\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0004\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2500  0.2500  0.2500  1.0000\n  K   K2        1.0000  0.7500  0.7500  0.7500  1.0000\n  Tb  Tb1       1.0000  0.7601  0.7601  0.2399  1.0000\n  Tb  Tb2       1.0000  0.7601  0.2399  0.2399  1.0000\n  Tb  Tb3       1.0000  0.2399  0.7601  0.7601  1.0000\n  Tb  Tb4       1.0000  0.2399  0.7601  0.2399  1.0000\n  F   F1        1.0000  0.2399  0.2399  0.7601  1.0000\n  Tb  Tb5       1.0000  0.7601  0.2399  0.7601  1.0000\n  F   F2        1.0000  0.8878  0.8879  0.8879  1.0000\n  F   F3        1.0000  0.6634  0.1122  0.1122  1.0000\n  F   F4        1.0000  0.1122  0.1121  0.6636  1.0000\n  F   F5        1.0000  0.1122  0.6636  0.1121  1.0000\n  F   F6        1.0000  0.8878  0.8879  0.3364  1.0000\n  F   F7        1.0000  0.8878  0.3364  0.8879  1.0000\n  F   F8        1.0000  0.3366  0.8878  0.8878  1.0000\n  F   F9        1.0000  0.1122  0.1121  0.1121  1.0000\n  Tb  Tb6       1.0000  0.5000  0.1678  0.5000  1.0000\n  F   F10       1.0000  0.1680  0.4999  0.4999  1.0000\n  F   F11       1.0000  0.5000  0.1678  0.8321  1.0000\n  F   F12       1.0000  0.8320  0.5001  0.1679  1.0000\n  F   F13       1.0000  0.1680  0.4999  0.8321  1.0000\n  F   F14       1.0000  0.5000  0.5000  0.1679  1.0000\n  F   F15       1.0000  0.8320  0.1679  0.5001  1.0000\n  F   F16       1.0000  0.5000  0.8322  0.1679  1.0000\n  F   F17       1.0000  0.5000  0.5000  0.8321  1.0000\n  F   F18       1.0000  0.1680  0.8321  0.4999  1.0000\n  F   F19       1.0000  0.8320  0.5001  0.5001  1.0000\n  F   F20       1.0000  0.5000  0.8322  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b1ec8bd5-8042-47b8-91af-95f606c33fc7",
    "mp_id": "mp-17861",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tm3Sb\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0957\n_cell_length_b   12.1682\n_cell_length_c   12.1684\n_cell_angle_alpha   90.0003\n_cell_angle_beta   89.9992\n_cell_angle_gamma   89.9994\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tm3Sb\n_chemical_formula_sum   'Tm24 Sb8'\n_cell_volume   902.5701\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tm  Tm0  1  0.2667  0.4242  0.5356  1\n  Tm  Tm1  1  0.7667  0.4644  0.9242  1\n  Tm  Tm2  1  0.7667  0.0356  0.5758  1\n  Tm  Tm3  1  0.2667  0.0758  0.9644  1\n  Tm  Tm4  1  0.7333  0.5758  0.4644  1\n  Tm  Tm5  1  0.2333  0.5356  0.0758  1\n  Tm  Tm6  1  0.2333  0.9644  0.4242  1\n  Tm  Tm7  1  0.7333  0.9242  0.0356  1\n  Tm  Tm8  1  0.9628  0.3952  0.2812  1\n  Tm  Tm9  1  0.4628  0.7188  0.8952  1\n  Tm  Tm10  1  0.4628  0.7812  0.6048  1\n  Tm  Tm11  1  0.9628  0.1048  0.2188  1\n  Tm  Tm12  1  0.0372  0.6048  0.7188  1\n  Tm  Tm13  1  0.5372  0.2812  0.1048  1\n  Tm  Tm14  1  0.5372  0.2188  0.3952  1\n  Tm  Tm15  1  0.0372  0.8952  0.7812  1\n  Tm  Tm16  1  0.7876  0.1668  0.8587  1\n  Tm  Tm17  1  0.2876  0.1413  0.6668  1\n  Tm  Tm18  1  0.2876  0.3587  0.8332  1\n  Tm  Tm19  1  0.7876  0.3332  0.6413  1\n  Tm  Tm20  1  0.2124  0.8332  0.1413  1\n  Tm  Tm21  1  0.7124  0.8587  0.3332  1\n  Tm  Tm22  1  0.7124  0.6413  0.1668  1\n  Tm  Tm23  1  0.2124  0.6668  0.3587  1\n  Sb  Sb24  1  0.0407  0.2929  0.0505  1\n  Sb  Sb25  1  0.5407  0.9494  0.7929  1\n  Sb  Sb26  1  0.5407  0.5505  0.7071  1\n  Sb  Sb27  1  0.0407  0.2071  0.4494  1\n  Sb  Sb28  1  0.9593  0.7071  0.9495  1\n  Sb  Sb29  1  0.4593  0.0506  0.2071  1\n  Sb  Sb30  1  0.4593  0.4495  0.2929  1\n  Sb  Sb31  1  0.9593  0.7929  0.5506  1\n",
    "output": "data_image0\n_chemical_formula_structural       SbTm23Sb5TmSb2\n_chemical_formula_sum              \"Sb8 Tm24\"\n_cell_length_a       6.0957\n_cell_length_b       12.1682\n_cell_length_c       12.1684\n_cell_angle_alpha    90.0003\n_cell_angle_beta     89.9992\n_cell_angle_gamma    89.9994\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sb  Sb1       1.0000  0.2667  0.4242  0.5356  1.0000\n  Tm  Tm1       1.0000  0.7667  0.4644  0.9242  1.0000\n  Tm  Tm2       1.0000  0.7667  0.0356  0.5758  1.0000\n  Tm  Tm3       1.0000  0.2667  0.0758  0.9644  1.0000\n  Tm  Tm4       1.0000  0.7333  0.5758  0.4644  1.0000\n  Tm  Tm5       1.0000  0.2333  0.5356  0.0758  1.0000\n  Tm  Tm6       1.0000  0.2333  0.9644  0.4242  1.0000\n  Tm  Tm7       1.0000  0.7333  0.9242  0.0356  1.0000\n  Tm  Tm8       1.0000  0.9628  0.3952  0.2812  1.0000\n  Tm  Tm9       1.0000  0.4628  0.7188  0.8952  1.0000\n  Tm  Tm10      1.0000  0.4628  0.7812  0.6048  1.0000\n  Tm  Tm11      1.0000  0.9628  0.1048  0.2188  1.0000\n  Tm  Tm12      1.0000  0.0372  0.6048  0.7188  1.0000\n  Tm  Tm13      1.0000  0.5372  0.2812  0.1048  1.0000\n  Tm  Tm14      1.0000  0.5372  0.2188  0.3952  1.0000\n  Tm  Tm15      1.0000  0.0372  0.8952  0.7812  1.0000\n  Tm  Tm16      1.0000  0.7876  0.1668  0.8587  1.0000\n  Tm  Tm17      1.0000  0.2876  0.1413  0.6668  1.0000\n  Tm  Tm18      1.0000  0.2876  0.3587  0.8332  1.0000\n  Tm  Tm19      1.0000  0.7876  0.3332  0.6413  1.0000\n  Tm  Tm20      1.0000  0.2124  0.8332  0.1413  1.0000\n  Tm  Tm21      1.0000  0.7124  0.8587  0.3332  1.0000\n  Tm  Tm22      1.0000  0.7124  0.6413  0.1668  1.0000\n  Tm  Tm23      1.0000  0.2124  0.6668  0.3587  1.0000\n  Sb  Sb2       1.0000  0.0407  0.2929  0.0505  1.0000\n  Sb  Sb3       1.0000  0.5407  0.9494  0.7929  1.0000\n  Sb  Sb4       1.0000  0.5407  0.5505  0.7071  1.0000\n  Sb  Sb5       1.0000  0.0407  0.2071  0.4494  1.0000\n  Sb  Sb6       1.0000  0.9593  0.7071  0.9495  1.0000\n  Tm  Tm24      1.0000  0.4593  0.0506  0.2071  1.0000\n  Sb  Sb7       1.0000  0.4593  0.4495  0.2929  1.0000\n  Sb  Sb8       1.0000  0.9593  0.7929  0.5506  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cc0bd624-59e3-4033-a647-10631a2356da",
    "mp_id": "mp-18469",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrMgP2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3907\n_cell_length_b   5.3731\n_cell_length_c   13.9455\n_cell_angle_alpha   68.0921\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrMgP2O7\n_chemical_formula_sum   'Sr4 Mg4 P8 O28'\n_cell_volume   583.3164\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.1643  0.5097  0.7779  1\n  Sr  Sr1  1  0.6643  0.4903  0.7221  1\n  Sr  Sr2  1  0.8357  0.4903  0.2221  1\n  Sr  Sr3  1  0.3357  0.5097  0.2779  1\n  Mg  Mg4  1  0.3495  0.2148  0.6073  1\n  Mg  Mg5  1  0.1505  0.2148  0.1073  1\n  Mg  Mg6  1  0.6505  0.7852  0.3927  1\n  Mg  Mg7  1  0.8495  0.7852  0.8927  1\n  P  P8  1  0.9655  0.0758  0.6698  1\n  P  P9  1  0.2016  0.8326  0.9790  1\n  P  P10  1  0.5345  0.0758  0.1698  1\n  P  P11  1  0.0345  0.9242  0.3302  1\n  P  P12  1  0.7984  0.1674  0.0210  1\n  P  P13  1  0.2984  0.8326  0.4790  1\n  P  P14  1  0.7016  0.1674  0.5210  1\n  P  P15  1  0.4655  0.9242  0.8302  1\n  O  O16  1  0.0956  0.7695  0.9005  1\n  O  O17  1  0.5956  0.2305  0.5995  1\n  O  O18  1  0.9044  0.2305  0.0995  1\n  O  O19  1  0.4044  0.7695  0.4005  1\n  O  O20  1  0.1701  0.1155  0.9774  1\n  O  O21  1  0.6701  0.8845  0.5226  1\n  O  O22  1  0.8299  0.8845  0.0226  1\n  O  O23  1  0.3299  0.1155  0.4774  1\n  O  O24  1  0.1953  0.6060  0.0858  1\n  O  O25  1  0.6953  0.3940  0.4142  1\n  O  O26  1  0.8047  0.3940  0.9142  1\n  O  O27  1  0.3047  0.6060  0.5858  1\n  O  O28  1  0.3846  0.1895  0.7623  1\n  O  O29  1  0.8846  0.8105  0.7377  1\n  O  O30  1  0.6154  0.8105  0.2377  1\n  O  O31  1  0.1154  0.1895  0.2623  1\n  O  O32  1  0.1143  0.8242  0.4437  1\n  O  O33  1  0.6143  0.1758  0.0563  1\n  O  O34  1  0.8857  0.1758  0.5563  1\n  O  O35  1  0.3857  0.8242  0.9437  1\n  O  O36  1  0.8595  0.9756  0.3453  1\n  O  O37  1  0.3595  0.0244  0.1547  1\n  O  O38  1  0.1405  0.0244  0.6547  1\n  O  O39  1  0.6405  0.9756  0.8453  1\n  O  O40  1  0.0612  0.7067  0.2859  1\n  O  O41  1  0.5612  0.2933  0.2141  1\n  O  O42  1  0.9388  0.2933  0.7141  1\n  O  O43  1  0.4388  0.7067  0.7859  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr4Mg4OP7O5PO22\n_chemical_formula_sum              \"Sr4 Mg4 O28 P8\"\n_cell_length_a       8.3907\n_cell_length_b       5.3731\n_cell_length_c       13.9455\n_cell_angle_alpha    68.0921\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.1643  0.5097  0.7779  1.0000\n  Sr  Sr2       1.0000  0.6643  0.4903  0.7221  1.0000\n  Sr  Sr3       1.0000  0.8357  0.4903  0.2221  1.0000\n  Sr  Sr4       1.0000  0.3357  0.5097  0.2779  1.0000\n  Mg  Mg1       1.0000  0.3495  0.2148  0.6073  1.0000\n  Mg  Mg2       1.0000  0.1505  0.2148  0.1073  1.0000\n  Mg  Mg3       1.0000  0.6505  0.7852  0.3927  1.0000\n  Mg  Mg4       1.0000  0.8495  0.7852  0.8927  1.0000\n  O   O1        1.0000  0.9655  0.0758  0.6698  1.0000\n  P   P1        1.0000  0.2016  0.8326  0.9790  1.0000\n  P   P2        1.0000  0.5345  0.0758  0.1698  1.0000\n  P   P3        1.0000  0.0345  0.9242  0.3302  1.0000\n  P   P4        1.0000  0.7984  0.1674  0.0210  1.0000\n  P   P5        1.0000  0.2984  0.8326  0.4790  1.0000\n  P   P6        1.0000  0.7016  0.1674  0.5210  1.0000\n  P   P7        1.0000  0.4655  0.9242  0.8302  1.0000\n  O   O2        1.0000  0.0956  0.7695  0.9005  1.0000\n  O   O3        1.0000  0.5956  0.2305  0.5995  1.0000\n  O   O4        1.0000  0.9044  0.2305  0.0995  1.0000\n  O   O5        1.0000  0.4044  0.7695  0.4005  1.0000\n  O   O6        1.0000  0.1701  0.1155  0.9774  1.0000\n  P   P8        1.0000  0.6701  0.8845  0.5226  1.0000\n  O   O7        1.0000  0.8299  0.8845  0.0226  1.0000\n  O   O8        1.0000  0.3299  0.1155  0.4774  1.0000\n  O   O9        1.0000  0.1953  0.6060  0.0858  1.0000\n  O   O10       1.0000  0.6953  0.3940  0.4142  1.0000\n  O   O11       1.0000  0.8047  0.3940  0.9142  1.0000\n  O   O12       1.0000  0.3047  0.6060  0.5858  1.0000\n  O   O13       1.0000  0.3846  0.1895  0.7623  1.0000\n  O   O14       1.0000  0.8846  0.8105  0.7377  1.0000\n  O   O15       1.0000  0.6154  0.8105  0.2377  1.0000\n  O   O16       1.0000  0.1154  0.1895  0.2623  1.0000\n  O   O17       1.0000  0.1143  0.8242  0.4437  1.0000\n  O   O18       1.0000  0.6143  0.1758  0.0563  1.0000\n  O   O19       1.0000  0.8857  0.1758  0.5563  1.0000\n  O   O20       1.0000  0.3857  0.8242  0.9437  1.0000\n  O   O21       1.0000  0.8595  0.9756  0.3453  1.0000\n  O   O22       1.0000  0.3595  0.0244  0.1547  1.0000\n  O   O23       1.0000  0.1405  0.0244  0.6547  1.0000\n  O   O24       1.0000  0.6405  0.9756  0.8453  1.0000\n  O   O25       1.0000  0.0612  0.7067  0.2859  1.0000\n  O   O26       1.0000  0.5612  0.2933  0.2141  1.0000\n  O   O27       1.0000  0.9388  0.2933  0.7141  1.0000\n  O   O28       1.0000  0.4388  0.7067  0.7859  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6cd4dcd1-5f35-4d4d-8653-bc1c37e221d1",
    "mp_id": "mp-18525",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TbMn2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6849\n_cell_length_b   7.2680\n_cell_length_c   8.4944\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TbMn2O5\n_chemical_formula_sum   'Tb4 Mn8 O20'\n_cell_volume   350.9676\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.0000  0.3625  0.6714  1\n  Tb  Tb1  1  0.0000  0.6375  0.3286  1\n  Tb  Tb2  1  0.0000  0.8625  0.8286  1\n  Tb  Tb3  1  0.0000  0.1375  0.1714  1\n  Mn  Mn4  1  0.5000  0.0884  0.8495  1\n  Mn  Mn5  1  0.5000  0.9116  0.1505  1\n  Mn  Mn6  1  0.5000  0.5884  0.6505  1\n  Mn  Mn7  1  0.5000  0.4116  0.3495  1\n  Mn  Mn8  1  0.2545  0.5000  -0.0000  1\n  Mn  Mn9  1  0.7455  -0.0000  0.5000  1\n  Mn  Mn10  1  0.7455  0.5000  -0.0000  1\n  Mn  Mn11  1  0.2545  -0.0000  0.5000  1\n  O  O12  1  0.2445  0.8953  0.2936  1\n  O  O13  1  0.2445  0.1047  0.7064  1\n  O  O14  1  0.7555  0.3953  0.2064  1\n  O  O15  1  0.7555  0.6047  0.7936  1\n  O  O16  1  0.7555  0.1047  0.7064  1\n  O  O17  1  0.7555  0.8953  0.2936  1\n  O  O18  1  0.2445  0.6047  0.7936  1\n  O  O19  1  0.2445  0.3953  0.2064  1\n  O  O20  1  0.5000  0.3467  0.9339  1\n  O  O21  1  0.5000  0.6533  0.0661  1\n  O  O22  1  0.5000  0.8467  0.5661  1\n  O  O23  1  0.5000  0.1533  0.4339  1\n  O  O24  1  0.2724  -0.0000  -0.0000  1\n  O  O25  1  0.7276  0.5000  0.5000  1\n  O  O26  1  0.7276  -0.0000  -0.0000  1\n  O  O27  1  0.2724  0.5000  0.5000  1\n  O  O28  1  0.0000  0.1627  0.4444  1\n  O  O29  1  0.0000  0.8373  0.5556  1\n  O  O30  1  0.0000  0.6627  0.0556  1\n  O  O31  1  0.0000  0.3373  0.9444  1\n",
    "output": "data_image0\n_chemical_formula_structural       TbOTb2Mn8O8TbO11\n_chemical_formula_sum              \"Tb4 O20 Mn8\"\n_cell_length_a       5.6849\n_cell_length_b       7.2680\n_cell_length_c       8.4944\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.0000  0.3625  0.6714  1.0000\n  O   O1        1.0000  0.0000  0.6375  0.3286  1.0000\n  Tb  Tb2       1.0000  0.0000  0.8625  0.8286  1.0000\n  Tb  Tb3       1.0000  0.0000  0.1375  0.1714  1.0000\n  Mn  Mn1       1.0000  0.5000  0.0884  0.8495  1.0000\n  Mn  Mn2       1.0000  0.5000  0.9116  0.1505  1.0000\n  Mn  Mn3       1.0000  0.5000  0.5884  0.6505  1.0000\n  Mn  Mn4       1.0000  0.5000  0.4116  0.3495  1.0000\n  Mn  Mn5       1.0000  0.2545  0.5000  0.0000  1.0000\n  Mn  Mn6       1.0000  0.7455  0.0000  0.5000  1.0000\n  Mn  Mn7       1.0000  0.7455  0.5000  0.0000  1.0000\n  Mn  Mn8       1.0000  0.2545  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.2445  0.8953  0.2936  1.0000\n  O   O3        1.0000  0.2445  0.1047  0.7064  1.0000\n  O   O4        1.0000  0.7555  0.3953  0.2064  1.0000\n  O   O5        1.0000  0.7555  0.6047  0.7936  1.0000\n  O   O6        1.0000  0.7555  0.1047  0.7064  1.0000\n  O   O7        1.0000  0.7555  0.8953  0.2936  1.0000\n  O   O8        1.0000  0.2445  0.6047  0.7936  1.0000\n  O   O9        1.0000  0.2445  0.3953  0.2064  1.0000\n  Tb  Tb4       1.0000  0.5000  0.3467  0.9339  1.0000\n  O   O10       1.0000  0.5000  0.6533  0.0661  1.0000\n  O   O11       1.0000  0.5000  0.8467  0.5661  1.0000\n  O   O12       1.0000  0.5000  0.1533  0.4339  1.0000\n  O   O13       1.0000  0.2724  0.0000  0.0000  1.0000\n  O   O14       1.0000  0.7276  0.5000  0.5000  1.0000\n  O   O15       1.0000  0.7276  0.0000  0.0000  1.0000\n  O   O16       1.0000  0.2724  0.5000  0.5000  1.0000\n  O   O17       1.0000  0.0000  0.1627  0.4444  1.0000\n  O   O18       1.0000  0.0000  0.8373  0.5556  1.0000\n  O   O19       1.0000  0.0000  0.6627  0.0556  1.0000\n  O   O20       1.0000  0.0000  0.3373  0.9444  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6bc7e379-0766-4903-9dbd-8539eb5df7ca",
    "mp_id": "mp-18612",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2MoS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0615\n_cell_length_b   9.7642\n_cell_length_c   12.5319\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2MoS4\n_chemical_formula_sum   'Rb8 Mo4 S16'\n_cell_volume   864.0736\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.7500  0.4618  0.3320  1\n  Rb  Rb1  1  0.2500  0.3457  0.1052  1\n  Rb  Rb2  1  0.7500  0.6543  0.8948  1\n  Rb  Rb3  1  0.2500  0.8457  0.3948  1\n  Rb  Rb4  1  0.2500  0.0382  0.8320  1\n  Rb  Rb5  1  0.7500  0.9618  0.1680  1\n  Rb  Rb6  1  0.7500  0.1543  0.6052  1\n  Rb  Rb7  1  0.2500  0.5382  0.6680  1\n  Mo  Mo8  1  0.7500  0.7456  0.5734  1\n  Mo  Mo9  1  0.2500  0.2544  0.4266  1\n  Mo  Mo10  1  0.7500  0.2456  0.9266  1\n  Mo  Mo11  1  0.2500  0.7544  0.0734  1\n  S  S12  1  0.5003  0.1606  0.3556  1\n  S  S13  1  0.9997  0.1606  0.3556  1\n  S  S14  1  0.4997  0.8394  0.6444  1\n  S  S15  1  0.5003  0.6606  0.1444  1\n  S  S16  1  0.2500  0.9755  0.1053  1\n  S  S17  1  0.7500  0.0245  0.8947  1\n  S  S18  1  0.2500  0.4755  0.3947  1\n  S  S19  1  0.7500  0.5245  0.6053  1\n  S  S20  1  0.2500  0.7132  0.9018  1\n  S  S21  1  0.7500  0.2868  0.0982  1\n  S  S22  1  0.2500  0.2132  0.5982  1\n  S  S23  1  0.0003  0.8394  0.6444  1\n  S  S24  1  0.9997  0.6606  0.1444  1\n  S  S25  1  0.4997  0.3394  0.8556  1\n  S  S26  1  0.7500  0.7868  0.4018  1\n  S  S27  1  0.0003  0.3394  0.8556  1\n",
    "output": "data_image0\n_chemical_formula_structural       MoRb7MoRbMo2S16\n_chemical_formula_sum              \"Mo4 Rb8 S16\"\n_cell_length_a       7.0615\n_cell_length_b       9.7642\n_cell_length_c       12.5319\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mo  Mo1       1.0000  0.7500  0.4618  0.3320  1.0000\n  Rb  Rb1       1.0000  0.2500  0.3457  0.1052  1.0000\n  Rb  Rb2       1.0000  0.7500  0.6543  0.8948  1.0000\n  Rb  Rb3       1.0000  0.2500  0.8457  0.3948  1.0000\n  Rb  Rb4       1.0000  0.2500  0.0382  0.8320  1.0000\n  Rb  Rb5       1.0000  0.7500  0.9618  0.1680  1.0000\n  Rb  Rb6       1.0000  0.7500  0.1543  0.6052  1.0000\n  Rb  Rb7       1.0000  0.2500  0.5382  0.6680  1.0000\n  Mo  Mo2       1.0000  0.7500  0.7456  0.5734  1.0000\n  Rb  Rb8       1.0000  0.2500  0.2544  0.4266  1.0000\n  Mo  Mo3       1.0000  0.7500  0.2456  0.9266  1.0000\n  Mo  Mo4       1.0000  0.2500  0.7544  0.0734  1.0000\n  S   S1        1.0000  0.5003  0.1606  0.3556  1.0000\n  S   S2        1.0000  0.9997  0.1606  0.3556  1.0000\n  S   S3        1.0000  0.4997  0.8394  0.6444  1.0000\n  S   S4        1.0000  0.5003  0.6606  0.1444  1.0000\n  S   S5        1.0000  0.2500  0.9755  0.1053  1.0000\n  S   S6        1.0000  0.7500  0.0245  0.8947  1.0000\n  S   S7        1.0000  0.2500  0.4755  0.3947  1.0000\n  S   S8        1.0000  0.7500  0.5245  0.6053  1.0000\n  S   S9        1.0000  0.2500  0.7132  0.9018  1.0000\n  S   S10       1.0000  0.7500  0.2868  0.0982  1.0000\n  S   S11       1.0000  0.2500  0.2132  0.5982  1.0000\n  S   S12       1.0000  0.0003  0.8394  0.6444  1.0000\n  S   S13       1.0000  0.9997  0.6606  0.1444  1.0000\n  S   S14       1.0000  0.4997  0.3394  0.8556  1.0000\n  S   S15       1.0000  0.7500  0.7868  0.4018  1.0000\n  S   S16       1.0000  0.0003  0.3394  0.8556  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "89bccde7-82c2-44b0-89e3-f0c102d7c0c9",
    "mp_id": "mp-18701",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3YRu2O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9621\n_cell_length_b   5.9621\n_cell_length_c   14.6174\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3YRu2O9\n_chemical_formula_sum   'Ba6 Y2 Ru4 O18'\n_cell_volume   449.9883\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.3333  0.6667  0.5946  1\n  Ba  Ba1  1  0.6667  0.3333  0.0946  1\n  Ba  Ba2  1  0.6667  0.3333  0.4054  1\n  Ba  Ba3  1  0.3333  0.6667  0.9054  1\n  Ba  Ba4  1  0.0000  0.0000  0.7500  1\n  Ba  Ba5  1  0.0000  0.0000  0.2500  1\n  Y  Y6  1  0.0000  0.0000  0.0000  1\n  Y  Y7  1  0.0000  0.0000  0.5000  1\n  Ru  Ru8  1  0.6667  0.3333  0.6644  1\n  Ru  Ru9  1  0.3333  0.6667  0.1644  1\n  Ru  Ru10  1  0.6667  0.3333  0.8356  1\n  Ru  Ru11  1  0.3333  0.6667  0.3356  1\n  O  O12  1  0.1762  0.8238  0.0883  1\n  O  O13  1  0.1762  0.3525  0.0883  1\n  O  O14  1  0.6475  0.8238  0.0883  1\n  O  O15  1  0.3525  0.1762  0.5883  1\n  O  O16  1  0.8238  0.6475  0.9117  1\n  O  O17  1  0.8238  0.1762  0.5883  1\n  O  O18  1  0.8238  0.6475  0.5883  1\n  O  O19  1  0.1762  0.8238  0.4117  1\n  O  O20  1  0.6475  0.8238  0.4117  1\n  O  O21  1  0.3525  0.1762  0.9117  1\n  O  O22  1  0.8238  0.1762  0.9117  1\n  O  O23  1  0.1762  0.3525  0.4117  1\n  O  O24  1  0.4901  0.9802  0.2500  1\n  O  O25  1  0.5099  0.4901  0.7500  1\n  O  O26  1  0.9802  0.4901  0.7500  1\n  O  O27  1  0.0198  0.5099  0.2500  1\n  O  O28  1  0.4901  0.5099  0.2500  1\n  O  O29  1  0.5099  0.0198  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3OBa2Y2Ru4O11BaO6\n_chemical_formula_sum              \"Ba6 O18 Y2 Ru4\"\n_cell_length_a       5.9621\n_cell_length_b       5.9621\n_cell_length_c       14.6174\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.3333  0.6667  0.5946  1.0000\n  Ba  Ba2       1.0000  0.6667  0.3333  0.0946  1.0000\n  Ba  Ba3       1.0000  0.6667  0.3333  0.4054  1.0000\n  O   O1        1.0000  0.3333  0.6667  0.9054  1.0000\n  Ba  Ba4       1.0000  0.0000  0.0000  0.7500  1.0000\n  Ba  Ba5       1.0000  0.0000  0.0000  0.2500  1.0000\n  Y   Y1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Y   Y2        1.0000  0.0000  0.0000  0.5000  1.0000\n  Ru  Ru1       1.0000  0.6667  0.3333  0.6644  1.0000\n  Ru  Ru2       1.0000  0.3333  0.6667  0.1644  1.0000\n  Ru  Ru3       1.0000  0.6667  0.3333  0.8356  1.0000\n  Ru  Ru4       1.0000  0.3333  0.6667  0.3356  1.0000\n  O   O2        1.0000  0.1762  0.8238  0.0883  1.0000\n  O   O3        1.0000  0.1762  0.3525  0.0883  1.0000\n  O   O4        1.0000  0.6475  0.8238  0.0883  1.0000\n  O   O5        1.0000  0.3525  0.1762  0.5883  1.0000\n  O   O6        1.0000  0.8238  0.6475  0.9117  1.0000\n  O   O7        1.0000  0.8238  0.1762  0.5883  1.0000\n  O   O8        1.0000  0.8238  0.6475  0.5883  1.0000\n  O   O9        1.0000  0.1762  0.8238  0.4117  1.0000\n  O   O10       1.0000  0.6475  0.8238  0.4117  1.0000\n  O   O11       1.0000  0.3525  0.1762  0.9117  1.0000\n  O   O12       1.0000  0.8238  0.1762  0.9117  1.0000\n  Ba  Ba6       1.0000  0.1762  0.3525  0.4117  1.0000\n  O   O13       1.0000  0.4901  0.9802  0.2500  1.0000\n  O   O14       1.0000  0.5099  0.4901  0.7500  1.0000\n  O   O15       1.0000  0.9802  0.4901  0.7500  1.0000\n  O   O16       1.0000  0.0198  0.5099  0.2500  1.0000\n  O   O17       1.0000  0.4901  0.5099  0.2500  1.0000\n  O   O18       1.0000  0.5099  0.0198  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5116ee78-760d-46f2-9338-8bc8422f0f31",
    "mp_id": "mp-18713",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2Li(CuO2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1709\n_cell_length_b   8.2486\n_cell_length_c   7.1278\n_cell_angle_alpha   72.8169\n_cell_angle_beta   59.2358\n_cell_angle_gamma   47.9473\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2Li(CuO2)3\n_chemical_formula_sum   'Ba4 Li2 Cu6 O12'\n_cell_volume   343.0894\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7500  0.7500  0.7500  1\n  Ba  Ba1  1  0.2500  0.2500  0.2500  1\n  Ba  Ba2  1  0.2302  0.7698  0.2302  1\n  Ba  Ba3  1  0.7698  0.2302  0.7698  1\n  Li  Li4  1  0.6658  0.6658  0.3342  1\n  Li  Li5  1  0.3342  0.3342  0.6658  1\n  Cu  Cu6  1  0.9959  0.3101  0.0041  1\n  Cu  Cu7  1  0.6899  0.0041  0.3101  1\n  Cu  Cu8  1  0.0041  0.6899  0.9959  1\n  Cu  Cu9  1  0.3101  0.9959  0.6899  1\n  Cu  Cu10  1  0.6791  0.3209  0.3209  1\n  Cu  Cu11  1  0.3209  0.6791  0.6791  1\n  O  O12  1  0.8972  0.2952  0.3227  1\n  O  O13  1  0.4848  0.3227  0.2952  1\n  O  O14  1  0.6773  0.5152  0.1028  1\n  O  O15  1  0.7048  0.1028  0.5152  1\n  O  O16  1  0.1028  0.7048  0.6773  1\n  O  O17  1  0.5152  0.6773  0.7048  1\n  O  O18  1  0.9216  0.6937  0.3063  1\n  O  O19  1  0.0784  0.3063  0.6937  1\n  O  O20  1  0.3227  0.4848  0.8972  1\n  O  O21  1  0.2952  0.8972  0.4848  1\n  O  O22  1  0.6937  0.9216  0.0784  1\n  O  O23  1  0.3063  0.0784  0.9216  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3Li2BaCu6O12\n_chemical_formula_sum              \"Ba4 Li2 Cu6 O12\"\n_cell_length_a       9.1709\n_cell_length_b       8.2486\n_cell_length_c       7.1278\n_cell_angle_alpha    72.8169\n_cell_angle_beta     59.2358\n_cell_angle_gamma    47.9473\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Ba  Ba2       1.0000  0.2500  0.2500  0.2500  1.0000\n  Ba  Ba3       1.0000  0.2302  0.7698  0.2302  1.0000\n  Li  Li1       1.0000  0.7698  0.2302  0.7698  1.0000\n  Li  Li2       1.0000  0.6658  0.6658  0.3342  1.0000\n  Ba  Ba4       1.0000  0.3342  0.3342  0.6658  1.0000\n  Cu  Cu1       1.0000  0.9959  0.3101  0.0041  1.0000\n  Cu  Cu2       1.0000  0.6899  0.0041  0.3101  1.0000\n  Cu  Cu3       1.0000  0.0041  0.6899  0.9959  1.0000\n  Cu  Cu4       1.0000  0.3101  0.9959  0.6899  1.0000\n  Cu  Cu5       1.0000  0.6791  0.3209  0.3209  1.0000\n  Cu  Cu6       1.0000  0.3209  0.6791  0.6791  1.0000\n  O   O1        1.0000  0.8972  0.2952  0.3227  1.0000\n  O   O2        1.0000  0.4848  0.3227  0.2952  1.0000\n  O   O3        1.0000  0.6773  0.5152  0.1028  1.0000\n  O   O4        1.0000  0.7048  0.1028  0.5152  1.0000\n  O   O5        1.0000  0.1028  0.7048  0.6773  1.0000\n  O   O6        1.0000  0.5152  0.6773  0.7048  1.0000\n  O   O7        1.0000  0.9216  0.6937  0.3063  1.0000\n  O   O8        1.0000  0.0784  0.3063  0.6937  1.0000\n  O   O9        1.0000  0.3227  0.4848  0.8972  1.0000\n  O   O10       1.0000  0.2952  0.8972  0.4848  1.0000\n  O   O11       1.0000  0.6937  0.9216  0.0784  1.0000\n  O   O12       1.0000  0.3063  0.0784  0.9216  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4aaa7549-8a6f-4073-88be-be4801d2ac60",
    "mp_id": "mp-18817",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiSeO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8934\n_cell_length_b   4.8934\n_cell_length_c   6.2812\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.6674\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiSeO4\n_chemical_formula_sum   'Ni2 Se2 O8'\n_cell_volume   138.7849\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.0000  -0.0000  -0.0000  1\n  Ni  Ni1  1  0.0000  -0.0000  0.5000  1\n  Se  Se2  1  0.3513  0.6487  0.7500  1\n  Se  Se3  1  0.6487  0.3513  0.2500  1\n  O  O4  1  0.2278  0.2752  0.7500  1\n  O  O5  1  0.7722  0.7248  0.2500  1\n  O  O6  1  0.2752  0.2278  0.2500  1\n  O  O7  1  0.7248  0.7722  0.7500  1\n  O  O8  1  0.2449  0.7551  0.9707  1\n  O  O9  1  0.7551  0.2449  0.4707  1\n  O  O10  1  0.2449  0.7551  0.5293  1\n  O  O11  1  0.7551  0.2449  0.0293  1\n",
    "output": "data_image0\n_chemical_formula_structural       NiOSe2O7Ni\n_chemical_formula_sum              \"Ni2 O8 Se2\"\n_cell_length_a       4.8934\n_cell_length_b       4.8934\n_cell_length_c       6.2812\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.6674\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.5000  1.0000\n  Se  Se1       1.0000  0.3513  0.6487  0.7500  1.0000\n  Se  Se2       1.0000  0.6487  0.3513  0.2500  1.0000\n  O   O2        1.0000  0.2278  0.2752  0.7500  1.0000\n  O   O3        1.0000  0.7722  0.7248  0.2500  1.0000\n  O   O4        1.0000  0.2752  0.2278  0.2500  1.0000\n  O   O5        1.0000  0.7248  0.7722  0.7500  1.0000\n  O   O6        1.0000  0.2449  0.7551  0.9707  1.0000\n  O   O7        1.0000  0.7551  0.2449  0.4707  1.0000\n  O   O8        1.0000  0.2449  0.7551  0.5293  1.0000\n  Ni  Ni2       1.0000  0.7551  0.2449  0.0293  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7ea1391a-b887-4f13-9ea0-5d258ecdf8a6",
    "mp_id": "mp-18833",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3Cr2O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4655\n_cell_length_b   7.4655\n_cell_length_c   7.4655\n_cell_angle_alpha   43.7062\n_cell_angle_beta   43.7062\n_cell_angle_gamma   43.7062\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3Cr2O8\n_chemical_formula_sum   'Sr3 Cr2 O8'\n_cell_volume   180.3158\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7968  0.7968  0.7968  1\n  Sr  Sr1  1  0.2032  0.2032  0.2032  1\n  Sr  Sr2  1  -0.0000  -0.0000  -0.0000  1\n  Cr  Cr3  1  0.5939  0.5939  0.5939  1\n  Cr  Cr4  1  0.4061  0.4061  0.4061  1\n  O  O5  1  0.2691  0.2691  0.7673  1\n  O  O6  1  0.2691  0.7673  0.2691  1\n  O  O7  1  0.7673  0.2691  0.2691  1\n  O  O8  1  0.2327  0.7309  0.7309  1\n  O  O9  1  0.7309  0.7309  0.2327  1\n  O  O10  1  0.3227  0.3227  0.3228  1\n  O  O11  1  0.7309  0.2327  0.7309  1\n  O  O12  1  0.6772  0.6772  0.6772  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSrCr2O3SrO4\n_chemical_formula_sum              \"Sr3 O8 Cr2\"\n_cell_length_a       7.4655\n_cell_length_b       7.4655\n_cell_length_c       7.4655\n_cell_angle_alpha    43.7062\n_cell_angle_beta     43.7062\n_cell_angle_gamma    43.7062\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7968  0.7968  0.7968  1.0000\n  O   O1        1.0000  0.2032  0.2032  0.2032  1.0000\n  Sr  Sr2       1.0000  1.0000  1.0000  1.0000  1.0000\n  Cr  Cr1       1.0000  0.5939  0.5939  0.5939  1.0000\n  Cr  Cr2       1.0000  0.4061  0.4061  0.4061  1.0000\n  O   O2        1.0000  0.2691  0.2691  0.7673  1.0000\n  O   O3        1.0000  0.2691  0.7673  0.2691  1.0000\n  O   O4        1.0000  0.7673  0.2691  0.2691  1.0000\n  Sr  Sr3       1.0000  0.2327  0.7309  0.7309  1.0000\n  O   O5        1.0000  0.7309  0.7309  0.2327  1.0000\n  O   O6        1.0000  0.3227  0.3227  0.3228  1.0000\n  O   O7        1.0000  0.7309  0.2327  0.7309  1.0000\n  O   O8        1.0000  0.6772  0.6772  0.6772  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "30ce7046-3dfd-4cf8-b8aa-817bb83c4ca5",
    "mp_id": "mp-18848",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr2MgWO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6776\n_cell_length_b   5.6776\n_cell_length_c   5.6776\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr2MgWO6\n_chemical_formula_sum   'Sr2 Mg1 W1 O6'\n_cell_volume   129.4102\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7500  0.7500  0.7500  1\n  Sr  Sr1  1  0.2500  0.2500  0.2500  1\n  Mg  Mg2  1  0.5000  0.5000  0.5000  1\n  W  W3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.2427  0.7573  0.2427  1\n  O  O5  1  0.2427  0.7573  0.7573  1\n  O  O6  1  0.7573  0.2427  0.2427  1\n  O  O7  1  0.7573  0.7573  0.2427  1\n  O  O8  1  0.7573  0.2427  0.7573  1\n  O  O9  1  0.2427  0.2427  0.7573  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2OWO5Mg\n_chemical_formula_sum              \"Sr2 O6 W1 Mg1\"\n_cell_length_a       5.6776\n_cell_length_b       5.6776\n_cell_length_c       5.6776\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Sr  Sr2       1.0000  0.2500  0.2500  0.2500  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  W   W1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2427  0.7573  0.2427  1.0000\n  O   O3        1.0000  0.2427  0.7573  0.7573  1.0000\n  O   O4        1.0000  0.7573  0.2427  0.2427  1.0000\n  O   O5        1.0000  0.7573  0.7573  0.2427  1.0000\n  O   O6        1.0000  0.7573  0.2427  0.7573  1.0000\n  Mg  Mg1       1.0000  0.2427  0.2427  0.7573  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fb75d3c4-80cf-435e-93d8-46610110b510",
    "mp_id": "mp-18996",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlV3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4032\n_cell_length_b   5.0162\n_cell_length_c   7.7994\n_cell_angle_alpha   82.0489\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlV3O8\n_chemical_formula_sum   'Tl2 V6 O16'\n_cell_volume   325.6037\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.2500  0.0254  0.0616  1\n  Tl  Tl1  1  0.7500  0.9746  0.9384  1\n  V  V2  1  0.9462  0.4439  0.3150  1\n  V  V3  1  0.4462  0.5561  0.6850  1\n  V  V4  1  0.2500  0.0730  0.5745  1\n  V  V5  1  0.7500  0.9270  0.4255  1\n  V  V6  1  0.0538  0.5561  0.6850  1\n  V  V7  1  0.5538  0.4439  0.3150  1\n  O  O8  1  0.4004  0.8807  0.7309  1\n  O  O9  1  0.5996  0.1193  0.2691  1\n  O  O10  1  0.0996  0.8807  0.7309  1\n  O  O11  1  0.9346  0.4211  0.8344  1\n  O  O12  1  0.7500  0.1190  0.5751  1\n  O  O13  1  0.2500  0.8810  0.4249  1\n  O  O14  1  0.5875  0.6827  0.4943  1\n  O  O15  1  0.4125  0.3173  0.5057  1\n  O  O16  1  0.0875  0.3173  0.5057  1\n  O  O17  1  0.9125  0.6827  0.4943  1\n  O  O18  1  0.0654  0.5789  0.1656  1\n  O  O19  1  0.2500  0.4108  0.7564  1\n  O  O20  1  0.5654  0.4211  0.8344  1\n  O  O21  1  0.9004  0.1193  0.2691  1\n  O  O22  1  0.4346  0.5789  0.1656  1\n  O  O23  1  0.7500  0.5892  0.2436  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl2V4OVO9VO6\n_chemical_formula_sum              \"Tl2 V6 O16\"\n_cell_length_a       8.4032\n_cell_length_b       5.0162\n_cell_length_c       7.7994\n_cell_angle_alpha    82.0489\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.2500  0.0254  0.0616  1.0000\n  Tl  Tl2       1.0000  0.7500  0.9746  0.9384  1.0000\n  V   V1        1.0000  0.9462  0.4439  0.3150  1.0000\n  V   V2        1.0000  0.4462  0.5561  0.6850  1.0000\n  V   V3        1.0000  0.2500  0.0730  0.5745  1.0000\n  V   V4        1.0000  0.7500  0.9270  0.4255  1.0000\n  O   O1        1.0000  0.0538  0.5561  0.6850  1.0000\n  V   V5        1.0000  0.5538  0.4439  0.3150  1.0000\n  O   O2        1.0000  0.4004  0.8807  0.7309  1.0000\n  O   O3        1.0000  0.5996  0.1193  0.2691  1.0000\n  O   O4        1.0000  0.0996  0.8807  0.7309  1.0000\n  O   O5        1.0000  0.9346  0.4211  0.8344  1.0000\n  O   O6        1.0000  0.7500  0.1190  0.5751  1.0000\n  O   O7        1.0000  0.2500  0.8810  0.4249  1.0000\n  O   O8        1.0000  0.5875  0.6827  0.4943  1.0000\n  O   O9        1.0000  0.4125  0.3173  0.5057  1.0000\n  O   O10       1.0000  0.0875  0.3173  0.5057  1.0000\n  V   V6        1.0000  0.9125  0.6827  0.4943  1.0000\n  O   O11       1.0000  0.0654  0.5789  0.1656  1.0000\n  O   O12       1.0000  0.2500  0.4108  0.7564  1.0000\n  O   O13       1.0000  0.5654  0.4211  0.8344  1.0000\n  O   O14       1.0000  0.9004  0.1193  0.2691  1.0000\n  O   O15       1.0000  0.4346  0.5789  0.1656  1.0000\n  O   O16       1.0000  0.7500  0.5892  0.2436  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ce3a9530-1e93-4692-909f-7eae76f58de6",
    "mp_id": "mp-19070",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3Mn2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.8801\n_cell_length_b   3.8801\n_cell_length_c   10.5039\n_cell_angle_alpha   100.6434\n_cell_angle_beta   100.6434\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3Mn2O7\n_chemical_formula_sum   'Sr3 Mn2 O7'\n_cell_volume   152.6446\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5000  0.5000  0.0000  1\n  Sr  Sr1  1  0.3170  0.3170  0.6341  1\n  Sr  Sr2  1  0.6830  0.6830  0.3659  1\n  Mn  Mn3  1  0.0973  0.0973  0.1946  1\n  Mn  Mn4  1  0.9027  0.9027  0.8054  1\n  O  O5  1  0.9042  0.4042  0.8085  1\n  O  O6  1  0.4042  0.9042  0.8085  1\n  O  O7  1  0.0958  0.5958  0.1915  1\n  O  O8  1  0.5958  0.0958  0.1915  1\n  O  O9  1  0.8074  0.8074  0.6148  1\n  O  O10  1  0.0000  0.0000  0.0000  1\n  O  O11  1  0.1926  0.1926  0.3852  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSrMn2O6Sr\n_chemical_formula_sum              \"Sr3 O7 Mn2\"\n_cell_length_a       3.8801\n_cell_length_b       3.8801\n_cell_length_c       10.5039\n_cell_angle_alpha    100.6434\n_cell_angle_beta     100.6434\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.3170  0.3170  0.6341  1.0000\n  Sr  Sr2       1.0000  0.6830  0.6830  0.3659  1.0000\n  Mn  Mn1       1.0000  0.0973  0.0973  0.1946  1.0000\n  Mn  Mn2       1.0000  0.9027  0.9027  0.8054  1.0000\n  O   O2        1.0000  0.9042  0.4042  0.8085  1.0000\n  O   O3        1.0000  0.4042  0.9042  0.8085  1.0000\n  O   O4        1.0000  0.0958  0.5958  0.1915  1.0000\n  O   O5        1.0000  0.5958  0.0958  0.1915  1.0000\n  O   O6        1.0000  0.8074  0.8074  0.6148  1.0000\n  O   O7        1.0000  0.0000  0.0000  0.0000  1.0000\n  Sr  Sr3       1.0000  0.1926  0.1926  0.3852  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "61048153-e1ed-4364-9cb5-6d0d4dc2eae4",
    "mp_id": "mp-19087",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3Co2SbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4260\n_cell_length_b   5.7233\n_cell_length_c   5.4162\n_cell_angle_alpha   99.5300\n_cell_angle_beta   119.7576\n_cell_angle_gamma   99.0166\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3Co2SbO6\n_chemical_formula_sum   'Na3 Co2 Sb1 O6'\n_cell_volume   138.2830\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5008  0.5005  0.4994  1\n  Na  Na1  1  0.8260  0.4999  0.1740  1\n  Na  Na2  1  0.1731  0.4995  0.8268  1\n  Co  Co3  1  0.6651  0.0002  0.3331  1\n  Co  Co4  1  0.3338  0.9999  0.6664  1\n  Sb  Sb5  1  0.9995  0.9999  0.9993  1\n  O  O6  1  0.7552  0.2041  0.7537  1\n  O  O7  1  0.2478  0.7975  0.2474  1\n  O  O8  1  0.9305  0.7934  0.6151  1\n  O  O9  1  0.3833  0.2047  0.0678  1\n  O  O10  1  0.6169  0.7947  0.9321  1\n  O  O11  1  0.0679  0.2056  0.3848  1\n",
    "output": "data_image0\n_chemical_formula_structural       CoNa3CoSbO6\n_chemical_formula_sum              \"Co2 Na3 Sb1 O6\"\n_cell_length_a       5.4260\n_cell_length_b       5.7233\n_cell_length_c       5.4162\n_cell_angle_alpha    99.5300\n_cell_angle_beta     119.7576\n_cell_angle_gamma    99.0166\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.5008  0.5005  0.4994  1.0000\n  Na  Na1       1.0000  0.8261  0.4999  0.1740  1.0000\n  Na  Na2       1.0000  0.1731  0.4995  0.8268  1.0000\n  Na  Na3       1.0000  0.6651  0.0002  0.3331  1.0000\n  Co  Co2       1.0000  0.3338  0.9999  0.6664  1.0000\n  Sb  Sb1       1.0000  0.9995  0.9999  0.9993  1.0000\n  O   O1        1.0000  0.7552  0.2041  0.7537  1.0000\n  O   O2        1.0000  0.2478  0.7975  0.2474  1.0000\n  O   O3        1.0000  0.9305  0.7934  0.6151  1.0000\n  O   O4        1.0000  0.3833  0.2047  0.0678  1.0000\n  O   O5        1.0000  0.6169  0.7947  0.9321  1.0000\n  O   O6        1.0000  0.0679  0.2056  0.3848  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6bd8f648-a156-4160-8a7d-26c558505ed6",
    "mp_id": "mp-19123",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2LiVO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5382\n_cell_length_b   6.5382\n_cell_length_c   7.8755\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   126.7762\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2LiVO4\n_chemical_formula_sum   'Rb4 Li2 V2 O8'\n_cell_volume   269.6604\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.3958  0.6042  0.5493  1\n  Rb  Rb1  1  0.6042  0.3958  0.0493  1\n  Rb  Rb2  1  0.0624  0.9376  0.4107  1\n  Rb  Rb3  1  0.9376  0.0624  0.9107  1\n  Li  Li4  1  0.2012  0.7988  0.8292  1\n  Li  Li5  1  0.7988  0.2012  0.3292  1\n  V  V6  1  0.6911  0.3089  0.6108  1\n  V  V7  1  0.3089  0.6911  0.1108  1\n  O  O8  1  0.1145  0.4064  0.2177  1\n  O  O9  1  0.8855  0.5936  0.7177  1\n  O  O10  1  0.3654  0.6346  0.9088  1\n  O  O11  1  0.6346  0.3654  0.4088  1\n  O  O12  1  0.5936  0.8855  0.2177  1\n  O  O13  1  0.4064  0.1145  0.7177  1\n  O  O14  1  0.8370  0.1630  0.5771  1\n  O  O15  1  0.1630  0.8370  0.0771  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb4Li2OVO2VO5\n_chemical_formula_sum              \"Rb4 Li2 O8 V2\"\n_cell_length_a       6.5382\n_cell_length_b       6.5382\n_cell_length_c       7.8755\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    126.7762\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.3958  0.6042  0.5493  1.0000\n  Rb  Rb2       1.0000  0.6042  0.3958  0.0493  1.0000\n  Rb  Rb3       1.0000  0.0624  0.9376  0.4107  1.0000\n  Rb  Rb4       1.0000  0.9376  0.0624  0.9107  1.0000\n  Li  Li1       1.0000  0.2012  0.7988  0.8292  1.0000\n  Li  Li2       1.0000  0.7988  0.2012  0.3292  1.0000\n  O   O1        1.0000  0.6911  0.3089  0.6108  1.0000\n  V   V1        1.0000  0.3089  0.6911  0.1108  1.0000\n  O   O2        1.0000  0.1145  0.4064  0.2177  1.0000\n  O   O3        1.0000  0.8855  0.5936  0.7177  1.0000\n  V   V2        1.0000  0.3654  0.6346  0.9088  1.0000\n  O   O4        1.0000  0.6346  0.3654  0.4088  1.0000\n  O   O5        1.0000  0.5936  0.8855  0.2177  1.0000\n  O   O6        1.0000  0.4064  0.1145  0.7177  1.0000\n  O   O7        1.0000  0.8370  0.1630  0.5771  1.0000\n  O   O8        1.0000  0.1630  0.8370  0.0771  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7a0de7ae-afc7-4be4-8548-12604bcb925c",
    "mp_id": "mp-19162",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaVO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2106\n_cell_length_b   6.2106\n_cell_length_c   6.2106\n_cell_angle_alpha   106.1543\n_cell_angle_beta   106.1543\n_cell_angle_gamma   116.3305\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaVO4\n_chemical_formula_sum   'La2 V2 O8'\n_cell_volume   182.4062\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.1250  0.8750  0.2500  1\n  La  La1  1  0.8750  0.1250  0.7500  1\n  V  V2  1  0.3750  0.6250  0.7500  1\n  V  V3  1  0.6250  0.3750  0.2500  1\n  O  O4  1  0.7923  0.7199  0.4277  1\n  O  O5  1  0.3646  0.7923  0.5723  1\n  O  O6  1  0.7199  0.7923  0.9277  1\n  O  O7  1  0.7923  0.3646  0.0723  1\n  O  O8  1  0.6354  0.2077  0.4277  1\n  O  O9  1  0.2077  0.2801  0.5723  1\n  O  O10  1  0.2077  0.6354  0.9277  1\n  O  O11  1  0.2801  0.2077  0.0723  1\n",
    "output": "data_image0\n_chemical_formula_structural       LaOV2O4LaO3\n_chemical_formula_sum              \"La2 O8 V2\"\n_cell_length_a       6.2106\n_cell_length_b       6.2106\n_cell_length_c       6.2106\n_cell_angle_alpha    106.1543\n_cell_angle_beta     106.1543\n_cell_angle_gamma    116.3305\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.1250  0.8750  0.2500  1.0000\n  O   O1        1.0000  0.8750  0.1250  0.7500  1.0000\n  V   V1        1.0000  0.3750  0.6250  0.7500  1.0000\n  V   V2        1.0000  0.6250  0.3750  0.2500  1.0000\n  O   O2        1.0000  0.7923  0.7199  0.4277  1.0000\n  O   O3        1.0000  0.3646  0.7923  0.5723  1.0000\n  O   O4        1.0000  0.7199  0.7923  0.9277  1.0000\n  O   O5        1.0000  0.7923  0.3646  0.0723  1.0000\n  La  La2       1.0000  0.6354  0.2077  0.4277  1.0000\n  O   O6        1.0000  0.2077  0.2801  0.5723  1.0000\n  O   O7        1.0000  0.2077  0.6354  0.9277  1.0000\n  O   O8        1.0000  0.2801  0.2077  0.0723  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9b6bc099-b65b-4de9-b872-e42c5d50faf7",
    "mp_id": "mp-19426",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaWO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2541\n_cell_length_b   5.2579\n_cell_length_c   6.7838\n_cell_angle_alpha   112.8175\n_cell_angle_beta   112.8016\n_cell_angle_gamma   89.9576\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaWO4\n_chemical_formula_sum   'Ca2 W2 O8'\n_cell_volume   156.7562\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.8751  0.6251  0.2501  1\n  Ca  Ca1  1  0.1249  0.3749  0.7499  1\n  W  W2  1  0.3748  0.1248  0.2496  1\n  W  W3  1  0.6252  0.8752  0.7504  1\n  O  O4  1  0.5571  0.7199  0.9232  1\n  O  O5  1  0.8661  0.2032  0.9232  1\n  O  O6  1  0.4429  0.2801  0.0768  1\n  O  O7  1  0.1339  0.7968  0.0768  1\n  O  O8  1  0.2197  0.3655  0.4228  1\n  O  O9  1  0.7031  0.0573  0.4227  1\n  O  O10  1  0.7803  0.6345  0.5772  1\n  O  O11  1  0.2969  0.9427  0.5773  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaOW2O4CaO3\n_chemical_formula_sum              \"Ca2 O8 W2\"\n_cell_length_a       5.2541\n_cell_length_b       5.2579\n_cell_length_c       6.7838\n_cell_angle_alpha    112.8175\n_cell_angle_beta     112.8016\n_cell_angle_gamma    89.9576\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.8751  0.6251  0.2501  1.0000\n  O   O1        1.0000  0.1249  0.3749  0.7499  1.0000\n  W   W1        1.0000  0.3748  0.1248  0.2496  1.0000\n  W   W2        1.0000  0.6252  0.8752  0.7504  1.0000\n  O   O2        1.0000  0.5571  0.7199  0.9232  1.0000\n  O   O3        1.0000  0.8661  0.2032  0.9232  1.0000\n  O   O4        1.0000  0.4429  0.2801  0.0768  1.0000\n  O   O5        1.0000  0.1339  0.7968  0.0768  1.0000\n  Ca  Ca2       1.0000  0.2197  0.3655  0.4228  1.0000\n  O   O6        1.0000  0.7031  0.0573  0.4227  1.0000\n  O   O7        1.0000  0.7803  0.6345  0.5772  1.0000\n  O   O8        1.0000  0.2969  0.9427  0.5773  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3426c7f4-ffcc-4683-b938-7540bd53e405",
    "mp_id": "mp-19785",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HoFeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2564\n_cell_length_b   5.6006\n_cell_length_c   7.6068\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HoFeO3\n_chemical_formula_sum   'Ho4 Fe4 O12'\n_cell_volume   223.9373\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.0196  0.9282  0.7500  1\n  Ho  Ho1  1  0.5196  0.5718  0.2500  1\n  Ho  Ho2  1  0.4804  0.4282  0.7500  1\n  Ho  Ho3  1  0.9804  0.0718  0.2500  1\n  Fe  Fe4  1  0.0000  0.5000  0.5000  1\n  Fe  Fe5  1  0.5000  -0.0000  0.5000  1\n  Fe  Fe6  1  0.5000  -0.0000  0.0000  1\n  Fe  Fe7  1  0.0000  0.5000  0.0000  1\n  O  O8  1  0.6891  0.3076  0.4395  1\n  O  O9  1  0.1891  0.1924  0.5605  1\n  O  O10  1  0.8109  0.8076  0.0605  1\n  O  O11  1  0.3109  0.6924  0.9395  1\n  O  O12  1  0.3109  0.6924  0.5605  1\n  O  O13  1  0.8109  0.8076  0.4395  1\n  O  O14  1  0.1891  0.1924  0.9395  1\n  O  O15  1  0.6891  0.3076  0.0605  1\n  O  O16  1  0.1190  0.4561  0.2500  1\n  O  O17  1  0.6190  0.0439  0.7500  1\n  O  O18  1  0.3810  0.9561  0.2500  1\n  O  O19  1  0.8810  0.5439  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ho2FeHo2Fe3O12\n_chemical_formula_sum              \"Ho4 Fe4 O12\"\n_cell_length_a       5.2564\n_cell_length_b       5.6006\n_cell_length_c       7.6068\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.0196  0.9282  0.7500  1.0000\n  Ho  Ho2       1.0000  0.5196  0.5718  0.2500  1.0000\n  Fe  Fe1       1.0000  0.4804  0.4282  0.7500  1.0000\n  Ho  Ho3       1.0000  0.9804  0.0718  0.2500  1.0000\n  Ho  Ho4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Fe  Fe3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe4       1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.6891  0.3076  0.4395  1.0000\n  O   O2        1.0000  0.1891  0.1924  0.5605  1.0000\n  O   O3        1.0000  0.8109  0.8076  0.0605  1.0000\n  O   O4        1.0000  0.3109  0.6924  0.9395  1.0000\n  O   O5        1.0000  0.3109  0.6924  0.5605  1.0000\n  O   O6        1.0000  0.8109  0.8076  0.4395  1.0000\n  O   O7        1.0000  0.1891  0.1924  0.9395  1.0000\n  O   O8        1.0000  0.6891  0.3076  0.0605  1.0000\n  O   O9        1.0000  0.1190  0.4561  0.2500  1.0000\n  O   O10       1.0000  0.6190  0.0439  0.7500  1.0000\n  O   O11       1.0000  0.3810  0.9561  0.2500  1.0000\n  O   O12       1.0000  0.8810  0.5439  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b59c11f6-7b7a-4bb6-894c-810748287578",
    "mp_id": "mp-19903",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V2Pb3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6615\n_cell_length_b   5.6615\n_cell_length_c   7.4774\n_cell_angle_alpha   68.1220\n_cell_angle_beta   68.1220\n_cell_angle_gamma   67.4874\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V2Pb3O8\n_chemical_formula_sum   'V2 Pb3 O8'\n_cell_volume   197.9264\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.5897  0.5971  0.2029  1\n  V  V1  1  0.4029  0.4103  0.7971  1\n  Pb  Pb2  1  0.1641  0.2812  0.3849  1\n  Pb  Pb3  1  0.7188  0.8359  0.6151  1\n  Pb  Pb4  1  0.9926  0.0074  -0.0000  1\n  O  O5  1  0.6764  0.7771  0.9594  1\n  O  O6  1  0.2229  0.3236  0.0406  1\n  O  O7  1  0.7561  0.6523  0.3284  1\n  O  O8  1  0.3477  0.2439  0.6716  1\n  O  O9  1  0.6601  0.2585  0.2355  1\n  O  O10  1  0.3020  0.7512  0.7051  1\n  O  O11  1  0.2488  0.6980  0.2949  1\n  O  O12  1  0.7415  0.3399  0.7645  1\n",
    "output": "data_image0\n_chemical_formula_structural       V2Pb2O8Pb\n_chemical_formula_sum              \"V2 Pb3 O8\"\n_cell_length_a       5.6615\n_cell_length_b       5.6615\n_cell_length_c       7.4774\n_cell_angle_alpha    68.1220\n_cell_angle_beta     68.1220\n_cell_angle_gamma    67.4874\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.5897  0.5971  0.2029  1.0000\n  V   V2        1.0000  0.4029  0.4103  0.7971  1.0000\n  Pb  Pb1       1.0000  0.1641  0.2812  0.3849  1.0000\n  Pb  Pb2       1.0000  0.7188  0.8359  0.6151  1.0000\n  O   O1        1.0000  0.9926  0.0074  0.0000  1.0000\n  O   O2        1.0000  0.6764  0.7771  0.9594  1.0000\n  O   O3        1.0000  0.2229  0.3236  0.0406  1.0000\n  O   O4        1.0000  0.7561  0.6523  0.3284  1.0000\n  O   O5        1.0000  0.3477  0.2439  0.6716  1.0000\n  O   O6        1.0000  0.6601  0.2585  0.2355  1.0000\n  O   O7        1.0000  0.3020  0.7512  0.7051  1.0000\n  O   O8        1.0000  0.2488  0.6980  0.2949  1.0000\n  Pb  Pb3       1.0000  0.7415  0.3399  0.7645  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3b06f28b-c5e0-4180-b415-25bdae5ceffb",
    "mp_id": "mp-19931",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2MgAlF7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2375\n_cell_length_b   7.2375\n_cell_length_c   7.2375\n_cell_angle_alpha   120.7152\n_cell_angle_beta   118.0730\n_cell_angle_gamma   91.0676\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2MgAlF7\n_chemical_formula_sum   'Na4 Mg2 Al2 F14'\n_cell_volume   270.2973\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9729  0.4141  0.8870  1\n  Na  Na1  1  0.0271  0.9141  0.4412  1\n  Na  Na2  1  0.0000  0.9201  0.9201  1\n  Na  Na3  1  0.5000  0.4201  0.9201  1\n  Mg  Mg4  1  0.5019  0.9097  0.9116  1\n  Mg  Mg5  1  0.4981  0.4097  0.4078  1\n  Al  Al6  1  0.0000  0.4098  0.4098  1\n  Al  Al7  1  0.5000  0.9098  0.4098  1\n  F  F8  1  0.5437  0.2073  0.5251  1\n  F  F9  1  0.4563  0.9814  0.6636  1\n  F  F10  1  0.1822  0.7073  0.6636  1\n  F  F11  1  0.8178  0.4814  0.5251  1\n  F  F12  1  0.5405  0.8374  0.1549  1\n  F  F13  1  0.4595  0.6144  0.2969  1\n  F  F14  1  0.1825  0.3374  0.2969  1\n  F  F15  1  0.8175  0.1144  0.1549  1\n  F  F16  1  0.3874  0.1590  0.0464  1\n  F  F17  1  0.6126  0.6590  0.7715  1\n  F  F18  1  0.1335  0.3247  0.6306  1\n  F  F19  1  0.8665  0.4971  0.1912  1\n  F  F20  1  0.1941  0.8247  0.1912  1\n  F  F21  1  0.8059  0.9971  0.6306  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2FNaMg2Al2F8NaF5\n_chemical_formula_sum              \"Na4 F14 Mg2 Al2\"\n_cell_length_a       7.2375\n_cell_length_b       7.2375\n_cell_length_c       7.2375\n_cell_angle_alpha    120.7152\n_cell_angle_beta     118.0730\n_cell_angle_gamma    91.0676\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9729  0.4141  0.8870  1.0000\n  Na  Na2       1.0000  0.0271  0.9141  0.4412  1.0000\n  F   F1        1.0000  0.0000  0.9201  0.9201  1.0000\n  Na  Na3       1.0000  0.5000  0.4201  0.9201  1.0000\n  Mg  Mg1       1.0000  0.5019  0.9097  0.9116  1.0000\n  Mg  Mg2       1.0000  0.4981  0.4097  0.4078  1.0000\n  Al  Al1       1.0000  1.0000  0.4098  0.4098  1.0000\n  Al  Al2       1.0000  0.5000  0.9098  0.4098  1.0000\n  F   F2        1.0000  0.5437  0.2073  0.5251  1.0000\n  F   F3        1.0000  0.4563  0.9814  0.6636  1.0000\n  F   F4        1.0000  0.1822  0.7073  0.6636  1.0000\n  F   F5        1.0000  0.8178  0.4814  0.5251  1.0000\n  F   F6        1.0000  0.5405  0.8374  0.1549  1.0000\n  F   F7        1.0000  0.4595  0.6144  0.2969  1.0000\n  F   F8        1.0000  0.1825  0.3374  0.2969  1.0000\n  F   F9        1.0000  0.8175  0.1144  0.1549  1.0000\n  Na  Na4       1.0000  0.3874  0.1590  0.0464  1.0000\n  F   F10       1.0000  0.6126  0.6590  0.7715  1.0000\n  F   F11       1.0000  0.1335  0.3247  0.6306  1.0000\n  F   F12       1.0000  0.8665  0.4971  0.1912  1.0000\n  F   F13       1.0000  0.1941  0.8247  0.1912  1.0000\n  F   F14       1.0000  0.8059  0.9971  0.6306  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b1742d88-f1ab-4a8b-aa67-8d5641b111c1",
    "mp_id": "mp-20276",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_U2F9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3075\n_cell_length_b   7.3072\n_cell_length_c   7.3113\n_cell_angle_alpha   109.4923\n_cell_angle_beta   109.4926\n_cell_angle_gamma   109.4382\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   U2F9\n_chemical_formula_sum   'U4 F18'\n_cell_volume   300.4938\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.0003  0.0007  0.6248  1\n  U  U1  1  -0.0006  0.6243  -0.0006  1\n  U  U2  1  0.6246  -0.0005  -0.0000  1\n  U  U3  1  0.3757  0.3752  0.3747  1\n  F  F4  1  0.7731  -0.0022  0.7728  1\n  F  F5  1  0.2248  -0.0001  0.2272  1\n  F  F6  1  -0.0000  0.2270  0.2249  1\n  F  F7  1  0.0022  0.7753  0.7751  1\n  F  F8  1  0.6504  0.6504  0.4142  1\n  F  F9  1  0.3499  0.7638  -0.0001  1\n  F  F10  1  0.7640  0.3499  0.0001  1\n  F  F11  1  -0.0016  0.7639  0.3499  1\n  F  F12  1  0.5842  0.2347  0.2361  1\n  F  F13  1  0.2364  0.5860  0.2348  1\n  F  F14  1  0.7653  0.0012  0.3497  1\n  F  F15  1  0.3510  0.0020  0.7654  1\n  F  F16  1  -0.0017  0.3476  0.7635  1\n  F  F17  1  0.4143  0.6491  0.6507  1\n  F  F18  1  0.6519  0.4157  0.6506  1\n  F  F19  1  0.2359  0.2359  0.5862  1\n  F  F20  1  0.2269  0.2271  -0.0003  1\n  F  F21  1  0.7730  0.7730  0.0002  1\n",
    "output": "data_image0\n_chemical_formula_structural       U3F5UF13\n_chemical_formula_sum              \"U4 F18\"\n_cell_length_a       7.3075\n_cell_length_b       7.3072\n_cell_length_c       7.3113\n_cell_angle_alpha    109.4923\n_cell_angle_beta     109.4926\n_cell_angle_gamma    109.4382\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.0003  0.0007  0.6248  1.0000\n  U   U2        1.0000  0.9994  0.6243  0.9994  1.0000\n  U   U3        1.0000  0.6246  0.9995  1.0000  1.0000\n  F   F1        1.0000  0.3757  0.3752  0.3747  1.0000\n  F   F2        1.0000  0.7731  0.9978  0.7728  1.0000\n  F   F3        1.0000  0.2248  0.9999  0.2272  1.0000\n  F   F4        1.0000  1.0000  0.2270  0.2249  1.0000\n  F   F5        1.0000  0.0022  0.7753  0.7751  1.0000\n  U   U4        1.0000  0.6504  0.6504  0.4142  1.0000\n  F   F6        1.0000  0.3499  0.7638  0.9999  1.0000\n  F   F7        1.0000  0.7640  0.3499  0.0001  1.0000\n  F   F8        1.0000  0.9984  0.7639  0.3499  1.0000\n  F   F9        1.0000  0.5842  0.2347  0.2361  1.0000\n  F   F10       1.0000  0.2364  0.5860  0.2348  1.0000\n  F   F11       1.0000  0.7653  0.0012  0.3497  1.0000\n  F   F12       1.0000  0.3510  0.0020  0.7654  1.0000\n  F   F13       1.0000  0.9983  0.3476  0.7635  1.0000\n  F   F14       1.0000  0.4143  0.6491  0.6507  1.0000\n  F   F15       1.0000  0.6519  0.4157  0.6506  1.0000\n  F   F16       1.0000  0.2359  0.2359  0.5862  1.0000\n  F   F17       1.0000  0.2269  0.2271  0.9997  1.0000\n  F   F18       1.0000  0.7730  0.7730  0.0002  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c5b8a311-3df0-4dbd-b6b5-2286b355c9ae",
    "mp_id": "mp-2030372",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La(HO)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5077\n_cell_length_b   6.5292\n_cell_length_c   3.8329\n_cell_angle_alpha   88.6635\n_cell_angle_beta   91.1656\n_cell_angle_gamma   119.8794\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La(HO)3\n_chemical_formula_sum   'La2 H6 O6'\n_cell_volume   141.1659\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.3391  0.6631  0.2153  1\n  La  La1  1  0.6731  0.3281  0.7144  1\n  H  H2  1  0.8686  0.7157  0.1677  1\n  H  H3  1  0.8652  0.1276  0.2237  1\n  H  H4  1  0.2810  0.1387  0.2333  1\n  H  H5  1  0.1431  0.2747  0.7501  1\n  H  H6  1  0.1468  0.8628  0.6918  1\n  H  H7  1  0.7311  0.8524  0.6850  1\n  O  O8  1  0.9243  0.6059  0.2202  1\n  O  O9  1  0.6979  0.0763  0.2258  1\n  O  O10  1  0.3957  0.3046  0.2057  1\n  O  O11  1  0.0884  0.3868  0.7147  1\n  O  O12  1  0.3141  0.9150  0.7087  1\n  O  O13  1  0.6179  0.6877  0.7286  1\n",
    "output": "data_image0\n_chemical_formula_structural       LaOH6O2LaO3\n_chemical_formula_sum              \"La2 O6 H6\"\n_cell_length_a       6.5077\n_cell_length_b       6.5292\n_cell_length_c       3.8329\n_cell_angle_alpha    88.6635\n_cell_angle_beta     91.1656\n_cell_angle_gamma    119.8794\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.3391  0.6631  0.2153  1.0000\n  O   O1        1.0000  0.6731  0.3281  0.7144  1.0000\n  H   H1        1.0000  0.8686  0.7157  0.1677  1.0000\n  H   H2        1.0000  0.8652  0.1276  0.2237  1.0000\n  H   H3        1.0000  0.2810  0.1387  0.2333  1.0000\n  H   H4        1.0000  0.1431  0.2747  0.7501  1.0000\n  H   H5        1.0000  0.1468  0.8628  0.6918  1.0000\n  H   H6        1.0000  0.7311  0.8524  0.6850  1.0000\n  O   O2        1.0000  0.9243  0.6059  0.2202  1.0000\n  O   O3        1.0000  0.6979  0.0763  0.2258  1.0000\n  La  La2       1.0000  0.3957  0.3046  0.2057  1.0000\n  O   O4        1.0000  0.0884  0.3868  0.7147  1.0000\n  O   O5        1.0000  0.3141  0.9150  0.7087  1.0000\n  O   O6        1.0000  0.6179  0.6877  0.7286  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d4f67a23-f388-4668-b430-9c2bf9a57a73",
    "mp_id": "mp-20460",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiSeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9412\n_cell_length_b   5.8723\n_cell_length_c   7.4979\n_cell_angle_alpha   90.0002\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0001\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiSeO3\n_chemical_formula_sum   'Ni4 Se4 O12'\n_cell_volume   217.5614\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.5000  -0.0000  0.0000  1\n  Ni  Ni1  1  1.0000  0.5000  0.0000  1\n  Ni  Ni2  1  1.0000  0.5000  0.5000  1\n  Ni  Ni3  1  0.5000  -0.0000  0.5000  1\n  Se  Se4  1  0.9802  0.0181  0.2500  1\n  Se  Se5  1  0.4802  0.4819  0.7500  1\n  Se  Se6  1  0.5198  0.5181  0.2500  1\n  Se  Se7  1  0.0198  0.9819  0.7500  1\n  O  O8  1  0.8607  0.1827  0.4261  1\n  O  O9  1  0.3607  0.3173  0.5739  1\n  O  O10  1  0.6393  0.6827  0.0739  1\n  O  O11  1  0.1393  0.8173  0.9261  1\n  O  O12  1  0.1393  0.8173  0.5739  1\n  O  O13  1  0.6393  0.6827  0.4261  1\n  O  O14  1  0.3607  0.3173  0.9261  1\n  O  O15  1  0.8607  0.1827  0.0739  1\n  O  O16  1  0.3253  0.0705  0.2500  1\n  O  O17  1  0.8253  0.4295  0.7500  1\n  O  O18  1  0.6747  0.9295  0.7500  1\n  O  O19  1  0.1747  0.5705  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ni4Se3OSeO11\n_chemical_formula_sum              \"Ni4 Se4 O12\"\n_cell_length_a       4.9412\n_cell_length_b       5.8723\n_cell_length_c       7.4979\n_cell_angle_alpha    90.0002\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0001\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  1.0000  0.5000  0.0000  1.0000\n  Ni  Ni3       1.0000  1.0000  0.5000  0.5000  1.0000\n  Ni  Ni4       1.0000  0.5000  0.0000  0.5000  1.0000\n  Se  Se1       1.0000  0.9802  0.0181  0.2500  1.0000\n  Se  Se2       1.0000  0.4802  0.4819  0.7500  1.0000\n  Se  Se3       1.0000  0.5198  0.5181  0.2500  1.0000\n  O   O1        1.0000  0.0198  0.9819  0.7500  1.0000\n  Se  Se4       1.0000  0.8607  0.1827  0.4261  1.0000\n  O   O2        1.0000  0.3607  0.3173  0.5739  1.0000\n  O   O3        1.0000  0.6393  0.6827  0.0739  1.0000\n  O   O4        1.0000  0.1393  0.8173  0.9261  1.0000\n  O   O5        1.0000  0.1393  0.8173  0.5739  1.0000\n  O   O6        1.0000  0.6393  0.6827  0.4261  1.0000\n  O   O7        1.0000  0.3607  0.3173  0.9261  1.0000\n  O   O8        1.0000  0.8607  0.1827  0.0739  1.0000\n  O   O9        1.0000  0.3253  0.0705  0.2500  1.0000\n  O   O10       1.0000  0.8253  0.4295  0.7500  1.0000\n  O   O11       1.0000  0.6747  0.9295  0.7500  1.0000\n  O   O12       1.0000  0.1747  0.5705  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "36309db4-0b26-4cfd-969b-1d2373103d21",
    "mp_id": "mp-20499",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sc2FeS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4291\n_cell_length_b   7.4291\n_cell_length_c   7.4291\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sc2FeS4\n_chemical_formula_sum   'Sc4 Fe2 S8'\n_cell_volume   289.9323\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.1250  0.1250  0.1250  1\n  Sc  Sc1  1  0.6250  0.1250  0.1250  1\n  Sc  Sc2  1  0.1250  0.1250  0.6250  1\n  Sc  Sc3  1  0.1250  0.6250  0.1250  1\n  Fe  Fe4  1  0.7500  0.7500  0.7500  1\n  Fe  Fe5  1  0.5000  0.5000  0.5000  1\n  S  S6  1  0.8785  0.3644  0.8785  1\n  S  S7  1  0.3715  0.3715  0.8856  1\n  S  S8  1  0.3715  0.3715  0.3715  1\n  S  S9  1  0.8856  0.3715  0.3715  1\n  S  S10  1  0.8785  0.8785  0.8785  1\n  S  S11  1  0.3644  0.8785  0.8785  1\n  S  S12  1  0.3715  0.8856  0.3715  1\n  S  S13  1  0.8785  0.8785  0.3644  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc4FeS6FeS2\n_chemical_formula_sum              \"Sc4 Fe2 S8\"\n_cell_length_a       7.4291\n_cell_length_b       7.4291\n_cell_length_c       7.4291\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.1250  0.1250  0.1250  1.0000\n  Sc  Sc2       1.0000  0.6250  0.1250  0.1250  1.0000\n  Sc  Sc3       1.0000  0.1250  0.1250  0.6250  1.0000\n  Sc  Sc4       1.0000  0.1250  0.6250  0.1250  1.0000\n  Fe  Fe1       1.0000  0.7500  0.7500  0.7500  1.0000\n  S   S1        1.0000  0.5000  0.5000  0.5000  1.0000\n  S   S2        1.0000  0.8785  0.3644  0.8785  1.0000\n  S   S3        1.0000  0.3715  0.3715  0.8856  1.0000\n  S   S4        1.0000  0.3715  0.3715  0.3715  1.0000\n  S   S5        1.0000  0.8856  0.3715  0.3715  1.0000\n  S   S6        1.0000  0.8785  0.8785  0.8785  1.0000\n  Fe  Fe2       1.0000  0.3644  0.8785  0.8785  1.0000\n  S   S7        1.0000  0.3715  0.8856  0.3715  1.0000\n  S   S8        1.0000  0.8785  0.8785  0.3644  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "450ae411-bd0c-4c4a-b87d-3fefe98390f0",
    "mp_id": "mp-2053129",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ErAsS\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7867\n_cell_length_b   3.8195\n_cell_length_c   16.8073\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ErAsS\n_chemical_formula_sum   'Er4 As4 S4'\n_cell_volume   243.0878\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.2500  0.2333  0.8540  1\n  Er  Er1  1  0.2500  0.2667  0.3540  1\n  Er  Er2  1  0.7500  0.7667  0.1460  1\n  Er  Er3  1  0.7500  0.7333  0.6460  1\n  As  As4  1  0.7500  0.2157  0.5019  1\n  As  As5  1  0.7500  0.2843  0.0019  1\n  As  As6  1  0.2500  0.7843  0.4981  1\n  As  As7  1  0.2500  0.7157  0.9981  1\n  S  S8  1  0.2500  0.2367  0.6872  1\n  S  S9  1  0.2500  0.2633  0.1872  1\n  S  S10  1  0.7500  0.7633  0.3128  1\n  S  S11  1  0.7500  0.7367  0.8128  1\n",
    "output": "data_image0\n_chemical_formula_structural       AsEr3As2ErAsS4\n_chemical_formula_sum              \"As4 Er4 S4\"\n_cell_length_a       3.7867\n_cell_length_b       3.8195\n_cell_length_c       16.8073\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.2500  0.2333  0.8540  1.0000\n  Er  Er1       1.0000  0.2500  0.2667  0.3540  1.0000\n  Er  Er2       1.0000  0.7500  0.7667  0.1460  1.0000\n  Er  Er3       1.0000  0.7500  0.7333  0.6460  1.0000\n  As  As2       1.0000  0.7500  0.2157  0.5019  1.0000\n  As  As3       1.0000  0.7500  0.2843  0.0019  1.0000\n  Er  Er4       1.0000  0.2500  0.7843  0.4981  1.0000\n  As  As4       1.0000  0.2500  0.7157  0.9981  1.0000\n  S   S1        1.0000  0.2500  0.2367  0.6872  1.0000\n  S   S2        1.0000  0.2500  0.2633  0.1872  1.0000\n  S   S3        1.0000  0.7500  0.7633  0.3128  1.0000\n  S   S4        1.0000  0.7500  0.7367  0.8128  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "767eefb9-437e-46f6-b5d7-c7ca7d602577",
    "mp_id": "mp-20633",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_PbO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0474\n_cell_length_b   5.4931\n_cell_length_c   5.9546\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   PbO2\n_chemical_formula_sum   'Pb4 O8'\n_cell_volume   165.0967\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pb  Pb0  1  0.5000  0.7500  0.8213  1\n  Pb  Pb1  1  -0.0000  0.2500  0.6787  1\n  Pb  Pb2  1  0.5000  0.2500  0.1787  1\n  Pb  Pb3  1  -0.0000  0.7500  0.3213  1\n  O  O4  1  0.2669  0.4278  0.9045  1\n  O  O5  1  0.7669  0.5722  0.5955  1\n  O  O6  1  0.2331  0.9278  0.5955  1\n  O  O7  1  0.7331  0.0722  0.9045  1\n  O  O8  1  0.2669  0.9278  0.0955  1\n  O  O9  1  0.7669  0.0722  0.4045  1\n  O  O10  1  0.2331  0.4278  0.4045  1\n  O  O11  1  0.7331  0.5722  0.0955  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pb2OPbO6PbO\n_chemical_formula_sum              \"Pb4 O8\"\n_cell_length_a       5.0474\n_cell_length_b       5.4931\n_cell_length_c       5.9546\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pb  Pb1       1.0000  0.5000  0.7500  0.8213  1.0000\n  Pb  Pb2       1.0000  0.0000  0.2500  0.6787  1.0000\n  O   O1        1.0000  0.5000  0.2500  0.1787  1.0000\n  Pb  Pb3       1.0000  0.0000  0.7500  0.3213  1.0000\n  O   O2        1.0000  0.2669  0.4278  0.9045  1.0000\n  O   O3        1.0000  0.7669  0.5722  0.5955  1.0000\n  O   O4        1.0000  0.2331  0.9278  0.5955  1.0000\n  O   O5        1.0000  0.7331  0.0722  0.9045  1.0000\n  O   O6        1.0000  0.2669  0.9278  0.0955  1.0000\n  O   O7        1.0000  0.7669  0.0722  0.4045  1.0000\n  Pb  Pb4       1.0000  0.2331  0.4278  0.4045  1.0000\n  O   O8        1.0000  0.7331  0.5722  0.0955  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "68350d7d-fe2d-4b90-ac6e-0cb713d8d8fa",
    "mp_id": "mp-21208",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RhF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0144\n_cell_length_b   5.0144\n_cell_length_c   7.3199\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RhF3\n_chemical_formula_sum   'Rh3 F9'\n_cell_volume   159.3938\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rh  Rh0  1  0.6667  0.3333  0.3394  1\n  Rh  Rh1  1  0.3333  0.6667  0.6606  1\n  Rh  Rh2  1  0.0000  0.0000  0.0000  1\n  F  F3  1  0.6662  0.9642  0.8218  1\n  F  F4  1  0.0358  0.7019  0.8218  1\n  F  F5  1  0.2981  0.3338  0.8218  1\n  F  F6  1  0.6531  0.6531  0.5000  1\n  F  F7  1  0.3469  0.0000  0.5000  1\n  F  F8  1  0.0000  0.3469  0.5000  1\n  F  F9  1  0.9642  0.6662  0.1782  1\n  F  F10  1  0.3338  0.2981  0.1782  1\n  F  F11  1  0.7019  0.0358  0.1782  1\n",
    "output": "data_image0\n_chemical_formula_structural       FRh2F5RhF3\n_chemical_formula_sum              \"F9 Rh3\"\n_cell_length_a       5.0144\n_cell_length_b       5.0144\n_cell_length_c       7.3199\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.6667  0.3333  0.3394  1.0000\n  Rh  Rh1       1.0000  0.3333  0.6667  0.6606  1.0000\n  Rh  Rh2       1.0000  0.0000  0.0000  0.0000  1.0000\n  F   F2        1.0000  0.6662  0.9642  0.8218  1.0000\n  F   F3        1.0000  0.0358  0.7019  0.8218  1.0000\n  F   F4        1.0000  0.2981  0.3338  0.8218  1.0000\n  F   F5        1.0000  0.6531  0.6531  0.5000  1.0000\n  F   F6        1.0000  0.3469  0.0000  0.5000  1.0000\n  Rh  Rh3       1.0000  0.0000  0.3469  0.5000  1.0000\n  F   F7        1.0000  0.9642  0.6662  0.1782  1.0000\n  F   F8        1.0000  0.3338  0.2981  0.1782  1.0000\n  F   F9        1.0000  0.7019  0.0358  0.1782  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4ab566e3-30cc-459b-8ed4-3001a05a5845",
    "mp_id": "mp-21493",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_U2Ga8Ru\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.3010\n_cell_length_b   4.3010\n_cell_length_c   11.0220\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   U2Ga8Ru\n_chemical_formula_sum   'U2 Ga8 Ru1'\n_cell_volume   203.8910\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.0000  0.0000  0.6911  1\n  U  U1  1  0.0000  0.0000  0.3089  1\n  Ga  Ga2  1  0.0000  0.5000  0.5000  1\n  Ga  Ga3  1  0.5000  0.0000  0.5000  1\n  Ga  Ga4  1  0.5000  0.5000  0.6910  1\n  Ga  Ga5  1  0.5000  0.5000  0.3090  1\n  Ga  Ga6  1  0.0000  0.5000  0.8767  1\n  Ga  Ga7  1  0.5000  0.0000  0.8767  1\n  Ga  Ga8  1  0.0000  0.5000  0.1233  1\n  Ga  Ga9  1  0.5000  0.0000  0.1233  1\n  Ru  Ru10  1  0.0000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       U2Ga6RuGa2\n_chemical_formula_sum              \"U2 Ga8 Ru1\"\n_cell_length_a       4.3010\n_cell_length_b       4.3010\n_cell_length_c       11.0220\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.0000  0.0000  0.6911  1.0000\n  U   U2        1.0000  0.0000  0.0000  0.3089  1.0000\n  Ga  Ga1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ga  Ga2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ga  Ga3       1.0000  0.5000  0.5000  0.6910  1.0000\n  Ga  Ga4       1.0000  0.5000  0.5000  0.3090  1.0000\n  Ga  Ga5       1.0000  0.0000  0.5000  0.8767  1.0000\n  Ga  Ga6       1.0000  0.5000  0.0000  0.8767  1.0000\n  Ru  Ru1       1.0000  0.0000  0.5000  0.1233  1.0000\n  Ga  Ga7       1.0000  0.5000  0.0000  0.1233  1.0000\n  Ga  Ga8       1.0000  0.0000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1d42ec79-a43b-4a5a-9320-5972a8fe7d72",
    "mp_id": "mp-21658",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm5Ga3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7701\n_cell_length_b   7.7701\n_cell_length_c   14.4076\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm5Ga3\n_chemical_formula_sum   'Sm20 Ga12'\n_cell_volume   869.8398\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.0926  0.5643  0.8964  1\n  Sm  Sm1  1  0.5926  0.4357  0.6036  1\n  Sm  Sm2  1  0.5643  0.4074  0.8964  1\n  Sm  Sm3  1  0.9357  0.0926  0.8964  1\n  Sm  Sm4  1  0.2500  0.2500  0.2206  1\n  Sm  Sm5  1  0.7500  0.7500  0.2794  1\n  Sm  Sm6  1  0.7500  0.7500  0.7794  1\n  Sm  Sm7  1  0.2500  0.2500  0.7206  1\n  Sm  Sm8  1  0.4074  0.9357  0.8964  1\n  Sm  Sm9  1  0.0643  0.5926  0.6036  1\n  Sm  Sm10  1  0.4357  0.9074  0.6036  1\n  Sm  Sm11  1  0.9074  0.0643  0.6036  1\n  Sm  Sm12  1  0.0643  0.9074  0.1036  1\n  Sm  Sm13  1  0.4357  0.5926  0.1036  1\n  Sm  Sm14  1  0.4074  0.5643  0.3964  1\n  Sm  Sm15  1  0.9074  0.4357  0.1036  1\n  Sm  Sm16  1  0.5926  0.0643  0.1036  1\n  Sm  Sm17  1  0.9357  0.4074  0.3964  1\n  Sm  Sm18  1  0.5643  0.0926  0.3964  1\n  Sm  Sm19  1  0.0926  0.9357  0.3964  1\n  Ga  Ga20  1  0.6307  0.1307  0.7500  1\n  Ga  Ga21  1  0.3693  0.6307  0.7500  1\n  Ga  Ga22  1  0.1307  0.8693  0.7500  1\n  Ga  Ga23  1  0.8693  0.3693  0.7500  1\n  Ga  Ga24  1  0.3693  0.8693  0.2500  1\n  Ga  Ga25  1  0.6307  0.3693  0.2500  1\n  Ga  Ga26  1  0.8693  0.1307  0.2500  1\n  Ga  Ga27  1  0.1307  0.6307  0.2500  1\n  Ga  Ga28  1  0.7500  0.7500  0.9937  1\n  Ga  Ga29  1  0.2500  0.2500  0.5063  1\n  Ga  Ga30  1  0.2500  0.2500  0.0063  1\n  Ga  Ga31  1  0.7500  0.7500  0.4937  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm19Ga5SmGa7\n_chemical_formula_sum              \"Sm20 Ga12\"\n_cell_length_a       7.7701\n_cell_length_b       7.7701\n_cell_length_c       14.4076\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.0926  0.5643  0.8964  1.0000\n  Sm  Sm2       1.0000  0.5926  0.4357  0.6036  1.0000\n  Sm  Sm3       1.0000  0.5643  0.4074  0.8964  1.0000\n  Sm  Sm4       1.0000  0.9357  0.0926  0.8964  1.0000\n  Sm  Sm5       1.0000  0.2500  0.2500  0.2206  1.0000\n  Sm  Sm6       1.0000  0.7500  0.7500  0.2794  1.0000\n  Sm  Sm7       1.0000  0.7500  0.7500  0.7794  1.0000\n  Sm  Sm8       1.0000  0.2500  0.2500  0.7206  1.0000\n  Sm  Sm9       1.0000  0.4074  0.9357  0.8964  1.0000\n  Sm  Sm10      1.0000  0.0643  0.5926  0.6036  1.0000\n  Sm  Sm11      1.0000  0.4357  0.9074  0.6036  1.0000\n  Sm  Sm12      1.0000  0.9074  0.0643  0.6036  1.0000\n  Sm  Sm13      1.0000  0.0643  0.9074  0.1036  1.0000\n  Sm  Sm14      1.0000  0.4357  0.5926  0.1036  1.0000\n  Sm  Sm15      1.0000  0.4074  0.5643  0.3964  1.0000\n  Sm  Sm16      1.0000  0.9074  0.4357  0.1036  1.0000\n  Sm  Sm17      1.0000  0.5926  0.0643  0.1036  1.0000\n  Sm  Sm18      1.0000  0.9357  0.4074  0.3964  1.0000\n  Sm  Sm19      1.0000  0.5643  0.0926  0.3964  1.0000\n  Ga  Ga1       1.0000  0.0926  0.9357  0.3964  1.0000\n  Ga  Ga2       1.0000  0.6307  0.1307  0.7500  1.0000\n  Ga  Ga3       1.0000  0.3693  0.6307  0.7500  1.0000\n  Ga  Ga4       1.0000  0.1307  0.8693  0.7500  1.0000\n  Ga  Ga5       1.0000  0.8693  0.3693  0.7500  1.0000\n  Sm  Sm20      1.0000  0.3693  0.8693  0.2500  1.0000\n  Ga  Ga6       1.0000  0.6307  0.3693  0.2500  1.0000\n  Ga  Ga7       1.0000  0.8693  0.1307  0.2500  1.0000\n  Ga  Ga8       1.0000  0.1307  0.6307  0.2500  1.0000\n  Ga  Ga9       1.0000  0.7500  0.7500  0.9937  1.0000\n  Ga  Ga10      1.0000  0.2500  0.2500  0.5063  1.0000\n  Ga  Ga11      1.0000  0.2500  0.2500  0.0063  1.0000\n  Ga  Ga12      1.0000  0.7500  0.7500  0.4937  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8de8031d-813a-497d-82ec-295b3f711033",
    "mp_id": "mp-21799",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 49 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ta5P3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4176\n_cell_length_b   11.5528\n_cell_length_c   25.5294\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ta5P3\n_chemical_formula_sum   'Ta40 P24'\n_cell_volume   1007.9660\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.2500  0.8785  0.7246  1\n  Ta  Ta1  1  0.7500  0.4436  0.6526  1\n  Ta  Ta2  1  0.7500  0.0564  0.1526  1\n  Ta  Ta3  1  0.2500  0.9436  0.8474  1\n  Ta  Ta4  1  0.2500  0.6911  0.4551  1\n  Ta  Ta5  1  0.7500  0.3089  0.5449  1\n  Ta  Ta6  1  0.7500  0.1911  0.0449  1\n  Ta  Ta7  1  0.2500  0.8089  0.9551  1\n  Ta  Ta8  1  0.2500  0.5564  0.3474  1\n  Ta  Ta9  1  0.7500  0.5843  0.5369  1\n  Ta  Ta10  1  0.7500  0.9157  0.0369  1\n  Ta  Ta11  1  0.2500  0.0843  0.9631  1\n  Ta  Ta12  1  0.2500  0.1081  0.4999  1\n  Ta  Ta13  1  0.7500  0.8919  0.5001  1\n  Ta  Ta14  1  0.7500  0.6081  0.0001  1\n  Ta  Ta15  1  0.2500  0.3919  0.9999  1\n  Ta  Ta16  1  0.2500  0.5437  0.8233  1\n  Ta  Ta17  1  0.7500  0.4563  0.1767  1\n  Ta  Ta18  1  0.7500  0.0437  0.6767  1\n  Ta  Ta19  1  0.2500  0.9563  0.3233  1\n  Ta  Ta20  1  0.2500  0.1556  0.7607  1\n  Ta  Ta21  1  0.7500  0.8444  0.2393  1\n  Ta  Ta22  1  0.7500  0.6556  0.7393  1\n  Ta  Ta23  1  0.2500  0.3444  0.2607  1\n  Ta  Ta24  1  0.2500  0.4157  0.4631  1\n  Ta  Ta25  1  0.7500  0.1215  0.2754  1\n  Ta  Ta26  1  0.7500  0.3785  0.7754  1\n  Ta  Ta27  1  0.2500  0.6215  0.2246  1\n  Ta  Ta28  1  0.2500  0.6584  0.6381  1\n  Ta  Ta29  1  0.7500  0.3416  0.3619  1\n  Ta  Ta30  1  0.7500  0.1584  0.8619  1\n  Ta  Ta31  1  0.2500  0.8416  0.1381  1\n  Ta  Ta32  1  0.2500  0.2158  0.6246  1\n  Ta  Ta33  1  0.7500  0.7842  0.3754  1\n  Ta  Ta34  1  0.7500  0.7158  0.8754  1\n  Ta  Ta35  1  0.2500  0.2842  0.1246  1\n  Ta  Ta36  1  0.2500  0.9353  0.5994  1\n  Ta  Ta37  1  0.7500  0.0647  0.4006  1\n  Ta  Ta38  1  0.7500  0.4353  0.9006  1\n  Ta  Ta39  1  0.2500  0.5647  0.0994  1\n  P  P40  1  0.2500  0.5864  0.9267  1\n  P  P41  1  0.7500  0.4136  0.0733  1\n  P  P42  1  0.7500  0.0864  0.5733  1\n  P  P43  1  0.2500  0.9136  0.4267  1\n  P  P44  1  0.2500  0.3160  0.8439  1\n  P  P45  1  0.7500  0.6840  0.1561  1\n  P  P46  1  0.7500  0.8160  0.6561  1\n  P  P47  1  0.2500  0.1840  0.3439  1\n  P  P48  1  0.2500  0.7552  0.8021  1\n  P  P49  1  0.7500  0.2448  0.1979  1\n  P  P50  1  0.7500  0.2552  0.6979  1\n  P  P51  1  0.2500  0.7448  0.3021  1\n  P  P52  1  0.2500  0.4979  0.7211  1\n  P  P53  1  0.7500  0.5021  0.2789  1\n  P  P54  1  0.7500  0.9979  0.7789  1\n  P  P55  1  0.2500  0.0022  0.2211  1\n  P  P56  1  0.2500  0.4497  0.5779  1\n  P  P57  1  0.7500  0.5503  0.4221  1\n  P  P58  1  0.7500  0.9497  0.9221  1\n  P  P59  1  0.2500  0.0503  0.0779  1\n  P  P60  1  0.2500  0.7510  0.5492  1\n  P  P61  1  0.7500  0.2490  0.4508  1\n  P  P62  1  0.7500  0.2510  0.9508  1\n  P  P63  1  0.2500  0.7490  0.0492  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta28PTa11P9TaP14\n_chemical_formula_sum              \"Ta40 P24\"\n_cell_length_a       3.4176\n_cell_length_b       11.5528\n_cell_length_c       25.5294\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.2500  0.8785  0.7246  1.0000\n  Ta  Ta2       1.0000  0.7500  0.4436  0.6526  1.0000\n  Ta  Ta3       1.0000  0.7500  0.0564  0.1526  1.0000\n  Ta  Ta4       1.0000  0.2500  0.9436  0.8474  1.0000\n  Ta  Ta5       1.0000  0.2500  0.6911  0.4551  1.0000\n  Ta  Ta6       1.0000  0.7500  0.3089  0.5449  1.0000\n  Ta  Ta7       1.0000  0.7500  0.1911  0.0449  1.0000\n  Ta  Ta8       1.0000  0.2500  0.8089  0.9551  1.0000\n  Ta  Ta9       1.0000  0.2500  0.5564  0.3474  1.0000\n  Ta  Ta10      1.0000  0.7500  0.5843  0.5369  1.0000\n  Ta  Ta11      1.0000  0.7500  0.9157  0.0369  1.0000\n  Ta  Ta12      1.0000  0.2500  0.0843  0.9631  1.0000\n  Ta  Ta13      1.0000  0.2500  0.1081  0.4999  1.0000\n  Ta  Ta14      1.0000  0.7500  0.8919  0.5001  1.0000\n  Ta  Ta15      1.0000  0.7500  0.6081  0.0001  1.0000\n  Ta  Ta16      1.0000  0.2500  0.3919  0.9999  1.0000\n  Ta  Ta17      1.0000  0.2500  0.5437  0.8233  1.0000\n  Ta  Ta18      1.0000  0.7500  0.4563  0.1767  1.0000\n  Ta  Ta19      1.0000  0.7500  0.0437  0.6767  1.0000\n  Ta  Ta20      1.0000  0.2500  0.9563  0.3233  1.0000\n  Ta  Ta21      1.0000  0.2500  0.1556  0.7607  1.0000\n  Ta  Ta22      1.0000  0.7500  0.8444  0.2393  1.0000\n  Ta  Ta23      1.0000  0.7500  0.6556  0.7393  1.0000\n  Ta  Ta24      1.0000  0.2500  0.3444  0.2607  1.0000\n  Ta  Ta25      1.0000  0.2500  0.4157  0.4631  1.0000\n  Ta  Ta26      1.0000  0.7500  0.1215  0.2754  1.0000\n  Ta  Ta27      1.0000  0.7500  0.3785  0.7754  1.0000\n  Ta  Ta28      1.0000  0.2500  0.6215  0.2246  1.0000\n  P   P1        1.0000  0.2500  0.6584  0.6381  1.0000\n  Ta  Ta29      1.0000  0.7500  0.3416  0.3619  1.0000\n  Ta  Ta30      1.0000  0.7500  0.1584  0.8619  1.0000\n  Ta  Ta31      1.0000  0.2500  0.8416  0.1381  1.0000\n  Ta  Ta32      1.0000  0.2500  0.2158  0.6246  1.0000\n  Ta  Ta33      1.0000  0.7500  0.7842  0.3754  1.0000\n  Ta  Ta34      1.0000  0.7500  0.7158  0.8754  1.0000\n  Ta  Ta35      1.0000  0.2500  0.2842  0.1246  1.0000\n  Ta  Ta36      1.0000  0.2500  0.9353  0.5994  1.0000\n  Ta  Ta37      1.0000  0.7500  0.0647  0.4006  1.0000\n  Ta  Ta38      1.0000  0.7500  0.4353  0.9006  1.0000\n  Ta  Ta39      1.0000  0.2500  0.5647  0.0994  1.0000\n  P   P2        1.0000  0.2500  0.5864  0.9267  1.0000\n  P   P3        1.0000  0.7500  0.4136  0.0733  1.0000\n  P   P4        1.0000  0.7500  0.0864  0.5733  1.0000\n  P   P5        1.0000  0.2500  0.9136  0.4267  1.0000\n  P   P6        1.0000  0.2500  0.3160  0.8439  1.0000\n  P   P7        1.0000  0.7500  0.6840  0.1561  1.0000\n  P   P8        1.0000  0.7500  0.8160  0.6561  1.0000\n  P   P9        1.0000  0.2500  0.1840  0.3439  1.0000\n  P   P10       1.0000  0.2500  0.7552  0.8021  1.0000\n  Ta  Ta40      1.0000  0.7500  0.2448  0.1979  1.0000\n  P   P11       1.0000  0.7500  0.2552  0.6979  1.0000\n  P   P12       1.0000  0.2500  0.7448  0.3021  1.0000\n  P   P13       1.0000  0.2500  0.4979  0.7211  1.0000\n  P   P14       1.0000  0.7500  0.5021  0.2789  1.0000\n  P   P15       1.0000  0.7500  0.9979  0.7789  1.0000\n  P   P16       1.0000  0.2500  0.0021  0.2211  1.0000\n  P   P17       1.0000  0.2500  0.4497  0.5779  1.0000\n  P   P18       1.0000  0.7500  0.5503  0.4221  1.0000\n  P   P19       1.0000  0.7500  0.9497  0.9221  1.0000\n  P   P20       1.0000  0.2500  0.0503  0.0779  1.0000\n  P   P21       1.0000  0.2500  0.7510  0.5492  1.0000\n  P   P22       1.0000  0.7500  0.2490  0.4508  1.0000\n  P   P23       1.0000  0.7500  0.2510  0.9508  1.0000\n  P   P24       1.0000  0.2500  0.7490  0.0492  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "517007e4-caf4-4775-8cb5-9240fefd2f3d",
    "mp_id": "mp-22042",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiCo2P3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5707\n_cell_length_b   4.6562\n_cell_length_c   9.0733\n_cell_angle_alpha   82.1349\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiCo2P3O10\n_chemical_formula_sum   'Li2 Co4 P6 O20'\n_cell_volume   358.6778\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.0000  0.0000  1\n  Li  Li1  1  0.0000  0.0000  0.0000  1\n  Co  Co2  1  0.5699  0.9633  0.3361  1\n  Co  Co3  1  0.0699  0.0367  0.6640  1\n  Co  Co4  1  0.4301  0.0367  0.6640  1\n  Co  Co5  1  0.9301  0.9633  0.3361  1\n  P  P6  1  0.2500  0.4575  0.8554  1\n  P  P7  1  0.7500  0.5425  0.1446  1\n  P  P8  1  0.2500  0.3283  0.1774  1\n  P  P9  1  0.7500  0.6717  0.8226  1\n  P  P10  1  0.2500  0.6054  0.4614  1\n  P  P11  1  0.7500  0.3946  0.5386  1\n  O  O12  1  0.9003  0.2239  0.5180  1\n  O  O13  1  0.7500  0.2423  0.2394  1\n  O  O14  1  0.6006  0.7166  0.1584  1\n  O  O15  1  0.1006  0.2834  0.8416  1\n  O  O16  1  0.3994  0.2834  0.8416  1\n  O  O17  1  0.8994  0.7166  0.1584  1\n  O  O18  1  0.2500  0.5492  0.0241  1\n  O  O19  1  0.7500  0.4508  0.9759  1\n  O  O20  1  0.2500  0.7577  0.7606  1\n  O  O21  1  0.4003  0.7761  0.4820  1\n  O  O22  1  0.0997  0.7761  0.4820  1\n  O  O23  1  0.5997  0.2239  0.5180  1\n  O  O24  1  0.7500  0.6972  0.4474  1\n  O  O25  1  0.2500  0.3028  0.5526  1\n  O  O26  1  0.5995  0.8415  0.8138  1\n  O  O27  1  0.2500  0.5644  0.2876  1\n  O  O28  1  0.9005  0.8415  0.8138  1\n  O  O29  1  0.4005  0.1585  0.1862  1\n  O  O30  1  0.0995  0.1585  0.1862  1\n  O  O31  1  0.7500  0.4356  0.7124  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2CoOCo2P6O14CoO5\n_chemical_formula_sum              \"Li2 Co4 O20 P6\"\n_cell_length_a       8.5707\n_cell_length_b       4.6562\n_cell_length_c       9.0733\n_cell_angle_alpha    82.1349\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Li  Li2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co1       1.0000  0.5699  0.9633  0.3361  1.0000\n  O   O1        1.0000  0.0699  0.0367  0.6640  1.0000\n  Co  Co2       1.0000  0.4301  0.0367  0.6640  1.0000\n  Co  Co3       1.0000  0.9301  0.9633  0.3361  1.0000\n  P   P1        1.0000  0.2500  0.4575  0.8554  1.0000\n  P   P2        1.0000  0.7500  0.5425  0.1446  1.0000\n  P   P3        1.0000  0.2500  0.3283  0.1774  1.0000\n  P   P4        1.0000  0.7500  0.6717  0.8226  1.0000\n  P   P5        1.0000  0.2500  0.6054  0.4614  1.0000\n  P   P6        1.0000  0.7500  0.3946  0.5386  1.0000\n  O   O2        1.0000  0.9003  0.2239  0.5180  1.0000\n  O   O3        1.0000  0.7500  0.2423  0.2394  1.0000\n  O   O4        1.0000  0.6006  0.7166  0.1584  1.0000\n  O   O5        1.0000  0.1006  0.2834  0.8416  1.0000\n  O   O6        1.0000  0.3994  0.2834  0.8416  1.0000\n  O   O7        1.0000  0.8994  0.7166  0.1584  1.0000\n  O   O8        1.0000  0.2500  0.5492  0.0241  1.0000\n  O   O9        1.0000  0.7500  0.4508  0.9759  1.0000\n  O   O10       1.0000  0.2500  0.7577  0.7606  1.0000\n  O   O11       1.0000  0.4003  0.7761  0.4820  1.0000\n  O   O12       1.0000  0.0997  0.7761  0.4820  1.0000\n  O   O13       1.0000  0.5997  0.2239  0.5180  1.0000\n  O   O14       1.0000  0.7500  0.6972  0.4474  1.0000\n  O   O15       1.0000  0.2500  0.3028  0.5526  1.0000\n  Co  Co4       1.0000  0.5995  0.8415  0.8138  1.0000\n  O   O16       1.0000  0.2500  0.5644  0.2876  1.0000\n  O   O17       1.0000  0.9005  0.8415  0.8138  1.0000\n  O   O18       1.0000  0.4005  0.1585  0.1862  1.0000\n  O   O19       1.0000  0.0995  0.1585  0.1862  1.0000\n  O   O20       1.0000  0.7500  0.4356  0.7124  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6aceac77-6b6d-485b-b742-885a645033fb",
    "mp_id": "mp-2206289",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al11TlO17\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5927\n_cell_length_b   5.5927\n_cell_length_c   22.8567\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.9952\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al11TlO17\n_chemical_formula_sum   'Al22 Tl2 O34'\n_cell_volume   619.1690\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.3351  0.1681  0.6051  1\n  Al  Al1  1  0.3351  0.1681  0.8949  1\n  Al  Al2  1  0.6675  0.3338  0.3249  1\n  Al  Al3  1  0.6673  0.3339  0.4751  1\n  Al  Al4  1  0.6675  0.3338  0.1751  1\n  Al  Al5  1  0.0008  0.0008  0.5000  1\n  Al  Al6  1  0.0008  0.0008  0.0000  1\n  Al  Al7  1  0.6673  0.3339  0.0249  1\n  Al  Al8  1  0.8332  0.1680  0.8949  1\n  Al  Al9  1  0.8332  0.1680  0.6051  1\n  Al  Al10  1  0.8333  0.6662  0.8949  1\n  Al  Al11  1  0.8333  0.6662  0.6051  1\n  Al  Al12  1  0.1681  0.3351  0.1051  1\n  Al  Al13  1  0.1681  0.3351  0.3949  1\n  Al  Al14  1  0.1680  0.8332  0.1051  1\n  Al  Al15  1  0.3338  0.6675  0.8249  1\n  Al  Al16  1  0.3338  0.6675  0.6751  1\n  Al  Al17  1  0.3339  0.6673  0.5249  1\n  Al  Al18  1  0.3339  0.6673  0.9751  1\n  Al  Al19  1  0.1680  0.8332  0.3949  1\n  Al  Al20  1  0.6662  0.8333  0.3949  1\n  Al  Al21  1  0.6662  0.8333  0.1051  1\n  Tl  Tl22  1  0.6683  0.3366  0.7500  1\n  Tl  Tl23  1  0.3366  0.6683  0.2500  1\n  O  O24  1  0.3143  0.1574  0.4510  1\n  O  O25  1  0.3143  0.1574  0.0490  1\n  O  O26  1  0.5018  0.0033  0.6433  1\n  O  O27  1  0.5018  0.0033  0.8567  1\n  O  O28  1  0.6665  0.3333  0.2500  1\n  O  O29  1  0.8439  0.1574  0.0490  1\n  O  O30  1  0.6672  0.3340  0.5546  1\n  O  O31  1  0.0008  0.0006  0.3604  1\n  O  O32  1  0.0008  0.0006  0.1396  1\n  O  O33  1  0.0006  0.0008  0.8604  1\n  O  O34  1  0.0006  0.0008  0.6396  1\n  O  O35  1  0.6672  0.3340  0.9454  1\n  O  O36  1  0.5018  0.4997  0.6432  1\n  O  O37  1  0.8439  0.1574  0.4510  1\n  O  O38  1  0.5018  0.4997  0.8568  1\n  O  O39  1  0.1574  0.3143  0.9510  1\n  O  O40  1  0.1574  0.3143  0.5490  1\n  O  O41  1  0.9982  0.4996  0.6432  1\n  O  O42  1  0.9982  0.4996  0.8568  1\n  O  O43  1  0.0033  0.5018  0.3567  1\n  O  O44  1  0.0033  0.5018  0.1433  1\n  O  O45  1  0.8439  0.6871  0.4510  1\n  O  O46  1  0.8439  0.6871  0.0490  1\n  O  O47  1  0.4997  0.5018  0.1432  1\n  O  O48  1  0.3333  0.6665  0.7500  1\n  O  O49  1  0.3340  0.6672  0.0546  1\n  O  O50  1  0.4997  0.5018  0.3568  1\n  O  O51  1  0.1574  0.8439  0.5490  1\n  O  O52  1  0.1574  0.8439  0.9510  1\n  O  O53  1  0.3340  0.6672  0.4454  1\n  O  O54  1  0.4996  0.9982  0.3568  1\n  O  O55  1  0.4996  0.9982  0.1432  1\n  O  O56  1  0.6871  0.8439  0.9510  1\n  O  O57  1  0.6871  0.8439  0.5490  1\n",
    "output": "data_image0\n_chemical_formula_structural       AlOAl20Tl2O14AlO19\n_chemical_formula_sum              \"Al22 O34 Tl2\"\n_cell_length_a       5.5927\n_cell_length_b       5.5927\n_cell_length_c       22.8567\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.9952\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.3351  0.1681  0.6051  1.0000\n  O   O1        1.0000  0.3351  0.1681  0.8949  1.0000\n  Al  Al2       1.0000  0.6675  0.3338  0.3249  1.0000\n  Al  Al3       1.0000  0.6673  0.3339  0.4751  1.0000\n  Al  Al4       1.0000  0.6675  0.3338  0.1751  1.0000\n  Al  Al5       1.0000  0.0008  0.0008  0.5000  1.0000\n  Al  Al6       1.0000  0.0008  0.0008  0.0000  1.0000\n  Al  Al7       1.0000  0.6673  0.3339  0.0249  1.0000\n  Al  Al8       1.0000  0.8332  0.1680  0.8949  1.0000\n  Al  Al9       1.0000  0.8332  0.1680  0.6051  1.0000\n  Al  Al10      1.0000  0.8333  0.6662  0.8949  1.0000\n  Al  Al11      1.0000  0.8333  0.6662  0.6051  1.0000\n  Al  Al12      1.0000  0.1681  0.3351  0.1051  1.0000\n  Al  Al13      1.0000  0.1681  0.3351  0.3949  1.0000\n  Al  Al14      1.0000  0.1680  0.8332  0.1051  1.0000\n  Al  Al15      1.0000  0.3338  0.6675  0.8249  1.0000\n  Al  Al16      1.0000  0.3338  0.6675  0.6751  1.0000\n  Al  Al17      1.0000  0.3339  0.6673  0.5249  1.0000\n  Al  Al18      1.0000  0.3339  0.6673  0.9751  1.0000\n  Al  Al19      1.0000  0.1680  0.8332  0.3949  1.0000\n  Al  Al20      1.0000  0.6662  0.8333  0.3949  1.0000\n  Al  Al21      1.0000  0.6662  0.8333  0.1051  1.0000\n  Tl  Tl1       1.0000  0.6683  0.3366  0.7500  1.0000\n  Tl  Tl2       1.0000  0.3366  0.6683  0.2500  1.0000\n  O   O2        1.0000  0.3143  0.1574  0.4510  1.0000\n  O   O3        1.0000  0.3143  0.1574  0.0490  1.0000\n  O   O4        1.0000  0.5018  0.0033  0.6433  1.0000\n  O   O5        1.0000  0.5018  0.0033  0.8567  1.0000\n  O   O6        1.0000  0.6665  0.3333  0.2500  1.0000\n  O   O7        1.0000  0.8439  0.1574  0.0490  1.0000\n  O   O8        1.0000  0.6672  0.3340  0.5546  1.0000\n  O   O9        1.0000  0.0008  0.0006  0.3604  1.0000\n  O   O10       1.0000  0.0008  0.0006  0.1396  1.0000\n  O   O11       1.0000  0.0006  0.0008  0.8604  1.0000\n  O   O12       1.0000  0.0006  0.0008  0.6396  1.0000\n  O   O13       1.0000  0.6672  0.3340  0.9454  1.0000\n  O   O14       1.0000  0.5018  0.4997  0.6432  1.0000\n  O   O15       1.0000  0.8439  0.1574  0.4510  1.0000\n  Al  Al22      1.0000  0.5018  0.4997  0.8568  1.0000\n  O   O16       1.0000  0.1574  0.3143  0.9510  1.0000\n  O   O17       1.0000  0.1574  0.3143  0.5490  1.0000\n  O   O18       1.0000  0.9982  0.4996  0.6432  1.0000\n  O   O19       1.0000  0.9982  0.4996  0.8568  1.0000\n  O   O20       1.0000  0.0033  0.5018  0.3567  1.0000\n  O   O21       1.0000  0.0033  0.5018  0.1433  1.0000\n  O   O22       1.0000  0.8439  0.6871  0.4510  1.0000\n  O   O23       1.0000  0.8439  0.6871  0.0490  1.0000\n  O   O24       1.0000  0.4997  0.5018  0.1432  1.0000\n  O   O25       1.0000  0.3333  0.6665  0.7500  1.0000\n  O   O26       1.0000  0.3340  0.6672  0.0546  1.0000\n  O   O27       1.0000  0.4997  0.5018  0.3568  1.0000\n  O   O28       1.0000  0.1574  0.8439  0.5490  1.0000\n  O   O29       1.0000  0.1574  0.8439  0.9510  1.0000\n  O   O30       1.0000  0.3340  0.6672  0.4454  1.0000\n  O   O31       1.0000  0.4996  0.9982  0.3568  1.0000\n  O   O32       1.0000  0.4996  0.9982  0.1432  1.0000\n  O   O33       1.0000  0.6871  0.8439  0.9510  1.0000\n  O   O34       1.0000  0.6871  0.8439  0.5490  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d09b2e85-7ff3-4f89-b8cc-41afd600b4d7",
    "mp_id": "mp-22076",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaFe(WO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8297\n_cell_length_b   5.0778\n_cell_length_c   10.0260\n_cell_angle_alpha   89.0794\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaFe(WO4)2\n_chemical_formula_sum   'Na2 Fe2 W4 O16'\n_cell_volume   296.7493\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6877  0.7500  0.5000  1\n  Na  Na1  1  0.3123  0.2500  0.5000  1\n  Fe  Fe2  1  0.6608  0.7500  0.0000  1\n  Fe  Fe3  1  0.3392  0.2500  0.0000  1\n  W  W4  1  0.1763  0.7605  0.7644  1\n  W  W5  1  0.1763  0.7395  0.2356  1\n  W  W6  1  0.8237  0.2395  0.2356  1\n  W  W7  1  0.8237  0.2605  0.7644  1\n  O  O8  1  0.1248  0.0774  0.8749  1\n  O  O9  1  0.1248  0.4226  0.1251  1\n  O  O10  1  0.8752  0.9226  0.1251  1\n  O  O11  1  0.8752  0.5774  0.8749  1\n  O  O12  1  0.0906  0.4486  0.6710  1\n  O  O13  1  0.0906  0.0514  0.3290  1\n  O  O14  1  0.9094  0.5514  0.3290  1\n  O  O15  1  0.9094  0.9486  0.6710  1\n  O  O16  1  0.3751  0.5915  0.8925  1\n  O  O17  1  0.3751  0.9085  0.1075  1\n  O  O18  1  0.6249  0.4085  0.1075  1\n  O  O19  1  0.6249  0.0915  0.8925  1\n  O  O20  1  0.6233  0.3785  0.6459  1\n  O  O21  1  0.6233  0.1215  0.3541  1\n  O  O22  1  0.3767  0.6215  0.3541  1\n  O  O23  1  0.3767  0.8785  0.6459  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2Fe2OW3OWO14\n_chemical_formula_sum              \"Na2 Fe2 O16 W4\"\n_cell_length_a       5.8297\n_cell_length_b       5.0778\n_cell_length_c       10.0260\n_cell_angle_alpha    89.0794\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6877  0.7500  0.5000  1.0000\n  Na  Na2       1.0000  0.3123  0.2500  0.5000  1.0000\n  Fe  Fe1       1.0000  0.6608  0.7500  0.0000  1.0000\n  Fe  Fe2       1.0000  0.3392  0.2500  0.0000  1.0000\n  O   O1        1.0000  0.1763  0.7605  0.7644  1.0000\n  W   W1        1.0000  0.1763  0.7395  0.2356  1.0000\n  W   W2        1.0000  0.8237  0.2395  0.2356  1.0000\n  W   W3        1.0000  0.8237  0.2605  0.7644  1.0000\n  O   O2        1.0000  0.1248  0.0774  0.8749  1.0000\n  W   W4        1.0000  0.1248  0.4226  0.1251  1.0000\n  O   O3        1.0000  0.8752  0.9226  0.1251  1.0000\n  O   O4        1.0000  0.8752  0.5774  0.8749  1.0000\n  O   O5        1.0000  0.0906  0.4486  0.6710  1.0000\n  O   O6        1.0000  0.0906  0.0514  0.3290  1.0000\n  O   O7        1.0000  0.9094  0.5514  0.3290  1.0000\n  O   O8        1.0000  0.9094  0.9486  0.6710  1.0000\n  O   O9        1.0000  0.3751  0.5915  0.8925  1.0000\n  O   O10       1.0000  0.3751  0.9085  0.1075  1.0000\n  O   O11       1.0000  0.6249  0.4085  0.1075  1.0000\n  O   O12       1.0000  0.6249  0.0915  0.8925  1.0000\n  O   O13       1.0000  0.6233  0.3785  0.6459  1.0000\n  O   O14       1.0000  0.6233  0.1215  0.3541  1.0000\n  O   O15       1.0000  0.3767  0.6215  0.3541  1.0000\n  O   O16       1.0000  0.3767  0.8785  0.6459  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "161b2d74-77c7-48aa-92ed-9ae4b5775c06",
    "mp_id": "mp-2215910",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgZn2(FeO2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3429\n_cell_length_b   6.3429\n_cell_length_c   6.4190\n_cell_angle_alpha   56.2661\n_cell_angle_beta   56.2661\n_cell_angle_gamma   56.4284\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgZn2(FeO2)4\n_chemical_formula_sum   'Mg1 Zn2 Fe4 O8'\n_cell_volume   167.0660\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1250  0.1250  0.1250  1\n  Zn  Zn1  1  0.1250  0.6250  0.6250  1\n  Zn  Zn2  1  0.6250  0.1250  0.6250  1\n  Fe  Fe3  1  0.9419  0.9419  0.0125  1\n  Fe  Fe4  1  0.3081  0.3081  0.2375  1\n  Fe  Fe5  1  0.6250  0.6250  0.1250  1\n  Fe  Fe6  1  0.6250  0.6250  0.6250  1\n  O  O7  1  0.3989  0.3989  0.4076  1\n  O  O8  1  0.3880  0.3880  0.8576  1\n  O  O9  1  0.3942  0.8772  0.3512  1\n  O  O10  1  0.8772  0.3942  0.3512  1\n  O  O11  1  0.3728  0.8558  0.8988  1\n  O  O12  1  0.8558  0.3728  0.8988  1\n  O  O13  1  0.8620  0.8620  0.3924  1\n  O  O14  1  0.8511  0.8511  0.8424  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgZnOFe4OZnO6\n_chemical_formula_sum              \"Mg1 Zn2 O8 Fe4\"\n_cell_length_a       6.3429\n_cell_length_b       6.3429\n_cell_length_c       6.4190\n_cell_angle_alpha    56.2661\n_cell_angle_beta     56.2661\n_cell_angle_gamma    56.4284\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1250  0.1250  0.1250  1.0000\n  Zn  Zn1       1.0000  0.1250  0.6250  0.6250  1.0000\n  O   O1        1.0000  0.6250  0.1250  0.6250  1.0000\n  Fe  Fe1       1.0000  0.9419  0.9419  0.0125  1.0000\n  Fe  Fe2       1.0000  0.3081  0.3081  0.2375  1.0000\n  Fe  Fe3       1.0000  0.6250  0.6250  0.1250  1.0000\n  Fe  Fe4       1.0000  0.6250  0.6250  0.6250  1.0000\n  O   O2        1.0000  0.3989  0.3989  0.4076  1.0000\n  Zn  Zn2       1.0000  0.3880  0.3880  0.8576  1.0000\n  O   O3        1.0000  0.3942  0.8772  0.3512  1.0000\n  O   O4        1.0000  0.8772  0.3942  0.3512  1.0000\n  O   O5        1.0000  0.3728  0.8558  0.8988  1.0000\n  O   O6        1.0000  0.8558  0.3728  0.8988  1.0000\n  O   O7        1.0000  0.8620  0.8620  0.3924  1.0000\n  O   O8        1.0000  0.8511  0.8511  0.8424  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7b341a48-eb7d-4f85-b797-a18b09b90ea1",
    "mp_id": "mp-2217621",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2Mg(TiS3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0532\n_cell_length_b   7.0532\n_cell_length_c   7.2882\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2Mg(TiS3)2\n_chemical_formula_sum   'Ba2 Mg1 Ti2 S6'\n_cell_volume   313.9967\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.3333  0.6667  0.7500  1\n  Ba  Ba1  1  0.6667  0.3333  0.2500  1\n  Mg  Mg2  1  0.0000  0.0000  0.2500  1\n  Ti  Ti3  1  0.0000  0.0000  0.9141  1\n  Ti  Ti4  1  0.0000  0.0000  0.5859  1\n  S  S5  1  0.8350  0.1650  0.7500  1\n  S  S6  1  0.6362  0.8181  0.2500  1\n  S  S7  1  0.1819  0.3638  0.2500  1\n  S  S8  1  0.8350  0.6699  0.7500  1\n  S  S9  1  0.1819  0.8181  0.2500  1\n  S  S10  1  0.3301  0.1650  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       SBaMgTi2S5Ba\n_chemical_formula_sum              \"S6 Ba2 Mg1 Ti2\"\n_cell_length_a       7.0532\n_cell_length_b       7.0532\n_cell_length_c       7.2882\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.3333  0.6667  0.7500  1.0000\n  Ba  Ba1       1.0000  0.6667  0.3333  0.2500  1.0000\n  Mg  Mg1       1.0000  0.0000  0.0000  0.2500  1.0000\n  Ti  Ti1       1.0000  0.0000  0.0000  0.9141  1.0000\n  Ti  Ti2       1.0000  0.0000  0.0000  0.5859  1.0000\n  S   S2        1.0000  0.8350  0.1650  0.7500  1.0000\n  S   S3        1.0000  0.6362  0.8181  0.2500  1.0000\n  S   S4        1.0000  0.1819  0.3638  0.2500  1.0000\n  S   S5        1.0000  0.8350  0.6699  0.7500  1.0000\n  S   S6        1.0000  0.1819  0.8181  0.2500  1.0000\n  Ba  Ba2       1.0000  0.3301  0.1650  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "94f02805-5984-4297-8e35-3a2e56358f78",
    "mp_id": "mp-2217707",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2MgVMoO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8501\n_cell_length_b   5.8501\n_cell_length_c   6.4681\n_cell_angle_alpha   63.1135\n_cell_angle_beta   63.1135\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2MgVMoO6\n_chemical_formula_sum   'Ba2 Mg1 V1 Mo1 O6'\n_cell_volume   163.4923\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.1990  0.1990  0.4031  1\n  Ba  Ba1  1  0.7378  0.7378  0.7865  1\n  Mg  Mg2  1  0.3656  0.3656  0.9032  1\n  V  V3  1  0.9932  0.9932  0.0205  1\n  Mo  Mo4  1  0.5226  0.5226  0.4321  1\n  O  O5  1  0.7645  0.2645  0.2066  1\n  O  O6  1  0.7513  0.2560  0.7367  1\n  O  O7  1  0.7645  0.7645  0.2066  1\n  O  O8  1  0.2560  0.7513  0.7367  1\n  O  O9  1  0.2645  0.7645  0.2066  1\n  O  O10  1  0.2560  0.2560  0.7367  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2MgOMoO3VO2\n_chemical_formula_sum              \"Ba2 Mg1 O6 Mo1 V1\"\n_cell_length_a       5.8501\n_cell_length_b       5.8501\n_cell_length_c       6.4681\n_cell_angle_alpha    63.1135\n_cell_angle_beta     63.1135\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.1990  0.1990  0.4031  1.0000\n  Ba  Ba2       1.0000  0.7378  0.7378  0.7865  1.0000\n  Mg  Mg1       1.0000  0.3656  0.3656  0.9032  1.0000\n  O   O1        1.0000  0.9932  0.9932  0.0205  1.0000\n  Mo  Mo1       1.0000  0.5226  0.5226  0.4321  1.0000\n  O   O2        1.0000  0.7645  0.2645  0.2066  1.0000\n  O   O3        1.0000  0.7513  0.2560  0.7367  1.0000\n  O   O4        1.0000  0.7645  0.7645  0.2066  1.0000\n  V   V1        1.0000  0.2560  0.7513  0.7367  1.0000\n  O   O5        1.0000  0.2645  0.7645  0.2066  1.0000\n  O   O6        1.0000  0.2560  0.2560  0.7367  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d67cf1cc-fe75-497d-af8e-9b8714c90bca",
    "mp_id": "mp-2217878",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn2Al2O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1273\n_cell_length_b   5.1245\n_cell_length_c   5.7575\n_cell_angle_alpha   63.6389\n_cell_angle_beta   116.6189\n_cell_angle_gamma   119.9636\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn2Al2O6\n_chemical_formula_sum   'Mg1 Mn2 Al2 O6'\n_cell_volume   112.3301\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.0000  0.0000  1\n  Mn  Mn1  1  0.6246  0.3782  0.8698  1\n  Mn  Mn2  1  0.3754  0.6218  0.1302  1\n  Al  Al3  1  0.8237  0.1757  0.4722  1\n  Al  Al4  1  0.1763  0.8243  0.5278  1\n  O  O5  1  0.9599  0.8104  0.7296  1\n  O  O6  1  0.5816  0.0433  0.7287  1\n  O  O7  1  0.1911  0.4202  0.7311  1\n  O  O8  1  0.8089  0.5798  0.2689  1\n  O  O9  1  0.4184  0.9567  0.2713  1\n  O  O10  1  0.0401  0.1896  0.2704  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn2MgAl2O6\n_chemical_formula_sum              \"Mn2 Mg1 Al2 O6\"\n_cell_length_a       5.1273\n_cell_length_b       5.1245\n_cell_length_c       5.7575\n_cell_angle_alpha    63.6389\n_cell_angle_beta     116.6189\n_cell_angle_gamma    119.9636\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  2e-06  0.0000  1e-06  1.0000\n  Mn  Mn2       1.0000  0.6246  0.3782  0.8698  1.0000\n  Mg  Mg1       1.0000  0.3754  0.6218  0.1302  1.0000\n  Al  Al1       1.0000  0.8237  0.1757  0.4722  1.0000\n  Al  Al2       1.0000  0.1763  0.8243  0.5278  1.0000\n  O   O1        1.0000  0.9599  0.8104  0.7296  1.0000\n  O   O2        1.0000  0.5816  0.0433  0.7287  1.0000\n  O   O3        1.0000  0.1911  0.4202  0.7311  1.0000\n  O   O4        1.0000  0.8089  0.5798  0.2689  1.0000\n  O   O5        1.0000  0.4184  0.9567  0.2713  1.0000\n  O   O6        1.0000  0.0401  0.1896  0.2704  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9950dd6f-0066-4b3c-8edc-a4d1efd38d32",
    "mp_id": "mp-2218067",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCu2(GeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.1154\n_cell_length_b   5.4563\n_cell_length_c   8.4905\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCu2(GeO3)2\n_chemical_formula_sum   'Mg1 Cu2 Ge2 O6'\n_cell_volume   144.3268\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.6034  0.2500  1\n  Cu  Cu1  1  0.0000  0.4971  0.5347  1\n  Cu  Cu2  1  0.0000  0.4971  0.9653  1\n  Ge  Ge3  1  0.5000  0.0971  0.2500  1\n  Ge  Ge4  1  0.5000  0.9024  0.7500  1\n  O  O5  1  0.0000  0.8703  0.2500  1\n  O  O6  1  0.0000  0.0832  0.7500  1\n  O  O7  1  0.5000  0.3193  0.4092  1\n  O  O8  1  0.5000  0.7116  0.5805  1\n  O  O9  1  0.5000  0.3193  0.0908  1\n  O  O10  1  0.5000  0.7116  0.9195  1\n",
    "output": "data_image0\n_chemical_formula_structural       GeCu2GeMgO6\n_chemical_formula_sum              \"Ge2 Cu2 Mg1 O6\"\n_cell_length_a       3.1154\n_cell_length_b       5.4563\n_cell_length_c       8.4905\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ge  Ge1       1.0000  0.5000  0.6034  0.2500  1.0000\n  Cu  Cu1       1.0000  0.0000  0.4971  0.5347  1.0000\n  Cu  Cu2       1.0000  0.0000  0.4971  0.9653  1.0000\n  Ge  Ge2       1.0000  0.5000  0.0971  0.2500  1.0000\n  Mg  Mg1       1.0000  0.5000  0.9024  0.7500  1.0000\n  O   O1        1.0000  0.0000  0.8703  0.2500  1.0000\n  O   O2        1.0000  0.0000  0.0832  0.7500  1.0000\n  O   O3        1.0000  0.5000  0.3193  0.4092  1.0000\n  O   O4        1.0000  0.5000  0.7116  0.5805  1.0000\n  O   O5        1.0000  0.5000  0.3193  0.0908  1.0000\n  O   O6        1.0000  0.5000  0.7116  0.9195  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "83e74c34-9096-4ec0-8fa8-8beef6d34389",
    "mp_id": "mp-2218172",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCo(WO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0202\n_cell_length_b   5.7952\n_cell_length_c   6.2360\n_cell_angle_alpha   82.4395\n_cell_angle_beta   86.6858\n_cell_angle_gamma   118.6610\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCo(WO4)2\n_chemical_formula_sum   'Mg1 Co1 W2 O8'\n_cell_volume   156.2788\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  -0.0000  0.5000  1\n  Co  Co1  1  0.5000  -0.0000  0.0000  1\n  W  W2  1  0.2417  0.4255  0.7094  1\n  W  W3  1  0.7583  0.5745  0.2906  1\n  O  O4  1  0.6509  0.7238  0.5259  1\n  O  O5  1  0.1752  0.7623  0.3058  1\n  O  O6  1  0.2637  0.7346  0.7922  1\n  O  O7  1  0.3048  0.2447  0.9340  1\n  O  O8  1  0.3491  0.2762  0.4741  1\n  O  O9  1  0.8248  0.2377  0.6942  1\n  O  O10  1  0.6952  0.7553  0.0660  1\n  O  O11  1  0.7363  0.2654  0.2078  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgOW2CoO7\n_chemical_formula_sum              \"Mg1 O8 W2 Co1\"\n_cell_length_a       5.0202\n_cell_length_b       5.7952\n_cell_length_c       6.2360\n_cell_angle_alpha    82.4395\n_cell_angle_beta     86.6858\n_cell_angle_gamma    118.6610\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.0000  0.0000  1.0000\n  W   W1        1.0000  0.2417  0.4255  0.7094  1.0000\n  W   W2        1.0000  0.7583  0.5745  0.2906  1.0000\n  Co  Co1       1.0000  0.6509  0.7238  0.5259  1.0000\n  O   O2        1.0000  0.1752  0.7623  0.3058  1.0000\n  O   O3        1.0000  0.2637  0.7346  0.7922  1.0000\n  O   O4        1.0000  0.3048  0.2447  0.9340  1.0000\n  O   O5        1.0000  0.3491  0.2762  0.4741  1.0000\n  O   O6        1.0000  0.8248  0.2377  0.6942  1.0000\n  O   O7        1.0000  0.6952  0.7553  0.0660  1.0000\n  O   O8        1.0000  0.7363  0.2654  0.2078  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0eac4e2c-db37-4136-a86f-ec28bdd6a69a",
    "mp_id": "mp-2218202",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV3(OF)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8903\n_cell_length_b   9.8076\n_cell_length_c   3.0605\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.5522\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV3(OF)4\n_chemical_formula_sum   'Mg1 V3 O4 F4'\n_cell_volume   146.7803\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.4462  0.0942  0.7500  1\n  V  V1  1  0.0346  0.8401  0.7500  1\n  V  V2  1  0.4107  0.3863  0.7500  1\n  V  V3  1  0.5504  0.6363  0.2500  1\n  O  O4  1  0.2784  0.4864  0.2500  1\n  O  O5  1  0.3655  0.7374  0.7500  1\n  O  O6  1  0.6902  0.5292  0.7500  1\n  O  O7  1  0.8616  0.7580  0.2500  1\n  F  F8  1  0.1561  0.2332  0.7500  1\n  F  F9  1  0.2734  0.9819  0.2500  1\n  F  F10  1  0.5750  0.2378  0.2500  1\n  F  F11  1  0.7899  0.0011  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       V3MgO4F4\n_chemical_formula_sum              \"V3 Mg1 O4 F4\"\n_cell_length_a       4.8903\n_cell_length_b       9.8076\n_cell_length_c       3.0605\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.5522\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.4462  0.0942  0.7500  1.0000\n  V   V2        1.0000  0.0346  0.8401  0.7500  1.0000\n  V   V3        1.0000  0.4107  0.3863  0.7500  1.0000\n  Mg  Mg1       1.0000  0.5504  0.6363  0.2500  1.0000\n  O   O1        1.0000  0.2784  0.4864  0.2500  1.0000\n  O   O2        1.0000  0.3655  0.7374  0.7500  1.0000\n  O   O3        1.0000  0.6902  0.5292  0.7500  1.0000\n  O   O4        1.0000  0.8616  0.7580  0.2500  1.0000\n  F   F1        1.0000  0.1561  0.2332  0.7500  1.0000\n  F   F2        1.0000  0.2734  0.9819  0.2500  1.0000\n  F   F3        1.0000  0.5750  0.2378  0.2500  1.0000\n  F   F4        1.0000  0.7899  0.0011  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d843f5ea-0083-469f-9fbf-146d0d8cfb47",
    "mp_id": "mp-2218885",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn2(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0509\n_cell_length_b   5.0657\n_cell_length_c   6.4645\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   67.2410\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn2(PO4)2\n_chemical_formula_sum   'Mg1 Mn2 P2 O8'\n_cell_volume   152.5257\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6772  0.6688  0.2500  1\n  Mn  Mn1  1  0.0088  0.0076  0.5163  1\n  Mn  Mn2  1  0.0088  0.0076  0.9837  1\n  P  P3  1  0.3502  0.3499  0.2500  1\n  P  P4  1  0.6442  0.6433  0.7500  1\n  O  O5  1  0.6931  0.2490  0.2500  1\n  O  O6  1  0.7484  0.7477  0.5486  1\n  O  O7  1  0.2494  0.2512  0.0555  1\n  O  O8  1  0.2494  0.2512  0.4445  1\n  O  O9  1  0.7682  0.3115  0.7500  1\n  O  O10  1  0.3114  0.7673  0.7500  1\n  O  O11  1  0.7484  0.7477  0.9514  1\n  O  O12  1  0.2508  0.6917  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMn2PO4PO4\n_chemical_formula_sum              \"Mg1 Mn2 P2 O8\"\n_cell_length_a       5.0509\n_cell_length_b       5.0657\n_cell_length_c       6.4645\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    67.2410\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6772  0.6688  0.2500  1.0000\n  Mn  Mn1       1.0000  0.0088  0.0076  0.5163  1.0000\n  Mn  Mn2       1.0000  0.0088  0.0076  0.9837  1.0000\n  P   P1        1.0000  0.3502  0.3499  0.2500  1.0000\n  O   O1        1.0000  0.6442  0.6433  0.7500  1.0000\n  O   O2        1.0000  0.6931  0.2490  0.2500  1.0000\n  O   O3        1.0000  0.7484  0.7477  0.5486  1.0000\n  O   O4        1.0000  0.2494  0.2512  0.0555  1.0000\n  P   P2        1.0000  0.2494  0.2512  0.4445  1.0000\n  O   O5        1.0000  0.7682  0.3115  0.7500  1.0000\n  O   O6        1.0000  0.3114  0.7673  0.7500  1.0000\n  O   O7        1.0000  0.7484  0.7477  0.9514  1.0000\n  O   O8        1.0000  0.2508  0.6917  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b02135f2-367e-41cc-9d3b-3b04a1e15aa2",
    "mp_id": "mp-2218969",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu2MgV2O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2540\n_cell_length_b   6.2540\n_cell_length_c   6.4922\n_cell_angle_alpha   105.8706\n_cell_angle_beta   105.8706\n_cell_angle_gamma   116.9976\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu2MgV2O8\n_chemical_formula_sum   'Eu2 Mg1 V2 O8'\n_cell_volume   192.7940\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.1547  0.8453  0.2500  1\n  Eu  Eu1  1  0.8759  0.1241  0.7500  1\n  Mg  Mg2  1  0.8643  0.1357  0.2500  1\n  V  V3  1  0.3768  0.6232  0.7500  1\n  V  V4  1  0.6063  0.3937  0.2500  1\n  O  O5  1  0.7873  0.7467  0.4109  1\n  O  O6  1  0.3736  0.7991  0.5873  1\n  O  O7  1  0.7255  0.8033  0.9553  1\n  O  O8  1  0.8022  0.3527  0.0933  1\n  O  O9  1  0.6473  0.1978  0.4067  1\n  O  O10  1  0.1967  0.2745  0.5447  1\n  O  O11  1  0.2009  0.6264  0.9127  1\n  O  O12  1  0.2533  0.2127  0.0891  1\n",
    "output": "data_image0\n_chemical_formula_structural       OEuMgV2O2EuO5\n_chemical_formula_sum              \"O8 Eu2 Mg1 V2\"\n_cell_length_a       6.2540\n_cell_length_b       6.2540\n_cell_length_c       6.4922\n_cell_angle_alpha    105.8706\n_cell_angle_beta     105.8706\n_cell_angle_gamma    116.9976\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1547  0.8453  0.2500  1.0000\n  Eu  Eu1       1.0000  0.8759  0.1241  0.7500  1.0000\n  Mg  Mg1       1.0000  0.8643  0.1357  0.2500  1.0000\n  V   V1        1.0000  0.3768  0.6232  0.7500  1.0000\n  V   V2        1.0000  0.6063  0.3937  0.2500  1.0000\n  O   O2        1.0000  0.7873  0.7467  0.4109  1.0000\n  O   O3        1.0000  0.3736  0.7991  0.5873  1.0000\n  Eu  Eu2       1.0000  0.7255  0.8033  0.9553  1.0000\n  O   O4        1.0000  0.8022  0.3527  0.0933  1.0000\n  O   O5        1.0000  0.6473  0.1978  0.4067  1.0000\n  O   O6        1.0000  0.1967  0.2745  0.5447  1.0000\n  O   O7        1.0000  0.2009  0.6264  0.9127  1.0000\n  O   O8        1.0000  0.2533  0.2127  0.0891  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "edee2420-b355-4c63-880a-91366134e54e",
    "mp_id": "mp-2219052",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMnV3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6028\n_cell_length_b   7.0858\n_cell_length_c   5.4055\n_cell_angle_alpha   91.2837\n_cell_angle_beta   90.1436\n_cell_angle_gamma   87.4209\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMnV3O8\n_chemical_formula_sum   'Mg1 Mn1 V3 O8'\n_cell_volume   214.3246\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.9177  0.3735  0.5056  1\n  Mn  Mn1  1  0.9016  0.8719  0.4902  1\n  V  V2  1  0.0801  0.1074  0.0095  1\n  V  V3  1  0.4145  0.6413  0.4985  1\n  V  V4  1  0.5821  0.3769  0.9991  1\n  O  O5  1  0.9976  0.1259  0.3362  1\n  O  O6  1  0.0986  0.6063  0.4509  1\n  O  O7  1  0.3931  0.1829  0.9754  1\n  O  O8  1  0.5155  0.5788  0.8183  1\n  O  O9  1  0.6080  0.4450  0.3363  1\n  O  O10  1  0.5455  0.8472  0.4278  1\n  O  O11  1  0.8833  0.3031  0.8616  1\n  O  O12  1  0.0103  0.9066  0.8493  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMnV2O5VO3\n_chemical_formula_sum              \"Mg1 Mn1 V3 O8\"\n_cell_length_a       5.6028\n_cell_length_b       7.0858\n_cell_length_c       5.4055\n_cell_angle_alpha    91.2837\n_cell_angle_beta     90.1436\n_cell_angle_gamma    87.4209\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.9177  0.3735  0.5056  1.0000\n  Mn  Mn1       1.0000  0.9016  0.8719  0.4902  1.0000\n  V   V1        1.0000  0.0801  0.1074  0.0095  1.0000\n  V   V2        1.0000  0.4145  0.6413  0.4985  1.0000\n  O   O1        1.0000  0.5821  0.3769  0.9991  1.0000\n  O   O2        1.0000  0.9976  0.1259  0.3362  1.0000\n  O   O3        1.0000  0.0986  0.6063  0.4509  1.0000\n  O   O4        1.0000  0.3931  0.1829  0.9754  1.0000\n  O   O5        1.0000  0.5155  0.5788  0.8183  1.0000\n  V   V3        1.0000  0.6080  0.4450  0.3363  1.0000\n  O   O6        1.0000  0.5455  0.8472  0.4278  1.0000\n  O   O7        1.0000  0.8833  0.3031  0.8616  1.0000\n  O   O8        1.0000  0.0103  0.9066  0.8493  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "07b8c5c0-d45e-4af9-a2d5-efbe98df090f",
    "mp_id": "mp-2219166",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMnCo3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9332\n_cell_length_b   5.8160\n_cell_length_c   5.9158\n_cell_angle_alpha   61.3231\n_cell_angle_beta   61.3682\n_cell_angle_gamma   57.4136\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMnCo3O8\n_chemical_formula_sum   'Mg1 Mn1 Co3 O8'\n_cell_volume   144.0194\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.5000  0.5000  1\n  Mn  Mn1  1  0.0000  0.0000  0.0000  1\n  Co  Co2  1  0.5000  0.0000  0.0000  1\n  Co  Co3  1  0.0000  0.5000  0.0000  1\n  Co  Co4  1  0.5000  0.5000  0.0000  1\n  O  O5  1  0.2581  0.2556  0.7826  1\n  O  O6  1  0.7176  0.2309  0.7965  1\n  O  O7  1  0.2556  0.7339  0.7885  1\n  O  O8  1  0.7138  0.7268  0.8128  1\n  O  O9  1  0.2862  0.2732  0.1872  1\n  O  O10  1  0.7444  0.2661  0.2115  1\n  O  O11  1  0.2824  0.7691  0.2035  1\n  O  O12  1  0.7419  0.7444  0.2174  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgOCo3O7Mn\n_chemical_formula_sum              \"Mg1 O8 Co3 Mn1\"\n_cell_length_a       5.9332\n_cell_length_b       5.8160\n_cell_length_c       5.9158\n_cell_angle_alpha    61.3231\n_cell_angle_beta     61.3682\n_cell_angle_gamma    57.4136\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Co  Co3       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.2581  0.2556  0.7826  1.0000\n  O   O3        1.0000  0.7176  0.2309  0.7965  1.0000\n  O   O4        1.0000  0.2556  0.7339  0.7885  1.0000\n  O   O5        1.0000  0.7138  0.7268  0.8128  1.0000\n  O   O6        1.0000  0.2862  0.2732  0.1872  1.0000\n  O   O7        1.0000  0.7444  0.2661  0.2115  1.0000\n  O   O8        1.0000  0.2824  0.7691  0.2035  1.0000\n  Mn  Mn1       1.0000  0.7419  0.7444  0.2174  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a6adb1fc-592f-4eae-b9f9-5b83d5b65af1",
    "mp_id": "mp-2219262",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTe2Mo2W2(Se2S)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3324\n_cell_length_b   3.3325\n_cell_length_c   38.0960\n_cell_angle_alpha   90.0010\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0008\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTe2Mo2W2(Se2S)2\n_chemical_formula_sum   'Mg1 Te2 Mo2 W2 Se4 S2'\n_cell_volume   366.3777\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6475  0.2196  0.8820  1\n  Te  Te1  1  0.3334  0.6667  0.7074  1\n  Te  Te2  1  0.3334  0.6667  0.6077  1\n  Mo  Mo3  1  0.3334  0.6667  0.0939  1\n  Mo  Mo4  1  0.6667  0.3334  0.6576  1\n  W  W5  1  0.3333  0.6666  0.4696  1\n  W  W6  1  0.6667  0.3334  0.2818  1\n  Se  Se7  1  0.3334  0.6667  0.3259  1\n  Se  Se8  1  0.6666  0.3333  0.0501  1\n  Se  Se9  1  0.6666  0.3333  0.1377  1\n  Se  Se10  1  0.3334  0.6667  0.2378  1\n  S  S11  1  0.6666  0.3333  0.4296  1\n  S  S12  1  0.6667  0.3333  0.5097  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgTeWMo2TeWSe4S2\n_chemical_formula_sum              \"Mg1 Te2 W2 Mo2 Se4 S2\"\n_cell_length_a       3.3324\n_cell_length_b       3.3325\n_cell_length_c       38.0960\n_cell_angle_alpha    90.0010\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0008\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6475  0.2196  0.8820  1.0000\n  Te  Te1       1.0000  0.3334  0.6667  0.7074  1.0000\n  W   W1        1.0000  0.3334  0.6667  0.6077  1.0000\n  Mo  Mo1       1.0000  0.3334  0.6667  0.0939  1.0000\n  Mo  Mo2       1.0000  0.6667  0.3334  0.6576  1.0000\n  Te  Te2       1.0000  0.3333  0.6666  0.4696  1.0000\n  W   W2        1.0000  0.6667  0.3334  0.2818  1.0000\n  Se  Se1       1.0000  0.3334  0.6667  0.3259  1.0000\n  Se  Se2       1.0000  0.6666  0.3333  0.0501  1.0000\n  Se  Se3       1.0000  0.6666  0.3333  0.1377  1.0000\n  Se  Se4       1.0000  0.3334  0.6667  0.2378  1.0000\n  S   S1        1.0000  0.6666  0.3333  0.4296  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.5097  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fe1bf1e3-b240-4c0e-9f58-f951ab74855e",
    "mp_id": "mp-2219466",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgNb2(BO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8183\n_cell_length_b   5.6530\n_cell_length_c   5.8183\n_cell_angle_alpha   95.8098\n_cell_angle_beta   111.8809\n_cell_angle_gamma   122.9859\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgNb2(BO4)2\n_chemical_formula_sum   'Mg1 Nb2 B2 O8'\n_cell_volume   137.1154\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.0000  0.0000  1\n  Nb  Nb1  1  0.1149  0.9038  0.2889  1\n  Nb  Nb2  1  0.8851  0.0962  0.7111  1\n  B  B3  1  0.6321  0.4117  0.2796  1\n  B  B4  1  0.3679  0.5883  0.7204  1\n  O  O5  1  0.8081  0.4429  0.1348  1\n  O  O6  1  0.7246  0.8178  0.9313  1\n  O  O7  1  0.2754  0.1822  0.0687  1\n  O  O8  1  0.1919  0.5571  0.8652  1\n  O  O9  1  0.2178  0.2812  0.5633  1\n  O  O10  1  0.6135  0.1822  0.4068  1\n  O  O11  1  0.7822  0.7188  0.4367  1\n  O  O12  1  0.3865  0.8178  0.5932  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONb2B2O5MgO2\n_chemical_formula_sum              \"O8 Nb2 B2 Mg1\"\n_cell_length_a       5.8183\n_cell_length_b       5.6530\n_cell_length_c       5.8183\n_cell_angle_alpha    95.8098\n_cell_angle_beta     111.8809\n_cell_angle_gamma    122.9859\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.0000  0.0000  1.0000\n  Nb  Nb1       1.0000  0.1149  0.9038  0.2889  1.0000\n  Nb  Nb2       1.0000  0.8851  0.0962  0.7111  1.0000\n  B   B1        1.0000  0.6321  0.4117  0.2796  1.0000\n  B   B2        1.0000  0.3679  0.5883  0.7204  1.0000\n  O   O2        1.0000  0.8081  0.4429  0.1348  1.0000\n  O   O3        1.0000  0.7246  0.8178  0.9313  1.0000\n  O   O4        1.0000  0.2754  0.1822  0.0687  1.0000\n  O   O5        1.0000  0.1919  0.5571  0.8652  1.0000\n  O   O6        1.0000  0.2178  0.2812  0.5633  1.0000\n  Mg  Mg1       1.0000  0.6135  0.1822  0.4068  1.0000\n  O   O7        1.0000  0.7822  0.7188  0.4367  1.0000\n  O   O8        1.0000  0.3865  0.8178  0.5932  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "58b59cf1-2868-4e0d-af09-55648692c859",
    "mp_id": "mp-2222780",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTl2(SbO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0414\n_cell_length_b   8.0414\n_cell_length_c   8.0414\n_cell_angle_alpha   39.6636\n_cell_angle_beta   39.6636\n_cell_angle_gamma   39.6636\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTl2(SbO3)2\n_chemical_formula_sum   'Mg1 Tl2 Sb2 O6'\n_cell_volume   190.7509\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.0000  0.0000  1\n  Tl  Tl1  1  0.6238  0.6238  0.6238  1\n  Tl  Tl2  1  0.3762  0.3762  0.3762  1\n  Sb  Sb3  1  0.8317  0.8317  0.8317  1\n  Sb  Sb4  1  0.1683  0.1683  0.1683  1\n  O  O5  1  0.8369  0.4448  0.0637  1\n  O  O6  1  0.4448  0.0637  0.8369  1\n  O  O7  1  0.0637  0.8369  0.4448  1\n  O  O8  1  0.1631  0.5552  0.9363  1\n  O  O9  1  0.9363  0.1631  0.5552  1\n  O  O10  1  0.5552  0.9363  0.1631  1\n",
    "output": "data_image0\n_chemical_formula_structural       SbTl2MgSbO6\n_chemical_formula_sum              \"Sb2 Tl2 Mg1 O6\"\n_cell_length_a       8.0414\n_cell_length_b       8.0414\n_cell_length_c       8.0414\n_cell_angle_alpha    39.6636\n_cell_angle_beta     39.6636\n_cell_angle_gamma    39.6636\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sb  Sb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Tl  Tl1       1.0000  0.6238  0.6238  0.6238  1.0000\n  Tl  Tl2       1.0000  0.3762  0.3762  0.3762  1.0000\n  Mg  Mg1       1.0000  0.8317  0.8317  0.8317  1.0000\n  Sb  Sb2       1.0000  0.1683  0.1683  0.1683  1.0000\n  O   O1        1.0000  0.8369  0.4448  0.0637  1.0000\n  O   O2        1.0000  0.4448  0.0637  0.8369  1.0000\n  O   O3        1.0000  0.0637  0.8369  0.4448  1.0000\n  O   O4        1.0000  0.1631  0.5552  0.9363  1.0000\n  O   O5        1.0000  0.9363  0.1631  0.5552  1.0000\n  O   O6        1.0000  0.5552  0.9363  0.1631  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3f99b896-621e-4bac-9df8-588712466c03",
    "mp_id": "mp-2223884",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTe2Mo2W(SeS)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.3486\n_cell_length_b   3.3485\n_cell_length_c   37.7688\n_cell_angle_alpha   89.9875\n_cell_angle_beta   90.0104\n_cell_angle_gamma   120.0019\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTe2Mo2W(SeS)2\n_chemical_formula_sum   'Mg1 Te2 Mo2 W1 Se2 S2'\n_cell_volume   366.7458\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  1.0000  0.0004  0.4487  1\n  Te  Te1  1  0.6666  0.3334  0.5351  1\n  Te  Te2  1  0.6667  0.3333  0.6363  1\n  Mo  Mo3  1  0.3333  0.6666  0.1156  1\n  Mo  Mo4  1  0.6667  0.3332  0.3390  1\n  W  W5  1  0.3333  0.6667  0.5859  1\n  Se  Se6  1  0.6666  0.3333  0.0715  1\n  Se  Se7  1  0.6667  0.3332  0.1597  1\n  S  S8  1  0.3334  0.6664  0.3798  1\n  S  S9  1  0.3333  0.6666  0.2991  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgTe2Mo2WSeS2Se\n_chemical_formula_sum              \"Mg1 Te2 Mo2 W1 Se2 S2\"\n_cell_length_a       3.3486\n_cell_length_b       3.3485\n_cell_length_c       37.7688\n_cell_angle_alpha    89.9875\n_cell_angle_beta     90.0104\n_cell_angle_gamma    120.0019\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  1.0000  0.0004  0.4487  1.0000\n  Te  Te1       1.0000  0.6666  0.3334  0.5351  1.0000\n  Te  Te2       1.0000  0.6667  0.3333  0.6363  1.0000\n  Mo  Mo1       1.0000  0.3333  0.6666  0.1156  1.0000\n  Mo  Mo2       1.0000  0.6667  0.3332  0.3390  1.0000\n  W   W1        1.0000  0.3333  0.6667  0.5859  1.0000\n  Se  Se1       1.0000  0.6666  0.3333  0.0715  1.0000\n  S   S1        1.0000  0.6667  0.3332  0.1597  1.0000\n  S   S2        1.0000  0.3334  0.6664  0.3798  1.0000\n  Se  Se2       1.0000  0.3333  0.6666  0.2991  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a52137a2-c1d8-4495-9f98-8cb8865acc4a",
    "mp_id": "mp-2224443",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV4O5F7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3050\n_cell_length_b   5.4474\n_cell_length_c   8.8828\n_cell_angle_alpha   76.2541\n_cell_angle_beta   90.3290\n_cell_angle_gamma   60.4974\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV4O5F7\n_chemical_formula_sum   'Mg1 V4 O5 F7'\n_cell_volume   214.7171\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0549  0.9059  0.3490  1\n  V  V1  1  0.7134  0.5361  0.2348  1\n  V  V2  1  0.4995  0.9752  0.5151  1\n  V  V3  1  0.2960  0.4846  0.7496  1\n  V  V4  1  0.0404  0.0087  0.0025  1\n  O  O5  1  0.9586  0.2289  0.1402  1\n  O  O6  1  0.4926  0.7648  0.3763  1\n  O  O7  1  0.4138  0.7618  0.0627  1\n  O  O8  1  0.4296  0.7069  0.6744  1\n  O  O9  1  0.4658  0.2054  0.6301  1\n  F  F10  1  0.9500  0.7316  0.5526  1\n  F  F11  1  0.9565  0.7402  0.1947  1\n  F  F12  1  0.5989  0.2127  0.3355  1\n  F  F13  1  0.5928  0.2246  0.9276  1\n  F  F14  1  0.0345  0.7539  0.8690  1\n  F  F15  1  0.0676  0.2826  0.8250  1\n  F  F16  1  0.0603  0.2262  0.4325  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgV4O3FOFOF5\n_chemical_formula_sum              \"Mg1 V4 O5 F7\"\n_cell_length_a       5.3050\n_cell_length_b       5.4474\n_cell_length_c       8.8828\n_cell_angle_alpha    76.2541\n_cell_angle_beta     90.3290\n_cell_angle_gamma    60.4974\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0549  0.9059  0.3490  1.0000\n  V   V1        1.0000  0.7134  0.5361  0.2348  1.0000\n  V   V2        1.0000  0.4995  0.9752  0.5151  1.0000\n  V   V3        1.0000  0.2960  0.4846  0.7496  1.0000\n  V   V4        1.0000  0.0404  0.0087  0.0025  1.0000\n  O   O1        1.0000  0.9586  0.2289  0.1402  1.0000\n  O   O2        1.0000  0.4926  0.7648  0.3763  1.0000\n  O   O3        1.0000  0.4138  0.7618  0.0627  1.0000\n  F   F1        1.0000  0.4296  0.7069  0.6744  1.0000\n  O   O4        1.0000  0.4658  0.2054  0.6301  1.0000\n  F   F2        1.0000  0.9500  0.7316  0.5526  1.0000\n  O   O5        1.0000  0.9565  0.7402  0.1947  1.0000\n  F   F3        1.0000  0.5989  0.2127  0.3355  1.0000\n  F   F4        1.0000  0.5928  0.2246  0.9276  1.0000\n  F   F5        1.0000  0.0345  0.7539  0.8690  1.0000\n  F   F6        1.0000  0.0676  0.2826  0.8250  1.0000\n  F   F7        1.0000  0.0603  0.2262  0.4325  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "537bfb78-1786-48fe-a769-f30cb8f113b4",
    "mp_id": "mp-2224447",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV3OF11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3365\n_cell_length_b   6.0951\n_cell_length_c   5.2104\n_cell_angle_alpha   95.5303\n_cell_angle_beta   101.3383\n_cell_angle_gamma   95.4058\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV3OF11\n_chemical_formula_sum   'Mg1 V3 O1 F11'\n_cell_volume   225.8487\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.1893  0.4910  0.0978  1\n  V  V1  1  0.0113  0.9992  0.0385  1\n  V  V2  1  0.3730  0.1582  0.5992  1\n  V  V3  1  0.6381  0.8279  0.4071  1\n  O  O4  1  0.1646  0.9902  0.3274  1\n  F  F5  1  0.0618  0.7050  0.9003  1\n  F  F6  1  0.2805  0.4185  0.4571  1\n  F  F7  1  0.2059  0.1856  0.8819  1\n  F  F8  1  0.4710  0.8623  0.6545  1\n  F  F9  1  0.4307  0.6854  0.1481  1\n  F  F10  1  0.5580  0.3120  0.8512  1\n  F  F11  1  0.5527  0.1075  0.3438  1\n  F  F12  1  0.7836  0.8601  0.1391  1\n  F  F13  1  0.7128  0.5765  0.4929  1\n  F  F14  1  0.8459  0.9877  0.6703  1\n  F  F15  1  0.9547  0.2961  0.1071  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgV3F3OF8\n_chemical_formula_sum              \"Mg1 V3 F11 O1\"\n_cell_length_a       7.3365\n_cell_length_b       6.0951\n_cell_length_c       5.2104\n_cell_angle_alpha    95.5303\n_cell_angle_beta     101.3383\n_cell_angle_gamma    95.4058\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.1893  0.4910  0.0978  1.0000\n  V   V1        1.0000  0.0113  0.9992  0.0385  1.0000\n  V   V2        1.0000  0.3730  0.1581  0.5992  1.0000\n  V   V3        1.0000  0.6381  0.8279  0.4071  1.0000\n  F   F1        1.0000  0.1646  0.9902  0.3274  1.0000\n  F   F2        1.0000  0.0618  0.7050  0.9003  1.0000\n  F   F3        1.0000  0.2805  0.4185  0.4571  1.0000\n  O   O1        1.0000  0.2059  0.1856  0.8819  1.0000\n  F   F4        1.0000  0.4710  0.8623  0.6545  1.0000\n  F   F5        1.0000  0.4307  0.6854  0.1481  1.0000\n  F   F6        1.0000  0.5580  0.3120  0.8512  1.0000\n  F   F7        1.0000  0.5527  0.1075  0.3438  1.0000\n  F   F8        1.0000  0.7836  0.8601  0.1391  1.0000\n  F   F9        1.0000  0.7128  0.5765  0.4929  1.0000\n  F   F10       1.0000  0.8459  0.9877  0.6703  1.0000\n  F   F11       1.0000  0.9547  0.2961  0.1071  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2107afd2-a231-4bbc-98a8-4e90ab2313a3",
    "mp_id": "mp-22248",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu(BO2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3738\n_cell_length_b   6.3738\n_cell_length_c   6.3026\n_cell_angle_alpha   62.6041\n_cell_angle_beta   62.6041\n_cell_angle_gamma   79.3714\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu(BO2)3\n_chemical_formula_sum   'Eu2 B6 O12'\n_cell_volume   201.7130\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.7884  0.2116  0.7500  1\n  Eu  Eu1  1  0.2116  0.7884  0.2500  1\n  B  B2  1  0.7733  0.2267  0.2500  1\n  B  B3  1  0.2267  0.7733  0.7500  1\n  B  B4  1  0.3355  0.2025  0.5909  1\n  B  B5  1  0.7975  0.6645  0.9091  1\n  B  B6  1  0.6645  0.7975  0.4091  1\n  B  B7  1  0.2025  0.3355  0.0909  1\n  O  O8  1  0.7761  0.0164  0.2082  1\n  O  O9  1  0.1989  0.3769  0.5111  1\n  O  O10  1  0.6231  0.8011  0.9889  1\n  O  O11  1  0.8011  0.6231  0.4889  1\n  O  O12  1  0.2204  0.5785  0.9937  1\n  O  O13  1  0.4215  0.7796  0.5063  1\n  O  O14  1  0.7796  0.4215  0.0063  1\n  O  O15  1  0.5785  0.2204  0.4937  1\n  O  O16  1  0.2239  0.9836  0.7918  1\n  O  O17  1  0.0164  0.7761  0.7082  1\n  O  O18  1  0.3769  0.1989  0.0111  1\n  O  O19  1  0.9836  0.2239  0.2918  1\n",
    "output": "data_image0\n_chemical_formula_structural       EuOB6O9EuO2\n_chemical_formula_sum              \"Eu2 O12 B6\"\n_cell_length_a       6.3738\n_cell_length_b       6.3738\n_cell_length_c       6.3026\n_cell_angle_alpha    62.6041\n_cell_angle_beta     62.6041\n_cell_angle_gamma    79.3714\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.7884  0.2116  0.7500  1.0000\n  O   O1        1.0000  0.2116  0.7884  0.2500  1.0000\n  B   B1        1.0000  0.7733  0.2267  0.2500  1.0000\n  B   B2        1.0000  0.2267  0.7733  0.7500  1.0000\n  B   B3        1.0000  0.3355  0.2025  0.5909  1.0000\n  B   B4        1.0000  0.7975  0.6645  0.9091  1.0000\n  B   B5        1.0000  0.6645  0.7975  0.4091  1.0000\n  B   B6        1.0000  0.2025  0.3355  0.0909  1.0000\n  O   O2        1.0000  0.7761  0.0164  0.2082  1.0000\n  O   O3        1.0000  0.1989  0.3769  0.5111  1.0000\n  O   O4        1.0000  0.6231  0.8011  0.9889  1.0000\n  O   O5        1.0000  0.8011  0.6231  0.4889  1.0000\n  O   O6        1.0000  0.2204  0.5785  0.9937  1.0000\n  O   O7        1.0000  0.4215  0.7796  0.5063  1.0000\n  O   O8        1.0000  0.7796  0.4215  0.0063  1.0000\n  O   O9        1.0000  0.5785  0.2204  0.4937  1.0000\n  O   O10       1.0000  0.2239  0.9836  0.7918  1.0000\n  Eu  Eu2       1.0000  0.0164  0.7761  0.7082  1.0000\n  O   O11       1.0000  0.3769  0.1989  0.0111  1.0000\n  O   O12       1.0000  0.9836  0.2239  0.2918  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8e93efed-3e83-4815-91ef-26e3a14c4e3a",
    "mp_id": "mp-2224811",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2Mg(BiO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6042\n_cell_length_b   5.7757\n_cell_length_c   7.0464\n_cell_angle_alpha   70.2153\n_cell_angle_beta   71.2169\n_cell_angle_gamma   100.5022\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2Mg(BiO4)2\n_chemical_formula_sum   'Sm2 Mg1 Bi2 O8'\n_cell_volume   192.0220\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.3710  0.1222  0.7599  1\n  Sm  Sm1  1  0.6265  0.8789  0.2483  1\n  Mg  Mg2  1  0.6764  0.4290  0.1479  1\n  Bi  Bi3  1  0.0766  0.3288  0.3475  1\n  Bi  Bi4  1  0.9118  0.6631  0.6785  1\n  O  O5  1  0.6054  0.2719  0.9347  1\n  O  O6  1  0.3324  0.0904  0.4060  1\n  O  O7  1  0.7624  0.5085  0.4058  1\n  O  O8  1  0.9786  0.2519  0.1064  1\n  O  O9  1  0.9616  0.7984  0.9341  1\n  O  O10  1  0.2190  0.4545  0.5683  1\n  O  O11  1  0.7140  0.9819  0.5678  1\n  O  O12  1  0.4158  0.6479  0.1066  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm2MgOBiO3BiO4\n_chemical_formula_sum              \"Sm2 Mg1 O8 Bi2\"\n_cell_length_a       5.6042\n_cell_length_b       5.7757\n_cell_length_c       7.0464\n_cell_angle_alpha    70.2153\n_cell_angle_beta     71.2169\n_cell_angle_gamma    100.5022\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.3710  0.1222  0.7599  1.0000\n  Sm  Sm2       1.0000  0.6265  0.8789  0.2483  1.0000\n  Mg  Mg1       1.0000  0.6764  0.4290  0.1479  1.0000\n  O   O1        1.0000  0.0766  0.3288  0.3475  1.0000\n  Bi  Bi1       1.0000  0.9118  0.6631  0.6785  1.0000\n  O   O2        1.0000  0.6054  0.2719  0.9347  1.0000\n  O   O3        1.0000  0.3324  0.0904  0.4060  1.0000\n  O   O4        1.0000  0.7624  0.5085  0.4058  1.0000\n  Bi  Bi2       1.0000  0.9786  0.2519  0.1064  1.0000\n  O   O5        1.0000  0.9616  0.7984  0.9341  1.0000\n  O   O6        1.0000  0.2190  0.4545  0.5683  1.0000\n  O   O7        1.0000  0.7140  0.9819  0.5678  1.0000\n  O   O8        1.0000  0.4158  0.6479  0.1066  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bc84d3a0-af6e-4c6c-96c5-60b5b0ab7584",
    "mp_id": "mp-2224860",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe4(PO3)12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7215\n_cell_length_b   8.6933\n_cell_length_c   8.8670\n_cell_angle_alpha   90.9746\n_cell_angle_beta   91.8687\n_cell_angle_gamma   90.6173\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe4(PO3)12\n_chemical_formula_sum   'Mg1 Fe4 P12 O36'\n_cell_volume   671.7862\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.4810  0.5908  0.9484  1\n  Fe  Fe1  1  0.8654  0.6485  0.3591  1\n  Fe  Fe2  1  0.6494  0.3402  0.8191  1\n  Fe  Fe3  1  0.3690  0.8607  0.6359  1\n  Fe  Fe4  1  0.1270  0.1418  0.1523  1\n  P  P5  1  0.6937  0.9859  0.8199  1\n  P  P6  1  0.7051  0.3109  0.4326  1\n  P  P7  1  0.8146  0.6975  0.9561  1\n  P  P8  1  0.8217  0.0139  0.3054  1\n  P  P9  1  0.0309  0.6819  0.6905  1\n  P  P10  1  0.1689  0.5081  0.2156  1\n  P  P11  1  0.2003  0.1827  0.5524  1\n  P  P12  1  0.2914  0.7942  0.0663  1\n  P  P13  1  0.3050  0.4931  0.6666  1\n  P  P14  1  0.4455  0.3323  0.1962  1\n  P  P15  1  0.5439  0.8279  0.3108  1\n  P  P16  1  0.9740  0.1774  0.8090  1\n  O  O17  1  0.6420  0.6944  0.3588  1\n  O  O18  1  0.9630  0.7052  0.8576  1\n  O  O19  1  0.8976  0.8801  0.3816  1\n  O  O20  1  0.9003  0.6327  0.5834  1\n  O  O21  1  0.0477  0.2039  0.6480  1\n  O  O22  1  0.0881  0.3710  0.1435  1\n  O  O23  1  0.0934  0.1266  0.9248  1\n  O  O24  1  0.0912  0.5980  0.3366  1\n  O  O25  1  0.1269  0.8178  0.6542  1\n  O  O26  1  0.1380  0.5347  0.7281  1\n  O  O27  1  0.1510  0.1477  0.3908  1\n  O  O28  1  0.1953  0.9153  0.1329  1\n  O  O29  1  0.2154  0.6234  0.0816  1\n  O  O30  1  0.2659  0.3580  0.5499  1\n  O  O31  1  0.3150  0.0900  0.6376  1\n  O  O32  1  0.3458  0.7848  0.9060  1\n  O  O33  1  0.3369  0.4588  0.2764  1\n  O  O34  1  0.3499  0.1963  0.1415  1\n  O  O35  1  0.3992  0.4331  0.8011  1\n  O  O36  1  0.4275  0.8950  0.4090  1\n  O  O37  1  0.3759  0.6250  0.5882  1\n  O  O38  1  0.4566  0.7664  0.1544  1\n  O  O39  1  0.5494  0.2764  0.3330  1\n  O  O40  1  0.8830  0.3167  0.8484  1\n  O  O41  1  0.5377  0.4167  0.0826  1\n  O  O42  1  0.6059  0.8989  0.6980  1\n  O  O43  1  0.9050  0.0878  0.1785  1\n  O  O44  1  0.6527  0.9612  0.2432  1\n  O  O45  1  0.6581  0.3431  0.5895  1\n  O  O46  1  0.6935  0.5909  0.8808  1\n  O  O47  1  0.7454  0.8675  0.9527  1\n  O  O48  1  0.7820  0.1425  0.4301  1\n  O  O49  1  0.8056  0.4229  0.3528  1\n  O  O50  1  0.8604  0.6672  0.1170  1\n  O  O51  1  0.8604  0.0343  0.7601  1\n  O  O52  1  0.6204  0.1214  0.8956  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgPFe3P10FePO36\n_chemical_formula_sum              \"Mg1 P12 Fe4 O36\"\n_cell_length_a       8.7215\n_cell_length_b       8.6933\n_cell_length_c       8.8670\n_cell_angle_alpha    90.9746\n_cell_angle_beta     91.8687\n_cell_angle_gamma    90.6173\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.4810  0.5908  0.9484  1.0000\n  P   P1        1.0000  0.8654  0.6485  0.3591  1.0000\n  Fe  Fe1       1.0000  0.6494  0.3402  0.8191  1.0000\n  Fe  Fe2       1.0000  0.3690  0.8607  0.6359  1.0000\n  Fe  Fe3       1.0000  0.1270  0.1418  0.1523  1.0000\n  P   P2        1.0000  0.6937  0.9859  0.8199  1.0000\n  P   P3        1.0000  0.7051  0.3109  0.4326  1.0000\n  P   P4        1.0000  0.8146  0.6975  0.9561  1.0000\n  P   P5        1.0000  0.8217  0.0139  0.3054  1.0000\n  P   P6        1.0000  0.0309  0.6819  0.6905  1.0000\n  P   P7        1.0000  0.1689  0.5081  0.2156  1.0000\n  P   P8        1.0000  0.2003  0.1827  0.5524  1.0000\n  P   P9        1.0000  0.2914  0.7942  0.0663  1.0000\n  P   P10       1.0000  0.3050  0.4931  0.6666  1.0000\n  P   P11       1.0000  0.4455  0.3323  0.1962  1.0000\n  Fe  Fe4       1.0000  0.5439  0.8279  0.3108  1.0000\n  P   P12       1.0000  0.9740  0.1774  0.8090  1.0000\n  O   O1        1.0000  0.6420  0.6944  0.3588  1.0000\n  O   O2        1.0000  0.9630  0.7052  0.8576  1.0000\n  O   O3        1.0000  0.8976  0.8801  0.3816  1.0000\n  O   O4        1.0000  0.9003  0.6327  0.5834  1.0000\n  O   O5        1.0000  0.0477  0.2039  0.6480  1.0000\n  O   O6        1.0000  0.0881  0.3710  0.1435  1.0000\n  O   O7        1.0000  0.0934  0.1266  0.9248  1.0000\n  O   O8        1.0000  0.0912  0.5980  0.3366  1.0000\n  O   O9        1.0000  0.1269  0.8178  0.6542  1.0000\n  O   O10       1.0000  0.1380  0.5347  0.7281  1.0000\n  O   O11       1.0000  0.1510  0.1477  0.3908  1.0000\n  O   O12       1.0000  0.1953  0.9153  0.1329  1.0000\n  O   O13       1.0000  0.2154  0.6234  0.0816  1.0000\n  O   O14       1.0000  0.2659  0.3580  0.5499  1.0000\n  O   O15       1.0000  0.3150  0.0900  0.6376  1.0000\n  O   O16       1.0000  0.3458  0.7848  0.9060  1.0000\n  O   O17       1.0000  0.3369  0.4588  0.2764  1.0000\n  O   O18       1.0000  0.3499  0.1963  0.1415  1.0000\n  O   O19       1.0000  0.3992  0.4331  0.8011  1.0000\n  O   O20       1.0000  0.4275  0.8950  0.4090  1.0000\n  O   O21       1.0000  0.3759  0.6250  0.5882  1.0000\n  O   O22       1.0000  0.4566  0.7664  0.1544  1.0000\n  O   O23       1.0000  0.5494  0.2764  0.3330  1.0000\n  O   O24       1.0000  0.8830  0.3167  0.8484  1.0000\n  O   O25       1.0000  0.5377  0.4167  0.0826  1.0000\n  O   O26       1.0000  0.6059  0.8989  0.6980  1.0000\n  O   O27       1.0000  0.9050  0.0878  0.1785  1.0000\n  O   O28       1.0000  0.6527  0.9612  0.2432  1.0000\n  O   O29       1.0000  0.6581  0.3431  0.5895  1.0000\n  O   O30       1.0000  0.6935  0.5909  0.8808  1.0000\n  O   O31       1.0000  0.7454  0.8675  0.9527  1.0000\n  O   O32       1.0000  0.7820  0.1425  0.4301  1.0000\n  O   O33       1.0000  0.8056  0.4229  0.3528  1.0000\n  O   O34       1.0000  0.8604  0.6672  0.1170  1.0000\n  O   O35       1.0000  0.8604  0.0343  0.7601  1.0000\n  O   O36       1.0000  0.6204  0.1214  0.8956  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "57077e9f-e668-44fe-ab3a-e7651407dfc8",
    "mp_id": "mp-2225000",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe5CuO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2553\n_cell_length_b   6.2553\n_cell_length_c   6.0891\n_cell_angle_alpha   61.8015\n_cell_angle_beta   61.8013\n_cell_angle_gamma   59.9422\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe5CuO8\n_chemical_formula_sum   'Mg1 Fe5 Cu1 O8'\n_cell_volume   172.8405\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.7841  0.7840  0.2098  1\n  Fe  Fe1  1  0.0807  0.0807  0.9031  1\n  Fe  Fe2  1  0.1165  0.6415  0.6176  1\n  Fe  Fe3  1  0.6415  0.1165  0.6176  1\n  Fe  Fe4  1  0.5697  0.5697  0.1513  1\n  Fe  Fe5  1  0.5720  0.5720  0.6987  1\n  Cu  Cu6  1  0.2254  0.2254  0.2759  1\n  O  O7  1  0.3547  0.3547  0.4380  1\n  O  O8  1  0.3628  0.3629  0.8716  1\n  O  O9  1  0.3992  0.8173  0.4040  1\n  O  O10  1  0.8173  0.3992  0.4040  1\n  O  O11  1  0.4422  0.8568  0.8449  1\n  O  O12  1  0.8567  0.4422  0.8449  1\n  O  O13  1  0.8991  0.8991  0.3660  1\n  O  O14  1  0.8988  0.8988  0.8318  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFe5OCuO7\n_chemical_formula_sum              \"Mg1 Fe5 O8 Cu1\"\n_cell_length_a       6.2553\n_cell_length_b       6.2553\n_cell_length_c       6.0891\n_cell_angle_alpha    61.8015\n_cell_angle_beta     61.8013\n_cell_angle_gamma    59.9422\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.7841  0.7840  0.2098  1.0000\n  Fe  Fe1       1.0000  0.0807  0.0807  0.9031  1.0000\n  Fe  Fe2       1.0000  0.1165  0.6415  0.6176  1.0000\n  Fe  Fe3       1.0000  0.6415  0.1165  0.6176  1.0000\n  Fe  Fe4       1.0000  0.5697  0.5697  0.1513  1.0000\n  Fe  Fe5       1.0000  0.5720  0.5720  0.6987  1.0000\n  O   O1        1.0000  0.2254  0.2254  0.2759  1.0000\n  Cu  Cu1       1.0000  0.3547  0.3547  0.4380  1.0000\n  O   O2        1.0000  0.3628  0.3629  0.8716  1.0000\n  O   O3        1.0000  0.3992  0.8173  0.4040  1.0000\n  O   O4        1.0000  0.8173  0.3992  0.4040  1.0000\n  O   O5        1.0000  0.4422  0.8568  0.8449  1.0000\n  O   O6        1.0000  0.8567  0.4422  0.8449  1.0000\n  O   O7        1.0000  0.8991  0.8991  0.3660  1.0000\n  O   O8        1.0000  0.8988  0.8988  0.8318  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6119c58e-95c3-4cf2-afb4-cd935cedc074",
    "mp_id": "mp-2228328",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn6(O5F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.1065\n_cell_length_b   6.8425\n_cell_length_c   2.9519\n_cell_angle_alpha   89.9866\n_cell_angle_beta   90.0114\n_cell_angle_gamma   106.6628\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn6(O5F)2\n_chemical_formula_sum   'Mg1 Mn6 O10 F2'\n_cell_volume   214.9117\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8283  0.6636  0.5118  1\n  Mn  Mn1  1  0.0443  0.0311  0.0105  1\n  Mn  Mn2  1  0.3427  0.1551  0.5104  1\n  Mn  Mn3  1  0.0250  0.4971  0.5107  1\n  Mn  Mn4  1  0.6403  0.3031  0.0112  1\n  Mn  Mn5  1  0.3282  0.6810  0.0107  1\n  Mn  Mn6  1  0.6280  0.8315  0.5117  1\n  O  O7  1  0.1573  0.0588  0.5103  1\n  O  O8  1  0.0292  0.3213  0.0107  1\n  O  O9  1  0.9690  0.6629  0.0113  1\n  O  O10  1  0.6324  0.0125  0.0116  1\n  O  O11  1  0.5232  0.2854  0.5110  1\n  O  O12  1  0.2110  0.6274  0.5106  1\n  O  O13  1  0.4445  0.7077  0.5108  1\n  O  O14  1  0.7587  0.3639  0.5114  1\n  O  O15  1  0.6914  0.6778  0.0114  1\n  O  O16  1  0.3478  0.9792  0.0104  1\n  F  F17  1  0.3264  0.3539  0.0105  1\n  F  F18  1  0.9037  0.9639  0.5114  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgOMn5O7MnO2F2\n_chemical_formula_sum              \"Mg1 O10 Mn6 F2\"\n_cell_length_a       11.1065\n_cell_length_b       6.8425\n_cell_length_c       2.9519\n_cell_angle_alpha    89.9866\n_cell_angle_beta     90.0114\n_cell_angle_gamma    106.6628\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8283  0.6636  0.5118  1.0000\n  O   O1        1.0000  0.0443  0.0311  0.0105  1.0000\n  Mn  Mn1       1.0000  0.3427  0.1551  0.5104  1.0000\n  Mn  Mn2       1.0000  0.0250  0.4971  0.5107  1.0000\n  Mn  Mn3       1.0000  0.6403  0.3031  0.0113  1.0000\n  Mn  Mn4       1.0000  0.3282  0.6810  0.0107  1.0000\n  Mn  Mn5       1.0000  0.6280  0.8315  0.5117  1.0000\n  O   O2        1.0000  0.1573  0.0588  0.5103  1.0000\n  O   O3        1.0000  0.0292  0.3213  0.0107  1.0000\n  O   O4        1.0000  0.9690  0.6629  0.0113  1.0000\n  O   O5        1.0000  0.6324  0.0125  0.0116  1.0000\n  O   O6        1.0000  0.5232  0.2854  0.5110  1.0000\n  O   O7        1.0000  0.2110  0.6274  0.5106  1.0000\n  O   O8        1.0000  0.4445  0.7077  0.5108  1.0000\n  Mn  Mn6       1.0000  0.7587  0.3639  0.5114  1.0000\n  O   O9        1.0000  0.6914  0.6778  0.0114  1.0000\n  O   O10       1.0000  0.3478  0.9792  0.0104  1.0000\n  F   F1        1.0000  0.3264  0.3539  0.0105  1.0000\n  F   F2        1.0000  0.9037  0.9639  0.5114  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a43bd68d-b89a-4048-9c00-47bacac726ba",
    "mp_id": "mp-2228374",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr4Mg(Co2O5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8283\n_cell_length_b   5.8749\n_cell_length_c   10.2898\n_cell_angle_alpha   115.9363\n_cell_angle_beta   115.7992\n_cell_angle_gamma   78.8015\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr4Mg(Co2O5)2\n_chemical_formula_sum   'Sr4 Mg1 Co4 O10'\n_cell_volume   285.2552\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5788  0.0881  0.1733  1\n  Sr  Sr1  1  0.8888  0.4189  0.7626  1\n  Sr  Sr2  1  0.1597  0.6860  0.1663  1\n  Sr  Sr3  1  0.3297  0.8206  0.7708  1\n  Mg  Mg4  1  0.9557  0.4759  0.3213  1\n  Co  Co5  1  0.7470  0.8204  0.5160  1\n  Co  Co6  1  0.9637  0.0278  0.9601  1\n  Co  Co7  1  0.2536  0.1171  0.5198  1\n  Co  Co8  1  0.4900  0.4437  0.9621  1\n  O  O9  1  0.6056  0.5589  0.3265  1\n  O  O10  1  0.3219  0.3453  0.7216  1\n  O  O11  1  0.5731  0.1178  0.5019  1\n  O  O12  1  0.8506  0.8292  0.7103  1\n  O  O13  1  0.8437  0.3693  0.0903  1\n  O  O14  1  0.2463  0.2437  0.9639  1\n  O  O15  1  0.0464  0.1472  0.3357  1\n  O  O16  1  0.7592  0.8011  0.9653  1\n  O  O17  1  0.0992  0.8090  0.4897  1\n  O  O18  1  0.2736  0.7610  0.9925  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrOSr2MgCo4O8SrO\n_chemical_formula_sum              \"Sr4 O10 Mg1 Co4\"\n_cell_length_a       5.8283\n_cell_length_b       5.8749\n_cell_length_c       10.2898\n_cell_angle_alpha    115.9363\n_cell_angle_beta     115.7992\n_cell_angle_gamma    78.8015\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5788  0.0881  0.1733  1.0000\n  O   O1        1.0000  0.8888  0.4189  0.7626  1.0000\n  Sr  Sr2       1.0000  0.1597  0.6860  0.1663  1.0000\n  Sr  Sr3       1.0000  0.3297  0.8206  0.7708  1.0000\n  Mg  Mg1       1.0000  0.9557  0.4759  0.3213  1.0000\n  Co  Co1       1.0000  0.7470  0.8204  0.5160  1.0000\n  Co  Co2       1.0000  0.9637  0.0278  0.9601  1.0000\n  Co  Co3       1.0000  0.2536  0.1171  0.5198  1.0000\n  Co  Co4       1.0000  0.4900  0.4437  0.9621  1.0000\n  O   O2        1.0000  0.6056  0.5589  0.3265  1.0000\n  O   O3        1.0000  0.3219  0.3453  0.7216  1.0000\n  O   O4        1.0000  0.5731  0.1178  0.5019  1.0000\n  O   O5        1.0000  0.8506  0.8292  0.7103  1.0000\n  O   O6        1.0000  0.8437  0.3693  0.0903  1.0000\n  O   O7        1.0000  0.2463  0.2437  0.9639  1.0000\n  O   O8        1.0000  0.0464  0.1472  0.3357  1.0000\n  O   O9        1.0000  0.7592  0.8011  0.9653  1.0000\n  Sr  Sr4       1.0000  0.0992  0.8090  0.4897  1.0000\n  O   O10       1.0000  0.2736  0.7610  0.9925  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e0e8dea4-10b7-42d9-8825-24aea342d999",
    "mp_id": "mp-2228437",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTi4Bi2O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.6818\n_cell_length_b   8.5098\n_cell_length_c   8.0939\n_cell_angle_alpha   85.2489\n_cell_angle_beta   76.8535\n_cell_angle_gamma   77.5066\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTi4Bi2O11\n_chemical_formula_sum   'Mg1 Ti4 Bi2 O11'\n_cell_volume   240.9496\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  0.5000  0.5000  1\n  Ti  Ti1  1  0.6431  0.2133  0.5005  1\n  Ti  Ti2  1  0.3569  0.7867  0.4995  1\n  Ti  Ti3  1  0.6587  0.8667  0.8159  1\n  Ti  Ti4  1  0.3413  0.1333  0.1841  1\n  Bi  Bi5  1  0.1128  0.6520  0.1224  1\n  Bi  Bi6  1  0.8872  0.3480  0.8776  1\n  O  O7  1  0.7103  0.6328  0.9466  1\n  O  O8  1  0.2897  0.3672  0.0534  1\n  O  O9  1  0.6451  0.0547  0.6550  1\n  O  O10  1  0.3549  0.9453  0.3450  1\n  O  O11  1  0.4823  0.3977  0.6376  1\n  O  O12  1  0.5177  0.6023  0.3624  1\n  O  O13  1  0.7930  0.1691  0.2449  1\n  O  O14  1  0.2070  0.8309  0.7551  1\n  O  O15  1  0.1477  0.2702  0.4344  1\n  O  O16  1  0.8523  0.7298  0.5656  1\n  O  O17  1  0.5000  0.0000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgTi2OTiBi2O9TiO\n_chemical_formula_sum              \"Mg1 Ti4 O11 Bi2\"\n_cell_length_a       3.6818\n_cell_length_b       8.5098\n_cell_length_c       8.0939\n_cell_angle_alpha    85.2489\n_cell_angle_beta     76.8535\n_cell_angle_gamma    77.5066\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ti  Ti1       1.0000  0.6431  0.2133  0.5005  1.0000\n  Ti  Ti2       1.0000  0.3569  0.7867  0.4995  1.0000\n  O   O1        1.0000  0.6587  0.8667  0.8159  1.0000\n  Ti  Ti3       1.0000  0.3413  0.1333  0.1841  1.0000\n  Bi  Bi1       1.0000  0.1128  0.6520  0.1224  1.0000\n  Bi  Bi2       1.0000  0.8872  0.3480  0.8776  1.0000\n  O   O2        1.0000  0.7103  0.6328  0.9466  1.0000\n  O   O3        1.0000  0.2897  0.3672  0.0534  1.0000\n  O   O4        1.0000  0.6451  0.0547  0.6550  1.0000\n  O   O5        1.0000  0.3549  0.9453  0.3450  1.0000\n  O   O6        1.0000  0.4823  0.3977  0.6376  1.0000\n  O   O7        1.0000  0.5177  0.6023  0.3624  1.0000\n  O   O8        1.0000  0.7930  0.1691  0.2449  1.0000\n  O   O9        1.0000  0.2070  0.8309  0.7551  1.0000\n  O   O10       1.0000  0.1477  0.2702  0.4344  1.0000\n  Ti  Ti4       1.0000  0.8523  0.7298  0.5656  1.0000\n  O   O11       1.0000  0.5000  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "871f2505-94dd-4312-8f16-578d4f3c6d76",
    "mp_id": "mp-2228500",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrMg(NiO2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4126\n_cell_length_b   6.4930\n_cell_length_c   6.4126\n_cell_angle_alpha   53.9433\n_cell_angle_beta   55.8015\n_cell_angle_gamma   53.9433\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrMg(NiO2)4\n_chemical_formula_sum   'Sr1 Mg1 Ni4 O8'\n_cell_volume   164.7357\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.5013  0.4986  0.5013  1\n  Mg  Mg1  1  0.8641  0.8287  0.8641  1\n  Ni  Ni2  1  0.0048  0.0123  0.0048  1\n  Ni  Ni3  1  0.4969  0.0013  0.4969  1\n  Ni  Ni4  1  0.4929  0.5013  0.0038  1\n  Ni  Ni5  1  0.0038  0.5013  0.4929  1\n  O  O6  1  0.7831  0.2240  0.7831  1\n  O  O7  1  0.2219  0.2395  0.7222  1\n  O  O8  1  0.2224  0.7606  0.2224  1\n  O  O9  1  0.7222  0.2395  0.2219  1\n  O  O10  1  0.2682  0.2904  0.2682  1\n  O  O11  1  0.7342  0.7159  0.7342  1\n  O  O12  1  0.7820  0.7646  0.2542  1\n  O  O13  1  0.2542  0.7646  0.7820  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrMgNi3O8Ni\n_chemical_formula_sum              \"Sr1 Mg1 Ni4 O8\"\n_cell_length_a       6.4126\n_cell_length_b       6.4930\n_cell_length_c       6.4126\n_cell_angle_alpha    53.9433\n_cell_angle_beta     55.8015\n_cell_angle_gamma    53.9433\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.5013  0.4986  0.5013  1.0000\n  Mg  Mg1       1.0000  0.8641  0.8287  0.8641  1.0000\n  Ni  Ni1       1.0000  0.0048  0.0123  0.0048  1.0000\n  Ni  Ni2       1.0000  0.4969  0.0013  0.4969  1.0000\n  Ni  Ni3       1.0000  0.4929  0.5013  0.0038  1.0000\n  O   O1        1.0000  0.0038  0.5013  0.4929  1.0000\n  O   O2        1.0000  0.7831  0.2240  0.7831  1.0000\n  O   O3        1.0000  0.2219  0.2395  0.7222  1.0000\n  O   O4        1.0000  0.2224  0.7606  0.2224  1.0000\n  O   O5        1.0000  0.7222  0.2395  0.2219  1.0000\n  O   O6        1.0000  0.2682  0.2904  0.2682  1.0000\n  O   O7        1.0000  0.7342  0.7159  0.7342  1.0000\n  O   O8        1.0000  0.7820  0.7646  0.2542  1.0000\n  Ni  Ni4       1.0000  0.2542  0.7646  0.7820  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e18e9dad-df98-4b62-a483-99fde4b69ae6",
    "mp_id": "mp-2228706",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb4MgMo2(SO)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6343\n_cell_length_b   7.6343\n_cell_length_c   9.3875\n_cell_angle_alpha   94.6858\n_cell_angle_beta   125.7901\n_cell_angle_gamma   100.3952\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb4MgMo2(SO)4\n_chemical_formula_sum   'Rb4 Mg1 Mo2 S4 O4'\n_cell_volume   424.3402\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.3792  0.3481  0.6598  1\n  Rb  Rb1  1  0.1883  0.7194  0.8402  1\n  Rb  Rb2  1  0.6343  0.6860  0.3445  1\n  Rb  Rb3  1  0.8416  0.2898  0.1555  1\n  Mg  Mg4  1  0.3981  0.1481  0.2500  1\n  Mo  Mo5  1  0.8953  0.1453  0.7500  1\n  Mo  Mo6  1  0.1077  0.8577  0.2500  1\n  S  S7  1  0.2860  0.2926  0.9909  1\n  S  S8  1  0.8017  0.2951  0.5091  1\n  S  S9  1  0.7310  0.7500  0.0331  1\n  S  S10  1  0.2169  0.6979  0.4669  1\n  O  O11  1  0.8774  0.9149  0.6792  1\n  O  O12  1  0.7357  0.1982  0.8208  1\n  O  O13  1  0.1888  0.1162  0.3180  1\n  O  O14  1  0.2983  0.8709  0.1820  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbMoRb2MgMoRbS4O4\n_chemical_formula_sum              \"Rb4 Mo2 Mg1 S4 O4\"\n_cell_length_a       7.6343\n_cell_length_b       7.6343\n_cell_length_c       9.3875\n_cell_angle_alpha    94.6858\n_cell_angle_beta     125.7901\n_cell_angle_gamma    100.3952\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.3792  0.3481  0.6598  1.0000\n  Mo  Mo1       1.0000  0.1883  0.7194  0.8402  1.0000\n  Rb  Rb2       1.0000  0.6343  0.6860  0.3445  1.0000\n  Rb  Rb3       1.0000  0.8416  0.2898  0.1555  1.0000\n  Mg  Mg1       1.0000  0.3981  0.1481  0.2500  1.0000\n  Mo  Mo2       1.0000  0.8953  0.1453  0.7500  1.0000\n  Rb  Rb4       1.0000  0.1077  0.8577  0.2500  1.0000\n  S   S1        1.0000  0.2860  0.2926  0.9909  1.0000\n  S   S2        1.0000  0.8017  0.2951  0.5091  1.0000\n  S   S3        1.0000  0.7310  0.7500  0.0331  1.0000\n  S   S4        1.0000  0.2169  0.6979  0.4669  1.0000\n  O   O1        1.0000  0.8774  0.9149  0.6792  1.0000\n  O   O2        1.0000  0.7357  0.1982  0.8208  1.0000\n  O   O3        1.0000  0.1888  0.1162  0.3180  1.0000\n  O   O4        1.0000  0.2983  0.8709  0.1820  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c0db7277-4244-4be1-9611-06185817cd50",
    "mp_id": "mp-2228915",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgV5O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7925\n_cell_length_b   6.8856\n_cell_length_c   5.8847\n_cell_angle_alpha   74.4909\n_cell_angle_beta   104.8694\n_cell_angle_gamma   95.2376\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgV5O12\n_chemical_formula_sum   'Mg1 V5 O12'\n_cell_volume   256.2516\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0792  0.0648  0.7592  1\n  V  V1  1  0.2040  0.5827  0.7662  1\n  V  V2  1  0.3868  0.7786  0.2612  1\n  V  V3  1  0.6092  0.1923  0.7642  1\n  V  V4  1  0.7840  0.3746  0.2545  1\n  V  V5  1  0.9140  0.8965  0.2755  1\n  O  O6  1  0.0402  0.8080  0.6175  1\n  O  O7  1  0.0737  0.3613  0.7681  1\n  O  O8  1  0.1797  0.9411  0.1491  1\n  O  O9  1  0.3690  0.6267  0.5441  1\n  O  O10  1  0.3818  0.0760  0.7464  1\n  O  O11  1  0.3595  0.6259  0.0574  1\n  O  O12  1  0.6326  0.3573  0.9611  1\n  O  O13  1  0.6233  0.8982  0.2880  1\n  O  O14  1  0.6256  0.3316  0.4645  1\n  O  O15  1  0.8046  0.0228  0.8894  1\n  O  O16  1  0.8947  0.6062  0.2306  1\n  O  O17  1  0.9562  0.1832  0.3593  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgV3OVO9VO2\n_chemical_formula_sum              \"Mg1 V5 O12\"\n_cell_length_a       6.7925\n_cell_length_b       6.8856\n_cell_length_c       5.8847\n_cell_angle_alpha    74.4909\n_cell_angle_beta     104.8694\n_cell_angle_gamma    95.2376\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0792  0.0648  0.7592  1.0000\n  V   V1        1.0000  0.2040  0.5827  0.7662  1.0000\n  V   V2        1.0000  0.3868  0.7786  0.2612  1.0000\n  V   V3        1.0000  0.6092  0.1923  0.7642  1.0000\n  O   O1        1.0000  0.7840  0.3746  0.2545  1.0000\n  V   V4        1.0000  0.9140  0.8965  0.2755  1.0000\n  O   O2        1.0000  0.0402  0.8080  0.6175  1.0000\n  O   O3        1.0000  0.0737  0.3613  0.7681  1.0000\n  O   O4        1.0000  0.1797  0.9411  0.1491  1.0000\n  O   O5        1.0000  0.3690  0.6267  0.5440  1.0000\n  O   O6        1.0000  0.3818  0.0760  0.7464  1.0000\n  O   O7        1.0000  0.3595  0.6259  0.0574  1.0000\n  O   O8        1.0000  0.6326  0.3573  0.9611  1.0000\n  O   O9        1.0000  0.6233  0.8982  0.2880  1.0000\n  O   O10       1.0000  0.6256  0.3316  0.4645  1.0000\n  V   V5        1.0000  0.8046  0.0228  0.8894  1.0000\n  O   O11       1.0000  0.8947  0.6062  0.2306  1.0000\n  O   O12       1.0000  0.9562  0.1832  0.3593  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3c13d6af-0d89-49b1-b753-46cd220f49f8",
    "mp_id": "mp-2228929",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2Mg(NiO2)5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6364\n_cell_length_b   5.0138\n_cell_length_c   5.7462\n_cell_angle_alpha   79.1124\n_cell_angle_beta   111.6757\n_cell_angle_gamma   79.3355\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2Mg(NiO2)5\n_chemical_formula_sum   'Na2 Mg1 Ni5 O10'\n_cell_volume   192.7826\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.8873  0.9978  0.4072  1\n  Na  Na1  1  0.7274  0.5735  0.2530  1\n  Mg  Mg2  1  0.3115  0.7851  0.8468  1\n  Ni  Ni3  1  0.9918  0.0133  0.9885  1\n  Ni  Ni4  1  0.1890  0.4130  0.1926  1\n  Ni  Ni5  1  0.3831  0.8141  0.3931  1\n  Ni  Ni6  1  0.5745  0.2093  0.6144  1\n  Ni  Ni7  1  0.7876  0.6097  0.7984  1\n  O  O8  1  0.2441  0.0738  0.0500  1\n  O  O9  1  0.1366  0.7581  0.3245  1\n  O  O10  1  0.3337  0.0980  0.5537  1\n  O  O11  1  0.4376  0.5289  0.2415  1\n  O  O12  1  0.0498  0.7303  0.8353  1\n  O  O13  1  0.9320  0.3238  0.1182  1\n  O  O14  1  0.5015  0.5504  0.7289  1\n  O  O15  1  0.6294  0.8864  0.4695  1\n  O  O16  1  0.8264  0.2913  0.6625  1\n  O  O17  1  0.7622  0.9072  0.9618  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2MgNi2ONi2O7NiO2\n_chemical_formula_sum              \"Na2 Mg1 Ni5 O10\"\n_cell_length_a       7.6364\n_cell_length_b       5.0138\n_cell_length_c       5.7462\n_cell_angle_alpha    79.1124\n_cell_angle_beta     111.6757\n_cell_angle_gamma    79.3355\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.8873  0.9978  0.4072  1.0000\n  Na  Na2       1.0000  0.7274  0.5735  0.2530  1.0000\n  Mg  Mg1       1.0000  0.3115  0.7851  0.8468  1.0000\n  Ni  Ni1       1.0000  0.9918  0.0133  0.9885  1.0000\n  Ni  Ni2       1.0000  0.1890  0.4130  0.1926  1.0000\n  O   O1        1.0000  0.3831  0.8141  0.3931  1.0000\n  Ni  Ni3       1.0000  0.5745  0.2093  0.6144  1.0000\n  Ni  Ni4       1.0000  0.7876  0.6097  0.7984  1.0000\n  O   O2        1.0000  0.2441  0.0738  0.0500  1.0000\n  O   O3        1.0000  0.1366  0.7581  0.3245  1.0000\n  O   O4        1.0000  0.3337  0.0980  0.5537  1.0000\n  O   O5        1.0000  0.4376  0.5289  0.2415  1.0000\n  O   O6        1.0000  0.0498  0.7303  0.8353  1.0000\n  O   O7        1.0000  0.9320  0.3238  0.1182  1.0000\n  O   O8        1.0000  0.5015  0.5504  0.7289  1.0000\n  Ni  Ni5       1.0000  0.6294  0.8864  0.4695  1.0000\n  O   O9        1.0000  0.8264  0.2913  0.6625  1.0000\n  O   O10       1.0000  0.7622  0.9072  0.9618  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f59ff9d6-7540-4f58-b599-3b897058e025",
    "mp_id": "mp-2229660",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na6MgMo2(NO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7611\n_cell_length_b   6.5219\n_cell_length_c   7.1573\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.5101\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na6MgMo2(NO3)2\n_chemical_formula_sum   'Na6 Mg1 Mo2 N2 O6'\n_cell_volume   268.9129\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5423  0.8321  0.0000  1\n  Na  Na1  1  0.4871  0.3196  0.2624  1\n  Na  Na2  1  0.4871  0.3196  0.7376  1\n  Na  Na3  1  0.0375  0.7072  0.8039  1\n  Na  Na4  1  0.9794  0.0795  0.5000  1\n  Na  Na5  1  0.0375  0.7072  0.1961  1\n  Mg  Mg6  1  0.8915  0.5386  0.5000  1\n  Mo  Mo7  1  0.4776  0.8056  0.5000  1\n  Mo  Mo8  1  0.9925  0.2056  0.0000  1\n  N  N9  1  0.6947  0.1681  0.0000  1\n  N  N10  1  0.1571  0.7529  0.5000  1\n  O  O11  1  0.6660  0.6414  0.6955  1\n  O  O12  1  0.0676  0.3448  0.7764  1\n  O  O13  1  0.0676  0.3448  0.2235  1\n  O  O14  1  0.6660  0.6414  0.3045  1\n  O  O15  1  0.1413  0.9504  0.0000  1\n  O  O16  1  0.5662  0.0993  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na6OMo2N2MgO5\n_chemical_formula_sum              \"Na6 O6 Mo2 N2 Mg1\"\n_cell_length_a       5.7611\n_cell_length_b       6.5219\n_cell_length_c       7.1573\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.5101\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5423  0.8321  0.0000  1.0000\n  Na  Na2       1.0000  0.4871  0.3196  0.2624  1.0000\n  Na  Na3       1.0000  0.4871  0.3196  0.7376  1.0000\n  Na  Na4       1.0000  0.0375  0.7072  0.8039  1.0000\n  Na  Na5       1.0000  0.9794  0.0795  0.5000  1.0000\n  Na  Na6       1.0000  0.0375  0.7072  0.1961  1.0000\n  O   O1        1.0000  0.8915  0.5386  0.5000  1.0000\n  Mo  Mo1       1.0000  0.4776  0.8056  0.5000  1.0000\n  Mo  Mo2       1.0000  0.9925  0.2056  0.0000  1.0000\n  N   N1        1.0000  0.6947  0.1681  0.0000  1.0000\n  N   N2        1.0000  0.1571  0.7529  0.5000  1.0000\n  Mg  Mg1       1.0000  0.6660  0.6414  0.6955  1.0000\n  O   O2        1.0000  0.0676  0.3448  0.7764  1.0000\n  O   O3        1.0000  0.0676  0.3448  0.2235  1.0000\n  O   O4        1.0000  0.6660  0.6414  0.3045  1.0000\n  O   O5        1.0000  0.1413  0.9504  0.0000  1.0000\n  O   O6        1.0000  0.5662  0.0993  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "afc6f702-e608-446f-9717-cc108053c088",
    "mp_id": "mp-2230032",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe4(TeO6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3070\n_cell_length_b   5.3046\n_cell_length_c   9.0080\n_cell_angle_alpha   89.9975\n_cell_angle_beta   89.9972\n_cell_angle_gamma   76.3509\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe4(TeO6)2\n_chemical_formula_sum   'Mg1 Fe4 Te2 O12'\n_cell_volume   246.4289\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8103  0.8112  0.5000  1\n  Fe  Fe1  1  0.0895  0.0899  0.3164  1\n  Fe  Fe2  1  0.4959  0.4968  0.8412  1\n  Fe  Fe3  1  0.0895  0.0899  0.6836  1\n  Fe  Fe4  1  0.4960  0.4969  0.1587  1\n  Te  Te5  1  0.9270  0.9283  -0.0000  1\n  Te  Te6  1  0.4739  0.4744  0.5000  1\n  O  O7  1  0.6400  0.6412  0.6521  1\n  O  O8  1  0.3257  0.3255  0.6632  1\n  O  O9  1  0.6400  0.6412  0.3479  1\n  O  O10  1  0.1792  0.8039  0.1562  1\n  O  O11  1  0.8040  0.1811  0.1561  1\n  O  O12  1  0.8040  0.1811  0.8439  1\n  O  O13  1  0.3529  0.3526  0.0000  1\n  O  O14  1  0.1833  0.7911  0.5000  1\n  O  O15  1  0.7910  0.1843  0.5000  1\n  O  O16  1  0.1792  0.8039  0.8438  1\n  O  O17  1  0.3256  0.3255  0.3368  1\n  O  O18  1  0.6983  0.7007  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgFe3OTe2O10FeO\n_chemical_formula_sum              \"Mg1 Fe4 O12 Te2\"\n_cell_length_a       5.3070\n_cell_length_b       5.3046\n_cell_length_c       9.0080\n_cell_angle_alpha    89.9975\n_cell_angle_beta     89.9972\n_cell_angle_gamma    76.3509\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8103  0.8112  0.5000  1.0000\n  Fe  Fe1       1.0000  0.0895  0.0899  0.3164  1.0000\n  Fe  Fe2       1.0000  0.4959  0.4968  0.8412  1.0000\n  Fe  Fe3       1.0000  0.0895  0.0899  0.6836  1.0000\n  O   O1        1.0000  0.4960  0.4969  0.1587  1.0000\n  Te  Te1       1.0000  0.9270  0.9283  1.0000  1.0000\n  Te  Te2       1.0000  0.4739  0.4744  0.5000  1.0000\n  O   O2        1.0000  0.6400  0.6412  0.6521  1.0000\n  O   O3        1.0000  0.3257  0.3255  0.6632  1.0000\n  O   O4        1.0000  0.6400  0.6412  0.3479  1.0000\n  O   O5        1.0000  0.1792  0.8039  0.1562  1.0000\n  O   O6        1.0000  0.8040  0.1811  0.1561  1.0000\n  O   O7        1.0000  0.8040  0.1811  0.8439  1.0000\n  O   O8        1.0000  0.3529  0.3526  0.0000  1.0000\n  O   O9        1.0000  0.1833  0.7911  0.5000  1.0000\n  O   O10       1.0000  0.7910  0.1843  0.5000  1.0000\n  O   O11       1.0000  0.1792  0.8039  0.8438  1.0000\n  Fe  Fe4       1.0000  0.3256  0.3255  0.3368  1.0000\n  O   O12       1.0000  0.6983  0.7007  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "86cf0362-072f-432b-bb33-78c104c7a90e",
    "mp_id": "mp-2230094",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn5Cr2O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3587\n_cell_length_b   5.2550\n_cell_length_c   9.9536\n_cell_angle_alpha   83.0436\n_cell_angle_beta   96.6178\n_cell_angle_gamma   56.9472\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn5Cr2O12\n_chemical_formula_sum   'Mg1 Mn5 Cr2 O12'\n_cell_volume   227.6029\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8292  0.2942  0.5141  1\n  Mn  Mn1  1  0.0813  0.0805  0.2398  1\n  Mn  Mn2  1  0.0073  0.5472  0.9769  1\n  Mn  Mn3  1  0.5054  0.0021  0.5136  1\n  Mn  Mn4  1  0.4172  0.4244  0.2411  1\n  Mn  Mn5  1  0.5804  0.5652  0.7561  1\n  Cr  Cr6  1  0.2694  0.2551  0.7515  1\n  Cr  Cr7  1  0.7466  0.7490  0.2483  1\n  O  O8  1  0.9841  0.2676  0.8711  1\n  O  O9  1  0.2543  0.9724  0.6289  1\n  O  O10  1  0.1044  0.3268  0.3747  1\n  O  O11  1  0.3636  0.1676  0.1377  1\n  O  O12  1  0.3155  0.5181  0.8534  1\n  O  O13  1  0.5408  0.2972  0.6372  1\n  O  O14  1  0.4658  0.6951  0.3499  1\n  O  O15  1  0.7367  0.4651  0.1398  1\n  O  O16  1  0.6006  0.8372  0.8651  1\n  O  O17  1  0.8338  0.5938  0.6243  1\n  O  O18  1  0.7442  0.0443  0.3785  1\n  O  O19  1  0.0231  0.7882  0.1419  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMn4OCr2OMnO10\n_chemical_formula_sum              \"Mg1 Mn5 O12 Cr2\"\n_cell_length_a       5.3587\n_cell_length_b       5.2550\n_cell_length_c       9.9536\n_cell_angle_alpha    83.0436\n_cell_angle_beta     96.6178\n_cell_angle_gamma    56.9472\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8292  0.2942  0.5141  1.0000\n  Mn  Mn1       1.0000  0.0813  0.0805  0.2398  1.0000\n  Mn  Mn2       1.0000  0.0073  0.5472  0.9769  1.0000\n  Mn  Mn3       1.0000  0.5054  0.0021  0.5136  1.0000\n  Mn  Mn4       1.0000  0.4172  0.4244  0.2411  1.0000\n  O   O1        1.0000  0.5804  0.5652  0.7561  1.0000\n  Cr  Cr1       1.0000  0.2694  0.2551  0.7515  1.0000\n  Cr  Cr2       1.0000  0.7466  0.7490  0.2483  1.0000\n  O   O2        1.0000  0.9841  0.2676  0.8711  1.0000\n  Mn  Mn5       1.0000  0.2543  0.9724  0.6289  1.0000\n  O   O3        1.0000  0.1044  0.3268  0.3747  1.0000\n  O   O4        1.0000  0.3636  0.1676  0.1377  1.0000\n  O   O5        1.0000  0.3155  0.5181  0.8534  1.0000\n  O   O6        1.0000  0.5408  0.2972  0.6372  1.0000\n  O   O7        1.0000  0.4658  0.6951  0.3499  1.0000\n  O   O8        1.0000  0.7367  0.4651  0.1398  1.0000\n  O   O9        1.0000  0.6006  0.8372  0.8651  1.0000\n  O   O10       1.0000  0.8338  0.5938  0.6243  1.0000\n  O   O11       1.0000  0.7442  0.0443  0.3785  1.0000\n  O   O12       1.0000  0.0231  0.7882  0.1419  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e42b0ce9-e73c-4349-8150-2ba74741fffd",
    "mp_id": "mp-2230252",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn2(SbO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9059\n_cell_length_b   4.9171\n_cell_length_c   10.2453\n_cell_angle_alpha   89.9915\n_cell_angle_beta   89.9917\n_cell_angle_gamma   87.6250\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn2(SbO3)4\n_chemical_formula_sum   'Mg1 Mn2 Sb4 O12'\n_cell_volume   246.9379\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0001  0.5001  0.7594  1\n  Mn  Mn1  1  0.9999  0.9999  0.3181  1\n  Mn  Mn2  1  0.5002  0.5002  0.8827  1\n  Sb  Sb3  1  0.0001  0.0001  0.0131  1\n  Sb  Sb4  1  1.0000  0.0000  0.6205  1\n  Sb  Sb5  1  0.5000  0.5000  0.1749  1\n  Sb  Sb6  1  0.4999  0.4999  0.4858  1\n  O  O7  1  0.1713  0.7759  0.8685  1\n  O  O8  1  0.1972  0.7956  0.1610  1\n  O  O9  1  0.2213  0.8173  0.4790  1\n  O  O10  1  0.3045  0.2862  0.0298  1\n  O  O11  1  0.3132  0.3250  0.3290  1\n  O  O12  1  0.2821  0.3412  0.6338  1\n  O  O13  1  0.6957  0.7140  0.0299  1\n  O  O14  1  0.6868  0.6749  0.3290  1\n  O  O15  1  0.7172  0.6583  0.6340  1\n  O  O16  1  0.8029  0.2045  0.1610  1\n  O  O17  1  0.8290  0.2243  0.8685  1\n  O  O18  1  0.7785  0.1825  0.4790  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMn2SbOSb2O4SbO7\n_chemical_formula_sum              \"Mg1 Mn2 Sb4 O12\"\n_cell_length_a       4.9059\n_cell_length_b       4.9171\n_cell_length_c       10.2453\n_cell_angle_alpha    89.9915\n_cell_angle_beta     89.9917\n_cell_angle_gamma    87.6250\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0001  0.5001  0.7594  1.0000\n  Mn  Mn1       1.0000  0.9999  0.9999  0.3181  1.0000\n  Mn  Mn2       1.0000  0.5002  0.5002  0.8827  1.0000\n  Sb  Sb1       1.0000  0.0001  0.0001  0.0131  1.0000\n  O   O1        1.0000  1.0000  0.0000  0.6205  1.0000\n  Sb  Sb2       1.0000  0.5000  0.5000  0.1749  1.0000\n  Sb  Sb3       1.0000  0.4999  0.4999  0.4858  1.0000\n  O   O2        1.0000  0.1713  0.7759  0.8685  1.0000\n  O   O3        1.0000  0.1972  0.7956  0.1610  1.0000\n  O   O4        1.0000  0.2213  0.8173  0.4790  1.0000\n  O   O5        1.0000  0.3045  0.2862  0.0298  1.0000\n  Sb  Sb4       1.0000  0.3132  0.3250  0.3290  1.0000\n  O   O6        1.0000  0.2821  0.3412  0.6338  1.0000\n  O   O7        1.0000  0.6957  0.7140  0.0299  1.0000\n  O   O8        1.0000  0.6868  0.6749  0.3290  1.0000\n  O   O9        1.0000  0.7172  0.6583  0.6340  1.0000\n  O   O10       1.0000  0.8029  0.2045  0.1610  1.0000\n  O   O11       1.0000  0.8290  0.2243  0.8685  1.0000\n  O   O12       1.0000  0.7785  0.1825  0.4790  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "08e9591c-4924-4dad-ad80-71f5bf8d14d6",
    "mp_id": "mp-2230521",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgFe6O7F5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1580\n_cell_length_b   5.0648\n_cell_length_c   8.9717\n_cell_angle_alpha   90.3349\n_cell_angle_beta   87.5889\n_cell_angle_gamma   99.7510\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgFe6O7F5\n_chemical_formula_sum   'Mg1 Fe6 O7 F5'\n_cell_volume   230.7912\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0063  0.5100  0.3272  1\n  Fe  Fe1  1  0.9674  0.0040  0.0086  1\n  Fe  Fe2  1  0.0529  0.0274  0.3329  1\n  Fe  Fe3  1  0.0113  0.9830  0.6557  1\n  Fe  Fe4  1  0.5441  0.4009  0.1367  1\n  Fe  Fe5  1  0.4510  0.5352  0.8327  1\n  Fe  Fe6  1  0.4434  0.5593  0.5154  1\n  O  O7  1  0.1705  0.7833  0.4917  1\n  O  O8  1  0.3084  0.2600  0.9879  1\n  O  O9  1  0.3364  0.3522  0.3257  1\n  O  O10  1  0.2975  0.3013  0.6666  1\n  O  O11  1  0.6737  0.6936  0.0004  1\n  O  O12  1  0.6741  0.7238  0.6661  1\n  O  O13  1  0.8394  0.2202  0.1746  1\n  F  F14  1  0.1416  0.7807  0.1582  1\n  F  F15  1  0.1660  0.7864  0.8288  1\n  F  F16  1  0.7180  0.7162  0.3403  1\n  F  F17  1  0.8420  0.1627  0.8331  1\n  F  F18  1  0.8561  0.2275  0.4960  1\n",
    "output": "data_image0\n_chemical_formula_structural       FFe6O7F2MgF2\n_chemical_formula_sum              \"F5 Fe6 O7 Mg1\"\n_cell_length_a       5.1580\n_cell_length_b       5.0648\n_cell_length_c       8.9717\n_cell_angle_alpha    90.3349\n_cell_angle_beta     87.5889\n_cell_angle_gamma    99.7510\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.0063  0.5100  0.3272  1.0000\n  Fe  Fe1       1.0000  0.9674  0.0040  0.0086  1.0000\n  Fe  Fe2       1.0000  0.0529  0.0274  0.3329  1.0000\n  Fe  Fe3       1.0000  0.0113  0.9830  0.6557  1.0000\n  Fe  Fe4       1.0000  0.5441  0.4009  0.1367  1.0000\n  Fe  Fe5       1.0000  0.4510  0.5352  0.8327  1.0000\n  Fe  Fe6       1.0000  0.4434  0.5593  0.5154  1.0000\n  O   O1        1.0000  0.1705  0.7833  0.4917  1.0000\n  O   O2        1.0000  0.3084  0.2600  0.9879  1.0000\n  O   O3        1.0000  0.3364  0.3522  0.3257  1.0000\n  O   O4        1.0000  0.2975  0.3013  0.6666  1.0000\n  O   O5        1.0000  0.6737  0.6936  0.0004  1.0000\n  O   O6        1.0000  0.6741  0.7238  0.6661  1.0000\n  O   O7        1.0000  0.8394  0.2202  0.1746  1.0000\n  F   F2        1.0000  0.1416  0.7807  0.1582  1.0000\n  F   F3        1.0000  0.1660  0.7864  0.8288  1.0000\n  Mg  Mg1       1.0000  0.7180  0.7162  0.3403  1.0000\n  F   F4        1.0000  0.8420  0.1627  0.8331  1.0000\n  F   F5        1.0000  0.8561  0.2275  0.4960  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fbe730fa-53ba-4004-a283-387a07e8ab4c",
    "mp_id": "mp-2230812",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgTi2Tl2W2(O5F)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6102\n_cell_length_b   7.5057\n_cell_length_c   7.5057\n_cell_angle_alpha   59.6302\n_cell_angle_beta   58.5638\n_cell_angle_gamma   58.5638\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgTi2Tl2W2(O5F)2\n_chemical_formula_sum   'Mg1 Ti2 Tl2 W2 O10 F2'\n_cell_volume   295.6078\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6815  0.7668  0.7668  1\n  Ti  Ti1  1  0.0117  0.0129  0.0129  1\n  Ti  Ti2  1  0.4979  0.0276  0.0276  1\n  Tl  Tl3  1  0.4165  0.4141  0.4141  1\n  Tl  Tl4  1  0.7505  0.5337  0.5337  1\n  W  W5  1  0.0038  0.0016  0.5127  1\n  W  W6  1  0.0038  0.5127  0.0016  1\n  O  O7  1  0.0518  0.0611  0.6932  1\n  O  O8  1  0.0518  0.6932  0.0611  1\n  O  O9  1  0.0422  0.6765  0.6765  1\n  O  O10  1  0.3230  0.3087  0.9370  1\n  O  O11  1  0.3230  0.9370  0.3087  1\n  O  O12  1  0.6783  0.0599  0.6904  1\n  O  O13  1  0.6783  0.6904  0.0599  1\n  O  O14  1  0.9122  0.3246  0.3246  1\n  O  O15  1  0.9571  0.3025  0.9408  1\n  O  O16  1  0.9571  0.9408  0.3025  1\n  F  F17  1  0.6873  0.0796  0.0796  1\n  F  F18  1  0.3423  0.9152  0.9152  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgOTiTl2W2O8TiOF2\n_chemical_formula_sum              \"Mg1 O10 Ti2 Tl2 W2 F2\"\n_cell_length_a       7.6102\n_cell_length_b       7.5057\n_cell_length_c       7.5057\n_cell_angle_alpha    59.6302\n_cell_angle_beta     58.5638\n_cell_angle_gamma    58.5638\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6815  0.7668  0.7668  1.0000\n  O   O1        1.0000  0.0117  0.0129  0.0129  1.0000\n  Ti  Ti1       1.0000  0.4979  0.0276  0.0276  1.0000\n  Tl  Tl1       1.0000  0.4165  0.4141  0.4141  1.0000\n  Tl  Tl2       1.0000  0.7505  0.5337  0.5337  1.0000\n  W   W1        1.0000  0.0038  0.0016  0.5127  1.0000\n  W   W2        1.0000  0.0038  0.5127  0.0016  1.0000\n  O   O2        1.0000  0.0518  0.0611  0.6932  1.0000\n  O   O3        1.0000  0.0518  0.6932  0.0611  1.0000\n  O   O4        1.0000  0.0422  0.6765  0.6765  1.0000\n  O   O5        1.0000  0.3230  0.3087  0.9370  1.0000\n  O   O6        1.0000  0.3230  0.9370  0.3087  1.0000\n  O   O7        1.0000  0.6783  0.0599  0.6904  1.0000\n  O   O8        1.0000  0.6783  0.6904  0.0599  1.0000\n  O   O9        1.0000  0.9122  0.3246  0.3246  1.0000\n  Ti  Ti2       1.0000  0.9571  0.3025  0.9408  1.0000\n  O   O10       1.0000  0.9571  0.9408  0.3025  1.0000\n  F   F1        1.0000  0.6873  0.0796  0.0796  1.0000\n  F   F2        1.0000  0.3423  0.9152  0.9152  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5421e2c5-79c1-40bc-94b9-56b7eb768774",
    "mp_id": "mp-2231004",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn6(O2F)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2407\n_cell_length_b   5.6842\n_cell_length_c   5.8986\n_cell_angle_alpha   67.5419\n_cell_angle_beta   64.9680\n_cell_angle_gamma   67.5480\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn6(O2F)4\n_chemical_formula_sum   'Mg1 Mn6 O8 F4'\n_cell_volume   223.2097\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5034  0.9782  0.5047  1\n  Mn  Mn1  1  0.8546  0.6887  0.6867  1\n  Mn  Mn2  1  0.6899  0.3593  0.3347  1\n  Mn  Mn3  1  0.2729  0.6014  0.6533  1\n  Mn  Mn4  1  0.1352  0.2924  0.3120  1\n  Mn  Mn5  1  0.4958  0.9857  0.0011  1\n  Mn  Mn6  1  0.0056  0.0299  0.9745  1\n  O  O7  1  0.6749  0.0324  0.6436  1\n  O  O8  1  0.3144  0.3389  0.9708  1\n  O  O9  1  0.9549  0.2419  0.2064  1\n  O  O10  1  0.0295  0.8014  0.7862  1\n  O  O11  1  0.4312  0.3810  0.4402  1\n  O  O12  1  0.3358  0.9325  0.3673  1\n  O  O13  1  0.6703  0.6410  0.0252  1\n  O  O14  1  0.0193  0.3300  0.6729  1\n  F  F15  1  0.3188  0.8964  0.8581  1\n  F  F16  1  0.6539  0.6051  0.5519  1\n  F  F17  1  0.6952  0.0727  0.1442  1\n  F  F18  1  0.0158  0.7196  0.2948  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMn4OMnO3MnO4F4\n_chemical_formula_sum              \"Mg1 Mn6 O8 F4\"\n_cell_length_a       8.2407\n_cell_length_b       5.6842\n_cell_length_c       5.8986\n_cell_angle_alpha    67.5419\n_cell_angle_beta     64.9680\n_cell_angle_gamma    67.5480\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.5034  0.9782  0.5047  1.0000\n  Mn  Mn1       1.0000  0.8546  0.6887  0.6867  1.0000\n  Mn  Mn2       1.0000  0.6899  0.3593  0.3347  1.0000\n  Mn  Mn3       1.0000  0.2729  0.6014  0.6533  1.0000\n  Mn  Mn4       1.0000  0.1352  0.2924  0.3120  1.0000\n  O   O1        1.0000  0.4958  0.9857  0.0011  1.0000\n  Mn  Mn5       1.0000  0.0056  0.0299  0.9745  1.0000\n  O   O2        1.0000  0.6749  0.0324  0.6436  1.0000\n  O   O3        1.0000  0.3144  0.3389  0.9708  1.0000\n  O   O4        1.0000  0.9549  0.2419  0.2064  1.0000\n  Mn  Mn6       1.0000  0.0295  0.8014  0.7862  1.0000\n  O   O5        1.0000  0.4312  0.3810  0.4402  1.0000\n  O   O6        1.0000  0.3358  0.9325  0.3673  1.0000\n  O   O7        1.0000  0.6703  0.6410  0.0252  1.0000\n  O   O8        1.0000  0.0193  0.3300  0.6729  1.0000\n  F   F1        1.0000  0.3188  0.8964  0.8581  1.0000\n  F   F2        1.0000  0.6539  0.6051  0.5519  1.0000\n  F   F3        1.0000  0.6952  0.0727  0.1442  1.0000\n  F   F4        1.0000  0.0158  0.7196  0.2948  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "02481e68-a7ba-43ed-9cec-ccfe98bc8a44",
    "mp_id": "mp-2231286",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgMn6(O2F)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1762\n_cell_length_b   5.9421\n_cell_length_c   5.7716\n_cell_angle_alpha   81.8085\n_cell_angle_beta   74.9420\n_cell_angle_gamma   71.0196\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgMn6(O2F)4\n_chemical_formula_sum   'Mg1 Mn6 O8 F4'\n_cell_volume   224.2856\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8200  0.1811  0.6758  1\n  Mn  Mn1  1  0.8305  0.6764  0.6651  1\n  Mn  Mn2  1  0.6993  0.4181  0.2417  1\n  Mn  Mn3  1  0.3294  0.7226  0.6193  1\n  Mn  Mn4  1  0.1687  0.3162  0.3294  1\n  Mn  Mn5  1  0.4886  0.0104  0.0290  1\n  Mn  Mn6  1  0.9778  0.9238  0.0859  1\n  O  O7  1  0.2969  0.3133  0.0155  1\n  O  O8  1  0.6484  0.5331  0.5690  1\n  O  O9  1  0.9537  0.1781  0.3097  1\n  O  O10  1  0.7189  0.1643  0.0428  1\n  O  O11  1  0.0077  0.8298  0.7534  1\n  O  O12  1  0.3479  0.9980  0.3598  1\n  O  O13  1  0.6814  0.6939  0.0071  1\n  O  O14  1  0.9900  0.6420  0.3325  1\n  F  F15  1  0.6123  0.0383  0.6643  1\n  F  F16  1  0.2863  0.8522  0.9518  1\n  F  F17  1  0.3723  0.4487  0.3971  1\n  F  F18  1  0.0384  0.3097  0.6891  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgMn4OMnO5MnO2F4\n_chemical_formula_sum              \"Mg1 Mn6 O8 F4\"\n_cell_length_a       7.1762\n_cell_length_b       5.9421\n_cell_length_c       5.7716\n_cell_angle_alpha    81.8085\n_cell_angle_beta     74.9420\n_cell_angle_gamma    71.0196\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8200  0.1811  0.6758  1.0000\n  Mn  Mn1       1.0000  0.8305  0.6764  0.6651  1.0000\n  Mn  Mn2       1.0000  0.6993  0.4181  0.2417  1.0000\n  Mn  Mn3       1.0000  0.3294  0.7226  0.6193  1.0000\n  Mn  Mn4       1.0000  0.1687  0.3162  0.3294  1.0000\n  O   O1        1.0000  0.4886  0.0104  0.0290  1.0000\n  Mn  Mn5       1.0000  0.9778  0.9238  0.0859  1.0000\n  O   O2        1.0000  0.2969  0.3133  0.0155  1.0000\n  O   O3        1.0000  0.6484  0.5331  0.5690  1.0000\n  O   O4        1.0000  0.9537  0.1781  0.3097  1.0000\n  O   O5        1.0000  0.7189  0.1643  0.0428  1.0000\n  O   O6        1.0000  0.0077  0.8298  0.7534  1.0000\n  Mn  Mn6       1.0000  0.3479  0.9980  0.3598  1.0000\n  O   O7        1.0000  0.6814  0.6939  0.0071  1.0000\n  O   O8        1.0000  0.9900  0.6420  0.3325  1.0000\n  F   F1        1.0000  0.6123  0.0383  0.6643  1.0000\n  F   F2        1.0000  0.2863  0.8522  0.9518  1.0000\n  F   F3        1.0000  0.3723  0.4487  0.3971  1.0000\n  F   F4        1.0000  0.0384  0.3097  0.6891  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8b5bcfac-3065-4d2b-b89c-f6a257004b97",
    "mp_id": "mp-2232282",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2Mg(CuO2)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7402\n_cell_length_b   5.7382\n_cell_length_c   7.0321\n_cell_angle_alpha   114.1886\n_cell_angle_beta   114.0394\n_cell_angle_gamma   89.9820\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2Mg(CuO2)4\n_chemical_formula_sum   'Sm2 Mg1 Cu4 O8'\n_cell_volume   189.0648\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.8753  0.1248  0.7501  1\n  Sm  Sm1  1  0.1247  0.8754  0.2501  1\n  Mg  Mg2  1  0.3757  0.6237  0.7498  1\n  Cu  Cu3  1  0.5145  0.0638  0.0764  1\n  Cu  Cu4  1  0.5628  0.5133  0.0776  1\n  Cu  Cu5  1  0.9358  0.4383  0.4238  1\n  Cu  Cu6  1  0.4865  0.4853  0.4220  1\n  O  O7  1  0.7272  0.5292  0.9024  1\n  O  O8  1  0.1751  0.8721  0.9014  1\n  O  O9  1  0.2697  0.4723  0.1194  1\n  O  O10  1  0.8498  0.1481  0.1201  1\n  O  O11  1  0.5275  0.1500  0.3795  1\n  O  O12  1  0.8525  0.7306  0.3808  1\n  O  O13  1  0.1271  0.2729  0.5979  1\n  O  O14  1  0.4710  0.8251  0.5987  1\n",
    "output": "data_image0\n_chemical_formula_structural       OSmMgCu4O7Sm\n_chemical_formula_sum              \"O8 Sm2 Mg1 Cu4\"\n_cell_length_a       5.7402\n_cell_length_b       5.7382\n_cell_length_c       7.0321\n_cell_angle_alpha    114.1886\n_cell_angle_beta     114.0394\n_cell_angle_gamma    89.9820\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.8753  0.1248  0.7501  1.0000\n  Sm  Sm1       1.0000  0.1247  0.8754  0.2501  1.0000\n  Mg  Mg1       1.0000  0.3757  0.6237  0.7498  1.0000\n  Cu  Cu1       1.0000  0.5145  0.0638  0.0764  1.0000\n  Cu  Cu2       1.0000  0.5628  0.5133  0.0776  1.0000\n  Cu  Cu3       1.0000  0.9358  0.4383  0.4238  1.0000\n  Cu  Cu4       1.0000  0.4865  0.4853  0.4220  1.0000\n  O   O2        1.0000  0.7272  0.5292  0.9024  1.0000\n  O   O3        1.0000  0.1751  0.8721  0.9014  1.0000\n  O   O4        1.0000  0.2697  0.4723  0.1194  1.0000\n  O   O5        1.0000  0.8498  0.1481  0.1201  1.0000\n  O   O6        1.0000  0.5275  0.1500  0.3795  1.0000\n  O   O7        1.0000  0.8525  0.7306  0.3808  1.0000\n  O   O8        1.0000  0.1271  0.2729  0.5979  1.0000\n  Sm  Sm2       1.0000  0.4710  0.8251  0.5987  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d8fee74a-89a7-4293-ac0e-444b66c03698",
    "mp_id": "mp-2239868",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2MgFeWO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7822\n_cell_length_b   6.7398\n_cell_length_c   6.7809\n_cell_angle_alpha   74.4787\n_cell_angle_beta   130.2687\n_cell_angle_gamma   128.6831\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2MgFeWO6\n_chemical_formula_sum   'Ba2 Mg1 Fe1 W1 O6'\n_cell_volume   179.7149\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5001  0.8148  0.3146  1\n  Ba  Ba1  1  0.5005  0.1856  0.6857  1\n  Mg  Mg2  1  0.4998  0.4997  0.0002  1\n  Fe  Fe3  1  0.9995  0.4995  0.4995  1\n  W  W4  1  0.9997  0.9996  0.0001  1\n  O  O5  1  0.4877  0.7338  0.7485  1\n  O  O6  1  0.9862  0.7337  0.2471  1\n  O  O7  1  0.0132  0.2661  0.7525  1\n  O  O8  1  0.5118  0.2655  0.2518  1\n  O  O9  1  0.9989  0.1902  0.1922  1\n  O  O10  1  0.0026  0.8113  0.8079  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBaMgFeWO4BaO\n_chemical_formula_sum              \"O6 Ba2 Mg1 Fe1 W1\"\n_cell_length_a       6.7822\n_cell_length_b       6.7398\n_cell_length_c       6.7809\n_cell_angle_alpha    74.4787\n_cell_angle_beta     130.2687\n_cell_angle_gamma    128.6831\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5001  0.8148  0.3146  1.0000\n  Ba  Ba1       1.0000  0.5005  0.1856  0.6857  1.0000\n  Mg  Mg1       1.0000  0.4998  0.4997  0.0002  1.0000\n  Fe  Fe1       1.0000  0.9995  0.4995  0.4995  1.0000\n  W   W1        1.0000  0.9997  0.9996  0.0001  1.0000\n  O   O2        1.0000  0.4877  0.7338  0.7485  1.0000\n  O   O3        1.0000  0.9862  0.7337  0.2471  1.0000\n  O   O4        1.0000  0.0132  0.2661  0.7525  1.0000\n  O   O5        1.0000  0.5118  0.2655  0.2518  1.0000\n  Ba  Ba2       1.0000  0.9989  0.1902  0.1922  1.0000\n  O   O6        1.0000  0.0026  0.8113  0.8079  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8d754839-fea8-48ea-925e-a0114b0a0fb2",
    "mp_id": "mp-2240173",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TmMgSb(PbO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5150\n_cell_length_b   7.5150\n_cell_length_c   7.5150\n_cell_angle_alpha   45.5179\n_cell_angle_beta   45.5179\n_cell_angle_gamma   45.5179\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TmMgSb(PbO3)2\n_chemical_formula_sum   'Tm1 Mg1 Sb1 Pb2 O6'\n_cell_volume   196.8509\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tm  Tm0  1  0.0071  0.0071  0.0071  1\n  Mg  Mg1  1  0.6402  0.6402  0.6402  1\n  Sb  Sb2  1  0.4305  0.4305  0.4305  1\n  Pb  Pb3  1  0.8537  0.8537  0.8537  1\n  Pb  Pb4  1  0.2672  0.2672  0.2672  1\n  O  O5  1  0.3879  0.0836  0.6616  1\n  O  O6  1  0.6616  0.3879  0.0836  1\n  O  O7  1  0.0836  0.6616  0.3879  1\n  O  O8  1  0.6943  0.8535  0.2456  1\n  O  O9  1  0.2456  0.6943  0.8535  1\n  O  O10  1  0.8535  0.2456  0.6943  1\n",
    "output": "data_image0\n_chemical_formula_structural       TmMgOPb2O4SbO\n_chemical_formula_sum              \"Tm1 Mg1 O6 Pb2 Sb1\"\n_cell_length_a       7.5150\n_cell_length_b       7.5150\n_cell_length_c       7.5150\n_cell_angle_alpha    45.5179\n_cell_angle_beta     45.5179\n_cell_angle_gamma    45.5179\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tm  Tm1       1.0000  0.0071  0.0071  0.0071  1.0000\n  Mg  Mg1       1.0000  0.6402  0.6402  0.6402  1.0000\n  O   O1        1.0000  0.4305  0.4305  0.4305  1.0000\n  Pb  Pb1       1.0000  0.8537  0.8537  0.8537  1.0000\n  Pb  Pb2       1.0000  0.2672  0.2672  0.2672  1.0000\n  O   O2        1.0000  0.3879  0.0836  0.6616  1.0000\n  O   O3        1.0000  0.6616  0.3879  0.0836  1.0000\n  O   O4        1.0000  0.0836  0.6616  0.3879  1.0000\n  O   O5        1.0000  0.6943  0.8535  0.2456  1.0000\n  Sb  Sb1       1.0000  0.2456  0.6943  0.8535  1.0000\n  O   O6        1.0000  0.8535  0.2456  0.6943  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1b85d4d3-1a8d-41fa-99ff-d92e94874a2c",
    "mp_id": "mp-2241358",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2ErMgSbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4043\n_cell_length_b   7.4065\n_cell_length_c   7.4043\n_cell_angle_alpha   49.6214\n_cell_angle_beta   49.6274\n_cell_angle_gamma   49.6214\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2ErMgSbO6\n_chemical_formula_sum   'Ba2 Er1 Mg1 Sb1 O6'\n_cell_volume   216.6788\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7232  0.7222  0.7232  1\n  Ba  Ba1  1  0.1748  0.1739  0.1748  1\n  Er  Er2  1  0.9967  0.9963  0.9967  1\n  Mg  Mg3  1  0.4013  0.4004  0.4013  1\n  Sb  Sb4  1  0.5503  0.5503  0.5503  1\n  O  O5  1  0.2883  0.7586  0.7575  1\n  O  O6  1  0.2298  0.7589  0.2298  1\n  O  O7  1  0.7581  0.2899  0.7581  1\n  O  O8  1  0.2299  0.2291  0.7598  1\n  O  O9  1  0.7598  0.2291  0.2299  1\n  O  O10  1  0.7575  0.7586  0.2883  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2ErMgOSbO5\n_chemical_formula_sum              \"Ba2 Er1 Mg1 O6 Sb1\"\n_cell_length_a       7.4043\n_cell_length_b       7.4065\n_cell_length_c       7.4043\n_cell_angle_alpha    49.6214\n_cell_angle_beta     49.6274\n_cell_angle_gamma    49.6214\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7232  0.7222  0.7232  1.0000\n  Ba  Ba2       1.0000  0.1748  0.1739  0.1748  1.0000\n  Er  Er1       1.0000  0.9967  0.9963  0.9967  1.0000\n  Mg  Mg1       1.0000  0.4013  0.4004  0.4013  1.0000\n  O   O1        1.0000  0.5503  0.5503  0.5503  1.0000\n  Sb  Sb1       1.0000  0.2883  0.7586  0.7575  1.0000\n  O   O2        1.0000  0.2298  0.7589  0.2298  1.0000\n  O   O3        1.0000  0.7581  0.2899  0.7581  1.0000\n  O   O4        1.0000  0.2299  0.2291  0.7598  1.0000\n  O   O5        1.0000  0.7598  0.2291  0.2299  1.0000\n  O   O6        1.0000  0.7575  0.7586  0.2883  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f297872-7864-4aee-943d-b2e916a30be9",
    "mp_id": "mp-2254",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8328\n_cell_length_b   8.3033\n_cell_length_c   8.9239\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al2O3\n_chemical_formula_sum   'Al16 O24'\n_cell_volume   358.1016\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.6769  0.1522  0.2070  1\n  Al  Al1  1  0.8231  0.6522  0.7070  1\n  Al  Al2  1  0.6836  0.8399  0.0161  1\n  Al  Al3  1  0.8164  0.3399  0.5161  1\n  Al  Al4  1  0.3164  0.1601  0.5161  1\n  Al  Al5  1  0.1732  0.0303  0.0064  1\n  Al  Al6  1  0.6862  0.1540  0.7942  1\n  Al  Al7  1  0.1862  0.3460  0.7942  1\n  Al  Al8  1  0.3138  0.8460  0.2942  1\n  Al  Al9  1  0.8268  0.9697  0.5064  1\n  Al  Al10  1  0.6732  0.4697  0.0064  1\n  Al  Al11  1  0.1769  0.3478  0.2070  1\n  Al  Al12  1  0.3231  0.8478  0.7070  1\n  Al  Al13  1  0.8138  0.6540  0.2942  1\n  Al  Al14  1  0.3268  0.5303  0.5064  1\n  Al  Al15  1  0.1836  0.6601  0.0161  1\n  O  O16  1  0.9780  0.5122  0.1416  1\n  O  O17  1  0.3431  0.8388  0.9060  1\n  O  O18  1  0.0201  0.8243  0.1353  1\n  O  O19  1  0.4813  0.6684  0.6474  1\n  O  O20  1  0.8431  0.6612  0.9060  1\n  O  O21  1  0.3432  0.1684  0.8804  1\n  O  O22  1  0.9799  0.1757  0.6353  1\n  O  O23  1  0.1569  0.3388  0.4060  1\n  O  O24  1  0.9813  0.8316  0.6474  1\n  O  O25  1  0.5201  0.6757  0.1353  1\n  O  O26  1  0.5220  0.0122  0.6416  1\n  O  O27  1  0.6569  0.1612  0.4060  1\n  O  O28  1  0.6573  0.5011  0.4118  1\n  O  O29  1  0.5187  0.3316  0.1474  1\n  O  O30  1  0.0187  0.1684  0.1474  1\n  O  O31  1  0.0220  0.4878  0.6416  1\n  O  O32  1  0.1573  0.9989  0.4118  1\n  O  O33  1  0.1568  0.6684  0.3804  1\n  O  O34  1  0.4799  0.3243  0.6353  1\n  O  O35  1  0.6568  0.8316  0.3804  1\n  O  O36  1  0.4780  0.9878  0.1416  1\n  O  O37  1  0.8427  0.0011  0.9118  1\n  O  O38  1  0.3427  0.4989  0.9118  1\n  O  O39  1  0.8432  0.3316  0.8804  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al9OAl6O4AlO19\n_chemical_formula_sum              \"Al16 O24\"\n_cell_length_a       4.8328\n_cell_length_b       8.3033\n_cell_length_c       8.9239\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.6769  0.1522  0.2070  1.0000\n  Al  Al2       1.0000  0.8231  0.6522  0.7070  1.0000\n  Al  Al3       1.0000  0.6836  0.8399  0.0161  1.0000\n  Al  Al4       1.0000  0.8164  0.3399  0.5161  1.0000\n  Al  Al5       1.0000  0.3164  0.1601  0.5161  1.0000\n  Al  Al6       1.0000  0.1732  0.0303  0.0064  1.0000\n  Al  Al7       1.0000  0.6862  0.1540  0.7942  1.0000\n  Al  Al8       1.0000  0.1862  0.3460  0.7942  1.0000\n  Al  Al9       1.0000  0.3138  0.8460  0.2942  1.0000\n  O   O1        1.0000  0.8268  0.9697  0.5064  1.0000\n  Al  Al10      1.0000  0.6732  0.4697  0.0064  1.0000\n  Al  Al11      1.0000  0.1769  0.3478  0.2070  1.0000\n  Al  Al12      1.0000  0.3231  0.8478  0.7070  1.0000\n  Al  Al13      1.0000  0.8138  0.6540  0.2942  1.0000\n  Al  Al14      1.0000  0.3268  0.5303  0.5064  1.0000\n  Al  Al15      1.0000  0.1836  0.6601  0.0161  1.0000\n  O   O2        1.0000  0.9780  0.5122  0.1416  1.0000\n  O   O3        1.0000  0.3431  0.8388  0.9060  1.0000\n  O   O4        1.0000  0.0201  0.8243  0.1353  1.0000\n  O   O5        1.0000  0.4813  0.6684  0.6474  1.0000\n  Al  Al16      1.0000  0.8431  0.6612  0.9060  1.0000\n  O   O6        1.0000  0.3432  0.1684  0.8804  1.0000\n  O   O7        1.0000  0.9799  0.1757  0.6353  1.0000\n  O   O8        1.0000  0.1569  0.3388  0.4060  1.0000\n  O   O9        1.0000  0.9813  0.8316  0.6474  1.0000\n  O   O10       1.0000  0.5201  0.6757  0.1353  1.0000\n  O   O11       1.0000  0.5220  0.0122  0.6416  1.0000\n  O   O12       1.0000  0.6569  0.1612  0.4060  1.0000\n  O   O13       1.0000  0.6573  0.5011  0.4118  1.0000\n  O   O14       1.0000  0.5187  0.3316  0.1474  1.0000\n  O   O15       1.0000  0.0187  0.1684  0.1474  1.0000\n  O   O16       1.0000  0.0220  0.4878  0.6416  1.0000\n  O   O17       1.0000  0.1573  0.9989  0.4118  1.0000\n  O   O18       1.0000  0.1568  0.6684  0.3804  1.0000\n  O   O19       1.0000  0.4799  0.3243  0.6353  1.0000\n  O   O20       1.0000  0.6568  0.8316  0.3804  1.0000\n  O   O21       1.0000  0.4780  0.9878  0.1416  1.0000\n  O   O22       1.0000  0.8427  0.0011  0.9118  1.0000\n  O   O23       1.0000  0.3427  0.4989  0.9118  1.0000\n  O   O24       1.0000  0.8432  0.3316  0.8804  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8d512332-6042-4f11-a9cd-3a2079117260",
    "mp_id": "mp-23418",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg3(SCl)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8548\n_cell_length_b   7.8548\n_cell_length_c   7.8548\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg3(SCl)2\n_chemical_formula_sum   'Hg6 S4 Cl4'\n_cell_volume   373.0673\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.7500  0.9486  0.1986  1\n  Hg  Hg1  1  0.3014  0.2500  0.5514  1\n  Hg  Hg2  1  0.5514  0.3014  0.2500  1\n  Hg  Hg3  1  0.1986  0.7500  0.9486  1\n  Hg  Hg4  1  0.9486  0.1986  0.7500  1\n  Hg  Hg5  1  0.2500  0.5514  0.3014  1\n  S  S6  1  0.0000  0.9707  0.5000  1\n  S  S7  1  0.5000  0.0000  0.9707  1\n  S  S8  1  0.9707  0.5000  0.0000  1\n  S  S9  1  0.5293  0.5293  0.5293  1\n  Cl  Cl10  1  -0.0000  0.4806  0.5000  1\n  Cl  Cl11  1  0.5000  -0.0000  0.4806  1\n  Cl  Cl12  1  0.0194  0.0194  0.0194  1\n  Cl  Cl13  1  0.4806  0.5000  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg3SHg2S2HgSCl4\n_chemical_formula_sum              \"Hg6 S4 Cl4\"\n_cell_length_a       7.8548\n_cell_length_b       7.8548\n_cell_length_c       7.8548\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.7500  0.9486  0.1986  1.0000\n  Hg  Hg2       1.0000  0.3014  0.2500  0.5514  1.0000\n  Hg  Hg3       1.0000  0.5514  0.3014  0.2500  1.0000\n  S   S1        1.0000  0.1986  0.7500  0.9486  1.0000\n  Hg  Hg4       1.0000  0.9486  0.1986  0.7500  1.0000\n  Hg  Hg5       1.0000  0.2500  0.5514  0.3014  1.0000\n  S   S2        1.0000  0.0000  0.9707  0.5000  1.0000\n  S   S3        1.0000  0.5000  0.0000  0.9707  1.0000\n  Hg  Hg6       1.0000  0.9707  0.5000  0.0000  1.0000\n  S   S4        1.0000  0.5293  0.5293  0.5293  1.0000\n  Cl  Cl1       1.0000  0.0000  0.4806  0.5000  1.0000\n  Cl  Cl2       1.0000  0.5000  0.0000  0.4806  1.0000\n  Cl  Cl3       1.0000  0.0194  0.0194  0.0194  1.0000\n  Cl  Cl4       1.0000  0.4806  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "172ec526-8f24-46e5-abf9-85dd726e3e2c",
    "mp_id": "mp-23498",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbSeBr3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1358\n_cell_length_b   6.8552\n_cell_length_c   12.7078\n_cell_angle_alpha   81.6172\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbSeBr3\n_chemical_formula_sum   'Nb4 Se4 Br12'\n_cell_volume   614.9831\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.6343  0.0703  0.8497  1\n  Nb  Nb1  1  0.6343  0.9297  0.6503  1\n  Nb  Nb2  1  0.3657  0.9297  0.1503  1\n  Nb  Nb3  1  0.3657  0.0703  0.3497  1\n  Se  Se4  1  0.1007  0.1566  0.2017  1\n  Se  Se5  1  0.8993  0.1566  0.7017  1\n  Se  Se6  1  0.8993  0.8434  0.7983  1\n  Se  Se7  1  0.1007  0.8434  0.2983  1\n  Br  Br8  1  0.7758  0.3634  0.9215  1\n  Br  Br9  1  0.7758  0.6366  0.5785  1\n  Br  Br10  1  0.2242  0.6366  0.0785  1\n  Br  Br11  1  0.2242  0.3634  0.4215  1\n  Br  Br12  1  0.4308  0.2456  0.6950  1\n  Br  Br13  1  0.4308  0.7544  0.8050  1\n  Br  Br14  1  0.5692  0.7544  0.3050  1\n  Br  Br15  1  0.5692  0.2456  0.1950  1\n  Br  Br16  1  0.3143  0.1475  0.9600  1\n  Br  Br17  1  0.6857  0.1475  0.4600  1\n  Br  Br18  1  0.6857  0.8525  0.0400  1\n  Br  Br19  1  0.3143  0.8525  0.5400  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb4Se3Br10SeBr2\n_chemical_formula_sum              \"Nb4 Se4 Br12\"\n_cell_length_a       7.1358\n_cell_length_b       6.8552\n_cell_length_c       12.7078\n_cell_angle_alpha    81.6172\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.6343  0.0703  0.8497  1.0000\n  Nb  Nb2       1.0000  0.6343  0.9297  0.6503  1.0000\n  Nb  Nb3       1.0000  0.3657  0.9297  0.1503  1.0000\n  Nb  Nb4       1.0000  0.3657  0.0703  0.3497  1.0000\n  Se  Se1       1.0000  0.1007  0.1566  0.2017  1.0000\n  Se  Se2       1.0000  0.8993  0.1566  0.7017  1.0000\n  Se  Se3       1.0000  0.8993  0.8434  0.7983  1.0000\n  Br  Br1       1.0000  0.1007  0.8434  0.2983  1.0000\n  Br  Br2       1.0000  0.7758  0.3634  0.9215  1.0000\n  Br  Br3       1.0000  0.7758  0.6366  0.5785  1.0000\n  Br  Br4       1.0000  0.2242  0.6366  0.0785  1.0000\n  Br  Br5       1.0000  0.2242  0.3634  0.4215  1.0000\n  Br  Br6       1.0000  0.4308  0.2456  0.6950  1.0000\n  Br  Br7       1.0000  0.4308  0.7544  0.8050  1.0000\n  Br  Br8       1.0000  0.5692  0.7544  0.3050  1.0000\n  Br  Br9       1.0000  0.5692  0.2456  0.1950  1.0000\n  Br  Br10      1.0000  0.3143  0.1475  0.9600  1.0000\n  Se  Se4       1.0000  0.6857  0.1475  0.4600  1.0000\n  Br  Br11      1.0000  0.6857  0.8525  0.0400  1.0000\n  Br  Br12      1.0000  0.3143  0.8525  0.5400  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1326fc68-f241-4604-bba9-50091962f9f3",
    "mp_id": "mp-23586",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg6S4Br3Cl\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4692\n_cell_length_b   10.4692\n_cell_length_c   10.5942\n_cell_angle_alpha   66.2031\n_cell_angle_beta   66.2031\n_cell_angle_gamma   53.7448\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg6S4Br3Cl\n_chemical_formula_sum   'Hg12 S8 Br6 Cl2'\n_cell_volume   835.0849\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.1575  0.6944  0.7948  1\n  Hg  Hg1  1  0.3056  0.8425  0.2052  1\n  Hg  Hg2  1  0.8425  0.3056  0.2052  1\n  Hg  Hg3  1  0.6944  0.1575  0.7948  1\n  Hg  Hg4  1  0.4257  0.4257  0.2253  1\n  Hg  Hg5  1  0.5743  0.5743  0.7747  1\n  Hg  Hg6  1  0.2826  0.2826  0.7881  1\n  Hg  Hg7  1  0.7174  0.7174  0.2119  1\n  Hg  Hg8  1  0.3677  0.8941  0.4954  1\n  Hg  Hg9  1  0.1059  0.6323  0.5046  1\n  Hg  Hg10  1  0.6323  0.1059  0.5046  1\n  Hg  Hg11  1  0.8941  0.3677  0.4954  1\n  S  S12  1  0.1762  0.6911  0.2468  1\n  S  S13  1  0.6911  0.1762  0.2468  1\n  S  S14  1  0.8238  0.3089  0.7532  1\n  S  S15  1  0.9524  0.4403  0.2376  1\n  S  S16  1  0.5597  0.0476  0.7624  1\n  S  S17  1  0.0476  0.5597  0.7624  1\n  S  S18  1  0.4403  0.9524  0.2376  1\n  S  S19  1  0.3089  0.8238  0.7532  1\n  Br  Br20  1  0.2512  0.2512  0.5020  1\n  Br  Br21  1  0.7488  0.7488  0.4980  1\n  Br  Br22  1  0.5000  0.5000  0.5000  1\n  Br  Br23  1  0.6192  0.6192  0.0104  1\n  Br  Br24  1  0.3808  0.3808  0.9896  1\n  Br  Br25  1  0.0000  0.0000  0.5000  1\n  Cl  Cl26  1  0.1253  0.1253  0.0133  1\n  Cl  Cl27  1  0.8747  0.8747  0.9867  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg9BrHg2S8HgBr5Cl2\n_chemical_formula_sum              \"Hg12 Br6 S8 Cl2\"\n_cell_length_a       10.4692\n_cell_length_b       10.4692\n_cell_length_c       10.5942\n_cell_angle_alpha    66.2031\n_cell_angle_beta     66.2031\n_cell_angle_gamma    53.7448\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.1575  0.6944  0.7948  1.0000\n  Hg  Hg2       1.0000  0.3056  0.8425  0.2052  1.0000\n  Hg  Hg3       1.0000  0.8425  0.3056  0.2052  1.0000\n  Hg  Hg4       1.0000  0.6944  0.1575  0.7948  1.0000\n  Hg  Hg5       1.0000  0.4257  0.4257  0.2253  1.0000\n  Hg  Hg6       1.0000  0.5743  0.5743  0.7747  1.0000\n  Hg  Hg7       1.0000  0.2826  0.2826  0.7881  1.0000\n  Hg  Hg8       1.0000  0.7174  0.7174  0.2119  1.0000\n  Hg  Hg9       1.0000  0.3677  0.8941  0.4954  1.0000\n  Br  Br1       1.0000  0.1059  0.6323  0.5046  1.0000\n  Hg  Hg10      1.0000  0.6323  0.1059  0.5046  1.0000\n  Hg  Hg11      1.0000  0.8941  0.3677  0.4954  1.0000\n  S   S1        1.0000  0.1762  0.6911  0.2468  1.0000\n  S   S2        1.0000  0.6911  0.1762  0.2468  1.0000\n  S   S3        1.0000  0.8238  0.3089  0.7532  1.0000\n  S   S4        1.0000  0.9523  0.4403  0.2376  1.0000\n  S   S5        1.0000  0.5597  0.0477  0.7624  1.0000\n  S   S6        1.0000  0.0477  0.5597  0.7624  1.0000\n  S   S7        1.0000  0.4403  0.9524  0.2376  1.0000\n  S   S8        1.0000  0.3089  0.8238  0.7532  1.0000\n  Hg  Hg12      1.0000  0.2512  0.2512  0.5020  1.0000\n  Br  Br2       1.0000  0.7488  0.7488  0.4980  1.0000\n  Br  Br3       1.0000  0.5000  0.5000  0.5000  1.0000\n  Br  Br4       1.0000  0.6192  0.6192  0.0104  1.0000\n  Br  Br5       1.0000  0.3808  0.3808  0.9896  1.0000\n  Br  Br6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cl  Cl1       1.0000  0.1253  0.1253  0.0133  1.0000\n  Cl  Cl2       1.0000  0.8747  0.8747  0.9867  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "18e9e92a-33ff-4289-8ae9-f18fec0e0a92",
    "mp_id": "mp-23979",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K3H(SeO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2522\n_cell_length_b   8.2522\n_cell_length_c   10.3455\n_cell_angle_alpha   77.4309\n_cell_angle_beta   77.4309\n_cell_angle_gamma   42.8304\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K3H(SeO4)2\n_chemical_formula_sum   'K6 H2 Se4 O16'\n_cell_volume   465.6797\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.7572  0.2428  0.2500  1\n  K  K1  1  0.2428  0.7572  0.7500  1\n  K  K2  1  0.5390  0.0717  0.6520  1\n  K  K3  1  0.9283  0.4610  0.8480  1\n  K  K4  1  0.0717  0.5390  0.1520  1\n  K  K5  1  0.4610  0.9283  0.3480  1\n  H  H6  1  0.0000  0.0000  0.0000  1\n  H  H7  1  0.0000  0.0000  0.5000  1\n  Se  Se8  1  0.1124  0.6551  0.4613  1\n  Se  Se9  1  0.3449  0.8876  0.0387  1\n  Se  Se10  1  0.8876  0.3449  0.5387  1\n  Se  Se11  1  0.6551  0.1124  0.9613  1\n  O  O12  1  0.4112  0.3344  0.8814  1\n  O  O13  1  0.6656  0.5888  0.6186  1\n  O  O14  1  0.5888  0.6656  0.1186  1\n  O  O15  1  0.3344  0.4112  0.3814  1\n  O  O16  1  0.5944  0.0956  0.1253  1\n  O  O17  1  0.9044  0.4056  0.3747  1\n  O  O18  1  0.4056  0.9044  0.8747  1\n  O  O19  1  0.0956  0.5944  0.6253  1\n  O  O20  1  0.8506  0.8322  0.3997  1\n  O  O21  1  0.1678  0.1494  0.1003  1\n  O  O22  1  0.1494  0.1678  0.6003  1\n  O  O23  1  0.8322  0.8506  0.8997  1\n  O  O24  1  0.1696  0.8249  0.4385  1\n  O  O25  1  0.1751  0.8304  0.0615  1\n  O  O26  1  0.8304  0.1751  0.5615  1\n  O  O27  1  0.8249  0.1696  0.9385  1\n",
    "output": "data_image0\n_chemical_formula_structural       K6H2Se3O14SeO2\n_chemical_formula_sum              \"K6 H2 Se4 O16\"\n_cell_length_a       8.2522\n_cell_length_b       8.2522\n_cell_length_c       10.3455\n_cell_angle_alpha    77.4309\n_cell_angle_beta     77.4309\n_cell_angle_gamma    42.8304\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.7572  0.2428  0.2500  1.0000\n  K   K2        1.0000  0.2428  0.7572  0.7500  1.0000\n  K   K3        1.0000  0.5390  0.0717  0.6520  1.0000\n  K   K4        1.0000  0.9283  0.4610  0.8480  1.0000\n  K   K5        1.0000  0.0717  0.5390  0.1520  1.0000\n  K   K6        1.0000  0.4610  0.9283  0.3480  1.0000\n  H   H1        1.0000  0.0000  0.0000  0.0000  1.0000\n  H   H2        1.0000  0.0000  0.0000  0.5000  1.0000\n  Se  Se1       1.0000  0.1124  0.6551  0.4613  1.0000\n  Se  Se2       1.0000  0.3449  0.8876  0.0387  1.0000\n  Se  Se3       1.0000  0.8876  0.3449  0.5387  1.0000\n  O   O1        1.0000  0.6551  0.1124  0.9613  1.0000\n  O   O2        1.0000  0.4112  0.3344  0.8814  1.0000\n  O   O3        1.0000  0.6656  0.5888  0.6186  1.0000\n  O   O4        1.0000  0.5888  0.6656  0.1186  1.0000\n  O   O5        1.0000  0.3344  0.4112  0.3814  1.0000\n  O   O6        1.0000  0.5944  0.0956  0.1253  1.0000\n  O   O7        1.0000  0.9044  0.4056  0.3747  1.0000\n  O   O8        1.0000  0.4056  0.9044  0.8747  1.0000\n  O   O9        1.0000  0.0956  0.5944  0.6253  1.0000\n  O   O10       1.0000  0.8506  0.8322  0.3997  1.0000\n  O   O11       1.0000  0.1678  0.1494  0.1003  1.0000\n  O   O12       1.0000  0.1494  0.1678  0.6003  1.0000\n  O   O13       1.0000  0.8322  0.8506  0.8997  1.0000\n  O   O14       1.0000  0.1696  0.8249  0.4385  1.0000\n  Se  Se4       1.0000  0.1751  0.8304  0.0615  1.0000\n  O   O15       1.0000  0.8304  0.1751  0.5615  1.0000\n  O   O16       1.0000  0.8249  0.1696  0.9385  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "18496923-58f5-4b98-befd-89cbeb98aab9",
    "mp_id": "mp-24037",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CoH9(CN2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3143\n_cell_length_b   7.3143\n_cell_length_c   7.3143\n_cell_angle_alpha   97.4059\n_cell_angle_beta   97.4059\n_cell_angle_gamma   97.4059\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CoH9(CN2)3\n_chemical_formula_sum   'Co2 H18 C6 N12'\n_cell_volume   380.5645\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.5000  0.5000  0.5000  1\n  Co  Co1  1  0.0000  0.0000  0.0000  1\n  H  H2  1  0.6494  0.4524  0.2010  1\n  H  H3  1  0.2010  0.6494  0.4524  1\n  H  H4  1  0.7990  0.3506  0.5476  1\n  H  H5  1  0.5476  0.7990  0.3506  1\n  H  H6  1  0.4349  0.3399  0.1607  1\n  H  H7  1  0.1607  0.4349  0.3399  1\n  H  H8  1  0.3399  0.1607  0.4349  1\n  H  H9  1  0.5651  0.6601  0.8393  1\n  H  H10  1  0.8393  0.5651  0.6601  1\n  H  H11  1  0.6601  0.8393  0.5651  1\n  H  H12  1  0.6020  0.2493  0.2740  1\n  H  H13  1  0.3506  0.5476  0.7990  1\n  H  H14  1  0.2493  0.2740  0.6020  1\n  H  H15  1  0.3980  0.7507  0.7260  1\n  H  H16  1  0.7260  0.3980  0.7507  1\n  H  H17  1  0.7507  0.7260  0.3980  1\n  H  H18  1  0.4524  0.2010  0.6494  1\n  H  H19  1  0.2740  0.6020  0.2493  1\n  C  C20  1  0.2257  0.9503  0.1224  1\n  C  C21  1  0.7743  0.0497  0.8776  1\n  C  C22  1  0.9503  0.1224  0.2257  1\n  C  C23  1  0.8776  0.7743  0.0497  1\n  C  C24  1  0.0497  0.8776  0.7743  1\n  C  C25  1  0.1224  0.2257  0.9503  1\n  N  N26  1  0.2599  0.5519  0.3722  1\n  N  N27  1  0.7401  0.4481  0.6278  1\n  N  N28  1  0.6278  0.7401  0.4481  1\n  N  N29  1  0.4481  0.6278  0.7401  1\n  N  N30  1  0.0772  0.7961  0.6334  1\n  N  N31  1  0.6334  0.0772  0.7961  1\n  N  N32  1  0.7961  0.6334  0.0772  1\n  N  N33  1  0.5519  0.3722  0.2599  1\n  N  N34  1  0.3666  0.9228  0.2039  1\n  N  N35  1  0.2039  0.3666  0.9228  1\n  N  N36  1  0.3722  0.2599  0.5519  1\n  N  N37  1  0.9228  0.2039  0.3666  1\n",
    "output": "data_image0\n_chemical_formula_structural       CCoH18C3CoC2N12\n_chemical_formula_sum              \"C6 Co2 H18 N12\"\n_cell_length_a       7.3143\n_cell_length_b       7.3143\n_cell_length_c       7.3143\n_cell_angle_alpha    97.4059\n_cell_angle_beta     97.4059\n_cell_angle_gamma    97.4059\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  H   H1        1.0000  0.6494  0.4524  0.2010  1.0000\n  H   H2        1.0000  0.2010  0.6494  0.4524  1.0000\n  H   H3        1.0000  0.7990  0.3506  0.5476  1.0000\n  H   H4        1.0000  0.5476  0.7990  0.3506  1.0000\n  H   H5        1.0000  0.4349  0.3399  0.1607  1.0000\n  H   H6        1.0000  0.1607  0.4349  0.3399  1.0000\n  H   H7        1.0000  0.3399  0.1607  0.4349  1.0000\n  H   H8        1.0000  0.5651  0.6601  0.8393  1.0000\n  H   H9        1.0000  0.8393  0.5651  0.6601  1.0000\n  H   H10       1.0000  0.6601  0.8393  0.5651  1.0000\n  H   H11       1.0000  0.6020  0.2493  0.2740  1.0000\n  H   H12       1.0000  0.3506  0.5476  0.7990  1.0000\n  H   H13       1.0000  0.2493  0.2740  0.6020  1.0000\n  H   H14       1.0000  0.3980  0.7507  0.7260  1.0000\n  H   H15       1.0000  0.7260  0.3980  0.7507  1.0000\n  H   H16       1.0000  0.7507  0.7260  0.3980  1.0000\n  H   H17       1.0000  0.4524  0.2010  0.6494  1.0000\n  H   H18       1.0000  0.2740  0.6020  0.2493  1.0000\n  C   C2        1.0000  0.2257  0.9503  0.1224  1.0000\n  C   C3        1.0000  0.7743  0.0497  0.8776  1.0000\n  C   C4        1.0000  0.9503  0.1224  0.2257  1.0000\n  Co  Co2       1.0000  0.8776  0.7743  0.0497  1.0000\n  C   C5        1.0000  0.0497  0.8776  0.7743  1.0000\n  C   C6        1.0000  0.1224  0.2257  0.9503  1.0000\n  N   N1        1.0000  0.2599  0.5519  0.3722  1.0000\n  N   N2        1.0000  0.7401  0.4481  0.6278  1.0000\n  N   N3        1.0000  0.6278  0.7401  0.4481  1.0000\n  N   N4        1.0000  0.4481  0.6278  0.7401  1.0000\n  N   N5        1.0000  0.0772  0.7961  0.6334  1.0000\n  N   N6        1.0000  0.6334  0.0772  0.7961  1.0000\n  N   N7        1.0000  0.7961  0.6334  0.0772  1.0000\n  N   N8        1.0000  0.5519  0.3722  0.2599  1.0000\n  N   N9        1.0000  0.3666  0.9228  0.2039  1.0000\n  N   N10       1.0000  0.2039  0.3666  0.9228  1.0000\n  N   N11       1.0000  0.3722  0.2599  0.5519  1.0000\n  N   N12       1.0000  0.9228  0.2039  0.3666  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "80d9a304-7883-4e11-b1c9-2592cf796703",
    "mp_id": "mp-24044",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaH12(BrO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1493\n_cell_length_b   8.1493\n_cell_length_c   4.0754\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaH12(BrO3)2\n_chemical_formula_sum   'Ca1 H12 Br2 O6'\n_cell_volume   234.3926\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0000  0.0000  0.0000  1\n  H  H1  1  0.0988  0.4227  0.0906  1\n  H  H2  1  0.5773  0.6762  0.0906  1\n  H  H3  1  0.3238  0.9012  0.0906  1\n  H  H4  1  0.6762  0.5773  0.9094  1\n  H  H5  1  0.9012  0.3238  0.9094  1\n  H  H6  1  0.4227  0.0988  0.9094  1\n  H  H7  1  0.1101  0.7746  0.5177  1\n  H  H8  1  0.2254  0.3355  0.5177  1\n  H  H9  1  0.6645  0.8899  0.5177  1\n  H  H10  1  0.7746  0.1101  0.4823  1\n  H  H11  1  0.8899  0.6645  0.4823  1\n  H  H12  1  0.3355  0.2254  0.4823  1\n  Br  Br13  1  0.3333  0.6667  0.4104  1\n  Br  Br14  1  0.6667  0.3333  0.5896  1\n  O  O15  1  0.6994  0.6994  0.0000  1\n  O  O16  1  0.0000  0.3006  0.0000  1\n  O  O17  1  0.3006  0.0000  0.0000  1\n  O  O18  1  0.2063  0.2063  0.5000  1\n  O  O19  1  0.0000  0.7937  0.5000  1\n  O  O20  1  0.7937  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       CaBrH12BrO6\n_chemical_formula_sum              \"Ca1 Br2 H12 O6\"\n_cell_length_a       8.1493\n_cell_length_b       8.1493\n_cell_length_c       4.0754\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Br  Br1       1.0000  0.0988  0.4227  0.0906  1.0000\n  H   H1        1.0000  0.5773  0.6762  0.0906  1.0000\n  H   H2        1.0000  0.3238  0.9012  0.0906  1.0000\n  H   H3        1.0000  0.6762  0.5773  0.9094  1.0000\n  H   H4        1.0000  0.9012  0.3238  0.9094  1.0000\n  H   H5        1.0000  0.4227  0.0988  0.9094  1.0000\n  H   H6        1.0000  0.1101  0.7746  0.5177  1.0000\n  H   H7        1.0000  0.2254  0.3355  0.5177  1.0000\n  H   H8        1.0000  0.6645  0.8899  0.5177  1.0000\n  H   H9        1.0000  0.7746  0.1101  0.4823  1.0000\n  H   H10       1.0000  0.8899  0.6645  0.4823  1.0000\n  H   H11       1.0000  0.3355  0.2254  0.4823  1.0000\n  H   H12       1.0000  0.3333  0.6667  0.4104  1.0000\n  Br  Br2       1.0000  0.6667  0.3333  0.5896  1.0000\n  O   O1        1.0000  0.6994  0.6994  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.3006  0.0000  1.0000\n  O   O3        1.0000  0.3006  0.0000  0.0000  1.0000\n  O   O4        1.0000  0.2063  0.2063  0.5000  1.0000\n  O   O5        1.0000  0.0000  0.7937  0.5000  1.0000\n  O   O6        1.0000  0.7937  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d9f5c492-0eaa-4771-8c7b-7003e72e9f68",
    "mp_id": "mp-24515",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbAl(H2N)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1921\n_cell_length_b   9.1921\n_cell_length_c   4.4534\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbAl(H2N)4\n_chemical_formula_sum   'Rb2 Al2 H16 N8'\n_cell_volume   376.2843\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5000  0.0000  0.8254  1\n  Rb  Rb1  1  0.0000  0.5000  0.1746  1\n  Al  Al2  1  0.0000  0.0000  -0.0000  1\n  Al  Al3  1  0.5000  0.5000  -0.0000  1\n  H  H4  1  0.2165  0.2279  0.0143  1\n  H  H5  1  0.7279  0.2835  0.0143  1\n  H  H6  1  0.2721  0.7165  0.0143  1\n  H  H7  1  0.7835  0.7721  0.0143  1\n  H  H8  1  0.2835  0.2721  0.9857  1\n  H  H9  1  0.7721  0.2165  0.9857  1\n  H  H10  1  0.2279  0.7835  0.9857  1\n  H  H11  1  0.7165  0.7279  0.9857  1\n  H  H12  1  0.6426  0.3985  0.4205  1\n  H  H13  1  0.8985  0.8574  0.4205  1\n  H  H14  1  0.1015  0.1426  0.4205  1\n  H  H15  1  0.3574  0.6015  0.4205  1\n  H  H16  1  0.1426  0.8985  0.5795  1\n  H  H17  1  0.3985  0.3574  0.5795  1\n  H  H18  1  0.6015  0.6426  0.5795  1\n  H  H19  1  0.8574  0.1015  0.5795  1\n  N  N20  1  0.3371  0.5267  0.2529  1\n  N  N21  1  0.0267  0.1629  0.2529  1\n  N  N22  1  0.9733  0.8371  0.2529  1\n  N  N23  1  0.6629  0.4733  0.2529  1\n  N  N24  1  0.1629  0.9733  0.7471  1\n  N  N25  1  0.4733  0.3371  0.7471  1\n  N  N26  1  0.5267  0.6629  0.7471  1\n  N  N27  1  0.8371  0.0267  0.7471  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2Al2H9NH6N7H\n_chemical_formula_sum              \"Rb2 Al2 H16 N8\"\n_cell_length_a       9.1921\n_cell_length_b       9.1921\n_cell_length_c       4.4534\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5000  0.0000  0.8254  1.0000\n  Rb  Rb2       1.0000  0.0000  0.5000  0.1746  1.0000\n  Al  Al1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Al  Al2       1.0000  0.5000  0.5000  0.0000  1.0000\n  H   H1        1.0000  0.2165  0.2279  0.0143  1.0000\n  H   H2        1.0000  0.7279  0.2835  0.0143  1.0000\n  H   H3        1.0000  0.2721  0.7165  0.0143  1.0000\n  H   H4        1.0000  0.7835  0.7721  0.0143  1.0000\n  H   H5        1.0000  0.2835  0.2721  0.9857  1.0000\n  H   H6        1.0000  0.7721  0.2165  0.9857  1.0000\n  H   H7        1.0000  0.2279  0.7835  0.9857  1.0000\n  H   H8        1.0000  0.7165  0.7279  0.9857  1.0000\n  H   H9        1.0000  0.6426  0.3985  0.4205  1.0000\n  N   N1        1.0000  0.8985  0.8574  0.4205  1.0000\n  H   H10       1.0000  0.1015  0.1426  0.4205  1.0000\n  H   H11       1.0000  0.3574  0.6015  0.4205  1.0000\n  H   H12       1.0000  0.1426  0.8985  0.5795  1.0000\n  H   H13       1.0000  0.3985  0.3574  0.5795  1.0000\n  H   H14       1.0000  0.6015  0.6426  0.5795  1.0000\n  H   H15       1.0000  0.8574  0.1015  0.5795  1.0000\n  N   N2        1.0000  0.3371  0.5267  0.2529  1.0000\n  N   N3        1.0000  0.0267  0.1629  0.2529  1.0000\n  N   N4        1.0000  0.9733  0.8371  0.2529  1.0000\n  N   N5        1.0000  0.6629  0.4733  0.2529  1.0000\n  N   N6        1.0000  0.1629  0.9733  0.7471  1.0000\n  N   N7        1.0000  0.4733  0.3371  0.7471  1.0000\n  N   N8        1.0000  0.5267  0.6629  0.7471  1.0000\n  H   H16       1.0000  0.8371  0.0267  0.7471  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1935131a-81a7-4277-b96d-c1c9b3c9a493",
    "mp_id": "mp-2480",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_OsSe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9794\n_cell_length_b   5.9794\n_cell_length_c   5.9794\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   OsSe2\n_chemical_formula_sum   'Os4 Se8'\n_cell_volume   213.7814\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Os  Os0  1  -0.0000  0.5000  0.5000  1\n  Os  Os1  1  0.5000  0.5000  0.0000  1\n  Os  Os2  1  0.5000  -0.0000  0.5000  1\n  Os  Os3  1  -0.0000  -0.0000  0.0000  1\n  Se  Se4  1  0.3782  0.1218  0.8782  1\n  Se  Se5  1  0.1218  0.8782  0.3782  1\n  Se  Se6  1  0.8782  0.3782  0.1218  1\n  Se  Se7  1  0.6218  0.6218  0.6218  1\n  Se  Se8  1  0.3782  0.3782  0.3782  1\n  Se  Se9  1  0.1218  0.6218  0.8782  1\n  Se  Se10  1  0.8782  0.1218  0.6218  1\n  Se  Se11  1  0.6218  0.8782  0.1218  1\n",
    "output": "data_image0\n_chemical_formula_structural       Os2SeOsSeOsSe6\n_chemical_formula_sum              \"Os4 Se8\"\n_cell_length_a       5.9794\n_cell_length_b       5.9794\n_cell_length_c       5.9794\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Os  Os1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Os  Os2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Se  Se1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Os  Os3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Se  Se2       1.0000  0.3782  0.1218  0.8782  1.0000\n  Os  Os4       1.0000  0.1218  0.8782  0.3782  1.0000\n  Se  Se3       1.0000  0.8782  0.3782  0.1218  1.0000\n  Se  Se4       1.0000  0.6218  0.6218  0.6218  1.0000\n  Se  Se5       1.0000  0.3782  0.3782  0.3782  1.0000\n  Se  Se6       1.0000  0.1218  0.6218  0.8782  1.0000\n  Se  Se7       1.0000  0.8782  0.1218  0.6218  1.0000\n  Se  Se8       1.0000  0.6218  0.8782  0.1218  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "16346d02-3e71-487f-a612-4fd47dec6673",
    "mp_id": "mp-25405",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiCuPO4F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2370\n_cell_length_b   5.2545\n_cell_length_c   7.2539\n_cell_angle_alpha   105.0676\n_cell_angle_beta   108.9085\n_cell_angle_gamma   98.1119\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiCuPO4F\n_chemical_formula_sum   'Li2 Cu2 P2 O8 F2'\n_cell_volume   176.7131\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4330  0.0766  0.8088  1\n  Li  Li1  1  0.5670  0.9234  0.1912  1\n  Cu  Cu2  1  0.0000  0.0000  0.0000  1\n  Cu  Cu3  1  0.5000  0.5000  0.5000  1\n  P  P4  1  0.8836  0.5518  0.2411  1\n  P  P5  1  0.1164  0.4482  0.7589  1\n  O  O6  1  0.1709  0.2869  0.9141  1\n  O  O7  1  0.3225  0.3546  0.6538  1\n  O  O8  1  0.6775  0.6454  0.3462  1\n  O  O9  1  0.8127  0.3521  0.6038  1\n  O  O10  1  0.8291  0.7131  0.0859  1\n  O  O11  1  0.1873  0.6479  0.3962  1\n  O  O12  1  0.2176  0.7593  0.8771  1\n  O  O13  1  0.7824  0.2407  0.1229  1\n  F  F14  1  0.6792  0.8787  0.7471  1\n  F  F15  1  0.3208  0.1213  0.2529  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2CuOP2O6CuOF2\n_chemical_formula_sum              \"Li2 Cu2 O8 P2 F2\"\n_cell_length_a       5.2370\n_cell_length_b       5.2545\n_cell_length_c       7.2539\n_cell_angle_alpha    105.0676\n_cell_angle_beta     108.9085\n_cell_angle_gamma    98.1119\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4330  0.0766  0.8088  1.0000\n  Li  Li2       1.0000  0.5670  0.9234  0.1912  1.0000\n  Cu  Cu1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  P   P1        1.0000  0.8836  0.5518  0.2411  1.0000\n  P   P2        1.0000  0.1164  0.4482  0.7589  1.0000\n  O   O2        1.0000  0.1709  0.2869  0.9141  1.0000\n  O   O3        1.0000  0.3225  0.3546  0.6538  1.0000\n  O   O4        1.0000  0.6775  0.6454  0.3462  1.0000\n  O   O5        1.0000  0.8127  0.3521  0.6038  1.0000\n  O   O6        1.0000  0.8291  0.7131  0.0859  1.0000\n  O   O7        1.0000  0.1873  0.6479  0.3962  1.0000\n  Cu  Cu2       1.0000  0.2176  0.7593  0.8771  1.0000\n  O   O8        1.0000  0.7824  0.2407  0.1229  1.0000\n  F   F1        1.0000  0.6792  0.8787  0.7471  1.0000\n  F   F2        1.0000  0.3208  0.1213  0.2529  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "12f9a409-fcdd-4c52-99a6-b4cac1b70443",
    "mp_id": "mp-25457",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2FePCO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0940\n_cell_length_b   10.6837\n_cell_length_c   10.6836\n_cell_angle_alpha   73.6244\n_cell_angle_beta   87.0221\n_cell_angle_gamma   87.0230\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2FePCO7\n_chemical_formula_sum   'Li8 Fe4 P4 C4 O28'\n_cell_volume   556.6760\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7851  0.4002  0.3877  1\n  Li  Li1  1  0.7851  0.9002  0.8877  1\n  Li  Li2  1  0.2149  0.5998  0.6123  1\n  Li  Li3  1  0.2149  0.0998  0.1123  1\n  Li  Li4  1  0.2149  0.3623  0.8498  1\n  Li  Li5  1  0.2148  0.8623  0.3498  1\n  Li  Li6  1  0.7852  0.6377  0.1502  1\n  Li  Li7  1  0.7852  0.1377  0.6502  1\n  Fe  Fe8  1  0.7861  0.0516  0.3015  1\n  Fe  Fe9  1  0.2139  0.9484  0.6985  1\n  Fe  Fe10  1  0.7863  0.5517  0.8014  1\n  Fe  Fe11  1  0.2137  0.4483  0.1986  1\n  P  P12  1  0.7274  0.3372  0.0871  1\n  P  P13  1  0.7274  0.8371  0.5871  1\n  P  P14  1  0.2726  0.6628  0.9129  1\n  P  P15  1  0.2726  0.1629  0.4129  1\n  C  C16  1  0.7429  0.4049  0.6549  1\n  C  C17  1  0.7429  0.9049  0.1549  1\n  C  C18  1  0.2571  0.5951  0.3451  1\n  C  C19  1  0.2571  0.0951  0.8451  1\n  O  O20  1  0.9739  0.4349  0.6849  1\n  O  O21  1  0.9739  0.9349  0.1849  1\n  O  O22  1  0.0261  0.5651  0.3151  1\n  O  O23  1  0.0261  0.0651  0.8151  1\n  O  O24  1  0.4579  0.5420  0.2920  1\n  O  O25  1  0.4579  0.0420  0.7920  1\n  O  O26  1  0.5421  0.4580  0.7080  1\n  O  O27  1  0.5421  0.9580  0.2080  1\n  O  O28  1  0.1691  0.5790  0.8290  1\n  O  O29  1  0.1691  0.0790  0.3290  1\n  O  O30  1  0.8309  0.4210  0.1710  1\n  O  O31  1  0.8309  0.9210  0.6710  1\n  O  O32  1  0.4206  0.3473  0.0973  1\n  O  O33  1  0.4206  0.8473  0.5973  1\n  O  O34  1  0.5794  0.6527  0.9027  1\n  O  O35  1  0.5794  0.1527  0.4027  1\n  O  O36  1  0.7139  0.8320  0.0820  1\n  O  O37  1  0.7139  0.3320  0.5820  1\n  O  O38  1  0.2861  0.1680  0.9180  1\n  O  O39  1  0.2861  0.6680  0.4180  1\n  O  O40  1  0.1720  0.8060  0.8630  1\n  O  O41  1  0.1720  0.3060  0.3630  1\n  O  O42  1  0.1719  0.6130  0.0560  1\n  O  O43  1  0.1719  0.1130  0.5560  1\n  O  O44  1  0.8281  0.3870  0.9440  1\n  O  O45  1  0.8281  0.8870  0.4440  1\n  O  O46  1  0.8280  0.1940  0.1370  1\n  O  O47  1  0.8280  0.6940  0.6370  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Fe4P4COC2O3CO24\n_chemical_formula_sum              \"Li8 Fe4 P4 C4 O28\"\n_cell_length_a       5.0940\n_cell_length_b       10.6837\n_cell_length_c       10.6836\n_cell_angle_alpha    73.6244\n_cell_angle_beta     87.0221\n_cell_angle_gamma    87.0230\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7851  0.4002  0.3877  1.0000\n  Li  Li2       1.0000  0.7851  0.9002  0.8877  1.0000\n  Li  Li3       1.0000  0.2149  0.5998  0.6123  1.0000\n  Li  Li4       1.0000  0.2149  0.0998  0.1123  1.0000\n  Li  Li5       1.0000  0.2149  0.3623  0.8498  1.0000\n  Li  Li6       1.0000  0.2148  0.8623  0.3498  1.0000\n  Li  Li7       1.0000  0.7852  0.6377  0.1502  1.0000\n  Li  Li8       1.0000  0.7852  0.1377  0.6502  1.0000\n  Fe  Fe1       1.0000  0.7861  0.0516  0.3015  1.0000\n  Fe  Fe2       1.0000  0.2139  0.9484  0.6985  1.0000\n  Fe  Fe3       1.0000  0.7863  0.5517  0.8014  1.0000\n  Fe  Fe4       1.0000  0.2137  0.4483  0.1986  1.0000\n  P   P1        1.0000  0.7274  0.3372  0.0871  1.0000\n  P   P2        1.0000  0.7274  0.8371  0.5871  1.0000\n  P   P3        1.0000  0.2726  0.6628  0.9129  1.0000\n  P   P4        1.0000  0.2726  0.1629  0.4129  1.0000\n  C   C1        1.0000  0.7429  0.4049  0.6549  1.0000\n  O   O1        1.0000  0.7429  0.9049  0.1549  1.0000\n  C   C2        1.0000  0.2571  0.5951  0.3451  1.0000\n  C   C3        1.0000  0.2571  0.0951  0.8451  1.0000\n  O   O2        1.0000  0.9739  0.4349  0.6849  1.0000\n  O   O3        1.0000  0.9739  0.9349  0.1849  1.0000\n  O   O4        1.0000  0.0261  0.5651  0.3151  1.0000\n  C   C4        1.0000  0.0261  0.0651  0.8151  1.0000\n  O   O5        1.0000  0.4579  0.5420  0.2920  1.0000\n  O   O6        1.0000  0.4579  0.0420  0.7920  1.0000\n  O   O7        1.0000  0.5421  0.4580  0.7080  1.0000\n  O   O8        1.0000  0.5421  0.9580  0.2080  1.0000\n  O   O9        1.0000  0.1691  0.5790  0.8290  1.0000\n  O   O10       1.0000  0.1691  0.0790  0.3290  1.0000\n  O   O11       1.0000  0.8309  0.4210  0.1710  1.0000\n  O   O12       1.0000  0.8309  0.9210  0.6710  1.0000\n  O   O13       1.0000  0.4206  0.3473  0.0973  1.0000\n  O   O14       1.0000  0.4206  0.8473  0.5973  1.0000\n  O   O15       1.0000  0.5794  0.6527  0.9027  1.0000\n  O   O16       1.0000  0.5794  0.1527  0.4027  1.0000\n  O   O17       1.0000  0.7139  0.8320  0.0820  1.0000\n  O   O18       1.0000  0.7139  0.3320  0.5820  1.0000\n  O   O19       1.0000  0.2861  0.1680  0.9180  1.0000\n  O   O20       1.0000  0.2861  0.6680  0.4180  1.0000\n  O   O21       1.0000  0.1720  0.8060  0.8630  1.0000\n  O   O22       1.0000  0.1720  0.3060  0.3630  1.0000\n  O   O23       1.0000  0.1719  0.6130  0.0560  1.0000\n  O   O24       1.0000  0.1719  0.1130  0.5560  1.0000\n  O   O25       1.0000  0.8281  0.3870  0.9440  1.0000\n  O   O26       1.0000  0.8281  0.8870  0.4440  1.0000\n  O   O27       1.0000  0.8280  0.1940  0.1370  1.0000\n  O   O28       1.0000  0.8280  0.6940  0.6370  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c0c5a1e3-c540-4d43-8d5b-2075ab14290d",
    "mp_id": "mp-26179",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMnP2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2096\n_cell_length_b   6.2479\n_cell_length_c   7.2723\n_cell_angle_alpha   82.1652\n_cell_angle_beta   69.2506\n_cell_angle_gamma   81.9191\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMnP2O7\n_chemical_formula_sum   'Li2 Mn2 P4 O14'\n_cell_volume   260.0811\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7056  0.0085  0.8451  1\n  Li  Li1  1  0.2944  0.9915  0.1549  1\n  Mn  Mn2  1  0.8996  0.3529  0.2471  1\n  Mn  Mn3  1  0.1004  0.6471  0.7529  1\n  P  P4  1  0.7831  0.8602  0.2411  1\n  P  P5  1  0.6518  0.6095  0.6425  1\n  P  P6  1  0.2169  0.1398  0.7589  1\n  P  P7  1  0.3482  0.3905  0.3575  1\n  O  O8  1  0.0616  0.9651  0.7584  1\n  O  O9  1  0.6133  0.9398  0.1372  1\n  O  O10  1  0.9384  0.0349  0.2416  1\n  O  O11  1  0.3867  0.0602  0.8628  1\n  O  O12  1  0.3606  0.2029  0.5304  1\n  O  O13  1  0.2162  0.3023  0.2435  1\n  O  O14  1  0.0535  0.3428  0.8410  1\n  O  O15  1  0.6019  0.3971  0.2210  1\n  O  O16  1  0.7658  0.3996  0.5519  1\n  O  O17  1  0.2342  0.6004  0.4481  1\n  O  O18  1  0.3981  0.6029  0.7790  1\n  O  O19  1  0.9465  0.6572  0.1590  1\n  O  O20  1  0.7838  0.6977  0.7565  1\n  O  O21  1  0.6394  0.7971  0.4696  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Mn2P2OPO6PO7\n_chemical_formula_sum              \"Li2 Mn2 P4 O14\"\n_cell_length_a       6.2096\n_cell_length_b       6.2479\n_cell_length_c       7.2723\n_cell_angle_alpha    82.1652\n_cell_angle_beta     69.2506\n_cell_angle_gamma    81.9191\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7056  0.0085  0.8451  1.0000\n  Li  Li2       1.0000  0.2944  0.9915  0.1549  1.0000\n  Mn  Mn1       1.0000  0.8996  0.3529  0.2471  1.0000\n  Mn  Mn2       1.0000  0.1004  0.6471  0.7529  1.0000\n  P   P1        1.0000  0.7831  0.8602  0.2411  1.0000\n  P   P2        1.0000  0.6518  0.6095  0.6425  1.0000\n  O   O1        1.0000  0.2169  0.1398  0.7589  1.0000\n  P   P3        1.0000  0.3482  0.3905  0.3575  1.0000\n  O   O2        1.0000  0.0616  0.9651  0.7584  1.0000\n  O   O3        1.0000  0.6133  0.9398  0.1372  1.0000\n  O   O4        1.0000  0.9384  0.0349  0.2416  1.0000\n  O   O5        1.0000  0.3867  0.0602  0.8628  1.0000\n  O   O6        1.0000  0.3606  0.2029  0.5304  1.0000\n  O   O7        1.0000  0.2162  0.3023  0.2435  1.0000\n  P   P4        1.0000  0.0535  0.3428  0.8410  1.0000\n  O   O8        1.0000  0.6019  0.3971  0.2210  1.0000\n  O   O9        1.0000  0.7658  0.3996  0.5519  1.0000\n  O   O10       1.0000  0.2342  0.6004  0.4481  1.0000\n  O   O11       1.0000  0.3981  0.6029  0.7790  1.0000\n  O   O12       1.0000  0.9465  0.6572  0.1590  1.0000\n  O   O13       1.0000  0.7838  0.6977  0.7565  1.0000\n  O   O14       1.0000  0.6394  0.7971  0.4696  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "19dfdbd5-623a-4bea-9d86-9c830321f3ff",
    "mp_id": "mp-26270",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4750\n_cell_length_b   7.4750\n_cell_length_c   9.7725\n_cell_angle_alpha   69.0719\n_cell_angle_beta   69.0719\n_cell_angle_gamma   69.5198\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe(PO3)4\n_chemical_formula_sum   'Fe2 P8 O24'\n_cell_volume   460.6586\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.5000  0.0000  0.0000  1\n  Fe  Fe1  1  0.0000  0.5000  0.5000  1\n  P  P2  1  0.7275  0.2746  0.4630  1\n  P  P3  1  0.7254  0.2725  0.0370  1\n  P  P4  1  0.6985  0.6637  0.8124  1\n  P  P5  1  0.2746  0.7275  0.9630  1\n  P  P6  1  0.2725  0.7254  0.5370  1\n  P  P7  1  0.3363  0.3015  0.6876  1\n  P  P8  1  0.6637  0.6985  0.3124  1\n  P  P9  1  0.3015  0.3363  0.1876  1\n  O  O10  1  0.8761  0.1404  0.1244  1\n  O  O11  1  0.1925  0.3569  0.3444  1\n  O  O12  1  0.8075  0.6431  0.6556  1\n  O  O13  1  0.8186  0.3188  0.5591  1\n  O  O14  1  0.3188  0.8186  0.0591  1\n  O  O15  1  0.4781  0.6413  0.8468  1\n  O  O16  1  0.3141  0.1515  0.1529  1\n  O  O17  1  0.2080  0.5272  0.0659  1\n  O  O18  1  0.5272  0.2080  0.5659  1\n  O  O19  1  0.3587  0.5219  0.6532  1\n  O  O20  1  0.1239  0.8596  0.8756  1\n  O  O21  1  0.3569  0.1925  0.8444  1\n  O  O22  1  0.8485  0.6859  0.3471  1\n  O  O23  1  0.1404  0.8761  0.6244  1\n  O  O24  1  0.8596  0.1239  0.3756  1\n  O  O25  1  0.6812  0.1814  0.9409  1\n  O  O26  1  0.6431  0.8075  0.1556  1\n  O  O27  1  0.1814  0.6812  0.4409  1\n  O  O28  1  0.6413  0.4781  0.3468  1\n  O  O29  1  0.4728  0.7920  0.4341  1\n  O  O30  1  0.7920  0.4728  0.9341  1\n  O  O31  1  0.6859  0.8485  0.8471  1\n  O  O32  1  0.5219  0.3587  0.1532  1\n  O  O33  1  0.1515  0.3141  0.6529  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe2POP6O13PO10\n_chemical_formula_sum              \"Fe2 P8 O24\"\n_cell_length_a       7.4750\n_cell_length_b       7.4750\n_cell_length_c       9.7725\n_cell_angle_alpha    69.0719\n_cell_angle_beta     69.0719\n_cell_angle_gamma    69.5198\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.0000  0.5000  0.5000  1.0000\n  P   P1        1.0000  0.7275  0.2746  0.4630  1.0000\n  O   O1        1.0000  0.7254  0.2725  0.0370  1.0000\n  P   P2        1.0000  0.6985  0.6637  0.8124  1.0000\n  P   P3        1.0000  0.2746  0.7275  0.9630  1.0000\n  P   P4        1.0000  0.2725  0.7254  0.5370  1.0000\n  P   P5        1.0000  0.3363  0.3015  0.6876  1.0000\n  P   P6        1.0000  0.6637  0.6985  0.3124  1.0000\n  P   P7        1.0000  0.3015  0.3363  0.1876  1.0000\n  O   O2        1.0000  0.8761  0.1404  0.1244  1.0000\n  O   O3        1.0000  0.1925  0.3569  0.3444  1.0000\n  O   O4        1.0000  0.8075  0.6431  0.6556  1.0000\n  O   O5        1.0000  0.8186  0.3188  0.5591  1.0000\n  O   O6        1.0000  0.3188  0.8186  0.0591  1.0000\n  O   O7        1.0000  0.4781  0.6413  0.8468  1.0000\n  O   O8        1.0000  0.3141  0.1515  0.1529  1.0000\n  O   O9        1.0000  0.2080  0.5272  0.0659  1.0000\n  O   O10       1.0000  0.5272  0.2080  0.5659  1.0000\n  O   O11       1.0000  0.3587  0.5219  0.6532  1.0000\n  O   O12       1.0000  0.1239  0.8596  0.8756  1.0000\n  O   O13       1.0000  0.3569  0.1925  0.8444  1.0000\n  O   O14       1.0000  0.8485  0.6859  0.3471  1.0000\n  P   P8        1.0000  0.1404  0.8761  0.6244  1.0000\n  O   O15       1.0000  0.8596  0.1239  0.3756  1.0000\n  O   O16       1.0000  0.6812  0.1814  0.9409  1.0000\n  O   O17       1.0000  0.6431  0.8075  0.1556  1.0000\n  O   O18       1.0000  0.1814  0.6812  0.4409  1.0000\n  O   O19       1.0000  0.6413  0.4781  0.3468  1.0000\n  O   O20       1.0000  0.4728  0.7920  0.4341  1.0000\n  O   O21       1.0000  0.7920  0.4728  0.9341  1.0000\n  O   O22       1.0000  0.6859  0.8485  0.8471  1.0000\n  O   O23       1.0000  0.5219  0.3587  0.1532  1.0000\n  O   O24       1.0000  0.1515  0.3141  0.6529  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "df8fcf55-7243-4ef8-a2c3-a9fadbaf9100",
    "mp_id": "mp-2646946",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ErBH4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0183\n_cell_length_b   5.6252\n_cell_length_c   6.8455\n_cell_angle_alpha   114.2597\n_cell_angle_beta   107.0678\n_cell_angle_gamma   89.9997\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ErBH4\n_chemical_formula_sum   'Er3 B3 H12'\n_cell_volume   133.5614\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  0.0000  0.5439  1.0000  1\n  Er  Er1  1  0.3359  0.8892  0.6717  1\n  Er  Er2  1  0.6641  0.2174  0.3283  1\n  B  B3  1  1.0000  0.0547  0.0000  1\n  B  B4  1  0.3345  0.3862  0.6693  1\n  B  B5  1  0.6655  0.7169  0.3307  1\n  H  H6  1  0.9084  0.0936  0.8168  1\n  H  H7  1  0.0916  0.2769  0.1832  1\n  H  H8  1  0.7449  0.9183  0.0000  1\n  H  H9  1  0.2551  0.9183  1.0000  1\n  H  H10  1  0.0798  0.5184  0.6728  1\n  H  H11  1  0.9203  0.8456  0.3272  1\n  H  H12  1  0.4201  0.3338  0.8401  1\n  H  H13  1  0.5800  0.4937  0.1599  1\n  H  H14  1  0.5931  0.5184  0.6728  1\n  H  H15  1  0.4069  0.8456  0.3272  1\n  H  H16  1  0.2417  0.1764  0.4834  1\n  H  H17  1  0.7583  0.6930  0.5166  1\n",
    "output": "data_image0\n_chemical_formula_structural       Er2HB3H8ErH3\n_chemical_formula_sum              \"Er3 H12 B3\"\n_cell_length_a       4.0183\n_cell_length_b       5.6252\n_cell_length_c       6.8455\n_cell_angle_alpha    114.2597\n_cell_angle_beta     107.0678\n_cell_angle_gamma    89.9997\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Er  Er1       1.0000  0.0000  0.5439  1.0000  1.0000\n  Er  Er2       1.0000  0.3359  0.8892  0.6717  1.0000\n  H   H1        1.0000  0.6641  0.2174  0.3283  1.0000\n  B   B1        1.0000  1.0000  0.0547  0.0000  1.0000\n  B   B2        1.0000  0.3345  0.3862  0.6693  1.0000\n  B   B3        1.0000  0.6655  0.7169  0.3307  1.0000\n  H   H2        1.0000  0.9084  0.0936  0.8168  1.0000\n  H   H3        1.0000  0.0916  0.2769  0.1832  1.0000\n  H   H4        1.0000  0.7449  0.9183  1e-06  1.0000\n  H   H5        1.0000  0.2551  0.9183  1.0000  1.0000\n  H   H6        1.0000  0.0798  0.5184  0.6728  1.0000\n  H   H7        1.0000  0.9203  0.8456  0.3272  1.0000\n  H   H8        1.0000  0.4201  0.3338  0.8401  1.0000\n  H   H9        1.0000  0.5800  0.4937  0.1599  1.0000\n  Er  Er3       1.0000  0.5931  0.5184  0.6728  1.0000\n  H   H10       1.0000  0.4069  0.8456  0.3272  1.0000\n  H   H11       1.0000  0.2417  0.1764  0.4834  1.0000\n  H   H12       1.0000  0.7583  0.6930  0.5166  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3ef9ee50-0421-4201-8817-3ae680c356f8",
    "mp_id": "mp-26612",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_FePO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5015\n_cell_length_b   7.5015\n_cell_length_c   9.3817\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   FePO4\n_chemical_formula_sum   'Fe6 P6 O24'\n_cell_volume   457.2039\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.4451  0.3849  0.5273  1\n  Fe  Fe1  1  0.0602  0.6151  0.0273  1\n  Fe  Fe2  1  0.6151  0.0602  0.5273  1\n  Fe  Fe3  1  0.5549  0.9398  0.0273  1\n  Fe  Fe4  1  0.9398  0.5549  0.5273  1\n  Fe  Fe5  1  0.3849  0.4451  0.0273  1\n  P  P6  1  0.6667  0.3333  0.8256  1\n  P  P7  1  0.3333  0.6667  0.3256  1\n  P  P8  1  0.6667  0.3333  0.2173  1\n  P  P9  1  0.3333  0.6667  0.7173  1\n  P  P10  1  0.0000  0.0000  0.4770  1\n  P  P11  1  0.0000  0.0000  0.9770  1\n  O  O12  1  0.2248  0.1200  0.5434  1\n  O  O13  1  0.1049  0.8800  0.0434  1\n  O  O14  1  0.4780  0.3450  0.8741  1\n  O  O15  1  0.1331  0.6550  0.3741  1\n  O  O16  1  0.1116  0.5283  0.6664  1\n  O  O17  1  0.5832  0.4717  0.1664  1\n  O  O18  1  0.4168  0.8884  0.6664  1\n  O  O19  1  0.5283  0.1116  0.1664  1\n  O  O20  1  0.6667  0.3333  0.3907  1\n  O  O21  1  0.0000  0.0000  0.3194  1\n  O  O22  1  0.3333  0.6667  0.8907  1\n  O  O23  1  0.6667  0.3333  0.6525  1\n  O  O24  1  0.3333  0.6667  0.1525  1\n  O  O25  1  0.8951  0.7752  0.5434  1\n  O  O26  1  0.1200  0.2248  0.0434  1\n  O  O27  1  0.6550  0.1331  0.8741  1\n  O  O28  1  0.5220  0.8669  0.3741  1\n  O  O29  1  0.8669  0.5220  0.8741  1\n  O  O30  1  0.3450  0.4780  0.3741  1\n  O  O31  1  0.4717  0.5832  0.6664  1\n  O  O32  1  0.8884  0.4168  0.1664  1\n  O  O33  1  0.8800  0.1049  0.5434  1\n  O  O34  1  0.7752  0.8951  0.0434  1\n  O  O35  1  0.0000  0.0000  0.8194  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe6P2OP3O18PO5\n_chemical_formula_sum              \"Fe6 P6 O24\"\n_cell_length_a       7.5015\n_cell_length_b       7.5015\n_cell_length_c       9.3817\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.4451  0.3849  0.5273  1.0000\n  Fe  Fe2       1.0000  0.0602  0.6151  0.0273  1.0000\n  Fe  Fe3       1.0000  0.6151  0.0602  0.5273  1.0000\n  Fe  Fe4       1.0000  0.5549  0.9398  0.0273  1.0000\n  Fe  Fe5       1.0000  0.9398  0.5549  0.5273  1.0000\n  Fe  Fe6       1.0000  0.3849  0.4451  0.0273  1.0000\n  P   P1        1.0000  0.6667  0.3333  0.8256  1.0000\n  P   P2        1.0000  0.3333  0.6667  0.3256  1.0000\n  O   O1        1.0000  0.6667  0.3333  0.2173  1.0000\n  P   P3        1.0000  0.3333  0.6667  0.7173  1.0000\n  P   P4        1.0000  0.0000  0.0000  0.4770  1.0000\n  P   P5        1.0000  0.0000  0.0000  0.9770  1.0000\n  O   O2        1.0000  0.2248  0.1200  0.5434  1.0000\n  O   O3        1.0000  0.1049  0.8800  0.0434  1.0000\n  O   O4        1.0000  0.4780  0.3450  0.8741  1.0000\n  O   O5        1.0000  0.1331  0.6550  0.3741  1.0000\n  O   O6        1.0000  0.1116  0.5283  0.6664  1.0000\n  O   O7        1.0000  0.5832  0.4717  0.1664  1.0000\n  O   O8        1.0000  0.4168  0.8884  0.6664  1.0000\n  O   O9        1.0000  0.5283  0.1116  0.1664  1.0000\n  O   O10       1.0000  0.6667  0.3333  0.3907  1.0000\n  O   O11       1.0000  0.0000  0.0000  0.3194  1.0000\n  O   O12       1.0000  0.3333  0.6667  0.8907  1.0000\n  O   O13       1.0000  0.6667  0.3333  0.6525  1.0000\n  O   O14       1.0000  0.3333  0.6667  0.1525  1.0000\n  O   O15       1.0000  0.8951  0.7752  0.5434  1.0000\n  O   O16       1.0000  0.1200  0.2248  0.0434  1.0000\n  O   O17       1.0000  0.6550  0.1331  0.8741  1.0000\n  O   O18       1.0000  0.5220  0.8669  0.3741  1.0000\n  O   O19       1.0000  0.8669  0.5220  0.8741  1.0000\n  P   P6        1.0000  0.3450  0.4780  0.3741  1.0000\n  O   O20       1.0000  0.4717  0.5832  0.6664  1.0000\n  O   O21       1.0000  0.8884  0.4168  0.1664  1.0000\n  O   O22       1.0000  0.8800  0.1049  0.5434  1.0000\n  O   O23       1.0000  0.7752  0.8951  0.0434  1.0000\n  O   O24       1.0000  0.0000  0.0000  0.8194  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1f5a3f0d-98d0-4a64-9fa3-ac7910678d14",
    "mp_id": "mp-2715259",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 66 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3La2(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   16.6072\n_cell_length_b   9.5685\n_cell_length_c   9.6772\n_cell_angle_alpha   90.0000\n_cell_angle_beta   125.2285\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3La2(PO4)3\n_chemical_formula_sum   'Na12 La8 P12 O48'\n_cell_volume   1256.1284\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2425  0.7704  0.9952  1\n  Na  Na1  1  0.7425  0.7296  0.4952  1\n  Na  Na2  1  0.7425  0.2704  0.9952  1\n  Na  Na3  1  0.2425  0.2296  0.4952  1\n  Na  Na4  1  0.5005  0.0984  0.7347  1\n  Na  Na5  1  0.5005  0.9016  0.2347  1\n  Na  Na6  1  0.0005  0.5984  0.7347  1\n  Na  Na7  1  0.0005  0.4016  0.2347  1\n  Na  Na8  1  0.8106  0.9341  0.1916  1\n  Na  Na9  1  0.8106  0.0659  0.6916  1\n  Na  Na10  1  0.3106  0.4341  0.1916  1\n  Na  Na11  1  0.3106  0.5659  0.6916  1\n  La  La12  1  0.1027  0.7670  0.5453  1\n  La  La13  1  0.8995  0.7503  0.9459  1\n  La  La14  1  0.8995  0.2497  0.4459  1\n  La  La15  1  0.1027  0.2330  0.0453  1\n  La  La16  1  0.6027  0.2670  0.5453  1\n  La  La17  1  0.3995  0.2503  0.9459  1\n  La  La18  1  0.3995  0.7497  0.4459  1\n  La  La19  1  0.6027  0.7330  0.0453  1\n  P  P20  1  0.9913  0.9336  0.7340  1\n  P  P21  1  0.9913  0.0664  0.2340  1\n  P  P22  1  0.4913  0.4336  0.7340  1\n  P  P23  1  0.4913  0.5664  0.2340  1\n  P  P24  1  0.3567  0.8993  0.7686  1\n  P  P25  1  0.6571  0.9131  0.7539  1\n  P  P26  1  0.6571  0.0869  0.2539  1\n  P  P27  1  0.3567  0.1007  0.2686  1\n  P  P28  1  0.8567  0.3993  0.7686  1\n  P  P29  1  0.1571  0.4131  0.7539  1\n  P  P30  1  0.1571  0.5869  0.2539  1\n  P  P31  1  0.8567  0.6007  0.2686  1\n  O  O32  1  0.1609  0.5762  0.7585  1\n  O  O33  1  0.8426  0.5593  0.7349  1\n  O  O34  1  0.8426  0.4407  0.2349  1\n  O  O35  1  0.1609  0.4238  0.2585  1\n  O  O36  1  0.6609  0.0762  0.7585  1\n  O  O37  1  0.3426  0.0593  0.7349  1\n  O  O38  1  0.3426  0.9407  0.2349  1\n  O  O39  1  0.6609  0.9238  0.2585  1\n  O  O40  1  0.4402  0.5256  0.5736  1\n  O  O41  1  0.5404  0.5283  0.8927  1\n  O  O42  1  0.5404  0.4717  0.3927  1\n  O  O43  1  0.4402  0.4744  0.0736  1\n  O  O44  1  0.9402  0.0256  0.5736  1\n  O  O45  1  0.0404  0.0283  0.8927  1\n  O  O46  1  0.0404  0.9717  0.3927  1\n  O  O47  1  0.9402  0.9744  0.0736  1\n  O  O48  1  0.2716  0.8303  0.7684  1\n  O  O49  1  0.7387  0.8575  0.7363  1\n  O  O50  1  0.7387  0.1425  0.2363  1\n  O  O51  1  0.2716  0.1697  0.2684  1\n  O  O52  1  0.7716  0.3303  0.7684  1\n  O  O53  1  0.2387  0.3575  0.7363  1\n  O  O54  1  0.2387  0.6425  0.2363  1\n  O  O55  1  0.7716  0.6697  0.2684  1\n  O  O56  1  0.3611  0.8300  0.6276  1\n  O  O57  1  0.6725  0.8636  0.9216  1\n  O  O58  1  0.6725  0.1364  0.4216  1\n  O  O59  1  0.3611  0.1700  0.1276  1\n  O  O60  1  0.8611  0.3300  0.6276  1\n  O  O61  1  0.1725  0.3636  0.9216  1\n  O  O62  1  0.1725  0.6364  0.4216  1\n  O  O63  1  0.8611  0.6700  0.1276  1\n  O  O64  1  0.4559  0.8692  0.9409  1\n  O  O65  1  0.5551  0.8611  0.6022  1\n  O  O66  1  0.5551  0.1389  0.1022  1\n  O  O67  1  0.4559  0.1308  0.4409  1\n  O  O68  1  0.9559  0.3692  0.9409  1\n  O  O69  1  0.0551  0.3611  0.6022  1\n  O  O70  1  0.0551  0.6389  0.1022  1\n  O  O71  1  0.9559  0.6308  0.4409  1\n  O  O72  1  0.0706  0.8334  0.7517  1\n  O  O73  1  0.9095  0.8429  0.7224  1\n  O  O74  1  0.9095  0.1571  0.2224  1\n  O  O75  1  0.0706  0.1666  0.2517  1\n  O  O76  1  0.5706  0.3334  0.7517  1\n  O  O77  1  0.4095  0.3429  0.7224  1\n  O  O78  1  0.4095  0.6571  0.2224  1\n  O  O79  1  0.5706  0.6666  0.2517  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na12La8POP10O34PO13\n_chemical_formula_sum              \"Na12 La8 P12 O48\"\n_cell_length_a       16.6072\n_cell_length_b       9.5685\n_cell_length_c       9.6772\n_cell_angle_alpha    90.0000\n_cell_angle_beta     125.2285\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2425  0.7704  0.9952  1.0000\n  Na  Na2       1.0000  0.7425  0.7296  0.4952  1.0000\n  Na  Na3       1.0000  0.7425  0.2704  0.9952  1.0000\n  Na  Na4       1.0000  0.2425  0.2296  0.4952  1.0000\n  Na  Na5       1.0000  0.5005  0.0984  0.7347  1.0000\n  Na  Na6       1.0000  0.5005  0.9016  0.2347  1.0000\n  Na  Na7       1.0000  0.0005  0.5984  0.7347  1.0000\n  Na  Na8       1.0000  0.0005  0.4016  0.2347  1.0000\n  Na  Na9       1.0000  0.8106  0.9341  0.1916  1.0000\n  Na  Na10      1.0000  0.8106  0.0659  0.6916  1.0000\n  Na  Na11      1.0000  0.3106  0.4341  0.1916  1.0000\n  Na  Na12      1.0000  0.3106  0.5659  0.6916  1.0000\n  La  La1       1.0000  0.1027  0.7670  0.5453  1.0000\n  La  La2       1.0000  0.8995  0.7503  0.9459  1.0000\n  La  La3       1.0000  0.8995  0.2497  0.4459  1.0000\n  La  La4       1.0000  0.1027  0.2330  0.0453  1.0000\n  La  La5       1.0000  0.6027  0.2670  0.5453  1.0000\n  La  La6       1.0000  0.3995  0.2503  0.9459  1.0000\n  La  La7       1.0000  0.3995  0.7497  0.4459  1.0000\n  La  La8       1.0000  0.6027  0.7330  0.0453  1.0000\n  P   P1        1.0000  0.9913  0.9336  0.7340  1.0000\n  O   O1        1.0000  0.9913  0.0664  0.2340  1.0000\n  P   P2        1.0000  0.4913  0.4336  0.7340  1.0000\n  P   P3        1.0000  0.4913  0.5664  0.2340  1.0000\n  P   P4        1.0000  0.3567  0.8993  0.7686  1.0000\n  P   P5        1.0000  0.6571  0.9131  0.7539  1.0000\n  P   P6        1.0000  0.6571  0.0869  0.2539  1.0000\n  P   P7        1.0000  0.3567  0.1007  0.2686  1.0000\n  P   P8        1.0000  0.8567  0.3993  0.7686  1.0000\n  P   P9        1.0000  0.1571  0.4131  0.7539  1.0000\n  P   P10       1.0000  0.1571  0.5869  0.2539  1.0000\n  P   P11       1.0000  0.8567  0.6007  0.2686  1.0000\n  O   O2        1.0000  0.1609  0.5762  0.7585  1.0000\n  O   O3        1.0000  0.8426  0.5593  0.7349  1.0000\n  O   O4        1.0000  0.8426  0.4407  0.2349  1.0000\n  O   O5        1.0000  0.1609  0.4238  0.2585  1.0000\n  O   O6        1.0000  0.6609  0.0762  0.7585  1.0000\n  O   O7        1.0000  0.3426  0.0593  0.7349  1.0000\n  O   O8        1.0000  0.3426  0.9407  0.2349  1.0000\n  O   O9        1.0000  0.6609  0.9238  0.2585  1.0000\n  O   O10       1.0000  0.4402  0.5256  0.5736  1.0000\n  O   O11       1.0000  0.5404  0.5283  0.8927  1.0000\n  O   O12       1.0000  0.5404  0.4717  0.3927  1.0000\n  O   O13       1.0000  0.4402  0.4744  0.0736  1.0000\n  O   O14       1.0000  0.9402  0.0256  0.5736  1.0000\n  O   O15       1.0000  0.0404  0.0283  0.8927  1.0000\n  O   O16       1.0000  0.0404  0.9717  0.3927  1.0000\n  O   O17       1.0000  0.9402  0.9744  0.0736  1.0000\n  O   O18       1.0000  0.2716  0.8303  0.7684  1.0000\n  O   O19       1.0000  0.7387  0.8575  0.7363  1.0000\n  O   O20       1.0000  0.7387  0.1425  0.2363  1.0000\n  O   O21       1.0000  0.2716  0.1697  0.2684  1.0000\n  O   O22       1.0000  0.7716  0.3303  0.7684  1.0000\n  O   O23       1.0000  0.2387  0.3575  0.7363  1.0000\n  O   O24       1.0000  0.2387  0.6425  0.2363  1.0000\n  O   O25       1.0000  0.7716  0.6697  0.2684  1.0000\n  O   O26       1.0000  0.3611  0.8300  0.6276  1.0000\n  O   O27       1.0000  0.6725  0.8636  0.9216  1.0000\n  O   O28       1.0000  0.6725  0.1364  0.4216  1.0000\n  O   O29       1.0000  0.3611  0.1700  0.1276  1.0000\n  O   O30       1.0000  0.8611  0.3300  0.6276  1.0000\n  O   O31       1.0000  0.1725  0.3636  0.9216  1.0000\n  O   O32       1.0000  0.1725  0.6364  0.4216  1.0000\n  O   O33       1.0000  0.8611  0.6700  0.1276  1.0000\n  O   O34       1.0000  0.4559  0.8692  0.9409  1.0000\n  O   O35       1.0000  0.5551  0.8611  0.6022  1.0000\n  P   P12       1.0000  0.5551  0.1389  0.1022  1.0000\n  O   O36       1.0000  0.4559  0.1308  0.4409  1.0000\n  O   O37       1.0000  0.9559  0.3692  0.9409  1.0000\n  O   O38       1.0000  0.0551  0.3611  0.6022  1.0000\n  O   O39       1.0000  0.0551  0.6389  0.1022  1.0000\n  O   O40       1.0000  0.9559  0.6308  0.4409  1.0000\n  O   O41       1.0000  0.0706  0.8334  0.7517  1.0000\n  O   O42       1.0000  0.9095  0.8429  0.7224  1.0000\n  O   O43       1.0000  0.9095  0.1571  0.2224  1.0000\n  O   O44       1.0000  0.0706  0.1666  0.2517  1.0000\n  O   O45       1.0000  0.5706  0.3334  0.7517  1.0000\n  O   O46       1.0000  0.4095  0.3429  0.7224  1.0000\n  O   O47       1.0000  0.4095  0.6571  0.2224  1.0000\n  O   O48       1.0000  0.5706  0.6666  0.2517  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "140864a3-0d08-48c0-a1f3-098fb883fc75",
    "mp_id": "mp-2715379",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na6Hf3MgSi2(PO6)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   15.7297\n_cell_length_b   9.0480\n_cell_length_c   9.0906\n_cell_angle_alpha   90.5067\n_cell_angle_beta   124.6954\n_cell_angle_gamma   89.9129\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na6Hf3MgSi2(PO6)4\n_chemical_formula_sum   'Na12 Hf6 Mg2 Si4 P8 O48'\n_cell_volume   1063.6972\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2501  0.7488  0.9994  1\n  Na  Na1  1  0.7423  0.7462  0.4774  1\n  Na  Na2  1  0.7501  0.2488  0.9994  1\n  Na  Na3  1  0.2423  0.2462  0.4774  1\n  Na  Na4  1  0.5102  0.0913  0.7695  1\n  Na  Na5  1  0.4973  0.8859  0.2336  1\n  Na  Na6  1  0.0102  0.5913  0.7695  1\n  Na  Na7  1  0.9973  0.3859  0.2336  1\n  Na  Na8  1  0.7974  0.9260  0.2077  1\n  Na  Na9  1  0.1853  0.0814  0.8114  1\n  Na  Na10  1  0.2974  0.4260  0.2077  1\n  Na  Na11  1  0.6853  0.5814  0.8114  1\n  Hf  Hf12  1  0.1046  0.7488  0.5583  1\n  Hf  Hf13  1  0.8945  0.7548  0.9346  1\n  Hf  Hf14  1  0.8961  0.2529  0.4422  1\n  Hf  Hf15  1  0.6046  0.2488  0.5583  1\n  Hf  Hf16  1  0.3945  0.2548  0.9346  1\n  Hf  Hf17  1  0.3961  0.7529  0.4422  1\n  Mg  Mg18  1  0.1041  0.2445  0.0606  1\n  Mg  Mg19  1  0.6041  0.7445  0.0606  1\n  Si  Si20  1  0.6497  0.8989  0.7515  1\n  Si  Si21  1  0.3509  0.1010  0.2518  1\n  Si  Si22  1  0.1497  0.3989  0.7515  1\n  Si  Si23  1  0.8509  0.6010  0.2518  1\n  P  P24  1  0.9984  0.9584  0.7469  1\n  P  P25  1  0.0023  0.0458  0.2557  1\n  P  P26  1  0.4984  0.4584  0.7469  1\n  P  P27  1  0.5023  0.5458  0.2557  1\n  P  P28  1  0.3573  0.8955  0.7654  1\n  P  P29  1  0.6455  0.1058  0.2405  1\n  P  P30  1  0.8573  0.3955  0.7654  1\n  P  P31  1  0.1455  0.6058  0.2405  1\n  O  O32  1  0.1569  0.5797  0.7379  1\n  O  O33  1  0.8536  0.5691  0.7571  1\n  O  O34  1  0.8493  0.4181  0.2573  1\n  O  O35  1  0.1503  0.4364  0.2469  1\n  O  O36  1  0.6569  0.0797  0.7379  1\n  O  O37  1  0.3536  0.0691  0.7571  1\n  O  O38  1  0.3493  0.9181  0.2573  1\n  O  O39  1  0.6503  0.9364  0.2469  1\n  O  O40  1  0.4300  0.5475  0.5715  1\n  O  O41  1  0.5622  0.5599  0.9077  1\n  O  O42  1  0.5654  0.4528  0.4268  1\n  O  O43  1  0.4426  0.4373  0.0927  1\n  O  O44  1  0.9300  0.0475  0.5715  1\n  O  O45  1  0.0622  0.0599  0.9077  1\n  O  O46  1  0.0654  0.9528  0.4268  1\n  O  O47  1  0.9426  0.9373  0.0927  1\n  O  O48  1  0.2566  0.8441  0.7432  1\n  O  O49  1  0.7451  0.8165  0.7564  1\n  O  O50  1  0.7417  0.1672  0.2527  1\n  O  O51  1  0.2582  0.1832  0.2443  1\n  O  O52  1  0.7566  0.3441  0.7432  1\n  O  O53  1  0.2451  0.3165  0.7564  1\n  O  O54  1  0.2417  0.6672  0.2527  1\n  O  O55  1  0.7582  0.6832  0.2443  1\n  O  O56  1  0.3595  0.8473  0.6020  1\n  O  O57  1  0.6488  0.8656  0.9242  1\n  O  O58  1  0.6449  0.1625  0.4010  1\n  O  O59  1  0.3545  0.1391  0.0756  1\n  O  O60  1  0.8595  0.3473  0.6020  1\n  O  O61  1  0.1488  0.3656  0.9242  1\n  O  O62  1  0.1449  0.6625  0.4010  1\n  O  O63  1  0.8545  0.6391  0.0756  1\n  O  O64  1  0.4522  0.8400  0.9387  1\n  O  O65  1  0.5408  0.8310  0.5723  1\n  O  O66  1  0.5465  0.1625  0.0658  1\n  O  O67  1  0.4642  0.1593  0.4263  1\n  O  O68  1  0.9522  0.3400  0.9387  1\n  O  O69  1  0.0408  0.3310  0.5723  1\n  O  O70  1  0.0465  0.6625  0.0658  1\n  O  O71  1  0.9642  0.6593  0.4263  1\n  O  O72  1  0.0782  0.8617  0.7360  1\n  O  O73  1  0.9281  0.8459  0.7585  1\n  O  O74  1  0.9147  0.1299  0.2563  1\n  O  O75  1  0.0698  0.1571  0.2421  1\n  O  O76  1  0.5782  0.3617  0.7360  1\n  O  O77  1  0.4281  0.3459  0.7585  1\n  O  O78  1  0.4147  0.6299  0.2563  1\n  O  O79  1  0.5698  0.6571  0.2421  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na12Hf6SiMgSi2MgSiP8O48\n_chemical_formula_sum              \"Na12 Hf6 Si4 Mg2 P8 O48\"\n_cell_length_a       15.7297\n_cell_length_b       9.0480\n_cell_length_c       9.0906\n_cell_angle_alpha    90.5067\n_cell_angle_beta     124.6954\n_cell_angle_gamma    89.9129\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2501  0.7488  0.9994  1.0000\n  Na  Na2       1.0000  0.7423  0.7462  0.4774  1.0000\n  Na  Na3       1.0000  0.7501  0.2488  0.9994  1.0000\n  Na  Na4       1.0000  0.2423  0.2462  0.4774  1.0000\n  Na  Na5       1.0000  0.5102  0.0913  0.7695  1.0000\n  Na  Na6       1.0000  0.4973  0.8859  0.2336  1.0000\n  Na  Na7       1.0000  0.0102  0.5913  0.7695  1.0000\n  Na  Na8       1.0000  0.9973  0.3859  0.2336  1.0000\n  Na  Na9       1.0000  0.7974  0.9260  0.2077  1.0000\n  Na  Na10      1.0000  0.1853  0.0814  0.8114  1.0000\n  Na  Na11      1.0000  0.2974  0.4260  0.2077  1.0000\n  Na  Na12      1.0000  0.6853  0.5814  0.8114  1.0000\n  Hf  Hf1       1.0000  0.1046  0.7488  0.5583  1.0000\n  Hf  Hf2       1.0000  0.8945  0.7548  0.9346  1.0000\n  Hf  Hf3       1.0000  0.8961  0.2529  0.4422  1.0000\n  Hf  Hf4       1.0000  0.6046  0.2488  0.5583  1.0000\n  Hf  Hf5       1.0000  0.3945  0.2548  0.9346  1.0000\n  Hf  Hf6       1.0000  0.3961  0.7529  0.4422  1.0000\n  Si  Si1       1.0000  0.1041  0.2445  0.0606  1.0000\n  Mg  Mg1       1.0000  0.6041  0.7445  0.0606  1.0000\n  Si  Si2       1.0000  0.6497  0.8989  0.7515  1.0000\n  Si  Si3       1.0000  0.3509  0.1010  0.2518  1.0000\n  Mg  Mg2       1.0000  0.1497  0.3989  0.7515  1.0000\n  Si  Si4       1.0000  0.8509  0.6010  0.2518  1.0000\n  P   P1        1.0000  0.9984  0.9584  0.7469  1.0000\n  P   P2        1.0000  0.0023  0.0458  0.2557  1.0000\n  P   P3        1.0000  0.4984  0.4584  0.7469  1.0000\n  P   P4        1.0000  0.5023  0.5458  0.2557  1.0000\n  P   P5        1.0000  0.3573  0.8955  0.7654  1.0000\n  P   P6        1.0000  0.6455  0.1058  0.2405  1.0000\n  P   P7        1.0000  0.8573  0.3955  0.7654  1.0000\n  P   P8        1.0000  0.1455  0.6058  0.2405  1.0000\n  O   O1        1.0000  0.1569  0.5797  0.7379  1.0000\n  O   O2        1.0000  0.8536  0.5691  0.7571  1.0000\n  O   O3        1.0000  0.8493  0.4181  0.2573  1.0000\n  O   O4        1.0000  0.1503  0.4364  0.2469  1.0000\n  O   O5        1.0000  0.6569  0.0797  0.7379  1.0000\n  O   O6        1.0000  0.3536  0.0691  0.7571  1.0000\n  O   O7        1.0000  0.3493  0.9181  0.2573  1.0000\n  O   O8        1.0000  0.6503  0.9364  0.2469  1.0000\n  O   O9        1.0000  0.4300  0.5475  0.5715  1.0000\n  O   O10       1.0000  0.5622  0.5599  0.9077  1.0000\n  O   O11       1.0000  0.5654  0.4528  0.4268  1.0000\n  O   O12       1.0000  0.4426  0.4373  0.0927  1.0000\n  O   O13       1.0000  0.9300  0.0475  0.5715  1.0000\n  O   O14       1.0000  0.0622  0.0599  0.9077  1.0000\n  O   O15       1.0000  0.0654  0.9528  0.4268  1.0000\n  O   O16       1.0000  0.9426  0.9373  0.0927  1.0000\n  O   O17       1.0000  0.2566  0.8441  0.7432  1.0000\n  O   O18       1.0000  0.7451  0.8165  0.7564  1.0000\n  O   O19       1.0000  0.7417  0.1672  0.2527  1.0000\n  O   O20       1.0000  0.2582  0.1832  0.2443  1.0000\n  O   O21       1.0000  0.7566  0.3441  0.7432  1.0000\n  O   O22       1.0000  0.2451  0.3165  0.7564  1.0000\n  O   O23       1.0000  0.2417  0.6672  0.2527  1.0000\n  O   O24       1.0000  0.7582  0.6832  0.2443  1.0000\n  O   O25       1.0000  0.3595  0.8473  0.6020  1.0000\n  O   O26       1.0000  0.6488  0.8656  0.9242  1.0000\n  O   O27       1.0000  0.6449  0.1625  0.4010  1.0000\n  O   O28       1.0000  0.3545  0.1391  0.0756  1.0000\n  O   O29       1.0000  0.8595  0.3473  0.6020  1.0000\n  O   O30       1.0000  0.1488  0.3656  0.9242  1.0000\n  O   O31       1.0000  0.1449  0.6625  0.4010  1.0000\n  O   O32       1.0000  0.8545  0.6391  0.0756  1.0000\n  O   O33       1.0000  0.4522  0.8400  0.9387  1.0000\n  O   O34       1.0000  0.5408  0.8310  0.5723  1.0000\n  O   O35       1.0000  0.5465  0.1625  0.0658  1.0000\n  O   O36       1.0000  0.4642  0.1593  0.4263  1.0000\n  O   O37       1.0000  0.9522  0.3400  0.9387  1.0000\n  O   O38       1.0000  0.0408  0.3310  0.5723  1.0000\n  O   O39       1.0000  0.0465  0.6625  0.0658  1.0000\n  O   O40       1.0000  0.9642  0.6593  0.4263  1.0000\n  O   O41       1.0000  0.0782  0.8617  0.7360  1.0000\n  O   O42       1.0000  0.9281  0.8459  0.7585  1.0000\n  O   O43       1.0000  0.9147  0.1299  0.2563  1.0000\n  O   O44       1.0000  0.0698  0.1571  0.2421  1.0000\n  O   O45       1.0000  0.5782  0.3617  0.7360  1.0000\n  O   O46       1.0000  0.4281  0.3459  0.7585  1.0000\n  O   O47       1.0000  0.4147  0.6299  0.2563  1.0000\n  O   O48       1.0000  0.5698  0.6571  0.2421  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1b66126c-a76a-4206-9d8c-f295f2cd9faf",
    "mp_id": "mp-27286",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba(Ag3O2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6401\n_cell_length_b   9.1102\n_cell_length_c   12.8630\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba(Ag3O2)2\n_chemical_formula_sum   'Ba4 Ag24 O16'\n_cell_volume   778.1146\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.8775  0.5000  1\n  Ba  Ba1  1  0.2500  0.6225  -0.0000  1\n  Ba  Ba2  1  0.7500  0.1225  0.5000  1\n  Ba  Ba3  1  0.7500  0.3775  -0.0000  1\n  Ag  Ag4  1  0.2928  0.2379  0.3742  1\n  Ag  Ag5  1  0.0760  0.5345  0.2631  1\n  Ag  Ag6  1  0.4240  0.9655  0.7631  1\n  Ag  Ag7  1  0.0760  0.9655  0.2369  1\n  Ag  Ag8  1  0.9240  0.0345  0.7631  1\n  Ag  Ag9  1  0.9240  0.4655  0.7369  1\n  Ag  Ag10  1  0.5760  0.0345  0.2369  1\n  Ag  Ag11  1  0.5760  0.4655  0.2631  1\n  Ag  Ag12  1  0.3985  0.7500  0.2500  1\n  Ag  Ag13  1  0.1015  0.7500  0.7500  1\n  Ag  Ag14  1  0.6015  0.2500  0.7500  1\n  Ag  Ag15  1  0.8985  0.2500  0.2500  1\n  Ag  Ag16  1  0.2072  0.2379  0.6258  1\n  Ag  Ag17  1  0.2072  0.2621  0.8742  1\n  Ag  Ag18  1  0.7072  0.7621  0.6258  1\n  Ag  Ag19  1  0.7072  0.7379  0.8742  1\n  Ag  Ag20  1  0.7928  0.7621  0.3742  1\n  Ag  Ag21  1  0.7928  0.7379  0.1258  1\n  Ag  Ag22  1  0.5000  0.5000  0.5000  1\n  Ag  Ag23  1  0.5000  -0.0000  -0.0000  1\n  Ag  Ag24  1  -0.0000  0.5000  0.5000  1\n  Ag  Ag25  1  -0.0000  -0.0000  -0.0000  1\n  Ag  Ag26  1  0.4240  0.5345  0.7369  1\n  Ag  Ag27  1  0.2928  0.2621  0.1258  1\n  O  O28  1  0.5773  0.3359  0.3943  1\n  O  O29  1  0.5773  0.1641  0.1057  1\n  O  O30  1  0.9227  0.3359  0.6057  1\n  O  O31  1  0.9227  0.1641  0.8943  1\n  O  O32  1  0.0773  0.6641  0.3943  1\n  O  O33  1  0.0773  0.8359  0.1057  1\n  O  O34  1  0.0518  0.0914  0.3705  1\n  O  O35  1  0.0518  0.4086  0.1295  1\n  O  O36  1  0.4482  0.0914  0.6295  1\n  O  O37  1  0.4482  0.4086  0.8705  1\n  O  O38  1  0.9482  0.9086  0.6295  1\n  O  O39  1  0.9482  0.5914  0.8705  1\n  O  O40  1  0.5518  0.9086  0.3705  1\n  O  O41  1  0.5518  0.5914  0.1295  1\n  O  O42  1  0.4227  0.6641  0.6057  1\n  O  O43  1  0.4227  0.8359  0.8943  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2AgBaAg20BaAg3O16\n_chemical_formula_sum              \"Ba4 Ag24 O16\"\n_cell_length_a       6.6401\n_cell_length_b       9.1102\n_cell_length_c       12.8630\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2500  0.8775  0.5000  1.0000\n  Ba  Ba2       1.0000  0.2500  0.6225  0.0000  1.0000\n  Ag  Ag1       1.0000  0.7500  0.1225  0.5000  1.0000\n  Ba  Ba3       1.0000  0.7500  0.3775  0.0000  1.0000\n  Ag  Ag2       1.0000  0.2928  0.2379  0.3742  1.0000\n  Ag  Ag3       1.0000  0.0760  0.5345  0.2631  1.0000\n  Ag  Ag4       1.0000  0.4240  0.9655  0.7631  1.0000\n  Ag  Ag5       1.0000  0.0760  0.9655  0.2369  1.0000\n  Ag  Ag6       1.0000  0.9240  0.0345  0.7631  1.0000\n  Ag  Ag7       1.0000  0.9240  0.4655  0.7369  1.0000\n  Ag  Ag8       1.0000  0.5760  0.0345  0.2369  1.0000\n  Ag  Ag9       1.0000  0.5760  0.4655  0.2631  1.0000\n  Ag  Ag10      1.0000  0.3985  0.7500  0.2500  1.0000\n  Ag  Ag11      1.0000  0.1015  0.7500  0.7500  1.0000\n  Ag  Ag12      1.0000  0.6015  0.2500  0.7500  1.0000\n  Ag  Ag13      1.0000  0.8985  0.2500  0.2500  1.0000\n  Ag  Ag14      1.0000  0.2072  0.2379  0.6258  1.0000\n  Ag  Ag15      1.0000  0.2072  0.2621  0.8742  1.0000\n  Ag  Ag16      1.0000  0.7072  0.7621  0.6258  1.0000\n  Ag  Ag17      1.0000  0.7072  0.7379  0.8742  1.0000\n  Ag  Ag18      1.0000  0.7928  0.7621  0.3742  1.0000\n  Ag  Ag19      1.0000  0.7928  0.7379  0.1258  1.0000\n  Ag  Ag20      1.0000  0.5000  0.5000  0.5000  1.0000\n  Ag  Ag21      1.0000  0.5000  0.0000  0.0000  1.0000\n  Ba  Ba4       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ag  Ag22      1.0000  0.0000  0.0000  0.0000  1.0000\n  Ag  Ag23      1.0000  0.4240  0.5345  0.7369  1.0000\n  Ag  Ag24      1.0000  0.2928  0.2621  0.1258  1.0000\n  O   O1        1.0000  0.5773  0.3359  0.3943  1.0000\n  O   O2        1.0000  0.5773  0.1641  0.1057  1.0000\n  O   O3        1.0000  0.9227  0.3359  0.6057  1.0000\n  O   O4        1.0000  0.9227  0.1641  0.8943  1.0000\n  O   O5        1.0000  0.0773  0.6641  0.3943  1.0000\n  O   O6        1.0000  0.0773  0.8359  0.1057  1.0000\n  O   O7        1.0000  0.0518  0.0914  0.3705  1.0000\n  O   O8        1.0000  0.0518  0.4086  0.1295  1.0000\n  O   O9        1.0000  0.4482  0.0914  0.6295  1.0000\n  O   O10       1.0000  0.4482  0.4086  0.8705  1.0000\n  O   O11       1.0000  0.9482  0.9086  0.6295  1.0000\n  O   O12       1.0000  0.9482  0.5914  0.8705  1.0000\n  O   O13       1.0000  0.5518  0.9086  0.3705  1.0000\n  O   O14       1.0000  0.5518  0.5914  0.1295  1.0000\n  O   O15       1.0000  0.4227  0.6641  0.6057  1.0000\n  O   O16       1.0000  0.4227  0.8359  0.8943  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "41579c0a-f31a-46f8-a887-9f328145c146",
    "mp_id": "mp-27341",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BH4N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.4855\n_cell_length_b   11.3244\n_cell_length_c   12.4046\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BH4N\n_chemical_formula_sum   'B12 H48 N12'\n_cell_volume   630.1036\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  B  B0  1  0.8545  0.7500  0.1150  1\n  B  B1  1  0.8545  0.2500  0.3850  1\n  B  B2  1  0.1455  0.2500  0.8850  1\n  B  B3  1  0.1455  0.7500  0.6150  1\n  B  B4  1  0.8510  0.1319  0.5723  1\n  B  B5  1  0.8510  0.8681  0.9277  1\n  B  B6  1  0.1490  0.6319  0.4277  1\n  B  B7  1  0.1490  0.3681  0.0723  1\n  B  B8  1  0.1490  0.8681  0.4277  1\n  B  B9  1  0.1490  0.1319  0.0723  1\n  B  B10  1  0.8510  0.3681  0.5723  1\n  B  B11  1  0.8510  0.6319  0.9277  1\n  H  H12  1  0.1668  0.7500  0.2939  1\n  H  H13  1  0.1668  0.2500  0.2061  1\n  H  H14  1  0.8332  0.2500  0.7061  1\n  H  H15  1  0.8332  0.7500  0.7939  1\n  H  H16  1  0.4793  0.7500  0.3601  1\n  H  H17  1  0.4793  0.2500  0.1399  1\n  H  H18  1  0.5207  0.2500  0.6399  1\n  H  H19  1  0.5207  0.7500  0.8601  1\n  H  H20  1  0.7376  0.0467  0.6169  1\n  H  H21  1  0.7376  0.9533  0.8831  1\n  H  H22  1  0.2624  0.5467  0.3831  1\n  H  H23  1  0.2624  0.4533  0.1169  1\n  H  H24  1  0.2624  0.9533  0.3831  1\n  H  H25  1  0.2624  0.0467  0.1169  1\n  H  H26  1  0.7376  0.4533  0.6169  1\n  H  H27  1  0.7376  0.5467  0.8831  1\n  H  H28  1  0.1232  0.1274  0.5749  1\n  H  H29  1  0.8307  0.0633  0.4127  1\n  H  H30  1  0.1232  0.8726  0.9251  1\n  H  H31  1  0.8768  0.3726  0.0749  1\n  H  H32  1  0.8768  0.8726  0.4251  1\n  H  H33  1  0.8768  0.1274  0.0749  1\n  H  H34  1  0.1232  0.3726  0.5749  1\n  H  H35  1  0.1232  0.6274  0.9251  1\n  H  H36  1  0.1270  0.7500  0.1192  1\n  H  H37  1  0.1270  0.2500  0.3808  1\n  H  H38  1  0.8730  0.2500  0.8808  1\n  H  H39  1  0.8730  0.7500  0.6192  1\n  H  H40  1  0.7430  0.7500  0.2049  1\n  H  H41  1  0.7430  0.2500  0.2951  1\n  H  H42  1  0.2570  0.2500  0.7951  1\n  H  H43  1  0.2570  0.7500  0.7049  1\n  H  H44  1  0.5214  0.6289  0.0551  1\n  H  H45  1  0.5214  0.3711  0.4449  1\n  H  H46  1  0.4786  0.1289  0.9449  1\n  H  H47  1  0.4786  0.8711  0.5551  1\n  H  H48  1  0.4786  0.3711  0.9449  1\n  H  H49  1  0.4786  0.6289  0.5551  1\n  H  H50  1  0.5214  0.8711  0.0551  1\n  H  H51  1  0.5214  0.1289  0.4449  1\n  H  H52  1  0.8307  0.5633  0.0873  1\n  H  H53  1  0.8307  0.4367  0.4127  1\n  H  H54  1  0.1693  0.0633  0.9127  1\n  H  H55  1  0.1693  0.9367  0.5873  1\n  H  H56  1  0.1693  0.4367  0.9127  1\n  H  H57  1  0.1693  0.5633  0.5873  1\n  H  H58  1  0.8307  0.9367  0.0873  1\n  H  H59  1  0.8768  0.6274  0.4251  1\n  N  N60  1  0.7491  0.1375  0.4501  1\n  N  N61  1  0.7491  0.8625  0.0499  1\n  N  N62  1  0.2509  0.6375  0.5499  1\n  N  N63  1  0.2509  0.3625  0.9501  1\n  N  N64  1  0.2509  0.8625  0.5499  1\n  N  N65  1  0.2509  0.1375  0.9501  1\n  N  N66  1  0.7491  0.3625  0.4501  1\n  N  N67  1  0.7491  0.6375  0.0499  1\n  N  N68  1  0.7481  0.7500  0.8709  1\n  N  N69  1  0.7481  0.2500  0.6291  1\n  N  N70  1  0.2519  0.2500  0.1291  1\n  N  N71  1  0.2519  0.7500  0.3709  1\n",
    "output": "data_image0\n_chemical_formula_structural       B7HB4H46BHN12\n_chemical_formula_sum              \"B12 H48 N12\"\n_cell_length_a       4.4855\n_cell_length_b       11.3244\n_cell_length_c       12.4046\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  B   B1        1.0000  0.8545  0.7500  0.1150  1.0000\n  B   B2        1.0000  0.8545  0.2500  0.3850  1.0000\n  B   B3        1.0000  0.1455  0.2500  0.8850  1.0000\n  B   B4        1.0000  0.1455  0.7500  0.6150  1.0000\n  B   B5        1.0000  0.8510  0.1319  0.5723  1.0000\n  B   B6        1.0000  0.8510  0.8681  0.9277  1.0000\n  B   B7        1.0000  0.1490  0.6319  0.4277  1.0000\n  H   H1        1.0000  0.1490  0.3681  0.0723  1.0000\n  B   B8        1.0000  0.1490  0.8681  0.4277  1.0000\n  B   B9        1.0000  0.1490  0.1319  0.0723  1.0000\n  B   B10       1.0000  0.8510  0.3681  0.5723  1.0000\n  B   B11       1.0000  0.8510  0.6319  0.9277  1.0000\n  H   H2        1.0000  0.1668  0.7500  0.2939  1.0000\n  H   H3        1.0000  0.1668  0.2500  0.2061  1.0000\n  H   H4        1.0000  0.8332  0.2500  0.7061  1.0000\n  H   H5        1.0000  0.8332  0.7500  0.7939  1.0000\n  H   H6        1.0000  0.4793  0.7500  0.3601  1.0000\n  H   H7        1.0000  0.4793  0.2500  0.1399  1.0000\n  H   H8        1.0000  0.5207  0.2500  0.6399  1.0000\n  H   H9        1.0000  0.5207  0.7500  0.8601  1.0000\n  H   H10       1.0000  0.7376  0.0467  0.6169  1.0000\n  H   H11       1.0000  0.7376  0.9533  0.8831  1.0000\n  H   H12       1.0000  0.2624  0.5467  0.3831  1.0000\n  H   H13       1.0000  0.2624  0.4533  0.1169  1.0000\n  H   H14       1.0000  0.2624  0.9533  0.3831  1.0000\n  H   H15       1.0000  0.2624  0.0467  0.1169  1.0000\n  H   H16       1.0000  0.7376  0.4533  0.6169  1.0000\n  H   H17       1.0000  0.7376  0.5467  0.8831  1.0000\n  H   H18       1.0000  0.1232  0.1274  0.5749  1.0000\n  H   H19       1.0000  0.8307  0.0633  0.4127  1.0000\n  H   H20       1.0000  0.1232  0.8726  0.9251  1.0000\n  H   H21       1.0000  0.8768  0.3726  0.0749  1.0000\n  H   H22       1.0000  0.8768  0.8726  0.4251  1.0000\n  H   H23       1.0000  0.8768  0.1274  0.0749  1.0000\n  H   H24       1.0000  0.1232  0.3726  0.5749  1.0000\n  H   H25       1.0000  0.1232  0.6274  0.9251  1.0000\n  H   H26       1.0000  0.1270  0.7500  0.1192  1.0000\n  H   H27       1.0000  0.1270  0.2500  0.3808  1.0000\n  H   H28       1.0000  0.8730  0.2500  0.8808  1.0000\n  H   H29       1.0000  0.8730  0.7500  0.6192  1.0000\n  H   H30       1.0000  0.7430  0.7500  0.2049  1.0000\n  H   H31       1.0000  0.7430  0.2500  0.2951  1.0000\n  H   H32       1.0000  0.2570  0.2500  0.7951  1.0000\n  H   H33       1.0000  0.2570  0.7500  0.7049  1.0000\n  H   H34       1.0000  0.5214  0.6289  0.0551  1.0000\n  H   H35       1.0000  0.5214  0.3711  0.4449  1.0000\n  H   H36       1.0000  0.4786  0.1289  0.9449  1.0000\n  H   H37       1.0000  0.4786  0.8711  0.5551  1.0000\n  H   H38       1.0000  0.4786  0.3711  0.9449  1.0000\n  H   H39       1.0000  0.4786  0.6289  0.5551  1.0000\n  H   H40       1.0000  0.5214  0.8711  0.0551  1.0000\n  H   H41       1.0000  0.5214  0.1289  0.4449  1.0000\n  H   H42       1.0000  0.8307  0.5633  0.0873  1.0000\n  H   H43       1.0000  0.8307  0.4367  0.4127  1.0000\n  H   H44       1.0000  0.1693  0.0633  0.9127  1.0000\n  H   H45       1.0000  0.1693  0.9367  0.5873  1.0000\n  H   H46       1.0000  0.1693  0.4367  0.9127  1.0000\n  H   H47       1.0000  0.1693  0.5633  0.5873  1.0000\n  B   B12       1.0000  0.8307  0.9367  0.0873  1.0000\n  H   H48       1.0000  0.8768  0.6274  0.4251  1.0000\n  N   N1        1.0000  0.7491  0.1375  0.4501  1.0000\n  N   N2        1.0000  0.7491  0.8625  0.0499  1.0000\n  N   N3        1.0000  0.2509  0.6375  0.5499  1.0000\n  N   N4        1.0000  0.2509  0.3625  0.9501  1.0000\n  N   N5        1.0000  0.2509  0.8625  0.5499  1.0000\n  N   N6        1.0000  0.2509  0.1375  0.9501  1.0000\n  N   N7        1.0000  0.7491  0.3625  0.4501  1.0000\n  N   N8        1.0000  0.7491  0.6375  0.0499  1.0000\n  N   N9        1.0000  0.7481  0.7500  0.8709  1.0000\n  N   N10       1.0000  0.7481  0.2500  0.6291  1.0000\n  N   N11       1.0000  0.2519  0.2500  0.1291  1.0000\n  N   N12       1.0000  0.2519  0.7500  0.3709  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c692fc14-dd0b-4779-b40a-c2411fb7f252",
    "mp_id": "mp-27383",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nb3CuO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1010\n_cell_length_b   7.6621\n_cell_length_c   15.5629\n_cell_angle_alpha   72.8315\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nb3CuO8\n_chemical_formula_sum   'Nb12 Cu4 O32'\n_cell_volume   581.1619\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.7404  0.5171  0.8351  1\n  Nb  Nb1  1  0.2404  0.4829  0.6649  1\n  Nb  Nb2  1  0.2596  0.4829  0.1649  1\n  Nb  Nb3  1  0.7596  0.5171  0.3351  1\n  Nb  Nb4  1  0.2458  0.2514  0.9241  1\n  Nb  Nb5  1  0.7458  0.7486  0.5759  1\n  Nb  Nb6  1  0.7542  0.7486  0.0759  1\n  Nb  Nb7  1  0.2542  0.2514  0.4241  1\n  Nb  Nb8  1  0.7355  0.0080  0.8327  1\n  Nb  Nb9  1  0.2354  0.9920  0.6673  1\n  Nb  Nb10  1  0.2646  0.9920  0.1673  1\n  Nb  Nb11  1  0.7645  0.0080  0.3327  1\n  Cu  Cu12  1  0.7418  0.2661  0.5778  1\n  Cu  Cu13  1  0.2418  0.7339  0.9222  1\n  Cu  Cu14  1  0.2582  0.7339  0.4222  1\n  Cu  Cu15  1  0.7582  0.2661  0.0778  1\n  O  O16  1  0.9196  0.2197  0.8453  1\n  O  O17  1  0.4196  0.7803  0.6547  1\n  O  O18  1  0.0804  0.7803  0.1547  1\n  O  O19  1  0.5804  0.2197  0.3453  1\n  O  O20  1  0.4251  0.0422  0.9000  1\n  O  O21  1  0.9251  0.9578  0.6000  1\n  O  O22  1  0.5749  0.9578  0.1000  1\n  O  O23  1  0.0749  0.0422  0.4000  1\n  O  O24  1  0.5722  0.3516  0.9522  1\n  O  O25  1  0.0722  0.6484  0.5478  1\n  O  O26  1  0.4278  0.6484  0.0478  1\n  O  O27  1  0.9278  0.3516  0.4522  1\n  O  O28  1  0.0670  0.5027  0.9007  1\n  O  O29  1  0.5670  0.4973  0.5993  1\n  O  O30  1  0.9330  0.4973  0.0993  1\n  O  O31  1  0.4330  0.5027  0.4007  1\n  O  O32  1  0.9305  0.0835  0.2192  1\n  O  O33  1  0.4305  0.9165  0.2808  1\n  O  O34  1  0.0695  0.9165  0.7808  1\n  O  O35  1  0.5695  0.0835  0.7192  1\n  O  O36  1  0.9022  0.7338  0.3467  1\n  O  O37  1  0.4022  0.2662  0.1533  1\n  O  O38  1  0.0978  0.2662  0.6533  1\n  O  O39  1  0.5978  0.7338  0.8467  1\n  O  O40  1  0.0850  0.4156  0.2840  1\n  O  O41  1  0.5850  0.5844  0.2160  1\n  O  O42  1  0.9150  0.5844  0.7160  1\n  O  O43  1  0.4150  0.4156  0.7840  1\n  O  O44  1  0.5996  0.8480  0.4611  1\n  O  O45  1  0.0996  0.1520  0.0389  1\n  O  O46  1  0.4004  0.1520  0.5389  1\n  O  O47  1  0.9004  0.8480  0.9611  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb5CuNb7Cu3O32\n_chemical_formula_sum              \"Nb12 Cu4 O32\"\n_cell_length_a       5.1010\n_cell_length_b       7.6621\n_cell_length_c       15.5629\n_cell_angle_alpha    72.8315\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.7404  0.5171  0.8351  1.0000\n  Nb  Nb2       1.0000  0.2404  0.4829  0.6649  1.0000\n  Nb  Nb3       1.0000  0.2596  0.4829  0.1649  1.0000\n  Nb  Nb4       1.0000  0.7596  0.5171  0.3351  1.0000\n  Nb  Nb5       1.0000  0.2458  0.2514  0.9241  1.0000\n  Cu  Cu1       1.0000  0.7458  0.7486  0.5759  1.0000\n  Nb  Nb6       1.0000  0.7542  0.7486  0.0759  1.0000\n  Nb  Nb7       1.0000  0.2542  0.2514  0.4241  1.0000\n  Nb  Nb8       1.0000  0.7355  0.0080  0.8327  1.0000\n  Nb  Nb9       1.0000  0.2354  0.9920  0.6673  1.0000\n  Nb  Nb10      1.0000  0.2646  0.9920  0.1673  1.0000\n  Nb  Nb11      1.0000  0.7645  0.0080  0.3327  1.0000\n  Nb  Nb12      1.0000  0.7418  0.2661  0.5778  1.0000\n  Cu  Cu2       1.0000  0.2418  0.7339  0.9222  1.0000\n  Cu  Cu3       1.0000  0.2582  0.7339  0.4222  1.0000\n  Cu  Cu4       1.0000  0.7582  0.2661  0.0778  1.0000\n  O   O1        1.0000  0.9196  0.2197  0.8453  1.0000\n  O   O2        1.0000  0.4196  0.7803  0.6547  1.0000\n  O   O3        1.0000  0.0804  0.7803  0.1547  1.0000\n  O   O4        1.0000  0.5804  0.2197  0.3453  1.0000\n  O   O5        1.0000  0.4251  0.0422  0.9000  1.0000\n  O   O6        1.0000  0.9251  0.9578  0.6000  1.0000\n  O   O7        1.0000  0.5749  0.9578  0.1000  1.0000\n  O   O8        1.0000  0.0749  0.0422  0.4000  1.0000\n  O   O9        1.0000  0.5722  0.3516  0.9522  1.0000\n  O   O10       1.0000  0.0722  0.6484  0.5478  1.0000\n  O   O11       1.0000  0.4278  0.6484  0.0478  1.0000\n  O   O12       1.0000  0.9278  0.3516  0.4522  1.0000\n  O   O13       1.0000  0.0670  0.5027  0.9007  1.0000\n  O   O14       1.0000  0.5670  0.4973  0.5993  1.0000\n  O   O15       1.0000  0.9330  0.4973  0.0993  1.0000\n  O   O16       1.0000  0.4330  0.5027  0.4007  1.0000\n  O   O17       1.0000  0.9305  0.0835  0.2192  1.0000\n  O   O18       1.0000  0.4305  0.9165  0.2808  1.0000\n  O   O19       1.0000  0.0695  0.9165  0.7808  1.0000\n  O   O20       1.0000  0.5695  0.0835  0.7192  1.0000\n  O   O21       1.0000  0.9022  0.7338  0.3467  1.0000\n  O   O22       1.0000  0.4022  0.2662  0.1533  1.0000\n  O   O23       1.0000  0.0978  0.2662  0.6533  1.0000\n  O   O24       1.0000  0.5978  0.7338  0.8467  1.0000\n  O   O25       1.0000  0.0850  0.4156  0.2840  1.0000\n  O   O26       1.0000  0.5850  0.5844  0.2160  1.0000\n  O   O27       1.0000  0.9150  0.5844  0.7160  1.0000\n  O   O28       1.0000  0.4150  0.4156  0.7840  1.0000\n  O   O29       1.0000  0.5996  0.8480  0.4611  1.0000\n  O   O30       1.0000  0.0996  0.1520  0.0389  1.0000\n  O   O31       1.0000  0.4004  0.1520  0.5389  1.0000\n  O   O32       1.0000  0.9004  0.8480  0.9611  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9ca828ef-859b-4c4e-9331-826535306e93",
    "mp_id": "mp-2751271",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La6CuSb15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.7398\n_cell_length_b   12.7398\n_cell_length_c   4.3143\n_cell_angle_alpha   80.2962\n_cell_angle_beta   80.2962\n_cell_angle_gamma   101.4276\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La6CuSb15\n_chemical_formula_sum   'La6 Cu1 Sb15'\n_cell_volume   661.5779\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.3257  0.6756  0.9316  1\n  La  La1  1  0.6756  0.3257  0.9316  1\n  La  La2  1  0.2681  0.0045  0.7974  1\n  La  La3  1  0.7256  0.9968  0.0721  1\n  La  La4  1  0.9968  0.7256  0.0721  1\n  La  La5  1  0.0045  0.2681  0.7974  1\n  Cu  Cu6  1  0.2632  0.2632  0.6753  1\n  Sb  Sb7  1  0.4025  0.4025  0.0306  1\n  Sb  Sb8  1  0.5937  0.5937  0.8371  1\n  Sb  Sb9  1  0.4655  0.2448  0.5761  1\n  Sb  Sb10  1  0.5436  0.7520  0.2851  1\n  Sb  Sb11  1  0.7520  0.5436  0.2851  1\n  Sb  Sb12  1  0.2448  0.4655  0.5761  1\n  Sb  Sb13  1  0.5106  0.9142  0.7186  1\n  Sb  Sb14  1  0.4852  0.0808  0.1498  1\n  Sb  Sb15  1  0.0808  0.4852  0.1498  1\n  Sb  Sb16  1  0.9142  0.5106  0.7186  1\n  Sb  Sb17  1  0.1582  0.1582  0.2771  1\n  Sb  Sb18  1  0.8587  0.8587  0.5750  1\n  Sb  Sb19  1  0.1996  0.7991  0.4342  1\n  Sb  Sb20  1  0.7991  0.1996  0.4342  1\n  Sb  Sb21  1  0.9927  0.9927  0.9426  1\n",
    "output": "data_image0\n_chemical_formula_structural       LaSbLa4CuSbLaSb13\n_chemical_formula_sum              \"La6 Sb15 Cu1\"\n_cell_length_a       12.7398\n_cell_length_b       12.7398\n_cell_length_c       4.3143\n_cell_angle_alpha    80.2962\n_cell_angle_beta     80.2962\n_cell_angle_gamma    101.4276\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.3257  0.6756  0.9316  1.0000\n  Sb  Sb1       1.0000  0.6756  0.3257  0.9316  1.0000\n  La  La2       1.0000  0.2681  0.0045  0.7974  1.0000\n  La  La3       1.0000  0.7256  0.9968  0.0721  1.0000\n  La  La4       1.0000  0.9968  0.7256  0.0721  1.0000\n  La  La5       1.0000  0.0045  0.2681  0.7974  1.0000\n  Cu  Cu1       1.0000  0.2632  0.2632  0.6753  1.0000\n  Sb  Sb2       1.0000  0.4025  0.4025  0.0306  1.0000\n  La  La6       1.0000  0.5937  0.5937  0.8371  1.0000\n  Sb  Sb3       1.0000  0.4655  0.2448  0.5761  1.0000\n  Sb  Sb4       1.0000  0.5436  0.7520  0.2851  1.0000\n  Sb  Sb5       1.0000  0.7520  0.5436  0.2851  1.0000\n  Sb  Sb6       1.0000  0.2448  0.4655  0.5761  1.0000\n  Sb  Sb7       1.0000  0.5106  0.9142  0.7186  1.0000\n  Sb  Sb8       1.0000  0.4852  0.0808  0.1498  1.0000\n  Sb  Sb9       1.0000  0.0808  0.4852  0.1498  1.0000\n  Sb  Sb10      1.0000  0.9142  0.5106  0.7186  1.0000\n  Sb  Sb11      1.0000  0.1582  0.1582  0.2771  1.0000\n  Sb  Sb12      1.0000  0.8587  0.8587  0.5750  1.0000\n  Sb  Sb13      1.0000  0.1996  0.7991  0.4342  1.0000\n  Sb  Sb14      1.0000  0.7991  0.1996  0.4342  1.0000\n  Sb  Sb15      1.0000  0.9927  0.9927  0.9426  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e8baa3f7-be5c-4436-aabd-8db3576ceb3a",
    "mp_id": "mp-28393",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_P3Se4I\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7278\n_cell_length_b   11.6545\n_cell_length_c   14.6103\n_cell_angle_alpha   61.7548\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   P3Se4I\n_chemical_formula_sum   'P12 Se16 I4'\n_cell_volume   1009.1860\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  P  P0  1  0.1517  0.8207  0.1274  1\n  P  P1  1  0.6517  0.1793  0.3726  1\n  P  P2  1  0.8483  0.1793  0.8726  1\n  P  P3  1  0.3483  0.8207  0.6274  1\n  P  P4  1  0.9063  0.6737  0.9908  1\n  P  P5  1  0.4063  0.3263  0.5092  1\n  P  P6  1  0.0937  0.3263  0.0092  1\n  P  P7  1  0.5937  0.6737  0.4908  1\n  P  P8  1  0.2239  0.7109  0.9544  1\n  P  P9  1  0.7239  0.2891  0.5456  1\n  P  P10  1  0.7761  0.2891  0.0456  1\n  P  P11  1  0.2761  0.7109  0.4544  1\n  Se  Se12  1  0.2892  0.8908  0.9682  1\n  Se  Se13  1  0.7892  0.1092  0.5318  1\n  Se  Se14  1  0.7108  0.1092  0.0318  1\n  Se  Se15  1  0.2108  0.8908  0.4682  1\n  Se  Se16  1  0.8504  0.7454  0.1079  1\n  Se  Se17  1  0.3504  0.2546  0.3921  1\n  Se  Se18  1  0.1496  0.2546  0.8921  1\n  Se  Se19  1  0.6496  0.7454  0.6079  1\n  Se  Se20  1  0.3262  0.5445  0.1064  1\n  Se  Se21  1  0.8262  0.4555  0.3936  1\n  Se  Se22  1  0.6738  0.4555  0.8936  1\n  Se  Se23  1  0.1738  0.5445  0.6064  1\n  Se  Se24  1  0.3217  0.6391  0.2214  1\n  Se  Se25  1  0.8217  0.3609  0.2786  1\n  Se  Se26  1  0.6783  0.3609  0.7786  1\n  Se  Se27  1  0.1783  0.6391  0.7214  1\n  I  I28  1  0.7754  0.8499  0.8204  1\n  I  I29  1  0.2754  0.1501  0.6796  1\n  I  I30  1  0.2246  0.1501  0.1796  1\n  I  I31  1  0.7246  0.8499  0.3204  1\n",
    "output": "data_image0\n_chemical_formula_structural       P12Se10ISe5I2SeI\n_chemical_formula_sum              \"P12 Se16 I4\"\n_cell_length_a       6.7278\n_cell_length_b       11.6545\n_cell_length_c       14.6103\n_cell_angle_alpha    61.7548\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.1517  0.8207  0.1274  1.0000\n  P   P2        1.0000  0.6517  0.1793  0.3726  1.0000\n  P   P3        1.0000  0.8483  0.1793  0.8726  1.0000\n  P   P4        1.0000  0.3483  0.8207  0.6274  1.0000\n  P   P5        1.0000  0.9063  0.6737  0.9908  1.0000\n  P   P6        1.0000  0.4063  0.3263  0.5092  1.0000\n  P   P7        1.0000  0.0937  0.3263  0.0092  1.0000\n  P   P8        1.0000  0.5937  0.6737  0.4908  1.0000\n  P   P9        1.0000  0.2239  0.7109  0.9544  1.0000\n  P   P10       1.0000  0.7239  0.2891  0.5456  1.0000\n  P   P11       1.0000  0.7761  0.2891  0.0456  1.0000\n  P   P12       1.0000  0.2761  0.7109  0.4544  1.0000\n  Se  Se1       1.0000  0.2892  0.8908  0.9682  1.0000\n  Se  Se2       1.0000  0.7892  0.1092  0.5318  1.0000\n  Se  Se3       1.0000  0.7108  0.1092  0.0318  1.0000\n  Se  Se4       1.0000  0.2108  0.8908  0.4682  1.0000\n  Se  Se5       1.0000  0.8504  0.7454  0.1079  1.0000\n  Se  Se6       1.0000  0.3504  0.2546  0.3921  1.0000\n  Se  Se7       1.0000  0.1496  0.2546  0.8921  1.0000\n  Se  Se8       1.0000  0.6496  0.7454  0.6079  1.0000\n  Se  Se9       1.0000  0.3262  0.5445  0.1064  1.0000\n  Se  Se10      1.0000  0.8262  0.4555  0.3936  1.0000\n  I   I1        1.0000  0.6738  0.4555  0.8936  1.0000\n  Se  Se11      1.0000  0.1738  0.5445  0.6064  1.0000\n  Se  Se12      1.0000  0.3217  0.6391  0.2214  1.0000\n  Se  Se13      1.0000  0.8217  0.3609  0.2786  1.0000\n  Se  Se14      1.0000  0.6783  0.3609  0.7786  1.0000\n  Se  Se15      1.0000  0.1783  0.6391  0.7214  1.0000\n  I   I2        1.0000  0.7754  0.8499  0.8204  1.0000\n  I   I3        1.0000  0.2754  0.1501  0.6796  1.0000\n  Se  Se16      1.0000  0.2246  0.1501  0.1796  1.0000\n  I   I4        1.0000  0.7246  0.8499  0.3204  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "41fa82e2-389e-403a-96c5-60781e76de9b",
    "mp_id": "mp-28394",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 46 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tl2PSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1349\n_cell_length_b   12.4001\n_cell_length_c   12.6137\n_cell_angle_alpha   80.3688\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tl2PSe3\n_chemical_formula_sum   'Tl16 P8 Se24'\n_cell_volume   1408.6541\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.8505  0.5248  0.6866  1\n  Tl  Tl1  1  0.3505  0.4752  0.8134  1\n  Tl  Tl2  1  0.1495  0.4752  0.3134  1\n  Tl  Tl3  1  0.6495  0.5248  0.1866  1\n  Tl  Tl4  1  0.6819  0.8003  0.2538  1\n  Tl  Tl5  1  0.1819  0.1997  0.2462  1\n  Tl  Tl6  1  0.3181  0.1997  0.7462  1\n  Tl  Tl7  1  0.8181  0.8003  0.7538  1\n  Tl  Tl8  1  0.6085  0.0974  0.5702  1\n  Tl  Tl9  1  0.1085  0.9026  0.9298  1\n  Tl  Tl10  1  0.3915  0.9026  0.4298  1\n  Tl  Tl11  1  0.8915  0.0974  0.0702  1\n  Tl  Tl12  1  0.5385  0.2947  0.0503  1\n  Tl  Tl13  1  0.0385  0.7053  0.4497  1\n  Tl  Tl14  1  0.4615  0.7053  0.9497  1\n  Tl  Tl15  1  0.9615  0.2947  0.5503  1\n  P  P16  1  0.4266  0.0045  0.0721  1\n  P  P17  1  0.9266  0.9955  0.4279  1\n  P  P18  1  0.5734  0.9955  0.9279  1\n  P  P19  1  0.0734  0.0045  0.5721  1\n  P  P20  1  0.5781  0.4336  0.4827  1\n  P  P21  1  0.0781  0.5664  0.0173  1\n  P  P22  1  0.4219  0.5664  0.5173  1\n  P  P23  1  0.9219  0.4336  0.9827  1\n  Se  Se24  1  0.5661  0.0547  0.1972  1\n  Se  Se25  1  0.0661  0.9453  0.3028  1\n  Se  Se26  1  0.4339  0.9453  0.8028  1\n  Se  Se27  1  0.9339  0.0547  0.6972  1\n  Se  Se28  1  0.4747  0.3417  0.3708  1\n  Se  Se29  1  0.9747  0.6583  0.1292  1\n  Se  Se30  1  0.5253  0.6583  0.6292  1\n  Se  Se31  1  0.0253  0.3417  0.8708  1\n  Se  Se32  1  0.8344  0.1587  0.3777  1\n  Se  Se33  1  0.3344  0.8413  0.1223  1\n  Se  Se34  1  0.1656  0.8413  0.6223  1\n  Se  Se35  1  0.6656  0.1587  0.8777  1\n  Se  Se36  1  0.1221  0.6636  0.8574  1\n  Se  Se37  1  0.6221  0.3364  0.6426  1\n  Se  Se38  1  0.8779  0.3364  0.1426  1\n  Se  Se39  1  0.3779  0.6636  0.3574  1\n  Se  Se40  1  0.7633  0.8705  0.4891  1\n  Se  Se41  1  0.2633  0.1295  0.0109  1\n  Se  Se42  1  0.2367  0.1295  0.5109  1\n  Se  Se43  1  0.7367  0.8705  0.9891  1\n  Se  Se44  1  0.7239  0.5191  0.9154  1\n  Se  Se45  1  0.2239  0.4809  0.5846  1\n  Se  Se46  1  0.2761  0.4809  0.0846  1\n  Se  Se47  1  0.7761  0.5191  0.4154  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl16P7Se23PSe\n_chemical_formula_sum              \"Tl16 P8 Se24\"\n_cell_length_a       9.1349\n_cell_length_b       12.4001\n_cell_length_c       12.6137\n_cell_angle_alpha    80.3688\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.8505  0.5248  0.6866  1.0000\n  Tl  Tl2       1.0000  0.3505  0.4752  0.8134  1.0000\n  Tl  Tl3       1.0000  0.1495  0.4752  0.3134  1.0000\n  Tl  Tl4       1.0000  0.6495  0.5248  0.1866  1.0000\n  Tl  Tl5       1.0000  0.6819  0.8003  0.2538  1.0000\n  Tl  Tl6       1.0000  0.1819  0.1997  0.2462  1.0000\n  Tl  Tl7       1.0000  0.3181  0.1997  0.7462  1.0000\n  Tl  Tl8       1.0000  0.8181  0.8003  0.7538  1.0000\n  Tl  Tl9       1.0000  0.6085  0.0974  0.5702  1.0000\n  Tl  Tl10      1.0000  0.1085  0.9026  0.9298  1.0000\n  Tl  Tl11      1.0000  0.3915  0.9026  0.4298  1.0000\n  Tl  Tl12      1.0000  0.8915  0.0974  0.0702  1.0000\n  Tl  Tl13      1.0000  0.5385  0.2947  0.0503  1.0000\n  Tl  Tl14      1.0000  0.0385  0.7053  0.4497  1.0000\n  Tl  Tl15      1.0000  0.4615  0.7053  0.9497  1.0000\n  Tl  Tl16      1.0000  0.9615  0.2947  0.5503  1.0000\n  P   P1        1.0000  0.4266  0.0045  0.0721  1.0000\n  P   P2        1.0000  0.9266  0.9955  0.4279  1.0000\n  P   P3        1.0000  0.5734  0.9955  0.9279  1.0000\n  P   P4        1.0000  0.0734  0.0045  0.5721  1.0000\n  P   P5        1.0000  0.5781  0.4336  0.4827  1.0000\n  P   P6        1.0000  0.0781  0.5664  0.0173  1.0000\n  P   P7        1.0000  0.4219  0.5664  0.5173  1.0000\n  Se  Se1       1.0000  0.9219  0.4336  0.9827  1.0000\n  Se  Se2       1.0000  0.5661  0.0547  0.1972  1.0000\n  Se  Se3       1.0000  0.0661  0.9453  0.3028  1.0000\n  Se  Se4       1.0000  0.4339  0.9453  0.8028  1.0000\n  Se  Se5       1.0000  0.9339  0.0547  0.6972  1.0000\n  Se  Se6       1.0000  0.4747  0.3417  0.3708  1.0000\n  Se  Se7       1.0000  0.9747  0.6583  0.1292  1.0000\n  Se  Se8       1.0000  0.5253  0.6583  0.6292  1.0000\n  Se  Se9       1.0000  0.0253  0.3417  0.8708  1.0000\n  Se  Se10      1.0000  0.8344  0.1587  0.3777  1.0000\n  Se  Se11      1.0000  0.3344  0.8413  0.1223  1.0000\n  Se  Se12      1.0000  0.1656  0.8413  0.6223  1.0000\n  Se  Se13      1.0000  0.6656  0.1587  0.8777  1.0000\n  Se  Se14      1.0000  0.1221  0.6636  0.8574  1.0000\n  Se  Se15      1.0000  0.6221  0.3364  0.6426  1.0000\n  Se  Se16      1.0000  0.8779  0.3364  0.1426  1.0000\n  Se  Se17      1.0000  0.3779  0.6636  0.3574  1.0000\n  Se  Se18      1.0000  0.7633  0.8705  0.4891  1.0000\n  Se  Se19      1.0000  0.2633  0.1295  0.0109  1.0000\n  Se  Se20      1.0000  0.2367  0.1295  0.5109  1.0000\n  Se  Se21      1.0000  0.7367  0.8705  0.9891  1.0000\n  Se  Se22      1.0000  0.7239  0.5191  0.9154  1.0000\n  Se  Se23      1.0000  0.2239  0.4809  0.5846  1.0000\n  P   P8        1.0000  0.2761  0.4809  0.0846  1.0000\n  Se  Se24      1.0000  0.7761  0.5191  0.4154  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8bed467b-92fe-41a5-9ebd-4c113d17367a",
    "mp_id": "mp-28430",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2TbO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9897\n_cell_length_b   5.9897\n_cell_length_c   11.3465\n_cell_angle_alpha   84.8812\n_cell_angle_beta   84.8812\n_cell_angle_gamma   120.1195\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2TbO3\n_chemical_formula_sum   'Na8 Tb4 O12'\n_cell_volume   346.4351\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0859  0.9141  0.2500  1\n  Na  Na1  1  0.1592  0.3182  0.0002  1\n  Na  Na2  1  0.3182  0.1592  0.5002  1\n  Na  Na3  1  0.8408  0.6818  0.9998  1\n  Na  Na4  1  0.5000  0.0000  0.0000  1\n  Na  Na5  1  0.0000  0.5000  0.5000  1\n  Na  Na6  1  0.9141  0.0859  0.7500  1\n  Na  Na7  1  0.6818  0.8408  0.4998  1\n  Tb  Tb8  1  0.7525  0.2475  0.2500  1\n  Tb  Tb9  1  0.2475  0.7525  0.7500  1\n  Tb  Tb10  1  0.4184  0.5816  0.2500  1\n  Tb  Tb11  1  0.5816  0.4184  0.7500  1\n  O  O12  1  0.0464  0.2396  0.3637  1\n  O  O13  1  0.7604  0.9536  0.1363  1\n  O  O14  1  0.9536  0.7604  0.6363  1\n  O  O15  1  0.2396  0.0464  0.8637  1\n  O  O16  1  0.4102  0.8771  0.3613  1\n  O  O17  1  0.1229  0.5898  0.1387  1\n  O  O18  1  0.5898  0.1229  0.6387  1\n  O  O19  1  0.8771  0.4102  0.8613  1\n  O  O20  1  0.6844  0.5147  0.3609  1\n  O  O21  1  0.5147  0.6844  0.8609  1\n  O  O22  1  0.3156  0.4853  0.6391  1\n  O  O23  1  0.4853  0.3156  0.1391  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8TbOTb2O3TbO8\n_chemical_formula_sum              \"Na8 Tb4 O12\"\n_cell_length_a       5.9897\n_cell_length_b       5.9897\n_cell_length_c       11.3465\n_cell_angle_alpha    84.8812\n_cell_angle_beta     84.8812\n_cell_angle_gamma    120.1195\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0859  0.9141  0.2500  1.0000\n  Na  Na2       1.0000  0.1592  0.3182  0.0002  1.0000\n  Na  Na3       1.0000  0.3182  0.1592  0.5002  1.0000\n  Na  Na4       1.0000  0.8408  0.6818  0.9998  1.0000\n  Na  Na5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Na  Na6       1.0000  0.0000  0.5000  0.5000  1.0000\n  Na  Na7       1.0000  0.9141  0.0859  0.7500  1.0000\n  Na  Na8       1.0000  0.6818  0.8408  0.4998  1.0000\n  Tb  Tb1       1.0000  0.7525  0.2475  0.2500  1.0000\n  O   O1        1.0000  0.2475  0.7525  0.7500  1.0000\n  Tb  Tb2       1.0000  0.4184  0.5816  0.2500  1.0000\n  Tb  Tb3       1.0000  0.5816  0.4184  0.7500  1.0000\n  O   O2        1.0000  0.0464  0.2396  0.3637  1.0000\n  O   O3        1.0000  0.7604  0.9536  0.1363  1.0000\n  O   O4        1.0000  0.9536  0.7604  0.6363  1.0000\n  Tb  Tb4       1.0000  0.2396  0.0464  0.8637  1.0000\n  O   O5        1.0000  0.4102  0.8771  0.3613  1.0000\n  O   O6        1.0000  0.1229  0.5898  0.1387  1.0000\n  O   O7        1.0000  0.5898  0.1229  0.6387  1.0000\n  O   O8        1.0000  0.8771  0.4102  0.8613  1.0000\n  O   O9        1.0000  0.6844  0.5147  0.3609  1.0000\n  O   O10       1.0000  0.5147  0.6844  0.8609  1.0000\n  O   O11       1.0000  0.3156  0.4853  0.6391  1.0000\n  O   O12       1.0000  0.4853  0.3156  0.1391  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6227a0df-4628-4821-beac-e6dbb7d26924",
    "mp_id": "mp-28450",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4P2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1596\n_cell_length_b   7.0691\n_cell_length_c   8.5104\n_cell_angle_alpha   103.0193\n_cell_angle_beta   89.9791\n_cell_angle_gamma   111.1453\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4P2O7\n_chemical_formula_sum   'Li8 P4 O14'\n_cell_volume   280.9445\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2543  0.1448  0.0118  1\n  Li  Li1  1  0.7457  0.8552  0.9882  1\n  Li  Li2  1  0.6059  0.5867  0.2459  1\n  Li  Li3  1  0.3941  0.4133  0.7541  1\n  Li  Li4  1  0.9739  0.3255  0.2094  1\n  Li  Li5  1  0.0261  0.6745  0.7906  1\n  Li  Li6  1  0.9468  0.2451  0.5504  1\n  Li  Li7  1  0.0532  0.7549  0.4496  1\n  P  P8  1  0.4278  0.2144  0.3693  1\n  P  P9  1  0.5722  0.7856  0.6307  1\n  P  P10  1  0.2158  0.7772  0.1537  1\n  P  P11  1  0.7842  0.2228  0.8463  1\n  O  O12  1  0.4840  0.7414  0.1257  1\n  O  O13  1  0.9913  0.6008  0.2066  1\n  O  O14  1  0.0087  0.3992  0.7934  1\n  O  O15  1  0.1179  0.8488  0.0172  1\n  O  O16  1  0.2634  0.7438  0.6229  1\n  O  O17  1  0.7366  0.2562  0.3771  1\n  O  O18  1  0.6820  0.7271  0.4710  1\n  O  O19  1  0.3180  0.2729  0.5290  1\n  O  O20  1  0.6611  0.7024  0.7637  1\n  O  O21  1  0.3389  0.2976  0.2363  1\n  O  O22  1  0.2656  0.9614  0.3174  1\n  O  O23  1  0.7344  0.0386  0.6826  1\n  O  O24  1  0.8821  0.1512  0.9828  1\n  O  O25  1  0.5160  0.2586  0.8743  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8POP2O2PO11\n_chemical_formula_sum              \"Li8 P4 O14\"\n_cell_length_a       5.1596\n_cell_length_b       7.0691\n_cell_length_c       8.5104\n_cell_angle_alpha    103.0193\n_cell_angle_beta     89.9791\n_cell_angle_gamma    111.1453\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2543  0.1448  0.0118  1.0000\n  Li  Li2       1.0000  0.7457  0.8552  0.9882  1.0000\n  Li  Li3       1.0000  0.6059  0.5867  0.2459  1.0000\n  Li  Li4       1.0000  0.3941  0.4133  0.7541  1.0000\n  Li  Li5       1.0000  0.9739  0.3255  0.2094  1.0000\n  Li  Li6       1.0000  0.0261  0.6745  0.7906  1.0000\n  Li  Li7       1.0000  0.9468  0.2451  0.5504  1.0000\n  Li  Li8       1.0000  0.0532  0.7549  0.4496  1.0000\n  P   P1        1.0000  0.4278  0.2144  0.3693  1.0000\n  O   O1        1.0000  0.5722  0.7856  0.6307  1.0000\n  P   P2        1.0000  0.2158  0.7772  0.1537  1.0000\n  P   P3        1.0000  0.7842  0.2228  0.8463  1.0000\n  O   O2        1.0000  0.4840  0.7414  0.1257  1.0000\n  O   O3        1.0000  0.9913  0.6008  0.2066  1.0000\n  P   P4        1.0000  0.0087  0.3992  0.7934  1.0000\n  O   O4        1.0000  0.1179  0.8488  0.0172  1.0000\n  O   O5        1.0000  0.2634  0.7438  0.6229  1.0000\n  O   O6        1.0000  0.7366  0.2562  0.3771  1.0000\n  O   O7        1.0000  0.6820  0.7271  0.4710  1.0000\n  O   O8        1.0000  0.3180  0.2729  0.5290  1.0000\n  O   O9        1.0000  0.6611  0.7024  0.7637  1.0000\n  O   O10       1.0000  0.3389  0.2976  0.2363  1.0000\n  O   O11       1.0000  0.2656  0.9614  0.3174  1.0000\n  O   O12       1.0000  0.7344  0.0386  0.6826  1.0000\n  O   O13       1.0000  0.8821  0.1512  0.9828  1.0000\n  O   O14       1.0000  0.5160  0.2586  0.8743  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d47bc504-e3d6-4166-b596-7a57cbc838bc",
    "mp_id": "mp-28544",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm4Cl6O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.7073\n_cell_length_b   8.7073\n_cell_length_c   8.2834\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm4Cl6O\n_chemical_formula_sum   'Sm8 Cl12 O2'\n_cell_volume   543.8819\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.8153  0.1847  0.5462  1\n  Sm  Sm1  1  0.6306  0.8153  0.0462  1\n  Sm  Sm2  1  0.1847  0.3694  0.0462  1\n  Sm  Sm3  1  0.8153  0.6306  0.5462  1\n  Sm  Sm4  1  0.3694  0.1847  0.5462  1\n  Sm  Sm5  1  0.1847  0.8153  0.0462  1\n  Sm  Sm6  1  0.6667  0.3333  0.8464  1\n  Sm  Sm7  1  0.3333  0.6667  0.3464  1\n  Cl  Cl8  1  0.4825  0.9650  0.7129  1\n  Cl  Cl9  1  0.5175  0.0350  0.2129  1\n  Cl  Cl10  1  0.9650  0.4825  0.2129  1\n  Cl  Cl11  1  0.4825  0.5175  0.7129  1\n  Cl  Cl12  1  0.8628  0.1372  0.8898  1\n  Cl  Cl13  1  0.7255  0.8628  0.3898  1\n  Cl  Cl14  1  0.5175  0.4825  0.2129  1\n  Cl  Cl15  1  0.0350  0.5175  0.7129  1\n  Cl  Cl16  1  0.1372  0.8628  0.3898  1\n  Cl  Cl17  1  0.2745  0.1372  0.8898  1\n  Cl  Cl18  1  0.8628  0.7255  0.8898  1\n  Cl  Cl19  1  0.1372  0.2745  0.3898  1\n  O  O20  1  0.3333  0.6667  0.0634  1\n  O  O21  1  0.6667  0.3333  0.5634  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm4ClSm3Cl4SmCl7O2\n_chemical_formula_sum              \"Sm8 Cl12 O2\"\n_cell_length_a       8.7073\n_cell_length_b       8.7073\n_cell_length_c       8.2834\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.8153  0.1847  0.5462  1.0000\n  Sm  Sm2       1.0000  0.6306  0.8153  0.0462  1.0000\n  Sm  Sm3       1.0000  0.1847  0.3694  0.0462  1.0000\n  Sm  Sm4       1.0000  0.8153  0.6306  0.5462  1.0000\n  Cl  Cl1       1.0000  0.3694  0.1847  0.5462  1.0000\n  Sm  Sm5       1.0000  0.1847  0.8153  0.0462  1.0000\n  Sm  Sm6       1.0000  0.6667  0.3333  0.8464  1.0000\n  Sm  Sm7       1.0000  0.3333  0.6667  0.3464  1.0000\n  Cl  Cl2       1.0000  0.4825  0.9650  0.7129  1.0000\n  Cl  Cl3       1.0000  0.5175  0.0350  0.2129  1.0000\n  Cl  Cl4       1.0000  0.9650  0.4825  0.2129  1.0000\n  Cl  Cl5       1.0000  0.4825  0.5175  0.7129  1.0000\n  Sm  Sm8       1.0000  0.8628  0.1372  0.8898  1.0000\n  Cl  Cl6       1.0000  0.7255  0.8628  0.3898  1.0000\n  Cl  Cl7       1.0000  0.5175  0.4825  0.2129  1.0000\n  Cl  Cl8       1.0000  0.0350  0.5175  0.7129  1.0000\n  Cl  Cl9       1.0000  0.1372  0.8628  0.3898  1.0000\n  Cl  Cl10      1.0000  0.2745  0.1372  0.8898  1.0000\n  Cl  Cl11      1.0000  0.8628  0.7255  0.8898  1.0000\n  Cl  Cl12      1.0000  0.1372  0.2745  0.3898  1.0000\n  O   O1        1.0000  0.3333  0.6667  0.0634  1.0000\n  O   O2        1.0000  0.6667  0.3333  0.5634  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5903599b-c0f6-4f2b-a239-a07a281e7f60",
    "mp_id": "mp-28580",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y2NCl3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.8281\n_cell_length_b   8.1243\n_cell_length_c   9.6645\n_cell_angle_alpha   72.2850\n_cell_angle_beta   78.5771\n_cell_angle_gamma   76.3733\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y2NCl3\n_chemical_formula_sum   'Y4 N2 Cl6'\n_cell_volume   275.6590\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.1368  0.0189  0.7076  1\n  Y  Y1  1  0.8632  0.9811  0.2924  1\n  Y  Y2  1  0.4124  0.2209  0.9543  1\n  Y  Y3  1  0.5876  0.7791  0.0457  1\n  N  N4  1  0.5763  0.0040  0.8434  1\n  N  N5  1  0.4237  0.9960  0.1566  1\n  Cl  Cl6  1  0.9493  0.3539  0.7476  1\n  Cl  Cl7  1  0.0507  0.6461  0.2524  1\n  Cl  Cl8  1  0.3368  0.8136  0.5128  1\n  Cl  Cl9  1  0.6632  0.1864  0.4872  1\n  Cl  Cl10  1  0.2263  0.6621  0.8853  1\n  Cl  Cl11  1  0.7737  0.3379  0.1147  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y4ClNCl4NCl\n_chemical_formula_sum              \"Y4 Cl6 N2\"\n_cell_length_a       3.8281\n_cell_length_b       8.1243\n_cell_length_c       9.6645\n_cell_angle_alpha    72.2850\n_cell_angle_beta     78.5771\n_cell_angle_gamma    76.3733\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.1368  0.0189  0.7076  1.0000\n  Y   Y2        1.0000  0.8632  0.9811  0.2924  1.0000\n  Y   Y3        1.0000  0.4124  0.2209  0.9543  1.0000\n  Y   Y4        1.0000  0.5876  0.7791  0.0457  1.0000\n  Cl  Cl1       1.0000  0.5763  0.0040  0.8434  1.0000\n  N   N1        1.0000  0.4237  0.9960  0.1566  1.0000\n  Cl  Cl2       1.0000  0.9493  0.3539  0.7476  1.0000\n  Cl  Cl3       1.0000  0.0507  0.6461  0.2524  1.0000\n  Cl  Cl4       1.0000  0.3368  0.8136  0.5128  1.0000\n  Cl  Cl5       1.0000  0.6632  0.1864  0.4872  1.0000\n  N   N2        1.0000  0.2263  0.6621  0.8853  1.0000\n  Cl  Cl6       1.0000  0.7737  0.3379  0.1147  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cc87087b-5f90-470f-8fe8-73dd61edca1a",
    "mp_id": "mp-28824",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3CoO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6791\n_cell_length_b   9.4472\n_cell_length_c   9.4472\n_cell_angle_alpha   90.0019\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3CoO2\n_chemical_formula_sum   'Na12 Co4 O8'\n_cell_volume   417.6094\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.1413  0.1413  1\n  Na  Na1  1  0.5000  0.8587  0.8587  1\n  Na  Na2  1  0.0000  0.3587  0.6413  1\n  Na  Na3  1  0.0000  0.6413  0.3587  1\n  Na  Na4  1  0.0000  0.0261  0.6583  1\n  Na  Na5  1  0.0000  0.9739  0.3417  1\n  Na  Na6  1  0.5000  0.8416  0.5261  1\n  Na  Na7  1  0.5000  0.1584  0.4739  1\n  Na  Na8  1  0.0000  0.6583  0.0261  1\n  Na  Na9  1  0.5000  0.4739  0.1584  1\n  Na  Na10  1  0.0000  0.3417  0.9739  1\n  Na  Na11  1  0.5000  0.5261  0.8416  1\n  Co  Co12  1  0.0000  0.3230  0.3231  1\n  Co  Co13  1  0.5000  0.8230  0.1769  1\n  Co  Co14  1  0.5000  0.1769  0.8230  1\n  Co  Co15  1  0.0000  0.6770  0.6770  1\n  O  O16  1  0.5000  0.0401  0.6952  1\n  O  O17  1  0.0000  0.8048  0.5401  1\n  O  O18  1  0.5000  0.6952  0.0401  1\n  O  O19  1  0.0000  0.4599  0.1952  1\n  O  O20  1  0.5000  0.3049  0.9600  1\n  O  O21  1  0.0000  0.5401  0.8048  1\n  O  O22  1  0.5000  0.9600  0.3049  1\n  O  O23  1  0.0000  0.1952  0.4599  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONa11Co4O6NaO\n_chemical_formula_sum              \"O8 Na12 Co4\"\n_cell_length_a       4.6791\n_cell_length_b       9.4472\n_cell_length_c       9.4472\n_cell_angle_alpha    90.0019\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.1413  0.1413  1.0000\n  Na  Na1       1.0000  0.5000  0.8587  0.8587  1.0000\n  Na  Na2       1.0000  0.0000  0.3587  0.6413  1.0000\n  Na  Na3       1.0000  0.0000  0.6413  0.3587  1.0000\n  Na  Na4       1.0000  0.0000  0.0261  0.6583  1.0000\n  Na  Na5       1.0000  0.0000  0.9739  0.3417  1.0000\n  Na  Na6       1.0000  0.5000  0.8416  0.5261  1.0000\n  Na  Na7       1.0000  0.5000  0.1584  0.4739  1.0000\n  Na  Na8       1.0000  0.0000  0.6583  0.0261  1.0000\n  Na  Na9       1.0000  0.5000  0.4739  0.1584  1.0000\n  Na  Na10      1.0000  0.0000  0.3417  0.9739  1.0000\n  Na  Na11      1.0000  0.5000  0.5261  0.8416  1.0000\n  Co  Co1       1.0000  0.0000  0.3230  0.3231  1.0000\n  Co  Co2       1.0000  0.5000  0.8230  0.1769  1.0000\n  Co  Co3       1.0000  0.5000  0.1769  0.8230  1.0000\n  Co  Co4       1.0000  0.0000  0.6770  0.6770  1.0000\n  O   O2        1.0000  0.5000  0.0401  0.6952  1.0000\n  O   O3        1.0000  0.0000  0.8048  0.5401  1.0000\n  O   O4        1.0000  0.5000  0.6952  0.0401  1.0000\n  O   O5        1.0000  0.0000  0.4599  0.1952  1.0000\n  O   O6        1.0000  0.5000  0.3049  0.9600  1.0000\n  O   O7        1.0000  0.0000  0.5401  0.8048  1.0000\n  Na  Na12      1.0000  0.5000  0.9600  0.3049  1.0000\n  O   O8        1.0000  0.0000  0.1952  0.4599  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6fd3c49d-56e0-4fd7-8bd1-184623cb87c4",
    "mp_id": "mp-2901870",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_UBr4(NO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1050\n_cell_length_b   4.7213\n_cell_length_c   13.6953\n_cell_angle_alpha   115.9289\n_cell_angle_beta   77.6357\n_cell_angle_gamma   136.1608\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   UBr4(NO2)2\n_chemical_formula_sum   'U1 Br4 N2 O4'\n_cell_volume   282.3678\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  U  U0  1  0.0000  -0.0000  -0.0000  1\n  Br  Br1  1  0.7508  0.6387  0.6109  1\n  Br  Br2  1  0.2492  0.3613  0.3891  1\n  Br  Br3  1  0.6019  0.4399  0.1285  1\n  Br  Br4  1  0.3981  0.5601  0.8715  1\n  N  N5  1  0.1022  0.9787  0.5954  1\n  N  N6  1  0.8978  0.0213  0.4046  1\n  O  O7  1  0.9359  0.3382  0.0834  1\n  O  O8  1  0.0641  0.6618  0.9166  1\n  O  O9  1  0.3547  0.4503  0.1223  1\n  O  O10  1  0.6453  0.5497  0.8777  1\n",
    "output": "data_image0\n_chemical_formula_structural       UBrOBr2N2OBrO2\n_chemical_formula_sum              \"U1 Br4 O4 N2\"\n_cell_length_a       7.1050\n_cell_length_b       4.7213\n_cell_length_c       13.6953\n_cell_angle_alpha    115.9289\n_cell_angle_beta     77.6357\n_cell_angle_gamma    136.1608\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  U   U1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Br  Br1       1.0000  0.7508  0.6387  0.6109  1.0000\n  O   O1        1.0000  0.2492  0.3613  0.3891  1.0000\n  Br  Br2       1.0000  0.6019  0.4399  0.1285  1.0000\n  Br  Br3       1.0000  0.3981  0.5601  0.8715  1.0000\n  N   N1        1.0000  0.1022  0.9787  0.5954  1.0000\n  N   N2        1.0000  0.8978  0.0213  0.4046  1.0000\n  O   O2        1.0000  0.9359  0.3382  0.0834  1.0000\n  Br  Br4       1.0000  0.0641  0.6618  0.9166  1.0000\n  O   O3        1.0000  0.3547  0.4503  0.1223  1.0000\n  O   O4        1.0000  0.6453  0.5497  0.8777  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1207348d-6485-4f17-bc0a-5f019e2c7c77",
    "mp_id": "mp-2911",
    "action_prompt": "Swap the spatial positions of atoms at indices 33 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3(SnP2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9510\n_cell_length_b   7.9449\n_cell_length_c   19.4867\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.8198\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3(SnP2)2\n_chemical_formula_sum   'Ba12 Sn8 P16'\n_cell_volume   1134.6230\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.9333  0.2965  0.3119  1\n  Ba  Ba1  1  0.5667  0.7035  0.8119  1\n  Ba  Ba2  1  0.0667  0.7035  0.6881  1\n  Ba  Ba3  1  0.4333  0.2965  0.1881  1\n  Ba  Ba4  1  0.5442  0.2319  0.9371  1\n  Ba  Ba5  1  0.9558  0.7681  0.4371  1\n  Ba  Ba6  1  0.4558  0.7681  0.0629  1\n  Ba  Ba7  1  0.0442  0.2319  0.5629  1\n  Ba  Ba8  1  0.5502  0.1827  0.6948  1\n  Ba  Ba9  1  0.9498  0.8173  0.1948  1\n  Ba  Ba10  1  0.4498  0.8173  0.3052  1\n  Ba  Ba11  1  0.0502  0.1827  0.8052  1\n  Sn  Sn12  1  0.4150  0.3531  0.3794  1\n  Sn  Sn13  1  0.0850  0.6469  0.8794  1\n  Sn  Sn14  1  0.5850  0.6469  0.6206  1\n  Sn  Sn15  1  0.9150  0.3531  0.1206  1\n  Sn  Sn16  1  0.9460  0.7729  0.9939  1\n  Sn  Sn17  1  0.4460  0.7729  0.5061  1\n  Sn  Sn18  1  0.0540  0.2271  0.0061  1\n  Sn  Sn19  1  0.5540  0.2271  0.4939  1\n  P  P20  1  0.6841  0.5564  0.3104  1\n  P  P21  1  0.8159  0.4436  0.8104  1\n  P  P22  1  0.3159  0.4436  0.6896  1\n  P  P23  1  0.1841  0.5564  0.1896  1\n  P  P24  1  0.7227  0.5293  0.0711  1\n  P  P25  1  0.7773  0.4707  0.5711  1\n  P  P26  1  0.2773  0.4707  0.9289  1\n  P  P27  1  0.2227  0.5293  0.4289  1\n  P  P28  1  0.7021  0.0703  0.1803  1\n  P  P29  1  0.7979  0.9297  0.6803  1\n  P  P30  1  0.2979  0.9297  0.8197  1\n  P  P31  1  0.2021  0.0703  0.3197  1\n  P  P32  1  0.7909  0.9745  0.9437  1\n  P  P33  1  0.2909  0.9745  0.5563  1\n  P  P34  1  0.2091  0.0255  0.0563  1\n  P  P35  1  0.7091  0.0255  0.4437  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba12Sn2PSn5P13SnP2\n_chemical_formula_sum              \"Ba12 Sn8 P16\"\n_cell_length_a       7.9510\n_cell_length_b       7.9449\n_cell_length_c       19.4867\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.8198\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.9333  0.2965  0.3119  1.0000\n  Ba  Ba2       1.0000  0.5667  0.7035  0.8119  1.0000\n  Ba  Ba3       1.0000  0.0667  0.7035  0.6881  1.0000\n  Ba  Ba4       1.0000  0.4333  0.2965  0.1881  1.0000\n  Ba  Ba5       1.0000  0.5442  0.2319  0.9371  1.0000\n  Ba  Ba6       1.0000  0.9558  0.7681  0.4371  1.0000\n  Ba  Ba7       1.0000  0.4558  0.7681  0.0629  1.0000\n  Ba  Ba8       1.0000  0.0442  0.2319  0.5629  1.0000\n  Ba  Ba9       1.0000  0.5502  0.1827  0.6948  1.0000\n  Ba  Ba10      1.0000  0.9498  0.8173  0.1948  1.0000\n  Ba  Ba11      1.0000  0.4498  0.8173  0.3052  1.0000\n  Ba  Ba12      1.0000  0.0502  0.1827  0.8052  1.0000\n  Sn  Sn1       1.0000  0.4150  0.3531  0.3794  1.0000\n  Sn  Sn2       1.0000  0.0850  0.6469  0.8794  1.0000\n  P   P1        1.0000  0.5850  0.6469  0.6206  1.0000\n  Sn  Sn3       1.0000  0.9150  0.3531  0.1206  1.0000\n  Sn  Sn4       1.0000  0.9460  0.7729  0.9939  1.0000\n  Sn  Sn5       1.0000  0.4460  0.7729  0.5061  1.0000\n  Sn  Sn6       1.0000  0.0540  0.2271  0.0061  1.0000\n  Sn  Sn7       1.0000  0.5540  0.2271  0.4939  1.0000\n  P   P2        1.0000  0.6841  0.5564  0.3104  1.0000\n  P   P3        1.0000  0.8159  0.4436  0.8104  1.0000\n  P   P4        1.0000  0.3159  0.4436  0.6896  1.0000\n  P   P5        1.0000  0.1841  0.5564  0.1896  1.0000\n  P   P6        1.0000  0.7227  0.5293  0.0711  1.0000\n  P   P7        1.0000  0.7773  0.4707  0.5711  1.0000\n  P   P8        1.0000  0.2773  0.4707  0.9289  1.0000\n  P   P9        1.0000  0.2227  0.5293  0.4289  1.0000\n  P   P10       1.0000  0.7021  0.0703  0.1803  1.0000\n  P   P11       1.0000  0.7979  0.9297  0.6803  1.0000\n  P   P12       1.0000  0.2979  0.9297  0.8197  1.0000\n  P   P13       1.0000  0.2021  0.0703  0.3197  1.0000\n  P   P14       1.0000  0.7909  0.9745  0.9437  1.0000\n  Sn  Sn8       1.0000  0.2909  0.9745  0.5563  1.0000\n  P   P15       1.0000  0.2091  0.0255  0.0563  1.0000\n  P   P16       1.0000  0.7091  0.0255  0.4437  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3cc1f9c0-f114-4833-8b5a-12ba34b08923",
    "mp_id": "mp-29144",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KTe2F9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6812\n_cell_length_b   9.2467\n_cell_length_c   9.3395\n_cell_angle_alpha   108.8184\n_cell_angle_beta   95.3462\n_cell_angle_gamma   96.1384\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KTe2F9\n_chemical_formula_sum   'K2 Te4 F18'\n_cell_volume   376.9478\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.6169  0.7612  0.5425  1\n  K  K1  1  0.3831  0.2388  0.4575  1\n  Te  Te2  1  0.6443  0.9099  0.1769  1\n  Te  Te3  1  0.3557  0.0901  0.8231  1\n  Te  Te4  1  0.8786  0.4625  0.1920  1\n  Te  Te5  1  0.1214  0.5375  0.8080  1\n  F  F6  1  0.3023  0.7640  0.0393  1\n  F  F7  1  0.6977  0.2360  0.9607  1\n  F  F8  1  0.5648  0.9246  0.8465  1\n  F  F9  1  0.4352  0.0754  0.1535  1\n  F  F10  1  0.7733  0.5485  0.9150  1\n  F  F11  1  0.2267  0.4515  0.0850  1\n  F  F12  1  0.1393  0.6004  0.3571  1\n  F  F13  1  0.8607  0.3996  0.6429  1\n  F  F14  1  0.0122  0.2955  0.2368  1\n  F  F15  1  0.9878  0.7045  0.7632  1\n  F  F16  1  0.6263  0.0889  0.6848  1\n  F  F17  1  0.3737  0.9111  0.3152  1\n  F  F18  1  0.3535  0.5406  0.6430  1\n  F  F19  1  0.6465  0.4594  0.3570  1\n  F  F20  1  0.1443  0.9364  0.6360  1\n  F  F21  1  0.8557  0.0636  0.3640  1\n  F  F22  1  0.2563  0.2608  0.7455  1\n  F  F23  1  0.7437  0.7392  0.2545  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2TeFTe2F3TeF14\n_chemical_formula_sum              \"K2 Te4 F18\"\n_cell_length_a       4.6812\n_cell_length_b       9.2467\n_cell_length_c       9.3395\n_cell_angle_alpha    108.8184\n_cell_angle_beta     95.3462\n_cell_angle_gamma    96.1384\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.6169  0.7612  0.5425  1.0000\n  K   K2        1.0000  0.3831  0.2388  0.4575  1.0000\n  Te  Te1       1.0000  0.6443  0.9099  0.1769  1.0000\n  F   F1        1.0000  0.3557  0.0901  0.8231  1.0000\n  Te  Te2       1.0000  0.8786  0.4625  0.1920  1.0000\n  Te  Te3       1.0000  0.1214  0.5375  0.8080  1.0000\n  F   F2        1.0000  0.3023  0.7640  0.0393  1.0000\n  F   F3        1.0000  0.6977  0.2360  0.9607  1.0000\n  F   F4        1.0000  0.5648  0.9246  0.8465  1.0000\n  Te  Te4       1.0000  0.4352  0.0754  0.1535  1.0000\n  F   F5        1.0000  0.7733  0.5485  0.9150  1.0000\n  F   F6        1.0000  0.2267  0.4515  0.0850  1.0000\n  F   F7        1.0000  0.1393  0.6004  0.3571  1.0000\n  F   F8        1.0000  0.8607  0.3996  0.6429  1.0000\n  F   F9        1.0000  0.0122  0.2955  0.2368  1.0000\n  F   F10       1.0000  0.9878  0.7045  0.7632  1.0000\n  F   F11       1.0000  0.6263  0.0889  0.6848  1.0000\n  F   F12       1.0000  0.3737  0.9111  0.3152  1.0000\n  F   F13       1.0000  0.3535  0.5406  0.6430  1.0000\n  F   F14       1.0000  0.6465  0.4594  0.3570  1.0000\n  F   F15       1.0000  0.1443  0.9364  0.6360  1.0000\n  F   F16       1.0000  0.8557  0.0636  0.3640  1.0000\n  F   F17       1.0000  0.2563  0.2608  0.7455  1.0000\n  F   F18       1.0000  0.7437  0.7392  0.2545  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8065b7b8-596f-4168-813c-5ffc65490e97",
    "mp_id": "mp-29412",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ta3Br7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9183\n_cell_length_b   9.9183\n_cell_length_c   11.8438\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   91.0279\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ta3Br7\n_chemical_formula_sum   'Ta12 Br28'\n_cell_volume   1164.9147\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.3801  0.3801  0.9193  1\n  Ta  Ta1  1  0.1199  0.1199  0.4193  1\n  Ta  Ta2  1  0.8801  0.8801  0.5807  1\n  Ta  Ta3  1  0.6199  0.6199  0.0807  1\n  Ta  Ta4  1  0.3425  0.5522  0.1081  1\n  Ta  Ta5  1  0.1575  0.9478  0.6081  1\n  Ta  Ta6  1  0.0522  0.8425  0.3919  1\n  Ta  Ta7  1  0.4478  0.6575  0.8919  1\n  Ta  Ta8  1  0.6575  0.4478  0.8919  1\n  Ta  Ta9  1  0.8425  0.0522  0.3919  1\n  Ta  Ta10  1  0.9478  0.1575  0.6081  1\n  Ta  Ta11  1  0.5522  0.3425  0.1081  1\n  Br  Br12  1  0.1181  0.6181  0.2500  1\n  Br  Br13  1  0.3819  0.8819  0.7500  1\n  Br  Br14  1  0.8819  0.3819  0.7500  1\n  Br  Br15  1  0.6181  0.1181  0.2500  1\n  Br  Br16  1  0.1496  0.3991  0.0205  1\n  Br  Br17  1  0.3504  0.1009  0.5205  1\n  Br  Br18  1  0.8991  0.6496  0.4795  1\n  Br  Br19  1  0.6009  0.8504  0.9795  1\n  Br  Br20  1  0.8504  0.6009  0.9795  1\n  Br  Br21  1  0.6496  0.8991  0.4795  1\n  Br  Br22  1  0.1009  0.3504  0.5205  1\n  Br  Br23  1  0.3991  0.1496  0.0205  1\n  Br  Br24  1  0.3712  0.3712  0.2673  1\n  Br  Br25  1  0.1288  0.1288  0.7673  1\n  Br  Br26  1  0.8712  0.8712  0.2327  1\n  Br  Br27  1  0.6288  0.6288  0.7327  1\n  Br  Br28  1  0.7558  0.2442  0.0000  1\n  Br  Br29  1  0.7442  0.2558  0.5000  1\n  Br  Br30  1  0.2442  0.7558  0.0000  1\n  Br  Br31  1  0.2558  0.7442  0.5000  1\n  Br  Br32  1  0.7224  0.4739  0.2389  1\n  Br  Br33  1  0.7776  0.0261  0.7389  1\n  Br  Br34  1  0.9739  0.2224  0.2611  1\n  Br  Br35  1  0.5261  0.2776  0.7611  1\n  Br  Br36  1  0.2776  0.5261  0.7611  1\n  Br  Br37  1  0.2224  0.9739  0.2611  1\n  Br  Br38  1  0.0261  0.7776  0.7389  1\n  Br  Br39  1  0.4739  0.7224  0.2389  1\n",
    "output": "data_image0\n_chemical_formula_structural       TaBrTa10Br2TaBr25\n_chemical_formula_sum              \"Ta12 Br28\"\n_cell_length_a       9.9183\n_cell_length_b       9.9183\n_cell_length_c       11.8438\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    91.0279\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.3801  0.3801  0.9193  1.0000\n  Br  Br1       1.0000  0.1199  0.1199  0.4193  1.0000\n  Ta  Ta2       1.0000  0.8801  0.8801  0.5807  1.0000\n  Ta  Ta3       1.0000  0.6199  0.6199  0.0807  1.0000\n  Ta  Ta4       1.0000  0.3425  0.5522  0.1081  1.0000\n  Ta  Ta5       1.0000  0.1575  0.9478  0.6081  1.0000\n  Ta  Ta6       1.0000  0.0522  0.8425  0.3919  1.0000\n  Ta  Ta7       1.0000  0.4478  0.6575  0.8919  1.0000\n  Ta  Ta8       1.0000  0.6575  0.4478  0.8919  1.0000\n  Ta  Ta9       1.0000  0.8425  0.0522  0.3919  1.0000\n  Ta  Ta10      1.0000  0.9478  0.1575  0.6081  1.0000\n  Ta  Ta11      1.0000  0.5522  0.3425  0.1081  1.0000\n  Br  Br2       1.0000  0.1181  0.6181  0.2500  1.0000\n  Br  Br3       1.0000  0.3819  0.8819  0.7500  1.0000\n  Ta  Ta12      1.0000  0.8819  0.3819  0.7500  1.0000\n  Br  Br4       1.0000  0.6181  0.1181  0.2500  1.0000\n  Br  Br5       1.0000  0.1496  0.3991  0.0205  1.0000\n  Br  Br6       1.0000  0.3504  0.1009  0.5205  1.0000\n  Br  Br7       1.0000  0.8991  0.6496  0.4795  1.0000\n  Br  Br8       1.0000  0.6009  0.8504  0.9795  1.0000\n  Br  Br9       1.0000  0.8504  0.6009  0.9795  1.0000\n  Br  Br10      1.0000  0.6496  0.8991  0.4795  1.0000\n  Br  Br11      1.0000  0.1009  0.3504  0.5205  1.0000\n  Br  Br12      1.0000  0.3991  0.1496  0.0205  1.0000\n  Br  Br13      1.0000  0.3712  0.3712  0.2673  1.0000\n  Br  Br14      1.0000  0.1288  0.1288  0.7673  1.0000\n  Br  Br15      1.0000  0.8712  0.8712  0.2327  1.0000\n  Br  Br16      1.0000  0.6288  0.6288  0.7327  1.0000\n  Br  Br17      1.0000  0.7558  0.2442  0.0000  1.0000\n  Br  Br18      1.0000  0.7442  0.2558  0.5000  1.0000\n  Br  Br19      1.0000  0.2442  0.7558  0.0000  1.0000\n  Br  Br20      1.0000  0.2558  0.7442  0.5000  1.0000\n  Br  Br21      1.0000  0.7224  0.4739  0.2389  1.0000\n  Br  Br22      1.0000  0.7776  0.0261  0.7389  1.0000\n  Br  Br23      1.0000  0.9739  0.2224  0.2611  1.0000\n  Br  Br24      1.0000  0.5261  0.2776  0.7611  1.0000\n  Br  Br25      1.0000  0.2776  0.5261  0.7611  1.0000\n  Br  Br26      1.0000  0.2224  0.9739  0.2611  1.0000\n  Br  Br27      1.0000  0.0261  0.7776  0.7389  1.0000\n  Br  Br28      1.0000  0.4739  0.7224  0.2389  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "06593c4b-a7b8-43fe-8d1b-80cb89e6172a",
    "mp_id": "mp-29415",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cd3PCl3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6938\n_cell_length_b   7.6938\n_cell_length_c   7.1685\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cd3PCl3\n_chemical_formula_sum   'Cd6 P2 Cl6'\n_cell_volume   367.4837\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cd  Cd0  1  0.6667  0.3333  0.4887  1\n  Cd  Cd1  1  0.3333  0.6667  0.5113  1\n  Cd  Cd2  1  0.5000  0.5000  -0.0000  1\n  Cd  Cd3  1  0.0000  0.5000  -0.0000  1\n  Cd  Cd4  1  0.5000  -0.0000  -0.0000  1\n  Cd  Cd5  1  0.0000  -0.0000  0.5000  1\n  P  P6  1  0.6667  0.3333  0.1455  1\n  P  P7  1  0.3333  0.6667  0.8545  1\n  Cl  Cl8  1  0.3406  0.1702  0.6943  1\n  Cl  Cl9  1  0.8296  0.6594  0.6943  1\n  Cl  Cl10  1  0.6594  0.8298  0.3057  1\n  Cl  Cl11  1  0.1704  0.3406  0.3057  1\n  Cl  Cl12  1  0.1702  0.8296  0.3057  1\n  Cl  Cl13  1  0.8298  0.1704  0.6943  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cd6ClPCl4PCl\n_chemical_formula_sum              \"Cd6 Cl6 P2\"\n_cell_length_a       7.6938\n_cell_length_b       7.6938\n_cell_length_c       7.1685\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cd  Cd1       1.0000  0.6667  0.3333  0.4887  1.0000\n  Cd  Cd2       1.0000  0.3333  0.6667  0.5113  1.0000\n  Cd  Cd3       1.0000  0.5000  0.5000  0.0000  1.0000\n  Cd  Cd4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Cd  Cd5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Cd  Cd6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cl  Cl1       1.0000  0.6667  0.3333  0.1455  1.0000\n  P   P1        1.0000  0.3333  0.6667  0.8545  1.0000\n  Cl  Cl2       1.0000  0.3406  0.1702  0.6943  1.0000\n  Cl  Cl3       1.0000  0.8296  0.6594  0.6943  1.0000\n  Cl  Cl4       1.0000  0.6594  0.8298  0.3057  1.0000\n  Cl  Cl5       1.0000  0.1704  0.3406  0.3057  1.0000\n  P   P2        1.0000  0.1702  0.8296  0.3057  1.0000\n  Cl  Cl6       1.0000  0.8298  0.1704  0.6943  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6b44204f-ff14-4491-8dfa-fac2807c02de",
    "mp_id": "mp-29755",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaSi2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6268\n_cell_length_b   7.3133\n_cell_length_c   7.6278\n_cell_angle_alpha   69.5077\n_cell_angle_beta   81.4064\n_cell_angle_gamma   84.8647\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaSi2O5\n_chemical_formula_sum   'Ca4 Si8 O20'\n_cell_volume   342.1185\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6102  0.0288  0.2137  1\n  Ca  Ca1  1  0.3898  0.9712  0.7863  1\n  Ca  Ca2  1  0.8162  0.4581  0.3210  1\n  Ca  Ca3  1  0.1838  0.5419  0.6790  1\n  Si  Si4  1  0.6607  0.6837  0.5794  1\n  Si  Si5  1  0.3393  0.3163  0.4206  1\n  Si  Si6  1  0.1259  0.1986  0.0702  1\n  Si  Si7  1  0.8741  0.8014  0.9298  1\n  Si  Si8  1  0.8020  0.2471  0.7794  1\n  Si  Si9  1  0.1980  0.7529  0.2206  1\n  Si  Si10  1  0.0000  0.0000  0.5000  1\n  Si  Si11  1  0.5000  0.5000  0.0000  1\n  O  O12  1  0.7520  0.6011  0.9864  1\n  O  O13  1  0.2480  0.3989  0.0136  1\n  O  O14  1  0.4761  0.6524  0.7583  1\n  O  O15  1  0.5239  0.3476  0.2417  1\n  O  O16  1  0.6208  0.3047  0.9346  1\n  O  O17  1  0.3792  0.6953  0.0654  1\n  O  O18  1  0.2488  0.1003  0.4602  1\n  O  O19  1  0.7512  0.8997  0.5398  1\n  O  O20  1  0.0216  0.2266  0.8775  1\n  O  O21  1  0.9784  0.7734  0.1225  1\n  O  O22  1  0.8845  0.1900  0.5815  1\n  O  O23  1  0.1155  0.8100  0.4185  1\n  O  O24  1  0.2813  0.0038  0.0976  1\n  O  O25  1  0.7187  0.9962  0.9024  1\n  O  O26  1  0.1726  0.5018  0.3655  1\n  O  O27  1  0.8274  0.4982  0.6345  1\n  O  O28  1  0.0502  0.8424  0.7443  1\n  O  O29  1  0.9498  0.1576  0.2557  1\n  O  O30  1  0.4262  0.3006  0.6124  1\n  O  O31  1  0.5738  0.6994  0.3876  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca4Si5OSi2O11SiO8\n_chemical_formula_sum              \"Ca4 Si8 O20\"\n_cell_length_a       6.6268\n_cell_length_b       7.3133\n_cell_length_c       7.6278\n_cell_angle_alpha    69.5077\n_cell_angle_beta     81.4064\n_cell_angle_gamma    84.8647\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.6102  0.0288  0.2137  1.0000\n  Ca  Ca2       1.0000  0.3898  0.9712  0.7863  1.0000\n  Ca  Ca3       1.0000  0.8162  0.4581  0.3210  1.0000\n  Ca  Ca4       1.0000  0.1838  0.5419  0.6790  1.0000\n  Si  Si1       1.0000  0.6607  0.6837  0.5794  1.0000\n  Si  Si2       1.0000  0.3393  0.3163  0.4206  1.0000\n  Si  Si3       1.0000  0.1259  0.1986  0.0702  1.0000\n  Si  Si4       1.0000  0.8741  0.8014  0.9298  1.0000\n  Si  Si5       1.0000  0.8020  0.2471  0.7794  1.0000\n  O   O1        1.0000  0.1980  0.7529  0.2206  1.0000\n  Si  Si6       1.0000  0.0000  0.0000  0.5000  1.0000\n  Si  Si7       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.7520  0.6011  0.9864  1.0000\n  O   O3        1.0000  0.2480  0.3989  0.0136  1.0000\n  O   O4        1.0000  0.4761  0.6524  0.7583  1.0000\n  O   O5        1.0000  0.5239  0.3476  0.2417  1.0000\n  O   O6        1.0000  0.6208  0.3047  0.9346  1.0000\n  O   O7        1.0000  0.3792  0.6953  0.0654  1.0000\n  O   O8        1.0000  0.2488  0.1003  0.4602  1.0000\n  O   O9        1.0000  0.7512  0.8997  0.5398  1.0000\n  O   O10       1.0000  0.0216  0.2266  0.8775  1.0000\n  O   O11       1.0000  0.9784  0.7734  0.1225  1.0000\n  O   O12       1.0000  0.8845  0.1900  0.5815  1.0000\n  Si  Si8       1.0000  0.1155  0.8100  0.4185  1.0000\n  O   O13       1.0000  0.2813  0.0038  0.0976  1.0000\n  O   O14       1.0000  0.7187  0.9962  0.9024  1.0000\n  O   O15       1.0000  0.1726  0.5018  0.3655  1.0000\n  O   O16       1.0000  0.8274  0.4982  0.6345  1.0000\n  O   O17       1.0000  0.0502  0.8424  0.7443  1.0000\n  O   O18       1.0000  0.9498  0.1576  0.2557  1.0000\n  O   O19       1.0000  0.4262  0.3006  0.6124  1.0000\n  O   O20       1.0000  0.5738  0.6994  0.3876  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cee01fcd-e660-42a8-be02-d60055fc431e",
    "mp_id": "mp-29770",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3(Mn2Te3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9306\n_cell_length_b   7.9306\n_cell_length_c   7.5795\n_cell_angle_alpha   89.4358\n_cell_angle_beta   89.4358\n_cell_angle_gamma   120.4642\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3(Mn2Te3)2\n_chemical_formula_sum   'Na3 Mn4 Te6'\n_cell_volume   410.8128\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.3483  0.6517  0.0000  1\n  Na  Na1  1  0.6517  0.3483  0.0000  1\n  Na  Na2  1  0.0000  0.0000  0.0000  1\n  Mn  Mn3  1  0.3341  0.0135  0.6241  1\n  Mn  Mn4  1  0.9865  0.6659  0.3759  1\n  Mn  Mn5  1  0.6659  0.9865  0.3759  1\n  Mn  Mn6  1  0.0135  0.3341  0.6241  1\n  Te  Te7  1  0.3221  0.3221  0.7413  1\n  Te  Te8  1  0.6779  0.6779  0.2587  1\n  Te  Te9  1  0.3351  0.9842  0.2625  1\n  Te  Te10  1  0.0158  0.6649  0.7375  1\n  Te  Te11  1  0.6649  0.0158  0.7375  1\n  Te  Te12  1  0.9842  0.3351  0.2625  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2Mn2NaMn2Te6\n_chemical_formula_sum              \"Na3 Mn4 Te6\"\n_cell_length_a       7.9306\n_cell_length_b       7.9306\n_cell_length_c       7.5795\n_cell_angle_alpha    89.4358\n_cell_angle_beta     89.4358\n_cell_angle_gamma    120.4642\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.3483  0.6517  0.0000  1.0000\n  Na  Na2       1.0000  0.6517  0.3483  0.0000  1.0000\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn2       1.0000  0.3341  0.0135  0.6241  1.0000\n  Na  Na3       1.0000  0.9865  0.6659  0.3759  1.0000\n  Mn  Mn3       1.0000  0.6659  0.9865  0.3759  1.0000\n  Mn  Mn4       1.0000  0.0135  0.3341  0.6241  1.0000\n  Te  Te1       1.0000  0.3221  0.3221  0.7413  1.0000\n  Te  Te2       1.0000  0.6779  0.6779  0.2587  1.0000\n  Te  Te3       1.0000  0.3351  0.9842  0.2625  1.0000\n  Te  Te4       1.0000  0.0158  0.6649  0.7375  1.0000\n  Te  Te5       1.0000  0.6649  0.0158  0.7375  1.0000\n  Te  Te6       1.0000  0.9842  0.3351  0.2625  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6c2a6dbc-8dbe-45dd-adca-6a86a3f04a51",
    "mp_id": "mp-30305",
    "action_prompt": "Swap the spatial positions of atoms at indices 41 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr11Bi10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.9298\n_cell_length_b   12.9298\n_cell_length_c   13.0142\n_cell_angle_alpha   119.7857\n_cell_angle_beta   119.7857\n_cell_angle_gamma   90.0232\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr11Bi10\n_chemical_formula_sum   'Sr22 Bi20'\n_cell_volume   1548.0617\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.8341  0.8341  -0.0000  1\n  Sr  Sr1  1  0.1660  0.8340  0.0000  1\n  Sr  Sr2  1  0.8340  0.1660  0.0000  1\n  Sr  Sr3  1  0.1659  0.1659  0.0000  1\n  Sr  Sr4  1  0.6035  0.9428  0.2072  1\n  Sr  Sr5  1  0.7357  0.3963  0.7928  1\n  Sr  Sr6  1  0.0572  0.3965  0.7928  1\n  Sr  Sr7  1  0.3965  0.0572  0.7928  1\n  Sr  Sr8  1  0.3963  0.7357  0.7928  1\n  Sr  Sr9  1  0.2643  0.6037  0.2072  1\n  Sr  Sr10  1  0.9428  0.6035  0.2072  1\n  Sr  Sr11  1  0.6037  0.2643  0.2072  1\n  Sr  Sr12  1  0.6612  0.6612  0.3225  1\n  Sr  Sr13  1  0.3388  0.3388  0.6775  1\n  Sr  Sr14  1  0.9391  0.1899  0.3797  1\n  Sr  Sr15  1  0.8102  0.5594  0.6203  1\n  Sr  Sr16  1  0.8101  0.0609  0.6203  1\n  Sr  Sr17  1  0.5594  0.8102  0.6203  1\n  Sr  Sr18  1  0.0609  0.8101  0.6203  1\n  Sr  Sr19  1  0.1899  0.9391  0.3797  1\n  Sr  Sr20  1  0.4406  0.1898  0.3797  1\n  Sr  Sr21  1  0.1898  0.4406  0.3797  1\n  Bi  Bi22  1  0.3764  0.3764  0.0007  1\n  Bi  Bi23  1  0.6234  0.3766  0.0000  1\n  Bi  Bi24  1  0.3766  0.6234  0.0000  1\n  Bi  Bi25  1  0.6236  0.6236  -0.0007  1\n  Bi  Bi26  1  0.6512  -0.0000  0.0000  1\n  Bi  Bi27  1  -0.0000  0.6512  0.0000  1\n  Bi  Bi28  1  0.0000  0.3488  -0.0000  1\n  Bi  Bi29  1  0.3488  0.0000  -0.0000  1\n  Bi  Bi30  1  0.1186  0.1186  0.6503  1\n  Bi  Bi31  1  0.4683  0.4683  0.3493  1\n  Bi  Bi32  1  0.8814  0.8814  0.3497  1\n  Bi  Bi33  1  0.4685  0.8816  0.3500  1\n  Bi  Bi34  1  0.8816  0.4685  0.3500  1\n  Bi  Bi35  1  0.5315  0.1184  0.6500  1\n  Bi  Bi36  1  0.1184  0.5315  0.6500  1\n  Bi  Bi37  1  0.5317  0.5317  0.6507  1\n  Bi  Bi38  1  0.8738  0.8738  0.7476  1\n  Bi  Bi39  1  0.1262  0.1262  0.2524  1\n  Bi  Bi40  1  0.2500  0.7500  0.5000  1\n  Bi  Bi41  1  0.7500  0.2500  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr7BiSr14Bi19Sr\n_chemical_formula_sum              \"Sr22 Bi20\"\n_cell_length_a       12.9298\n_cell_length_b       12.9298\n_cell_length_c       13.0142\n_cell_angle_alpha    119.7857\n_cell_angle_beta     119.7857\n_cell_angle_gamma    90.0232\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.8341  0.8341  1.0000  1.0000\n  Sr  Sr2       1.0000  0.1660  0.8340  0.0000  1.0000\n  Sr  Sr3       1.0000  0.8340  0.1660  2e-08  1.0000\n  Sr  Sr4       1.0000  0.1659  0.1659  0.0000  1.0000\n  Sr  Sr5       1.0000  0.6035  0.9428  0.2072  1.0000\n  Sr  Sr6       1.0000  0.7357  0.3963  0.7928  1.0000\n  Sr  Sr7       1.0000  0.0572  0.3965  0.7928  1.0000\n  Bi  Bi1       1.0000  0.3965  0.0572  0.7928  1.0000\n  Sr  Sr8       1.0000  0.3963  0.7357  0.7928  1.0000\n  Sr  Sr9       1.0000  0.2643  0.6037  0.2072  1.0000\n  Sr  Sr10      1.0000  0.9428  0.6035  0.2072  1.0000\n  Sr  Sr11      1.0000  0.6037  0.2643  0.2072  1.0000\n  Sr  Sr12      1.0000  0.6612  0.6612  0.3225  1.0000\n  Sr  Sr13      1.0000  0.3388  0.3388  0.6775  1.0000\n  Sr  Sr14      1.0000  0.9391  0.1899  0.3797  1.0000\n  Sr  Sr15      1.0000  0.8102  0.5594  0.6203  1.0000\n  Sr  Sr16      1.0000  0.8101  0.0609  0.6203  1.0000\n  Sr  Sr17      1.0000  0.5594  0.8102  0.6203  1.0000\n  Sr  Sr18      1.0000  0.0609  0.8101  0.6203  1.0000\n  Sr  Sr19      1.0000  0.1899  0.9391  0.3797  1.0000\n  Sr  Sr20      1.0000  0.4406  0.1898  0.3797  1.0000\n  Sr  Sr21      1.0000  0.1898  0.4406  0.3797  1.0000\n  Bi  Bi2       1.0000  0.3764  0.3764  0.0007  1.0000\n  Bi  Bi3       1.0000  0.6234  0.3766  0.0000  1.0000\n  Bi  Bi4       1.0000  0.3766  0.6234  0.0000  1.0000\n  Bi  Bi5       1.0000  0.6236  0.6236  0.9993  1.0000\n  Bi  Bi6       1.0000  0.6512  1.0000  0.0000  1.0000\n  Bi  Bi7       1.0000  1.0000  0.6512  0.0000  1.0000\n  Bi  Bi8       1.0000  0.0000  0.3488  1.0000  1.0000\n  Bi  Bi9       1.0000  0.3488  0.0000  1.0000  1.0000\n  Bi  Bi10      1.0000  0.1186  0.1186  0.6503  1.0000\n  Bi  Bi11      1.0000  0.4683  0.4683  0.3493  1.0000\n  Bi  Bi12      1.0000  0.8814  0.8814  0.3497  1.0000\n  Bi  Bi13      1.0000  0.4685  0.8816  0.3500  1.0000\n  Bi  Bi14      1.0000  0.8816  0.4685  0.3500  1.0000\n  Bi  Bi15      1.0000  0.5315  0.1184  0.6500  1.0000\n  Bi  Bi16      1.0000  0.1184  0.5315  0.6500  1.0000\n  Bi  Bi17      1.0000  0.5317  0.5317  0.6507  1.0000\n  Bi  Bi18      1.0000  0.8738  0.8738  0.7476  1.0000\n  Bi  Bi19      1.0000  0.1262  0.1262  0.2524  1.0000\n  Bi  Bi20      1.0000  0.2500  0.7500  0.5000  1.0000\n  Sr  Sr22      1.0000  0.7500  0.2500  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eeccc2f3-233b-437b-a37c-17c4610c3f94",
    "mp_id": "mp-30320",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbHfF5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7173\n_cell_length_b   7.7173\n_cell_length_c   7.8693\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   118.6645\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbHfF5\n_chemical_formula_sum   'Rb4 Hf4 F20'\n_cell_volume   411.2321\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.7958  0.2042  0.5000  1\n  Rb  Rb1  1  0.7042  0.2958  -0.0000  1\n  Rb  Rb2  1  0.2042  0.7958  0.5000  1\n  Rb  Rb3  1  0.2958  0.7042  -0.0000  1\n  Hf  Hf4  1  0.6623  0.6623  0.6617  1\n  Hf  Hf5  1  0.8377  0.8377  0.1617  1\n  Hf  Hf6  1  0.3377  0.3377  0.3383  1\n  Hf  Hf7  1  0.1623  0.1623  0.8383  1\n  F  F8  1  0.0877  0.9123  -0.0000  1\n  F  F9  1  0.4123  0.5877  0.5000  1\n  F  F10  1  0.9123  0.0877  -0.0000  1\n  F  F11  1  0.5877  0.4123  0.5000  1\n  F  F12  1  0.2902  0.2902  0.0642  1\n  F  F13  1  0.2098  0.2098  0.5642  1\n  F  F14  1  0.7098  0.7098  0.9358  1\n  F  F15  1  0.7902  0.7902  0.4358  1\n  F  F16  1  0.5701  0.8585  0.7108  1\n  F  F17  1  0.9299  0.6415  0.2108  1\n  F  F18  1  0.4299  0.1415  0.2892  1\n  F  F19  1  0.0701  0.3585  0.7892  1\n  F  F20  1  0.8585  0.5701  0.7108  1\n  F  F21  1  0.6415  0.9299  0.2108  1\n  F  F22  1  0.1415  0.4299  0.2892  1\n  F  F23  1  0.3585  0.0701  0.7892  1\n  F  F24  1  0.4371  0.4371  0.7905  1\n  F  F25  1  0.0629  0.0629  0.2905  1\n  F  F26  1  0.5629  0.5629  0.2095  1\n  F  F27  1  0.9371  0.9371  0.7095  1\n",
    "output": "data_image0\n_chemical_formula_structural       RbFRb2Hf4F14RbF5\n_chemical_formula_sum              \"Rb4 F20 Hf4\"\n_cell_length_a       7.7173\n_cell_length_b       7.7173\n_cell_length_c       7.8693\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    118.6645\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.7958  0.2042  0.5000  1.0000\n  F   F1        1.0000  0.7042  0.2958  0.0000  1.0000\n  Rb  Rb2       1.0000  0.2042  0.7958  0.5000  1.0000\n  Rb  Rb3       1.0000  0.2958  0.7042  0.0000  1.0000\n  Hf  Hf1       1.0000  0.6623  0.6623  0.6617  1.0000\n  Hf  Hf2       1.0000  0.8377  0.8377  0.1617  1.0000\n  Hf  Hf3       1.0000  0.3377  0.3377  0.3383  1.0000\n  Hf  Hf4       1.0000  0.1623  0.1623  0.8383  1.0000\n  F   F2        1.0000  0.0877  0.9123  0.0000  1.0000\n  F   F3        1.0000  0.4123  0.5877  0.5000  1.0000\n  F   F4        1.0000  0.9123  0.0877  0.0000  1.0000\n  F   F5        1.0000  0.5877  0.4123  0.5000  1.0000\n  F   F6        1.0000  0.2902  0.2902  0.0642  1.0000\n  F   F7        1.0000  0.2098  0.2098  0.5642  1.0000\n  F   F8        1.0000  0.7098  0.7098  0.9358  1.0000\n  F   F9        1.0000  0.7902  0.7902  0.4358  1.0000\n  F   F10       1.0000  0.5701  0.8585  0.7108  1.0000\n  F   F11       1.0000  0.9299  0.6415  0.2108  1.0000\n  F   F12       1.0000  0.4299  0.1415  0.2892  1.0000\n  F   F13       1.0000  0.0701  0.3585  0.7892  1.0000\n  F   F14       1.0000  0.8585  0.5701  0.7108  1.0000\n  F   F15       1.0000  0.6415  0.9299  0.2108  1.0000\n  Rb  Rb4       1.0000  0.1415  0.4299  0.2892  1.0000\n  F   F16       1.0000  0.3585  0.0701  0.7892  1.0000\n  F   F17       1.0000  0.4371  0.4371  0.7905  1.0000\n  F   F18       1.0000  0.0629  0.0629  0.2905  1.0000\n  F   F19       1.0000  0.5629  0.5629  0.2095  1.0000\n  F   F20       1.0000  0.9371  0.9371  0.7095  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d7000bb1-56f3-4cdc-9b2c-063f2cf80513",
    "mp_id": "mp-30859",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr9Pt11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1753\n_cell_length_b   8.1753\n_cell_length_c   8.1753\n_cell_angle_alpha   100.1387\n_cell_angle_beta   100.1387\n_cell_angle_gamma   130.3862\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr9Pt11\n_chemical_formula_sum   'Zr9 Pt11'\n_cell_volume   377.7845\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.4179  0.2468  0.6647  1\n  Zr  Zr1  1  0.7532  0.4179  0.1711  1\n  Zr  Zr2  1  0.2468  0.5821  0.8289  1\n  Zr  Zr3  1  0.5821  0.7532  0.3353  1\n  Zr  Zr4  1  0.0954  0.3073  0.4027  1\n  Zr  Zr5  1  0.6927  0.0954  0.7881  1\n  Zr  Zr6  1  0.3073  0.9046  0.2119  1\n  Zr  Zr7  1  0.9046  0.6927  0.5973  1\n  Zr  Zr8  1  0.0000  0.0000  0.0000  1\n  Pt  Pt9  1  0.9049  0.5630  0.8870  1\n  Pt  Pt10  1  0.5630  0.6760  0.6582  1\n  Pt  Pt11  1  0.6760  0.0178  0.1130  1\n  Pt  Pt12  1  0.0178  0.9049  0.3418  1\n  Pt  Pt13  1  0.4370  0.3240  0.3418  1\n  Pt  Pt14  1  0.0951  0.4370  0.1130  1\n  Pt  Pt15  1  0.3240  0.9822  0.8870  1\n  Pt  Pt16  1  0.9822  0.0951  0.6582  1\n  Pt  Pt17  1  0.7500  0.2500  0.5000  1\n  Pt  Pt18  1  0.2500  0.7500  0.5000  1\n  Pt  Pt19  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Zr4PtZr4Pt5ZrPt5\n_chemical_formula_sum              \"Zr9 Pt11\"\n_cell_length_a       8.1753\n_cell_length_b       8.1753\n_cell_length_c       8.1753\n_cell_angle_alpha    100.1387\n_cell_angle_beta     100.1387\n_cell_angle_gamma    130.3862\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Zr  Zr1       1.0000  0.4179  0.2468  0.6647  1.0000\n  Zr  Zr2       1.0000  0.7532  0.4179  0.1711  1.0000\n  Zr  Zr3       1.0000  0.2468  0.5821  0.8289  1.0000\n  Zr  Zr4       1.0000  0.5821  0.7532  0.3353  1.0000\n  Pt  Pt1       1.0000  0.0954  0.3073  0.4027  1.0000\n  Zr  Zr5       1.0000  0.6927  0.0954  0.7881  1.0000\n  Zr  Zr6       1.0000  0.3073  0.9046  0.2119  1.0000\n  Zr  Zr7       1.0000  0.9046  0.6927  0.5973  1.0000\n  Zr  Zr8       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pt  Pt2       1.0000  0.9049  0.5630  0.8870  1.0000\n  Pt  Pt3       1.0000  0.5630  0.6760  0.6582  1.0000\n  Pt  Pt4       1.0000  0.6760  0.0178  0.1130  1.0000\n  Pt  Pt5       1.0000  0.0178  0.9049  0.3418  1.0000\n  Pt  Pt6       1.0000  0.4370  0.3240  0.3418  1.0000\n  Zr  Zr9       1.0000  0.0951  0.4370  0.1130  1.0000\n  Pt  Pt7       1.0000  0.3240  0.9822  0.8870  1.0000\n  Pt  Pt8       1.0000  0.9822  0.0951  0.6582  1.0000\n  Pt  Pt9       1.0000  0.7500  0.2500  0.5000  1.0000\n  Pt  Pt10      1.0000  0.2500  0.7500  0.5000  1.0000\n  Pt  Pt11      1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7142a477-31b3-47ca-80a8-509fc814e4b5",
    "mp_id": "mp-30908",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ag3PSe4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8392\n_cell_length_b   7.2052\n_cell_length_c   8.0542\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ag3PSe4\n_chemical_formula_sum   'Ag6 P2 Se8'\n_cell_volume   396.8991\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ag  Ag0  1  0.0227  0.8001  0.2724  1\n  Ag  Ag1  1  0.5227  0.1999  0.2276  1\n  Ag  Ag2  1  0.5227  0.1999  0.7724  1\n  Ag  Ag3  1  0.0227  0.8001  0.7276  1\n  Ag  Ag4  1  0.9655  0.3553  0.0000  1\n  Ag  Ag5  1  0.4655  0.6447  0.5000  1\n  P  P6  1  0.9969  0.3101  0.5000  1\n  P  P7  1  0.4969  0.6899  0.0000  1\n  Se  Se8  1  0.8969  0.1558  0.7263  1\n  Se  Se9  1  0.3969  0.8442  0.7737  1\n  Se  Se10  1  0.3628  0.4084  0.0000  1\n  Se  Se11  1  0.8628  0.5916  0.5000  1\n  Se  Se12  1  0.3969  0.8442  0.2263  1\n  Se  Se13  1  0.8969  0.1558  0.2737  1\n  Se  Se14  1  0.3218  0.3048  0.5000  1\n  Se  Se15  1  0.8218  0.6952  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ag5SeP2Se7Ag\n_chemical_formula_sum              \"Ag6 Se8 P2\"\n_cell_length_a       6.8392\n_cell_length_b       7.2052\n_cell_length_c       8.0542\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ag  Ag1       1.0000  0.0227  0.8001  0.2724  1.0000\n  Ag  Ag2       1.0000  0.5227  0.1999  0.2276  1.0000\n  Ag  Ag3       1.0000  0.5227  0.1999  0.7724  1.0000\n  Ag  Ag4       1.0000  0.0227  0.8001  0.7276  1.0000\n  Ag  Ag5       1.0000  0.9655  0.3553  0.0000  1.0000\n  Se  Se1       1.0000  0.4655  0.6447  0.5000  1.0000\n  P   P1        1.0000  0.9969  0.3101  0.5000  1.0000\n  P   P2        1.0000  0.4969  0.6899  0.0000  1.0000\n  Se  Se2       1.0000  0.8969  0.1558  0.7263  1.0000\n  Se  Se3       1.0000  0.3969  0.8442  0.7737  1.0000\n  Se  Se4       1.0000  0.3628  0.4084  0.0000  1.0000\n  Se  Se5       1.0000  0.8628  0.5916  0.5000  1.0000\n  Se  Se6       1.0000  0.3969  0.8442  0.2263  1.0000\n  Se  Se7       1.0000  0.8969  0.1558  0.2737  1.0000\n  Se  Se8       1.0000  0.3218  0.3048  0.5000  1.0000\n  Ag  Ag6       1.0000  0.8218  0.6952  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b067aab3-c717-44bc-b34f-cb40b909ea3d",
    "mp_id": "mp-31251",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 55 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ga(SbCl)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1316\n_cell_length_b   13.5234\n_cell_length_c   18.3014\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ga(SbCl)4\n_chemical_formula_sum   'Ga8 Sb32 Cl32'\n_cell_volume   2507.5392\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ga  Ga0  1  0.5365  0.3779  0.8192  1\n  Ga  Ga1  1  0.4635  0.8779  0.1808  1\n  Ga  Ga2  1  0.9635  0.3779  0.3192  1\n  Ga  Ga3  1  0.0365  0.8779  0.6808  1\n  Ga  Ga4  1  0.5125  0.0654  0.5022  1\n  Ga  Ga5  1  0.4875  0.5654  0.4978  1\n  Ga  Ga6  1  0.9875  0.0654  0.0022  1\n  Ga  Ga7  1  0.0125  0.5654  0.9978  1\n  Sb  Sb8  1  0.8896  0.1781  0.6770  1\n  Sb  Sb9  1  0.1104  0.6781  0.3230  1\n  Sb  Sb10  1  0.6104  0.1781  0.1770  1\n  Sb  Sb11  1  0.3896  0.6781  0.8230  1\n  Sb  Sb12  1  0.0614  0.2396  0.5509  1\n  Sb  Sb13  1  0.9386  0.7396  0.4491  1\n  Sb  Sb14  1  0.4386  0.2396  0.0509  1\n  Sb  Sb15  1  0.5614  0.7396  0.9491  1\n  Sb  Sb16  1  0.9677  0.3188  0.7913  1\n  Sb  Sb17  1  0.0323  0.8188  0.2087  1\n  Sb  Sb18  1  0.5323  0.3188  0.2913  1\n  Sb  Sb19  1  0.4677  0.8188  0.7087  1\n  Sb  Sb20  1  0.0507  0.4561  0.5651  1\n  Sb  Sb21  1  0.9493  0.9561  0.4349  1\n  Sb  Sb22  1  0.4493  0.4561  0.0651  1\n  Sb  Sb23  1  0.5507  0.9561  0.9349  1\n  Sb  Sb24  1  0.1790  0.2257  0.6967  1\n  Sb  Sb25  1  0.8210  0.7257  0.3033  1\n  Sb  Sb26  1  0.3210  0.2257  0.1967  1\n  Sb  Sb27  1  0.6790  0.7257  0.8033  1\n  Sb  Sb28  1  0.8743  0.4794  0.6958  1\n  Sb  Sb29  1  0.1257  0.9794  0.3042  1\n  Sb  Sb30  1  0.6257  0.4794  0.1958  1\n  Sb  Sb31  1  0.3743  0.9794  0.8042  1\n  Sb  Sb32  1  0.7981  0.3384  0.5822  1\n  Sb  Sb33  1  0.2019  0.8384  0.4178  1\n  Sb  Sb34  1  0.7019  0.3384  0.0822  1\n  Sb  Sb35  1  0.2981  0.8384  0.9178  1\n  Sb  Sb36  1  0.1683  0.4410  0.7110  1\n  Sb  Sb37  1  0.8317  0.9410  0.2890  1\n  Sb  Sb38  1  0.3317  0.4410  0.2110  1\n  Sb  Sb39  1  0.6683  0.9410  0.7890  1\n  Cl  Cl40  1  0.5383  0.9044  0.4971  1\n  Cl  Cl41  1  0.4617  0.4044  0.5029  1\n  Cl  Cl42  1  0.9617  0.9044  0.9971  1\n  Cl  Cl43  1  0.0383  0.4044  0.0029  1\n  Cl  Cl44  1  0.3463  0.3766  0.8777  1\n  Cl  Cl45  1  0.6537  0.8766  0.1223  1\n  Cl  Cl46  1  0.1537  0.3766  0.3777  1\n  Cl  Cl47  1  0.8463  0.8766  0.6223  1\n  Cl  Cl48  1  0.6015  0.2249  0.8014  1\n  Cl  Cl49  1  0.3985  0.7249  0.1986  1\n  Cl  Cl50  1  0.8985  0.2249  0.3014  1\n  Cl  Cl51  1  0.1015  0.7249  0.6986  1\n  Cl  Cl52  1  0.3253  0.1077  0.4477  1\n  Cl  Cl53  1  0.6747  0.6077  0.5523  1\n  Cl  Cl54  1  0.1747  0.1077  0.9477  1\n  Cl  Cl55  1  0.8253  0.6077  0.0523  1\n  Cl  Cl56  1  0.5110  0.1173  0.6167  1\n  Cl  Cl57  1  0.4890  0.6173  0.3833  1\n  Cl  Cl58  1  0.9890  0.1173  0.1167  1\n  Cl  Cl59  1  0.0110  0.6173  0.8833  1\n  Cl  Cl60  1  0.6793  0.1384  0.4454  1\n  Cl  Cl61  1  0.3207  0.6384  0.5546  1\n  Cl  Cl62  1  0.8207  0.1384  0.9454  1\n  Cl  Cl63  1  0.1793  0.6384  0.0546  1\n  Cl  Cl64  1  0.5111  0.4517  0.7123  1\n  Cl  Cl65  1  0.4889  0.9517  0.2877  1\n  Cl  Cl66  1  0.9889  0.4517  0.2123  1\n  Cl  Cl67  1  0.0111  0.9517  0.7877  1\n  Cl  Cl68  1  0.6835  0.4616  0.8828  1\n  Cl  Cl69  1  0.3165  0.9616  0.1172  1\n  Cl  Cl70  1  0.8165  0.4616  0.3828  1\n  Cl  Cl71  1  0.1835  0.9616  0.6172  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ga8Sb22ClSb9Cl15SbCl16\n_chemical_formula_sum              \"Ga8 Sb32 Cl32\"\n_cell_length_a       10.1316\n_cell_length_b       13.5234\n_cell_length_c       18.3014\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ga  Ga1       1.0000  0.5365  0.3779  0.8192  1.0000\n  Ga  Ga2       1.0000  0.4635  0.8779  0.1808  1.0000\n  Ga  Ga3       1.0000  0.9635  0.3779  0.3192  1.0000\n  Ga  Ga4       1.0000  0.0365  0.8779  0.6808  1.0000\n  Ga  Ga5       1.0000  0.5125  0.0654  0.5022  1.0000\n  Ga  Ga6       1.0000  0.4875  0.5654  0.4978  1.0000\n  Ga  Ga7       1.0000  0.9875  0.0654  0.0022  1.0000\n  Ga  Ga8       1.0000  0.0125  0.5654  0.9978  1.0000\n  Sb  Sb1       1.0000  0.8896  0.1781  0.6770  1.0000\n  Sb  Sb2       1.0000  0.1104  0.6781  0.3230  1.0000\n  Sb  Sb3       1.0000  0.6104  0.1781  0.1770  1.0000\n  Sb  Sb4       1.0000  0.3896  0.6781  0.8230  1.0000\n  Sb  Sb5       1.0000  0.0614  0.2396  0.5509  1.0000\n  Sb  Sb6       1.0000  0.9386  0.7396  0.4491  1.0000\n  Sb  Sb7       1.0000  0.4386  0.2396  0.0509  1.0000\n  Sb  Sb8       1.0000  0.5614  0.7396  0.9491  1.0000\n  Sb  Sb9       1.0000  0.9677  0.3188  0.7913  1.0000\n  Sb  Sb10      1.0000  0.0323  0.8188  0.2087  1.0000\n  Sb  Sb11      1.0000  0.5323  0.3188  0.2913  1.0000\n  Sb  Sb12      1.0000  0.4677  0.8188  0.7087  1.0000\n  Sb  Sb13      1.0000  0.0507  0.4561  0.5651  1.0000\n  Sb  Sb14      1.0000  0.9493  0.9561  0.4349  1.0000\n  Sb  Sb15      1.0000  0.4493  0.4561  0.0651  1.0000\n  Sb  Sb16      1.0000  0.5507  0.9561  0.9349  1.0000\n  Sb  Sb17      1.0000  0.1790  0.2257  0.6967  1.0000\n  Sb  Sb18      1.0000  0.8210  0.7257  0.3033  1.0000\n  Sb  Sb19      1.0000  0.3210  0.2257  0.1967  1.0000\n  Sb  Sb20      1.0000  0.6790  0.7257  0.8033  1.0000\n  Sb  Sb21      1.0000  0.8743  0.4794  0.6958  1.0000\n  Sb  Sb22      1.0000  0.1257  0.9794  0.3042  1.0000\n  Cl  Cl1       1.0000  0.6257  0.4794  0.1958  1.0000\n  Sb  Sb23      1.0000  0.3743  0.9794  0.8042  1.0000\n  Sb  Sb24      1.0000  0.7981  0.3384  0.5822  1.0000\n  Sb  Sb25      1.0000  0.2019  0.8384  0.4178  1.0000\n  Sb  Sb26      1.0000  0.7019  0.3384  0.0822  1.0000\n  Sb  Sb27      1.0000  0.2981  0.8384  0.9178  1.0000\n  Sb  Sb28      1.0000  0.1683  0.4410  0.7110  1.0000\n  Sb  Sb29      1.0000  0.8317  0.9410  0.2890  1.0000\n  Sb  Sb30      1.0000  0.3317  0.4410  0.2110  1.0000\n  Sb  Sb31      1.0000  0.6683  0.9410  0.7890  1.0000\n  Cl  Cl2       1.0000  0.5383  0.9044  0.4971  1.0000\n  Cl  Cl3       1.0000  0.4617  0.4044  0.5029  1.0000\n  Cl  Cl4       1.0000  0.9617  0.9044  0.9971  1.0000\n  Cl  Cl5       1.0000  0.0383  0.4044  0.0029  1.0000\n  Cl  Cl6       1.0000  0.3463  0.3766  0.8777  1.0000\n  Cl  Cl7       1.0000  0.6537  0.8766  0.1223  1.0000\n  Cl  Cl8       1.0000  0.1537  0.3766  0.3777  1.0000\n  Cl  Cl9       1.0000  0.8463  0.8766  0.6223  1.0000\n  Cl  Cl10      1.0000  0.6015  0.2249  0.8014  1.0000\n  Cl  Cl11      1.0000  0.3985  0.7249  0.1986  1.0000\n  Cl  Cl12      1.0000  0.8985  0.2249  0.3014  1.0000\n  Cl  Cl13      1.0000  0.1015  0.7249  0.6986  1.0000\n  Cl  Cl14      1.0000  0.3253  0.1077  0.4477  1.0000\n  Cl  Cl15      1.0000  0.6747  0.6077  0.5523  1.0000\n  Cl  Cl16      1.0000  0.1747  0.1077  0.9477  1.0000\n  Sb  Sb32      1.0000  0.8253  0.6077  0.0523  1.0000\n  Cl  Cl17      1.0000  0.5110  0.1173  0.6167  1.0000\n  Cl  Cl18      1.0000  0.4890  0.6173  0.3833  1.0000\n  Cl  Cl19      1.0000  0.9890  0.1173  0.1167  1.0000\n  Cl  Cl20      1.0000  0.0110  0.6173  0.8833  1.0000\n  Cl  Cl21      1.0000  0.6793  0.1384  0.4454  1.0000\n  Cl  Cl22      1.0000  0.3207  0.6384  0.5546  1.0000\n  Cl  Cl23      1.0000  0.8207  0.1384  0.9454  1.0000\n  Cl  Cl24      1.0000  0.1793  0.6384  0.0546  1.0000\n  Cl  Cl25      1.0000  0.5111  0.4517  0.7123  1.0000\n  Cl  Cl26      1.0000  0.4889  0.9517  0.2877  1.0000\n  Cl  Cl27      1.0000  0.9889  0.4517  0.2123  1.0000\n  Cl  Cl28      1.0000  0.0111  0.9517  0.7877  1.0000\n  Cl  Cl29      1.0000  0.6835  0.4616  0.8828  1.0000\n  Cl  Cl30      1.0000  0.3165  0.9616  0.1172  1.0000\n  Cl  Cl31      1.0000  0.8165  0.4616  0.3828  1.0000\n  Cl  Cl32      1.0000  0.1835  0.9616  0.6172  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fc3773b2-a7fd-4266-a99c-f1c987f48a66",
    "mp_id": "mp-31314",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 41 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2PSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.4815\n_cell_length_b   8.8184\n_cell_length_c   13.8177\n_cell_angle_alpha   88.7610\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2PSe3\n_chemical_formula_sum   'K16 P8 Se24'\n_cell_volume   1520.5090\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2648  0.7249  0.0790  1\n  K  K1  1  0.5650  0.3231  0.1871  1\n  K  K2  1  0.9350  0.8231  0.1871  1\n  K  K3  1  0.7897  0.6684  0.5622  1\n  K  K4  1  0.0650  0.1769  0.8129  1\n  K  K5  1  0.7648  0.7751  0.9210  1\n  K  K6  1  0.7352  0.2751  0.9210  1\n  K  K7  1  0.2352  0.2249  0.0790  1\n  K  K8  1  0.2897  0.8316  0.4378  1\n  K  K9  1  0.2103  0.3316  0.4378  1\n  K  K10  1  0.7103  0.1684  0.5622  1\n  K  K11  1  0.8964  0.2850  0.2933  1\n  K  K12  1  0.3964  0.2150  0.7067  1\n  K  K13  1  0.1036  0.7150  0.7067  1\n  K  K14  1  0.4350  0.6769  0.8129  1\n  K  K15  1  0.6036  0.7850  0.2933  1\n  P  P16  1  0.9921  0.9288  0.4318  1\n  P  P17  1  0.0079  0.0712  0.5682  1\n  P  P18  1  0.5079  0.4288  0.4318  1\n  P  P19  1  0.5281  0.9372  0.0692  1\n  P  P20  1  0.0281  0.5628  0.9308  1\n  P  P21  1  0.4719  0.0628  0.9308  1\n  P  P22  1  0.9719  0.4372  0.0692  1\n  P  P23  1  0.4921  0.5712  0.5682  1\n  Se  Se24  1  0.6766  0.4528  0.3900  1\n  Se  Se25  1  0.1766  0.0472  0.6100  1\n  Se  Se26  1  0.3234  0.5472  0.6100  1\n  Se  Se27  1  0.8234  0.9528  0.3900  1\n  Se  Se28  1  0.4656  0.1953  0.4683  1\n  Se  Se29  1  0.9656  0.3047  0.5317  1\n  Se  Se30  1  0.5344  0.8047  0.5317  1\n  Se  Se31  1  0.0344  0.6953  0.4683  1\n  Se  Se32  1  0.4010  0.5319  0.3228  1\n  Se  Se33  1  0.9010  0.9681  0.6772  1\n  Se  Se34  1  0.5990  0.4681  0.6772  1\n  Se  Se35  1  0.0990  0.0319  0.3228  1\n  Se  Se36  1  0.0845  0.4982  0.1836  1\n  Se  Se37  1  0.5845  0.0018  0.8164  1\n  Se  Se38  1  0.9155  0.5018  0.8164  1\n  Se  Se39  1  0.4155  0.9982  0.1836  1\n  Se  Se40  1  0.9710  0.1940  0.0402  1\n  Se  Se41  1  0.4710  0.3060  0.9598  1\n  Se  Se42  1  0.0290  0.8060  0.9598  1\n  Se  Se43  1  0.5290  0.6940  0.0402  1\n  Se  Se44  1  0.8096  0.5193  0.0985  1\n  Se  Se45  1  0.3096  0.9807  0.9015  1\n  Se  Se46  1  0.1904  0.4807  0.9015  1\n  Se  Se47  1  0.6904  0.0193  0.0985  1\n",
    "output": "data_image0\n_chemical_formula_structural       K9SeK6P8Se17KSe6\n_chemical_formula_sum              \"K16 Se24 P8\"\n_cell_length_a       12.4815\n_cell_length_b       8.8184\n_cell_length_c       13.8177\n_cell_angle_alpha    88.7610\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2648  0.7249  0.0790  1.0000\n  K   K2        1.0000  0.5650  0.3231  0.1871  1.0000\n  K   K3        1.0000  0.9350  0.8231  0.1871  1.0000\n  K   K4        1.0000  0.7897  0.6684  0.5622  1.0000\n  K   K5        1.0000  0.0650  0.1769  0.8129  1.0000\n  K   K6        1.0000  0.7648  0.7751  0.9210  1.0000\n  K   K7        1.0000  0.7352  0.2751  0.9210  1.0000\n  K   K8        1.0000  0.2352  0.2249  0.0790  1.0000\n  K   K9        1.0000  0.2897  0.8316  0.4378  1.0000\n  Se  Se1       1.0000  0.2103  0.3316  0.4378  1.0000\n  K   K10       1.0000  0.7103  0.1684  0.5622  1.0000\n  K   K11       1.0000  0.8964  0.2850  0.2933  1.0000\n  K   K12       1.0000  0.3964  0.2150  0.7067  1.0000\n  K   K13       1.0000  0.1036  0.7150  0.7067  1.0000\n  K   K14       1.0000  0.4350  0.6769  0.8129  1.0000\n  K   K15       1.0000  0.6036  0.7850  0.2933  1.0000\n  P   P1        1.0000  0.9921  0.9288  0.4318  1.0000\n  P   P2        1.0000  0.0079  0.0712  0.5682  1.0000\n  P   P3        1.0000  0.5079  0.4288  0.4318  1.0000\n  P   P4        1.0000  0.5281  0.9372  0.0692  1.0000\n  P   P5        1.0000  0.0281  0.5628  0.9308  1.0000\n  P   P6        1.0000  0.4719  0.0628  0.9308  1.0000\n  P   P7        1.0000  0.9719  0.4372  0.0692  1.0000\n  P   P8        1.0000  0.4921  0.5712  0.5682  1.0000\n  Se  Se2       1.0000  0.6766  0.4528  0.3900  1.0000\n  Se  Se3       1.0000  0.1766  0.0472  0.6100  1.0000\n  Se  Se4       1.0000  0.3234  0.5472  0.6100  1.0000\n  Se  Se5       1.0000  0.8234  0.9528  0.3900  1.0000\n  Se  Se6       1.0000  0.4656  0.1953  0.4683  1.0000\n  Se  Se7       1.0000  0.9656  0.3047  0.5317  1.0000\n  Se  Se8       1.0000  0.5344  0.8047  0.5317  1.0000\n  Se  Se9       1.0000  0.0344  0.6953  0.4683  1.0000\n  Se  Se10      1.0000  0.4010  0.5319  0.3228  1.0000\n  Se  Se11      1.0000  0.9010  0.9681  0.6772  1.0000\n  Se  Se12      1.0000  0.5990  0.4681  0.6772  1.0000\n  Se  Se13      1.0000  0.0990  0.0319  0.3228  1.0000\n  Se  Se14      1.0000  0.0845  0.4982  0.1836  1.0000\n  Se  Se15      1.0000  0.5845  0.0018  0.8164  1.0000\n  Se  Se16      1.0000  0.9155  0.5018  0.8164  1.0000\n  Se  Se17      1.0000  0.4155  0.9982  0.1836  1.0000\n  Se  Se18      1.0000  0.9710  0.1940  0.0402  1.0000\n  K   K16       1.0000  0.4710  0.3060  0.9598  1.0000\n  Se  Se19      1.0000  0.0290  0.8060  0.9598  1.0000\n  Se  Se20      1.0000  0.5290  0.6940  0.0402  1.0000\n  Se  Se21      1.0000  0.8096  0.5193  0.0985  1.0000\n  Se  Se22      1.0000  0.3096  0.9807  0.9015  1.0000\n  Se  Se23      1.0000  0.1904  0.4807  0.9015  1.0000\n  Se  Se24      1.0000  0.6904  0.0193  0.0985  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fa0a8597-1f10-45b0-a875-8d16d7d738cb",
    "mp_id": "mp-3138",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na8SnSb4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4519\n_cell_length_b   10.4519\n_cell_length_c   10.4518\n_cell_angle_alpha   59.9903\n_cell_angle_beta   59.9905\n_cell_angle_gamma   59.9902\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na8SnSb4\n_chemical_formula_sum   'Na16 Sn2 Sb8'\n_cell_volume   807.1794\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6250  0.1250  0.6250  1\n  Na  Na1  1  0.6250  0.6250  0.1250  1\n  Na  Na2  1  0.1250  0.6250  0.6250  1\n  Na  Na3  1  0.6250  0.6250  0.6250  1\n  Na  Na4  1  0.0203  0.0203  0.4797  1\n  Na  Na5  1  0.7703  0.2297  0.2297  1\n  Na  Na6  1  0.2297  0.7703  0.7703  1\n  Na  Na7  1  0.7703  0.7703  0.2297  1\n  Na  Na8  1  0.7703  0.2297  0.7703  1\n  Na  Na9  1  0.2297  0.7703  0.2297  1\n  Na  Na10  1  0.4797  0.0203  0.4797  1\n  Na  Na11  1  0.4797  0.0203  0.0203  1\n  Na  Na12  1  0.0203  0.4797  0.4797  1\n  Na  Na13  1  0.0203  0.4797  0.0203  1\n  Na  Na14  1  0.2297  0.2297  0.7703  1\n  Na  Na15  1  0.4797  0.4797  0.0203  1\n  Sn  Sn16  1  0.5000  0.5000  0.5000  1\n  Sn  Sn17  1  0.7500  0.7500  0.7500  1\n  Sb  Sb18  1  0.4154  0.8615  0.8615  1\n  Sb  Sb19  1  0.8615  0.8615  0.8615  1\n  Sb  Sb20  1  0.8344  0.3885  0.3885  1\n  Sb  Sb21  1  0.3885  0.3885  0.3885  1\n  Sb  Sb22  1  0.3885  0.3885  0.8344  1\n  Sb  Sb23  1  0.8615  0.4154  0.8615  1\n  Sb  Sb24  1  0.8615  0.8615  0.4154  1\n  Sb  Sb25  1  0.3885  0.8344  0.3885  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4SbNa11Sn2Sb4NaSb3\n_chemical_formula_sum              \"Na16 Sb8 Sn2\"\n_cell_length_a       10.4519\n_cell_length_b       10.4519\n_cell_length_c       10.4518\n_cell_angle_alpha    59.9903\n_cell_angle_beta     59.9905\n_cell_angle_gamma    59.9902\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6250  0.1250  0.6250  1.0000\n  Na  Na2       1.0000  0.6250  0.6250  0.1250  1.0000\n  Na  Na3       1.0000  0.1250  0.6250  0.6250  1.0000\n  Na  Na4       1.0000  0.6250  0.6250  0.6250  1.0000\n  Sb  Sb1       1.0000  0.0203  0.0203  0.4797  1.0000\n  Na  Na5       1.0000  0.7703  0.2297  0.2297  1.0000\n  Na  Na6       1.0000  0.2297  0.7703  0.7703  1.0000\n  Na  Na7       1.0000  0.7703  0.7703  0.2297  1.0000\n  Na  Na8       1.0000  0.7703  0.2297  0.7703  1.0000\n  Na  Na9       1.0000  0.2297  0.7703  0.2297  1.0000\n  Na  Na10      1.0000  0.4797  0.0203  0.4797  1.0000\n  Na  Na11      1.0000  0.4797  0.0203  0.0203  1.0000\n  Na  Na12      1.0000  0.0203  0.4797  0.4797  1.0000\n  Na  Na13      1.0000  0.0203  0.4797  0.0203  1.0000\n  Na  Na14      1.0000  0.2297  0.2297  0.7703  1.0000\n  Na  Na15      1.0000  0.4797  0.4797  0.0203  1.0000\n  Sn  Sn1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Sn  Sn2       1.0000  0.7500  0.7500  0.7500  1.0000\n  Sb  Sb2       1.0000  0.4154  0.8615  0.8615  1.0000\n  Sb  Sb3       1.0000  0.8615  0.8615  0.8615  1.0000\n  Sb  Sb4       1.0000  0.8344  0.3885  0.3885  1.0000\n  Sb  Sb5       1.0000  0.3885  0.3885  0.3885  1.0000\n  Na  Na16      1.0000  0.3885  0.3885  0.8344  1.0000\n  Sb  Sb6       1.0000  0.8615  0.4154  0.8615  1.0000\n  Sb  Sb7       1.0000  0.8615  0.8615  0.4154  1.0000\n  Sb  Sb8       1.0000  0.3885  0.8344  0.3885  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c637109a-324d-4791-a979-1c5c26ac7d79",
    "mp_id": "mp-31394",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 32 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca7Sn6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9369\n_cell_length_b   8.5066\n_cell_length_c   23.9069\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca7Sn6\n_chemical_formula_sum   'Ca28 Sn24'\n_cell_volume   1614.0976\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.9967  0.6748  0.6636  1\n  Ca  Ca1  1  0.4967  0.8252  0.8364  1\n  Ca  Ca2  1  0.5033  0.1748  0.3364  1\n  Ca  Ca3  1  0.0033  0.3252  0.1636  1\n  Ca  Ca4  1  0.0033  0.3252  0.3364  1\n  Ca  Ca5  1  0.5033  0.1748  0.1636  1\n  Ca  Ca6  1  0.4967  0.8252  0.6636  1\n  Ca  Ca7  1  0.9967  0.6748  0.8364  1\n  Ca  Ca8  1  0.8286  0.1797  0.6475  1\n  Ca  Ca9  1  0.3286  0.3202  0.8525  1\n  Ca  Ca10  1  0.6714  0.6797  0.3525  1\n  Ca  Ca11  1  0.1714  0.8203  0.1475  1\n  Ca  Ca12  1  0.1714  0.8203  0.3525  1\n  Ca  Ca13  1  0.6714  0.6797  0.1475  1\n  Ca  Ca14  1  0.3286  0.3202  0.6475  1\n  Ca  Ca15  1  0.8286  0.1797  0.8525  1\n  Ca  Ca16  1  0.6696  0.3258  0.0215  1\n  Ca  Ca17  1  0.1696  0.1742  0.4785  1\n  Ca  Ca18  1  0.8304  0.8258  0.9785  1\n  Ca  Ca19  1  0.3304  0.6742  0.5215  1\n  Ca  Ca20  1  0.3304  0.6742  0.9785  1\n  Ca  Ca21  1  0.8304  0.8258  0.5215  1\n  Ca  Ca22  1  0.1696  0.1742  0.0215  1\n  Ca  Ca23  1  0.6696  0.3258  0.4785  1\n  Ca  Ca24  1  0.6658  0.4938  0.7500  1\n  Ca  Ca25  1  0.1658  0.0062  0.7500  1\n  Ca  Ca26  1  0.8342  0.9938  0.2500  1\n  Ca  Ca27  1  0.3342  0.5062  0.2500  1\n  Sn  Sn28  1  0.0003  0.4445  0.5581  1\n  Sn  Sn29  1  0.5003  0.0555  0.9419  1\n  Sn  Sn30  1  0.4997  0.9445  0.4419  1\n  Sn  Sn31  1  0.9997  0.5555  0.0581  1\n  Sn  Sn32  1  0.9997  0.5555  0.4419  1\n  Sn  Sn33  1  0.4997  0.9445  0.0581  1\n  Sn  Sn34  1  0.5003  0.0555  0.5581  1\n  Sn  Sn35  1  0.0003  0.4445  0.9419  1\n  Sn  Sn36  1  0.8414  0.0248  0.0991  1\n  Sn  Sn37  1  0.3414  0.4752  0.4009  1\n  Sn  Sn38  1  0.6586  0.5248  0.9009  1\n  Sn  Sn39  1  0.1586  0.9752  0.5991  1\n  Sn  Sn40  1  0.1586  0.9752  0.9009  1\n  Sn  Sn41  1  0.6586  0.5248  0.5991  1\n  Sn  Sn42  1  0.3414  0.4752  0.0991  1\n  Sn  Sn43  1  0.8414  0.0248  0.4009  1\n  Sn  Sn44  1  0.7931  0.8867  0.7500  1\n  Sn  Sn45  1  0.2931  0.6133  0.7500  1\n  Sn  Sn46  1  0.7069  0.3867  0.2500  1\n  Sn  Sn47  1  0.2069  0.1133  0.2500  1\n  Sn  Sn48  1  0.5419  0.1353  0.7500  1\n  Sn  Sn49  1  0.0419  0.3647  0.7500  1\n  Sn  Sn50  1  0.9581  0.6353  0.2500  1\n  Sn  Sn51  1  0.4581  0.8647  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca9SnCa18Sn4CaSn19\n_chemical_formula_sum              \"Ca28 Sn24\"\n_cell_length_a       7.9369\n_cell_length_b       8.5066\n_cell_length_c       23.9069\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.9967  0.6748  0.6636  1.0000\n  Ca  Ca2       1.0000  0.4967  0.8252  0.8364  1.0000\n  Ca  Ca3       1.0000  0.5033  0.1748  0.3364  1.0000\n  Ca  Ca4       1.0000  0.0033  0.3252  0.1636  1.0000\n  Ca  Ca5       1.0000  0.0033  0.3252  0.3364  1.0000\n  Ca  Ca6       1.0000  0.5033  0.1748  0.1636  1.0000\n  Ca  Ca7       1.0000  0.4967  0.8252  0.6636  1.0000\n  Ca  Ca8       1.0000  0.9967  0.6748  0.8364  1.0000\n  Ca  Ca9       1.0000  0.8286  0.1797  0.6475  1.0000\n  Sn  Sn1       1.0000  0.3286  0.3202  0.8525  1.0000\n  Ca  Ca10      1.0000  0.6714  0.6797  0.3525  1.0000\n  Ca  Ca11      1.0000  0.1714  0.8203  0.1475  1.0000\n  Ca  Ca12      1.0000  0.1714  0.8203  0.3525  1.0000\n  Ca  Ca13      1.0000  0.6714  0.6797  0.1475  1.0000\n  Ca  Ca14      1.0000  0.3286  0.3202  0.6475  1.0000\n  Ca  Ca15      1.0000  0.8286  0.1797  0.8525  1.0000\n  Ca  Ca16      1.0000  0.6696  0.3258  0.0215  1.0000\n  Ca  Ca17      1.0000  0.1696  0.1742  0.4785  1.0000\n  Ca  Ca18      1.0000  0.8304  0.8258  0.9785  1.0000\n  Ca  Ca19      1.0000  0.3304  0.6742  0.5215  1.0000\n  Ca  Ca20      1.0000  0.3304  0.6742  0.9785  1.0000\n  Ca  Ca21      1.0000  0.8304  0.8258  0.5215  1.0000\n  Ca  Ca22      1.0000  0.1696  0.1742  0.0215  1.0000\n  Ca  Ca23      1.0000  0.6696  0.3258  0.4785  1.0000\n  Ca  Ca24      1.0000  0.6658  0.4938  0.7500  1.0000\n  Ca  Ca25      1.0000  0.1658  0.0062  0.7500  1.0000\n  Ca  Ca26      1.0000  0.8342  0.9938  0.2500  1.0000\n  Ca  Ca27      1.0000  0.3342  0.5062  0.2500  1.0000\n  Sn  Sn2       1.0000  0.0003  0.4445  0.5581  1.0000\n  Sn  Sn3       1.0000  0.5003  0.0555  0.9419  1.0000\n  Sn  Sn4       1.0000  0.4997  0.9445  0.4419  1.0000\n  Sn  Sn5       1.0000  0.9997  0.5555  0.0581  1.0000\n  Ca  Ca28      1.0000  0.9997  0.5555  0.4419  1.0000\n  Sn  Sn6       1.0000  0.4997  0.9445  0.0581  1.0000\n  Sn  Sn7       1.0000  0.5003  0.0555  0.5581  1.0000\n  Sn  Sn8       1.0000  0.0003  0.4445  0.9419  1.0000\n  Sn  Sn9       1.0000  0.8414  0.0248  0.0991  1.0000\n  Sn  Sn10      1.0000  0.3414  0.4752  0.4009  1.0000\n  Sn  Sn11      1.0000  0.6586  0.5248  0.9009  1.0000\n  Sn  Sn12      1.0000  0.1586  0.9752  0.5991  1.0000\n  Sn  Sn13      1.0000  0.1586  0.9752  0.9009  1.0000\n  Sn  Sn14      1.0000  0.6586  0.5248  0.5991  1.0000\n  Sn  Sn15      1.0000  0.3414  0.4752  0.0991  1.0000\n  Sn  Sn16      1.0000  0.8414  0.0248  0.4009  1.0000\n  Sn  Sn17      1.0000  0.7931  0.8867  0.7500  1.0000\n  Sn  Sn18      1.0000  0.2931  0.6133  0.7500  1.0000\n  Sn  Sn19      1.0000  0.7069  0.3867  0.2500  1.0000\n  Sn  Sn20      1.0000  0.2069  0.1133  0.2500  1.0000\n  Sn  Sn21      1.0000  0.5419  0.1353  0.7500  1.0000\n  Sn  Sn22      1.0000  0.0419  0.3647  0.7500  1.0000\n  Sn  Sn23      1.0000  0.9581  0.6353  0.2500  1.0000\n  Sn  Sn24      1.0000  0.4581  0.8647  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7a22aaac-bb8c-41ee-a738-ed9fdd9dd889",
    "mp_id": "mp-3205",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaCO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.3433\n_cell_length_b   4.9612\n_cell_length_c   5.1407\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaCO3\n_chemical_formula_sum   'Ca2 C2 O6'\n_cell_volume   110.7698\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6075  0.5000  0.0000  1\n  Ca  Ca1  1  0.3925  0.0000  0.5000  1\n  C  C2  1  0.9898  0.0000  0.0000  1\n  C  C3  1  0.0102  0.5000  0.5000  1\n  O  O4  1  0.1303  0.2290  0.0000  1\n  O  O5  1  0.1303  0.7710  0.0000  1\n  O  O6  1  0.3123  0.5000  0.5000  1\n  O  O7  1  0.6877  0.0000  0.0000  1\n  O  O8  1  0.8697  0.2710  0.5000  1\n  O  O9  1  0.8697  0.7290  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2OCO3CO2\n_chemical_formula_sum              \"Ca2 O6 C2\"\n_cell_length_a       4.3433\n_cell_length_b       4.9612\n_cell_length_c       5.1407\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.6075  0.5000  0.0000  1.0000\n  Ca  Ca2       1.0000  0.3925  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.9898  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.0102  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.1303  0.2290  0.0000  1.0000\n  O   O3        1.0000  0.1303  0.7710  0.0000  1.0000\n  O   O4        1.0000  0.3123  0.5000  0.5000  1.0000\n  C   C2        1.0000  0.6877  0.0000  0.0000  1.0000\n  O   O5        1.0000  0.8697  0.2710  0.5000  1.0000\n  O   O6        1.0000  0.8697  0.7290  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c76917ce-3ae9-4767-b2c7-da350b9cf67a",
    "mp_id": "mp-3216726",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Yb4MnS7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4455\n_cell_length_b   6.4455\n_cell_length_c   11.3047\n_cell_angle_alpha   75.8674\n_cell_angle_beta   75.8674\n_cell_angle_gamma   33.5571\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Yb4MnS7\n_chemical_formula_sum   'Yb4 Mn1 S7'\n_cell_volume   251.0223\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Yb  Yb0  1  0.6950  0.6950  0.2010  1\n  Yb  Yb1  1  0.3068  0.3068  0.8010  1\n  Yb  Yb2  1  0.0009  0.0009  0.0047  1\n  Yb  Yb3  1  0.1127  0.1127  0.5693  1\n  Mn  Mn4  1  0.8852  0.8852  0.4208  1\n  S  S5  1  0.7416  0.7416  0.6419  1\n  S  S6  1  0.2639  0.2639  0.3536  1\n  S  S7  1  0.3408  0.3408  0.0507  1\n  S  S8  1  0.6604  0.6604  0.9479  1\n  S  S9  1  0.0374  0.0374  0.2219  1\n  S  S10  1  0.9621  0.9621  0.7856  1\n  S  S11  1  0.4933  0.4933  0.5015  1\n",
    "output": "data_image0\n_chemical_formula_structural       Yb4S3MnS4\n_chemical_formula_sum              \"Yb4 S7 Mn1\"\n_cell_length_a       6.4455\n_cell_length_b       6.4455\n_cell_length_c       11.3047\n_cell_angle_alpha    75.8674\n_cell_angle_beta     75.8674\n_cell_angle_gamma    33.5571\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Yb  Yb1       1.0000  0.6950  0.6950  0.2010  1.0000\n  Yb  Yb2       1.0000  0.3068  0.3068  0.8010  1.0000\n  Yb  Yb3       1.0000  0.0009  0.0009  0.0047  1.0000\n  Yb  Yb4       1.0000  0.1127  0.1127  0.5693  1.0000\n  S   S1        1.0000  0.8852  0.8852  0.4208  1.0000\n  S   S2        1.0000  0.7416  0.7416  0.6419  1.0000\n  S   S3        1.0000  0.2639  0.2639  0.3536  1.0000\n  Mn  Mn1       1.0000  0.3408  0.3408  0.0507  1.0000\n  S   S4        1.0000  0.6604  0.6604  0.9479  1.0000\n  S   S5        1.0000  0.0374  0.0374  0.2219  1.0000\n  S   S6        1.0000  0.9621  0.9621  0.7856  1.0000\n  S   S7        1.0000  0.4933  0.4933  0.5015  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2942ccb4-5c50-4aae-b814-8a09992ac93b",
    "mp_id": "mp-32528",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3V3(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1139\n_cell_length_b   7.6704\n_cell_length_c   10.1988\n_cell_angle_alpha   85.7182\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3V3(PO4)4\n_chemical_formula_sum   'Li6 V6 P8 O32'\n_cell_volume   632.9718\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6312  0.1583  0.1712  1\n  Li  Li1  1  0.3667  0.3476  0.0763  1\n  Li  Li2  1  0.8667  0.6524  0.9237  1\n  Li  Li3  1  0.1312  0.8417  0.8288  1\n  Li  Li4  1  0.8586  0.6386  0.4221  1\n  Li  Li5  1  0.3586  0.3614  0.5779  1\n  V  V6  1  0.6395  0.1428  0.6777  1\n  V  V7  1  0.5115  0.7415  0.3705  1\n  V  V8  1  0.1395  0.8572  0.3223  1\n  V  V9  1  0.4947  0.7364  0.8754  1\n  V  V10  1  0.9947  0.2636  0.1246  1\n  V  V11  1  0.0115  0.2585  0.6295  1\n  P  P12  1  0.1882  0.4504  0.8586  1\n  P  P13  1  0.3027  0.9502  0.6062  1\n  P  P14  1  0.6986  0.5481  0.6461  1\n  P  P15  1  0.6882  0.5496  0.1414  1\n  P  P16  1  0.3150  0.9486  0.0992  1\n  P  P17  1  0.8150  0.0514  0.9008  1\n  P  P18  1  0.1986  0.4519  0.3539  1\n  P  P19  1  0.8027  0.0498  0.3938  1\n  O  O20  1  0.1351  0.0031  0.1519  1\n  O  O21  1  0.1417  0.3184  0.4649  1\n  O  O22  1  0.8538  0.1929  0.7832  1\n  O  O23  1  0.4301  0.1007  0.0921  1\n  O  O24  1  0.8594  0.1931  0.2908  1\n  O  O25  1  0.5696  0.3986  0.1565  1\n  O  O26  1  0.3594  0.8069  0.7092  1\n  O  O27  1  0.4250  0.1048  0.5941  1\n  O  O28  1  0.6362  0.6928  0.0324  1\n  O  O29  1  0.6956  0.6445  0.2739  1\n  O  O30  1  0.8037  0.1303  0.5336  1\n  O  O31  1  0.0696  0.6014  0.8435  1\n  O  O32  1  0.1362  0.3072  0.9676  1\n  O  O33  1  0.8722  0.4856  0.6055  1\n  O  O34  1  0.6294  0.9865  0.3583  1\n  O  O35  1  0.5785  0.3868  0.6549  1\n  O  O36  1  0.1910  0.3648  0.2226  1\n  O  O37  1  0.6417  0.6816  0.5351  1\n  O  O38  1  0.3667  0.5051  0.8962  1\n  O  O39  1  0.3538  0.8071  0.2168  1\n  O  O40  1  0.8667  0.4949  0.1038  1\n  O  O41  1  0.3037  0.8697  0.4664  1\n  O  O42  1  0.8053  0.1441  0.0294  1\n  O  O43  1  0.1956  0.3554  0.7261  1\n  O  O44  1  0.6351  0.9969  0.8481  1\n  O  O45  1  0.6910  0.6352  0.7774  1\n  O  O46  1  0.3053  0.8559  0.9706  1\n  O  O47  1  0.0785  0.6132  0.3451  1\n  O  O48  1  0.9250  0.8952  0.4059  1\n  O  O49  1  0.9301  0.8993  0.9079  1\n  O  O50  1  0.1294  0.0135  0.6417  1\n  O  O51  1  0.3722  0.5144  0.3945  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6V6P5OP2O10PO21\n_chemical_formula_sum              \"Li6 V6 P8 O32\"\n_cell_length_a       8.1139\n_cell_length_b       7.6704\n_cell_length_c       10.1988\n_cell_angle_alpha    85.7182\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6312  0.1583  0.1712  1.0000\n  Li  Li2       1.0000  0.3667  0.3475  0.0763  1.0000\n  Li  Li3       1.0000  0.8667  0.6524  0.9237  1.0000\n  Li  Li4       1.0000  0.1312  0.8417  0.8288  1.0000\n  Li  Li5       1.0000  0.8586  0.6386  0.4221  1.0000\n  Li  Li6       1.0000  0.3586  0.3614  0.5779  1.0000\n  V   V1        1.0000  0.6395  0.1428  0.6777  1.0000\n  V   V2        1.0000  0.5115  0.7415  0.3705  1.0000\n  V   V3        1.0000  0.1395  0.8572  0.3223  1.0000\n  V   V4        1.0000  0.4947  0.7364  0.8754  1.0000\n  V   V5        1.0000  0.9947  0.2636  0.1246  1.0000\n  V   V6        1.0000  0.0115  0.2585  0.6295  1.0000\n  P   P1        1.0000  0.1882  0.4504  0.8586  1.0000\n  P   P2        1.0000  0.3027  0.9502  0.6062  1.0000\n  P   P3        1.0000  0.6986  0.5481  0.6461  1.0000\n  P   P4        1.0000  0.6882  0.5496  0.1414  1.0000\n  P   P5        1.0000  0.3150  0.9486  0.0992  1.0000\n  O   O1        1.0000  0.8150  0.0514  0.9008  1.0000\n  P   P6        1.0000  0.1986  0.4519  0.3539  1.0000\n  P   P7        1.0000  0.8027  0.0498  0.3938  1.0000\n  O   O2        1.0000  0.1351  0.0031  0.1519  1.0000\n  O   O3        1.0000  0.1417  0.3184  0.4649  1.0000\n  O   O4        1.0000  0.8538  0.1929  0.7832  1.0000\n  O   O5        1.0000  0.4301  0.1007  0.0921  1.0000\n  O   O6        1.0000  0.8594  0.1931  0.2908  1.0000\n  O   O7        1.0000  0.5696  0.3986  0.1565  1.0000\n  O   O8        1.0000  0.3594  0.8069  0.7092  1.0000\n  O   O9        1.0000  0.4250  0.1048  0.5941  1.0000\n  O   O10       1.0000  0.6362  0.6928  0.0324  1.0000\n  O   O11       1.0000  0.6956  0.6445  0.2739  1.0000\n  P   P8        1.0000  0.8037  0.1303  0.5336  1.0000\n  O   O12       1.0000  0.0696  0.6014  0.8435  1.0000\n  O   O13       1.0000  0.1362  0.3072  0.9676  1.0000\n  O   O14       1.0000  0.8722  0.4856  0.6055  1.0000\n  O   O15       1.0000  0.6294  0.9865  0.3583  1.0000\n  O   O16       1.0000  0.5785  0.3868  0.6549  1.0000\n  O   O17       1.0000  0.1910  0.3648  0.2226  1.0000\n  O   O18       1.0000  0.6417  0.6816  0.5351  1.0000\n  O   O19       1.0000  0.3667  0.5051  0.8962  1.0000\n  O   O20       1.0000  0.3538  0.8071  0.2168  1.0000\n  O   O21       1.0000  0.8667  0.4949  0.1038  1.0000\n  O   O22       1.0000  0.3037  0.8697  0.4664  1.0000\n  O   O23       1.0000  0.8053  0.1441  0.0294  1.0000\n  O   O24       1.0000  0.1956  0.3554  0.7261  1.0000\n  O   O25       1.0000  0.6351  0.9969  0.8481  1.0000\n  O   O26       1.0000  0.6910  0.6352  0.7774  1.0000\n  O   O27       1.0000  0.3053  0.8559  0.9706  1.0000\n  O   O28       1.0000  0.0785  0.6132  0.3451  1.0000\n  O   O29       1.0000  0.9250  0.8952  0.4059  1.0000\n  O   O30       1.0000  0.9301  0.8993  0.9079  1.0000\n  O   O31       1.0000  0.1294  0.0135  0.6417  1.0000\n  O   O32       1.0000  0.3722  0.5144  0.3945  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "beb300d3-c0d8-4a76-a49d-05af1a81541a",
    "mp_id": "mp-3316",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaCeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2303\n_cell_length_b   6.2356\n_cell_length_c   6.2356\n_cell_angle_alpha   60.7077\n_cell_angle_beta   60.0280\n_cell_angle_gamma   60.0280\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaCeO3\n_chemical_formula_sum   'Ba2 Ce2 O6'\n_cell_volume   172.2671\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7500  0.2592  0.7408  1\n  Ba  Ba1  1  0.2500  0.7408  0.2592  1\n  Ce  Ce2  1  0.0000  0.5000  0.0000  1\n  Ce  Ce3  1  0.5000  -0.0000  0.5000  1\n  O  O4  1  0.2047  0.2953  0.2953  1\n  O  O5  1  0.2953  0.7047  0.7047  1\n  O  O6  1  0.7953  0.7047  0.7047  1\n  O  O7  1  0.7047  0.2953  0.2953  1\n  O  O8  1  0.2500  0.1695  0.8305  1\n  O  O9  1  0.7500  0.8305  0.1695  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2OCeO4CeO\n_chemical_formula_sum              \"Ba2 O6 Ce2\"\n_cell_length_a       6.2303\n_cell_length_b       6.2356\n_cell_length_c       6.2356\n_cell_angle_alpha    60.7077\n_cell_angle_beta     60.0280\n_cell_angle_gamma    60.0280\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7500  0.2592  0.7408  1.0000\n  Ba  Ba2       1.0000  0.2500  0.7408  0.2592  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Ce  Ce1       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.2047  0.2953  0.2953  1.0000\n  O   O3        1.0000  0.2953  0.7047  0.7047  1.0000\n  O   O4        1.0000  0.7953  0.7047  0.7047  1.0000\n  O   O5        1.0000  0.7047  0.2953  0.2953  1.0000\n  Ce  Ce2       1.0000  0.2500  0.1695  0.8305  1.0000\n  O   O6        1.0000  0.7500  0.8305  0.1695  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ea3dc334-a680-4fce-a4f4-0b259c9cf130",
    "mp_id": "mp-33325",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg(FeO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0380\n_cell_length_b   6.0380\n_cell_length_c   20.0140\n_cell_angle_alpha   81.2345\n_cell_angle_beta   81.2345\n_cell_angle_gamma   60.0243\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg(FeO2)2\n_chemical_formula_sum   'Mg8 Fe16 O32'\n_cell_volume   622.1916\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.8464  0.8464  0.9695  1\n  Mg  Mg1  1  0.3762  0.3762  0.8751  1\n  Mg  Mg2  1  0.5967  0.5967  0.7184  1\n  Mg  Mg3  1  0.1256  0.1256  0.6246  1\n  Mg  Mg4  1  0.8750  0.8750  0.3752  1\n  Mg  Mg5  1  0.9999  0.9999  0.5003  1\n  Mg  Mg6  1  0.6253  0.6253  0.1257  1\n  Mg  Mg7  1  0.7498  0.7498  0.2505  1\n  Fe  Fe8  1  0.3778  0.8665  0.8752  1\n  Fe  Fe9  1  0.2503  0.2503  0.7470  1\n  Fe  Fe10  1  0.8665  0.3778  0.8752  1\n  Fe  Fe11  1  0.3478  0.3478  0.4672  1\n  Fe  Fe12  1  0.1255  0.6218  0.6250  1\n  Fe  Fe13  1  0.9025  0.9025  0.7808  1\n  Fe  Fe14  1  0.0975  0.0975  0.2184  1\n  Fe  Fe15  1  0.6218  0.1255  0.6250  1\n  Fe  Fe16  1  0.8748  0.3748  0.3753  1\n  Fe  Fe17  1  0.6520  0.6520  0.5328  1\n  Fe  Fe18  1  0.3748  0.8748  0.3753  1\n  Fe  Fe19  1  0.1200  0.6270  0.1256  1\n  Fe  Fe20  1  0.6270  0.1200  0.1256  1\n  Fe  Fe21  1  0.4022  0.4022  0.2825  1\n  Fe  Fe22  1  0.5000  0.5000  0.9972  1\n  Fe  Fe23  1  0.1526  0.1526  0.0304  1\n  O  O24  1  0.6800  0.2154  0.9362  1\n  O  O25  1  0.5642  0.5642  0.8197  1\n  O  O26  1  0.2154  0.6800  0.9362  1\n  O  O27  1  0.6767  0.6767  0.9354  1\n  O  O28  1  0.0705  0.0705  0.8144  1\n  O  O29  1  0.4295  0.9677  0.6856  1\n  O  O30  1  0.5431  0.0685  0.8140  1\n  O  O31  1  0.3138  0.3138  0.5660  1\n  O  O32  1  0.9677  0.4295  0.6856  1\n  O  O33  1  0.1871  0.1871  0.9327  1\n  O  O34  1  0.4257  0.4257  0.6849  1\n  O  O35  1  0.0685  0.5431  0.8140  1\n  O  O36  1  0.1851  0.7049  0.4349  1\n  O  O37  1  0.8188  0.8188  0.5657  1\n  O  O38  1  0.2967  0.8143  0.5652  1\n  O  O39  1  0.0633  0.0633  0.3176  1\n  O  O40  1  0.7049  0.1851  0.4349  1\n  O  O41  1  0.9371  0.9371  0.6829  1\n  O  O42  1  0.1802  0.1802  0.4344  1\n  O  O43  1  0.8143  0.2967  0.5652  1\n  O  O44  1  0.5696  0.5696  0.3152  1\n  O  O45  1  0.9357  0.4524  0.1853  1\n  O  O46  1  0.0462  0.5647  0.3147  1\n  O  O47  1  0.8135  0.8135  0.0715  1\n  O  O48  1  0.4524  0.9357  0.1853  1\n  O  O49  1  0.6867  0.6867  0.4323  1\n  O  O50  1  0.9314  0.9314  0.1848  1\n  O  O51  1  0.5647  0.0462  0.3147  1\n  O  O52  1  0.3212  0.3212  0.0640  1\n  O  O53  1  0.7925  0.3188  0.0635  1\n  O  O54  1  0.4366  0.4366  0.1820  1\n  O  O55  1  0.3188  0.7925  0.0635  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg6FeMgFe15MgO32\n_chemical_formula_sum              \"Mg8 Fe16 O32\"\n_cell_length_a       6.0380\n_cell_length_b       6.0380\n_cell_length_c       20.0140\n_cell_angle_alpha    81.2345\n_cell_angle_beta     81.2345\n_cell_angle_gamma    60.0243\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.8464  0.8464  0.9695  1.0000\n  Mg  Mg2       1.0000  0.3762  0.3762  0.8751  1.0000\n  Mg  Mg3       1.0000  0.5967  0.5967  0.7184  1.0000\n  Mg  Mg4       1.0000  0.1256  0.1256  0.6246  1.0000\n  Mg  Mg5       1.0000  0.8750  0.8750  0.3752  1.0000\n  Mg  Mg6       1.0000  0.9999  0.9999  0.5004  1.0000\n  Fe  Fe1       1.0000  0.6253  0.6253  0.1257  1.0000\n  Mg  Mg7       1.0000  0.7498  0.7498  0.2505  1.0000\n  Fe  Fe2       1.0000  0.3778  0.8665  0.8752  1.0000\n  Fe  Fe3       1.0000  0.2503  0.2503  0.7470  1.0000\n  Fe  Fe4       1.0000  0.8665  0.3778  0.8752  1.0000\n  Fe  Fe5       1.0000  0.3478  0.3478  0.4672  1.0000\n  Fe  Fe6       1.0000  0.1255  0.6218  0.6250  1.0000\n  Fe  Fe7       1.0000  0.9025  0.9025  0.7808  1.0000\n  Fe  Fe8       1.0000  0.0975  0.0975  0.2184  1.0000\n  Fe  Fe9       1.0000  0.6218  0.1255  0.6250  1.0000\n  Fe  Fe10      1.0000  0.8748  0.3748  0.3753  1.0000\n  Fe  Fe11      1.0000  0.6520  0.6520  0.5328  1.0000\n  Fe  Fe12      1.0000  0.3748  0.8748  0.3753  1.0000\n  Fe  Fe13      1.0000  0.1200  0.6270  0.1256  1.0000\n  Fe  Fe14      1.0000  0.6270  0.1200  0.1256  1.0000\n  Fe  Fe15      1.0000  0.4022  0.4022  0.2825  1.0000\n  Fe  Fe16      1.0000  0.5000  0.5000  0.9972  1.0000\n  Mg  Mg8       1.0000  0.1526  0.1526  0.0304  1.0000\n  O   O1        1.0000  0.6800  0.2154  0.9362  1.0000\n  O   O2        1.0000  0.5642  0.5642  0.8197  1.0000\n  O   O3        1.0000  0.2154  0.6800  0.9362  1.0000\n  O   O4        1.0000  0.6767  0.6767  0.9354  1.0000\n  O   O5        1.0000  0.0705  0.0705  0.8144  1.0000\n  O   O6        1.0000  0.4295  0.9677  0.6856  1.0000\n  O   O7        1.0000  0.5431  0.0685  0.8140  1.0000\n  O   O8        1.0000  0.3138  0.3138  0.5660  1.0000\n  O   O9        1.0000  0.9677  0.4295  0.6856  1.0000\n  O   O10       1.0000  0.1871  0.1871  0.9327  1.0000\n  O   O11       1.0000  0.4257  0.4257  0.6849  1.0000\n  O   O12       1.0000  0.0685  0.5431  0.8140  1.0000\n  O   O13       1.0000  0.1851  0.7049  0.4349  1.0000\n  O   O14       1.0000  0.8188  0.8188  0.5657  1.0000\n  O   O15       1.0000  0.2967  0.8143  0.5652  1.0000\n  O   O16       1.0000  0.0633  0.0633  0.3176  1.0000\n  O   O17       1.0000  0.7049  0.1851  0.4349  1.0000\n  O   O18       1.0000  0.9371  0.9371  0.6829  1.0000\n  O   O19       1.0000  0.1802  0.1802  0.4344  1.0000\n  O   O20       1.0000  0.8143  0.2967  0.5652  1.0000\n  O   O21       1.0000  0.5696  0.5696  0.3152  1.0000\n  O   O22       1.0000  0.9357  0.4524  0.1853  1.0000\n  O   O23       1.0000  0.0462  0.5647  0.3147  1.0000\n  O   O24       1.0000  0.8135  0.8135  0.0715  1.0000\n  O   O25       1.0000  0.4524  0.9357  0.1853  1.0000\n  O   O26       1.0000  0.6867  0.6867  0.4323  1.0000\n  O   O27       1.0000  0.9314  0.9314  0.1848  1.0000\n  O   O28       1.0000  0.5647  0.0462  0.3147  1.0000\n  O   O29       1.0000  0.3212  0.3212  0.0640  1.0000\n  O   O30       1.0000  0.7925  0.3188  0.0635  1.0000\n  O   O31       1.0000  0.4366  0.4366  0.1820  1.0000\n  O   O32       1.0000  0.3188  0.7925  0.0635  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "07aef8a0-5c0f-479c-b8fe-3724242615c2",
    "mp_id": "mp-34185",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca(PrS2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4733\n_cell_length_b   7.4733\n_cell_length_c   7.4733\n_cell_angle_alpha   109.6823\n_cell_angle_beta   109.6823\n_cell_angle_gamma   109.0498\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca(PrS2)2\n_chemical_formula_sum   'Ca2 Pr4 S8'\n_cell_volume   321.2857\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.0000  -0.0000  -0.0000  1\n  Ca  Ca1  1  0.7500  0.2500  0.5000  1\n  Pr  Pr2  1  0.3750  0.7542  0.8792  1\n  Pr  Pr3  1  0.2458  0.1250  0.6208  1\n  Pr  Pr4  1  0.8750  0.4958  0.1208  1\n  Pr  Pr5  1  0.5042  0.6250  0.3792  1\n  S  S6  1  0.4842  0.2313  0.1068  1\n  S  S7  1  0.6256  0.0187  0.7529  1\n  S  S8  1  0.7687  0.8756  0.2529  1\n  S  S9  1  0.1273  0.3744  0.3932  1\n  S  S10  1  0.2658  0.8727  0.2471  1\n  S  S11  1  0.6227  0.5158  0.7471  1\n  S  S12  1  0.1244  0.3773  0.8932  1\n  S  S13  1  0.9813  0.7342  0.6068  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2SPr3SPrS6\n_chemical_formula_sum              \"Ca2 S8 Pr4\"\n_cell_length_a       7.4733\n_cell_length_b       7.4733\n_cell_length_c       7.4733\n_cell_angle_alpha    109.6823\n_cell_angle_beta     109.6823\n_cell_angle_gamma    109.0498\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ca  Ca2       1.0000  0.7500  0.2500  0.5000  1.0000\n  S   S1        1.0000  0.3750  0.7542  0.8792  1.0000\n  Pr  Pr1       1.0000  0.2458  0.1250  0.6208  1.0000\n  Pr  Pr2       1.0000  0.8750  0.4958  0.1208  1.0000\n  Pr  Pr3       1.0000  0.5042  0.6250  0.3792  1.0000\n  S   S2        1.0000  0.4842  0.2313  0.1068  1.0000\n  Pr  Pr4       1.0000  0.6256  0.0187  0.7529  1.0000\n  S   S3        1.0000  0.7687  0.8756  0.2529  1.0000\n  S   S4        1.0000  0.1273  0.3744  0.3932  1.0000\n  S   S5        1.0000  0.2658  0.8727  0.2471  1.0000\n  S   S6        1.0000  0.6227  0.5158  0.7471  1.0000\n  S   S7        1.0000  0.1244  0.3773  0.8932  1.0000\n  S   S8        1.0000  0.9813  0.7342  0.6068  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cb94dbde-591e-45a1-a9ab-fb1469c886e8",
    "mp_id": "mp-3538",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg3TeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.7340\n_cell_length_b   11.7341\n_cell_length_c   11.7340\n_cell_angle_alpha   109.4721\n_cell_angle_beta   109.4708\n_cell_angle_gamma   109.4706\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg3TeO6\n_chemical_formula_sum   'Hg24 Te8 O48'\n_cell_volume   1243.7122\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.1678  0.8309  0.7480  1\n  Hg  Hg1  1  0.9171  0.6691  0.8370  1\n  Hg  Hg2  1  0.3321  0.0801  0.6630  1\n  Hg  Hg3  1  0.4199  0.7520  0.5829  1\n  Hg  Hg4  1  0.7520  0.5829  0.4199  1\n  Hg  Hg5  1  0.7480  0.1679  0.8309  1\n  Hg  Hg6  1  0.6691  0.8370  0.9171  1\n  Hg  Hg7  1  0.6630  0.3321  0.0801  1\n  Hg  Hg8  1  0.8309  0.7480  0.1679  1\n  Hg  Hg9  1  0.8370  0.9171  0.6691  1\n  Hg  Hg10  1  0.0801  0.6630  0.3321  1\n  Hg  Hg11  1  0.5829  0.4199  0.7520  1\n  Hg  Hg12  1  0.8321  0.1691  0.2520  1\n  Hg  Hg13  1  0.0829  0.3309  0.1630  1\n  Hg  Hg14  1  0.6679  0.9199  0.3370  1\n  Hg  Hg15  1  0.5801  0.2480  0.4171  1\n  Hg  Hg16  1  0.2480  0.4171  0.5802  1\n  Hg  Hg17  1  0.2520  0.8321  0.1691  1\n  Hg  Hg18  1  0.3309  0.1630  0.0829  1\n  Hg  Hg19  1  0.3370  0.6679  0.9199  1\n  Hg  Hg20  1  0.1691  0.2520  0.8321  1\n  Hg  Hg21  1  0.1630  0.0829  0.3309  1\n  Hg  Hg22  1  0.9199  0.3370  0.6678  1\n  Hg  Hg23  1  0.4171  0.5801  0.2480  1\n  Te  Te24  1  0.5000  -0.0000  0.9999  1\n  Te  Te25  1  1.0000  0.0000  0.5000  1\n  Te  Te26  1  0.0001  0.5000  -0.0000  1\n  Te  Te27  1  0.5000  0.5000  0.5000  1\n  Te  Te28  1  0.5000  0.0000  0.5000  1\n  Te  Te29  1  -0.0000  -0.0000  0.0000  1\n  Te  Te30  1  1.0000  0.5000  0.5000  1\n  Te  Te31  1  0.5000  0.5000  0.0000  1\n  O  O32  1  0.4896  0.8512  0.8519  1\n  O  O33  1  0.0009  0.6488  0.1385  1\n  O  O34  1  0.0104  0.8623  0.3615  1\n  O  O35  1  0.6377  0.6480  0.4992  1\n  O  O36  1  0.6480  0.4992  0.6377  1\n  O  O37  1  0.8520  0.4896  0.8511  1\n  O  O38  1  0.6488  0.1385  0.0008  1\n  O  O39  1  0.3615  0.0104  0.8623  1\n  O  O40  1  0.8511  0.8520  0.4896  1\n  O  O41  1  0.1385  0.0008  0.6488  1\n  O  O42  1  0.8624  0.3615  0.0104  1\n  O  O43  1  0.4992  0.6377  0.6480  1\n  O  O44  1  0.5104  0.1489  0.1480  1\n  O  O45  1  0.9993  0.3511  0.8615  1\n  O  O46  1  0.9896  0.1377  0.6385  1\n  O  O47  1  0.3623  0.3520  0.5008  1\n  O  O48  1  0.3520  0.5008  0.3623  1\n  O  O49  1  0.1481  0.5103  0.1488  1\n  O  O50  1  0.3511  0.8615  0.9992  1\n  O  O51  1  0.5009  0.6489  0.1381  1\n  O  O52  1  0.6385  0.9896  0.1376  1\n  O  O53  1  0.8615  0.9992  0.3511  1\n  O  O54  1  0.1378  0.6385  0.9896  1\n  O  O55  1  0.5008  0.3623  0.3520  1\n  O  O56  1  0.1381  0.5009  0.6489  1\n  O  O57  1  0.1480  0.9991  0.1372  1\n  O  O58  1  0.3619  0.0108  0.3628  1\n  O  O59  1  0.4892  0.8511  0.3520  1\n  O  O60  1  0.8511  0.3520  0.4892  1\n  O  O61  1  0.6489  0.1381  0.5009  1\n  O  O62  1  0.9991  0.1372  0.1480  1\n  O  O63  1  0.3628  0.3619  0.0108  1\n  O  O64  1  0.6480  0.5108  0.1489  1\n  O  O65  1  0.9892  0.6372  0.6381  1\n  O  O66  1  0.8628  0.8520  0.0009  1\n  O  O67  1  0.4991  0.3511  0.8619  1\n  O  O68  1  0.6372  0.6381  0.9892  1\n  O  O69  1  0.0009  0.8628  0.8520  1\n  O  O70  1  0.3511  0.8619  0.4991  1\n  O  O71  1  0.1489  0.6480  0.5108  1\n  O  O72  1  0.5108  0.1489  0.6480  1\n  O  O73  1  0.6381  0.9892  0.6372  1\n  O  O74  1  0.8520  0.0009  0.8628  1\n  O  O75  1  0.8619  0.4991  0.3511  1\n  O  O76  1  0.3520  0.4892  0.8511  1\n  O  O77  1  0.0108  0.3628  0.3619  1\n  O  O78  1  0.1372  0.1480  0.9991  1\n  O  O79  1  0.1488  0.1480  0.5104  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg10OHg13Te8OHgO46\n_chemical_formula_sum              \"Hg24 O48 Te8\"\n_cell_length_a       11.7340\n_cell_length_b       11.7341\n_cell_length_c       11.7340\n_cell_angle_alpha    109.4721\n_cell_angle_beta     109.4708\n_cell_angle_gamma    109.4706\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.1678  0.8309  0.7480  1.0000\n  Hg  Hg2       1.0000  0.9171  0.6691  0.8370  1.0000\n  Hg  Hg3       1.0000  0.3321  0.0801  0.6630  1.0000\n  Hg  Hg4       1.0000  0.4199  0.7520  0.5829  1.0000\n  Hg  Hg5       1.0000  0.7520  0.5829  0.4199  1.0000\n  Hg  Hg6       1.0000  0.7480  0.1679  0.8309  1.0000\n  Hg  Hg7       1.0000  0.6691  0.8370  0.9171  1.0000\n  Hg  Hg8       1.0000  0.6630  0.3321  0.0801  1.0000\n  Hg  Hg9       1.0000  0.8309  0.7480  0.1679  1.0000\n  Hg  Hg10      1.0000  0.8370  0.9171  0.6691  1.0000\n  O   O1        1.0000  0.0801  0.6630  0.3321  1.0000\n  Hg  Hg11      1.0000  0.5829  0.4199  0.7520  1.0000\n  Hg  Hg12      1.0000  0.8321  0.1691  0.2520  1.0000\n  Hg  Hg13      1.0000  0.0829  0.3309  0.1630  1.0000\n  Hg  Hg14      1.0000  0.6679  0.9199  0.3370  1.0000\n  Hg  Hg15      1.0000  0.5801  0.2480  0.4171  1.0000\n  Hg  Hg16      1.0000  0.2480  0.4171  0.5802  1.0000\n  Hg  Hg17      1.0000  0.2520  0.8321  0.1691  1.0000\n  Hg  Hg18      1.0000  0.3309  0.1630  0.0829  1.0000\n  Hg  Hg19      1.0000  0.3370  0.6679  0.9199  1.0000\n  Hg  Hg20      1.0000  0.1691  0.2520  0.8321  1.0000\n  Hg  Hg21      1.0000  0.1630  0.0829  0.3309  1.0000\n  Hg  Hg22      1.0000  0.9199  0.3370  0.6678  1.0000\n  Hg  Hg23      1.0000  0.4171  0.5801  0.2480  1.0000\n  Te  Te1       1.0000  0.5000  1.0000  0.9999  1.0000\n  Te  Te2       1.0000  1.0000  0.0000  0.5000  1.0000\n  Te  Te3       1.0000  0.0001  0.5000  1.0000  1.0000\n  Te  Te4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Te  Te5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Te  Te6       1.0000  1.0000  1.0000  0.0000  1.0000\n  Te  Te7       1.0000  1.0000  0.5000  0.5000  1.0000\n  Te  Te8       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.4896  0.8512  0.8519  1.0000\n  Hg  Hg24      1.0000  0.0009  0.6488  0.1385  1.0000\n  O   O3        1.0000  0.0104  0.8623  0.3615  1.0000\n  O   O4        1.0000  0.6377  0.6480  0.4992  1.0000\n  O   O5        1.0000  0.6480  0.4992  0.6377  1.0000\n  O   O6        1.0000  0.8520  0.4896  0.8511  1.0000\n  O   O7        1.0000  0.6488  0.1385  0.0008  1.0000\n  O   O8        1.0000  0.3615  0.0104  0.8623  1.0000\n  O   O9        1.0000  0.8511  0.8520  0.4896  1.0000\n  O   O10       1.0000  0.1385  0.0008  0.6488  1.0000\n  O   O11       1.0000  0.8624  0.3615  0.0104  1.0000\n  O   O12       1.0000  0.4992  0.6377  0.6480  1.0000\n  O   O13       1.0000  0.5104  0.1489  0.1480  1.0000\n  O   O14       1.0000  0.9993  0.3511  0.8615  1.0000\n  O   O15       1.0000  0.9896  0.1377  0.6385  1.0000\n  O   O16       1.0000  0.3623  0.3520  0.5008  1.0000\n  O   O17       1.0000  0.3520  0.5008  0.3623  1.0000\n  O   O18       1.0000  0.1481  0.5103  0.1488  1.0000\n  O   O19       1.0000  0.3511  0.8615  0.9992  1.0000\n  O   O20       1.0000  0.5009  0.6489  0.1381  1.0000\n  O   O21       1.0000  0.6385  0.9896  0.1376  1.0000\n  O   O22       1.0000  0.8615  0.9992  0.3511  1.0000\n  O   O23       1.0000  0.1378  0.6385  0.9896  1.0000\n  O   O24       1.0000  0.5008  0.3623  0.3520  1.0000\n  O   O25       1.0000  0.1381  0.5009  0.6489  1.0000\n  O   O26       1.0000  0.1480  0.9991  0.1372  1.0000\n  O   O27       1.0000  0.3619  0.0108  0.3628  1.0000\n  O   O28       1.0000  0.4892  0.8511  0.3520  1.0000\n  O   O29       1.0000  0.8511  0.3520  0.4892  1.0000\n  O   O30       1.0000  0.6489  0.1381  0.5009  1.0000\n  O   O31       1.0000  0.9991  0.1372  0.1480  1.0000\n  O   O32       1.0000  0.3628  0.3619  0.0108  1.0000\n  O   O33       1.0000  0.6480  0.5108  0.1489  1.0000\n  O   O34       1.0000  0.9892  0.6372  0.6381  1.0000\n  O   O35       1.0000  0.8628  0.8520  0.0009  1.0000\n  O   O36       1.0000  0.4991  0.3511  0.8619  1.0000\n  O   O37       1.0000  0.6372  0.6381  0.9892  1.0000\n  O   O38       1.0000  0.0009  0.8628  0.8520  1.0000\n  O   O39       1.0000  0.3511  0.8619  0.4991  1.0000\n  O   O40       1.0000  0.1489  0.6480  0.5108  1.0000\n  O   O41       1.0000  0.5108  0.1489  0.6480  1.0000\n  O   O42       1.0000  0.6381  0.9892  0.6372  1.0000\n  O   O43       1.0000  0.8520  0.0009  0.8628  1.0000\n  O   O44       1.0000  0.8619  0.4991  0.3511  1.0000\n  O   O45       1.0000  0.3520  0.4892  0.8511  1.0000\n  O   O46       1.0000  0.0108  0.3628  0.3619  1.0000\n  O   O47       1.0000  0.1372  0.1480  0.9991  1.0000\n  O   O48       1.0000  0.1488  0.1480  0.5104  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "48da2051-91a9-4b46-a621-bc3a1ec54f89",
    "mp_id": "mp-36310",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Al2CrS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1132\n_cell_length_b   7.1132\n_cell_length_c   7.1132\n_cell_angle_alpha   120.5030\n_cell_angle_beta   119.2420\n_cell_angle_gamma   90.2244\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Al2CrS4\n_chemical_formula_sum   'Al4 Cr2 S8'\n_cell_volume   254.9484\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Al  Al0  1  0.8810  0.1310  0.7500  1\n  Al  Al1  1  0.1190  0.8690  0.2500  1\n  Al  Al2  1  0.0000  0.5000  0.5000  1\n  Al  Al3  1  0.5000  0.5000  0.0000  1\n  Cr  Cr4  1  0.5000  0.5000  0.5000  1\n  Cr  Cr5  1  0.5000  0.0000  0.0000  1\n  S  S6  1  0.2551  0.7413  0.5138  1\n  S  S7  1  0.7275  0.7413  0.9862  1\n  S  S8  1  0.2568  0.2715  0.5147  1\n  S  S9  1  0.2568  0.7421  0.9853  1\n  S  S10  1  0.7432  0.2579  0.0147  1\n  S  S11  1  0.7432  0.7285  0.4853  1\n  S  S12  1  0.2725  0.2587  0.0138  1\n  S  S13  1  0.7449  0.2587  0.4862  1\n",
    "output": "data_image0\n_chemical_formula_structural       Al3SCr2SAlS6\n_chemical_formula_sum              \"Al4 S8 Cr2\"\n_cell_length_a       7.1132\n_cell_length_b       7.1132\n_cell_length_c       7.1132\n_cell_angle_alpha    120.5030\n_cell_angle_beta     119.2420\n_cell_angle_gamma    90.2244\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Al  Al1       1.0000  0.8810  0.1310  0.7500  1.0000\n  Al  Al2       1.0000  0.1190  0.8690  0.2500  1.0000\n  Al  Al3       1.0000  0.0000  0.5000  0.5000  1.0000\n  S   S1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Cr  Cr1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr2       1.0000  0.5000  0.0000  0.0000  1.0000\n  S   S2        1.0000  0.2551  0.7413  0.5138  1.0000\n  Al  Al4       1.0000  0.7275  0.7413  0.9862  1.0000\n  S   S3        1.0000  0.2568  0.2715  0.5147  1.0000\n  S   S4        1.0000  0.2568  0.7421  0.9853  1.0000\n  S   S5        1.0000  0.7432  0.2579  0.0147  1.0000\n  S   S6        1.0000  0.7432  0.7285  0.4853  1.0000\n  S   S7        1.0000  0.2725  0.2587  0.0138  1.0000\n  S   S8        1.0000  0.7449  0.2587  0.4862  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6c8f30c3-6298-4d08-8ee9-e1f4286a448f",
    "mp_id": "mp-36484",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 45 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V8Ni2O15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5202\n_cell_length_b   5.5202\n_cell_length_c   21.0257\n_cell_angle_alpha   86.2726\n_cell_angle_beta   86.2726\n_cell_angle_gamma   54.9950\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V8Ni2O15\n_chemical_formula_sum   'V16 Ni4 O30'\n_cell_volume   523.3897\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.4934  0.9910  0.9284  1\n  V  V1  1  0.2230  0.6993  0.9718  1\n  V  V2  1  0.8104  0.3139  0.1695  1\n  V  V3  1  0.7770  0.3007  0.0282  1\n  V  V4  1  0.6861  0.1896  0.3305  1\n  V  V5  1  0.5066  0.0090  0.0717  1\n  V  V6  1  0.3931  0.8859  0.2307  1\n  V  V7  1  0.3007  0.7770  0.5282  1\n  V  V8  1  0.1141  0.6069  0.2693  1\n  V  V9  1  0.0090  0.5066  0.5716  1\n  V  V10  1  0.9910  0.4934  0.4284  1\n  V  V11  1  0.8859  0.3931  0.7307  1\n  V  V12  1  0.6993  0.2230  0.4718  1\n  V  V13  1  0.6069  0.1141  0.7693  1\n  V  V14  1  0.3139  0.8104  0.6695  1\n  V  V15  1  0.1896  0.6861  0.8305  1\n  Ni  Ni16  1  0.0879  0.5994  0.1304  1\n  Ni  Ni17  1  0.4006  0.9121  0.3696  1\n  Ni  Ni18  1  0.5994  0.0879  0.6304  1\n  Ni  Ni19  1  0.9121  0.4006  0.8696  1\n  O  O20  1  0.7775  0.9666  0.9885  1\n  O  O21  1  0.3380  0.4581  0.0482  1\n  O  O22  1  0.2398  0.4312  0.9115  1\n  O  O23  1  0.7602  0.5688  0.0885  1\n  O  O24  1  0.6620  0.5419  0.9518  1\n  O  O25  1  0.3775  0.5702  0.1904  1\n  O  O26  1  0.2225  0.0334  0.0115  1\n  O  O27  1  0.9441  0.0559  0.2500  1\n  O  O28  1  0.8227  0.0404  0.1084  1\n  O  O29  1  0.3623  0.1704  0.2853  1\n  O  O30  1  0.2586  0.1293  0.1518  1\n  O  O31  1  0.9596  0.1773  0.3916  1\n  O  O32  1  0.8296  0.6377  0.2147  1\n  O  O33  1  0.5419  0.6620  0.4518  1\n  O  O34  1  0.4298  0.6225  0.3096  1\n  O  O35  1  0.9666  0.7775  0.4885  1\n  O  O36  1  0.8707  0.7414  0.3482  1\n  O  O37  1  0.5688  0.7602  0.5885  1\n  O  O38  1  0.4312  0.2398  0.4115  1\n  O  O39  1  0.1293  0.2586  0.6518  1\n  O  O40  1  0.0334  0.2225  0.5115  1\n  O  O41  1  0.5702  0.3775  0.6904  1\n  O  O42  1  0.4581  0.3380  0.5482  1\n  O  O43  1  0.1704  0.3623  0.7853  1\n  O  O44  1  0.0404  0.8227  0.6084  1\n  O  O45  1  0.7414  0.8707  0.8482  1\n  O  O46  1  0.6377  0.8296  0.7147  1\n  O  O47  1  0.1773  0.9596  0.8916  1\n  O  O48  1  0.0559  0.9441  0.7500  1\n  O  O49  1  0.6225  0.4298  0.8096  1\n",
    "output": "data_image0\n_chemical_formula_structural       V2OV13Ni4O25VO4\n_chemical_formula_sum              \"V16 O30 Ni4\"\n_cell_length_a       5.5202\n_cell_length_b       5.5202\n_cell_length_c       21.0257\n_cell_angle_alpha    86.2726\n_cell_angle_beta     86.2726\n_cell_angle_gamma    54.9950\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.4934  0.9910  0.9284  1.0000\n  V   V2        1.0000  0.2230  0.6993  0.9718  1.0000\n  O   O1        1.0000  0.8104  0.3139  0.1695  1.0000\n  V   V3        1.0000  0.7770  0.3007  0.0282  1.0000\n  V   V4        1.0000  0.6861  0.1896  0.3305  1.0000\n  V   V5        1.0000  0.5066  0.0090  0.0717  1.0000\n  V   V6        1.0000  0.3931  0.8859  0.2307  1.0000\n  V   V7        1.0000  0.3007  0.7770  0.5282  1.0000\n  V   V8        1.0000  0.1141  0.6069  0.2693  1.0000\n  V   V9        1.0000  0.0090  0.5066  0.5716  1.0000\n  V   V10       1.0000  0.9910  0.4934  0.4284  1.0000\n  V   V11       1.0000  0.8859  0.3931  0.7307  1.0000\n  V   V12       1.0000  0.6993  0.2230  0.4718  1.0000\n  V   V13       1.0000  0.6069  0.1141  0.7693  1.0000\n  V   V14       1.0000  0.3139  0.8104  0.6695  1.0000\n  V   V15       1.0000  0.1896  0.6861  0.8305  1.0000\n  Ni  Ni1       1.0000  0.0879  0.5994  0.1304  1.0000\n  Ni  Ni2       1.0000  0.4006  0.9121  0.3696  1.0000\n  Ni  Ni3       1.0000  0.5994  0.0879  0.6304  1.0000\n  Ni  Ni4       1.0000  0.9121  0.4006  0.8696  1.0000\n  O   O2        1.0000  0.7775  0.9666  0.9885  1.0000\n  O   O3        1.0000  0.3380  0.4581  0.0482  1.0000\n  O   O4        1.0000  0.2398  0.4312  0.9115  1.0000\n  O   O5        1.0000  0.7602  0.5688  0.0885  1.0000\n  O   O6        1.0000  0.6620  0.5419  0.9518  1.0000\n  O   O7        1.0000  0.3775  0.5702  0.1904  1.0000\n  O   O8        1.0000  0.2225  0.0334  0.0115  1.0000\n  O   O9        1.0000  0.9441  0.0559  0.2500  1.0000\n  O   O10       1.0000  0.8227  0.0404  0.1084  1.0000\n  O   O11       1.0000  0.3623  0.1704  0.2853  1.0000\n  O   O12       1.0000  0.2586  0.1293  0.1518  1.0000\n  O   O13       1.0000  0.9596  0.1773  0.3916  1.0000\n  O   O14       1.0000  0.8296  0.6377  0.2147  1.0000\n  O   O15       1.0000  0.5419  0.6620  0.4518  1.0000\n  O   O16       1.0000  0.4298  0.6225  0.3096  1.0000\n  O   O17       1.0000  0.9666  0.7775  0.4885  1.0000\n  O   O18       1.0000  0.8707  0.7414  0.3482  1.0000\n  O   O19       1.0000  0.5688  0.7602  0.5885  1.0000\n  O   O20       1.0000  0.4312  0.2398  0.4115  1.0000\n  O   O21       1.0000  0.1293  0.2586  0.6518  1.0000\n  O   O22       1.0000  0.0334  0.2225  0.5115  1.0000\n  O   O23       1.0000  0.5702  0.3775  0.6904  1.0000\n  O   O24       1.0000  0.4581  0.3380  0.5482  1.0000\n  O   O25       1.0000  0.1704  0.3623  0.7853  1.0000\n  O   O26       1.0000  0.0404  0.8227  0.6084  1.0000\n  V   V16       1.0000  0.7414  0.8707  0.8482  1.0000\n  O   O27       1.0000  0.6377  0.8297  0.7147  1.0000\n  O   O28       1.0000  0.1773  0.9596  0.8916  1.0000\n  O   O29       1.0000  0.0559  0.9441  0.7500  1.0000\n  O   O30       1.0000  0.6225  0.4298  0.8096  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "81ca1797-8b68-401c-879a-c82ea38ddacd",
    "mp_id": "mp-4419",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaNbO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5735\n_cell_length_b   5.5735\n_cell_length_c   4.0179\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaNbO3\n_chemical_formula_sum   'Na2 Nb2 O6'\n_cell_volume   124.8139\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  0.5000  0.5000  1\n  Na  Na1  1  0.5000  0.0000  0.5000  1\n  Nb  Nb2  1  0.5000  0.5000  0.0000  1\n  Nb  Nb3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.8011  0.6989  0.0000  1\n  O  O5  1  0.6989  0.1989  0.0000  1\n  O  O6  1  0.3011  0.8011  0.0000  1\n  O  O7  1  0.1989  0.3011  0.0000  1\n  O  O8  1  0.0000  0.0000  0.5000  1\n  O  O9  1  0.5000  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaONb2O5Na\n_chemical_formula_sum              \"Na2 O6 Nb2\"\n_cell_length_a       5.5735\n_cell_length_b       5.5735\n_cell_length_c       4.0179\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.0000  0.5000  1.0000\n  Nb  Nb1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Nb  Nb2       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.8011  0.6989  0.0000  1.0000\n  O   O3        1.0000  0.6989  0.1989  0.0000  1.0000\n  O   O4        1.0000  0.3011  0.8011  0.0000  1.0000\n  O   O5        1.0000  0.1989  0.3011  0.0000  1.0000\n  O   O6        1.0000  0.0000  0.0000  0.5000  1.0000\n  Na  Na2       1.0000  0.5000  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "325e89c9-8ee3-422a-aaa5-2569eecc7565",
    "mp_id": "mp-4421",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LaTaO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5718\n_cell_length_b   7.6708\n_cell_length_c   7.8153\n_cell_angle_alpha   78.7873\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LaTaO4\n_chemical_formula_sum   'La4 Ta4 O16'\n_cell_volume   327.6511\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.2275  0.3456  0.9021  1\n  La  La1  1  0.7275  0.6544  0.5979  1\n  La  La2  1  0.7725  0.6544  0.0979  1\n  La  La3  1  0.2725  0.3456  0.4021  1\n  Ta  Ta4  1  0.7339  0.1667  0.6964  1\n  Ta  Ta5  1  0.2339  0.8333  0.8036  1\n  Ta  Ta6  1  0.2661  0.8333  0.3036  1\n  Ta  Ta7  1  0.7661  0.1667  0.1964  1\n  O  O8  1  0.5100  0.3352  0.1359  1\n  O  O9  1  0.0100  0.6648  0.3641  1\n  O  O10  1  0.4900  0.6648  0.8641  1\n  O  O11  1  0.9900  0.3352  0.6359  1\n  O  O12  1  0.9837  0.3818  0.1685  1\n  O  O13  1  0.4837  0.6182  0.3315  1\n  O  O14  1  0.0163  0.6182  0.8315  1\n  O  O15  1  0.5163  0.3818  0.6685  1\n  O  O16  1  0.8366  0.1674  0.9474  1\n  O  O17  1  0.3366  0.8326  0.5526  1\n  O  O18  1  0.1634  0.8326  0.0526  1\n  O  O19  1  0.6634  0.1674  0.4474  1\n  O  O20  1  0.4167  0.0532  0.7913  1\n  O  O21  1  0.9167  0.9468  0.7087  1\n  O  O22  1  0.5833  0.9468  0.2087  1\n  O  O23  1  0.0833  0.0532  0.2913  1\n",
    "output": "data_image0\n_chemical_formula_structural       La2OLaTa4O8LaO7\n_chemical_formula_sum              \"La4 O16 Ta4\"\n_cell_length_a       5.5718\n_cell_length_b       7.6708\n_cell_length_c       7.8153\n_cell_angle_alpha    78.7873\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.2275  0.3456  0.9021  1.0000\n  La  La2       1.0000  0.7275  0.6544  0.5979  1.0000\n  O   O1        1.0000  0.7725  0.6544  0.0979  1.0000\n  La  La3       1.0000  0.2725  0.3456  0.4021  1.0000\n  Ta  Ta1       1.0000  0.7339  0.1667  0.6964  1.0000\n  Ta  Ta2       1.0000  0.2339  0.8333  0.8036  1.0000\n  Ta  Ta3       1.0000  0.2661  0.8333  0.3036  1.0000\n  Ta  Ta4       1.0000  0.7661  0.1667  0.1964  1.0000\n  O   O2        1.0000  0.5100  0.3352  0.1359  1.0000\n  O   O3        1.0000  0.0100  0.6648  0.3641  1.0000\n  O   O4        1.0000  0.4900  0.6648  0.8641  1.0000\n  O   O5        1.0000  0.9900  0.3352  0.6359  1.0000\n  O   O6        1.0000  0.9837  0.3818  0.1685  1.0000\n  O   O7        1.0000  0.4837  0.6182  0.3315  1.0000\n  O   O8        1.0000  0.0163  0.6182  0.8315  1.0000\n  O   O9        1.0000  0.5163  0.3818  0.6685  1.0000\n  La  La4       1.0000  0.8366  0.1674  0.9474  1.0000\n  O   O10       1.0000  0.3366  0.8326  0.5526  1.0000\n  O   O11       1.0000  0.1634  0.8326  0.0526  1.0000\n  O   O12       1.0000  0.6634  0.1674  0.4474  1.0000\n  O   O13       1.0000  0.4167  0.0532  0.7913  1.0000\n  O   O14       1.0000  0.9167  0.9468  0.7087  1.0000\n  O   O15       1.0000  0.5833  0.9468  0.2087  1.0000\n  O   O16       1.0000  0.0833  0.0532  0.2913  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "da10a313-367f-4fe2-b71c-f45d8da1c658",
    "mp_id": "mp-504149",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_FePO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5102\n_cell_length_b   9.1120\n_cell_length_c   18.2604\n_cell_angle_alpha   60.1070\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   FePO4\n_chemical_formula_sum   'Fe12 P12 O48'\n_cell_volume   1227.6156\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.7927  0.8438  0.5946  1\n  Fe  Fe1  1  0.7094  0.4748  0.4230  1\n  Fe  Fe2  1  0.2906  0.5252  0.5770  1\n  Fe  Fe3  1  0.7073  0.8438  0.0946  1\n  Fe  Fe4  1  0.2886  0.8152  0.7614  1\n  Fe  Fe5  1  0.7114  0.1848  0.2386  1\n  Fe  Fe6  1  0.2114  0.8152  0.2614  1\n  Fe  Fe7  1  0.2073  0.1562  0.4054  1\n  Fe  Fe8  1  0.7886  0.1848  0.7386  1\n  Fe  Fe9  1  0.7906  0.4748  0.9230  1\n  Fe  Fe10  1  0.2927  0.1562  0.9054  1\n  Fe  Fe11  1  0.2094  0.5252  0.0770  1\n  P  P12  1  0.3281  0.8405  0.0906  1\n  P  P13  1  0.6660  0.8187  0.7649  1\n  P  P14  1  0.8281  0.1595  0.4094  1\n  P  P15  1  0.8304  0.5256  0.0808  1\n  P  P16  1  0.3340  0.1813  0.2351  1\n  P  P17  1  0.3304  0.4744  0.4192  1\n  P  P18  1  0.1696  0.4744  0.9192  1\n  P  P19  1  0.6719  0.1595  0.9094  1\n  P  P20  1  0.1719  0.8405  0.5906  1\n  P  P21  1  0.6696  0.5256  0.5808  1\n  P  P22  1  0.1660  0.1813  0.7351  1\n  P  P23  1  0.8340  0.8187  0.2649  1\n  O  O24  1  0.1645  0.1209  0.8309  1\n  O  O25  1  0.4984  0.3999  0.4431  1\n  O  O26  1  0.7377  0.9571  0.7798  1\n  O  O27  1  0.1588  0.6650  0.8518  1\n  O  O28  1  0.5029  0.2195  0.1995  1\n  O  O29  1  0.9971  0.2195  0.6995  1\n  O  O30  1  0.0054  0.8824  0.6096  1\n  O  O31  1  0.2341  0.3441  0.1883  1\n  O  O32  1  0.7341  0.6559  0.3117  1\n  O  O33  1  0.6588  0.3350  0.6482  1\n  O  O34  1  0.2484  0.0026  0.0201  1\n  O  O35  1  0.9946  0.1176  0.3905  1\n  O  O36  1  0.7373  0.6197  0.1176  1\n  O  O37  1  0.5016  0.6001  0.5569  1\n  O  O38  1  0.5054  0.1176  0.8904  1\n  O  O39  1  0.2435  0.4537  0.4984  1\n  O  O40  1  0.6645  0.8791  0.6691  1\n  O  O41  1  0.3412  0.6650  0.3518  1\n  O  O42  1  0.7623  0.9571  0.2798  1\n  O  O43  1  0.2270  0.7696  0.1715  1\n  O  O44  1  0.8412  0.3350  0.1482  1\n  O  O45  1  0.0016  0.3999  0.9431  1\n  O  O46  1  0.2623  0.0429  0.2202  1\n  O  O47  1  0.7270  0.2304  0.3285  1\n  O  O48  1  0.2516  0.0026  0.5201  1\n  O  O49  1  0.8400  0.2939  0.4375  1\n  O  O50  1  0.8355  0.8791  0.1691  1\n  O  O51  1  0.2565  0.4537  0.9984  1\n  O  O52  1  0.2373  0.3803  0.3824  1\n  O  O53  1  0.2730  0.7696  0.6715  1\n  O  O54  1  0.7484  0.9974  0.4799  1\n  O  O55  1  0.0029  0.7805  0.3005  1\n  O  O56  1  0.7565  0.5463  0.5016  1\n  O  O57  1  0.1600  0.7061  0.5625  1\n  O  O58  1  0.2659  0.3441  0.6883  1\n  O  O59  1  0.7627  0.6197  0.6176  1\n  O  O60  1  0.2377  0.0429  0.7202  1\n  O  O61  1  0.7516  0.9974  0.9799  1\n  O  O62  1  0.7659  0.6559  0.8117  1\n  O  O63  1  0.4946  0.8824  0.1095  1\n  O  O64  1  0.6600  0.2939  0.9375  1\n  O  O65  1  0.3355  0.1209  0.3309  1\n  O  O66  1  0.2627  0.3803  0.8824  1\n  O  O67  1  0.7730  0.2304  0.8285  1\n  O  O68  1  0.4971  0.7805  0.8005  1\n  O  O69  1  0.9984  0.6001  0.0569  1\n  O  O70  1  0.7435  0.5463  0.0016  1\n  O  O71  1  0.3400  0.7061  0.0625  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe12P5OP6O14PO33\n_chemical_formula_sum              \"Fe12 P12 O48\"\n_cell_length_a       8.5102\n_cell_length_b       9.1120\n_cell_length_c       18.2604\n_cell_angle_alpha    60.1070\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.7927  0.8438  0.5946  1.0000\n  Fe  Fe2       1.0000  0.7094  0.4748  0.4230  1.0000\n  Fe  Fe3       1.0000  0.2906  0.5252  0.5770  1.0000\n  Fe  Fe4       1.0000  0.7073  0.8438  0.0946  1.0000\n  Fe  Fe5       1.0000  0.2886  0.8152  0.7614  1.0000\n  Fe  Fe6       1.0000  0.7114  0.1848  0.2386  1.0000\n  Fe  Fe7       1.0000  0.2114  0.8152  0.2614  1.0000\n  Fe  Fe8       1.0000  0.2073  0.1562  0.4054  1.0000\n  Fe  Fe9       1.0000  0.7886  0.1848  0.7386  1.0000\n  Fe  Fe10      1.0000  0.7906  0.4748  0.9230  1.0000\n  Fe  Fe11      1.0000  0.2927  0.1562  0.9054  1.0000\n  Fe  Fe12      1.0000  0.2094  0.5252  0.0770  1.0000\n  P   P1        1.0000  0.3281  0.8405  0.0906  1.0000\n  P   P2        1.0000  0.6660  0.8187  0.7649  1.0000\n  P   P3        1.0000  0.8281  0.1595  0.4094  1.0000\n  P   P4        1.0000  0.8304  0.5256  0.0808  1.0000\n  P   P5        1.0000  0.3340  0.1813  0.2351  1.0000\n  O   O1        1.0000  0.3304  0.4744  0.4192  1.0000\n  P   P6        1.0000  0.1696  0.4744  0.9192  1.0000\n  P   P7        1.0000  0.6719  0.1595  0.9094  1.0000\n  P   P8        1.0000  0.1719  0.8405  0.5906  1.0000\n  P   P9        1.0000  0.6696  0.5256  0.5808  1.0000\n  P   P10       1.0000  0.1660  0.1813  0.7351  1.0000\n  P   P11       1.0000  0.8340  0.8187  0.2649  1.0000\n  O   O2        1.0000  0.1645  0.1209  0.8309  1.0000\n  O   O3        1.0000  0.4984  0.3999  0.4431  1.0000\n  O   O4        1.0000  0.7377  0.9571  0.7798  1.0000\n  O   O5        1.0000  0.1588  0.6650  0.8518  1.0000\n  O   O6        1.0000  0.5029  0.2195  0.1995  1.0000\n  O   O7        1.0000  0.9971  0.2195  0.6995  1.0000\n  O   O8        1.0000  0.0054  0.8824  0.6096  1.0000\n  O   O9        1.0000  0.2341  0.3441  0.1883  1.0000\n  O   O10       1.0000  0.7341  0.6559  0.3117  1.0000\n  O   O11       1.0000  0.6588  0.3350  0.6482  1.0000\n  O   O12       1.0000  0.2484  0.0026  0.0201  1.0000\n  O   O13       1.0000  0.9946  0.1176  0.3905  1.0000\n  O   O14       1.0000  0.7373  0.6197  0.1176  1.0000\n  O   O15       1.0000  0.5016  0.6001  0.5569  1.0000\n  P   P12       1.0000  0.5054  0.1176  0.8904  1.0000\n  O   O16       1.0000  0.2435  0.4537  0.4984  1.0000\n  O   O17       1.0000  0.6645  0.8791  0.6691  1.0000\n  O   O18       1.0000  0.3412  0.6650  0.3518  1.0000\n  O   O19       1.0000  0.7623  0.9571  0.2798  1.0000\n  O   O20       1.0000  0.2270  0.7696  0.1715  1.0000\n  O   O21       1.0000  0.8412  0.3350  0.1482  1.0000\n  O   O22       1.0000  0.0016  0.3999  0.9431  1.0000\n  O   O23       1.0000  0.2623  0.0429  0.2202  1.0000\n  O   O24       1.0000  0.7270  0.2304  0.3285  1.0000\n  O   O25       1.0000  0.2516  0.0026  0.5201  1.0000\n  O   O26       1.0000  0.8400  0.2939  0.4375  1.0000\n  O   O27       1.0000  0.8355  0.8791  0.1691  1.0000\n  O   O28       1.0000  0.2565  0.4537  0.9984  1.0000\n  O   O29       1.0000  0.2373  0.3803  0.3824  1.0000\n  O   O30       1.0000  0.2730  0.7696  0.6715  1.0000\n  O   O31       1.0000  0.7484  0.9974  0.4799  1.0000\n  O   O32       1.0000  0.0029  0.7805  0.3005  1.0000\n  O   O33       1.0000  0.7565  0.5463  0.5016  1.0000\n  O   O34       1.0000  0.1600  0.7061  0.5625  1.0000\n  O   O35       1.0000  0.2659  0.3441  0.6883  1.0000\n  O   O36       1.0000  0.7627  0.6197  0.6176  1.0000\n  O   O37       1.0000  0.2377  0.0429  0.7202  1.0000\n  O   O38       1.0000  0.7516  0.9974  0.9799  1.0000\n  O   O39       1.0000  0.7659  0.6559  0.8117  1.0000\n  O   O40       1.0000  0.4946  0.8824  0.1095  1.0000\n  O   O41       1.0000  0.6600  0.2939  0.9375  1.0000\n  O   O42       1.0000  0.3355  0.1209  0.3309  1.0000\n  O   O43       1.0000  0.2627  0.3803  0.8824  1.0000\n  O   O44       1.0000  0.7730  0.2304  0.8285  1.0000\n  O   O45       1.0000  0.4971  0.7805  0.8005  1.0000\n  O   O46       1.0000  0.9984  0.6001  0.0569  1.0000\n  O   O47       1.0000  0.7435  0.5463  0.0016  1.0000\n  O   O48       1.0000  0.3400  0.7061  0.0625  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "043cf9b7-d5dd-4207-b923-5819da724ece",
    "mp_id": "mp-504509",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VFeO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7224\n_cell_length_b   8.0419\n_cell_length_c   9.3682\n_cell_angle_alpha   96.7039\n_cell_angle_beta   106.8281\n_cell_angle_gamma   101.5337\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VFeO4\n_chemical_formula_sum   'V6 Fe6 O24'\n_cell_volume   466.6736\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0055  0.9971  0.2571  1\n  V  V1  1  0.9945  0.0029  0.7429  1\n  V  V2  1  0.2001  0.6021  0.3427  1\n  V  V3  1  0.7999  0.3979  0.6573  1\n  V  V4  1  0.5220  0.3001  0.1264  1\n  V  V5  1  0.4780  0.6999  0.8736  1\n  Fe  Fe6  1  0.7571  0.6939  0.4116  1\n  Fe  Fe7  1  0.2429  0.3061  0.5884  1\n  Fe  Fe8  1  0.4664  0.8881  0.2109  1\n  Fe  Fe9  1  0.5336  0.1119  0.7891  1\n  Fe  Fe10  1  0.9737  0.3047  0.0142  1\n  Fe  Fe11  1  0.0263  0.6953  0.9858  1\n  O  O12  1  0.6464  0.4871  0.2520  1\n  O  O13  1  0.3536  0.5129  0.7480  1\n  O  O14  1  0.2546  0.4368  0.4271  1\n  O  O15  1  0.7454  0.5632  0.5729  1\n  O  O16  1  0.0531  0.7026  0.4266  1\n  O  O17  1  0.9469  0.2974  0.5734  1\n  O  O18  1  0.1608  0.0959  0.4313  1\n  O  O19  1  0.8392  0.9041  0.5687  1\n  O  O20  1  0.4515  0.7389  0.3599  1\n  O  O21  1  0.5485  0.2611  0.6401  1\n  O  O22  1  0.7615  0.8682  0.2630  1\n  O  O23  1  0.2385  0.1318  0.7370  1\n  O  O24  1  0.5252  0.1258  0.2166  1\n  O  O25  1  0.4748  0.8742  0.7834  1\n  O  O26  1  0.1506  0.8733  0.1767  1\n  O  O27  1  0.8494  0.1267  0.8233  1\n  O  O28  1  0.3574  0.7283  0.0189  1\n  O  O29  1  0.6426  0.2717  0.9811  1\n  O  O30  1  0.2633  0.2980  0.0365  1\n  O  O31  1  0.7367  0.7020  0.9635  1\n  O  O32  1  0.9506  0.1487  0.1527  1\n  O  O33  1  0.0494  0.8513  0.8473  1\n  O  O34  1  0.0548  0.5286  0.1476  1\n  O  O35  1  0.9452  0.4714  0.8524  1\n",
    "output": "data_image0\n_chemical_formula_structural       V3OV2Fe6OVO22\n_chemical_formula_sum              \"V6 O24 Fe6\"\n_cell_length_a       6.7224\n_cell_length_b       8.0419\n_cell_length_c       9.3682\n_cell_angle_alpha    96.7039\n_cell_angle_beta     106.8281\n_cell_angle_gamma    101.5337\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0055  0.9971  0.2571  1.0000\n  V   V2        1.0000  0.9945  0.0029  0.7429  1.0000\n  V   V3        1.0000  0.2001  0.6021  0.3427  1.0000\n  O   O1        1.0000  0.7999  0.3979  0.6573  1.0000\n  V   V4        1.0000  0.5220  0.3001  0.1264  1.0000\n  V   V5        1.0000  0.4780  0.6999  0.8736  1.0000\n  Fe  Fe1       1.0000  0.7571  0.6939  0.4116  1.0000\n  Fe  Fe2       1.0000  0.2429  0.3061  0.5884  1.0000\n  Fe  Fe3       1.0000  0.4664  0.8881  0.2109  1.0000\n  Fe  Fe4       1.0000  0.5336  0.1119  0.7891  1.0000\n  Fe  Fe5       1.0000  0.9737  0.3047  0.0142  1.0000\n  Fe  Fe6       1.0000  0.0263  0.6953  0.9858  1.0000\n  O   O2        1.0000  0.6464  0.4871  0.2520  1.0000\n  V   V6        1.0000  0.3536  0.5129  0.7480  1.0000\n  O   O3        1.0000  0.2546  0.4368  0.4271  1.0000\n  O   O4        1.0000  0.7454  0.5632  0.5729  1.0000\n  O   O5        1.0000  0.0531  0.7026  0.4266  1.0000\n  O   O6        1.0000  0.9469  0.2974  0.5734  1.0000\n  O   O7        1.0000  0.1608  0.0959  0.4313  1.0000\n  O   O8        1.0000  0.8392  0.9041  0.5687  1.0000\n  O   O9        1.0000  0.4515  0.7389  0.3599  1.0000\n  O   O10       1.0000  0.5485  0.2611  0.6401  1.0000\n  O   O11       1.0000  0.7615  0.8682  0.2630  1.0000\n  O   O12       1.0000  0.2385  0.1318  0.7370  1.0000\n  O   O13       1.0000  0.5252  0.1258  0.2166  1.0000\n  O   O14       1.0000  0.4748  0.8742  0.7834  1.0000\n  O   O15       1.0000  0.1506  0.8733  0.1767  1.0000\n  O   O16       1.0000  0.8494  0.1267  0.8233  1.0000\n  O   O17       1.0000  0.3574  0.7283  0.0189  1.0000\n  O   O18       1.0000  0.6426  0.2717  0.9811  1.0000\n  O   O19       1.0000  0.2633  0.2980  0.0365  1.0000\n  O   O20       1.0000  0.7367  0.7020  0.9635  1.0000\n  O   O21       1.0000  0.9506  0.1487  0.1527  1.0000\n  O   O22       1.0000  0.0494  0.8513  0.8473  1.0000\n  O   O23       1.0000  0.0548  0.5286  0.1476  1.0000\n  O   O24       1.0000  0.9452  0.4714  0.8524  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ff0a0246-d05b-42d7-a383-ac49a93c3337",
    "mp_id": "mp-505074",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VAs2H4O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3170\n_cell_length_b   9.3170\n_cell_length_c   8.2544\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VAs2H4O9\n_chemical_formula_sum   'V4 As8 H16 O36'\n_cell_volume   716.5287\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0000  0.5000  0.1970  1\n  V  V1  1  0.5000  0.0000  0.3030  1\n  V  V2  1  0.5000  0.0000  0.8030  1\n  V  V3  1  0.0000  0.5000  0.6970  1\n  As  As4  1  0.2849  0.7151  0.2500  1\n  As  As5  1  0.2151  0.2151  0.2500  1\n  As  As6  1  0.7849  0.7849  0.2500  1\n  As  As7  1  0.7151  0.2849  0.2500  1\n  As  As8  1  0.2151  0.7849  0.7500  1\n  As  As9  1  0.2849  0.2849  0.7500  1\n  As  As10  1  0.7151  0.7151  0.7500  1\n  As  As11  1  0.7849  0.2151  0.7500  1\n  H  H12  1  0.4588  0.6720  0.0531  1\n  H  H13  1  0.1720  0.0412  0.0531  1\n  H  H14  1  0.8280  0.9588  0.0531  1\n  H  H15  1  0.5412  0.3280  0.0531  1\n  H  H16  1  0.0412  0.1720  0.4469  1\n  H  H17  1  0.9588  0.8280  0.4469  1\n  H  H18  1  0.6720  0.4588  0.4469  1\n  H  H19  1  0.3280  0.5412  0.4469  1\n  H  H20  1  0.0412  0.8280  0.9469  1\n  H  H21  1  0.3280  0.4588  0.9469  1\n  H  H22  1  0.6720  0.5412  0.9469  1\n  H  H23  1  0.9588  0.1720  0.9469  1\n  H  H24  1  0.4588  0.3280  0.5531  1\n  H  H25  1  0.5412  0.6720  0.5531  1\n  H  H26  1  0.8280  0.0412  0.5531  1\n  H  H27  1  0.1720  0.9588  0.5531  1\n  O  O28  1  0.3618  0.6340  0.0770  1\n  O  O29  1  0.1340  0.1382  0.0770  1\n  O  O30  1  0.8660  0.8618  0.0770  1\n  O  O31  1  0.6382  0.3660  0.0770  1\n  O  O32  1  0.1382  0.1340  0.4230  1\n  O  O33  1  0.8618  0.8660  0.4230  1\n  O  O34  1  0.6340  0.3618  0.4230  1\n  O  O35  1  0.3660  0.6382  0.4230  1\n  O  O36  1  0.1382  0.8660  0.9230  1\n  O  O37  1  0.3660  0.3618  0.9230  1\n  O  O38  1  0.6340  0.6382  0.9230  1\n  O  O39  1  0.8618  0.1340  0.9230  1\n  O  O40  1  0.3618  0.3660  0.5770  1\n  O  O41  1  0.6382  0.6340  0.5770  1\n  O  O42  1  0.8660  0.1382  0.5770  1\n  O  O43  1  0.1340  0.8618  0.5770  1\n  O  O44  1  0.1064  0.6830  0.2438  1\n  O  O45  1  0.1830  0.3936  0.2438  1\n  O  O46  1  0.8170  0.6064  0.2438  1\n  O  O47  1  0.8936  0.3170  0.2438  1\n  O  O48  1  0.3936  0.1830  0.2562  1\n  O  O49  1  0.6064  0.8170  0.2562  1\n  O  O50  1  0.6830  0.1064  0.2562  1\n  O  O51  1  0.3170  0.8936  0.2562  1\n  O  O52  1  0.3936  0.8170  0.7562  1\n  O  O53  1  0.3170  0.1064  0.7562  1\n  O  O54  1  0.6830  0.8936  0.7562  1\n  O  O55  1  0.6064  0.1830  0.7562  1\n  O  O56  1  0.1064  0.3170  0.7438  1\n  O  O57  1  0.8936  0.6830  0.7438  1\n  O  O58  1  0.8170  0.3936  0.7438  1\n  O  O59  1  0.1830  0.6064  0.7438  1\n  O  O60  1  0.0000  0.5000  0.9971  1\n  O  O61  1  0.5000  0.0000  0.5029  1\n  O  O62  1  0.5000  0.0000  0.0029  1\n  O  O63  1  0.0000  0.5000  0.4971  1\n",
    "output": "data_image0\n_chemical_formula_structural       V4As8H12OH4O35\n_chemical_formula_sum              \"V4 As8 H16 O36\"\n_cell_length_a       9.3170\n_cell_length_b       9.3170\n_cell_length_c       8.2544\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0000  0.5000  0.1970  1.0000\n  V   V2        1.0000  0.5000  0.0000  0.3030  1.0000\n  V   V3        1.0000  0.5000  0.0000  0.8030  1.0000\n  V   V4        1.0000  0.0000  0.5000  0.6970  1.0000\n  As  As1       1.0000  0.2849  0.7151  0.2500  1.0000\n  As  As2       1.0000  0.2151  0.2151  0.2500  1.0000\n  As  As3       1.0000  0.7849  0.7849  0.2500  1.0000\n  As  As4       1.0000  0.7151  0.2849  0.2500  1.0000\n  As  As5       1.0000  0.2151  0.7849  0.7500  1.0000\n  As  As6       1.0000  0.2849  0.2849  0.7500  1.0000\n  As  As7       1.0000  0.7151  0.7151  0.7500  1.0000\n  As  As8       1.0000  0.7849  0.2151  0.7500  1.0000\n  H   H1        1.0000  0.4588  0.6720  0.0531  1.0000\n  H   H2        1.0000  0.1720  0.0412  0.0531  1.0000\n  H   H3        1.0000  0.8280  0.9588  0.0531  1.0000\n  H   H4        1.0000  0.5412  0.3280  0.0531  1.0000\n  H   H5        1.0000  0.0412  0.1720  0.4469  1.0000\n  H   H6        1.0000  0.9588  0.8280  0.4469  1.0000\n  H   H7        1.0000  0.6720  0.4588  0.4469  1.0000\n  H   H8        1.0000  0.3280  0.5412  0.4469  1.0000\n  H   H9        1.0000  0.0412  0.8280  0.9469  1.0000\n  H   H10       1.0000  0.3280  0.4588  0.9469  1.0000\n  H   H11       1.0000  0.6720  0.5412  0.9469  1.0000\n  H   H12       1.0000  0.9588  0.1720  0.9469  1.0000\n  O   O1        1.0000  0.4588  0.3280  0.5531  1.0000\n  H   H13       1.0000  0.5412  0.6720  0.5531  1.0000\n  H   H14       1.0000  0.8280  0.0412  0.5531  1.0000\n  H   H15       1.0000  0.1720  0.9588  0.5531  1.0000\n  H   H16       1.0000  0.3618  0.6340  0.0770  1.0000\n  O   O2        1.0000  0.1340  0.1382  0.0770  1.0000\n  O   O3        1.0000  0.8660  0.8618  0.0770  1.0000\n  O   O4        1.0000  0.6382  0.3660  0.0770  1.0000\n  O   O5        1.0000  0.1382  0.1340  0.4230  1.0000\n  O   O6        1.0000  0.8618  0.8660  0.4230  1.0000\n  O   O7        1.0000  0.6340  0.3618  0.4230  1.0000\n  O   O8        1.0000  0.3660  0.6382  0.4230  1.0000\n  O   O9        1.0000  0.1382  0.8660  0.9230  1.0000\n  O   O10       1.0000  0.3660  0.3618  0.9230  1.0000\n  O   O11       1.0000  0.6340  0.6382  0.9230  1.0000\n  O   O12       1.0000  0.8618  0.1340  0.9230  1.0000\n  O   O13       1.0000  0.3618  0.3660  0.5770  1.0000\n  O   O14       1.0000  0.6382  0.6340  0.5770  1.0000\n  O   O15       1.0000  0.8660  0.1382  0.5770  1.0000\n  O   O16       1.0000  0.1340  0.8618  0.5770  1.0000\n  O   O17       1.0000  0.1064  0.6830  0.2438  1.0000\n  O   O18       1.0000  0.1830  0.3936  0.2438  1.0000\n  O   O19       1.0000  0.8170  0.6064  0.2438  1.0000\n  O   O20       1.0000  0.8936  0.3170  0.2438  1.0000\n  O   O21       1.0000  0.3936  0.1830  0.2562  1.0000\n  O   O22       1.0000  0.6064  0.8170  0.2562  1.0000\n  O   O23       1.0000  0.6830  0.1064  0.2562  1.0000\n  O   O24       1.0000  0.3170  0.8936  0.2562  1.0000\n  O   O25       1.0000  0.3936  0.8170  0.7562  1.0000\n  O   O26       1.0000  0.3170  0.1064  0.7562  1.0000\n  O   O27       1.0000  0.6830  0.8936  0.7562  1.0000\n  O   O28       1.0000  0.6064  0.1830  0.7562  1.0000\n  O   O29       1.0000  0.1064  0.3170  0.7438  1.0000\n  O   O30       1.0000  0.8936  0.6830  0.7438  1.0000\n  O   O31       1.0000  0.8170  0.3936  0.7438  1.0000\n  O   O32       1.0000  0.1830  0.6064  0.7438  1.0000\n  O   O33       1.0000  0.0000  0.5000  0.9971  1.0000\n  O   O34       1.0000  0.5000  0.0000  0.5029  1.0000\n  O   O35       1.0000  0.5000  0.0000  0.0029  1.0000\n  O   O36       1.0000  0.0000  0.5000  0.4971  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8b249498-f85a-47fa-bad2-0d76c54d96b1",
    "mp_id": "mp-505217",
    "action_prompt": "Swap the spatial positions of atoms at indices 32 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co2PHO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0370\n_cell_length_b   8.1648\n_cell_length_c   8.4059\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co2PHO5\n_chemical_formula_sum   'Co8 P4 H4 O20'\n_cell_volume   414.3378\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.5000  0.3612  0.3696  1\n  Co  Co1  1  0.5000  0.6388  0.6304  1\n  Co  Co2  1  0.0000  0.8612  0.1304  1\n  Co  Co3  1  0.0000  0.1388  0.8696  1\n  Co  Co4  1  0.2549  0.5000  0.0000  1\n  Co  Co5  1  0.2451  0.0000  0.5000  1\n  Co  Co6  1  0.7451  0.5000  0.0000  1\n  Co  Co7  1  0.7549  0.0000  0.5000  1\n  P  P8  1  0.0000  0.2485  0.2408  1\n  P  P9  1  0.0000  0.7515  0.7592  1\n  P  P10  1  0.5000  0.7485  0.2592  1\n  P  P11  1  0.5000  0.2515  0.7408  1\n  H  H12  1  0.5000  0.2735  0.0817  1\n  H  H13  1  0.5000  0.7265  0.9183  1\n  H  H14  1  0.0000  0.7735  0.4183  1\n  H  H15  1  0.0000  0.2265  0.5817  1\n  O  O16  1  0.0000  0.1095  0.1130  1\n  O  O17  1  0.0000  0.8905  0.8870  1\n  O  O18  1  0.5000  0.6095  0.3870  1\n  O  O19  1  0.5000  0.3905  0.6130  1\n  O  O20  1  0.0000  0.4135  0.1468  1\n  O  O21  1  0.0000  0.5865  0.8532  1\n  O  O22  1  0.5000  0.9135  0.3532  1\n  O  O23  1  0.5000  0.0865  0.6468  1\n  O  O24  1  0.2087  0.2334  0.3485  1\n  O  O25  1  0.2087  0.7666  0.6515  1\n  O  O26  1  0.2913  0.7334  0.1515  1\n  O  O27  1  0.2913  0.2666  0.8485  1\n  O  O28  1  0.7913  0.7666  0.6515  1\n  O  O29  1  0.7913  0.2334  0.3485  1\n  O  O30  1  0.7087  0.2666  0.8485  1\n  O  O31  1  0.7087  0.7334  0.1515  1\n  O  O32  1  0.5000  0.3847  0.1244  1\n  O  O33  1  0.5000  0.6153  0.8756  1\n  O  O34  1  0.0000  0.8847  0.3756  1\n  O  O35  1  0.0000  0.1153  0.6244  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co8OP3H4O16PO3\n_chemical_formula_sum              \"Co8 O20 P4 H4\"\n_cell_length_a       6.0370\n_cell_length_b       8.1648\n_cell_length_c       8.4059\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.5000  0.3612  0.3696  1.0000\n  Co  Co2       1.0000  0.5000  0.6388  0.6304  1.0000\n  Co  Co3       1.0000  0.0000  0.8612  0.1304  1.0000\n  Co  Co4       1.0000  0.0000  0.1388  0.8696  1.0000\n  Co  Co5       1.0000  0.2549  0.5000  0.0000  1.0000\n  Co  Co6       1.0000  0.2451  0.0000  0.5000  1.0000\n  Co  Co7       1.0000  0.7451  0.5000  0.0000  1.0000\n  Co  Co8       1.0000  0.7549  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.2485  0.2408  1.0000\n  P   P1        1.0000  0.0000  0.7515  0.7592  1.0000\n  P   P2        1.0000  0.5000  0.7485  0.2592  1.0000\n  P   P3        1.0000  0.5000  0.2515  0.7408  1.0000\n  H   H1        1.0000  0.5000  0.2735  0.0817  1.0000\n  H   H2        1.0000  0.5000  0.7265  0.9183  1.0000\n  H   H3        1.0000  0.0000  0.7735  0.4183  1.0000\n  H   H4        1.0000  0.0000  0.2265  0.5817  1.0000\n  O   O2        1.0000  0.0000  0.1095  0.1130  1.0000\n  O   O3        1.0000  0.0000  0.8905  0.8870  1.0000\n  O   O4        1.0000  0.5000  0.6095  0.3870  1.0000\n  O   O5        1.0000  0.5000  0.3905  0.6130  1.0000\n  O   O6        1.0000  0.0000  0.4135  0.1468  1.0000\n  O   O7        1.0000  0.0000  0.5865  0.8532  1.0000\n  O   O8        1.0000  0.5000  0.9135  0.3532  1.0000\n  O   O9        1.0000  0.5000  0.0865  0.6468  1.0000\n  O   O10       1.0000  0.2087  0.2334  0.3485  1.0000\n  O   O11       1.0000  0.2087  0.7666  0.6515  1.0000\n  O   O12       1.0000  0.2913  0.7334  0.1515  1.0000\n  O   O13       1.0000  0.2913  0.2666  0.8485  1.0000\n  O   O14       1.0000  0.7913  0.7666  0.6515  1.0000\n  O   O15       1.0000  0.7913  0.2334  0.3485  1.0000\n  O   O16       1.0000  0.7087  0.2666  0.8485  1.0000\n  O   O17       1.0000  0.7087  0.7334  0.1515  1.0000\n  P   P4        1.0000  0.5000  0.3847  0.1244  1.0000\n  O   O18       1.0000  0.5000  0.6153  0.8756  1.0000\n  O   O19       1.0000  0.0000  0.8847  0.3756  1.0000\n  O   O20       1.0000  0.0000  0.1153  0.6244  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1f0b5c88-fa07-43fd-a153-35445fd9a011",
    "mp_id": "mp-505540",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiAsRh\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.8146\n_cell_length_b   6.3703\n_cell_length_c   7.3971\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiAsRh\n_chemical_formula_sum   'Ti4 As4 Rh4'\n_cell_volume   179.7522\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.7500  0.0316  0.3181  1\n  Ti  Ti1  1  0.2500  0.9684  0.6819  1\n  Ti  Ti2  1  0.2500  0.4684  0.8181  1\n  Ti  Ti3  1  0.7500  0.5316  0.1819  1\n  As  As4  1  0.2500  0.2511  0.1217  1\n  As  As5  1  0.7500  0.7489  0.8783  1\n  As  As6  1  0.2500  0.7511  0.3783  1\n  As  As7  1  0.7500  0.2489  0.6217  1\n  Rh  Rh8  1  0.7500  0.1430  0.9357  1\n  Rh  Rh9  1  0.2500  0.8570  0.0643  1\n  Rh  Rh10  1  0.2500  0.3570  0.4357  1\n  Rh  Rh11  1  0.7500  0.6430  0.5643  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti2AsTi2As3Rh4\n_chemical_formula_sum              \"Ti4 As4 Rh4\"\n_cell_length_a       3.8146\n_cell_length_b       6.3703\n_cell_length_c       7.3971\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.7500  0.0316  0.3181  1.0000\n  Ti  Ti2       1.0000  0.2500  0.9684  0.6819  1.0000\n  As  As1       1.0000  0.2500  0.4684  0.8181  1.0000\n  Ti  Ti3       1.0000  0.7500  0.5316  0.1819  1.0000\n  Ti  Ti4       1.0000  0.2500  0.2511  0.1217  1.0000\n  As  As2       1.0000  0.7500  0.7489  0.8783  1.0000\n  As  As3       1.0000  0.2500  0.7511  0.3783  1.0000\n  As  As4       1.0000  0.7500  0.2489  0.6217  1.0000\n  Rh  Rh1       1.0000  0.7500  0.1430  0.9357  1.0000\n  Rh  Rh2       1.0000  0.2500  0.8570  0.0643  1.0000\n  Rh  Rh3       1.0000  0.2500  0.3570  0.4357  1.0000\n  Rh  Rh4       1.0000  0.7500  0.6430  0.5643  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7de9e3e6-9bc2-4dab-bc8a-ad7e6db6bfdd",
    "mp_id": "mp-505573",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Zr3V3C\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6639\n_cell_length_b   8.6639\n_cell_length_c   8.6639\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Zr3V3C\n_chemical_formula_sum   'Zr12 V12 C4'\n_cell_volume   459.8555\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Zr  Zr0  1  0.1910  0.8090  0.1910  1\n  Zr  Zr1  1  0.4410  0.0590  0.0590  1\n  Zr  Zr2  1  0.0590  0.4410  0.4410  1\n  Zr  Zr3  1  0.4410  0.0590  0.4410  1\n  Zr  Zr4  1  0.0590  0.0590  0.4410  1\n  Zr  Zr5  1  0.4410  0.4410  0.0590  1\n  Zr  Zr6  1  0.1910  0.1910  0.8090  1\n  Zr  Zr7  1  0.8090  0.1910  0.1910  1\n  Zr  Zr8  1  0.1910  0.8090  0.8090  1\n  Zr  Zr9  1  0.8090  0.8090  0.1910  1\n  Zr  Zr10  1  0.0590  0.4410  0.0590  1\n  Zr  Zr11  1  0.8090  0.1910  0.8090  1\n  V  V12  1  0.6250  0.6250  0.6250  1\n  V  V13  1  0.1250  0.6250  0.6250  1\n  V  V14  1  0.6250  0.1250  0.6250  1\n  V  V15  1  0.6250  0.6250  0.1250  1\n  V  V16  1  0.8261  0.8261  0.8261  1\n  V  V17  1  0.7284  0.4239  0.4239  1\n  V  V18  1  0.4239  0.7284  0.4239  1\n  V  V19  1  0.4239  0.4239  0.7284  1\n  V  V20  1  0.8261  0.5216  0.8261  1\n  V  V21  1  0.8261  0.8261  0.5216  1\n  V  V22  1  0.5216  0.8261  0.8261  1\n  V  V23  1  0.4239  0.4239  0.4239  1\n  C  C24  1  0.1250  0.1250  0.1250  1\n  C  C25  1  0.6250  0.1250  0.1250  1\n  C  C26  1  0.1250  0.6250  0.1250  1\n  C  C27  1  0.1250  0.1250  0.6250  1\n",
    "output": "data_image0\n_chemical_formula_structural       CZr11V12C3Zr\n_chemical_formula_sum              \"C4 Zr12 V12\"\n_cell_length_a       8.6639\n_cell_length_b       8.6639\n_cell_length_c       8.6639\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.1910  0.8090  0.1910  1.0000\n  Zr  Zr1       1.0000  0.4410  0.0590  0.0590  1.0000\n  Zr  Zr2       1.0000  0.0590  0.4410  0.4410  1.0000\n  Zr  Zr3       1.0000  0.4410  0.0590  0.4410  1.0000\n  Zr  Zr4       1.0000  0.0590  0.0590  0.4410  1.0000\n  Zr  Zr5       1.0000  0.4410  0.4410  0.0590  1.0000\n  Zr  Zr6       1.0000  0.1910  0.1910  0.8090  1.0000\n  Zr  Zr7       1.0000  0.8090  0.1910  0.1910  1.0000\n  Zr  Zr8       1.0000  0.1910  0.8090  0.8090  1.0000\n  Zr  Zr9       1.0000  0.8090  0.8090  0.1910  1.0000\n  Zr  Zr10      1.0000  0.0590  0.4410  0.0590  1.0000\n  Zr  Zr11      1.0000  0.8090  0.1910  0.8090  1.0000\n  V   V1        1.0000  0.6250  0.6250  0.6250  1.0000\n  V   V2        1.0000  0.1250  0.6250  0.6250  1.0000\n  V   V3        1.0000  0.6250  0.1250  0.6250  1.0000\n  V   V4        1.0000  0.6250  0.6250  0.1250  1.0000\n  V   V5        1.0000  0.8261  0.8261  0.8261  1.0000\n  V   V6        1.0000  0.7284  0.4239  0.4239  1.0000\n  V   V7        1.0000  0.4239  0.7284  0.4239  1.0000\n  V   V8        1.0000  0.4239  0.4239  0.7284  1.0000\n  V   V9        1.0000  0.8261  0.5216  0.8261  1.0000\n  V   V10       1.0000  0.8261  0.8261  0.5216  1.0000\n  V   V11       1.0000  0.5216  0.8261  0.8261  1.0000\n  V   V12       1.0000  0.4239  0.4239  0.4239  1.0000\n  C   C2        1.0000  0.1250  0.1250  0.1250  1.0000\n  C   C3        1.0000  0.6250  0.1250  0.1250  1.0000\n  C   C4        1.0000  0.1250  0.6250  0.1250  1.0000\n  Zr  Zr12      1.0000  0.1250  0.1250  0.6250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "81a9a2dc-9091-447a-bbdc-b0ade8fcd627",
    "mp_id": "mp-505766",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrCoO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4943\n_cell_length_b   5.4943\n_cell_length_c   5.4943\n_cell_angle_alpha   60.0001\n_cell_angle_beta   89.9994\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrCoO3\n_chemical_formula_sum   'Sr2 Co2 O6'\n_cell_volume   117.2806\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7500  0.5000  0.7500  1\n  Sr  Sr1  1  0.2500  0.5000  0.2500  1\n  Co  Co2  1  0.5000  0.0000  0.5000  1\n  Co  Co3  1  0.0000  0.0000  0.0000  1\n  O  O4  1  0.2500  0.0000  0.2500  1\n  O  O5  1  0.7500  0.0000  0.7500  1\n  O  O6  1  0.2500  0.5000  0.7500  1\n  O  O7  1  0.7500  0.5000  0.2500  1\n  O  O8  1  0.2500  0.0000  0.7500  1\n  O  O9  1  0.7500  0.0000  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr2CoO4CoO2\n_chemical_formula_sum              \"Sr2 Co2 O6\"\n_cell_length_a       5.4943\n_cell_length_b       5.4943\n_cell_length_c       5.4943\n_cell_angle_alpha    60.0001\n_cell_angle_beta     89.9994\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7500  0.5000  0.7500  1.0000\n  Sr  Sr2       1.0000  0.2500  0.5000  0.2500  1.0000\n  Co  Co1       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.2500  0.0000  0.2500  1.0000\n  O   O3        1.0000  0.7500  0.0000  0.7500  1.0000\n  O   O4        1.0000  0.2500  0.5000  0.7500  1.0000\n  Co  Co2       1.0000  0.7500  0.5000  0.2500  1.0000\n  O   O5        1.0000  0.2500  1.0000  0.7500  1.0000\n  O   O6        1.0000  0.7500  0.0000  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4185bb88-215d-430b-90d5-2e5a826ef8f5",
    "mp_id": "mp-510544",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrSm2Nb2O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.9574\n_cell_length_b   12.9574\n_cell_length_c   5.6632\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   155.0144\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrSm2Nb2O9\n_chemical_formula_sum   'Sr2 Sm4 Nb4 O18'\n_cell_volume   401.6176\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2478  0.2478  0.8753  1\n  Sr  Sr1  1  0.7522  0.7522  0.3753  1\n  Sm  Sm2  1  0.9892  0.5795  0.5138  1\n  Sm  Sm3  1  0.0108  0.4205  0.0138  1\n  Sm  Sm4  1  0.4205  0.0108  0.0138  1\n  Sm  Sm5  1  0.5795  0.9892  0.5138  1\n  Nb  Nb6  1  0.1624  0.3302  0.3903  1\n  Nb  Nb7  1  0.8376  0.6698  0.8903  1\n  Nb  Nb8  1  0.6698  0.8376  0.8903  1\n  Nb  Nb9  1  0.3302  0.1624  0.3903  1\n  O  O10  1  0.3110  0.3110  0.4166  1\n  O  O11  1  0.6890  0.6890  0.9166  1\n  O  O12  1  0.9849  0.2945  0.3873  1\n  O  O13  1  0.0151  0.7055  0.8873  1\n  O  O14  1  0.7055  0.0151  0.8873  1\n  O  O15  1  0.2945  0.9849  0.3873  1\n  O  O16  1  0.2547  0.7370  0.7555  1\n  O  O17  1  0.7453  0.2630  0.2555  1\n  O  O18  1  0.2630  0.7453  0.2555  1\n  O  O19  1  0.7370  0.2547  0.7555  1\n  O  O20  1  0.9141  0.0425  0.6367  1\n  O  O21  1  0.0859  0.9575  0.1367  1\n  O  O22  1  0.9575  0.0859  0.1367  1\n  O  O23  1  0.0425  0.9141  0.6367  1\n  O  O24  1  0.5652  0.3841  0.6853  1\n  O  O25  1  0.4348  0.6159  0.1853  1\n  O  O26  1  0.6159  0.4348  0.1853  1\n  O  O27  1  0.3841  0.5652  0.6853  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrNbSm4Nb2SrNbO18\n_chemical_formula_sum              \"Sr2 Nb4 Sm4 O18\"\n_cell_length_a       12.9574\n_cell_length_b       12.9574\n_cell_length_c       5.6632\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    155.0144\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2478  0.2478  0.8753  1.0000\n  Nb  Nb1       1.0000  0.7522  0.7522  0.3753  1.0000\n  Sm  Sm1       1.0000  0.9892  0.5795  0.5138  1.0000\n  Sm  Sm2       1.0000  0.0108  0.4205  0.0138  1.0000\n  Sm  Sm3       1.0000  0.4205  0.0108  0.0138  1.0000\n  Sm  Sm4       1.0000  0.5795  0.9892  0.5138  1.0000\n  Nb  Nb2       1.0000  0.1624  0.3302  0.3903  1.0000\n  Nb  Nb3       1.0000  0.8376  0.6698  0.8903  1.0000\n  Sr  Sr2       1.0000  0.6698  0.8376  0.8903  1.0000\n  Nb  Nb4       1.0000  0.3302  0.1624  0.3903  1.0000\n  O   O1        1.0000  0.3110  0.3110  0.4166  1.0000\n  O   O2        1.0000  0.6890  0.6890  0.9166  1.0000\n  O   O3        1.0000  0.9849  0.2945  0.3873  1.0000\n  O   O4        1.0000  0.0151  0.7055  0.8873  1.0000\n  O   O5        1.0000  0.7055  0.0151  0.8873  1.0000\n  O   O6        1.0000  0.2945  0.9849  0.3873  1.0000\n  O   O7        1.0000  0.2547  0.7370  0.7555  1.0000\n  O   O8        1.0000  0.7453  0.2630  0.2555  1.0000\n  O   O9        1.0000  0.2630  0.7453  0.2555  1.0000\n  O   O10       1.0000  0.7370  0.2547  0.7555  1.0000\n  O   O11       1.0000  0.9141  0.0425  0.6367  1.0000\n  O   O12       1.0000  0.0859  0.9575  0.1367  1.0000\n  O   O13       1.0000  0.9575  0.0859  0.1367  1.0000\n  O   O14       1.0000  0.0425  0.9141  0.6367  1.0000\n  O   O15       1.0000  0.5652  0.3841  0.6853  1.0000\n  O   O16       1.0000  0.4348  0.6159  0.1853  1.0000\n  O   O17       1.0000  0.6159  0.4348  0.1853  1.0000\n  O   O18       1.0000  0.3841  0.5652  0.6853  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f931b0f9-ab09-46c7-af6c-561dc5764025",
    "mp_id": "mp-510717",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2Co9O14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1335\n_cell_length_b   10.1335\n_cell_length_c   10.1335\n_cell_angle_alpha   32.6111\n_cell_angle_beta   32.6111\n_cell_angle_gamma   32.6111\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2Co9O14\n_chemical_formula_sum   'Ba2 Co9 O14'\n_cell_volume   268.7962\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.8839  0.8839  0.8839  1\n  Ba  Ba1  1  0.1161  0.1161  0.1161  1\n  Co  Co2  1  0.2322  0.2322  0.2322  1\n  Co  Co3  1  0.7678  0.7678  0.7678  1\n  Co  Co4  1  0.5872  0.5872  0.5872  1\n  Co  Co5  1  0.4128  0.4128  0.4128  1\n  Co  Co6  1  0.5000  0.5000  0.5000  1\n  Co  Co7  1  -0.0000  0.5000  0.5000  1\n  Co  Co8  1  0.5000  -0.0000  0.5000  1\n  Co  Co9  1  0.5000  0.5000  -0.0000  1\n  Co  Co10  1  -0.0000  -0.0000  -0.0000  1\n  O  O11  1  0.3952  0.8425  0.3952  1\n  O  O12  1  0.3952  0.3952  0.8425  1\n  O  O13  1  0.8425  0.3952  0.3952  1\n  O  O14  1  0.6048  0.6048  0.1575  1\n  O  O15  1  0.1575  0.6048  0.6048  1\n  O  O16  1  0.6048  0.1575  0.6048  1\n  O  O17  1  0.2990  0.2990  0.2990  1\n  O  O18  1  0.7010  0.7010  0.7010  1\n  O  O19  1  0.7832  0.7832  0.3222  1\n  O  O20  1  0.3222  0.7832  0.7832  1\n  O  O21  1  0.7832  0.3222  0.7832  1\n  O  O22  1  0.6778  0.2168  0.2168  1\n  O  O23  1  0.2168  0.2168  0.6778  1\n  O  O24  1  0.2168  0.6778  0.2168  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2Co8OCoO13\n_chemical_formula_sum              \"Ba2 Co9 O14\"\n_cell_length_a       10.1335\n_cell_length_b       10.1335\n_cell_length_c       10.1335\n_cell_angle_alpha    32.6111\n_cell_angle_beta     32.6111\n_cell_angle_gamma    32.6111\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.8839  0.8839  0.8839  1.0000\n  Ba  Ba2       1.0000  0.1161  0.1161  0.1161  1.0000\n  Co  Co1       1.0000  0.2322  0.2322  0.2322  1.0000\n  Co  Co2       1.0000  0.7678  0.7678  0.7678  1.0000\n  Co  Co3       1.0000  0.5872  0.5872  0.5872  1.0000\n  Co  Co4       1.0000  0.4128  0.4128  0.4128  1.0000\n  Co  Co5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Co  Co6       1.0000  0.0000  0.5000  0.5000  1.0000\n  Co  Co7       1.0000  0.5000  0.0000  0.5000  1.0000\n  Co  Co8       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Co  Co9       1.0000  0.3952  0.8425  0.3952  1.0000\n  O   O2        1.0000  0.3952  0.3952  0.8425  1.0000\n  O   O3        1.0000  0.8425  0.3952  0.3952  1.0000\n  O   O4        1.0000  0.6048  0.6048  0.1575  1.0000\n  O   O5        1.0000  0.1575  0.6048  0.6048  1.0000\n  O   O6        1.0000  0.6048  0.1575  0.6048  1.0000\n  O   O7        1.0000  0.2990  0.2990  0.2990  1.0000\n  O   O8        1.0000  0.7010  0.7010  0.7010  1.0000\n  O   O9        1.0000  0.7832  0.7832  0.3222  1.0000\n  O   O10       1.0000  0.3222  0.7832  0.7832  1.0000\n  O   O11       1.0000  0.7832  0.3222  0.7832  1.0000\n  O   O12       1.0000  0.6778  0.2168  0.2168  1.0000\n  O   O13       1.0000  0.2168  0.2168  0.6778  1.0000\n  O   O14       1.0000  0.2168  0.6778  0.2168  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f661c0b5-2b95-4cd1-b4f8-d96771cf08f6",
    "mp_id": "mp-5151",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cd4GeS6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2793\n_cell_length_b   7.2793\n_cell_length_c   12.6663\n_cell_angle_alpha   72.6186\n_cell_angle_beta   72.6186\n_cell_angle_gamma   59.8202\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cd4GeS6\n_chemical_formula_sum   'Cd8 Ge2 S12'\n_cell_volume   544.6409\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cd  Cd0  1  0.2687  0.6713  0.2998  1\n  Cd  Cd1  1  0.6713  0.2687  0.7998  1\n  Cd  Cd2  1  0.7569  0.9127  0.1444  1\n  Cd  Cd3  1  0.9127  0.7569  0.6444  1\n  Cd  Cd4  1  0.5441  0.7660  0.9525  1\n  Cd  Cd5  1  0.7660  0.5441  0.4525  1\n  Cd  Cd6  1  0.0727  0.2860  0.1427  1\n  Cd  Cd7  1  0.2860  0.0727  0.6427  1\n  Ge  Ge8  1  0.1315  0.6771  0.8900  1\n  Ge  Ge9  1  0.6771  0.1315  0.3900  1\n  S  S10  1  0.7091  0.2460  0.2048  1\n  S  S11  1  0.2460  0.7091  0.7048  1\n  S  S12  1  0.5608  0.0102  0.7588  1\n  S  S13  1  0.0102  0.5608  0.2588  1\n  S  S14  1  0.9976  0.9542  0.4408  1\n  S  S15  1  0.9542  0.9976  0.9408  1\n  S  S16  1  0.9542  0.4808  0.9470  1\n  S  S17  1  0.4808  0.9542  0.4470  1\n  S  S18  1  0.4305  0.4743  0.9659  1\n  S  S19  1  0.4743  0.4305  0.4659  1\n  S  S20  1  0.4039  0.9136  0.1374  1\n  S  S21  1  0.9136  0.4039  0.6374  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cd8SGe2S11\n_chemical_formula_sum              \"Cd8 S12 Ge2\"\n_cell_length_a       7.2793\n_cell_length_b       7.2793\n_cell_length_c       12.6663\n_cell_angle_alpha    72.6186\n_cell_angle_beta     72.6186\n_cell_angle_gamma    59.8202\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cd  Cd1       1.0000  0.2687  0.6713  0.2998  1.0000\n  Cd  Cd2       1.0000  0.6713  0.2687  0.7998  1.0000\n  Cd  Cd3       1.0000  0.7569  0.9127  0.1444  1.0000\n  Cd  Cd4       1.0000  0.9127  0.7569  0.6444  1.0000\n  Cd  Cd5       1.0000  0.5441  0.7660  0.9525  1.0000\n  Cd  Cd6       1.0000  0.7660  0.5441  0.4525  1.0000\n  Cd  Cd7       1.0000  0.0727  0.2860  0.1427  1.0000\n  Cd  Cd8       1.0000  0.2860  0.0727  0.6427  1.0000\n  S   S1        1.0000  0.1315  0.6771  0.8900  1.0000\n  Ge  Ge1       1.0000  0.6771  0.1315  0.3900  1.0000\n  Ge  Ge2       1.0000  0.7091  0.2460  0.2048  1.0000\n  S   S2        1.0000  0.2460  0.7091  0.7048  1.0000\n  S   S3        1.0000  0.5608  0.0102  0.7588  1.0000\n  S   S4        1.0000  0.0102  0.5608  0.2588  1.0000\n  S   S5        1.0000  0.9976  0.9542  0.4408  1.0000\n  S   S6        1.0000  0.9542  0.9976  0.9408  1.0000\n  S   S7        1.0000  0.9542  0.4808  0.9470  1.0000\n  S   S8        1.0000  0.4808  0.9542  0.4470  1.0000\n  S   S9        1.0000  0.4305  0.4743  0.9659  1.0000\n  S   S10       1.0000  0.4743  0.4305  0.4659  1.0000\n  S   S11       1.0000  0.4039  0.9136  0.1374  1.0000\n  S   S12       1.0000  0.9136  0.4039  0.6374  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "efca3b60-822c-46dd-8f4e-7332688c2a65",
    "mp_id": "mp-530379",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 28 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tb2TiO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2768\n_cell_length_b   7.3803\n_cell_length_c   18.2583\n_cell_angle_alpha   87.9153\n_cell_angle_beta   88.1231\n_cell_angle_gamma   62.5030\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tb2TiO5\n_chemical_formula_sum   'Tb16 Ti8 O40'\n_cell_volume   869.0711\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.0228  0.4496  0.9961  1\n  Tb  Tb1  1  0.4987  0.9768  0.0127  1\n  Tb  Tb2  1  0.2980  0.2932  0.1757  1\n  Tb  Tb3  1  0.6651  0.1609  0.3304  1\n  Tb  Tb4  1  0.9955  0.5006  0.4792  1\n  Tb  Tb5  1  0.5370  0.4488  0.0006  1\n  Tb  Tb6  1  0.1966  0.7051  0.3241  1\n  Tb  Tb7  1  0.4896  0.5140  0.4902  1\n  Tb  Tb8  1  0.8130  0.8005  0.1778  1\n  Tb  Tb9  1  0.0253  0.9643  0.4970  1\n  Tb  Tb10  1  0.3411  0.8560  0.6625  1\n  Tb  Tb11  1  0.6504  0.1703  0.8356  1\n  Tb  Tb12  1  0.8444  0.3356  0.6637  1\n  Tb  Tb13  1  0.1506  0.1629  0.8258  1\n  Tb  Tb14  1  0.6678  0.6374  0.8366  1\n  Tb  Tb15  1  0.1754  0.6534  0.8146  1\n  Ti  Ti16  1  0.9532  0.9939  0.9905  1\n  Ti  Ti17  1  0.3385  0.7681  0.1369  1\n  Ti  Ti18  1  0.5586  0.9553  0.5156  1\n  Ti  Ti19  1  0.8250  0.3478  0.1798  1\n  Ti  Ti20  1  0.6616  0.6678  0.3394  1\n  Ti  Ti21  1  0.1639  0.1730  0.3491  1\n  Ti  Ti22  1  0.3110  0.3310  0.6579  1\n  Ti  Ti23  1  0.8636  0.8188  0.6656  1\n  O  O24  1  0.2504  0.8290  0.0429  1\n  O  O25  1  0.7033  0.5682  0.2398  1\n  O  O26  1  0.4635  0.9453  0.1424  1\n  O  O27  1  0.0653  0.1855  0.2285  1\n  O  O28  1  0.8726  0.8343  0.0499  1\n  O  O29  1  0.3221  0.2989  0.3028  1\n  O  O30  1  0.9346  0.4264  0.3643  1\n  O  O31  1  0.9639  0.4784  0.1281  1\n  O  O32  1  0.0861  0.3959  0.5911  1\n  O  O33  1  0.6907  0.1661  0.2027  1\n  O  O34  1  0.3320  0.3280  0.0544  1\n  O  O35  1  0.8138  0.8162  0.3065  1\n  O  O36  1  0.5497  0.5254  0.1198  1\n  O  O37  1  0.1759  0.6514  0.4493  1\n  O  O38  1  0.8335  0.8002  0.5460  1\n  O  O39  1  0.5296  0.4910  0.3639  1\n  O  O40  1  0.1676  0.6978  0.1995  1\n  O  O41  1  0.9479  0.0190  0.6214  1\n  O  O42  1  0.8140  0.3249  0.7860  1\n  O  O43  1  0.6276  0.1458  0.4656  1\n  O  O44  1  0.0204  0.9447  0.8901  1\n  O  O45  1  0.3901  0.8816  0.3237  1\n  O  O46  1  0.8846  0.2450  0.0323  1\n  O  O47  1  0.9985  0.0233  0.3705  1\n  O  O48  1  0.3532  0.8286  0.5395  1\n  O  O49  1  0.2210  0.1600  0.4495  1\n  O  O50  1  0.5110  0.4143  0.6125  1\n  O  O51  1  0.4646  0.4946  0.8806  1\n  O  O52  1  0.1685  0.1715  0.7014  1\n  O  O53  1  0.6661  0.6672  0.9599  1\n  O  O54  1  0.3584  0.8328  0.7862  1\n  O  O55  1  0.0071  0.5039  0.8686  1\n  O  O56  1  0.1402  0.6435  0.6866  1\n  O  O57  1  0.6582  0.6999  0.4486  1\n  O  O58  1  0.7030  0.6746  0.6752  1\n  O  O59  1  0.8044  0.8925  0.7636  1\n  O  O60  1  0.2573  0.1459  0.9369  1\n  O  O61  1  0.4889  0.0591  0.6107  1\n  O  O62  1  0.6678  0.1284  0.9559  1\n  O  O63  1  0.3790  0.3093  0.7620  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tb12OTb3Ti8O4TbO35\n_chemical_formula_sum              \"Tb16 O40 Ti8\"\n_cell_length_a       7.2768\n_cell_length_b       7.3803\n_cell_length_c       18.2583\n_cell_angle_alpha    87.9153\n_cell_angle_beta     88.1231\n_cell_angle_gamma    62.5030\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.0228  0.4496  0.9961  1.0000\n  Tb  Tb2       1.0000  0.4987  0.9768  0.0127  1.0000\n  Tb  Tb3       1.0000  0.2980  0.2932  0.1757  1.0000\n  Tb  Tb4       1.0000  0.6651  0.1609  0.3304  1.0000\n  Tb  Tb5       1.0000  0.9955  0.5006  0.4792  1.0000\n  Tb  Tb6       1.0000  0.5370  0.4488  0.0006  1.0000\n  Tb  Tb7       1.0000  0.1966  0.7051  0.3241  1.0000\n  Tb  Tb8       1.0000  0.4896  0.5140  0.4902  1.0000\n  Tb  Tb9       1.0000  0.8130  0.8005  0.1778  1.0000\n  Tb  Tb10      1.0000  0.0253  0.9643  0.4970  1.0000\n  Tb  Tb11      1.0000  0.3411  0.8560  0.6625  1.0000\n  Tb  Tb12      1.0000  0.6504  0.1703  0.8356  1.0000\n  O   O1        1.0000  0.8444  0.3356  0.6637  1.0000\n  Tb  Tb13      1.0000  0.1506  0.1629  0.8258  1.0000\n  Tb  Tb14      1.0000  0.6678  0.6374  0.8366  1.0000\n  Tb  Tb15      1.0000  0.1754  0.6534  0.8146  1.0000\n  Ti  Ti1       1.0000  0.9532  0.9939  0.9905  1.0000\n  Ti  Ti2       1.0000  0.3385  0.7681  0.1369  1.0000\n  Ti  Ti3       1.0000  0.5586  0.9553  0.5156  1.0000\n  Ti  Ti4       1.0000  0.8250  0.3478  0.1798  1.0000\n  Ti  Ti5       1.0000  0.6616  0.6678  0.3394  1.0000\n  Ti  Ti6       1.0000  0.1639  0.1730  0.3491  1.0000\n  Ti  Ti7       1.0000  0.3110  0.3310  0.6579  1.0000\n  Ti  Ti8       1.0000  0.8636  0.8188  0.6656  1.0000\n  O   O2        1.0000  0.2504  0.8290  0.0429  1.0000\n  O   O3        1.0000  0.7033  0.5682  0.2398  1.0000\n  O   O4        1.0000  0.4635  0.9453  0.1424  1.0000\n  O   O5        1.0000  0.0653  0.1855  0.2285  1.0000\n  Tb  Tb16      1.0000  0.8726  0.8343  0.0499  1.0000\n  O   O6        1.0000  0.3221  0.2989  0.3028  1.0000\n  O   O7        1.0000  0.9346  0.4264  0.3643  1.0000\n  O   O8        1.0000  0.9639  0.4784  0.1281  1.0000\n  O   O9        1.0000  0.0861  0.3959  0.5911  1.0000\n  O   O10       1.0000  0.6907  0.1661  0.2027  1.0000\n  O   O11       1.0000  0.3320  0.3280  0.0544  1.0000\n  O   O12       1.0000  0.8138  0.8162  0.3065  1.0000\n  O   O13       1.0000  0.5497  0.5254  0.1198  1.0000\n  O   O14       1.0000  0.1759  0.6514  0.4493  1.0000\n  O   O15       1.0000  0.8335  0.8002  0.5460  1.0000\n  O   O16       1.0000  0.5296  0.4910  0.3639  1.0000\n  O   O17       1.0000  0.1676  0.6978  0.1995  1.0000\n  O   O18       1.0000  0.9479  0.0190  0.6214  1.0000\n  O   O19       1.0000  0.8140  0.3249  0.7860  1.0000\n  O   O20       1.0000  0.6276  0.1458  0.4656  1.0000\n  O   O21       1.0000  0.0204  0.9447  0.8901  1.0000\n  O   O22       1.0000  0.3901  0.8816  0.3237  1.0000\n  O   O23       1.0000  0.8846  0.2450  0.0323  1.0000\n  O   O24       1.0000  0.9985  0.0233  0.3705  1.0000\n  O   O25       1.0000  0.3532  0.8286  0.5395  1.0000\n  O   O26       1.0000  0.2210  0.1600  0.4495  1.0000\n  O   O27       1.0000  0.5110  0.4143  0.6125  1.0000\n  O   O28       1.0000  0.4646  0.4946  0.8806  1.0000\n  O   O29       1.0000  0.1685  0.1715  0.7014  1.0000\n  O   O30       1.0000  0.6661  0.6672  0.9599  1.0000\n  O   O31       1.0000  0.3584  0.8328  0.7862  1.0000\n  O   O32       1.0000  0.0071  0.5039  0.8686  1.0000\n  O   O33       1.0000  0.1402  0.6435  0.6866  1.0000\n  O   O34       1.0000  0.6582  0.6999  0.4486  1.0000\n  O   O35       1.0000  0.7030  0.6746  0.6752  1.0000\n  O   O36       1.0000  0.8044  0.8925  0.7636  1.0000\n  O   O37       1.0000  0.2573  0.1459  0.9369  1.0000\n  O   O38       1.0000  0.4889  0.0591  0.6107  1.0000\n  O   O39       1.0000  0.6678  0.1284  0.9559  1.0000\n  O   O40       1.0000  0.3790  0.3093  0.7620  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "00cbaa1d-1bc0-4ee6-9dda-4543cedf27dd",
    "mp_id": "mp-530850",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ta2CuO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5734\n_cell_length_b   7.6051\n_cell_length_c   15.1942\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ta2CuO6\n_chemical_formula_sum   'Ta16 Cu8 O48'\n_cell_volume   875.1354\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.2511  0.2558  0.3745  1\n  Ta  Ta1  1  0.2511  0.2558  0.6255  1\n  Ta  Ta2  1  0.2555  0.2488  0.8763  1\n  Ta  Ta3  1  0.7489  0.2558  0.6255  1\n  Ta  Ta4  1  0.7445  0.2488  0.1237  1\n  Ta  Ta5  1  0.2555  0.2488  0.1237  1\n  Ta  Ta6  1  0.7489  0.2558  0.3745  1\n  Ta  Ta7  1  0.7445  0.2488  0.8763  1\n  Ta  Ta8  1  0.2511  0.7442  0.6255  1\n  Ta  Ta9  1  0.2555  0.7512  0.1237  1\n  Ta  Ta10  1  0.7489  0.7442  0.3745  1\n  Ta  Ta11  1  0.7489  0.7442  0.6255  1\n  Ta  Ta12  1  0.2511  0.7442  0.3745  1\n  Ta  Ta13  1  0.7445  0.7512  0.8763  1\n  Ta  Ta14  1  0.7445  0.7512  0.1237  1\n  Ta  Ta15  1  0.2555  0.7512  0.8763  1\n  Cu  Cu16  1  0.0000  0.0000  0.5000  1\n  Cu  Cu17  1  0.5000  0.0000  0.2520  1\n  Cu  Cu18  1  0.5000  0.0000  0.5000  1\n  Cu  Cu19  1  0.5000  0.0000  0.7480  1\n  Cu  Cu20  1  0.0000  0.0000  0.0000  1\n  Cu  Cu21  1  0.0000  0.5000  0.2488  1\n  Cu  Cu22  1  0.0000  0.5000  0.7512  1\n  Cu  Cu23  1  0.0000  0.5000  0.0000  1\n  O  O24  1  0.6950  0.0000  0.3387  1\n  O  O25  1  0.6950  0.0000  0.6613  1\n  O  O26  1  0.6909  0.0000  0.8401  1\n  O  O27  1  0.3091  0.0000  0.8401  1\n  O  O28  1  0.6909  0.0000  0.1599  1\n  O  O29  1  0.0000  0.1814  0.5940  1\n  O  O30  1  0.0000  0.1814  0.4060  1\n  O  O31  1  0.0000  0.1780  0.0963  1\n  O  O32  1  0.0000  0.1780  0.9037  1\n  O  O33  1  0.6865  0.1851  0.5000  1\n  O  O34  1  0.3135  0.1851  0.5000  1\n  O  O35  1  0.7005  0.2049  0.0000  1\n  O  O36  1  0.2995  0.2049  0.0000  1\n  O  O37  1  0.8193  0.3102  0.2494  1\n  O  O38  1  0.8193  0.3102  0.7506  1\n  O  O39  1  0.1807  0.3102  0.2494  1\n  O  O40  1  0.1807  0.3102  0.7506  1\n  O  O41  1  0.5000  0.2968  0.3524  1\n  O  O42  1  0.5000  0.3070  0.8530  1\n  O  O43  1  0.5000  0.2968  0.6476  1\n  O  O44  1  0.5000  0.3070  0.1470  1\n  O  O45  1  0.7938  0.5000  0.4031  1\n  O  O46  1  0.8153  0.5000  0.9068  1\n  O  O47  1  0.7938  0.5000  0.5969  1\n  O  O48  1  0.2062  0.5000  0.4031  1\n  O  O49  1  0.2062  0.5000  0.5969  1\n  O  O50  1  0.8153  0.5000  0.0932  1\n  O  O51  1  0.1847  0.5000  0.9068  1\n  O  O52  1  0.1847  0.5000  0.0932  1\n  O  O53  1  0.5000  0.7032  0.3524  1\n  O  O54  1  0.5000  0.7032  0.6476  1\n  O  O55  1  0.5000  0.6930  0.8530  1\n  O  O56  1  0.5000  0.6930  0.1470  1\n  O  O57  1  0.8193  0.6898  0.2494  1\n  O  O58  1  0.1807  0.6898  0.2494  1\n  O  O59  1  0.8193  0.6898  0.7506  1\n  O  O60  1  0.1807  0.6898  0.7506  1\n  O  O61  1  0.6865  0.8149  0.5000  1\n  O  O62  1  0.3135  0.8149  0.5000  1\n  O  O63  1  0.7005  0.7951  0.0000  1\n  O  O64  1  0.2995  0.7951  0.0000  1\n  O  O65  1  0.0000  0.8186  0.4060  1\n  O  O66  1  0.0000  0.8186  0.5940  1\n  O  O67  1  0.0000  0.8220  0.0963  1\n  O  O68  1  0.0000  0.8220  0.9037  1\n  O  O69  1  0.3050  0.0000  0.3387  1\n  O  O70  1  0.3050  0.0000  0.6613  1\n  O  O71  1  0.3091  0.0000  0.1599  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta16Cu7O13CuO35\n_chemical_formula_sum              \"Ta16 Cu8 O48\"\n_cell_length_a       7.5734\n_cell_length_b       7.6051\n_cell_length_c       15.1942\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.2511  0.2558  0.3745  1.0000\n  Ta  Ta2       1.0000  0.2511  0.2558  0.6255  1.0000\n  Ta  Ta3       1.0000  0.2555  0.2488  0.8763  1.0000\n  Ta  Ta4       1.0000  0.7489  0.2558  0.6255  1.0000\n  Ta  Ta5       1.0000  0.7445  0.2488  0.1237  1.0000\n  Ta  Ta6       1.0000  0.2555  0.2488  0.1237  1.0000\n  Ta  Ta7       1.0000  0.7489  0.2558  0.3745  1.0000\n  Ta  Ta8       1.0000  0.7445  0.2488  0.8763  1.0000\n  Ta  Ta9       1.0000  0.2511  0.7442  0.6255  1.0000\n  Ta  Ta10      1.0000  0.2555  0.7512  0.1237  1.0000\n  Ta  Ta11      1.0000  0.7489  0.7442  0.3745  1.0000\n  Ta  Ta12      1.0000  0.7489  0.7442  0.6255  1.0000\n  Ta  Ta13      1.0000  0.2511  0.7442  0.3745  1.0000\n  Ta  Ta14      1.0000  0.7445  0.7512  0.8763  1.0000\n  Ta  Ta15      1.0000  0.7445  0.7512  0.1237  1.0000\n  Ta  Ta16      1.0000  0.2555  0.7512  0.8763  1.0000\n  Cu  Cu1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Cu  Cu2       1.0000  0.5000  0.0000  0.2520  1.0000\n  Cu  Cu3       1.0000  0.5000  0.0000  0.5000  1.0000\n  Cu  Cu4       1.0000  0.5000  0.0000  0.7480  1.0000\n  Cu  Cu5       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cu  Cu6       1.0000  0.0000  0.5000  0.2488  1.0000\n  Cu  Cu7       1.0000  0.0000  0.5000  0.7512  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.6950  0.0000  0.3387  1.0000\n  O   O3        1.0000  0.6950  0.0000  0.6613  1.0000\n  O   O4        1.0000  0.6909  0.0000  0.8401  1.0000\n  O   O5        1.0000  0.3091  0.0000  0.8401  1.0000\n  O   O6        1.0000  0.6909  0.0000  0.1599  1.0000\n  O   O7        1.0000  0.0000  0.1814  0.5940  1.0000\n  O   O8        1.0000  0.0000  0.1814  0.4060  1.0000\n  O   O9        1.0000  0.0000  0.1780  0.0963  1.0000\n  O   O10       1.0000  0.0000  0.1780  0.9037  1.0000\n  O   O11       1.0000  0.6865  0.1851  0.5000  1.0000\n  O   O12       1.0000  0.3135  0.1851  0.5000  1.0000\n  O   O13       1.0000  0.7005  0.2049  0.0000  1.0000\n  Cu  Cu8       1.0000  0.2995  0.2049  0.0000  1.0000\n  O   O14       1.0000  0.8193  0.3102  0.2494  1.0000\n  O   O15       1.0000  0.8193  0.3102  0.7506  1.0000\n  O   O16       1.0000  0.1807  0.3102  0.2494  1.0000\n  O   O17       1.0000  0.1807  0.3102  0.7506  1.0000\n  O   O18       1.0000  0.5000  0.2968  0.3524  1.0000\n  O   O19       1.0000  0.5000  0.3070  0.8530  1.0000\n  O   O20       1.0000  0.5000  0.2968  0.6476  1.0000\n  O   O21       1.0000  0.5000  0.3070  0.1470  1.0000\n  O   O22       1.0000  0.7938  0.5000  0.4031  1.0000\n  O   O23       1.0000  0.8153  0.5000  0.9068  1.0000\n  O   O24       1.0000  0.7938  0.5000  0.5969  1.0000\n  O   O25       1.0000  0.2062  0.5000  0.4031  1.0000\n  O   O26       1.0000  0.2062  0.5000  0.5969  1.0000\n  O   O27       1.0000  0.8153  0.5000  0.0932  1.0000\n  O   O28       1.0000  0.1847  0.5000  0.9068  1.0000\n  O   O29       1.0000  0.1847  0.5000  0.0932  1.0000\n  O   O30       1.0000  0.5000  0.7032  0.3524  1.0000\n  O   O31       1.0000  0.5000  0.7032  0.6476  1.0000\n  O   O32       1.0000  0.5000  0.6930  0.8530  1.0000\n  O   O33       1.0000  0.5000  0.6930  0.1470  1.0000\n  O   O34       1.0000  0.8193  0.6898  0.2494  1.0000\n  O   O35       1.0000  0.1807  0.6898  0.2494  1.0000\n  O   O36       1.0000  0.8193  0.6898  0.7506  1.0000\n  O   O37       1.0000  0.1807  0.6898  0.7506  1.0000\n  O   O38       1.0000  0.6865  0.8149  0.5000  1.0000\n  O   O39       1.0000  0.3135  0.8149  0.5000  1.0000\n  O   O40       1.0000  0.7005  0.7951  0.0000  1.0000\n  O   O41       1.0000  0.2995  0.7951  0.0000  1.0000\n  O   O42       1.0000  0.0000  0.8186  0.4060  1.0000\n  O   O43       1.0000  0.0000  0.8186  0.5940  1.0000\n  O   O44       1.0000  0.0000  0.8220  0.0963  1.0000\n  O   O45       1.0000  0.0000  0.8220  0.9037  1.0000\n  O   O46       1.0000  0.3050  0.0000  0.3387  1.0000\n  O   O47       1.0000  0.3050  0.0000  0.6613  1.0000\n  O   O48       1.0000  0.3091  0.0000  0.1599  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "86d4e738-34db-4c59-80d6-52e56170664e",
    "mp_id": "mp-540740",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrTb2Fe2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5922\n_cell_length_b   5.5922\n_cell_length_c   19.6083\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrTb2Fe2O7\n_chemical_formula_sum   'Sr4 Tb8 Fe8 O28'\n_cell_volume   613.2004\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.2593  0.2593  0.0000  1\n  Sr  Sr1  1  0.2407  0.7593  0.5000  1\n  Sr  Sr2  1  0.7593  0.2407  0.5000  1\n  Sr  Sr3  1  0.7407  0.7407  0.0000  1\n  Tb  Tb4  1  0.2772  0.2772  0.1834  1\n  Tb  Tb5  1  0.2228  0.7772  0.6834  1\n  Tb  Tb6  1  0.7772  0.2228  0.6834  1\n  Tb  Tb7  1  0.7772  0.2228  0.3166  1\n  Tb  Tb8  1  0.2228  0.7772  0.3166  1\n  Tb  Tb9  1  0.7228  0.7228  0.1834  1\n  Tb  Tb10  1  0.2772  0.2772  0.8166  1\n  Tb  Tb11  1  0.7228  0.7228  0.8166  1\n  Fe  Fe12  1  0.2583  0.2583  0.3991  1\n  Fe  Fe13  1  0.2417  0.7583  0.8991  1\n  Fe  Fe14  1  0.7583  0.2417  0.8991  1\n  Fe  Fe15  1  0.7583  0.2417  0.1009  1\n  Fe  Fe16  1  0.2417  0.7583  0.1009  1\n  Fe  Fe17  1  0.7417  0.7417  0.3991  1\n  Fe  Fe18  1  0.2583  0.2583  0.6009  1\n  Fe  Fe19  1  0.7417  0.7417  0.6009  1\n  O  O20  1  0.7049  0.7049  0.5000  1\n  O  O21  1  0.7951  0.2049  0.0000  1\n  O  O22  1  0.2049  0.7951  0.0000  1\n  O  O23  1  0.2951  0.2951  0.5000  1\n  O  O24  1  0.1856  0.1856  0.2896  1\n  O  O25  1  0.3144  0.6856  0.7896  1\n  O  O26  1  0.6856  0.3144  0.7896  1\n  O  O27  1  0.6856  0.3144  0.2104  1\n  O  O28  1  0.3144  0.6856  0.2104  1\n  O  O29  1  0.8144  0.8144  0.2896  1\n  O  O30  1  0.1856  0.1856  0.7104  1\n  O  O31  1  0.8144  0.8144  0.7104  1\n  O  O32  1  0.0000  0.5000  0.1125  1\n  O  O33  1  0.0000  0.5000  0.6125  1\n  O  O34  1  0.5000  0.0000  0.3875  1\n  O  O35  1  0.5000  0.0000  0.8875  1\n  O  O36  1  0.0000  0.5000  0.8875  1\n  O  O37  1  0.0000  0.5000  0.3875  1\n  O  O38  1  0.5000  0.0000  0.6125  1\n  O  O39  1  0.5000  0.0000  0.1125  1\n  O  O40  1  0.0000  0.0000  0.1311  1\n  O  O41  1  0.5000  0.5000  0.6311  1\n  O  O42  1  0.5000  0.5000  0.3689  1\n  O  O43  1  0.0000  0.0000  0.8689  1\n  O  O44  1  0.0000  0.0000  0.4098  1\n  O  O45  1  0.5000  0.5000  0.9098  1\n  O  O46  1  0.5000  0.5000  0.0902  1\n  O  O47  1  0.0000  0.0000  0.5902  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr4FeTb7Fe5TbFe2O28\n_chemical_formula_sum              \"Sr4 Fe8 Tb8 O28\"\n_cell_length_a       5.5922\n_cell_length_b       5.5922\n_cell_length_c       19.6083\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.2593  0.2593  0.0000  1.0000\n  Sr  Sr2       1.0000  0.2407  0.7593  0.5000  1.0000\n  Sr  Sr3       1.0000  0.7593  0.2407  0.5000  1.0000\n  Sr  Sr4       1.0000  0.7407  0.7407  0.0000  1.0000\n  Fe  Fe1       1.0000  0.2772  0.2772  0.1834  1.0000\n  Tb  Tb1       1.0000  0.2228  0.7772  0.6834  1.0000\n  Tb  Tb2       1.0000  0.7772  0.2228  0.6834  1.0000\n  Tb  Tb3       1.0000  0.7772  0.2228  0.3166  1.0000\n  Tb  Tb4       1.0000  0.2228  0.7772  0.3166  1.0000\n  Tb  Tb5       1.0000  0.7228  0.7228  0.1834  1.0000\n  Tb  Tb6       1.0000  0.2772  0.2772  0.8166  1.0000\n  Tb  Tb7       1.0000  0.7228  0.7228  0.8166  1.0000\n  Fe  Fe2       1.0000  0.2583  0.2583  0.3991  1.0000\n  Fe  Fe3       1.0000  0.2417  0.7583  0.8991  1.0000\n  Fe  Fe4       1.0000  0.7583  0.2417  0.8991  1.0000\n  Fe  Fe5       1.0000  0.7583  0.2417  0.1009  1.0000\n  Fe  Fe6       1.0000  0.2417  0.7583  0.1009  1.0000\n  Tb  Tb8       1.0000  0.7417  0.7417  0.3991  1.0000\n  Fe  Fe7       1.0000  0.2583  0.2583  0.6009  1.0000\n  Fe  Fe8       1.0000  0.7417  0.7417  0.6009  1.0000\n  O   O1        1.0000  0.7049  0.7049  0.5000  1.0000\n  O   O2        1.0000  0.7951  0.2049  0.0000  1.0000\n  O   O3        1.0000  0.2049  0.7951  0.0000  1.0000\n  O   O4        1.0000  0.2951  0.2951  0.5000  1.0000\n  O   O5        1.0000  0.1856  0.1856  0.2896  1.0000\n  O   O6        1.0000  0.3144  0.6856  0.7896  1.0000\n  O   O7        1.0000  0.6856  0.3144  0.7896  1.0000\n  O   O8        1.0000  0.6856  0.3144  0.2104  1.0000\n  O   O9        1.0000  0.3144  0.6856  0.2104  1.0000\n  O   O10       1.0000  0.8144  0.8144  0.2896  1.0000\n  O   O11       1.0000  0.1856  0.1856  0.7104  1.0000\n  O   O12       1.0000  0.8144  0.8144  0.7104  1.0000\n  O   O13       1.0000  0.0000  0.5000  0.1125  1.0000\n  O   O14       1.0000  0.0000  0.5000  0.6125  1.0000\n  O   O15       1.0000  0.5000  0.0000  0.3875  1.0000\n  O   O16       1.0000  0.5000  0.0000  0.8875  1.0000\n  O   O17       1.0000  0.0000  0.5000  0.8875  1.0000\n  O   O18       1.0000  0.0000  0.5000  0.3875  1.0000\n  O   O19       1.0000  0.5000  0.0000  0.6125  1.0000\n  O   O20       1.0000  0.5000  0.0000  0.1125  1.0000\n  O   O21       1.0000  0.0000  0.0000  0.1311  1.0000\n  O   O22       1.0000  0.5000  0.5000  0.6311  1.0000\n  O   O23       1.0000  0.5000  0.5000  0.3689  1.0000\n  O   O24       1.0000  0.0000  0.0000  0.8689  1.0000\n  O   O25       1.0000  0.0000  0.0000  0.4098  1.0000\n  O   O26       1.0000  0.5000  0.5000  0.9098  1.0000\n  O   O27       1.0000  0.5000  0.5000  0.0902  1.0000\n  O   O28       1.0000  0.0000  0.0000  0.5902  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9d99d05a-9b7a-4da4-acd3-74769f73b42a",
    "mp_id": "mp-540798",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_S3(NO7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3334\n_cell_length_b   10.3334\n_cell_length_c   7.5022\n_cell_angle_alpha   79.2148\n_cell_angle_beta   79.2148\n_cell_angle_gamma   40.2007\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   S3(NO7)2\n_chemical_formula_sum   'S6 N4 O28'\n_cell_volume   506.7023\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  S  S0  1  0.7257  0.2744  0.7624  1\n  S  S1  1  0.2744  0.7257  0.2624  1\n  S  S2  1  0.8251  0.4676  0.6195  1\n  S  S3  1  0.4676  0.8251  0.1195  1\n  S  S4  1  0.5328  0.1745  0.7721  1\n  S  S5  1  0.1745  0.5328  0.2721  1\n  N  N6  1  0.3079  0.9956  0.6233  1\n  N  N7  1  0.9956  0.3079  0.1233  1\n  N  N8  1  0.0047  0.6917  0.7758  1\n  N  N9  1  0.6917  0.0047  0.2758  1\n  O  O10  1  0.6546  0.4680  0.6638  1\n  O  O11  1  0.4680  0.6546  0.1638  1\n  O  O12  1  0.5321  0.3451  0.7273  1\n  O  O13  1  0.3451  0.5321  0.2273  1\n  O  O14  1  0.6864  0.6799  0.5995  1\n  O  O15  1  0.6799  0.6864  0.0995  1\n  O  O16  1  0.3205  0.3130  0.7918  1\n  O  O17  1  0.3130  0.3205  0.2918  1\n  O  O18  1  0.9398  0.3609  0.4577  1\n  O  O19  1  0.3609  0.9398  0.9577  1\n  O  O20  1  0.6369  0.0611  0.6134  1\n  O  O21  1  0.0611  0.6369  0.1134  1\n  O  O22  1  0.9403  0.3620  0.7776  1\n  O  O23  1  0.3620  0.9403  0.2776  1\n  O  O24  1  0.6410  0.0580  0.9334  1\n  O  O25  1  0.0580  0.6410  0.4334  1\n  O  O26  1  0.7318  0.2684  0.9509  1\n  O  O27  1  0.2684  0.7318  0.4509  1\n  O  O28  1  0.8962  0.1039  0.6628  1\n  O  O29  1  0.1039  0.8962  0.1628  1\n  O  O30  1  0.2708  0.9151  0.6561  1\n  O  O31  1  0.9151  0.2708  0.1561  1\n  O  O32  1  0.0853  0.7286  0.7509  1\n  O  O33  1  0.7286  0.0853  0.2509  1\n  O  O34  1  0.3374  0.0830  0.5892  1\n  O  O35  1  0.0830  0.3374  0.0892  1\n  O  O36  1  0.9173  0.6622  0.7996  1\n  O  O37  1  0.6622  0.9173  0.2996  1\n",
    "output": "data_image0\n_chemical_formula_structural       S6ON3O4NO23\n_chemical_formula_sum              \"S6 O28 N4\"\n_cell_length_a       10.3334\n_cell_length_b       10.3334\n_cell_length_c       7.5022\n_cell_angle_alpha    79.2148\n_cell_angle_beta     79.2148\n_cell_angle_gamma    40.2007\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.7257  0.2744  0.7624  1.0000\n  S   S2        1.0000  0.2744  0.7257  0.2624  1.0000\n  S   S3        1.0000  0.8251  0.4676  0.6195  1.0000\n  S   S4        1.0000  0.4676  0.8251  0.1195  1.0000\n  S   S5        1.0000  0.5328  0.1745  0.7721  1.0000\n  S   S6        1.0000  0.1745  0.5328  0.2721  1.0000\n  O   O1        1.0000  0.3079  0.9956  0.6233  1.0000\n  N   N1        1.0000  0.9956  0.3079  0.1233  1.0000\n  N   N2        1.0000  0.0047  0.6917  0.7758  1.0000\n  N   N3        1.0000  0.6917  0.0047  0.2758  1.0000\n  O   O2        1.0000  0.6546  0.4680  0.6638  1.0000\n  O   O3        1.0000  0.4680  0.6546  0.1638  1.0000\n  O   O4        1.0000  0.5321  0.3451  0.7273  1.0000\n  O   O5        1.0000  0.3451  0.5321  0.2273  1.0000\n  N   N4        1.0000  0.6864  0.6799  0.5995  1.0000\n  O   O6        1.0000  0.6799  0.6864  0.0995  1.0000\n  O   O7        1.0000  0.3205  0.3130  0.7918  1.0000\n  O   O8        1.0000  0.3130  0.3205  0.2918  1.0000\n  O   O9        1.0000  0.9398  0.3609  0.4577  1.0000\n  O   O10       1.0000  0.3609  0.9398  0.9577  1.0000\n  O   O11       1.0000  0.6369  0.0611  0.6134  1.0000\n  O   O12       1.0000  0.0611  0.6369  0.1134  1.0000\n  O   O13       1.0000  0.9403  0.3620  0.7776  1.0000\n  O   O14       1.0000  0.3620  0.9403  0.2776  1.0000\n  O   O15       1.0000  0.6410  0.0580  0.9334  1.0000\n  O   O16       1.0000  0.0580  0.6410  0.4334  1.0000\n  O   O17       1.0000  0.7318  0.2684  0.9509  1.0000\n  O   O18       1.0000  0.2684  0.7318  0.4509  1.0000\n  O   O19       1.0000  0.8962  0.1039  0.6628  1.0000\n  O   O20       1.0000  0.1039  0.8962  0.1628  1.0000\n  O   O21       1.0000  0.2708  0.9151  0.6561  1.0000\n  O   O22       1.0000  0.9151  0.2708  0.1561  1.0000\n  O   O23       1.0000  0.0853  0.7286  0.7509  1.0000\n  O   O24       1.0000  0.7286  0.0853  0.2509  1.0000\n  O   O25       1.0000  0.3374  0.0830  0.5892  1.0000\n  O   O26       1.0000  0.0830  0.3374  0.0892  1.0000\n  O   O27       1.0000  0.9173  0.6622  0.7996  1.0000\n  O   O28       1.0000  0.6622  0.9173  0.2996  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5aa33f7b-77fa-4563-8f32-a1d53af6ac41",
    "mp_id": "mp-540938",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pb5(IF4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   19.6251\n_cell_length_b   19.6251\n_cell_length_c   19.6251\n_cell_angle_alpha   12.6945\n_cell_angle_beta   12.6945\n_cell_angle_gamma   12.6945\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pb5(IF4)2\n_chemical_formula_sum   'Pb5 I2 F8'\n_cell_volume   317.4013\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pb  Pb0  1  0.9940  0.9940  0.9940  1\n  Pb  Pb1  1  0.6113  0.6113  0.6113  1\n  Pb  Pb2  1  0.5227  0.5227  0.5227  1\n  Pb  Pb3  1  0.8067  0.8067  0.8067  1\n  Pb  Pb4  1  0.0802  0.0802  0.0802  1\n  I  I5  1  0.2399  0.2399  0.2399  1\n  I  I6  1  0.3758  0.3758  0.3758  1\n  F  F7  1  0.8534  0.8534  0.8534  1\n  F  F8  1  0.7583  0.7583  0.7583  1\n  F  F9  1  0.6600  0.6600  0.6600  1\n  F  F10  1  0.4810  0.4810  0.4810  1\n  F  F11  1  0.1203  0.1203  0.1203  1\n  F  F12  1  0.9525  0.9525  0.9525  1\n  F  F13  1  0.3070  0.3070  0.3070  1\n  F  F14  1  0.1708  0.1708  0.1708  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pb5FI2F7\n_chemical_formula_sum              \"Pb5 F8 I2\"\n_cell_length_a       19.6251\n_cell_length_b       19.6251\n_cell_length_c       19.6251\n_cell_angle_alpha    12.6945\n_cell_angle_beta     12.6945\n_cell_angle_gamma    12.6945\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pb  Pb1       1.0000  0.9940  0.9940  0.9940  1.0000\n  Pb  Pb2       1.0000  0.6113  0.6113  0.6113  1.0000\n  Pb  Pb3       1.0000  0.5227  0.5227  0.5227  1.0000\n  Pb  Pb4       1.0000  0.8067  0.8067  0.8067  1.0000\n  Pb  Pb5       1.0000  0.0802  0.0802  0.0802  1.0000\n  F   F1        1.0000  0.2399  0.2399  0.2399  1.0000\n  I   I1        1.0000  0.3758  0.3758  0.3758  1.0000\n  I   I2        1.0000  0.8534  0.8534  0.8534  1.0000\n  F   F2        1.0000  0.7583  0.7583  0.7583  1.0000\n  F   F3        1.0000  0.6600  0.6600  0.6600  1.0000\n  F   F4        1.0000  0.4810  0.4810  0.4810  1.0000\n  F   F5        1.0000  0.1203  0.1203  0.1203  1.0000\n  F   F6        1.0000  0.9525  0.9525  0.9525  1.0000\n  F   F7        1.0000  0.3070  0.3070  0.3070  1.0000\n  F   F8        1.0000  0.1708  0.1708  0.1708  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "91369785-2511-4297-86ea-d8594462f1b6",
    "mp_id": "mp-540977",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi5IO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.5330\n_cell_length_b   9.5330\n_cell_length_c   13.2340\n_cell_angle_alpha   73.8069\n_cell_angle_beta   73.8069\n_cell_angle_gamma   25.6249\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi5IO7\n_chemical_formula_sum   'Bi10 I2 O14'\n_cell_volume   498.4016\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.7951  0.7951  0.3682  1\n  Bi  Bi1  1  0.2049  0.2049  0.6318  1\n  Bi  Bi2  1  0.3961  0.3961  0.1266  1\n  Bi  Bi3  1  0.6039  0.6039  0.8734  1\n  Bi  Bi4  1  0.4691  0.4691  0.3642  1\n  Bi  Bi5  1  0.5309  0.5309  0.6358  1\n  Bi  Bi6  1  0.1223  0.1223  0.4086  1\n  Bi  Bi7  1  0.8777  0.8777  0.5914  1\n  Bi  Bi8  1  0.7392  0.7392  0.1313  1\n  Bi  Bi9  1  0.2608  0.2608  0.8687  1\n  I  I10  1  0.9291  0.9291  0.8748  1\n  I  I11  1  0.0709  0.0709  0.1252  1\n  O  O12  1  0.1501  0.1501  0.8333  1\n  O  O13  1  0.8499  0.8499  0.1667  1\n  O  O14  1  0.6264  0.6264  0.7025  1\n  O  O15  1  0.3736  0.3736  0.2975  1\n  O  O16  1  0.2839  0.2839  0.1153  1\n  O  O17  1  0.7161  0.7161  0.8847  1\n  O  O18  1  0.9291  0.9291  0.4127  1\n  O  O19  1  0.0709  0.0709  0.5873  1\n  O  O20  1  0.2277  0.2277  0.4392  1\n  O  O21  1  0.7723  0.7723  0.5608  1\n  O  O22  1  0.3021  0.3021  0.7045  1\n  O  O23  1  0.6979  0.6979  0.2955  1\n  O  O24  1  0.4139  0.4139  0.5284  1\n  O  O25  1  0.5861  0.5861  0.4716  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBi9I2O5BiO8\n_chemical_formula_sum              \"O14 Bi10 I2\"\n_cell_length_a       9.5330\n_cell_length_b       9.5330\n_cell_length_c       13.2340\n_cell_angle_alpha    73.8069\n_cell_angle_beta     73.8069\n_cell_angle_gamma    25.6249\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7951  0.7951  0.3682  1.0000\n  Bi  Bi1       1.0000  0.2049  0.2049  0.6318  1.0000\n  Bi  Bi2       1.0000  0.3961  0.3961  0.1266  1.0000\n  Bi  Bi3       1.0000  0.6039  0.6039  0.8734  1.0000\n  Bi  Bi4       1.0000  0.4691  0.4691  0.3642  1.0000\n  Bi  Bi5       1.0000  0.5309  0.5309  0.6358  1.0000\n  Bi  Bi6       1.0000  0.1223  0.1223  0.4086  1.0000\n  Bi  Bi7       1.0000  0.8777  0.8777  0.5914  1.0000\n  Bi  Bi8       1.0000  0.7392  0.7392  0.1313  1.0000\n  Bi  Bi9       1.0000  0.2608  0.2608  0.8687  1.0000\n  I   I1        1.0000  0.9291  0.9291  0.8748  1.0000\n  I   I2        1.0000  0.0709  0.0709  0.1252  1.0000\n  O   O2        1.0000  0.1501  0.1501  0.8333  1.0000\n  O   O3        1.0000  0.8499  0.8499  0.1667  1.0000\n  O   O4        1.0000  0.6264  0.6264  0.7025  1.0000\n  O   O5        1.0000  0.3736  0.3736  0.2975  1.0000\n  O   O6        1.0000  0.2839  0.2839  0.1153  1.0000\n  Bi  Bi10      1.0000  0.7161  0.7161  0.8847  1.0000\n  O   O7        1.0000  0.9291  0.9291  0.4127  1.0000\n  O   O8        1.0000  0.0709  0.0709  0.5873  1.0000\n  O   O9        1.0000  0.2277  0.2277  0.4392  1.0000\n  O   O10       1.0000  0.7723  0.7723  0.5608  1.0000\n  O   O11       1.0000  0.3021  0.3021  0.7045  1.0000\n  O   O12       1.0000  0.6979  0.6979  0.2955  1.0000\n  O   O13       1.0000  0.4139  0.4139  0.5284  1.0000\n  O   O14       1.0000  0.5861  0.5861  0.4716  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9dae2a57-36ce-4dcd-ba6c-58dd00f3cc22",
    "mp_id": "mp-541595",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co3W3N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8137\n_cell_length_b   7.8137\n_cell_length_c   7.8137\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co3W3N\n_chemical_formula_sum   'Co12 W12 N4'\n_cell_volume   337.3347\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.3316  0.0052  0.3316  1\n  Co  Co1  1  0.9184  0.9184  0.2448  1\n  Co  Co2  1  0.2448  0.9184  0.9184  1\n  Co  Co3  1  0.9184  0.9184  0.9184  1\n  Co  Co4  1  0.0052  0.3316  0.3316  1\n  Co  Co5  1  0.3316  0.3316  0.3316  1\n  Co  Co6  1  0.3316  0.3316  0.0052  1\n  Co  Co7  1  0.9184  0.2448  0.9184  1\n  Co  Co8  1  0.1250  0.6250  0.1250  1\n  Co  Co9  1  0.1250  0.1250  0.6250  1\n  Co  Co10  1  0.6250  0.1250  0.1250  1\n  Co  Co11  1  0.1250  0.1250  0.1250  1\n  W  W12  1  0.9542  0.9542  0.5458  1\n  W  W13  1  0.7042  0.2958  0.2958  1\n  W  W14  1  0.2958  0.7042  0.7042  1\n  W  W15  1  0.7042  0.7042  0.2958  1\n  W  W16  1  0.7042  0.2958  0.7042  1\n  W  W17  1  0.2958  0.7042  0.2958  1\n  W  W18  1  0.5458  0.9542  0.5458  1\n  W  W19  1  0.5458  0.9542  0.9542  1\n  W  W20  1  0.9542  0.5458  0.5458  1\n  W  W21  1  0.9542  0.5458  0.9542  1\n  W  W22  1  0.2958  0.2958  0.7042  1\n  W  W23  1  0.5458  0.5458  0.9542  1\n  N  N24  1  0.6250  0.1250  0.6250  1\n  N  N25  1  0.6250  0.6250  0.1250  1\n  N  N26  1  0.1250  0.6250  0.6250  1\n  N  N27  1  0.6250  0.6250  0.6250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co5NCo6W12N2CoN\n_chemical_formula_sum              \"Co12 N4 W12\"\n_cell_length_a       7.8137\n_cell_length_b       7.8137\n_cell_length_c       7.8137\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.3316  0.0052  0.3316  1.0000\n  Co  Co2       1.0000  0.9184  0.9184  0.2448  1.0000\n  Co  Co3       1.0000  0.2448  0.9184  0.9184  1.0000\n  Co  Co4       1.0000  0.9184  0.9184  0.9184  1.0000\n  Co  Co5       1.0000  0.0052  0.3316  0.3316  1.0000\n  N   N1        1.0000  0.3316  0.3316  0.3316  1.0000\n  Co  Co6       1.0000  0.3316  0.3316  0.0052  1.0000\n  Co  Co7       1.0000  0.9184  0.2448  0.9184  1.0000\n  Co  Co8       1.0000  0.1250  0.6250  0.1250  1.0000\n  Co  Co9       1.0000  0.1250  0.1250  0.6250  1.0000\n  Co  Co10      1.0000  0.6250  0.1250  0.1250  1.0000\n  Co  Co11      1.0000  0.1250  0.1250  0.1250  1.0000\n  W   W1        1.0000  0.9542  0.9542  0.5458  1.0000\n  W   W2        1.0000  0.7042  0.2958  0.2958  1.0000\n  W   W3        1.0000  0.2958  0.7042  0.7042  1.0000\n  W   W4        1.0000  0.7042  0.7042  0.2958  1.0000\n  W   W5        1.0000  0.7042  0.2958  0.7042  1.0000\n  W   W6        1.0000  0.2958  0.7042  0.2958  1.0000\n  W   W7        1.0000  0.5458  0.9542  0.5458  1.0000\n  W   W8        1.0000  0.5458  0.9542  0.9542  1.0000\n  W   W9        1.0000  0.9542  0.5458  0.5458  1.0000\n  W   W10       1.0000  0.9542  0.5458  0.9542  1.0000\n  W   W11       1.0000  0.2958  0.2958  0.7042  1.0000\n  W   W12       1.0000  0.5458  0.5458  0.9542  1.0000\n  N   N2        1.0000  0.6250  0.1250  0.6250  1.0000\n  N   N3        1.0000  0.6250  0.6250  0.1250  1.0000\n  Co  Co12      1.0000  0.1250  0.6250  0.6250  1.0000\n  N   N4        1.0000  0.6250  0.6250  0.6250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bd6944a9-3323-4ca0-b162-45be71e4dc9b",
    "mp_id": "mp-541619",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2TeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.1860\n_cell_length_b   4.9181\n_cell_length_c   6.7989\n_cell_angle_alpha   87.9653\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2TeO3\n_chemical_formula_sum   'Na8 Te4 O12'\n_cell_volume   340.3834\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.4122  0.7545  0.1405  1\n  Na  Na1  1  0.9122  0.2455  0.3595  1\n  Na  Na2  1  0.5878  0.2455  0.8595  1\n  Na  Na3  1  0.0878  0.7545  0.6405  1\n  Na  Na4  1  0.2455  0.2559  0.4048  1\n  Na  Na5  1  0.7455  0.7441  0.0952  1\n  Na  Na6  1  0.7545  0.7441  0.5952  1\n  Na  Na7  1  0.2545  0.2559  0.9048  1\n  Te  Te8  1  0.0819  0.7403  0.1652  1\n  Te  Te9  1  0.5819  0.2597  0.3348  1\n  Te  Te10  1  0.9181  0.2597  0.8348  1\n  Te  Te11  1  0.4181  0.7403  0.6652  1\n  O  O12  1  0.2167  0.7714  0.3540  1\n  O  O13  1  0.7167  0.2286  0.1460  1\n  O  O14  1  0.7833  0.2286  0.6460  1\n  O  O15  1  0.2833  0.7714  0.8540  1\n  O  O16  1  0.4363  0.2490  0.1641  1\n  O  O17  1  0.9363  0.7510  0.3359  1\n  O  O18  1  0.5637  0.7510  0.8359  1\n  O  O19  1  0.0637  0.2490  0.6641  1\n  O  O20  1  0.0945  0.3598  0.1487  1\n  O  O21  1  0.5945  0.6402  0.3513  1\n  O  O22  1  0.9055  0.6402  0.8513  1\n  O  O23  1  0.4055  0.3598  0.6487  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONa7Te4O11Na\n_chemical_formula_sum              \"O12 Na8 Te4\"\n_cell_length_a       10.1860\n_cell_length_b       4.9181\n_cell_length_c       6.7989\n_cell_angle_alpha    87.9653\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.4122  0.7545  0.1405  1.0000\n  Na  Na1       1.0000  0.9122  0.2455  0.3595  1.0000\n  Na  Na2       1.0000  0.5878  0.2455  0.8595  1.0000\n  Na  Na3       1.0000  0.0878  0.7545  0.6405  1.0000\n  Na  Na4       1.0000  0.2455  0.2559  0.4048  1.0000\n  Na  Na5       1.0000  0.7455  0.7441  0.0952  1.0000\n  Na  Na6       1.0000  0.7545  0.7441  0.5952  1.0000\n  Na  Na7       1.0000  0.2545  0.2559  0.9048  1.0000\n  Te  Te1       1.0000  0.0819  0.7403  0.1652  1.0000\n  Te  Te2       1.0000  0.5819  0.2597  0.3348  1.0000\n  Te  Te3       1.0000  0.9181  0.2597  0.8348  1.0000\n  Te  Te4       1.0000  0.4181  0.7403  0.6652  1.0000\n  O   O2        1.0000  0.2167  0.7714  0.3540  1.0000\n  O   O3        1.0000  0.7167  0.2286  0.1460  1.0000\n  O   O4        1.0000  0.7833  0.2286  0.6460  1.0000\n  O   O5        1.0000  0.2833  0.7714  0.8540  1.0000\n  O   O6        1.0000  0.4363  0.2490  0.1641  1.0000\n  O   O7        1.0000  0.9363  0.7510  0.3359  1.0000\n  O   O8        1.0000  0.5637  0.7510  0.8359  1.0000\n  O   O9        1.0000  0.0637  0.2490  0.6641  1.0000\n  O   O10       1.0000  0.0945  0.3598  0.1487  1.0000\n  O   O11       1.0000  0.5945  0.6402  0.3513  1.0000\n  O   O12       1.0000  0.9055  0.6402  0.8513  1.0000\n  Na  Na8       1.0000  0.4055  0.3598  0.6487  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7552d1f7-1f01-4d65-9a93-dc6fe2d2f54a",
    "mp_id": "mp-541894",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr2Co3Ge5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2771\n_cell_length_b   8.2771\n_cell_length_c   8.2771\n_cell_angle_alpha   137.9503\n_cell_angle_beta   106.9194\n_cell_angle_gamma   88.0751\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr2Co3Ge5\n_chemical_formula_sum   'Pr4 Co6 Ge10'\n_cell_volume   348.3162\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.1285  0.8667  0.2618  1\n  Pr  Pr1  1  0.8715  0.1333  0.7382  1\n  Pr  Pr2  1  0.3952  0.6333  0.7618  1\n  Pr  Pr3  1  0.6048  0.3667  0.2382  1\n  Co  Co4  1  0.7447  0.6356  0.1090  1\n  Co  Co5  1  0.2553  0.3644  0.8910  1\n  Co  Co6  1  0.4734  0.8644  0.6090  1\n  Co  Co7  1  0.5266  0.1356  0.3910  1\n  Co  Co8  1  0.0000  0.7500  0.7500  1\n  Co  Co9  1  0.0000  0.2500  0.2500  1\n  Ge  Ge10  1  0.7641  0.5141  0.7500  1\n  Ge  Ge11  1  0.2359  0.9859  0.7500  1\n  Ge  Ge12  1  0.2359  0.4859  0.2500  1\n  Ge  Ge13  1  0.7641  0.0141  0.2500  1\n  Ge  Ge14  1  0.9427  0.5986  0.3441  1\n  Ge  Ge15  1  0.0573  0.4014  0.6559  1\n  Ge  Ge16  1  0.7455  0.9014  0.8441  1\n  Ge  Ge17  1  0.2545  0.0986  0.1559  1\n  Ge  Ge18  1  0.5000  0.7500  0.2500  1\n  Ge  Ge19  1  0.5000  0.2500  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       PrCoPr2Co2PrCo3Ge10\n_chemical_formula_sum              \"Pr4 Co6 Ge10\"\n_cell_length_a       8.2771\n_cell_length_b       8.2771\n_cell_length_c       8.2771\n_cell_angle_alpha    137.9503\n_cell_angle_beta     106.9194\n_cell_angle_gamma    88.0751\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.1285  0.8667  0.2618  1.0000\n  Co  Co1       1.0000  0.8715  0.1333  0.7382  1.0000\n  Pr  Pr2       1.0000  0.3952  0.6333  0.7618  1.0000\n  Pr  Pr3       1.0000  0.6048  0.3667  0.2382  1.0000\n  Co  Co2       1.0000  0.7447  0.6356  0.1090  1.0000\n  Co  Co3       1.0000  0.2553  0.3644  0.8910  1.0000\n  Pr  Pr4       1.0000  0.4734  0.8644  0.6090  1.0000\n  Co  Co4       1.0000  0.5266  0.1356  0.3910  1.0000\n  Co  Co5       1.0000  0.0000  0.7500  0.7500  1.0000\n  Co  Co6       1.0000  0.0000  0.2500  0.2500  1.0000\n  Ge  Ge1       1.0000  0.7641  0.5141  0.7500  1.0000\n  Ge  Ge2       1.0000  0.2359  0.9859  0.7500  1.0000\n  Ge  Ge3       1.0000  0.2359  0.4859  0.2500  1.0000\n  Ge  Ge4       1.0000  0.7641  0.0141  0.2500  1.0000\n  Ge  Ge5       1.0000  0.9427  0.5986  0.3441  1.0000\n  Ge  Ge6       1.0000  0.0573  0.4014  0.6559  1.0000\n  Ge  Ge7       1.0000  0.7455  0.9014  0.8441  1.0000\n  Ge  Ge8       1.0000  0.2545  0.0986  0.1559  1.0000\n  Ge  Ge9       1.0000  0.5000  0.7500  0.2500  1.0000\n  Ge  Ge10      1.0000  0.5000  0.2500  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72381ba6-d48e-4966-98a6-5c0fe3be8830",
    "mp_id": "mp-541991",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CuMoO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8112\n_cell_length_b   8.5691\n_cell_length_c   9.9100\n_cell_angle_alpha   96.3138\n_cell_angle_beta   106.8574\n_cell_angle_gamma   100.9272\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CuMoO4\n_chemical_formula_sum   'Cu6 Mo6 O24'\n_cell_volume   535.0786\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.5470  0.6999  0.4872  1\n  Cu  Cu1  1  0.7483  0.3008  0.0888  1\n  Cu  Cu2  1  0.2517  0.6992  0.9112  1\n  Cu  Cu3  1  0.9671  0.8929  0.7418  1\n  Cu  Cu4  1  0.0329  0.1071  0.2582  1\n  Cu  Cu5  1  0.4530  0.3001  0.5128  1\n  Mo  Mo6  1  0.9977  0.2792  0.6093  1\n  Mo  Mo7  1  0.4949  0.9722  0.7506  1\n  Mo  Mo8  1  0.6955  0.5884  0.8429  1\n  Mo  Mo9  1  0.0023  0.7208  0.3907  1\n  Mo  Mo10  1  0.5051  0.0278  0.2494  1\n  Mo  Mo11  1  0.3045  0.4116  0.1571  1\n  O  O12  1  0.5675  0.8856  0.3583  1\n  O  O13  1  0.5584  0.5002  0.6582  1\n  O  O14  1  0.9889  0.8986  0.3092  1\n  O  O15  1  0.4325  0.1144  0.6417  1\n  O  O16  1  0.6566  0.0806  0.9167  1\n  O  O17  1  0.6624  0.8507  0.6829  1\n  O  O18  1  0.7464  0.4308  0.9386  1\n  O  O19  1  0.7519  0.1433  0.2255  1\n  O  O20  1  0.9036  0.5510  0.2546  1\n  O  O21  1  0.2481  0.8567  0.7745  1\n  O  O22  1  0.0964  0.4490  0.7454  1\n  O  O23  1  0.8454  0.7081  0.5125  1\n  O  O24  1  0.0111  0.1014  0.6908  1\n  O  O25  1  0.3434  0.9194  0.0833  1\n  O  O26  1  0.2536  0.5692  0.0614  1\n  O  O27  1  0.4611  0.3029  0.0829  1\n  O  O28  1  0.2734  0.7273  0.4933  1\n  O  O29  1  0.5389  0.6971  0.9171  1\n  O  O30  1  0.7266  0.2727  0.5067  1\n  O  O31  1  0.9545  0.7270  0.8668  1\n  O  O32  1  0.3376  0.1493  0.3171  1\n  O  O33  1  0.4416  0.4998  0.3418  1\n  O  O34  1  0.0455  0.2730  0.1332  1\n  O  O35  1  0.1546  0.2919  0.4875  1\n",
    "output": "data_image0\n_chemical_formula_structural       CuOCu4Mo6O2CuO21\n_chemical_formula_sum              \"Cu6 O24 Mo6\"\n_cell_length_a       6.8112\n_cell_length_b       8.5691\n_cell_length_c       9.9100\n_cell_angle_alpha    96.3138\n_cell_angle_beta     106.8574\n_cell_angle_gamma    100.9272\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.5470  0.6999  0.4872  1.0000\n  O   O1        1.0000  0.7483  0.3008  0.0888  1.0000\n  Cu  Cu2       1.0000  0.2517  0.6992  0.9112  1.0000\n  Cu  Cu3       1.0000  0.9671  0.8929  0.7418  1.0000\n  Cu  Cu4       1.0000  0.0329  0.1071  0.2582  1.0000\n  Cu  Cu5       1.0000  0.4530  0.3001  0.5128  1.0000\n  Mo  Mo1       1.0000  0.9977  0.2792  0.6093  1.0000\n  Mo  Mo2       1.0000  0.4949  0.9722  0.7506  1.0000\n  Mo  Mo3       1.0000  0.6955  0.5884  0.8429  1.0000\n  Mo  Mo4       1.0000  0.0023  0.7208  0.3907  1.0000\n  Mo  Mo5       1.0000  0.5051  0.0278  0.2494  1.0000\n  Mo  Mo6       1.0000  0.3045  0.4116  0.1571  1.0000\n  O   O2        1.0000  0.5675  0.8856  0.3583  1.0000\n  O   O3        1.0000  0.5584  0.5002  0.6582  1.0000\n  Cu  Cu6       1.0000  0.9889  0.8986  0.3092  1.0000\n  O   O4        1.0000  0.4325  0.1144  0.6417  1.0000\n  O   O5        1.0000  0.6566  0.0806  0.9167  1.0000\n  O   O6        1.0000  0.6624  0.8507  0.6829  1.0000\n  O   O7        1.0000  0.7464  0.4308  0.9386  1.0000\n  O   O8        1.0000  0.7519  0.1433  0.2255  1.0000\n  O   O9        1.0000  0.9036  0.5510  0.2546  1.0000\n  O   O10       1.0000  0.2481  0.8567  0.7745  1.0000\n  O   O11       1.0000  0.0964  0.4490  0.7454  1.0000\n  O   O12       1.0000  0.8454  0.7081  0.5125  1.0000\n  O   O13       1.0000  0.0111  0.1014  0.6908  1.0000\n  O   O14       1.0000  0.3434  0.9194  0.0833  1.0000\n  O   O15       1.0000  0.2536  0.5692  0.0614  1.0000\n  O   O16       1.0000  0.4611  0.3029  0.0829  1.0000\n  O   O17       1.0000  0.2734  0.7273  0.4933  1.0000\n  O   O18       1.0000  0.5389  0.6971  0.9171  1.0000\n  O   O19       1.0000  0.7266  0.2727  0.5067  1.0000\n  O   O20       1.0000  0.9545  0.7270  0.8668  1.0000\n  O   O21       1.0000  0.3376  0.1493  0.3171  1.0000\n  O   O22       1.0000  0.4416  0.4998  0.3418  1.0000\n  O   O23       1.0000  0.0455  0.2730  0.1332  1.0000\n  O   O24       1.0000  0.1546  0.2919  0.4875  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9b3623b8-8107-4b82-98cd-072d950f1ce4",
    "mp_id": "mp-542024",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sc2GaB2Rh5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3475\n_cell_length_b   9.3475\n_cell_length_c   3.0817\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sc2GaB2Rh5\n_chemical_formula_sum   'Sc4 Ga2 B4 Rh10'\n_cell_volume   269.2608\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.8251  0.3251  0.0000  1\n  Sc  Sc1  1  0.3251  0.1749  0.0000  1\n  Sc  Sc2  1  0.6749  0.8251  0.0000  1\n  Sc  Sc3  1  0.1749  0.6749  0.0000  1\n  Ga  Ga4  1  0.0000  0.0000  0.0000  1\n  Ga  Ga5  1  0.5000  0.5000  0.0000  1\n  B  B6  1  0.6247  0.1247  0.0000  1\n  B  B7  1  0.1247  0.3753  0.0000  1\n  B  B8  1  0.8753  0.6247  0.0000  1\n  B  B9  1  0.3753  0.8753  0.0000  1\n  Rh  Rh10  1  0.0710  0.2166  0.5000  1\n  Rh  Rh11  1  0.2166  0.9290  0.5000  1\n  Rh  Rh12  1  0.7834  0.0710  0.5000  1\n  Rh  Rh13  1  0.9290  0.7834  0.5000  1\n  Rh  Rh14  1  0.4290  0.7166  0.5000  1\n  Rh  Rh15  1  0.5710  0.2834  0.5000  1\n  Rh  Rh16  1  0.7166  0.5710  0.5000  1\n  Rh  Rh17  1  0.2834  0.4290  0.5000  1\n  Rh  Rh18  1  0.5000  0.0000  0.5000  1\n  Rh  Rh19  1  0.0000  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc3BGa2BScB2Rh10\n_chemical_formula_sum              \"Sc4 B4 Ga2 Rh10\"\n_cell_length_a       9.3475\n_cell_length_b       9.3475\n_cell_length_c       3.0817\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.8251  0.3251  0.0000  1.0000\n  Sc  Sc2       1.0000  0.3251  0.1749  0.0000  1.0000\n  Sc  Sc3       1.0000  0.6749  0.8251  0.0000  1.0000\n  B   B1        1.0000  0.1749  0.6749  0.0000  1.0000\n  Ga  Ga1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ga  Ga2       1.0000  0.5000  0.5000  0.0000  1.0000\n  B   B2        1.0000  0.6247  0.1247  0.0000  1.0000\n  Sc  Sc4       1.0000  0.1247  0.3753  0.0000  1.0000\n  B   B3        1.0000  0.8753  0.6247  0.0000  1.0000\n  B   B4        1.0000  0.3753  0.8753  0.0000  1.0000\n  Rh  Rh1       1.0000  0.0710  0.2166  0.5000  1.0000\n  Rh  Rh2       1.0000  0.2166  0.9290  0.5000  1.0000\n  Rh  Rh3       1.0000  0.7834  0.0710  0.5000  1.0000\n  Rh  Rh4       1.0000  0.9290  0.7834  0.5000  1.0000\n  Rh  Rh5       1.0000  0.4290  0.7166  0.5000  1.0000\n  Rh  Rh6       1.0000  0.5710  0.2834  0.5000  1.0000\n  Rh  Rh7       1.0000  0.7166  0.5710  0.5000  1.0000\n  Rh  Rh8       1.0000  0.2834  0.4290  0.5000  1.0000\n  Rh  Rh9       1.0000  0.5000  0.0000  0.5000  1.0000\n  Rh  Rh10      1.0000  0.0000  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "24557bb2-3038-4635-8f4d-afec2e351da4",
    "mp_id": "mp-542151",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V2Ni3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8834\n_cell_length_b   6.4069\n_cell_length_c   8.1843\n_cell_angle_alpha   90.0002\n_cell_angle_beta   89.9999\n_cell_angle_gamma   62.6375\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V2Ni3O8\n_chemical_formula_sum   'V4 Ni6 O16'\n_cell_volume   273.9843\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.1246  0.7508  0.6183  1\n  V  V1  1  0.8754  0.2492  0.3817  1\n  V  V2  1  0.3754  0.2492  0.1183  1\n  V  V3  1  0.6246  0.7508  0.8817  1\n  Ni  Ni4  1  0.5000  0.0000  0.5000  1\n  Ni  Ni5  1  1.0000  -0.0000  1.0000  1\n  Ni  Ni6  1  0.1195  0.2610  0.7500  1\n  Ni  Ni7  1  0.3805  0.7390  0.2500  1\n  Ni  Ni8  1  0.8805  0.7390  0.2500  1\n  Ni  Ni9  1  0.6195  0.2610  0.7500  1\n  O  O10  1  0.5002  0.9996  0.7456  1\n  O  O11  1  0.4998  0.0004  0.2544  1\n  O  O12  1  0.0002  0.9996  0.7544  1\n  O  O13  1  0.9998  0.0004  0.2456  1\n  O  O14  1  0.7527  0.4946  0.7684  1\n  O  O15  1  0.2473  0.5054  0.2316  1\n  O  O16  1  0.7473  0.5054  0.2684  1\n  O  O17  1  0.2527  0.4946  0.7316  1\n  O  O18  1  0.3560  0.7630  0.4970  1\n  O  O19  1  0.1189  0.2371  0.5030  1\n  O  O20  1  0.1440  0.2370  0.9971  1\n  O  O21  1  0.3811  0.7629  0.0030  1\n  O  O22  1  0.6440  0.2370  0.5030  1\n  O  O23  1  0.8811  0.7629  0.4970  1\n  O  O24  1  0.8560  0.7630  0.0029  1\n  O  O25  1  0.6189  0.2371  0.9970  1\n",
    "output": "data_image0\n_chemical_formula_structural       V4NiONi4O11NiO4\n_chemical_formula_sum              \"V4 Ni6 O16\"\n_cell_length_a       5.8834\n_cell_length_b       6.4069\n_cell_length_c       8.1843\n_cell_angle_alpha    90.0002\n_cell_angle_beta     89.9999\n_cell_angle_gamma    62.6375\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.1246  0.7508  0.6183  1.0000\n  V   V2        1.0000  0.8754  0.2492  0.3817  1.0000\n  V   V3        1.0000  0.3754  0.2492  0.1183  1.0000\n  V   V4        1.0000  0.6246  0.7508  0.8817  1.0000\n  Ni  Ni1       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  1.0000  1.0000  1.0000  1.0000\n  Ni  Ni2       1.0000  0.1195  0.2610  0.7500  1.0000\n  Ni  Ni3       1.0000  0.3805  0.7390  0.2500  1.0000\n  Ni  Ni4       1.0000  0.8805  0.7390  0.2500  1.0000\n  Ni  Ni5       1.0000  0.6195  0.2610  0.7500  1.0000\n  O   O2        1.0000  0.5002  0.9996  0.7456  1.0000\n  O   O3        1.0000  0.4998  0.0004  0.2544  1.0000\n  O   O4        1.0000  0.0002  0.9996  0.7544  1.0000\n  O   O5        1.0000  0.9998  0.0004  0.2456  1.0000\n  O   O6        1.0000  0.7527  0.4946  0.7684  1.0000\n  O   O7        1.0000  0.2473  0.5054  0.2316  1.0000\n  O   O8        1.0000  0.7473  0.5054  0.2684  1.0000\n  O   O9        1.0000  0.2527  0.4946  0.7316  1.0000\n  O   O10       1.0000  0.3560  0.7630  0.4970  1.0000\n  O   O11       1.0000  0.1189  0.2371  0.5030  1.0000\n  O   O12       1.0000  0.1440  0.2370  0.9971  1.0000\n  Ni  Ni6       1.0000  0.3811  0.7629  0.0030  1.0000\n  O   O13       1.0000  0.6440  0.2370  0.5030  1.0000\n  O   O14       1.0000  0.8811  0.7629  0.4970  1.0000\n  O   O15       1.0000  0.8560  0.7630  0.0029  1.0000\n  O   O16       1.0000  0.6189  0.2371  0.9970  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0bfeea48-a3d0-4373-b41b-de9d4b1175b4",
    "mp_id": "mp-542342",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy5Ga3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6066\n_cell_length_b   7.6066\n_cell_length_c   8.8526\n_cell_angle_alpha   115.4481\n_cell_angle_beta   115.4481\n_cell_angle_gamma   90.0028\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy5Ga3\n_chemical_formula_sum   'Dy10 Ga6'\n_cell_volume   406.7834\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.0000  0.0000  0.0000  1\n  Dy  Dy1  1  0.5000  0.5000  0.0000  1\n  Dy  Dy2  1  0.3173  0.8173  0.2947  1\n  Dy  Dy3  1  0.4774  0.3173  0.2947  1\n  Dy  Dy4  1  0.8173  0.9774  0.2947  1\n  Dy  Dy5  1  0.5226  0.6827  0.7053  1\n  Dy  Dy6  1  0.1827  0.0226  0.7053  1\n  Dy  Dy7  1  0.0226  0.5226  0.7053  1\n  Dy  Dy8  1  0.6827  0.1827  0.7053  1\n  Dy  Dy9  1  0.9774  0.4774  0.2947  1\n  Ga  Ga10  1  0.2500  0.2500  0.5000  1\n  Ga  Ga11  1  0.7500  0.7500  0.5000  1\n  Ga  Ga12  1  0.3788  0.8788  0.0000  1\n  Ga  Ga13  1  0.1212  0.3788  -0.0000  1\n  Ga  Ga14  1  0.8788  0.6212  0.0000  1\n  Ga  Ga15  1  0.6212  0.1212  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy4GaDy6Ga5\n_chemical_formula_sum              \"Dy10 Ga6\"\n_cell_length_a       7.6066\n_cell_length_b       7.6066\n_cell_length_c       8.8526\n_cell_angle_alpha    115.4481\n_cell_angle_beta     115.4481\n_cell_angle_gamma    90.0028\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Dy  Dy2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Dy  Dy3       1.0000  0.3173  0.8173  0.2947  1.0000\n  Dy  Dy4       1.0000  0.4774  0.3173  0.2947  1.0000\n  Ga  Ga1       1.0000  0.8173  0.9774  0.2947  1.0000\n  Dy  Dy5       1.0000  0.5226  0.6827  0.7053  1.0000\n  Dy  Dy6       1.0000  0.1827  0.0226  0.7053  1.0000\n  Dy  Dy7       1.0000  0.0226  0.5226  0.7053  1.0000\n  Dy  Dy8       1.0000  0.6827  0.1827  0.7053  1.0000\n  Dy  Dy9       1.0000  0.9774  0.4774  0.2947  1.0000\n  Dy  Dy10      1.0000  0.2500  0.2500  0.5000  1.0000\n  Ga  Ga2       1.0000  0.7500  0.7500  0.5000  1.0000\n  Ga  Ga3       1.0000  0.3788  0.8788  0.0000  1.0000\n  Ga  Ga4       1.0000  0.1212  0.3788  1.0000  1.0000\n  Ga  Ga5       1.0000  0.8788  0.6212  1e-08  1.0000\n  Ga  Ga6       1.0000  0.6212  0.1212  1.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f8610569-ae13-4eea-bb0e-ecb5f51f76e8",
    "mp_id": "mp-542435",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3ScN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6455\n_cell_length_b   8.6455\n_cell_length_c   8.6455\n_cell_angle_alpha   109.4712\n_cell_angle_beta   109.4712\n_cell_angle_gamma   109.4712\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3ScN2\n_chemical_formula_sum   'Li24 Sc8 N16'\n_cell_volume   497.4472\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5374  0.2742  0.5423  1\n  Li  Li1  1  0.7632  0.2680  0.2258  1\n  Li  Li2  1  0.9951  0.9577  0.2320  1\n  Li  Li3  1  0.9577  0.2320  0.9951  1\n  Li  Li4  1  0.5049  0.7368  0.9626  1\n  Li  Li5  1  0.5423  0.5374  0.2742  1\n  Li  Li6  1  0.2742  0.5423  0.5374  1\n  Li  Li7  1  0.2258  0.7632  0.2680  1\n  Li  Li8  1  0.7368  0.9626  0.5049  1\n  Li  Li9  1  0.2320  0.9951  0.9577  1\n  Li  Li10  1  0.9626  0.5049  0.7368  1\n  Li  Li11  1  0.2680  0.2258  0.7632  1\n  Li  Li12  1  0.4626  0.7258  0.4577  1\n  Li  Li13  1  0.2368  0.7320  0.7742  1\n  Li  Li14  1  0.0049  0.0423  0.7680  1\n  Li  Li15  1  0.0423  0.7680  0.0049  1\n  Li  Li16  1  0.4951  0.2632  0.0374  1\n  Li  Li17  1  0.4577  0.4626  0.7258  1\n  Li  Li18  1  0.7258  0.4577  0.4626  1\n  Li  Li19  1  0.7742  0.2368  0.7320  1\n  Li  Li20  1  0.2632  0.0374  0.4951  1\n  Li  Li21  1  0.7680  0.0049  0.0423  1\n  Li  Li22  1  0.0374  0.4951  0.2632  1\n  Li  Li23  1  0.7320  0.7742  0.2368  1\n  Sc  Sc24  1  0.5000  0.0000  0.2441  1\n  Sc  Sc25  1  0.0000  0.2441  0.5000  1\n  Sc  Sc26  1  0.2559  0.2559  0.2559  1\n  Sc  Sc27  1  0.2441  0.5000  -0.0000  1\n  Sc  Sc28  1  0.5000  -0.0000  0.7559  1\n  Sc  Sc29  1  0.0000  0.7559  0.5000  1\n  Sc  Sc30  1  0.7441  0.7441  0.7441  1\n  Sc  Sc31  1  0.7559  0.5000  0.0000  1\n  N  N32  1  0.5000  0.0000  -0.0000  1\n  N  N33  1  -0.0000  0.0000  0.5000  1\n  N  N34  1  0.5000  0.5000  0.5000  1\n  N  N35  1  -0.0000  0.5000  -0.0000  1\n  N  N36  1  0.4884  0.7500  0.2384  1\n  N  N37  1  0.2384  0.4884  0.7500  1\n  N  N38  1  0.2500  0.2616  0.0116  1\n  N  N39  1  0.2616  0.0116  0.2500  1\n  N  N40  1  0.7500  0.2384  0.4884  1\n  N  N41  1  0.0116  0.2500  0.2616  1\n  N  N42  1  0.5116  0.2500  0.7616  1\n  N  N43  1  0.7616  0.5116  0.2500  1\n  N  N44  1  0.7500  0.7384  0.9884  1\n  N  N45  1  0.7384  0.9884  0.7500  1\n  N  N46  1  0.2500  0.7616  0.5116  1\n  N  N47  1  0.9884  0.7500  0.7384  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6ScLi17Sc6LiScN16\n_chemical_formula_sum              \"Li24 Sc8 N16\"\n_cell_length_a       8.6455\n_cell_length_b       8.6455\n_cell_length_c       8.6455\n_cell_angle_alpha    109.4712\n_cell_angle_beta     109.4712\n_cell_angle_gamma    109.4712\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5374  0.2742  0.5423  1.0000\n  Li  Li2       1.0000  0.7632  0.2680  0.2258  1.0000\n  Li  Li3       1.0000  0.9951  0.9577  0.2320  1.0000\n  Li  Li4       1.0000  0.9577  0.2320  0.9951  1.0000\n  Li  Li5       1.0000  0.5049  0.7368  0.9626  1.0000\n  Li  Li6       1.0000  0.5423  0.5374  0.2742  1.0000\n  Sc  Sc1       1.0000  0.2742  0.5423  0.5374  1.0000\n  Li  Li7       1.0000  0.2258  0.7632  0.2680  1.0000\n  Li  Li8       1.0000  0.7368  0.9626  0.5049  1.0000\n  Li  Li9       1.0000  0.2320  0.9951  0.9577  1.0000\n  Li  Li10      1.0000  0.9626  0.5049  0.7368  1.0000\n  Li  Li11      1.0000  0.2680  0.2258  0.7632  1.0000\n  Li  Li12      1.0000  0.4626  0.7258  0.4577  1.0000\n  Li  Li13      1.0000  0.2368  0.7320  0.7742  1.0000\n  Li  Li14      1.0000  0.0049  0.0423  0.7680  1.0000\n  Li  Li15      1.0000  0.0423  0.7680  0.0049  1.0000\n  Li  Li16      1.0000  0.4951  0.2632  0.0374  1.0000\n  Li  Li17      1.0000  0.4577  0.4626  0.7258  1.0000\n  Li  Li18      1.0000  0.7258  0.4577  0.4626  1.0000\n  Li  Li19      1.0000  0.7742  0.2368  0.7320  1.0000\n  Li  Li20      1.0000  0.2632  0.0374  0.4951  1.0000\n  Li  Li21      1.0000  0.7680  0.0049  0.0423  1.0000\n  Li  Li22      1.0000  0.0374  0.4951  0.2632  1.0000\n  Li  Li23      1.0000  0.7320  0.7742  0.2368  1.0000\n  Sc  Sc2       1.0000  0.5000  0.0000  0.2441  1.0000\n  Sc  Sc3       1.0000  0.0000  0.2441  0.5000  1.0000\n  Sc  Sc4       1.0000  0.2559  0.2559  0.2559  1.0000\n  Sc  Sc5       1.0000  0.2441  0.5000  0.0000  1.0000\n  Sc  Sc6       1.0000  0.5000  0.0000  0.7559  1.0000\n  Sc  Sc7       1.0000  1.0000  0.7559  0.5000  1.0000\n  Li  Li24      1.0000  0.7441  0.7441  0.7441  1.0000\n  Sc  Sc8       1.0000  0.7559  0.5000  0.0000  1.0000\n  N   N1        1.0000  0.5000  0.0000  0.0000  1.0000\n  N   N2        1.0000  0.0000  0.0000  0.5000  1.0000\n  N   N3        1.0000  0.5000  0.5000  0.5000  1.0000\n  N   N4        1.0000  0.0000  0.5000  0.0000  1.0000\n  N   N5        1.0000  0.4884  0.7500  0.2384  1.0000\n  N   N6        1.0000  0.2384  0.4884  0.7500  1.0000\n  N   N7        1.0000  0.2500  0.2616  0.0116  1.0000\n  N   N8        1.0000  0.2616  0.0116  0.2500  1.0000\n  N   N9        1.0000  0.7500  0.2384  0.4884  1.0000\n  N   N10       1.0000  0.0116  0.2500  0.2616  1.0000\n  N   N11       1.0000  0.5116  0.2500  0.7616  1.0000\n  N   N12       1.0000  0.7616  0.5116  0.2500  1.0000\n  N   N13       1.0000  0.7500  0.7384  0.9884  1.0000\n  N   N14       1.0000  0.7384  0.9884  0.7500  1.0000\n  N   N15       1.0000  0.2500  0.7616  0.5116  1.0000\n  N   N16       1.0000  0.9884  0.7500  0.7384  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9d249bf9-31dc-41d7-902a-dea3fb9e2cd3",
    "mp_id": "mp-542448",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cs3GaSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.8644\n_cell_length_b   8.6218\n_cell_length_c   11.2825\n_cell_angle_alpha   53.4761\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cs3GaSe3\n_chemical_formula_sum   'Cs12 Ga4 Se12'\n_cell_volume   1083.7901\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.9226  0.3546  0.3861  1\n  Cs  Cs1  1  0.4226  0.6454  0.1139  1\n  Cs  Cs2  1  0.0774  0.6454  0.6139  1\n  Cs  Cs3  1  0.5774  0.3546  0.8861  1\n  Cs  Cs4  1  0.1931  0.1303  0.5860  1\n  Cs  Cs5  1  0.6931  0.8697  0.9140  1\n  Cs  Cs6  1  0.8069  0.8697  0.4140  1\n  Cs  Cs7  1  0.3069  0.1303  0.0860  1\n  Cs  Cs8  1  0.6287  0.3784  0.4856  1\n  Cs  Cs9  1  0.1287  0.6216  0.0144  1\n  Cs  Cs10  1  0.3713  0.6216  0.5144  1\n  Cs  Cs11  1  0.8713  0.3784  0.9856  1\n  Ga  Ga12  1  0.9429  0.0678  0.8405  1\n  Ga  Ga13  1  0.4429  0.9322  0.6595  1\n  Ga  Ga14  1  0.0571  0.9322  0.1595  1\n  Ga  Ga15  1  0.5571  0.0678  0.3405  1\n  Se  Se16  1  0.3958  0.1357  0.3927  1\n  Se  Se17  1  0.8958  0.8643  0.1073  1\n  Se  Se18  1  0.6042  0.8643  0.6073  1\n  Se  Se19  1  0.1042  0.1357  0.8927  1\n  Se  Se20  1  0.6603  0.3455  0.1956  1\n  Se  Se21  1  0.1603  0.6545  0.3044  1\n  Se  Se22  1  0.3397  0.6545  0.8044  1\n  Se  Se23  1  0.8397  0.3455  0.6956  1\n  Se  Se24  1  0.5543  0.8891  0.2406  1\n  Se  Se25  1  0.0543  0.1109  0.2594  1\n  Se  Se26  1  0.4457  0.1109  0.7594  1\n  Se  Se27  1  0.9457  0.8891  0.7406  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs10SeCsGa4SeCsSe10\n_chemical_formula_sum              \"Cs12 Se12 Ga4\"\n_cell_length_a       13.8644\n_cell_length_b       8.6218\n_cell_length_c       11.2825\n_cell_angle_alpha    53.4761\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.9226  0.3546  0.3861  1.0000\n  Cs  Cs2       1.0000  0.4226  0.6454  0.1139  1.0000\n  Cs  Cs3       1.0000  0.0774  0.6454  0.6139  1.0000\n  Cs  Cs4       1.0000  0.5774  0.3546  0.8861  1.0000\n  Cs  Cs5       1.0000  0.1931  0.1303  0.5860  1.0000\n  Cs  Cs6       1.0000  0.6931  0.8697  0.9140  1.0000\n  Cs  Cs7       1.0000  0.8069  0.8697  0.4140  1.0000\n  Cs  Cs8       1.0000  0.3069  0.1303  0.0860  1.0000\n  Cs  Cs9       1.0000  0.6287  0.3784  0.4856  1.0000\n  Cs  Cs10      1.0000  0.1287  0.6216  0.0144  1.0000\n  Se  Se1       1.0000  0.3713  0.6216  0.5144  1.0000\n  Cs  Cs11      1.0000  0.8713  0.3784  0.9856  1.0000\n  Ga  Ga1       1.0000  0.9429  0.0678  0.8405  1.0000\n  Ga  Ga2       1.0000  0.4429  0.9322  0.6595  1.0000\n  Ga  Ga3       1.0000  0.0571  0.9322  0.1595  1.0000\n  Ga  Ga4       1.0000  0.5571  0.0678  0.3405  1.0000\n  Se  Se2       1.0000  0.3958  0.1357  0.3927  1.0000\n  Cs  Cs12      1.0000  0.8958  0.8643  0.1073  1.0000\n  Se  Se3       1.0000  0.6042  0.8643  0.6073  1.0000\n  Se  Se4       1.0000  0.1042  0.1357  0.8927  1.0000\n  Se  Se5       1.0000  0.6603  0.3455  0.1956  1.0000\n  Se  Se6       1.0000  0.1603  0.6545  0.3044  1.0000\n  Se  Se7       1.0000  0.3397  0.6545  0.8044  1.0000\n  Se  Se8       1.0000  0.8397  0.3455  0.6956  1.0000\n  Se  Se9       1.0000  0.5543  0.8891  0.2406  1.0000\n  Se  Se10      1.0000  0.0543  0.1109  0.2594  1.0000\n  Se  Se11      1.0000  0.4457  0.1109  0.7594  1.0000\n  Se  Se12      1.0000  0.9457  0.8891  0.7406  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5bee234c-706d-40c6-af4c-ce1ed5b4e00f",
    "mp_id": "mp-542812",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GaTe\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1060\n_cell_length_b   9.2619\n_cell_length_c   10.7367\n_cell_angle_alpha   106.2435\n_cell_angle_beta   90.0000\n_cell_angle_gamma   102.8068\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GaTe\n_chemical_formula_sum   'Ga6 Te6'\n_cell_volume   381.4245\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ga  Ga0  1  0.1384  0.2768  0.4152  1\n  Ga  Ga1  1  0.8616  0.7232  0.5848  1\n  Ga  Ga2  1  0.2373  0.4746  0.3029  1\n  Ga  Ga3  1  0.7627  0.5254  0.6971  1\n  Ga  Ga4  1  0.5623  0.1245  0.0831  1\n  Ga  Ga5  1  0.4377  0.8755  0.9169  1\n  Te  Te6  1  0.1522  0.3045  0.0549  1\n  Te  Te7  1  0.8478  0.6955  0.9451  1\n  Te  Te8  1  0.1645  0.3289  0.6716  1\n  Te  Te9  1  0.8355  0.6711  0.3284  1\n  Te  Te10  1  0.5429  0.0858  0.3234  1\n  Te  Te11  1  0.4571  0.9142  0.6766  1\n",
    "output": "data_image0\n_chemical_formula_structural       TeGa5Te3GaTe2\n_chemical_formula_sum              \"Te6 Ga6\"\n_cell_length_a       4.1060\n_cell_length_b       9.2619\n_cell_length_c       10.7367\n_cell_angle_alpha    106.2435\n_cell_angle_beta     90.0000\n_cell_angle_gamma    102.8068\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Te  Te1       1.0000  0.1384  0.2768  0.4152  1.0000\n  Ga  Ga1       1.0000  0.8616  0.7232  0.5848  1.0000\n  Ga  Ga2       1.0000  0.2373  0.4746  0.3029  1.0000\n  Ga  Ga3       1.0000  0.7627  0.5254  0.6971  1.0000\n  Ga  Ga4       1.0000  0.5623  0.1245  0.0831  1.0000\n  Ga  Ga5       1.0000  0.4377  0.8755  0.9169  1.0000\n  Te  Te2       1.0000  0.1522  0.3045  0.0549  1.0000\n  Te  Te3       1.0000  0.8478  0.6955  0.9451  1.0000\n  Te  Te4       1.0000  0.1645  0.3289  0.6716  1.0000\n  Ga  Ga6       1.0000  0.8355  0.6711  0.3284  1.0000\n  Te  Te5       1.0000  0.5429  0.0858  0.3234  1.0000\n  Te  Te6       1.0000  0.4571  0.9142  0.6766  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "47f3b3bb-b622-4c3f-bc34-49a54a688611",
    "mp_id": "mp-543036",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 56 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KDy(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9878\n_cell_length_b   10.4292\n_cell_length_c   12.8168\n_cell_angle_alpha   55.1245\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KDy(PO3)4\n_chemical_formula_sum   'K4 Dy4 P16 O48'\n_cell_volume   985.6071\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5679  0.7442  0.9602  1\n  K  K1  1  0.0679  0.2558  0.5398  1\n  K  K2  1  0.4321  0.2558  0.0398  1\n  K  K3  1  0.9321  0.7442  0.4602  1\n  Dy  Dy4  1  0.2261  0.8146  0.1848  1\n  Dy  Dy5  1  0.7261  0.1854  0.3152  1\n  Dy  Dy6  1  0.7739  0.1854  0.8152  1\n  Dy  Dy7  1  0.2739  0.8146  0.6848  1\n  P  P8  1  0.9745  0.5229  0.2256  1\n  P  P9  1  0.4745  0.4771  0.2744  1\n  P  P10  1  0.0255  0.4771  0.7744  1\n  P  P11  1  0.5255  0.5229  0.7256  1\n  P  P12  1  0.1097  0.6991  0.9782  1\n  P  P13  1  0.6097  0.3009  0.5218  1\n  P  P14  1  0.8903  0.3009  0.0218  1\n  P  P15  1  0.3903  0.6991  0.4782  1\n  P  P16  1  0.9090  0.8908  0.7572  1\n  P  P17  1  0.4090  0.1092  0.7428  1\n  P  P18  1  0.0910  0.1092  0.2428  1\n  P  P19  1  0.5910  0.8908  0.2572  1\n  P  P20  1  0.6712  0.8232  0.6366  1\n  P  P21  1  0.1712  0.1768  0.8634  1\n  P  P22  1  0.3288  0.1768  0.3634  1\n  P  P23  1  0.8288  0.8232  0.1366  1\n  O  O24  1  0.4066  0.6367  0.1935  1\n  O  O25  1  0.9066  0.3633  0.3065  1\n  O  O26  1  0.5934  0.3633  0.8065  1\n  O  O27  1  0.0934  0.6367  0.6935  1\n  O  O28  1  0.0851  0.5673  0.2882  1\n  O  O29  1  0.5851  0.4327  0.2118  1\n  O  O30  1  0.9149  0.4327  0.7118  1\n  O  O31  1  0.4149  0.5673  0.7882  1\n  O  O32  1  0.0470  0.5380  0.1027  1\n  O  O33  1  0.5470  0.4620  0.3973  1\n  O  O34  1  0.9530  0.4620  0.8973  1\n  O  O35  1  0.4530  0.5380  0.6027  1\n  O  O36  1  0.8418  0.6520  0.1622  1\n  O  O37  1  0.3418  0.3480  0.3378  1\n  O  O38  1  0.1582  0.3480  0.8378  1\n  O  O39  1  0.6582  0.6520  0.6622  1\n  O  O40  1  0.1655  0.7989  0.0192  1\n  O  O41  1  0.6655  0.2011  0.4808  1\n  O  O42  1  0.8345  0.2011  0.9808  1\n  O  O43  1  0.3345  0.7989  0.5192  1\n  O  O44  1  0.2120  0.6637  0.9051  1\n  O  O45  1  0.7120  0.3363  0.5949  1\n  O  O46  1  0.7880  0.3363  0.0949  1\n  O  O47  1  0.2880  0.6637  0.4051  1\n  O  O48  1  0.9527  0.7680  0.9039  1\n  O  O49  1  0.4527  0.2320  0.5961  1\n  O  O50  1  0.0473  0.2320  0.0961  1\n  O  O51  1  0.5473  0.7680  0.4039  1\n  O  O52  1  0.3249  0.9755  0.7582  1\n  O  O53  1  0.8249  0.0245  0.7418  1\n  O  O54  1  0.6751  0.0245  0.2418  1\n  O  O55  1  0.1751  0.9755  0.2582  1\n  O  O56  1  0.0418  0.9271  0.6735  1\n  O  O57  1  0.5418  0.0729  0.8265  1\n  O  O58  1  0.9582  0.0729  0.3265  1\n  O  O59  1  0.4582  0.9271  0.1735  1\n  O  O60  1  0.7923  0.7802  0.7461  1\n  O  O61  1  0.2923  0.2198  0.7539  1\n  O  O62  1  0.2077  0.2198  0.2539  1\n  O  O63  1  0.7077  0.7802  0.2461  1\n  O  O64  1  0.7395  0.9278  0.5074  1\n  O  O65  1  0.2395  0.0722  0.9926  1\n  O  O66  1  0.2605  0.0722  0.4926  1\n  O  O67  1  0.7605  0.9278  0.0074  1\n  O  O68  1  0.5291  0.8652  0.6716  1\n  O  O69  1  0.0291  0.1348  0.8284  1\n  O  O70  1  0.4709  0.1348  0.3284  1\n  O  O71  1  0.9709  0.8652  0.1716  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Dy4P9OP6O32PO15\n_chemical_formula_sum              \"K4 Dy4 P16 O48\"\n_cell_length_a       8.9878\n_cell_length_b       10.4292\n_cell_length_c       12.8168\n_cell_angle_alpha    55.1245\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5679  0.7442  0.9602  1.0000\n  K   K2        1.0000  0.0679  0.2558  0.5398  1.0000\n  K   K3        1.0000  0.4321  0.2558  0.0398  1.0000\n  K   K4        1.0000  0.9321  0.7442  0.4602  1.0000\n  Dy  Dy1       1.0000  0.2261  0.8146  0.1848  1.0000\n  Dy  Dy2       1.0000  0.7261  0.1854  0.3152  1.0000\n  Dy  Dy3       1.0000  0.7739  0.1854  0.8152  1.0000\n  Dy  Dy4       1.0000  0.2739  0.8146  0.6848  1.0000\n  P   P1        1.0000  0.9745  0.5229  0.2256  1.0000\n  P   P2        1.0000  0.4745  0.4771  0.2744  1.0000\n  P   P3        1.0000  0.0255  0.4771  0.7744  1.0000\n  P   P4        1.0000  0.5255  0.5229  0.7256  1.0000\n  P   P5        1.0000  0.1097  0.6991  0.9782  1.0000\n  P   P6        1.0000  0.6097  0.3009  0.5218  1.0000\n  P   P7        1.0000  0.8903  0.3009  0.0218  1.0000\n  P   P8        1.0000  0.3903  0.6991  0.4782  1.0000\n  P   P9        1.0000  0.9090  0.8908  0.7572  1.0000\n  O   O1        1.0000  0.4090  0.1092  0.7428  1.0000\n  P   P10       1.0000  0.0910  0.1092  0.2428  1.0000\n  P   P11       1.0000  0.5910  0.8908  0.2572  1.0000\n  P   P12       1.0000  0.6712  0.8232  0.6366  1.0000\n  P   P13       1.0000  0.1712  0.1768  0.8634  1.0000\n  P   P14       1.0000  0.3288  0.1768  0.3634  1.0000\n  P   P15       1.0000  0.8288  0.8232  0.1366  1.0000\n  O   O2        1.0000  0.4066  0.6367  0.1935  1.0000\n  O   O3        1.0000  0.9066  0.3633  0.3065  1.0000\n  O   O4        1.0000  0.5934  0.3633  0.8065  1.0000\n  O   O5        1.0000  0.0934  0.6367  0.6935  1.0000\n  O   O6        1.0000  0.0851  0.5673  0.2882  1.0000\n  O   O7        1.0000  0.5851  0.4327  0.2118  1.0000\n  O   O8        1.0000  0.9149  0.4327  0.7118  1.0000\n  O   O9        1.0000  0.4149  0.5673  0.7882  1.0000\n  O   O10       1.0000  0.0470  0.5380  0.1027  1.0000\n  O   O11       1.0000  0.5470  0.4620  0.3973  1.0000\n  O   O12       1.0000  0.9530  0.4620  0.8973  1.0000\n  O   O13       1.0000  0.4530  0.5380  0.6027  1.0000\n  O   O14       1.0000  0.8418  0.6520  0.1622  1.0000\n  O   O15       1.0000  0.3418  0.3480  0.3378  1.0000\n  O   O16       1.0000  0.1582  0.3480  0.8378  1.0000\n  O   O17       1.0000  0.6582  0.6520  0.6622  1.0000\n  O   O18       1.0000  0.1655  0.7989  0.0192  1.0000\n  O   O19       1.0000  0.6655  0.2011  0.4808  1.0000\n  O   O20       1.0000  0.8345  0.2011  0.9808  1.0000\n  O   O21       1.0000  0.3345  0.7989  0.5192  1.0000\n  O   O22       1.0000  0.2120  0.6637  0.9051  1.0000\n  O   O23       1.0000  0.7120  0.3363  0.5949  1.0000\n  O   O24       1.0000  0.7880  0.3363  0.0949  1.0000\n  O   O25       1.0000  0.2880  0.6637  0.4051  1.0000\n  O   O26       1.0000  0.9527  0.7680  0.9039  1.0000\n  O   O27       1.0000  0.4527  0.2320  0.5961  1.0000\n  O   O28       1.0000  0.0473  0.2320  0.0961  1.0000\n  O   O29       1.0000  0.5473  0.7680  0.4039  1.0000\n  O   O30       1.0000  0.3249  0.9755  0.7582  1.0000\n  O   O31       1.0000  0.8249  0.0245  0.7418  1.0000\n  O   O32       1.0000  0.6751  0.0245  0.2418  1.0000\n  O   O33       1.0000  0.1751  0.9755  0.2582  1.0000\n  P   P16       1.0000  0.0418  0.9271  0.6735  1.0000\n  O   O34       1.0000  0.5418  0.0729  0.8265  1.0000\n  O   O35       1.0000  0.9582  0.0729  0.3265  1.0000\n  O   O36       1.0000  0.4582  0.9271  0.1735  1.0000\n  O   O37       1.0000  0.7923  0.7802  0.7461  1.0000\n  O   O38       1.0000  0.2923  0.2198  0.7539  1.0000\n  O   O39       1.0000  0.2077  0.2198  0.2539  1.0000\n  O   O40       1.0000  0.7077  0.7802  0.2461  1.0000\n  O   O41       1.0000  0.7395  0.9278  0.5074  1.0000\n  O   O42       1.0000  0.2395  0.0722  0.9926  1.0000\n  O   O43       1.0000  0.2605  0.0722  0.4926  1.0000\n  O   O44       1.0000  0.7605  0.9278  0.0074  1.0000\n  O   O45       1.0000  0.5291  0.8652  0.6716  1.0000\n  O   O46       1.0000  0.0291  0.1348  0.8284  1.0000\n  O   O47       1.0000  0.4709  0.1348  0.3284  1.0000\n  O   O48       1.0000  0.9709  0.8652  0.1716  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cbb4c910-a00d-4507-991d-0f93643da290",
    "mp_id": "mp-543042",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 34 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_ScP(H2O3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3376\n_cell_length_b   5.4785\n_cell_length_c   10.4089\n_cell_angle_alpha   59.8908\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   ScP(H2O3)2\n_chemical_formula_sum   'Sc4 P4 H16 O24'\n_cell_volume   509.9576\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.3305  0.1109  0.3003  1\n  Sc  Sc1  1  0.8305  0.8891  0.1997  1\n  Sc  Sc2  1  0.6695  0.8891  0.6997  1\n  Sc  Sc3  1  0.1695  0.1109  0.8003  1\n  P  P4  1  0.1500  0.7252  0.1817  1\n  P  P5  1  0.6500  0.2748  0.3183  1\n  P  P6  1  0.8500  0.2748  0.8183  1\n  P  P7  1  0.3500  0.7252  0.6817  1\n  H  H8  1  0.5506  0.8939  0.2692  1\n  H  H9  1  0.0506  0.1061  0.2308  1\n  H  H10  1  0.4494  0.1061  0.7308  1\n  H  H11  1  0.9494  0.8939  0.7692  1\n  H  H12  1  0.4622  0.6252  0.3030  1\n  H  H13  1  0.9621  0.3748  0.1970  1\n  H  H14  1  0.5379  0.3748  0.6970  1\n  H  H15  1  0.0379  0.6252  0.8030  1\n  H  H16  1  0.3369  0.3416  0.9806  1\n  H  H17  1  0.8369  0.6584  0.5194  1\n  H  H18  1  0.6631  0.6584  0.0194  1\n  H  H19  1  0.1631  0.3416  0.4806  1\n  H  H20  1  0.3180  0.5767  0.0239  1\n  H  H21  1  0.8180  0.4233  0.4761  1\n  H  H22  1  0.6820  0.4233  0.9761  1\n  H  H23  1  0.1820  0.5767  0.5239  1\n  O  O24  1  0.1818  0.9154  0.2490  1\n  O  O25  1  0.6818  0.0846  0.2510  1\n  O  O26  1  0.8182  0.0846  0.7510  1\n  O  O27  1  0.3182  0.9154  0.7490  1\n  O  O28  1  0.2099  0.8506  0.0246  1\n  O  O29  1  0.7099  0.1494  0.4754  1\n  O  O30  1  0.7901  0.1494  0.9754  1\n  O  O31  1  0.2901  0.8506  0.5246  1\n  O  O32  1  0.2082  0.4274  0.2844  1\n  O  O33  1  0.7082  0.5726  0.2156  1\n  O  O34  1  0.7918  0.5726  0.7156  1\n  O  O35  1  0.2918  0.4274  0.7844  1\n  O  O36  1  0.0005  0.7030  0.1751  1\n  O  O37  1  0.5005  0.2970  0.3249  1\n  O  O38  1  0.9995  0.2970  0.8249  1\n  O  O39  1  0.4995  0.7030  0.6751  1\n  O  O40  1  0.4598  0.8211  0.2858  1\n  O  O41  1  0.9598  0.1789  0.2142  1\n  O  O42  1  0.5402  0.1789  0.7142  1\n  O  O43  1  0.0402  0.8211  0.7858  1\n  O  O44  1  0.3537  0.3855  0.0602  1\n  O  O45  1  0.8537  0.6145  0.4398  1\n  O  O46  1  0.6463  0.6145  0.9398  1\n  O  O47  1  0.1463  0.3855  0.5602  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc4P4OH15O10HO13\n_chemical_formula_sum              \"Sc4 P4 O24 H16\"\n_cell_length_a       10.3376\n_cell_length_b       5.4785\n_cell_length_c       10.4089\n_cell_angle_alpha    59.8908\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.3305  0.1109  0.3003  1.0000\n  Sc  Sc2       1.0000  0.8305  0.8891  0.1997  1.0000\n  Sc  Sc3       1.0000  0.6695  0.8891  0.6997  1.0000\n  Sc  Sc4       1.0000  0.1695  0.1109  0.8003  1.0000\n  P   P1        1.0000  0.1500  0.7252  0.1817  1.0000\n  P   P2        1.0000  0.6500  0.2748  0.3183  1.0000\n  P   P3        1.0000  0.8500  0.2748  0.8183  1.0000\n  P   P4        1.0000  0.3500  0.7252  0.6817  1.0000\n  O   O1        1.0000  0.5506  0.8939  0.2692  1.0000\n  H   H1        1.0000  0.0506  0.1061  0.2308  1.0000\n  H   H2        1.0000  0.4494  0.1061  0.7308  1.0000\n  H   H3        1.0000  0.9494  0.8939  0.7692  1.0000\n  H   H4        1.0000  0.4621  0.6252  0.3030  1.0000\n  H   H5        1.0000  0.9621  0.3748  0.1970  1.0000\n  H   H6        1.0000  0.5379  0.3748  0.6970  1.0000\n  H   H7        1.0000  0.0379  0.6252  0.8030  1.0000\n  H   H8        1.0000  0.3369  0.3416  0.9806  1.0000\n  H   H9        1.0000  0.8369  0.6584  0.5194  1.0000\n  H   H10       1.0000  0.6631  0.6584  0.0194  1.0000\n  H   H11       1.0000  0.1631  0.3416  0.4806  1.0000\n  H   H12       1.0000  0.3180  0.5767  0.0239  1.0000\n  H   H13       1.0000  0.8180  0.4233  0.4761  1.0000\n  H   H14       1.0000  0.6820  0.4233  0.9761  1.0000\n  H   H15       1.0000  0.1820  0.5767  0.5239  1.0000\n  O   O2        1.0000  0.1818  0.9154  0.2490  1.0000\n  O   O3        1.0000  0.6818  0.0846  0.2510  1.0000\n  O   O4        1.0000  0.8182  0.0846  0.7510  1.0000\n  O   O5        1.0000  0.3182  0.9154  0.7490  1.0000\n  O   O6        1.0000  0.2099  0.8506  0.0246  1.0000\n  O   O7        1.0000  0.7099  0.1494  0.4754  1.0000\n  O   O8        1.0000  0.7901  0.1494  0.9754  1.0000\n  O   O9        1.0000  0.2901  0.8506  0.5246  1.0000\n  O   O10       1.0000  0.2082  0.4274  0.2844  1.0000\n  O   O11       1.0000  0.7082  0.5726  0.2156  1.0000\n  H   H16       1.0000  0.7918  0.5726  0.7156  1.0000\n  O   O12       1.0000  0.2918  0.4274  0.7844  1.0000\n  O   O13       1.0000  0.0005  0.7030  0.1751  1.0000\n  O   O14       1.0000  0.5005  0.2970  0.3249  1.0000\n  O   O15       1.0000  0.9995  0.2970  0.8249  1.0000\n  O   O16       1.0000  0.4995  0.7030  0.6751  1.0000\n  O   O17       1.0000  0.4598  0.8211  0.2858  1.0000\n  O   O18       1.0000  0.9598  0.1789  0.2142  1.0000\n  O   O19       1.0000  0.5402  0.1789  0.7142  1.0000\n  O   O20       1.0000  0.0402  0.8211  0.7858  1.0000\n  O   O21       1.0000  0.3537  0.3855  0.0602  1.0000\n  O   O22       1.0000  0.8537  0.6145  0.4398  1.0000\n  O   O23       1.0000  0.6463  0.6145  0.9398  1.0000\n  O   O24       1.0000  0.1463  0.3855  0.5602  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5cc10dd1-e255-4b56-8e51-69d215b56198",
    "mp_id": "mp-554174",
    "action_prompt": "Swap the spatial positions of atoms at indices 74 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca2P2H8O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   25.2754\n_cell_length_b   5.9733\n_cell_length_c   6.9648\n_cell_angle_alpha   70.2843\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca2P2H8O11\n_chemical_formula_sum   'Ca8 P8 H32 O44'\n_cell_volume   989.8823\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2946  0.8937  0.6023  1\n  Ca  Ca1  1  0.7054  0.1063  0.3977  1\n  Ca  Ca2  1  0.9576  0.8049  0.3952  1\n  Ca  Ca3  1  0.2054  0.8937  0.1023  1\n  Ca  Ca4  1  0.7946  0.1063  0.8977  1\n  Ca  Ca5  1  0.5424  0.8049  0.8952  1\n  Ca  Ca6  1  0.4576  0.1951  0.1048  1\n  Ca  Ca7  1  0.0424  0.1951  0.6048  1\n  P  P8  1  0.3333  0.9239  0.0899  1\n  P  P9  1  0.8333  0.0761  0.4101  1\n  P  P10  1  0.6667  0.0761  0.9101  1\n  P  P11  1  0.4186  0.8066  0.8550  1\n  P  P12  1  0.9186  0.1934  0.6450  1\n  P  P13  1  0.0814  0.8066  0.3550  1\n  P  P14  1  0.1667  0.9239  0.5899  1\n  P  P15  1  0.5814  0.1934  0.1450  1\n  H  H16  1  0.1871  0.4663  0.8650  1\n  H  H17  1  0.1733  0.3873  0.3703  1\n  H  H18  1  0.7324  0.6170  0.1953  1\n  H  H19  1  0.2324  0.3830  0.3047  1\n  H  H20  1  0.7676  0.6170  0.6953  1\n  H  H21  1  0.0741  0.8027  0.9882  1\n  H  H22  1  0.5770  0.7870  0.4892  1\n  H  H23  1  0.0770  0.2130  0.0108  1\n  H  H24  1  0.6733  0.6127  0.1297  1\n  H  H25  1  0.4259  0.8027  0.4882  1\n  H  H26  1  0.9230  0.7870  0.9892  1\n  H  H27  1  0.5133  0.2419  0.5440  1\n  H  H28  1  0.1706  0.2826  0.7540  1\n  H  H29  1  0.8129  0.5337  0.1350  1\n  H  H30  1  0.5741  0.1973  0.5118  1\n  H  H31  1  0.9867  0.2419  0.0440  1\n  H  H32  1  0.8294  0.7174  0.2460  1\n  H  H33  1  0.6871  0.5337  0.6350  1\n  H  H34  1  0.0133  0.7581  0.9560  1\n  H  H35  1  0.9259  0.1973  0.0118  1\n  H  H36  1  0.5566  0.5197  0.6035  1\n  H  H37  1  0.4434  0.4803  0.3965  1\n  H  H38  1  0.3129  0.4663  0.3650  1\n  H  H39  1  0.3294  0.2826  0.2540  1\n  H  H40  1  0.4867  0.7581  0.4560  1\n  H  H41  1  0.4230  0.2130  0.5108  1\n  H  H42  1  0.0566  0.4803  0.8965  1\n  H  H43  1  0.9434  0.5197  0.1035  1\n  H  H44  1  0.8267  0.6127  0.6297  1\n  H  H45  1  0.2676  0.3830  0.8047  1\n  H  H46  1  0.6706  0.7174  0.7460  1\n  H  H47  1  0.3267  0.3873  0.8703  1\n  O  O48  1  0.0518  0.3101  0.9082  1\n  O  O49  1  0.3111  0.7876  0.3017  1\n  O  O50  1  0.3625  0.1539  0.0803  1\n  O  O51  1  0.3866  0.8903  0.6557  1\n  O  O52  1  0.9518  0.2153  0.1141  1\n  O  O53  1  0.0438  0.0014  0.3701  1\n  O  O54  1  0.7008  0.5149  0.2210  1\n  O  O55  1  0.3076  0.3007  0.3666  1\n  O  O56  1  0.4482  0.3101  0.4082  1\n  O  O57  1  0.5438  0.9986  0.1299  1\n  O  O58  1  0.0482  0.7847  0.8859  1\n  O  O59  1  0.2992  0.4851  0.7790  1\n  O  O60  1  0.2008  0.4851  0.2790  1\n  O  O61  1  0.8766  0.2550  0.4557  1\n  O  O62  1  0.7900  0.0346  0.5739  1\n  O  O63  1  0.9562  0.9986  0.6299  1\n  O  O64  1  0.6889  0.2124  0.6983  1\n  O  O65  1  0.2100  0.9654  0.4261  1\n  O  O66  1  0.0501  0.5790  0.3877  1\n  O  O67  1  0.7100  0.0346  0.0739  1\n  O  O68  1  0.1134  0.8903  0.1557  1\n  O  O69  1  0.8076  0.6993  0.1334  1\n  O  O70  1  0.6234  0.2550  0.9557  1\n  O  O71  1  0.1924  0.3007  0.8666  1\n  O  O72  1  0.6375  0.8461  0.9197  1\n  O  O73  1  0.9482  0.6898  0.0918  1\n  O  O74  1  0.1234  0.7450  0.5443  1\n  O  O75  1  0.6924  0.6993  0.6334  1\n  O  O76  1  0.2900  0.9654  0.9261  1\n  O  O77  1  0.4499  0.5790  0.8877  1\n  O  O78  1  0.3766  0.7450  0.0443  1\n  O  O79  1  0.5518  0.6898  0.5918  1\n  O  O80  1  0.8111  0.2124  0.1983  1\n  O  O81  1  0.7992  0.5149  0.7210  1\n  O  O82  1  0.8625  0.8461  0.4197  1\n  O  O83  1  0.5501  0.4210  0.1123  1\n  O  O84  1  0.4518  0.7847  0.3859  1\n  O  O85  1  0.4562  0.0014  0.8701  1\n  O  O86  1  0.1889  0.7876  0.8017  1\n  O  O87  1  0.6134  0.1097  0.3443  1\n  O  O88  1  0.9499  0.4210  0.6123  1\n  O  O89  1  0.1375  0.1539  0.5803  1\n  O  O90  1  0.5482  0.2153  0.6141  1\n  O  O91  1  0.8866  0.1097  0.8443  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca8OP7H32O26PO17\n_chemical_formula_sum              \"Ca8 O44 P8 H32\"\n_cell_length_a       25.2754\n_cell_length_b       5.9733\n_cell_length_c       6.9648\n_cell_angle_alpha    70.2843\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2946  0.8937  0.6023  1.0000\n  Ca  Ca2       1.0000  0.7054  0.1063  0.3977  1.0000\n  Ca  Ca3       1.0000  0.9576  0.8049  0.3952  1.0000\n  Ca  Ca4       1.0000  0.2054  0.8937  0.1023  1.0000\n  Ca  Ca5       1.0000  0.7946  0.1063  0.8977  1.0000\n  Ca  Ca6       1.0000  0.5424  0.8049  0.8952  1.0000\n  Ca  Ca7       1.0000  0.4576  0.1951  0.1048  1.0000\n  Ca  Ca8       1.0000  0.0424  0.1951  0.6048  1.0000\n  O   O1        1.0000  0.3333  0.9239  0.0899  1.0000\n  P   P1        1.0000  0.8333  0.0761  0.4101  1.0000\n  P   P2        1.0000  0.6667  0.0761  0.9101  1.0000\n  P   P3        1.0000  0.4186  0.8066  0.8550  1.0000\n  P   P4        1.0000  0.9186  0.1934  0.6450  1.0000\n  P   P5        1.0000  0.0814  0.8066  0.3550  1.0000\n  P   P6        1.0000  0.1667  0.9239  0.5899  1.0000\n  P   P7        1.0000  0.5814  0.1934  0.1450  1.0000\n  H   H1        1.0000  0.1871  0.4663  0.8650  1.0000\n  H   H2        1.0000  0.1733  0.3873  0.3703  1.0000\n  H   H3        1.0000  0.7324  0.6170  0.1953  1.0000\n  H   H4        1.0000  0.2324  0.3830  0.3047  1.0000\n  H   H5        1.0000  0.7676  0.6170  0.6953  1.0000\n  H   H6        1.0000  0.0741  0.8027  0.9882  1.0000\n  H   H7        1.0000  0.5770  0.7870  0.4892  1.0000\n  H   H8        1.0000  0.0770  0.2130  0.0108  1.0000\n  H   H9        1.0000  0.6733  0.6127  0.1297  1.0000\n  H   H10       1.0000  0.4259  0.8027  0.4882  1.0000\n  H   H11       1.0000  0.9230  0.7870  0.9892  1.0000\n  H   H12       1.0000  0.5133  0.2419  0.5440  1.0000\n  H   H13       1.0000  0.1706  0.2826  0.7540  1.0000\n  H   H14       1.0000  0.8129  0.5337  0.1350  1.0000\n  H   H15       1.0000  0.5741  0.1973  0.5118  1.0000\n  H   H16       1.0000  0.9867  0.2419  0.0440  1.0000\n  H   H17       1.0000  0.8294  0.7174  0.2460  1.0000\n  H   H18       1.0000  0.6871  0.5337  0.6350  1.0000\n  H   H19       1.0000  0.0133  0.7581  0.9560  1.0000\n  H   H20       1.0000  0.9259  0.1973  0.0118  1.0000\n  H   H21       1.0000  0.5566  0.5197  0.6035  1.0000\n  H   H22       1.0000  0.4434  0.4803  0.3965  1.0000\n  H   H23       1.0000  0.3129  0.4663  0.3650  1.0000\n  H   H24       1.0000  0.3294  0.2826  0.2540  1.0000\n  H   H25       1.0000  0.4867  0.7581  0.4560  1.0000\n  H   H26       1.0000  0.4230  0.2130  0.5108  1.0000\n  H   H27       1.0000  0.0566  0.4803  0.8965  1.0000\n  H   H28       1.0000  0.9434  0.5197  0.1035  1.0000\n  H   H29       1.0000  0.8267  0.6127  0.6297  1.0000\n  H   H30       1.0000  0.2676  0.3830  0.8047  1.0000\n  H   H31       1.0000  0.6706  0.7174  0.7460  1.0000\n  H   H32       1.0000  0.3267  0.3873  0.8703  1.0000\n  O   O2        1.0000  0.0518  0.3102  0.9082  1.0000\n  O   O3        1.0000  0.3111  0.7876  0.3017  1.0000\n  O   O4        1.0000  0.3625  0.1539  0.0803  1.0000\n  O   O5        1.0000  0.3866  0.8903  0.6557  1.0000\n  O   O6        1.0000  0.9518  0.2153  0.1141  1.0000\n  O   O7        1.0000  0.0438  0.0014  0.3701  1.0000\n  O   O8        1.0000  0.7008  0.5149  0.2210  1.0000\n  O   O9        1.0000  0.3076  0.3007  0.3666  1.0000\n  O   O10       1.0000  0.4482  0.3101  0.4082  1.0000\n  O   O11       1.0000  0.5438  0.9986  0.1299  1.0000\n  O   O12       1.0000  0.0482  0.7847  0.8859  1.0000\n  O   O13       1.0000  0.2992  0.4851  0.7790  1.0000\n  O   O14       1.0000  0.2008  0.4851  0.2790  1.0000\n  O   O15       1.0000  0.8766  0.2550  0.4557  1.0000\n  O   O16       1.0000  0.7900  0.0346  0.5739  1.0000\n  O   O17       1.0000  0.9562  0.9986  0.6299  1.0000\n  O   O18       1.0000  0.6889  0.2124  0.6983  1.0000\n  O   O19       1.0000  0.2100  0.9654  0.4261  1.0000\n  O   O20       1.0000  0.0501  0.5790  0.3877  1.0000\n  O   O21       1.0000  0.7100  0.0346  0.0739  1.0000\n  O   O22       1.0000  0.1134  0.8903  0.1557  1.0000\n  O   O23       1.0000  0.8076  0.6993  0.1334  1.0000\n  O   O24       1.0000  0.6234  0.2550  0.9557  1.0000\n  O   O25       1.0000  0.1924  0.3007  0.8666  1.0000\n  O   O26       1.0000  0.6375  0.8461  0.9197  1.0000\n  O   O27       1.0000  0.9482  0.6898  0.0918  1.0000\n  P   P8        1.0000  0.1234  0.7450  0.5443  1.0000\n  O   O28       1.0000  0.6924  0.6993  0.6334  1.0000\n  O   O29       1.0000  0.2900  0.9654  0.9261  1.0000\n  O   O30       1.0000  0.4499  0.5790  0.8877  1.0000\n  O   O31       1.0000  0.3766  0.7450  0.0443  1.0000\n  O   O32       1.0000  0.5518  0.6898  0.5918  1.0000\n  O   O33       1.0000  0.8111  0.2124  0.1983  1.0000\n  O   O34       1.0000  0.7992  0.5149  0.7210  1.0000\n  O   O35       1.0000  0.8625  0.8461  0.4197  1.0000\n  O   O36       1.0000  0.5501  0.4210  0.1123  1.0000\n  O   O37       1.0000  0.4518  0.7847  0.3859  1.0000\n  O   O38       1.0000  0.4562  0.0014  0.8701  1.0000\n  O   O39       1.0000  0.1889  0.7876  0.8017  1.0000\n  O   O40       1.0000  0.6134  0.1097  0.3443  1.0000\n  O   O41       1.0000  0.9499  0.4210  0.6123  1.0000\n  O   O42       1.0000  0.1375  0.1539  0.5803  1.0000\n  O   O43       1.0000  0.5482  0.2153  0.6141  1.0000\n  O   O44       1.0000  0.8866  0.1097  0.8443  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "981eeb9a-528b-4217-92e2-7e710135715a",
    "mp_id": "mp-554264",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3Tb2(PS4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4354\n_cell_length_b   12.7838\n_cell_length_c   19.4619\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3Tb2(PS4)4\n_chemical_formula_sum   'Ba12 Tb8 P16 S64'\n_cell_volume   2596.2952\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2896  0.1073  0.2728  1\n  Ba  Ba1  1  0.1166  0.2500  0.0000  1\n  Ba  Ba2  1  0.2104  0.6073  0.2272  1\n  Ba  Ba3  1  0.6166  0.2500  0.5000  1\n  Ba  Ba4  1  0.7104  0.6073  0.2728  1\n  Ba  Ba5  1  0.2104  0.8927  0.7728  1\n  Ba  Ba6  1  0.7896  0.3927  0.7728  1\n  Ba  Ba7  1  0.7896  0.1073  0.2272  1\n  Ba  Ba8  1  0.8834  0.7500  0.0000  1\n  Ba  Ba9  1  0.7104  0.8927  0.7272  1\n  Ba  Ba10  1  0.2896  0.3927  0.7272  1\n  Ba  Ba11  1  0.3834  0.7500  0.5000  1\n  Tb  Tb12  1  0.3716  0.6126  0.9265  1\n  Tb  Tb13  1  0.6284  0.3874  0.0735  1\n  Tb  Tb14  1  0.1284  0.3874  0.4265  1\n  Tb  Tb15  1  0.1284  0.1126  0.5735  1\n  Tb  Tb16  1  0.8716  0.6126  0.5735  1\n  Tb  Tb17  1  0.6284  0.1126  0.9265  1\n  Tb  Tb18  1  0.3716  0.8874  0.0735  1\n  Tb  Tb19  1  0.8716  0.8874  0.4265  1\n  P  P20  1  0.9961  0.1399  0.3977  1\n  P  P21  1  0.4961  0.3601  0.8977  1\n  P  P22  1  0.9961  0.3601  0.6023  1\n  P  P23  1  0.5039  0.8601  0.8977  1\n  P  P24  1  0.4371  0.0486  0.6310  1\n  P  P25  1  0.0039  0.8601  0.6023  1\n  P  P26  1  0.0039  0.6399  0.3977  1\n  P  P27  1  0.0629  0.5486  0.8690  1\n  P  P28  1  0.9371  0.0486  0.8690  1\n  P  P29  1  0.4371  0.4514  0.3690  1\n  P  P30  1  0.5039  0.6399  0.1023  1\n  P  P31  1  0.5629  0.9514  0.3690  1\n  P  P32  1  0.0629  0.9514  0.1310  1\n  P  P33  1  0.4961  0.1399  0.1023  1\n  P  P34  1  0.9371  0.4514  0.1310  1\n  P  P35  1  0.5629  0.5486  0.6310  1\n  S  S36  1  0.5640  0.7303  0.8488  1\n  S  S37  1  0.0048  0.0148  0.3329  1\n  S  S38  1  0.3857  0.6059  0.6497  1\n  S  S39  1  0.5640  0.7697  0.1512  1\n  S  S40  1  0.7083  0.8868  0.3087  1\n  S  S41  1  0.6143  0.3941  0.3503  1\n  S  S42  1  0.8885  0.0992  0.4829  1\n  S  S43  1  0.9360  0.2303  0.6512  1\n  S  S44  1  0.1797  0.3311  0.5682  1\n  S  S45  1  0.5048  0.0148  0.1671  1\n  S  S46  1  0.8805  0.4143  0.0326  1\n  S  S47  1  0.3805  0.4143  0.4674  1\n  S  S48  1  0.2083  0.8868  0.1913  1\n  S  S49  1  0.8857  0.8941  0.1497  1\n  S  S50  1  0.5692  0.3883  0.6470  1\n  S  S51  1  0.0692  0.1117  0.1470  1\n  S  S52  1  0.9308  0.8883  0.8530  1\n  S  S53  1  0.4308  0.8883  0.6470  1\n  S  S54  1  0.6143  0.1059  0.6497  1\n  S  S55  1  0.9952  0.5148  0.3329  1\n  S  S56  1  0.6195  0.9143  0.4674  1\n  S  S57  1  0.8805  0.0857  0.9674  1\n  S  S58  1  0.6797  0.1689  0.0682  1\n  S  S59  1  0.4308  0.6117  0.3530  1\n  S  S60  1  0.2917  0.3868  0.3087  1\n  S  S61  1  0.7917  0.3868  0.1913  1\n  S  S62  1  0.8885  0.4008  0.5171  1\n  S  S63  1  0.6797  0.3311  0.9318  1\n  S  S64  1  0.1797  0.1689  0.4318  1\n  S  S65  1  0.7083  0.6132  0.6913  1\n  S  S66  1  0.4952  0.5148  0.1671  1\n  S  S67  1  0.9952  0.9852  0.6671  1\n  S  S68  1  0.1115  0.5992  0.4829  1\n  S  S69  1  0.6115  0.5992  0.0171  1\n  S  S70  1  0.0640  0.7697  0.3488  1\n  S  S71  1  0.5048  0.4852  0.8329  1\n  S  S72  1  0.1195  0.5857  0.9674  1\n  S  S73  1  0.1195  0.9143  0.0326  1\n  S  S74  1  0.1115  0.9008  0.5171  1\n  S  S75  1  0.1143  0.3941  0.1497  1\n  S  S76  1  0.4360  0.2303  0.8488  1\n  S  S77  1  0.8857  0.6059  0.8503  1\n  S  S78  1  0.2083  0.6132  0.8087  1\n  S  S79  1  0.8203  0.6689  0.4318  1\n  S  S80  1  0.9360  0.2697  0.3488  1\n  S  S81  1  0.3885  0.4008  0.9829  1\n  S  S82  1  0.0048  0.4852  0.6671  1\n  S  S83  1  0.3805  0.0857  0.5326  1\n  S  S84  1  0.4952  0.9852  0.8329  1\n  S  S85  1  0.9308  0.6117  0.1470  1\n  S  S86  1  0.3203  0.6689  0.0682  1\n  S  S87  1  0.3885  0.0992  0.0171  1\n  S  S88  1  0.6195  0.5857  0.5326  1\n  S  S89  1  0.6115  0.9008  0.9829  1\n  S  S90  1  0.2917  0.1132  0.6913  1\n  S  S91  1  0.5692  0.1117  0.3530  1\n  S  S92  1  0.4360  0.2697  0.1512  1\n  S  S93  1  0.0640  0.7303  0.6512  1\n  S  S94  1  0.1143  0.1059  0.8503  1\n  S  S95  1  0.0692  0.3883  0.8530  1\n  S  S96  1  0.3857  0.8941  0.3503  1\n  S  S97  1  0.7917  0.1132  0.8087  1\n  S  S98  1  0.3203  0.8311  0.9318  1\n  S  S99  1  0.8203  0.8311  0.5682  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba5TbBa6Tb7BaP16S64\n_chemical_formula_sum              \"Ba12 Tb8 P16 S64\"\n_cell_length_a       10.4354\n_cell_length_b       12.7838\n_cell_length_c       19.4619\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2896  0.1073  0.2728  1.0000\n  Ba  Ba2       1.0000  0.1166  0.2500  0.0000  1.0000\n  Ba  Ba3       1.0000  0.2104  0.6073  0.2272  1.0000\n  Ba  Ba4       1.0000  0.6166  0.2500  0.5000  1.0000\n  Ba  Ba5       1.0000  0.7104  0.6073  0.2728  1.0000\n  Tb  Tb1       1.0000  0.2104  0.8927  0.7728  1.0000\n  Ba  Ba6       1.0000  0.7896  0.3927  0.7728  1.0000\n  Ba  Ba7       1.0000  0.7896  0.1073  0.2272  1.0000\n  Ba  Ba8       1.0000  0.8834  0.7500  0.0000  1.0000\n  Ba  Ba9       1.0000  0.7104  0.8927  0.7272  1.0000\n  Ba  Ba10      1.0000  0.2896  0.3927  0.7272  1.0000\n  Ba  Ba11      1.0000  0.3834  0.7500  0.5000  1.0000\n  Tb  Tb2       1.0000  0.3716  0.6126  0.9265  1.0000\n  Tb  Tb3       1.0000  0.6284  0.3874  0.0735  1.0000\n  Tb  Tb4       1.0000  0.1284  0.3874  0.4265  1.0000\n  Tb  Tb5       1.0000  0.1284  0.1126  0.5735  1.0000\n  Tb  Tb6       1.0000  0.8716  0.6126  0.5735  1.0000\n  Tb  Tb7       1.0000  0.6284  0.1126  0.9265  1.0000\n  Tb  Tb8       1.0000  0.3716  0.8874  0.0735  1.0000\n  Ba  Ba12      1.0000  0.8716  0.8874  0.4265  1.0000\n  P   P1        1.0000  0.9961  0.1399  0.3977  1.0000\n  P   P2        1.0000  0.4961  0.3601  0.8977  1.0000\n  P   P3        1.0000  0.9961  0.3601  0.6023  1.0000\n  P   P4        1.0000  0.5039  0.8601  0.8977  1.0000\n  P   P5        1.0000  0.4371  0.0486  0.6310  1.0000\n  P   P6        1.0000  0.0039  0.8601  0.6023  1.0000\n  P   P7        1.0000  0.0039  0.6399  0.3977  1.0000\n  P   P8        1.0000  0.0629  0.5486  0.8690  1.0000\n  P   P9        1.0000  0.9371  0.0486  0.8690  1.0000\n  P   P10       1.0000  0.4371  0.4514  0.3690  1.0000\n  P   P11       1.0000  0.5039  0.6399  0.1023  1.0000\n  P   P12       1.0000  0.5629  0.9514  0.3690  1.0000\n  P   P13       1.0000  0.0629  0.9514  0.1310  1.0000\n  P   P14       1.0000  0.4961  0.1399  0.1023  1.0000\n  P   P15       1.0000  0.9371  0.4514  0.1310  1.0000\n  P   P16       1.0000  0.5629  0.5486  0.6310  1.0000\n  S   S1        1.0000  0.5640  0.7303  0.8488  1.0000\n  S   S2        1.0000  0.0048  0.0148  0.3329  1.0000\n  S   S3        1.0000  0.3857  0.6059  0.6497  1.0000\n  S   S4        1.0000  0.5640  0.7697  0.1512  1.0000\n  S   S5        1.0000  0.7083  0.8868  0.3087  1.0000\n  S   S6        1.0000  0.6143  0.3941  0.3503  1.0000\n  S   S7        1.0000  0.8885  0.0992  0.4829  1.0000\n  S   S8        1.0000  0.9360  0.2303  0.6512  1.0000\n  S   S9        1.0000  0.1797  0.3311  0.5682  1.0000\n  S   S10       1.0000  0.5048  0.0148  0.1671  1.0000\n  S   S11       1.0000  0.8805  0.4143  0.0326  1.0000\n  S   S12       1.0000  0.3805  0.4143  0.4674  1.0000\n  S   S13       1.0000  0.2083  0.8868  0.1913  1.0000\n  S   S14       1.0000  0.8857  0.8941  0.1497  1.0000\n  S   S15       1.0000  0.5692  0.3883  0.6470  1.0000\n  S   S16       1.0000  0.0692  0.1117  0.1470  1.0000\n  S   S17       1.0000  0.9308  0.8883  0.8530  1.0000\n  S   S18       1.0000  0.4308  0.8883  0.6470  1.0000\n  S   S19       1.0000  0.6143  0.1059  0.6497  1.0000\n  S   S20       1.0000  0.9952  0.5148  0.3329  1.0000\n  S   S21       1.0000  0.6195  0.9143  0.4674  1.0000\n  S   S22       1.0000  0.8805  0.0857  0.9674  1.0000\n  S   S23       1.0000  0.6797  0.1689  0.0682  1.0000\n  S   S24       1.0000  0.4308  0.6117  0.3530  1.0000\n  S   S25       1.0000  0.2917  0.3868  0.3087  1.0000\n  S   S26       1.0000  0.7917  0.3868  0.1913  1.0000\n  S   S27       1.0000  0.8885  0.4008  0.5171  1.0000\n  S   S28       1.0000  0.6797  0.3311  0.9318  1.0000\n  S   S29       1.0000  0.1797  0.1689  0.4318  1.0000\n  S   S30       1.0000  0.7083  0.6132  0.6913  1.0000\n  S   S31       1.0000  0.4952  0.5148  0.1671  1.0000\n  S   S32       1.0000  0.9952  0.9852  0.6671  1.0000\n  S   S33       1.0000  0.1115  0.5992  0.4829  1.0000\n  S   S34       1.0000  0.6115  0.5992  0.0171  1.0000\n  S   S35       1.0000  0.0640  0.7697  0.3488  1.0000\n  S   S36       1.0000  0.5048  0.4852  0.8329  1.0000\n  S   S37       1.0000  0.1195  0.5857  0.9674  1.0000\n  S   S38       1.0000  0.1195  0.9143  0.0326  1.0000\n  S   S39       1.0000  0.1115  0.9008  0.5171  1.0000\n  S   S40       1.0000  0.1143  0.3941  0.1497  1.0000\n  S   S41       1.0000  0.4360  0.2303  0.8488  1.0000\n  S   S42       1.0000  0.8857  0.6059  0.8503  1.0000\n  S   S43       1.0000  0.2083  0.6132  0.8087  1.0000\n  S   S44       1.0000  0.8203  0.6689  0.4318  1.0000\n  S   S45       1.0000  0.9360  0.2697  0.3488  1.0000\n  S   S46       1.0000  0.3885  0.4008  0.9829  1.0000\n  S   S47       1.0000  0.0048  0.4852  0.6671  1.0000\n  S   S48       1.0000  0.3805  0.0857  0.5326  1.0000\n  S   S49       1.0000  0.4952  0.9852  0.8329  1.0000\n  S   S50       1.0000  0.9308  0.6117  0.1470  1.0000\n  S   S51       1.0000  0.3203  0.6689  0.0682  1.0000\n  S   S52       1.0000  0.3885  0.0992  0.0171  1.0000\n  S   S53       1.0000  0.6195  0.5857  0.5326  1.0000\n  S   S54       1.0000  0.6115  0.9008  0.9829  1.0000\n  S   S55       1.0000  0.2917  0.1132  0.6913  1.0000\n  S   S56       1.0000  0.5692  0.1117  0.3530  1.0000\n  S   S57       1.0000  0.4360  0.2697  0.1512  1.0000\n  S   S58       1.0000  0.0640  0.7303  0.6512  1.0000\n  S   S59       1.0000  0.1143  0.1059  0.8503  1.0000\n  S   S60       1.0000  0.0692  0.3883  0.8530  1.0000\n  S   S61       1.0000  0.3857  0.8941  0.3503  1.0000\n  S   S62       1.0000  0.7917  0.1132  0.8087  1.0000\n  S   S63       1.0000  0.3203  0.8311  0.9318  1.0000\n  S   S64       1.0000  0.8203  0.8311  0.5682  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "56347153-51ae-4a9f-a707-32eef3f0ac4a",
    "mp_id": "mp-554383",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2Si2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8017\n_cell_length_b   8.1194\n_cell_length_c   11.8317\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2Si2O5\n_chemical_formula_sum   'Na8 Si8 O20'\n_cell_volume   461.2815\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5713  0.4347  0.2733  1\n  Na  Na1  1  0.0985  0.6894  0.1920  1\n  Na  Na2  1  0.0713  0.0653  0.7733  1\n  Na  Na3  1  0.0985  0.1894  0.3080  1\n  Na  Na4  1  0.0713  0.5653  0.7267  1\n  Na  Na5  1  0.5713  0.9347  0.2267  1\n  Na  Na6  1  0.5985  0.8106  0.6920  1\n  Na  Na7  1  0.5985  0.3106  0.8080  1\n  Si  Si8  1  0.5225  0.9476  0.9315  1\n  Si  Si9  1  0.0225  0.5524  0.4315  1\n  Si  Si10  1  0.5225  0.4476  0.5685  1\n  Si  Si11  1  0.6421  0.1086  0.4746  1\n  Si  Si12  1  0.1421  0.3914  0.9746  1\n  Si  Si13  1  0.1421  0.8914  0.5254  1\n  Si  Si14  1  0.0225  0.0524  0.0685  1\n  Si  Si15  1  0.6421  0.6086  0.0254  1\n  O  O16  1  0.1901  0.9714  0.9612  1\n  O  O17  1  0.9730  0.0577  0.4861  1\n  O  O18  1  0.5791  0.6658  0.1511  1\n  O  O19  1  0.0791  0.8342  0.6511  1\n  O  O20  1  0.0791  0.3342  0.8489  1\n  O  O21  1  0.5880  0.0290  0.8131  1\n  O  O22  1  0.0841  0.2510  0.0716  1\n  O  O23  1  0.6901  0.5286  0.4612  1\n  O  O24  1  0.4730  0.4423  0.9861  1\n  O  O25  1  0.0880  0.4710  0.3131  1\n  O  O26  1  0.5841  0.7490  0.9284  1\n  O  O27  1  0.9730  0.5577  0.0139  1\n  O  O28  1  0.6901  0.0286  0.0388  1\n  O  O29  1  0.0841  0.7510  0.4284  1\n  O  O30  1  0.4730  0.9423  0.5139  1\n  O  O31  1  0.5880  0.5290  0.6869  1\n  O  O32  1  0.5841  0.2490  0.5716  1\n  O  O33  1  0.0880  0.9710  0.1869  1\n  O  O34  1  0.5791  0.1658  0.3489  1\n  O  O35  1  0.1901  0.4714  0.5388  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8Si4OSi3O9SiO10\n_chemical_formula_sum              \"Na8 Si8 O20\"\n_cell_length_a       4.8017\n_cell_length_b       8.1194\n_cell_length_c       11.8317\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.5713  0.4347  0.2733  1.0000\n  Na  Na2       1.0000  0.0985  0.6894  0.1920  1.0000\n  Na  Na3       1.0000  0.0713  0.0653  0.7733  1.0000\n  Na  Na4       1.0000  0.0985  0.1894  0.3080  1.0000\n  Na  Na5       1.0000  0.0713  0.5653  0.7267  1.0000\n  Na  Na6       1.0000  0.5713  0.9347  0.2267  1.0000\n  Na  Na7       1.0000  0.5985  0.8106  0.6920  1.0000\n  Na  Na8       1.0000  0.5985  0.3106  0.8080  1.0000\n  Si  Si1       1.0000  0.5225  0.9476  0.9315  1.0000\n  Si  Si2       1.0000  0.0225  0.5524  0.4315  1.0000\n  Si  Si3       1.0000  0.5225  0.4476  0.5685  1.0000\n  Si  Si4       1.0000  0.6421  0.1086  0.4746  1.0000\n  O   O1        1.0000  0.1421  0.3914  0.9746  1.0000\n  Si  Si5       1.0000  0.1421  0.8914  0.5254  1.0000\n  Si  Si6       1.0000  0.0225  0.0524  0.0685  1.0000\n  Si  Si7       1.0000  0.6421  0.6086  0.0254  1.0000\n  O   O2        1.0000  0.1901  0.9714  0.9612  1.0000\n  O   O3        1.0000  0.9730  0.0577  0.4861  1.0000\n  O   O4        1.0000  0.5791  0.6658  0.1511  1.0000\n  O   O5        1.0000  0.0791  0.8342  0.6511  1.0000\n  O   O6        1.0000  0.0791  0.3342  0.8489  1.0000\n  O   O7        1.0000  0.5880  0.0290  0.8131  1.0000\n  O   O8        1.0000  0.0841  0.2510  0.0716  1.0000\n  O   O9        1.0000  0.6901  0.5286  0.4612  1.0000\n  O   O10       1.0000  0.4730  0.4423  0.9861  1.0000\n  Si  Si8       1.0000  0.0880  0.4710  0.3131  1.0000\n  O   O11       1.0000  0.5841  0.7490  0.9284  1.0000\n  O   O12       1.0000  0.9730  0.5577  0.0139  1.0000\n  O   O13       1.0000  0.6901  0.0286  0.0388  1.0000\n  O   O14       1.0000  0.0841  0.7510  0.4284  1.0000\n  O   O15       1.0000  0.4730  0.9423  0.5139  1.0000\n  O   O16       1.0000  0.5880  0.5290  0.6869  1.0000\n  O   O17       1.0000  0.5841  0.2490  0.5716  1.0000\n  O   O18       1.0000  0.0880  0.9710  0.1869  1.0000\n  O   O19       1.0000  0.5791  0.1658  0.3489  1.0000\n  O   O20       1.0000  0.1901  0.4714  0.5388  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8f9298ef-9995-4218-9d3a-bad28a6bb7ea",
    "mp_id": "mp-554799",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0600\n_cell_length_b   5.3283\n_cell_length_c   5.2856\n_cell_angle_alpha   61.3161\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VF4\n_chemical_formula_sum   'V2 F8'\n_cell_volume   125.0180\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.5000  0.5000  0.0000  1\n  V  V1  1  -0.0000  0.0000  0.0000  1\n  F  F2  1  0.1901  0.6530  0.0902  1\n  F  F3  1  0.6901  0.8470  0.9098  1\n  F  F4  1  0.3941  0.6478  0.6439  1\n  F  F5  1  0.8941  0.8522  0.3561  1\n  F  F6  1  0.6059  0.3522  0.3561  1\n  F  F7  1  0.1059  0.1478  0.6439  1\n  F  F8  1  0.3099  0.1530  0.0902  1\n  F  F9  1  0.8099  0.3470  0.9098  1\n",
    "output": "data_image0\n_chemical_formula_structural       FVF3VF4\n_chemical_formula_sum              \"F8 V2\"\n_cell_length_a       5.0600\n_cell_length_b       5.3283\n_cell_length_c       5.2856\n_cell_angle_alpha    61.3161\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.5000  0.5000  0.0000  1.0000\n  V   V1        1.0000  0.0000  0.0000  0.0000  1.0000\n  F   F2        1.0000  0.1901  0.6530  0.0902  1.0000\n  F   F3        1.0000  0.6901  0.8470  0.9098  1.0000\n  F   F4        1.0000  0.3941  0.6478  0.6439  1.0000\n  V   V2        1.0000  0.8941  0.8522  0.3561  1.0000\n  F   F5        1.0000  0.6059  0.3522  0.3561  1.0000\n  F   F6        1.0000  0.1059  0.1478  0.6439  1.0000\n  F   F7        1.0000  0.3099  0.1530  0.0902  1.0000\n  F   F8        1.0000  0.8099  0.3470  0.9098  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9b40cf30-4d05-48a8-9185-26618c4bea78",
    "mp_id": "mp-554818",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KTe3O6F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.3164\n_cell_length_b   7.3164\n_cell_length_c   7.3164\n_cell_angle_alpha   82.3171\n_cell_angle_beta   82.3171\n_cell_angle_gamma   82.3171\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KTe3O6F\n_chemical_formula_sum   'K2 Te6 O12 F2'\n_cell_volume   381.9535\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.1528  0.1528  0.1528  1\n  K  K1  1  0.8472  0.8472  0.8472  1\n  Te  Te2  1  0.6472  0.8785  0.3655  1\n  Te  Te3  1  0.1215  0.6345  0.3528  1\n  Te  Te4  1  0.6345  0.3528  0.1215  1\n  Te  Te5  1  0.8785  0.3655  0.6472  1\n  Te  Te6  1  0.3655  0.6472  0.8785  1\n  Te  Te7  1  0.3528  0.1215  0.6345  1\n  O  O8  1  0.9556  0.4521  0.3491  1\n  O  O9  1  0.3491  0.9556  0.4521  1\n  O  O10  1  0.5479  0.6509  0.0444  1\n  O  O11  1  0.4521  0.3491  0.9556  1\n  O  O12  1  0.6570  0.0624  0.1475  1\n  O  O13  1  0.1475  0.6570  0.0624  1\n  O  O14  1  0.0624  0.1475  0.6570  1\n  O  O15  1  0.0444  0.5479  0.6509  1\n  O  O16  1  0.3430  0.9376  0.8525  1\n  O  O17  1  0.9376  0.8525  0.3430  1\n  O  O18  1  0.8525  0.3430  0.9376  1\n  O  O19  1  0.6509  0.0444  0.5479  1\n  F  F20  1  0.6503  0.6503  0.6503  1\n  F  F21  1  0.3497  0.3497  0.3497  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Te4OTe2O11F2\n_chemical_formula_sum              \"K2 Te6 O12 F2\"\n_cell_length_a       7.3164\n_cell_length_b       7.3164\n_cell_length_c       7.3164\n_cell_angle_alpha    82.3171\n_cell_angle_beta     82.3171\n_cell_angle_gamma    82.3171\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.1528  0.1528  0.1528  1.0000\n  K   K2        1.0000  0.8472  0.8472  0.8472  1.0000\n  Te  Te1       1.0000  0.6472  0.8785  0.3655  1.0000\n  Te  Te2       1.0000  0.1215  0.6345  0.3528  1.0000\n  Te  Te3       1.0000  0.6345  0.3528  0.1215  1.0000\n  Te  Te4       1.0000  0.8785  0.3655  0.6472  1.0000\n  O   O1        1.0000  0.3655  0.6472  0.8785  1.0000\n  Te  Te5       1.0000  0.3528  0.1215  0.6345  1.0000\n  Te  Te6       1.0000  0.9556  0.4521  0.3491  1.0000\n  O   O2        1.0000  0.3491  0.9556  0.4521  1.0000\n  O   O3        1.0000  0.5479  0.6509  0.0444  1.0000\n  O   O4        1.0000  0.4521  0.3491  0.9556  1.0000\n  O   O5        1.0000  0.6570  0.0624  0.1475  1.0000\n  O   O6        1.0000  0.1475  0.6570  0.0624  1.0000\n  O   O7        1.0000  0.0624  0.1475  0.6570  1.0000\n  O   O8        1.0000  0.0444  0.5479  0.6509  1.0000\n  O   O9        1.0000  0.3430  0.9376  0.8525  1.0000\n  O   O10       1.0000  0.9376  0.8525  0.3430  1.0000\n  O   O11       1.0000  0.8525  0.3430  0.9376  1.0000\n  O   O12       1.0000  0.6509  0.0444  0.5479  1.0000\n  F   F1        1.0000  0.6503  0.6503  0.6503  1.0000\n  F   F2        1.0000  0.3497  0.3497  0.3497  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4c1495b7-db9a-44f6-b8c9-f581cbc5b791",
    "mp_id": "mp-555198",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaV6O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8746\n_cell_length_b   5.8746\n_cell_length_c   13.6944\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaV6O11\n_chemical_formula_sum   'Na2 V12 O22'\n_cell_volume   409.2916\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6667  0.3333  0.7500  1\n  Na  Na1  1  0.3333  0.6667  0.2500  1\n  V  V2  1  0.5000  0.0000  0.0000  1\n  V  V3  1  0.0000  0.0000  0.1502  1\n  V  V4  1  0.0000  0.0000  0.6502  1\n  V  V5  1  0.5000  0.5000  0.0000  1\n  V  V6  1  0.5000  0.5000  0.5000  1\n  V  V7  1  0.0000  0.0000  0.3498  1\n  V  V8  1  0.0000  0.0000  0.8498  1\n  V  V9  1  0.0000  0.5000  0.0000  1\n  V  V10  1  0.6667  0.3333  0.2500  1\n  V  V11  1  0.0000  0.5000  0.5000  1\n  V  V12  1  0.3333  0.6667  0.7500  1\n  V  V13  1  0.5000  0.0000  0.5000  1\n  O  O14  1  0.6610  0.8305  0.4273  1\n  O  O15  1  0.1695  0.8305  0.0727  1\n  O  O16  1  0.7337  0.8668  0.2500  1\n  O  O17  1  0.2663  0.1332  0.7500  1\n  O  O18  1  0.1332  0.8668  0.2500  1\n  O  O19  1  0.1332  0.2663  0.2500  1\n  O  O20  1  0.3390  0.1695  0.9273  1\n  O  O21  1  0.1695  0.3390  0.0727  1\n  O  O22  1  0.8305  0.6610  0.5727  1\n  O  O23  1  0.8305  0.1695  0.9273  1\n  O  O24  1  0.8668  0.1332  0.7500  1\n  O  O25  1  0.3333  0.6667  0.5866  1\n  O  O26  1  0.1695  0.3390  0.4273  1\n  O  O27  1  0.1695  0.8305  0.4273  1\n  O  O28  1  0.8305  0.1695  0.5727  1\n  O  O29  1  0.6667  0.3333  0.0866  1\n  O  O30  1  0.6610  0.8305  0.0727  1\n  O  O31  1  0.8305  0.6610  0.9273  1\n  O  O32  1  0.3390  0.1695  0.5727  1\n  O  O33  1  0.3333  0.6667  0.9134  1\n  O  O34  1  0.6667  0.3333  0.4134  1\n  O  O35  1  0.8668  0.7337  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2VOV10O21V\n_chemical_formula_sum              \"Na2 V12 O22\"\n_cell_length_a       5.8746\n_cell_length_b       5.8746\n_cell_length_c       13.6944\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6667  0.3333  0.7500  1.0000\n  Na  Na2       1.0000  0.3333  0.6667  0.2500  1.0000\n  V   V1        1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.1502  1.0000\n  V   V2        1.0000  0.0000  0.0000  0.6502  1.0000\n  V   V3        1.0000  0.5000  0.5000  0.0000  1.0000\n  V   V4        1.0000  0.5000  0.5000  0.5000  1.0000\n  V   V5        1.0000  0.0000  0.0000  0.3498  1.0000\n  V   V6        1.0000  0.0000  0.0000  0.8498  1.0000\n  V   V7        1.0000  0.0000  0.5000  0.0000  1.0000\n  V   V8        1.0000  0.6667  0.3333  0.2500  1.0000\n  V   V9        1.0000  0.0000  0.5000  0.5000  1.0000\n  V   V10       1.0000  0.3333  0.6667  0.7500  1.0000\n  V   V11       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.6610  0.8305  0.4273  1.0000\n  O   O3        1.0000  0.1695  0.8305  0.0727  1.0000\n  O   O4        1.0000  0.7337  0.8668  0.2500  1.0000\n  O   O5        1.0000  0.2663  0.1332  0.7500  1.0000\n  O   O6        1.0000  0.1332  0.8668  0.2500  1.0000\n  O   O7        1.0000  0.1332  0.2663  0.2500  1.0000\n  O   O8        1.0000  0.3390  0.1695  0.9273  1.0000\n  O   O9        1.0000  0.1695  0.3390  0.0727  1.0000\n  O   O10       1.0000  0.8305  0.6610  0.5727  1.0000\n  O   O11       1.0000  0.8305  0.1695  0.9273  1.0000\n  O   O12       1.0000  0.8668  0.1332  0.7500  1.0000\n  O   O13       1.0000  0.3333  0.6667  0.5866  1.0000\n  O   O14       1.0000  0.1695  0.3390  0.4273  1.0000\n  O   O15       1.0000  0.1695  0.8305  0.4273  1.0000\n  O   O16       1.0000  0.8305  0.1695  0.5727  1.0000\n  O   O17       1.0000  0.6667  0.3333  0.0866  1.0000\n  O   O18       1.0000  0.6610  0.8305  0.0727  1.0000\n  O   O19       1.0000  0.8305  0.6610  0.9273  1.0000\n  O   O20       1.0000  0.3390  0.1695  0.5727  1.0000\n  O   O21       1.0000  0.3333  0.6667  0.9134  1.0000\n  O   O22       1.0000  0.6667  0.3333  0.4134  1.0000\n  V   V12       1.0000  0.8668  0.7337  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0711c577-74c9-4cc8-92a9-4a2c2bd71858",
    "mp_id": "mp-555534",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K4MnMo4O15\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.5686\n_cell_length_b   10.5686\n_cell_length_c   8.3569\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K4MnMo4O15\n_chemical_formula_sum   'K8 Mn2 Mo8 O30'\n_cell_volume   808.3667\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9117  0.6069  0.1403  1\n  K  K1  1  0.3931  0.3048  0.1403  1\n  K  K2  1  0.0883  0.3931  0.8597  1\n  K  K3  1  0.6069  0.6952  0.8597  1\n  K  K4  1  0.0000  0.0000  0.0000  1\n  K  K5  1  0.3048  0.9117  0.8597  1\n  K  K6  1  0.6952  0.0883  0.1403  1\n  K  K7  1  0.0000  0.0000  0.5000  1\n  Mn  Mn8  1  0.6667  0.3333  0.4666  1\n  Mn  Mn9  1  0.3333  0.6667  0.5334  1\n  Mo  Mo10  1  0.0171  0.3420  0.3602  1\n  Mo  Mo11  1  0.6751  0.0171  0.6398  1\n  Mo  Mo12  1  0.3333  0.6667  0.1422  1\n  Mo  Mo13  1  0.6580  0.6751  0.3602  1\n  Mo  Mo14  1  0.6667  0.3333  0.8578  1\n  Mo  Mo15  1  0.3420  0.3249  0.6398  1\n  Mo  Mo16  1  0.3249  0.9829  0.3602  1\n  Mo  Mo17  1  0.9829  0.6580  0.6398  1\n  O  O18  1  0.4799  0.8225  0.0496  1\n  O  O19  1  0.2184  0.2111  0.7913  1\n  O  O20  1  0.5201  0.1775  0.9504  1\n  O  O21  1  0.6657  0.1865  0.6623  1\n  O  O22  1  0.1865  0.5208  0.3377  1\n  O  O23  1  0.2752  0.2584  0.4464  1\n  O  O24  1  0.4941  0.8573  0.6604  1\n  O  O25  1  0.7816  0.7889  0.2087  1\n  O  O26  1  0.5059  0.1427  0.3396  1\n  O  O27  1  0.8135  0.4792  0.6623  1\n  O  O28  1  0.9832  0.7248  0.4464  1\n  O  O29  1  0.4792  0.6657  0.3377  1\n  O  O30  1  0.8573  0.3633  0.3396  1\n  O  O31  1  0.6574  0.4799  0.9504  1\n  O  O32  1  0.3426  0.5201  0.0496  1\n  O  O33  1  0.1775  0.6574  0.0496  1\n  O  O34  1  0.3633  0.5059  0.6604  1\n  O  O35  1  0.6367  0.4941  0.3396  1\n  O  O36  1  0.0168  0.2752  0.5536  1\n  O  O37  1  0.2111  0.9927  0.2087  1\n  O  O38  1  0.1427  0.6367  0.6604  1\n  O  O39  1  0.2584  0.9832  0.5536  1\n  O  O40  1  0.0073  0.2184  0.2087  1\n  O  O41  1  0.7889  0.0073  0.7913  1\n  O  O42  1  0.8225  0.3426  0.9504  1\n  O  O43  1  0.5208  0.3343  0.6623  1\n  O  O44  1  0.7416  0.0168  0.4464  1\n  O  O45  1  0.7248  0.7416  0.5536  1\n  O  O46  1  0.3343  0.8135  0.3377  1\n  O  O47  1  0.9927  0.7816  0.7913  1\n",
    "output": "data_image0\n_chemical_formula_structural       OK7Mn2Mo8O8KO21\n_chemical_formula_sum              \"O30 K8 Mn2 Mo8\"\n_cell_length_a       10.5686\n_cell_length_b       10.5686\n_cell_length_c       8.3569\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.9117  0.6069  0.1403  1.0000\n  K   K1        1.0000  0.3931  0.3048  0.1403  1.0000\n  K   K2        1.0000  0.0883  0.3931  0.8597  1.0000\n  K   K3        1.0000  0.6069  0.6952  0.8597  1.0000\n  K   K4        1.0000  0.0000  0.0000  0.0000  1.0000\n  K   K5        1.0000  0.3048  0.9117  0.8597  1.0000\n  K   K6        1.0000  0.6952  0.0883  0.1403  1.0000\n  K   K7        1.0000  0.0000  0.0000  0.5000  1.0000\n  Mn  Mn1       1.0000  0.6667  0.3333  0.4666  1.0000\n  Mn  Mn2       1.0000  0.3333  0.6667  0.5334  1.0000\n  Mo  Mo1       1.0000  0.0171  0.3420  0.3602  1.0000\n  Mo  Mo2       1.0000  0.6751  0.0171  0.6398  1.0000\n  Mo  Mo3       1.0000  0.3333  0.6667  0.1422  1.0000\n  Mo  Mo4       1.0000  0.6580  0.6751  0.3602  1.0000\n  Mo  Mo5       1.0000  0.6667  0.3333  0.8578  1.0000\n  Mo  Mo6       1.0000  0.3420  0.3249  0.6398  1.0000\n  Mo  Mo7       1.0000  0.3249  0.9829  0.3602  1.0000\n  Mo  Mo8       1.0000  0.9829  0.6580  0.6398  1.0000\n  O   O2        1.0000  0.4799  0.8225  0.0496  1.0000\n  O   O3        1.0000  0.2184  0.2111  0.7913  1.0000\n  O   O4        1.0000  0.5201  0.1775  0.9504  1.0000\n  O   O5        1.0000  0.6657  0.1865  0.6623  1.0000\n  O   O6        1.0000  0.1865  0.5208  0.3377  1.0000\n  O   O7        1.0000  0.2752  0.2584  0.4464  1.0000\n  O   O8        1.0000  0.4941  0.8573  0.6604  1.0000\n  O   O9        1.0000  0.7816  0.7889  0.2087  1.0000\n  K   K8        1.0000  0.5059  0.1427  0.3396  1.0000\n  O   O10       1.0000  0.8135  0.4792  0.6623  1.0000\n  O   O11       1.0000  0.9832  0.7248  0.4464  1.0000\n  O   O12       1.0000  0.4792  0.6657  0.3377  1.0000\n  O   O13       1.0000  0.8573  0.3633  0.3396  1.0000\n  O   O14       1.0000  0.6574  0.4799  0.9504  1.0000\n  O   O15       1.0000  0.3426  0.5201  0.0496  1.0000\n  O   O16       1.0000  0.1775  0.6574  0.0496  1.0000\n  O   O17       1.0000  0.3633  0.5059  0.6604  1.0000\n  O   O18       1.0000  0.6367  0.4941  0.3396  1.0000\n  O   O19       1.0000  0.0168  0.2752  0.5536  1.0000\n  O   O20       1.0000  0.2111  0.9927  0.2087  1.0000\n  O   O21       1.0000  0.1427  0.6367  0.6604  1.0000\n  O   O22       1.0000  0.2584  0.9832  0.5536  1.0000\n  O   O23       1.0000  0.0073  0.2184  0.2087  1.0000\n  O   O24       1.0000  0.7889  0.0073  0.7913  1.0000\n  O   O25       1.0000  0.8225  0.3426  0.9504  1.0000\n  O   O26       1.0000  0.5208  0.3343  0.6623  1.0000\n  O   O27       1.0000  0.7416  0.0168  0.4464  1.0000\n  O   O28       1.0000  0.7248  0.7416  0.5536  1.0000\n  O   O29       1.0000  0.3343  0.8135  0.3377  1.0000\n  O   O30       1.0000  0.9927  0.7816  0.7913  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ea7d5a66-ba3e-4bcc-90ea-5543f87d5560",
    "mp_id": "mp-555790",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tl2C3O4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4428\n_cell_length_b   7.4428\n_cell_length_c   7.5192\n_cell_angle_alpha   74.9029\n_cell_angle_beta   74.9029\n_cell_angle_gamma   54.9607\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tl2C3O4\n_chemical_formula_sum   'Tl4 C6 O8'\n_cell_volume   326.0067\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.8644  0.6053  0.6575  1\n  Tl  Tl1  1  0.3947  0.1356  0.3425  1\n  Tl  Tl2  1  0.7529  0.4289  0.2045  1\n  Tl  Tl3  1  0.5711  0.2471  0.7955  1\n  C  C4  1  0.1753  0.9213  0.9692  1\n  C  C5  1  0.0346  0.9654  0.5000  1\n  C  C6  1  0.0787  0.8247  0.0308  1\n  C  C7  1  0.2636  0.7364  0.5000  1\n  C  C8  1  0.2742  0.0523  0.9000  1\n  C  C9  1  0.9477  0.7258  0.1000  1\n  O  O10  1  0.4184  0.0059  0.7551  1\n  O  O11  1  0.0353  0.1415  0.4648  1\n  O  O12  1  0.2050  0.2085  0.9910  1\n  O  O13  1  0.4366  0.7405  0.4336  1\n  O  O14  1  0.9941  0.5816  0.2449  1\n  O  O15  1  0.2595  0.5634  0.5664  1\n  O  O16  1  0.8585  0.9647  0.5352  1\n  O  O17  1  0.7915  0.7950  0.0090  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl2OTlC6O7Tl\n_chemical_formula_sum              \"Tl4 O8 C6\"\n_cell_length_a       7.4428\n_cell_length_b       7.4428\n_cell_length_c       7.5192\n_cell_angle_alpha    74.9029\n_cell_angle_beta     74.9029\n_cell_angle_gamma    54.9607\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.8644  0.6053  0.6575  1.0000\n  Tl  Tl2       1.0000  0.3947  0.1356  0.3425  1.0000\n  O   O1        1.0000  0.7529  0.4289  0.2045  1.0000\n  Tl  Tl3       1.0000  0.5711  0.2471  0.7955  1.0000\n  C   C1        1.0000  0.1753  0.9213  0.9692  1.0000\n  C   C2        1.0000  0.0346  0.9654  0.5000  1.0000\n  C   C3        1.0000  0.0787  0.8247  0.0308  1.0000\n  C   C4        1.0000  0.2636  0.7364  0.5000  1.0000\n  C   C5        1.0000  0.2742  0.0523  0.9000  1.0000\n  C   C6        1.0000  0.9477  0.7258  0.1000  1.0000\n  O   O2        1.0000  0.4184  0.0059  0.7551  1.0000\n  O   O3        1.0000  0.0353  0.1415  0.4648  1.0000\n  O   O4        1.0000  0.2050  0.2085  0.9910  1.0000\n  O   O5        1.0000  0.4366  0.7405  0.4336  1.0000\n  O   O6        1.0000  0.9941  0.5816  0.2449  1.0000\n  O   O7        1.0000  0.2595  0.5634  0.5664  1.0000\n  O   O8        1.0000  0.8585  0.9647  0.5352  1.0000\n  Tl  Tl4       1.0000  0.7915  0.7950  0.0090  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d220b61e-10cf-4e10-8406-9f5bc7696e2c",
    "mp_id": "mp-556185",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbNaTiO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3365\n_cell_length_b   6.3365\n_cell_length_c   5.5863\n_cell_angle_alpha   88.7403\n_cell_angle_beta   88.7403\n_cell_angle_gamma   123.9711\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbNaTiO3\n_chemical_formula_sum   'Rb2 Na2 Ti2 O6'\n_cell_volume   185.8092\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.7325  0.2675  0.7500  1\n  Rb  Rb1  1  0.2675  0.7325  0.2500  1\n  Na  Na2  1  0.4245  0.5755  0.7500  1\n  Na  Na3  1  0.5755  0.4245  0.2500  1\n  Ti  Ti4  1  0.9484  0.0516  0.2500  1\n  Ti  Ti5  1  0.0516  0.9484  0.7500  1\n  O  O6  1  0.7774  0.7952  0.9979  1\n  O  O7  1  0.2048  0.2226  0.5021  1\n  O  O8  1  0.7896  0.2104  0.2500  1\n  O  O9  1  0.2226  0.2048  0.0021  1\n  O  O10  1  0.7952  0.7774  0.4979  1\n  O  O11  1  0.2104  0.7896  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2ONaTi2O4NaO\n_chemical_formula_sum              \"Rb2 O6 Na2 Ti2\"\n_cell_length_a       6.3365\n_cell_length_b       6.3365\n_cell_length_c       5.5863\n_cell_angle_alpha    88.7403\n_cell_angle_beta     88.7403\n_cell_angle_gamma    123.9711\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.7325  0.2675  0.7500  1.0000\n  Rb  Rb2       1.0000  0.2675  0.7325  0.2500  1.0000\n  O   O1        1.0000  0.4245  0.5755  0.7500  1.0000\n  Na  Na1       1.0000  0.5755  0.4245  0.2500  1.0000\n  Ti  Ti1       1.0000  0.9484  0.0516  0.2500  1.0000\n  Ti  Ti2       1.0000  0.0516  0.9484  0.7500  1.0000\n  O   O2        1.0000  0.7774  0.7952  0.9979  1.0000\n  O   O3        1.0000  0.2048  0.2226  0.5021  1.0000\n  O   O4        1.0000  0.7896  0.2104  0.2500  1.0000\n  O   O5        1.0000  0.2226  0.2048  0.0021  1.0000\n  Na  Na2       1.0000  0.7952  0.7774  0.4979  1.0000\n  O   O6        1.0000  0.2104  0.7896  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "654081cd-8f97-41c5-87b7-90ea91d96b10",
    "mp_id": "mp-556236",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na3Ce2C4O12F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1193\n_cell_length_b   5.1193\n_cell_length_c   22.9201\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na3Ce2C4O12F\n_chemical_formula_sum   'Na6 Ce4 C8 O24 F2'\n_cell_volume   520.1923\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6667  0.3333  0.9772  1\n  Na  Na1  1  0.6667  0.3333  0.5228  1\n  Na  Na2  1  0.3333  0.6667  0.4772  1\n  Na  Na3  1  0.3333  0.6667  0.0228  1\n  Na  Na4  1  0.0000  0.0000  0.7500  1\n  Na  Na5  1  0.0000  0.0000  0.2500  1\n  Ce  Ce6  1  0.3333  0.6667  0.6454  1\n  Ce  Ce7  1  0.6667  0.3333  0.3546  1\n  Ce  Ce8  1  0.3333  0.6667  0.8546  1\n  Ce  Ce9  1  0.6667  0.3333  0.1454  1\n  C  C10  1  0.0000  0.0000  0.4367  1\n  C  C11  1  0.6667  0.3333  0.8232  1\n  C  C12  1  0.0000  0.0000  0.9367  1\n  C  C13  1  0.0000  0.0000  0.0633  1\n  C  C14  1  0.3333  0.6667  0.3232  1\n  C  C15  1  0.3333  0.6667  0.1768  1\n  C  C16  1  0.0000  0.0000  0.5633  1\n  C  C17  1  0.6667  0.3333  0.6768  1\n  O  O18  1  0.2931  0.1465  0.0624  1\n  O  O19  1  0.8125  0.1875  0.6755  1\n  O  O20  1  0.1465  0.8535  0.9376  1\n  O  O21  1  0.7069  0.8535  0.5624  1\n  O  O22  1  0.8535  0.7069  0.0624  1\n  O  O23  1  0.1465  0.2931  0.5624  1\n  O  O24  1  0.6251  0.8125  0.3245  1\n  O  O25  1  0.1875  0.8125  0.1755  1\n  O  O26  1  0.1465  0.8535  0.5624  1\n  O  O27  1  0.3749  0.1875  0.8245  1\n  O  O28  1  0.8125  0.6251  0.8245  1\n  O  O29  1  0.8535  0.1465  0.0624  1\n  O  O30  1  0.1875  0.3749  0.3245  1\n  O  O31  1  0.1875  0.8125  0.3245  1\n  O  O32  1  0.3749  0.1875  0.6755  1\n  O  O33  1  0.1875  0.3749  0.1755  1\n  O  O34  1  0.8125  0.6251  0.6755  1\n  O  O35  1  0.8535  0.7069  0.4376  1\n  O  O36  1  0.2931  0.1465  0.4376  1\n  O  O37  1  0.8535  0.1465  0.4376  1\n  O  O38  1  0.7069  0.8535  0.9376  1\n  O  O39  1  0.1465  0.2931  0.9376  1\n  O  O40  1  0.6251  0.8125  0.1755  1\n  O  O41  1  0.8125  0.1875  0.8245  1\n  F  F42  1  0.6667  0.3333  0.2500  1\n  F  F43  1  0.3333  0.6667  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na6CeOCe2C8O13CeO10F2\n_chemical_formula_sum              \"Na6 Ce4 O24 C8 F2\"\n_cell_length_a       5.1193\n_cell_length_b       5.1193\n_cell_length_c       22.9201\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6667  0.3333  0.9772  1.0000\n  Na  Na2       1.0000  0.6667  0.3333  0.5228  1.0000\n  Na  Na3       1.0000  0.3333  0.6667  0.4772  1.0000\n  Na  Na4       1.0000  0.3333  0.6667  0.0228  1.0000\n  Na  Na5       1.0000  0.0000  0.0000  0.7500  1.0000\n  Na  Na6       1.0000  0.0000  0.0000  0.2500  1.0000\n  Ce  Ce1       1.0000  0.3333  0.6667  0.6454  1.0000\n  O   O1        1.0000  0.6667  0.3333  0.3546  1.0000\n  Ce  Ce2       1.0000  0.3333  0.6667  0.8546  1.0000\n  Ce  Ce3       1.0000  0.6667  0.3333  0.1454  1.0000\n  C   C1        1.0000  0.0000  0.0000  0.4367  1.0000\n  C   C2        1.0000  0.6667  0.3333  0.8232  1.0000\n  C   C3        1.0000  0.0000  0.0000  0.9367  1.0000\n  C   C4        1.0000  0.0000  0.0000  0.0633  1.0000\n  C   C5        1.0000  0.3333  0.6667  0.3232  1.0000\n  C   C6        1.0000  0.3333  0.6667  0.1768  1.0000\n  C   C7        1.0000  0.0000  0.0000  0.5633  1.0000\n  C   C8        1.0000  0.6667  0.3333  0.6768  1.0000\n  O   O2        1.0000  0.2931  0.1465  0.0624  1.0000\n  O   O3        1.0000  0.8125  0.1875  0.6755  1.0000\n  O   O4        1.0000  0.1465  0.8535  0.9376  1.0000\n  O   O5        1.0000  0.7069  0.8535  0.5624  1.0000\n  O   O6        1.0000  0.8535  0.7069  0.0624  1.0000\n  O   O7        1.0000  0.1465  0.2931  0.5624  1.0000\n  O   O8        1.0000  0.6251  0.8125  0.3245  1.0000\n  O   O9        1.0000  0.1875  0.8125  0.1755  1.0000\n  O   O10       1.0000  0.1465  0.8535  0.5624  1.0000\n  O   O11       1.0000  0.3749  0.1875  0.8245  1.0000\n  O   O12       1.0000  0.8125  0.6251  0.8245  1.0000\n  O   O13       1.0000  0.8535  0.1465  0.0624  1.0000\n  O   O14       1.0000  0.1875  0.3749  0.3245  1.0000\n  Ce  Ce4       1.0000  0.1875  0.8125  0.3245  1.0000\n  O   O15       1.0000  0.3749  0.1875  0.6755  1.0000\n  O   O16       1.0000  0.1875  0.3749  0.1755  1.0000\n  O   O17       1.0000  0.8125  0.6251  0.6755  1.0000\n  O   O18       1.0000  0.8535  0.7069  0.4376  1.0000\n  O   O19       1.0000  0.2931  0.1465  0.4376  1.0000\n  O   O20       1.0000  0.8535  0.1465  0.4376  1.0000\n  O   O21       1.0000  0.7069  0.8535  0.9376  1.0000\n  O   O22       1.0000  0.1465  0.2931  0.9376  1.0000\n  O   O23       1.0000  0.6251  0.8125  0.1755  1.0000\n  O   O24       1.0000  0.8125  0.1875  0.8245  1.0000\n  F   F1        1.0000  0.6667  0.3333  0.2500  1.0000\n  F   F2        1.0000  0.3333  0.6667  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f25bf0ed-974b-42e8-b33d-417a44aa4539",
    "mp_id": "mp-556319",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SiO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0390\n_cell_length_b   5.5194\n_cell_length_c   6.2327\n_cell_angle_alpha   89.2951\n_cell_angle_beta   89.8351\n_cell_angle_gamma   89.3918\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SiO2\n_chemical_formula_sum   'Si4 O8'\n_cell_volume   173.3215\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.5134  0.2651  0.1171  1\n  Si  Si1  1  0.7915  0.7577  0.1152  1\n  Si  Si2  1  0.1507  0.5069  0.8254  1\n  Si  Si3  1  0.6518  0.5070  0.5274  1\n  O  O4  1  0.2282  0.2776  0.9895  1\n  O  O5  1  0.3926  0.5936  0.6660  1\n  O  O6  1  0.0747  0.7359  0.9853  1\n  O  O7  1  0.6432  0.5167  0.0312  1\n  O  O8  1  0.5372  0.2849  0.3788  1\n  O  O9  1  0.7725  0.7296  0.3773  1\n  O  O10  1  0.6581  0.0150  0.0452  1\n  O  O11  1  0.9050  0.4192  0.6731  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si3O4SiO4\n_chemical_formula_sum              \"Si4 O8\"\n_cell_length_a       5.0390\n_cell_length_b       5.5194\n_cell_length_c       6.2327\n_cell_angle_alpha    89.2951\n_cell_angle_beta     89.8351\n_cell_angle_gamma    89.3918\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.5134  0.2651  0.1171  1.0000\n  Si  Si2       1.0000  0.7915  0.7577  0.1152  1.0000\n  Si  Si3       1.0000  0.1507  0.5069  0.8254  1.0000\n  O   O1        1.0000  0.6518  0.5070  0.5274  1.0000\n  O   O2        1.0000  0.2282  0.2776  0.9895  1.0000\n  O   O3        1.0000  0.3926  0.5936  0.6660  1.0000\n  O   O4        1.0000  0.0747  0.7359  0.9853  1.0000\n  Si  Si4       1.0000  0.6432  0.5167  0.0312  1.0000\n  O   O5        1.0000  0.5372  0.2849  0.3788  1.0000\n  O   O6        1.0000  0.7725  0.7296  0.3773  1.0000\n  O   O7        1.0000  0.6581  0.0150  0.0452  1.0000\n  O   O8        1.0000  0.9050  0.4192  0.6731  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3e26d372-53b5-4408-8a4c-839fef02e2e9",
    "mp_id": "mp-556404",
    "action_prompt": "Swap the spatial positions of atoms at indices 61 and 66 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2MnPO4F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3959\n_cell_length_b   13.8382\n_cell_length_c   13.9381\n_cell_angle_alpha   59.9247\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2MnPO4F\n_chemical_formula_sum   'Na16 Mn8 P8 O32 F8'\n_cell_volume   900.6265\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.2359  0.9206  0.6665  1\n  Na  Na1  1  0.2359  0.1645  0.1720  1\n  Na  Na2  1  0.7594  0.3347  0.3362  1\n  Na  Na3  1  0.2641  0.1645  0.6720  1\n  Na  Na4  1  0.7359  0.0794  0.8335  1\n  Na  Na5  1  0.2594  0.6653  0.1638  1\n  Na  Na6  1  0.2391  0.4202  0.9126  1\n  Na  Na7  1  0.2609  0.4202  0.4126  1\n  Na  Na8  1  0.7391  0.5798  0.5874  1\n  Na  Na9  1  0.2406  0.6653  0.6638  1\n  Na  Na10  1  0.7641  0.0794  0.3335  1\n  Na  Na11  1  0.7609  0.5798  0.0874  1\n  Na  Na12  1  0.7641  0.8355  0.8280  1\n  Na  Na13  1  0.7359  0.8355  0.3280  1\n  Na  Na14  1  0.7406  0.3347  0.8362  1\n  Na  Na15  1  0.2641  0.9206  0.1665  1\n  Mn  Mn16  1  0.2277  0.4229  0.1760  1\n  Mn  Mn17  1  0.7706  0.0772  0.5991  1\n  Mn  Mn18  1  0.7294  0.0772  0.0991  1\n  Mn  Mn19  1  0.2723  0.4229  0.6760  1\n  Mn  Mn20  1  0.2294  0.9228  0.4009  1\n  Mn  Mn21  1  0.7277  0.5771  0.3240  1\n  Mn  Mn22  1  0.7723  0.5771  0.8240  1\n  Mn  Mn23  1  0.2706  0.9228  0.9009  1\n  P  P24  1  0.7851  0.3379  0.5843  1\n  P  P25  1  0.7815  0.8379  0.0768  1\n  P  P26  1  0.7185  0.8379  0.5768  1\n  P  P27  1  0.2149  0.6621  0.4157  1\n  P  P28  1  0.2185  0.1621  0.9232  1\n  P  P29  1  0.2851  0.6621  0.9157  1\n  P  P30  1  0.2815  0.1621  0.4232  1\n  P  P31  1  0.7149  0.3379  0.0843  1\n  O  O32  1  0.0692  0.8504  0.0567  1\n  O  O33  1  0.6473  0.3861  0.6489  1\n  O  O34  1  0.2893  0.5969  0.5401  1\n  O  O35  1  0.2833  0.7876  0.3652  1\n  O  O36  1  0.8527  0.3861  0.1489  1\n  O  O37  1  0.6996  0.9039  0.1346  1\n  O  O38  1  0.4276  0.3483  0.0954  1\n  O  O39  1  0.9276  0.6517  0.4046  1\n  O  O40  1  0.4308  0.8504  0.5567  1\n  O  O41  1  0.7107  0.4031  0.4599  1\n  O  O42  1  0.1473  0.6139  0.8511  1\n  O  O43  1  0.8537  0.8835  0.4638  1\n  O  O44  1  0.8004  0.9039  0.6346  1\n  O  O45  1  0.1996  0.0961  0.3654  1\n  O  O46  1  0.7170  0.7122  0.1517  1\n  O  O47  1  0.5724  0.6517  0.9046  1\n  O  O48  1  0.1463  0.1165  0.5362  1\n  O  O49  1  0.3537  0.1165  0.0362  1\n  O  O50  1  0.0724  0.3483  0.5954  1\n  O  O51  1  0.9308  0.1496  0.9433  1\n  O  O52  1  0.3527  0.6139  0.3511  1\n  O  O53  1  0.7893  0.4031  0.9599  1\n  O  O54  1  0.7833  0.2124  0.1348  1\n  O  O55  1  0.2170  0.2878  0.3483  1\n  O  O56  1  0.2830  0.2878  0.8483  1\n  O  O57  1  0.7167  0.2124  0.6348  1\n  O  O58  1  0.3004  0.0961  0.8654  1\n  O  O59  1  0.7830  0.7122  0.6517  1\n  O  O60  1  0.2107  0.5969  0.0401  1\n  O  O61  1  0.2167  0.7876  0.8652  1\n  O  O62  1  0.5692  0.1496  0.4433  1\n  O  O63  1  0.6463  0.8835  0.9638  1\n  F  F64  1  0.4997  0.5085  0.7591  1\n  F  F65  1  0.9983  0.9993  0.2359  1\n  F  F66  1  0.4983  0.0007  0.2641  1\n  F  F67  1  0.9997  0.4915  0.7409  1\n  F  F68  1  0.0017  0.0007  0.7641  1\n  F  F69  1  0.0003  0.5085  0.2591  1\n  F  F70  1  0.5003  0.4915  0.2409  1\n  F  F71  1  0.5017  0.9993  0.7359  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na16Mn8P8O29FO2F2OF5\n_chemical_formula_sum              \"Na16 Mn8 P8 O32 F8\"\n_cell_length_a       5.3959\n_cell_length_b       13.8382\n_cell_length_c       13.9381\n_cell_angle_alpha    59.9247\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.2359  0.9206  0.6665  1.0000\n  Na  Na2       1.0000  0.2359  0.1645  0.1720  1.0000\n  Na  Na3       1.0000  0.7594  0.3347  0.3362  1.0000\n  Na  Na4       1.0000  0.2641  0.1645  0.6720  1.0000\n  Na  Na5       1.0000  0.7359  0.0794  0.8335  1.0000\n  Na  Na6       1.0000  0.2594  0.6653  0.1638  1.0000\n  Na  Na7       1.0000  0.2391  0.4202  0.9126  1.0000\n  Na  Na8       1.0000  0.2609  0.4202  0.4126  1.0000\n  Na  Na9       1.0000  0.7391  0.5798  0.5874  1.0000\n  Na  Na10      1.0000  0.2406  0.6653  0.6638  1.0000\n  Na  Na11      1.0000  0.7641  0.0794  0.3335  1.0000\n  Na  Na12      1.0000  0.7609  0.5798  0.0874  1.0000\n  Na  Na13      1.0000  0.7641  0.8355  0.8280  1.0000\n  Na  Na14      1.0000  0.7359  0.8355  0.3280  1.0000\n  Na  Na15      1.0000  0.7406  0.3347  0.8362  1.0000\n  Na  Na16      1.0000  0.2641  0.9206  0.1665  1.0000\n  Mn  Mn1       1.0000  0.2277  0.4229  0.1760  1.0000\n  Mn  Mn2       1.0000  0.7706  0.0772  0.5991  1.0000\n  Mn  Mn3       1.0000  0.7294  0.0772  0.0991  1.0000\n  Mn  Mn4       1.0000  0.2723  0.4229  0.6760  1.0000\n  Mn  Mn5       1.0000  0.2294  0.9228  0.4009  1.0000\n  Mn  Mn6       1.0000  0.7277  0.5771  0.3240  1.0000\n  Mn  Mn7       1.0000  0.7723  0.5771  0.8240  1.0000\n  Mn  Mn8       1.0000  0.2706  0.9228  0.9009  1.0000\n  P   P1        1.0000  0.7851  0.3379  0.5843  1.0000\n  P   P2        1.0000  0.7815  0.8379  0.0768  1.0000\n  P   P3        1.0000  0.7185  0.8379  0.5768  1.0000\n  P   P4        1.0000  0.2149  0.6621  0.4157  1.0000\n  P   P5        1.0000  0.2185  0.1621  0.9232  1.0000\n  P   P6        1.0000  0.2851  0.6621  0.9157  1.0000\n  P   P7        1.0000  0.2815  0.1621  0.4232  1.0000\n  P   P8        1.0000  0.7149  0.3379  0.0843  1.0000\n  O   O1        1.0000  0.0692  0.8504  0.0567  1.0000\n  O   O2        1.0000  0.6473  0.3861  0.6489  1.0000\n  O   O3        1.0000  0.2893  0.5969  0.5401  1.0000\n  O   O4        1.0000  0.2833  0.7876  0.3652  1.0000\n  O   O5        1.0000  0.8527  0.3861  0.1489  1.0000\n  O   O6        1.0000  0.6996  0.9039  0.1346  1.0000\n  O   O7        1.0000  0.4276  0.3483  0.0954  1.0000\n  O   O8        1.0000  0.9276  0.6517  0.4046  1.0000\n  O   O9        1.0000  0.4308  0.8504  0.5567  1.0000\n  O   O10       1.0000  0.7107  0.4031  0.4599  1.0000\n  O   O11       1.0000  0.1473  0.6139  0.8511  1.0000\n  O   O12       1.0000  0.8537  0.8835  0.4638  1.0000\n  O   O13       1.0000  0.8004  0.9039  0.6346  1.0000\n  O   O14       1.0000  0.1996  0.0961  0.3654  1.0000\n  O   O15       1.0000  0.7170  0.7122  0.1517  1.0000\n  O   O16       1.0000  0.5724  0.6517  0.9046  1.0000\n  O   O17       1.0000  0.1463  0.1165  0.5362  1.0000\n  O   O18       1.0000  0.3537  0.1165  0.0362  1.0000\n  O   O19       1.0000  0.0724  0.3483  0.5954  1.0000\n  O   O20       1.0000  0.9308  0.1496  0.9433  1.0000\n  O   O21       1.0000  0.3527  0.6139  0.3511  1.0000\n  O   O22       1.0000  0.7893  0.4031  0.9599  1.0000\n  O   O23       1.0000  0.7833  0.2124  0.1348  1.0000\n  O   O24       1.0000  0.2170  0.2878  0.3483  1.0000\n  O   O25       1.0000  0.2830  0.2878  0.8483  1.0000\n  O   O26       1.0000  0.7167  0.2124  0.6348  1.0000\n  O   O27       1.0000  0.3004  0.0961  0.8654  1.0000\n  O   O28       1.0000  0.7830  0.7122  0.6517  1.0000\n  O   O29       1.0000  0.2107  0.5969  0.0401  1.0000\n  F   F1        1.0000  0.2167  0.7876  0.8652  1.0000\n  O   O30       1.0000  0.5692  0.1496  0.4433  1.0000\n  O   O31       1.0000  0.6463  0.8835  0.9638  1.0000\n  F   F2        1.0000  0.4997  0.5085  0.7591  1.0000\n  F   F3        1.0000  0.9983  0.9993  0.2359  1.0000\n  O   O32       1.0000  0.4983  0.0007  0.2641  1.0000\n  F   F4        1.0000  0.9997  0.4915  0.7409  1.0000\n  F   F5        1.0000  0.0017  0.0007  0.7641  1.0000\n  F   F6        1.0000  0.0003  0.5085  0.2591  1.0000\n  F   F7        1.0000  0.5003  0.4915  0.2409  1.0000\n  F   F8        1.0000  0.5017  0.9993  0.7359  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4bddd5e1-e48b-481e-973d-a6e150d18e84",
    "mp_id": "mp-557059",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbSnS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.0522\n_cell_length_b   13.9464\n_cell_length_c   19.8783\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbSnS4\n_chemical_formula_sum   'Rb16 Sn16 S64'\n_cell_volume   2786.7803\n_cell_formula_units_Z   16\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.8603  0.4736  0.8121  1\n  Rb  Rb1  1  0.2717  0.9613  0.0714  1\n  Rb  Rb2  1  0.3603  0.5264  0.6879  1\n  Rb  Rb3  1  0.2717  0.4613  0.9286  1\n  Rb  Rb4  1  0.7717  0.0387  0.4286  1\n  Rb  Rb5  1  0.1397  0.5264  0.1879  1\n  Rb  Rb6  1  0.3603  0.0264  0.3121  1\n  Rb  Rb7  1  0.2283  0.9613  0.5714  1\n  Rb  Rb8  1  0.6397  0.4736  0.3121  1\n  Rb  Rb9  1  0.7283  0.5387  0.0714  1\n  Rb  Rb10  1  0.7717  0.5387  0.5714  1\n  Rb  Rb11  1  0.2283  0.4613  0.4286  1\n  Rb  Rb12  1  0.6397  0.9736  0.6879  1\n  Rb  Rb13  1  0.8603  0.9736  0.1879  1\n  Rb  Rb14  1  0.1397  0.0264  0.8121  1\n  Rb  Rb15  1  0.7283  0.0387  0.9286  1\n  Sn  Sn16  1  0.8252  0.7316  0.3261  1\n  Sn  Sn17  1  0.3252  0.7684  0.8261  1\n  Sn  Sn18  1  0.0000  0.7500  0.9173  1\n  Sn  Sn19  1  0.6748  0.2316  0.1739  1\n  Sn  Sn20  1  0.5000  0.2500  0.5827  1\n  Sn  Sn21  1  0.8252  0.2316  0.6739  1\n  Sn  Sn22  1  0.5000  0.2500  0.7707  1\n  Sn  Sn23  1  0.1748  0.2684  0.6739  1\n  Sn  Sn24  1  0.1748  0.7684  0.3261  1\n  Sn  Sn25  1  0.5000  0.7500  0.2293  1\n  Sn  Sn26  1  0.0000  0.2500  0.0827  1\n  Sn  Sn27  1  0.0000  0.7500  0.7293  1\n  Sn  Sn28  1  0.5000  0.7500  0.4173  1\n  Sn  Sn29  1  0.3252  0.2684  0.1739  1\n  Sn  Sn30  1  0.0000  0.2500  0.2707  1\n  Sn  Sn31  1  0.6748  0.7316  0.8261  1\n  S  S32  1  0.4366  0.6216  0.1398  1\n  S  S33  1  0.5646  0.8764  0.5088  1\n  S  S34  1  0.1555  0.7075  0.0789  1\n  S  S35  1  0.8582  0.3012  0.4378  1\n  S  S36  1  0.7223  0.1610  0.5765  1\n  S  S37  1  0.5361  0.3725  0.1693  1\n  S  S38  1  0.2323  0.8309  0.7226  1\n  S  S39  1  0.7677  0.6691  0.7226  1\n  S  S40  1  0.0361  0.1275  0.6693  1\n  S  S41  1  0.0361  0.6275  0.3307  1\n  S  S42  1  0.9354  0.3764  0.9912  1\n  S  S43  1  0.5634  0.3784  0.8602  1\n  S  S44  1  0.3445  0.2075  0.4211  1\n  S  S45  1  0.3989  0.6446  0.3236  1\n  S  S46  1  0.3582  0.6988  0.0622  1\n  S  S47  1  0.6011  0.3554  0.6764  1\n  S  S48  1  0.8989  0.3554  0.1764  1\n  S  S49  1  0.9366  0.3784  0.3602  1\n  S  S50  1  0.1418  0.1988  0.4378  1\n  S  S51  1  0.3582  0.1988  0.9378  1\n  S  S52  1  0.7777  0.1610  0.0765  1\n  S  S53  1  0.7777  0.6610  0.9235  1\n  S  S54  1  0.7677  0.1691  0.2774  1\n  S  S55  1  0.9366  0.8784  0.6398  1\n  S  S56  1  0.1011  0.1446  0.1764  1\n  S  S57  1  0.2777  0.8390  0.4235  1\n  S  S58  1  0.9354  0.8764  0.0088  1\n  S  S59  1  0.6418  0.3012  0.9378  1\n  S  S60  1  0.4366  0.1216  0.8602  1\n  S  S61  1  0.3989  0.1446  0.6764  1\n  S  S62  1  0.4639  0.1275  0.1693  1\n  S  S63  1  0.6418  0.8012  0.0622  1\n  S  S64  1  0.2677  0.3309  0.7774  1\n  S  S65  1  0.5634  0.8784  0.1398  1\n  S  S66  1  0.9639  0.8725  0.3307  1\n  S  S67  1  0.7323  0.1691  0.7774  1\n  S  S68  1  0.2677  0.8309  0.2226  1\n  S  S69  1  0.4639  0.6275  0.8307  1\n  S  S70  1  0.7223  0.6610  0.4235  1\n  S  S71  1  0.2223  0.3390  0.0765  1\n  S  S72  1  0.1555  0.2075  0.9211  1\n  S  S73  1  0.2777  0.3390  0.5765  1\n  S  S74  1  0.0646  0.6236  0.0088  1\n  S  S75  1  0.1011  0.6446  0.8236  1\n  S  S76  1  0.6555  0.7925  0.5789  1\n  S  S77  1  0.5361  0.8725  0.8307  1\n  S  S78  1  0.2323  0.3309  0.2774  1\n  S  S79  1  0.8582  0.8012  0.5622  1\n  S  S80  1  0.8989  0.8554  0.8236  1\n  S  S81  1  0.5646  0.3764  0.4912  1\n  S  S82  1  0.8445  0.7925  0.0789  1\n  S  S83  1  0.4354  0.1236  0.4912  1\n  S  S84  1  0.6011  0.8554  0.3236  1\n  S  S85  1  0.7323  0.6691  0.2226  1\n  S  S86  1  0.8445  0.2925  0.9211  1\n  S  S87  1  0.0634  0.6216  0.6398  1\n  S  S88  1  0.9639  0.3725  0.6693  1\n  S  S89  1  0.6555  0.2925  0.4211  1\n  S  S90  1  0.1418  0.6988  0.5622  1\n  S  S91  1  0.4354  0.6236  0.5088  1\n  S  S92  1  0.0634  0.1216  0.3602  1\n  S  S93  1  0.2223  0.8390  0.9235  1\n  S  S94  1  0.0646  0.1236  0.9912  1\n  S  S95  1  0.3445  0.7075  0.5789  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb7SnRb8Sn5RbSn10S64\n_chemical_formula_sum              \"Rb16 Sn16 S64\"\n_cell_length_a       10.0522\n_cell_length_b       13.9464\n_cell_length_c       19.8783\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.8603  0.4736  0.8121  1.0000\n  Rb  Rb2       1.0000  0.2717  0.9613  0.0714  1.0000\n  Rb  Rb3       1.0000  0.3603  0.5264  0.6879  1.0000\n  Rb  Rb4       1.0000  0.2717  0.4613  0.9286  1.0000\n  Rb  Rb5       1.0000  0.7717  0.0387  0.4286  1.0000\n  Rb  Rb6       1.0000  0.1397  0.5264  0.1879  1.0000\n  Rb  Rb7       1.0000  0.3603  0.0264  0.3121  1.0000\n  Sn  Sn1       1.0000  0.2283  0.9613  0.5714  1.0000\n  Rb  Rb8       1.0000  0.6397  0.4736  0.3121  1.0000\n  Rb  Rb9       1.0000  0.7283  0.5387  0.0714  1.0000\n  Rb  Rb10      1.0000  0.7717  0.5387  0.5714  1.0000\n  Rb  Rb11      1.0000  0.2283  0.4613  0.4286  1.0000\n  Rb  Rb12      1.0000  0.6397  0.9736  0.6879  1.0000\n  Rb  Rb13      1.0000  0.8603  0.9736  0.1879  1.0000\n  Rb  Rb14      1.0000  0.1397  0.0264  0.8121  1.0000\n  Rb  Rb15      1.0000  0.7283  0.0387  0.9286  1.0000\n  Sn  Sn2       1.0000  0.8252  0.7316  0.3261  1.0000\n  Sn  Sn3       1.0000  0.3252  0.7684  0.8261  1.0000\n  Sn  Sn4       1.0000  0.0000  0.7500  0.9173  1.0000\n  Sn  Sn5       1.0000  0.6748  0.2316  0.1739  1.0000\n  Sn  Sn6       1.0000  0.5000  0.2500  0.5827  1.0000\n  Rb  Rb16      1.0000  0.8252  0.2316  0.6739  1.0000\n  Sn  Sn7       1.0000  0.5000  0.2500  0.7707  1.0000\n  Sn  Sn8       1.0000  0.1748  0.2684  0.6739  1.0000\n  Sn  Sn9       1.0000  0.1748  0.7684  0.3261  1.0000\n  Sn  Sn10      1.0000  0.5000  0.7500  0.2293  1.0000\n  Sn  Sn11      1.0000  0.0000  0.2500  0.0827  1.0000\n  Sn  Sn12      1.0000  0.0000  0.7500  0.7293  1.0000\n  Sn  Sn13      1.0000  0.5000  0.7500  0.4173  1.0000\n  Sn  Sn14      1.0000  0.3252  0.2684  0.1739  1.0000\n  Sn  Sn15      1.0000  0.0000  0.2500  0.2707  1.0000\n  Sn  Sn16      1.0000  0.6748  0.7316  0.8261  1.0000\n  S   S1        1.0000  0.4366  0.6216  0.1398  1.0000\n  S   S2        1.0000  0.5646  0.8764  0.5088  1.0000\n  S   S3        1.0000  0.1555  0.7075  0.0789  1.0000\n  S   S4        1.0000  0.8582  0.3012  0.4378  1.0000\n  S   S5        1.0000  0.7223  0.1610  0.5765  1.0000\n  S   S6        1.0000  0.5361  0.3725  0.1693  1.0000\n  S   S7        1.0000  0.2323  0.8309  0.7226  1.0000\n  S   S8        1.0000  0.7677  0.6691  0.7226  1.0000\n  S   S9        1.0000  0.0361  0.1275  0.6693  1.0000\n  S   S10       1.0000  0.0361  0.6275  0.3307  1.0000\n  S   S11       1.0000  0.9354  0.3764  0.9912  1.0000\n  S   S12       1.0000  0.5634  0.3784  0.8602  1.0000\n  S   S13       1.0000  0.3445  0.2075  0.4211  1.0000\n  S   S14       1.0000  0.3989  0.6446  0.3236  1.0000\n  S   S15       1.0000  0.3582  0.6988  0.0622  1.0000\n  S   S16       1.0000  0.6011  0.3554  0.6764  1.0000\n  S   S17       1.0000  0.8989  0.3554  0.1764  1.0000\n  S   S18       1.0000  0.9366  0.3784  0.3602  1.0000\n  S   S19       1.0000  0.1418  0.1988  0.4378  1.0000\n  S   S20       1.0000  0.3582  0.1988  0.9378  1.0000\n  S   S21       1.0000  0.7777  0.1610  0.0765  1.0000\n  S   S22       1.0000  0.7777  0.6610  0.9235  1.0000\n  S   S23       1.0000  0.7677  0.1691  0.2774  1.0000\n  S   S24       1.0000  0.9366  0.8784  0.6398  1.0000\n  S   S25       1.0000  0.1011  0.1446  0.1764  1.0000\n  S   S26       1.0000  0.2777  0.8390  0.4235  1.0000\n  S   S27       1.0000  0.9354  0.8764  0.0088  1.0000\n  S   S28       1.0000  0.6418  0.3012  0.9378  1.0000\n  S   S29       1.0000  0.4366  0.1216  0.8602  1.0000\n  S   S30       1.0000  0.3989  0.1446  0.6764  1.0000\n  S   S31       1.0000  0.4639  0.1275  0.1693  1.0000\n  S   S32       1.0000  0.6418  0.8012  0.0622  1.0000\n  S   S33       1.0000  0.2677  0.3309  0.7774  1.0000\n  S   S34       1.0000  0.5634  0.8784  0.1398  1.0000\n  S   S35       1.0000  0.9639  0.8725  0.3307  1.0000\n  S   S36       1.0000  0.7323  0.1691  0.7774  1.0000\n  S   S37       1.0000  0.2677  0.8309  0.2226  1.0000\n  S   S38       1.0000  0.4639  0.6275  0.8307  1.0000\n  S   S39       1.0000  0.7223  0.6610  0.4235  1.0000\n  S   S40       1.0000  0.2223  0.3390  0.0765  1.0000\n  S   S41       1.0000  0.1555  0.2075  0.9211  1.0000\n  S   S42       1.0000  0.2777  0.3390  0.5765  1.0000\n  S   S43       1.0000  0.0646  0.6236  0.0088  1.0000\n  S   S44       1.0000  0.1011  0.6446  0.8236  1.0000\n  S   S45       1.0000  0.6555  0.7925  0.5789  1.0000\n  S   S46       1.0000  0.5361  0.8725  0.8307  1.0000\n  S   S47       1.0000  0.2323  0.3309  0.2774  1.0000\n  S   S48       1.0000  0.8582  0.8012  0.5622  1.0000\n  S   S49       1.0000  0.8989  0.8554  0.8236  1.0000\n  S   S50       1.0000  0.5646  0.3764  0.4912  1.0000\n  S   S51       1.0000  0.8445  0.7925  0.0789  1.0000\n  S   S52       1.0000  0.4354  0.1236  0.4912  1.0000\n  S   S53       1.0000  0.6011  0.8554  0.3236  1.0000\n  S   S54       1.0000  0.7323  0.6691  0.2226  1.0000\n  S   S55       1.0000  0.8445  0.2925  0.9211  1.0000\n  S   S56       1.0000  0.0634  0.6216  0.6398  1.0000\n  S   S57       1.0000  0.9639  0.3725  0.6693  1.0000\n  S   S58       1.0000  0.6555  0.2925  0.4211  1.0000\n  S   S59       1.0000  0.1418  0.6988  0.5622  1.0000\n  S   S60       1.0000  0.4354  0.6236  0.5088  1.0000\n  S   S61       1.0000  0.0634  0.1216  0.3602  1.0000\n  S   S62       1.0000  0.2223  0.8390  0.9235  1.0000\n  S   S63       1.0000  0.0646  0.1236  0.9912  1.0000\n  S   S64       1.0000  0.3445  0.7075  0.5789  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "94557192-0cd3-4e7d-a7e7-6a18da4d8d28",
    "mp_id": "mp-557180",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaAs2(XeF5)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   15.6435\n_cell_length_b   8.5584\n_cell_length_c   8.8347\n_cell_angle_alpha   68.3190\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaAs2(XeF5)4\n_chemical_formula_sum   'Ca2 As4 Xe8 F40'\n_cell_volume   1099.1437\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.1598  0.6350  0.4080  1\n  Ca  Ca1  1  0.6598  0.3650  0.5920  1\n  As  As2  1  0.4914  0.1984  0.3257  1\n  As  As3  1  0.7304  0.7163  0.1561  1\n  As  As4  1  0.9914  0.8016  0.6743  1\n  As  As5  1  0.2304  0.2837  0.8439  1\n  Xe  Xe6  1  0.9874  0.9688  0.0859  1\n  Xe  Xe7  1  0.7523  0.2423  0.0916  1\n  Xe  Xe8  1  0.7063  0.8400  0.6325  1\n  Xe  Xe9  1  0.4874  0.0312  0.9141  1\n  Xe  Xe10  1  0.9358  0.3588  0.5270  1\n  Xe  Xe11  1  0.2063  0.1600  0.3675  1\n  Xe  Xe12  1  0.2523  0.7577  0.9084  1\n  Xe  Xe13  1  0.4358  0.6412  0.4730  1\n  F  F14  1  0.0772  0.9376  0.6734  1\n  F  F15  1  0.7440  0.9042  0.9846  1\n  F  F16  1  0.6774  0.0771  0.6359  1\n  F  F17  1  0.2308  0.3994  0.3630  1\n  F  F18  1  0.2914  0.2007  0.7220  1\n  F  F19  1  0.3239  0.3718  0.8909  1\n  F  F20  1  0.5617  0.5915  0.5583  1\n  F  F21  1  0.0617  0.4085  0.4417  1\n  F  F22  1  0.6865  0.2828  0.8717  1\n  F  F23  1  0.7169  0.5218  0.3339  1\n  F  F24  1  0.7914  0.7993  0.2780  1\n  F  F25  1  0.6690  0.6280  0.0399  1\n  F  F26  1  0.1774  0.9229  0.3641  1\n  F  F27  1  0.5772  0.0624  0.3266  1\n  F  F28  1  0.8239  0.6282  0.1091  1\n  F  F29  1  0.8125  0.3027  0.6159  1\n  F  F30  1  0.1364  0.2057  0.7866  1\n  F  F31  1  0.9708  0.9289  0.4682  1\n  F  F32  1  0.6364  0.7943  0.2134  1\n  F  F33  1  0.0163  0.6752  0.8767  1\n  F  F34  1  0.4708  0.0711  0.5318  1\n  F  F35  1  0.0654  0.6765  0.6050  1\n  F  F36  1  0.7308  0.6006  0.6370  1\n  F  F37  1  0.5163  0.3248  0.1233  1\n  F  F38  1  0.4190  0.0767  0.2610  1\n  F  F39  1  0.2440  0.0958  0.0154  1\n  F  F40  1  0.4088  0.3370  0.3302  1\n  F  F41  1  0.3140  0.8036  0.6918  1\n  F  F42  1  0.4412  0.8099  0.0790  1\n  F  F43  1  0.1865  0.7172  0.1283  1\n  F  F44  1  0.3125  0.6973  0.3841  1\n  F  F45  1  0.2169  0.4782  0.6661  1\n  F  F46  1  0.0320  0.7413  0.2622  1\n  F  F47  1  0.5320  0.2587  0.7378  1\n  F  F48  1  0.9412  0.1901  0.9210  1\n  F  F49  1  0.1690  0.3720  0.9601  1\n  F  F50  1  0.8140  0.1964  0.3082  1\n  F  F51  1  0.9190  0.9233  0.7390  1\n  F  F52  1  0.9088  0.6630  0.6698  1\n  F  F53  1  0.5654  0.3235  0.3950  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca2As4Xe7F2XeF38\n_chemical_formula_sum              \"Ca2 As4 Xe8 F40\"\n_cell_length_a       15.6435\n_cell_length_b       8.5584\n_cell_length_c       8.8347\n_cell_angle_alpha    68.3190\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.1598  0.6350  0.4080  1.0000\n  Ca  Ca2       1.0000  0.6598  0.3650  0.5920  1.0000\n  As  As1       1.0000  0.4914  0.1984  0.3257  1.0000\n  As  As2       1.0000  0.7304  0.7163  0.1561  1.0000\n  As  As3       1.0000  0.9914  0.8016  0.6743  1.0000\n  As  As4       1.0000  0.2304  0.2837  0.8439  1.0000\n  Xe  Xe1       1.0000  0.9874  0.9688  0.0859  1.0000\n  Xe  Xe2       1.0000  0.7523  0.2423  0.0916  1.0000\n  Xe  Xe3       1.0000  0.7063  0.8400  0.6325  1.0000\n  Xe  Xe4       1.0000  0.4874  0.0312  0.9141  1.0000\n  Xe  Xe5       1.0000  0.9358  0.3588  0.5270  1.0000\n  Xe  Xe6       1.0000  0.2063  0.1600  0.3675  1.0000\n  Xe  Xe7       1.0000  0.2523  0.7577  0.9084  1.0000\n  F   F1        1.0000  0.4358  0.6412  0.4730  1.0000\n  F   F2        1.0000  0.0772  0.9376  0.6734  1.0000\n  Xe  Xe8       1.0000  0.7440  0.9042  0.9846  1.0000\n  F   F3        1.0000  0.6774  0.0771  0.6359  1.0000\n  F   F4        1.0000  0.2308  0.3994  0.3630  1.0000\n  F   F5        1.0000  0.2914  0.2007  0.7220  1.0000\n  F   F6        1.0000  0.3239  0.3718  0.8909  1.0000\n  F   F7        1.0000  0.5617  0.5915  0.5583  1.0000\n  F   F8        1.0000  0.0617  0.4085  0.4417  1.0000\n  F   F9        1.0000  0.6865  0.2828  0.8717  1.0000\n  F   F10       1.0000  0.7169  0.5218  0.3339  1.0000\n  F   F11       1.0000  0.7914  0.7993  0.2780  1.0000\n  F   F12       1.0000  0.6690  0.6280  0.0399  1.0000\n  F   F13       1.0000  0.1774  0.9229  0.3641  1.0000\n  F   F14       1.0000  0.5772  0.0624  0.3266  1.0000\n  F   F15       1.0000  0.8239  0.6282  0.1091  1.0000\n  F   F16       1.0000  0.8125  0.3027  0.6159  1.0000\n  F   F17       1.0000  0.1364  0.2057  0.7866  1.0000\n  F   F18       1.0000  0.9708  0.9289  0.4682  1.0000\n  F   F19       1.0000  0.6364  0.7943  0.2134  1.0000\n  F   F20       1.0000  0.0163  0.6752  0.8767  1.0000\n  F   F21       1.0000  0.4708  0.0711  0.5318  1.0000\n  F   F22       1.0000  0.0654  0.6765  0.6050  1.0000\n  F   F23       1.0000  0.7308  0.6006  0.6370  1.0000\n  F   F24       1.0000  0.5163  0.3248  0.1233  1.0000\n  F   F25       1.0000  0.4190  0.0767  0.2610  1.0000\n  F   F26       1.0000  0.2440  0.0958  0.0154  1.0000\n  F   F27       1.0000  0.4088  0.3370  0.3302  1.0000\n  F   F28       1.0000  0.3140  0.8036  0.6918  1.0000\n  F   F29       1.0000  0.4412  0.8099  0.0790  1.0000\n  F   F30       1.0000  0.1865  0.7172  0.1283  1.0000\n  F   F31       1.0000  0.3125  0.6973  0.3841  1.0000\n  F   F32       1.0000  0.2169  0.4782  0.6661  1.0000\n  F   F33       1.0000  0.0320  0.7413  0.2622  1.0000\n  F   F34       1.0000  0.5320  0.2587  0.7378  1.0000\n  F   F35       1.0000  0.9412  0.1901  0.9210  1.0000\n  F   F36       1.0000  0.1690  0.3720  0.9601  1.0000\n  F   F37       1.0000  0.8140  0.1964  0.3082  1.0000\n  F   F38       1.0000  0.9190  0.9233  0.7390  1.0000\n  F   F39       1.0000  0.9088  0.6630  0.6698  1.0000\n  F   F40       1.0000  0.5654  0.3235  0.3950  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "761e8748-791a-432f-808c-8859d1f3f047",
    "mp_id": "mp-557215",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KV2CrO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9341\n_cell_length_b   6.9786\n_cell_length_c   8.3694\n_cell_angle_alpha   78.2809\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KV2CrO7\n_chemical_formula_sum   'K2 V4 Cr2 O14'\n_cell_volume   282.1821\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.3985  0.2500  0.5000  1\n  K  K1  1  0.6015  0.7500  0.5000  1\n  V  V2  1  0.0025  0.1234  0.1733  1\n  V  V3  1  0.9975  0.8766  0.8267  1\n  V  V4  1  0.9975  0.6234  0.1733  1\n  V  V5  1  0.0025  0.3766  0.8267  1\n  Cr  Cr6  1  0.5000  0.5000  0.0000  1\n  Cr  Cr7  1  0.5000  0.0000  0.0000  1\n  O  O8  1  0.3224  0.0190  0.2096  1\n  O  O9  1  0.1293  0.8827  0.6457  1\n  O  O10  1  0.1586  0.1128  0.8849  1\n  O  O11  1  0.1293  0.6173  0.3543  1\n  O  O12  1  0.8707  0.1173  0.3543  1\n  O  O13  1  0.6776  0.5190  0.2096  1\n  O  O14  1  0.8414  0.8872  0.1151  1\n  O  O15  1  0.1586  0.3872  0.1151  1\n  O  O16  1  0.2837  0.7500  0.0000  1\n  O  O17  1  0.7163  0.2500  0.0000  1\n  O  O18  1  0.3224  0.4810  0.7904  1\n  O  O19  1  0.6776  0.9810  0.7904  1\n  O  O20  1  0.8707  0.3827  0.6457  1\n  O  O21  1  0.8414  0.6128  0.8849  1\n",
    "output": "data_image0\n_chemical_formula_structural       KOV4Cr2O2KO11\n_chemical_formula_sum              \"K2 O14 V4 Cr2\"\n_cell_length_a       4.9341\n_cell_length_b       6.9786\n_cell_length_c       8.3694\n_cell_angle_alpha    78.2809\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.3985  0.2500  0.5000  1.0000\n  O   O1        1.0000  0.6015  0.7500  0.5000  1.0000\n  V   V1        1.0000  0.0025  0.1234  0.1733  1.0000\n  V   V2        1.0000  0.9975  0.8766  0.8267  1.0000\n  V   V3        1.0000  0.9975  0.6234  0.1733  1.0000\n  V   V4        1.0000  0.0025  0.3766  0.8267  1.0000\n  Cr  Cr1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Cr  Cr2       1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.3224  0.0190  0.2096  1.0000\n  O   O3        1.0000  0.1293  0.8827  0.6457  1.0000\n  K   K2        1.0000  0.1586  0.1128  0.8849  1.0000\n  O   O4        1.0000  0.1293  0.6173  0.3543  1.0000\n  O   O5        1.0000  0.8707  0.1173  0.3543  1.0000\n  O   O6        1.0000  0.6776  0.5190  0.2096  1.0000\n  O   O7        1.0000  0.8414  0.8872  0.1151  1.0000\n  O   O8        1.0000  0.1586  0.3872  0.1151  1.0000\n  O   O9        1.0000  0.2837  0.7500  0.0000  1.0000\n  O   O10       1.0000  0.7163  0.2500  0.0000  1.0000\n  O   O11       1.0000  0.3224  0.4810  0.7904  1.0000\n  O   O12       1.0000  0.6776  0.9810  0.7904  1.0000\n  O   O13       1.0000  0.8707  0.3827  0.6457  1.0000\n  O   O14       1.0000  0.8414  0.6128  0.8849  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e6b7fa77-71c6-41fa-9beb-0d2e653011ee",
    "mp_id": "mp-557266",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HgO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9099\n_cell_length_b   6.2159\n_cell_length_c   6.2889\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HgO2\n_chemical_formula_sum   'Hg4 O8'\n_cell_volume   191.9339\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.5000  0.0000  0.5000  1\n  Hg  Hg1  1  0.0000  0.0000  0.0000  1\n  Hg  Hg2  1  0.0000  0.5000  0.5000  1\n  Hg  Hg3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.4157  0.5674  0.5712  1\n  O  O5  1  0.0843  0.0674  0.4288  1\n  O  O6  1  0.0843  0.5674  0.0712  1\n  O  O7  1  0.4157  0.0674  0.9288  1\n  O  O8  1  0.5843  0.4326  0.4288  1\n  O  O9  1  0.5843  0.9326  0.0712  1\n  O  O10  1  0.9157  0.4326  0.9288  1\n  O  O11  1  0.9157  0.9326  0.5712  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg2OHgO4HgO3\n_chemical_formula_sum              \"Hg4 O8\"\n_cell_length_a       4.9099\n_cell_length_b       6.2159\n_cell_length_c       6.2889\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Hg  Hg2       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.5000  1.0000\n  Hg  Hg3       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.4157  0.5674  0.5712  1.0000\n  O   O3        1.0000  0.0843  0.0674  0.4288  1.0000\n  O   O4        1.0000  0.0843  0.5674  0.0712  1.0000\n  O   O5        1.0000  0.4157  0.0674  0.9288  1.0000\n  Hg  Hg4       1.0000  0.5843  0.4326  0.4288  1.0000\n  O   O6        1.0000  0.5843  0.9326  0.0712  1.0000\n  O   O7        1.0000  0.9157  0.4326  0.9288  1.0000\n  O   O8        1.0000  0.9157  0.9326  0.5712  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0d122cb8-26a6-4f7c-9318-ec35508d94aa",
    "mp_id": "mp-557389",
    "action_prompt": "Swap the spatial positions of atoms at indices 49 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KMn5(SeO3)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4360\n_cell_length_b   10.4360\n_cell_length_c   9.7641\n_cell_angle_alpha   88.7825\n_cell_angle_beta   88.7825\n_cell_angle_gamma   60.0024\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KMn5(SeO3)6\n_chemical_formula_sum   'K2 Mn10 Se12 O36'\n_cell_volume   920.6828\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9996  0.0004  0.7500  1\n  K  K1  1  0.0004  0.9996  0.2500  1\n  Mn  Mn2  1  0.3308  0.3319  0.1667  1\n  Mn  Mn3  1  0.6244  0.0014  0.2493  1\n  Mn  Mn4  1  0.3756  0.9986  0.7507  1\n  Mn  Mn5  1  0.9986  0.3756  0.2507  1\n  Mn  Mn6  1  0.3865  0.6135  0.2500  1\n  Mn  Mn7  1  0.0014  0.6244  0.7493  1\n  Mn  Mn8  1  0.6681  0.6692  0.3333  1\n  Mn  Mn9  1  0.6692  0.6681  0.8333  1\n  Mn  Mn10  1  0.3319  0.3308  0.6667  1\n  Mn  Mn11  1  0.6135  0.3865  0.7500  1\n  Se  Se12  1  0.3054  0.0806  0.4169  1\n  Se  Se13  1  0.3118  0.6137  0.9158  1\n  Se  Se14  1  0.0806  0.3054  0.9169  1\n  Se  Se15  1  0.6946  0.9194  0.5831  1\n  Se  Se16  1  0.6126  0.0889  0.9110  1\n  Se  Se17  1  0.3863  0.6882  0.5842  1\n  Se  Se18  1  0.9111  0.3874  0.5890  1\n  Se  Se19  1  0.6137  0.3118  0.4158  1\n  Se  Se20  1  0.3874  0.9111  0.0890  1\n  Se  Se21  1  0.9194  0.6946  0.0831  1\n  Se  Se22  1  0.6882  0.3863  0.0842  1\n  Se  Se23  1  0.0889  0.6126  0.4110  1\n  O  O24  1  0.4591  0.1475  0.8109  1\n  O  O25  1  0.8419  0.6964  0.9253  1\n  O  O26  1  0.3928  0.1510  0.3112  1\n  O  O27  1  0.4531  0.4052  0.3115  1\n  O  O28  1  0.8652  0.3040  0.1424  1\n  O  O29  1  0.3118  0.5317  0.0724  1\n  O  O30  1  0.6936  0.1917  0.8487  1\n  O  O31  1  0.1718  0.1242  0.8641  1\n  O  O32  1  0.6072  0.8490  0.6888  1\n  O  O33  1  0.3040  0.8652  0.6424  1\n  O  O34  1  0.4683  0.6882  0.4276  1\n  O  O35  1  0.8282  0.8758  0.1359  1\n  O  O36  1  0.4052  0.4531  0.8115  1\n  O  O37  1  0.1510  0.3928  0.8112  1\n  O  O38  1  0.4645  0.8385  0.9303  1\n  O  O39  1  0.8385  0.4645  0.4303  1\n  O  O40  1  0.5409  0.8525  0.1891  1\n  O  O41  1  0.1581  0.3036  0.0747  1\n  O  O42  1  0.8525  0.5409  0.6891  1\n  O  O43  1  0.5355  0.1615  0.0697  1\n  O  O44  1  0.6960  0.1348  0.3576  1\n  O  O45  1  0.3064  0.8083  0.1513  1\n  O  O46  1  0.5948  0.5469  0.1885  1\n  O  O47  1  0.8083  0.3064  0.6513  1\n  O  O48  1  0.1917  0.6936  0.3487  1\n  O  O49  1  0.1615  0.5355  0.5697  1\n  O  O50  1  0.8490  0.6072  0.1888  1\n  O  O51  1  0.3036  0.1581  0.5747  1\n  O  O52  1  0.5317  0.3118  0.5724  1\n  O  O53  1  0.5469  0.5948  0.6885  1\n  O  O54  1  0.1242  0.1718  0.3641  1\n  O  O55  1  0.8758  0.8282  0.6359  1\n  O  O56  1  0.1348  0.6960  0.8576  1\n  O  O57  1  0.1475  0.4591  0.3109  1\n  O  O58  1  0.6964  0.8419  0.4253  1\n  O  O59  1  0.6882  0.4683  0.9276  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Mn10Se3OSe8O25SeO10\n_chemical_formula_sum              \"K2 Mn10 Se12 O36\"\n_cell_length_a       10.4360\n_cell_length_b       10.4360\n_cell_length_c       9.7641\n_cell_angle_alpha    88.7825\n_cell_angle_beta     88.7825\n_cell_angle_gamma    60.0024\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9996  0.0004  0.7500  1.0000\n  K   K2        1.0000  0.0004  0.9996  0.2500  1.0000\n  Mn  Mn1       1.0000  0.3308  0.3319  0.1667  1.0000\n  Mn  Mn2       1.0000  0.6244  0.0014  0.2493  1.0000\n  Mn  Mn3       1.0000  0.3756  0.9986  0.7507  1.0000\n  Mn  Mn4       1.0000  0.9986  0.3756  0.2507  1.0000\n  Mn  Mn5       1.0000  0.3865  0.6135  0.2500  1.0000\n  Mn  Mn6       1.0000  0.0014  0.6244  0.7493  1.0000\n  Mn  Mn7       1.0000  0.6681  0.6692  0.3333  1.0000\n  Mn  Mn8       1.0000  0.6692  0.6681  0.8333  1.0000\n  Mn  Mn9       1.0000  0.3319  0.3308  0.6667  1.0000\n  Mn  Mn10      1.0000  0.6135  0.3865  0.7500  1.0000\n  Se  Se1       1.0000  0.3054  0.0806  0.4169  1.0000\n  Se  Se2       1.0000  0.3118  0.6137  0.9158  1.0000\n  Se  Se3       1.0000  0.0806  0.3054  0.9169  1.0000\n  O   O1        1.0000  0.6946  0.9194  0.5831  1.0000\n  Se  Se4       1.0000  0.6126  0.0889  0.9110  1.0000\n  Se  Se5       1.0000  0.3863  0.6882  0.5842  1.0000\n  Se  Se6       1.0000  0.9111  0.3874  0.5890  1.0000\n  Se  Se7       1.0000  0.6137  0.3118  0.4158  1.0000\n  Se  Se8       1.0000  0.3874  0.9111  0.0890  1.0000\n  Se  Se9       1.0000  0.9194  0.6946  0.0831  1.0000\n  Se  Se10      1.0000  0.6882  0.3863  0.0842  1.0000\n  Se  Se11      1.0000  0.0889  0.6126  0.4110  1.0000\n  O   O2        1.0000  0.4591  0.1475  0.8109  1.0000\n  O   O3        1.0000  0.8419  0.6964  0.9253  1.0000\n  O   O4        1.0000  0.3928  0.1510  0.3112  1.0000\n  O   O5        1.0000  0.4531  0.4052  0.3115  1.0000\n  O   O6        1.0000  0.8652  0.3040  0.1424  1.0000\n  O   O7        1.0000  0.3118  0.5317  0.0724  1.0000\n  O   O8        1.0000  0.6936  0.1917  0.8487  1.0000\n  O   O9        1.0000  0.1718  0.1242  0.8641  1.0000\n  O   O10       1.0000  0.6072  0.8490  0.6888  1.0000\n  O   O11       1.0000  0.3040  0.8652  0.6424  1.0000\n  O   O12       1.0000  0.4683  0.6882  0.4276  1.0000\n  O   O13       1.0000  0.8282  0.8758  0.1359  1.0000\n  O   O14       1.0000  0.4052  0.4531  0.8115  1.0000\n  O   O15       1.0000  0.1510  0.3928  0.8112  1.0000\n  O   O16       1.0000  0.4645  0.8385  0.9303  1.0000\n  O   O17       1.0000  0.8385  0.4645  0.4303  1.0000\n  O   O18       1.0000  0.5409  0.8525  0.1891  1.0000\n  O   O19       1.0000  0.1581  0.3036  0.0747  1.0000\n  O   O20       1.0000  0.8525  0.5409  0.6891  1.0000\n  O   O21       1.0000  0.5355  0.1615  0.0697  1.0000\n  O   O22       1.0000  0.6960  0.1348  0.3576  1.0000\n  O   O23       1.0000  0.3064  0.8083  0.1513  1.0000\n  O   O24       1.0000  0.5948  0.5469  0.1885  1.0000\n  O   O25       1.0000  0.8083  0.3064  0.6513  1.0000\n  O   O26       1.0000  0.1917  0.6936  0.3487  1.0000\n  Se  Se12      1.0000  0.1615  0.5355  0.5697  1.0000\n  O   O27       1.0000  0.8490  0.6072  0.1888  1.0000\n  O   O28       1.0000  0.3036  0.1581  0.5747  1.0000\n  O   O29       1.0000  0.5317  0.3118  0.5724  1.0000\n  O   O30       1.0000  0.5469  0.5948  0.6885  1.0000\n  O   O31       1.0000  0.1242  0.1718  0.3641  1.0000\n  O   O32       1.0000  0.8758  0.8282  0.6359  1.0000\n  O   O33       1.0000  0.1348  0.6960  0.8576  1.0000\n  O   O34       1.0000  0.1475  0.4591  0.3109  1.0000\n  O   O35       1.0000  0.6964  0.8419  0.4253  1.0000\n  O   O36       1.0000  0.6882  0.4683  0.9276  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ac8dcae0-e407-4d42-8de4-ec27dc299821",
    "mp_id": "mp-557574",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu2HgGeS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3082\n_cell_length_b   6.5215\n_cell_length_c   7.6781\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu2HgGeS4\n_chemical_formula_sum   'Cu4 Hg2 Ge2 S8'\n_cell_volume   315.8689\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.0234  0.1667  0.7504  1\n  Cu  Cu1  1  0.5234  0.8333  0.7496  1\n  Cu  Cu2  1  0.0234  0.1667  0.2496  1\n  Cu  Cu3  1  0.5234  0.8333  0.2504  1\n  Hg  Hg4  1  0.5274  0.3488  -0.0000  1\n  Hg  Hg5  1  0.0274  0.6512  0.5000  1\n  Ge  Ge6  1  0.0181  0.6757  -0.0000  1\n  Ge  Ge7  1  0.5181  0.3243  0.5000  1\n  S  S8  1  0.3833  0.1568  0.2694  1\n  S  S9  1  0.8833  0.8432  0.7694  1\n  S  S10  1  0.3833  0.1568  0.7306  1\n  S  S11  1  0.9291  0.3402  -0.0000  1\n  S  S12  1  0.4291  0.6598  0.5000  1\n  S  S13  1  0.8739  0.2892  0.5000  1\n  S  S14  1  0.3739  0.7108  -0.0000  1\n  S  S15  1  0.8833  0.8432  0.2306  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu2SCuHg2Ge2S6CuS\n_chemical_formula_sum              \"Cu4 S8 Hg2 Ge2\"\n_cell_length_a       6.3082\n_cell_length_b       6.5215\n_cell_length_c       7.6781\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.0234  0.1667  0.7504  1.0000\n  Cu  Cu2       1.0000  0.5234  0.8333  0.7496  1.0000\n  S   S1        1.0000  0.0234  0.1667  0.2496  1.0000\n  Cu  Cu3       1.0000  0.5234  0.8333  0.2504  1.0000\n  Hg  Hg1       1.0000  0.5274  0.3488  0.0000  1.0000\n  Hg  Hg2       1.0000  0.0274  0.6512  0.5000  1.0000\n  Ge  Ge1       1.0000  0.0181  0.6757  0.0000  1.0000\n  Ge  Ge2       1.0000  0.5181  0.3243  0.5000  1.0000\n  S   S2        1.0000  0.3833  0.1568  0.2694  1.0000\n  S   S3        1.0000  0.8833  0.8432  0.7694  1.0000\n  S   S4        1.0000  0.3833  0.1568  0.7306  1.0000\n  S   S5        1.0000  0.9291  0.3402  0.0000  1.0000\n  S   S6        1.0000  0.4291  0.6598  0.5000  1.0000\n  S   S7        1.0000  0.8739  0.2892  0.5000  1.0000\n  Cu  Cu4       1.0000  0.3739  0.7108  0.0000  1.0000\n  S   S8        1.0000  0.8833  0.8432  0.2306  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "56dc61c5-e313-4902-ab38-5ca59dbdef9e",
    "mp_id": "mp-557589",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 32 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlZn(PO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2258\n_cell_length_b   12.1187\n_cell_length_c   13.1547\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlZn(PO3)3\n_chemical_formula_sum   'Tl4 Zn4 P12 O36'\n_cell_volume   833.0917\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.0788  0.1409  0.2500  1\n  Tl  Tl1  1  0.9212  0.8591  0.7500  1\n  Tl  Tl2  1  0.0788  0.3591  0.7500  1\n  Tl  Tl3  1  0.9212  0.6409  0.2500  1\n  Zn  Zn4  1  0.0000  0.0000  0.0000  1\n  Zn  Zn5  1  0.0000  0.5000  0.5000  1\n  Zn  Zn6  1  0.0000  0.0000  0.5000  1\n  Zn  Zn7  1  0.0000  0.5000  0.0000  1\n  P  P8  1  0.5102  0.9155  0.1347  1\n  P  P9  1  0.4898  0.0845  0.6347  1\n  P  P10  1  0.5102  0.5845  0.8653  1\n  P  P11  1  0.2505  0.7500  0.0000  1\n  P  P12  1  0.5102  0.9155  0.3653  1\n  P  P13  1  0.4898  0.4155  0.3653  1\n  P  P14  1  0.2505  0.7500  0.5000  1\n  P  P15  1  0.7495  0.2500  0.5000  1\n  P  P16  1  0.4898  0.4155  0.1347  1\n  P  P17  1  0.5102  0.5845  0.6347  1\n  P  P18  1  0.4898  0.0845  0.8653  1\n  P  P19  1  0.7495  0.2500  0.0000  1\n  O  O20  1  0.5507  0.2976  0.4174  1\n  O  O21  1  0.5507  0.2976  0.0826  1\n  O  O22  1  0.7920  0.9373  0.3739  1\n  O  O23  1  0.4493  0.7976  0.4174  1\n  O  O24  1  0.3231  0.0029  0.3989  1\n  O  O25  1  0.4493  0.7024  0.9174  1\n  O  O26  1  0.5507  0.2024  0.5826  1\n  O  O27  1  0.1046  0.6576  0.0494  1\n  O  O28  1  0.3231  0.4971  0.8989  1\n  O  O29  1  0.5571  0.3793  0.2500  1\n  O  O30  1  0.6769  0.5029  0.3989  1\n  O  O31  1  0.4429  0.6207  0.7500  1\n  O  O32  1  0.7920  0.5627  0.6261  1\n  O  O33  1  0.6769  0.9971  0.8989  1\n  O  O34  1  0.2080  0.4373  0.1261  1\n  O  O35  1  0.1046  0.6576  0.4506  1\n  O  O36  1  0.4429  0.8793  0.2500  1\n  O  O37  1  0.6769  0.9971  0.6011  1\n  O  O38  1  0.1046  0.8424  0.9506  1\n  O  O39  1  0.4493  0.7024  0.5826  1\n  O  O40  1  0.2080  0.0627  0.6261  1\n  O  O41  1  0.3231  0.0029  0.1011  1\n  O  O42  1  0.6769  0.5029  0.1011  1\n  O  O43  1  0.2080  0.0627  0.8739  1\n  O  O44  1  0.2080  0.4373  0.3739  1\n  O  O45  1  0.8954  0.1576  0.4506  1\n  O  O46  1  0.7920  0.5627  0.8739  1\n  O  O47  1  0.5571  0.1207  0.7500  1\n  O  O48  1  0.1046  0.8424  0.5494  1\n  O  O49  1  0.3231  0.4971  0.6011  1\n  O  O50  1  0.8954  0.1576  0.0494  1\n  O  O51  1  0.5507  0.2024  0.9174  1\n  O  O52  1  0.7920  0.9373  0.1261  1\n  O  O53  1  0.8954  0.3424  0.9506  1\n  O  O54  1  0.8954  0.3424  0.5494  1\n  O  O55  1  0.4493  0.7976  0.0826  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl2OTlZn4P12O12TlO23\n_chemical_formula_sum              \"Tl4 O36 Zn4 P12\"\n_cell_length_a       5.2258\n_cell_length_b       12.1187\n_cell_length_c       13.1547\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.0788  0.1409  0.2500  1.0000\n  Tl  Tl2       1.0000  0.9212  0.8591  0.7500  1.0000\n  O   O1        1.0000  0.0788  0.3591  0.7500  1.0000\n  Tl  Tl3       1.0000  0.9212  0.6409  0.2500  1.0000\n  Zn  Zn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Zn  Zn2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Zn  Zn3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Zn  Zn4       1.0000  0.0000  0.5000  0.0000  1.0000\n  P   P1        1.0000  0.5102  0.9155  0.1347  1.0000\n  P   P2        1.0000  0.4898  0.0845  0.6347  1.0000\n  P   P3        1.0000  0.5102  0.5845  0.8653  1.0000\n  P   P4        1.0000  0.2505  0.7500  0.0000  1.0000\n  P   P5        1.0000  0.5102  0.9155  0.3653  1.0000\n  P   P6        1.0000  0.4898  0.4155  0.3653  1.0000\n  P   P7        1.0000  0.2505  0.7500  0.5000  1.0000\n  P   P8        1.0000  0.7495  0.2500  0.5000  1.0000\n  P   P9        1.0000  0.4898  0.4155  0.1347  1.0000\n  P   P10       1.0000  0.5102  0.5845  0.6347  1.0000\n  P   P11       1.0000  0.4898  0.0845  0.8653  1.0000\n  P   P12       1.0000  0.7495  0.2500  0.0000  1.0000\n  O   O2        1.0000  0.5507  0.2976  0.4174  1.0000\n  O   O3        1.0000  0.5507  0.2976  0.0826  1.0000\n  O   O4        1.0000  0.7920  0.9373  0.3739  1.0000\n  O   O5        1.0000  0.4493  0.7976  0.4174  1.0000\n  O   O6        1.0000  0.3231  0.0029  0.3989  1.0000\n  O   O7        1.0000  0.4493  0.7024  0.9174  1.0000\n  O   O8        1.0000  0.5507  0.2024  0.5826  1.0000\n  O   O9        1.0000  0.1046  0.6576  0.0494  1.0000\n  O   O10       1.0000  0.3231  0.4971  0.8989  1.0000\n  O   O11       1.0000  0.5571  0.3793  0.2500  1.0000\n  O   O12       1.0000  0.6769  0.5029  0.3989  1.0000\n  O   O13       1.0000  0.4429  0.6207  0.7500  1.0000\n  Tl  Tl4       1.0000  0.7920  0.5627  0.6261  1.0000\n  O   O14       1.0000  0.6769  0.9971  0.8989  1.0000\n  O   O15       1.0000  0.2080  0.4373  0.1261  1.0000\n  O   O16       1.0000  0.1046  0.6576  0.4506  1.0000\n  O   O17       1.0000  0.4429  0.8793  0.2500  1.0000\n  O   O18       1.0000  0.6769  0.9971  0.6011  1.0000\n  O   O19       1.0000  0.1046  0.8424  0.9506  1.0000\n  O   O20       1.0000  0.4493  0.7024  0.5826  1.0000\n  O   O21       1.0000  0.2080  0.0627  0.6261  1.0000\n  O   O22       1.0000  0.3231  0.0029  0.1011  1.0000\n  O   O23       1.0000  0.6769  0.5029  0.1011  1.0000\n  O   O24       1.0000  0.2080  0.0627  0.8739  1.0000\n  O   O25       1.0000  0.2080  0.4373  0.3739  1.0000\n  O   O26       1.0000  0.8954  0.1576  0.4506  1.0000\n  O   O27       1.0000  0.7920  0.5627  0.8739  1.0000\n  O   O28       1.0000  0.5571  0.1207  0.7500  1.0000\n  O   O29       1.0000  0.1046  0.8424  0.5494  1.0000\n  O   O30       1.0000  0.3231  0.4971  0.6011  1.0000\n  O   O31       1.0000  0.8954  0.1576  0.0494  1.0000\n  O   O32       1.0000  0.5507  0.2024  0.9174  1.0000\n  O   O33       1.0000  0.7920  0.9373  0.1261  1.0000\n  O   O34       1.0000  0.8954  0.3424  0.9506  1.0000\n  O   O35       1.0000  0.8954  0.3424  0.5494  1.0000\n  O   O36       1.0000  0.4493  0.7976  0.0826  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7ce09dbe-d788-498a-b273-7e225c6dea1d",
    "mp_id": "mp-557752",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsHSO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9465\n_cell_length_b   5.6033\n_cell_length_c   7.2972\n_cell_angle_alpha   79.8440\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsHSO4\n_chemical_formula_sum   'Cs2 H2 S2 O8'\n_cell_volume   239.3286\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.2500  0.9861  0.7153  1\n  Cs  Cs1  1  0.7500  0.0138  0.2847  1\n  H  H2  1  0.5000  0.5000  0.0000  1\n  H  H3  1  0.0000  0.5000  0.0000  1\n  S  S4  1  0.7500  0.4544  0.7593  1\n  S  S5  1  0.2500  0.5456  0.2407  1\n  O  O6  1  0.4567  0.6223  0.1168  1\n  O  O7  1  0.5433  0.3777  0.8831  1\n  O  O8  1  0.7500  0.3126  0.6108  1\n  O  O9  1  0.0433  0.6223  0.1168  1\n  O  O10  1  0.9567  0.3777  0.8831  1\n  O  O11  1  0.2500  0.2820  0.2987  1\n  O  O12  1  0.2500  0.6874  0.3892  1\n  O  O13  1  0.7500  0.7180  0.7013  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2HSHSO8\n_chemical_formula_sum              \"Cs2 H2 S2 O8\"\n_cell_length_a       5.9465\n_cell_length_b       5.6033\n_cell_length_c       7.2972\n_cell_angle_alpha    79.8440\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.2500  0.9861  0.7153  1.0000\n  Cs  Cs2       1.0000  0.7500  0.0139  0.2847  1.0000\n  H   H1        1.0000  0.5000  0.5000  0.0000  1.0000\n  S   S1        1.0000  0.0000  0.5000  0.0000  1.0000\n  H   H2        1.0000  0.7500  0.4544  0.7593  1.0000\n  S   S2        1.0000  0.2500  0.5456  0.2407  1.0000\n  O   O1        1.0000  0.4567  0.6223  0.1168  1.0000\n  O   O2        1.0000  0.5433  0.3777  0.8831  1.0000\n  O   O3        1.0000  0.7500  0.3126  0.6108  1.0000\n  O   O4        1.0000  0.0433  0.6223  0.1168  1.0000\n  O   O5        1.0000  0.9567  0.3777  0.8831  1.0000\n  O   O6        1.0000  0.2500  0.2820  0.2987  1.0000\n  O   O7        1.0000  0.2500  0.6874  0.3892  1.0000\n  O   O8        1.0000  0.7500  0.7180  0.7013  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e9a4dd9-e91c-4efd-bdea-8dbe23b9bdd5",
    "mp_id": "mp-557824",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2(ReS2)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.8440\n_cell_length_b   9.8440\n_cell_length_c   12.0677\n_cell_angle_alpha   88.8643\n_cell_angle_beta   88.8643\n_cell_angle_gamma   60.2632\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2(ReS2)3\n_chemical_formula_sum   'Rb8 Re12 S24'\n_cell_volume   1015.1501\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.6192  0.3808  0.2500  1\n  Rb  Rb1  1  0.8609  0.3670  0.4803  1\n  Rb  Rb2  1  0.2162  0.7838  0.2500  1\n  Rb  Rb3  1  0.1391  0.6330  0.5198  1\n  Rb  Rb4  1  0.7838  0.2162  0.7500  1\n  Rb  Rb5  1  0.3670  0.8609  0.9802  1\n  Rb  Rb6  1  0.3808  0.6192  0.7500  1\n  Rb  Rb7  1  0.6330  0.1391  0.0197  1\n  Re  Re8  1  0.9973  0.6881  0.9782  1\n  Re  Re9  1  0.5386  0.8804  0.3734  1\n  Re  Re10  1  0.1196  0.4614  0.1266  1\n  Re  Re11  1  0.8804  0.5386  0.8734  1\n  Re  Re12  1  0.0027  0.3119  0.0218  1\n  Re  Re13  1  0.3992  0.1813  0.4135  1\n  Re  Re14  1  0.1813  0.3992  0.9135  1\n  Re  Re15  1  0.8187  0.6008  0.0865  1\n  Re  Re16  1  0.3119  0.0027  0.5218  1\n  Re  Re17  1  0.6881  0.9973  0.4782  1\n  Re  Re18  1  0.4614  0.1196  0.6266  1\n  Re  Re19  1  0.6008  0.8187  0.5865  1\n  S  S20  1  0.7316  0.9371  0.6724  1\n  S  S21  1  0.0629  0.2684  0.8276  1\n  S  S22  1  0.9494  0.3822  0.2142  1\n  S  S23  1  0.2009  0.2780  0.5595  1\n  S  S24  1  0.7273  0.5772  0.7029  1\n  S  S25  1  0.5772  0.7273  0.2029  1\n  S  S26  1  0.7220  0.7991  0.9405  1\n  S  S27  1  0.5448  0.2774  0.5178  1\n  S  S28  1  0.2780  0.2009  0.0594  1\n  S  S29  1  0.9351  0.0022  0.4297  1\n  S  S30  1  0.9978  0.0649  0.0703  1\n  S  S31  1  0.6178  0.0506  0.2858  1\n  S  S32  1  0.7991  0.7220  0.4406  1\n  S  S33  1  0.3822  0.9494  0.7143  1\n  S  S34  1  0.2684  0.0629  0.3276  1\n  S  S35  1  0.0649  0.9978  0.5703  1\n  S  S36  1  0.0022  0.9351  0.9297  1\n  S  S37  1  0.2727  0.4228  0.2971  1\n  S  S38  1  0.4228  0.2727  0.7971  1\n  S  S39  1  0.2774  0.5448  0.0177  1\n  S  S40  1  0.0506  0.6178  0.7857  1\n  S  S41  1  0.9371  0.7316  0.1724  1\n  S  S42  1  0.7226  0.4552  0.9822  1\n  S  S43  1  0.4552  0.7226  0.4823  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb7SRe12S15RbS8\n_chemical_formula_sum              \"Rb8 S24 Re12\"\n_cell_length_a       9.8440\n_cell_length_b       9.8440\n_cell_length_c       12.0677\n_cell_angle_alpha    88.8643\n_cell_angle_beta     88.8643\n_cell_angle_gamma    60.2632\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.6192  0.3808  0.2500  1.0000\n  Rb  Rb2       1.0000  0.8609  0.3670  0.4803  1.0000\n  Rb  Rb3       1.0000  0.2162  0.7838  0.2500  1.0000\n  Rb  Rb4       1.0000  0.1391  0.6330  0.5198  1.0000\n  Rb  Rb5       1.0000  0.7838  0.2162  0.7500  1.0000\n  Rb  Rb6       1.0000  0.3670  0.8609  0.9802  1.0000\n  Rb  Rb7       1.0000  0.3808  0.6192  0.7500  1.0000\n  S   S1        1.0000  0.6330  0.1391  0.0197  1.0000\n  Re  Re1       1.0000  0.9973  0.6881  0.9782  1.0000\n  Re  Re2       1.0000  0.5386  0.8804  0.3734  1.0000\n  Re  Re3       1.0000  0.1196  0.4614  0.1266  1.0000\n  Re  Re4       1.0000  0.8804  0.5386  0.8734  1.0000\n  Re  Re5       1.0000  0.0027  0.3119  0.0218  1.0000\n  Re  Re6       1.0000  0.3992  0.1813  0.4135  1.0000\n  Re  Re7       1.0000  0.1813  0.3992  0.9135  1.0000\n  Re  Re8       1.0000  0.8187  0.6008  0.0865  1.0000\n  Re  Re9       1.0000  0.3119  0.0027  0.5218  1.0000\n  Re  Re10      1.0000  0.6881  0.9973  0.4782  1.0000\n  Re  Re11      1.0000  0.4614  0.1196  0.6266  1.0000\n  Re  Re12      1.0000  0.6008  0.8187  0.5865  1.0000\n  S   S2        1.0000  0.7316  0.9371  0.6724  1.0000\n  S   S3        1.0000  0.0629  0.2684  0.8276  1.0000\n  S   S4        1.0000  0.9494  0.3822  0.2142  1.0000\n  S   S5        1.0000  0.2009  0.2780  0.5595  1.0000\n  S   S6        1.0000  0.7273  0.5772  0.7029  1.0000\n  S   S7        1.0000  0.5772  0.7273  0.2029  1.0000\n  S   S8        1.0000  0.7220  0.7991  0.9405  1.0000\n  S   S9        1.0000  0.5448  0.2774  0.5178  1.0000\n  S   S10       1.0000  0.2780  0.2009  0.0594  1.0000\n  S   S11       1.0000  0.9351  0.0022  0.4297  1.0000\n  S   S12       1.0000  0.9978  0.0649  0.0703  1.0000\n  S   S13       1.0000  0.6178  0.0506  0.2858  1.0000\n  S   S14       1.0000  0.7991  0.7220  0.4406  1.0000\n  S   S15       1.0000  0.3822  0.9494  0.7143  1.0000\n  S   S16       1.0000  0.2684  0.0629  0.3276  1.0000\n  Rb  Rb8       1.0000  0.0649  0.9978  0.5703  1.0000\n  S   S17       1.0000  0.0022  0.9351  0.9297  1.0000\n  S   S18       1.0000  0.2727  0.4228  0.2971  1.0000\n  S   S19       1.0000  0.4228  0.2727  0.7971  1.0000\n  S   S20       1.0000  0.2774  0.5448  0.0177  1.0000\n  S   S21       1.0000  0.0506  0.6178  0.7857  1.0000\n  S   S22       1.0000  0.9371  0.7316  0.1724  1.0000\n  S   S23       1.0000  0.7226  0.4552  0.9822  1.0000\n  S   S24       1.0000  0.4552  0.7226  0.4823  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72df7293-06c3-4186-b52b-2e439ddfec97",
    "mp_id": "mp-557864",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe2WC10(SeO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1683\n_cell_length_b   9.6293\n_cell_length_c   14.1816\n_cell_angle_alpha   82.6121\n_cell_angle_beta   82.5242\n_cell_angle_gamma   86.2364\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe2WC10(SeO5)2\n_chemical_formula_sum   'Fe4 W2 C20 Se4 O20'\n_cell_volume   961.3305\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.2855  0.0061  0.2734  1\n  Fe  Fe1  1  0.3570  0.3260  0.3637  1\n  Fe  Fe2  1  0.7145  0.9939  0.7266  1\n  Fe  Fe3  1  0.6430  0.6740  0.6363  1\n  W  W4  1  0.6054  0.7288  0.8319  1\n  W  W5  1  0.3946  0.2712  0.1681  1\n  C  C6  1  0.6302  0.3876  0.1374  1\n  C  C7  1  0.4308  0.5895  0.6262  1\n  C  C8  1  0.5666  0.1559  0.0753  1\n  C  C9  1  0.4334  0.8441  0.9247  1\n  C  C10  1  0.9079  0.0448  0.7831  1\n  C  C11  1  0.2142  0.4872  0.3653  1\n  C  C12  1  0.7185  0.5276  0.8609  1\n  C  C13  1  0.5692  0.4105  0.3738  1\n  C  C14  1  0.2815  0.4724  0.1391  1\n  C  C15  1  0.7801  0.7544  0.9324  1\n  C  C16  1  0.3698  0.6124  0.8626  1\n  C  C17  1  0.5542  0.1278  0.7743  1\n  C  C18  1  0.7858  0.5128  0.6347  1\n  C  C19  1  0.3046  0.2524  0.4845  1\n  C  C20  1  0.7713  0.0793  0.6094  1\n  C  C21  1  0.6954  0.7476  0.5155  1\n  C  C22  1  0.4458  0.8722  0.2257  1\n  C  C23  1  0.0921  0.9552  0.2169  1\n  C  C24  1  0.2199  0.2456  0.0676  1\n  C  C25  1  0.2287  0.9207  0.3906  1\n  Se  Se26  1  0.1098  0.2207  0.3021  1\n  Se  Se27  1  0.4556  0.8732  0.6884  1\n  Se  Se28  1  0.5444  0.1268  0.3116  1\n  Se  Se29  1  0.8902  0.7793  0.6979  1\n  O  O30  1  0.2213  0.5860  0.1205  1\n  O  O31  1  0.6638  0.0949  0.0210  1\n  O  O32  1  0.2950  0.5361  0.6174  1\n  O  O33  1  0.8774  0.4094  0.6333  1\n  O  O34  1  0.2372  0.5463  0.8799  1\n  O  O35  1  0.1226  0.5906  0.3667  1\n  O  O36  1  0.0340  0.0760  0.8175  1\n  O  O37  1  0.5454  0.7831  0.1976  1\n  O  O38  1  0.9660  0.9240  0.1825  1\n  O  O39  1  0.7277  0.7970  0.4366  1\n  O  O40  1  0.3362  0.9051  0.9790  1\n  O  O41  1  0.8790  0.7689  0.9885  1\n  O  O42  1  0.2723  0.2030  0.5634  1\n  O  O43  1  0.1939  0.8669  0.4683  1\n  O  O44  1  0.4546  0.2169  0.8024  1\n  O  O45  1  0.8061  0.1331  0.5317  1\n  O  O46  1  0.1210  0.2311  0.0115  1\n  O  O47  1  0.7628  0.4537  0.1201  1\n  O  O48  1  0.7050  0.4639  0.3826  1\n  O  O49  1  0.7787  0.4140  0.8795  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe2CFeW2CFeC18Se4O20\n_chemical_formula_sum              \"Fe4 C20 W2 Se4 O20\"\n_cell_length_a       7.1683\n_cell_length_b       9.6293\n_cell_length_c       14.1816\n_cell_angle_alpha    82.6121\n_cell_angle_beta     82.5242\n_cell_angle_gamma    86.2364\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.2855  0.0061  0.2734  1.0000\n  Fe  Fe2       1.0000  0.3570  0.3260  0.3637  1.0000\n  C   C1        1.0000  0.7145  0.9939  0.7266  1.0000\n  Fe  Fe3       1.0000  0.6430  0.6740  0.6363  1.0000\n  W   W1        1.0000  0.6054  0.7288  0.8319  1.0000\n  W   W2        1.0000  0.3946  0.2712  0.1681  1.0000\n  C   C2        1.0000  0.6302  0.3876  0.1374  1.0000\n  Fe  Fe4       1.0000  0.4308  0.5895  0.6262  1.0000\n  C   C3        1.0000  0.5666  0.1559  0.0753  1.0000\n  C   C4        1.0000  0.4334  0.8441  0.9247  1.0000\n  C   C5        1.0000  0.9079  0.0448  0.7831  1.0000\n  C   C6        1.0000  0.2142  0.4872  0.3653  1.0000\n  C   C7        1.0000  0.7185  0.5276  0.8609  1.0000\n  C   C8        1.0000  0.5692  0.4105  0.3738  1.0000\n  C   C9        1.0000  0.2815  0.4724  0.1391  1.0000\n  C   C10       1.0000  0.7801  0.7544  0.9324  1.0000\n  C   C11       1.0000  0.3698  0.6124  0.8626  1.0000\n  C   C12       1.0000  0.5542  0.1278  0.7743  1.0000\n  C   C13       1.0000  0.7858  0.5128  0.6347  1.0000\n  C   C14       1.0000  0.3046  0.2524  0.4845  1.0000\n  C   C15       1.0000  0.7713  0.0793  0.6094  1.0000\n  C   C16       1.0000  0.6954  0.7476  0.5155  1.0000\n  C   C17       1.0000  0.4458  0.8722  0.2257  1.0000\n  C   C18       1.0000  0.0921  0.9552  0.2169  1.0000\n  C   C19       1.0000  0.2199  0.2456  0.0676  1.0000\n  C   C20       1.0000  0.2287  0.9207  0.3906  1.0000\n  Se  Se1       1.0000  0.1098  0.2207  0.3021  1.0000\n  Se  Se2       1.0000  0.4556  0.8732  0.6884  1.0000\n  Se  Se3       1.0000  0.5444  0.1268  0.3116  1.0000\n  Se  Se4       1.0000  0.8902  0.7793  0.6979  1.0000\n  O   O1        1.0000  0.2213  0.5860  0.1205  1.0000\n  O   O2        1.0000  0.6638  0.0949  0.0210  1.0000\n  O   O3        1.0000  0.2950  0.5361  0.6174  1.0000\n  O   O4        1.0000  0.8774  0.4094  0.6333  1.0000\n  O   O5        1.0000  0.2372  0.5463  0.8799  1.0000\n  O   O6        1.0000  0.1226  0.5906  0.3667  1.0000\n  O   O7        1.0000  0.0340  0.0760  0.8175  1.0000\n  O   O8        1.0000  0.5454  0.7831  0.1976  1.0000\n  O   O9        1.0000  0.9660  0.9240  0.1825  1.0000\n  O   O10       1.0000  0.7277  0.7970  0.4366  1.0000\n  O   O11       1.0000  0.3362  0.9051  0.9790  1.0000\n  O   O12       1.0000  0.8790  0.7689  0.9885  1.0000\n  O   O13       1.0000  0.2723  0.2030  0.5634  1.0000\n  O   O14       1.0000  0.1939  0.8669  0.4683  1.0000\n  O   O15       1.0000  0.4546  0.2169  0.8024  1.0000\n  O   O16       1.0000  0.8061  0.1331  0.5317  1.0000\n  O   O17       1.0000  0.1210  0.2311  0.0115  1.0000\n  O   O18       1.0000  0.7628  0.4537  0.1201  1.0000\n  O   O19       1.0000  0.7050  0.4639  0.3826  1.0000\n  O   O20       1.0000  0.7787  0.4140  0.8795  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "768efaab-cc92-4e49-b981-a2ed7adb398f",
    "mp_id": "mp-557961",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SbCNCl4O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.0573\n_cell_length_b   12.0573\n_cell_length_c   10.5363\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SbCNCl4O\n_chemical_formula_sum   'Sb6 C6 N6 Cl24 O6'\n_cell_volume   1326.5492\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sb  Sb0  1  0.6341  0.9527  0.2500  1\n  Sb  Sb1  1  0.3186  0.3659  0.2500  1\n  Sb  Sb2  1  0.9527  0.3186  0.7500  1\n  Sb  Sb3  1  0.0473  0.6814  0.2500  1\n  Sb  Sb4  1  0.6814  0.6341  0.7500  1\n  Sb  Sb5  1  0.3659  0.0473  0.7500  1\n  C  C6  1  0.2967  0.7559  0.2500  1\n  C  C7  1  0.7559  0.4592  0.7500  1\n  C  C8  1  0.7033  0.2441  0.7500  1\n  C  C9  1  0.4592  0.7033  0.2500  1\n  C  C10  1  0.2441  0.5408  0.2500  1\n  C  C11  1  0.5408  0.2967  0.7500  1\n  N  N12  1  0.3717  0.5778  0.2500  1\n  N  N13  1  0.7939  0.3717  0.7500  1\n  N  N14  1  0.5778  0.2061  0.7500  1\n  N  N15  1  0.2061  0.6283  0.2500  1\n  N  N16  1  0.4222  0.7939  0.2500  1\n  N  N17  1  0.6283  0.4222  0.7500  1\n  Cl  Cl18  1  0.8149  0.8559  0.7500  1\n  Cl  Cl19  1  0.9590  0.8149  0.2500  1\n  Cl  Cl20  1  0.6872  0.6200  0.5271  1\n  Cl  Cl21  1  0.8559  0.0410  0.2500  1\n  Cl  Cl22  1  0.6200  0.9328  0.4729  1\n  Cl  Cl23  1  0.3800  0.0672  0.9729  1\n  Cl  Cl24  1  0.3952  0.8694  0.7500  1\n  Cl  Cl25  1  0.3128  0.3800  0.4729  1\n  Cl  Cl26  1  0.0672  0.6872  0.0271  1\n  Cl  Cl27  1  0.9328  0.3128  0.5271  1\n  Cl  Cl28  1  0.1306  0.5258  0.7500  1\n  Cl  Cl29  1  0.6048  0.1306  0.2500  1\n  Cl  Cl30  1  0.6200  0.9328  0.0271  1\n  Cl  Cl31  1  0.9328  0.3128  0.9729  1\n  Cl  Cl32  1  0.0672  0.6872  0.4729  1\n  Cl  Cl33  1  0.3800  0.0672  0.5271  1\n  Cl  Cl34  1  0.8694  0.4742  0.2500  1\n  Cl  Cl35  1  0.1851  0.1441  0.2500  1\n  Cl  Cl36  1  0.1441  0.9590  0.7500  1\n  Cl  Cl37  1  0.6872  0.6200  0.9729  1\n  Cl  Cl38  1  0.3128  0.3800  0.0271  1\n  Cl  Cl39  1  0.4742  0.6048  0.7500  1\n  Cl  Cl40  1  0.0410  0.1851  0.7500  1\n  Cl  Cl41  1  0.5258  0.3952  0.2500  1\n  O  O42  1  0.2510  0.8316  0.2500  1\n  O  O43  1  0.1684  0.4194  0.2500  1\n  O  O44  1  0.4194  0.2510  0.7500  1\n  O  O45  1  0.5806  0.7490  0.2500  1\n  O  O46  1  0.7490  0.1684  0.7500  1\n  O  O47  1  0.8316  0.5806  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       ClSb5C6N6Cl2SbCl21O6\n_chemical_formula_sum              \"Cl24 Sb6 C6 N6 O6\"\n_cell_length_a       12.0573\n_cell_length_b       12.0573\n_cell_length_c       10.5363\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cl  Cl1       1.0000  0.6341  0.9527  0.2500  1.0000\n  Sb  Sb1       1.0000  0.3186  0.3659  0.2500  1.0000\n  Sb  Sb2       1.0000  0.9527  0.3186  0.7500  1.0000\n  Sb  Sb3       1.0000  0.0473  0.6814  0.2500  1.0000\n  Sb  Sb4       1.0000  0.6814  0.6341  0.7500  1.0000\n  Sb  Sb5       1.0000  0.3659  0.0473  0.7500  1.0000\n  C   C1        1.0000  0.2967  0.7559  0.2500  1.0000\n  C   C2        1.0000  0.7559  0.4592  0.7500  1.0000\n  C   C3        1.0000  0.7033  0.2441  0.7500  1.0000\n  C   C4        1.0000  0.4592  0.7033  0.2500  1.0000\n  C   C5        1.0000  0.2441  0.5408  0.2500  1.0000\n  C   C6        1.0000  0.5408  0.2967  0.7500  1.0000\n  N   N1        1.0000  0.3717  0.5778  0.2500  1.0000\n  N   N2        1.0000  0.7939  0.3717  0.7500  1.0000\n  N   N3        1.0000  0.5778  0.2061  0.7500  1.0000\n  N   N4        1.0000  0.2061  0.6283  0.2500  1.0000\n  N   N5        1.0000  0.4222  0.7939  0.2500  1.0000\n  N   N6        1.0000  0.6283  0.4222  0.7500  1.0000\n  Cl  Cl2       1.0000  0.8149  0.8559  0.7500  1.0000\n  Cl  Cl3       1.0000  0.9590  0.8149  0.2500  1.0000\n  Sb  Sb6       1.0000  0.6872  0.6200  0.5271  1.0000\n  Cl  Cl4       1.0000  0.8559  0.0410  0.2500  1.0000\n  Cl  Cl5       1.0000  0.6200  0.9328  0.4729  1.0000\n  Cl  Cl6       1.0000  0.3800  0.0672  0.9729  1.0000\n  Cl  Cl7       1.0000  0.3952  0.8694  0.7500  1.0000\n  Cl  Cl8       1.0000  0.3128  0.3800  0.4729  1.0000\n  Cl  Cl9       1.0000  0.0672  0.6872  0.0271  1.0000\n  Cl  Cl10      1.0000  0.9328  0.3128  0.5271  1.0000\n  Cl  Cl11      1.0000  0.1306  0.5258  0.7500  1.0000\n  Cl  Cl12      1.0000  0.6048  0.1306  0.2500  1.0000\n  Cl  Cl13      1.0000  0.6200  0.9328  0.0271  1.0000\n  Cl  Cl14      1.0000  0.9328  0.3128  0.9729  1.0000\n  Cl  Cl15      1.0000  0.0672  0.6872  0.4729  1.0000\n  Cl  Cl16      1.0000  0.3800  0.0672  0.5271  1.0000\n  Cl  Cl17      1.0000  0.8694  0.4742  0.2500  1.0000\n  Cl  Cl18      1.0000  0.1851  0.1441  0.2500  1.0000\n  Cl  Cl19      1.0000  0.1441  0.9590  0.7500  1.0000\n  Cl  Cl20      1.0000  0.6872  0.6200  0.9729  1.0000\n  Cl  Cl21      1.0000  0.3128  0.3800  0.0271  1.0000\n  Cl  Cl22      1.0000  0.4742  0.6048  0.7500  1.0000\n  Cl  Cl23      1.0000  0.0410  0.1851  0.7500  1.0000\n  Cl  Cl24      1.0000  0.5258  0.3952  0.2500  1.0000\n  O   O1        1.0000  0.2510  0.8316  0.2500  1.0000\n  O   O2        1.0000  0.1684  0.4194  0.2500  1.0000\n  O   O3        1.0000  0.4194  0.2510  0.7500  1.0000\n  O   O4        1.0000  0.5806  0.7490  0.2500  1.0000\n  O   O5        1.0000  0.7490  0.1684  0.7500  1.0000\n  O   O6        1.0000  0.8316  0.5806  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e34b227b-82a9-4d17-97c9-b1cc0ca7b43a",
    "mp_id": "mp-558023",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 32 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb2Sb4O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.5030\n_cell_length_b   10.5030\n_cell_length_c   7.2381\n_cell_angle_alpha   85.0980\n_cell_angle_beta   85.0980\n_cell_angle_gamma   42.4373\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb2Sb4O11\n_chemical_formula_sum   'Rb4 Sb8 O22'\n_cell_volume   536.5205\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5086  0.5086  0.7447  1\n  Rb  Rb1  1  0.2649  0.2649  0.0069  1\n  Rb  Rb2  1  0.4914  0.4914  0.2553  1\n  Rb  Rb3  1  0.7351  0.7351  0.9931  1\n  Sb  Sb4  1  0.9284  0.9284  0.0984  1\n  Sb  Sb5  1  0.4314  0.9175  0.5634  1\n  Sb  Sb6  1  0.0825  0.5686  0.4366  1\n  Sb  Sb7  1  0.9175  0.4314  0.5634  1\n  Sb  Sb8  1  0.9243  0.9243  0.6169  1\n  Sb  Sb9  1  0.0716  0.0716  0.9016  1\n  Sb  Sb10  1  0.0757  0.0757  0.3831  1\n  Sb  Sb11  1  0.5686  0.0825  0.4366  1\n  O  O12  1  0.0508  0.4762  0.6665  1\n  O  O13  1  0.1172  0.1172  0.1322  1\n  O  O14  1  0.4762  0.0508  0.6665  1\n  O  O15  1  0.1655  0.6573  0.5702  1\n  O  O16  1  0.8334  0.8334  0.5089  1\n  O  O17  1  0.3394  0.3394  0.3601  1\n  O  O18  1  0.3259  0.9312  0.8091  1\n  O  O19  1  0.8293  0.1707  -0.0000  1\n  O  O20  1  0.6573  0.1655  0.5702  1\n  O  O21  1  0.6741  0.0688  0.1909  1\n  O  O22  1  0.1666  0.1666  0.4911  1\n  O  O23  1  0.8345  0.3427  0.4298  1\n  O  O24  1  0.0688  0.6741  0.1909  1\n  O  O25  1  0.1707  0.8293  -0.0000  1\n  O  O26  1  0.5238  0.9492  0.3335  1\n  O  O27  1  0.9312  0.3259  0.8091  1\n  O  O28  1  0.6606  0.6606  0.6399  1\n  O  O29  1  0.9765  0.9765  0.3455  1\n  O  O30  1  0.9492  0.5238  0.3335  1\n  O  O31  1  0.3427  0.8345  0.4298  1\n  O  O32  1  0.0235  0.0235  0.6545  1\n  O  O33  1  0.8828  0.8828  0.8678  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb3OSb8O20RbO\n_chemical_formula_sum              \"Rb4 O22 Sb8\"\n_cell_length_a       10.5030\n_cell_length_b       10.5030\n_cell_length_c       7.2381\n_cell_angle_alpha    85.0980\n_cell_angle_beta     85.0980\n_cell_angle_gamma    42.4373\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.5086  0.5086  0.7447  1.0000\n  Rb  Rb2       1.0000  0.2649  0.2649  0.0069  1.0000\n  Rb  Rb3       1.0000  0.4914  0.4914  0.2553  1.0000\n  O   O1        1.0000  0.7351  0.7351  0.9931  1.0000\n  Sb  Sb1       1.0000  0.9284  0.9284  0.0984  1.0000\n  Sb  Sb2       1.0000  0.4314  0.9175  0.5634  1.0000\n  Sb  Sb3       1.0000  0.0825  0.5686  0.4366  1.0000\n  Sb  Sb4       1.0000  0.9175  0.4314  0.5634  1.0000\n  Sb  Sb5       1.0000  0.9243  0.9243  0.6169  1.0000\n  Sb  Sb6       1.0000  0.0716  0.0716  0.9016  1.0000\n  Sb  Sb7       1.0000  0.0757  0.0757  0.3831  1.0000\n  Sb  Sb8       1.0000  0.5686  0.0825  0.4366  1.0000\n  O   O2        1.0000  0.0508  0.4762  0.6665  1.0000\n  O   O3        1.0000  0.1172  0.1172  0.1322  1.0000\n  O   O4        1.0000  0.4762  0.0508  0.6665  1.0000\n  O   O5        1.0000  0.1655  0.6573  0.5702  1.0000\n  O   O6        1.0000  0.8334  0.8334  0.5089  1.0000\n  O   O7        1.0000  0.3394  0.3394  0.3601  1.0000\n  O   O8        1.0000  0.3259  0.9312  0.8091  1.0000\n  O   O9        1.0000  0.8293  0.1707  1.0000  1.0000\n  O   O10       1.0000  0.6573  0.1655  0.5702  1.0000\n  O   O11       1.0000  0.6741  0.0688  0.1909  1.0000\n  O   O12       1.0000  0.1666  0.1666  0.4911  1.0000\n  O   O13       1.0000  0.8345  0.3427  0.4298  1.0000\n  O   O14       1.0000  0.0688  0.6741  0.1909  1.0000\n  O   O15       1.0000  0.1707  0.8293  1.0000  1.0000\n  O   O16       1.0000  0.5238  0.9492  0.3335  1.0000\n  O   O17       1.0000  0.9312  0.3259  0.8091  1.0000\n  O   O18       1.0000  0.6606  0.6606  0.6399  1.0000\n  O   O19       1.0000  0.9765  0.9765  0.3455  1.0000\n  O   O20       1.0000  0.9492  0.5238  0.3335  1.0000\n  O   O21       1.0000  0.3427  0.8345  0.4298  1.0000\n  Rb  Rb4       1.0000  0.0235  0.0235  0.6545  1.0000\n  O   O22       1.0000  0.8828  0.8828  0.8678  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e1a88f48-e5f2-4e25-9702-2a324b710095",
    "mp_id": "mp-558368",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AgBi2S3Cl\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0285\n_cell_length_b   7.8512\n_cell_length_c   10.9146\n_cell_angle_alpha   77.1192\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AgBi2S3Cl\n_chemical_formula_sum   'Ag2 Bi4 S6 Cl2'\n_cell_volume   336.5259\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ag  Ag0  1  0.2500  0.9411  0.4063  1\n  Ag  Ag1  1  0.7500  0.0589  0.5937  1\n  Bi  Bi2  1  0.2500  0.4592  0.3459  1\n  Bi  Bi3  1  0.7500  0.5408  0.6541  1\n  Bi  Bi4  1  0.7500  0.1870  0.0729  1\n  Bi  Bi5  1  0.2500  0.8130  0.9271  1\n  S  S6  1  0.2500  0.9595  0.1458  1\n  S  S7  1  0.7500  0.6822  0.4136  1\n  S  S8  1  0.2500  0.3178  0.5864  1\n  S  S9  1  0.7500  0.0405  0.8542  1\n  S  S10  1  0.7500  0.2000  0.3382  1\n  S  S11  1  0.2500  0.8000  0.6618  1\n  Cl  Cl12  1  0.2500  0.4043  0.8979  1\n  Cl  Cl13  1  0.7500  0.5957  0.1021  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ag2Bi2ClBiS6BiCl\n_chemical_formula_sum              \"Ag2 Bi4 Cl2 S6\"\n_cell_length_a       4.0285\n_cell_length_b       7.8512\n_cell_length_c       10.9146\n_cell_angle_alpha    77.1192\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ag  Ag1       1.0000  0.2500  0.9411  0.4063  1.0000\n  Ag  Ag2       1.0000  0.7500  0.0589  0.5937  1.0000\n  Bi  Bi1       1.0000  0.2500  0.4592  0.3459  1.0000\n  Bi  Bi2       1.0000  0.7500  0.5408  0.6541  1.0000\n  Cl  Cl1       1.0000  0.7500  0.1870  0.0729  1.0000\n  Bi  Bi3       1.0000  0.2500  0.8130  0.9271  1.0000\n  S   S1        1.0000  0.2500  0.9595  0.1458  1.0000\n  S   S2        1.0000  0.7500  0.6822  0.4136  1.0000\n  S   S3        1.0000  0.2500  0.3178  0.5864  1.0000\n  S   S4        1.0000  0.7500  0.0405  0.8542  1.0000\n  S   S5        1.0000  0.7500  0.2000  0.3382  1.0000\n  S   S6        1.0000  0.2500  0.8000  0.6618  1.0000\n  Bi  Bi4       1.0000  0.2500  0.4043  0.8979  1.0000\n  Cl  Cl2       1.0000  0.7500  0.5957  0.1021  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9de70d15-7dbf-4986-9243-e0330974f001",
    "mp_id": "mp-558382",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2SO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9711\n_cell_length_b   4.9711\n_cell_length_c   6.2111\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.0097\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2SO4\n_chemical_formula_sum   'Li4 S2 O8'\n_cell_volume   142.3048\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.5000  1\n  Li  Li1  1  0.1749  0.8251  0.2500  1\n  Li  Li2  1  0.5000  0.5000  0.0000  1\n  Li  Li3  1  0.8251  0.1749  0.7500  1\n  S  S4  1  0.1466  0.8534  0.7500  1\n  S  S5  1  0.8534  0.1466  0.2500  1\n  O  O6  1  0.7452  0.8208  0.2500  1\n  O  O7  1  0.1792  0.2548  0.2500  1\n  O  O8  1  0.7492  0.2508  0.4443  1\n  O  O9  1  0.2548  0.1792  0.7500  1\n  O  O10  1  0.7492  0.2508  0.0557  1\n  O  O11  1  0.8208  0.7452  0.7500  1\n  O  O12  1  0.2508  0.7492  0.5557  1\n  O  O13  1  0.2508  0.7492  0.9443  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi3S2O4LiO3\n_chemical_formula_sum              \"O8 Li4 S2\"\n_cell_length_a       4.9711\n_cell_length_b       4.9711\n_cell_length_c       6.2111\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.0097\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  Li  Li1       1.0000  0.1749  0.8251  0.2500  1.0000\n  Li  Li2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li3       1.0000  0.8251  0.1749  0.7500  1.0000\n  S   S1        1.0000  0.1466  0.8534  0.7500  1.0000\n  S   S2        1.0000  0.8534  0.1466  0.2500  1.0000\n  O   O2        1.0000  0.7452  0.8208  0.2500  1.0000\n  O   O3        1.0000  0.1792  0.2548  0.2500  1.0000\n  O   O4        1.0000  0.7492  0.2508  0.4443  1.0000\n  O   O5        1.0000  0.2548  0.1792  0.7500  1.0000\n  Li  Li4       1.0000  0.7492  0.2508  0.0557  1.0000\n  O   O6        1.0000  0.8208  0.7452  0.7500  1.0000\n  O   O7        1.0000  0.2508  0.7492  0.5557  1.0000\n  O   O8        1.0000  0.2508  0.7492  0.9443  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9142e21b-db14-4722-8c00-f82f517d5d29",
    "mp_id": "mp-559140",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MoO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8685\n_cell_length_b   5.5408\n_cell_length_c   5.5770\n_cell_angle_alpha   119.0170\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MoO2\n_chemical_formula_sum   'Mo4 O8'\n_cell_volume   131.5588\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mo  Mo0  1  0.9922  0.9833  0.2132  1\n  Mo  Mo1  1  0.5078  0.4833  0.7132  1\n  Mo  Mo2  1  0.0078  0.0167  0.7868  1\n  Mo  Mo3  1  0.4922  0.5167  0.2868  1\n  O  O4  1  0.2810  0.2659  0.3777  1\n  O  O5  1  0.2190  0.7659  0.8777  1\n  O  O6  1  0.7809  0.2341  0.1223  1\n  O  O7  1  0.7191  0.7341  0.6223  1\n  O  O8  1  0.8021  0.2011  0.5917  1\n  O  O9  1  0.6979  0.7011  0.0917  1\n  O  O10  1  0.3021  0.2989  0.9083  1\n  O  O11  1  0.1979  0.7989  0.4083  1\n",
    "output": "data_image0\n_chemical_formula_structural       MoOMo2OMoO6\n_chemical_formula_sum              \"Mo4 O8\"\n_cell_length_a       4.8685\n_cell_length_b       5.5408\n_cell_length_c       5.5770\n_cell_angle_alpha    119.0170\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mo  Mo1       1.0000  0.9922  0.9833  0.2132  1.0000\n  O   O1        1.0000  0.5078  0.4833  0.7132  1.0000\n  Mo  Mo2       1.0000  0.0078  0.0167  0.7868  1.0000\n  Mo  Mo3       1.0000  0.4922  0.5167  0.2868  1.0000\n  O   O2        1.0000  0.2810  0.2659  0.3777  1.0000\n  Mo  Mo4       1.0000  0.2190  0.7659  0.8777  1.0000\n  O   O3        1.0000  0.7809  0.2341  0.1223  1.0000\n  O   O4        1.0000  0.7191  0.7341  0.6223  1.0000\n  O   O5        1.0000  0.8021  0.2011  0.5917  1.0000\n  O   O6        1.0000  0.6979  0.7011  0.0917  1.0000\n  O   O7        1.0000  0.3021  0.2989  0.9083  1.0000\n  O   O8        1.0000  0.1979  0.7989  0.4083  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dfc8ee72-6c6e-4b15-9263-305bf59c705a",
    "mp_id": "mp-559223",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GdH6C4NO9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1509\n_cell_length_b   7.9526\n_cell_length_c   12.3801\n_cell_angle_alpha   50.4406\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GdH6C4NO9\n_chemical_formula_sum   'Gd2 H12 C8 N2 O18'\n_cell_volume   466.8786\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.6037  0.5000  0.2500  1\n  Gd  Gd1  1  0.3963  0.5000  0.7500  1\n  H  H2  1  0.9197  0.0353  0.3026  1\n  H  H3  1  0.0853  0.6050  0.1697  1\n  H  H4  1  0.8854  0.8667  0.8215  1\n  H  H5  1  0.0853  0.3950  0.3303  1\n  H  H6  1  0.9197  0.9647  0.1974  1\n  H  H7  1  0.9147  0.3950  0.8303  1\n  H  H8  1  0.1146  0.8667  0.3215  1\n  H  H9  1  0.9147  0.6050  0.6697  1\n  H  H10  1  0.0803  0.0353  0.8026  1\n  H  H11  1  0.0803  0.9647  0.6974  1\n  H  H12  1  0.8854  0.1333  0.6785  1\n  H  H13  1  0.1146  0.1333  0.1785  1\n  C  C14  1  0.4044  0.4204  0.0425  1\n  C  C15  1  0.4044  0.5796  0.4575  1\n  C  C16  1  0.6104  0.0331  0.0132  1\n  C  C17  1  0.3896  0.9669  0.9868  1\n  C  C18  1  0.3896  0.0331  0.5132  1\n  C  C19  1  0.6104  0.9669  0.4868  1\n  C  C20  1  0.5956  0.4204  0.5425  1\n  C  C21  1  0.5956  0.5796  0.9575  1\n  N  N22  1  0.0165  0.0000  0.2500  1\n  N  N23  1  0.9835  0.0000  0.7500  1\n  O  O24  1  0.3888  0.3368  0.1698  1\n  O  O25  1  0.7228  0.8826  0.1173  1\n  O  O26  1  0.3391  0.7668  0.0708  1\n  O  O27  1  0.2772  0.1174  0.8827  1\n  O  O28  1  0.2767  0.3830  0.9794  1\n  O  O29  1  0.6112  0.3368  0.6698  1\n  O  O30  1  0.7233  0.3830  0.4794  1\n  O  O31  1  0.6609  0.2332  0.9292  1\n  O  O32  1  0.6609  0.7668  0.5708  1\n  O  O33  1  0.7233  0.6170  0.0206  1\n  O  O34  1  0.2772  0.8826  0.6173  1\n  O  O35  1  0.3391  0.2332  0.4292  1\n  O  O36  1  0.3888  0.6632  0.3302  1\n  O  O37  1  0.7228  0.1174  0.3827  1\n  O  O38  1  0.9904  0.5000  0.2500  1\n  O  O39  1  0.0096  0.5000  0.7500  1\n  O  O40  1  0.6112  0.6632  0.8302  1\n  O  O41  1  0.2767  0.6170  0.5206  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd2H12OC7N2CO17\n_chemical_formula_sum              \"Gd2 H12 O18 C8 N2\"\n_cell_length_a       6.1509\n_cell_length_b       7.9526\n_cell_length_c       12.3801\n_cell_angle_alpha    50.4406\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.6037  0.5000  0.2500  1.0000\n  Gd  Gd2       1.0000  0.3963  0.5000  0.7500  1.0000\n  H   H1        1.0000  0.9197  0.0353  0.3026  1.0000\n  H   H2        1.0000  0.0853  0.6050  0.1697  1.0000\n  H   H3        1.0000  0.8854  0.8667  0.8215  1.0000\n  H   H4        1.0000  0.0853  0.3950  0.3303  1.0000\n  H   H5        1.0000  0.9197  0.9647  0.1974  1.0000\n  H   H6        1.0000  0.9147  0.3950  0.8303  1.0000\n  H   H7        1.0000  0.1146  0.8667  0.3215  1.0000\n  H   H8        1.0000  0.9147  0.6050  0.6697  1.0000\n  H   H9        1.0000  0.0803  0.0353  0.8026  1.0000\n  H   H10       1.0000  0.0803  0.9647  0.6974  1.0000\n  H   H11       1.0000  0.8854  0.1333  0.6785  1.0000\n  H   H12       1.0000  0.1146  0.1333  0.1785  1.0000\n  O   O1        1.0000  0.4044  0.4204  0.0425  1.0000\n  C   C1        1.0000  0.4044  0.5796  0.4575  1.0000\n  C   C2        1.0000  0.6104  0.0331  0.0132  1.0000\n  C   C3        1.0000  0.3896  0.9669  0.9868  1.0000\n  C   C4        1.0000  0.3896  0.0331  0.5132  1.0000\n  C   C5        1.0000  0.6104  0.9669  0.4868  1.0000\n  C   C6        1.0000  0.5956  0.4204  0.5425  1.0000\n  C   C7        1.0000  0.5956  0.5796  0.9575  1.0000\n  N   N1        1.0000  0.0165  0.0000  0.2500  1.0000\n  N   N2        1.0000  0.9835  0.0000  0.7500  1.0000\n  C   C8        1.0000  0.3888  0.3368  0.1698  1.0000\n  O   O2        1.0000  0.7229  0.8826  0.1173  1.0000\n  O   O3        1.0000  0.3391  0.7668  0.0708  1.0000\n  O   O4        1.0000  0.2772  0.1174  0.8827  1.0000\n  O   O5        1.0000  0.2767  0.3830  0.9794  1.0000\n  O   O6        1.0000  0.6112  0.3368  0.6698  1.0000\n  O   O7        1.0000  0.7233  0.3830  0.4794  1.0000\n  O   O8        1.0000  0.6609  0.2332  0.9292  1.0000\n  O   O9        1.0000  0.6609  0.7668  0.5708  1.0000\n  O   O10       1.0000  0.7233  0.6170  0.0206  1.0000\n  O   O11       1.0000  0.2772  0.8826  0.6173  1.0000\n  O   O12       1.0000  0.3391  0.2332  0.4292  1.0000\n  O   O13       1.0000  0.3888  0.6632  0.3302  1.0000\n  O   O14       1.0000  0.7229  0.1174  0.3827  1.0000\n  O   O15       1.0000  0.9904  0.5000  0.2500  1.0000\n  O   O16       1.0000  0.0096  0.5000  0.7500  1.0000\n  O   O17       1.0000  0.6112  0.6632  0.8302  1.0000\n  O   O18       1.0000  0.2767  0.6170  0.5206  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "790f248f-4f28-4837-84a3-2d59c30273a3",
    "mp_id": "mp-559929",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3Ta6Si4O23\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1538\n_cell_length_b   9.1538\n_cell_length_c   7.6625\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3Ta6Si4O23\n_chemical_formula_sum   'Ba3 Ta6 Si4 O23'\n_cell_volume   556.0384\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.0000  0.5898  0.5000  1\n  Ba  Ba1  1  0.4102  0.4102  0.5000  1\n  Ba  Ba2  1  0.5898  0.0000  0.5000  1\n  Ta  Ta3  1  0.2376  0.0000  0.7505  1\n  Ta  Ta4  1  0.0000  0.2376  0.2495  1\n  Ta  Ta5  1  0.7624  0.7624  0.2495  1\n  Ta  Ta6  1  0.7624  0.7624  0.7505  1\n  Ta  Ta7  1  0.2376  0.0000  0.2495  1\n  Ta  Ta8  1  0.0000  0.2376  0.7505  1\n  Si  Si9  1  0.6667  0.3333  0.7901  1\n  Si  Si10  1  0.3333  0.6667  0.7901  1\n  Si  Si11  1  0.6667  0.3333  0.2099  1\n  Si  Si12  1  0.3333  0.6667  0.2099  1\n  O  O13  1  0.1728  0.1728  0.7341  1\n  O  O14  1  0.1865  0.4851  0.7127  1\n  O  O15  1  0.2985  0.8135  0.7127  1\n  O  O16  1  0.1865  0.4851  0.2873  1\n  O  O17  1  0.8272  0.0000  0.7341  1\n  O  O18  1  0.7201  0.7201  0.0000  1\n  O  O19  1  0.8272  0.0000  0.2659  1\n  O  O20  1  0.5149  0.7015  0.7127  1\n  O  O21  1  0.8135  0.2985  0.2873  1\n  O  O22  1  0.2799  0.0000  0.0000  1\n  O  O23  1  0.4851  0.1865  0.7127  1\n  O  O24  1  0.4851  0.1865  0.2873  1\n  O  O25  1  0.7015  0.5149  0.2873  1\n  O  O26  1  0.1728  0.1728  0.2659  1\n  O  O27  1  0.7015  0.5149  0.7127  1\n  O  O28  1  0.0000  0.2799  0.0000  1\n  O  O29  1  0.6667  0.3333  0.0000  1\n  O  O30  1  0.5149  0.7015  0.2873  1\n  O  O31  1  0.0000  0.8272  0.7341  1\n  O  O32  1  0.0000  0.8272  0.2659  1\n  O  O33  1  0.8135  0.2985  0.7127  1\n  O  O34  1  0.3333  0.6667  0.0000  1\n  O  O35  1  0.2985  0.8135  0.2873  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3TaOTa4Si4O7TaO15\n_chemical_formula_sum              \"Ba3 Ta6 O23 Si4\"\n_cell_length_a       9.1538\n_cell_length_b       9.1538\n_cell_length_c       7.6625\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.0000  0.5898  0.5000  1.0000\n  Ba  Ba2       1.0000  0.4102  0.4102  0.5000  1.0000\n  Ba  Ba3       1.0000  0.5898  0.0000  0.5000  1.0000\n  Ta  Ta1       1.0000  0.2376  0.0000  0.7505  1.0000\n  O   O1        1.0000  0.0000  0.2376  0.2495  1.0000\n  Ta  Ta2       1.0000  0.7624  0.7624  0.2495  1.0000\n  Ta  Ta3       1.0000  0.7624  0.7624  0.7505  1.0000\n  Ta  Ta4       1.0000  0.2376  0.0000  0.2495  1.0000\n  Ta  Ta5       1.0000  0.0000  0.2376  0.7505  1.0000\n  Si  Si1       1.0000  0.6667  0.3333  0.7901  1.0000\n  Si  Si2       1.0000  0.3333  0.6667  0.7901  1.0000\n  Si  Si3       1.0000  0.6667  0.3333  0.2099  1.0000\n  Si  Si4       1.0000  0.3333  0.6667  0.2099  1.0000\n  O   O2        1.0000  0.1728  0.1728  0.7341  1.0000\n  O   O3        1.0000  0.1865  0.4851  0.7127  1.0000\n  O   O4        1.0000  0.2985  0.8135  0.7127  1.0000\n  O   O5        1.0000  0.1865  0.4851  0.2873  1.0000\n  O   O6        1.0000  0.8272  0.0000  0.7341  1.0000\n  O   O7        1.0000  0.7201  0.7201  0.0000  1.0000\n  O   O8        1.0000  0.8272  0.0000  0.2659  1.0000\n  Ta  Ta6       1.0000  0.5149  0.7015  0.7127  1.0000\n  O   O9        1.0000  0.8135  0.2985  0.2873  1.0000\n  O   O10       1.0000  0.2799  0.0000  0.0000  1.0000\n  O   O11       1.0000  0.4851  0.1865  0.7127  1.0000\n  O   O12       1.0000  0.4851  0.1865  0.2873  1.0000\n  O   O13       1.0000  0.7015  0.5149  0.2873  1.0000\n  O   O14       1.0000  0.1728  0.1728  0.2659  1.0000\n  O   O15       1.0000  0.7015  0.5149  0.7127  1.0000\n  O   O16       1.0000  0.0000  0.2799  0.0000  1.0000\n  O   O17       1.0000  0.6667  0.3333  0.0000  1.0000\n  O   O18       1.0000  0.5149  0.7015  0.2873  1.0000\n  O   O19       1.0000  0.0000  0.8272  0.7341  1.0000\n  O   O20       1.0000  0.0000  0.8272  0.2659  1.0000\n  O   O21       1.0000  0.8135  0.2985  0.7127  1.0000\n  O   O22       1.0000  0.3333  0.6667  0.0000  1.0000\n  O   O23       1.0000  0.2985  0.8135  0.2873  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "09bc99ea-f92a-4116-bf85-3efe08020e79",
    "mp_id": "mp-560091",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsZr2(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7949\n_cell_length_b   9.7949\n_cell_length_c   9.7949\n_cell_angle_alpha   53.1599\n_cell_angle_beta   53.1599\n_cell_angle_gamma   53.1599\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsZr2(PO4)3\n_chemical_formula_sum   'Cs2 Zr4 P6 O24'\n_cell_volume   558.0064\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.0000  0.0000  0.0000  1\n  Cs  Cs1  1  0.5000  0.5000  0.5000  1\n  Zr  Zr2  1  0.1522  0.1522  0.1522  1\n  Zr  Zr3  1  0.6522  0.6522  0.6522  1\n  Zr  Zr4  1  0.3478  0.3478  0.3478  1\n  Zr  Zr5  1  0.8478  0.8478  0.8478  1\n  P  P6  1  0.5333  0.9667  0.2500  1\n  P  P7  1  0.9667  0.2500  0.5333  1\n  P  P8  1  0.2500  0.5333  0.9667  1\n  P  P9  1  0.0333  0.7500  0.4667  1\n  P  P10  1  0.4667  0.0333  0.7500  1\n  P  P11  1  0.7500  0.4667  0.0333  1\n  O  O12  1  0.1941  0.5761  0.4247  1\n  O  O13  1  0.8059  0.4239  0.5753  1\n  O  O14  1  0.0133  0.7382  0.6421  1\n  O  O15  1  0.0753  0.9239  0.3059  1\n  O  O16  1  0.7382  0.6421  0.0133  1\n  O  O17  1  0.6941  0.9247  0.0761  1\n  O  O18  1  0.6421  0.0133  0.7382  1\n  O  O19  1  0.5761  0.4247  0.1941  1\n  O  O20  1  0.7618  0.4867  0.8579  1\n  O  O21  1  0.5753  0.8059  0.4239  1\n  O  O22  1  0.1421  0.2382  0.5133  1\n  O  O23  1  0.9239  0.3059  0.0753  1\n  O  O24  1  0.4239  0.5753  0.8059  1\n  O  O25  1  0.4867  0.8579  0.7618  1\n  O  O26  1  0.9867  0.2618  0.3579  1\n  O  O27  1  0.3579  0.9867  0.2618  1\n  O  O28  1  0.2618  0.3579  0.9867  1\n  O  O29  1  0.9247  0.0761  0.6941  1\n  O  O30  1  0.5133  0.1421  0.2382  1\n  O  O31  1  0.0761  0.6941  0.9247  1\n  O  O32  1  0.2382  0.5133  0.1421  1\n  O  O33  1  0.3059  0.0753  0.9239  1\n  O  O34  1  0.8579  0.7618  0.4867  1\n  O  O35  1  0.4247  0.1941  0.5761  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2ZrOZr2P6OZrO22\n_chemical_formula_sum              \"Cs2 Zr4 O24 P6\"\n_cell_length_a       9.7949\n_cell_length_b       9.7949\n_cell_length_c       9.7949\n_cell_angle_alpha    53.1599\n_cell_angle_beta     53.1599\n_cell_angle_gamma    53.1599\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cs  Cs2       1.0000  0.5000  0.5000  0.5000  1.0000\n  Zr  Zr1       1.0000  0.1522  0.1522  0.1522  1.0000\n  O   O1        1.0000  0.6522  0.6522  0.6522  1.0000\n  Zr  Zr2       1.0000  0.3478  0.3478  0.3478  1.0000\n  Zr  Zr3       1.0000  0.8478  0.8478  0.8478  1.0000\n  P   P1        1.0000  0.5333  0.9667  0.2500  1.0000\n  P   P2        1.0000  0.9667  0.2500  0.5333  1.0000\n  P   P3        1.0000  0.2500  0.5333  0.9667  1.0000\n  P   P4        1.0000  0.0333  0.7500  0.4667  1.0000\n  P   P5        1.0000  0.4667  0.0333  0.7500  1.0000\n  P   P6        1.0000  0.7500  0.4667  0.0333  1.0000\n  O   O2        1.0000  0.1941  0.5761  0.4247  1.0000\n  Zr  Zr4       1.0000  0.8059  0.4239  0.5753  1.0000\n  O   O3        1.0000  0.0133  0.7382  0.6421  1.0000\n  O   O4        1.0000  0.0753  0.9239  0.3059  1.0000\n  O   O5        1.0000  0.7382  0.6421  0.0133  1.0000\n  O   O6        1.0000  0.6941  0.9247  0.0761  1.0000\n  O   O7        1.0000  0.6421  0.0133  0.7382  1.0000\n  O   O8        1.0000  0.5761  0.4247  0.1941  1.0000\n  O   O9        1.0000  0.7618  0.4867  0.8579  1.0000\n  O   O10       1.0000  0.5753  0.8059  0.4239  1.0000\n  O   O11       1.0000  0.1421  0.2382  0.5133  1.0000\n  O   O12       1.0000  0.9239  0.3059  0.0753  1.0000\n  O   O13       1.0000  0.4239  0.5753  0.8059  1.0000\n  O   O14       1.0000  0.4867  0.8579  0.7618  1.0000\n  O   O15       1.0000  0.9867  0.2618  0.3579  1.0000\n  O   O16       1.0000  0.3579  0.9867  0.2618  1.0000\n  O   O17       1.0000  0.2618  0.3579  0.9867  1.0000\n  O   O18       1.0000  0.9247  0.0761  0.6941  1.0000\n  O   O19       1.0000  0.5133  0.1421  0.2382  1.0000\n  O   O20       1.0000  0.0761  0.6941  0.9247  1.0000\n  O   O21       1.0000  0.2382  0.5133  0.1421  1.0000\n  O   O22       1.0000  0.3059  0.0753  0.9239  1.0000\n  O   O23       1.0000  0.8579  0.7618  0.4867  1.0000\n  O   O24       1.0000  0.4247  0.1941  0.5761  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "050697d7-1de8-476a-8fc3-af70555c2add",
    "mp_id": "mp-560380",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba4Ho(RuO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3943\n_cell_length_b   10.3943\n_cell_length_c   10.3943\n_cell_angle_alpha   33.2163\n_cell_angle_beta   33.2163\n_cell_angle_gamma   33.2163\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba4Ho(RuO4)3\n_chemical_formula_sum   'Ba4 Ho1 Ru3 O12'\n_cell_volume   300.0114\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7145  0.7145  0.7145  1\n  Ba  Ba1  1  0.2855  0.2855  0.2855  1\n  Ba  Ba2  1  0.1292  0.1292  0.1292  1\n  Ba  Ba3  1  0.8708  0.8708  0.8708  1\n  Ho  Ho4  1  0.0000  0.0000  0.0000  1\n  Ru  Ru5  1  0.4131  0.4131  0.4131  1\n  Ru  Ru6  1  0.5000  0.5000  0.5000  1\n  Ru  Ru7  1  0.5869  0.5869  0.5869  1\n  O  O8  1  0.2185  0.2185  0.6925  1\n  O  O9  1  0.6125  0.1474  0.6125  1\n  O  O10  1  0.8526  0.3875  0.3875  1\n  O  O11  1  0.6125  0.6125  0.1474  1\n  O  O12  1  0.3875  0.3875  0.8526  1\n  O  O13  1  0.7815  0.7815  0.3075  1\n  O  O14  1  0.6925  0.2185  0.2185  1\n  O  O15  1  0.2185  0.6925  0.2185  1\n  O  O16  1  0.7815  0.3075  0.7815  1\n  O  O17  1  0.3875  0.8526  0.3875  1\n  O  O18  1  0.1474  0.6125  0.6125  1\n  O  O19  1  0.3075  0.7815  0.7815  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba4HoORu2O7RuO4\n_chemical_formula_sum              \"Ba4 Ho1 O12 Ru3\"\n_cell_length_a       10.3943\n_cell_length_b       10.3943\n_cell_length_c       10.3943\n_cell_angle_alpha    33.2163\n_cell_angle_beta     33.2163\n_cell_angle_gamma    33.2163\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7145  0.7145  0.7145  1.0000\n  Ba  Ba2       1.0000  0.2855  0.2855  0.2855  1.0000\n  Ba  Ba3       1.0000  0.1292  0.1292  0.1292  1.0000\n  Ba  Ba4       1.0000  0.8708  0.8708  0.8708  1.0000\n  Ho  Ho1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O1        1.0000  0.4131  0.4131  0.4131  1.0000\n  Ru  Ru1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ru  Ru2       1.0000  0.5869  0.5869  0.5869  1.0000\n  O   O2        1.0000  0.2185  0.2185  0.6925  1.0000\n  O   O3        1.0000  0.6125  0.1474  0.6125  1.0000\n  O   O4        1.0000  0.8526  0.3875  0.3875  1.0000\n  O   O5        1.0000  0.6125  0.6125  0.1474  1.0000\n  O   O6        1.0000  0.3875  0.3875  0.8526  1.0000\n  O   O7        1.0000  0.7815  0.7815  0.3075  1.0000\n  O   O8        1.0000  0.6925  0.2185  0.2185  1.0000\n  Ru  Ru3       1.0000  0.2185  0.6925  0.2185  1.0000\n  O   O9        1.0000  0.7815  0.3075  0.7815  1.0000\n  O   O10       1.0000  0.3875  0.8526  0.3875  1.0000\n  O   O11       1.0000  0.1474  0.6125  0.6125  1.0000\n  O   O12       1.0000  0.3075  0.7815  0.7815  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1cf41c93-8e7b-479f-92a5-678dd1f0b9f5",
    "mp_id": "mp-560535",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K4Sr(SiO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1651\n_cell_length_b   7.1651\n_cell_length_c   10.9991\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.6355\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K4Sr(SiO3)3\n_chemical_formula_sum   'K8 Sr2 Si6 O18'\n_cell_volume   521.1841\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.3418  0.7654  0.7500  1\n  K  K1  1  0.9449  0.0551  -0.0000  1\n  K  K2  1  0.5011  0.4989  -0.0000  1\n  K  K3  1  0.2346  0.6582  0.2500  1\n  K  K4  1  0.2193  0.2276  0.7500  1\n  K  K5  1  0.5011  0.4989  0.5000  1\n  K  K6  1  0.7724  0.7807  0.2500  1\n  K  K7  1  0.9449  0.0551  0.5000  1\n  Sr  Sr8  1  0.7250  0.2554  0.7500  1\n  Sr  Sr9  1  0.7446  0.2750  0.2500  1\n  Si  Si10  1  0.4086  0.9800  0.0311  1\n  Si  Si11  1  0.0200  0.5914  0.9689  1\n  Si  Si12  1  0.0200  0.5914  0.5311  1\n  Si  Si13  1  0.2603  0.1887  0.2500  1\n  Si  Si14  1  0.8113  0.7397  0.7500  1\n  Si  Si15  1  0.4086  0.9800  0.4689  1\n  O  O16  1  0.9464  0.7290  0.8711  1\n  O  O17  1  0.0271  0.4001  0.6028  1\n  O  O18  1  0.8869  0.5529  0.0905  1\n  O  O19  1  0.2710  0.0536  0.1289  1\n  O  O20  1  0.2710  0.0536  0.3711  1\n  O  O21  1  0.2598  0.7402  -0.0000  1\n  O  O22  1  0.4471  0.1131  0.5905  1\n  O  O23  1  0.4471  0.1131  0.9095  1\n  O  O24  1  0.5988  0.5483  0.7500  1\n  O  O25  1  0.2598  0.7402  0.5000  1\n  O  O26  1  0.5999  0.9729  0.1028  1\n  O  O27  1  0.0428  0.2011  0.2500  1\n  O  O28  1  0.7989  0.9572  0.7500  1\n  O  O29  1  0.4517  0.4012  0.2500  1\n  O  O30  1  0.8869  0.5529  0.4095  1\n  O  O31  1  0.0271  0.4001  0.8972  1\n  O  O32  1  0.5999  0.9729  0.3972  1\n  O  O33  1  0.9464  0.7290  0.6289  1\n",
    "output": "data_image0\n_chemical_formula_structural       K3SrK5SrSi6O18\n_chemical_formula_sum              \"K8 Sr2 Si6 O18\"\n_cell_length_a       7.1651\n_cell_length_b       7.1651\n_cell_length_c       10.9991\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.6355\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.3418  0.7654  0.7500  1.0000\n  K   K2        1.0000  0.9449  0.0551  0.0000  1.0000\n  K   K3        1.0000  0.5011  0.4989  0.0000  1.0000\n  Sr  Sr1       1.0000  0.2346  0.6582  0.2500  1.0000\n  K   K4        1.0000  0.2193  0.2276  0.7500  1.0000\n  K   K5        1.0000  0.5011  0.4989  0.5000  1.0000\n  K   K6        1.0000  0.7724  0.7807  0.2500  1.0000\n  K   K7        1.0000  0.9449  0.0551  0.5000  1.0000\n  K   K8        1.0000  0.7250  0.2554  0.7500  1.0000\n  Sr  Sr2       1.0000  0.7446  0.2750  0.2500  1.0000\n  Si  Si1       1.0000  0.4086  0.9800  0.0311  1.0000\n  Si  Si2       1.0000  0.0200  0.5914  0.9689  1.0000\n  Si  Si3       1.0000  0.0200  0.5914  0.5311  1.0000\n  Si  Si4       1.0000  0.2603  0.1887  0.2500  1.0000\n  Si  Si5       1.0000  0.8113  0.7397  0.7500  1.0000\n  Si  Si6       1.0000  0.4086  0.9800  0.4689  1.0000\n  O   O1        1.0000  0.9464  0.7290  0.8711  1.0000\n  O   O2        1.0000  0.0271  0.4001  0.6028  1.0000\n  O   O3        1.0000  0.8869  0.5529  0.0905  1.0000\n  O   O4        1.0000  0.2710  0.0536  0.1289  1.0000\n  O   O5        1.0000  0.2710  0.0536  0.3711  1.0000\n  O   O6        1.0000  0.2598  0.7402  0.0000  1.0000\n  O   O7        1.0000  0.4471  0.1131  0.5905  1.0000\n  O   O8        1.0000  0.4471  0.1131  0.9095  1.0000\n  O   O9        1.0000  0.5988  0.5483  0.7500  1.0000\n  O   O10       1.0000  0.2598  0.7402  0.5000  1.0000\n  O   O11       1.0000  0.5999  0.9729  0.1028  1.0000\n  O   O12       1.0000  0.0428  0.2011  0.2500  1.0000\n  O   O13       1.0000  0.7989  0.9572  0.7500  1.0000\n  O   O14       1.0000  0.4517  0.4012  0.2500  1.0000\n  O   O15       1.0000  0.8869  0.5529  0.4095  1.0000\n  O   O16       1.0000  0.0271  0.4001  0.8972  1.0000\n  O   O17       1.0000  0.5999  0.9729  0.3972  1.0000\n  O   O18       1.0000  0.9464  0.7290  0.6289  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ab4bf997-0307-4831-9125-356864102c27",
    "mp_id": "mp-560605",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiLa4AuO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8996\n_cell_length_b   6.8996\n_cell_length_c   5.7880\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   130.4052\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiLa4AuO8\n_chemical_formula_sum   'Li1 La4 Au1 O8'\n_cell_volume   209.8158\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.0000  1\n  La  La1  1  0.6503  0.3497  0.5000  1\n  La  La2  1  0.1496  0.8504  0.0000  1\n  La  La3  1  0.8504  0.1496  0.0000  1\n  La  La4  1  0.3497  0.6503  0.5000  1\n  Au  Au5  1  0.0000  0.0000  0.5000  1\n  O  O6  1  0.0000  0.5000  0.2492  1\n  O  O7  1  0.5000  0.0000  0.7508  1\n  O  O8  1  0.0000  0.5000  0.7508  1\n  O  O9  1  0.2491  0.2491  0.7490  1\n  O  O10  1  0.5000  0.0000  0.2492  1\n  O  O11  1  0.2491  0.2491  0.2510  1\n  O  O12  1  0.7509  0.7509  0.2510  1\n  O  O13  1  0.7509  0.7509  0.7490  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiLa2OLaAuO6LaO\n_chemical_formula_sum              \"Li1 La4 O8 Au1\"\n_cell_length_a       6.8996\n_cell_length_b       6.8996\n_cell_length_c       5.7880\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    130.4052\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.5000  0.0000  1.0000\n  La  La1       1.0000  0.6503  0.3497  0.5000  1.0000\n  La  La2       1.0000  0.1496  0.8504  0.0000  1.0000\n  O   O1        1.0000  0.8504  0.1496  0.0000  1.0000\n  La  La3       1.0000  0.3497  0.6503  0.5000  1.0000\n  Au  Au1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.0000  0.5000  0.2492  1.0000\n  O   O3        1.0000  0.5000  0.0000  0.7508  1.0000\n  O   O4        1.0000  0.0000  0.5000  0.7508  1.0000\n  O   O5        1.0000  0.2491  0.2491  0.7490  1.0000\n  O   O6        1.0000  0.5000  0.0000  0.2492  1.0000\n  O   O7        1.0000  0.2491  0.2491  0.2510  1.0000\n  La  La4       1.0000  0.7509  0.7509  0.2510  1.0000\n  O   O8        1.0000  0.7509  0.7509  0.7490  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c2e2056a-3f4b-4d6d-9219-38d340739926",
    "mp_id": "mp-560751",
    "action_prompt": "Swap the spatial positions of atoms at indices 56 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GdFe3(BO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6554\n_cell_length_b   9.6554\n_cell_length_c   7.6820\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GdFe3(BO3)4\n_chemical_formula_sum   'Gd3 Fe9 B12 O36'\n_cell_volume   620.2152\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Gd  Gd0  1  0.0000  0.3335  0.6667  1\n  Gd  Gd1  1  0.6665  0.6665  0.0000  1\n  Gd  Gd2  1  0.3335  0.0000  0.3333  1\n  Fe  Fe3  1  0.4503  0.7845  0.6636  1\n  Fe  Fe4  1  0.6658  0.2155  0.0030  1\n  Fe  Fe5  1  0.7845  0.4503  0.3364  1\n  Fe  Fe6  1  0.1161  0.1161  0.0000  1\n  Fe  Fe7  1  0.8839  0.0000  0.3333  1\n  Fe  Fe8  1  0.3342  0.5497  0.3303  1\n  Fe  Fe9  1  0.5497  0.3342  0.6697  1\n  Fe  Fe10  1  0.2155  0.6658  0.9970  1\n  Fe  Fe11  1  0.0000  0.8839  0.6667  1\n  B  B12  1  0.6672  0.6672  0.5000  1\n  B  B13  1  0.0000  0.3328  0.1667  1\n  B  B14  1  0.2195  0.2195  0.5000  1\n  B  B15  1  0.4478  0.3306  0.1704  1\n  B  B16  1  0.6694  0.1172  0.5038  1\n  B  B17  1  0.0000  0.7805  0.1667  1\n  B  B18  1  0.5522  0.8828  0.1629  1\n  B  B19  1  0.7805  0.0000  0.8333  1\n  B  B20  1  0.8828  0.5522  0.8371  1\n  B  B21  1  0.1172  0.6694  0.4962  1\n  B  B22  1  0.3328  0.0000  0.8333  1\n  B  B23  1  0.3306  0.4478  0.8296  1\n  O  O24  1  0.4760  0.1438  0.8358  1\n  O  O25  1  0.5887  0.3258  0.1771  1\n  O  O26  1  0.6922  0.8784  0.1816  1\n  O  O27  1  0.1438  0.4760  0.1642  1\n  O  O28  1  0.5240  0.6677  0.4975  1\n  O  O29  1  0.8562  0.3323  0.1691  1\n  O  O30  1  0.2126  0.3587  0.4836  1\n  O  O31  1  0.9239  0.0000  0.8333  1\n  O  O32  1  0.6742  0.2630  0.5105  1\n  O  O33  1  0.4777  0.4574  0.8168  1\n  O  O34  1  0.0000  0.1893  0.1667  1\n  O  O35  1  0.3323  0.8562  0.8309  1\n  O  O36  1  0.6677  0.5240  0.5025  1\n  O  O37  1  0.1862  0.3078  0.8483  1\n  O  O38  1  0.1893  0.0000  0.8333  1\n  O  O39  1  0.8784  0.6922  0.8184  1\n  O  O40  1  0.8138  0.1216  0.4850  1\n  O  O41  1  0.5223  0.9797  0.5165  1\n  O  O42  1  0.9797  0.5223  0.4835  1\n  O  O43  1  0.0761  0.0761  0.5000  1\n  O  O44  1  0.0203  0.5426  0.8499  1\n  O  O45  1  0.3258  0.5887  0.8229  1\n  O  O46  1  0.7370  0.4113  0.8438  1\n  O  O47  1  0.8539  0.6413  0.1830  1\n  O  O48  1  0.1461  0.7874  0.1503  1\n  O  O49  1  0.1216  0.8138  0.5150  1\n  O  O50  1  0.5426  0.0203  0.1501  1\n  O  O51  1  0.8107  0.8107  0.5000  1\n  O  O52  1  0.0000  0.9239  0.1667  1\n  O  O53  1  0.4574  0.4777  0.1832  1\n  O  O54  1  0.2630  0.6742  0.4895  1\n  O  O55  1  0.6413  0.8539  0.8170  1\n  O  O56  1  0.7874  0.1461  0.8497  1\n  O  O57  1  0.4113  0.7370  0.1562  1\n  O  O58  1  0.3587  0.2126  0.5164  1\n  O  O59  1  0.3078  0.1862  0.1517  1\n",
    "output": "data_image0\n_chemical_formula_structural       Gd3Fe8OB12O32FeO3\n_chemical_formula_sum              \"Gd3 Fe9 O36 B12\"\n_cell_length_a       9.6554\n_cell_length_b       9.6554\n_cell_length_c       7.6820\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Gd  Gd1       1.0000  0.0000  0.3335  0.6667  1.0000\n  Gd  Gd2       1.0000  0.6665  0.6665  0.0000  1.0000\n  Gd  Gd3       1.0000  0.3335  0.0000  0.3333  1.0000\n  Fe  Fe1       1.0000  0.4503  0.7845  0.6636  1.0000\n  Fe  Fe2       1.0000  0.6658  0.2155  0.0030  1.0000\n  Fe  Fe3       1.0000  0.7845  0.4503  0.3364  1.0000\n  Fe  Fe4       1.0000  0.1161  0.1161  0.0000  1.0000\n  Fe  Fe5       1.0000  0.8839  0.0000  0.3333  1.0000\n  Fe  Fe6       1.0000  0.3342  0.5497  0.3303  1.0000\n  Fe  Fe7       1.0000  0.5497  0.3342  0.6697  1.0000\n  Fe  Fe8       1.0000  0.2155  0.6658  0.9970  1.0000\n  O   O1        1.0000  0.0000  0.8839  0.6667  1.0000\n  B   B1        1.0000  0.6672  0.6672  0.5000  1.0000\n  B   B2        1.0000  0.0000  0.3328  0.1667  1.0000\n  B   B3        1.0000  0.2195  0.2195  0.5000  1.0000\n  B   B4        1.0000  0.4478  0.3306  0.1704  1.0000\n  B   B5        1.0000  0.6694  0.1172  0.5038  1.0000\n  B   B6        1.0000  0.0000  0.7805  0.1667  1.0000\n  B   B7        1.0000  0.5522  0.8828  0.1629  1.0000\n  B   B8        1.0000  0.7805  0.0000  0.8333  1.0000\n  B   B9        1.0000  0.8828  0.5522  0.8371  1.0000\n  B   B10       1.0000  0.1172  0.6694  0.4962  1.0000\n  B   B11       1.0000  0.3328  0.0000  0.8333  1.0000\n  B   B12       1.0000  0.3306  0.4478  0.8296  1.0000\n  O   O2        1.0000  0.4760  0.1438  0.8358  1.0000\n  O   O3        1.0000  0.5887  0.3258  0.1771  1.0000\n  O   O4        1.0000  0.6922  0.8784  0.1816  1.0000\n  O   O5        1.0000  0.1438  0.4760  0.1642  1.0000\n  O   O6        1.0000  0.5240  0.6677  0.4975  1.0000\n  O   O7        1.0000  0.8562  0.3323  0.1691  1.0000\n  O   O8        1.0000  0.2126  0.3587  0.4836  1.0000\n  O   O9        1.0000  0.9239  0.0000  0.8333  1.0000\n  O   O10       1.0000  0.6742  0.2630  0.5105  1.0000\n  O   O11       1.0000  0.4777  0.4574  0.8168  1.0000\n  O   O12       1.0000  0.0000  0.1893  0.1667  1.0000\n  O   O13       1.0000  0.3323  0.8562  0.8309  1.0000\n  O   O14       1.0000  0.6677  0.5240  0.5025  1.0000\n  O   O15       1.0000  0.1862  0.3078  0.8483  1.0000\n  O   O16       1.0000  0.1893  0.0000  0.8333  1.0000\n  O   O17       1.0000  0.8784  0.6922  0.8184  1.0000\n  O   O18       1.0000  0.8138  0.1216  0.4850  1.0000\n  O   O19       1.0000  0.5223  0.9797  0.5165  1.0000\n  O   O20       1.0000  0.9797  0.5223  0.4835  1.0000\n  O   O21       1.0000  0.0761  0.0761  0.5000  1.0000\n  O   O22       1.0000  0.0203  0.5426  0.8499  1.0000\n  O   O23       1.0000  0.3258  0.5887  0.8229  1.0000\n  O   O24       1.0000  0.7370  0.4113  0.8438  1.0000\n  O   O25       1.0000  0.8539  0.6413  0.1830  1.0000\n  O   O26       1.0000  0.1461  0.7874  0.1503  1.0000\n  O   O27       1.0000  0.1216  0.8138  0.5150  1.0000\n  O   O28       1.0000  0.5426  0.0203  0.1501  1.0000\n  O   O29       1.0000  0.8107  0.8107  0.5000  1.0000\n  O   O30       1.0000  0.0000  0.9239  0.1667  1.0000\n  O   O31       1.0000  0.4574  0.4777  0.1832  1.0000\n  O   O32       1.0000  0.2630  0.6742  0.4895  1.0000\n  O   O33       1.0000  0.6413  0.8539  0.8170  1.0000\n  Fe  Fe9       1.0000  0.7874  0.1461  0.8497  1.0000\n  O   O34       1.0000  0.4113  0.7370  0.1562  1.0000\n  O   O35       1.0000  0.3587  0.2126  0.5164  1.0000\n  O   O36       1.0000  0.3078  0.1862  0.1517  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8b3310cc-b914-416b-ad73-14a7a65dbce2",
    "mp_id": "mp-560754",
    "action_prompt": "Swap the spatial positions of atoms at indices 46 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SiO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.3728\n_cell_length_b   12.3728\n_cell_length_c   4.3748\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SiO2\n_chemical_formula_sum   'Si16 O32'\n_cell_volume   669.7213\n_cell_formula_units_Z   16\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.2719  0.6051  0.7397  1\n  Si  Si1  1  0.1051  0.2281  0.2603  1\n  Si  Si2  1  0.2719  0.3949  0.2603  1\n  Si  Si3  1  0.8949  0.7719  0.2603  1\n  Si  Si4  1  0.2281  0.8949  0.2603  1\n  Si  Si5  1  0.2281  0.1051  0.7397  1\n  Si  Si6  1  0.3949  0.7281  0.2603  1\n  Si  Si7  1  0.6051  0.7281  0.7397  1\n  Si  Si8  1  0.7281  0.3949  0.7397  1\n  Si  Si9  1  0.8949  0.2281  0.7397  1\n  Si  Si10  1  0.7719  0.8949  0.7397  1\n  Si  Si11  1  0.6051  0.2719  0.2603  1\n  Si  Si12  1  0.7281  0.6051  0.2603  1\n  Si  Si13  1  0.7719  0.1051  0.2603  1\n  Si  Si14  1  0.1051  0.7719  0.7397  1\n  Si  Si15  1  0.3949  0.2719  0.7397  1\n  O  O16  1  0.8467  0.6533  0.1328  1\n  O  O17  1  0.6260  0.6260  0.0000  1\n  O  O18  1  0.3124  0.3124  0.5000  1\n  O  O19  1  0.8124  0.8124  0.5000  1\n  O  O20  1  0.5000  0.7476  0.5000  1\n  O  O21  1  0.0000  0.7524  0.5000  1\n  O  O22  1  0.3740  0.3740  0.0000  1\n  O  O23  1  0.2524  0.5000  0.5000  1\n  O  O24  1  0.6876  0.6876  0.5000  1\n  O  O25  1  0.7524  0.0000  0.5000  1\n  O  O26  1  0.8740  0.1260  0.0000  1\n  O  O27  1  0.1876  0.8124  0.5000  1\n  O  O28  1  0.6876  0.3124  0.5000  1\n  O  O29  1  0.5000  0.2524  0.5000  1\n  O  O30  1  0.7476  0.5000  0.5000  1\n  O  O31  1  0.1260  0.1260  0.0000  1\n  O  O32  1  0.3124  0.6876  0.5000  1\n  O  O33  1  0.3467  0.8467  0.1328  1\n  O  O34  1  0.6533  0.1533  0.1328  1\n  O  O35  1  0.2476  0.0000  0.5000  1\n  O  O36  1  0.8740  0.8740  0.0000  1\n  O  O37  1  0.0000  0.2476  0.5000  1\n  O  O38  1  0.6260  0.3740  0.0000  1\n  O  O39  1  0.6533  0.8467  0.8672  1\n  O  O40  1  0.8124  0.1876  0.5000  1\n  O  O41  1  0.1533  0.3467  0.1328  1\n  O  O42  1  0.8467  0.3467  0.8672  1\n  O  O43  1  0.1533  0.6533  0.8672  1\n  O  O44  1  0.1260  0.8740  0.0000  1\n  O  O45  1  0.1876  0.1876  0.5000  1\n  O  O46  1  0.3740  0.6260  0.0000  1\n  O  O47  1  0.3467  0.1533  0.8672  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si6OSi9O30SiO\n_chemical_formula_sum              \"Si16 O32\"\n_cell_length_a       12.3728\n_cell_length_b       12.3728\n_cell_length_c       4.3748\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.2719  0.6051  0.7397  1.0000\n  Si  Si2       1.0000  0.1051  0.2281  0.2603  1.0000\n  Si  Si3       1.0000  0.2719  0.3949  0.2603  1.0000\n  Si  Si4       1.0000  0.8949  0.7719  0.2603  1.0000\n  Si  Si5       1.0000  0.2281  0.8949  0.2603  1.0000\n  Si  Si6       1.0000  0.2281  0.1051  0.7397  1.0000\n  O   O1        1.0000  0.3949  0.7281  0.2603  1.0000\n  Si  Si7       1.0000  0.6051  0.7281  0.7397  1.0000\n  Si  Si8       1.0000  0.7281  0.3949  0.7397  1.0000\n  Si  Si9       1.0000  0.8949  0.2281  0.7397  1.0000\n  Si  Si10      1.0000  0.7719  0.8949  0.7397  1.0000\n  Si  Si11      1.0000  0.6051  0.2719  0.2603  1.0000\n  Si  Si12      1.0000  0.7281  0.6051  0.2603  1.0000\n  Si  Si13      1.0000  0.7719  0.1051  0.2603  1.0000\n  Si  Si14      1.0000  0.1051  0.7719  0.7397  1.0000\n  Si  Si15      1.0000  0.3949  0.2719  0.7397  1.0000\n  O   O2        1.0000  0.8467  0.6533  0.1328  1.0000\n  O   O3        1.0000  0.6260  0.6260  0.0000  1.0000\n  O   O4        1.0000  0.3124  0.3124  0.5000  1.0000\n  O   O5        1.0000  0.8124  0.8124  0.5000  1.0000\n  O   O6        1.0000  0.5000  0.7476  0.5000  1.0000\n  O   O7        1.0000  0.0000  0.7524  0.5000  1.0000\n  O   O8        1.0000  0.3740  0.3740  0.0000  1.0000\n  O   O9        1.0000  0.2524  0.5000  0.5000  1.0000\n  O   O10       1.0000  0.6876  0.6876  0.5000  1.0000\n  O   O11       1.0000  0.7524  0.0000  0.5000  1.0000\n  O   O12       1.0000  0.8740  0.1260  0.0000  1.0000\n  O   O13       1.0000  0.1876  0.8124  0.5000  1.0000\n  O   O14       1.0000  0.6876  0.3124  0.5000  1.0000\n  O   O15       1.0000  0.5000  0.2524  0.5000  1.0000\n  O   O16       1.0000  0.7476  0.5000  0.5000  1.0000\n  O   O17       1.0000  0.1260  0.1260  0.0000  1.0000\n  O   O18       1.0000  0.3124  0.6876  0.5000  1.0000\n  O   O19       1.0000  0.3467  0.8467  0.1328  1.0000\n  O   O20       1.0000  0.6533  0.1533  0.1328  1.0000\n  O   O21       1.0000  0.2476  0.0000  0.5000  1.0000\n  O   O22       1.0000  0.8740  0.8740  0.0000  1.0000\n  O   O23       1.0000  0.0000  0.2476  0.5000  1.0000\n  O   O24       1.0000  0.6260  0.3740  0.0000  1.0000\n  O   O25       1.0000  0.6533  0.8467  0.8672  1.0000\n  O   O26       1.0000  0.8124  0.1876  0.5000  1.0000\n  O   O27       1.0000  0.1533  0.3467  0.1328  1.0000\n  O   O28       1.0000  0.8467  0.3467  0.8672  1.0000\n  O   O29       1.0000  0.1533  0.6533  0.8672  1.0000\n  O   O30       1.0000  0.1260  0.8740  0.0000  1.0000\n  O   O31       1.0000  0.1876  0.1876  0.5000  1.0000\n  Si  Si16      1.0000  0.3740  0.6260  0.0000  1.0000\n  O   O32       1.0000  0.3467  0.1533  0.8672  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6f246c60-ad03-4c32-9ffb-4a599d1dc900",
    "mp_id": "mp-561641",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cs2Sn(AuS2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.8415\n_cell_length_b   13.2195\n_cell_length_c   8.0698\n_cell_angle_alpha   84.7278\n_cell_angle_beta   62.4911\n_cell_angle_gamma   32.7812\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cs2Sn(AuS2)2\n_chemical_formula_sum   'Cs4 Sn2 Au4 S8'\n_cell_volume   598.1570\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.1801  0.1801  0.8199  1\n  Cs  Cs1  1  0.0699  0.0699  0.4301  1\n  Cs  Cs2  1  0.8199  0.8199  0.1801  1\n  Cs  Cs3  1  0.4301  0.4301  0.0699  1\n  Sn  Sn4  1  0.2500  0.2500  0.2500  1\n  Sn  Sn5  1  0.0000  0.0000  0.0000  1\n  Au  Au6  1  0.4387  0.4387  0.5613  1\n  Au  Au7  1  0.6887  0.6887  0.8113  1\n  Au  Au8  1  0.8113  0.8113  0.6887  1\n  Au  Au9  1  0.5613  0.5613  0.4387  1\n  S  S10  1  0.0535  0.8312  0.7513  1\n  S  S11  1  0.8860  0.4987  0.4188  1\n  S  S12  1  0.7513  0.3640  0.0535  1\n  S  S13  1  0.4987  0.8860  0.1965  1\n  S  S14  1  0.4188  0.1965  0.8860  1\n  S  S15  1  0.1965  0.4188  0.4987  1\n  S  S16  1  0.3640  0.7513  0.8312  1\n  S  S17  1  0.8312  0.0535  0.3640  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2SCsSn2Au4S4CsS3\n_chemical_formula_sum              \"Cs4 S8 Sn2 Au4\"\n_cell_length_a       14.8415\n_cell_length_b       13.2195\n_cell_length_c       8.0698\n_cell_angle_alpha    84.7278\n_cell_angle_beta     62.4911\n_cell_angle_gamma    32.7812\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.1801  0.1801  0.8199  1.0000\n  Cs  Cs2       1.0000  0.0699  0.0699  0.4301  1.0000\n  S   S1        1.0000  0.8199  0.8199  0.1801  1.0000\n  Cs  Cs3       1.0000  0.4301  0.4301  0.0699  1.0000\n  Sn  Sn1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Sn  Sn2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Au  Au1       1.0000  0.4387  0.4387  0.5613  1.0000\n  Au  Au2       1.0000  0.6887  0.6887  0.8113  1.0000\n  Au  Au3       1.0000  0.8113  0.8113  0.6887  1.0000\n  Au  Au4       1.0000  0.5613  0.5613  0.4387  1.0000\n  S   S2        1.0000  0.0535  0.8312  0.7513  1.0000\n  S   S3        1.0000  0.8860  0.4987  0.4188  1.0000\n  S   S4        1.0000  0.7513  0.3640  0.0535  1.0000\n  S   S5        1.0000  0.4987  0.8860  0.1965  1.0000\n  Cs  Cs4       1.0000  0.4188  0.1965  0.8860  1.0000\n  S   S6        1.0000  0.1965  0.4188  0.4987  1.0000\n  S   S7        1.0000  0.3640  0.7513  0.8312  1.0000\n  S   S8        1.0000  0.8312  0.0535  0.3640  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c050c9b2-3ba5-4cff-b628-d7b3b0d2139c",
    "mp_id": "mp-567492",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ce2WC2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6610\n_cell_length_b   5.6610\n_cell_length_c   10.4685\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ce2WC2\n_chemical_formula_sum   'Ce8 W4 C8'\n_cell_volume   335.4865\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.1860  0.1860  0.3434  1\n  Ce  Ce1  1  0.3140  0.6860  0.8434  1\n  Ce  Ce2  1  0.6860  0.3140  0.8434  1\n  Ce  Ce3  1  0.6860  0.3140  0.1566  1\n  Ce  Ce4  1  0.3140  0.6860  0.1566  1\n  Ce  Ce5  1  0.1860  0.1860  0.6566  1\n  Ce  Ce6  1  0.8140  0.8140  0.3434  1\n  Ce  Ce7  1  0.8140  0.8140  0.6566  1\n  W  W8  1  0.3205  0.6795  0.5000  1\n  W  W9  1  0.8205  0.8205  0.0000  1\n  W  W10  1  0.1795  0.1795  0.0000  1\n  W  W11  1  0.6795  0.3205  0.5000  1\n  C  C12  1  -0.0000  -0.0000  0.1437  1\n  C  C13  1  0.5000  0.5000  0.6437  1\n  C  C14  1  0.5000  -0.0000  0.5000  1\n  C  C15  1  0.5000  0.5000  0.3563  1\n  C  C16  1  -0.0000  -0.0000  0.8563  1\n  C  C17  1  0.5000  -0.0000  0.0000  1\n  C  C18  1  -0.0000  0.5000  0.0000  1\n  C  C19  1  -0.0000  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce7CW4C4CeC3\n_chemical_formula_sum              \"Ce8 C8 W4\"\n_cell_length_a       5.6610\n_cell_length_b       5.6610\n_cell_length_c       10.4685\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.1860  0.1860  0.3434  1.0000\n  Ce  Ce2       1.0000  0.3140  0.6860  0.8434  1.0000\n  Ce  Ce3       1.0000  0.6860  0.3140  0.8434  1.0000\n  Ce  Ce4       1.0000  0.6860  0.3140  0.1566  1.0000\n  Ce  Ce5       1.0000  0.3140  0.6860  0.1566  1.0000\n  Ce  Ce6       1.0000  0.1860  0.1860  0.6566  1.0000\n  Ce  Ce7       1.0000  0.8140  0.8140  0.3434  1.0000\n  C   C1        1.0000  0.8140  0.8140  0.6566  1.0000\n  W   W1        1.0000  0.3205  0.6795  0.5000  1.0000\n  W   W2        1.0000  0.8205  0.8205  0.0000  1.0000\n  W   W3        1.0000  0.1795  0.1795  0.0000  1.0000\n  W   W4        1.0000  0.6795  0.3205  0.5000  1.0000\n  C   C2        1.0000  0.0000  0.0000  0.1437  1.0000\n  C   C3        1.0000  0.5000  0.5000  0.6437  1.0000\n  C   C4        1.0000  0.5000  0.0000  0.5000  1.0000\n  C   C5        1.0000  0.5000  0.5000  0.3563  1.0000\n  Ce  Ce8       1.0000  0.0000  0.0000  0.8563  1.0000\n  C   C6        1.0000  0.5000  0.0000  0.0000  1.0000\n  C   C7        1.0000  0.0000  0.5000  0.0000  1.0000\n  C   C8        1.0000  0.0000  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "38dc5d99-d6aa-409b-995a-7853880a6488",
    "mp_id": "mp-568306",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mg5Si6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1429\n_cell_length_b   6.8148\n_cell_length_c   7.7354\n_cell_angle_alpha   109.3772\n_cell_angle_beta   105.2064\n_cell_angle_gamma   90.9556\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mg5Si6\n_chemical_formula_sum   'Mg5 Si6'\n_cell_volume   197.5138\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.5000  0.5000  0.5000  1\n  Mg  Mg1  1  0.1477  0.4351  0.8072  1\n  Mg  Mg2  1  0.8523  0.5649  0.1928  1\n  Mg  Mg3  1  0.0855  0.8728  0.6566  1\n  Mg  Mg4  1  0.9145  0.1272  0.3434  1\n  Si  Si5  1  0.4533  0.8298  0.3836  1\n  Si  Si6  1  0.5467  0.1702  0.6164  1\n  Si  Si7  1  0.3088  0.2379  0.1082  1\n  Si  Si8  1  0.2864  0.8662  0.0807  1\n  Si  Si9  1  0.6912  0.7621  0.8918  1\n  Si  Si10  1  0.7136  0.1338  0.9193  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiMg4Si2MgSi3\n_chemical_formula_sum              \"Si6 Mg5\"\n_cell_length_a       4.1429\n_cell_length_b       6.8148\n_cell_length_c       7.7354\n_cell_angle_alpha    109.3772\n_cell_angle_beta     105.2064\n_cell_angle_gamma    90.9556\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mg  Mg1       1.0000  0.1477  0.4351  0.8072  1.0000\n  Mg  Mg2       1.0000  0.8523  0.5649  0.1928  1.0000\n  Mg  Mg3       1.0000  0.0855  0.8728  0.6566  1.0000\n  Mg  Mg4       1.0000  0.9145  0.1272  0.3434  1.0000\n  Si  Si2       1.0000  0.4533  0.8298  0.3836  1.0000\n  Si  Si3       1.0000  0.5467  0.1702  0.6164  1.0000\n  Mg  Mg5       1.0000  0.3088  0.2379  0.1082  1.0000\n  Si  Si4       1.0000  0.2864  0.8662  0.0807  1.0000\n  Si  Si5       1.0000  0.6912  0.7621  0.8918  1.0000\n  Si  Si6       1.0000  0.7136  0.1338  0.9193  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1f777acc-ee32-48da-8db0-cf003426df1a",
    "mp_id": "mp-568716",
    "action_prompt": "Swap the spatial positions of atoms at indices 31 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrAg\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7314\n_cell_length_b   6.3695\n_cell_length_c   42.0441\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrAg\n_chemical_formula_sum   'Sr20 Ag20'\n_cell_volume   1267.0735\n_cell_formula_units_Z   20\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.7500  0.8653  0.6361  1\n  Sr  Sr1  1  0.7500  0.6254  0.3362  1\n  Sr  Sr2  1  0.7500  0.6284  0.9361  1\n  Sr  Sr3  1  0.7500  0.8746  0.8362  1\n  Sr  Sr4  1  0.2500  0.1347  0.3639  1\n  Sr  Sr5  1  0.2500  0.8882  0.2641  1\n  Sr  Sr6  1  0.2500  0.1291  0.9641  1\n  Sr  Sr7  1  0.2500  0.3653  0.8639  1\n  Sr  Sr8  1  0.7500  0.3882  0.2359  1\n  Sr  Sr9  1  0.2500  0.1284  0.5639  1\n  Sr  Sr10  1  0.7500  0.8716  0.4361  1\n  Sr  Sr11  1  0.2500  0.1254  0.1638  1\n  Sr  Sr12  1  0.7500  0.6347  0.1361  1\n  Sr  Sr13  1  0.2500  0.3716  0.0639  1\n  Sr  Sr14  1  0.7500  0.6291  0.5359  1\n  Sr  Sr15  1  0.7500  0.1118  0.7359  1\n  Sr  Sr16  1  0.2500  0.3746  0.6638  1\n  Sr  Sr17  1  0.2500  0.3709  0.4641  1\n  Sr  Sr18  1  0.7500  0.8709  0.0359  1\n  Sr  Sr19  1  0.2500  0.6118  0.7641  1\n  Ag  Ag20  1  0.7500  0.3775  0.6069  1\n  Ag  Ag21  1  0.2500  0.8803  0.4931  1\n  Ag  Ag22  1  0.7500  0.1375  0.3067  1\n  Ag  Ag23  1  0.7500  0.1197  0.5069  1\n  Ag  Ag24  1  0.7500  0.6213  0.7070  1\n  Ag  Ag25  1  0.2500  0.6186  0.5931  1\n  Ag  Ag26  1  0.7500  0.3625  0.8067  1\n  Ag  Ag27  1  0.2500  0.6197  0.9931  1\n  Ag  Ag28  1  0.2500  0.3787  0.2930  1\n  Ag  Ag29  1  0.7500  0.3814  0.4069  1\n  Ag  Ag30  1  0.2500  0.8775  0.8931  1\n  Ag  Ag31  1  0.7500  0.8787  0.2070  1\n  Ag  Ag32  1  0.2500  0.1213  0.7930  1\n  Ag  Ag33  1  0.7500  0.1186  0.9069  1\n  Ag  Ag34  1  0.7500  0.3803  0.0069  1\n  Ag  Ag35  1  0.7500  0.1225  0.1069  1\n  Ag  Ag36  1  0.2500  0.8625  0.6933  1\n  Ag  Ag37  1  0.2500  0.8814  0.0931  1\n  Ag  Ag38  1  0.2500  0.6225  0.3931  1\n  Ag  Ag39  1  0.2500  0.6375  0.1933  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrAgSr18Ag11SrAg8\n_chemical_formula_sum              \"Sr20 Ag20\"\n_cell_length_a       4.7314\n_cell_length_b       6.3695\n_cell_length_c       42.0441\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.7500  0.8653  0.6361  1.0000\n  Ag  Ag1       1.0000  0.7500  0.6254  0.3362  1.0000\n  Sr  Sr2       1.0000  0.7500  0.6284  0.9361  1.0000\n  Sr  Sr3       1.0000  0.7500  0.8746  0.8362  1.0000\n  Sr  Sr4       1.0000  0.2500  0.1347  0.3639  1.0000\n  Sr  Sr5       1.0000  0.2500  0.8882  0.2641  1.0000\n  Sr  Sr6       1.0000  0.2500  0.1291  0.9641  1.0000\n  Sr  Sr7       1.0000  0.2500  0.3653  0.8639  1.0000\n  Sr  Sr8       1.0000  0.7500  0.3882  0.2359  1.0000\n  Sr  Sr9       1.0000  0.2500  0.1284  0.5639  1.0000\n  Sr  Sr10      1.0000  0.7500  0.8716  0.4361  1.0000\n  Sr  Sr11      1.0000  0.2500  0.1254  0.1638  1.0000\n  Sr  Sr12      1.0000  0.7500  0.6347  0.1361  1.0000\n  Sr  Sr13      1.0000  0.2500  0.3716  0.0639  1.0000\n  Sr  Sr14      1.0000  0.7500  0.6291  0.5359  1.0000\n  Sr  Sr15      1.0000  0.7500  0.1118  0.7359  1.0000\n  Sr  Sr16      1.0000  0.2500  0.3746  0.6638  1.0000\n  Sr  Sr17      1.0000  0.2500  0.3709  0.4641  1.0000\n  Sr  Sr18      1.0000  0.7500  0.8709  0.0359  1.0000\n  Sr  Sr19      1.0000  0.2500  0.6118  0.7641  1.0000\n  Ag  Ag2       1.0000  0.7500  0.3775  0.6069  1.0000\n  Ag  Ag3       1.0000  0.2500  0.8803  0.4931  1.0000\n  Ag  Ag4       1.0000  0.7500  0.1375  0.3067  1.0000\n  Ag  Ag5       1.0000  0.7500  0.1197  0.5069  1.0000\n  Ag  Ag6       1.0000  0.7500  0.6213  0.7070  1.0000\n  Ag  Ag7       1.0000  0.2500  0.6186  0.5931  1.0000\n  Ag  Ag8       1.0000  0.7500  0.3625  0.8067  1.0000\n  Ag  Ag9       1.0000  0.2500  0.6197  0.9931  1.0000\n  Ag  Ag10      1.0000  0.2500  0.3787  0.2930  1.0000\n  Ag  Ag11      1.0000  0.7500  0.3814  0.4069  1.0000\n  Ag  Ag12      1.0000  0.2500  0.8775  0.8931  1.0000\n  Sr  Sr20      1.0000  0.7500  0.8787  0.2070  1.0000\n  Ag  Ag13      1.0000  0.2500  0.1213  0.7930  1.0000\n  Ag  Ag14      1.0000  0.7500  0.1186  0.9069  1.0000\n  Ag  Ag15      1.0000  0.7500  0.3803  0.0069  1.0000\n  Ag  Ag16      1.0000  0.7500  0.1225  0.1069  1.0000\n  Ag  Ag17      1.0000  0.2500  0.8625  0.6933  1.0000\n  Ag  Ag18      1.0000  0.2500  0.8814  0.0931  1.0000\n  Ag  Ag19      1.0000  0.2500  0.6225  0.3931  1.0000\n  Ag  Ag20      1.0000  0.2500  0.6375  0.1933  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2225430d-da75-4be9-b7a4-ebe4fa0017c9",
    "mp_id": "mp-568757",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 60 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg6MoAs4Cl7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.4580\n_cell_length_b   12.4580\n_cell_length_c   12.4580\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg6MoAs4Cl7\n_chemical_formula_sum   'Hg24 Mo4 As16 Cl28'\n_cell_volume   1933.4822\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.4544  0.1874  0.3010  1\n  Hg  Hg1  1  0.1990  0.9544  0.1874  1\n  Hg  Hg2  1  0.8126  0.8010  0.0456  1\n  Hg  Hg3  1  0.8010  0.4544  0.3126  1\n  Hg  Hg4  1  0.3126  0.6990  0.9544  1\n  Hg  Hg5  1  0.9544  0.1874  0.1990  1\n  Hg  Hg6  1  0.1874  0.3010  0.4544  1\n  Hg  Hg7  1  0.5456  0.8126  0.6990  1\n  Hg  Hg8  1  0.5456  0.6874  0.1990  1\n  Hg  Hg9  1  0.6874  0.3010  0.0456  1\n  Hg  Hg10  1  0.3126  0.8010  0.4544  1\n  Hg  Hg11  1  0.0456  0.8126  0.8010  1\n  Hg  Hg12  1  0.1990  0.5456  0.6874  1\n  Hg  Hg13  1  0.9544  0.3126  0.6990  1\n  Hg  Hg14  1  0.1874  0.1990  0.9544  1\n  Hg  Hg15  1  0.3010  0.0456  0.6874  1\n  Hg  Hg16  1  0.3010  0.4544  0.1874  1\n  Hg  Hg17  1  0.6990  0.9544  0.3126  1\n  Hg  Hg18  1  0.4544  0.3126  0.8010  1\n  Hg  Hg19  1  0.6874  0.1990  0.5456  1\n  Hg  Hg20  1  0.8126  0.6990  0.5456  1\n  Hg  Hg21  1  0.0456  0.6874  0.3010  1\n  Hg  Hg22  1  0.6990  0.5456  0.8126  1\n  Hg  Hg23  1  0.8010  0.0456  0.8126  1\n  Mo  Mo24  1  0.5000  0.5000  0.5000  1\n  Mo  Mo25  1  0.0000  0.5000  0.0000  1\n  Mo  Mo26  1  0.5000  0.0000  0.0000  1\n  Mo  Mo27  1  0.0000  0.0000  0.5000  1\n  As  As28  1  0.3484  0.6516  0.1516  1\n  As  As29  1  0.1516  0.1516  0.1516  1\n  As  As30  1  0.3484  0.8484  0.6516  1\n  As  As31  1  0.7669  0.2669  0.2331  1\n  As  As32  1  0.6516  0.3484  0.8484  1\n  As  As33  1  0.2331  0.7669  0.2669  1\n  As  As34  1  0.2331  0.7331  0.7669  1\n  As  As35  1  0.8484  0.8484  0.8484  1\n  As  As36  1  0.6516  0.1516  0.3484  1\n  As  As37  1  0.7669  0.2331  0.7331  1\n  As  As38  1  0.2669  0.2331  0.7669  1\n  As  As39  1  0.8484  0.6516  0.3484  1\n  As  As40  1  0.2669  0.2669  0.2669  1\n  As  As41  1  0.7331  0.7331  0.7331  1\n  As  As42  1  0.7331  0.7669  0.2331  1\n  As  As43  1  0.1516  0.3484  0.6516  1\n  Cl  Cl44  1  0.5442  0.6874  0.4619  1\n  Cl  Cl45  1  0.5381  0.0442  0.8126  1\n  Cl  Cl46  1  0.0381  0.0442  0.6874  1\n  Cl  Cl47  1  0.9558  0.3126  0.9619  1\n  Cl  Cl48  1  0.3126  0.5381  0.4558  1\n  Cl  Cl49  1  0.3126  0.9619  0.9558  1\n  Cl  Cl50  1  0.4619  0.5442  0.6874  1\n  Cl  Cl51  1  0.0000  0.0000  0.0000  1\n  Cl  Cl52  1  0.0381  0.4558  0.1874  1\n  Cl  Cl53  1  0.1874  0.0381  0.4558  1\n  Cl  Cl54  1  0.9558  0.1874  0.4619  1\n  Cl  Cl55  1  0.8126  0.5381  0.0442  1\n  Cl  Cl56  1  0.6874  0.0381  0.0442  1\n  Cl  Cl57  1  0.4558  0.1874  0.0381  1\n  Cl  Cl58  1  0.8126  0.9619  0.5442  1\n  Cl  Cl59  1  0.6874  0.4619  0.5442  1\n  Cl  Cl60  1  0.5000  0.0000  0.5000  1\n  Cl  Cl61  1  0.0000  0.5000  0.5000  1\n  Cl  Cl62  1  0.5000  0.5000  0.0000  1\n  Cl  Cl63  1  0.0442  0.6874  0.0381  1\n  Cl  Cl64  1  0.0442  0.8126  0.5381  1\n  Cl  Cl65  1  0.4619  0.9558  0.1874  1\n  Cl  Cl66  1  0.9619  0.5442  0.8126  1\n  Cl  Cl67  1  0.5442  0.8126  0.9619  1\n  Cl  Cl68  1  0.4558  0.3126  0.5381  1\n  Cl  Cl69  1  0.5381  0.4558  0.3126  1\n  Cl  Cl70  1  0.1874  0.4619  0.9558  1\n  Cl  Cl71  1  0.9619  0.9558  0.3126  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg13ClHg10Mo4As16Cl16HgCl11\n_chemical_formula_sum              \"Hg24 Cl28 Mo4 As16\"\n_cell_length_a       12.4580\n_cell_length_b       12.4580\n_cell_length_c       12.4580\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.4544  0.1874  0.3010  1.0000\n  Hg  Hg2       1.0000  0.1990  0.9544  0.1874  1.0000\n  Hg  Hg3       1.0000  0.8126  0.8010  0.0456  1.0000\n  Hg  Hg4       1.0000  0.8010  0.4544  0.3126  1.0000\n  Hg  Hg5       1.0000  0.3126  0.6990  0.9544  1.0000\n  Hg  Hg6       1.0000  0.9544  0.1874  0.1990  1.0000\n  Hg  Hg7       1.0000  0.1874  0.3010  0.4544  1.0000\n  Hg  Hg8       1.0000  0.5456  0.8126  0.6990  1.0000\n  Hg  Hg9       1.0000  0.5456  0.6874  0.1990  1.0000\n  Hg  Hg10      1.0000  0.6874  0.3010  0.0456  1.0000\n  Hg  Hg11      1.0000  0.3126  0.8010  0.4544  1.0000\n  Hg  Hg12      1.0000  0.0456  0.8126  0.8010  1.0000\n  Hg  Hg13      1.0000  0.1990  0.5456  0.6874  1.0000\n  Cl  Cl1       1.0000  0.9544  0.3126  0.6990  1.0000\n  Hg  Hg14      1.0000  0.1874  0.1990  0.9544  1.0000\n  Hg  Hg15      1.0000  0.3010  0.0456  0.6874  1.0000\n  Hg  Hg16      1.0000  0.3010  0.4544  0.1874  1.0000\n  Hg  Hg17      1.0000  0.6990  0.9544  0.3126  1.0000\n  Hg  Hg18      1.0000  0.4544  0.3126  0.8010  1.0000\n  Hg  Hg19      1.0000  0.6874  0.1990  0.5456  1.0000\n  Hg  Hg20      1.0000  0.8126  0.6990  0.5456  1.0000\n  Hg  Hg21      1.0000  0.0456  0.6874  0.3010  1.0000\n  Hg  Hg22      1.0000  0.6990  0.5456  0.8126  1.0000\n  Hg  Hg23      1.0000  0.8010  0.0456  0.8126  1.0000\n  Mo  Mo1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Mo  Mo2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Mo  Mo3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Mo  Mo4       1.0000  0.0000  0.0000  0.5000  1.0000\n  As  As1       1.0000  0.3484  0.6516  0.1516  1.0000\n  As  As2       1.0000  0.1516  0.1516  0.1516  1.0000\n  As  As3       1.0000  0.3484  0.8484  0.6516  1.0000\n  As  As4       1.0000  0.7669  0.2669  0.2331  1.0000\n  As  As5       1.0000  0.6516  0.3484  0.8484  1.0000\n  As  As6       1.0000  0.2331  0.7669  0.2669  1.0000\n  As  As7       1.0000  0.2331  0.7331  0.7669  1.0000\n  As  As8       1.0000  0.8484  0.8484  0.8484  1.0000\n  As  As9       1.0000  0.6516  0.1516  0.3484  1.0000\n  As  As10      1.0000  0.7669  0.2331  0.7331  1.0000\n  As  As11      1.0000  0.2669  0.2331  0.7669  1.0000\n  As  As12      1.0000  0.8484  0.6516  0.3484  1.0000\n  As  As13      1.0000  0.2669  0.2669  0.2669  1.0000\n  As  As14      1.0000  0.7331  0.7331  0.7331  1.0000\n  As  As15      1.0000  0.7331  0.7669  0.2331  1.0000\n  As  As16      1.0000  0.1516  0.3484  0.6516  1.0000\n  Cl  Cl2       1.0000  0.5442  0.6874  0.4619  1.0000\n  Cl  Cl3       1.0000  0.5381  0.0442  0.8126  1.0000\n  Cl  Cl4       1.0000  0.0381  0.0442  0.6874  1.0000\n  Cl  Cl5       1.0000  0.9558  0.3126  0.9619  1.0000\n  Cl  Cl6       1.0000  0.3126  0.5381  0.4558  1.0000\n  Cl  Cl7       1.0000  0.3126  0.9619  0.9558  1.0000\n  Cl  Cl8       1.0000  0.4619  0.5442  0.6874  1.0000\n  Cl  Cl9       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cl  Cl10      1.0000  0.0381  0.4558  0.1874  1.0000\n  Cl  Cl11      1.0000  0.1874  0.0381  0.4558  1.0000\n  Cl  Cl12      1.0000  0.9558  0.1874  0.4619  1.0000\n  Cl  Cl13      1.0000  0.8126  0.5381  0.0442  1.0000\n  Cl  Cl14      1.0000  0.6874  0.0381  0.0442  1.0000\n  Cl  Cl15      1.0000  0.4558  0.1874  0.0381  1.0000\n  Cl  Cl16      1.0000  0.8126  0.9619  0.5442  1.0000\n  Cl  Cl17      1.0000  0.6874  0.4619  0.5442  1.0000\n  Hg  Hg24      1.0000  0.5000  0.0000  0.5000  1.0000\n  Cl  Cl18      1.0000  0.0000  0.5000  0.5000  1.0000\n  Cl  Cl19      1.0000  0.5000  0.5000  0.0000  1.0000\n  Cl  Cl20      1.0000  0.0442  0.6874  0.0381  1.0000\n  Cl  Cl21      1.0000  0.0442  0.8126  0.5381  1.0000\n  Cl  Cl22      1.0000  0.4619  0.9558  0.1874  1.0000\n  Cl  Cl23      1.0000  0.9619  0.5442  0.8126  1.0000\n  Cl  Cl24      1.0000  0.5442  0.8126  0.9619  1.0000\n  Cl  Cl25      1.0000  0.4558  0.3126  0.5381  1.0000\n  Cl  Cl26      1.0000  0.5381  0.4558  0.3126  1.0000\n  Cl  Cl27      1.0000  0.1874  0.4619  0.9558  1.0000\n  Cl  Cl28      1.0000  0.9619  0.9558  0.3126  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8746c627-8c02-450f-85f0-57c8f21ca3e9",
    "mp_id": "mp-570044",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbI4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9037\n_cell_length_b   7.9037\n_cell_length_c   14.4806\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.8266\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbI4\n_chemical_formula_sum   'Nb4 I16'\n_cell_volume   776.7787\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.6635  0.9113  0.3771  1\n  Nb  Nb1  1  0.3365  0.0887  0.8771  1\n  Nb  Nb2  1  0.0887  0.3365  0.3771  1\n  Nb  Nb3  1  0.9113  0.6635  0.8771  1\n  I  I4  1  0.2587  0.2322  0.0318  1\n  I  I5  1  0.2612  0.7388  0.4513  1\n  I  I6  1  0.7678  0.7413  0.0318  1\n  I  I7  1  0.5093  0.4907  0.8023  1\n  I  I8  1  0.7420  0.2580  0.4624  1\n  I  I9  1  0.7413  0.7678  0.5318  1\n  I  I10  1  0.9895  0.5226  0.7218  1\n  I  I11  1  0.9901  0.0099  0.7913  1\n  I  I12  1  0.2580  0.7420  0.9624  1\n  I  I13  1  0.4774  0.0105  0.7218  1\n  I  I14  1  0.0105  0.4774  0.2218  1\n  I  I15  1  0.5226  0.9895  0.2218  1\n  I  I16  1  0.4907  0.5093  0.3023  1\n  I  I17  1  0.0099  0.9901  0.2913  1\n  I  I18  1  0.2322  0.2587  0.5318  1\n  I  I19  1  0.7388  0.2612  0.9513  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nb3I9NbI7\n_chemical_formula_sum              \"Nb4 I16\"\n_cell_length_a       7.9037\n_cell_length_b       7.9037\n_cell_length_c       14.4806\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.8266\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.6635  0.9113  0.3771  1.0000\n  Nb  Nb2       1.0000  0.3365  0.0887  0.8771  1.0000\n  Nb  Nb3       1.0000  0.0887  0.3365  0.3771  1.0000\n  I   I1        1.0000  0.9113  0.6635  0.8771  1.0000\n  I   I2        1.0000  0.2587  0.2322  0.0318  1.0000\n  I   I3        1.0000  0.2612  0.7388  0.4513  1.0000\n  I   I4        1.0000  0.7678  0.7413  0.0318  1.0000\n  I   I5        1.0000  0.5093  0.4907  0.8023  1.0000\n  I   I6        1.0000  0.7420  0.2580  0.4624  1.0000\n  I   I7        1.0000  0.7413  0.7678  0.5318  1.0000\n  I   I8        1.0000  0.9895  0.5226  0.7218  1.0000\n  I   I9        1.0000  0.9901  0.0099  0.7913  1.0000\n  Nb  Nb4       1.0000  0.2580  0.7420  0.9624  1.0000\n  I   I10       1.0000  0.4774  0.0105  0.7218  1.0000\n  I   I11       1.0000  0.0105  0.4774  0.2218  1.0000\n  I   I12       1.0000  0.5226  0.9895  0.2218  1.0000\n  I   I13       1.0000  0.4907  0.5093  0.3023  1.0000\n  I   I14       1.0000  0.0099  0.9901  0.2913  1.0000\n  I   I15       1.0000  0.2322  0.2587  0.5318  1.0000\n  I   I16       1.0000  0.7388  0.2612  0.9513  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f9c3478c-7431-417a-83f1-0323ef57fb69",
    "mp_id": "mp-571428",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgNi3B2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8440\n_cell_length_b   4.8440\n_cell_length_c   8.6941\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgNi3B2\n_chemical_formula_sum   'Mg3 Ni9 B6'\n_cell_volume   176.6676\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.0000  -0.0000  0.6667  1\n  Mg  Mg1  1  0.0000  -0.0000  -0.0000  1\n  Mg  Mg2  1  0.0000  -0.0000  0.3333  1\n  Ni  Ni3  1  0.5000  -0.0000  0.7924  1\n  Ni  Ni4  1  0.5000  0.5000  0.8743  1\n  Ni  Ni5  1  0.5000  0.5000  0.4591  1\n  Ni  Ni6  1  0.0000  0.5000  0.8333  1\n  Ni  Ni7  1  0.0000  0.5000  0.1257  1\n  Ni  Ni8  1  0.5000  0.5000  0.1667  1\n  Ni  Ni9  1  0.5000  -0.0000  0.2076  1\n  Ni  Ni10  1  0.0000  0.5000  0.5409  1\n  Ni  Ni11  1  0.5000  -0.0000  0.5000  1\n  B  B12  1  0.6133  0.2267  -0.0000  1\n  B  B13  1  0.7733  0.3867  0.3333  1\n  B  B14  1  0.2267  0.6133  0.3333  1\n  B  B15  1  0.6133  0.3867  0.6667  1\n  B  B16  1  0.3867  0.6133  0.6667  1\n  B  B17  1  0.3867  0.7733  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mg3Ni3BNi5B3NiB2\n_chemical_formula_sum              \"Mg3 Ni9 B6\"\n_cell_length_a       4.8440\n_cell_length_b       4.8440\n_cell_length_c       8.6941\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.0000  0.0000  0.6667  1.0000\n  Mg  Mg2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mg  Mg3       1.0000  0.0000  0.0000  0.3333  1.0000\n  Ni  Ni1       1.0000  0.5000  0.0000  0.7924  1.0000\n  Ni  Ni2       1.0000  0.5000  0.5000  0.8743  1.0000\n  Ni  Ni3       1.0000  0.5000  0.5000  0.4591  1.0000\n  B   B1        1.0000  0.0000  0.5000  0.8333  1.0000\n  Ni  Ni4       1.0000  0.0000  0.5000  0.1257  1.0000\n  Ni  Ni5       1.0000  0.5000  0.5000  0.1667  1.0000\n  Ni  Ni6       1.0000  0.5000  0.0000  0.2076  1.0000\n  Ni  Ni7       1.0000  0.0000  0.5000  0.5409  1.0000\n  Ni  Ni8       1.0000  0.5000  0.0000  0.5000  1.0000\n  B   B2        1.0000  0.6133  0.2267  0.0000  1.0000\n  B   B3        1.0000  0.7733  0.3867  0.3333  1.0000\n  B   B4        1.0000  0.2267  0.6133  0.3333  1.0000\n  Ni  Ni9       1.0000  0.6133  0.3867  0.6667  1.0000\n  B   B5        1.0000  0.3867  0.6133  0.6667  1.0000\n  B   B6        1.0000  0.3867  0.7733  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f9fb6bbb-b914-4e1d-bbf8-0fcc042b1aac",
    "mp_id": "mp-571566",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2ZnSi\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2333\n_cell_length_b   4.2333\n_cell_length_c   16.2778\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2ZnSi\n_chemical_formula_sum   'Li8 Zn4 Si4'\n_cell_volume   252.6290\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6667  0.3333  0.7911  1\n  Li  Li1  1  0.3333  0.6667  0.2089  1\n  Li  Li2  1  0.6667  0.3333  0.4592  1\n  Li  Li3  1  0.6667  0.3333  0.2922  1\n  Li  Li4  1  0.3333  0.6667  0.0424  1\n  Li  Li5  1  0.6667  0.3333  0.9576  1\n  Li  Li6  1  0.3333  0.6667  0.7078  1\n  Li  Li7  1  0.3333  0.6667  0.5408  1\n  Zn  Zn8  1  0.0000  0.0000  0.8728  1\n  Zn  Zn9  1  0.0000  0.0000  0.3775  1\n  Zn  Zn10  1  0.0000  0.0000  0.6225  1\n  Zn  Zn11  1  0.0000  0.0000  0.1272  1\n  Si  Si12  1  0.3333  0.6667  0.8747  1\n  Si  Si13  1  0.6667  0.3333  0.6246  1\n  Si  Si14  1  0.3333  0.6667  0.3754  1\n  Si  Si15  1  0.6667  0.3333  0.1253  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8ZnSiZn2SiZnSi2\n_chemical_formula_sum              \"Li8 Zn4 Si4\"\n_cell_length_a       4.2333\n_cell_length_b       4.2333\n_cell_length_c       16.2778\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6667  0.3333  0.7911  1.0000\n  Li  Li2       1.0000  0.3333  0.6667  0.2089  1.0000\n  Li  Li3       1.0000  0.6667  0.3333  0.4592  1.0000\n  Li  Li4       1.0000  0.6667  0.3333  0.2922  1.0000\n  Li  Li5       1.0000  0.3333  0.6667  0.0424  1.0000\n  Li  Li6       1.0000  0.6667  0.3333  0.9576  1.0000\n  Li  Li7       1.0000  0.3333  0.6667  0.7078  1.0000\n  Li  Li8       1.0000  0.3333  0.6667  0.5408  1.0000\n  Zn  Zn1       1.0000  0.0000  0.0000  0.8728  1.0000\n  Si  Si1       1.0000  0.0000  0.0000  0.3775  1.0000\n  Zn  Zn2       1.0000  0.0000  0.0000  0.6225  1.0000\n  Zn  Zn3       1.0000  0.0000  0.0000  0.1272  1.0000\n  Si  Si2       1.0000  0.3333  0.6667  0.8747  1.0000\n  Zn  Zn4       1.0000  0.6667  0.3333  0.6246  1.0000\n  Si  Si3       1.0000  0.3333  0.6667  0.3754  1.0000\n  Si  Si4       1.0000  0.6667  0.3333  0.1253  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9dd263e7-3d91-4aa1-924d-a1796d2e7309",
    "mp_id": "mp-5730",
    "action_prompt": "Swap the spatial positions of atoms at indices 29 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba(BO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3977\n_cell_length_b   8.3977\n_cell_length_c   8.3977\n_cell_angle_alpha   97.0374\n_cell_angle_beta   97.0374\n_cell_angle_gamma   97.0374\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba(BO2)2\n_chemical_formula_sum   'Ba6 B12 O24'\n_cell_volume   577.6237\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2575  0.6206  0.9752  1\n  Ba  Ba1  1  0.6206  0.9752  0.2575  1\n  Ba  Ba2  1  0.9752  0.2575  0.6206  1\n  Ba  Ba3  1  0.4752  0.1206  0.7575  1\n  Ba  Ba4  1  0.1206  0.7575  0.4752  1\n  Ba  Ba5  1  0.7575  0.4752  0.1206  1\n  B  B6  1  0.1230  0.9513  0.9062  1\n  B  B7  1  0.9513  0.9062  0.1230  1\n  B  B8  1  0.9062  0.1230  0.9513  1\n  B  B9  1  0.4062  0.4513  0.6230  1\n  B  B10  1  0.4513  0.6230  0.4062  1\n  B  B11  1  0.6230  0.4062  0.4513  1\n  B  B12  1  0.6553  0.7334  0.8792  1\n  B  B13  1  0.8792  0.6553  0.7334  1\n  B  B14  1  0.7334  0.8792  0.6553  1\n  B  B15  1  0.2334  0.1553  0.3792  1\n  B  B16  1  0.3792  0.2334  0.1553  1\n  B  B17  1  0.1553  0.3792  0.2334  1\n  O  O18  1  0.5784  0.5365  0.3719  1\n  O  O19  1  0.3719  0.5784  0.5365  1\n  O  O20  1  0.5365  0.3719  0.5784  1\n  O  O21  1  0.0365  0.0784  0.8719  1\n  O  O22  1  0.8719  0.0365  0.0784  1\n  O  O23  1  0.0784  0.8719  0.0365  1\n  O  O24  1  0.5716  0.7152  0.0002  1\n  O  O25  1  0.0002  0.5716  0.7152  1\n  O  O26  1  0.7152  0.0002  0.5716  1\n  O  O27  1  0.2152  0.0716  0.5002  1\n  O  O28  1  0.5002  0.2152  0.0716  1\n  O  O29  1  0.0716  0.5002  0.2152  1\n  O  O30  1  0.7759  0.6352  0.8500  1\n  O  O31  1  0.8500  0.7759  0.6352  1\n  O  O32  1  0.6352  0.8500  0.7759  1\n  O  O33  1  0.1352  0.2759  0.3500  1\n  O  O34  1  0.3500  0.1352  0.2759  1\n  O  O35  1  0.2759  0.3500  0.1352  1\n  O  O36  1  0.7362  0.3238  0.4033  1\n  O  O37  1  0.4033  0.7362  0.3238  1\n  O  O38  1  0.3238  0.4033  0.7362  1\n  O  O39  1  0.8238  0.2362  0.9033  1\n  O  O40  1  0.9033  0.8238  0.2362  1\n  O  O41  1  0.2362  0.9033  0.8238  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba6OB11O11BO12\n_chemical_formula_sum              \"Ba6 O24 B12\"\n_cell_length_a       8.3977\n_cell_length_b       8.3977\n_cell_length_c       8.3977\n_cell_angle_alpha    97.0374\n_cell_angle_beta     97.0374\n_cell_angle_gamma    97.0374\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2575  0.6206  0.9752  1.0000\n  Ba  Ba2       1.0000  0.6206  0.9752  0.2575  1.0000\n  Ba  Ba3       1.0000  0.9752  0.2575  0.6206  1.0000\n  Ba  Ba4       1.0000  0.4752  0.1206  0.7575  1.0000\n  Ba  Ba5       1.0000  0.1206  0.7575  0.4752  1.0000\n  Ba  Ba6       1.0000  0.7575  0.4752  0.1206  1.0000\n  O   O1        1.0000  0.1230  0.9513  0.9062  1.0000\n  B   B1        1.0000  0.9513  0.9062  0.1230  1.0000\n  B   B2        1.0000  0.9062  0.1230  0.9513  1.0000\n  B   B3        1.0000  0.4062  0.4513  0.6230  1.0000\n  B   B4        1.0000  0.4513  0.6230  0.4062  1.0000\n  B   B5        1.0000  0.6230  0.4062  0.4513  1.0000\n  B   B6        1.0000  0.6553  0.7334  0.8792  1.0000\n  B   B7        1.0000  0.8792  0.6553  0.7334  1.0000\n  B   B8        1.0000  0.7334  0.8792  0.6553  1.0000\n  B   B9        1.0000  0.2334  0.1553  0.3792  1.0000\n  B   B10       1.0000  0.3792  0.2334  0.1553  1.0000\n  B   B11       1.0000  0.1553  0.3792  0.2334  1.0000\n  O   O2        1.0000  0.5784  0.5365  0.3719  1.0000\n  O   O3        1.0000  0.3719  0.5784  0.5365  1.0000\n  O   O4        1.0000  0.5365  0.3719  0.5784  1.0000\n  O   O5        1.0000  0.0365  0.0784  0.8719  1.0000\n  O   O6        1.0000  0.8719  0.0365  0.0784  1.0000\n  O   O7        1.0000  0.0784  0.8719  0.0365  1.0000\n  O   O8        1.0000  0.5716  0.7152  0.0002  1.0000\n  O   O9        1.0000  0.0002  0.5716  0.7152  1.0000\n  O   O10       1.0000  0.7152  0.0002  0.5716  1.0000\n  O   O11       1.0000  0.2152  0.0716  0.5002  1.0000\n  O   O12       1.0000  0.5002  0.2152  0.0716  1.0000\n  B   B12       1.0000  0.0716  0.5002  0.2152  1.0000\n  O   O13       1.0000  0.7759  0.6352  0.8500  1.0000\n  O   O14       1.0000  0.8500  0.7759  0.6352  1.0000\n  O   O15       1.0000  0.6352  0.8500  0.7759  1.0000\n  O   O16       1.0000  0.1352  0.2759  0.3500  1.0000\n  O   O17       1.0000  0.3500  0.1352  0.2759  1.0000\n  O   O18       1.0000  0.2759  0.3500  0.1352  1.0000\n  O   O19       1.0000  0.7362  0.3238  0.4033  1.0000\n  O   O20       1.0000  0.4033  0.7362  0.3238  1.0000\n  O   O21       1.0000  0.3238  0.4033  0.7362  1.0000\n  O   O22       1.0000  0.8238  0.2362  0.9033  1.0000\n  O   O23       1.0000  0.9033  0.8238  0.2362  1.0000\n  O   O24       1.0000  0.2362  0.9033  0.8238  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cb6526a1-55ae-4d16-8200-f78d6995713b",
    "mp_id": "mp-574339",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y2Ni7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.3687\n_cell_length_b   12.3687\n_cell_length_c   12.3687\n_cell_angle_alpha   23.0286\n_cell_angle_beta   23.0286\n_cell_angle_gamma   23.0286\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y2Ni7\n_chemical_formula_sum   'Y4 Ni14'\n_cell_volume   254.1445\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.9496  0.9496  0.9496  1\n  Y  Y1  1  0.1472  0.1472  0.1472  1\n  Y  Y2  1  0.0504  0.0504  0.0504  1\n  Y  Y3  1  0.8528  0.8528  0.8528  1\n  Ni  Ni4  1  0.7218  0.7218  0.7218  1\n  Ni  Ni5  1  0.3883  0.3883  0.3883  1\n  Ni  Ni6  1  0.3900  0.8911  0.3900  1\n  Ni  Ni7  1  0.6117  0.6117  0.6117  1\n  Ni  Ni8  1  0.0000  0.5000  0.5000  1\n  Ni  Ni9  1  0.6100  0.6100  0.1089  1\n  Ni  Ni10  1  0.5000  0.5000  0.5000  1\n  Ni  Ni11  1  0.3900  0.3900  0.8911  1\n  Ni  Ni12  1  0.2782  0.2782  0.2782  1\n  Ni  Ni13  1  0.6100  0.1089  0.6100  1\n  Ni  Ni14  1  0.8911  0.3900  0.3900  1\n  Ni  Ni15  1  0.5000  0.0000  0.5000  1\n  Ni  Ni16  1  0.5000  0.5000  0.0000  1\n  Ni  Ni17  1  0.1089  0.6100  0.6100  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y2NiYNi13Y\n_chemical_formula_sum              \"Y4 Ni14\"\n_cell_length_a       12.3687\n_cell_length_b       12.3687\n_cell_length_c       12.3687\n_cell_angle_alpha    23.0286\n_cell_angle_beta     23.0286\n_cell_angle_gamma    23.0286\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.9496  0.9496  0.9496  1.0000\n  Y   Y2        1.0000  0.1472  0.1472  0.1472  1.0000\n  Ni  Ni1       1.0000  0.0504  0.0504  0.0504  1.0000\n  Y   Y3        1.0000  0.8528  0.8528  0.8528  1.0000\n  Ni  Ni2       1.0000  0.7218  0.7218  0.7218  1.0000\n  Ni  Ni3       1.0000  0.3883  0.3883  0.3883  1.0000\n  Ni  Ni4       1.0000  0.3900  0.8911  0.3900  1.0000\n  Ni  Ni5       1.0000  0.6117  0.6117  0.6117  1.0000\n  Ni  Ni6       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ni  Ni7       1.0000  0.6100  0.6100  0.1089  1.0000\n  Ni  Ni8       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ni  Ni9       1.0000  0.3900  0.3900  0.8911  1.0000\n  Ni  Ni10      1.0000  0.2782  0.2782  0.2782  1.0000\n  Ni  Ni11      1.0000  0.6100  0.1089  0.6100  1.0000\n  Ni  Ni12      1.0000  0.8911  0.3900  0.3900  1.0000\n  Ni  Ni13      1.0000  0.5000  0.0000  0.5000  1.0000\n  Ni  Ni14      1.0000  0.5000  0.5000  0.0000  1.0000\n  Y   Y4        1.0000  0.1089  0.6100  0.6100  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ad495f84-6ab0-44a4-9e53-050abab6d08e",
    "mp_id": "mp-581471",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd(CoB)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7691\n_cell_length_b   7.0230\n_cell_length_c   7.0230\n_cell_angle_alpha   89.9998\n_cell_angle_beta   90.0005\n_cell_angle_gamma   90.0002\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd(CoB)4\n_chemical_formula_sum   'Nd2 Co8 B8'\n_cell_volume   185.9007\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.2500  0.2500  0.2500  1\n  Nd  Nd1  1  0.7500  0.7500  0.7500  1\n  Co  Co2  1  0.6438  0.1345  0.6077  1\n  Co  Co3  1  0.1438  0.1077  0.8655  1\n  Co  Co4  1  0.6438  0.3655  0.8923  1\n  Co  Co5  1  0.3562  0.8655  0.3923  1\n  Co  Co6  1  0.8562  0.8923  0.1345  1\n  Co  Co7  1  0.3562  0.6345  0.1077  1\n  Co  Co8  1  0.1438  0.3923  0.6345  1\n  Co  Co9  1  0.8562  0.6077  0.3655  1\n  B  B10  1  0.8533  0.5469  0.0888  1\n  B  B11  1  0.8533  0.9531  0.4112  1\n  B  B12  1  0.3533  0.9112  0.0469  1\n  B  B13  1  0.1467  0.0468  0.5888  1\n  B  B14  1  0.1467  0.4532  0.9112  1\n  B  B15  1  0.6467  0.4112  0.5468  1\n  B  B16  1  0.6467  0.0888  0.9532  1\n  B  B17  1  0.3533  0.5888  0.4531  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd2Co7BCoB7\n_chemical_formula_sum              \"Nd2 Co8 B8\"\n_cell_length_a       3.7691\n_cell_length_b       7.0230\n_cell_length_c       7.0230\n_cell_angle_alpha    89.9998\n_cell_angle_beta     90.0005\n_cell_angle_gamma    90.0002\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Nd  Nd2       1.0000  0.7500  0.7500  0.7500  1.0000\n  Co  Co1       1.0000  0.6438  0.1345  0.6077  1.0000\n  Co  Co2       1.0000  0.1438  0.1077  0.8655  1.0000\n  Co  Co3       1.0000  0.6438  0.3655  0.8923  1.0000\n  Co  Co4       1.0000  0.3562  0.8655  0.3923  1.0000\n  Co  Co5       1.0000  0.8562  0.8923  0.1345  1.0000\n  Co  Co6       1.0000  0.3562  0.6345  0.1077  1.0000\n  Co  Co7       1.0000  0.1438  0.3923  0.6345  1.0000\n  B   B1        1.0000  0.8562  0.6077  0.3655  1.0000\n  Co  Co8       1.0000  0.8533  0.5469  0.0888  1.0000\n  B   B2        1.0000  0.8533  0.9531  0.4112  1.0000\n  B   B3        1.0000  0.3533  0.9112  0.0469  1.0000\n  B   B4        1.0000  0.1467  0.0468  0.5888  1.0000\n  B   B5        1.0000  0.1467  0.4532  0.9112  1.0000\n  B   B6        1.0000  0.6467  0.4112  0.5468  1.0000\n  B   B7        1.0000  0.6467  0.0888  0.9532  1.0000\n  B   B8        1.0000  0.3533  0.5888  0.4531  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d00bea65-d080-4b36-8943-e15b0d06d107",
    "mp_id": "mp-582081",
    "action_prompt": "Swap the spatial positions of atoms at indices 48 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cs3NdCl6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.3953\n_cell_length_b   13.5791\n_cell_length_c   27.0999\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cs3NdCl6\n_chemical_formula_sum   'Cs24 Nd8 Cl48'\n_cell_volume   3089.4048\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.1827  0.7556  0.8373  1\n  Cs  Cs1  1  0.2606  0.0856  0.5503  1\n  Cs  Cs2  1  0.7394  0.9144  0.0503  1\n  Cs  Cs3  1  0.8173  0.2556  0.6627  1\n  Cs  Cs4  1  0.7394  0.5856  0.9497  1\n  Cs  Cs5  1  0.7394  0.9144  0.4497  1\n  Cs  Cs6  1  0.3094  0.4093  0.6532  1\n  Cs  Cs7  1  0.6906  0.9093  0.6532  1\n  Cs  Cs8  1  0.2606  0.4144  0.4497  1\n  Cs  Cs9  1  0.8173  0.2444  0.3373  1\n  Cs  Cs10  1  0.2606  0.4144  0.0503  1\n  Cs  Cs11  1  0.6906  0.5907  0.1532  1\n  Cs  Cs12  1  0.6906  0.9093  0.8468  1\n  Cs  Cs13  1  0.3094  0.4093  0.8468  1\n  Cs  Cs14  1  0.3094  0.0907  0.1532  1\n  Cs  Cs15  1  0.3094  0.0907  0.3468  1\n  Cs  Cs16  1  0.1827  0.7444  0.3373  1\n  Cs  Cs17  1  0.6906  0.5907  0.3468  1\n  Cs  Cs18  1  0.7394  0.5856  0.5503  1\n  Cs  Cs19  1  0.8173  0.2556  0.8373  1\n  Cs  Cs20  1  0.8173  0.2444  0.1627  1\n  Cs  Cs21  1  0.2606  0.0856  0.9497  1\n  Cs  Cs22  1  0.1827  0.7556  0.6627  1\n  Cs  Cs23  1  0.1827  0.7444  0.1627  1\n  Nd  Nd24  1  0.2586  0.0822  0.7500  1\n  Nd  Nd25  1  0.7414  0.5822  0.7500  1\n  Nd  Nd26  1  0.7879  0.2500  0.0000  1\n  Nd  Nd27  1  0.2121  0.7500  0.0000  1\n  Nd  Nd28  1  0.7414  0.9178  0.2500  1\n  Nd  Nd29  1  0.2586  0.4178  0.2500  1\n  Nd  Nd30  1  0.7879  0.2500  0.5000  1\n  Nd  Nd31  1  0.2121  0.7500  0.5000  1\n  Cl  Cl32  1  0.4575  0.3635  0.3265  1\n  Cl  Cl33  1  0.0327  0.3200  0.9415  1\n  Cl  Cl34  1  0.4370  0.8402  0.5587  1\n  Cl  Cl35  1  0.7769  0.4156  0.4431  1\n  Cl  Cl36  1  0.7769  0.0844  0.5569  1\n  Cl  Cl37  1  0.2231  0.5844  0.9431  1\n  Cl  Cl38  1  0.5630  0.3402  0.9413  1\n  Cl  Cl39  1  0.4575  0.1365  0.8265  1\n  Cl  Cl40  1  0.4370  0.6598  0.0587  1\n  Cl  Cl41  1  0.9485  0.5257  0.8233  1\n  Cl  Cl42  1  0.5996  0.3985  0.7500  1\n  Cl  Cl43  1  0.0327  0.3200  0.5585  1\n  Cl  Cl44  1  0.0327  0.1800  0.0585  1\n  Cl  Cl45  1  0.2231  0.5844  0.5569  1\n  Cl  Cl46  1  0.0327  0.1800  0.4415  1\n  Cl  Cl47  1  0.5630  0.1598  0.0587  1\n  Cl  Cl48  1  0.5425  0.6365  0.8265  1\n  Cl  Cl49  1  0.5425  0.8635  0.3265  1\n  Cl  Cl50  1  0.5630  0.3402  0.5587  1\n  Cl  Cl51  1  0.1251  0.2687  0.7500  1\n  Cl  Cl52  1  0.9673  0.6800  0.0585  1\n  Cl  Cl53  1  0.4370  0.6598  0.4413  1\n  Cl  Cl54  1  0.7769  0.0844  0.9431  1\n  Cl  Cl55  1  0.5996  0.1015  0.2500  1\n  Cl  Cl56  1  0.0515  0.0257  0.6767  1\n  Cl  Cl57  1  0.5630  0.1598  0.4413  1\n  Cl  Cl58  1  0.9673  0.6800  0.4415  1\n  Cl  Cl59  1  0.9485  0.9743  0.3233  1\n  Cl  Cl60  1  0.2231  0.9156  0.0569  1\n  Cl  Cl61  1  0.0515  0.4743  0.1767  1\n  Cl  Cl62  1  0.4004  0.8985  0.7500  1\n  Cl  Cl63  1  0.9673  0.8200  0.9415  1\n  Cl  Cl64  1  0.4575  0.3635  0.1735  1\n  Cl  Cl65  1  0.1251  0.2313  0.2500  1\n  Cl  Cl66  1  0.9673  0.8200  0.5585  1\n  Cl  Cl67  1  0.0515  0.4743  0.3233  1\n  Cl  Cl68  1  0.9485  0.5257  0.6767  1\n  Cl  Cl69  1  0.7769  0.4156  0.0569  1\n  Cl  Cl70  1  0.8749  0.7313  0.2500  1\n  Cl  Cl71  1  0.4575  0.1365  0.6735  1\n  Cl  Cl72  1  0.8749  0.7687  0.7500  1\n  Cl  Cl73  1  0.2231  0.9156  0.4431  1\n  Cl  Cl74  1  0.5425  0.8635  0.1735  1\n  Cl  Cl75  1  0.0515  0.0257  0.8233  1\n  Cl  Cl76  1  0.4370  0.8402  0.9413  1\n  Cl  Cl77  1  0.4004  0.6015  0.2500  1\n  Cl  Cl78  1  0.9485  0.9743  0.1767  1\n  Cl  Cl79  1  0.5425  0.6365  0.6735  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs15ClCs8Nd8Cl16CsCl31\n_chemical_formula_sum              \"Cs24 Cl48 Nd8\"\n_cell_length_a       8.3953\n_cell_length_b       13.5791\n_cell_length_c       27.0999\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.1827  0.7556  0.8373  1.0000\n  Cs  Cs2       1.0000  0.2606  0.0856  0.5503  1.0000\n  Cs  Cs3       1.0000  0.7394  0.9144  0.0503  1.0000\n  Cs  Cs4       1.0000  0.8173  0.2556  0.6627  1.0000\n  Cs  Cs5       1.0000  0.7394  0.5856  0.9497  1.0000\n  Cs  Cs6       1.0000  0.7394  0.9144  0.4497  1.0000\n  Cs  Cs7       1.0000  0.3094  0.4093  0.6532  1.0000\n  Cs  Cs8       1.0000  0.6906  0.9093  0.6532  1.0000\n  Cs  Cs9       1.0000  0.2606  0.4144  0.4497  1.0000\n  Cs  Cs10      1.0000  0.8173  0.2444  0.3373  1.0000\n  Cs  Cs11      1.0000  0.2606  0.4144  0.0503  1.0000\n  Cs  Cs12      1.0000  0.6906  0.5907  0.1532  1.0000\n  Cs  Cs13      1.0000  0.6906  0.9093  0.8468  1.0000\n  Cs  Cs14      1.0000  0.3094  0.4093  0.8468  1.0000\n  Cs  Cs15      1.0000  0.3094  0.0907  0.1532  1.0000\n  Cl  Cl1       1.0000  0.3094  0.0907  0.3468  1.0000\n  Cs  Cs16      1.0000  0.1827  0.7444  0.3373  1.0000\n  Cs  Cs17      1.0000  0.6906  0.5907  0.3468  1.0000\n  Cs  Cs18      1.0000  0.7394  0.5856  0.5503  1.0000\n  Cs  Cs19      1.0000  0.8173  0.2556  0.8373  1.0000\n  Cs  Cs20      1.0000  0.8173  0.2444  0.1627  1.0000\n  Cs  Cs21      1.0000  0.2606  0.0856  0.9497  1.0000\n  Cs  Cs22      1.0000  0.1827  0.7556  0.6627  1.0000\n  Cs  Cs23      1.0000  0.1827  0.7444  0.1627  1.0000\n  Nd  Nd1       1.0000  0.2586  0.0822  0.7500  1.0000\n  Nd  Nd2       1.0000  0.7414  0.5822  0.7500  1.0000\n  Nd  Nd3       1.0000  0.7879  0.2500  0.0000  1.0000\n  Nd  Nd4       1.0000  0.2121  0.7500  0.0000  1.0000\n  Nd  Nd5       1.0000  0.7414  0.9178  0.2500  1.0000\n  Nd  Nd6       1.0000  0.2586  0.4178  0.2500  1.0000\n  Nd  Nd7       1.0000  0.7879  0.2500  0.5000  1.0000\n  Nd  Nd8       1.0000  0.2121  0.7500  0.5000  1.0000\n  Cl  Cl2       1.0000  0.4575  0.3635  0.3265  1.0000\n  Cl  Cl3       1.0000  0.0327  0.3200  0.9415  1.0000\n  Cl  Cl4       1.0000  0.4370  0.8402  0.5587  1.0000\n  Cl  Cl5       1.0000  0.7769  0.4156  0.4431  1.0000\n  Cl  Cl6       1.0000  0.7769  0.0844  0.5569  1.0000\n  Cl  Cl7       1.0000  0.2231  0.5844  0.9431  1.0000\n  Cl  Cl8       1.0000  0.5630  0.3402  0.9413  1.0000\n  Cl  Cl9       1.0000  0.4575  0.1365  0.8265  1.0000\n  Cl  Cl10      1.0000  0.4370  0.6598  0.0587  1.0000\n  Cl  Cl11      1.0000  0.9485  0.5257  0.8233  1.0000\n  Cl  Cl12      1.0000  0.5996  0.3985  0.7500  1.0000\n  Cl  Cl13      1.0000  0.0327  0.3200  0.5585  1.0000\n  Cl  Cl14      1.0000  0.0327  0.1800  0.0585  1.0000\n  Cl  Cl15      1.0000  0.2231  0.5844  0.5569  1.0000\n  Cl  Cl16      1.0000  0.0327  0.1800  0.4415  1.0000\n  Cl  Cl17      1.0000  0.5630  0.1598  0.0587  1.0000\n  Cs  Cs24      1.0000  0.5425  0.6365  0.8265  1.0000\n  Cl  Cl18      1.0000  0.5425  0.8635  0.3265  1.0000\n  Cl  Cl19      1.0000  0.5630  0.3402  0.5587  1.0000\n  Cl  Cl20      1.0000  0.1251  0.2687  0.7500  1.0000\n  Cl  Cl21      1.0000  0.9673  0.6800  0.0585  1.0000\n  Cl  Cl22      1.0000  0.4370  0.6598  0.4413  1.0000\n  Cl  Cl23      1.0000  0.7769  0.0844  0.9431  1.0000\n  Cl  Cl24      1.0000  0.5996  0.1015  0.2500  1.0000\n  Cl  Cl25      1.0000  0.0515  0.0257  0.6767  1.0000\n  Cl  Cl26      1.0000  0.5630  0.1598  0.4413  1.0000\n  Cl  Cl27      1.0000  0.9673  0.6800  0.4415  1.0000\n  Cl  Cl28      1.0000  0.9485  0.9743  0.3233  1.0000\n  Cl  Cl29      1.0000  0.2231  0.9156  0.0569  1.0000\n  Cl  Cl30      1.0000  0.0515  0.4743  0.1767  1.0000\n  Cl  Cl31      1.0000  0.4004  0.8985  0.7500  1.0000\n  Cl  Cl32      1.0000  0.9673  0.8200  0.9415  1.0000\n  Cl  Cl33      1.0000  0.4575  0.3635  0.1735  1.0000\n  Cl  Cl34      1.0000  0.1251  0.2313  0.2500  1.0000\n  Cl  Cl35      1.0000  0.9673  0.8200  0.5585  1.0000\n  Cl  Cl36      1.0000  0.0515  0.4743  0.3233  1.0000\n  Cl  Cl37      1.0000  0.9485  0.5257  0.6767  1.0000\n  Cl  Cl38      1.0000  0.7769  0.4156  0.0569  1.0000\n  Cl  Cl39      1.0000  0.8749  0.7313  0.2500  1.0000\n  Cl  Cl40      1.0000  0.4575  0.1365  0.6735  1.0000\n  Cl  Cl41      1.0000  0.8749  0.7687  0.7500  1.0000\n  Cl  Cl42      1.0000  0.2231  0.9156  0.4431  1.0000\n  Cl  Cl43      1.0000  0.5425  0.8635  0.1735  1.0000\n  Cl  Cl44      1.0000  0.0515  0.0257  0.8233  1.0000\n  Cl  Cl45      1.0000  0.4370  0.8402  0.9413  1.0000\n  Cl  Cl46      1.0000  0.4004  0.6015  0.2500  1.0000\n  Cl  Cl47      1.0000  0.9485  0.9743  0.1767  1.0000\n  Cl  Cl48      1.0000  0.5425  0.6365  0.6735  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0070f775-1d43-428f-a7c7-d00e887113d6",
    "mp_id": "mp-582587",
    "action_prompt": "Swap the spatial positions of atoms at indices 50 and 68 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SbH6C2I\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0231\n_cell_length_b   11.0953\n_cell_length_c   17.6168\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SbH6C2I\n_chemical_formula_sum   'Sb8 H48 C16 I8'\n_cell_volume   1372.7562\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sb  Sb0  1  0.2059  0.8676  0.6757  1\n  Sb  Sb1  1  0.7941  0.3676  0.8243  1\n  Sb  Sb2  1  0.2059  0.6324  0.1757  1\n  Sb  Sb3  1  0.2941  0.3676  0.6757  1\n  Sb  Sb4  1  0.2941  0.1324  0.1757  1\n  Sb  Sb5  1  0.7059  0.6324  0.3243  1\n  Sb  Sb6  1  0.7941  0.1324  0.3243  1\n  Sb  Sb7  1  0.7059  0.8676  0.8243  1\n  H  H8  1  0.9991  0.6537  0.4248  1\n  H  H9  1  0.5148  0.6505  0.4606  1\n  H  H10  1  0.5264  0.9853  0.6263  1\n  H  H11  1  0.0878  0.7029  0.5717  1\n  H  H12  1  0.6180  0.2728  0.6124  1\n  H  H13  1  0.4991  0.8463  0.5753  1\n  H  H14  1  0.0264  0.5147  0.3737  1\n  H  H15  1  0.1180  0.2272  0.3876  1\n  H  H16  1  0.4991  0.6537  0.0752  1\n  H  H17  1  0.9852  0.1505  0.4606  1\n  H  H18  1  0.6180  0.2272  0.1124  1\n  H  H19  1  0.0148  0.6505  0.0394  1\n  H  H20  1  0.4122  0.2029  0.5717  1\n  H  H21  1  0.1180  0.2728  0.8876  1\n  H  H22  1  0.9736  0.4853  0.6263  1\n  H  H23  1  0.8820  0.7728  0.6124  1\n  H  H24  1  0.8585  0.5253  0.4509  1\n  H  H25  1  0.1415  0.0253  0.0491  1\n  H  H26  1  0.6415  0.0253  0.4509  1\n  H  H27  1  0.4736  0.4853  0.8737  1\n  H  H28  1  0.5878  0.7029  0.9283  1\n  H  H29  1  0.8820  0.7272  0.1124  1\n  H  H30  1  0.0878  0.7971  0.0717  1\n  H  H31  1  0.9122  0.2971  0.4283  1\n  H  H32  1  0.9852  0.3495  0.9606  1\n  H  H33  1  0.9736  0.0147  0.1263  1\n  H  H34  1  0.5878  0.7971  0.4283  1\n  H  H35  1  0.0009  0.3463  0.5753  1\n  H  H36  1  0.4122  0.2971  0.0717  1\n  H  H37  1  0.4852  0.3495  0.5394  1\n  H  H38  1  0.0009  0.1537  0.0752  1\n  H  H39  1  0.4852  0.1505  0.0394  1\n  H  H40  1  0.9991  0.8463  0.9247  1\n  H  H41  1  0.9122  0.2029  0.9283  1\n  H  H42  1  0.3585  0.5253  0.0491  1\n  H  H43  1  0.0264  0.9853  0.8737  1\n  H  H44  1  0.0148  0.8495  0.5394  1\n  H  H45  1  0.1415  0.4747  0.5491  1\n  H  H46  1  0.5009  0.1537  0.4248  1\n  H  H47  1  0.4736  0.0147  0.3737  1\n  H  H48  1  0.5264  0.5147  0.1263  1\n  H  H49  1  0.5148  0.8495  0.9606  1\n  H  H50  1  0.3820  0.7728  0.8876  1\n  H  H51  1  0.8585  0.9747  0.9509  1\n  H  H52  1  0.6415  0.4747  0.9509  1\n  H  H53  1  0.5009  0.3463  0.9247  1\n  H  H54  1  0.3820  0.7272  0.3876  1\n  H  H55  1  0.3585  0.9747  0.5491  1\n  C  C56  1  0.4763  0.2110  0.0884  1\n  C  C57  1  0.9254  0.9267  0.9036  1\n  C  C58  1  0.5237  0.7110  0.4116  1\n  C  C59  1  0.0746  0.4267  0.5964  1\n  C  C60  1  0.0746  0.0733  0.0964  1\n  C  C61  1  0.4763  0.2890  0.5884  1\n  C  C62  1  0.0237  0.7110  0.0884  1\n  C  C63  1  0.4254  0.9267  0.5964  1\n  C  C64  1  0.5237  0.7890  0.9116  1\n  C  C65  1  0.0237  0.7890  0.5884  1\n  C  C66  1  0.4254  0.5733  0.0964  1\n  C  C67  1  0.9763  0.2110  0.4116  1\n  C  C68  1  0.5746  0.4267  0.9036  1\n  C  C69  1  0.9254  0.5733  0.4036  1\n  C  C70  1  0.9763  0.2890  0.9116  1\n  C  C71  1  0.5746  0.0733  0.4036  1\n  I  I72  1  0.5099  0.0937  0.8305  1\n  I  I73  1  0.4901  0.5937  0.6695  1\n  I  I74  1  0.0099  0.4063  0.1695  1\n  I  I75  1  0.5099  0.4063  0.3305  1\n  I  I76  1  0.4901  0.9063  0.1695  1\n  I  I77  1  0.9901  0.5937  0.8305  1\n  I  I78  1  0.9901  0.9063  0.3305  1\n  I  I79  1  0.0099  0.0937  0.6695  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sb8H42CH5C12HC3I8\n_chemical_formula_sum              \"Sb8 H48 C16 I8\"\n_cell_length_a       7.0231\n_cell_length_b       11.0953\n_cell_length_c       17.6168\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sb  Sb1       1.0000  0.2059  0.8676  0.6757  1.0000\n  Sb  Sb2       1.0000  0.7941  0.3676  0.8243  1.0000\n  Sb  Sb3       1.0000  0.2059  0.6324  0.1757  1.0000\n  Sb  Sb4       1.0000  0.2941  0.3676  0.6757  1.0000\n  Sb  Sb5       1.0000  0.2941  0.1324  0.1757  1.0000\n  Sb  Sb6       1.0000  0.7059  0.6324  0.3243  1.0000\n  Sb  Sb7       1.0000  0.7941  0.1324  0.3243  1.0000\n  Sb  Sb8       1.0000  0.7059  0.8676  0.8243  1.0000\n  H   H1        1.0000  0.9991  0.6537  0.4248  1.0000\n  H   H2        1.0000  0.5148  0.6505  0.4606  1.0000\n  H   H3        1.0000  0.5264  0.9853  0.6263  1.0000\n  H   H4        1.0000  0.0878  0.7029  0.5717  1.0000\n  H   H5        1.0000  0.6180  0.2728  0.6124  1.0000\n  H   H6        1.0000  0.4991  0.8463  0.5753  1.0000\n  H   H7        1.0000  0.0264  0.5147  0.3737  1.0000\n  H   H8        1.0000  0.1180  0.2272  0.3876  1.0000\n  H   H9        1.0000  0.4991  0.6537  0.0752  1.0000\n  H   H10       1.0000  0.9852  0.1505  0.4606  1.0000\n  H   H11       1.0000  0.6180  0.2272  0.1124  1.0000\n  H   H12       1.0000  0.0148  0.6505  0.0394  1.0000\n  H   H13       1.0000  0.4122  0.2029  0.5717  1.0000\n  H   H14       1.0000  0.1180  0.2728  0.8876  1.0000\n  H   H15       1.0000  0.9736  0.4853  0.6263  1.0000\n  H   H16       1.0000  0.8820  0.7728  0.6124  1.0000\n  H   H17       1.0000  0.8585  0.5253  0.4509  1.0000\n  H   H18       1.0000  0.1415  0.0253  0.0491  1.0000\n  H   H19       1.0000  0.6415  0.0253  0.4509  1.0000\n  H   H20       1.0000  0.4736  0.4853  0.8737  1.0000\n  H   H21       1.0000  0.5878  0.7029  0.9283  1.0000\n  H   H22       1.0000  0.8820  0.7272  0.1124  1.0000\n  H   H23       1.0000  0.0878  0.7971  0.0717  1.0000\n  H   H24       1.0000  0.9122  0.2971  0.4283  1.0000\n  H   H25       1.0000  0.9852  0.3495  0.9606  1.0000\n  H   H26       1.0000  0.9736  0.0147  0.1263  1.0000\n  H   H27       1.0000  0.5878  0.7971  0.4283  1.0000\n  H   H28       1.0000  0.0009  0.3463  0.5753  1.0000\n  H   H29       1.0000  0.4122  0.2971  0.0717  1.0000\n  H   H30       1.0000  0.4852  0.3495  0.5394  1.0000\n  H   H31       1.0000  0.0009  0.1537  0.0752  1.0000\n  H   H32       1.0000  0.4852  0.1505  0.0394  1.0000\n  H   H33       1.0000  0.9991  0.8463  0.9247  1.0000\n  H   H34       1.0000  0.9122  0.2029  0.9283  1.0000\n  H   H35       1.0000  0.3585  0.5253  0.0491  1.0000\n  H   H36       1.0000  0.0264  0.9853  0.8737  1.0000\n  H   H37       1.0000  0.0148  0.8495  0.5394  1.0000\n  H   H38       1.0000  0.1415  0.4747  0.5491  1.0000\n  H   H39       1.0000  0.5009  0.1537  0.4248  1.0000\n  H   H40       1.0000  0.4736  0.0147  0.3737  1.0000\n  H   H41       1.0000  0.5264  0.5147  0.1263  1.0000\n  H   H42       1.0000  0.5148  0.8495  0.9606  1.0000\n  C   C1        1.0000  0.3820  0.7728  0.8876  1.0000\n  H   H43       1.0000  0.8585  0.9747  0.9509  1.0000\n  H   H44       1.0000  0.6415  0.4747  0.9509  1.0000\n  H   H45       1.0000  0.5009  0.3463  0.9247  1.0000\n  H   H46       1.0000  0.3820  0.7272  0.3876  1.0000\n  H   H47       1.0000  0.3585  0.9747  0.5491  1.0000\n  C   C2        1.0000  0.4763  0.2110  0.0884  1.0000\n  C   C3        1.0000  0.9254  0.9267  0.9036  1.0000\n  C   C4        1.0000  0.5237  0.7110  0.4116  1.0000\n  C   C5        1.0000  0.0746  0.4267  0.5964  1.0000\n  C   C6        1.0000  0.0746  0.0733  0.0964  1.0000\n  C   C7        1.0000  0.4763  0.2890  0.5884  1.0000\n  C   C8        1.0000  0.0237  0.7110  0.0884  1.0000\n  C   C9        1.0000  0.4254  0.9267  0.5964  1.0000\n  C   C10       1.0000  0.5237  0.7890  0.9116  1.0000\n  C   C11       1.0000  0.0237  0.7890  0.5884  1.0000\n  C   C12       1.0000  0.4254  0.5733  0.0964  1.0000\n  C   C13       1.0000  0.9763  0.2110  0.4116  1.0000\n  H   H48       1.0000  0.5746  0.4267  0.9036  1.0000\n  C   C14       1.0000  0.9254  0.5733  0.4036  1.0000\n  C   C15       1.0000  0.9763  0.2890  0.9116  1.0000\n  C   C16       1.0000  0.5746  0.0733  0.4036  1.0000\n  I   I1        1.0000  0.5099  0.0937  0.8305  1.0000\n  I   I2        1.0000  0.4901  0.5937  0.6695  1.0000\n  I   I3        1.0000  0.0099  0.4063  0.1695  1.0000\n  I   I4        1.0000  0.5099  0.4063  0.3305  1.0000\n  I   I5        1.0000  0.4901  0.9063  0.1695  1.0000\n  I   I6        1.0000  0.9901  0.5937  0.8305  1.0000\n  I   I7        1.0000  0.9901  0.9063  0.3305  1.0000\n  I   I8        1.0000  0.0099  0.0937  0.6695  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "32ba7562-60cf-4bae-837a-cef18ae40024",
    "mp_id": "mp-603694",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Si3N4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.7113\n_cell_length_b   7.7113\n_cell_length_c   5.6337\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Si3N4\n_chemical_formula_sum   'Si12 N16'\n_cell_volume   290.1240\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.0978  0.5836  0.1673  1\n  Si  Si1  1  0.4858  0.9022  0.1673  1\n  Si  Si2  1  0.9102  0.1649  0.9562  1\n  Si  Si3  1  0.5836  0.0978  0.6673  1\n  Si  Si4  1  0.0898  0.2548  0.4562  1\n  Si  Si5  1  0.1649  0.9102  0.4562  1\n  Si  Si6  1  0.4164  0.5142  0.1673  1\n  Si  Si7  1  0.7452  0.8351  0.4562  1\n  Si  Si8  1  0.9022  0.4858  0.6673  1\n  Si  Si9  1  0.5142  0.4164  0.6673  1\n  Si  Si10  1  0.8351  0.7452  0.9562  1\n  Si  Si11  1  0.2548  0.0898  0.9562  1\n  N  N12  1  0.3502  0.3698  0.4278  1\n  N  N13  1  0.0195  0.6498  0.4278  1\n  N  N14  1  0.3698  0.3502  0.9278  1\n  N  N15  1  0.6302  0.9805  0.4278  1\n  N  N16  1  0.0000  0.0000  0.9570  1\n  N  N17  1  0.9727  0.3035  0.6918  1\n  N  N18  1  0.0000  0.0000  0.4570  1\n  N  N19  1  0.6667  0.3333  0.1093  1\n  N  N20  1  0.6692  0.6965  0.1918  1\n  N  N21  1  0.6498  0.0195  0.9278  1\n  N  N22  1  0.9805  0.6302  0.9278  1\n  N  N23  1  0.3333  0.6667  0.6093  1\n  N  N24  1  0.0273  0.3308  0.1918  1\n  N  N25  1  0.3308  0.0273  0.6918  1\n  N  N26  1  0.6965  0.6692  0.6918  1\n  N  N27  1  0.3035  0.9727  0.1918  1\n",
    "output": "data_image0\n_chemical_formula_structural       Si4NSi7N7SiN8\n_chemical_formula_sum              \"Si12 N16\"\n_cell_length_a       7.7113\n_cell_length_b       7.7113\n_cell_length_c       5.6337\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.0978  0.5836  0.1673  1.0000\n  Si  Si2       1.0000  0.4858  0.9022  0.1673  1.0000\n  Si  Si3       1.0000  0.9102  0.1649  0.9562  1.0000\n  Si  Si4       1.0000  0.5836  0.0978  0.6673  1.0000\n  N   N1        1.0000  0.0898  0.2548  0.4562  1.0000\n  Si  Si5       1.0000  0.1649  0.9102  0.4562  1.0000\n  Si  Si6       1.0000  0.4164  0.5142  0.1673  1.0000\n  Si  Si7       1.0000  0.7452  0.8351  0.4562  1.0000\n  Si  Si8       1.0000  0.9022  0.4858  0.6673  1.0000\n  Si  Si9       1.0000  0.5142  0.4164  0.6673  1.0000\n  Si  Si10      1.0000  0.8351  0.7452  0.9562  1.0000\n  Si  Si11      1.0000  0.2548  0.0898  0.9562  1.0000\n  N   N2        1.0000  0.3502  0.3698  0.4278  1.0000\n  N   N3        1.0000  0.0195  0.6498  0.4278  1.0000\n  N   N4        1.0000  0.3698  0.3502  0.9278  1.0000\n  N   N5        1.0000  0.6302  0.9805  0.4278  1.0000\n  N   N6        1.0000  0.0000  0.0000  0.9570  1.0000\n  N   N7        1.0000  0.9727  0.3035  0.6918  1.0000\n  N   N8        1.0000  0.0000  0.0000  0.4570  1.0000\n  Si  Si12      1.0000  0.6667  0.3333  0.1093  1.0000\n  N   N9        1.0000  0.6692  0.6965  0.1918  1.0000\n  N   N10       1.0000  0.6498  0.0195  0.9278  1.0000\n  N   N11       1.0000  0.9805  0.6302  0.9278  1.0000\n  N   N12       1.0000  0.3333  0.6667  0.6093  1.0000\n  N   N13       1.0000  0.0273  0.3308  0.1918  1.0000\n  N   N14       1.0000  0.3308  0.0273  0.6918  1.0000\n  N   N15       1.0000  0.6965  0.6692  0.6918  1.0000\n  N   N16       1.0000  0.3035  0.9727  0.1918  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b285f7f8-3767-4b4c-b070-282bca0925b3",
    "mp_id": "mp-607525",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba11(Cd4Bi7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0178\n_cell_length_b   14.6138\n_cell_length_c   17.2152\n_cell_angle_alpha   91.4370\n_cell_angle_beta   89.9982\n_cell_angle_gamma   99.8076\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba11(Cd4Bi7)2\n_chemical_formula_sum   'Ba11 Cd8 Bi14'\n_cell_volume   1243.5175\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7497  0.4948  0.7037  1\n  Ba  Ba1  1  0.3815  0.7647  0.8400  1\n  Ba  Ba2  1  0.1469  0.2893  0.5345  1\n  Ba  Ba3  1  0.6530  0.3100  0.9002  1\n  Ba  Ba4  1  0.9941  0.9825  0.6342  1\n  Ba  Ba5  1  0.5000  0.0000  0.0000  1\n  Ba  Ba6  1  0.2503  0.5052  0.2963  1\n  Ba  Ba7  1  0.3470  0.6900  0.0998  1\n  Ba  Ba8  1  0.8531  0.7107  0.4655  1\n  Ba  Ba9  1  0.6185  0.2353  0.1600  1\n  Ba  Ba10  1  0.0059  0.0175  0.3658  1\n  Cd  Cd11  1  0.8047  0.5973  0.9590  1\n  Cd  Cd12  1  0.3689  0.7454  0.6117  1\n  Cd  Cd13  1  0.1953  0.4027  0.0410  1\n  Cd  Cd14  1  0.5999  0.1886  0.6849  1\n  Cd  Cd15  1  0.6311  0.2546  0.3883  1\n  Cd  Cd16  1  0.9436  0.8783  0.1585  1\n  Cd  Cd17  1  0.0564  0.1217  0.8415  1\n  Cd  Cd18  1  0.4001  0.8114  0.3151  1\n  Bi  Bi19  1  0.5606  0.1145  0.5177  1\n  Bi  Bi20  1  0.9099  0.8128  0.9875  1\n  Bi  Bi21  1  0.1534  0.2987  0.7385  1\n  Bi  Bi22  1  0.0901  0.1872  0.0125  1\n  Bi  Bi23  1  0.8466  0.7013  0.2615  1\n  Bi  Bi24  1  0.8670  0.7403  0.6989  1\n  Bi  Bi25  1  0.2631  0.5151  0.8830  1\n  Bi  Bi26  1  0.4394  0.8855  0.4823  1\n  Bi  Bi27  1  0.7290  0.4577  0.4608  1\n  Bi  Bi28  1  0.4936  0.9804  0.2091  1\n  Bi  Bi29  1  0.2710  0.5423  0.5392  1\n  Bi  Bi30  1  0.1330  0.2597  0.3011  1\n  Bi  Bi31  1  0.5064  0.0196  0.7909  1\n  Bi  Bi32  1  0.7369  0.4849  0.1170  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2BiBa8Cd8BiBaBi12\n_chemical_formula_sum              \"Ba11 Bi14 Cd8\"\n_cell_length_a       5.0178\n_cell_length_b       14.6138\n_cell_length_c       17.2152\n_cell_angle_alpha    91.4370\n_cell_angle_beta     89.9982\n_cell_angle_gamma    99.8076\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7497  0.4948  0.7037  1.0000\n  Ba  Ba2       1.0000  0.3815  0.7647  0.8400  1.0000\n  Bi  Bi1       1.0000  0.1469  0.2893  0.5345  1.0000\n  Ba  Ba3       1.0000  0.6530  0.3100  0.9002  1.0000\n  Ba  Ba4       1.0000  0.9941  0.9825  0.6342  1.0000\n  Ba  Ba5       1.0000  0.5000  0.0000  0.0000  1.0000\n  Ba  Ba6       1.0000  0.2503  0.5052  0.2963  1.0000\n  Ba  Ba7       1.0000  0.3470  0.6900  0.0998  1.0000\n  Ba  Ba8       1.0000  0.8531  0.7107  0.4655  1.0000\n  Ba  Ba9       1.0000  0.6185  0.2353  0.1600  1.0000\n  Ba  Ba10      1.0000  0.0059  0.0175  0.3658  1.0000\n  Cd  Cd1       1.0000  0.8047  0.5973  0.9590  1.0000\n  Cd  Cd2       1.0000  0.3689  0.7454  0.6117  1.0000\n  Cd  Cd3       1.0000  0.1953  0.4027  0.0410  1.0000\n  Cd  Cd4       1.0000  0.5999  0.1886  0.6849  1.0000\n  Cd  Cd5       1.0000  0.6311  0.2546  0.3883  1.0000\n  Cd  Cd6       1.0000  0.9436  0.8783  0.1585  1.0000\n  Cd  Cd7       1.0000  0.0564  0.1217  0.8415  1.0000\n  Cd  Cd8       1.0000  0.4001  0.8114  0.3151  1.0000\n  Bi  Bi2       1.0000  0.5606  0.1145  0.5177  1.0000\n  Ba  Ba11      1.0000  0.9099  0.8128  0.9875  1.0000\n  Bi  Bi3       1.0000  0.1534  0.2987  0.7385  1.0000\n  Bi  Bi4       1.0000  0.0901  0.1872  0.0125  1.0000\n  Bi  Bi5       1.0000  0.8466  0.7013  0.2615  1.0000\n  Bi  Bi6       1.0000  0.8670  0.7403  0.6989  1.0000\n  Bi  Bi7       1.0000  0.2631  0.5151  0.8830  1.0000\n  Bi  Bi8       1.0000  0.4394  0.8855  0.4823  1.0000\n  Bi  Bi9       1.0000  0.7290  0.4577  0.4608  1.0000\n  Bi  Bi10      1.0000  0.4936  0.9804  0.2091  1.0000\n  Bi  Bi11      1.0000  0.2710  0.5423  0.5392  1.0000\n  Bi  Bi12      1.0000  0.1330  0.2597  0.3011  1.0000\n  Bi  Bi13      1.0000  0.5064  0.0196  0.7909  1.0000\n  Bi  Bi14      1.0000  0.7369  0.4849  0.1170  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b0d1e1fa-7b2b-4a55-a524-b9f23dd930f4",
    "mp_id": "mp-608206",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsC2I3N2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.6268\n_cell_length_b   6.7961\n_cell_length_c   16.5705\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsC2I3N2\n_chemical_formula_sum   'Cs2 C4 I6 N4'\n_cell_volume   521.0399\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.3180  0.5000  0.0000  1\n  Cs  Cs1  1  0.6820  0.0000  0.5000  1\n  C  C2  1  0.2191  0.0000  0.2883  1\n  C  C3  1  0.7809  0.5000  0.2117  1\n  C  C4  1  0.7809  0.5000  0.7883  1\n  C  C5  1  0.2191  0.0000  0.7117  1\n  I  I6  1  0.4067  0.0000  0.8248  1\n  I  I7  1  0.7472  0.0000  0.0000  1\n  I  I8  1  0.4067  0.0000  0.1752  1\n  I  I9  1  0.2528  0.5000  0.5000  1\n  I  I10  1  0.5933  0.5000  0.6752  1\n  I  I11  1  0.5933  0.5000  0.3248  1\n  N  N12  1  0.8728  0.5000  0.8541  1\n  N  N13  1  0.8728  0.5000  0.1459  1\n  N  N14  1  0.1272  0.0000  0.6459  1\n  N  N15  1  0.1272  0.0000  0.3541  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2IC4I5N4\n_chemical_formula_sum              \"Cs2 I6 C4 N4\"\n_cell_length_a       4.6268\n_cell_length_b       6.7961\n_cell_length_c       16.5705\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.3180  0.5000  0.0000  1.0000\n  Cs  Cs2       1.0000  0.6820  0.0000  0.5000  1.0000\n  I   I1        1.0000  0.2191  0.0000  0.2883  1.0000\n  C   C1        1.0000  0.7809  0.5000  0.2117  1.0000\n  C   C2        1.0000  0.7809  0.5000  0.7883  1.0000\n  C   C3        1.0000  0.2191  0.0000  0.7117  1.0000\n  C   C4        1.0000  0.4067  0.0000  0.8248  1.0000\n  I   I2        1.0000  0.7472  0.0000  0.0000  1.0000\n  I   I3        1.0000  0.4067  0.0000  0.1752  1.0000\n  I   I4        1.0000  0.2528  0.5000  0.5000  1.0000\n  I   I5        1.0000  0.5933  0.5000  0.6752  1.0000\n  I   I6        1.0000  0.5933  0.5000  0.3248  1.0000\n  N   N1        1.0000  0.8728  0.5000  0.8541  1.0000\n  N   N2        1.0000  0.8728  0.5000  0.1459  1.0000\n  N   N3        1.0000  0.1272  0.0000  0.6459  1.0000\n  N   N4        1.0000  0.1272  0.0000  0.3541  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "593d3f84-611b-4e05-9c88-a77010114ee4",
    "mp_id": "mp-6112",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K6Na3GaSb4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2922\n_cell_length_b   10.2922\n_cell_length_c   10.6013\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K6Na3GaSb4\n_chemical_formula_sum   'K12 Na6 Ga2 Sb8'\n_cell_volume   972.5472\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.4141  0.2070  0.4595  1\n  K  K1  1  0.7930  0.5859  0.0405  1\n  K  K2  1  0.2070  0.4141  0.5405  1\n  K  K3  1  0.5859  0.7930  0.9595  1\n  K  K4  1  0.2070  0.4141  0.9595  1\n  K  K5  1  0.2070  0.7930  0.9595  1\n  K  K6  1  0.7930  0.5859  0.4595  1\n  K  K7  1  0.2070  0.7930  0.5405  1\n  K  K8  1  0.7930  0.2070  0.0405  1\n  K  K9  1  0.5859  0.7930  0.5405  1\n  K  K10  1  0.4141  0.2070  0.0405  1\n  K  K11  1  0.7930  0.2070  0.4595  1\n  Na  Na12  1  0.2304  0.1152  0.7500  1\n  Na  Na13  1  0.8848  0.7696  0.7500  1\n  Na  Na14  1  0.1152  0.8848  0.2500  1\n  Na  Na15  1  0.7696  0.8848  0.2500  1\n  Na  Na16  1  0.8848  0.1152  0.7500  1\n  Na  Na17  1  0.1152  0.2304  0.2500  1\n  Ga  Ga18  1  0.3333  0.6667  0.2500  1\n  Ga  Ga19  1  0.6667  0.3333  0.7500  1\n  Sb  Sb20  1  0.4815  0.9631  0.2500  1\n  Sb  Sb21  1  0.5185  0.4815  0.7500  1\n  Sb  Sb22  1  0.9631  0.4815  0.7500  1\n  Sb  Sb23  1  0.0369  0.5185  0.2500  1\n  Sb  Sb24  1  0.4815  0.5185  0.2500  1\n  Sb  Sb25  1  0.5185  0.0369  0.7500  1\n  Sb  Sb26  1  0.0000  0.0000  0.0000  1\n  Sb  Sb27  1  0.0000  0.0000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2GaK9Na6KGaSb8\n_chemical_formula_sum              \"K12 Ga2 Na6 Sb8\"\n_cell_length_a       10.2922\n_cell_length_b       10.2922\n_cell_length_c       10.6013\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.4141  0.2070  0.4595  1.0000\n  K   K2        1.0000  0.7930  0.5859  0.0405  1.0000\n  Ga  Ga1       1.0000  0.2070  0.4141  0.5405  1.0000\n  K   K3        1.0000  0.5859  0.7930  0.9595  1.0000\n  K   K4        1.0000  0.2070  0.4141  0.9595  1.0000\n  K   K5        1.0000  0.2070  0.7930  0.9595  1.0000\n  K   K6        1.0000  0.7930  0.5859  0.4595  1.0000\n  K   K7        1.0000  0.2070  0.7930  0.5405  1.0000\n  K   K8        1.0000  0.7930  0.2070  0.0405  1.0000\n  K   K9        1.0000  0.5859  0.7930  0.5405  1.0000\n  K   K10       1.0000  0.4141  0.2070  0.0405  1.0000\n  K   K11       1.0000  0.7930  0.2070  0.4595  1.0000\n  Na  Na1       1.0000  0.2304  0.1152  0.7500  1.0000\n  Na  Na2       1.0000  0.8848  0.7696  0.7500  1.0000\n  Na  Na3       1.0000  0.1152  0.8848  0.2500  1.0000\n  Na  Na4       1.0000  0.7696  0.8848  0.2500  1.0000\n  Na  Na5       1.0000  0.8848  0.1152  0.7500  1.0000\n  Na  Na6       1.0000  0.1152  0.2304  0.2500  1.0000\n  K   K12       1.0000  0.3333  0.6667  0.2500  1.0000\n  Ga  Ga2       1.0000  0.6667  0.3333  0.7500  1.0000\n  Sb  Sb1       1.0000  0.4815  0.9631  0.2500  1.0000\n  Sb  Sb2       1.0000  0.5185  0.4815  0.7500  1.0000\n  Sb  Sb3       1.0000  0.9631  0.4815  0.7500  1.0000\n  Sb  Sb4       1.0000  0.0369  0.5185  0.2500  1.0000\n  Sb  Sb5       1.0000  0.4815  0.5185  0.2500  1.0000\n  Sb  Sb6       1.0000  0.5185  0.0369  0.7500  1.0000\n  Sb  Sb7       1.0000  0.0000  0.0000  0.0000  1.0000\n  Sb  Sb8       1.0000  0.0000  0.0000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bfe9e4b9-c044-4bf9-9ace-e66c1928f77e",
    "mp_id": "mp-613327",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe(BW)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.2339\n_cell_length_b   5.6906\n_cell_length_c   5.6906\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe(BW)2\n_chemical_formula_sum   'Fe2 B4 W4'\n_cell_volume   104.7249\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.0000  0.0000  0.0000  1\n  Fe  Fe1  1  0.0000  0.5000  0.5000  1\n  B  B2  1  0.0000  0.8842  0.3842  1\n  B  B3  1  0.0000  0.3842  0.1158  1\n  B  B4  1  0.0000  0.1158  0.6158  1\n  B  B5  1  0.0000  0.6158  0.8842  1\n  W  W6  1  0.5000  0.1779  0.3221  1\n  W  W7  1  0.5000  0.6779  0.1779  1\n  W  W8  1  0.5000  0.3221  0.8221  1\n  W  W9  1  0.5000  0.8221  0.6779  1\n",
    "output": "data_image0\n_chemical_formula_structural       FeWB4W3Fe\n_chemical_formula_sum              \"Fe2 W4 B4\"\n_cell_length_a       3.2339\n_cell_length_b       5.6906\n_cell_length_c       5.6906\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.0000  0.0000  0.0000  1.0000\n  W   W1        1.0000  0.0000  0.5000  0.5000  1.0000\n  B   B1        1.0000  0.0000  0.8842  0.3842  1.0000\n  B   B2        1.0000  0.0000  0.3842  0.1158  1.0000\n  B   B3        1.0000  0.0000  0.1158  0.6158  1.0000\n  B   B4        1.0000  0.0000  0.6158  0.8842  1.0000\n  W   W2        1.0000  0.5000  0.1779  0.3221  1.0000\n  W   W3        1.0000  0.5000  0.6779  0.1779  1.0000\n  W   W4        1.0000  0.5000  0.3221  0.8221  1.0000\n  Fe  Fe2       1.0000  0.5000  0.8221  0.6779  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "385f44be-f69b-499e-ab51-a6778799615f",
    "mp_id": "mp-616210",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr5In11Ni6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2314\n_cell_length_b   10.2314\n_cell_length_c   4.3625\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.2835\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr5In11Ni6\n_chemical_formula_sum   'Pr5 In11 Ni6'\n_cell_volume   456.6738\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.0375  0.6890  0.0000  1\n  Pr  Pr1  1  0.3110  0.9625  0.0000  1\n  Pr  Pr2  1  0.6890  0.0375  0.0000  1\n  Pr  Pr3  1  0.9625  0.3110  0.0000  1\n  Pr  Pr4  1  0.5000  0.5000  0.5000  1\n  In  In5  1  0.3035  0.3035  0.0000  1\n  In  In6  1  0.6965  0.6965  0.0000  1\n  In  In7  1  0.7259  0.2741  0.5000  1\n  In  In8  1  0.8474  0.5373  0.5000  1\n  In  In9  1  0.1600  0.1600  0.5000  1\n  In  In10  1  0.8400  0.8400  0.5000  1\n  In  In11  1  0.1526  0.4627  0.5000  1\n  In  In12  1  0.2741  0.7259  0.5000  1\n  In  In13  1  0.5373  0.8474  0.5000  1\n  In  In14  1  0.0000  0.0000  0.0000  1\n  In  In15  1  0.4627  0.1526  0.5000  1\n  Ni  Ni16  1  0.9061  0.0939  0.5000  1\n  Ni  Ni17  1  0.5563  0.2807  0.0000  1\n  Ni  Ni18  1  0.4437  0.7193  0.0000  1\n  Ni  Ni19  1  0.0939  0.9061  0.5000  1\n  Ni  Ni20  1  0.7193  0.4437  0.0000  1\n  Ni  Ni21  1  0.2807  0.5563  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pr2InPr2In9PrInNi6\n_chemical_formula_sum              \"Pr5 In11 Ni6\"\n_cell_length_a       10.2314\n_cell_length_b       10.2314\n_cell_length_c       4.3625\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.2835\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.0375  0.6890  0.0000  1.0000\n  Pr  Pr2       1.0000  0.3110  0.9625  0.0000  1.0000\n  In  In1       1.0000  0.6890  0.0375  0.0000  1.0000\n  Pr  Pr3       1.0000  0.9625  0.3110  0.0000  1.0000\n  Pr  Pr4       1.0000  0.5000  0.5000  0.5000  1.0000\n  In  In2       1.0000  0.3035  0.3035  0.0000  1.0000\n  In  In3       1.0000  0.6965  0.6965  0.0000  1.0000\n  In  In4       1.0000  0.7259  0.2741  0.5000  1.0000\n  In  In5       1.0000  0.8474  0.5373  0.5000  1.0000\n  In  In6       1.0000  0.1600  0.1600  0.5000  1.0000\n  In  In7       1.0000  0.8400  0.8400  0.5000  1.0000\n  In  In8       1.0000  0.1526  0.4627  0.5000  1.0000\n  In  In9       1.0000  0.2741  0.7259  0.5000  1.0000\n  In  In10      1.0000  0.5373  0.8474  0.5000  1.0000\n  Pr  Pr5       1.0000  0.0000  0.0000  0.0000  1.0000\n  In  In11      1.0000  0.4627  0.1526  0.5000  1.0000\n  Ni  Ni1       1.0000  0.9061  0.0939  0.5000  1.0000\n  Ni  Ni2       1.0000  0.5563  0.2807  0.0000  1.0000\n  Ni  Ni3       1.0000  0.4437  0.7193  0.0000  1.0000\n  Ni  Ni4       1.0000  0.0939  0.9061  0.5000  1.0000\n  Ni  Ni5       1.0000  0.7193  0.4437  0.0000  1.0000\n  Ni  Ni6       1.0000  0.2807  0.5563  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ed808173-1ce0-4ab5-9844-d73ffd5639f0",
    "mp_id": "mp-616407",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_N2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2079\n_cell_length_b   6.6099\n_cell_length_c   8.7766\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   N2O3\n_chemical_formula_sum   'N8 O12'\n_cell_volume   302.1206\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  N  N0  1  0.0987  0.6412  0.6260  1\n  N  N1  1  0.5987  0.8588  0.3740  1\n  N  N2  1  0.4013  0.3588  0.1260  1\n  N  N3  1  0.9280  0.9986  0.3440  1\n  N  N4  1  0.9013  0.1412  0.8740  1\n  N  N5  1  0.4280  0.5014  0.6560  1\n  N  N6  1  0.0720  0.4986  0.1560  1\n  N  N7  1  0.5720  0.0014  0.8440  1\n  O  O8  1  0.0263  0.7662  0.7193  1\n  O  O9  1  0.0076  0.0865  0.9914  1\n  O  O10  1  0.9737  0.2662  0.7807  1\n  O  O11  1  0.4442  0.3883  0.5569  1\n  O  O12  1  0.9924  0.5865  0.5086  1\n  O  O13  1  0.4737  0.2338  0.2193  1\n  O  O14  1  0.5263  0.7338  0.2807  1\n  O  O15  1  0.4924  0.9135  0.4914  1\n  O  O16  1  0.5558  0.8883  0.9431  1\n  O  O17  1  0.9442  0.1117  0.4431  1\n  O  O18  1  0.5076  0.4135  0.0086  1\n  O  O19  1  0.0558  0.6117  0.0569  1\n",
    "output": "data_image0\n_chemical_formula_structural       N5ON2O5NO6\n_chemical_formula_sum              \"N8 O12\"\n_cell_length_a       5.2079\n_cell_length_b       6.6099\n_cell_length_c       8.7766\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  N   N1        1.0000  0.0987  0.6412  0.6260  1.0000\n  N   N2        1.0000  0.5987  0.8588  0.3740  1.0000\n  N   N3        1.0000  0.4013  0.3588  0.1260  1.0000\n  N   N4        1.0000  0.9280  0.9986  0.3440  1.0000\n  N   N5        1.0000  0.9013  0.1412  0.8740  1.0000\n  O   O1        1.0000  0.4280  0.5014  0.6560  1.0000\n  N   N6        1.0000  0.0720  0.4986  0.1560  1.0000\n  N   N7        1.0000  0.5720  0.0014  0.8440  1.0000\n  O   O2        1.0000  0.0263  0.7662  0.7193  1.0000\n  O   O3        1.0000  0.0076  0.0865  0.9914  1.0000\n  O   O4        1.0000  0.9737  0.2662  0.7807  1.0000\n  O   O5        1.0000  0.4442  0.3883  0.5569  1.0000\n  O   O6        1.0000  0.9924  0.5865  0.5086  1.0000\n  N   N8        1.0000  0.4737  0.2338  0.2193  1.0000\n  O   O7        1.0000  0.5263  0.7338  0.2807  1.0000\n  O   O8        1.0000  0.4924  0.9135  0.4914  1.0000\n  O   O9        1.0000  0.5558  0.8883  0.9431  1.0000\n  O   O10       1.0000  0.9442  0.1117  0.4431  1.0000\n  O   O11       1.0000  0.5076  0.4135  0.0086  1.0000\n  O   O12       1.0000  0.0558  0.6117  0.0569  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "96db1995-eb63-4258-846a-f07852485962",
    "mp_id": "mp-621964",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2RbBiSe3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.0922\n_cell_length_b   10.0922\n_cell_length_c   10.0922\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2RbBiSe3\n_chemical_formula_sum   'K8 Rb4 Bi4 Se12'\n_cell_volume   1027.9189\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.1807  0.6807  0.8193  1\n  K  K1  1  0.6807  0.8193  0.1807  1\n  K  K2  1  0.8193  0.1807  0.6807  1\n  K  K3  1  0.3193  0.3193  0.3193  1\n  K  K4  1  0.6865  0.1865  0.3135  1\n  K  K5  1  0.1865  0.3135  0.6865  1\n  K  K6  1  0.3135  0.6865  0.1865  1\n  K  K7  1  0.8135  0.8135  0.8135  1\n  Rb  Rb8  1  0.9282  0.4282  0.0718  1\n  Rb  Rb9  1  0.4282  0.0718  0.9282  1\n  Rb  Rb10  1  0.0718  0.9282  0.4282  1\n  Rb  Rb11  1  0.5718  0.5718  0.5718  1\n  Bi  Bi12  1  0.4681  0.9681  0.5319  1\n  Bi  Bi13  1  0.9681  0.5319  0.4681  1\n  Bi  Bi14  1  0.5319  0.4681  0.9681  1\n  Bi  Bi15  1  0.0319  0.0319  0.0319  1\n  Se  Se16  1  0.0028  0.7768  0.1058  1\n  Se  Se17  1  0.8942  0.5028  0.7232  1\n  Se  Se18  1  0.2768  0.3942  0.9972  1\n  Se  Se19  1  0.5028  0.7232  0.8942  1\n  Se  Se20  1  0.3942  0.9972  0.2768  1\n  Se  Se21  1  0.7768  0.1058  0.0028  1\n  Se  Se22  1  0.9972  0.2768  0.3942  1\n  Se  Se23  1  0.1058  0.0028  0.7768  1\n  Se  Se24  1  0.7232  0.8942  0.5028  1\n  Se  Se25  1  0.4972  0.2232  0.6058  1\n  Se  Se26  1  0.6058  0.4972  0.2232  1\n  Se  Se27  1  0.2232  0.6058  0.4972  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2BiK5Rb4Bi2KBiSe12\n_chemical_formula_sum              \"K8 Bi4 Rb4 Se12\"\n_cell_length_a       10.0922\n_cell_length_b       10.0922\n_cell_length_c       10.0922\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.1807  0.6807  0.8193  1.0000\n  K   K2        1.0000  0.6807  0.8193  0.1807  1.0000\n  Bi  Bi1       1.0000  0.8193  0.1807  0.6807  1.0000\n  K   K3        1.0000  0.3193  0.3193  0.3193  1.0000\n  K   K4        1.0000  0.6865  0.1865  0.3135  1.0000\n  K   K5        1.0000  0.1865  0.3135  0.6865  1.0000\n  K   K6        1.0000  0.3135  0.6865  0.1865  1.0000\n  K   K7        1.0000  0.8135  0.8135  0.8135  1.0000\n  Rb  Rb1       1.0000  0.9282  0.4282  0.0718  1.0000\n  Rb  Rb2       1.0000  0.4282  0.0718  0.9282  1.0000\n  Rb  Rb3       1.0000  0.0718  0.9282  0.4282  1.0000\n  Rb  Rb4       1.0000  0.5718  0.5718  0.5718  1.0000\n  Bi  Bi2       1.0000  0.4681  0.9681  0.5319  1.0000\n  Bi  Bi3       1.0000  0.9681  0.5319  0.4681  1.0000\n  K   K8        1.0000  0.5319  0.4681  0.9681  1.0000\n  Bi  Bi4       1.0000  0.0319  0.0319  0.0319  1.0000\n  Se  Se1       1.0000  0.0028  0.7768  0.1058  1.0000\n  Se  Se2       1.0000  0.8942  0.5028  0.7232  1.0000\n  Se  Se3       1.0000  0.2768  0.3942  0.9972  1.0000\n  Se  Se4       1.0000  0.5028  0.7232  0.8942  1.0000\n  Se  Se5       1.0000  0.3942  0.9972  0.2768  1.0000\n  Se  Se6       1.0000  0.7768  0.1058  0.0028  1.0000\n  Se  Se7       1.0000  0.9972  0.2768  0.3942  1.0000\n  Se  Se8       1.0000  0.1058  0.0028  0.7768  1.0000\n  Se  Se9       1.0000  0.7232  0.8942  0.5028  1.0000\n  Se  Se10      1.0000  0.4972  0.2232  0.6058  1.0000\n  Se  Se11      1.0000  0.6058  0.4972  0.2232  1.0000\n  Se  Se12      1.0000  0.2232  0.6058  0.4972  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "39a32491-784d-4123-916c-83788e91261d",
    "mp_id": "mp-6257",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CsNb(BO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1036\n_cell_length_b   7.6446\n_cell_length_c   9.8804\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CsNb(BO3)2\n_chemical_formula_sum   'Cs2 Nb2 B4 O12'\n_cell_volume   309.9473\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cs  Cs0  1  0.4683  0.5000  0.7252  1\n  Cs  Cs1  1  0.5317  0.0000  0.2252  1\n  Nb  Nb2  1  0.1160  0.5000  0.3332  1\n  Nb  Nb3  1  0.8840  0.0000  0.8332  1\n  B  B4  1  0.9893  0.6632  0.0451  1\n  B  B5  1  0.0107  0.8368  0.5451  1\n  B  B6  1  0.0107  0.1632  0.5451  1\n  B  B7  1  0.9893  0.3368  0.0451  1\n  O  O8  1  0.9371  0.8084  0.9677  1\n  O  O9  1  0.0629  0.6916  0.4677  1\n  O  O10  1  0.0629  0.3084  0.4677  1\n  O  O11  1  0.9371  0.1916  0.9677  1\n  O  O12  1  0.9430  0.8224  0.6796  1\n  O  O13  1  0.0570  0.6776  0.1796  1\n  O  O14  1  0.0570  0.3224  0.1796  1\n  O  O15  1  0.9430  0.1776  0.6796  1\n  O  O16  1  0.4420  0.0000  0.8336  1\n  O  O17  1  0.5580  0.5000  0.3336  1\n  O  O18  1  0.0333  0.0000  0.4796  1\n  O  O19  1  0.9667  0.5000  0.9796  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cs2ONbB4O3NbO8\n_chemical_formula_sum              \"Cs2 O12 Nb2 B4\"\n_cell_length_a       4.1036\n_cell_length_b       7.6446\n_cell_length_c       9.8804\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cs  Cs1       1.0000  0.4683  0.5000  0.7252  1.0000\n  Cs  Cs2       1.0000  0.5317  0.0000  0.2252  1.0000\n  O   O1        1.0000  0.1160  0.5000  0.3332  1.0000\n  Nb  Nb1       1.0000  0.8840  0.0000  0.8332  1.0000\n  B   B1        1.0000  0.9893  0.6632  0.0451  1.0000\n  B   B2        1.0000  0.0107  0.8368  0.5451  1.0000\n  B   B3        1.0000  0.0107  0.1632  0.5451  1.0000\n  B   B4        1.0000  0.9893  0.3368  0.0451  1.0000\n  O   O2        1.0000  0.9371  0.8084  0.9677  1.0000\n  O   O3        1.0000  0.0629  0.6916  0.4677  1.0000\n  O   O4        1.0000  0.0629  0.3084  0.4677  1.0000\n  Nb  Nb2       1.0000  0.9371  0.1916  0.9677  1.0000\n  O   O5        1.0000  0.9430  0.8224  0.6796  1.0000\n  O   O6        1.0000  0.0570  0.6776  0.1796  1.0000\n  O   O7        1.0000  0.0570  0.3224  0.1796  1.0000\n  O   O8        1.0000  0.9430  0.1776  0.6796  1.0000\n  O   O9        1.0000  0.4420  0.0000  0.8336  1.0000\n  O   O10       1.0000  0.5580  0.5000  0.3336  1.0000\n  O   O11       1.0000  0.0333  0.0000  0.4796  1.0000\n  O   O12       1.0000  0.9667  0.5000  0.9796  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4d4c5300-ee34-4af4-8c15-97d5af154b96",
    "mp_id": "mp-625744",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MoH4O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2456\n_cell_length_b   4.3147\n_cell_length_c   6.4569\n_cell_angle_alpha   78.6431\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MoH4O5\n_chemical_formula_sum   'Mo2 H8 O10'\n_cell_volume   225.2204\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mo  Mo0  1  0.6966  0.5600  0.4850  1\n  Mo  Mo1  1  0.1966  0.4400  0.5150  1\n  H  H2  1  0.0542  0.1268  0.0520  1\n  H  H3  1  0.5542  0.8732  0.9480  1\n  H  H4  1  0.7240  0.1035  0.3023  1\n  H  H5  1  0.2240  0.8965  0.6977  1\n  H  H6  1  0.9272  0.8547  0.0577  1\n  H  H7  1  0.8350  0.3010  0.8510  1\n  H  H8  1  0.4272  0.1453  0.9423  1\n  H  H9  1  0.3350  0.6990  0.1490  1\n  O  O10  1  0.9867  0.4935  0.5135  1\n  O  O11  1  0.4867  0.5065  0.4865  1\n  O  O12  1  0.9723  0.0454  0.9684  1\n  O  O13  1  0.4723  0.9546  0.0316  1\n  O  O14  1  0.7176  0.0230  0.4563  1\n  O  O15  1  0.2176  0.9770  0.5437  1\n  O  O16  1  0.7586  0.5637  0.2226  1\n  O  O17  1  0.7385  0.4193  0.7773  1\n  O  O18  1  0.2586  0.4363  0.7774  1\n  O  O19  1  0.2385  0.5807  0.2227  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mo2HOH7O9\n_chemical_formula_sum              \"Mo2 H8 O10\"\n_cell_length_a       8.2456\n_cell_length_b       4.3147\n_cell_length_c       6.4569\n_cell_angle_alpha    78.6431\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mo  Mo1       1.0000  0.6966  0.5600  0.4850  1.0000\n  Mo  Mo2       1.0000  0.1966  0.4400  0.5150  1.0000\n  H   H1        1.0000  0.0542  0.1268  0.0520  1.0000\n  O   O1        1.0000  0.5542  0.8732  0.9480  1.0000\n  H   H2        1.0000  0.7240  0.1035  0.3023  1.0000\n  H   H3        1.0000  0.2240  0.8965  0.6977  1.0000\n  H   H4        1.0000  0.9272  0.8547  0.0577  1.0000\n  H   H5        1.0000  0.8350  0.3010  0.8510  1.0000\n  H   H6        1.0000  0.4272  0.1453  0.9423  1.0000\n  H   H7        1.0000  0.3350  0.6990  0.1490  1.0000\n  H   H8        1.0000  0.9867  0.4935  0.5135  1.0000\n  O   O2        1.0000  0.4867  0.5065  0.4865  1.0000\n  O   O3        1.0000  0.9723  0.0454  0.9684  1.0000\n  O   O4        1.0000  0.4723  0.9546  0.0316  1.0000\n  O   O5        1.0000  0.7176  0.0230  0.4563  1.0000\n  O   O6        1.0000  0.2176  0.9770  0.5437  1.0000\n  O   O7        1.0000  0.7586  0.5637  0.2226  1.0000\n  O   O8        1.0000  0.7385  0.4193  0.7773  1.0000\n  O   O9        1.0000  0.2586  0.4363  0.7774  1.0000\n  O   O10       1.0000  0.2385  0.5807  0.2227  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "77c00086-21d6-4716-baac-50d9f1848bce",
    "mp_id": "mp-626565",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti3H2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   18.7308\n_cell_length_b   18.7308\n_cell_length_c   9.5428\n_cell_angle_alpha   81.2889\n_cell_angle_beta   81.2889\n_cell_angle_gamma   11.6834\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti3H2O7\n_chemical_formula_sum   'Ti6 H4 O14'\n_cell_volume   670.0808\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.2353  0.2345  0.7691  1\n  Ti  Ti1  1  0.7655  0.7647  0.2309  1\n  Ti  Ti2  1  0.2173  0.2204  0.4674  1\n  Ti  Ti3  1  0.7796  0.7827  0.5326  1\n  Ti  Ti4  1  0.1848  0.1883  0.1429  1\n  Ti  Ti5  1  0.8117  0.8152  0.8571  1\n  H  H6  1  0.9767  0.3368  0.4022  1\n  H  H7  1  0.6632  0.0233  0.5978  1\n  H  H8  1  0.2758  0.2849  0.9570  1\n  H  H9  1  0.7151  0.7242  0.0430  1\n  O  O10  1  0.2113  0.2139  0.9451  1\n  O  O11  1  0.7861  0.7887  0.0549  1\n  O  O12  1  0.1967  0.2011  0.6505  1\n  O  O13  1  0.7989  0.8033  0.3495  1\n  O  O14  1  0.1334  0.2227  0.3639  1\n  O  O15  1  0.7773  0.8666  0.6361  1\n  O  O16  1  0.1400  0.1475  0.1265  1\n  O  O17  1  0.8525  0.8600  0.8735  1\n  O  O18  1  0.2886  0.2937  0.8561  1\n  O  O19  1  0.7063  0.7114  0.1439  1\n  O  O20  1  0.2626  0.2749  0.5517  1\n  O  O21  1  0.7251  0.7374  0.4483  1\n  O  O22  1  0.2500  0.2520  0.2609  1\n  O  O23  1  0.7480  0.7500  0.7391  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti5OH4O10TiO3\n_chemical_formula_sum              \"Ti6 O14 H4\"\n_cell_length_a       18.7308\n_cell_length_b       18.7308\n_cell_length_c       9.5428\n_cell_angle_alpha    81.2889\n_cell_angle_beta     81.2889\n_cell_angle_gamma    11.6834\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.2353  0.2345  0.7691  1.0000\n  Ti  Ti2       1.0000  0.7655  0.7647  0.2309  1.0000\n  Ti  Ti3       1.0000  0.2173  0.2204  0.4674  1.0000\n  Ti  Ti4       1.0000  0.7796  0.7827  0.5326  1.0000\n  Ti  Ti5       1.0000  0.1848  0.1883  0.1429  1.0000\n  O   O1        1.0000  0.8117  0.8152  0.8571  1.0000\n  H   H1        1.0000  0.9767  0.3368  0.4022  1.0000\n  H   H2        1.0000  0.6632  0.0233  0.5978  1.0000\n  H   H3        1.0000  0.2758  0.2849  0.9570  1.0000\n  H   H4        1.0000  0.7151  0.7242  0.0430  1.0000\n  O   O2        1.0000  0.2113  0.2139  0.9451  1.0000\n  O   O3        1.0000  0.7861  0.7887  0.0549  1.0000\n  O   O4        1.0000  0.1967  0.2011  0.6505  1.0000\n  O   O5        1.0000  0.7989  0.8033  0.3495  1.0000\n  O   O6        1.0000  0.1334  0.2227  0.3639  1.0000\n  O   O7        1.0000  0.7773  0.8666  0.6361  1.0000\n  O   O8        1.0000  0.1400  0.1475  0.1265  1.0000\n  O   O9        1.0000  0.8525  0.8600  0.8735  1.0000\n  O   O10       1.0000  0.2886  0.2937  0.8561  1.0000\n  O   O11       1.0000  0.7063  0.7114  0.1439  1.0000\n  Ti  Ti6       1.0000  0.2626  0.2749  0.5517  1.0000\n  O   O12       1.0000  0.7251  0.7374  0.4483  1.0000\n  O   O13       1.0000  0.2500  0.2520  0.2609  1.0000\n  O   O14       1.0000  0.7480  0.7500  0.7391  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a64c78cb-147e-42a7-a83e-dc49b31abf4a",
    "mp_id": "mp-630976",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_In3Ir\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0471\n_cell_length_b   7.0471\n_cell_length_c   7.2687\n_cell_angle_alpha   90.0001\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0001\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   In3Ir\n_chemical_formula_sum   'In12 Ir4'\n_cell_volume   360.9804\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.8502  0.8502  0.2570  1\n  In  In1  1  0.6498  0.3502  0.7570  1\n  In  In2  1  0.6498  0.3502  0.2430  1\n  In  In3  1  0.5000  1.0000  0.0000  1\n  In  In4  1  0.3502  0.6498  0.2430  1\n  In  In5  1  0.3502  0.6498  0.7570  1\n  In  In6  1  -0.0000  0.5000  -0.0000  1\n  In  In7  1  0.1498  0.1498  0.2570  1\n  In  In8  1  0.1498  0.1498  0.7430  1\n  In  In9  1  0.5000  1.0000  0.5000  1\n  In  In10  1  0.8502  0.8502  0.7430  1\n  In  In11  1  -0.0000  0.5000  0.5000  1\n  Ir  Ir12  1  0.6578  0.6578  -0.0000  1\n  Ir  Ir13  1  0.1578  0.8422  0.5000  1\n  Ir  Ir14  1  0.8422  0.1578  0.5000  1\n  Ir  Ir15  1  0.3422  0.3422  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       In4IrIn7Ir2InIr\n_chemical_formula_sum              \"In12 Ir4\"\n_cell_length_a       7.0471\n_cell_length_b       7.0471\n_cell_length_c       7.2687\n_cell_angle_alpha    90.0001\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0001\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.8502  0.8502  0.2570  1.0000\n  In  In2       1.0000  0.6498  0.3502  0.7570  1.0000\n  In  In3       1.0000  0.6498  0.3502  0.2430  1.0000\n  In  In4       1.0000  0.5000  1.0000  1e-06  1.0000\n  Ir  Ir1       1.0000  0.3502  0.6498  0.2430  1.0000\n  In  In5       1.0000  0.3502  0.6498  0.7570  1.0000\n  In  In6       1.0000  0.0000  0.5000  0.0000  1.0000\n  In  In7       1.0000  0.1498  0.1498  0.2570  1.0000\n  In  In8       1.0000  0.1498  0.1498  0.7430  1.0000\n  In  In9       1.0000  0.5000  1.0000  0.5000  1.0000\n  In  In10      1.0000  0.8502  0.8502  0.7430  1.0000\n  In  In11      1.0000  0.0000  0.5000  0.5000  1.0000\n  Ir  Ir2       1.0000  0.6578  0.6578  0.0000  1.0000\n  Ir  Ir3       1.0000  0.1578  0.8422  0.5000  1.0000\n  In  In12      1.0000  0.8422  0.1578  0.5000  1.0000\n  Ir  Ir4       1.0000  0.3422  0.3422  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8189420d-93b9-4002-b684-12aeedb3568a",
    "mp_id": "mp-637599",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9162\n_cell_length_b   7.9162\n_cell_length_c   5.5922\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi2O3\n_chemical_formula_sum   'Bi8 O12'\n_cell_volume   350.4452\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.2493  0.4926  0.2490  1\n  Bi  Bi1  1  0.5074  0.2493  0.7510  1\n  Bi  Bi2  1  0.7507  0.5074  0.2490  1\n  Bi  Bi3  1  0.7493  0.0074  0.2490  1\n  Bi  Bi4  1  0.2507  0.9926  0.2490  1\n  Bi  Bi5  1  0.0074  0.2507  0.7510  1\n  Bi  Bi6  1  0.9926  0.7493  0.7510  1\n  Bi  Bi7  1  0.4926  0.7507  0.7510  1\n  O  O8  1  0.2515  0.7515  0.0000  1\n  O  O9  1  0.2447  0.2553  0.5000  1\n  O  O10  1  0.7485  0.2485  0.0000  1\n  O  O11  1  0.5000  0.0000  0.0000  1\n  O  O12  1  0.7553  0.7447  0.5000  1\n  O  O13  1  0.2485  0.2515  0.0000  1\n  O  O14  1  0.0000  0.0000  0.5000  1\n  O  O15  1  0.7447  0.2447  0.5000  1\n  O  O16  1  0.2553  0.7553  0.5000  1\n  O  O17  1  0.7515  0.7485  0.0000  1\n  O  O18  1  0.0000  0.5000  0.0000  1\n  O  O19  1  0.5000  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Bi4OBi3O11Bi\n_chemical_formula_sum              \"Bi8 O12\"\n_cell_length_a       7.9162\n_cell_length_b       7.9162\n_cell_length_c       5.5922\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.2493  0.4926  0.2490  1.0000\n  Bi  Bi2       1.0000  0.5074  0.2493  0.7510  1.0000\n  Bi  Bi3       1.0000  0.7507  0.5074  0.2490  1.0000\n  Bi  Bi4       1.0000  0.7493  0.0074  0.2490  1.0000\n  O   O1        1.0000  0.2507  0.9926  0.2490  1.0000\n  Bi  Bi5       1.0000  0.0074  0.2507  0.7510  1.0000\n  Bi  Bi6       1.0000  0.9926  0.7493  0.7510  1.0000\n  Bi  Bi7       1.0000  0.4926  0.7507  0.7510  1.0000\n  O   O2        1.0000  0.2515  0.7515  0.0000  1.0000\n  O   O3        1.0000  0.2447  0.2553  0.5000  1.0000\n  O   O4        1.0000  0.7485  0.2485  0.0000  1.0000\n  O   O5        1.0000  0.5000  0.0000  0.0000  1.0000\n  O   O6        1.0000  0.7553  0.7447  0.5000  1.0000\n  O   O7        1.0000  0.2485  0.2515  0.0000  1.0000\n  O   O8        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O9        1.0000  0.7447  0.2447  0.5000  1.0000\n  O   O10       1.0000  0.2553  0.7553  0.5000  1.0000\n  O   O11       1.0000  0.7515  0.7485  0.0000  1.0000\n  O   O12       1.0000  0.0000  0.5000  0.0000  1.0000\n  Bi  Bi8       1.0000  0.5000  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "94e9287c-4019-4bdb-977e-b6da1c94153b",
    "mp_id": "mp-639826",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_C2SeN2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9150\n_cell_length_b   8.3396\n_cell_length_c   13.7706\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   C2SeN2\n_chemical_formula_sum   'C16 Se8 N16'\n_cell_volume   794.1324\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  C  C0  1  0.7272  0.6930  0.3629  1\n  C  C1  1  0.4087  0.1074  0.8882  1\n  C  C2  1  0.2272  0.3070  0.1371  1\n  C  C3  1  0.2728  0.3070  0.6371  1\n  C  C4  1  0.7272  0.1930  0.1371  1\n  C  C5  1  0.5913  0.3926  0.3882  1\n  C  C6  1  0.9087  0.3926  0.8882  1\n  C  C7  1  0.0913  0.6074  0.1118  1\n  C  C8  1  0.4087  0.6074  0.6118  1\n  C  C9  1  0.0913  0.1074  0.3882  1\n  C  C10  1  0.9087  0.8926  0.6118  1\n  C  C11  1  0.7728  0.1930  0.6371  1\n  C  C12  1  0.2272  0.8070  0.3629  1\n  C  C13  1  0.5913  0.8926  0.1118  1\n  C  C14  1  0.7728  0.6930  0.8629  1\n  C  C15  1  0.2728  0.8070  0.8629  1\n  Se  Se16  1  0.3347  0.5129  0.1276  1\n  Se  Se17  1  0.6653  0.4872  0.8724  1\n  Se  Se18  1  0.1653  0.0129  0.8724  1\n  Se  Se19  1  0.3347  0.0129  0.3724  1\n  Se  Se20  1  0.6653  0.9871  0.6276  1\n  Se  Se21  1  0.8347  0.9871  0.1276  1\n  Se  Se22  1  0.1653  0.5129  0.6276  1\n  Se  Se23  1  0.8347  0.4872  0.3724  1\n  N  N24  1  0.1643  0.1772  0.1399  1\n  N  N25  1  0.3357  0.1772  0.6399  1\n  N  N26  1  0.1643  0.6772  0.3601  1\n  N  N27  1  0.8357  0.8228  0.8601  1\n  N  N28  1  0.9473  0.1784  0.4003  1\n  N  N29  1  0.0527  0.8216  0.5997  1\n  N  N30  1  0.5527  0.1784  0.9003  1\n  N  N31  1  0.8357  0.3228  0.6399  1\n  N  N32  1  0.5527  0.6784  0.5997  1\n  N  N33  1  0.6643  0.8228  0.3601  1\n  N  N34  1  0.0527  0.3216  0.9003  1\n  N  N35  1  0.4473  0.8216  0.0997  1\n  N  N36  1  0.6643  0.3228  0.1399  1\n  N  N37  1  0.3357  0.6772  0.8601  1\n  N  N38  1  0.4473  0.3216  0.4003  1\n  N  N39  1  0.9473  0.6784  0.0997  1\n",
    "output": "data_image0\n_chemical_formula_structural       C12NC3Se8N3CN12\n_chemical_formula_sum              \"C16 N16 Se8\"\n_cell_length_a       6.9150\n_cell_length_b       8.3396\n_cell_length_c       13.7706\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  C   C1        1.0000  0.7272  0.6930  0.3629  1.0000\n  C   C2        1.0000  0.4087  0.1074  0.8882  1.0000\n  C   C3        1.0000  0.2272  0.3070  0.1371  1.0000\n  C   C4        1.0000  0.2728  0.3070  0.6371  1.0000\n  C   C5        1.0000  0.7272  0.1930  0.1371  1.0000\n  C   C6        1.0000  0.5913  0.3926  0.3882  1.0000\n  C   C7        1.0000  0.9087  0.3926  0.8882  1.0000\n  C   C8        1.0000  0.0913  0.6074  0.1118  1.0000\n  C   C9        1.0000  0.4087  0.6074  0.6118  1.0000\n  C   C10       1.0000  0.0913  0.1074  0.3882  1.0000\n  C   C11       1.0000  0.9087  0.8926  0.6118  1.0000\n  C   C12       1.0000  0.7728  0.1930  0.6371  1.0000\n  N   N1        1.0000  0.2272  0.8070  0.3629  1.0000\n  C   C13       1.0000  0.5913  0.8926  0.1118  1.0000\n  C   C14       1.0000  0.7728  0.6930  0.8629  1.0000\n  C   C15       1.0000  0.2728  0.8070  0.8629  1.0000\n  Se  Se1       1.0000  0.3347  0.5128  0.1276  1.0000\n  Se  Se2       1.0000  0.6653  0.4871  0.8724  1.0000\n  Se  Se3       1.0000  0.1653  0.0128  0.8724  1.0000\n  Se  Se4       1.0000  0.3347  0.0128  0.3724  1.0000\n  Se  Se5       1.0000  0.6653  0.9871  0.6276  1.0000\n  Se  Se6       1.0000  0.8347  0.9871  0.1276  1.0000\n  Se  Se7       1.0000  0.1653  0.5128  0.6276  1.0000\n  Se  Se8       1.0000  0.8347  0.4871  0.3724  1.0000\n  N   N2        1.0000  0.1643  0.1772  0.1399  1.0000\n  N   N3        1.0000  0.3357  0.1772  0.6399  1.0000\n  N   N4        1.0000  0.1643  0.6772  0.3601  1.0000\n  C   C16       1.0000  0.8357  0.8228  0.8601  1.0000\n  N   N5        1.0000  0.9473  0.1784  0.4003  1.0000\n  N   N6        1.0000  0.0527  0.8216  0.5997  1.0000\n  N   N7        1.0000  0.5527  0.1784  0.9003  1.0000\n  N   N8        1.0000  0.8357  0.3228  0.6399  1.0000\n  N   N9        1.0000  0.5527  0.6784  0.5997  1.0000\n  N   N10       1.0000  0.6643  0.8228  0.3601  1.0000\n  N   N11       1.0000  0.0527  0.3216  0.9003  1.0000\n  N   N12       1.0000  0.4473  0.8216  0.0997  1.0000\n  N   N13       1.0000  0.6643  0.3228  0.1399  1.0000\n  N   N14       1.0000  0.3357  0.6772  0.8601  1.0000\n  N   N15       1.0000  0.4473  0.3216  0.4003  1.0000\n  N   N16       1.0000  0.9473  0.6784  0.0997  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bd01c48a-b9d9-40cd-b224-fde27c6c047a",
    "mp_id": "mp-642315",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Lu6CuTe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9443\n_cell_length_b   11.3165\n_cell_length_c   21.1447\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Lu6CuTe2\n_chemical_formula_sum   'Lu24 Cu4 Te8'\n_cell_volume   943.8160\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Lu  Lu0  1  0.7500  0.9400  0.6414  1\n  Lu  Lu1  1  0.2500  0.3803  0.4757  1\n  Lu  Lu2  1  0.2500  0.1197  0.9757  1\n  Lu  Lu3  1  0.2500  0.3094  0.1086  1\n  Lu  Lu4  1  0.7500  0.2369  0.2319  1\n  Lu  Lu5  1  0.2500  0.7631  0.7681  1\n  Lu  Lu6  1  0.7500  0.6906  0.8914  1\n  Lu  Lu7  1  0.2500  0.0297  0.1545  1\n  Lu  Lu8  1  0.7500  0.1123  0.4937  1\n  Lu  Lu9  1  0.2500  0.4703  0.6545  1\n  Lu  Lu10  1  0.7500  0.8803  0.0243  1\n  Lu  Lu11  1  0.7500  0.5600  0.1414  1\n  Lu  Lu12  1  0.7500  0.8094  0.3914  1\n  Lu  Lu13  1  0.7500  0.6197  0.5243  1\n  Lu  Lu14  1  0.2500  0.4400  0.8586  1\n  Lu  Lu15  1  0.2500  0.0600  0.3586  1\n  Lu  Lu16  1  0.2500  0.1906  0.6086  1\n  Lu  Lu17  1  0.2500  0.7369  0.2681  1\n  Lu  Lu18  1  0.7500  0.3877  0.9937  1\n  Lu  Lu19  1  0.7500  0.5297  0.3455  1\n  Lu  Lu20  1  0.2500  0.6123  0.0063  1\n  Lu  Lu21  1  0.7500  0.2631  0.7319  1\n  Lu  Lu22  1  0.7500  0.9703  0.8455  1\n  Lu  Lu23  1  0.2500  0.8877  0.5063  1\n  Cu  Cu24  1  0.7500  0.1362  0.0767  1\n  Cu  Cu25  1  0.2500  0.6362  0.4233  1\n  Cu  Cu26  1  0.2500  0.8638  0.9233  1\n  Cu  Cu27  1  0.7500  0.3638  0.5767  1\n  Te  Te28  1  0.2500  0.7331  0.6258  1\n  Te  Te29  1  0.7500  0.2669  0.3742  1\n  Te  Te30  1  0.2500  0.0459  0.7387  1\n  Te  Te31  1  0.2500  0.4541  0.2387  1\n  Te  Te32  1  0.7500  0.2331  0.8742  1\n  Te  Te33  1  0.7500  0.5459  0.7613  1\n  Te  Te34  1  0.2500  0.7669  0.1258  1\n  Te  Te35  1  0.7500  0.9541  0.2613  1\n",
    "output": "data_image0\n_chemical_formula_structural       Lu5TeLu18Cu4Te3LuTe4\n_chemical_formula_sum              \"Lu24 Te8 Cu4\"\n_cell_length_a       3.9443\n_cell_length_b       11.3165\n_cell_length_c       21.1447\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Lu  Lu1       1.0000  0.7500  0.9400  0.6414  1.0000\n  Lu  Lu2       1.0000  0.2500  0.3803  0.4757  1.0000\n  Lu  Lu3       1.0000  0.2500  0.1197  0.9757  1.0000\n  Lu  Lu4       1.0000  0.2500  0.3094  0.1086  1.0000\n  Lu  Lu5       1.0000  0.7500  0.2369  0.2319  1.0000\n  Te  Te1       1.0000  0.2500  0.7631  0.7681  1.0000\n  Lu  Lu6       1.0000  0.7500  0.6906  0.8914  1.0000\n  Lu  Lu7       1.0000  0.2500  0.0297  0.1545  1.0000\n  Lu  Lu8       1.0000  0.7500  0.1123  0.4937  1.0000\n  Lu  Lu9       1.0000  0.2500  0.4703  0.6545  1.0000\n  Lu  Lu10      1.0000  0.7500  0.8803  0.0243  1.0000\n  Lu  Lu11      1.0000  0.7500  0.5600  0.1414  1.0000\n  Lu  Lu12      1.0000  0.7500  0.8094  0.3914  1.0000\n  Lu  Lu13      1.0000  0.7500  0.6197  0.5243  1.0000\n  Lu  Lu14      1.0000  0.2500  0.4400  0.8586  1.0000\n  Lu  Lu15      1.0000  0.2500  0.0600  0.3586  1.0000\n  Lu  Lu16      1.0000  0.2500  0.1906  0.6086  1.0000\n  Lu  Lu17      1.0000  0.2500  0.7369  0.2681  1.0000\n  Lu  Lu18      1.0000  0.7500  0.3877  0.9937  1.0000\n  Lu  Lu19      1.0000  0.7500  0.5297  0.3455  1.0000\n  Lu  Lu20      1.0000  0.2500  0.6123  0.0063  1.0000\n  Lu  Lu21      1.0000  0.7500  0.2631  0.7319  1.0000\n  Lu  Lu22      1.0000  0.7500  0.9703  0.8455  1.0000\n  Lu  Lu23      1.0000  0.2500  0.8877  0.5063  1.0000\n  Cu  Cu1       1.0000  0.7500  0.1362  0.0767  1.0000\n  Cu  Cu2       1.0000  0.2500  0.6362  0.4233  1.0000\n  Cu  Cu3       1.0000  0.2500  0.8638  0.9233  1.0000\n  Cu  Cu4       1.0000  0.7500  0.3638  0.5767  1.0000\n  Te  Te2       1.0000  0.2500  0.7331  0.6258  1.0000\n  Te  Te3       1.0000  0.7500  0.2669  0.3742  1.0000\n  Te  Te4       1.0000  0.2500  0.0459  0.7387  1.0000\n  Lu  Lu24      1.0000  0.2500  0.4541  0.2387  1.0000\n  Te  Te5       1.0000  0.7500  0.2331  0.8742  1.0000\n  Te  Te6       1.0000  0.7500  0.5459  0.7613  1.0000\n  Te  Te7       1.0000  0.2500  0.7669  0.1258  1.0000\n  Te  Te8       1.0000  0.7500  0.9541  0.2613  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8577013c-0f96-4978-8bbe-f93bf1c56dc3",
    "mp_id": "mp-644221",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H3CSClO\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5321\n_cell_length_b   5.4101\n_cell_length_c   10.4419\n_cell_angle_alpha   58.8417\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H3CSClO\n_chemical_formula_sum   'H12 C4 S4 Cl4 O4'\n_cell_volume   412.4601\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.2292  0.9956  0.5755  1\n  H  H1  1  0.2708  0.9956  0.0755  1\n  H  H2  1  0.7708  0.0044  0.4245  1\n  H  H3  1  0.7292  0.0044  0.9245  1\n  H  H4  1  0.0371  0.1634  0.5456  1\n  H  H5  1  0.4629  0.1634  0.0456  1\n  H  H6  1  0.9629  0.8366  0.4544  1\n  H  H7  1  0.5371  0.8366  0.9544  1\n  H  H8  1  0.2035  0.3182  0.5856  1\n  H  H9  1  0.2965  0.3182  0.0856  1\n  H  H10  1  0.7965  0.6818  0.4144  1\n  H  H11  1  0.7035  0.6818  0.9144  1\n  C  C12  1  0.1493  0.1169  0.6052  1\n  C  C13  1  0.3507  0.1169  0.1052  1\n  C  C14  1  0.8507  0.8831  0.3948  1\n  C  C15  1  0.6493  0.8831  0.8948  1\n  S  S16  1  0.1091  0.9057  0.8026  1\n  S  S17  1  0.3909  0.9057  0.3026  1\n  S  S18  1  0.8909  0.0943  0.1974  1\n  S  S19  1  0.6091  0.0943  0.6974  1\n  Cl  Cl20  1  0.0163  0.5373  0.7985  1\n  Cl  Cl21  1  0.4837  0.5373  0.2985  1\n  Cl  Cl22  1  0.9837  0.4627  0.2015  1\n  Cl  Cl23  1  0.5163  0.4627  0.7015  1\n  O  O24  1  0.2632  0.8235  0.8791  1\n  O  O25  1  0.2368  0.8235  0.3791  1\n  O  O26  1  0.7368  0.1765  0.1209  1\n  O  O27  1  0.7632  0.1765  0.6209  1\n",
    "output": "data_image0\n_chemical_formula_structural       H5SH6C4S2HSCl4O4\n_chemical_formula_sum              \"H12 S4 C4 Cl4 O4\"\n_cell_length_a       8.5321\n_cell_length_b       5.4101\n_cell_length_c       10.4419\n_cell_angle_alpha    58.8417\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.2292  0.9956  0.5755  1.0000\n  H   H2        1.0000  0.2708  0.9956  0.0755  1.0000\n  H   H3        1.0000  0.7708  0.0044  0.4245  1.0000\n  H   H4        1.0000  0.7292  0.0044  0.9245  1.0000\n  H   H5        1.0000  0.0371  0.1634  0.5456  1.0000\n  S   S1        1.0000  0.4629  0.1634  0.0456  1.0000\n  H   H6        1.0000  0.9629  0.8366  0.4544  1.0000\n  H   H7        1.0000  0.5371  0.8366  0.9544  1.0000\n  H   H8        1.0000  0.2035  0.3182  0.5856  1.0000\n  H   H9        1.0000  0.2965  0.3182  0.0856  1.0000\n  H   H10       1.0000  0.7965  0.6818  0.4144  1.0000\n  H   H11       1.0000  0.7035  0.6818  0.9144  1.0000\n  C   C1        1.0000  0.1493  0.1169  0.6052  1.0000\n  C   C2        1.0000  0.3507  0.1169  0.1052  1.0000\n  C   C3        1.0000  0.8507  0.8831  0.3948  1.0000\n  C   C4        1.0000  0.6493  0.8831  0.8948  1.0000\n  S   S2        1.0000  0.1091  0.9057  0.8026  1.0000\n  S   S3        1.0000  0.3909  0.9057  0.3026  1.0000\n  H   H12       1.0000  0.8909  0.0943  0.1974  1.0000\n  S   S4        1.0000  0.6091  0.0943  0.6974  1.0000\n  Cl  Cl1       1.0000  0.0163  0.5373  0.7985  1.0000\n  Cl  Cl2       1.0000  0.4837  0.5373  0.2985  1.0000\n  Cl  Cl3       1.0000  0.9837  0.4627  0.2015  1.0000\n  Cl  Cl4       1.0000  0.5163  0.4627  0.7015  1.0000\n  O   O1        1.0000  0.2632  0.8235  0.8791  1.0000\n  O   O2        1.0000  0.2368  0.8235  0.3791  1.0000\n  O   O3        1.0000  0.7368  0.1765  0.1209  1.0000\n  O   O4        1.0000  0.7632  0.1765  0.6209  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0b3c30b1-a889-415e-9b25-c41d5a2e8b3f",
    "mp_id": "mp-644529",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TbGa2Co3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.9873\n_cell_length_b   8.9873\n_cell_length_c   3.8280\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TbGa2Co3\n_chemical_formula_sum   'Tb3 Ga6 Co9'\n_cell_volume   267.7673\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tb  Tb0  1  0.6667  0.3333  0.5000  1\n  Tb  Tb1  1  0.3333  0.6667  0.5000  1\n  Tb  Tb2  1  0.0000  0.0000  0.0000  1\n  Ga  Ga3  1  0.6841  0.6841  0.5000  1\n  Ga  Ga4  1  0.3159  0.0000  0.5000  1\n  Ga  Ga5  1  0.0000  0.3159  0.5000  1\n  Ga  Ga6  1  0.3159  0.3159  0.5000  1\n  Ga  Ga7  1  0.6841  0.0000  0.5000  1\n  Ga  Ga8  1  0.0000  0.6841  0.5000  1\n  Co  Co9  1  0.8167  0.1833  0.0000  1\n  Co  Co10  1  0.8167  0.6335  0.0000  1\n  Co  Co11  1  0.3665  0.1833  0.0000  1\n  Co  Co12  1  0.1833  0.8167  0.0000  1\n  Co  Co13  1  0.6335  0.8167  0.0000  1\n  Co  Co14  1  0.1833  0.3665  0.0000  1\n  Co  Co15  1  0.5000  0.5000  0.0000  1\n  Co  Co16  1  0.5000  0.0000  0.0000  1\n  Co  Co17  1  0.0000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tb3Ga4CoGaCo2GaCo6\n_chemical_formula_sum              \"Tb3 Ga6 Co9\"\n_cell_length_a       8.9873\n_cell_length_b       8.9873\n_cell_length_c       3.8280\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tb  Tb1       1.0000  0.6667  0.3333  0.5000  1.0000\n  Tb  Tb2       1.0000  0.3333  0.6667  0.5000  1.0000\n  Tb  Tb3       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ga  Ga1       1.0000  0.6841  0.6841  0.5000  1.0000\n  Ga  Ga2       1.0000  0.3159  0.0000  0.5000  1.0000\n  Ga  Ga3       1.0000  0.0000  0.3159  0.5000  1.0000\n  Ga  Ga4       1.0000  0.3159  0.3159  0.5000  1.0000\n  Co  Co1       1.0000  0.6841  0.0000  0.5000  1.0000\n  Ga  Ga5       1.0000  0.0000  0.6841  0.5000  1.0000\n  Co  Co2       1.0000  0.8167  0.1833  0.0000  1.0000\n  Co  Co3       1.0000  0.8167  0.6335  0.0000  1.0000\n  Ga  Ga6       1.0000  0.3665  0.1833  0.0000  1.0000\n  Co  Co4       1.0000  0.1833  0.8167  0.0000  1.0000\n  Co  Co5       1.0000  0.6335  0.8167  0.0000  1.0000\n  Co  Co6       1.0000  0.1833  0.3665  0.0000  1.0000\n  Co  Co7       1.0000  0.5000  0.5000  0.0000  1.0000\n  Co  Co8       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co9       1.0000  0.0000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5abeb490-77ed-4abe-b526-a21064ab76a2",
    "mp_id": "mp-644741",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_In2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.2007\n_cell_length_b   5.8613\n_cell_length_c   12.9481\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   In2O3\n_chemical_formula_sum   'In8 O12'\n_cell_volume   242.9085\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.7500  0.2344  0.5483  1\n  In  In1  1  0.7500  0.7344  0.9517  1\n  In  In2  1  0.7500  0.3262  0.3050  1\n  In  In3  1  0.2500  0.1738  0.8050  1\n  In  In4  1  0.2500  0.7656  0.4517  1\n  In  In5  1  0.2500  0.2656  0.0483  1\n  In  In6  1  0.2500  0.6738  0.6950  1\n  In  In7  1  0.7500  0.8262  0.1950  1\n  O  O8  1  0.7500  0.4792  0.0992  1\n  O  O9  1  0.7500  0.6202  0.5674  1\n  O  O10  1  0.7500  0.3503  0.7216  1\n  O  O11  1  0.2500  0.8798  0.0674  1\n  O  O12  1  0.7500  0.8503  0.7784  1\n  O  O13  1  0.7500  0.9792  0.4008  1\n  O  O14  1  0.2500  0.6497  0.2784  1\n  O  O15  1  0.2500  0.3798  0.4326  1\n  O  O16  1  0.2500  0.1497  0.2216  1\n  O  O17  1  0.2500  0.5208  0.9008  1\n  O  O18  1  0.2500  0.0208  0.5992  1\n  O  O19  1  0.7500  0.1202  0.9326  1\n",
    "output": "data_image0\n_chemical_formula_structural       InOIn6O11In\n_chemical_formula_sum              \"In8 O12\"\n_cell_length_a       3.2007\n_cell_length_b       5.8613\n_cell_length_c       12.9481\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  In  In1       1.0000  0.7500  0.2344  0.5483  1.0000\n  O   O1        1.0000  0.7500  0.7344  0.9517  1.0000\n  In  In2       1.0000  0.7500  0.3262  0.3050  1.0000\n  In  In3       1.0000  0.2500  0.1738  0.8050  1.0000\n  In  In4       1.0000  0.2500  0.7656  0.4517  1.0000\n  In  In5       1.0000  0.2500  0.2656  0.0483  1.0000\n  In  In6       1.0000  0.2500  0.6738  0.6950  1.0000\n  In  In7       1.0000  0.7500  0.8262  0.1950  1.0000\n  O   O2        1.0000  0.7500  0.4792  0.0992  1.0000\n  O   O3        1.0000  0.7500  0.6202  0.5674  1.0000\n  O   O4        1.0000  0.7500  0.3503  0.7216  1.0000\n  O   O5        1.0000  0.2500  0.8798  0.0674  1.0000\n  O   O6        1.0000  0.7500  0.8503  0.7784  1.0000\n  O   O7        1.0000  0.7500  0.9792  0.4008  1.0000\n  O   O8        1.0000  0.2500  0.6497  0.2784  1.0000\n  O   O9        1.0000  0.2500  0.3798  0.4326  1.0000\n  O   O10       1.0000  0.2500  0.1497  0.2216  1.0000\n  O   O11       1.0000  0.2500  0.5208  0.9008  1.0000\n  O   O12       1.0000  0.2500  0.0208  0.5992  1.0000\n  In  In8       1.0000  0.7500  0.1202  0.9326  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "493d021d-1031-49a0-9120-fe6ae55c610c",
    "mp_id": "mp-654225",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KFe(SeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5344\n_cell_length_b   8.2691\n_cell_length_c   13.1826\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KFe(SeO3)2\n_chemical_formula_sum   'K4 Fe4 Se8 O24'\n_cell_volume   603.2960\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2500  0.5065  0.3737  1\n  K  K1  1  0.2500  0.9935  0.8737  1\n  K  K2  1  0.7500  0.4935  0.6263  1\n  K  K3  1  0.7500  0.0065  0.1263  1\n  Fe  Fe4  1  0.2500  0.8025  0.6023  1\n  Fe  Fe5  1  0.7500  0.3025  0.8977  1\n  Fe  Fe6  1  0.2500  0.6975  0.1023  1\n  Fe  Fe7  1  0.7500  0.1975  0.3977  1\n  Se  Se8  1  0.7500  0.0110  0.7030  1\n  Se  Se9  1  0.2500  0.9890  0.2970  1\n  Se  Se10  1  0.2500  0.5110  0.7970  1\n  Se  Se11  1  0.7500  0.7935  0.4385  1\n  Se  Se12  1  0.7500  0.7065  0.9385  1\n  Se  Se13  1  0.2500  0.2065  0.5615  1\n  Se  Se14  1  0.7500  0.4890  0.2030  1\n  Se  Se15  1  0.2500  0.2935  0.0615  1\n  O  O16  1  0.5067  0.6206  0.2060  1\n  O  O17  1  0.0067  0.3794  0.7940  1\n  O  O18  1  0.2500  0.0073  0.5227  1\n  O  O19  1  0.4930  0.2123  0.9958  1\n  O  O20  1  0.2500  0.5733  0.6707  1\n  O  O21  1  0.0070  0.2123  0.9958  1\n  O  O22  1  0.9933  0.8794  0.7060  1\n  O  O23  1  0.2500  0.4927  0.0227  1\n  O  O24  1  0.9933  0.6206  0.2060  1\n  O  O25  1  0.5070  0.7877  0.0042  1\n  O  O26  1  0.7500  0.5073  0.9773  1\n  O  O27  1  0.9930  0.7123  0.5042  1\n  O  O28  1  0.0067  0.1206  0.2940  1\n  O  O29  1  0.2500  0.9267  0.1707  1\n  O  O30  1  0.5067  0.8794  0.7060  1\n  O  O31  1  0.4933  0.3794  0.7940  1\n  O  O32  1  0.9930  0.7877  0.0042  1\n  O  O33  1  0.4933  0.1206  0.2940  1\n  O  O34  1  0.5070  0.7123  0.5042  1\n  O  O35  1  0.7500  0.9927  0.4773  1\n  O  O36  1  0.0070  0.2877  0.4958  1\n  O  O37  1  0.4930  0.2877  0.4958  1\n  O  O38  1  0.7500  0.4267  0.3293  1\n  O  O39  1  0.7500  0.0733  0.8293  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2FeKFeKFe2Se8O24\n_chemical_formula_sum              \"K4 Fe4 Se8 O24\"\n_cell_length_a       5.5344\n_cell_length_b       8.2691\n_cell_length_c       13.1826\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2500  0.5065  0.3737  1.0000\n  K   K2        1.0000  0.2500  0.9935  0.8737  1.0000\n  Fe  Fe1       1.0000  0.7500  0.4935  0.6263  1.0000\n  K   K3        1.0000  0.7500  0.0065  0.1263  1.0000\n  Fe  Fe2       1.0000  0.2500  0.8025  0.6023  1.0000\n  K   K4        1.0000  0.7500  0.3025  0.8977  1.0000\n  Fe  Fe3       1.0000  0.2500  0.6975  0.1023  1.0000\n  Fe  Fe4       1.0000  0.7500  0.1975  0.3977  1.0000\n  Se  Se1       1.0000  0.7500  0.0110  0.7030  1.0000\n  Se  Se2       1.0000  0.2500  0.9890  0.2970  1.0000\n  Se  Se3       1.0000  0.2500  0.5110  0.7970  1.0000\n  Se  Se4       1.0000  0.7500  0.7935  0.4385  1.0000\n  Se  Se5       1.0000  0.7500  0.7065  0.9385  1.0000\n  Se  Se6       1.0000  0.2500  0.2065  0.5615  1.0000\n  Se  Se7       1.0000  0.7500  0.4890  0.2030  1.0000\n  Se  Se8       1.0000  0.2500  0.2935  0.0615  1.0000\n  O   O1        1.0000  0.5067  0.6206  0.2060  1.0000\n  O   O2        1.0000  0.0067  0.3794  0.7940  1.0000\n  O   O3        1.0000  0.2500  0.0073  0.5227  1.0000\n  O   O4        1.0000  0.4930  0.2123  0.9958  1.0000\n  O   O5        1.0000  0.2500  0.5733  0.6707  1.0000\n  O   O6        1.0000  0.0070  0.2123  0.9958  1.0000\n  O   O7        1.0000  0.9933  0.8794  0.7060  1.0000\n  O   O8        1.0000  0.2500  0.4927  0.0227  1.0000\n  O   O9        1.0000  0.9933  0.6206  0.2060  1.0000\n  O   O10       1.0000  0.5070  0.7877  0.0042  1.0000\n  O   O11       1.0000  0.7500  0.5073  0.9773  1.0000\n  O   O12       1.0000  0.9930  0.7123  0.5042  1.0000\n  O   O13       1.0000  0.0067  0.1206  0.2940  1.0000\n  O   O14       1.0000  0.2500  0.9267  0.1707  1.0000\n  O   O15       1.0000  0.5067  0.8794  0.7060  1.0000\n  O   O16       1.0000  0.4933  0.3794  0.7940  1.0000\n  O   O17       1.0000  0.9930  0.7877  0.0042  1.0000\n  O   O18       1.0000  0.4933  0.1206  0.2940  1.0000\n  O   O19       1.0000  0.5070  0.7123  0.5042  1.0000\n  O   O20       1.0000  0.7500  0.9927  0.4773  1.0000\n  O   O21       1.0000  0.0070  0.2877  0.4958  1.0000\n  O   O22       1.0000  0.4930  0.2877  0.4958  1.0000\n  O   O23       1.0000  0.7500  0.4267  0.3293  1.0000\n  O   O24       1.0000  0.7500  0.0733  0.8293  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5aa1fc74-b337-4af5-b013-6c795a866f92",
    "mp_id": "mp-6653",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2ErNbO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0253\n_cell_length_b   6.0253\n_cell_length_c   6.0253\n_cell_angle_alpha   60.0000\n_cell_angle_beta   60.0000\n_cell_angle_gamma   60.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2ErNbO6\n_chemical_formula_sum   'Ba2 Er1 Nb1 O6'\n_cell_volume   154.6732\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.2500  0.2500  1\n  Ba  Ba1  1  0.7500  0.7500  0.7500  1\n  Er  Er2  1  0.0000  0.0000  0.0000  1\n  Nb  Nb3  1  0.5000  0.5000  0.5000  1\n  O  O4  1  0.7380  0.7380  0.2620  1\n  O  O5  1  0.7380  0.2620  0.7380  1\n  O  O6  1  0.2620  0.7380  0.2620  1\n  O  O7  1  0.7380  0.2620  0.2620  1\n  O  O8  1  0.2620  0.2620  0.7380  1\n  O  O9  1  0.2620  0.7380  0.7380  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba2NbErO6\n_chemical_formula_sum              \"Ba2 Nb1 Er1 O6\"\n_cell_length_a       6.0253\n_cell_length_b       6.0253\n_cell_length_c       6.0253\n_cell_angle_alpha    60.0000\n_cell_angle_beta     60.0000\n_cell_angle_gamma    60.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.2500  0.2500  0.2500  1.0000\n  Ba  Ba2       1.0000  0.7500  0.7500  0.7500  1.0000\n  Nb  Nb1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Er  Er1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.7380  0.7380  0.2620  1.0000\n  O   O2        1.0000  0.7380  0.2620  0.7380  1.0000\n  O   O3        1.0000  0.2620  0.7380  0.2620  1.0000\n  O   O4        1.0000  0.7380  0.2620  0.2620  1.0000\n  O   O5        1.0000  0.2620  0.2620  0.7380  1.0000\n  O   O6        1.0000  0.2620  0.7380  0.7380  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b1568213-9478-42c7-a87d-febc418cd862",
    "mp_id": "mp-667200",
    "action_prompt": "Swap the spatial positions of atoms at indices 58 and 35 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaCa2TiSi2O8F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8036\n_cell_length_b   7.6319\n_cell_length_c   19.4443\n_cell_angle_alpha   101.2964\n_cell_angle_beta   90.3223\n_cell_angle_gamma   89.9514\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaCa2TiSi2O8F\n_chemical_formula_sum   'Na4 Ca8 Ti4 Si8 O32 F4'\n_cell_volume   844.5380\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.7370  0.9958  0.5081  1\n  Na  Na1  1  0.0206  0.0049  0.0035  1\n  Na  Na2  1  0.0203  0.4987  0.0034  1\n  Na  Na3  1  0.7332  0.5196  0.5090  1\n  Ca  Ca4  1  0.9092  0.3345  0.6694  1\n  Ca  Ca5  1  0.5382  0.6593  0.3261  1\n  Ca  Ca6  1  0.2174  0.6631  0.8236  1\n  Ca  Ca7  1  0.5302  0.1604  0.3229  1\n  Ca  Ca8  1  0.8082  0.8354  0.1771  1\n  Ca  Ca9  1  0.2251  0.1574  0.8223  1\n  Ca  Ca10  1  0.8209  0.3398  0.1769  1\n  Ca  Ca11  1  0.9430  0.8360  0.6738  1\n  Ti  Ti12  1  0.2579  0.2625  0.5165  1\n  Ti  Ti13  1  0.4636  0.2622  0.0256  1\n  Ti  Ti14  1  0.5956  0.7356  0.9718  1\n  Ti  Ti15  1  0.1812  0.7337  0.4743  1\n  Si  Si16  1  0.7132  0.9433  0.8476  1\n  Si  Si17  1  0.4221  0.1001  0.6478  1\n  Si  Si18  1  0.3113  0.0579  0.1532  1\n  Si  Si19  1  0.3129  0.5947  0.1518  1\n  Si  Si20  1  0.0435  0.9363  0.3471  1\n  Si  Si21  1  0.0440  0.4029  0.3495  1\n  Si  Si22  1  0.4255  0.5495  0.6490  1\n  Si  Si23  1  0.7136  0.4049  0.8444  1\n  O  O24  1  0.2965  0.7228  0.9502  1\n  O  O25  1  0.2900  0.9041  0.3114  1\n  O  O26  1  0.3357  0.4815  0.0726  1\n  O  O27  1  0.3227  0.2211  0.9422  1\n  O  O28  1  0.3280  0.0964  0.0745  1\n  O  O29  1  0.7639  0.2737  0.0472  1\n  O  O30  1  0.6858  0.6082  0.6659  1\n  O  O31  1  0.9382  0.4006  0.7958  1\n  O  O32  1  0.4813  0.7253  0.4535  1\n  O  O33  1  0.3883  0.4804  0.5653  1\n  O  O34  1  0.3902  0.0923  0.5646  1\n  O  O35  1  0.6801  0.0543  0.6661  1\n  O  O36  1  0.9486  0.8968  0.8049  1\n  O  O37  1  0.0313  0.5146  0.4296  1\n  O  O38  1  0.1966  0.0850  0.6932  1\n  O  O39  1  0.7328  0.9115  0.9272  1\n  O  O40  1  0.5442  0.1001  0.1980  1\n  O  O41  1  0.7515  0.5278  0.9212  1\n  O  O42  1  0.4650  0.9083  0.8127  1\n  O  O43  1  0.2894  0.4036  0.3136  1\n  O  O44  1  0.0564  0.0905  0.1833  1\n  O  O45  1  0.9596  0.2735  0.5453  1\n  O  O46  1  0.2019  0.6114  0.6949  1\n  O  O47  1  0.0554  0.5893  0.1793  1\n  O  O48  1  0.4036  0.2179  0.4355  1\n  O  O49  1  0.0284  0.8989  0.4262  1\n  O  O50  1  0.8081  0.4096  0.3061  1\n  O  O51  1  0.0576  0.7817  0.5586  1\n  O  O52  1  0.5415  0.5965  0.1985  1\n  O  O53  1  0.4586  0.4040  0.8141  1\n  O  O54  1  0.8065  0.8890  0.3042  1\n  O  O55  1  0.7290  0.7745  0.0561  1\n  F  F56  1  0.3149  0.8170  0.1322  1\n  F  F57  1  0.9983  0.1782  0.3665  1\n  F  F58  1  0.7480  0.1865  0.8666  1\n  F  F59  1  0.4569  0.3375  0.6745  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Ca8Ti4Si8O11FO20F2OF\n_chemical_formula_sum              \"Na4 Ca8 Ti4 Si8 O32 F4\"\n_cell_length_a       5.8036\n_cell_length_b       7.6319\n_cell_length_c       19.4443\n_cell_angle_alpha    101.2964\n_cell_angle_beta     90.3223\n_cell_angle_gamma    89.9514\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.7370  0.9958  0.5081  1.0000\n  Na  Na2       1.0000  0.0206  0.0049  0.0035  1.0000\n  Na  Na3       1.0000  0.0203  0.4987  0.0034  1.0000\n  Na  Na4       1.0000  0.7332  0.5196  0.5090  1.0000\n  Ca  Ca1       1.0000  0.9092  0.3345  0.6694  1.0000\n  Ca  Ca2       1.0000  0.5382  0.6593  0.3261  1.0000\n  Ca  Ca3       1.0000  0.2174  0.6631  0.8236  1.0000\n  Ca  Ca4       1.0000  0.5302  0.1604  0.3229  1.0000\n  Ca  Ca5       1.0000  0.8082  0.8354  0.1771  1.0000\n  Ca  Ca6       1.0000  0.2251  0.1574  0.8223  1.0000\n  Ca  Ca7       1.0000  0.8209  0.3398  0.1769  1.0000\n  Ca  Ca8       1.0000  0.9430  0.8360  0.6738  1.0000\n  Ti  Ti1       1.0000  0.2579  0.2625  0.5165  1.0000\n  Ti  Ti2       1.0000  0.4636  0.2622  0.0256  1.0000\n  Ti  Ti3       1.0000  0.5956  0.7355  0.9718  1.0000\n  Ti  Ti4       1.0000  0.1812  0.7337  0.4743  1.0000\n  Si  Si1       1.0000  0.7132  0.9433  0.8476  1.0000\n  Si  Si2       1.0000  0.4221  0.1001  0.6478  1.0000\n  Si  Si3       1.0000  0.3113  0.0579  0.1532  1.0000\n  Si  Si4       1.0000  0.3129  0.5947  0.1518  1.0000\n  Si  Si5       1.0000  0.0435  0.9363  0.3471  1.0000\n  Si  Si6       1.0000  0.0440  0.4029  0.3495  1.0000\n  Si  Si7       1.0000  0.4255  0.5495  0.6490  1.0000\n  Si  Si8       1.0000  0.7136  0.4049  0.8444  1.0000\n  O   O1        1.0000  0.2965  0.7228  0.9502  1.0000\n  O   O2        1.0000  0.2900  0.9041  0.3114  1.0000\n  O   O3        1.0000  0.3357  0.4815  0.0726  1.0000\n  O   O4        1.0000  0.3227  0.2211  0.9422  1.0000\n  O   O5        1.0000  0.3280  0.0964  0.0745  1.0000\n  O   O6        1.0000  0.7639  0.2737  0.0472  1.0000\n  O   O7        1.0000  0.6858  0.6082  0.6659  1.0000\n  O   O8        1.0000  0.9382  0.4006  0.7958  1.0000\n  O   O9        1.0000  0.4813  0.7253  0.4535  1.0000\n  O   O10       1.0000  0.3883  0.4804  0.5653  1.0000\n  O   O11       1.0000  0.3902  0.0923  0.5646  1.0000\n  F   F1        1.0000  0.6801  0.0543  0.6661  1.0000\n  O   O12       1.0000  0.9486  0.8968  0.8049  1.0000\n  O   O13       1.0000  0.0313  0.5146  0.4296  1.0000\n  O   O14       1.0000  0.1966  0.0850  0.6932  1.0000\n  O   O15       1.0000  0.7328  0.9115  0.9272  1.0000\n  O   O16       1.0000  0.5442  0.1001  0.1980  1.0000\n  O   O17       1.0000  0.7515  0.5278  0.9212  1.0000\n  O   O18       1.0000  0.4650  0.9083  0.8127  1.0000\n  O   O19       1.0000  0.2894  0.4036  0.3136  1.0000\n  O   O20       1.0000  0.0564  0.0905  0.1833  1.0000\n  O   O21       1.0000  0.9596  0.2735  0.5453  1.0000\n  O   O22       1.0000  0.2019  0.6114  0.6949  1.0000\n  O   O23       1.0000  0.0554  0.5893  0.1793  1.0000\n  O   O24       1.0000  0.4036  0.2179  0.4355  1.0000\n  O   O25       1.0000  0.0284  0.8989  0.4262  1.0000\n  O   O26       1.0000  0.8081  0.4096  0.3061  1.0000\n  O   O27       1.0000  0.0576  0.7817  0.5586  1.0000\n  O   O28       1.0000  0.5415  0.5965  0.1985  1.0000\n  O   O29       1.0000  0.4586  0.4040  0.8141  1.0000\n  O   O30       1.0000  0.8065  0.8890  0.3042  1.0000\n  O   O31       1.0000  0.7290  0.7745  0.0561  1.0000\n  F   F2        1.0000  0.3149  0.8170  0.1322  1.0000\n  F   F3        1.0000  0.9983  0.1782  0.3665  1.0000\n  O   O32       1.0000  0.7480  0.1865  0.8666  1.0000\n  F   F4        1.0000  0.4569  0.3375  0.6745  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "355db44e-e619-49ba-aaf3-7b65ba46a45b",
    "mp_id": "mp-669359",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KNd3Te8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.9638\n_cell_length_b   9.0227\n_cell_length_c   14.2089\n_cell_angle_alpha   80.7034\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KNd3Te8\n_chemical_formula_sum   'K4 Nd12 Te32'\n_cell_volume   1640.1591\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5921  0.7424  0.5348  1\n  K  K1  1  0.4079  0.2576  0.4652  1\n  K  K2  1  0.0921  0.7576  0.4652  1\n  K  K3  1  0.9079  0.2424  0.5348  1\n  Nd  Nd4  1  0.5841  0.4056  0.8516  1\n  Nd  Nd5  1  0.7509  0.0857  0.1539  1\n  Nd  Nd6  1  0.2509  0.4143  0.8461  1\n  Nd  Nd7  1  0.9159  0.9056  0.8516  1\n  Nd  Nd8  1  0.9152  0.4206  0.8499  1\n  Nd  Nd9  1  0.2491  0.9143  0.8461  1\n  Nd  Nd10  1  0.0848  0.5794  0.1501  1\n  Nd  Nd11  1  0.4159  0.5944  0.1484  1\n  Nd  Nd12  1  0.0841  0.0944  0.1484  1\n  Nd  Nd13  1  0.5848  0.9206  0.8499  1\n  Nd  Nd14  1  0.7491  0.5857  0.1539  1\n  Nd  Nd15  1  0.4152  0.0794  0.1501  1\n  Te  Te16  1  0.0965  0.2901  0.3288  1\n  Te  Te17  1  0.0854  0.6449  0.9144  1\n  Te  Te18  1  0.4200  0.6497  0.9129  1\n  Te  Te19  1  0.0800  0.1497  0.9129  1\n  Te  Te20  1  0.2454  0.8547  0.0819  1\n  Te  Te21  1  0.9035  0.7099  0.6712  1\n  Te  Te22  1  0.2546  0.3547  0.0819  1\n  Te  Te23  1  0.7505  0.9591  0.6732  1\n  Te  Te24  1  0.5800  0.3503  0.0871  1\n  Te  Te25  1  0.2245  0.2117  0.6617  1\n  Te  Te26  1  0.4146  0.1449  0.9144  1\n  Te  Te27  1  0.4206  0.4711  0.6688  1\n  Te  Te28  1  0.0794  0.9711  0.6688  1\n  Te  Te29  1  0.2755  0.7117  0.6617  1\n  Te  Te30  1  0.7495  0.4591  0.6732  1\n  Te  Te31  1  0.0805  0.4494  0.6681  1\n  Te  Te32  1  0.7755  0.7883  0.3383  1\n  Te  Te33  1  0.2505  0.5409  0.3268  1\n  Te  Te34  1  0.5965  0.2099  0.6712  1\n  Te  Te35  1  0.9195  0.5506  0.3319  1\n  Te  Te36  1  0.7454  0.6453  0.9181  1\n  Te  Te37  1  0.5794  0.5289  0.3312  1\n  Te  Te38  1  0.7245  0.2883  0.3383  1\n  Te  Te39  1  0.5854  0.8551  0.0856  1\n  Te  Te40  1  0.2495  0.0409  0.3268  1\n  Te  Te41  1  0.5805  0.0506  0.3319  1\n  Te  Te42  1  0.7546  0.1453  0.9181  1\n  Te  Te43  1  0.9206  0.0289  0.3312  1\n  Te  Te44  1  0.4195  0.9494  0.6681  1\n  Te  Te45  1  0.4035  0.7901  0.3288  1\n  Te  Te46  1  0.9200  0.8503  0.0871  1\n  Te  Te47  1  0.9146  0.3551  0.0856  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4TeNd11Te6NdTe25\n_chemical_formula_sum              \"K4 Te32 Nd12\"\n_cell_length_a       12.9638\n_cell_length_b       9.0227\n_cell_length_c       14.2089\n_cell_angle_alpha    80.7034\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5921  0.7424  0.5348  1.0000\n  K   K2        1.0000  0.4079  0.2576  0.4652  1.0000\n  K   K3        1.0000  0.0921  0.7576  0.4652  1.0000\n  K   K4        1.0000  0.9079  0.2424  0.5348  1.0000\n  Te  Te1       1.0000  0.5841  0.4056  0.8516  1.0000\n  Nd  Nd1       1.0000  0.7509  0.0857  0.1539  1.0000\n  Nd  Nd2       1.0000  0.2509  0.4143  0.8461  1.0000\n  Nd  Nd3       1.0000  0.9159  0.9056  0.8516  1.0000\n  Nd  Nd4       1.0000  0.9152  0.4206  0.8499  1.0000\n  Nd  Nd5       1.0000  0.2491  0.9143  0.8461  1.0000\n  Nd  Nd6       1.0000  0.0848  0.5794  0.1501  1.0000\n  Nd  Nd7       1.0000  0.4159  0.5944  0.1484  1.0000\n  Nd  Nd8       1.0000  0.0841  0.0944  0.1484  1.0000\n  Nd  Nd9       1.0000  0.5848  0.9206  0.8499  1.0000\n  Nd  Nd10      1.0000  0.7491  0.5857  0.1539  1.0000\n  Nd  Nd11      1.0000  0.4152  0.0794  0.1501  1.0000\n  Te  Te2       1.0000  0.0965  0.2901  0.3288  1.0000\n  Te  Te3       1.0000  0.0854  0.6449  0.9144  1.0000\n  Te  Te4       1.0000  0.4200  0.6497  0.9129  1.0000\n  Te  Te5       1.0000  0.0800  0.1497  0.9129  1.0000\n  Te  Te6       1.0000  0.2454  0.8547  0.0819  1.0000\n  Te  Te7       1.0000  0.9035  0.7099  0.6712  1.0000\n  Nd  Nd12      1.0000  0.2546  0.3547  0.0819  1.0000\n  Te  Te8       1.0000  0.7505  0.9591  0.6732  1.0000\n  Te  Te9       1.0000  0.5800  0.3503  0.0871  1.0000\n  Te  Te10      1.0000  0.2245  0.2117  0.6617  1.0000\n  Te  Te11      1.0000  0.4146  0.1449  0.9144  1.0000\n  Te  Te12      1.0000  0.4206  0.4711  0.6688  1.0000\n  Te  Te13      1.0000  0.0794  0.9711  0.6688  1.0000\n  Te  Te14      1.0000  0.2755  0.7117  0.6617  1.0000\n  Te  Te15      1.0000  0.7495  0.4591  0.6732  1.0000\n  Te  Te16      1.0000  0.0805  0.4494  0.6681  1.0000\n  Te  Te17      1.0000  0.7755  0.7883  0.3383  1.0000\n  Te  Te18      1.0000  0.2505  0.5409  0.3268  1.0000\n  Te  Te19      1.0000  0.5965  0.2099  0.6712  1.0000\n  Te  Te20      1.0000  0.9195  0.5506  0.3319  1.0000\n  Te  Te21      1.0000  0.7454  0.6453  0.9181  1.0000\n  Te  Te22      1.0000  0.5794  0.5289  0.3312  1.0000\n  Te  Te23      1.0000  0.7245  0.2883  0.3383  1.0000\n  Te  Te24      1.0000  0.5854  0.8551  0.0856  1.0000\n  Te  Te25      1.0000  0.2495  0.0409  0.3268  1.0000\n  Te  Te26      1.0000  0.5805  0.0506  0.3319  1.0000\n  Te  Te27      1.0000  0.7546  0.1453  0.9181  1.0000\n  Te  Te28      1.0000  0.9206  0.0289  0.3312  1.0000\n  Te  Te29      1.0000  0.4195  0.9494  0.6681  1.0000\n  Te  Te30      1.0000  0.4035  0.7901  0.3288  1.0000\n  Te  Te31      1.0000  0.9200  0.8503  0.0871  1.0000\n  Te  Te32      1.0000  0.9146  0.3551  0.0856  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "09e533f0-0dfe-4911-bb47-589924a644cd",
    "mp_id": "mp-669377",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2CaWN4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.8797\n_cell_length_b   10.5694\n_cell_length_c   8.1640\n_cell_angle_alpha   69.6566\n_cell_angle_beta   65.6281\n_cell_angle_gamma   44.7154\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2CaWN4\n_chemical_formula_sum   'Ba8 Ca4 W4 N16'\n_cell_volume   599.4892\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5699  0.9301  0.9301  1\n  Ba  Ba1  1  0.9301  0.5699  0.5699  1\n  Ba  Ba2  1  0.3199  0.6801  0.6801  1\n  Ba  Ba3  1  0.1115  0.1115  0.8885  1\n  Ba  Ba4  1  0.1385  0.1385  0.3615  1\n  Ba  Ba5  1  0.3615  0.3615  0.1385  1\n  Ba  Ba6  1  0.6801  0.3199  0.3199  1\n  Ba  Ba7  1  0.8885  0.8885  0.1115  1\n  Ca  Ca8  1  0.3384  0.3384  0.6616  1\n  Ca  Ca9  1  0.9116  0.9116  0.5884  1\n  Ca  Ca10  1  0.6616  0.6616  0.3384  1\n  Ca  Ca11  1  0.5884  0.5884  0.9116  1\n  W  W12  1  0.4927  0.0073  0.4927  1\n  W  W13  1  0.0073  0.4927  0.0073  1\n  W  W14  1  0.7573  0.2427  0.7573  1\n  W  W15  1  0.2427  0.7573  0.2427  1\n  N  N16  1  0.0108  0.6589  0.8224  1\n  N  N17  1  0.7011  0.2828  0.9966  1\n  N  N18  1  0.6589  0.0108  0.5080  1\n  N  N19  1  0.5080  0.8224  0.6589  1\n  N  N20  1  0.2392  0.5911  0.4276  1\n  N  N21  1  0.7420  0.4276  0.5911  1\n  N  N22  1  0.9966  0.0195  0.7011  1\n  N  N23  1  0.5489  0.9672  0.2534  1\n  N  N24  1  0.4276  0.7420  0.2392  1\n  N  N25  1  0.9672  0.5489  0.2305  1\n  N  N26  1  0.2828  0.7011  0.0195  1\n  N  N27  1  0.8224  0.5080  0.0108  1\n  N  N28  1  0.2305  0.2534  0.9672  1\n  N  N29  1  0.5911  0.2392  0.7420  1\n  N  N30  1  0.2534  0.2305  0.5489  1\n  N  N31  1  0.0195  0.9966  0.2828  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba8Ca4NW3N2WN13\n_chemical_formula_sum              \"Ba8 Ca4 N16 W4\"\n_cell_length_a       10.8797\n_cell_length_b       10.5694\n_cell_length_c       8.1640\n_cell_angle_alpha    69.6566\n_cell_angle_beta     65.6281\n_cell_angle_gamma    44.7154\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.5699  0.9301  0.9301  1.0000\n  Ba  Ba2       1.0000  0.9301  0.5699  0.5699  1.0000\n  Ba  Ba3       1.0000  0.3199  0.6801  0.6801  1.0000\n  Ba  Ba4       1.0000  0.1115  0.1115  0.8885  1.0000\n  Ba  Ba5       1.0000  0.1385  0.1385  0.3615  1.0000\n  Ba  Ba6       1.0000  0.3615  0.3615  0.1385  1.0000\n  Ba  Ba7       1.0000  0.6801  0.3199  0.3199  1.0000\n  Ba  Ba8       1.0000  0.8885  0.8885  0.1115  1.0000\n  Ca  Ca1       1.0000  0.3384  0.3384  0.6616  1.0000\n  Ca  Ca2       1.0000  0.9116  0.9116  0.5884  1.0000\n  Ca  Ca3       1.0000  0.6616  0.6616  0.3384  1.0000\n  Ca  Ca4       1.0000  0.5884  0.5884  0.9116  1.0000\n  N   N1        1.0000  0.4927  0.0073  0.4927  1.0000\n  W   W1        1.0000  0.0073  0.4927  0.0073  1.0000\n  W   W2        1.0000  0.7573  0.2427  0.7573  1.0000\n  W   W3        1.0000  0.2427  0.7573  0.2427  1.0000\n  N   N2        1.0000  0.0108  0.6589  0.8224  1.0000\n  N   N3        1.0000  0.7011  0.2828  0.9966  1.0000\n  W   W4        1.0000  0.6589  0.0108  0.5080  1.0000\n  N   N4        1.0000  0.5080  0.8224  0.6589  1.0000\n  N   N5        1.0000  0.2392  0.5911  0.4276  1.0000\n  N   N6        1.0000  0.7420  0.4276  0.5911  1.0000\n  N   N7        1.0000  0.9966  0.0195  0.7011  1.0000\n  N   N8        1.0000  0.5489  0.9672  0.2534  1.0000\n  N   N9        1.0000  0.4276  0.7420  0.2392  1.0000\n  N   N10       1.0000  0.9672  0.5489  0.2305  1.0000\n  N   N11       1.0000  0.2828  0.7011  0.0195  1.0000\n  N   N12       1.0000  0.8224  0.5080  0.0108  1.0000\n  N   N13       1.0000  0.2305  0.2534  0.9672  1.0000\n  N   N14       1.0000  0.5911  0.2392  0.7420  1.0000\n  N   N15       1.0000  0.2534  0.2305  0.5489  1.0000\n  N   N16       1.0000  0.0195  0.9966  0.2828  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3fbff1d3-d3f6-414d-915a-25d22497fe4c",
    "mp_id": "mp-672228",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TiAs2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.5359\n_cell_length_b   8.5749\n_cell_length_c   15.3570\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TiAs2\n_chemical_formula_sum   'Ti8 As16'\n_cell_volume   465.6273\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.5000  0.4161  0.2838  1\n  Ti  Ti1  1  0.0000  0.6584  0.0183  1\n  Ti  Ti2  1  0.5000  0.5839  0.7162  1\n  Ti  Ti3  1  0.5000  0.8416  0.5183  1\n  Ti  Ti4  1  0.0000  0.0839  0.7838  1\n  Ti  Ti5  1  0.5000  0.1584  0.4817  1\n  Ti  Ti6  1  0.0000  0.9161  0.2162  1\n  Ti  Ti7  1  0.0000  0.3416  0.9817  1\n  As  As8  1  0.5000  0.5369  0.8998  1\n  As  As9  1  0.5000  0.7176  0.2666  1\n  As  As10  1  0.0000  0.9631  0.3998  1\n  As  As11  1  0.0000  0.7824  0.7666  1\n  As  As12  1  0.0000  0.1023  0.0810  1\n  As  As13  1  0.0000  0.3276  0.3987  1\n  As  As14  1  0.0000  0.6724  0.6013  1\n  As  As15  1  0.5000  0.1724  0.8987  1\n  As  As16  1  0.5000  0.6024  0.4190  1\n  As  As17  1  0.5000  0.3977  0.5810  1\n  As  As18  1  0.0000  0.2176  0.2334  1\n  As  As19  1  0.0000  0.0369  0.6002  1\n  As  As20  1  0.5000  0.2824  0.7334  1\n  As  As21  1  0.5000  0.4631  0.1002  1\n  As  As22  1  0.5000  0.8276  0.1013  1\n  As  As23  1  0.0000  0.8976  0.9190  1\n",
    "output": "data_image0\n_chemical_formula_structural       AsTi8As15\n_chemical_formula_sum              \"As16 Ti8\"\n_cell_length_a       3.5359\n_cell_length_b       8.5749\n_cell_length_c       15.3570\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.5000  0.4161  0.2838  1.0000\n  Ti  Ti1       1.0000  0.0000  0.6584  0.0183  1.0000\n  Ti  Ti2       1.0000  0.5000  0.5839  0.7162  1.0000\n  Ti  Ti3       1.0000  0.5000  0.8416  0.5183  1.0000\n  Ti  Ti4       1.0000  0.0000  0.0839  0.7838  1.0000\n  Ti  Ti5       1.0000  0.5000  0.1584  0.4817  1.0000\n  Ti  Ti6       1.0000  0.0000  0.9161  0.2162  1.0000\n  Ti  Ti7       1.0000  0.0000  0.3416  0.9817  1.0000\n  Ti  Ti8       1.0000  0.5000  0.5369  0.8998  1.0000\n  As  As2       1.0000  0.5000  0.7176  0.2666  1.0000\n  As  As3       1.0000  0.0000  0.9631  0.3998  1.0000\n  As  As4       1.0000  0.0000  0.7824  0.7666  1.0000\n  As  As5       1.0000  0.0000  0.1024  0.0810  1.0000\n  As  As6       1.0000  0.0000  0.3276  0.3987  1.0000\n  As  As7       1.0000  0.0000  0.6724  0.6013  1.0000\n  As  As8       1.0000  0.5000  0.1724  0.8987  1.0000\n  As  As9       1.0000  0.5000  0.6024  0.4190  1.0000\n  As  As10      1.0000  0.5000  0.3977  0.5810  1.0000\n  As  As11      1.0000  0.0000  0.2176  0.2334  1.0000\n  As  As12      1.0000  0.0000  0.0369  0.6002  1.0000\n  As  As13      1.0000  0.5000  0.2824  0.7334  1.0000\n  As  As14      1.0000  0.5000  0.4631  0.1002  1.0000\n  As  As15      1.0000  0.5000  0.8276  0.1013  1.0000\n  As  As16      1.0000  0.0000  0.8977  0.9190  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "07711a79-f205-4569-81bb-01d53feaea61",
    "mp_id": "mp-672972",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 51 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sn(PO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.4831\n_cell_length_b   10.2018\n_cell_length_c   10.5847\n_cell_angle_alpha   109.0344\n_cell_angle_beta   109.5529\n_cell_angle_gamma   105.6854\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sn(PO3)3\n_chemical_formula_sum   'Sn4 P12 O36'\n_cell_volume   825.2706\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sn  Sn0  1  0.2354  0.7372  0.2711  1\n  Sn  Sn1  1  0.7646  0.2628  0.7289  1\n  Sn  Sn2  1  0.6985  0.8621  0.8083  1\n  Sn  Sn3  1  0.3015  0.1379  0.1917  1\n  P  P4  1  0.6196  0.9765  0.3732  1\n  P  P5  1  0.8498  0.4912  0.1072  1\n  P  P6  1  0.1502  0.5088  0.8928  1\n  P  P7  1  0.7956  0.0378  0.1912  1\n  P  P8  1  0.6843  0.4441  0.2987  1\n  P  P9  1  0.5789  0.6842  0.4014  1\n  P  P10  1  0.3157  0.5559  0.7013  1\n  P  P11  1  0.2044  0.9622  0.8088  1\n  P  P12  1  0.3804  0.0235  0.6268  1\n  P  P13  1  0.4211  0.3158  0.5986  1\n  P  P14  1  0.9023  0.7861  0.0992  1\n  P  P15  1  0.0977  0.2139  0.9008  1\n  O  O16  1  0.3907  0.4279  0.7208  1\n  O  O17  1  0.1682  0.4934  0.5583  1\n  O  O18  1  0.3453  0.3071  0.4479  1\n  O  O19  1  0.3916  0.6425  0.3335  1\n  O  O20  1  0.0684  0.8137  0.6922  1\n  O  O21  1  0.7280  0.1297  0.5138  1\n  O  O22  1  0.4333  0.9280  0.3178  1\n  O  O23  1  0.1960  0.3709  0.9028  1\n  O  O24  1  0.7022  0.9992  0.0283  1\n  O  O25  1  0.3323  0.1528  0.5984  1\n  O  O26  1  0.5667  0.0720  0.6822  1\n  O  O27  1  0.8505  0.7693  0.9425  1\n  O  O28  1  0.8108  0.3809  0.9518  1\n  O  O29  1  0.4660  0.7028  0.7635  1\n  O  O30  1  0.6472  0.9839  0.2387  1\n  O  O31  1  0.8318  0.5066  0.4417  1\n  O  O32  1  0.6547  0.6929  0.5521  1\n  O  O33  1  0.1892  0.6191  0.0482  1\n  O  O34  1  0.9701  0.4406  0.7730  1\n  O  O35  1  0.1495  0.2307  0.0575  1\n  O  O36  1  0.9316  0.1863  0.3079  1\n  O  O37  1  0.1489  0.1034  0.8037  1\n  O  O38  1  0.8511  0.8966  0.1963  1\n  O  O39  1  0.0299  0.5594  0.2270  1\n  O  O40  1  0.6084  0.3575  0.6665  1\n  O  O41  1  0.3528  0.0161  0.7613  1\n  O  O42  1  0.6093  0.5721  0.2792  1\n  O  O43  1  0.9116  0.1640  0.8094  1\n  O  O44  1  0.2720  0.8703  0.4862  1\n  O  O45  1  0.2978  0.0008  0.9717  1\n  O  O46  1  0.5340  0.2972  0.2365  1\n  O  O47  1  0.8040  0.6291  0.0972  1\n  O  O48  1  0.2752  0.5892  0.8480  1\n  O  O49  1  0.6677  0.8472  0.4016  1\n  O  O50  1  0.0884  0.8360  0.1906  1\n  O  O51  1  0.7248  0.4108  0.1520  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sn2OSnP12O35Sn\n_chemical_formula_sum              \"Sn4 O36 P12\"\n_cell_length_a       9.4831\n_cell_length_b       10.2018\n_cell_length_c       10.5847\n_cell_angle_alpha    109.0344\n_cell_angle_beta     109.5529\n_cell_angle_gamma    105.6854\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sn  Sn1       1.0000  0.2354  0.7372  0.2711  1.0000\n  Sn  Sn2       1.0000  0.7646  0.2628  0.7289  1.0000\n  O   O1        1.0000  0.6985  0.8621  0.8083  1.0000\n  Sn  Sn3       1.0000  0.3015  0.1379  0.1917  1.0000\n  P   P1        1.0000  0.6196  0.9765  0.3732  1.0000\n  P   P2        1.0000  0.8498  0.4912  0.1072  1.0000\n  P   P3        1.0000  0.1502  0.5088  0.8928  1.0000\n  P   P4        1.0000  0.7956  0.0378  0.1912  1.0000\n  P   P5        1.0000  0.6843  0.4441  0.2987  1.0000\n  P   P6        1.0000  0.5789  0.6842  0.4014  1.0000\n  P   P7        1.0000  0.3157  0.5559  0.7013  1.0000\n  P   P8        1.0000  0.2044  0.9622  0.8088  1.0000\n  P   P9        1.0000  0.3804  0.0235  0.6268  1.0000\n  P   P10       1.0000  0.4211  0.3158  0.5986  1.0000\n  P   P11       1.0000  0.9023  0.7861  0.0992  1.0000\n  P   P12       1.0000  0.0977  0.2139  0.9008  1.0000\n  O   O2        1.0000  0.3907  0.4279  0.7208  1.0000\n  O   O3        1.0000  0.1682  0.4934  0.5583  1.0000\n  O   O4        1.0000  0.3453  0.3071  0.4479  1.0000\n  O   O5        1.0000  0.3916  0.6425  0.3335  1.0000\n  O   O6        1.0000  0.0684  0.8137  0.6922  1.0000\n  O   O7        1.0000  0.7280  0.1297  0.5138  1.0000\n  O   O8        1.0000  0.4333  0.9280  0.3178  1.0000\n  O   O9        1.0000  0.1960  0.3709  0.9028  1.0000\n  O   O10       1.0000  0.7022  0.9992  0.0283  1.0000\n  O   O11       1.0000  0.3323  0.1528  0.5984  1.0000\n  O   O12       1.0000  0.5667  0.0720  0.6822  1.0000\n  O   O13       1.0000  0.8505  0.7693  0.9425  1.0000\n  O   O14       1.0000  0.8108  0.3809  0.9518  1.0000\n  O   O15       1.0000  0.4660  0.7028  0.7635  1.0000\n  O   O16       1.0000  0.6472  0.9839  0.2387  1.0000\n  O   O17       1.0000  0.8318  0.5066  0.4417  1.0000\n  O   O18       1.0000  0.6547  0.6929  0.5521  1.0000\n  O   O19       1.0000  0.1892  0.6191  0.0482  1.0000\n  O   O20       1.0000  0.9701  0.4406  0.7730  1.0000\n  O   O21       1.0000  0.1495  0.2307  0.0575  1.0000\n  O   O22       1.0000  0.9316  0.1863  0.3079  1.0000\n  O   O23       1.0000  0.1489  0.1034  0.8037  1.0000\n  O   O24       1.0000  0.8511  0.8966  0.1963  1.0000\n  O   O25       1.0000  0.0299  0.5594  0.2270  1.0000\n  O   O26       1.0000  0.6084  0.3575  0.6665  1.0000\n  O   O27       1.0000  0.3528  0.0161  0.7613  1.0000\n  O   O28       1.0000  0.6093  0.5721  0.2792  1.0000\n  O   O29       1.0000  0.9116  0.1640  0.8094  1.0000\n  O   O30       1.0000  0.2720  0.8703  0.4862  1.0000\n  O   O31       1.0000  0.2978  0.0008  0.9717  1.0000\n  O   O32       1.0000  0.5340  0.2972  0.2365  1.0000\n  O   O33       1.0000  0.8040  0.6291  0.0972  1.0000\n  O   O34       1.0000  0.2752  0.5892  0.8480  1.0000\n  O   O35       1.0000  0.6677  0.8472  0.4016  1.0000\n  O   O36       1.0000  0.0884  0.8360  0.1906  1.0000\n  Sn  Sn4       1.0000  0.7248  0.4108  0.1520  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f93679b6-a3d3-4784-9e35-9d72e2415181",
    "mp_id": "mp-6745",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiGa(SiO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5324\n_cell_length_b   6.5324\n_cell_length_c   5.3400\n_cell_angle_alpha   74.6378\n_cell_angle_beta   74.6378\n_cell_angle_gamma   83.6243\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiGa(SiO3)2\n_chemical_formula_sum   'Li2 Ga2 Si4 O12'\n_cell_volume   211.6728\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7415  0.2585  0.7500  1\n  Li  Li1  1  0.2585  0.7415  0.2500  1\n  Ga  Ga2  1  0.1014  0.8986  0.7500  1\n  Ga  Ga3  1  0.8986  0.1014  0.2500  1\n  Si  Si4  1  0.6129  0.7941  0.7624  1\n  Si  Si5  1  0.3871  0.2059  0.2376  1\n  Si  Si6  1  0.7941  0.6129  0.2624  1\n  Si  Si7  1  0.2059  0.3871  0.7376  1\n  O  O8  1  0.3558  0.3549  0.9486  1\n  O  O9  1  0.3549  0.3558  0.4486  1\n  O  O10  1  0.6442  0.6451  0.0514  1\n  O  O11  1  0.6451  0.6442  0.5514  1\n  O  O12  1  0.9704  0.8017  0.1440  1\n  O  O13  1  0.6273  0.1078  0.1715  1\n  O  O14  1  0.0296  0.1983  0.8560  1\n  O  O15  1  0.8017  0.9704  0.6440  1\n  O  O16  1  0.1983  0.0296  0.3560  1\n  O  O17  1  0.3727  0.8922  0.8285  1\n  O  O18  1  0.1078  0.6273  0.6715  1\n  O  O19  1  0.8922  0.3727  0.3285  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2GaOSi4O11Ga\n_chemical_formula_sum              \"Li2 Ga2 O12 Si4\"\n_cell_length_a       6.5324\n_cell_length_b       6.5324\n_cell_length_c       5.3400\n_cell_angle_alpha    74.6378\n_cell_angle_beta     74.6378\n_cell_angle_gamma    83.6243\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7415  0.2585  0.7500  1.0000\n  Li  Li2       1.0000  0.2585  0.7415  0.2500  1.0000\n  Ga  Ga1       1.0000  0.1014  0.8986  0.7500  1.0000\n  O   O1        1.0000  0.8986  0.1014  0.2500  1.0000\n  Si  Si1       1.0000  0.6129  0.7941  0.7624  1.0000\n  Si  Si2       1.0000  0.3871  0.2059  0.2376  1.0000\n  Si  Si3       1.0000  0.7941  0.6129  0.2624  1.0000\n  Si  Si4       1.0000  0.2059  0.3871  0.7376  1.0000\n  O   O2        1.0000  0.3558  0.3549  0.9486  1.0000\n  O   O3        1.0000  0.3549  0.3558  0.4486  1.0000\n  O   O4        1.0000  0.6442  0.6451  0.0514  1.0000\n  O   O5        1.0000  0.6451  0.6442  0.5514  1.0000\n  O   O6        1.0000  0.9704  0.8017  0.1440  1.0000\n  O   O7        1.0000  0.6273  0.1078  0.1715  1.0000\n  O   O8        1.0000  0.0296  0.1983  0.8560  1.0000\n  O   O9        1.0000  0.8017  0.9704  0.6440  1.0000\n  O   O10       1.0000  0.1983  0.0296  0.3560  1.0000\n  O   O11       1.0000  0.3727  0.8922  0.8285  1.0000\n  O   O12       1.0000  0.1078  0.6273  0.6715  1.0000\n  Ga  Ga2       1.0000  0.8922  0.3727  0.3285  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e2a498e-d8b2-470f-ba62-5eca4948a440",
    "mp_id": "mp-675118",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y2Th8O19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9565\n_cell_length_b   3.9571\n_cell_length_c   27.9403\n_cell_angle_alpha   90.0192\n_cell_angle_beta   90.0633\n_cell_angle_gamma   90.0001\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y2Th8O19\n_chemical_formula_sum   'Y2 Th8 O19'\n_cell_volume   437.4443\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0091  0.0004  0.9942  1\n  Y  Y1  1  0.5013  0.4923  0.1057  1\n  Th  Th2  1  0.0028  0.9988  0.1979  1\n  Th  Th3  1  0.5030  0.5016  0.2991  1\n  Th  Th4  1  0.0011  0.0022  0.3995  1\n  Th  Th5  1  0.5005  0.5028  0.4997  1\n  Th  Th6  1  0.9994  0.0032  0.6001  1\n  Th  Th7  1  0.4974  0.5023  0.7003  1\n  Th  Th8  1  0.9985  0.0003  0.8010  1\n  Th  Th9  1  0.5024  0.5002  0.9020  1\n  O  O10  1  0.0034  0.5002  0.2464  1\n  O  O11  1  0.5019  0.0019  0.3498  1\n  O  O12  1  0.0002  0.5021  0.4497  1\n  O  O13  1  0.5002  0.0030  0.5498  1\n  O  O14  1  0.9980  0.5034  0.6504  1\n  O  O15  1  0.4965  0.0014  0.7499  1\n  O  O16  1  0.0004  0.4995  0.8537  1\n  O  O17  1  0.5051  1.0000  0.9471  1\n  O  O18  1  0.4998  0.9992  0.8490  1\n  O  O19  1  0.0054  0.5002  0.9589  1\n  O  O20  1  0.4971  0.0037  0.0499  1\n  O  O21  1  0.5025  0.9962  0.1528  1\n  O  O22  1  0.0021  0.4957  0.1411  1\n  O  O23  1  0.5039  0.0007  0.2508  1\n  O  O24  1  0.0025  0.5018  0.3487  1\n  O  O25  1  0.5006  0.0023  0.4497  1\n  O  O26  1  0.0005  0.5032  0.5500  1\n  O  O27  1  0.4988  0.0032  0.6499  1\n  O  O28  1  0.9967  0.5010  0.7514  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y2Th4OTh3O2ThO16\n_chemical_formula_sum              \"Y2 Th8 O19\"\n_cell_length_a       3.9565\n_cell_length_b       3.9571\n_cell_length_c       27.9403\n_cell_angle_alpha    90.0192\n_cell_angle_beta     90.0633\n_cell_angle_gamma    90.0001\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0091  0.0004  0.9942  1.0000\n  Y   Y2        1.0000  0.5013  0.4923  0.1057  1.0000\n  Th  Th1       1.0000  0.0028  0.9988  0.1979  1.0000\n  Th  Th2       1.0000  0.5030  0.5016  0.2991  1.0000\n  Th  Th3       1.0000  0.0011  0.0022  0.3995  1.0000\n  Th  Th4       1.0000  0.5005  0.5028  0.4997  1.0000\n  O   O1        1.0000  0.9994  0.0032  0.6001  1.0000\n  Th  Th5       1.0000  0.4974  0.5023  0.7003  1.0000\n  Th  Th6       1.0000  0.9985  0.0003  0.8010  1.0000\n  Th  Th7       1.0000  0.5024  0.5002  0.9020  1.0000\n  O   O2        1.0000  0.0034  0.5002  0.2464  1.0000\n  O   O3        1.0000  0.5019  0.0019  0.3498  1.0000\n  Th  Th8       1.0000  0.0002  0.5021  0.4497  1.0000\n  O   O4        1.0000  0.5002  0.0030  0.5498  1.0000\n  O   O5        1.0000  0.9980  0.5034  0.6504  1.0000\n  O   O6        1.0000  0.4965  0.0014  0.7499  1.0000\n  O   O7        1.0000  0.0004  0.4995  0.8537  1.0000\n  O   O8        1.0000  0.5051  1.0000  0.9471  1.0000\n  O   O9        1.0000  0.4998  0.9992  0.8490  1.0000\n  O   O10       1.0000  0.0054  0.5002  0.9589  1.0000\n  O   O11       1.0000  0.4971  0.0037  0.0499  1.0000\n  O   O12       1.0000  0.5025  0.9962  0.1528  1.0000\n  O   O13       1.0000  0.0021  0.4957  0.1411  1.0000\n  O   O14       1.0000  0.5039  0.0007  0.2508  1.0000\n  O   O15       1.0000  0.0025  0.5018  0.3487  1.0000\n  O   O16       1.0000  0.5006  0.0023  0.4497  1.0000\n  O   O17       1.0000  0.0005  0.5032  0.5500  1.0000\n  O   O18       1.0000  0.4988  0.0032  0.6499  1.0000\n  O   O19       1.0000  0.9967  0.5010  0.7514  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "132ce2ad-4636-4212-b7a9-1d3b45098083",
    "mp_id": "mp-675519",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tl3In7Se10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7662\n_cell_length_b   10.7665\n_cell_length_c   16.6585\n_cell_angle_alpha   102.3147\n_cell_angle_beta   91.1390\n_cell_angle_gamma   97.7923\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tl3In7Se10\n_chemical_formula_sum   'Tl6 In14 Se20'\n_cell_volume   1173.1839\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.2502  0.4998  0.7500  1\n  Tl  Tl1  1  0.6511  0.1003  0.9496  1\n  Tl  Tl2  1  0.3489  0.8997  0.0504  1\n  Tl  Tl3  1  0.7498  0.5002  0.2500  1\n  Tl  Tl4  1  0.8491  0.8994  0.5503  1\n  Tl  Tl5  1  0.1509  0.1006  0.4497  1\n  In  In6  1  0.5496  0.2000  0.6499  1\n  In  In7  1  0.9499  0.8002  0.8501  1\n  In  In8  1  0.2496  0.0001  0.7500  1\n  In  In9  1  0.3505  0.3999  0.0501  1\n  In  In10  1  0.5498  0.6998  0.6501  1\n  In  In11  1  0.6495  0.6001  0.9499  1\n  In  In12  1  0.7504  0.9999  0.2500  1\n  In  In13  1  0.9502  0.3001  0.8500  1\n  In  In14  1  0.0501  0.1998  0.1499  1\n  In  In15  1  0.0498  0.6999  0.1500  1\n  In  In16  1  0.1501  0.6002  0.4500  1\n  In  In17  1  0.4504  0.8000  0.3501  1\n  In  In18  1  0.4502  0.3001  0.3499  1\n  In  In19  1  0.8499  0.3998  0.5500  1\n  Se  Se20  1  0.6420  0.0308  0.7346  1\n  Se  Se21  1  0.7350  0.4385  0.7038  1\n  Se  Se22  1  0.0410  0.6302  0.9350  1\n  Se  Se23  1  0.1340  0.0389  0.9033  1\n  Se  Se24  1  0.0650  0.7619  0.6963  1\n  Se  Se25  1  0.1580  0.1695  0.6664  1\n  Se  Se26  1  0.4417  0.2316  0.1353  1\n  Se  Se27  1  0.4654  0.3617  0.8962  1\n  Se  Se28  1  0.5346  0.6383  0.1038  1\n  Se  Se29  1  0.5583  0.7684  0.8647  1\n  Se  Se30  1  0.8420  0.8305  0.3336  1\n  Se  Se31  1  0.8660  0.9611  0.0967  1\n  Se  Se32  1  0.9350  0.2381  0.3037  1\n  Se  Se33  1  0.9590  0.3698  0.0650  1\n  Se  Se34  1  0.2432  0.4317  0.5341  1\n  Se  Se35  1  0.2650  0.5615  0.2962  1\n  Se  Se36  1  0.3359  0.8373  0.5040  1\n  Se  Se37  1  0.3580  0.9692  0.2654  1\n  Se  Se38  1  0.6641  0.1627  0.4960  1\n  Se  Se39  1  0.7568  0.5683  0.4659  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl2SeTl3In14Se7TlSe12\n_chemical_formula_sum              \"Tl6 Se20 In14\"\n_cell_length_a       6.7662\n_cell_length_b       10.7665\n_cell_length_c       16.6585\n_cell_angle_alpha    102.3147\n_cell_angle_beta     91.1390\n_cell_angle_gamma    97.7923\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.2502  0.4998  0.7500  1.0000\n  Tl  Tl2       1.0000  0.6511  0.1003  0.9496  1.0000\n  Se  Se1       1.0000  0.3489  0.8997  0.0504  1.0000\n  Tl  Tl3       1.0000  0.7498  0.5002  0.2500  1.0000\n  Tl  Tl4       1.0000  0.8491  0.8994  0.5503  1.0000\n  Tl  Tl5       1.0000  0.1509  0.1006  0.4497  1.0000\n  In  In1       1.0000  0.5496  0.2000  0.6499  1.0000\n  In  In2       1.0000  0.9499  0.8002  0.8501  1.0000\n  In  In3       1.0000  0.2496  0.0001  0.7500  1.0000\n  In  In4       1.0000  0.3505  0.3999  0.0501  1.0000\n  In  In5       1.0000  0.5498  0.6998  0.6501  1.0000\n  In  In6       1.0000  0.6495  0.6001  0.9499  1.0000\n  In  In7       1.0000  0.7504  0.9999  0.2500  1.0000\n  In  In8       1.0000  0.9502  0.3001  0.8500  1.0000\n  In  In9       1.0000  0.0501  0.1998  0.1499  1.0000\n  In  In10      1.0000  0.0498  0.6999  0.1500  1.0000\n  In  In11      1.0000  0.1501  0.6002  0.4500  1.0000\n  In  In12      1.0000  0.4504  0.8000  0.3501  1.0000\n  In  In13      1.0000  0.4502  0.3001  0.3499  1.0000\n  In  In14      1.0000  0.8499  0.3998  0.5500  1.0000\n  Se  Se2       1.0000  0.6420  0.0308  0.7346  1.0000\n  Se  Se3       1.0000  0.7350  0.4385  0.7038  1.0000\n  Se  Se4       1.0000  0.0410  0.6302  0.9350  1.0000\n  Se  Se5       1.0000  0.1340  0.0389  0.9033  1.0000\n  Se  Se6       1.0000  0.0650  0.7619  0.6963  1.0000\n  Se  Se7       1.0000  0.1580  0.1695  0.6664  1.0000\n  Se  Se8       1.0000  0.4417  0.2316  0.1353  1.0000\n  Tl  Tl6       1.0000  0.4654  0.3617  0.8962  1.0000\n  Se  Se9       1.0000  0.5346  0.6383  0.1038  1.0000\n  Se  Se10      1.0000  0.5583  0.7684  0.8647  1.0000\n  Se  Se11      1.0000  0.8420  0.8305  0.3336  1.0000\n  Se  Se12      1.0000  0.8660  0.9611  0.0967  1.0000\n  Se  Se13      1.0000  0.9350  0.2381  0.3037  1.0000\n  Se  Se14      1.0000  0.9590  0.3698  0.0650  1.0000\n  Se  Se15      1.0000  0.2432  0.4317  0.5341  1.0000\n  Se  Se16      1.0000  0.2650  0.5615  0.2962  1.0000\n  Se  Se17      1.0000  0.3359  0.8373  0.5040  1.0000\n  Se  Se18      1.0000  0.3580  0.9692  0.2654  1.0000\n  Se  Se19      1.0000  0.6641  0.1627  0.4960  1.0000\n  Se  Se20      1.0000  0.7568  0.5683  0.4659  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "780e0e3e-1a2e-40ce-a822-04ec910e8a00",
    "mp_id": "mp-675778",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaY2F7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.9873\n_cell_length_b   3.9873\n_cell_length_c   10.9100\n_cell_angle_alpha   79.9401\n_cell_angle_beta   79.9401\n_cell_angle_gamma   59.9707\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaY2F7\n_chemical_formula_sum   'Na1 Y2 F7'\n_cell_volume   147.0870\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  0.0000  0.0000  1\n  Y  Y1  1  0.5865  0.5865  0.2926  1\n  Y  Y2  1  0.4135  0.4135  0.7074  1\n  F  F3  1  0.2383  0.2383  0.3344  1\n  F  F4  1  0.0661  0.0661  0.7559  1\n  F  F5  1  0.5000  0.5000  0.5000  1\n  F  F6  1  0.7617  0.7617  0.6656  1\n  F  F7  1  0.6423  0.6423  0.0924  1\n  F  F8  1  0.3577  0.3577  0.9076  1\n  F  F9  1  0.9339  0.9339  0.2441  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaYF7Y\n_chemical_formula_sum              \"Na1 Y2 F7\"\n_cell_length_a       3.9873\n_cell_length_b       3.9873\n_cell_length_c       10.9100\n_cell_angle_alpha    79.9401\n_cell_angle_beta     79.9401\n_cell_angle_gamma    59.9707\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Y   Y1        1.0000  0.5865  0.5865  0.2926  1.0000\n  F   F1        1.0000  0.4135  0.4135  0.7074  1.0000\n  F   F2        1.0000  0.2383  0.2383  0.3344  1.0000\n  F   F3        1.0000  0.0661  0.0661  0.7559  1.0000\n  F   F4        1.0000  0.5000  0.5000  0.5000  1.0000\n  F   F5        1.0000  0.7617  0.7617  0.6656  1.0000\n  F   F6        1.0000  0.6423  0.6423  0.0924  1.0000\n  F   F7        1.0000  0.3577  0.3577  0.9076  1.0000\n  Y   Y2        1.0000  0.9339  0.9339  0.2441  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5f4ddef1-6e34-48ac-bb81-0b0b3d733d70",
    "mp_id": "mp-676",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CaN6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9310\n_cell_length_b   6.2827\n_cell_length_c   6.3704\n_cell_angle_alpha   77.3071\n_cell_angle_beta   62.2566\n_cell_angle_gamma   61.8354\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CaN6\n_chemical_formula_sum   'Ca2 N12'\n_cell_volume   185.2126\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.6250  0.7500  0.7500  1\n  Ca  Ca1  1  0.3750  0.2500  0.2500  1\n  N  N2  1  0.8345  0.3870  0.4970  1\n  N  N3  1  0.2184  0.1130  0.0030  1\n  N  N4  1  0.0004  0.2500  0.9992  1\n  N  N5  1  0.7496  0.2500  0.5008  1\n  N  N6  1  0.9996  0.7500  0.0008  1\n  N  N7  1  0.2504  0.7500  0.4992  1\n  N  N8  1  0.3314  0.8870  0.5030  1\n  N  N9  1  0.2215  0.6130  0.9970  1\n  N  N10  1  0.7816  0.8870  0.9970  1\n  N  N11  1  0.1655  0.6130  0.5030  1\n  N  N12  1  0.6686  0.1130  0.4970  1\n  N  N13  1  0.7785  0.3870  0.0030  1\n",
    "output": "data_image0\n_chemical_formula_structural       NCaN2CaN9\n_chemical_formula_sum              \"N12 Ca2\"\n_cell_length_a       5.9310\n_cell_length_b       6.2827\n_cell_length_c       6.3704\n_cell_angle_alpha    77.3071\n_cell_angle_beta     62.2566\n_cell_angle_gamma    61.8354\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  N   N1        1.0000  0.6250  0.7500  0.7500  1.0000\n  Ca  Ca1       1.0000  0.3750  0.2500  0.2500  1.0000\n  N   N2        1.0000  0.8345  0.3870  0.4970  1.0000\n  N   N3        1.0000  0.2184  0.1130  0.0030  1.0000\n  Ca  Ca2       1.0000  0.0004  0.2500  0.9992  1.0000\n  N   N4        1.0000  0.7496  0.2500  0.5008  1.0000\n  N   N5        1.0000  0.9996  0.7500  0.0008  1.0000\n  N   N6        1.0000  0.2504  0.7500  0.4992  1.0000\n  N   N7        1.0000  0.3314  0.8870  0.5030  1.0000\n  N   N8        1.0000  0.2215  0.6130  0.9970  1.0000\n  N   N9        1.0000  0.7816  0.8870  0.9970  1.0000\n  N   N10       1.0000  0.1655  0.6130  0.5030  1.0000\n  N   N11       1.0000  0.6686  0.1130  0.4970  1.0000\n  N   N12       1.0000  0.7785  0.3870  0.0030  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d85d2b65-c358-4422-b4cd-821c5cd72edd",
    "mp_id": "mp-676275",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Nd2Pb5F16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.2189\n_cell_length_b   4.2189\n_cell_length_c   24.8002\n_cell_angle_alpha   85.7335\n_cell_angle_beta   85.7335\n_cell_angle_gamma   58.3361\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Nd2Pb5F16\n_chemical_formula_sum   'Nd2 Pb5 F16'\n_cell_volume   374.3377\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.0533  0.0533  0.3080  1\n  Nd  Nd1  1  0.6440  0.6440  0.1599  1\n  Pb  Pb2  1  0.0346  0.0346  0.0166  1\n  Pb  Pb3  1  0.4297  0.4297  0.8719  1\n  Pb  Pb4  1  0.8105  0.8105  0.7315  1\n  Pb  Pb5  1  0.6766  0.6766  0.4502  1\n  Pb  Pb6  1  0.3064  0.3064  0.5874  1\n  F  F7  1  0.7764  0.7764  0.8342  1\n  F  F8  1  0.0845  0.0845  0.9070  1\n  F  F9  1  0.1825  0.1825  0.6988  1\n  F  F10  1  0.4869  0.4869  0.7700  1\n  F  F11  1  0.6600  0.6600  0.6228  1\n  F  F12  1  0.0157  0.0157  0.5499  1\n  F  F13  1  0.0222  0.0222  0.4069  1\n  F  F14  1  0.3438  0.3438  0.4804  1\n  F  F15  1  0.6782  0.6782  0.2539  1\n  F  F16  1  0.3724  0.3724  0.3097  1\n  F  F17  1  0.7022  0.7022  0.3537  1\n  F  F18  1  0.0008  0.0008  0.1152  1\n  F  F19  1  0.0174  0.0174  0.2147  1\n  F  F20  1  0.3254  0.3254  0.1587  1\n  F  F21  1  0.3758  0.3758  0.9829  1\n  F  F22  1  0.6863  0.6863  0.0598  1\n",
    "output": "data_image0\n_chemical_formula_structural       NdFPb5F2NdF13\n_chemical_formula_sum              \"Nd2 F16 Pb5\"\n_cell_length_a       4.2189\n_cell_length_b       4.2189\n_cell_length_c       24.8002\n_cell_angle_alpha    85.7335\n_cell_angle_beta     85.7335\n_cell_angle_gamma    58.3361\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.0533  0.0533  0.3080  1.0000\n  F   F1        1.0000  0.6440  0.6440  0.1599  1.0000\n  Pb  Pb1       1.0000  0.0346  0.0346  0.0166  1.0000\n  Pb  Pb2       1.0000  0.4297  0.4297  0.8719  1.0000\n  Pb  Pb3       1.0000  0.8105  0.8105  0.7315  1.0000\n  Pb  Pb4       1.0000  0.6766  0.6766  0.4502  1.0000\n  Pb  Pb5       1.0000  0.3064  0.3064  0.5874  1.0000\n  F   F2        1.0000  0.7764  0.7764  0.8342  1.0000\n  F   F3        1.0000  0.0845  0.0845  0.9070  1.0000\n  Nd  Nd2       1.0000  0.1825  0.1825  0.6988  1.0000\n  F   F4        1.0000  0.4869  0.4869  0.7700  1.0000\n  F   F5        1.0000  0.6600  0.6600  0.6228  1.0000\n  F   F6        1.0000  0.0157  0.0157  0.5499  1.0000\n  F   F7        1.0000  0.0222  0.0222  0.4069  1.0000\n  F   F8        1.0000  0.3438  0.3438  0.4804  1.0000\n  F   F9        1.0000  0.6782  0.6782  0.2539  1.0000\n  F   F10       1.0000  0.3724  0.3724  0.3097  1.0000\n  F   F11       1.0000  0.7022  0.7022  0.3537  1.0000\n  F   F12       1.0000  0.0008  0.0008  0.1152  1.0000\n  F   F13       1.0000  0.0174  0.0174  0.2147  1.0000\n  F   F14       1.0000  0.3254  0.3254  0.1587  1.0000\n  F   F15       1.0000  0.3758  0.3758  0.9829  1.0000\n  F   F16       1.0000  0.6863  0.6863  0.0598  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6c027988-b013-4b22-9507-24cf87ec19f4",
    "mp_id": "mp-676816",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2PbF8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1218\n_cell_length_b   5.9809\n_cell_length_c   7.5586\n_cell_angle_alpha   112.9441\n_cell_angle_beta   105.8184\n_cell_angle_gamma   89.5994\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2PbF8\n_chemical_formula_sum   'La2 Pb1 F8'\n_cell_volume   164.0541\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.6435  0.6514  0.3257  1\n  La  La1  1  0.3319  0.3162  0.6571  1\n  Pb  Pb2  1  0.0252  0.9901  0.0115  1\n  F  F3  1  0.0517  0.6665  0.1456  1\n  F  F4  1  0.8018  0.5639  0.6302  1\n  F  F5  1  0.5974  0.0508  0.3363  1\n  F  F6  1  0.4965  0.2839  0.0181  1\n  F  F7  1  0.2508  0.8755  0.5371  1\n  F  F8  1  0.1417  0.3797  0.3477  1\n  F  F9  1  0.8705  0.1734  0.7397  1\n  F  F10  1  0.4503  0.7181  0.9176  1\n",
    "output": "data_image0\n_chemical_formula_structural       FLaPbLaF7\n_chemical_formula_sum              \"F8 La2 Pb1\"\n_cell_length_a       4.1218\n_cell_length_b       5.9809\n_cell_length_c       7.5586\n_cell_angle_alpha    112.9441\n_cell_angle_beta     105.8184\n_cell_angle_gamma    89.5994\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.6435  0.6514  0.3257  1.0000\n  La  La1       1.0000  0.3319  0.3162  0.6571  1.0000\n  Pb  Pb1       1.0000  0.0252  0.9901  0.0115  1.0000\n  La  La2       1.0000  0.0517  0.6665  0.1456  1.0000\n  F   F2        1.0000  0.8018  0.5639  0.6302  1.0000\n  F   F3        1.0000  0.5974  0.0508  0.3363  1.0000\n  F   F4        1.0000  0.4965  0.2839  0.0181  1.0000\n  F   F5        1.0000  0.2508  0.8755  0.5371  1.0000\n  F   F6        1.0000  0.1417  0.3797  0.3477  1.0000\n  F   F7        1.0000  0.8705  0.1734  0.7397  1.0000\n  F   F8        1.0000  0.4503  0.7181  0.9176  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a8446614-d1fa-4d1b-a045-18ec330ae492",
    "mp_id": "mp-676881",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ho4Zr3O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3399\n_cell_length_b   6.4070\n_cell_length_c   12.7137\n_cell_angle_alpha   99.2871\n_cell_angle_beta   99.2648\n_cell_angle_gamma   99.3786\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ho4Zr3O12\n_chemical_formula_sum   'Ho8 Zr6 O24'\n_cell_volume   493.4561\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.3880  0.8652  0.0981  1\n  Ho  Ho1  1  0.3101  0.6097  0.8183  1\n  Ho  Ho2  1  0.2977  0.6105  0.3189  1\n  Ho  Ho3  1  0.8583  0.6930  0.4475  1\n  Ho  Ho4  1  0.6899  0.3903  0.1817  1\n  Ho  Ho5  1  0.1417  0.3070  0.5525  1\n  Ho  Ho6  1  0.6120  0.1348  0.9019  1\n  Ho  Ho7  1  0.7023  0.3895  0.6811  1\n  Zr  Zr8  1  0.9919  0.9938  0.2474  1\n  Zr  Zr9  1  0.3917  0.8568  0.5946  1\n  Zr  Zr10  1  0.0081  0.0062  0.7526  1\n  Zr  Zr11  1  0.8537  0.6755  0.9468  1\n  Zr  Zr12  1  0.1463  0.3245  0.0532  1\n  Zr  Zr13  1  0.6083  0.1432  0.4054  1\n  O  O14  1  0.3207  0.9426  0.7841  1\n  O  O15  1  0.0327  0.8929  0.0890  1\n  O  O16  1  0.3163  0.9621  0.2953  1\n  O  O17  1  0.0751  0.9225  0.5937  1\n  O  O18  1  0.5886  0.8193  0.9622  1\n  O  O19  1  0.9248  0.6945  0.7919  1\n  O  O20  1  0.1730  0.5760  0.9659  1\n  O  O21  1  0.5663  0.8314  0.4621  1\n  O  O22  1  0.4084  0.5670  0.1579  1\n  O  O23  1  0.9261  0.6822  0.2788  1\n  O  O24  1  0.1853  0.5936  0.4705  1\n  O  O25  1  0.5916  0.4330  0.8421  1\n  O  O26  1  0.4290  0.5841  0.6580  1\n  O  O27  1  0.8270  0.4240  0.0341  1\n  O  O28  1  0.0752  0.3055  0.2081  1\n  O  O29  1  0.5710  0.4159  0.3420  1\n  O  O30  1  0.4114  0.1807  0.0378  1\n  O  O31  1  0.8147  0.4064  0.5295  1\n  O  O32  1  0.0739  0.3178  0.7212  1\n  O  O33  1  0.4337  0.1686  0.5379  1\n  O  O34  1  0.9673  0.1071  0.9110  1\n  O  O35  1  0.6793  0.0574  0.2159  1\n  O  O36  1  0.9249  0.0775  0.4063  1\n  O  O37  1  0.6837  0.0379  0.7047  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ho7OZr6O2HoO21\n_chemical_formula_sum              \"Ho8 O24 Zr6\"\n_cell_length_a       6.3399\n_cell_length_b       6.4070\n_cell_length_c       12.7137\n_cell_angle_alpha    99.2871\n_cell_angle_beta     99.2648\n_cell_angle_gamma    99.3786\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.3880  0.8652  0.0981  1.0000\n  Ho  Ho2       1.0000  0.3101  0.6097  0.8183  1.0000\n  Ho  Ho3       1.0000  0.2977  0.6105  0.3189  1.0000\n  Ho  Ho4       1.0000  0.8583  0.6930  0.4475  1.0000\n  Ho  Ho5       1.0000  0.6899  0.3903  0.1817  1.0000\n  Ho  Ho6       1.0000  0.1417  0.3070  0.5525  1.0000\n  Ho  Ho7       1.0000  0.6120  0.1348  0.9019  1.0000\n  O   O1        1.0000  0.7023  0.3895  0.6811  1.0000\n  Zr  Zr1       1.0000  0.9919  0.9938  0.2474  1.0000\n  Zr  Zr2       1.0000  0.3917  0.8568  0.5946  1.0000\n  Zr  Zr3       1.0000  0.0081  0.0062  0.7526  1.0000\n  Zr  Zr4       1.0000  0.8537  0.6755  0.9468  1.0000\n  Zr  Zr5       1.0000  0.1463  0.3245  0.0532  1.0000\n  Zr  Zr6       1.0000  0.6083  0.1432  0.4054  1.0000\n  O   O2        1.0000  0.3207  0.9426  0.7841  1.0000\n  O   O3        1.0000  0.0327  0.8929  0.0890  1.0000\n  Ho  Ho8       1.0000  0.3163  0.9621  0.2953  1.0000\n  O   O4        1.0000  0.0751  0.9225  0.5937  1.0000\n  O   O5        1.0000  0.5886  0.8193  0.9622  1.0000\n  O   O6        1.0000  0.9248  0.6945  0.7919  1.0000\n  O   O7        1.0000  0.1730  0.5760  0.9659  1.0000\n  O   O8        1.0000  0.5663  0.8314  0.4621  1.0000\n  O   O9        1.0000  0.4084  0.5670  0.1579  1.0000\n  O   O10       1.0000  0.9261  0.6822  0.2788  1.0000\n  O   O11       1.0000  0.1853  0.5936  0.4705  1.0000\n  O   O12       1.0000  0.5916  0.4330  0.8421  1.0000\n  O   O13       1.0000  0.4290  0.5841  0.6580  1.0000\n  O   O14       1.0000  0.8270  0.4240  0.0341  1.0000\n  O   O15       1.0000  0.0752  0.3055  0.2081  1.0000\n  O   O16       1.0000  0.5710  0.4159  0.3420  1.0000\n  O   O17       1.0000  0.4114  0.1807  0.0378  1.0000\n  O   O18       1.0000  0.8147  0.4064  0.5295  1.0000\n  O   O19       1.0000  0.0739  0.3178  0.7212  1.0000\n  O   O20       1.0000  0.4337  0.1686  0.5379  1.0000\n  O   O21       1.0000  0.9673  0.1071  0.9110  1.0000\n  O   O22       1.0000  0.6793  0.0574  0.2159  1.0000\n  O   O23       1.0000  0.9249  0.0775  0.4063  1.0000\n  O   O24       1.0000  0.6837  0.0379  0.7047  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fc62f3f6-18a8-4131-96af-184aac10d342",
    "mp_id": "mp-677725",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_SrLa11Mg3Ga9O34\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5993\n_cell_length_b   5.5993\n_cell_length_c   27.3534\n_cell_angle_alpha   89.9491\n_cell_angle_beta   89.9491\n_cell_angle_gamma   59.7852\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   SrLa11Mg3Ga9O34\n_chemical_formula_sum   'Sr1 La11 Mg3 Ga9 O34'\n_cell_volume   741.0766\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.3272  0.3272  0.7975  1\n  La  La1  1  0.6892  0.6892  0.9649  1\n  La  La2  1  0.0055  0.0055  0.6252  1\n  La  La3  1  0.9848  0.9848  0.8731  1\n  La  La4  1  0.6702  0.6702  0.4605  1\n  La  La5  1  0.6527  0.6527  0.7047  1\n  La  La6  1  0.3368  0.3368  0.2933  1\n  La  La7  1  0.3304  0.3304  0.5384  1\n  La  La8  1  0.0045  0.0045  0.1263  1\n  La  La9  1  0.9963  0.9963  0.3734  1\n  La  La10  1  0.6631  0.6631  0.2073  1\n  La  La11  1  0.3362  0.3362  0.0399  1\n  Mg  Mg12  1  0.3116  0.3116  0.9193  1\n  Mg  Mg13  1  0.6783  0.6783  0.8276  1\n  Mg  Mg14  1  0.3492  0.3492  0.6608  1\n  Ga  Ga15  1  0.0038  0.0038  0.9998  1\n  Ga  Ga16  1  0.0009  0.0009  0.5000  1\n  Ga  Ga17  1  0.9778  0.9778  0.7542  1\n  Ga  Ga18  1  0.6664  0.6664  0.5846  1\n  Ga  Ga19  1  0.3333  0.3333  0.4162  1\n  Ga  Ga20  1  0.0000  0.0000  0.2499  1\n  Ga  Ga21  1  0.6664  0.6664  0.3335  1\n  Ga  Ga22  1  0.6681  0.6681  0.0847  1\n  Ga  Ga23  1  0.3334  0.3334  0.1669  1\n  O  O24  1  0.0269  0.5439  0.8700  1\n  O  O25  1  0.1439  0.6380  0.9669  1\n  O  O26  1  0.1276  0.1276  0.9458  1\n  O  O27  1  0.7178  0.2002  0.7007  1\n  O  O28  1  0.8096  0.2920  0.8004  1\n  O  O29  1  0.5439  0.0269  0.8700  1\n  O  O30  1  0.6380  0.1439  0.9669  1\n  O  O31  1  0.7957  0.7957  0.7717  1\n  O  O32  1  0.3633  0.8692  0.5334  1\n  O  O33  1  0.4617  0.9661  0.6360  1\n  O  O34  1  0.2002  0.7178  0.7007  1\n  O  O35  1  0.2920  0.8096  0.8004  1\n  O  O36  1  0.8573  0.8573  0.5561  1\n  O  O37  1  0.4773  0.4773  0.6068  1\n  O  O38  1  0.0317  0.5319  0.3670  1\n  O  O39  1  0.1347  0.6376  0.4657  1\n  O  O40  1  0.8692  0.3633  0.5334  1\n  O  O41  1  0.9661  0.4617  0.6360  1\n  O  O42  1  0.5282  0.5282  0.3891  1\n  O  O43  1  0.1398  0.1398  0.4440  1\n  O  O44  1  0.6992  0.1981  0.2002  1\n  O  O45  1  0.8016  0.3025  0.2994  1\n  O  O46  1  0.5319  0.0317  0.3670  1\n  O  O47  1  0.6376  0.1347  0.4657  1\n  O  O48  1  0.1950  0.1950  0.2224  1\n  O  O49  1  0.8058  0.8058  0.2778  1\n  O  O50  1  0.3695  0.8693  0.0349  1\n  O  O51  1  0.4696  0.9686  0.1334  1\n  O  O52  1  0.1981  0.6992  0.2002  1\n  O  O53  1  0.3025  0.8016  0.2994  1\n  O  O54  1  0.8611  0.8611  0.0545  1\n  O  O55  1  0.4728  0.4728  0.1113  1\n  O  O56  1  0.8693  0.3695  0.0349  1\n  O  O57  1  0.9686  0.4696  0.1334  1\n",
    "output": "data_image0\n_chemical_formula_structural       SrLa4OLa6Mg3Ga9LaO33\n_chemical_formula_sum              \"Sr1 La11 O34 Mg3 Ga9\"\n_cell_length_a       5.5993\n_cell_length_b       5.5993\n_cell_length_c       27.3534\n_cell_angle_alpha    89.9491\n_cell_angle_beta     89.9491\n_cell_angle_gamma    59.7852\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.3272  0.3272  0.7975  1.0000\n  La  La1       1.0000  0.6892  0.6892  0.9649  1.0000\n  La  La2       1.0000  0.0055  0.0055  0.6252  1.0000\n  La  La3       1.0000  0.9848  0.9848  0.8731  1.0000\n  La  La4       1.0000  0.6702  0.6702  0.4605  1.0000\n  O   O1        1.0000  0.6527  0.6527  0.7047  1.0000\n  La  La5       1.0000  0.3368  0.3368  0.2933  1.0000\n  La  La6       1.0000  0.3304  0.3304  0.5384  1.0000\n  La  La7       1.0000  0.0045  0.0045  0.1263  1.0000\n  La  La8       1.0000  0.9963  0.9963  0.3734  1.0000\n  La  La9       1.0000  0.6631  0.6631  0.2073  1.0000\n  La  La10      1.0000  0.3362  0.3362  0.0399  1.0000\n  Mg  Mg1       1.0000  0.3116  0.3116  0.9193  1.0000\n  Mg  Mg2       1.0000  0.6783  0.6783  0.8276  1.0000\n  Mg  Mg3       1.0000  0.3492  0.3492  0.6608  1.0000\n  Ga  Ga1       1.0000  0.0038  0.0038  0.9998  1.0000\n  Ga  Ga2       1.0000  0.0009  0.0009  0.5000  1.0000\n  Ga  Ga3       1.0000  0.9778  0.9778  0.7542  1.0000\n  Ga  Ga4       1.0000  0.6664  0.6664  0.5846  1.0000\n  Ga  Ga5       1.0000  0.3333  0.3333  0.4162  1.0000\n  Ga  Ga6       1.0000  0.0000  0.0000  0.2499  1.0000\n  Ga  Ga7       1.0000  0.6664  0.6664  0.3335  1.0000\n  Ga  Ga8       1.0000  0.6681  0.6681  0.0847  1.0000\n  Ga  Ga9       1.0000  0.3334  0.3334  0.1669  1.0000\n  La  La11      1.0000  0.0269  0.5439  0.8700  1.0000\n  O   O2        1.0000  0.1439  0.6380  0.9669  1.0000\n  O   O3        1.0000  0.1276  0.1276  0.9458  1.0000\n  O   O4        1.0000  0.7178  0.2002  0.7007  1.0000\n  O   O5        1.0000  0.8096  0.2920  0.8004  1.0000\n  O   O6        1.0000  0.5439  0.0269  0.8700  1.0000\n  O   O7        1.0000  0.6380  0.1439  0.9669  1.0000\n  O   O8        1.0000  0.7957  0.7957  0.7717  1.0000\n  O   O9        1.0000  0.3633  0.8692  0.5334  1.0000\n  O   O10       1.0000  0.4617  0.9661  0.6360  1.0000\n  O   O11       1.0000  0.2002  0.7178  0.7007  1.0000\n  O   O12       1.0000  0.2920  0.8096  0.8004  1.0000\n  O   O13       1.0000  0.8573  0.8573  0.5561  1.0000\n  O   O14       1.0000  0.4773  0.4773  0.6068  1.0000\n  O   O15       1.0000  0.0317  0.5319  0.3670  1.0000\n  O   O16       1.0000  0.1347  0.6376  0.4657  1.0000\n  O   O17       1.0000  0.8692  0.3633  0.5334  1.0000\n  O   O18       1.0000  0.9661  0.4617  0.6360  1.0000\n  O   O19       1.0000  0.5282  0.5282  0.3891  1.0000\n  O   O20       1.0000  0.1398  0.1398  0.4440  1.0000\n  O   O21       1.0000  0.6992  0.1981  0.2002  1.0000\n  O   O22       1.0000  0.8016  0.3025  0.2994  1.0000\n  O   O23       1.0000  0.5319  0.0317  0.3670  1.0000\n  O   O24       1.0000  0.6376  0.1347  0.4657  1.0000\n  O   O25       1.0000  0.1950  0.1950  0.2224  1.0000\n  O   O26       1.0000  0.8058  0.8058  0.2778  1.0000\n  O   O27       1.0000  0.3695  0.8693  0.0349  1.0000\n  O   O28       1.0000  0.4696  0.9686  0.1334  1.0000\n  O   O29       1.0000  0.1981  0.6992  0.2002  1.0000\n  O   O30       1.0000  0.3025  0.8016  0.2994  1.0000\n  O   O31       1.0000  0.8611  0.8611  0.0545  1.0000\n  O   O32       1.0000  0.4728  0.4728  0.1113  1.0000\n  O   O33       1.0000  0.8693  0.3695  0.0349  1.0000\n  O   O34       1.0000  0.9686  0.4696  0.1334  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a299ff19-696f-44be-8547-36b315523467",
    "mp_id": "mp-6800",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KLiSO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2139\n_cell_length_b   5.2139\n_cell_length_c   8.8127\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KLiSO4\n_chemical_formula_sum   'K2 Li2 S2 O8'\n_cell_volume   207.4739\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0000  0.0000  0.1803  1\n  K  K1  1  0.0000  0.0000  0.6803  1\n  Li  Li2  1  0.3333  0.6667  0.4932  1\n  Li  Li3  1  0.6667  0.3333  0.9932  1\n  S  S4  1  0.3333  0.6667  0.8831  1\n  S  S5  1  0.6667  0.3333  0.3831  1\n  O  O6  1  0.9402  0.3395  0.4380  1\n  O  O7  1  0.6008  0.6605  0.9380  1\n  O  O8  1  0.6605  0.6008  0.4380  1\n  O  O9  1  0.3992  0.0598  0.4380  1\n  O  O10  1  0.3333  0.6667  0.7139  1\n  O  O11  1  0.6667  0.3333  0.2139  1\n  O  O12  1  0.3395  0.9402  0.9380  1\n  O  O13  1  0.0598  0.3992  0.9380  1\n",
    "output": "data_image0\n_chemical_formula_structural       KOLi2S2O2KO5\n_chemical_formula_sum              \"K2 O8 Li2 S2\"\n_cell_length_a       5.2139\n_cell_length_b       5.2139\n_cell_length_c       8.8127\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0000  0.0000  0.1803  1.0000\n  O   O1        1.0000  0.0000  0.0000  0.6803  1.0000\n  Li  Li1       1.0000  0.3333  0.6667  0.4932  1.0000\n  Li  Li2       1.0000  0.6667  0.3333  0.9932  1.0000\n  S   S1        1.0000  0.3333  0.6667  0.8831  1.0000\n  S   S2        1.0000  0.6667  0.3333  0.3831  1.0000\n  O   O2        1.0000  0.9402  0.3395  0.4380  1.0000\n  O   O3        1.0000  0.6008  0.6605  0.9380  1.0000\n  K   K2        1.0000  0.6605  0.6008  0.4380  1.0000\n  O   O4        1.0000  0.3992  0.0598  0.4380  1.0000\n  O   O5        1.0000  0.3333  0.6667  0.7139  1.0000\n  O   O6        1.0000  0.6667  0.3333  0.2139  1.0000\n  O   O7        1.0000  0.3395  0.9402  0.9380  1.0000\n  O   O8        1.0000  0.0598  0.3992  0.9380  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "00dbafdc-bd5a-4254-bc49-f62e5c7fa916",
    "mp_id": "mp-680260",
    "action_prompt": "Swap the spatial positions of atoms at indices 48 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti45Se16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4654\n_cell_length_b   16.4597\n_cell_length_c   17.7867\n_cell_angle_alpha   91.5683\n_cell_angle_beta   95.5901\n_cell_angle_gamma   90.0058\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti45Se16\n_chemical_formula_sum   'Ti45 Se16'\n_cell_volume   1009.3251\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.2721  0.3436  0.5440  1\n  Ti  Ti1  1  0.6586  0.9325  0.3150  1\n  Ti  Ti2  1  0.6480  0.5303  0.2877  1\n  Ti  Ti3  1  0.6227  0.3327  0.2431  1\n  Ti  Ti4  1  0.4409  0.4407  0.8809  1\n  Ti  Ti5  1  0.3585  0.4701  0.7131  1\n  Ti  Ti6  1  0.3812  0.6679  0.7565  1\n  Ti  Ti7  1  0.4734  0.6317  0.9423  1\n  Ti  Ti8  1  0.5679  0.1657  0.1342  1\n  Ti  Ti9  1  0.9656  0.9552  0.9265  1\n  Ti  Ti10  1  0.7334  0.6580  0.4561  1\n  Ti  Ti11  1  0.5617  0.5589  0.1188  1\n  Ti  Ti12  1  0.6978  0.0999  0.4010  1\n  Ti  Ti13  1  0.1344  0.0662  0.2685  1\n  Ti  Ti14  1  0.7402  0.8609  0.4735  1\n  Ti  Ti15  1  0.3027  0.9008  0.5990  1\n  Ti  Ti16  1  0.7821  0.0197  0.5620  1\n  Ti  Ti17  1  0.1849  0.2514  0.3728  1\n  Ti  Ti18  1  0.7820  0.4856  0.5590  1\n  Ti  Ti19  1  0.1839  0.7955  0.3598  1\n  Ti  Ti20  1  0.2620  0.1398  0.5265  1\n  Ti  Ti21  1  0.9948  0.7963  0.9861  1\n  Ti  Ti22  1  0.0924  0.8751  0.1786  1\n  Ti  Ti23  1  0.0008  0.5001  0.9997  1\n  Ti  Ti24  1  0.8977  0.3364  0.7939  1\n  Ti  Ti25  1  0.9128  0.1253  0.8211  1\n  Ti  Ti26  1  0.9157  0.5507  0.8275  1\n  Ti  Ti27  1  0.0882  0.4494  0.1730  1\n  Ti  Ti28  1  0.5232  0.9088  0.0424  1\n  Ti  Ti29  1  0.4350  0.8345  0.8657  1\n  Ti  Ti30  1  0.5289  0.3687  0.0578  1\n  Ti  Ti31  1  0.5547  0.7539  0.1047  1\n  Ti  Ti32  1  0.2932  0.6146  0.5796  1\n  Ti  Ti33  1  0.1067  0.6633  0.2061  1\n  Ti  Ti34  1  0.8215  0.2057  0.6400  1\n  Ti  Ti35  1  0.4473  0.2461  0.8951  1\n  Ti  Ti36  1  0.0074  0.2035  0.0135  1\n  Ti  Ti37  1  0.8683  0.9347  0.7302  1\n  Ti  Ti38  1  0.7117  0.3863  0.4206  1\n  Ti  Ti39  1  0.2236  0.5155  0.4409  1\n  Ti  Ti40  1  0.3450  0.0688  0.6839  1\n  Ti  Ti41  1  0.2188  0.9806  0.4372  1\n  Ti  Ti42  1  0.4803  0.0913  0.9564  1\n  Ti  Ti43  1  0.8180  0.7494  0.6278  1\n  Ti  Ti44  1  0.0384  0.0450  0.0724  1\n  Se  Se45  1  0.0294  0.6502  0.0540  1\n  Se  Se46  1  0.1796  0.6364  0.3472  1\n  Se  Se47  1  0.3765  0.2185  0.7499  1\n  Se  Se48  1  0.6387  0.1844  0.2790  1\n  Se  Se49  1  0.9726  0.3496  0.9462  1\n  Se  Se50  1  0.2636  0.7583  0.5185  1\n  Se  Se51  1  0.5894  0.9979  0.1749  1\n  Se  Se52  1  0.0709  0.2889  0.1405  1\n  Se  Se53  1  0.3642  0.8165  0.7211  1\n  Se  Se54  1  0.1615  0.4154  0.3185  1\n  Se  Se55  1  0.8437  0.5847  0.6818  1\n  Se  Se56  1  0.6290  0.7819  0.2499  1\n  Se  Se57  1  0.8274  0.3647  0.6530  1\n  Se  Se58  1  0.7395  0.2426  0.4821  1\n  Se  Se59  1  0.4147  0.0027  0.8238  1\n  Se  Se60  1  0.9320  0.7112  0.8592  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti31SeTi13Se3TiSe12\n_chemical_formula_sum              \"Ti45 Se16\"\n_cell_length_a       3.4654\n_cell_length_b       16.4597\n_cell_length_c       17.7867\n_cell_angle_alpha    91.5683\n_cell_angle_beta     95.5901\n_cell_angle_gamma    90.0058\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.2721  0.3436  0.5440  1.0000\n  Ti  Ti2       1.0000  0.6586  0.9325  0.3150  1.0000\n  Ti  Ti3       1.0000  0.6480  0.5303  0.2877  1.0000\n  Ti  Ti4       1.0000  0.6227  0.3327  0.2431  1.0000\n  Ti  Ti5       1.0000  0.4409  0.4407  0.8809  1.0000\n  Ti  Ti6       1.0000  0.3585  0.4701  0.7131  1.0000\n  Ti  Ti7       1.0000  0.3812  0.6679  0.7565  1.0000\n  Ti  Ti8       1.0000  0.4734  0.6317  0.9423  1.0000\n  Ti  Ti9       1.0000  0.5679  0.1657  0.1342  1.0000\n  Ti  Ti10      1.0000  0.9656  0.9552  0.9265  1.0000\n  Ti  Ti11      1.0000  0.7334  0.6580  0.4561  1.0000\n  Ti  Ti12      1.0000  0.5617  0.5589  0.1188  1.0000\n  Ti  Ti13      1.0000  0.6978  0.0999  0.4010  1.0000\n  Ti  Ti14      1.0000  0.1344  0.0662  0.2685  1.0000\n  Ti  Ti15      1.0000  0.7402  0.8609  0.4735  1.0000\n  Ti  Ti16      1.0000  0.3027  0.9008  0.5990  1.0000\n  Ti  Ti17      1.0000  0.7821  0.0197  0.5620  1.0000\n  Ti  Ti18      1.0000  0.1849  0.2514  0.3728  1.0000\n  Ti  Ti19      1.0000  0.7820  0.4856  0.5590  1.0000\n  Ti  Ti20      1.0000  0.1839  0.7955  0.3598  1.0000\n  Ti  Ti21      1.0000  0.2620  0.1398  0.5265  1.0000\n  Ti  Ti22      1.0000  0.9948  0.7963  0.9862  1.0000\n  Ti  Ti23      1.0000  0.0924  0.8751  0.1786  1.0000\n  Ti  Ti24      1.0000  0.0008  0.5001  0.9997  1.0000\n  Ti  Ti25      1.0000  0.8977  0.3364  0.7939  1.0000\n  Ti  Ti26      1.0000  0.9128  0.1253  0.8211  1.0000\n  Ti  Ti27      1.0000  0.9157  0.5507  0.8275  1.0000\n  Ti  Ti28      1.0000  0.0882  0.4494  0.1730  1.0000\n  Ti  Ti29      1.0000  0.5232  0.9088  0.0424  1.0000\n  Ti  Ti30      1.0000  0.4350  0.8345  0.8657  1.0000\n  Ti  Ti31      1.0000  0.5289  0.3687  0.0578  1.0000\n  Se  Se1       1.0000  0.5547  0.7539  0.1047  1.0000\n  Ti  Ti32      1.0000  0.2932  0.6146  0.5796  1.0000\n  Ti  Ti33      1.0000  0.1067  0.6633  0.2061  1.0000\n  Ti  Ti34      1.0000  0.8215  0.2057  0.6400  1.0000\n  Ti  Ti35      1.0000  0.4473  0.2461  0.8951  1.0000\n  Ti  Ti36      1.0000  0.0074  0.2035  0.0135  1.0000\n  Ti  Ti37      1.0000  0.8683  0.9347  0.7302  1.0000\n  Ti  Ti38      1.0000  0.7117  0.3863  0.4206  1.0000\n  Ti  Ti39      1.0000  0.2236  0.5155  0.4409  1.0000\n  Ti  Ti40      1.0000  0.3450  0.0688  0.6839  1.0000\n  Ti  Ti41      1.0000  0.2188  0.9806  0.4372  1.0000\n  Ti  Ti42      1.0000  0.4803  0.0913  0.9564  1.0000\n  Ti  Ti43      1.0000  0.8180  0.7494  0.6278  1.0000\n  Ti  Ti44      1.0000  0.0384  0.0450  0.0724  1.0000\n  Se  Se2       1.0000  0.0294  0.6502  0.0540  1.0000\n  Se  Se3       1.0000  0.1796  0.6364  0.3472  1.0000\n  Se  Se4       1.0000  0.3765  0.2185  0.7499  1.0000\n  Ti  Ti45      1.0000  0.6387  0.1844  0.2790  1.0000\n  Se  Se5       1.0000  0.9726  0.3496  0.9462  1.0000\n  Se  Se6       1.0000  0.2636  0.7583  0.5185  1.0000\n  Se  Se7       1.0000  0.5894  0.9979  0.1749  1.0000\n  Se  Se8       1.0000  0.0709  0.2889  0.1405  1.0000\n  Se  Se9       1.0000  0.3642  0.8165  0.7211  1.0000\n  Se  Se10      1.0000  0.1615  0.4154  0.3185  1.0000\n  Se  Se11      1.0000  0.8437  0.5847  0.6818  1.0000\n  Se  Se12      1.0000  0.6290  0.7819  0.2499  1.0000\n  Se  Se13      1.0000  0.8274  0.3647  0.6530  1.0000\n  Se  Se14      1.0000  0.7395  0.2426  0.4821  1.0000\n  Se  Se15      1.0000  0.4147  0.0027  0.8238  1.0000\n  Se  Se16      1.0000  0.9320  0.7112  0.8592  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1eddc5e4-4e9f-4bec-96ee-2e6ff5e5e416",
    "mp_id": "mp-684589",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi4O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8134\n_cell_length_b   7.8134\n_cell_length_c   5.6850\n_cell_angle_alpha   83.9545\n_cell_angle_beta   83.9545\n_cell_angle_gamma   88.9846\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi4O5\n_chemical_formula_sum   'Bi8 O10'\n_cell_volume   343.2116\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.1989  0.5411  0.7450  1\n  Bi  Bi1  1  0.2359  0.0310  0.7587  1\n  Bi  Bi2  1  0.7666  0.9620  0.7017  1\n  Bi  Bi3  1  0.7122  0.4408  0.7975  1\n  Bi  Bi4  1  0.0310  0.2359  0.2587  1\n  Bi  Bi5  1  0.4408  0.7122  0.2975  1\n  Bi  Bi6  1  0.5411  0.1989  0.2450  1\n  Bi  Bi7  1  0.9620  0.7666  0.2017  1\n  O  O8  1  0.2408  0.7639  0.0003  1\n  O  O9  1  0.9780  0.0223  0.9697  1\n  O  O10  1  0.4857  0.5401  0.6436  1\n  O  O11  1  0.1688  0.2919  0.5559  1\n  O  O12  1  0.6965  0.8644  0.3607  1\n  O  O13  1  0.7639  0.2408  0.5003  1\n  O  O14  1  0.0223  0.9780  0.4697  1\n  O  O15  1  0.5401  0.4857  0.1436  1\n  O  O16  1  0.2919  0.1688  0.0559  1\n  O  O17  1  0.8644  0.6965  0.8607  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBi7O9Bi\n_chemical_formula_sum              \"O10 Bi8\"\n_cell_length_a       7.8134\n_cell_length_b       7.8134\n_cell_length_c       5.6850\n_cell_angle_alpha    83.9545\n_cell_angle_beta     83.9545\n_cell_angle_gamma    88.9846\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1989  0.5411  0.7450  1.0000\n  Bi  Bi1       1.0000  0.2359  0.0310  0.7587  1.0000\n  Bi  Bi2       1.0000  0.7666  0.9620  0.7017  1.0000\n  Bi  Bi3       1.0000  0.7122  0.4408  0.7975  1.0000\n  Bi  Bi4       1.0000  0.0310  0.2359  0.2587  1.0000\n  Bi  Bi5       1.0000  0.4408  0.7122  0.2975  1.0000\n  Bi  Bi6       1.0000  0.5411  0.1989  0.2450  1.0000\n  Bi  Bi7       1.0000  0.9620  0.7666  0.2017  1.0000\n  O   O2        1.0000  0.2408  0.7639  0.0003  1.0000\n  O   O3        1.0000  0.9780  0.0223  0.9697  1.0000\n  O   O4        1.0000  0.4857  0.5401  0.6436  1.0000\n  O   O5        1.0000  0.1688  0.2919  0.5559  1.0000\n  O   O6        1.0000  0.6965  0.8644  0.3607  1.0000\n  O   O7        1.0000  0.7639  0.2408  0.5003  1.0000\n  O   O8        1.0000  0.0223  0.9780  0.4697  1.0000\n  O   O9        1.0000  0.5401  0.4857  0.1436  1.0000\n  O   O10       1.0000  0.2919  0.1688  0.0559  1.0000\n  Bi  Bi8       1.0000  0.8644  0.6965  0.8607  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9bee06e2-542c-48c4-ac7c-82ab1811ef7c",
    "mp_id": "mp-684710",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cu9S5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7251\n_cell_length_b   7.7690\n_cell_length_c   8.7034\n_cell_angle_alpha   77.1416\n_cell_angle_beta   75.0288\n_cell_angle_gamma   73.2992\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cu9S5\n_chemical_formula_sum   'Cu18 S10'\n_cell_volume   415.3199\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cu  Cu0  1  0.0464  0.4544  0.1501  1\n  Cu  Cu1  1  0.9538  0.0520  0.8499  1\n  Cu  Cu2  1  0.0462  0.9480  0.1501  1\n  Cu  Cu3  1  0.1515  0.3494  0.4535  1\n  Cu  Cu4  1  0.9536  0.5456  0.8499  1\n  Cu  Cu5  1  0.4457  0.5548  0.3476  1\n  Cu  Cu6  1  0.3477  0.6519  0.0436  1\n  Cu  Cu7  1  0.2563  0.7494  0.7447  1\n  Cu  Cu8  1  0.1509  0.8489  0.4488  1\n  Cu  Cu9  1  0.6505  0.8489  0.9542  1\n  Cu  Cu10  1  0.5460  0.9535  0.6508  1\n  Cu  Cu11  1  0.4540  0.0465  0.3492  1\n  Cu  Cu12  1  0.8491  0.1511  0.5512  1\n  Cu  Cu13  1  0.3495  0.1511  0.0458  1\n  Cu  Cu14  1  0.6523  0.3481  0.9564  1\n  Cu  Cu15  1  0.5543  0.4452  0.6524  1\n  Cu  Cu16  1  0.8485  0.6506  0.5465  1\n  Cu  Cu17  1  0.7437  0.2506  0.2553  1\n  S  S18  1  0.8987  0.8500  0.7006  1\n  S  S19  1  0.9026  0.3497  0.6995  1\n  S  S20  1  0.0974  0.6503  0.3005  1\n  S  S21  1  0.2995  0.9530  0.8996  1\n  S  S22  1  0.1013  0.1500  0.2994  1\n  S  S23  1  0.4976  0.2501  0.5017  1\n  S  S24  1  0.2987  0.4481  0.8990  1\n  S  S25  1  0.7013  0.5519  0.1010  1\n  S  S26  1  0.5024  0.7499  0.4983  1\n  S  S27  1  0.7005  0.0470  0.1004  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cu11SCu6S7CuS2\n_chemical_formula_sum              \"Cu18 S10\"\n_cell_length_a       6.7251\n_cell_length_b       7.7690\n_cell_length_c       8.7034\n_cell_angle_alpha    77.1416\n_cell_angle_beta     75.0288\n_cell_angle_gamma    73.2992\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cu  Cu1       1.0000  0.0464  0.4544  0.1501  1.0000\n  Cu  Cu2       1.0000  0.9538  0.0520  0.8499  1.0000\n  Cu  Cu3       1.0000  0.0462  0.9480  0.1501  1.0000\n  Cu  Cu4       1.0000  0.1515  0.3494  0.4535  1.0000\n  Cu  Cu5       1.0000  0.9536  0.5456  0.8499  1.0000\n  Cu  Cu6       1.0000  0.4457  0.5548  0.3476  1.0000\n  Cu  Cu7       1.0000  0.3477  0.6519  0.0436  1.0000\n  Cu  Cu8       1.0000  0.2563  0.7494  0.7447  1.0000\n  Cu  Cu9       1.0000  0.1509  0.8489  0.4488  1.0000\n  Cu  Cu10      1.0000  0.6505  0.8489  0.9542  1.0000\n  Cu  Cu11      1.0000  0.5460  0.9535  0.6508  1.0000\n  S   S1        1.0000  0.4540  0.0465  0.3492  1.0000\n  Cu  Cu12      1.0000  0.8491  0.1511  0.5512  1.0000\n  Cu  Cu13      1.0000  0.3495  0.1511  0.0458  1.0000\n  Cu  Cu14      1.0000  0.6523  0.3481  0.9564  1.0000\n  Cu  Cu15      1.0000  0.5543  0.4452  0.6524  1.0000\n  Cu  Cu16      1.0000  0.8485  0.6506  0.5465  1.0000\n  Cu  Cu17      1.0000  0.7437  0.2506  0.2553  1.0000\n  S   S2        1.0000  0.8987  0.8500  0.7006  1.0000\n  S   S3        1.0000  0.9026  0.3497  0.6995  1.0000\n  S   S4        1.0000  0.0974  0.6503  0.3005  1.0000\n  S   S5        1.0000  0.2995  0.9530  0.8996  1.0000\n  S   S6        1.0000  0.1013  0.1500  0.2994  1.0000\n  S   S7        1.0000  0.4976  0.2501  0.5017  1.0000\n  S   S8        1.0000  0.2987  0.4481  0.8990  1.0000\n  Cu  Cu18      1.0000  0.7013  0.5519  0.1010  1.0000\n  S   S9        1.0000  0.5024  0.7499  0.4983  1.0000\n  S   S10       1.0000  0.7005  0.0470  0.1004  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fc1ff6a2-0ab4-4faf-90b6-8aafdbd52ff5",
    "mp_id": "mp-685224",
    "action_prompt": "Swap the spatial positions of atoms at indices 63 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sc22Fe7S40\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4232\n_cell_length_b   7.3880\n_cell_length_c   36.4908\n_cell_angle_alpha   60.1837\n_cell_angle_beta   60.2727\n_cell_angle_gamma   60.7052\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sc22Fe7S40\n_chemical_formula_sum   'Sc22 Fe7 S40'\n_cell_volume   1427.4252\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sc  Sc0  1  0.4585  0.0249  0.9968  1\n  Sc  Sc1  1  0.5038  0.0143  0.0975  1\n  Sc  Sc2  1  0.4626  0.0111  0.2027  1\n  Sc  Sc3  1  0.5046  0.4939  0.0977  1\n  Sc  Sc4  1  0.5030  0.4923  0.2022  1\n  Sc  Sc5  1  0.5031  0.0119  0.2991  1\n  Sc  Sc6  1  0.4518  0.0171  0.4067  1\n  Sc  Sc7  1  0.0098  0.4981  0.0982  1\n  Sc  Sc8  1  0.5028  0.4913  0.2992  1\n  Sc  Sc9  1  0.5096  0.4796  0.4047  1\n  Sc  Sc10  1  0.9973  0.4609  0.6046  1\n  Sc  Sc11  1  0.0031  0.5017  0.7001  1\n  Sc  Sc12  1  0.5072  0.4889  0.4968  1\n  Sc  Sc13  1  0.0050  0.4968  0.3006  1\n  Sc  Sc14  1  0.4968  0.5006  0.6029  1\n  Sc  Sc15  1  -0.0013  0.4599  0.8045  1\n  Sc  Sc16  1  0.4675  0.0017  0.8031  1\n  Sc  Sc17  1  0.0061  0.5006  0.9014  1\n  Sc  Sc18  1  0.4670  0.9967  0.6044  1\n  Sc  Sc19  1  0.0090  0.4993  0.4967  1\n  Sc  Sc20  1  0.4974  0.4997  0.8023  1\n  Sc  Sc21  1  0.5040  0.4995  0.9995  1\n  Fe  Fe22  1  0.9117  0.8655  0.1720  1\n  Fe  Fe23  1  0.9139  0.8540  0.3745  1\n  Fe  Fe24  1  0.4940  0.4971  0.6975  1\n  Fe  Fe25  1  0.9121  0.9060  0.5691  1\n  Fe  Fe26  1  0.4835  0.4893  0.9005  1\n  Fe  Fe27  1  0.9166  0.9085  0.7699  1\n  Fe  Fe28  1  0.9275  0.8567  0.9705  1\n  S  S29  1  0.2503  0.2535  0.0505  1\n  S  S30  1  0.2485  0.7430  0.0503  1\n  S  S31  1  0.2472  0.2559  0.1485  1\n  S  S32  1  0.7333  0.2567  0.0506  1\n  S  S33  1  0.2473  0.2562  0.2509  1\n  S  S34  1  0.2834  0.7392  0.1477  1\n  S  S35  1  0.2476  0.7403  0.2512  1\n  S  S36  1  0.7460  0.7537  0.0495  1\n  S  S37  1  0.2480  0.2548  0.3488  1\n  S  S38  1  0.7425  0.2476  0.1508  1\n  S  S39  1  0.7354  0.2570  0.2505  1\n  S  S40  1  0.7415  0.7558  0.1509  1\n  S  S41  1  0.2416  0.2642  0.4501  1\n  S  S42  1  0.2848  0.7424  0.3469  1\n  S  S43  1  0.7420  0.7553  0.2495  1\n  S  S44  1  0.2456  0.7446  0.4507  1\n  S  S45  1  0.7445  0.2453  0.3506  1\n  S  S46  1  0.2457  0.2511  0.5502  1\n  S  S47  1  0.7431  0.7569  0.3502  1\n  S  S48  1  0.7353  0.2668  0.4503  1\n  S  S49  1  0.2487  0.2528  0.6513  1\n  S  S50  1  0.2655  0.7225  0.5515  1\n  S  S51  1  0.2482  0.7399  0.6527  1\n  S  S52  1  0.7332  0.2700  0.5505  1\n  S  S53  1  0.7377  0.7617  0.4492  1\n  S  S54  1  0.2515  0.2557  0.7487  1\n  S  S55  1  0.7214  0.2665  0.6542  1\n  S  S56  1  0.7554  0.7497  0.5527  1\n  S  S57  1  0.2504  0.2533  0.8506  1\n  S  S58  1  0.2741  0.7163  0.7481  1\n  S  S59  1  0.7567  0.7497  0.6473  1\n  S  S60  1  0.2531  0.2692  0.9461  1\n  S  S61  1  0.2505  0.7412  0.8514  1\n  S  S62  1  0.7283  0.2738  0.7481  1\n  S  S63  1  0.7579  0.7494  0.7520  1\n  S  S64  1  0.7193  0.2717  0.8540  1\n  S  S65  1  0.2928  0.7236  0.9441  1\n  S  S66  1  0.7450  0.2465  0.9498  1\n  S  S67  1  0.7596  0.7486  0.8465  1\n  S  S68  1  0.7440  0.7547  0.9519  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sc16SSc5Fe7S34ScS5\n_chemical_formula_sum              \"Sc22 S40 Fe7\"\n_cell_length_a       7.4232\n_cell_length_b       7.3880\n_cell_length_c       36.4908\n_cell_angle_alpha    60.1837\n_cell_angle_beta     60.2727\n_cell_angle_gamma    60.7052\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sc  Sc1       1.0000  0.4585  0.0249  0.9968  1.0000\n  Sc  Sc2       1.0000  0.5038  0.0143  0.0975  1.0000\n  Sc  Sc3       1.0000  0.4626  0.0111  0.2027  1.0000\n  Sc  Sc4       1.0000  0.5046  0.4939  0.0977  1.0000\n  Sc  Sc5       1.0000  0.5030  0.4923  0.2022  1.0000\n  Sc  Sc6       1.0000  0.5031  0.0119  0.2991  1.0000\n  Sc  Sc7       1.0000  0.4518  0.0171  0.4067  1.0000\n  Sc  Sc8       1.0000  0.0098  0.4981  0.0982  1.0000\n  Sc  Sc9       1.0000  0.5028  0.4913  0.2992  1.0000\n  Sc  Sc10      1.0000  0.5096  0.4796  0.4047  1.0000\n  Sc  Sc11      1.0000  0.9973  0.4609  0.6046  1.0000\n  Sc  Sc12      1.0000  0.0031  0.5017  0.7001  1.0000\n  Sc  Sc13      1.0000  0.5072  0.4889  0.4968  1.0000\n  Sc  Sc14      1.0000  0.0050  0.4968  0.3006  1.0000\n  Sc  Sc15      1.0000  0.4968  0.5006  0.6029  1.0000\n  Sc  Sc16      1.0000  0.9987  0.4599  0.8045  1.0000\n  S   S1        1.0000  0.4675  0.0017  0.8031  1.0000\n  Sc  Sc17      1.0000  0.0061  0.5006  0.9014  1.0000\n  Sc  Sc18      1.0000  0.4670  0.9967  0.6044  1.0000\n  Sc  Sc19      1.0000  0.0090  0.4993  0.4967  1.0000\n  Sc  Sc20      1.0000  0.4974  0.4997  0.8023  1.0000\n  Sc  Sc21      1.0000  0.5040  0.4995  0.9995  1.0000\n  Fe  Fe1       1.0000  0.9117  0.8655  0.1720  1.0000\n  Fe  Fe2       1.0000  0.9139  0.8540  0.3745  1.0000\n  Fe  Fe3       1.0000  0.4940  0.4971  0.6975  1.0000\n  Fe  Fe4       1.0000  0.9121  0.9060  0.5691  1.0000\n  Fe  Fe5       1.0000  0.4835  0.4893  0.9005  1.0000\n  Fe  Fe6       1.0000  0.9166  0.9085  0.7699  1.0000\n  Fe  Fe7       1.0000  0.9275  0.8567  0.9705  1.0000\n  S   S2        1.0000  0.2503  0.2535  0.0505  1.0000\n  S   S3        1.0000  0.2485  0.7430  0.0503  1.0000\n  S   S4        1.0000  0.2472  0.2559  0.1485  1.0000\n  S   S5        1.0000  0.7333  0.2567  0.0506  1.0000\n  S   S6        1.0000  0.2473  0.2562  0.2509  1.0000\n  S   S7        1.0000  0.2834  0.7392  0.1477  1.0000\n  S   S8        1.0000  0.2476  0.7403  0.2512  1.0000\n  S   S9        1.0000  0.7460  0.7537  0.0495  1.0000\n  S   S10       1.0000  0.2480  0.2548  0.3488  1.0000\n  S   S11       1.0000  0.7425  0.2476  0.1508  1.0000\n  S   S12       1.0000  0.7354  0.2570  0.2505  1.0000\n  S   S13       1.0000  0.7415  0.7558  0.1509  1.0000\n  S   S14       1.0000  0.2416  0.2642  0.4501  1.0000\n  S   S15       1.0000  0.2848  0.7424  0.3469  1.0000\n  S   S16       1.0000  0.7420  0.7553  0.2495  1.0000\n  S   S17       1.0000  0.2456  0.7446  0.4507  1.0000\n  S   S18       1.0000  0.7445  0.2453  0.3506  1.0000\n  S   S19       1.0000  0.2457  0.2511  0.5502  1.0000\n  S   S20       1.0000  0.7431  0.7569  0.3502  1.0000\n  S   S21       1.0000  0.7353  0.2668  0.4503  1.0000\n  S   S22       1.0000  0.2487  0.2528  0.6513  1.0000\n  S   S23       1.0000  0.2655  0.7225  0.5515  1.0000\n  S   S24       1.0000  0.2482  0.7399  0.6527  1.0000\n  S   S25       1.0000  0.7332  0.2700  0.5505  1.0000\n  S   S26       1.0000  0.7377  0.7617  0.4492  1.0000\n  S   S27       1.0000  0.2515  0.2557  0.7487  1.0000\n  S   S28       1.0000  0.7214  0.2665  0.6542  1.0000\n  S   S29       1.0000  0.7554  0.7497  0.5527  1.0000\n  S   S30       1.0000  0.2504  0.2533  0.8506  1.0000\n  S   S31       1.0000  0.2741  0.7163  0.7481  1.0000\n  S   S32       1.0000  0.7567  0.7497  0.6473  1.0000\n  S   S33       1.0000  0.2531  0.2692  0.9461  1.0000\n  S   S34       1.0000  0.2505  0.7412  0.8514  1.0000\n  S   S35       1.0000  0.7283  0.2738  0.7481  1.0000\n  Sc  Sc22      1.0000  0.7579  0.7494  0.7520  1.0000\n  S   S36       1.0000  0.7193  0.2717  0.8540  1.0000\n  S   S37       1.0000  0.2928  0.7236  0.9441  1.0000\n  S   S38       1.0000  0.7450  0.2465  0.9498  1.0000\n  S   S39       1.0000  0.7596  0.7486  0.8465  1.0000\n  S   S40       1.0000  0.7440  0.7547  0.9519  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8e387fcf-0302-47f0-b99f-f88a106fa598",
    "mp_id": "mp-685418",
    "action_prompt": "Swap the spatial positions of atoms at indices 33 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe2CuO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0666\n_cell_length_b   6.0666\n_cell_length_c   23.5977\n_cell_angle_alpha   61.0052\n_cell_angle_beta   61.0052\n_cell_angle_gamma   58.8194\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe2CuO4\n_chemical_formula_sum   'Fe16 Cu8 O32'\n_cell_volume   617.3658\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.9995  0.9995  0.0008  1\n  Fe  Fe1  1  0.0082  0.0082  0.2479  1\n  Fe  Fe2  1  0.1300  0.6211  0.1568  1\n  Fe  Fe3  1  0.6191  0.6191  0.0348  1\n  Fe  Fe4  1  0.0197  0.0197  0.4942  1\n  Fe  Fe5  1  0.6211  0.1300  0.1568  1\n  Fe  Fe6  1  0.1317  0.6341  0.4050  1\n  Fe  Fe7  1  0.0117  0.0117  0.7474  1\n  Fe  Fe8  1  0.6272  0.6272  0.2814  1\n  Fe  Fe9  1  0.2360  0.2360  0.5662  1\n  Fe  Fe10  1  0.6341  0.1317  0.4050  1\n  Fe  Fe11  1  0.1275  0.6265  0.6551  1\n  Fe  Fe12  1  0.2327  0.2327  0.8152  1\n  Fe  Fe13  1  0.6265  0.1275  0.6551  1\n  Fe  Fe14  1  0.1229  0.6141  0.9067  1\n  Fe  Fe15  1  0.6141  0.1229  0.9067  1\n  Cu  Cu16  1  0.2438  0.2438  0.0640  1\n  Cu  Cu17  1  0.2463  0.2463  0.3150  1\n  Cu  Cu18  1  0.6202  0.6202  0.1575  1\n  Cu  Cu19  1  0.6300  0.6300  0.4041  1\n  Cu  Cu20  1  0.6276  0.6276  0.5296  1\n  Cu  Cu21  1  0.6252  0.6252  0.6568  1\n  Cu  Cu22  1  0.6226  0.6226  0.7818  1\n  Cu  Cu23  1  0.6172  0.6172  0.9075  1\n  O  O24  1  0.3864  0.3864  0.0953  1\n  O  O25  1  0.3803  0.3803  0.2133  1\n  O  O26  1  0.3729  0.8417  0.0985  1\n  O  O27  1  0.8417  0.3729  0.0985  1\n  O  O28  1  0.3986  0.8764  0.2166  1\n  O  O29  1  0.3954  0.3954  0.3436  1\n  O  O30  1  0.3626  0.3626  0.4687  1\n  O  O31  1  0.3913  0.8467  0.3473  1\n  O  O32  1  0.8708  0.8708  0.0985  1\n  O  O33  1  0.8764  0.3986  0.2166  1\n  O  O34  1  0.8467  0.3913  0.3473  1\n  O  O35  1  0.8653  0.8653  0.2195  1\n  O  O36  1  0.4171  0.8770  0.4616  1\n  O  O37  1  0.3589  0.3589  0.6017  1\n  O  O38  1  0.3627  0.3627  0.7173  1\n  O  O39  1  0.3823  0.8397  0.5964  1\n  O  O40  1  0.8948  0.8948  0.3440  1\n  O  O41  1  0.8770  0.4171  0.4616  1\n  O  O42  1  0.8397  0.3823  0.5964  1\n  O  O43  1  0.8958  0.8958  0.4598  1\n  O  O44  1  0.4067  0.8674  0.7161  1\n  O  O45  1  0.3575  0.3575  0.8507  1\n  O  O46  1  0.3723  0.3723  0.9630  1\n  O  O47  1  0.3712  0.8404  0.8475  1\n  O  O48  1  0.8894  0.8894  0.5933  1\n  O  O49  1  0.8674  0.4067  0.7161  1\n  O  O50  1  0.8876  0.8876  0.7113  1\n  O  O51  1  0.8404  0.3712  0.8475  1\n  O  O52  1  0.3948  0.8646  0.9674  1\n  O  O53  1  0.8646  0.3948  0.9674  1\n  O  O54  1  0.8763  0.8763  0.8467  1\n  O  O55  1  0.8603  0.8603  0.9692  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe16Cu5OCu2O9CuO22\n_chemical_formula_sum              \"Fe16 Cu8 O32\"\n_cell_length_a       6.0666\n_cell_length_b       6.0666\n_cell_length_c       23.5977\n_cell_angle_alpha    61.0052\n_cell_angle_beta     61.0052\n_cell_angle_gamma    58.8194\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.9995  0.9995  0.0008  1.0000\n  Fe  Fe2       1.0000  0.0082  0.0082  0.2479  1.0000\n  Fe  Fe3       1.0000  0.1300  0.6211  0.1568  1.0000\n  Fe  Fe4       1.0000  0.6191  0.6191  0.0348  1.0000\n  Fe  Fe5       1.0000  0.0197  0.0197  0.4942  1.0000\n  Fe  Fe6       1.0000  0.6211  0.1300  0.1568  1.0000\n  Fe  Fe7       1.0000  0.1317  0.6341  0.4050  1.0000\n  Fe  Fe8       1.0000  0.0117  0.0117  0.7474  1.0000\n  Fe  Fe9       1.0000  0.6272  0.6272  0.2814  1.0000\n  Fe  Fe10      1.0000  0.2360  0.2360  0.5662  1.0000\n  Fe  Fe11      1.0000  0.6341  0.1317  0.4050  1.0000\n  Fe  Fe12      1.0000  0.1275  0.6265  0.6551  1.0000\n  Fe  Fe13      1.0000  0.2327  0.2327  0.8152  1.0000\n  Fe  Fe14      1.0000  0.6265  0.1275  0.6551  1.0000\n  Fe  Fe15      1.0000  0.1229  0.6141  0.9067  1.0000\n  Fe  Fe16      1.0000  0.6141  0.1229  0.9067  1.0000\n  Cu  Cu1       1.0000  0.2438  0.2438  0.0640  1.0000\n  Cu  Cu2       1.0000  0.2463  0.2463  0.3150  1.0000\n  Cu  Cu3       1.0000  0.6202  0.6202  0.1575  1.0000\n  Cu  Cu4       1.0000  0.6300  0.6300  0.4041  1.0000\n  Cu  Cu5       1.0000  0.6276  0.6276  0.5296  1.0000\n  O   O1        1.0000  0.6252  0.6252  0.6568  1.0000\n  Cu  Cu6       1.0000  0.6226  0.6226  0.7818  1.0000\n  Cu  Cu7       1.0000  0.6172  0.6172  0.9075  1.0000\n  O   O2        1.0000  0.3864  0.3864  0.0953  1.0000\n  O   O3        1.0000  0.3803  0.3803  0.2133  1.0000\n  O   O4        1.0000  0.3729  0.8417  0.0985  1.0000\n  O   O5        1.0000  0.8417  0.3729  0.0985  1.0000\n  O   O6        1.0000  0.3986  0.8764  0.2166  1.0000\n  O   O7        1.0000  0.3954  0.3954  0.3436  1.0000\n  O   O8        1.0000  0.3627  0.3627  0.4687  1.0000\n  O   O9        1.0000  0.3913  0.8467  0.3473  1.0000\n  O   O10       1.0000  0.8708  0.8708  0.0985  1.0000\n  Cu  Cu8       1.0000  0.8764  0.3986  0.2166  1.0000\n  O   O11       1.0000  0.8467  0.3913  0.3473  1.0000\n  O   O12       1.0000  0.8653  0.8653  0.2195  1.0000\n  O   O13       1.0000  0.4171  0.8770  0.4616  1.0000\n  O   O14       1.0000  0.3589  0.3589  0.6017  1.0000\n  O   O15       1.0000  0.3627  0.3627  0.7173  1.0000\n  O   O16       1.0000  0.3823  0.8397  0.5964  1.0000\n  O   O17       1.0000  0.8948  0.8948  0.3440  1.0000\n  O   O18       1.0000  0.8770  0.4171  0.4616  1.0000\n  O   O19       1.0000  0.8397  0.3823  0.5964  1.0000\n  O   O20       1.0000  0.8958  0.8958  0.4598  1.0000\n  O   O21       1.0000  0.4067  0.8674  0.7161  1.0000\n  O   O22       1.0000  0.3575  0.3575  0.8507  1.0000\n  O   O23       1.0000  0.3723  0.3723  0.9630  1.0000\n  O   O24       1.0000  0.3712  0.8404  0.8475  1.0000\n  O   O25       1.0000  0.8894  0.8894  0.5933  1.0000\n  O   O26       1.0000  0.8674  0.4067  0.7161  1.0000\n  O   O27       1.0000  0.8876  0.8876  0.7113  1.0000\n  O   O28       1.0000  0.8404  0.3712  0.8475  1.0000\n  O   O29       1.0000  0.3948  0.8646  0.9674  1.0000\n  O   O30       1.0000  0.8646  0.3948  0.9674  1.0000\n  O   O31       1.0000  0.8763  0.8763  0.8467  1.0000\n  O   O32       1.0000  0.8603  0.8603  0.9692  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "553a53f3-8a88-452c-bd96-61521418dd26",
    "mp_id": "mp-690493",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMoO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2648\n_cell_length_b   6.0018\n_cell_length_c   6.0028\n_cell_angle_alpha   63.7928\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMoO2\n_chemical_formula_sum   'Li4 Mo4 O8'\n_cell_volume   170.1806\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0035  0.2522  0.2517  1\n  Li  Li1  1  0.4965  0.2522  0.7517  1\n  Li  Li2  1  0.5035  0.7478  0.2483  1\n  Li  Li3  1  0.9965  0.7478  0.7483  1\n  Mo  Mo4  1  0.5016  0.2498  0.2498  1\n  Mo  Mo5  1  0.9984  0.2498  0.7498  1\n  Mo  Mo6  1  0.0016  0.7502  0.2502  1\n  Mo  Mo7  1  0.4984  0.7502  0.7502  1\n  O  O8  1  0.7671  0.4159  0.4144  1\n  O  O9  1  0.2664  0.0857  0.5841  1\n  O  O10  1  0.2671  0.5841  0.0856  1\n  O  O11  1  0.7664  0.9143  0.9159  1\n  O  O12  1  0.2336  0.0857  0.0841  1\n  O  O13  1  0.7329  0.4159  0.9144  1\n  O  O14  1  0.7336  0.9143  0.4159  1\n  O  O15  1  0.2329  0.5841  0.5856  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OMo3O6MoO\n_chemical_formula_sum              \"Li4 O8 Mo4\"\n_cell_length_a       5.2648\n_cell_length_b       6.0018\n_cell_length_c       6.0028\n_cell_angle_alpha    63.7928\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0035  0.2522  0.2517  1.0000\n  Li  Li2       1.0000  0.4965  0.2522  0.7517  1.0000\n  Li  Li3       1.0000  0.5035  0.7478  0.2483  1.0000\n  Li  Li4       1.0000  0.9965  0.7478  0.7483  1.0000\n  O   O1        1.0000  0.5016  0.2498  0.2498  1.0000\n  Mo  Mo1       1.0000  0.9984  0.2498  0.7498  1.0000\n  Mo  Mo2       1.0000  0.0016  0.7502  0.2502  1.0000\n  Mo  Mo3       1.0000  0.4984  0.7502  0.7502  1.0000\n  O   O2        1.0000  0.7671  0.4159  0.4144  1.0000\n  O   O3        1.0000  0.2664  0.0857  0.5841  1.0000\n  O   O4        1.0000  0.2671  0.5841  0.0856  1.0000\n  O   O5        1.0000  0.7664  0.9143  0.9159  1.0000\n  O   O6        1.0000  0.2336  0.0857  0.0841  1.0000\n  O   O7        1.0000  0.7329  0.4159  0.9144  1.0000\n  Mo  Mo4       1.0000  0.7336  0.9143  0.4159  1.0000\n  O   O8        1.0000  0.2329  0.5841  0.5856  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f75ab438-3fc2-4480-b4b1-d51c061a3fc1",
    "mp_id": "mp-690517",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2NiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0775\n_cell_length_b   7.0775\n_cell_length_c   7.3432\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   147.4632\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2NiO4\n_chemical_formula_sum   'La4 Ni2 O8'\n_cell_volume   197.8322\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.2836  0.7164  0.1444  1\n  La  La1  1  0.7164  0.2836  0.6444  1\n  La  La2  1  0.0531  0.9469  0.3477  1\n  La  La3  1  0.9469  0.0531  0.8477  1\n  Ni  Ni4  1  0.6095  0.3905  0.0372  1\n  Ni  Ni5  1  0.3905  0.6095  0.5372  1\n  O  O6  1  0.5432  0.4568  0.6357  1\n  O  O7  1  0.7662  0.2338  0.9833  1\n  O  O8  1  0.3535  0.6465  0.7925  1\n  O  O9  1  0.2338  0.7662  0.4833  1\n  O  O10  1  0.6465  0.3535  0.2925  1\n  O  O11  1  0.8976  0.1024  0.4964  1\n  O  O12  1  0.4568  0.5432  0.1357  1\n  O  O13  1  0.1024  0.8976  0.9964  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLa3Ni2O6LaO\n_chemical_formula_sum              \"O8 La4 Ni2\"\n_cell_length_a       7.0775\n_cell_length_b       7.0775\n_cell_length_c       7.3432\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    147.4632\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2836  0.7164  0.1444  1.0000\n  La  La1       1.0000  0.7164  0.2836  0.6444  1.0000\n  La  La2       1.0000  0.0531  0.9469  0.3477  1.0000\n  La  La3       1.0000  0.9469  0.0531  0.8477  1.0000\n  Ni  Ni1       1.0000  0.6095  0.3905  0.0372  1.0000\n  Ni  Ni2       1.0000  0.3905  0.6095  0.5372  1.0000\n  O   O2        1.0000  0.5432  0.4568  0.6357  1.0000\n  O   O3        1.0000  0.7662  0.2338  0.9833  1.0000\n  O   O4        1.0000  0.3535  0.6465  0.7925  1.0000\n  O   O5        1.0000  0.2338  0.7662  0.4833  1.0000\n  O   O6        1.0000  0.6465  0.3535  0.2925  1.0000\n  O   O7        1.0000  0.8976  0.1024  0.4964  1.0000\n  La  La4       1.0000  0.4568  0.5432  0.1357  1.0000\n  O   O8        1.0000  0.1024  0.8976  0.9964  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0ffe9a63-a4bb-4285-b561-2d61cfe1faf5",
    "mp_id": "mp-690674",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NdAsSe\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0344\n_cell_length_b   4.0344\n_cell_length_c   18.1370\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.2705\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NdAsSe\n_chemical_formula_sum   'Nd4 As4 Se4'\n_cell_volume   295.1984\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.2440  0.2440  0.1396  1\n  Nd  Nd1  1  0.2560  0.2560  0.6396  1\n  Nd  Nd2  1  0.7560  0.7560  0.8604  1\n  Nd  Nd3  1  0.7440  0.7440  0.3604  1\n  As  As4  1  0.7805  0.2195  0.5000  1\n  As  As5  1  0.7195  0.2805  0.0000  1\n  As  As6  1  0.2195  0.7805  0.5000  1\n  As  As7  1  0.2805  0.7195  0.0000  1\n  Se  Se8  1  0.2461  0.2461  0.3127  1\n  Se  Se9  1  0.2539  0.2539  0.8127  1\n  Se  Se10  1  0.7539  0.7539  0.6873  1\n  Se  Se11  1  0.7461  0.7461  0.1873  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd4SeAs3Se3As\n_chemical_formula_sum              \"Nd4 Se4 As4\"\n_cell_length_a       4.0344\n_cell_length_b       4.0344\n_cell_length_c       18.1370\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.2705\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.2440  0.2440  0.1396  1.0000\n  Nd  Nd2       1.0000  0.2560  0.2560  0.6396  1.0000\n  Nd  Nd3       1.0000  0.7560  0.7560  0.8604  1.0000\n  Nd  Nd4       1.0000  0.7440  0.7440  0.3604  1.0000\n  Se  Se1       1.0000  0.7805  0.2195  0.5000  1.0000\n  As  As1       1.0000  0.7195  0.2805  0.0000  1.0000\n  As  As2       1.0000  0.2195  0.7805  0.5000  1.0000\n  As  As3       1.0000  0.2805  0.7195  0.0000  1.0000\n  Se  Se2       1.0000  0.2461  0.2461  0.3127  1.0000\n  Se  Se3       1.0000  0.2539  0.2539  0.8127  1.0000\n  Se  Se4       1.0000  0.7539  0.7539  0.6873  1.0000\n  As  As4       1.0000  0.7461  0.7461  0.1873  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f7c73a1-1f17-4c9f-aeb8-5e447723a9eb",
    "mp_id": "mp-694979",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2TiFe(PO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6500\n_cell_length_b   8.6500\n_cell_length_c   8.7377\n_cell_angle_alpha   60.2155\n_cell_angle_beta   60.2155\n_cell_angle_gamma   60.1119\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2TiFe(PO4)3\n_chemical_formula_sum   'Na4 Ti2 Fe2 P6 O24'\n_cell_volume   464.1898\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9948  0.4844  0.7503  1\n  Na  Na1  1  0.5156  0.0052  0.2497  1\n  Na  Na2  1  0.2500  0.3838  0.9905  1\n  Na  Na3  1  0.6162  0.7500  0.0095  1\n  Ti  Ti4  1  0.1395  0.6434  0.3225  1\n  Ti  Ti5  1  0.3566  0.8605  0.6775  1\n  Fe  Fe6  1  0.6534  0.1471  0.8057  1\n  Fe  Fe7  1  0.8529  0.3466  0.1943  1\n  P  P8  1  0.7493  0.9515  0.5131  1\n  P  P9  1  0.0485  0.2507  0.4869  1\n  P  P10  1  0.4577  0.5423  0.5000  1\n  P  P11  1  0.5392  0.4608  0.0000  1\n  P  P12  1  0.9580  0.7554  0.0008  1\n  P  P13  1  0.2446  0.0420  -0.0008  1\n  O  O14  1  0.2981  0.0036  0.8230  1\n  O  O15  1  0.5005  0.6316  0.8275  1\n  O  O16  1  0.9191  0.7702  0.4945  1\n  O  O17  1  0.1287  0.7986  0.8302  1\n  O  O18  1  0.7909  0.1239  0.3492  1\n  O  O19  1  0.5829  0.9334  0.5101  1\n  O  O20  1  0.0666  0.4171  0.4899  1\n  O  O21  1  0.2298  0.0809  0.5055  1\n  O  O22  1  0.4316  0.7246  0.5142  1\n  O  O23  1  0.3684  0.4995  0.1725  1\n  O  O24  1  0.7185  0.4460  0.0075  1\n  O  O25  1  -0.0036  0.7019  0.1770  1\n  O  O26  1  0.0353  0.2965  0.3004  1\n  O  O27  1  0.2754  0.5684  0.4858  1\n  O  O28  1  0.6250  0.5176  0.3226  1\n  O  O29  1  0.5540  0.2815  0.9925  1\n  O  O30  1  0.7736  0.9208  0.9985  1\n  O  O31  1  0.9410  0.5884  0.9975  1\n  O  O32  1  0.4116  0.0590  0.0025  1\n  O  O33  1  0.2014  0.8713  0.1698  1\n  O  O34  1  0.8761  0.2091  0.6508  1\n  O  O35  1  0.0792  0.2264  0.0015  1\n  O  O36  1  0.4824  0.3750  0.6774  1\n  O  O37  1  0.7035  0.9647  0.6996  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Ti2Fe2POP4O9PO14\n_chemical_formula_sum              \"Na4 Ti2 Fe2 P6 O24\"\n_cell_length_a       8.6500\n_cell_length_b       8.6500\n_cell_length_c       8.7377\n_cell_angle_alpha    60.2155\n_cell_angle_beta     60.2155\n_cell_angle_gamma    60.1119\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9948  0.4844  0.7503  1.0000\n  Na  Na2       1.0000  0.5156  0.0052  0.2497  1.0000\n  Na  Na3       1.0000  0.2500  0.3838  0.9905  1.0000\n  Na  Na4       1.0000  0.6162  0.7500  0.0095  1.0000\n  Ti  Ti1       1.0000  0.1395  0.6434  0.3225  1.0000\n  Ti  Ti2       1.0000  0.3566  0.8605  0.6775  1.0000\n  Fe  Fe1       1.0000  0.6534  0.1471  0.8057  1.0000\n  Fe  Fe2       1.0000  0.8529  0.3466  0.1943  1.0000\n  P   P1        1.0000  0.7493  0.9515  0.5131  1.0000\n  O   O1        1.0000  0.0485  0.2507  0.4869  1.0000\n  P   P2        1.0000  0.4577  0.5423  0.5000  1.0000\n  P   P3        1.0000  0.5392  0.4608  0.0000  1.0000\n  P   P4        1.0000  0.9580  0.7554  0.0008  1.0000\n  P   P5        1.0000  0.2446  0.0420  0.9992  1.0000\n  O   O2        1.0000  0.2981  0.0036  0.8230  1.0000\n  O   O3        1.0000  0.5005  0.6316  0.8275  1.0000\n  O   O4        1.0000  0.9191  0.7702  0.4945  1.0000\n  O   O5        1.0000  0.1287  0.7986  0.8302  1.0000\n  O   O6        1.0000  0.7909  0.1239  0.3492  1.0000\n  O   O7        1.0000  0.5829  0.9334  0.5101  1.0000\n  O   O8        1.0000  0.0666  0.4171  0.4899  1.0000\n  O   O9        1.0000  0.2298  0.0809  0.5055  1.0000\n  O   O10       1.0000  0.4316  0.7246  0.5142  1.0000\n  P   P6        1.0000  0.3684  0.4995  0.1725  1.0000\n  O   O11       1.0000  0.7185  0.4460  0.0075  1.0000\n  O   O12       1.0000  0.9964  0.7019  0.1770  1.0000\n  O   O13       1.0000  0.0353  0.2965  0.3004  1.0000\n  O   O14       1.0000  0.2754  0.5684  0.4858  1.0000\n  O   O15       1.0000  0.6250  0.5176  0.3226  1.0000\n  O   O16       1.0000  0.5540  0.2815  0.9925  1.0000\n  O   O17       1.0000  0.7736  0.9208  0.9985  1.0000\n  O   O18       1.0000  0.9410  0.5884  0.9975  1.0000\n  O   O19       1.0000  0.4116  0.0590  0.0025  1.0000\n  O   O20       1.0000  0.2014  0.8713  0.1698  1.0000\n  O   O21       1.0000  0.8761  0.2091  0.6508  1.0000\n  O   O22       1.0000  0.0792  0.2264  0.0015  1.0000\n  O   O23       1.0000  0.4824  0.3750  0.6774  1.0000\n  O   O24       1.0000  0.7035  0.9647  0.6996  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "af76dafc-847b-496e-af9d-68af0eb4eb38",
    "mp_id": "mp-695946",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NiH16C4S4(N4Cl)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2127\n_cell_length_b   8.2127\n_cell_length_c   8.2127\n_cell_angle_alpha   107.6275\n_cell_angle_beta   107.6275\n_cell_angle_gamma   113.2252\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NiH16C4S4(N4Cl)2\n_chemical_formula_sum   'Ni1 H16 C4 S4 N8 Cl2'\n_cell_volume   425.0332\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ni  Ni0  1  0.0004  0.0004  0.0000  1\n  H  H1  1  0.5456  0.8862  0.3516  1\n  H  H2  1  0.5346  0.1940  0.6484  1\n  H  H3  1  0.8862  0.5346  0.3406  1\n  H  H4  1  0.1940  0.5456  0.6594  1\n  H  H5  1  0.3936  0.6212  0.2162  1\n  H  H6  1  0.4049  0.1773  0.7838  1\n  H  H7  1  0.6212  0.4049  0.2276  1\n  H  H8  1  0.1773  0.3936  0.7724  1\n  H  H9  1  0.0395  0.4594  0.0199  1\n  H  H10  1  0.4394  0.0196  0.9801  1\n  H  H11  1  0.4594  0.4394  0.4198  1\n  H  H12  1  0.0196  0.0395  0.5802  1\n  H  H13  1  0.9447  0.6135  0.9931  1\n  H  H14  1  0.6204  0.9516  0.0069  1\n  H  H15  1  0.6135  0.6204  0.6688  1\n  H  H16  1  0.9516  0.9447  0.3312  1\n  C  C17  1  0.2467  0.7694  0.1752  1\n  C  C18  1  0.5943  0.0716  0.8248  1\n  C  C19  1  0.7694  0.5943  0.5227  1\n  C  C20  1  0.0716  0.2467  0.4773  1\n  S  S21  1  0.2804  0.0020  0.2204  1\n  S  S22  1  0.7816  0.0600  0.7796  1\n  S  S23  1  0.0020  0.7816  0.7216  1\n  S  S24  1  0.0600  0.2804  0.2784  1\n  N  N25  1  0.4057  0.7578  0.2613  1\n  N  N26  1  0.4966  0.1444  0.7387  1\n  N  N27  1  0.7578  0.4966  0.3521  1\n  N  N28  1  0.1444  0.4057  0.6479  1\n  N  N29  1  0.0648  0.6004  0.0542  1\n  N  N30  1  0.5463  0.0106  0.9458  1\n  N  N31  1  0.6004  0.5463  0.5356  1\n  N  N32  1  0.0106  0.0648  0.4644  1\n  Cl  Cl33  1  0.7335  0.7335  0.0000  1\n  Cl  Cl34  1  0.2813  0.2813  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       NiH11ClH4C4S4N8HCl\n_chemical_formula_sum              \"Ni1 H16 Cl2 C4 S4 N8\"\n_cell_length_a       8.2127\n_cell_length_b       8.2127\n_cell_length_c       8.2127\n_cell_angle_alpha    107.6275\n_cell_angle_beta     107.6275\n_cell_angle_gamma    113.2252\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ni  Ni1       1.0000  0.0004  0.0004  0.0000  1.0000\n  H   H1        1.0000  0.5456  0.8862  0.3516  1.0000\n  H   H2        1.0000  0.5346  0.1940  0.6484  1.0000\n  H   H3        1.0000  0.8862  0.5346  0.3406  1.0000\n  H   H4        1.0000  0.1940  0.5456  0.6594  1.0000\n  H   H5        1.0000  0.3936  0.6212  0.2162  1.0000\n  H   H6        1.0000  0.4049  0.1773  0.7838  1.0000\n  H   H7        1.0000  0.6212  0.4049  0.2276  1.0000\n  H   H8        1.0000  0.1773  0.3936  0.7724  1.0000\n  H   H9        1.0000  0.0395  0.4594  0.0199  1.0000\n  H   H10       1.0000  0.4394  0.0196  0.9801  1.0000\n  H   H11       1.0000  0.4594  0.4394  0.4198  1.0000\n  Cl  Cl1       1.0000  0.0196  0.0395  0.5802  1.0000\n  H   H12       1.0000  0.9447  0.6135  0.9931  1.0000\n  H   H13       1.0000  0.6204  0.9516  0.0069  1.0000\n  H   H14       1.0000  0.6135  0.6204  0.6688  1.0000\n  H   H15       1.0000  0.9516  0.9447  0.3312  1.0000\n  C   C1        1.0000  0.2467  0.7694  0.1752  1.0000\n  C   C2        1.0000  0.5943  0.0716  0.8248  1.0000\n  C   C3        1.0000  0.7694  0.5943  0.5227  1.0000\n  C   C4        1.0000  0.0716  0.2467  0.4773  1.0000\n  S   S1        1.0000  0.2804  0.0020  0.2204  1.0000\n  S   S2        1.0000  0.7816  0.0600  0.7796  1.0000\n  S   S3        1.0000  0.0020  0.7816  0.7216  1.0000\n  S   S4        1.0000  0.0600  0.2804  0.2784  1.0000\n  N   N1        1.0000  0.4057  0.7578  0.2613  1.0000\n  N   N2        1.0000  0.4966  0.1444  0.7387  1.0000\n  N   N3        1.0000  0.7578  0.4966  0.3521  1.0000\n  N   N4        1.0000  0.1444  0.4057  0.6479  1.0000\n  N   N5        1.0000  0.0648  0.6004  0.0542  1.0000\n  N   N6        1.0000  0.5463  0.0106  0.9458  1.0000\n  N   N7        1.0000  0.6004  0.5463  0.5356  1.0000\n  N   N8        1.0000  0.0106  0.0648  0.4644  1.0000\n  H   H16       1.0000  0.7335  0.7335  0.0000  1.0000\n  Cl  Cl2       1.0000  0.2813  0.2813  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "be629453-9ee2-4eaf-bb64-a5a2ad1b7920",
    "mp_id": "mp-696298",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BH2CO\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0272\n_cell_length_b   6.0272\n_cell_length_c   11.7997\n_cell_angle_alpha   77.9378\n_cell_angle_beta   77.9378\n_cell_angle_gamma   43.9542\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BH2CO\n_chemical_formula_sum   'B4 H8 C4 O4'\n_cell_volume   289.8649\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  B  B0  1  0.3397  0.5157  0.9999  1\n  B  B1  1  0.4843  0.6603  0.5001  1\n  B  B2  1  0.6603  0.4843  0.0001  1\n  B  B3  1  0.5157  0.3397  0.4999  1\n  H  H4  1  0.8695  0.2587  0.0618  1\n  H  H5  1  0.7413  0.1305  0.4382  1\n  H  H6  1  0.1305  0.7413  0.9382  1\n  H  H7  1  0.2587  0.8695  0.5618  1\n  H  H8  1  0.2644  0.4305  0.4881  1\n  H  H9  1  0.5695  0.7356  0.0119  1\n  H  H10  1  0.7356  0.5695  0.5119  1\n  H  H11  1  0.4305  0.2644  0.9881  1\n  C  C12  1  0.1898  0.5871  0.1217  1\n  C  C13  1  0.4129  0.8102  0.3783  1\n  C  C14  1  0.8102  0.4129  0.8783  1\n  C  C15  1  0.5871  0.1898  0.6217  1\n  O  O16  1  0.0834  0.6378  0.2171  1\n  O  O17  1  0.3622  0.9166  0.2829  1\n  O  O18  1  0.9166  0.3622  0.7829  1\n  O  O19  1  0.6378  0.0834  0.7171  1\n",
    "output": "data_image0\n_chemical_formula_structural       B4H3OH4C4O2HO\n_chemical_formula_sum              \"B4 H8 O4 C4\"\n_cell_length_a       6.0272\n_cell_length_b       6.0272\n_cell_length_c       11.7997\n_cell_angle_alpha    77.9378\n_cell_angle_beta     77.9378\n_cell_angle_gamma    43.9542\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  B   B1        1.0000  0.3397  0.5157  0.9999  1.0000\n  B   B2        1.0000  0.4843  0.6603  0.5001  1.0000\n  B   B3        1.0000  0.6603  0.4843  0.0001  1.0000\n  B   B4        1.0000  0.5157  0.3397  0.4999  1.0000\n  H   H1        1.0000  0.8695  0.2587  0.0618  1.0000\n  H   H2        1.0000  0.7413  0.1305  0.4382  1.0000\n  H   H3        1.0000  0.1305  0.7413  0.9382  1.0000\n  O   O1        1.0000  0.2587  0.8695  0.5618  1.0000\n  H   H4        1.0000  0.2644  0.4305  0.4881  1.0000\n  H   H5        1.0000  0.5695  0.7356  0.0119  1.0000\n  H   H6        1.0000  0.7356  0.5695  0.5119  1.0000\n  H   H7        1.0000  0.4305  0.2644  0.9881  1.0000\n  C   C1        1.0000  0.1898  0.5871  0.1217  1.0000\n  C   C2        1.0000  0.4129  0.8102  0.3783  1.0000\n  C   C3        1.0000  0.8102  0.4129  0.8783  1.0000\n  C   C4        1.0000  0.5871  0.1899  0.6217  1.0000\n  O   O2        1.0000  0.0834  0.6378  0.2171  1.0000\n  O   O3        1.0000  0.3622  0.9166  0.2829  1.0000\n  H   H8        1.0000  0.9166  0.3622  0.7829  1.0000\n  O   O4        1.0000  0.6378  0.0834  0.7171  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a96682f7-7c8e-40fd-b1fe-76aa2a370ae9",
    "mp_id": "mp-696990",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 50 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaPH3C2N3O4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.6649\n_cell_length_b   7.2639\n_cell_length_c   9.4602\n_cell_angle_alpha   49.9008\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaPH3C2N3O4\n_chemical_formula_sum   'Na4 P4 H12 C8 N12 O16'\n_cell_volume   665.7207\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9657  0.3009  0.3827  1\n  Na  Na1  1  0.5343  0.3009  0.8827  1\n  Na  Na2  1  0.0343  0.6991  0.6173  1\n  Na  Na3  1  0.4657  0.6991  0.1173  1\n  P  P4  1  0.5758  0.8434  0.3937  1\n  P  P5  1  0.9242  0.8434  0.8937  1\n  P  P6  1  0.4242  0.1566  0.6063  1\n  P  P7  1  0.0758  0.1566  0.1063  1\n  H  H8  1  0.7180  0.7983  0.1347  1\n  H  H9  1  0.7820  0.7983  0.6347  1\n  H  H10  1  0.2820  0.2017  0.8653  1\n  H  H11  1  0.2180  0.2017  0.3653  1\n  H  H12  1  0.5904  0.1720  0.3988  1\n  H  H13  1  0.9096  0.1720  0.8988  1\n  H  H14  1  0.4096  0.8280  0.6012  1\n  H  H15  1  0.0904  0.8280  0.1012  1\n  H  H16  1  0.7659  0.6716  0.6815  1\n  H  H17  1  0.7341  0.6716  0.1815  1\n  H  H18  1  0.2341  0.3284  0.3185  1\n  H  H19  1  0.2659  0.3284  0.8185  1\n  C  C20  1  0.8009  0.7227  0.4333  1\n  C  C21  1  0.6991  0.7227  0.9333  1\n  C  C22  1  0.1991  0.2773  0.5667  1\n  C  C23  1  0.3009  0.2773  0.0667  1\n  C  C24  1  0.7361  0.1150  0.3302  1\n  C  C25  1  0.7639  0.1150  0.8302  1\n  C  C26  1  0.2639  0.8850  0.6698  1\n  C  C27  1  0.2361  0.8850  0.1698  1\n  N  N28  1  0.6977  0.7300  0.4009  1\n  N  N29  1  0.8023  0.7300  0.9009  1\n  N  N30  1  0.3023  0.2700  0.5991  1\n  N  N31  1  0.1977  0.2700  0.0991  1\n  N  N32  1  0.6324  0.0732  0.3739  1\n  N  N33  1  0.8676  0.0732  0.8739  1\n  N  N34  1  0.3676  0.9268  0.6261  1\n  N  N35  1  0.1324  0.9268  0.1261  1\n  N  N36  1  0.7748  0.9670  0.2876  1\n  N  N37  1  0.7252  0.9670  0.7876  1\n  N  N38  1  0.2252  0.0330  0.7124  1\n  N  N39  1  0.2748  0.0330  0.2124  1\n  O  O40  1  0.5272  0.9357  0.2137  1\n  O  O41  1  0.9728  0.9357  0.7137  1\n  O  O42  1  0.4728  0.0643  0.7863  1\n  O  O43  1  0.0272  0.0643  0.2863  1\n  O  O44  1  0.4827  0.3210  0.4272  1\n  O  O45  1  0.0173  0.3210  0.9272  1\n  O  O46  1  0.5173  0.6790  0.5728  1\n  O  O47  1  0.9827  0.6790  0.0728  1\n  O  O48  1  0.8777  0.5923  0.5034  1\n  O  O49  1  0.6223  0.5923  0.0034  1\n  O  O50  1  0.1223  0.4077  0.4966  1\n  O  O51  1  0.3777  0.4077  0.9966  1\n  O  O52  1  0.7940  0.2661  0.3108  1\n  O  O53  1  0.7060  0.2661  0.8108  1\n  O  O54  1  0.2060  0.7339  0.6892  1\n  O  O55  1  0.2940  0.7339  0.1892  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4P4H12C8N10ONO10NO5\n_chemical_formula_sum              \"Na4 P4 H12 C8 N12 O16\"\n_cell_length_a       12.6649\n_cell_length_b       7.2639\n_cell_length_c       9.4602\n_cell_angle_alpha    49.9008\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.9657  0.3009  0.3827  1.0000\n  Na  Na2       1.0000  0.5343  0.3009  0.8827  1.0000\n  Na  Na3       1.0000  0.0343  0.6991  0.6173  1.0000\n  Na  Na4       1.0000  0.4657  0.6991  0.1173  1.0000\n  P   P1        1.0000  0.5758  0.8434  0.3937  1.0000\n  P   P2        1.0000  0.9242  0.8434  0.8937  1.0000\n  P   P3        1.0000  0.4242  0.1566  0.6063  1.0000\n  P   P4        1.0000  0.0758  0.1566  0.1063  1.0000\n  H   H1        1.0000  0.7180  0.7983  0.1347  1.0000\n  H   H2        1.0000  0.7820  0.7983  0.6347  1.0000\n  H   H3        1.0000  0.2820  0.2017  0.8653  1.0000\n  H   H4        1.0000  0.2180  0.2017  0.3653  1.0000\n  H   H5        1.0000  0.5904  0.1720  0.3988  1.0000\n  H   H6        1.0000  0.9096  0.1720  0.8988  1.0000\n  H   H7        1.0000  0.4096  0.8280  0.6012  1.0000\n  H   H8        1.0000  0.0904  0.8280  0.1012  1.0000\n  H   H9        1.0000  0.7659  0.6716  0.6815  1.0000\n  H   H10       1.0000  0.7341  0.6716  0.1815  1.0000\n  H   H11       1.0000  0.2341  0.3284  0.3185  1.0000\n  H   H12       1.0000  0.2659  0.3284  0.8185  1.0000\n  C   C1        1.0000  0.8009  0.7227  0.4333  1.0000\n  C   C2        1.0000  0.6991  0.7227  0.9333  1.0000\n  C   C3        1.0000  0.1991  0.2773  0.5667  1.0000\n  C   C4        1.0000  0.3009  0.2773  0.0667  1.0000\n  C   C5        1.0000  0.7361  0.1150  0.3302  1.0000\n  C   C6        1.0000  0.7639  0.1150  0.8302  1.0000\n  C   C7        1.0000  0.2639  0.8850  0.6698  1.0000\n  C   C8        1.0000  0.2361  0.8850  0.1698  1.0000\n  N   N1        1.0000  0.6977  0.7300  0.4009  1.0000\n  N   N2        1.0000  0.8023  0.7300  0.9009  1.0000\n  N   N3        1.0000  0.3023  0.2700  0.5991  1.0000\n  N   N4        1.0000  0.1977  0.2700  0.0991  1.0000\n  N   N5        1.0000  0.6324  0.0732  0.3739  1.0000\n  N   N6        1.0000  0.8676  0.0732  0.8739  1.0000\n  N   N7        1.0000  0.3676  0.9268  0.6261  1.0000\n  N   N8        1.0000  0.1324  0.9268  0.1261  1.0000\n  N   N9        1.0000  0.7748  0.9670  0.2876  1.0000\n  N   N10       1.0000  0.7252  0.9670  0.7876  1.0000\n  O   O1        1.0000  0.2252  0.0330  0.7124  1.0000\n  N   N11       1.0000  0.2748  0.0330  0.2124  1.0000\n  O   O2        1.0000  0.5272  0.9357  0.2137  1.0000\n  O   O3        1.0000  0.9728  0.9357  0.7137  1.0000\n  O   O4        1.0000  0.4728  0.0643  0.7863  1.0000\n  O   O5        1.0000  0.0272  0.0643  0.2863  1.0000\n  O   O6        1.0000  0.4827  0.3210  0.4272  1.0000\n  O   O7        1.0000  0.0173  0.3210  0.9272  1.0000\n  O   O8        1.0000  0.5173  0.6790  0.5728  1.0000\n  O   O9        1.0000  0.9827  0.6790  0.0728  1.0000\n  O   O10       1.0000  0.8777  0.5923  0.5034  1.0000\n  O   O11       1.0000  0.6223  0.5923  0.0034  1.0000\n  N   N12       1.0000  0.1223  0.4077  0.4966  1.0000\n  O   O12       1.0000  0.3777  0.4077  0.9966  1.0000\n  O   O13       1.0000  0.7940  0.2661  0.3108  1.0000\n  O   O14       1.0000  0.7060  0.2661  0.8108  1.0000\n  O   O15       1.0000  0.2060  0.7339  0.6892  1.0000\n  O   O16       1.0000  0.2940  0.7339  0.1892  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "77af173f-b481-4ef9-8c9f-6087417217a4",
    "mp_id": "mp-697075",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti3Zn3N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0718\n_cell_length_b   8.0719\n_cell_length_c   8.0718\n_cell_angle_alpha   60.0005\n_cell_angle_beta   60.0004\n_cell_angle_gamma   60.0005\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti3Zn3N\n_chemical_formula_sum   'Ti12 Zn12 N4'\n_cell_volume   371.8831\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.8198  0.8198  0.1802  1\n  Ti  Ti1  1  0.1802  0.1802  0.8198  1\n  Ti  Ti2  1  0.8198  0.1802  0.8198  1\n  Ti  Ti3  1  0.1802  0.8198  0.1802  1\n  Ti  Ti4  1  0.1802  0.8198  0.8198  1\n  Ti  Ti5  1  0.8198  0.1802  0.1802  1\n  Ti  Ti6  1  0.4302  0.4302  0.0698  1\n  Ti  Ti7  1  0.0698  0.0698  0.4302  1\n  Ti  Ti8  1  0.4302  0.0698  0.4302  1\n  Ti  Ti9  1  0.0698  0.4302  0.0698  1\n  Ti  Ti10  1  0.0698  0.4302  0.4302  1\n  Ti  Ti11  1  0.4302  0.0698  0.0698  1\n  Zn  Zn12  1  0.1250  0.6250  0.6250  1\n  Zn  Zn13  1  0.6250  0.1250  0.6250  1\n  Zn  Zn14  1  0.6250  0.6250  0.1250  1\n  Zn  Zn15  1  0.6250  0.6250  0.6250  1\n  Zn  Zn16  1  0.7525  0.4158  0.4158  1\n  Zn  Zn17  1  0.4158  0.7525  0.4158  1\n  Zn  Zn18  1  0.4158  0.4158  0.7525  1\n  Zn  Zn19  1  0.4158  0.4158  0.4158  1\n  Zn  Zn20  1  0.4974  0.8342  0.8342  1\n  Zn  Zn21  1  0.8342  0.4974  0.8342  1\n  Zn  Zn22  1  0.8342  0.8342  0.4974  1\n  Zn  Zn23  1  0.8342  0.8342  0.8342  1\n  N  N24  1  0.6250  0.1250  0.1250  1\n  N  N25  1  0.1250  0.6250  0.1250  1\n  N  N26  1  0.1250  0.1250  0.6250  1\n  N  N27  1  0.1250  0.1250  0.1250  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti10ZnTiZn4TiZn7N4\n_chemical_formula_sum              \"Ti12 Zn12 N4\"\n_cell_length_a       8.0718\n_cell_length_b       8.0719\n_cell_length_c       8.0718\n_cell_angle_alpha    60.0005\n_cell_angle_beta     60.0004\n_cell_angle_gamma    60.0005\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.8198  0.8198  0.1802  1.0000\n  Ti  Ti2       1.0000  0.1802  0.1802  0.8198  1.0000\n  Ti  Ti3       1.0000  0.8198  0.1802  0.8198  1.0000\n  Ti  Ti4       1.0000  0.1802  0.8198  0.1802  1.0000\n  Ti  Ti5       1.0000  0.1802  0.8198  0.8198  1.0000\n  Ti  Ti6       1.0000  0.8198  0.1802  0.1802  1.0000\n  Ti  Ti7       1.0000  0.4302  0.4302  0.0698  1.0000\n  Ti  Ti8       1.0000  0.0698  0.0698  0.4302  1.0000\n  Ti  Ti9       1.0000  0.4302  0.0698  0.4302  1.0000\n  Ti  Ti10      1.0000  0.0698  0.4302  0.0698  1.0000\n  Zn  Zn1       1.0000  0.0698  0.4302  0.4302  1.0000\n  Ti  Ti11      1.0000  0.4302  0.0698  0.0698  1.0000\n  Zn  Zn2       1.0000  0.1250  0.6250  0.6250  1.0000\n  Zn  Zn3       1.0000  0.6250  0.1250  0.6250  1.0000\n  Zn  Zn4       1.0000  0.6250  0.6250  0.1250  1.0000\n  Zn  Zn5       1.0000  0.6250  0.6250  0.6250  1.0000\n  Ti  Ti12      1.0000  0.7525  0.4158  0.4158  1.0000\n  Zn  Zn6       1.0000  0.4158  0.7525  0.4158  1.0000\n  Zn  Zn7       1.0000  0.4158  0.4158  0.7525  1.0000\n  Zn  Zn8       1.0000  0.4158  0.4158  0.4158  1.0000\n  Zn  Zn9       1.0000  0.4974  0.8342  0.8342  1.0000\n  Zn  Zn10      1.0000  0.8342  0.4974  0.8342  1.0000\n  Zn  Zn11      1.0000  0.8342  0.8342  0.4974  1.0000\n  Zn  Zn12      1.0000  0.8342  0.8342  0.8342  1.0000\n  N   N1        1.0000  0.6250  0.1250  0.1250  1.0000\n  N   N2        1.0000  0.1250  0.6250  0.1250  1.0000\n  N   N3        1.0000  0.1250  0.1250  0.6250  1.0000\n  N   N4        1.0000  0.1250  0.1250  0.1250  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d0ea84ef-e8bc-4f91-8a6b-ee095958d00b",
    "mp_id": "mp-697458",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KNiH9(CO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0851\n_cell_length_b   7.2086\n_cell_length_c   9.7322\n_cell_angle_alpha   77.0268\n_cell_angle_beta   106.1719\n_cell_angle_gamma   113.6046\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KNiH9(CO5)2\n_chemical_formula_sum   'K2 Ni2 H18 C4 O20'\n_cell_volume   433.8305\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9999  0.9998  0.0001  1\n  K  K1  1  0.0001  0.5004  0.5000  1\n  Ni  Ni2  1  0.5003  0.0005  0.5001  1\n  Ni  Ni3  1  0.4996  0.4993  0.0002  1\n  H  H4  1  0.0003  0.2506  0.2500  1\n  H  H5  1  0.0001  0.7502  0.7501  1\n  H  H6  1  0.8673  0.5514  0.1870  1\n  H  H7  1  0.8677  0.0517  0.6867  1\n  H  H8  1  0.1322  0.4482  0.8133  1\n  H  H9  1  0.1326  0.9483  0.3131  1\n  H  H10  1  0.7525  0.6683  0.2422  1\n  H  H11  1  0.7528  0.1684  0.7417  1\n  H  H12  1  0.2471  0.3315  0.7582  1\n  H  H13  1  0.2474  0.8316  0.2578  1\n  H  H14  1  0.5777  0.1733  0.1648  1\n  H  H15  1  0.5778  0.6737  0.6649  1\n  H  H16  1  0.4222  0.8264  0.8352  1\n  H  H17  1  0.4223  0.3267  0.3352  1\n  H  H18  1  0.5997  0.2060  0.0000  1\n  H  H19  1  0.5999  0.7063  0.5000  1\n  H  H20  1  0.4002  0.7937  0.0001  1\n  H  H21  1  0.4005  0.2941  0.5000  1\n  C  C22  1  0.7949  0.4693  0.8366  1\n  C  C23  1  0.7951  0.9694  0.3365  1\n  C  C24  1  0.2049  0.5305  0.1633  1\n  C  C25  1  0.2050  0.0307  0.6633  1\n  O  O26  1  0.7663  0.6249  0.1560  1\n  O  O27  1  0.7673  0.1258  0.6554  1\n  O  O28  1  0.2329  0.3743  0.8445  1\n  O  O29  1  0.2337  0.8751  0.3440  1\n  O  O30  1  0.5101  0.2067  0.0639  1\n  O  O31  1  0.5101  0.7070  0.5639  1\n  O  O32  1  0.4898  0.7930  0.9361  1\n  O  O33  1  0.4901  0.2934  0.4360  1\n  O  O34  1  0.6955  0.5748  0.8543  1\n  O  O35  1  0.6958  0.0751  0.3542  1\n  O  O36  1  0.3042  0.4247  0.1458  1\n  O  O37  1  0.3043  0.9252  0.6456  1\n  O  O38  1  0.7520  0.2784  0.8809  1\n  O  O39  1  0.7520  0.7784  0.3809  1\n  O  O40  1  0.2478  0.7214  0.1190  1\n  O  O41  1  0.2480  0.2216  0.6191  1\n  O  O42  1  0.9518  0.5655  0.7664  1\n  O  O43  1  0.9519  0.0654  0.2663  1\n  O  O44  1  0.0481  0.4345  0.2336  1\n  O  O45  1  0.0483  0.9346  0.7336  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Ni2OH17C4O5HO14\n_chemical_formula_sum              \"K2 Ni2 O20 H18 C4\"\n_cell_length_a       7.0851\n_cell_length_b       7.2086\n_cell_length_c       9.7322\n_cell_angle_alpha    77.0268\n_cell_angle_beta     106.1719\n_cell_angle_gamma    113.6046\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.9999  0.9998  0.0001  1.0000\n  K   K2        1.0000  0.0001  0.5004  0.5000  1.0000\n  Ni  Ni1       1.0000  0.5003  0.0005  0.5001  1.0000\n  Ni  Ni2       1.0000  0.4996  0.4993  0.0002  1.0000\n  O   O1        1.0000  0.0003  0.2506  0.2500  1.0000\n  H   H1        1.0000  0.0002  0.7502  0.7501  1.0000\n  H   H2        1.0000  0.8673  0.5514  0.1870  1.0000\n  H   H3        1.0000  0.8677  0.0517  0.6867  1.0000\n  H   H4        1.0000  0.1322  0.4482  0.8133  1.0000\n  H   H5        1.0000  0.1326  0.9483  0.3131  1.0000\n  H   H6        1.0000  0.7525  0.6683  0.2422  1.0000\n  H   H7        1.0000  0.7528  0.1684  0.7417  1.0000\n  H   H8        1.0000  0.2471  0.3315  0.7582  1.0000\n  H   H9        1.0000  0.2474  0.8316  0.2578  1.0000\n  H   H10       1.0000  0.5777  0.1733  0.1648  1.0000\n  H   H11       1.0000  0.5778  0.6737  0.6649  1.0000\n  H   H12       1.0000  0.4222  0.8264  0.8352  1.0000\n  H   H13       1.0000  0.4223  0.3267  0.3352  1.0000\n  H   H14       1.0000  0.5997  0.2060  0.0000  1.0000\n  H   H15       1.0000  0.5999  0.7063  0.5000  1.0000\n  H   H16       1.0000  0.4002  0.7937  0.0001  1.0000\n  H   H17       1.0000  0.4005  0.2941  0.5000  1.0000\n  C   C1        1.0000  0.7949  0.4693  0.8366  1.0000\n  C   C2        1.0000  0.7951  0.9694  0.3365  1.0000\n  C   C3        1.0000  0.2049  0.5305  0.1633  1.0000\n  C   C4        1.0000  0.2050  0.0307  0.6633  1.0000\n  O   O2        1.0000  0.7663  0.6249  0.1560  1.0000\n  O   O3        1.0000  0.7673  0.1258  0.6554  1.0000\n  O   O4        1.0000  0.2329  0.3743  0.8445  1.0000\n  O   O5        1.0000  0.2337  0.8751  0.3440  1.0000\n  O   O6        1.0000  0.5101  0.2067  0.0639  1.0000\n  H   H18       1.0000  0.5101  0.7070  0.5639  1.0000\n  O   O7        1.0000  0.4898  0.7930  0.9361  1.0000\n  O   O8        1.0000  0.4901  0.2934  0.4360  1.0000\n  O   O9        1.0000  0.6955  0.5748  0.8543  1.0000\n  O   O10       1.0000  0.6958  0.0751  0.3542  1.0000\n  O   O11       1.0000  0.3042  0.4247  0.1458  1.0000\n  O   O12       1.0000  0.3043  0.9252  0.6456  1.0000\n  O   O13       1.0000  0.7520  0.2784  0.8809  1.0000\n  O   O14       1.0000  0.7520  0.7784  0.3809  1.0000\n  O   O15       1.0000  0.2478  0.7214  0.1190  1.0000\n  O   O16       1.0000  0.2480  0.2216  0.6191  1.0000\n  O   O17       1.0000  0.9518  0.5655  0.7664  1.0000\n  O   O18       1.0000  0.9519  0.0654  0.2663  1.0000\n  O   O19       1.0000  0.0481  0.4345  0.2336  1.0000\n  O   O20       1.0000  0.0483  0.9346  0.7336  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bb73e1ae-7954-4a01-9185-a5a2948f4316",
    "mp_id": "mp-697721",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H8C2NCl\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.6349\n_cell_length_b   9.6349\n_cell_length_c   9.6349\n_cell_angle_alpha   135.2068\n_cell_angle_beta   116.6022\n_cell_angle_gamma   80.9412\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H8C2NCl\n_chemical_formula_sum   'H32 C8 N4 Cl4'\n_cell_volume   544.8902\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.3559  0.7806  0.4246  1\n  H  H1  1  0.6441  0.2194  0.5754  1\n  H  H2  1  0.1441  0.0687  0.9246  1\n  H  H3  1  0.8559  0.9313  0.0754  1\n  H  H4  1  0.2808  0.5315  0.2506  1\n  H  H5  1  0.7192  0.4685  0.7494  1\n  H  H6  1  0.2192  0.9698  0.7506  1\n  H  H7  1  0.7808  0.0302  0.2494  1\n  H  H8  1  0.5700  0.6386  0.4859  1\n  H  H9  1  0.8473  0.3614  0.9315  1\n  H  H10  1  0.9300  0.9158  0.5685  1\n  H  H11  1  0.6527  0.0842  0.0141  1\n  H  H12  1  0.4300  0.3614  0.5141  1\n  H  H13  1  0.1527  0.6386  0.0685  1\n  H  H14  1  0.0700  0.0842  0.4315  1\n  H  H15  1  0.3473  0.9158  0.9859  1\n  H  H16  1  0.5104  0.4444  0.1906  1\n  H  H17  1  0.7462  0.5556  0.0660  1\n  H  H18  1  0.9896  0.6801  0.4340  1\n  H  H19  1  0.7538  0.3199  0.3094  1\n  H  H20  1  0.4896  0.5556  0.8094  1\n  H  H21  1  0.2538  0.4444  0.9340  1\n  H  H22  1  0.0104  0.3199  0.5660  1\n  H  H23  1  0.2462  0.6801  0.6906  1\n  H  H24  1  0.5880  0.7060  0.3612  1\n  H  H25  1  0.6552  0.2940  0.8820  1\n  H  H26  1  0.9120  0.7732  0.6180  1\n  H  H27  1  0.8448  0.2268  0.1388  1\n  H  H28  1  0.4120  0.2940  0.6388  1\n  H  H29  1  0.3448  0.7060  0.1180  1\n  H  H30  1  0.0880  0.2268  0.3820  1\n  H  H31  1  0.1552  0.7732  0.8612  1\n  C  C32  1  0.5165  0.6031  0.3333  1\n  C  C33  1  0.7302  0.3969  0.9134  1\n  C  C34  1  0.9835  0.8168  0.5866  1\n  C  C35  1  0.7698  0.1832  0.1667  1\n  C  C36  1  0.4835  0.3969  0.6667  1\n  C  C37  1  0.2698  0.6031  0.0866  1\n  C  C38  1  0.0165  0.1832  0.4134  1\n  C  C39  1  0.2302  0.8168  0.8333  1\n  N  N40  1  0.3515  0.6324  0.2809  1\n  N  N41  1  0.6485  0.3676  0.7191  1\n  N  N42  1  0.1485  0.9295  0.7809  1\n  N  N43  1  0.8515  0.0705  0.2191  1\n  Cl  Cl44  1  0.3556  0.0588  0.7032  1\n  Cl  Cl45  1  0.6444  0.9412  0.2968  1\n  Cl  Cl46  1  0.1444  0.3476  0.2032  1\n  Cl  Cl47  1  0.8556  0.6524  0.7968  1\n",
    "output": "data_image0\n_chemical_formula_structural       H15CH16C6HCN4Cl4\n_chemical_formula_sum              \"H32 C8 N4 Cl4\"\n_cell_length_a       9.6349\n_cell_length_b       9.6349\n_cell_length_c       9.6349\n_cell_angle_alpha    135.2068\n_cell_angle_beta     116.6022\n_cell_angle_gamma    80.9412\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.3559  0.7806  0.4246  1.0000\n  H   H2        1.0000  0.6441  0.2194  0.5754  1.0000\n  H   H3        1.0000  0.1441  0.0687  0.9246  1.0000\n  H   H4        1.0000  0.8559  0.9313  0.0754  1.0000\n  H   H5        1.0000  0.2808  0.5315  0.2506  1.0000\n  H   H6        1.0000  0.7192  0.4685  0.7494  1.0000\n  H   H7        1.0000  0.2192  0.9698  0.7506  1.0000\n  H   H8        1.0000  0.7808  0.0302  0.2494  1.0000\n  H   H9        1.0000  0.5700  0.6386  0.4859  1.0000\n  H   H10       1.0000  0.8473  0.3614  0.9315  1.0000\n  H   H11       1.0000  0.9300  0.9158  0.5685  1.0000\n  H   H12       1.0000  0.6527  0.0842  0.0141  1.0000\n  H   H13       1.0000  0.4300  0.3614  0.5141  1.0000\n  H   H14       1.0000  0.1527  0.6386  0.0685  1.0000\n  H   H15       1.0000  0.0700  0.0842  0.4315  1.0000\n  C   C1        1.0000  0.3473  0.9158  0.9859  1.0000\n  H   H16       1.0000  0.5104  0.4444  0.1906  1.0000\n  H   H17       1.0000  0.7462  0.5556  0.0660  1.0000\n  H   H18       1.0000  0.9896  0.6801  0.4340  1.0000\n  H   H19       1.0000  0.7538  0.3199  0.3094  1.0000\n  H   H20       1.0000  0.4896  0.5556  0.8094  1.0000\n  H   H21       1.0000  0.2538  0.4444  0.9340  1.0000\n  H   H22       1.0000  0.0104  0.3199  0.5660  1.0000\n  H   H23       1.0000  0.2462  0.6801  0.6906  1.0000\n  H   H24       1.0000  0.5880  0.7060  0.3612  1.0000\n  H   H25       1.0000  0.6552  0.2940  0.8820  1.0000\n  H   H26       1.0000  0.9120  0.7732  0.6180  1.0000\n  H   H27       1.0000  0.8448  0.2268  0.1388  1.0000\n  H   H28       1.0000  0.4120  0.2940  0.6388  1.0000\n  H   H29       1.0000  0.3448  0.7060  0.1180  1.0000\n  H   H30       1.0000  0.0880  0.2268  0.3820  1.0000\n  H   H31       1.0000  0.1552  0.7732  0.8612  1.0000\n  C   C2        1.0000  0.5165  0.6031  0.3333  1.0000\n  C   C3        1.0000  0.7302  0.3969  0.9134  1.0000\n  C   C4        1.0000  0.9835  0.8168  0.5866  1.0000\n  C   C5        1.0000  0.7698  0.1832  0.1667  1.0000\n  C   C6        1.0000  0.4835  0.3969  0.6667  1.0000\n  C   C7        1.0000  0.2698  0.6031  0.0866  1.0000\n  H   H32       1.0000  0.0165  0.1832  0.4134  1.0000\n  C   C8        1.0000  0.2302  0.8168  0.8333  1.0000\n  N   N1        1.0000  0.3515  0.6324  0.2809  1.0000\n  N   N2        1.0000  0.6485  0.3676  0.7191  1.0000\n  N   N3        1.0000  0.1485  0.9295  0.7809  1.0000\n  N   N4        1.0000  0.8515  0.0705  0.2191  1.0000\n  Cl  Cl1       1.0000  0.3556  0.0588  0.7032  1.0000\n  Cl  Cl2       1.0000  0.6444  0.9412  0.2968  1.0000\n  Cl  Cl3       1.0000  0.1444  0.3476  0.2032  1.0000\n  Cl  Cl4       1.0000  0.8556  0.6524  0.7968  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "da447184-7b9f-4ff8-991d-318af52ddfa0",
    "mp_id": "mp-698312",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K4H4PtC6S2(NO6)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7236\n_cell_length_b   7.1544\n_cell_length_c   11.2209\n_cell_angle_alpha   101.0872\n_cell_angle_beta   90.1780\n_cell_angle_gamma   108.6612\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K4H4PtC6S2(NO6)2\n_chemical_formula_sum   'K4 H4 Pt1 C6 S2 N2 O12'\n_cell_volume   500.6263\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5937  0.7559  0.4491  1\n  K  K1  1  0.4063  0.2441  0.5509  1\n  K  K2  1  0.5499  0.0977  0.1923  1\n  K  K3  1  0.4501  0.9023  0.8077  1\n  H  H4  1  0.8540  0.4565  0.4011  1\n  H  H5  1  0.1460  0.5435  0.5989  1\n  H  H6  1  0.8471  0.2826  0.4659  1\n  H  H7  1  0.1529  0.7174  0.5341  1\n  Pt  Pt8  1  0.0000  0.0000  0.0000  1\n  C  C9  1  0.1984  0.3557  0.2278  1\n  C  C10  1  0.8016  0.6443  0.7722  1\n  C  C11  1  0.9883  0.8669  0.2326  1\n  C  C12  1  0.0117  0.1331  0.7674  1\n  C  C13  1  0.1093  0.8346  0.3436  1\n  C  C14  1  0.8907  0.1654  0.6564  1\n  S  S15  1  0.0566  0.3287  0.1000  1\n  S  S16  1  0.9434  0.6713  0.9000  1\n  N  N17  1  0.3024  0.3794  0.3179  1\n  N  N18  1  0.6976  0.6206  0.6821  1\n  O  O19  1  0.1125  0.9242  0.1474  1\n  O  O20  1  0.8875  0.0758  0.8526  1\n  O  O21  1  0.7986  0.8459  0.2338  1\n  O  O22  1  0.2014  0.1541  0.7662  1\n  O  O23  1  0.3069  0.9082  0.3544  1\n  O  O24  1  0.6931  0.0918  0.6456  1\n  O  O25  1  0.9934  0.7428  0.4178  1\n  O  O26  1  0.0066  0.2572  0.5822  1\n  O  O27  1  0.7633  0.3213  0.4076  1\n  O  O28  1  0.2367  0.6787  0.5924  1\n  O  O29  1  0.5327  0.2693  0.9837  1\n  O  O30  1  0.4673  0.7307  0.0163  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4H3CPtCHC4S2N2O12\n_chemical_formula_sum              \"K4 H4 C6 Pt1 S2 N2 O12\"\n_cell_length_a       6.7236\n_cell_length_b       7.1544\n_cell_length_c       11.2209\n_cell_angle_alpha    101.0872\n_cell_angle_beta     90.1780\n_cell_angle_gamma    108.6612\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5937  0.7559  0.4491  1.0000\n  K   K2        1.0000  0.4063  0.2441  0.5509  1.0000\n  K   K3        1.0000  0.5499  0.0977  0.1923  1.0000\n  K   K4        1.0000  0.4501  0.9023  0.8077  1.0000\n  H   H1        1.0000  0.8540  0.4565  0.4011  1.0000\n  H   H2        1.0000  0.1460  0.5435  0.5989  1.0000\n  H   H3        1.0000  0.8471  0.2826  0.4659  1.0000\n  C   C1        1.0000  0.1529  0.7174  0.5341  1.0000\n  Pt  Pt1       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C2        1.0000  0.1984  0.3557  0.2278  1.0000\n  H   H4        1.0000  0.8016  0.6443  0.7722  1.0000\n  C   C3        1.0000  0.9883  0.8669  0.2326  1.0000\n  C   C4        1.0000  0.0117  0.1331  0.7674  1.0000\n  C   C5        1.0000  0.1093  0.8346  0.3436  1.0000\n  C   C6        1.0000  0.8907  0.1654  0.6564  1.0000\n  S   S1        1.0000  0.0566  0.3287  0.1000  1.0000\n  S   S2        1.0000  0.9434  0.6713  0.9000  1.0000\n  N   N1        1.0000  0.3024  0.3794  0.3179  1.0000\n  N   N2        1.0000  0.6976  0.6206  0.6821  1.0000\n  O   O1        1.0000  0.1125  0.9242  0.1474  1.0000\n  O   O2        1.0000  0.8875  0.0758  0.8526  1.0000\n  O   O3        1.0000  0.7986  0.8459  0.2338  1.0000\n  O   O4        1.0000  0.2014  0.1541  0.7662  1.0000\n  O   O5        1.0000  0.3069  0.9082  0.3544  1.0000\n  O   O6        1.0000  0.6931  0.0918  0.6456  1.0000\n  O   O7        1.0000  0.9934  0.7428  0.4178  1.0000\n  O   O8        1.0000  0.0066  0.2572  0.5822  1.0000\n  O   O9        1.0000  0.7633  0.3213  0.4076  1.0000\n  O   O10       1.0000  0.2367  0.6787  0.5924  1.0000\n  O   O11       1.0000  0.5327  0.2693  0.9837  1.0000\n  O   O12       1.0000  0.4673  0.7307  0.0163  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9e02addb-1c8d-444a-be40-b813db82e310",
    "mp_id": "mp-7022",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V5As3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8848\n_cell_length_b   7.1064\n_cell_length_c   7.1064\n_cell_angle_alpha   83.2162\n_cell_angle_beta   69.8981\n_cell_angle_gamma   69.8981\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V5As3\n_chemical_formula_sum   'V10 As6'\n_cell_volume   217.5455\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.5790  0.6933  0.1488  1\n  V  V1  1  0.4210  0.3067  0.8512  1\n  V  V2  1  0.7277  0.8512  0.6933  1\n  V  V3  1  0.2723  0.1488  0.3067  1\n  V  V4  1  0.9210  0.8512  0.3067  1\n  V  V5  1  0.2277  0.6933  0.8512  1\n  V  V6  1  0.2500  0.5000  0.5000  1\n  V  V7  1  0.7500  0.5000  0.5000  1\n  V  V8  1  0.0790  0.1488  0.6933  1\n  V  V9  1  0.7723  0.3067  0.1488  1\n  As  As10  1  0.8364  0.5000  0.8272  1\n  As  As11  1  0.6636  0.1728  0.5000  1\n  As  As12  1  0.3364  0.8272  0.5000  1\n  As  As13  1  0.1636  0.5000  0.1728  1\n  As  As14  1  0.7500  -0.0000  -0.0000  1\n  As  As15  1  0.2500  -0.0000  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       V5AsV4AsVAs4\n_chemical_formula_sum              \"V10 As6\"\n_cell_length_a       4.8848\n_cell_length_b       7.1064\n_cell_length_c       7.1064\n_cell_angle_alpha    83.2162\n_cell_angle_beta     69.8981\n_cell_angle_gamma    69.8981\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.5790  0.6933  0.1488  1.0000\n  V   V2        1.0000  0.4210  0.3067  0.8512  1.0000\n  V   V3        1.0000  0.7277  0.8512  0.6933  1.0000\n  V   V4        1.0000  0.2723  0.1488  0.3067  1.0000\n  V   V5        1.0000  0.9210  0.8512  0.3067  1.0000\n  As  As1       1.0000  0.2277  0.6933  0.8512  1.0000\n  V   V6        1.0000  0.2500  0.5000  0.5000  1.0000\n  V   V7        1.0000  0.7500  0.5000  0.5000  1.0000\n  V   V8        1.0000  0.0790  0.1488  0.6933  1.0000\n  V   V9        1.0000  0.7723  0.3067  0.1488  1.0000\n  As  As2       1.0000  0.8364  0.5000  0.8272  1.0000\n  V   V10       1.0000  0.6636  0.1728  0.5000  1.0000\n  As  As3       1.0000  0.3364  0.8272  0.5000  1.0000\n  As  As4       1.0000  0.1636  0.5000  0.1728  1.0000\n  As  As5       1.0000  0.7500  0.0000  0.0000  1.0000\n  As  As6       1.0000  0.2500  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c8edfc37-fa43-4772-9bdd-699f317aaed8",
    "mp_id": "mp-703291",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3CuP2Br3O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1025\n_cell_length_b   10.4247\n_cell_length_c   10.5451\n_cell_angle_alpha   118.2984\n_cell_angle_beta   90.3717\n_cell_angle_gamma   90.5675\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3CuP2Br3O7\n_chemical_formula_sum   'Ba6 Cu2 P4 Br6 O14'\n_cell_volume   687.3741\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7552  0.6040  0.9325  1\n  Ba  Ba1  1  0.7576  0.0633  0.6731  1\n  Ba  Ba2  1  0.2523  0.6440  0.6100  1\n  Ba  Ba3  1  0.7368  0.3327  0.3925  1\n  Ba  Ba4  1  0.2577  0.9844  0.3761  1\n  Ba  Ba5  1  0.2364  0.3696  0.0120  1\n  Cu  Cu6  1  0.2504  0.0013  0.0044  1\n  Cu  Cu7  1  0.7465  0.9933  0.9902  1\n  P  P8  1  0.0270  0.3175  0.6433  1\n  P  P9  1  0.4711  0.3342  0.6742  1\n  P  P10  1  0.9108  0.6925  0.3729  1\n  P  P11  1  0.5916  0.6896  0.3663  1\n  Br  Br12  1  0.2544  0.0182  0.7841  1\n  Br  Br13  1  0.2463  0.7624  0.9782  1\n  Br  Br14  1  0.7481  0.7925  0.7549  1\n  Br  Br15  1  0.2509  0.2161  0.2333  1\n  Br  Br16  1  0.7396  0.2364  0.0291  1\n  Br  Br17  1  0.7404  0.9660  0.1998  1\n  O  O18  1  0.9610  0.3398  0.7916  1\n  O  O19  1  0.2443  0.2756  0.6277  1\n  O  O20  1  0.5520  0.1900  0.5497  1\n  O  O21  1  0.9450  0.1784  0.5165  1\n  O  O22  1  0.4949  0.4587  0.6307  1\n  O  O23  1  0.9958  0.4545  0.6258  1\n  O  O24  1  0.5247  0.5615  0.3872  1\n  O  O25  1  0.9722  0.5626  0.3906  1\n  O  O26  1  0.5241  0.8404  0.4750  1\n  O  O27  1  0.9793  0.8430  0.4861  1\n  O  O28  1  0.0000  0.6945  0.2320  1\n  O  O29  1  0.5090  0.6851  0.2199  1\n  O  O30  1  0.9731  0.5543  0.1000  1\n  O  O31  1  0.5254  0.5416  0.0890  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBa5Cu2P4Br6BaO13\n_chemical_formula_sum              \"O14 Ba6 Cu2 P4 Br6\"\n_cell_length_a       7.1025\n_cell_length_b       10.4247\n_cell_length_c       10.5451\n_cell_angle_alpha    118.2984\n_cell_angle_beta     90.3717\n_cell_angle_gamma    90.5675\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7552  0.6040  0.9325  1.0000\n  Ba  Ba1       1.0000  0.7576  0.0633  0.6731  1.0000\n  Ba  Ba2       1.0000  0.2523  0.6440  0.6100  1.0000\n  Ba  Ba3       1.0000  0.7368  0.3327  0.3925  1.0000\n  Ba  Ba4       1.0000  0.2577  0.9844  0.3761  1.0000\n  Ba  Ba5       1.0000  0.2364  0.3696  0.0120  1.0000\n  Cu  Cu1       1.0000  0.2504  0.0013  0.0044  1.0000\n  Cu  Cu2       1.0000  0.7465  0.9933  0.9902  1.0000\n  P   P1        1.0000  0.0270  0.3175  0.6433  1.0000\n  P   P2        1.0000  0.4711  0.3342  0.6742  1.0000\n  P   P3        1.0000  0.9108  0.6925  0.3729  1.0000\n  P   P4        1.0000  0.5916  0.6896  0.3663  1.0000\n  Br  Br1       1.0000  0.2544  0.0182  0.7841  1.0000\n  Br  Br2       1.0000  0.2463  0.7624  0.9782  1.0000\n  Br  Br3       1.0000  0.7481  0.7925  0.7549  1.0000\n  Br  Br4       1.0000  0.2509  0.2161  0.2333  1.0000\n  Br  Br5       1.0000  0.7396  0.2364  0.0291  1.0000\n  Br  Br6       1.0000  0.7404  0.9660  0.1998  1.0000\n  Ba  Ba6       1.0000  0.9610  0.3398  0.7916  1.0000\n  O   O2        1.0000  0.2443  0.2756  0.6277  1.0000\n  O   O3        1.0000  0.5520  0.1900  0.5497  1.0000\n  O   O4        1.0000  0.9450  0.1784  0.5165  1.0000\n  O   O5        1.0000  0.4949  0.4587  0.6307  1.0000\n  O   O6        1.0000  0.9958  0.4545  0.6258  1.0000\n  O   O7        1.0000  0.5247  0.5615  0.3872  1.0000\n  O   O8        1.0000  0.9722  0.5626  0.3906  1.0000\n  O   O9        1.0000  0.5241  0.8404  0.4750  1.0000\n  O   O10       1.0000  0.9793  0.8430  0.4861  1.0000\n  O   O11       1.0000  0.0000  0.6945  0.2320  1.0000\n  O   O12       1.0000  0.5090  0.6851  0.2199  1.0000\n  O   O13       1.0000  0.9731  0.5543  0.1000  1.0000\n  O   O14       1.0000  0.5254  0.5416  0.0890  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1c6076d7-1f90-4418-aebd-c17506547e79",
    "mp_id": "mp-704116",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KMn2Zn3(Si2O5)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.3265\n_cell_length_b   10.3265\n_cell_length_c   14.3757\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KMn2Zn3(Si2O5)6\n_chemical_formula_sum   'K2 Mn4 Zn6 Si24 O60'\n_cell_volume   1327.6033\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.0000  0.0000  0.2472  1\n  K  K1  1  0.0000  0.0000  0.7472  1\n  Mn  Mn2  1  0.3333  0.6667  0.2504  1\n  Mn  Mn3  1  0.3333  0.6667  0.7504  1\n  Mn  Mn4  1  0.6667  0.3333  0.2504  1\n  Mn  Mn5  1  0.6667  0.3333  0.7504  1\n  Zn  Zn6  1  0.0000  0.5000  0.7506  1\n  Zn  Zn7  1  0.5000  0.0000  0.2506  1\n  Zn  Zn8  1  0.5000  0.0000  0.7506  1\n  Zn  Zn9  1  0.5000  0.5000  0.7506  1\n  Zn  Zn10  1  0.0000  0.5000  0.2506  1\n  Zn  Zn11  1  0.5000  0.5000  0.2506  1\n  Si  Si12  1  0.2353  0.8871  0.3893  1\n  Si  Si13  1  0.2353  0.3481  0.1119  1\n  Si  Si14  1  0.8871  0.2353  0.8893  1\n  Si  Si15  1  0.6519  0.8871  0.8893  1\n  Si  Si16  1  0.3481  0.2353  0.3893  1\n  Si  Si17  1  0.7647  0.6519  0.1119  1\n  Si  Si18  1  0.7647  0.1129  0.3893  1\n  Si  Si19  1  0.6519  0.7647  0.6119  1\n  Si  Si20  1  0.6519  0.8872  0.1119  1\n  Si  Si21  1  0.8872  0.2353  0.1119  1\n  Si  Si22  1  0.2353  0.8872  0.6119  1\n  Si  Si23  1  0.1129  0.7647  0.8893  1\n  Si  Si24  1  0.1129  0.3481  0.3893  1\n  Si  Si25  1  0.3481  0.1129  0.8893  1\n  Si  Si26  1  0.3481  0.1128  0.1119  1\n  Si  Si27  1  0.2353  0.3481  0.8893  1\n  Si  Si28  1  0.6519  0.7647  0.3893  1\n  Si  Si29  1  0.3481  0.2353  0.6119  1\n  Si  Si30  1  0.1128  0.3481  0.6119  1\n  Si  Si31  1  0.8872  0.6519  0.6119  1\n  Si  Si32  1  0.7647  0.6519  0.8893  1\n  Si  Si33  1  0.1128  0.7647  0.1119  1\n  Si  Si34  1  0.8871  0.6519  0.3893  1\n  Si  Si35  1  0.7647  0.1128  0.6119  1\n  O  O36  1  0.8774  0.6216  0.5006  1\n  O  O37  1  0.2764  0.0583  0.3610  1\n  O  O38  1  0.7442  0.6216  0.0006  1\n  O  O39  1  0.5024  0.6577  0.6712  1\n  O  O40  1  0.6580  0.1556  0.3298  1\n  O  O41  1  0.3420  0.8444  0.3298  1\n  O  O42  1  0.2178  0.9417  0.1404  1\n  O  O43  1  0.4976  0.1553  0.1712  1\n  O  O44  1  0.7822  0.7239  0.6404  1\n  O  O45  1  0.3784  0.1226  0.0006  1\n  O  O46  1  0.2764  0.2181  0.8610  1\n  O  O47  1  0.7442  0.1226  0.5006  1\n  O  O48  1  0.2558  0.8774  0.5006  1\n  O  O49  1  0.2178  0.2761  0.6404  1\n  O  O50  1  0.6216  0.7442  0.5006  1\n  O  O51  1  0.2181  0.9417  0.8610  1\n  O  O52  1  0.6577  0.1553  0.6712  1\n  O  O53  1  0.8447  0.5024  0.6712  1\n  O  O54  1  0.1556  0.4976  0.3298  1\n  O  O55  1  0.0583  0.2761  0.1404  1\n  O  O56  1  0.1553  0.4976  0.6712  1\n  O  O57  1  0.6216  0.8774  0.0006  1\n  O  O58  1  0.2761  0.0583  0.6404  1\n  O  O59  1  0.2761  0.2178  0.1404  1\n  O  O60  1  0.7239  0.7822  0.1404  1\n  O  O61  1  0.1553  0.6577  0.1712  1\n  O  O62  1  0.3423  0.4976  0.1712  1\n  O  O63  1  0.8447  0.3423  0.1712  1\n  O  O64  1  0.3784  0.2558  0.5006  1\n  O  O65  1  0.9417  0.2181  0.3610  1\n  O  O66  1  0.2181  0.2764  0.3610  1\n  O  O67  1  0.7236  0.7819  0.8610  1\n  O  O68  1  0.9417  0.2178  0.6404  1\n  O  O69  1  0.9417  0.7236  0.8610  1\n  O  O70  1  0.3420  0.4976  0.8298  1\n  O  O71  1  0.1556  0.6580  0.8298  1\n  O  O72  1  0.7236  0.9417  0.3610  1\n  O  O73  1  0.7822  0.0583  0.1404  1\n  O  O74  1  0.4976  0.1556  0.8298  1\n  O  O75  1  0.2558  0.3784  0.0006  1\n  O  O76  1  0.7819  0.7236  0.3610  1\n  O  O77  1  0.3423  0.8447  0.6712  1\n  O  O78  1  0.0583  0.7819  0.3610  1\n  O  O79  1  0.9417  0.7239  0.1404  1\n  O  O80  1  0.8444  0.3420  0.8298  1\n  O  O81  1  0.5024  0.8447  0.1712  1\n  O  O82  1  0.6577  0.5024  0.1712  1\n  O  O83  1  0.5024  0.6580  0.3298  1\n  O  O84  1  0.7819  0.0583  0.8610  1\n  O  O85  1  0.7239  0.9417  0.6404  1\n  O  O86  1  0.4976  0.3423  0.6712  1\n  O  O87  1  0.0583  0.7822  0.6404  1\n  O  O88  1  0.6580  0.5024  0.8298  1\n  O  O89  1  0.8774  0.2558  0.0006  1\n  O  O90  1  0.5024  0.8444  0.8298  1\n  O  O91  1  0.1226  0.3784  0.5006  1\n  O  O92  1  0.8444  0.5024  0.3298  1\n  O  O93  1  0.0583  0.2764  0.8610  1\n  O  O94  1  0.4976  0.3420  0.3298  1\n  O  O95  1  0.1226  0.7442  0.0006  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2Mn2ZnMnZn4MnZnSi24O60\n_chemical_formula_sum              \"K2 Mn4 Zn6 Si24 O60\"\n_cell_length_a       10.3265\n_cell_length_b       10.3265\n_cell_length_c       14.3757\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.0000  0.0000  0.2472  1.0000\n  K   K2        1.0000  0.0000  0.0000  0.7472  1.0000\n  Mn  Mn1       1.0000  0.3333  0.6667  0.2504  1.0000\n  Mn  Mn2       1.0000  0.3333  0.6667  0.7504  1.0000\n  Zn  Zn1       1.0000  0.6667  0.3333  0.2504  1.0000\n  Mn  Mn3       1.0000  0.6667  0.3333  0.7504  1.0000\n  Zn  Zn2       1.0000  0.0000  0.5000  0.7506  1.0000\n  Zn  Zn3       1.0000  0.5000  0.0000  0.2506  1.0000\n  Zn  Zn4       1.0000  0.5000  0.0000  0.7506  1.0000\n  Zn  Zn5       1.0000  0.5000  0.5000  0.7506  1.0000\n  Mn  Mn4       1.0000  0.0000  0.5000  0.2506  1.0000\n  Zn  Zn6       1.0000  0.5000  0.5000  0.2506  1.0000\n  Si  Si1       1.0000  0.2353  0.8871  0.3893  1.0000\n  Si  Si2       1.0000  0.2353  0.3481  0.1119  1.0000\n  Si  Si3       1.0000  0.8871  0.2353  0.8893  1.0000\n  Si  Si4       1.0000  0.6519  0.8871  0.8893  1.0000\n  Si  Si5       1.0000  0.3481  0.2353  0.3893  1.0000\n  Si  Si6       1.0000  0.7647  0.6519  0.1119  1.0000\n  Si  Si7       1.0000  0.7647  0.1129  0.3893  1.0000\n  Si  Si8       1.0000  0.6519  0.7647  0.6119  1.0000\n  Si  Si9       1.0000  0.6519  0.8872  0.1119  1.0000\n  Si  Si10      1.0000  0.8872  0.2353  0.1119  1.0000\n  Si  Si11      1.0000  0.2353  0.8872  0.6119  1.0000\n  Si  Si12      1.0000  0.1129  0.7647  0.8893  1.0000\n  Si  Si13      1.0000  0.1129  0.3481  0.3893  1.0000\n  Si  Si14      1.0000  0.3481  0.1129  0.8893  1.0000\n  Si  Si15      1.0000  0.3481  0.1128  0.1119  1.0000\n  Si  Si16      1.0000  0.2353  0.3481  0.8893  1.0000\n  Si  Si17      1.0000  0.6519  0.7647  0.3893  1.0000\n  Si  Si18      1.0000  0.3481  0.2353  0.6119  1.0000\n  Si  Si19      1.0000  0.1128  0.3481  0.6119  1.0000\n  Si  Si20      1.0000  0.8872  0.6519  0.6119  1.0000\n  Si  Si21      1.0000  0.7647  0.6519  0.8893  1.0000\n  Si  Si22      1.0000  0.1128  0.7647  0.1119  1.0000\n  Si  Si23      1.0000  0.8871  0.6519  0.3893  1.0000\n  Si  Si24      1.0000  0.7647  0.1128  0.6119  1.0000\n  O   O1        1.0000  0.8774  0.6216  0.5006  1.0000\n  O   O2        1.0000  0.2764  0.0583  0.3610  1.0000\n  O   O3        1.0000  0.7442  0.6216  0.0006  1.0000\n  O   O4        1.0000  0.5024  0.6577  0.6712  1.0000\n  O   O5        1.0000  0.6580  0.1556  0.3298  1.0000\n  O   O6        1.0000  0.3420  0.8444  0.3298  1.0000\n  O   O7        1.0000  0.2178  0.9417  0.1404  1.0000\n  O   O8        1.0000  0.4976  0.1553  0.1712  1.0000\n  O   O9        1.0000  0.7822  0.7239  0.6404  1.0000\n  O   O10       1.0000  0.3784  0.1226  0.0006  1.0000\n  O   O11       1.0000  0.2764  0.2181  0.8610  1.0000\n  O   O12       1.0000  0.7442  0.1226  0.5006  1.0000\n  O   O13       1.0000  0.2558  0.8774  0.5006  1.0000\n  O   O14       1.0000  0.2178  0.2761  0.6404  1.0000\n  O   O15       1.0000  0.6216  0.7442  0.5006  1.0000\n  O   O16       1.0000  0.2181  0.9417  0.8610  1.0000\n  O   O17       1.0000  0.6577  0.1553  0.6712  1.0000\n  O   O18       1.0000  0.8447  0.5024  0.6712  1.0000\n  O   O19       1.0000  0.1556  0.4976  0.3298  1.0000\n  O   O20       1.0000  0.0583  0.2761  0.1404  1.0000\n  O   O21       1.0000  0.1553  0.4976  0.6712  1.0000\n  O   O22       1.0000  0.6216  0.8774  0.0006  1.0000\n  O   O23       1.0000  0.2761  0.0583  0.6404  1.0000\n  O   O24       1.0000  0.2761  0.2178  0.1404  1.0000\n  O   O25       1.0000  0.7239  0.7822  0.1404  1.0000\n  O   O26       1.0000  0.1553  0.6577  0.1712  1.0000\n  O   O27       1.0000  0.3423  0.4976  0.1712  1.0000\n  O   O28       1.0000  0.8447  0.3423  0.1712  1.0000\n  O   O29       1.0000  0.3784  0.2558  0.5006  1.0000\n  O   O30       1.0000  0.9417  0.2181  0.3610  1.0000\n  O   O31       1.0000  0.2181  0.2764  0.3610  1.0000\n  O   O32       1.0000  0.7236  0.7819  0.8610  1.0000\n  O   O33       1.0000  0.9417  0.2178  0.6404  1.0000\n  O   O34       1.0000  0.9417  0.7236  0.8610  1.0000\n  O   O35       1.0000  0.3420  0.4976  0.8298  1.0000\n  O   O36       1.0000  0.1556  0.6580  0.8298  1.0000\n  O   O37       1.0000  0.7236  0.9417  0.3610  1.0000\n  O   O38       1.0000  0.7822  0.0583  0.1404  1.0000\n  O   O39       1.0000  0.4976  0.1556  0.8298  1.0000\n  O   O40       1.0000  0.2558  0.3784  0.0006  1.0000\n  O   O41       1.0000  0.7819  0.7236  0.3610  1.0000\n  O   O42       1.0000  0.3423  0.8447  0.6712  1.0000\n  O   O43       1.0000  0.0583  0.7819  0.3610  1.0000\n  O   O44       1.0000  0.9417  0.7239  0.1404  1.0000\n  O   O45       1.0000  0.8444  0.3420  0.8298  1.0000\n  O   O46       1.0000  0.5024  0.8447  0.1712  1.0000\n  O   O47       1.0000  0.6577  0.5024  0.1712  1.0000\n  O   O48       1.0000  0.5024  0.6580  0.3298  1.0000\n  O   O49       1.0000  0.7819  0.0583  0.8610  1.0000\n  O   O50       1.0000  0.7239  0.9417  0.6404  1.0000\n  O   O51       1.0000  0.4976  0.3423  0.6712  1.0000\n  O   O52       1.0000  0.0583  0.7822  0.6404  1.0000\n  O   O53       1.0000  0.6580  0.5024  0.8298  1.0000\n  O   O54       1.0000  0.8774  0.2558  0.0006  1.0000\n  O   O55       1.0000  0.5024  0.8444  0.8298  1.0000\n  O   O56       1.0000  0.1226  0.3784  0.5006  1.0000\n  O   O57       1.0000  0.8444  0.5024  0.3298  1.0000\n  O   O58       1.0000  0.0583  0.2764  0.8610  1.0000\n  O   O59       1.0000  0.4976  0.3420  0.3298  1.0000\n  O   O60       1.0000  0.1226  0.7442  0.0006  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e96f03f5-21c7-4d08-90df-d937c5c91016",
    "mp_id": "mp-704848",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V2Re2O11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3641\n_cell_length_b   7.8054\n_cell_length_c   9.9992\n_cell_angle_alpha   89.3054\n_cell_angle_beta   91.9029\n_cell_angle_gamma   112.2512\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V2Re2O11\n_chemical_formula_sum   'V4 Re4 O22'\n_cell_volume   459.4584\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.2264  0.3760  0.2254  1\n  V  V1  1  0.6331  0.2636  0.5589  1\n  V  V2  1  0.4289  0.7915  0.0786  1\n  V  V3  1  0.8132  0.6337  0.7111  1\n  Re  Re4  1  0.0140  0.0193  0.5129  1\n  Re  Re5  1  0.7310  0.4724  0.1446  1\n  Re  Re6  1  0.0125  0.9806  0.0231  1\n  Re  Re7  1  0.2521  0.5083  0.6468  1\n  O  O8  1  0.4745  0.8923  0.2220  1\n  O  O9  1  0.1329  0.2558  0.6390  1\n  O  O10  1  0.3068  0.1160  0.4669  1\n  O  O11  1  0.0884  0.1044  0.1782  1\n  O  O12  1  0.2102  0.4414  0.3780  1\n  O  O13  1  0.8149  0.1224  0.4626  1\n  O  O14  1  0.8715  0.7230  0.1327  1\n  O  O15  1  0.2896  0.5681  0.8138  1\n  O  O16  1  0.7902  0.5726  0.8689  1\n  O  O17  1  0.5502  0.2907  0.0454  1\n  O  O18  1  0.2043  0.8664  0.9809  1\n  O  O19  1  0.5861  0.1438  0.6938  1\n  O  O20  1  0.9309  0.4803  0.6134  1\n  O  O21  1  0.9881  0.4273  0.1321  1\n  O  O22  1  0.7114  0.9117  0.9819  1\n  O  O23  1  0.4413  0.5537  0.1209  1\n  O  O24  1  0.5428  0.4802  0.6126  1\n  O  O25  1  0.3455  0.7200  0.5618  1\n  O  O26  1  0.6519  0.4082  0.3097  1\n  O  O27  1  0.9530  0.8940  0.6720  1\n  O  O28  1  0.1059  0.1580  0.9106  1\n  O  O29  1  0.9185  0.8272  0.4102  1\n",
    "output": "data_image0\n_chemical_formula_structural       V2OVRe4O16VO5\n_chemical_formula_sum              \"V4 O22 Re4\"\n_cell_length_a       6.3641\n_cell_length_b       7.8054\n_cell_length_c       9.9992\n_cell_angle_alpha    89.3054\n_cell_angle_beta     91.9029\n_cell_angle_gamma    112.2512\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.2264  0.3760  0.2254  1.0000\n  V   V2        1.0000  0.6331  0.2636  0.5589  1.0000\n  O   O1        1.0000  0.4289  0.7915  0.0786  1.0000\n  V   V3        1.0000  0.8132  0.6337  0.7111  1.0000\n  Re  Re1       1.0000  0.0140  0.0193  0.5129  1.0000\n  Re  Re2       1.0000  0.7310  0.4724  0.1446  1.0000\n  Re  Re3       1.0000  0.0125  0.9806  0.0231  1.0000\n  Re  Re4       1.0000  0.2521  0.5083  0.6468  1.0000\n  O   O2        1.0000  0.4745  0.8923  0.2220  1.0000\n  O   O3        1.0000  0.1329  0.2558  0.6390  1.0000\n  O   O4        1.0000  0.3068  0.1160  0.4669  1.0000\n  O   O5        1.0000  0.0884  0.1044  0.1782  1.0000\n  O   O6        1.0000  0.2102  0.4414  0.3780  1.0000\n  O   O7        1.0000  0.8149  0.1224  0.4626  1.0000\n  O   O8        1.0000  0.8715  0.7230  0.1327  1.0000\n  O   O9        1.0000  0.2896  0.5681  0.8138  1.0000\n  O   O10       1.0000  0.7902  0.5726  0.8689  1.0000\n  O   O11       1.0000  0.5502  0.2907  0.0454  1.0000\n  O   O12       1.0000  0.2043  0.8664  0.9809  1.0000\n  O   O13       1.0000  0.5861  0.1438  0.6938  1.0000\n  O   O14       1.0000  0.9309  0.4803  0.6134  1.0000\n  O   O15       1.0000  0.9881  0.4273  0.1321  1.0000\n  O   O16       1.0000  0.7114  0.9117  0.9819  1.0000\n  O   O17       1.0000  0.4413  0.5537  0.1209  1.0000\n  V   V4        1.0000  0.5428  0.4802  0.6126  1.0000\n  O   O18       1.0000  0.3455  0.7200  0.5618  1.0000\n  O   O19       1.0000  0.6519  0.4082  0.3097  1.0000\n  O   O20       1.0000  0.9530  0.8940  0.6720  1.0000\n  O   O21       1.0000  0.1059  0.1580  0.9106  1.0000\n  O   O22       1.0000  0.9185  0.8272  0.4102  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "48d6e99f-6428-4c13-a109-cf9b386b4004",
    "mp_id": "mp-705312",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 83 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFePO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6201\n_cell_length_b   8.3781\n_cell_length_c   18.7326\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFePO4\n_chemical_formula_sum   'Li12 Fe12 P12 O48'\n_cell_volume   882.0420\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7450  0.0839  0.0826  1\n  Li  Li1  1  0.7295  0.0871  0.7492  1\n  Li  Li2  1  0.2450  0.5839  0.4174  1\n  Li  Li3  1  0.7319  0.0862  0.4157  1\n  Li  Li4  1  0.7295  0.4129  0.2492  1\n  Li  Li5  1  0.7319  0.4138  0.9157  1\n  Li  Li6  1  0.2295  0.5871  0.7508  1\n  Li  Li7  1  0.2319  0.9138  0.5843  1\n  Li  Li8  1  0.2450  0.9161  0.9174  1\n  Li  Li9  1  0.2319  0.5862  0.0843  1\n  Li  Li10  1  0.2295  0.9129  0.2508  1\n  Li  Li11  1  0.7450  0.4161  0.5826  1\n  Fe  Fe12  1  0.7362  0.7512  0.6666  1\n  Fe  Fe13  1  0.7362  0.7488  0.1666  1\n  Fe  Fe14  1  0.7367  0.7479  0.3333  1\n  Fe  Fe15  1  0.2367  0.2479  0.1667  1\n  Fe  Fe16  1  0.2367  0.2521  0.6667  1\n  Fe  Fe17  1  0.7348  0.7509  0.4998  1\n  Fe  Fe18  1  0.2362  0.2512  0.8334  1\n  Fe  Fe19  1  0.2348  0.2509  0.0002  1\n  Fe  Fe20  1  0.2348  0.2491  0.5002  1\n  Fe  Fe21  1  0.2362  0.2488  0.3334  1\n  Fe  Fe22  1  0.7367  0.7521  0.8333  1\n  Fe  Fe23  1  0.7348  0.7491  0.9998  1\n  P  P24  1  0.7378  0.0980  0.2496  1\n  P  P25  1  0.7378  0.4020  0.7496  1\n  P  P26  1  0.7362  0.1003  0.9164  1\n  P  P27  1  0.7362  0.3997  0.4164  1\n  P  P28  1  0.7339  0.3989  0.0827  1\n  P  P29  1  0.7339  0.1011  0.5827  1\n  P  P30  1  0.2339  0.6011  0.9173  1\n  P  P31  1  0.2362  0.8997  0.0836  1\n  P  P32  1  0.2378  0.5980  0.2504  1\n  P  P33  1  0.2339  0.8989  0.4173  1\n  P  P34  1  0.2362  0.6003  0.5836  1\n  P  P35  1  0.2378  0.9020  0.7504  1\n  O  O36  1  0.0155  0.7871  0.7503  1\n  O  O37  1  0.9582  0.2851  0.4168  1\n  O  O38  1  0.4615  0.7890  0.7501  1\n  O  O39  1  0.7334  0.9976  0.5146  1\n  O  O40  1  0.4582  0.7851  0.0832  1\n  O  O41  1  0.0113  0.7148  0.9168  1\n  O  O42  1  0.7334  0.5024  0.0146  1\n  O  O43  1  0.2362  0.4940  0.1826  1\n  O  O44  1  0.4582  0.7149  0.5832  1\n  O  O45  1  0.9582  0.2149  0.9168  1\n  O  O46  1  0.7368  0.5020  0.3481  1\n  O  O47  1  0.7360  0.5032  0.1505  1\n  O  O48  1  0.2379  0.0053  0.8184  1\n  O  O49  1  0.5113  0.2148  0.5832  1\n  O  O50  1  0.2368  0.0020  0.1519  1\n  O  O51  1  0.5113  0.2852  0.0832  1\n  O  O52  1  0.5155  0.2129  0.2497  1\n  O  O53  1  0.2360  0.4968  0.8495  1\n  O  O54  1  0.0113  0.7852  0.4168  1\n  O  O55  1  0.2379  0.4947  0.3184  1\n  O  O56  1  0.2334  0.0024  0.4854  1\n  O  O57  1  0.2334  0.4976  0.9854  1\n  O  O58  1  0.7360  0.9968  0.6505  1\n  O  O59  1  0.0123  0.7864  0.0834  1\n  O  O60  1  0.7355  0.5046  0.4839  1\n  O  O61  1  0.7379  0.5053  0.6816  1\n  O  O62  1  0.9615  0.2110  0.2499  1\n  O  O63  1  0.4572  0.7150  0.9171  1\n  O  O64  1  0.7355  0.9954  0.9839  1\n  O  O65  1  0.4615  0.7110  0.2501  1\n  O  O66  1  0.9572  0.2850  0.0829  1\n  O  O67  1  0.2360  0.0032  0.3495  1\n  O  O68  1  0.2362  0.0060  0.6826  1\n  O  O69  1  0.2355  0.0046  0.0161  1\n  O  O70  1  0.9615  0.2890  0.7499  1\n  O  O71  1  0.0123  0.7136  0.5834  1\n  O  O72  1  0.4572  0.7850  0.4171  1\n  O  O73  1  0.7362  0.9940  0.3174  1\n  O  O74  1  0.7368  0.9980  0.8481  1\n  O  O75  1  0.2368  0.4980  0.6519  1\n  O  O76  1  0.5155  0.2871  0.7497  1\n  O  O77  1  0.9572  0.2150  0.5829  1\n  O  O78  1  0.2355  0.4954  0.5161  1\n  O  O79  1  0.7362  0.5060  0.8174  1\n  O  O80  1  0.7379  0.9947  0.1816  1\n  O  O81  1  0.0155  0.7129  0.2503  1\n  O  O82  1  0.5123  0.2864  0.4166  1\n  O  O83  1  0.5123  0.2136  0.9166  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li12Fe11OP12O47Fe\n_chemical_formula_sum              \"Li12 Fe12 O48 P12\"\n_cell_length_a       5.6201\n_cell_length_b       8.3781\n_cell_length_c       18.7326\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7450  0.0839  0.0826  1.0000\n  Li  Li2       1.0000  0.7295  0.0871  0.7492  1.0000\n  Li  Li3       1.0000  0.2450  0.5839  0.4174  1.0000\n  Li  Li4       1.0000  0.7319  0.0862  0.4157  1.0000\n  Li  Li5       1.0000  0.7295  0.4129  0.2492  1.0000\n  Li  Li6       1.0000  0.7319  0.4138  0.9157  1.0000\n  Li  Li7       1.0000  0.2295  0.5871  0.7508  1.0000\n  Li  Li8       1.0000  0.2319  0.9138  0.5843  1.0000\n  Li  Li9       1.0000  0.2450  0.9161  0.9174  1.0000\n  Li  Li10      1.0000  0.2319  0.5862  0.0843  1.0000\n  Li  Li11      1.0000  0.2295  0.9129  0.2508  1.0000\n  Li  Li12      1.0000  0.7450  0.4161  0.5826  1.0000\n  Fe  Fe1       1.0000  0.7362  0.7512  0.6666  1.0000\n  Fe  Fe2       1.0000  0.7362  0.7488  0.1666  1.0000\n  Fe  Fe3       1.0000  0.7367  0.7479  0.3333  1.0000\n  Fe  Fe4       1.0000  0.2367  0.2479  0.1667  1.0000\n  Fe  Fe5       1.0000  0.2367  0.2521  0.6667  1.0000\n  Fe  Fe6       1.0000  0.7348  0.7509  0.4998  1.0000\n  Fe  Fe7       1.0000  0.2362  0.2512  0.8334  1.0000\n  Fe  Fe8       1.0000  0.2348  0.2509  0.0002  1.0000\n  Fe  Fe9       1.0000  0.2348  0.2491  0.5002  1.0000\n  Fe  Fe10      1.0000  0.2362  0.2488  0.3334  1.0000\n  Fe  Fe11      1.0000  0.7367  0.7521  0.8333  1.0000\n  O   O1        1.0000  0.7348  0.7491  0.9998  1.0000\n  P   P1        1.0000  0.7378  0.0980  0.2496  1.0000\n  P   P2        1.0000  0.7378  0.4020  0.7496  1.0000\n  P   P3        1.0000  0.7362  0.1003  0.9164  1.0000\n  P   P4        1.0000  0.7362  0.3997  0.4164  1.0000\n  P   P5        1.0000  0.7339  0.3989  0.0827  1.0000\n  P   P6        1.0000  0.7339  0.1011  0.5827  1.0000\n  P   P7        1.0000  0.2339  0.6011  0.9173  1.0000\n  P   P8        1.0000  0.2362  0.8997  0.0836  1.0000\n  P   P9        1.0000  0.2378  0.5980  0.2504  1.0000\n  P   P10       1.0000  0.2339  0.8989  0.4173  1.0000\n  P   P11       1.0000  0.2362  0.6003  0.5836  1.0000\n  P   P12       1.0000  0.2378  0.9020  0.7504  1.0000\n  O   O2        1.0000  0.0155  0.7871  0.7503  1.0000\n  O   O3        1.0000  0.9582  0.2851  0.4168  1.0000\n  O   O4        1.0000  0.4615  0.7890  0.7501  1.0000\n  O   O5        1.0000  0.7334  0.9976  0.5146  1.0000\n  O   O6        1.0000  0.4582  0.7851  0.0832  1.0000\n  O   O7        1.0000  0.0113  0.7148  0.9168  1.0000\n  O   O8        1.0000  0.7334  0.5024  0.0146  1.0000\n  O   O9        1.0000  0.2362  0.4940  0.1826  1.0000\n  O   O10       1.0000  0.4582  0.7149  0.5832  1.0000\n  O   O11       1.0000  0.9582  0.2149  0.9168  1.0000\n  O   O12       1.0000  0.7368  0.5020  0.3481  1.0000\n  O   O13       1.0000  0.7360  0.5032  0.1505  1.0000\n  O   O14       1.0000  0.2379  0.0053  0.8184  1.0000\n  O   O15       1.0000  0.5113  0.2148  0.5832  1.0000\n  O   O16       1.0000  0.2368  0.0020  0.1519  1.0000\n  O   O17       1.0000  0.5113  0.2852  0.0832  1.0000\n  O   O18       1.0000  0.5155  0.2129  0.2497  1.0000\n  O   O19       1.0000  0.2360  0.4968  0.8495  1.0000\n  O   O20       1.0000  0.0113  0.7852  0.4168  1.0000\n  O   O21       1.0000  0.2379  0.4947  0.3184  1.0000\n  O   O22       1.0000  0.2334  0.0024  0.4854  1.0000\n  O   O23       1.0000  0.2334  0.4976  0.9854  1.0000\n  O   O24       1.0000  0.7360  0.9968  0.6505  1.0000\n  O   O25       1.0000  0.0123  0.7864  0.0834  1.0000\n  O   O26       1.0000  0.7355  0.5046  0.4839  1.0000\n  O   O27       1.0000  0.7379  0.5053  0.6816  1.0000\n  O   O28       1.0000  0.9615  0.2110  0.2499  1.0000\n  O   O29       1.0000  0.4572  0.7150  0.9171  1.0000\n  O   O30       1.0000  0.7355  0.9954  0.9839  1.0000\n  O   O31       1.0000  0.4615  0.7110  0.2501  1.0000\n  O   O32       1.0000  0.9572  0.2850  0.0829  1.0000\n  O   O33       1.0000  0.2360  0.0032  0.3495  1.0000\n  O   O34       1.0000  0.2362  0.0060  0.6826  1.0000\n  O   O35       1.0000  0.2355  0.0046  0.0161  1.0000\n  O   O36       1.0000  0.9615  0.2890  0.7499  1.0000\n  O   O37       1.0000  0.0123  0.7136  0.5834  1.0000\n  O   O38       1.0000  0.4572  0.7850  0.4171  1.0000\n  O   O39       1.0000  0.7362  0.9940  0.3174  1.0000\n  O   O40       1.0000  0.7368  0.9980  0.8481  1.0000\n  O   O41       1.0000  0.2368  0.4980  0.6519  1.0000\n  O   O42       1.0000  0.5155  0.2871  0.7497  1.0000\n  O   O43       1.0000  0.9572  0.2150  0.5829  1.0000\n  O   O44       1.0000  0.2355  0.4954  0.5161  1.0000\n  O   O45       1.0000  0.7362  0.5060  0.8174  1.0000\n  O   O46       1.0000  0.7379  0.9947  0.1816  1.0000\n  O   O47       1.0000  0.0155  0.7129  0.2503  1.0000\n  O   O48       1.0000  0.5123  0.2864  0.4166  1.0000\n  Fe  Fe12      1.0000  0.5123  0.2136  0.9166  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "00a3d787-58cd-4a08-823f-7fec3ea30b24",
    "mp_id": "mp-706518",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 37 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlCrO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8522\n_cell_length_b   8.7732\n_cell_length_c   14.9079\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlCrO4\n_chemical_formula_sum   'Tl8 Cr8 O32'\n_cell_volume   765.4183\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.2500  0.3200  0.6036  1\n  Tl  Tl1  1  0.7500  0.8200  0.8964  1\n  Tl  Tl2  1  0.2500  0.0367  0.3705  1\n  Tl  Tl3  1  0.7500  0.5367  0.1295  1\n  Tl  Tl4  1  0.7500  0.6800  0.3964  1\n  Tl  Tl5  1  0.2500  0.1800  0.1036  1\n  Tl  Tl6  1  0.7500  0.9633  0.6295  1\n  Tl  Tl7  1  0.2500  0.4633  0.8705  1\n  Cr  Cr8  1  0.7500  0.2808  0.4669  1\n  Cr  Cr9  1  0.7500  0.2192  0.9669  1\n  Cr  Cr10  1  0.2500  0.0192  0.7854  1\n  Cr  Cr11  1  0.7500  0.9808  0.2146  1\n  Cr  Cr12  1  0.7500  0.5192  0.7146  1\n  Cr  Cr13  1  0.2500  0.7808  0.0331  1\n  Cr  Cr14  1  0.2500  0.7192  0.5331  1\n  Cr  Cr15  1  0.2500  0.4808  0.2854  1\n  O  O16  1  0.2500  0.7432  0.1386  1\n  O  O17  1  0.4887  0.9120  0.7983  1\n  O  O18  1  0.7500  0.4683  0.4840  1\n  O  O19  1  0.7500  0.8451  0.1421  1\n  O  O20  1  0.0148  0.6998  0.9843  1\n  O  O21  1  0.4852  0.6998  0.9843  1\n  O  O22  1  0.2500  0.4055  0.1811  1\n  O  O23  1  0.0113  0.9120  0.7983  1\n  O  O24  1  0.2500  0.7568  0.6386  1\n  O  O25  1  0.2500  0.5317  0.5160  1\n  O  O26  1  0.2500  0.0945  0.6811  1\n  O  O27  1  0.9887  0.0880  0.2017  1\n  O  O28  1  0.7500  0.0317  0.9840  1\n  O  O29  1  0.7500  0.5945  0.8189  1\n  O  O30  1  0.9887  0.4120  0.7017  1\n  O  O31  1  0.7500  0.9055  0.3189  1\n  O  O32  1  0.5113  0.4120  0.7017  1\n  O  O33  1  0.9852  0.3002  0.0157  1\n  O  O34  1  0.2500  0.3451  0.3579  1\n  O  O35  1  0.2500  0.9683  0.0160  1\n  O  O36  1  0.0113  0.5880  0.2983  1\n  O  O37  1  0.5148  0.3002  0.0157  1\n  O  O38  1  0.7500  0.2568  0.8614  1\n  O  O39  1  0.9852  0.1998  0.5157  1\n  O  O40  1  0.0148  0.8002  0.4843  1\n  O  O41  1  0.7500  0.6549  0.6421  1\n  O  O42  1  0.4887  0.5880  0.2983  1\n  O  O43  1  0.7500  0.2432  0.3614  1\n  O  O44  1  0.5113  0.0880  0.2017  1\n  O  O45  1  0.5148  0.1998  0.5157  1\n  O  O46  1  0.2500  0.1549  0.8579  1\n  O  O47  1  0.4852  0.8002  0.4843  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl5OTl2Cr8O21TlO10\n_chemical_formula_sum              \"Tl8 O32 Cr8\"\n_cell_length_a       5.8522\n_cell_length_b       8.7732\n_cell_length_c       14.9079\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.2500  0.3200  0.6036  1.0000\n  Tl  Tl2       1.0000  0.7500  0.8200  0.8964  1.0000\n  Tl  Tl3       1.0000  0.2500  0.0367  0.3705  1.0000\n  Tl  Tl4       1.0000  0.7500  0.5367  0.1295  1.0000\n  Tl  Tl5       1.0000  0.7500  0.6800  0.3964  1.0000\n  O   O1        1.0000  0.2500  0.1800  0.1036  1.0000\n  Tl  Tl6       1.0000  0.7500  0.9633  0.6295  1.0000\n  Tl  Tl7       1.0000  0.2500  0.4633  0.8705  1.0000\n  Cr  Cr1       1.0000  0.7500  0.2808  0.4669  1.0000\n  Cr  Cr2       1.0000  0.7500  0.2192  0.9669  1.0000\n  Cr  Cr3       1.0000  0.2500  0.0192  0.7854  1.0000\n  Cr  Cr4       1.0000  0.7500  0.9808  0.2146  1.0000\n  Cr  Cr5       1.0000  0.7500  0.5192  0.7146  1.0000\n  Cr  Cr6       1.0000  0.2500  0.7808  0.0331  1.0000\n  Cr  Cr7       1.0000  0.2500  0.7192  0.5331  1.0000\n  Cr  Cr8       1.0000  0.2500  0.4808  0.2854  1.0000\n  O   O2        1.0000  0.2500  0.7432  0.1386  1.0000\n  O   O3        1.0000  0.4887  0.9120  0.7983  1.0000\n  O   O4        1.0000  0.7500  0.4683  0.4840  1.0000\n  O   O5        1.0000  0.7500  0.8451  0.1421  1.0000\n  O   O6        1.0000  0.0148  0.6998  0.9843  1.0000\n  O   O7        1.0000  0.4852  0.6998  0.9843  1.0000\n  O   O8        1.0000  0.2500  0.4055  0.1811  1.0000\n  O   O9        1.0000  0.0113  0.9120  0.7983  1.0000\n  O   O10       1.0000  0.2500  0.7568  0.6386  1.0000\n  O   O11       1.0000  0.2500  0.5317  0.5160  1.0000\n  O   O12       1.0000  0.2500  0.0945  0.6811  1.0000\n  O   O13       1.0000  0.9887  0.0880  0.2017  1.0000\n  O   O14       1.0000  0.7500  0.0317  0.9840  1.0000\n  O   O15       1.0000  0.7500  0.5945  0.8189  1.0000\n  O   O16       1.0000  0.9887  0.4120  0.7017  1.0000\n  O   O17       1.0000  0.7500  0.9055  0.3189  1.0000\n  O   O18       1.0000  0.5113  0.4120  0.7017  1.0000\n  O   O19       1.0000  0.9852  0.3002  0.0157  1.0000\n  O   O20       1.0000  0.2500  0.3451  0.3579  1.0000\n  O   O21       1.0000  0.2500  0.9683  0.0160  1.0000\n  O   O22       1.0000  0.0113  0.5880  0.2983  1.0000\n  Tl  Tl8       1.0000  0.5148  0.3002  0.0157  1.0000\n  O   O23       1.0000  0.7500  0.2568  0.8614  1.0000\n  O   O24       1.0000  0.9852  0.1998  0.5157  1.0000\n  O   O25       1.0000  0.0148  0.8002  0.4843  1.0000\n  O   O26       1.0000  0.7500  0.6549  0.6421  1.0000\n  O   O27       1.0000  0.4887  0.5880  0.2983  1.0000\n  O   O28       1.0000  0.7500  0.2432  0.3614  1.0000\n  O   O29       1.0000  0.5113  0.0880  0.2017  1.0000\n  O   O30       1.0000  0.5148  0.1998  0.5157  1.0000\n  O   O31       1.0000  0.2500  0.1549  0.8579  1.0000\n  O   O32       1.0000  0.4852  0.8002  0.4843  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "63051e2f-75b7-4fa9-bb81-0293dc95121c",
    "mp_id": "mp-706524",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3La4O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4513\n_cell_length_b   9.4646\n_cell_length_c   10.6906\n_cell_angle_alpha   79.5937\n_cell_angle_beta   70.7480\n_cell_angle_gamma   73.2487\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3La4O9\n_chemical_formula_sum   'Sr6 La8 O18'\n_cell_volume   678.5105\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.0621  0.4226  0.0582  1\n  Sr  Sr1  1  0.3814  0.1834  0.2248  1\n  Sr  Sr2  1  0.0699  0.8641  0.7722  1\n  Sr  Sr3  1  0.6984  0.4373  0.4480  1\n  Sr  Sr4  1  0.8673  0.1746  0.9436  1\n  Sr  Sr5  1  0.8068  0.7583  0.4898  1\n  La  La6  1  0.4281  0.1252  0.8741  1\n  La  La7  1  0.1894  0.8561  0.0766  1\n  La  La8  1  0.4016  0.1465  0.5550  1\n  La  La9  1  0.3029  0.8118  0.3989  1\n  La  La10  1  0.5489  0.5187  0.8412  1\n  La  La11  1  0.8781  0.1115  0.3039  1\n  La  La12  1  0.7213  0.8173  0.1009  1\n  La  La13  1  0.0727  0.4772  0.6949  1\n  O  O14  1  0.9957  0.3190  0.2857  1\n  O  O15  1  0.2653  0.0419  0.4450  1\n  O  O16  1  0.1948  0.0797  0.7710  1\n  O  O17  1  0.1094  0.7034  0.6067  1\n  O  O18  1  0.0657  0.8094  0.3038  1\n  O  O19  1  0.0396  0.6926  0.9901  1\n  O  O20  1  0.4474  0.3159  0.9863  1\n  O  O21  1  0.5597  0.2737  0.3562  1\n  O  O22  1  0.3944  0.3448  0.7026  1\n  O  O23  1  0.3957  0.9204  0.1691  1\n  O  O24  1  0.4350  0.7466  0.9021  1\n  O  O25  1  0.7390  0.9842  0.8936  1\n  O  O26  1  0.7910  0.5146  0.6278  1\n  O  O27  1  0.6323  0.6907  0.3479  1\n  O  O28  1  0.1326  0.1393  0.0454  1\n  O  O29  1  0.8538  0.4432  0.8958  1\n  O  O30  1  0.7834  0.0172  0.1536  1\n  O  O31  1  0.7061  0.0143  0.5209  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sr6La4OLa3O7LaO10\n_chemical_formula_sum              \"Sr6 La8 O18\"\n_cell_length_a       7.4513\n_cell_length_b       9.4646\n_cell_length_c       10.6906\n_cell_angle_alpha    79.5937\n_cell_angle_beta     70.7480\n_cell_angle_gamma    73.2487\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sr  Sr1       1.0000  0.0621  0.4226  0.0582  1.0000\n  Sr  Sr2       1.0000  0.3814  0.1834  0.2248  1.0000\n  Sr  Sr3       1.0000  0.0699  0.8641  0.7722  1.0000\n  Sr  Sr4       1.0000  0.6984  0.4373  0.4480  1.0000\n  Sr  Sr5       1.0000  0.8673  0.1746  0.9436  1.0000\n  Sr  Sr6       1.0000  0.8068  0.7583  0.4898  1.0000\n  La  La1       1.0000  0.4281  0.1252  0.8741  1.0000\n  La  La2       1.0000  0.1894  0.8561  0.0766  1.0000\n  La  La3       1.0000  0.4016  0.1465  0.5550  1.0000\n  La  La4       1.0000  0.3029  0.8118  0.3989  1.0000\n  O   O1        1.0000  0.5489  0.5187  0.8412  1.0000\n  La  La5       1.0000  0.8781  0.1115  0.3039  1.0000\n  La  La6       1.0000  0.7213  0.8173  0.1009  1.0000\n  La  La7       1.0000  0.0727  0.4772  0.6949  1.0000\n  O   O2        1.0000  0.9957  0.3190  0.2857  1.0000\n  O   O3        1.0000  0.2653  0.0419  0.4450  1.0000\n  O   O4        1.0000  0.1948  0.0797  0.7710  1.0000\n  O   O5        1.0000  0.1094  0.7034  0.6067  1.0000\n  O   O6        1.0000  0.0657  0.8094  0.3038  1.0000\n  O   O7        1.0000  0.0396  0.6926  0.9901  1.0000\n  O   O8        1.0000  0.4474  0.3159  0.9863  1.0000\n  La  La8       1.0000  0.5597  0.2737  0.3562  1.0000\n  O   O9        1.0000  0.3944  0.3448  0.7026  1.0000\n  O   O10       1.0000  0.3957  0.9204  0.1691  1.0000\n  O   O11       1.0000  0.4350  0.7466  0.9021  1.0000\n  O   O12       1.0000  0.7390  0.9842  0.8936  1.0000\n  O   O13       1.0000  0.7910  0.5146  0.6278  1.0000\n  O   O14       1.0000  0.6323  0.6907  0.3479  1.0000\n  O   O15       1.0000  0.1326  0.1393  0.0454  1.0000\n  O   O16       1.0000  0.8538  0.4432  0.8958  1.0000\n  O   O17       1.0000  0.7834  0.0172  0.1536  1.0000\n  O   O18       1.0000  0.7061  0.0143  0.5209  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "355dc130-b37e-4bca-a480-04e179c8e4df",
    "mp_id": "mp-707406",
    "action_prompt": "Swap the spatial positions of atoms at indices 28 and 61 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Rb6Te3P6(H13O20)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.1662\n_cell_length_b   11.4243\n_cell_length_c   11.7546\n_cell_angle_alpha   100.4367\n_cell_angle_beta   109.1482\n_cell_angle_gamma   96.5861\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Rb6Te3P6(H13O20)2\n_chemical_formula_sum   'Rb6 Te3 P6 H26 O40'\n_cell_volume   1000.7657\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.3011  0.9036  0.7987  1\n  Rb  Rb1  1  0.6989  0.0964  0.2013  1\n  Rb  Rb2  1  0.9785  0.7187  0.1953  1\n  Rb  Rb3  1  0.0215  0.2813  0.8047  1\n  Rb  Rb4  1  0.6145  0.6938  0.6026  1\n  Rb  Rb5  1  0.3855  0.3062  0.3974  1\n  Te  Te6  1  0.0000  0.0000  0.0000  1\n  Te  Te7  1  0.5000  0.0000  0.5000  1\n  Te  Te8  1  0.0000  0.5000  0.5000  1\n  P  P9  1  0.3880  0.5693  0.2277  1\n  P  P10  1  0.6120  0.4307  0.7723  1\n  P  P11  1  0.5191  0.7760  0.1378  1\n  P  P12  1  0.4809  0.2240  0.8622  1\n  P  P13  1  0.4985  0.6374  0.8970  1\n  P  P14  1  0.5015  0.3626  0.1030  1\n  H  H15  1  0.7241  0.8535  0.9515  1\n  H  H16  1  0.2759  0.1465  0.0485  1\n  H  H17  1  0.2510  0.8987  0.0933  1\n  H  H18  1  0.7490  0.1013  0.9067  1\n  H  H19  1  0.0041  0.7898  0.8968  1\n  H  H20  1  0.9959  0.2102  0.1032  1\n  H  H21  1  0.6578  0.8747  0.3849  1\n  H  H22  1  0.3422  0.1253  0.6151  1\n  H  H23  1  0.2171  0.8731  0.4684  1\n  H  H24  1  0.7829  0.1269  0.5316  1\n  H  H25  1  0.3420  0.0015  0.2756  1\n  H  H26  1  0.6580  0.9985  0.7244  1\n  H  H27  1  0.2065  0.5468  0.3932  1\n  H  H28  1  0.7935  0.4532  0.6068  1\n  H  H29  1  0.1552  0.6058  0.7227  1\n  H  H30  1  0.8448  0.3942  0.2773  1\n  H  H31  1  0.7654  0.6006  0.3775  1\n  H  H32  1  0.2346  0.3994  0.6225  1\n  H  H33  1  0.9414  0.5933  0.8719  1\n  H  H34  1  0.0586  0.4067  0.1281  1\n  H  H35  1  0.1427  0.6439  0.9412  1\n  H  H36  1  0.8573  0.3561  0.0588  1\n  H  H37  1  0.9465  0.9067  0.5256  1\n  H  H38  1  0.0535  0.0933  0.4744  1\n  H  H39  1  0.0008  0.7806  0.5093  1\n  H  H40  1  0.9992  0.2194  0.4907  1\n  O  O41  1  0.8001  0.9157  0.0283  1\n  O  O42  1  0.1999  0.0843  0.9717  1\n  O  O43  1  0.1596  0.9308  0.1259  1\n  O  O44  1  0.8404  0.0692  0.8741  1\n  O  O45  1  0.9846  0.8665  0.8654  1\n  O  O46  1  0.0154  0.1335  0.1346  1\n  O  O47  1  0.6664  0.8967  0.4747  1\n  O  O48  1  0.3336  0.1033  0.5253  1\n  O  O49  1  0.3065  0.8596  0.4286  1\n  O  O50  1  0.6935  0.1404  0.5714  1\n  O  O51  1  0.5405  0.9587  0.6609  1\n  O  O52  1  0.4595  0.0413  0.3391  1\n  O  O53  1  0.2250  0.5556  0.4828  1\n  O  O54  1  0.7750  0.4444  0.5172  1\n  O  O55  1  0.0691  0.6283  0.6503  1\n  O  O56  1  0.9309  0.3717  0.3497  1\n  O  O57  1  0.8988  0.6187  0.4086  1\n  O  O58  1  0.1012  0.3813  0.5914  1\n  O  O59  1  0.2115  0.5348  0.2406  1\n  O  O60  1  0.7885  0.4652  0.7594  1\n  O  O61  1  0.5500  0.5846  0.3395  1\n  O  O62  1  0.4500  0.4154  0.6605  1\n  O  O63  1  0.3772  0.6890  0.1716  1\n  O  O64  1  0.6228  0.3110  0.8284  1\n  O  O65  1  0.6063  0.5272  0.8894  1\n  O  O66  1  0.3937  0.4728  0.1106  1\n  O  O67  1  0.5838  0.6815  0.0482  1\n  O  O68  1  0.4162  0.3185  0.9518  1\n  O  O69  1  0.6779  0.8316  0.2517  1\n  O  O70  1  0.3221  0.1684  0.7483  1\n  O  O71  1  0.4156  0.8553  0.0644  1\n  O  O72  1  0.5844  0.1447  0.9356  1\n  O  O73  1  0.5626  0.7331  0.8409  1\n  O  O74  1  0.4374  0.2669  0.1591  1\n  O  O75  1  0.3040  0.5898  0.8565  1\n  O  O76  1  0.6960  0.4102  0.1435  1\n  O  O77  1  0.0260  0.6616  0.9370  1\n  O  O78  1  0.9740  0.3384  0.0630  1\n  O  O79  1  0.0507  0.8681  0.5398  1\n  O  O80  1  0.9493  0.1319  0.4602  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb6Te3P6H13OH12O20HO19\n_chemical_formula_sum              \"Rb6 Te3 P6 H26 O40\"\n_cell_length_a       8.1662\n_cell_length_b       11.4243\n_cell_length_c       11.7546\n_cell_angle_alpha    100.4367\n_cell_angle_beta     109.1482\n_cell_angle_gamma    96.5861\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.3011  0.9036  0.7987  1.0000\n  Rb  Rb2       1.0000  0.6989  0.0964  0.2013  1.0000\n  Rb  Rb3       1.0000  0.9785  0.7187  0.1953  1.0000\n  Rb  Rb4       1.0000  0.0215  0.2813  0.8047  1.0000\n  Rb  Rb5       1.0000  0.6145  0.6938  0.6026  1.0000\n  Rb  Rb6       1.0000  0.3855  0.3062  0.3974  1.0000\n  Te  Te1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Te  Te2       1.0000  0.5000  1.0000  0.5000  1.0000\n  Te  Te3       1.0000  0.0000  0.5000  0.5000  1.0000\n  P   P1        1.0000  0.3880  0.5693  0.2277  1.0000\n  P   P2        1.0000  0.6120  0.4307  0.7723  1.0000\n  P   P3        1.0000  0.5191  0.7760  0.1378  1.0000\n  P   P4        1.0000  0.4809  0.2240  0.8622  1.0000\n  P   P5        1.0000  0.4985  0.6374  0.8970  1.0000\n  P   P6        1.0000  0.5015  0.3626  0.1030  1.0000\n  H   H1        1.0000  0.7241  0.8535  0.9515  1.0000\n  H   H2        1.0000  0.2759  0.1465  0.0485  1.0000\n  H   H3        1.0000  0.2510  0.8987  0.0933  1.0000\n  H   H4        1.0000  0.7490  0.1013  0.9067  1.0000\n  H   H5        1.0000  0.0041  0.7898  0.8968  1.0000\n  H   H6        1.0000  0.9959  0.2102  0.1032  1.0000\n  H   H7        1.0000  0.6578  0.8747  0.3849  1.0000\n  H   H8        1.0000  0.3422  0.1253  0.6151  1.0000\n  H   H9        1.0000  0.2171  0.8731  0.4684  1.0000\n  H   H10       1.0000  0.7829  0.1269  0.5316  1.0000\n  H   H11       1.0000  0.3420  0.0015  0.2756  1.0000\n  H   H12       1.0000  0.6580  0.9985  0.7244  1.0000\n  H   H13       1.0000  0.2065  0.5468  0.3932  1.0000\n  O   O1        1.0000  0.7935  0.4532  0.6068  1.0000\n  H   H14       1.0000  0.1552  0.6058  0.7227  1.0000\n  H   H15       1.0000  0.8448  0.3942  0.2773  1.0000\n  H   H16       1.0000  0.7654  0.6006  0.3775  1.0000\n  H   H17       1.0000  0.2346  0.3994  0.6225  1.0000\n  H   H18       1.0000  0.9414  0.5933  0.8719  1.0000\n  H   H19       1.0000  0.0586  0.4067  0.1281  1.0000\n  H   H20       1.0000  0.1427  0.6439  0.9412  1.0000\n  H   H21       1.0000  0.8573  0.3561  0.0588  1.0000\n  H   H22       1.0000  0.9465  0.9067  0.5256  1.0000\n  H   H23       1.0000  0.0535  0.0933  0.4744  1.0000\n  H   H24       1.0000  0.0008  0.7806  0.5093  1.0000\n  H   H25       1.0000  0.9992  0.2194  0.4907  1.0000\n  O   O2        1.0000  0.8001  0.9157  0.0283  1.0000\n  O   O3        1.0000  0.1999  0.0843  0.9717  1.0000\n  O   O4        1.0000  0.1596  0.9308  0.1259  1.0000\n  O   O5        1.0000  0.8404  0.0692  0.8741  1.0000\n  O   O6        1.0000  0.9846  0.8665  0.8654  1.0000\n  O   O7        1.0000  0.0154  0.1335  0.1346  1.0000\n  O   O8        1.0000  0.6664  0.8967  0.4747  1.0000\n  O   O9        1.0000  0.3336  0.1033  0.5253  1.0000\n  O   O10       1.0000  0.3065  0.8596  0.4286  1.0000\n  O   O11       1.0000  0.6935  0.1404  0.5714  1.0000\n  O   O12       1.0000  0.5405  0.9587  0.6609  1.0000\n  O   O13       1.0000  0.4595  0.0413  0.3391  1.0000\n  O   O14       1.0000  0.2250  0.5556  0.4828  1.0000\n  O   O15       1.0000  0.7750  0.4444  0.5172  1.0000\n  O   O16       1.0000  0.0691  0.6283  0.6503  1.0000\n  O   O17       1.0000  0.9309  0.3717  0.3497  1.0000\n  O   O18       1.0000  0.8988  0.6187  0.4086  1.0000\n  O   O19       1.0000  0.1012  0.3813  0.5914  1.0000\n  O   O20       1.0000  0.2115  0.5348  0.2406  1.0000\n  O   O21       1.0000  0.7885  0.4652  0.7594  1.0000\n  H   H26       1.0000  0.5500  0.5846  0.3395  1.0000\n  O   O22       1.0000  0.4500  0.4154  0.6605  1.0000\n  O   O23       1.0000  0.3772  0.6890  0.1716  1.0000\n  O   O24       1.0000  0.6228  0.3110  0.8284  1.0000\n  O   O25       1.0000  0.6063  0.5272  0.8894  1.0000\n  O   O26       1.0000  0.3937  0.4728  0.1106  1.0000\n  O   O27       1.0000  0.5838  0.6815  0.0482  1.0000\n  O   O28       1.0000  0.4162  0.3185  0.9518  1.0000\n  O   O29       1.0000  0.6779  0.8316  0.2517  1.0000\n  O   O30       1.0000  0.3221  0.1684  0.7483  1.0000\n  O   O31       1.0000  0.4156  0.8553  0.0644  1.0000\n  O   O32       1.0000  0.5844  0.1447  0.9356  1.0000\n  O   O33       1.0000  0.5626  0.7331  0.8409  1.0000\n  O   O34       1.0000  0.4374  0.2669  0.1591  1.0000\n  O   O35       1.0000  0.3040  0.5898  0.8565  1.0000\n  O   O36       1.0000  0.6960  0.4102  0.1435  1.0000\n  O   O37       1.0000  0.0260  0.6616  0.9370  1.0000\n  O   O38       1.0000  0.9740  0.3384  0.0630  1.0000\n  O   O39       1.0000  0.0507  0.8681  0.5398  1.0000\n  O   O40       1.0000  0.9493  0.1319  0.4602  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a2a1a498-90e0-4a0c-9d83-92396406502f",
    "mp_id": "mp-707744",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2TeH10(NO7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1962\n_cell_length_b   7.0552\n_cell_length_c   13.3494\n_cell_angle_alpha   80.0335\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2TeH10(NO7)2\n_chemical_formula_sum   'K4 Te2 H20 N4 O28'\n_cell_volume   667.5293\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.5188  0.4895  0.3402  1\n  K  K1  1  0.0188  0.5105  0.1598  1\n  K  K2  1  0.4812  0.5105  0.6598  1\n  K  K3  1  0.9812  0.4895  0.8402  1\n  Te  Te4  1  0.5000  0.0000  0.5000  1\n  Te  Te5  1  0.0000  0.0000  0.0000  1\n  H  H6  1  0.1962  0.8191  0.5085  1\n  H  H7  1  0.6962  0.1809  0.9915  1\n  H  H8  1  0.8038  0.1809  0.4915  1\n  H  H9  1  0.3038  0.8191  0.0085  1\n  H  H10  1  0.2377  0.2446  0.0313  1\n  H  H11  1  0.7377  0.7554  0.4687  1\n  H  H12  1  0.7623  0.7554  0.9687  1\n  H  H13  1  0.2623  0.2446  0.5313  1\n  H  H14  1  0.4335  0.9812  0.3180  1\n  H  H15  1  0.9335  0.0188  0.1820  1\n  H  H16  1  0.5665  0.0188  0.6820  1\n  H  H17  1  0.0665  0.9812  0.8180  1\n  H  H18  1  0.1180  0.1191  0.3148  1\n  H  H19  1  0.6180  0.8809  0.1852  1\n  H  H20  1  0.8820  0.8809  0.6852  1\n  H  H21  1  0.3820  0.1191  0.8148  1\n  H  H22  1  0.4026  0.8703  0.1653  1\n  H  H23  1  0.9026  0.1297  0.3347  1\n  H  H24  1  0.5974  0.1297  0.8347  1\n  H  H25  1  0.0974  0.8703  0.6653  1\n  N  N26  1  0.5128  0.3420  0.1193  1\n  N  N27  1  0.0128  0.6580  0.3807  1\n  N  N28  1  0.4872  0.6580  0.8807  1\n  N  N29  1  0.9872  0.3420  0.6193  1\n  O  O30  1  0.2197  0.8600  0.0606  1\n  O  O31  1  0.7197  0.1400  0.4394  1\n  O  O32  1  0.7803  0.1400  0.9394  1\n  O  O33  1  0.2803  0.8600  0.5606  1\n  O  O34  1  0.0982  0.2454  0.0258  1\n  O  O35  1  0.5982  0.7546  0.4742  1\n  O  O36  1  0.9018  0.7546  0.9742  1\n  O  O37  1  0.4018  0.2454  0.5258  1\n  O  O38  1  0.3807  0.0608  0.3666  1\n  O  O39  1  0.8807  0.9392  0.1334  1\n  O  O40  1  0.6193  0.9392  0.6334  1\n  O  O41  1  0.1193  0.0608  0.8666  1\n  O  O42  1  0.3761  0.4031  0.1625  1\n  O  O43  1  0.8761  0.5969  0.3375  1\n  O  O44  1  0.6239  0.5969  0.8375  1\n  O  O45  1  0.1239  0.4031  0.6625  1\n  O  O46  1  0.1755  0.6408  0.3497  1\n  O  O47  1  0.6755  0.3592  0.1503  1\n  O  O48  1  0.8245  0.3592  0.6503  1\n  O  O49  1  0.3245  0.6408  0.8497  1\n  O  O50  1  0.9848  0.7421  0.4581  1\n  O  O51  1  0.4848  0.2579  0.0419  1\n  O  O52  1  0.0152  0.2579  0.5419  1\n  O  O53  1  0.5152  0.7421  0.9581  1\n  O  O54  1  0.4971  0.8584  0.2199  1\n  O  O55  1  0.9971  0.1416  0.2801  1\n  O  O56  1  0.5029  0.1416  0.7801  1\n  O  O57  1  0.0029  0.8584  0.7199  1\n",
    "output": "data_image0\n_chemical_formula_structural       K2HKTe2H2KH17N4O28\n_chemical_formula_sum              \"K4 H20 Te2 N4 O28\"\n_cell_length_a       7.1962\n_cell_length_b       7.0552\n_cell_length_c       13.3494\n_cell_angle_alpha    80.0335\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.5188  0.4895  0.3402  1.0000\n  K   K2        1.0000  0.0188  0.5105  0.1598  1.0000\n  H   H1        1.0000  0.4812  0.5105  0.6598  1.0000\n  K   K3        1.0000  0.9812  0.4895  0.8402  1.0000\n  Te  Te1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Te  Te2       1.0000  0.0000  0.0000  0.0000  1.0000\n  H   H2        1.0000  0.1962  0.8191  0.5085  1.0000\n  H   H3        1.0000  0.6962  0.1809  0.9915  1.0000\n  K   K4        1.0000  0.8038  0.1809  0.4915  1.0000\n  H   H4        1.0000  0.3038  0.8191  0.0085  1.0000\n  H   H5        1.0000  0.2377  0.2446  0.0313  1.0000\n  H   H6        1.0000  0.7377  0.7554  0.4687  1.0000\n  H   H7        1.0000  0.7623  0.7554  0.9687  1.0000\n  H   H8        1.0000  0.2623  0.2446  0.5313  1.0000\n  H   H9        1.0000  0.4335  0.9812  0.3180  1.0000\n  H   H10       1.0000  0.9335  0.0188  0.1820  1.0000\n  H   H11       1.0000  0.5665  0.0188  0.6820  1.0000\n  H   H12       1.0000  0.0665  0.9812  0.8180  1.0000\n  H   H13       1.0000  0.1180  0.1191  0.3148  1.0000\n  H   H14       1.0000  0.6180  0.8809  0.1852  1.0000\n  H   H15       1.0000  0.8820  0.8809  0.6852  1.0000\n  H   H16       1.0000  0.3820  0.1191  0.8148  1.0000\n  H   H17       1.0000  0.4026  0.8703  0.1653  1.0000\n  H   H18       1.0000  0.9026  0.1297  0.3347  1.0000\n  H   H19       1.0000  0.5974  0.1297  0.8347  1.0000\n  H   H20       1.0000  0.0974  0.8703  0.6653  1.0000\n  N   N1        1.0000  0.5128  0.3420  0.1193  1.0000\n  N   N2        1.0000  0.0128  0.6580  0.3807  1.0000\n  N   N3        1.0000  0.4872  0.6580  0.8807  1.0000\n  N   N4        1.0000  0.9872  0.3420  0.6193  1.0000\n  O   O1        1.0000  0.2197  0.8600  0.0606  1.0000\n  O   O2        1.0000  0.7197  0.1400  0.4394  1.0000\n  O   O3        1.0000  0.7803  0.1400  0.9394  1.0000\n  O   O4        1.0000  0.2803  0.8600  0.5606  1.0000\n  O   O5        1.0000  0.0982  0.2454  0.0258  1.0000\n  O   O6        1.0000  0.5982  0.7546  0.4742  1.0000\n  O   O7        1.0000  0.9018  0.7546  0.9742  1.0000\n  O   O8        1.0000  0.4018  0.2454  0.5258  1.0000\n  O   O9        1.0000  0.3807  0.0608  0.3666  1.0000\n  O   O10       1.0000  0.8807  0.9392  0.1334  1.0000\n  O   O11       1.0000  0.6193  0.9392  0.6334  1.0000\n  O   O12       1.0000  0.1193  0.0608  0.8666  1.0000\n  O   O13       1.0000  0.3761  0.4031  0.1625  1.0000\n  O   O14       1.0000  0.8761  0.5969  0.3375  1.0000\n  O   O15       1.0000  0.6239  0.5969  0.8375  1.0000\n  O   O16       1.0000  0.1239  0.4031  0.6625  1.0000\n  O   O17       1.0000  0.1755  0.6408  0.3497  1.0000\n  O   O18       1.0000  0.6755  0.3592  0.1503  1.0000\n  O   O19       1.0000  0.8245  0.3592  0.6503  1.0000\n  O   O20       1.0000  0.3245  0.6408  0.8497  1.0000\n  O   O21       1.0000  0.9848  0.7421  0.4581  1.0000\n  O   O22       1.0000  0.4848  0.2579  0.0419  1.0000\n  O   O23       1.0000  0.0152  0.2579  0.5419  1.0000\n  O   O24       1.0000  0.5152  0.7421  0.9581  1.0000\n  O   O25       1.0000  0.4971  0.8584  0.2199  1.0000\n  O   O26       1.0000  0.9971  0.1416  0.2801  1.0000\n  O   O27       1.0000  0.5029  0.1416  0.7801  1.0000\n  O   O28       1.0000  0.0029  0.8584  0.7199  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8548bb91-9596-4a75-9d19-4cfc53104979",
    "mp_id": "mp-707840",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2Si(H5O4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6758\n_cell_length_b   7.9611\n_cell_length_c   8.5871\n_cell_angle_alpha   108.8808\n_cell_angle_beta   98.5825\n_cell_angle_gamma   104.3057\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2Si(H5O4)2\n_chemical_formula_sum   'Na4 Si2 H20 O16'\n_cell_volume   405.1452\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.1869  0.4582  0.8494  1\n  Na  Na1  1  0.8131  0.5418  0.1506  1\n  Na  Na2  1  0.6315  0.3166  0.6623  1\n  Na  Na3  1  0.3685  0.6834  0.3377  1\n  Si  Si4  1  0.9700  0.0338  0.7664  1\n  Si  Si5  1  0.0300  0.9662  0.2336  1\n  H  H6  1  0.7820  0.9214  0.9369  1\n  H  H7  1  0.2180  0.0786  0.0631  1\n  H  H8  1  0.9255  0.1375  0.5436  1\n  H  H9  1  0.0745  0.8625  0.4564  1\n  H  H10  1  0.2077  0.3137  0.5117  1\n  H  H11  1  0.7923  0.6863  0.4883  1\n  H  H12  1  0.3442  0.5314  0.6079  1\n  H  H13  1  0.6558  0.4686  0.3921  1\n  H  H14  1  0.2483  0.8052  0.6525  1\n  H  H15  1  0.7517  0.1948  0.3475  1\n  H  H16  1  0.5046  0.8415  0.7116  1\n  H  H17  1  0.4954  0.1585  0.2884  1\n  H  H18  1  0.4254  0.2280  0.9200  1\n  H  H19  1  0.5746  0.7721  0.0800  1\n  H  H20  1  0.6368  0.1669  0.9102  1\n  H  H21  1  0.3632  0.8331  0.0898  1\n  H  H22  1  0.8873  0.6829  0.9074  1\n  H  H23  1  0.1127  0.3171  0.0926  1\n  H  H24  1  0.9580  0.6807  0.7402  1\n  H  H25  1  0.0420  0.3193  0.2598  1\n  O  O26  1  0.1725  0.1774  0.9253  1\n  O  O27  1  0.8275  0.8226  0.0747  1\n  O  O28  1  0.0118  0.8493  0.6428  1\n  O  O29  1  0.9882  0.1507  0.3572  1\n  O  O30  1  0.7574  0.9764  0.8464  1\n  O  O31  1  0.2426  0.0236  0.1536  1\n  O  O32  1  0.8892  0.1541  0.6558  1\n  O  O33  1  0.1108  0.8459  0.3442  1\n  O  O34  1  0.3259  0.4048  0.6126  1\n  O  O35  1  0.6741  0.5952  0.3874  1\n  O  O36  1  0.3696  0.7566  0.6263  1\n  O  O37  1  0.6304  0.2434  0.3737  1\n  O  O38  1  0.5812  0.2732  0.9202  1\n  O  O39  1  0.4188  0.7268  0.0798  1\n  O  O40  1  0.9208  0.5989  0.8055  1\n  O  O41  1  0.0792  0.4011  0.1945  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Si2H13OH7O15\n_chemical_formula_sum              \"Na4 Si2 H20 O16\"\n_cell_length_a       6.6758\n_cell_length_b       7.9611\n_cell_length_c       8.5871\n_cell_angle_alpha    108.8808\n_cell_angle_beta     98.5825\n_cell_angle_gamma    104.3057\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.1869  0.4582  0.8494  1.0000\n  Na  Na2       1.0000  0.8131  0.5418  0.1506  1.0000\n  Na  Na3       1.0000  0.6315  0.3166  0.6623  1.0000\n  Na  Na4       1.0000  0.3685  0.6834  0.3377  1.0000\n  Si  Si1       1.0000  0.9700  0.0338  0.7664  1.0000\n  Si  Si2       1.0000  0.0300  0.9662  0.2336  1.0000\n  H   H1        1.0000  0.7820  0.9214  0.9369  1.0000\n  H   H2        1.0000  0.2180  0.0786  0.0631  1.0000\n  H   H3        1.0000  0.9255  0.1375  0.5436  1.0000\n  H   H4        1.0000  0.0745  0.8625  0.4564  1.0000\n  H   H5        1.0000  0.2077  0.3137  0.5117  1.0000\n  H   H6        1.0000  0.7923  0.6863  0.4883  1.0000\n  H   H7        1.0000  0.3442  0.5314  0.6079  1.0000\n  H   H8        1.0000  0.6558  0.4686  0.3921  1.0000\n  H   H9        1.0000  0.2483  0.8052  0.6525  1.0000\n  H   H10       1.0000  0.7517  0.1948  0.3475  1.0000\n  H   H11       1.0000  0.5046  0.8415  0.7116  1.0000\n  H   H12       1.0000  0.4954  0.1585  0.2884  1.0000\n  H   H13       1.0000  0.4254  0.2279  0.9200  1.0000\n  O   O1        1.0000  0.5746  0.7720  0.0800  1.0000\n  H   H14       1.0000  0.6368  0.1669  0.9102  1.0000\n  H   H15       1.0000  0.3632  0.8331  0.0898  1.0000\n  H   H16       1.0000  0.8873  0.6829  0.9074  1.0000\n  H   H17       1.0000  0.1127  0.3171  0.0926  1.0000\n  H   H18       1.0000  0.9580  0.6807  0.7402  1.0000\n  H   H19       1.0000  0.0420  0.3193  0.2598  1.0000\n  H   H20       1.0000  0.1725  0.1774  0.9253  1.0000\n  O   O2        1.0000  0.8275  0.8226  0.0747  1.0000\n  O   O3        1.0000  0.0118  0.8493  0.6428  1.0000\n  O   O4        1.0000  0.9882  0.1507  0.3572  1.0000\n  O   O5        1.0000  0.7574  0.9764  0.8464  1.0000\n  O   O6        1.0000  0.2426  0.0236  0.1536  1.0000\n  O   O7        1.0000  0.8892  0.1541  0.6558  1.0000\n  O   O8        1.0000  0.1108  0.8459  0.3442  1.0000\n  O   O9        1.0000  0.3259  0.4048  0.6126  1.0000\n  O   O10       1.0000  0.6741  0.5952  0.3874  1.0000\n  O   O11       1.0000  0.3696  0.7566  0.6263  1.0000\n  O   O12       1.0000  0.6304  0.2434  0.3737  1.0000\n  O   O13       1.0000  0.5812  0.2732  0.9202  1.0000\n  O   O14       1.0000  0.4188  0.7268  0.0798  1.0000\n  O   O15       1.0000  0.9208  0.5989  0.8055  1.0000\n  O   O16       1.0000  0.0792  0.4011  0.1945  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f0736ab9-4dcb-4ddf-baa0-4042d51a56df",
    "mp_id": "mp-715457",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V4O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6594\n_cell_length_b   6.7977\n_cell_length_c   7.7051\n_cell_angle_alpha   64.6749\n_cell_angle_beta   84.6922\n_cell_angle_gamma   85.9134\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V4O7\n_chemical_formula_sum   'V8 O14'\n_cell_volume   266.6216\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.6016  0.3029  0.0828  1\n  V  V1  1  0.3984  0.6971  0.9172  1\n  V  V2  1  0.4068  0.2124  0.7800  1\n  V  V3  1  0.5932  0.7876  0.2200  1\n  V  V4  1  0.7596  0.0363  0.5447  1\n  V  V5  1  0.2404  0.9637  0.4553  1\n  V  V6  1  0.1428  0.5176  0.3117  1\n  V  V7  1  0.8572  0.4824  0.6883  1\n  O  O8  1  0.9536  0.7919  0.6292  1\n  O  O9  1  0.0464  0.2081  0.3708  1\n  O  O10  1  0.7078  0.2522  0.6429  1\n  O  O11  1  0.2922  0.7478  0.3571  1\n  O  O12  1  0.1090  0.6838  0.0433  1\n  O  O13  1  0.8910  0.3162  0.9567  1\n  O  O14  1  0.4956  0.4917  0.1998  1\n  O  O15  1  0.5044  0.5083  0.8002  1\n  O  O16  1  0.1828  0.3573  0.6241  1\n  O  O17  1  0.8172  0.6427  0.3759  1\n  O  O18  1  0.5990  0.0321  0.3347  1\n  O  O19  1  0.4010  0.9679  0.6653  1\n  O  O20  1  0.6150  0.8736  0.9540  1\n  O  O21  1  0.3850  0.1264  0.0460  1\n",
    "output": "data_image0\n_chemical_formula_structural       V5OV2O5VO8\n_chemical_formula_sum              \"V8 O14\"\n_cell_length_a       5.6594\n_cell_length_b       6.7977\n_cell_length_c       7.7051\n_cell_angle_alpha    64.6749\n_cell_angle_beta     84.6922\n_cell_angle_gamma    85.9134\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.6016  0.3029  0.0828  1.0000\n  V   V2        1.0000  0.3984  0.6971  0.9172  1.0000\n  V   V3        1.0000  0.4068  0.2124  0.7800  1.0000\n  V   V4        1.0000  0.5932  0.7876  0.2200  1.0000\n  V   V5        1.0000  0.7596  0.0363  0.5447  1.0000\n  O   O1        1.0000  0.2404  0.9637  0.4553  1.0000\n  V   V6        1.0000  0.1428  0.5176  0.3117  1.0000\n  V   V7        1.0000  0.8572  0.4824  0.6883  1.0000\n  O   O2        1.0000  0.9536  0.7919  0.6292  1.0000\n  O   O3        1.0000  0.0464  0.2081  0.3708  1.0000\n  O   O4        1.0000  0.7078  0.2522  0.6429  1.0000\n  O   O5        1.0000  0.2922  0.7478  0.3571  1.0000\n  O   O6        1.0000  0.1090  0.6838  0.0433  1.0000\n  V   V8        1.0000  0.8910  0.3162  0.9567  1.0000\n  O   O7        1.0000  0.4956  0.4917  0.1998  1.0000\n  O   O8        1.0000  0.5044  0.5083  0.8002  1.0000\n  O   O9        1.0000  0.1828  0.3573  0.6241  1.0000\n  O   O10       1.0000  0.8172  0.6427  0.3759  1.0000\n  O   O11       1.0000  0.5990  0.0321  0.3347  1.0000\n  O   O12       1.0000  0.4010  0.9679  0.6653  1.0000\n  O   O13       1.0000  0.6150  0.8736  0.9540  1.0000\n  O   O14       1.0000  0.3850  0.1264  0.0460  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c6163068-a713-40da-a894-fe627015b2c6",
    "mp_id": "mp-715553",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_VO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9380\n_cell_length_b   4.9496\n_cell_length_c   9.3574\n_cell_angle_alpha   90.0350\n_cell_angle_beta   92.4162\n_cell_angle_gamma   90.3755\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   VO2\n_chemical_formula_sum   'V4 O8'\n_cell_volume   135.9509\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.2391  0.5771  0.3619  1\n  V  V1  1  0.2438  0.9187  0.8599  1\n  V  V2  1  0.7519  0.4182  0.6364  1\n  V  V3  1  0.7626  0.0714  0.1332  1\n  O  O4  1  0.7411  0.7047  0.4771  1\n  O  O5  1  0.2661  0.2053  0.0218  1\n  O  O6  1  0.7565  0.7950  0.9777  1\n  O  O7  1  0.2568  0.2891  0.5263  1\n  O  O8  1  0.7351  0.1178  0.7664  1\n  O  O9  1  0.7740  0.3928  0.2619  1\n  O  O10  1  0.2347  0.8949  0.2393  1\n  O  O11  1  0.2383  0.6151  0.7382  1\n",
    "output": "data_image0\n_chemical_formula_structural       V3O7VO\n_chemical_formula_sum              \"V4 O8\"\n_cell_length_a       2.9380\n_cell_length_b       4.9496\n_cell_length_c       9.3574\n_cell_angle_alpha    90.0350\n_cell_angle_beta     92.4162\n_cell_angle_gamma    90.3755\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.2391  0.5771  0.3619  1.0000\n  V   V2        1.0000  0.2438  0.9187  0.8599  1.0000\n  V   V3        1.0000  0.7519  0.4182  0.6364  1.0000\n  O   O1        1.0000  0.7626  0.0714  0.1332  1.0000\n  O   O2        1.0000  0.7411  0.7047  0.4771  1.0000\n  O   O3        1.0000  0.2661  0.2053  0.0218  1.0000\n  O   O4        1.0000  0.7565  0.7950  0.9777  1.0000\n  O   O5        1.0000  0.2568  0.2891  0.5263  1.0000\n  O   O6        1.0000  0.7351  0.1178  0.7664  1.0000\n  O   O7        1.0000  0.7740  0.3928  0.2619  1.0000\n  V   V4        1.0000  0.2347  0.8949  0.2393  1.0000\n  O   O8        1.0000  0.2383  0.6151  0.7382  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2c41ae44-ba4c-42a8-be76-03be6edae416",
    "mp_id": "mp-720104",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na4Al3Ge3NO14\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.2015\n_cell_length_b   9.2015\n_cell_length_c   9.1840\n_cell_angle_alpha   89.9338\n_cell_angle_beta   89.9338\n_cell_angle_gamma   90.0074\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na4Al3Ge3NO14\n_chemical_formula_sum   'Na8 Al6 Ge6 N2 O28'\n_cell_volume   777.5864\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.1804  0.3199  0.1808  1\n  Na  Na1  1  0.1809  0.6805  0.8188  1\n  Na  Na2  1  0.3199  0.1804  0.6808  1\n  Na  Na3  1  0.3211  0.8190  0.3199  1\n  Na  Na4  1  0.6805  0.1809  0.3188  1\n  Na  Na5  1  0.6792  0.8187  0.6805  1\n  Na  Na6  1  0.8190  0.3211  0.8199  1\n  Na  Na7  1  0.8187  0.6792  0.1805  1\n  Al  Al8  1  0.9997  0.0002  0.2500  1\n  Al  Al9  1  0.2500  0.5001  0.5001  1\n  Al  Al10  1  0.5001  0.7501  0.9999  1\n  Al  Al11  1  0.5001  0.2500  0.0001  1\n  Al  Al12  1  0.7501  0.5001  0.4999  1\n  Al  Al13  1  0.0002  0.9997  0.7500  1\n  Ge  Ge14  1  0.9999  0.2503  0.4996  1\n  Ge  Ge15  1  0.2503  0.9999  0.9996  1\n  Ge  Ge16  1  0.5001  0.5003  0.7500  1\n  Ge  Ge17  1  0.5003  0.5001  0.2500  1\n  Ge  Ge18  1  0.7496  0.9999  0.0004  1\n  Ge  Ge19  1  0.9999  0.7496  0.5004  1\n  N  N20  1  0.0320  0.4994  0.0001  1\n  N  N21  1  0.4994  0.0320  0.5001  1\n  O  O22  1  0.0694  0.1456  0.6451  1\n  O  O23  1  0.0699  0.8546  0.3549  1\n  O  O24  1  0.1456  0.0694  0.1451  1\n  O  O25  1  0.1447  0.9304  0.8556  1\n  O  O26  1  0.1457  0.3544  0.4311  1\n  O  O27  1  0.1452  0.6454  0.5689  1\n  O  O28  1  0.3550  0.4304  0.6455  1\n  O  O29  1  0.3548  0.5694  0.3543  1\n  O  O30  1  0.3544  0.1457  0.9311  1\n  O  O31  1  0.3544  0.8547  0.0695  1\n  O  O32  1  0.4304  0.3550  0.1455  1\n  O  O33  1  0.4304  0.6445  0.8552  1\n  O  O34  1  0.4422  0.9581  0.6021  1\n  O  O35  1  0.5584  0.9585  0.3978  1\n  O  O36  1  0.5694  0.3548  0.8543  1\n  O  O37  1  0.5694  0.6447  0.1450  1\n  O  O38  1  0.6454  0.1452  0.0689  1\n  O  O39  1  0.6454  0.8552  0.9305  1\n  O  O40  1  0.6445  0.4304  0.3552  1\n  O  O41  1  0.6447  0.5694  0.6450  1\n  O  O42  1  0.8547  0.3544  0.5695  1\n  O  O43  1  0.8552  0.6454  0.4305  1\n  O  O44  1  0.8555  0.9300  0.1444  1\n  O  O45  1  0.8546  0.0699  0.8549  1\n  O  O46  1  0.9304  0.1447  0.3556  1\n  O  O47  1  0.9300  0.8555  0.6444  1\n  O  O48  1  0.9585  0.5584  0.8978  1\n  O  O49  1  0.9581  0.4422  0.1021  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na8Al3OAl2Ge6N2O17AlO10\n_chemical_formula_sum              \"Na8 Al6 O28 Ge6 N2\"\n_cell_length_a       9.2015\n_cell_length_b       9.2015\n_cell_length_c       9.1840\n_cell_angle_alpha    89.9338\n_cell_angle_beta     89.9338\n_cell_angle_gamma    90.0074\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.1804  0.3199  0.1808  1.0000\n  Na  Na2       1.0000  0.1809  0.6805  0.8188  1.0000\n  Na  Na3       1.0000  0.3199  0.1804  0.6808  1.0000\n  Na  Na4       1.0000  0.3211  0.8190  0.3199  1.0000\n  Na  Na5       1.0000  0.6805  0.1809  0.3188  1.0000\n  Na  Na6       1.0000  0.6792  0.8187  0.6805  1.0000\n  Na  Na7       1.0000  0.8190  0.3211  0.8199  1.0000\n  Na  Na8       1.0000  0.8187  0.6792  0.1805  1.0000\n  Al  Al1       1.0000  0.9997  0.0002  0.2500  1.0000\n  Al  Al2       1.0000  0.2500  0.5001  0.5001  1.0000\n  Al  Al3       1.0000  0.5001  0.7501  0.9999  1.0000\n  O   O1        1.0000  0.5001  0.2500  0.0001  1.0000\n  Al  Al4       1.0000  0.7501  0.5001  0.4999  1.0000\n  Al  Al5       1.0000  0.0002  0.9997  0.7500  1.0000\n  Ge  Ge1       1.0000  0.9999  0.2503  0.4996  1.0000\n  Ge  Ge2       1.0000  0.2503  0.9999  0.9996  1.0000\n  Ge  Ge3       1.0000  0.5001  0.5003  0.7500  1.0000\n  Ge  Ge4       1.0000  0.5003  0.5001  0.2500  1.0000\n  Ge  Ge5       1.0000  0.7496  0.9999  0.0004  1.0000\n  Ge  Ge6       1.0000  0.9999  0.7496  0.5004  1.0000\n  N   N1        1.0000  0.0320  0.4994  0.0001  1.0000\n  N   N2        1.0000  0.4994  0.0320  0.5001  1.0000\n  O   O2        1.0000  0.0694  0.1456  0.6451  1.0000\n  O   O3        1.0000  0.0699  0.8546  0.3549  1.0000\n  O   O4        1.0000  0.1456  0.0694  0.1451  1.0000\n  O   O5        1.0000  0.1447  0.9304  0.8556  1.0000\n  O   O6        1.0000  0.1457  0.3544  0.4311  1.0000\n  O   O7        1.0000  0.1452  0.6454  0.5689  1.0000\n  O   O8        1.0000  0.3550  0.4304  0.6455  1.0000\n  O   O9        1.0000  0.3548  0.5694  0.3543  1.0000\n  O   O10       1.0000  0.3544  0.1457  0.9311  1.0000\n  O   O11       1.0000  0.3544  0.8547  0.0695  1.0000\n  O   O12       1.0000  0.4304  0.3550  0.1455  1.0000\n  O   O13       1.0000  0.4304  0.6445  0.8552  1.0000\n  O   O14       1.0000  0.4422  0.9581  0.6021  1.0000\n  O   O15       1.0000  0.5584  0.9585  0.3978  1.0000\n  O   O16       1.0000  0.5694  0.3548  0.8543  1.0000\n  O   O17       1.0000  0.5694  0.6447  0.1450  1.0000\n  O   O18       1.0000  0.6454  0.1452  0.0689  1.0000\n  Al  Al6       1.0000  0.6454  0.8552  0.9305  1.0000\n  O   O19       1.0000  0.6445  0.4304  0.3552  1.0000\n  O   O20       1.0000  0.6447  0.5694  0.6450  1.0000\n  O   O21       1.0000  0.8547  0.3544  0.5695  1.0000\n  O   O22       1.0000  0.8552  0.6454  0.4305  1.0000\n  O   O23       1.0000  0.8555  0.9300  0.1444  1.0000\n  O   O24       1.0000  0.8546  0.0699  0.8549  1.0000\n  O   O25       1.0000  0.9304  0.1447  0.3556  1.0000\n  O   O26       1.0000  0.9300  0.8555  0.6444  1.0000\n  O   O27       1.0000  0.9585  0.5584  0.8978  1.0000\n  O   O28       1.0000  0.9581  0.4422  0.1021  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dd5287be-9ee5-4e19-a9ec-3446d25c9ee1",
    "mp_id": "mp-720572",
    "action_prompt": "Swap the spatial positions of atoms at indices 41 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbH3(SeO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1605\n_cell_length_b   12.3927\n_cell_length_c   20.1164\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbH3(SeO3)2\n_chemical_formula_sum   'Rb8 H24 Se16 O48'\n_cell_volume   1535.7970\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0239  0.3751  0.1414  1\n  Rb  Rb1  1  0.9761  0.8751  0.3586  1\n  Rb  Rb2  1  0.5239  0.1249  0.8586  1\n  Rb  Rb3  1  0.4761  0.6249  0.6414  1\n  Rb  Rb4  1  0.5227  0.6260  0.8584  1\n  Rb  Rb5  1  0.4773  0.1260  0.6416  1\n  Rb  Rb6  1  0.0227  0.8740  0.1416  1\n  Rb  Rb7  1  0.9773  0.3740  0.3584  1\n  H  H8  1  0.0645  0.2535  0.7989  1\n  H  H9  1  0.9355  0.7535  0.7011  1\n  H  H10  1  0.5645  0.2465  0.2011  1\n  H  H11  1  0.4355  0.7465  0.2989  1\n  H  H12  1  0.5634  0.7420  0.2063  1\n  H  H13  1  0.4366  0.2420  0.2937  1\n  H  H14  1  0.0634  0.7580  0.7937  1\n  H  H15  1  0.9366  0.2580  0.7063  1\n  H  H16  1  0.7182  0.4903  0.0142  1\n  H  H17  1  0.2818  0.9903  0.4858  1\n  H  H18  1  0.2182  0.0097  0.9858  1\n  H  H19  1  0.7818  0.5097  0.5142  1\n  H  H20  1  0.2184  0.5094  0.9858  1\n  H  H21  1  0.7816  0.0094  0.5142  1\n  H  H22  1  0.7184  0.9906  0.0142  1\n  H  H23  1  0.2816  0.4906  0.4858  1\n  H  H24  1  0.3521  0.3871  0.8726  1\n  H  H25  1  0.6479  0.8871  0.6274  1\n  H  H26  1  0.8521  0.1129  0.1274  1\n  H  H27  1  0.1479  0.6129  0.3726  1\n  H  H28  1  0.8545  0.6122  0.1274  1\n  H  H29  1  0.1455  0.1122  0.3726  1\n  H  H30  1  0.3545  0.8878  0.8726  1\n  H  H31  1  0.6455  0.3878  0.6274  1\n  Se  Se32  1  0.9726  0.3986  0.8655  1\n  Se  Se33  1  0.0274  0.8986  0.6345  1\n  Se  Se34  1  0.4726  0.1014  0.1345  1\n  Se  Se35  1  0.5274  0.6014  0.3655  1\n  Se  Se36  1  0.4757  0.6025  0.1349  1\n  Se  Se37  1  0.5243  0.1025  0.3651  1\n  Se  Se38  1  0.9757  0.8975  0.8651  1\n  Se  Se39  1  0.0243  0.3975  0.6349  1\n  Se  Se40  1  0.4878  0.3334  0.0057  1\n  Se  Se41  1  0.5122  0.8334  0.4943  1\n  Se  Se42  1  0.9878  0.1666  0.9943  1\n  Se  Se43  1  0.0122  0.6666  0.5057  1\n  Se  Se44  1  0.9889  0.6666  0.9940  1\n  Se  Se45  1  0.0111  0.1666  0.5060  1\n  Se  Se46  1  0.4889  0.8334  0.0060  1\n  Se  Se47  1  0.5111  0.3334  0.4940  1\n  O  O48  1  0.9357  0.2599  0.8278  1\n  O  O49  1  0.0643  0.7599  0.6722  1\n  O  O50  1  0.4357  0.2401  0.1722  1\n  O  O51  1  0.5643  0.7401  0.3278  1\n  O  O52  1  0.4447  0.7404  0.1735  1\n  O  O53  1  0.5553  0.2404  0.3265  1\n  O  O54  1  0.9447  0.7596  0.8265  1\n  O  O55  1  0.0553  0.2596  0.6735  1\n  O  O56  1  0.2535  0.4032  0.0193  1\n  O  O57  1  0.7465  0.9032  0.4807  1\n  O  O58  1  0.7535  0.0968  0.9807  1\n  O  O59  1  0.2465  0.5968  0.5193  1\n  O  O60  1  0.7547  0.5965  0.9806  1\n  O  O61  1  0.2453  0.0965  0.5194  1\n  O  O62  1  0.2547  0.9035  0.0194  1\n  O  O63  1  0.7453  0.4035  0.4806  1\n  O  O64  1  0.2477  0.4105  0.8352  1\n  O  O65  1  0.7523  0.9105  0.6648  1\n  O  O66  1  0.7477  0.0895  0.1648  1\n  O  O67  1  0.2523  0.5895  0.3352  1\n  O  O68  1  0.7509  0.5870  0.1645  1\n  O  O69  1  0.2491  0.0870  0.3355  1\n  O  O70  1  0.2509  0.9130  0.8355  1\n  O  O71  1  0.7491  0.4130  0.6645  1\n  O  O72  1  0.5345  0.3465  0.9223  1\n  O  O73  1  0.4655  0.8465  0.5777  1\n  O  O74  1  0.0345  0.1535  0.0777  1\n  O  O75  1  0.9655  0.6535  0.4223  1\n  O  O76  1  0.0358  0.6543  0.0775  1\n  O  O77  1  0.9642  0.1543  0.4225  1\n  O  O78  1  0.5358  0.8457  0.9225  1\n  O  O79  1  0.4642  0.3457  0.5775  1\n  O  O80  1  0.8401  0.4783  0.8150  1\n  O  O81  1  0.1599  0.9783  0.6850  1\n  O  O82  1  0.3401  0.0217  0.1850  1\n  O  O83  1  0.6599  0.5217  0.3150  1\n  O  O84  1  0.3421  0.5220  0.1848  1\n  O  O85  1  0.6579  0.0220  0.3152  1\n  O  O86  1  0.8421  0.9780  0.8152  1\n  O  O87  1  0.1579  0.4780  0.6848  1\n  O  O88  1  0.6936  0.4189  0.0414  1\n  O  O89  1  0.3064  0.9190  0.4586  1\n  O  O90  1  0.1936  0.0810  0.9586  1\n  O  O91  1  0.8064  0.5810  0.5414  1\n  O  O92  1  0.1946  0.5807  0.9586  1\n  O  O93  1  0.8054  0.0807  0.5414  1\n  O  O94  1  0.6946  0.9193  0.0414  1\n  O  O95  1  0.3054  0.4193  0.4586  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb8HSeH22Se9HSe6O48\n_chemical_formula_sum              \"Rb8 H24 Se16 O48\"\n_cell_length_a       6.1605\n_cell_length_b       12.3927\n_cell_length_c       20.1164\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0239  0.3751  0.1414  1.0000\n  Rb  Rb2       1.0000  0.9761  0.8751  0.3586  1.0000\n  Rb  Rb3       1.0000  0.5239  0.1249  0.8586  1.0000\n  Rb  Rb4       1.0000  0.4761  0.6249  0.6414  1.0000\n  Rb  Rb5       1.0000  0.5227  0.6260  0.8584  1.0000\n  Rb  Rb6       1.0000  0.4773  0.1260  0.6416  1.0000\n  Rb  Rb7       1.0000  0.0227  0.8740  0.1416  1.0000\n  Rb  Rb8       1.0000  0.9773  0.3740  0.3584  1.0000\n  H   H1        1.0000  0.0645  0.2535  0.7989  1.0000\n  Se  Se1       1.0000  0.9355  0.7535  0.7011  1.0000\n  H   H2        1.0000  0.5645  0.2465  0.2011  1.0000\n  H   H3        1.0000  0.4355  0.7465  0.2989  1.0000\n  H   H4        1.0000  0.5634  0.7420  0.2063  1.0000\n  H   H5        1.0000  0.4366  0.2420  0.2937  1.0000\n  H   H6        1.0000  0.0634  0.7580  0.7937  1.0000\n  H   H7        1.0000  0.9366  0.2580  0.7063  1.0000\n  H   H8        1.0000  0.7182  0.4903  0.0142  1.0000\n  H   H9        1.0000  0.2818  0.9903  0.4858  1.0000\n  H   H10       1.0000  0.2182  0.0097  0.9858  1.0000\n  H   H11       1.0000  0.7818  0.5097  0.5142  1.0000\n  H   H12       1.0000  0.2184  0.5094  0.9858  1.0000\n  H   H13       1.0000  0.7816  0.0094  0.5142  1.0000\n  H   H14       1.0000  0.7184  0.9906  0.0142  1.0000\n  H   H15       1.0000  0.2816  0.4906  0.4858  1.0000\n  H   H16       1.0000  0.3521  0.3871  0.8726  1.0000\n  H   H17       1.0000  0.6479  0.8871  0.6274  1.0000\n  H   H18       1.0000  0.8521  0.1129  0.1274  1.0000\n  H   H19       1.0000  0.1479  0.6129  0.3726  1.0000\n  H   H20       1.0000  0.8545  0.6122  0.1274  1.0000\n  H   H21       1.0000  0.1455  0.1122  0.3726  1.0000\n  H   H22       1.0000  0.3545  0.8878  0.8726  1.0000\n  H   H23       1.0000  0.6455  0.3878  0.6274  1.0000\n  Se  Se2       1.0000  0.9726  0.3986  0.8655  1.0000\n  Se  Se3       1.0000  0.0274  0.8986  0.6345  1.0000\n  Se  Se4       1.0000  0.4726  0.1014  0.1345  1.0000\n  Se  Se5       1.0000  0.5274  0.6014  0.3655  1.0000\n  Se  Se6       1.0000  0.4757  0.6025  0.1349  1.0000\n  Se  Se7       1.0000  0.5243  0.1025  0.3651  1.0000\n  Se  Se8       1.0000  0.9757  0.8975  0.8651  1.0000\n  Se  Se9       1.0000  0.0243  0.3975  0.6349  1.0000\n  Se  Se10      1.0000  0.4878  0.3334  0.0057  1.0000\n  H   H24       1.0000  0.5122  0.8334  0.4943  1.0000\n  Se  Se11      1.0000  0.9878  0.1666  0.9943  1.0000\n  Se  Se12      1.0000  0.0122  0.6666  0.5057  1.0000\n  Se  Se13      1.0000  0.9889  0.6666  0.9940  1.0000\n  Se  Se14      1.0000  0.0111  0.1666  0.5060  1.0000\n  Se  Se15      1.0000  0.4889  0.8334  0.0060  1.0000\n  Se  Se16      1.0000  0.5111  0.3334  0.4940  1.0000\n  O   O1        1.0000  0.9357  0.2599  0.8278  1.0000\n  O   O2        1.0000  0.0643  0.7599  0.6722  1.0000\n  O   O3        1.0000  0.4357  0.2401  0.1722  1.0000\n  O   O4        1.0000  0.5643  0.7401  0.3278  1.0000\n  O   O5        1.0000  0.4447  0.7404  0.1735  1.0000\n  O   O6        1.0000  0.5553  0.2404  0.3265  1.0000\n  O   O7        1.0000  0.9447  0.7596  0.8265  1.0000\n  O   O8        1.0000  0.0553  0.2596  0.6735  1.0000\n  O   O9        1.0000  0.2535  0.4032  0.0193  1.0000\n  O   O10       1.0000  0.7465  0.9032  0.4807  1.0000\n  O   O11       1.0000  0.7535  0.0968  0.9807  1.0000\n  O   O12       1.0000  0.2465  0.5968  0.5193  1.0000\n  O   O13       1.0000  0.7547  0.5965  0.9806  1.0000\n  O   O14       1.0000  0.2453  0.0965  0.5194  1.0000\n  O   O15       1.0000  0.2547  0.9035  0.0194  1.0000\n  O   O16       1.0000  0.7453  0.4035  0.4806  1.0000\n  O   O17       1.0000  0.2477  0.4105  0.8352  1.0000\n  O   O18       1.0000  0.7523  0.9105  0.6648  1.0000\n  O   O19       1.0000  0.7477  0.0895  0.1648  1.0000\n  O   O20       1.0000  0.2523  0.5895  0.3352  1.0000\n  O   O21       1.0000  0.7509  0.5870  0.1645  1.0000\n  O   O22       1.0000  0.2491  0.0870  0.3355  1.0000\n  O   O23       1.0000  0.2509  0.9130  0.8355  1.0000\n  O   O24       1.0000  0.7491  0.4130  0.6645  1.0000\n  O   O25       1.0000  0.5345  0.3465  0.9223  1.0000\n  O   O26       1.0000  0.4655  0.8465  0.5777  1.0000\n  O   O27       1.0000  0.0345  0.1535  0.0777  1.0000\n  O   O28       1.0000  0.9655  0.6535  0.4223  1.0000\n  O   O29       1.0000  0.0358  0.6543  0.0775  1.0000\n  O   O30       1.0000  0.9642  0.1543  0.4225  1.0000\n  O   O31       1.0000  0.5358  0.8457  0.9225  1.0000\n  O   O32       1.0000  0.4642  0.3457  0.5775  1.0000\n  O   O33       1.0000  0.8401  0.4783  0.8150  1.0000\n  O   O34       1.0000  0.1599  0.9783  0.6850  1.0000\n  O   O35       1.0000  0.3401  0.0217  0.1850  1.0000\n  O   O36       1.0000  0.6599  0.5217  0.3150  1.0000\n  O   O37       1.0000  0.3421  0.5220  0.1848  1.0000\n  O   O38       1.0000  0.6579  0.0220  0.3152  1.0000\n  O   O39       1.0000  0.8421  0.9780  0.8152  1.0000\n  O   O40       1.0000  0.1579  0.4780  0.6848  1.0000\n  O   O41       1.0000  0.6936  0.4189  0.0414  1.0000\n  O   O42       1.0000  0.3064  0.9189  0.4586  1.0000\n  O   O43       1.0000  0.1936  0.0810  0.9586  1.0000\n  O   O44       1.0000  0.8064  0.5810  0.5414  1.0000\n  O   O45       1.0000  0.1946  0.5807  0.9586  1.0000\n  O   O46       1.0000  0.8054  0.0807  0.5414  1.0000\n  O   O47       1.0000  0.6946  0.9193  0.0414  1.0000\n  O   O48       1.0000  0.3054  0.4193  0.4586  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3a07d108-b2f3-4fee-9df8-9e20782efe96",
    "mp_id": "mp-722790",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 46 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeP2(HO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7224\n_cell_length_b   7.0899\n_cell_length_c   15.7705\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeP2(HO4)2\n_chemical_formula_sum   'Ce4 P8 H8 O32'\n_cell_volume   751.6408\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.3658  0.5718  0.2741  1\n  Ce  Ce1  1  0.8658  0.9282  0.7259  1\n  Ce  Ce2  1  0.6342  0.0718  0.2259  1\n  Ce  Ce3  1  0.1342  0.4282  0.7741  1\n  P  P4  1  0.3887  0.7814  0.0718  1\n  P  P5  1  0.8887  0.7186  0.9282  1\n  P  P6  1  0.6113  0.2814  0.4282  1\n  P  P7  1  0.1113  0.2186  0.5718  1\n  P  P8  1  0.8314  0.5928  0.2331  1\n  P  P9  1  0.3314  0.9072  0.7669  1\n  P  P10  1  0.1686  0.0928  0.2669  1\n  P  P11  1  0.6686  0.4072  0.7331  1\n  H  H12  1  0.2099  0.8851  0.0727  1\n  H  H13  1  0.7098  0.6149  0.9273  1\n  H  H14  1  0.7902  0.3851  0.4273  1\n  H  H15  1  0.2902  0.1149  0.5727  1\n  H  H16  1  0.8827  0.6366  0.1487  1\n  H  H17  1  0.3827  0.8634  0.8513  1\n  H  H18  1  0.1173  0.1366  0.3513  1\n  H  H19  1  0.6173  0.3634  0.6487  1\n  O  O20  1  0.3574  0.6174  0.1388  1\n  O  O21  1  0.8574  0.8826  0.8612  1\n  O  O22  1  0.6426  0.1174  0.3612  1\n  O  O23  1  0.1426  0.3826  0.6388  1\n  O  O24  1  0.5486  0.9180  0.1134  1\n  O  O25  1  0.0486  0.5820  0.8866  1\n  O  O26  1  0.4514  0.4180  0.3866  1\n  O  O27  1  0.9514  0.0820  0.6134  1\n  O  O28  1  0.4409  0.7124  0.9855  1\n  O  O29  1  0.9409  0.7876  0.0145  1\n  O  O30  1  0.5591  0.2124  0.5145  1\n  O  O31  1  0.0591  0.2876  0.4855  1\n  O  O32  1  0.0240  0.5760  0.2843  1\n  O  O33  1  0.5240  0.9240  0.7157  1\n  O  O34  1  0.9760  0.0760  0.2157  1\n  O  O35  1  0.4760  0.4240  0.7843  1\n  O  O36  1  0.6896  0.7508  0.2681  1\n  O  O37  1  0.1896  0.7492  0.7319  1\n  O  O38  1  0.3104  0.2508  0.2319  1\n  O  O39  1  0.8104  0.2492  0.7681  1\n  O  O40  1  0.6969  0.4134  0.2341  1\n  O  O41  1  0.1969  0.0866  0.7659  1\n  O  O42  1  0.3031  0.9134  0.2659  1\n  O  O43  1  0.8031  0.5866  0.7341  1\n  O  O44  1  0.3635  0.7713  0.4560  1\n  O  O45  1  0.8635  0.7287  0.5440  1\n  O  O46  1  0.6365  0.2713  0.0440  1\n  O  O47  1  0.1365  0.2287  0.9560  1\n  O  O48  1  0.9040  0.7942  0.4736  1\n  O  O49  1  0.4040  0.7058  0.5264  1\n  O  O50  1  0.0960  0.2942  0.0264  1\n  O  O51  1  0.5960  0.2058  0.9736  1\n",
    "output": "data_image0\n_chemical_formula_structural       CeOCe2P8H8O26CeO5\n_chemical_formula_sum              \"Ce4 O32 P8 H8\"\n_cell_length_a       6.7224\n_cell_length_b       7.0899\n_cell_length_c       15.7705\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.3658  0.5718  0.2741  1.0000\n  O   O1        1.0000  0.8658  0.9282  0.7259  1.0000\n  Ce  Ce2       1.0000  0.6342  0.0718  0.2259  1.0000\n  Ce  Ce3       1.0000  0.1342  0.4282  0.7741  1.0000\n  P   P1        1.0000  0.3887  0.7814  0.0718  1.0000\n  P   P2        1.0000  0.8887  0.7186  0.9282  1.0000\n  P   P3        1.0000  0.6113  0.2814  0.4282  1.0000\n  P   P4        1.0000  0.1113  0.2186  0.5718  1.0000\n  P   P5        1.0000  0.8314  0.5928  0.2331  1.0000\n  P   P6        1.0000  0.3314  0.9072  0.7669  1.0000\n  P   P7        1.0000  0.1686  0.0928  0.2669  1.0000\n  P   P8        1.0000  0.6686  0.4072  0.7331  1.0000\n  H   H1        1.0000  0.2099  0.8851  0.0727  1.0000\n  H   H2        1.0000  0.7099  0.6149  0.9273  1.0000\n  H   H3        1.0000  0.7902  0.3851  0.4273  1.0000\n  H   H4        1.0000  0.2902  0.1149  0.5727  1.0000\n  H   H5        1.0000  0.8827  0.6366  0.1487  1.0000\n  H   H6        1.0000  0.3827  0.8634  0.8513  1.0000\n  H   H7        1.0000  0.1173  0.1366  0.3513  1.0000\n  H   H8        1.0000  0.6173  0.3634  0.6487  1.0000\n  O   O2        1.0000  0.3574  0.6174  0.1388  1.0000\n  O   O3        1.0000  0.8574  0.8826  0.8612  1.0000\n  O   O4        1.0000  0.6426  0.1174  0.3612  1.0000\n  O   O5        1.0000  0.1426  0.3826  0.6388  1.0000\n  O   O6        1.0000  0.5486  0.9180  0.1134  1.0000\n  O   O7        1.0000  0.0486  0.5820  0.8866  1.0000\n  O   O8        1.0000  0.4514  0.4180  0.3866  1.0000\n  O   O9        1.0000  0.9514  0.0820  0.6134  1.0000\n  O   O10       1.0000  0.4409  0.7124  0.9855  1.0000\n  O   O11       1.0000  0.9409  0.7876  0.0145  1.0000\n  O   O12       1.0000  0.5591  0.2124  0.5145  1.0000\n  O   O13       1.0000  0.0591  0.2876  0.4855  1.0000\n  O   O14       1.0000  0.0240  0.5760  0.2843  1.0000\n  O   O15       1.0000  0.5240  0.9240  0.7157  1.0000\n  O   O16       1.0000  0.9760  0.0760  0.2157  1.0000\n  O   O17       1.0000  0.4760  0.4240  0.7843  1.0000\n  O   O18       1.0000  0.6896  0.7508  0.2681  1.0000\n  O   O19       1.0000  0.1896  0.7492  0.7319  1.0000\n  O   O20       1.0000  0.3104  0.2508  0.2319  1.0000\n  O   O21       1.0000  0.8104  0.2492  0.7681  1.0000\n  O   O22       1.0000  0.6969  0.4134  0.2341  1.0000\n  O   O23       1.0000  0.1969  0.0866  0.7659  1.0000\n  O   O24       1.0000  0.3031  0.9134  0.2659  1.0000\n  O   O25       1.0000  0.8031  0.5866  0.7341  1.0000\n  O   O26       1.0000  0.3635  0.7713  0.4560  1.0000\n  O   O27       1.0000  0.8635  0.7287  0.5440  1.0000\n  Ce  Ce4       1.0000  0.6365  0.2713  0.0440  1.0000\n  O   O28       1.0000  0.1365  0.2287  0.9560  1.0000\n  O   O29       1.0000  0.9040  0.7942  0.4736  1.0000\n  O   O30       1.0000  0.4040  0.7058  0.5264  1.0000\n  O   O31       1.0000  0.0960  0.2942  0.0264  1.0000\n  O   O32       1.0000  0.5960  0.2058  0.9736  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "74fe2c98-ba99-41d4-ae59-8957de884827",
    "mp_id": "mp-722980",
    "action_prompt": "Swap the spatial positions of atoms at indices 51 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Hg4HN3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.4115\n_cell_length_b   11.4115\n_cell_length_c   11.6263\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   129.7496\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Hg4HN3O10\n_chemical_formula_sum   'Hg16 H4 N12 O40'\n_cell_volume   1164.0498\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hg  Hg0  1  0.4652  0.5270  0.5961  1\n  Hg  Hg1  1  0.5270  0.4652  0.4039  1\n  Hg  Hg2  1  0.9652  0.0270  0.9039  1\n  Hg  Hg3  1  0.0270  0.9652  0.0961  1\n  Hg  Hg4  1  0.4629  0.5571  0.9256  1\n  Hg  Hg5  1  0.5571  0.4629  0.0744  1\n  Hg  Hg6  1  0.9629  0.0571  0.5744  1\n  Hg  Hg7  1  0.0571  0.9629  0.4256  1\n  Hg  Hg8  1  0.3091  0.7119  0.7078  1\n  Hg  Hg9  1  0.7119  0.3091  0.2922  1\n  Hg  Hg10  1  0.8091  0.2119  0.7922  1\n  Hg  Hg11  1  0.2119  0.8091  0.2078  1\n  Hg  Hg12  1  0.1100  0.7474  0.7515  1\n  Hg  Hg13  1  0.7474  0.1100  0.2485  1\n  Hg  Hg14  1  0.6100  0.2474  0.7485  1\n  Hg  Hg15  1  0.2474  0.6100  0.2515  1\n  H  H16  1  0.7623  0.9498  0.7475  1\n  H  H17  1  0.9498  0.7623  0.2525  1\n  H  H18  1  0.2623  0.4498  0.7525  1\n  H  H19  1  0.4498  0.2623  0.2475  1\n  N  N20  1  0.8130  0.6935  0.7206  1\n  N  N21  1  0.6935  0.8130  0.2794  1\n  N  N22  1  0.3130  0.1935  0.7794  1\n  N  N23  1  0.1935  0.3130  0.2206  1\n  N  N24  1  0.5837  0.9280  0.5390  1\n  N  N25  1  0.9280  0.5837  0.4610  1\n  N  N26  1  0.0837  0.4280  0.9610  1\n  N  N27  1  0.4280  0.0837  0.0390  1\n  N  N28  1  0.1159  0.4061  0.5043  1\n  N  N29  1  0.4061  0.1159  0.4957  1\n  N  N30  1  0.6159  0.9061  0.9957  1\n  N  N31  1  0.9061  0.6159  0.0043  1\n  O  O32  1  0.3664  0.5482  0.7491  1\n  O  O33  1  0.5482  0.3664  0.2509  1\n  O  O34  1  0.8664  0.0482  0.7509  1\n  O  O35  1  0.0482  0.8664  0.2491  1\n  O  O36  1  0.2158  0.2118  0.7655  1\n  O  O37  1  0.2118  0.2158  0.2345  1\n  O  O38  1  0.7158  0.7118  0.7345  1\n  O  O39  1  0.7118  0.7158  0.2655  1\n  O  O40  1  0.9516  0.8049  0.7561  1\n  O  O41  1  0.8049  0.9516  0.2439  1\n  O  O42  1  0.4516  0.3049  0.7439  1\n  O  O43  1  0.3049  0.4516  0.2561  1\n  O  O44  1  0.7829  0.5787  0.6749  1\n  O  O45  1  0.5787  0.7829  0.3251  1\n  O  O46  1  0.2829  0.0787  0.8251  1\n  O  O47  1  0.0787  0.2829  0.1749  1\n  O  O48  1  0.4750  0.9090  0.4928  1\n  O  O49  1  0.9090  0.4750  0.5072  1\n  O  O50  1  0.9750  0.4090  0.0072  1\n  O  O51  1  0.4090  0.9750  0.9928  1\n  O  O52  1  0.5611  0.8468  0.6295  1\n  O  O53  1  0.8468  0.5611  0.3705  1\n  O  O54  1  0.0611  0.3468  0.8705  1\n  O  O55  1  0.3468  0.0611  0.1295  1\n  O  O56  1  0.7192  0.0244  0.5028  1\n  O  O57  1  0.0244  0.7192  0.4972  1\n  O  O58  1  0.2192  0.5244  0.9972  1\n  O  O59  1  0.5244  0.2192  0.0028  1\n  O  O60  1  0.0463  0.3344  0.4143  1\n  O  O61  1  0.3344  0.0463  0.5857  1\n  O  O62  1  0.5463  0.8344  0.0857  1\n  O  O63  1  0.8344  0.5463  0.9143  1\n  O  O64  1  0.0828  0.3352  0.6007  1\n  O  O65  1  0.3352  0.0828  0.3993  1\n  O  O66  1  0.5828  0.8352  0.8993  1\n  O  O67  1  0.8352  0.5828  0.1007  1\n  O  O68  1  0.2229  0.5497  0.5023  1\n  O  O69  1  0.5497  0.2229  0.4977  1\n  O  O70  1  0.7229  0.0497  0.9977  1\n  O  O71  1  0.0497  0.7229  0.0023  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hg14OHgH4N12O19HgO20\n_chemical_formula_sum              \"Hg16 O40 H4 N12\"\n_cell_length_a       11.4115\n_cell_length_b       11.4115\n_cell_length_c       11.6263\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    129.7496\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hg  Hg1       1.0000  0.4652  0.5270  0.5961  1.0000\n  Hg  Hg2       1.0000  0.5270  0.4652  0.4039  1.0000\n  Hg  Hg3       1.0000  0.9652  0.0270  0.9039  1.0000\n  Hg  Hg4       1.0000  0.0270  0.9652  0.0961  1.0000\n  Hg  Hg5       1.0000  0.4629  0.5571  0.9256  1.0000\n  Hg  Hg6       1.0000  0.5571  0.4629  0.0744  1.0000\n  Hg  Hg7       1.0000  0.9629  0.0571  0.5744  1.0000\n  Hg  Hg8       1.0000  0.0571  0.9629  0.4256  1.0000\n  Hg  Hg9       1.0000  0.3091  0.7119  0.7078  1.0000\n  Hg  Hg10      1.0000  0.7119  0.3091  0.2922  1.0000\n  Hg  Hg11      1.0000  0.8091  0.2119  0.7922  1.0000\n  Hg  Hg12      1.0000  0.2119  0.8091  0.2078  1.0000\n  Hg  Hg13      1.0000  0.1100  0.7474  0.7515  1.0000\n  Hg  Hg14      1.0000  0.7474  0.1100  0.2485  1.0000\n  O   O1        1.0000  0.6100  0.2474  0.7485  1.0000\n  Hg  Hg15      1.0000  0.2474  0.6100  0.2515  1.0000\n  H   H1        1.0000  0.7623  0.9498  0.7475  1.0000\n  H   H2        1.0000  0.9498  0.7623  0.2525  1.0000\n  H   H3        1.0000  0.2623  0.4498  0.7525  1.0000\n  H   H4        1.0000  0.4498  0.2623  0.2475  1.0000\n  N   N1        1.0000  0.8130  0.6935  0.7206  1.0000\n  N   N2        1.0000  0.6935  0.8130  0.2794  1.0000\n  N   N3        1.0000  0.3130  0.1935  0.7794  1.0000\n  N   N4        1.0000  0.1935  0.3130  0.2206  1.0000\n  N   N5        1.0000  0.5837  0.9280  0.5390  1.0000\n  N   N6        1.0000  0.9280  0.5837  0.4610  1.0000\n  N   N7        1.0000  0.0837  0.4280  0.9610  1.0000\n  N   N8        1.0000  0.4280  0.0837  0.0390  1.0000\n  N   N9        1.0000  0.1159  0.4061  0.5043  1.0000\n  N   N10       1.0000  0.4061  0.1159  0.4957  1.0000\n  N   N11       1.0000  0.6159  0.9061  0.9957  1.0000\n  N   N12       1.0000  0.9061  0.6159  0.0043  1.0000\n  O   O2        1.0000  0.3664  0.5482  0.7491  1.0000\n  O   O3        1.0000  0.5482  0.3664  0.2509  1.0000\n  O   O4        1.0000  0.8664  0.0482  0.7509  1.0000\n  O   O5        1.0000  0.0482  0.8664  0.2491  1.0000\n  O   O6        1.0000  0.2158  0.2118  0.7655  1.0000\n  O   O7        1.0000  0.2118  0.2158  0.2345  1.0000\n  O   O8        1.0000  0.7158  0.7118  0.7345  1.0000\n  O   O9        1.0000  0.7118  0.7158  0.2655  1.0000\n  O   O10       1.0000  0.9516  0.8049  0.7561  1.0000\n  O   O11       1.0000  0.8049  0.9516  0.2439  1.0000\n  O   O12       1.0000  0.4516  0.3049  0.7439  1.0000\n  O   O13       1.0000  0.3049  0.4516  0.2561  1.0000\n  O   O14       1.0000  0.7829  0.5787  0.6749  1.0000\n  O   O15       1.0000  0.5787  0.7829  0.3251  1.0000\n  O   O16       1.0000  0.2829  0.0787  0.8251  1.0000\n  O   O17       1.0000  0.0787  0.2829  0.1749  1.0000\n  O   O18       1.0000  0.4750  0.9090  0.4928  1.0000\n  O   O19       1.0000  0.9090  0.4750  0.5072  1.0000\n  O   O20       1.0000  0.9750  0.4090  0.0072  1.0000\n  Hg  Hg16      1.0000  0.4090  0.9750  0.9928  1.0000\n  O   O21       1.0000  0.5611  0.8468  0.6295  1.0000\n  O   O22       1.0000  0.8468  0.5611  0.3705  1.0000\n  O   O23       1.0000  0.0611  0.3468  0.8705  1.0000\n  O   O24       1.0000  0.3468  0.0611  0.1295  1.0000\n  O   O25       1.0000  0.7192  0.0244  0.5028  1.0000\n  O   O26       1.0000  0.0244  0.7192  0.4972  1.0000\n  O   O27       1.0000  0.2192  0.5244  0.9972  1.0000\n  O   O28       1.0000  0.5244  0.2192  0.0028  1.0000\n  O   O29       1.0000  0.0463  0.3344  0.4143  1.0000\n  O   O30       1.0000  0.3344  0.0463  0.5857  1.0000\n  O   O31       1.0000  0.5463  0.8344  0.0857  1.0000\n  O   O32       1.0000  0.8344  0.5463  0.9143  1.0000\n  O   O33       1.0000  0.0828  0.3352  0.6007  1.0000\n  O   O34       1.0000  0.3352  0.0828  0.3993  1.0000\n  O   O35       1.0000  0.5828  0.8352  0.8993  1.0000\n  O   O36       1.0000  0.8352  0.5828  0.1007  1.0000\n  O   O37       1.0000  0.2229  0.5497  0.5023  1.0000\n  O   O38       1.0000  0.5497  0.2229  0.4977  1.0000\n  O   O39       1.0000  0.7229  0.0497  0.9977  1.0000\n  O   O40       1.0000  0.0497  0.7229  0.0023  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "34b94738-1726-4676-bb94-f3fca5a94117",
    "mp_id": "mp-726672",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2SnCl4O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4152\n_cell_length_b   9.5579\n_cell_length_c   12.4715\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2SnCl4O\n_chemical_formula_sum   'K8 Sn4 Cl16 O4'\n_cell_volume   883.9087\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.8914  0.0277  0.6582  1\n  K  K1  1  0.6086  0.4723  0.1582  1\n  K  K2  1  0.1086  0.5277  0.3418  1\n  K  K3  1  0.3914  0.9723  0.8418  1\n  K  K4  1  0.1086  0.9723  0.3418  1\n  K  K5  1  0.3914  0.5277  0.8418  1\n  K  K6  1  0.8914  0.4723  0.6582  1\n  K  K7  1  0.6086  0.0277  0.1582  1\n  Sn  Sn8  1  0.4726  0.7500  0.4675  1\n  Sn  Sn9  1  0.0274  0.7500  0.9675  1\n  Sn  Sn10  1  0.5274  0.2500  0.5325  1\n  Sn  Sn11  1  0.9726  0.2500  0.0325  1\n  Cl  Cl12  1  0.5794  0.7500  0.6612  1\n  Cl  Cl13  1  0.9206  0.7500  0.1612  1\n  Cl  Cl14  1  0.4206  0.2500  0.3388  1\n  Cl  Cl15  1  0.0794  0.2500  0.8388  1\n  Cl  Cl16  1  0.6890  0.5618  0.4317  1\n  Cl  Cl17  1  0.8110  0.9382  0.9317  1\n  Cl  Cl18  1  0.3110  0.0618  0.5683  1\n  Cl  Cl19  1  0.1890  0.4382  0.0683  1\n  Cl  Cl20  1  0.3110  0.4382  0.5683  1\n  Cl  Cl21  1  0.1890  0.0618  0.0683  1\n  Cl  Cl22  1  0.6890  0.9382  0.4317  1\n  Cl  Cl23  1  0.8110  0.5618  0.9317  1\n  Cl  Cl24  1  0.5803  0.2500  0.7427  1\n  Cl  Cl25  1  0.9197  0.2500  0.2427  1\n  Cl  Cl26  1  0.4197  0.7500  0.2573  1\n  Cl  Cl27  1  0.0803  0.7500  0.7573  1\n  O  O28  1  0.7839  0.2500  0.5238  1\n  O  O29  1  0.7161  0.2500  0.0238  1\n  O  O30  1  0.2161  0.7500  0.4762  1\n  O  O31  1  0.2839  0.7500  0.9762  1\n",
    "output": "data_image0\n_chemical_formula_structural       K8Sn2ClSnCl4SnCl11O4\n_chemical_formula_sum              \"K8 Sn4 Cl16 O4\"\n_cell_length_a       7.4152\n_cell_length_b       9.5579\n_cell_length_c       12.4715\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.8914  0.0277  0.6582  1.0000\n  K   K2        1.0000  0.6086  0.4723  0.1582  1.0000\n  K   K3        1.0000  0.1086  0.5277  0.3418  1.0000\n  K   K4        1.0000  0.3914  0.9723  0.8418  1.0000\n  K   K5        1.0000  0.1086  0.9723  0.3418  1.0000\n  K   K6        1.0000  0.3914  0.5277  0.8418  1.0000\n  K   K7        1.0000  0.8914  0.4723  0.6582  1.0000\n  K   K8        1.0000  0.6086  0.0277  0.1582  1.0000\n  Sn  Sn1       1.0000  0.4726  0.7500  0.4675  1.0000\n  Sn  Sn2       1.0000  0.0274  0.7500  0.9675  1.0000\n  Cl  Cl1       1.0000  0.5274  0.2500  0.5325  1.0000\n  Sn  Sn3       1.0000  0.9726  0.2500  0.0325  1.0000\n  Cl  Cl2       1.0000  0.5794  0.7500  0.6612  1.0000\n  Cl  Cl3       1.0000  0.9206  0.7500  0.1612  1.0000\n  Cl  Cl4       1.0000  0.4206  0.2500  0.3388  1.0000\n  Cl  Cl5       1.0000  0.0794  0.2500  0.8388  1.0000\n  Sn  Sn4       1.0000  0.6890  0.5618  0.4317  1.0000\n  Cl  Cl6       1.0000  0.8110  0.9382  0.9317  1.0000\n  Cl  Cl7       1.0000  0.3110  0.0618  0.5683  1.0000\n  Cl  Cl8       1.0000  0.1890  0.4382  0.0683  1.0000\n  Cl  Cl9       1.0000  0.3110  0.4382  0.5683  1.0000\n  Cl  Cl10      1.0000  0.1890  0.0618  0.0683  1.0000\n  Cl  Cl11      1.0000  0.6890  0.9382  0.4317  1.0000\n  Cl  Cl12      1.0000  0.8110  0.5618  0.9317  1.0000\n  Cl  Cl13      1.0000  0.5803  0.2500  0.7427  1.0000\n  Cl  Cl14      1.0000  0.9197  0.2500  0.2427  1.0000\n  Cl  Cl15      1.0000  0.4197  0.7500  0.2573  1.0000\n  Cl  Cl16      1.0000  0.0803  0.7500  0.7573  1.0000\n  O   O1        1.0000  0.7839  0.2500  0.5238  1.0000\n  O   O2        1.0000  0.7161  0.2500  0.0238  1.0000\n  O   O3        1.0000  0.2161  0.7500  0.4762  1.0000\n  O   O4        1.0000  0.2839  0.7500  0.9762  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0c8e32c5-4d8a-43ef-b5aa-ef0b63355a28",
    "mp_id": "mp-7281",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy3Ni2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.6390\n_cell_length_b   6.8451\n_cell_length_c   9.5326\n_cell_angle_alpha   104.4400\n_cell_angle_beta   90.0000\n_cell_angle_gamma   105.4152\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy3Ni2\n_chemical_formula_sum   'Dy6 Ni4'\n_cell_volume   221.1171\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.1447  0.2894  0.3638  1\n  Dy  Dy1  1  0.8553  0.7106  0.6362  1\n  Dy  Dy2  1  0.5972  0.1943  0.6740  1\n  Dy  Dy3  1  0.4028  0.8057  0.3260  1\n  Dy  Dy4  1  0.8688  0.7376  0.0019  1\n  Dy  Dy5  1  0.1312  0.2624  0.9981  1\n  Ni  Ni6  1  0.2567  0.5134  0.7750  1\n  Ni  Ni7  1  0.7433  0.4866  0.2250  1\n  Ni  Ni8  1  0.4654  0.9308  0.8567  1\n  Ni  Ni9  1  0.5346  0.0692  0.1433  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy5Ni2DyNi2\n_chemical_formula_sum              \"Dy6 Ni4\"\n_cell_length_a       3.6390\n_cell_length_b       6.8451\n_cell_length_c       9.5326\n_cell_angle_alpha    104.4400\n_cell_angle_beta     90.0000\n_cell_angle_gamma    105.4152\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.1447  0.2894  0.3638  1.0000\n  Dy  Dy2       1.0000  0.8553  0.7106  0.6362  1.0000\n  Dy  Dy3       1.0000  0.5972  0.1943  0.6740  1.0000\n  Dy  Dy4       1.0000  0.4028  0.8057  0.3260  1.0000\n  Dy  Dy5       1.0000  0.8688  0.7376  0.0019  1.0000\n  Ni  Ni1       1.0000  0.1312  0.2624  0.9981  1.0000\n  Ni  Ni2       1.0000  0.2567  0.5134  0.7750  1.0000\n  Dy  Dy6       1.0000  0.7433  0.4866  0.2250  1.0000\n  Ni  Ni3       1.0000  0.4654  0.9308  0.8567  1.0000\n  Ni  Ni4       1.0000  0.5346  0.0692  0.1433  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "36202643-eb76-4ada-9662-a7ef00162f8f",
    "mp_id": "mp-728374",
    "action_prompt": "Swap the spatial positions of atoms at indices 46 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MnH5SO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.2740\n_cell_length_b   7.2064\n_cell_length_c   12.1850\n_cell_angle_alpha   61.3182\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MnH5SO7\n_chemical_formula_sum   'Mn4 H20 S4 O28'\n_cell_volume   560.3571\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.5000  0.0000  0.5000  1\n  Mn  Mn1  1  0.0000  0.0000  0.0000  1\n  Mn  Mn2  1  0.0000  0.0000  0.5000  1\n  Mn  Mn3  1  0.5000  0.0000  0.0000  1\n  H  H4  1  0.2500  0.2554  0.4732  1\n  H  H5  1  0.2500  0.2554  0.9732  1\n  H  H6  1  0.7500  0.7446  0.5268  1\n  H  H7  1  0.7500  0.7446  0.0268  1\n  H  H8  1  0.3580  0.7510  0.7537  1\n  H  H9  1  0.1420  0.7510  0.2537  1\n  H  H10  1  0.6420  0.2490  0.2463  1\n  H  H11  1  0.8580  0.2490  0.7463  1\n  H  H12  1  0.5729  0.7320  0.7611  1\n  H  H13  1  0.9271  0.7320  0.2611  1\n  H  H14  1  0.4271  0.2680  0.2389  1\n  H  H15  1  0.0729  0.2680  0.7389  1\n  H  H16  1  0.9593  0.7289  0.7603  1\n  H  H17  1  0.5407  0.7289  0.2603  1\n  H  H18  1  0.0407  0.2711  0.2397  1\n  H  H19  1  0.4593  0.2711  0.7397  1\n  H  H20  1  0.0078  0.9574  0.7374  1\n  H  H21  1  0.4922  0.9574  0.2374  1\n  H  H22  1  0.9922  0.0426  0.2626  1\n  H  H23  1  0.5078  0.0426  0.7626  1\n  S  S24  1  0.2540  0.6128  0.5210  1\n  S  S25  1  0.2460  0.6128  0.0210  1\n  S  S26  1  0.7460  0.3872  0.4790  1\n  S  S27  1  0.7540  0.3872  0.9790  1\n  O  O28  1  0.4174  0.7618  0.4812  1\n  O  O29  1  0.0826  0.7618  0.9812  1\n  O  O30  1  0.5826  0.2382  0.5188  1\n  O  O31  1  0.9174  0.2382  0.0188  1\n  O  O32  1  0.0825  0.7438  0.5008  1\n  O  O33  1  0.4175  0.7438  0.0008  1\n  O  O34  1  0.9175  0.2562  0.4992  1\n  O  O35  1  0.5825  0.2562  0.9992  1\n  O  O36  1  0.2455  0.5232  0.4367  1\n  O  O37  1  0.2545  0.5232  0.9367  1\n  O  O38  1  0.7545  0.4768  0.5633  1\n  O  O39  1  0.7455  0.4768  0.0633  1\n  O  O40  1  0.2692  0.4561  0.6537  1\n  O  O41  1  0.2308  0.4561  0.1537  1\n  O  O42  1  0.7308  0.5439  0.3463  1\n  O  O43  1  0.7692  0.5439  0.8463  1\n  O  O44  1  0.2509  0.1105  0.4821  1\n  O  O45  1  0.2491  0.1105  0.9821  1\n  O  O46  1  0.7491  0.8895  0.5179  1\n  O  O47  1  0.7509  0.8895  0.0179  1\n  O  O48  1  0.4711  0.8323  0.7172  1\n  O  O49  1  0.0289  0.8323  0.2172  1\n  O  O50  1  0.5289  0.1677  0.2828  1\n  O  O51  1  0.9711  0.1677  0.7828  1\n  O  O52  1  0.0329  0.8559  0.7064  1\n  O  O53  1  0.4671  0.8559  0.2064  1\n  O  O54  1  0.9671  0.1441  0.2936  1\n  O  O55  1  0.5329  0.1441  0.7936  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn4H10OH9S4O18HO9\n_chemical_formula_sum              \"Mn4 H20 O28 S4\"\n_cell_length_a       7.2740\n_cell_length_b       7.2064\n_cell_length_c       12.1850\n_cell_angle_alpha    61.3182\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Mn  Mn3       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mn  Mn4       1.0000  0.5000  0.0000  0.0000  1.0000\n  H   H1        1.0000  0.2500  0.2554  0.4732  1.0000\n  H   H2        1.0000  0.2500  0.2554  0.9732  1.0000\n  H   H3        1.0000  0.7500  0.7446  0.5268  1.0000\n  H   H4        1.0000  0.7500  0.7446  0.0268  1.0000\n  H   H5        1.0000  0.3580  0.7510  0.7537  1.0000\n  H   H6        1.0000  0.1420  0.7510  0.2537  1.0000\n  H   H7        1.0000  0.6420  0.2490  0.2463  1.0000\n  H   H8        1.0000  0.8580  0.2490  0.7463  1.0000\n  H   H9        1.0000  0.5729  0.7320  0.7611  1.0000\n  H   H10       1.0000  0.9271  0.7320  0.2611  1.0000\n  O   O1        1.0000  0.4271  0.2680  0.2389  1.0000\n  H   H11       1.0000  0.0729  0.2680  0.7389  1.0000\n  H   H12       1.0000  0.9593  0.7289  0.7603  1.0000\n  H   H13       1.0000  0.5407  0.7289  0.2603  1.0000\n  H   H14       1.0000  0.0407  0.2711  0.2397  1.0000\n  H   H15       1.0000  0.4593  0.2711  0.7397  1.0000\n  H   H16       1.0000  0.0078  0.9574  0.7374  1.0000\n  H   H17       1.0000  0.4922  0.9574  0.2374  1.0000\n  H   H18       1.0000  0.9922  0.0426  0.2626  1.0000\n  H   H19       1.0000  0.5078  0.0426  0.7626  1.0000\n  S   S1        1.0000  0.2540  0.6128  0.5210  1.0000\n  S   S2        1.0000  0.2460  0.6128  0.0210  1.0000\n  S   S3        1.0000  0.7460  0.3872  0.4790  1.0000\n  S   S4        1.0000  0.7540  0.3872  0.9790  1.0000\n  O   O2        1.0000  0.4174  0.7618  0.4812  1.0000\n  O   O3        1.0000  0.0826  0.7618  0.9812  1.0000\n  O   O4        1.0000  0.5826  0.2382  0.5188  1.0000\n  O   O5        1.0000  0.9174  0.2382  0.0188  1.0000\n  O   O6        1.0000  0.0825  0.7438  0.5008  1.0000\n  O   O7        1.0000  0.4175  0.7438  0.0008  1.0000\n  O   O8        1.0000  0.9175  0.2562  0.4992  1.0000\n  O   O9        1.0000  0.5825  0.2562  0.9992  1.0000\n  O   O10       1.0000  0.2455  0.5232  0.4367  1.0000\n  O   O11       1.0000  0.2545  0.5232  0.9367  1.0000\n  O   O12       1.0000  0.7545  0.4768  0.5633  1.0000\n  O   O13       1.0000  0.7455  0.4768  0.0633  1.0000\n  O   O14       1.0000  0.2692  0.4561  0.6537  1.0000\n  O   O15       1.0000  0.2308  0.4561  0.1537  1.0000\n  O   O16       1.0000  0.7308  0.5439  0.3463  1.0000\n  O   O17       1.0000  0.7692  0.5439  0.8463  1.0000\n  O   O18       1.0000  0.2509  0.1105  0.4821  1.0000\n  O   O19       1.0000  0.2491  0.1105  0.9821  1.0000\n  H   H20       1.0000  0.7491  0.8895  0.5179  1.0000\n  O   O20       1.0000  0.7509  0.8895  0.0179  1.0000\n  O   O21       1.0000  0.4711  0.8323  0.7172  1.0000\n  O   O22       1.0000  0.0289  0.8323  0.2172  1.0000\n  O   O23       1.0000  0.5289  0.1677  0.2828  1.0000\n  O   O24       1.0000  0.9711  0.1677  0.7828  1.0000\n  O   O25       1.0000  0.0329  0.8559  0.7064  1.0000\n  O   O26       1.0000  0.4671  0.8559  0.2064  1.0000\n  O   O27       1.0000  0.9671  0.1441  0.2936  1.0000\n  O   O28       1.0000  0.5329  0.1441  0.7936  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d42f0b71-9861-417e-9d26-8ed7e45aa9c1",
    "mp_id": "mp-731813",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pb2Br5N\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.3952\n_cell_length_b   9.3952\n_cell_length_c   9.3952\n_cell_angle_alpha   126.3180\n_cell_angle_beta   126.3180\n_cell_angle_gamma   79.3662\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pb2Br5N\n_chemical_formula_sum   'Pb4 Br10 N2'\n_cell_volume   520.4563\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pb  Pb0  1  0.1714  0.6714  0.8428  1\n  Pb  Pb1  1  0.8286  0.3286  0.1572  1\n  Pb  Pb2  1  0.6714  0.8286  0.5000  1\n  Pb  Pb3  1  0.3286  0.1714  0.5000  1\n  Br  Br4  1  0.7728  0.2728  0.7815  1\n  Br  Br5  1  0.4913  0.9913  0.2185  1\n  Br  Br6  1  0.2728  0.4913  0.5000  1\n  Br  Br7  1  0.9913  0.7728  0.5000  1\n  Br  Br8  1  0.2272  0.7272  0.2185  1\n  Br  Br9  1  0.5087  0.0087  0.7815  1\n  Br  Br10  1  0.7272  0.5087  0.5000  1\n  Br  Br11  1  0.0087  0.2272  0.5000  1\n  Br  Br12  1  0.0000  0.0000  0.0000  1\n  Br  Br13  1  0.5000  0.5000  0.0000  1\n  N  N14  1  0.7500  0.7500  0.0000  1\n  N  N15  1  0.2500  0.2500  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pb3Br10PbN2\n_chemical_formula_sum              \"Pb4 Br10 N2\"\n_cell_length_a       9.3952\n_cell_length_b       9.3952\n_cell_length_c       9.3952\n_cell_angle_alpha    126.3180\n_cell_angle_beta     126.3180\n_cell_angle_gamma    79.3662\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pb  Pb1       1.0000  0.1714  0.6714  0.8428  1.0000\n  Pb  Pb2       1.0000  0.8286  0.3286  0.1572  1.0000\n  Pb  Pb3       1.0000  0.6714  0.8286  0.5000  1.0000\n  Br  Br1       1.0000  0.3286  0.1714  0.5000  1.0000\n  Br  Br2       1.0000  0.7728  0.2728  0.7815  1.0000\n  Br  Br3       1.0000  0.4913  0.9913  0.2185  1.0000\n  Br  Br4       1.0000  0.2728  0.4913  0.5000  1.0000\n  Br  Br5       1.0000  0.9913  0.7728  0.5000  1.0000\n  Br  Br6       1.0000  0.2272  0.7272  0.2185  1.0000\n  Br  Br7       1.0000  0.5087  0.0087  0.7815  1.0000\n  Br  Br8       1.0000  0.7272  0.5087  0.5000  1.0000\n  Br  Br9       1.0000  0.0087  0.2272  0.5000  1.0000\n  Br  Br10      1.0000  0.0000  0.0000  0.0000  1.0000\n  Pb  Pb4       1.0000  0.5000  0.5000  0.0000  1.0000\n  N   N1        1.0000  0.7500  0.7500  0.0000  1.0000\n  N   N2        1.0000  0.2500  0.2500  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eae1c00d-5d82-4569-8709-a8f90a740574",
    "mp_id": "mp-732021",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_AsC6NF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5488\n_cell_length_b   10.5274\n_cell_length_c   11.7759\n_cell_angle_alpha   84.7382\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   AsC6NF4\n_chemical_formula_sum   'As4 C24 N4 F16'\n_cell_volume   931.8865\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  As  As0  1  0.5831  0.0087  0.1619  1\n  As  As1  1  0.0831  0.4913  0.8381  1\n  As  As2  1  0.4169  0.9913  0.8381  1\n  As  As3  1  0.9169  0.5087  0.1619  1\n  C  C4  1  0.7699  0.9243  0.2723  1\n  C  C5  1  0.2699  0.5757  0.7277  1\n  C  C6  1  0.2301  0.0757  0.7277  1\n  C  C7  1  0.7301  0.4243  0.2723  1\n  C  C8  1  0.4610  0.0730  0.2816  1\n  C  C9  1  0.9610  0.4270  0.7184  1\n  C  C10  1  0.5390  0.9270  0.7184  1\n  C  C11  1  0.0390  0.5730  0.2816  1\n  C  C12  1  0.2645  0.2294  0.3413  1\n  C  C13  1  0.7645  0.2706  0.6587  1\n  C  C14  1  0.7355  0.7706  0.6587  1\n  C  C15  1  0.2355  0.7294  0.3413  1\n  C  C16  1  0.2559  0.3163  0.4098  1\n  C  C17  1  0.7559  0.1837  0.5902  1\n  C  C18  1  0.7441  0.6837  0.5902  1\n  C  C19  1  0.2441  0.8163  0.4098  1\n  C  C20  1  0.2314  0.1584  0.1592  1\n  C  C21  1  0.7314  0.3416  0.8408  1\n  C  C22  1  0.7686  0.8416  0.8408  1\n  C  C23  1  0.2686  0.6584  0.1592  1\n  C  C24  1  0.1409  0.1579  0.0681  1\n  C  C25  1  0.6409  0.3421  0.9319  1\n  C  C26  1  0.8591  0.8421  0.9319  1\n  C  C27  1  0.3591  0.6579  0.0681  1\n  N  N28  1  0.3127  0.1549  0.2606  1\n  N  N29  1  0.8127  0.3451  0.7394  1\n  N  N30  1  0.6873  0.8451  0.7394  1\n  N  N31  1  0.1873  0.6549  0.2606  1\n  F  F32  1  0.8547  0.0094  0.3327  1\n  F  F33  1  0.3547  0.4906  0.6673  1\n  F  F34  1  0.1453  0.9906  0.6673  1\n  F  F35  1  0.6453  0.5094  0.3327  1\n  F  F36  1  0.8937  0.8677  0.2094  1\n  F  F37  1  0.3937  0.6323  0.7906  1\n  F  F38  1  0.1063  0.1323  0.7906  1\n  F  F39  1  0.6063  0.3677  0.2094  1\n  F  F40  1  0.6964  0.8324  0.3457  1\n  F  F41  1  0.1964  0.6676  0.6543  1\n  F  F42  1  0.3036  0.1676  0.6543  1\n  F  F43  1  0.8036  0.3324  0.3457  1\n  F  F44  1  0.5079  0.0625  0.3897  1\n  F  F45  1  0.0079  0.4375  0.6103  1\n  F  F46  1  0.4921  0.9375  0.6103  1\n  F  F47  1  0.9921  0.5625  0.3897  1\n",
    "output": "data_image0\n_chemical_formula_structural       As3C24AsN4F16\n_chemical_formula_sum              \"As4 C24 N4 F16\"\n_cell_length_a       7.5488\n_cell_length_b       10.5274\n_cell_length_c       11.7759\n_cell_angle_alpha    84.7382\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  As  As1       1.0000  0.5831  0.0087  0.1619  1.0000\n  As  As2       1.0000  0.0831  0.4913  0.8381  1.0000\n  As  As3       1.0000  0.4169  0.9913  0.8381  1.0000\n  C   C1        1.0000  0.9169  0.5087  0.1619  1.0000\n  C   C2        1.0000  0.7699  0.9243  0.2723  1.0000\n  C   C3        1.0000  0.2699  0.5757  0.7277  1.0000\n  C   C4        1.0000  0.2301  0.0757  0.7277  1.0000\n  C   C5        1.0000  0.7301  0.4243  0.2723  1.0000\n  C   C6        1.0000  0.4610  0.0730  0.2816  1.0000\n  C   C7        1.0000  0.9610  0.4270  0.7184  1.0000\n  C   C8        1.0000  0.5390  0.9270  0.7184  1.0000\n  C   C9        1.0000  0.0390  0.5730  0.2816  1.0000\n  C   C10       1.0000  0.2645  0.2294  0.3413  1.0000\n  C   C11       1.0000  0.7645  0.2706  0.6587  1.0000\n  C   C12       1.0000  0.7355  0.7706  0.6587  1.0000\n  C   C13       1.0000  0.2355  0.7294  0.3413  1.0000\n  C   C14       1.0000  0.2559  0.3163  0.4098  1.0000\n  C   C15       1.0000  0.7559  0.1837  0.5902  1.0000\n  C   C16       1.0000  0.7441  0.6837  0.5902  1.0000\n  C   C17       1.0000  0.2441  0.8163  0.4098  1.0000\n  C   C18       1.0000  0.2314  0.1584  0.1592  1.0000\n  C   C19       1.0000  0.7314  0.3416  0.8408  1.0000\n  C   C20       1.0000  0.7686  0.8416  0.8408  1.0000\n  C   C21       1.0000  0.2686  0.6584  0.1592  1.0000\n  C   C22       1.0000  0.1409  0.1579  0.0681  1.0000\n  C   C23       1.0000  0.6409  0.3421  0.9319  1.0000\n  C   C24       1.0000  0.8591  0.8421  0.9319  1.0000\n  As  As4       1.0000  0.3591  0.6579  0.0681  1.0000\n  N   N1        1.0000  0.3127  0.1549  0.2606  1.0000\n  N   N2        1.0000  0.8127  0.3451  0.7394  1.0000\n  N   N3        1.0000  0.6873  0.8451  0.7394  1.0000\n  N   N4        1.0000  0.1873  0.6549  0.2606  1.0000\n  F   F1        1.0000  0.8547  0.0094  0.3327  1.0000\n  F   F2        1.0000  0.3547  0.4906  0.6673  1.0000\n  F   F3        1.0000  0.1453  0.9906  0.6673  1.0000\n  F   F4        1.0000  0.6453  0.5094  0.3327  1.0000\n  F   F5        1.0000  0.8937  0.8677  0.2094  1.0000\n  F   F6        1.0000  0.3937  0.6323  0.7906  1.0000\n  F   F7        1.0000  0.1063  0.1323  0.7906  1.0000\n  F   F8        1.0000  0.6063  0.3677  0.2094  1.0000\n  F   F9        1.0000  0.6964  0.8324  0.3457  1.0000\n  F   F10       1.0000  0.1964  0.6676  0.6543  1.0000\n  F   F11       1.0000  0.3036  0.1676  0.6543  1.0000\n  F   F12       1.0000  0.8036  0.3324  0.3457  1.0000\n  F   F13       1.0000  0.5079  0.0625  0.3897  1.0000\n  F   F14       1.0000  0.0079  0.4375  0.6103  1.0000\n  F   F15       1.0000  0.4921  0.9375  0.6103  1.0000\n  F   F16       1.0000  0.9921  0.5625  0.3897  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4ab8dc00-c48c-488a-b7ed-d4f586082899",
    "mp_id": "mp-734013",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaBrO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5091\n_cell_length_b   5.6635\n_cell_length_c   7.4052\n_cell_angle_alpha   74.3244\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaBrO2\n_chemical_formula_sum   'Na4 Br4 O8'\n_cell_volume   343.5956\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.6750  0.0638  0.9700  1\n  Na  Na1  1  0.1750  0.9362  0.5300  1\n  Na  Na2  1  0.3250  0.9362  0.0300  1\n  Na  Na3  1  0.8250  0.0638  0.4700  1\n  Br  Br4  1  0.4921  0.5703  0.7421  1\n  Br  Br5  1  0.9921  0.4297  0.7579  1\n  Br  Br6  1  0.5079  0.4297  0.2579  1\n  Br  Br7  1  0.0079  0.5703  0.2421  1\n  O  O8  1  0.8369  0.2408  0.7236  1\n  O  O9  1  0.3369  0.7592  0.7764  1\n  O  O10  1  0.1631  0.7592  0.2764  1\n  O  O11  1  0.6631  0.2408  0.2236  1\n  O  O12  1  0.9357  0.7365  0.6847  1\n  O  O13  1  0.4357  0.2635  0.8153  1\n  O  O14  1  0.0643  0.2635  0.3153  1\n  O  O15  1  0.5643  0.7365  0.1847  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Br2OBrO6BrO\n_chemical_formula_sum              \"Na4 Br4 O8\"\n_cell_length_a       8.5091\n_cell_length_b       5.6635\n_cell_length_c       7.4052\n_cell_angle_alpha    74.3244\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.6750  0.0638  0.9700  1.0000\n  Na  Na2       1.0000  0.1750  0.9362  0.5300  1.0000\n  Na  Na3       1.0000  0.3250  0.9362  0.0300  1.0000\n  Na  Na4       1.0000  0.8250  0.0638  0.4700  1.0000\n  Br  Br1       1.0000  0.4921  0.5703  0.7421  1.0000\n  Br  Br2       1.0000  0.9921  0.4297  0.7579  1.0000\n  O   O1        1.0000  0.5079  0.4297  0.2579  1.0000\n  Br  Br3       1.0000  0.0079  0.5703  0.2421  1.0000\n  O   O2        1.0000  0.8369  0.2408  0.7236  1.0000\n  O   O3        1.0000  0.3369  0.7592  0.7764  1.0000\n  O   O4        1.0000  0.1631  0.7592  0.2764  1.0000\n  O   O5        1.0000  0.6631  0.2408  0.2236  1.0000\n  O   O6        1.0000  0.9357  0.7365  0.6847  1.0000\n  O   O7        1.0000  0.4357  0.2635  0.8153  1.0000\n  Br  Br4       1.0000  0.0643  0.2635  0.3153  1.0000\n  O   O8        1.0000  0.5643  0.7365  0.1847  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "20f3bd82-a0b4-4363-b935-4d77020670ed",
    "mp_id": "mp-738609",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 43 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiH20C8BrO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.8397\n_cell_length_b   7.8397\n_cell_length_c   12.3830\n_cell_angle_alpha   84.5104\n_cell_angle_beta   84.5104\n_cell_angle_gamma   62.4314\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiH20C8BrO4\n_chemical_formula_sum   'Li2 H40 C16 Br2 O8'\n_cell_volume   670.4269\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0614  0.9386  0.7500  1\n  Li  Li1  1  0.9386  0.0614  0.2500  1\n  H  H2  1  0.1524  0.7024  0.4751  1\n  H  H3  1  0.2976  0.8476  0.0249  1\n  H  H4  1  0.8476  0.2976  0.5249  1\n  H  H5  1  0.7024  0.1524  0.9751  1\n  H  H6  1  0.2478  0.5500  0.5948  1\n  H  H7  1  0.4500  0.7522  0.9052  1\n  H  H8  1  0.7522  0.4500  0.4052  1\n  H  H9  1  0.5500  0.2478  0.0948  1\n  H  H10  1  0.4378  0.8847  0.5974  1\n  H  H11  1  0.1153  0.5622  0.9026  1\n  H  H12  1  0.5622  0.1153  0.4026  1\n  H  H13  1  0.8847  0.4378  0.0974  1\n  H  H14  1  0.4959  0.6342  0.6081  1\n  H  H15  1  0.3658  0.5041  0.8919  1\n  H  H16  1  0.5041  0.3658  0.3919  1\n  H  H17  1  0.6342  0.4959  0.1081  1\n  H  H18  1  0.4262  0.7712  0.4801  1\n  H  H19  1  0.2288  0.5738  0.0199  1\n  H  H20  1  0.5738  0.2288  0.5199  1\n  H  H21  1  0.7712  0.4262  0.9801  1\n  H  H22  1  0.9012  0.6421  0.5895  1\n  H  H23  1  0.3579  0.0988  0.9105  1\n  H  H24  1  0.0988  0.3579  0.4105  1\n  H  H25  1  0.6421  0.9012  0.0895  1\n  H  H26  1  0.8412  0.8935  0.5777  1\n  H  H27  1  0.1065  0.1588  0.9223  1\n  H  H28  1  0.1588  0.1065  0.4223  1\n  H  H29  1  0.8935  0.8412  0.0777  1\n  H  H30  1  0.7723  0.7804  0.8668  1\n  H  H31  1  0.2196  0.2277  0.6332  1\n  H  H32  1  0.2277  0.2196  0.1332  1\n  H  H33  1  0.7804  0.7723  0.3668  1\n  H  H34  1  0.6451  0.9174  0.7510  1\n  H  H35  1  0.0826  0.3549  0.7490  1\n  H  H36  1  0.3549  0.0826  0.2490  1\n  H  H37  1  0.9174  0.6451  0.2510  1\n  H  H38  1  0.7328  0.6583  0.7633  1\n  H  H39  1  0.3417  0.2672  0.7367  1\n  H  H40  1  0.2672  0.3417  0.2367  1\n  H  H41  1  0.6583  0.7328  0.2633  1\n  C  C42  1  0.1466  0.6971  0.5649  1\n  C  C43  1  0.3029  0.8534  0.9351  1\n  C  C44  1  0.8534  0.3029  0.4351  1\n  C  C45  1  0.6971  0.1466  0.0649  1\n  C  C46  1  0.4031  0.7764  0.5691  1\n  C  C47  1  0.2236  0.5969  0.9309  1\n  C  C48  1  0.5969  0.2236  0.4309  1\n  C  C49  1  0.7764  0.4031  0.0691  1\n  C  C50  1  0.9445  0.7499  0.6109  1\n  C  C51  1  0.2501  0.0555  0.8891  1\n  C  C52  1  0.0555  0.2501  0.3891  1\n  C  C53  1  0.7499  0.9445  0.1109  1\n  C  C54  1  0.7616  0.7784  0.7791  1\n  C  C55  1  0.2216  0.2384  0.7209  1\n  C  C56  1  0.2384  0.2216  0.2209  1\n  C  C57  1  0.7784  0.7616  0.2791  1\n  Br  Br58  1  0.7392  0.2608  0.7500  1\n  Br  Br59  1  0.2608  0.7392  0.2500  1\n  O  O60  1  0.2037  0.8320  0.6004  1\n  O  O61  1  0.1680  0.7963  0.8996  1\n  O  O62  1  0.7963  0.1680  0.3996  1\n  O  O63  1  0.8320  0.2037  0.1004  1\n  O  O64  1  0.9433  0.7511  0.7268  1\n  O  O65  1  0.2489  0.0567  0.7732  1\n  O  O66  1  0.0567  0.2489  0.2732  1\n  O  O67  1  0.7511  0.9433  0.2268  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2H18CH21CHC14Br2O8\n_chemical_formula_sum              \"Li2 H40 C16 Br2 O8\"\n_cell_length_a       7.8397\n_cell_length_b       7.8397\n_cell_length_c       12.3830\n_cell_angle_alpha    84.5104\n_cell_angle_beta     84.5104\n_cell_angle_gamma    62.4314\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0614  0.9386  0.7500  1.0000\n  Li  Li2       1.0000  0.9386  0.0614  0.2500  1.0000\n  H   H1        1.0000  0.1524  0.7024  0.4751  1.0000\n  H   H2        1.0000  0.2976  0.8476  0.0249  1.0000\n  H   H3        1.0000  0.8476  0.2976  0.5249  1.0000\n  H   H4        1.0000  0.7024  0.1524  0.9751  1.0000\n  H   H5        1.0000  0.2478  0.5500  0.5948  1.0000\n  H   H6        1.0000  0.4500  0.7522  0.9052  1.0000\n  H   H7        1.0000  0.7522  0.4500  0.4052  1.0000\n  H   H8        1.0000  0.5500  0.2478  0.0948  1.0000\n  H   H9        1.0000  0.4378  0.8847  0.5974  1.0000\n  H   H10       1.0000  0.1153  0.5622  0.9026  1.0000\n  H   H11       1.0000  0.5622  0.1153  0.4026  1.0000\n  H   H12       1.0000  0.8847  0.4378  0.0974  1.0000\n  H   H13       1.0000  0.4959  0.6342  0.6081  1.0000\n  H   H14       1.0000  0.3658  0.5041  0.8919  1.0000\n  H   H15       1.0000  0.5041  0.3658  0.3919  1.0000\n  H   H16       1.0000  0.6342  0.4959  0.1081  1.0000\n  H   H17       1.0000  0.4262  0.7712  0.4801  1.0000\n  H   H18       1.0000  0.2288  0.5738  0.0199  1.0000\n  C   C1        1.0000  0.5738  0.2288  0.5199  1.0000\n  H   H19       1.0000  0.7712  0.4262  0.9801  1.0000\n  H   H20       1.0000  0.9012  0.6421  0.5895  1.0000\n  H   H21       1.0000  0.3579  0.0988  0.9105  1.0000\n  H   H22       1.0000  0.0988  0.3579  0.4105  1.0000\n  H   H23       1.0000  0.6421  0.9012  0.0895  1.0000\n  H   H24       1.0000  0.8412  0.8935  0.5777  1.0000\n  H   H25       1.0000  0.1065  0.1588  0.9223  1.0000\n  H   H26       1.0000  0.1588  0.1065  0.4223  1.0000\n  H   H27       1.0000  0.8935  0.8412  0.0777  1.0000\n  H   H28       1.0000  0.7723  0.7804  0.8668  1.0000\n  H   H29       1.0000  0.2196  0.2277  0.6332  1.0000\n  H   H30       1.0000  0.2277  0.2196  0.1332  1.0000\n  H   H31       1.0000  0.7804  0.7723  0.3668  1.0000\n  H   H32       1.0000  0.6451  0.9174  0.7510  1.0000\n  H   H33       1.0000  0.0826  0.3549  0.7490  1.0000\n  H   H34       1.0000  0.3549  0.0826  0.2490  1.0000\n  H   H35       1.0000  0.9174  0.6451  0.2510  1.0000\n  H   H36       1.0000  0.7328  0.6583  0.7633  1.0000\n  H   H37       1.0000  0.3417  0.2672  0.7367  1.0000\n  H   H38       1.0000  0.2672  0.3417  0.2367  1.0000\n  H   H39       1.0000  0.6583  0.7328  0.2633  1.0000\n  C   C2        1.0000  0.1466  0.6971  0.5649  1.0000\n  H   H40       1.0000  0.3029  0.8534  0.9351  1.0000\n  C   C3        1.0000  0.8534  0.3029  0.4351  1.0000\n  C   C4        1.0000  0.6971  0.1466  0.0649  1.0000\n  C   C5        1.0000  0.4031  0.7764  0.5691  1.0000\n  C   C6        1.0000  0.2236  0.5969  0.9309  1.0000\n  C   C7        1.0000  0.5969  0.2236  0.4309  1.0000\n  C   C8        1.0000  0.7764  0.4031  0.0691  1.0000\n  C   C9        1.0000  0.9445  0.7499  0.6109  1.0000\n  C   C10       1.0000  0.2501  0.0555  0.8891  1.0000\n  C   C11       1.0000  0.0555  0.2501  0.3891  1.0000\n  C   C12       1.0000  0.7499  0.9445  0.1109  1.0000\n  C   C13       1.0000  0.7616  0.7784  0.7791  1.0000\n  C   C14       1.0000  0.2216  0.2384  0.7209  1.0000\n  C   C15       1.0000  0.2384  0.2216  0.2209  1.0000\n  C   C16       1.0000  0.7784  0.7616  0.2791  1.0000\n  Br  Br1       1.0000  0.7392  0.2608  0.7500  1.0000\n  Br  Br2       1.0000  0.2608  0.7392  0.2500  1.0000\n  O   O1        1.0000  0.2037  0.8320  0.6004  1.0000\n  O   O2        1.0000  0.1680  0.7963  0.8996  1.0000\n  O   O3        1.0000  0.7963  0.1680  0.3996  1.0000\n  O   O4        1.0000  0.8320  0.2037  0.1004  1.0000\n  O   O5        1.0000  0.9433  0.7511  0.7268  1.0000\n  O   O6        1.0000  0.2489  0.0567  0.7732  1.0000\n  O   O7        1.0000  0.0567  0.2489  0.2732  1.0000\n  O   O8        1.0000  0.7511  0.9433  0.2268  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "083ad3fe-2b64-45ab-b17b-ad7328808b7d",
    "mp_id": "mp-752590",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2Fe2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2987\n_cell_length_b   8.2987\n_cell_length_c   8.2987\n_cell_angle_alpha   141.6354\n_cell_angle_beta   141.0162\n_cell_angle_gamma   55.8473\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2Fe2O5\n_chemical_formula_sum   'Na4 Fe4 O10'\n_cell_volume   221.4600\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.8713  0.3917  0.4765  1\n  Na  Na1  1  0.5848  0.1052  0.4765  1\n  Na  Na2  1  0.1287  0.6052  0.5204  1\n  Na  Na3  1  0.4152  0.8917  0.5204  1\n  Fe  Fe4  1  0.0000  0.9910  0.9910  1\n  Fe  Fe5  1  0.8203  0.7889  0.1093  1\n  Fe  Fe6  1  0.5000  0.4910  0.9910  1\n  Fe  Fe7  1  0.1797  0.2889  0.9686  1\n  O  O8  1  0.7609  0.2501  0.9922  1\n  O  O9  1  0.7579  0.7501  0.4892  1\n  O  O10  1  0.8811  0.1257  0.5068  1\n  O  O11  1  0.8103  0.8369  0.9255  1\n  O  O12  1  0.5886  0.6152  0.9255  1\n  O  O13  1  0.1897  0.1152  0.0267  1\n  O  O14  1  0.4114  0.3369  0.0267  1\n  O  O15  1  0.1189  0.6257  0.2447  1\n  O  O16  1  0.2421  0.7313  0.9922  1\n  O  O17  1  0.2391  0.2313  0.4892  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na4Fe3O7FeO3\n_chemical_formula_sum              \"Na4 Fe4 O10\"\n_cell_length_a       8.2987\n_cell_length_b       8.2987\n_cell_length_c       8.2987\n_cell_angle_alpha    141.6354\n_cell_angle_beta     141.0162\n_cell_angle_gamma    55.8473\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.8713  0.3917  0.4765  1.0000\n  Na  Na2       1.0000  0.5848  0.1052  0.4765  1.0000\n  Na  Na3       1.0000  0.1287  0.6052  0.5204  1.0000\n  Na  Na4       1.0000  0.4152  0.8917  0.5204  1.0000\n  Fe  Fe1       1.0000  0.0000  0.9910  0.9910  1.0000\n  Fe  Fe2       1.0000  0.8203  0.7889  0.1093  1.0000\n  Fe  Fe3       1.0000  0.5000  0.4910  0.9910  1.0000\n  O   O1        1.0000  0.1797  0.2889  0.9686  1.0000\n  O   O2        1.0000  0.7609  0.2501  0.9922  1.0000\n  O   O3        1.0000  0.7579  0.7501  0.4892  1.0000\n  O   O4        1.0000  0.8811  0.1257  0.5068  1.0000\n  O   O5        1.0000  0.8103  0.8369  0.9255  1.0000\n  O   O6        1.0000  0.5886  0.6152  0.9255  1.0000\n  O   O7        1.0000  0.1897  0.1152  0.0267  1.0000\n  Fe  Fe4       1.0000  0.4114  0.3369  0.0267  1.0000\n  O   O8        1.0000  0.1189  0.6257  0.2447  1.0000\n  O   O9        1.0000  0.2421  0.7313  0.9922  1.0000\n  O   O10       1.0000  0.2391  0.2313  0.4892  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "227cd264-f5a2-45be-b028-4592d411e113",
    "mp_id": "mp-752623",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiCoSiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5145\n_cell_length_b   9.5446\n_cell_length_c   11.2449\n_cell_angle_alpha   90.0000\n_cell_angle_beta   89.9135\n_cell_angle_gamma   90.0011\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiCoSiO4\n_chemical_formula_sum   'Li6 Co6 Si6 O24'\n_cell_volume   591.8534\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9997  0.0003  0.1670  1\n  Li  Li1  1  0.4997  0.5003  0.1670  1\n  Li  Li2  1  0.0000  0.0001  0.5000  1\n  Li  Li3  1  0.5000  0.5000  0.5000  1\n  Li  Li4  1  0.0003  0.0004  0.8330  1\n  Li  Li5  1  0.5003  0.5003  0.8330  1\n  Co  Co6  1  0.2498  0.7503  0.1667  1\n  Co  Co7  1  0.7502  0.7503  0.8333  1\n  Co  Co8  1  0.0000  0.5000  0.5000  1\n  Co  Co9  1  0.7498  0.2503  0.1667  1\n  Co  Co10  1  0.2502  0.2503  0.8333  1\n  Co  Co11  1  0.5000  0.0000  0.5000  1\n  Si  Si12  1  0.7509  0.2494  0.6668  1\n  Si  Si13  1  0.2509  0.7494  0.6667  1\n  Si  Si14  1  0.2491  0.2494  0.3333  1\n  Si  Si15  1  0.7491  0.7494  0.3333  1\n  Si  Si16  1  0.5000  0.0003  1.0000  1\n  Si  Si17  1  0.0000  0.5003  0.0000  1\n  O  O18  1  0.8093  0.4145  0.0857  1\n  O  O19  1  0.3093  0.9145  0.0857  1\n  O  O20  1  0.7847  0.3877  0.5811  1\n  O  O21  1  0.2847  0.8878  0.5811  1\n  O  O22  1  0.0267  0.1973  0.2468  1\n  O  O23  1  0.5267  0.6973  0.2469  1\n  O  O24  1  0.9733  0.1973  0.7532  1\n  O  O25  1  0.4733  0.6973  0.7532  1\n  O  O26  1  0.2153  0.3877  0.4189  1\n  O  O27  1  0.7153  0.8878  0.4189  1\n  O  O28  1  0.1907  0.4145  0.9143  1\n  O  O29  1  0.6907  0.9145  0.9143  1\n  O  O30  1  0.2825  0.1120  0.4197  1\n  O  O31  1  0.7825  0.6120  0.4197  1\n  O  O32  1  0.3103  0.0860  0.9141  1\n  O  O33  1  0.8103  0.5860  0.9141  1\n  O  O34  1  0.4738  0.3023  0.2479  1\n  O  O35  1  0.9738  0.8022  0.2479  1\n  O  O36  1  0.5262  0.3023  0.7521  1\n  O  O37  1  0.0262  0.8022  0.7521  1\n  O  O38  1  0.6897  0.0860  0.0859  1\n  O  O39  1  0.1897  0.5860  0.0859  1\n  O  O40  1  0.7175  0.1120  0.5803  1\n  O  O41  1  0.2175  0.6119  0.5803  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3SiLi2Co6Si3LiSi2O24\n_chemical_formula_sum              \"Li6 Si6 Co6 O24\"\n_cell_length_a       5.5145\n_cell_length_b       9.5446\n_cell_length_c       11.2449\n_cell_angle_alpha    90.0000\n_cell_angle_beta     89.9135\n_cell_angle_gamma    90.0011\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9997  0.0003  0.1670  1.0000\n  Li  Li2       1.0000  0.4997  0.5003  0.1670  1.0000\n  Li  Li3       1.0000  0.0000  0.0001  0.5000  1.0000\n  Si  Si1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Li  Li4       1.0000  0.0003  0.0004  0.8330  1.0000\n  Li  Li5       1.0000  0.5003  0.5003  0.8330  1.0000\n  Co  Co1       1.0000  0.2498  0.7503  0.1667  1.0000\n  Co  Co2       1.0000  0.7502  0.7503  0.8333  1.0000\n  Co  Co3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Co  Co4       1.0000  0.7498  0.2503  0.1667  1.0000\n  Co  Co5       1.0000  0.2502  0.2503  0.8333  1.0000\n  Co  Co6       1.0000  0.5000  0.0000  0.5000  1.0000\n  Si  Si2       1.0000  0.7509  0.2494  0.6668  1.0000\n  Si  Si3       1.0000  0.2509  0.7494  0.6667  1.0000\n  Si  Si4       1.0000  0.2491  0.2494  0.3333  1.0000\n  Li  Li6       1.0000  0.7491  0.7494  0.3333  1.0000\n  Si  Si5       1.0000  0.5000  0.0003  1.0000  1.0000\n  Si  Si6       1.0000  0.0000  0.5003  0.0000  1.0000\n  O   O1        1.0000  0.8093  0.4145  0.0857  1.0000\n  O   O2        1.0000  0.3093  0.9145  0.0857  1.0000\n  O   O3        1.0000  0.7847  0.3877  0.5811  1.0000\n  O   O4        1.0000  0.2847  0.8878  0.5811  1.0000\n  O   O5        1.0000  0.0267  0.1973  0.2468  1.0000\n  O   O6        1.0000  0.5267  0.6973  0.2469  1.0000\n  O   O7        1.0000  0.9733  0.1973  0.7532  1.0000\n  O   O8        1.0000  0.4733  0.6973  0.7532  1.0000\n  O   O9        1.0000  0.2153  0.3877  0.4189  1.0000\n  O   O10       1.0000  0.7153  0.8878  0.4189  1.0000\n  O   O11       1.0000  0.1907  0.4145  0.9143  1.0000\n  O   O12       1.0000  0.6907  0.9145  0.9143  1.0000\n  O   O13       1.0000  0.2825  0.1120  0.4197  1.0000\n  O   O14       1.0000  0.7825  0.6120  0.4197  1.0000\n  O   O15       1.0000  0.3103  0.0860  0.9141  1.0000\n  O   O16       1.0000  0.8103  0.5860  0.9141  1.0000\n  O   O17       1.0000  0.4738  0.3023  0.2479  1.0000\n  O   O18       1.0000  0.9738  0.8022  0.2479  1.0000\n  O   O19       1.0000  0.5262  0.3023  0.7521  1.0000\n  O   O20       1.0000  0.0262  0.8022  0.7521  1.0000\n  O   O21       1.0000  0.6897  0.0860  0.0859  1.0000\n  O   O22       1.0000  0.1897  0.5860  0.0859  1.0000\n  O   O23       1.0000  0.7175  0.1120  0.5803  1.0000\n  O   O24       1.0000  0.2175  0.6119  0.5803  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c838f00e-352d-48f2-8f6a-565e3530fd86",
    "mp_id": "mp-752859",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFeP2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5947\n_cell_length_b   5.1533\n_cell_length_c   6.8185\n_cell_angle_alpha   70.9327\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFeP2O7\n_chemical_formula_sum   'Li2 Fe2 P4 O14'\n_cell_volume   285.4282\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5170  0.7381  0.8024  1\n  Li  Li1  1  0.0170  0.2619  0.1976  1\n  Fe  Fe2  1  0.1553  0.8058  0.6714  1\n  Fe  Fe3  1  0.6553  0.1942  0.3286  1\n  P  P4  1  0.8127  0.6087  0.5419  1\n  P  P5  1  0.2091  0.8192  0.0503  1\n  P  P6  1  0.7091  0.1808  0.9497  1\n  P  P7  1  0.3127  0.3913  0.4581  1\n  O  O8  1  0.6692  0.9647  0.8597  1\n  O  O9  1  0.3208  0.8962  0.8606  1\n  O  O10  1  0.9710  0.7487  0.5261  1\n  O  O11  1  0.6721  0.8057  0.5010  1\n  O  O12  1  0.3075  0.5761  0.5959  1\n  O  O13  1  0.5713  0.3174  0.0334  1\n  O  O14  1  0.8011  0.4277  0.7800  1\n  O  O15  1  0.3011  0.5723  0.2200  1\n  O  O16  1  0.0713  0.6826  0.9666  1\n  O  O17  1  0.8075  0.4239  0.4041  1\n  O  O18  1  0.1721  0.1943  0.4990  1\n  O  O19  1  0.4710  0.2513  0.4739  1\n  O  O20  1  0.8208  0.1038  0.1394  1\n  O  O21  1  0.1692  0.0353  0.1403  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2FeOP4O9FeO4\n_chemical_formula_sum              \"Li2 Fe2 O14 P4\"\n_cell_length_a       8.5947\n_cell_length_b       5.1533\n_cell_length_c       6.8185\n_cell_angle_alpha    70.9327\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5170  0.7381  0.8024  1.0000\n  Li  Li2       1.0000  0.0170  0.2619  0.1976  1.0000\n  Fe  Fe1       1.0000  0.1553  0.8058  0.6714  1.0000\n  O   O1        1.0000  0.6553  0.1942  0.3286  1.0000\n  P   P1        1.0000  0.8127  0.6087  0.5419  1.0000\n  P   P2        1.0000  0.2091  0.8192  0.0503  1.0000\n  P   P3        1.0000  0.7091  0.1808  0.9497  1.0000\n  P   P4        1.0000  0.3127  0.3913  0.4581  1.0000\n  O   O2        1.0000  0.6692  0.9647  0.8597  1.0000\n  O   O3        1.0000  0.3208  0.8962  0.8606  1.0000\n  O   O4        1.0000  0.9710  0.7487  0.5261  1.0000\n  O   O5        1.0000  0.6721  0.8057  0.5010  1.0000\n  O   O6        1.0000  0.3075  0.5761  0.5959  1.0000\n  O   O7        1.0000  0.5713  0.3174  0.0334  1.0000\n  O   O8        1.0000  0.8011  0.4277  0.7800  1.0000\n  O   O9        1.0000  0.3011  0.5723  0.2200  1.0000\n  O   O10       1.0000  0.0713  0.6826  0.9666  1.0000\n  Fe  Fe2       1.0000  0.8075  0.4239  0.4041  1.0000\n  O   O11       1.0000  0.1721  0.1943  0.4990  1.0000\n  O   O12       1.0000  0.4710  0.2513  0.4739  1.0000\n  O   O13       1.0000  0.8208  0.1038  0.1394  1.0000\n  O   O14       1.0000  0.1692  0.0353  0.1403  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "345e3de7-bc19-45de-9a44-670c9b4ae4e6",
    "mp_id": "mp-752896",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe2C2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9531\n_cell_length_b   4.9609\n_cell_length_c   16.0125\n_cell_angle_alpha   89.7022\n_cell_angle_beta   90.6199\n_cell_angle_gamma   119.8991\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe2C2O7\n_chemical_formula_sum   'Fe4 C4 O14'\n_cell_volume   341.0683\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.3364  0.6713  0.1363  1\n  Fe  Fe1  1  0.3338  0.6710  0.3637  1\n  Fe  Fe2  1  0.6662  0.3290  0.6363  1\n  Fe  Fe3  1  0.6636  0.3287  0.8637  1\n  C  C4  1  0.6671  0.3348  0.0963  1\n  C  C5  1  0.6676  0.3349  0.4037  1\n  C  C6  1  0.3324  0.6651  0.5963  1\n  C  C7  1  0.3329  0.6652  0.9037  1\n  O  O8  1  0.4129  0.0686  0.4061  1\n  O  O9  1  0.0670  0.4108  0.9047  1\n  O  O10  1  0.4120  0.3460  0.0976  1\n  O  O11  1  0.3444  0.4105  0.5960  1\n  O  O12  1  0.6557  0.0685  0.0941  1\n  O  O13  1  0.0664  0.6542  0.5973  1\n  O  O14  1  0.6643  0.3248  0.7500  1\n  O  O15  1  0.3357  0.6752  0.2500  1\n  O  O16  1  0.9336  0.3458  0.4027  1\n  O  O17  1  0.3443  0.9315  0.9059  1\n  O  O18  1  0.6556  0.5895  0.4040  1\n  O  O19  1  0.5880  0.6540  0.9024  1\n  O  O20  1  0.9330  0.5892  0.0953  1\n  O  O21  1  0.5871  0.9314  0.5939  1\n",
    "output": "data_image0\n_chemical_formula_structural       FeOFe2C4O10FeO3\n_chemical_formula_sum              \"Fe4 O14 C4\"\n_cell_length_a       4.9531\n_cell_length_b       4.9609\n_cell_length_c       16.0125\n_cell_angle_alpha    89.7022\n_cell_angle_beta     90.6199\n_cell_angle_gamma    119.8991\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.3364  0.6713  0.1363  1.0000\n  O   O1        1.0000  0.3338  0.6710  0.3637  1.0000\n  Fe  Fe2       1.0000  0.6662  0.3290  0.6363  1.0000\n  Fe  Fe3       1.0000  0.6636  0.3287  0.8637  1.0000\n  C   C1        1.0000  0.6671  0.3348  0.0963  1.0000\n  C   C2        1.0000  0.6676  0.3349  0.4037  1.0000\n  C   C3        1.0000  0.3324  0.6651  0.5963  1.0000\n  C   C4        1.0000  0.3329  0.6652  0.9037  1.0000\n  O   O2        1.0000  0.4129  0.0686  0.4061  1.0000\n  O   O3        1.0000  0.0670  0.4108  0.9047  1.0000\n  O   O4        1.0000  0.4120  0.3460  0.0976  1.0000\n  O   O5        1.0000  0.3444  0.4105  0.5960  1.0000\n  O   O6        1.0000  0.6557  0.0685  0.0941  1.0000\n  O   O7        1.0000  0.0664  0.6542  0.5973  1.0000\n  O   O8        1.0000  0.6643  0.3248  0.7500  1.0000\n  O   O9        1.0000  0.3357  0.6752  0.2500  1.0000\n  O   O10       1.0000  0.9336  0.3458  0.4027  1.0000\n  O   O11       1.0000  0.3443  0.9315  0.9059  1.0000\n  Fe  Fe4       1.0000  0.6556  0.5895  0.4040  1.0000\n  O   O12       1.0000  0.5880  0.6540  0.9024  1.0000\n  O   O13       1.0000  0.9330  0.5892  0.0953  1.0000\n  O   O14       1.0000  0.5871  0.9314  0.5939  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ddc58e5f-fba0-40f4-814d-f2de1f7acc03",
    "mp_id": "mp-752915",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiV2(SiO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8626\n_cell_length_b   4.8626\n_cell_length_c   6.2644\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   112.3599\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiV2(SiO4)2\n_chemical_formula_sum   'Li1 V2 Si2 O8'\n_cell_volume   136.9857\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3257  0.6743  0.5000  1\n  V  V1  1  0.9967  0.0033  0.2421  1\n  V  V2  1  0.9967  0.0033  0.7579  1\n  Si  Si3  1  0.3503  0.6497  0.0000  1\n  Si  Si4  1  0.6528  0.3472  0.5000  1\n  O  O5  1  0.2345  0.7655  0.7854  1\n  O  O6  1  0.2345  0.7655  0.2146  1\n  O  O7  1  0.2172  0.2790  0.0000  1\n  O  O8  1  0.2842  0.2272  0.5000  1\n  O  O9  1  0.7210  0.7828  0.0000  1\n  O  O10  1  0.7728  0.7158  0.5000  1\n  O  O11  1  0.7740  0.2260  0.7062  1\n  O  O12  1  0.7740  0.2260  0.2938  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOVSi2O5VO2\n_chemical_formula_sum              \"Li1 O8 V2 Si2\"\n_cell_length_a       4.8626\n_cell_length_b       4.8626\n_cell_length_c       6.2644\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    112.3599\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3257  0.6743  0.5000  1.0000\n  O   O1        1.0000  0.9967  0.0033  0.2421  1.0000\n  V   V1        1.0000  0.9967  0.0033  0.7579  1.0000\n  Si  Si1       1.0000  0.3503  0.6497  0.0000  1.0000\n  Si  Si2       1.0000  0.6528  0.3472  0.5000  1.0000\n  O   O2        1.0000  0.2345  0.7655  0.7854  1.0000\n  O   O3        1.0000  0.2345  0.7655  0.2146  1.0000\n  O   O4        1.0000  0.2172  0.2790  0.0000  1.0000\n  O   O5        1.0000  0.2842  0.2272  0.5000  1.0000\n  O   O6        1.0000  0.7210  0.7828  0.0000  1.0000\n  V   V2        1.0000  0.7728  0.7158  0.5000  1.0000\n  O   O7        1.0000  0.7740  0.2260  0.7062  1.0000\n  O   O8        1.0000  0.7740  0.2260  0.2938  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "663d9d65-3210-4c63-9ba3-30b8036fc950",
    "mp_id": "mp-752916",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4V3(FeO5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1537\n_cell_length_b   5.1994\n_cell_length_c   7.9421\n_cell_angle_alpha   108.9899\n_cell_angle_beta   101.1427\n_cell_angle_gamma   100.8595\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4V3(FeO5)2\n_chemical_formula_sum   'Li4 V3 Fe2 O10'\n_cell_volume   190.0616\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2219  0.9386  0.4275  1\n  Li  Li1  1  0.4998  0.4817  0.5062  1\n  Li  Li2  1  0.6124  0.7209  0.2276  1\n  Li  Li3  1  0.7999  0.0928  0.5908  1\n  V  V4  1  0.9984  0.4960  0.9964  1\n  V  V5  1  0.3034  0.1097  0.1067  1\n  V  V6  1  0.6856  0.8866  0.8854  1\n  Fe  Fe7  1  0.0957  0.6904  0.6835  1\n  Fe  Fe8  1  0.8968  0.3086  0.3123  1\n  O  O9  1  0.0289  0.0811  0.8588  1\n  O  O10  1  0.3367  0.7280  0.9492  1\n  O  O11  1  0.1268  0.3150  0.5357  1\n  O  O12  1  0.2329  0.4830  0.2261  1\n  O  O13  1  0.4710  0.8796  0.6746  1\n  O  O14  1  0.5413  0.1079  0.3344  1\n  O  O15  1  0.7811  0.5293  0.7700  1\n  O  O16  1  0.8707  0.6965  0.4561  1\n  O  O17  1  0.6771  0.2762  0.0539  1\n  O  O18  1  0.9310  0.8956  0.1290  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OV2Fe2O3VO6\n_chemical_formula_sum              \"Li4 O10 V3 Fe2\"\n_cell_length_a       5.1537\n_cell_length_b       5.1994\n_cell_length_c       7.9421\n_cell_angle_alpha    108.9899\n_cell_angle_beta     101.1427\n_cell_angle_gamma    100.8595\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2219  0.9386  0.4275  1.0000\n  Li  Li2       1.0000  0.4998  0.4817  0.5062  1.0000\n  Li  Li3       1.0000  0.6124  0.7209  0.2276  1.0000\n  Li  Li4       1.0000  0.7999  0.0928  0.5908  1.0000\n  O   O1        1.0000  0.9984  0.4960  0.9964  1.0000\n  V   V1        1.0000  0.3034  0.1097  0.1067  1.0000\n  V   V2        1.0000  0.6856  0.8866  0.8854  1.0000\n  Fe  Fe1       1.0000  0.0957  0.6904  0.6835  1.0000\n  Fe  Fe2       1.0000  0.8968  0.3086  0.3123  1.0000\n  O   O2        1.0000  0.0289  0.0811  0.8588  1.0000\n  O   O3        1.0000  0.3367  0.7280  0.9492  1.0000\n  O   O4        1.0000  0.1268  0.3150  0.5357  1.0000\n  V   V3        1.0000  0.2329  0.4830  0.2261  1.0000\n  O   O5        1.0000  0.4710  0.8796  0.6746  1.0000\n  O   O6        1.0000  0.5413  0.1079  0.3344  1.0000\n  O   O7        1.0000  0.7811  0.5293  0.7700  1.0000\n  O   O8        1.0000  0.8707  0.6965  0.4561  1.0000\n  O   O9        1.0000  0.6771  0.2762  0.0539  1.0000\n  O   O10       1.0000  0.9310  0.8956  0.1290  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3a60b0c9-f802-4b3b-bb59-a32fa832e9bb",
    "mp_id": "mp-752972",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaV3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.5684\n_cell_length_b   7.2172\n_cell_length_c   12.0852\n_cell_angle_alpha   72.8095\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaV3O8\n_chemical_formula_sum   'Na2 V6 O16'\n_cell_volume   297.3357\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.7500  0.1770  0.3223  1\n  Na  Na1  1  0.2500  0.8230  0.6777  1\n  V  V2  1  0.2500  0.1149  0.0805  1\n  V  V3  1  0.2500  0.3154  0.5431  1\n  V  V4  1  0.2500  0.2663  0.8098  1\n  V  V5  1  0.7500  0.7337  0.1902  1\n  V  V6  1  0.7500  0.6846  0.4569  1\n  V  V7  1  0.7500  0.8851  0.9195  1\n  O  O8  1  0.7500  0.0432  0.0713  1\n  O  O9  1  0.2500  0.2116  0.1855  1\n  O  O10  1  0.2500  0.1888  0.4517  1\n  O  O11  1  0.2500  0.1484  0.6786  1\n  O  O12  1  0.7500  0.1817  0.8274  1\n  O  O13  1  0.7500  0.5146  0.2755  1\n  O  O14  1  0.7500  0.3996  0.5424  1\n  O  O15  1  0.7500  0.6899  0.0476  1\n  O  O16  1  0.2500  0.3101  0.9524  1\n  O  O17  1  0.2500  0.6004  0.4576  1\n  O  O18  1  0.2500  0.4854  0.7245  1\n  O  O19  1  0.2500  0.8183  0.1726  1\n  O  O20  1  0.7500  0.8516  0.3214  1\n  O  O21  1  0.7500  0.8112  0.5483  1\n  O  O22  1  0.7500  0.7884  0.8145  1\n  O  O23  1  0.2500  0.9568  0.9287  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2OV5O11VO4\n_chemical_formula_sum              \"Na2 O16 V6\"\n_cell_length_a       3.5684\n_cell_length_b       7.2172\n_cell_length_c       12.0852\n_cell_angle_alpha    72.8095\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.7500  0.1770  0.3223  1.0000\n  Na  Na2       1.0000  0.2500  0.8230  0.6777  1.0000\n  O   O1        1.0000  0.2500  0.1149  0.0805  1.0000\n  V   V1        1.0000  0.2500  0.3154  0.5431  1.0000\n  V   V2        1.0000  0.2500  0.2663  0.8098  1.0000\n  V   V3        1.0000  0.7500  0.7337  0.1902  1.0000\n  V   V4        1.0000  0.7500  0.6846  0.4569  1.0000\n  V   V5        1.0000  0.7500  0.8851  0.9195  1.0000\n  O   O2        1.0000  0.7500  0.0432  0.0713  1.0000\n  O   O3        1.0000  0.2500  0.2116  0.1855  1.0000\n  O   O4        1.0000  0.2500  0.1888  0.4517  1.0000\n  O   O5        1.0000  0.2500  0.1484  0.6786  1.0000\n  O   O6        1.0000  0.7500  0.1817  0.8274  1.0000\n  O   O7        1.0000  0.7500  0.5146  0.2755  1.0000\n  O   O8        1.0000  0.7500  0.3996  0.5424  1.0000\n  O   O9        1.0000  0.7500  0.6899  0.0476  1.0000\n  O   O10       1.0000  0.2500  0.3101  0.9524  1.0000\n  O   O11       1.0000  0.2500  0.6004  0.4576  1.0000\n  O   O12       1.0000  0.2500  0.4854  0.7245  1.0000\n  V   V6        1.0000  0.2500  0.8183  0.1726  1.0000\n  O   O13       1.0000  0.7500  0.8516  0.3214  1.0000\n  O   O14       1.0000  0.7500  0.8112  0.5483  1.0000\n  O   O15       1.0000  0.7500  0.7884  0.8145  1.0000\n  O   O16       1.0000  0.2500  0.9568  0.9287  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2fef606c-25cc-4401-bd7b-b804818776a1",
    "mp_id": "mp-753000",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaSb3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7996\n_cell_length_b   5.6843\n_cell_length_c   10.5113\n_cell_angle_alpha   82.6182\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaSb3O8\n_chemical_formula_sum   'Na2 Sb6 O16'\n_cell_volume   284.3982\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0000  -0.0000  0.0000  1\n  Na  Na1  1  0.5000  -0.0000  0.5000  1\n  Sb  Sb2  1  0.5000  0.5000  0.0000  1\n  Sb  Sb3  1  0.0209  0.2412  0.2499  1\n  Sb  Sb4  1  0.5209  0.7588  0.2501  1\n  Sb  Sb5  1  0.0000  0.5000  0.5000  1\n  Sb  Sb6  1  0.4791  0.2412  0.7499  1\n  Sb  Sb7  1  0.9791  0.7588  0.7501  1\n  O  O8  1  0.2078  0.2970  0.0846  1\n  O  O9  1  0.3504  0.7658  0.0799  1\n  O  O10  1  0.7227  0.4822  0.1732  1\n  O  O11  1  0.7943  0.9984  0.1855  1\n  O  O12  1  0.2943  0.0016  0.3145  1\n  O  O13  1  0.2227  0.5178  0.3268  1\n  O  O14  1  0.8504  0.2342  0.4201  1\n  O  O15  1  0.7078  0.7030  0.4154  1\n  O  O16  1  0.2922  0.2970  0.5846  1\n  O  O17  1  0.1496  0.7658  0.5799  1\n  O  O18  1  0.7773  0.4822  0.6732  1\n  O  O19  1  0.7057  0.9984  0.6855  1\n  O  O20  1  0.2057  0.0016  0.8145  1\n  O  O21  1  0.2773  0.5178  0.8268  1\n  O  O22  1  0.6496  0.2342  0.9201  1\n  O  O23  1  0.7922  0.7030  0.9154  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na2OSb5O3SbO12\n_chemical_formula_sum              \"Na2 O16 Sb6\"\n_cell_length_a       4.7996\n_cell_length_b       5.6843\n_cell_length_c       10.5113\n_cell_angle_alpha    82.6182\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Na  Na2       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.0000  1.0000\n  Sb  Sb1       1.0000  0.0209  0.2412  0.2499  1.0000\n  Sb  Sb2       1.0000  0.5209  0.7588  0.2501  1.0000\n  Sb  Sb3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Sb  Sb4       1.0000  0.4791  0.2412  0.7499  1.0000\n  Sb  Sb5       1.0000  0.9791  0.7588  0.7501  1.0000\n  O   O2        1.0000  0.2078  0.2970  0.0846  1.0000\n  O   O3        1.0000  0.3504  0.7658  0.0799  1.0000\n  O   O4        1.0000  0.7227  0.4822  0.1732  1.0000\n  Sb  Sb6       1.0000  0.7943  0.9984  0.1855  1.0000\n  O   O5        1.0000  0.2943  0.0016  0.3145  1.0000\n  O   O6        1.0000  0.2227  0.5178  0.3268  1.0000\n  O   O7        1.0000  0.8504  0.2342  0.4201  1.0000\n  O   O8        1.0000  0.7078  0.7030  0.4154  1.0000\n  O   O9        1.0000  0.2922  0.2970  0.5846  1.0000\n  O   O10       1.0000  0.1496  0.7658  0.5799  1.0000\n  O   O11       1.0000  0.7773  0.4822  0.6732  1.0000\n  O   O12       1.0000  0.7057  0.9984  0.6855  1.0000\n  O   O13       1.0000  0.2057  0.0016  0.8145  1.0000\n  O   O14       1.0000  0.2773  0.5178  0.8268  1.0000\n  O   O15       1.0000  0.6496  0.2342  0.9201  1.0000\n  O   O16       1.0000  0.7922  0.7030  0.9154  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f1e0e3c5-8a31-4957-bbaf-6389670ce932",
    "mp_id": "mp-753018",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFeP2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.2787\n_cell_length_b   6.7080\n_cell_length_c   7.0864\n_cell_angle_alpha   75.4427\n_cell_angle_beta   65.0885\n_cell_angle_gamma   81.0353\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFeP2O7\n_chemical_formula_sum   'Li2 Fe2 P4 O14'\n_cell_volume   261.5791\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9377  0.3271  0.1860  1\n  Li  Li1  1  0.0623  0.6729  0.8140  1\n  Fe  Fe2  1  0.7422  0.1879  0.9011  1\n  Fe  Fe3  1  0.2578  0.8121  0.0989  1\n  P  P4  1  0.2257  0.1771  0.7585  1\n  P  P5  1  0.3649  0.3664  0.3006  1\n  P  P6  1  0.6351  0.6336  0.6994  1\n  P  P7  1  0.7743  0.8229  0.2415  1\n  O  O8  1  0.9459  0.9730  0.2324  1\n  O  O9  1  0.3853  0.0689  0.8756  1\n  O  O10  1  0.4023  0.2568  0.5199  1\n  O  O11  1  0.1870  0.2588  0.2808  1\n  O  O12  1  0.0633  0.3540  0.8547  1\n  O  O13  1  0.6204  0.3455  0.1327  1\n  O  O14  1  0.6990  0.4033  0.6832  1\n  O  O15  1  0.3010  0.5967  0.3168  1\n  O  O16  1  0.3796  0.6545  0.8673  1\n  O  O17  1  0.9367  0.6460  0.1453  1\n  O  O18  1  0.8130  0.7412  0.7192  1\n  O  O19  1  0.5977  0.7432  0.4801  1\n  O  O20  1  0.6147  0.9311  0.1244  1\n  O  O21  1  0.0541  0.0270  0.7676  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Fe2OP3OPO12\n_chemical_formula_sum              \"Li2 Fe2 O14 P4\"\n_cell_length_a       6.2787\n_cell_length_b       6.7080\n_cell_length_c       7.0864\n_cell_angle_alpha    75.4427\n_cell_angle_beta     65.0885\n_cell_angle_gamma    81.0353\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9377  0.3271  0.1860  1.0000\n  Li  Li2       1.0000  0.0623  0.6729  0.8140  1.0000\n  Fe  Fe1       1.0000  0.7422  0.1879  0.9011  1.0000\n  Fe  Fe2       1.0000  0.2578  0.8121  0.0989  1.0000\n  O   O1        1.0000  0.2257  0.1771  0.7585  1.0000\n  P   P1        1.0000  0.3649  0.3664  0.3006  1.0000\n  P   P2        1.0000  0.6351  0.6336  0.6994  1.0000\n  P   P3        1.0000  0.7743  0.8229  0.2415  1.0000\n  O   O2        1.0000  0.9459  0.9730  0.2324  1.0000\n  P   P4        1.0000  0.3853  0.0689  0.8756  1.0000\n  O   O3        1.0000  0.4023  0.2568  0.5199  1.0000\n  O   O4        1.0000  0.1870  0.2588  0.2808  1.0000\n  O   O5        1.0000  0.0633  0.3540  0.8547  1.0000\n  O   O6        1.0000  0.6204  0.3455  0.1327  1.0000\n  O   O7        1.0000  0.6990  0.4033  0.6832  1.0000\n  O   O8        1.0000  0.3010  0.5967  0.3168  1.0000\n  O   O9        1.0000  0.3796  0.6545  0.8673  1.0000\n  O   O10       1.0000  0.9367  0.6460  0.1453  1.0000\n  O   O11       1.0000  0.8130  0.7412  0.7192  1.0000\n  O   O12       1.0000  0.5977  0.7432  0.4801  1.0000\n  O   O13       1.0000  0.6147  0.9311  0.1244  1.0000\n  O   O14       1.0000  0.0541  0.0270  0.7676  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9664607d-8584-4160-9b0d-9fca4d680cb6",
    "mp_id": "mp-753047",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiCoNiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7931\n_cell_length_b   5.7931\n_cell_length_c   5.7931\n_cell_angle_alpha   121.8043\n_cell_angle_beta   120.6070\n_cell_angle_gamma   87.9274\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiCoNiO4\n_chemical_formula_sum   'Li2 Co2 Ni2 O8'\n_cell_volume   134.8513\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.0000  1\n  Li  Li1  1  0.0000  0.5000  0.5000  1\n  Co  Co2  1  0.0000  0.0000  0.5000  1\n  Co  Co3  1  0.0000  0.5000  0.0000  1\n  Ni  Ni4  1  0.0000  0.0000  0.0000  1\n  Ni  Ni5  1  0.5000  0.0000  0.5000  1\n  O  O6  1  0.2269  0.2049  0.4781  1\n  O  O7  1  0.2178  0.2515  0.9664  1\n  O  O8  1  0.7731  0.2512  0.9781  1\n  O  O9  1  0.7851  0.2515  0.5336  1\n  O  O10  1  0.2149  0.7485  0.4664  1\n  O  O11  1  0.2269  0.7488  0.0219  1\n  O  O12  1  0.7822  0.7485  0.0336  1\n  O  O13  1  0.7731  0.7951  0.5219  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2CoONi2O2CoO5\n_chemical_formula_sum              \"Li2 Co2 O8 Ni2\"\n_cell_length_a       5.7931\n_cell_length_b       5.7931\n_cell_length_c       5.7931\n_cell_angle_alpha    121.8043\n_cell_angle_beta     120.6070\n_cell_angle_gamma    87.9274\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li2       1.0000  1.0000  0.5000  0.5000  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ni  Ni2       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.2269  0.2050  0.4781  1.0000\n  O   O3        1.0000  0.2178  0.2515  0.9664  1.0000\n  Co  Co2       1.0000  0.7731  0.2512  0.9781  1.0000\n  O   O4        1.0000  0.7851  0.2515  0.5336  1.0000\n  O   O5        1.0000  0.2149  0.7485  0.4664  1.0000\n  O   O6        1.0000  0.2269  0.7488  0.0219  1.0000\n  O   O7        1.0000  0.7822  0.7485  0.0336  1.0000\n  O   O8        1.0000  0.7731  0.7951  0.5219  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e4cbbdcf-f70f-45b5-bf5b-3d92a67454d0",
    "mp_id": "mp-753220",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Co(SiO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4830\n_cell_length_b   9.7141\n_cell_length_c   9.5399\n_cell_angle_alpha   89.9970\n_cell_angle_beta   89.9969\n_cell_angle_gamma   86.8834\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Co(SiO3)2\n_chemical_formula_sum   'Li8 Co4 Si8 O24'\n_cell_volume   507.3677\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3534  0.3338  0.3987  1\n  Li  Li1  1  0.3534  0.3338  0.8987  1\n  Li  Li2  1  0.6466  0.6662  0.1487  1\n  Li  Li3  1  0.6466  0.6662  0.6487  1\n  Li  Li4  1  0.1623  0.4872  0.1490  1\n  Li  Li5  1  0.1623  0.4872  0.6490  1\n  Li  Li6  1  0.8377  0.5128  0.3990  1\n  Li  Li7  1  0.8377  0.5128  0.8990  1\n  Co  Co8  1  0.2320  0.1476  0.6514  1\n  Co  Co9  1  0.7680  0.8524  0.9013  1\n  Co  Co10  1  0.2321  0.1476  0.1514  1\n  Co  Co11  1  0.7679  0.8524  0.4013  1\n  Si  Si12  1  0.8756  0.1762  0.3957  1\n  Si  Si13  1  0.8756  0.1762  0.8957  1\n  Si  Si14  1  0.1244  0.8239  0.1457  1\n  Si  Si15  1  0.1244  0.8238  0.6456  1\n  Si  Si16  1  0.6920  0.3397  0.1470  1\n  Si  Si17  1  0.6921  0.3397  0.6470  1\n  Si  Si18  1  0.3080  0.6603  0.3970  1\n  Si  Si19  1  0.3079  0.6603  0.8970  1\n  O  O20  1  0.7362  0.0423  0.3587  1\n  O  O21  1  0.7363  0.0423  0.8586  1\n  O  O22  1  0.2638  0.9577  0.1086  1\n  O  O23  1  0.2637  0.9577  0.6086  1\n  O  O24  1  0.1576  0.1867  0.3494  1\n  O  O25  1  0.1576  0.1867  0.8494  1\n  O  O26  1  0.8424  0.8133  0.0994  1\n  O  O27  1  0.8424  0.8133  0.5994  1\n  O  O28  1  0.8708  0.2161  0.0688  1\n  O  O29  1  0.8709  0.2161  0.5688  1\n  O  O30  1  0.1292  0.7839  0.3188  1\n  O  O31  1  0.1291  0.7839  0.8187  1\n  O  O32  1  0.7167  0.3151  0.3217  1\n  O  O33  1  0.7167  0.3151  0.8217  1\n  O  O34  1  0.2833  0.6849  0.0717  1\n  O  O35  1  0.2833  0.6849  0.5717  1\n  O  O36  1  0.4073  0.3223  0.1041  1\n  O  O37  1  0.4073  0.3222  0.6041  1\n  O  O38  1  0.5927  0.6777  0.3541  1\n  O  O39  1  0.5927  0.6778  0.8541  1\n  O  O40  1  0.8010  0.4857  0.1078  1\n  O  O41  1  0.8010  0.4857  0.6078  1\n  O  O42  1  0.1990  0.5143  0.3578  1\n  O  O43  1  0.1990  0.5143  0.8578  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Co2OCoSi8O2CoO21\n_chemical_formula_sum              \"Li8 Co4 O24 Si8\"\n_cell_length_a       5.4830\n_cell_length_b       9.7141\n_cell_length_c       9.5399\n_cell_angle_alpha    89.9970\n_cell_angle_beta     89.9969\n_cell_angle_gamma    86.8834\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3534  0.3338  0.3987  1.0000\n  Li  Li2       1.0000  0.3534  0.3338  0.8987  1.0000\n  Li  Li3       1.0000  0.6466  0.6662  0.1487  1.0000\n  Li  Li4       1.0000  0.6466  0.6662  0.6487  1.0000\n  Li  Li5       1.0000  0.1623  0.4872  0.1490  1.0000\n  Li  Li6       1.0000  0.1623  0.4872  0.6490  1.0000\n  Li  Li7       1.0000  0.8377  0.5128  0.3990  1.0000\n  Li  Li8       1.0000  0.8377  0.5128  0.8990  1.0000\n  Co  Co1       1.0000  0.2320  0.1476  0.6514  1.0000\n  Co  Co2       1.0000  0.7680  0.8524  0.9013  1.0000\n  O   O1        1.0000  0.2321  0.1476  0.1514  1.0000\n  Co  Co3       1.0000  0.7679  0.8524  0.4013  1.0000\n  Si  Si1       1.0000  0.8756  0.1762  0.3957  1.0000\n  Si  Si2       1.0000  0.8756  0.1762  0.8957  1.0000\n  Si  Si3       1.0000  0.1244  0.8239  0.1457  1.0000\n  Si  Si4       1.0000  0.1244  0.8238  0.6456  1.0000\n  Si  Si5       1.0000  0.6920  0.3397  0.1470  1.0000\n  Si  Si6       1.0000  0.6921  0.3397  0.6470  1.0000\n  Si  Si7       1.0000  0.3080  0.6603  0.3970  1.0000\n  Si  Si8       1.0000  0.3079  0.6603  0.8970  1.0000\n  O   O2        1.0000  0.7362  0.0423  0.3587  1.0000\n  O   O3        1.0000  0.7363  0.0423  0.8586  1.0000\n  Co  Co4       1.0000  0.2638  0.9577  0.1086  1.0000\n  O   O4        1.0000  0.2637  0.9577  0.6086  1.0000\n  O   O5        1.0000  0.1576  0.1867  0.3494  1.0000\n  O   O6        1.0000  0.1576  0.1867  0.8494  1.0000\n  O   O7        1.0000  0.8424  0.8133  0.0994  1.0000\n  O   O8        1.0000  0.8424  0.8133  0.5994  1.0000\n  O   O9        1.0000  0.8708  0.2161  0.0688  1.0000\n  O   O10       1.0000  0.8709  0.2161  0.5688  1.0000\n  O   O11       1.0000  0.1292  0.7839  0.3188  1.0000\n  O   O12       1.0000  0.1291  0.7839  0.8187  1.0000\n  O   O13       1.0000  0.7167  0.3151  0.3217  1.0000\n  O   O14       1.0000  0.7167  0.3151  0.8217  1.0000\n  O   O15       1.0000  0.2833  0.6849  0.0717  1.0000\n  O   O16       1.0000  0.2833  0.6849  0.5717  1.0000\n  O   O17       1.0000  0.4073  0.3223  0.1041  1.0000\n  O   O18       1.0000  0.4073  0.3222  0.6041  1.0000\n  O   O19       1.0000  0.5927  0.6777  0.3541  1.0000\n  O   O20       1.0000  0.5927  0.6778  0.8541  1.0000\n  O   O21       1.0000  0.8010  0.4857  0.1078  1.0000\n  O   O22       1.0000  0.8010  0.4857  0.6078  1.0000\n  O   O23       1.0000  0.1990  0.5143  0.3578  1.0000\n  O   O24       1.0000  0.1990  0.5143  0.8578  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "61340f0e-adb8-4973-9e8f-c27736b79e6f",
    "mp_id": "mp-753282",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2MnOF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9491\n_cell_length_b   8.4603\n_cell_length_c   6.0421\n_cell_angle_alpha   89.9999\n_cell_angle_beta   90.0000\n_cell_angle_gamma   88.6332\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2MnOF3\n_chemical_formula_sum   'Li8 Mn4 O4 F12'\n_cell_volume   304.0226\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  1.0000  1.0000  0.5000  1\n  Li  Li1  1  0.5000  0.5000  0.0000  1\n  Li  Li2  1  0.5000  1.0000  0.5000  1\n  Li  Li3  1  1.0000  0.5000  0.0000  1\n  Li  Li4  1  0.7172  0.3762  0.5000  1\n  Li  Li5  1  0.2172  0.8762  0.0000  1\n  Li  Li6  1  0.7827  0.1238  0.0000  1\n  Li  Li7  1  0.2827  0.6238  0.5000  1\n  Mn  Mn8  1  0.7504  0.7500  0.7497  1\n  Mn  Mn9  1  0.7499  0.7499  0.2501  1\n  Mn  Mn10  1  0.2505  0.2499  0.2501  1\n  Mn  Mn11  1  0.2495  0.2501  0.7498  1\n  O  O12  1  0.0567  0.2546  0.0000  1\n  O  O13  1  0.5566  0.7546  0.5000  1\n  O  O14  1  0.4433  0.2454  0.5000  1\n  O  O15  1  0.9433  0.7454  0.0000  1\n  F  F16  1  0.5131  0.2587  0.0000  1\n  F  F17  1  0.0131  0.7587  0.5000  1\n  F  F18  1  0.9869  0.2414  0.5000  1\n  F  F19  1  0.4869  0.7414  0.0000  1\n  F  F20  1  0.2539  0.4859  0.7620  1\n  F  F21  1  0.7539  0.9858  0.2620  1\n  F  F22  1  0.2539  0.4859  0.2381  1\n  F  F23  1  0.7539  0.9859  0.7380  1\n  F  F24  1  0.2461  0.0141  0.2620  1\n  F  F25  1  0.7461  0.5142  0.7620  1\n  F  F26  1  0.2461  0.0142  0.7381  1\n  F  F27  1  0.7461  0.5142  0.2381  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn4O2FOF9OF2\n_chemical_formula_sum              \"Li8 Mn4 O4 F12\"\n_cell_length_a       5.9491\n_cell_length_b       8.4603\n_cell_length_c       6.0421\n_cell_angle_alpha    89.9999\n_cell_angle_beta     90.0000\n_cell_angle_gamma    88.6332\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  1.0000  1.0000  0.5000  1.0000\n  Li  Li2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li3       1.0000  0.5000  1.0000  0.5000  1.0000\n  Li  Li4       1.0000  1.0000  0.5000  0.0000  1.0000\n  Li  Li5       1.0000  0.7172  0.3762  0.5000  1.0000\n  Li  Li6       1.0000  0.2172  0.8762  0.0000  1.0000\n  Li  Li7       1.0000  0.7827  0.1238  0.0000  1.0000\n  Li  Li8       1.0000  0.2827  0.6238  0.5000  1.0000\n  Mn  Mn1       1.0000  0.7504  0.7500  0.7497  1.0000\n  Mn  Mn2       1.0000  0.7499  0.7499  0.2501  1.0000\n  Mn  Mn3       1.0000  0.2505  0.2499  0.2501  1.0000\n  Mn  Mn4       1.0000  0.2495  0.2501  0.7498  1.0000\n  O   O1        1.0000  0.0567  0.2546  0.0000  1.0000\n  O   O2        1.0000  0.5566  0.7546  0.5000  1.0000\n  F   F1        1.0000  0.4433  0.2454  0.5000  1.0000\n  O   O3        1.0000  0.9433  0.7454  1e-05  1.0000\n  F   F2        1.0000  0.5131  0.2587  9e-06  1.0000\n  F   F3        1.0000  0.0131  0.7587  0.5000  1.0000\n  F   F4        1.0000  0.9869  0.2413  0.5000  1.0000\n  F   F5        1.0000  0.4869  0.7414  8e-06  1.0000\n  F   F6        1.0000  0.2539  0.4859  0.7620  1.0000\n  F   F7        1.0000  0.7539  0.9858  0.2620  1.0000\n  F   F8        1.0000  0.2539  0.4859  0.2381  1.0000\n  F   F9        1.0000  0.7539  0.9859  0.7380  1.0000\n  F   F10       1.0000  0.2461  0.0141  0.2620  1.0000\n  O   O4        1.0000  0.7461  0.5142  0.7620  1.0000\n  F   F11       1.0000  0.2461  0.0142  0.7381  1.0000\n  F   F12       1.0000  0.7461  0.5142  0.2381  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5c553dca-62bb-467b-940c-c891c4ea4615",
    "mp_id": "mp-753309",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Bi2OF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0656\n_cell_length_b   7.0656\n_cell_length_c   5.6258\n_cell_angle_alpha   76.9241\n_cell_angle_beta   76.9241\n_cell_angle_gamma   47.8614\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Bi2OF4\n_chemical_formula_sum   'Bi4 O2 F8'\n_cell_volume   201.7792\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.1118  0.6772  0.5885  1\n  Bi  Bi1  1  0.6772  0.1118  0.0885  1\n  Bi  Bi2  1  0.3228  0.8882  0.9115  1\n  Bi  Bi3  1  0.8882  0.3228  0.4115  1\n  O  O4  1  0.9680  0.0320  0.7500  1\n  O  O5  1  0.0320  0.9680  0.2500  1\n  F  F6  1  0.2938  0.5529  0.9612  1\n  F  F7  1  0.5529  0.2938  0.4612  1\n  F  F8  1  0.7344  0.8357  0.8432  1\n  F  F9  1  0.8357  0.7344  0.3432  1\n  F  F10  1  0.1643  0.2656  0.6568  1\n  F  F11  1  0.2656  0.1643  0.1568  1\n  F  F12  1  0.4471  0.7062  0.5388  1\n  F  F13  1  0.7062  0.4471  0.0388  1\n",
    "output": "data_image0\n_chemical_formula_structural       Bi4OF3OF5\n_chemical_formula_sum              \"Bi4 O2 F8\"\n_cell_length_a       7.0656\n_cell_length_b       7.0656\n_cell_length_c       5.6258\n_cell_angle_alpha    76.9241\n_cell_angle_beta     76.9241\n_cell_angle_gamma    47.8614\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.1118  0.6772  0.5885  1.0000\n  Bi  Bi2       1.0000  0.6772  0.1118  0.0885  1.0000\n  Bi  Bi3       1.0000  0.3228  0.8882  0.9115  1.0000\n  Bi  Bi4       1.0000  0.8882  0.3228  0.4115  1.0000\n  O   O1        1.0000  0.9680  0.0320  0.7500  1.0000\n  F   F1        1.0000  0.0320  0.9680  0.2500  1.0000\n  F   F2        1.0000  0.2938  0.5529  0.9612  1.0000\n  F   F3        1.0000  0.5529  0.2938  0.4612  1.0000\n  O   O2        1.0000  0.7344  0.8357  0.8432  1.0000\n  F   F4        1.0000  0.8357  0.7344  0.3432  1.0000\n  F   F5        1.0000  0.1643  0.2656  0.6568  1.0000\n  F   F6        1.0000  0.2656  0.1643  0.1568  1.0000\n  F   F7        1.0000  0.4471  0.7062  0.5388  1.0000\n  F   F8        1.0000  0.7062  0.4471  0.0388  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1e7ad480-91c7-414f-89fb-7ea68874cb64",
    "mp_id": "mp-753322",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Mn3O3F5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8400\n_cell_length_b   10.5328\n_cell_length_c   6.2452\n_cell_angle_alpha   104.3186\n_cell_angle_beta   62.1257\n_cell_angle_gamma   106.0938\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Mn3O3F5\n_chemical_formula_sum   'Li6 Mn6 O6 F10'\n_cell_volume   323.1268\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1787  0.5691  0.2121  1\n  Li  Li1  1  0.6783  0.0691  0.7121  1\n  Li  Li2  1  0.8766  0.6135  0.8602  1\n  Li  Li3  1  0.3767  0.1135  0.3602  1\n  Li  Li4  1  0.0138  0.0181  0.9906  1\n  Li  Li5  1  0.5137  0.5181  0.4906  1\n  Mn  Mn6  1  0.9367  0.3110  0.4377  1\n  Mn  Mn7  1  0.9239  0.3079  0.9432  1\n  Mn  Mn8  1  0.4238  0.8078  0.4432  1\n  Mn  Mn9  1  0.4366  0.8110  0.9377  1\n  Mn  Mn10  1  0.4409  0.3078  0.9432  1\n  Mn  Mn11  1  0.9408  0.8079  0.4432  1\n  O  O12  1  0.0752  0.2158  0.0662  1\n  O  O13  1  0.5744  0.7158  0.5662  1\n  O  O14  1  0.7971  0.4069  0.8121  1\n  O  O15  1  0.2978  0.9069  0.3121  1\n  O  O16  1  0.5799  0.1991  0.0389  1\n  O  O17  1  0.0803  0.6991  0.5389  1\n  F  F18  1  0.2979  0.4242  0.8285  1\n  F  F19  1  0.7977  0.9242  0.3285  1\n  F  F20  1  0.5530  0.6804  0.0685  1\n  F  F21  1  0.0526  0.1809  0.5691  1\n  F  F22  1  0.0592  0.6809  0.0691  1\n  F  F23  1  0.5589  0.1804  0.5684  1\n  F  F24  1  0.8292  0.4449  0.3021  1\n  F  F25  1  0.3289  0.9454  0.8027  1\n  F  F26  1  0.3138  0.4454  0.3027  1\n  F  F27  1  0.8135  0.9448  0.8021  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6Mn6OFO5F9\n_chemical_formula_sum              \"Li6 Mn6 O6 F10\"\n_cell_length_a       5.8400\n_cell_length_b       10.5328\n_cell_length_c       6.2452\n_cell_angle_alpha    104.3186\n_cell_angle_beta     62.1257\n_cell_angle_gamma    106.0938\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.1787  0.5691  0.2121  1.0000\n  Li  Li2       1.0000  0.6783  0.0691  0.7121  1.0000\n  Li  Li3       1.0000  0.8766  0.6135  0.8602  1.0000\n  Li  Li4       1.0000  0.3767  0.1135  0.3602  1.0000\n  Li  Li5       1.0000  0.0138  0.0181  0.9906  1.0000\n  Li  Li6       1.0000  0.5137  0.5181  0.4906  1.0000\n  Mn  Mn1       1.0000  0.9367  0.3110  0.4377  1.0000\n  Mn  Mn2       1.0000  0.9239  0.3079  0.9432  1.0000\n  Mn  Mn3       1.0000  0.4238  0.8078  0.4432  1.0000\n  Mn  Mn4       1.0000  0.4366  0.8110  0.9377  1.0000\n  Mn  Mn5       1.0000  0.4409  0.3078  0.9432  1.0000\n  Mn  Mn6       1.0000  0.9408  0.8079  0.4432  1.0000\n  O   O1        1.0000  0.0752  0.2158  0.0662  1.0000\n  F   F1        1.0000  0.5744  0.7158  0.5662  1.0000\n  O   O2        1.0000  0.7971  0.4069  0.8121  1.0000\n  O   O3        1.0000  0.2978  0.9069  0.3121  1.0000\n  O   O4        1.0000  0.5799  0.1991  0.0389  1.0000\n  O   O5        1.0000  0.0803  0.6991  0.5389  1.0000\n  O   O6        1.0000  0.2979  0.4242  0.8285  1.0000\n  F   F2        1.0000  0.7977  0.9242  0.3285  1.0000\n  F   F3        1.0000  0.5530  0.6804  0.0685  1.0000\n  F   F4        1.0000  0.0526  0.1809  0.5691  1.0000\n  F   F5        1.0000  0.0592  0.6809  0.0691  1.0000\n  F   F6        1.0000  0.5589  0.1804  0.5684  1.0000\n  F   F7        1.0000  0.8292  0.4449  0.3021  1.0000\n  F   F8        1.0000  0.3289  0.9454  0.8027  1.0000\n  F   F9        1.0000  0.3138  0.4454  0.3027  1.0000\n  F   F10       1.0000  0.8135  0.9448  0.8021  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3d7ab600-eaa3-453c-8fea-da862a243ba7",
    "mp_id": "mp-753612",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMn2O2F3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.7960\n_cell_length_b   5.2779\n_cell_length_c   10.5756\n_cell_angle_alpha   89.9999\n_cell_angle_beta   90.0000\n_cell_angle_gamma   68.9249\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMn2O2F3\n_chemical_formula_sum   'Li2 Mn4 O4 F6'\n_cell_volume   197.7078\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8311  0.3380  0.2500  1\n  Li  Li1  1  0.1689  0.6620  0.7500  1\n  Mn  Mn2  1  0.8440  0.3120  0.9419  1\n  Mn  Mn3  1  0.1560  0.6880  0.4419  1\n  Mn  Mn4  1  0.8440  0.3120  0.5581  1\n  Mn  Mn5  1  0.1560  0.6880  0.0581  1\n  O  O6  1  0.6916  0.6169  0.4430  1\n  O  O7  1  0.6916  0.6170  0.0570  1\n  O  O8  1  0.3084  0.3830  0.5570  1\n  O  O9  1  0.3084  0.3831  0.9431  1\n  F  F10  1  0.7506  0.4987  0.7500  1\n  F  F11  1  0.2494  0.5013  0.2500  1\n  F  F12  1  0.9719  0.0562  0.1203  1\n  F  F13  1  0.9719  0.0561  0.3797  1\n  F  F14  1  0.0281  0.9438  0.6203  1\n  F  F15  1  0.0281  0.9439  0.8797  1\n",
    "output": "data_image0\n_chemical_formula_structural       FLiMn4O4F4LiF\n_chemical_formula_sum              \"F6 Li2 Mn4 O4\"\n_cell_length_a       3.7960\n_cell_length_b       5.2779\n_cell_length_c       10.5756\n_cell_angle_alpha    89.9999\n_cell_angle_beta     90.0000\n_cell_angle_gamma    68.9249\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.8311  0.3380  0.2500  1.0000\n  Li  Li1       1.0000  0.1689  0.6620  0.7500  1.0000\n  Mn  Mn1       1.0000  0.8440  0.3120  0.9419  1.0000\n  Mn  Mn2       1.0000  0.1560  0.6880  0.4419  1.0000\n  Mn  Mn3       1.0000  0.8440  0.3120  0.5581  1.0000\n  Mn  Mn4       1.0000  0.1560  0.6880  0.0581  1.0000\n  O   O1        1.0000  0.6916  0.6169  0.4431  1.0000\n  O   O2        1.0000  0.6916  0.6170  0.0570  1.0000\n  O   O3        1.0000  0.3084  0.3830  0.5570  1.0000\n  O   O4        1.0000  0.3084  0.3831  0.9431  1.0000\n  F   F2        1.0000  0.7506  0.4987  0.7500  1.0000\n  F   F3        1.0000  0.2494  0.5013  0.2500  1.0000\n  F   F4        1.0000  0.9719  0.0562  0.1203  1.0000\n  F   F5        1.0000  0.9719  0.0561  0.3797  1.0000\n  Li  Li2       1.0000  0.0281  0.9438  0.6203  1.0000\n  F   F6        1.0000  0.0281  0.9439  0.8797  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0b6d7c45-228f-4e96-8ab1-f9e329f204c7",
    "mp_id": "mp-753724",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Ni5OF11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1035\n_cell_length_b   5.4925\n_cell_length_c   9.1433\n_cell_angle_alpha   85.7004\n_cell_angle_beta   72.8002\n_cell_angle_gamma   116.9306\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Ni5OF11\n_chemical_formula_sum   'Li3 Ni5 O1 F11'\n_cell_volume   211.6154\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0195  0.5330  0.5005  1\n  Li  Li1  1  0.5037  0.2652  0.2586  1\n  Li  Li2  1  0.5280  0.7933  0.7674  1\n  Ni  Ni3  1  0.3088  0.7478  0.1491  1\n  Ni  Ni4  1  0.9828  0.9918  0.9967  1\n  Ni  Ni5  1  0.3133  0.2764  0.6477  1\n  Ni  Ni6  1  0.8100  0.0144  0.4072  1\n  Ni  Ni7  1  0.7783  0.5105  0.9035  1\n  O  O8  1  0.6027  0.7557  0.9572  1\n  F  F9  1  0.0875  0.8424  0.3488  1\n  F  F10  1  0.2040  0.3994  0.2992  1\n  F  F11  1  0.2158  0.9168  0.7894  1\n  F  F12  1  0.3872  0.1479  0.0434  1\n  F  F13  1  0.4096  0.6578  0.5390  1\n  F  F14  1  0.0815  0.3501  0.8518  1\n  F  F15  1  0.9039  0.5893  0.1047  1\n  F  F16  1  0.5855  0.2417  0.4522  1\n  F  F17  1  0.7104  0.0040  0.2068  1\n  F  F18  1  0.7044  0.4922  0.6989  1\n  F  F19  1  0.9131  0.0949  0.6026  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiNiLiNi2LiNi2OF11\n_chemical_formula_sum              \"Li3 Ni5 O1 F11\"\n_cell_length_a       5.1035\n_cell_length_b       5.4925\n_cell_length_c       9.1433\n_cell_angle_alpha    85.7004\n_cell_angle_beta     72.8002\n_cell_angle_gamma    116.9306\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0195  0.5330  0.5005  1.0000\n  Ni  Ni1       1.0000  0.5037  0.2652  0.2586  1.0000\n  Li  Li2       1.0000  0.5280  0.7933  0.7674  1.0000\n  Ni  Ni2       1.0000  0.3088  0.7478  0.1491  1.0000\n  Ni  Ni3       1.0000  0.9828  0.9918  0.9967  1.0000\n  Li  Li3       1.0000  0.3133  0.2764  0.6477  1.0000\n  Ni  Ni4       1.0000  0.8100  0.0144  0.4072  1.0000\n  Ni  Ni5       1.0000  0.7783  0.5105  0.9035  1.0000\n  O   O1        1.0000  0.6027  0.7557  0.9572  1.0000\n  F   F1        1.0000  0.0875  0.8424  0.3488  1.0000\n  F   F2        1.0000  0.2040  0.3994  0.2992  1.0000\n  F   F3        1.0000  0.2158  0.9168  0.7894  1.0000\n  F   F4        1.0000  0.3872  0.1479  0.0434  1.0000\n  F   F5        1.0000  0.4096  0.6578  0.5390  1.0000\n  F   F6        1.0000  0.0815  0.3501  0.8518  1.0000\n  F   F7        1.0000  0.9039  0.5893  0.1047  1.0000\n  F   F8        1.0000  0.5855  0.2417  0.4522  1.0000\n  F   F9        1.0000  0.7104  0.0040  0.2068  1.0000\n  F   F10       1.0000  0.7044  0.4922  0.6989  1.0000\n  F   F11       1.0000  0.9131  0.0949  0.6026  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e3ad1818-7be3-492e-af94-cc465b3efb85",
    "mp_id": "mp-753992",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CoAgO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9569\n_cell_length_b   5.9568\n_cell_length_c   5.9565\n_cell_angle_alpha   49.6068\n_cell_angle_beta   49.6042\n_cell_angle_gamma   49.6036\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CoAgO3\n_chemical_formula_sum   'Co2 Ag2 O6'\n_cell_volume   112.7199\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.1631  0.1631  0.1631  1\n  Co  Co1  1  0.8369  0.8369  0.8369  1\n  Ag  Ag2  1  0.3623  0.3623  0.3623  1\n  Ag  Ag3  1  0.6377  0.6377  0.6377  1\n  O  O4  1  0.0392  0.8179  0.4409  1\n  O  O5  1  0.5592  0.9608  0.1821  1\n  O  O6  1  0.1821  0.5592  0.9607  1\n  O  O7  1  0.8179  0.4408  0.0393  1\n  O  O8  1  0.4408  0.0392  0.8179  1\n  O  O9  1  0.9608  0.1821  0.5591  1\n",
    "output": "data_image0\n_chemical_formula_structural       OCoAg2CoO5\n_chemical_formula_sum              \"O6 Co2 Ag2\"\n_cell_length_a       5.9569\n_cell_length_b       5.9568\n_cell_length_c       5.9565\n_cell_angle_alpha    49.6068\n_cell_angle_beta     49.6042\n_cell_angle_gamma    49.6036\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1631  0.1631  0.1631  1.0000\n  Co  Co1       1.0000  0.8369  0.8369  0.8369  1.0000\n  Ag  Ag1       1.0000  0.3623  0.3623  0.3623  1.0000\n  Ag  Ag2       1.0000  0.6377  0.6377  0.6377  1.0000\n  Co  Co2       1.0000  0.0392  0.8179  0.4409  1.0000\n  O   O2        1.0000  0.5592  0.9608  0.1821  1.0000\n  O   O3        1.0000  0.1821  0.5592  0.9607  1.0000\n  O   O4        1.0000  0.8179  0.4408  0.0393  1.0000\n  O   O5        1.0000  0.4408  0.0392  0.8179  1.0000\n  O   O6        1.0000  0.9608  0.1821  0.5591  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "62ac92ed-dbcc-45d0-bcfe-d86ff7d1ab6a",
    "mp_id": "mp-754070",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn2OF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1051\n_cell_length_b   10.4738\n_cell_length_c   6.1545\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0003\n_cell_angle_gamma   89.9817\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn2OF3\n_chemical_formula_sum   'Mn8 O4 F12'\n_cell_volume   329.0807\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.4999  0.5000  0.9999  1\n  Mn  Mn1  1  0.5000  0.5000  0.5000  1\n  Mn  Mn2  1  0.4826  0.2348  0.7500  1\n  Mn  Mn3  1  0.5175  0.7652  0.2500  1\n  Mn  Mn4  1  1.0000  0.0000  0.0000  1\n  Mn  Mn5  1  0.0001  1.0000  0.5000  1\n  Mn  Mn6  1  0.9828  0.2652  0.2500  1\n  Mn  Mn7  1  0.0172  0.7348  0.7500  1\n  O  O8  1  0.8436  0.0747  0.2500  1\n  O  O9  1  0.3435  0.4253  0.7500  1\n  O  O10  1  0.6564  0.5747  0.2500  1\n  O  O11  1  0.1565  0.9253  0.7500  1\n  F  F12  1  0.7572  0.0877  0.7500  1\n  F  F13  1  0.2576  0.4121  0.2500  1\n  F  F14  1  0.7424  0.5879  0.7500  1\n  F  F15  1  0.2428  0.9123  0.2500  1\n  F  F16  1  0.2202  0.1613  0.9905  1\n  F  F17  1  0.2202  0.1614  0.5096  1\n  F  F18  1  0.7199  0.3385  0.4903  1\n  F  F19  1  0.7199  0.3385  0.0097  1\n  F  F20  1  0.2801  0.6615  0.9903  1\n  F  F21  1  0.2801  0.6615  0.5097  1\n  F  F22  1  0.7798  0.8387  0.4904  1\n  F  F23  1  0.7798  0.8387  0.0096  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn2FMn5O4F4MnF7\n_chemical_formula_sum              \"Mn8 F12 O4\"\n_cell_length_a       5.1051\n_cell_length_b       10.4738\n_cell_length_c       6.1545\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0003\n_cell_angle_gamma    89.9817\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.4999  0.5000  0.9999  1.0000\n  Mn  Mn2       1.0000  0.5000  0.5000  0.5000  1.0000\n  F   F1        1.0000  0.4826  0.2348  0.7500  1.0000\n  Mn  Mn3       1.0000  0.5175  0.7652  0.2500  1.0000\n  Mn  Mn4       1.0000  1.0000  0.0000  0.0000  1.0000\n  Mn  Mn5       1.0000  0.0001  1.0000  0.5000  1.0000\n  Mn  Mn6       1.0000  0.9828  0.2652  0.2500  1.0000\n  Mn  Mn7       1.0000  0.0172  0.7348  0.7500  1.0000\n  O   O1        1.0000  0.8436  0.0747  0.2500  1.0000\n  O   O2        1.0000  0.3435  0.4253  0.7500  1.0000\n  O   O3        1.0000  0.6564  0.5747  0.2500  1.0000\n  O   O4        1.0000  0.1565  0.9253  0.7500  1.0000\n  F   F2        1.0000  0.7572  0.0877  0.7500  1.0000\n  F   F3        1.0000  0.2576  0.4121  0.2500  1.0000\n  F   F4        1.0000  0.7424  0.5879  0.7500  1.0000\n  F   F5        1.0000  0.2428  0.9123  0.2500  1.0000\n  Mn  Mn8       1.0000  0.2202  0.1613  0.9905  1.0000\n  F   F6        1.0000  0.2202  0.1614  0.5096  1.0000\n  F   F7        1.0000  0.7199  0.3385  0.4903  1.0000\n  F   F8        1.0000  0.7199  0.3385  0.0097  1.0000\n  F   F9        1.0000  0.2801  0.6615  0.9903  1.0000\n  F   F10       1.0000  0.2801  0.6615  0.5097  1.0000\n  F   F11       1.0000  0.7798  0.8387  0.4904  1.0000\n  F   F12       1.0000  0.7798  0.8387  0.0096  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9cf31473-a56d-4c0b-b54a-57f657ab6364",
    "mp_id": "mp-754274",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MnV2O6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7683\n_cell_length_b   6.7683\n_cell_length_c   5.8250\n_cell_angle_alpha   74.5216\n_cell_angle_beta   105.4784\n_cell_angle_gamma   96.0641\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MnV2O6\n_chemical_formula_sum   'Mn2 V4 O12'\n_cell_volume   247.6712\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0863  0.0863  0.7500  1\n  Mn  Mn1  1  0.9137  0.9137  0.2500  1\n  V  V2  1  0.2084  0.6110  0.7545  1\n  V  V3  1  0.3890  0.7916  0.2545  1\n  V  V4  1  0.6110  0.2084  0.7455  1\n  V  V5  1  0.7916  0.3890  0.2455  1\n  O  O6  1  0.0401  0.8054  0.6378  1\n  O  O7  1  0.0873  0.3818  0.7761  1\n  O  O8  1  0.1946  0.9599  0.1378  1\n  O  O9  1  0.3687  0.6457  0.5498  1\n  O  O10  1  0.3818  0.0873  0.7239  1\n  O  O11  1  0.3543  0.6313  0.0498  1\n  O  O12  1  0.6457  0.3687  0.9502  1\n  O  O13  1  0.6182  0.9127  0.2761  1\n  O  O14  1  0.6313  0.3543  0.4502  1\n  O  O15  1  0.8054  0.0401  0.8622  1\n  O  O16  1  0.9127  0.6182  0.2239  1\n  O  O17  1  0.9599  0.1946  0.3622  1\n",
    "output": "data_image0\n_chemical_formula_structural       VMn2V3O12\n_chemical_formula_sum              \"V4 Mn2 O12\"\n_cell_length_a       6.7683\n_cell_length_b       6.7683\n_cell_length_c       5.8250\n_cell_angle_alpha    74.5216\n_cell_angle_beta     105.4784\n_cell_angle_gamma    96.0641\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0863  0.0863  0.7500  1.0000\n  Mn  Mn1       1.0000  0.9137  0.9137  0.2500  1.0000\n  Mn  Mn2       1.0000  0.2084  0.6110  0.7545  1.0000\n  V   V2        1.0000  0.3890  0.7916  0.2545  1.0000\n  V   V3        1.0000  0.6110  0.2084  0.7455  1.0000\n  V   V4        1.0000  0.7916  0.3890  0.2455  1.0000\n  O   O1        1.0000  0.0401  0.8054  0.6378  1.0000\n  O   O2        1.0000  0.0873  0.3818  0.7761  1.0000\n  O   O3        1.0000  0.1946  0.9599  0.1378  1.0000\n  O   O4        1.0000  0.3687  0.6457  0.5498  1.0000\n  O   O5        1.0000  0.3818  0.0873  0.7239  1.0000\n  O   O6        1.0000  0.3543  0.6313  0.0498  1.0000\n  O   O7        1.0000  0.6457  0.3687  0.9502  1.0000\n  O   O8        1.0000  0.6182  0.9127  0.2761  1.0000\n  O   O9        1.0000  0.6313  0.3543  0.4502  1.0000\n  O   O10       1.0000  0.8054  0.0401  0.8622  1.0000\n  O   O11       1.0000  0.9127  0.6182  0.2239  1.0000\n  O   O12       1.0000  0.9599  0.1946  0.3622  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b6ed14e3-2804-49ee-a47a-5bee90785bec",
    "mp_id": "mp-754345",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiTaO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4445\n_cell_length_b   5.4445\n_cell_length_c   3.9426\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiTaO3\n_chemical_formula_sum   'Li2 Ta2 O6'\n_cell_volume   116.8698\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.0000  0.5000  1\n  Li  Li1  1  0.0000  0.5000  0.5000  1\n  Ta  Ta2  1  0.0000  0.0000  0.0000  1\n  Ta  Ta3  1  0.5000  0.5000  0.0000  1\n  O  O4  1  0.0000  0.0000  0.5000  1\n  O  O5  1  0.6839  0.1839  0.0000  1\n  O  O6  1  0.1839  0.3161  0.0000  1\n  O  O7  1  0.5000  0.5000  0.5000  1\n  O  O8  1  0.8161  0.6839  0.0000  1\n  O  O9  1  0.3161  0.8161  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLiTa2O2LiO3\n_chemical_formula_sum              \"O6 Li2 Ta2\"\n_cell_length_a       5.4445\n_cell_length_b       5.4445\n_cell_length_c       3.9426\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.0000  0.5000  1.0000\n  Li  Li1       1.0000  0.0000  0.5000  0.5000  1.0000\n  Ta  Ta1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Ta  Ta2       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O3        1.0000  0.6839  0.1839  0.0000  1.0000\n  Li  Li2       1.0000  0.1839  0.3161  0.0000  1.0000\n  O   O4        1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O5        1.0000  0.8161  0.6839  0.0000  1.0000\n  O   O6        1.0000  0.3161  0.8161  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c7c35068-2690-4c56-ab66-d3fafbba48eb",
    "mp_id": "mp-754644",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrNi3(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7619\n_cell_length_b   4.7772\n_cell_length_c   9.9248\n_cell_angle_alpha   89.9047\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrNi3(PO4)4\n_chemical_formula_sum   'Cr1 Ni3 P4 O16'\n_cell_volume   273.1912\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.5000  0.9690  0.7286  1\n  Ni  Ni1  1  0.0000  0.0392  0.2730  1\n  Ni  Ni2  1  0.0000  0.4576  0.7724  1\n  Ni  Ni3  1  0.5000  0.5413  0.2289  1\n  P  P4  1  0.5000  0.0923  0.4046  1\n  P  P5  1  0.5000  0.4009  0.9070  1\n  P  P6  1  0.0000  0.5914  0.0962  1\n  P  P7  1  0.0000  0.9178  0.5912  1\n  O  O8  1  0.5000  0.1664  0.5562  1\n  O  O9  1  0.2919  0.2404  0.3323  1\n  O  O10  1  0.7081  0.2404  0.3323  1\n  O  O11  1  0.0000  0.2341  0.6050  1\n  O  O12  1  0.0000  0.2721  0.1088  1\n  O  O13  1  0.2962  0.2464  0.8297  1\n  O  O14  1  0.7038  0.2464  0.8297  1\n  O  O15  1  0.5000  0.3329  0.0561  1\n  O  O16  1  0.0000  0.6624  0.9460  1\n  O  O17  1  0.7929  0.7405  0.1700  1\n  O  O18  1  0.2071  0.7405  0.1700  1\n  O  O19  1  0.5000  0.7175  0.8841  1\n  O  O20  1  0.5000  0.7738  0.3939  1\n  O  O21  1  0.7895  0.7764  0.6697  1\n  O  O22  1  0.2105  0.7764  0.6697  1\n  O  O23  1  0.0000  0.8237  0.4447  1\n",
    "output": "data_image0\n_chemical_formula_structural       CrNi3OP3O7PO8\n_chemical_formula_sum              \"Cr1 Ni3 O16 P4\"\n_cell_length_a       5.7619\n_cell_length_b       4.7772\n_cell_length_c       9.9248\n_cell_angle_alpha    89.9047\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.5000  0.9690  0.7286  1.0000\n  Ni  Ni1       1.0000  0.0000  0.0392  0.2730  1.0000\n  Ni  Ni2       1.0000  0.0000  0.4576  0.7724  1.0000\n  Ni  Ni3       1.0000  0.5000  0.5413  0.2289  1.0000\n  O   O1        1.0000  0.5000  0.0923  0.4046  1.0000\n  P   P1        1.0000  0.5000  0.4009  0.9070  1.0000\n  P   P2        1.0000  0.0000  0.5914  0.0962  1.0000\n  P   P3        1.0000  0.0000  0.9178  0.5912  1.0000\n  O   O2        1.0000  0.5000  0.1664  0.5562  1.0000\n  O   O3        1.0000  0.2919  0.2404  0.3323  1.0000\n  O   O4        1.0000  0.7081  0.2404  0.3323  1.0000\n  O   O5        1.0000  0.0000  0.2341  0.6050  1.0000\n  O   O6        1.0000  0.0000  0.2721  0.1088  1.0000\n  O   O7        1.0000  0.2962  0.2464  0.8297  1.0000\n  O   O8        1.0000  0.7038  0.2464  0.8297  1.0000\n  P   P4        1.0000  0.5000  0.3329  0.0561  1.0000\n  O   O9        1.0000  0.0000  0.6624  0.9460  1.0000\n  O   O10       1.0000  0.7929  0.7405  0.1700  1.0000\n  O   O11       1.0000  0.2071  0.7405  0.1700  1.0000\n  O   O12       1.0000  0.5000  0.7175  0.8841  1.0000\n  O   O13       1.0000  0.5000  0.7738  0.3939  1.0000\n  O   O14       1.0000  0.7895  0.7764  0.6697  1.0000\n  O   O15       1.0000  0.2105  0.7764  0.6697  1.0000\n  O   O16       1.0000  0.0000  0.8237  0.4447  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "993258aa-a9de-453f-acf8-25ba5cda7bab",
    "mp_id": "mp-754745",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2SnO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5405\n_cell_length_b   5.5248\n_cell_length_c   10.9914\n_cell_angle_alpha   85.3895\n_cell_angle_beta   155.3264\n_cell_angle_gamma   106.2228\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2SnO3\n_chemical_formula_sum   'Na4 Sn2 O6'\n_cell_volume   143.5131\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.5000  0.4995  0.0008  1\n  Na  Na1  1  0.1845  0.1845  0.3425  1\n  Na  Na2  1  0.8185  0.8159  0.6599  1\n  Na  Na3  1  0.0016  0.5001  0.0015  1\n  Sn  Sn4  1  0.3362  0.8345  0.6685  1\n  Sn  Sn5  1  0.6670  0.1653  0.3340  1\n  O  O6  1  0.3346  0.1327  0.7745  1\n  O  O7  1  0.6685  0.8670  0.2279  1\n  O  O8  1  0.1977  0.4997  0.4922  1\n  O  O9  1  0.0689  0.8673  0.1417  1\n  O  O10  1  0.9342  0.1327  0.8607  1\n  O  O11  1  0.8055  0.5001  0.5103  1\n",
    "output": "data_image0\n_chemical_formula_structural       ONa3Sn2ONaO4\n_chemical_formula_sum              \"O6 Na4 Sn2\"\n_cell_length_a       6.5405\n_cell_length_b       5.5248\n_cell_length_c       10.9914\n_cell_angle_alpha    85.3895\n_cell_angle_beta     155.3264\n_cell_angle_gamma    106.2228\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5000  0.4995  0.0008  1.0000\n  Na  Na1       1.0000  0.1845  0.1845  0.3425  1.0000\n  Na  Na2       1.0000  0.8185  0.8159  0.6599  1.0000\n  Na  Na3       1.0000  0.0016  0.5001  0.0015  1.0000\n  Sn  Sn1       1.0000  0.3362  0.8345  0.6685  1.0000\n  Sn  Sn2       1.0000  0.6670  0.1653  0.3340  1.0000\n  O   O2        1.0000  0.3346  0.1327  0.7745  1.0000\n  Na  Na4       1.0000  0.6685  0.8670  0.2279  1.0000\n  O   O3        1.0000  0.1977  0.4997  0.4922  1.0000\n  O   O4        1.0000  0.0689  0.8673  0.1417  1.0000\n  O   O5        1.0000  0.9342  0.1327  0.8607  1.0000\n  O   O6        1.0000  0.8055  0.5001  0.5103  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6a090266-e8da-4853-b668-de14e2374a94",
    "mp_id": "mp-754794",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2S2O\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.0809\n_cell_length_b   7.1369\n_cell_length_c   15.9668\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2S2O\n_chemical_formula_sum   'La8 S8 O4'\n_cell_volume   465.0315\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.7500  0.2086  0.0387  1\n  La  La1  1  0.7500  0.7592  0.1730  1\n  La  La2  1  0.2500  0.2592  0.3270  1\n  La  La3  1  0.2500  0.7086  0.4613  1\n  La  La4  1  0.7500  0.2914  0.5387  1\n  La  La5  1  0.7500  0.7408  0.6730  1\n  La  La6  1  0.2500  0.2408  0.8270  1\n  La  La7  1  0.2500  0.7914  0.9613  1\n  S  S8  1  0.2500  0.5142  0.1066  1\n  S  S9  1  0.2500  0.0421  0.1737  1\n  S  S10  1  0.7500  0.5421  0.3263  1\n  S  S11  1  0.7500  0.0142  0.3934  1\n  S  S12  1  0.2500  0.9858  0.6066  1\n  S  S13  1  0.2500  0.4579  0.6737  1\n  S  S14  1  0.7500  0.9579  0.8263  1\n  S  S15  1  0.7500  0.4858  0.8934  1\n  O  O16  1  0.7500  0.8666  0.0331  1\n  O  O17  1  0.2500  0.3666  0.4669  1\n  O  O18  1  0.7500  0.6334  0.5331  1\n  O  O19  1  0.2500  0.1334  0.9669  1\n",
    "output": "data_image0\n_chemical_formula_structural       La7SLaS7O4\n_chemical_formula_sum              \"La8 S8 O4\"\n_cell_length_a       4.0809\n_cell_length_b       7.1369\n_cell_length_c       15.9668\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.7500  0.2086  0.0387  1.0000\n  La  La2       1.0000  0.7500  0.7592  0.1730  1.0000\n  La  La3       1.0000  0.2500  0.2592  0.3270  1.0000\n  La  La4       1.0000  0.2500  0.7086  0.4613  1.0000\n  La  La5       1.0000  0.7500  0.2914  0.5387  1.0000\n  La  La6       1.0000  0.7500  0.7408  0.6730  1.0000\n  La  La7       1.0000  0.2500  0.2408  0.8270  1.0000\n  S   S1        1.0000  0.2500  0.7914  0.9613  1.0000\n  La  La8       1.0000  0.2500  0.5142  0.1066  1.0000\n  S   S2        1.0000  0.2500  0.0421  0.1737  1.0000\n  S   S3        1.0000  0.7500  0.5421  0.3263  1.0000\n  S   S4        1.0000  0.7500  0.0142  0.3934  1.0000\n  S   S5        1.0000  0.2500  0.9858  0.6066  1.0000\n  S   S6        1.0000  0.2500  0.4579  0.6737  1.0000\n  S   S7        1.0000  0.7500  0.9579  0.8263  1.0000\n  S   S8        1.0000  0.7500  0.4858  0.8934  1.0000\n  O   O1        1.0000  0.7500  0.8666  0.0331  1.0000\n  O   O2        1.0000  0.2500  0.3666  0.4669  1.0000\n  O   O3        1.0000  0.7500  0.6334  0.5331  1.0000\n  O   O4        1.0000  0.2500  0.1334  0.9669  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0e9b99fa-57be-4824-a878-6eca8c78ddf7",
    "mp_id": "mp-754886",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MnSb3(PO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7025\n_cell_length_b   4.9901\n_cell_length_c   10.2967\n_cell_angle_alpha   88.6927\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MnSb3(PO4)4\n_chemical_formula_sum   'Mn1 Sb3 P4 O16'\n_cell_volume   344.2987\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.5000  0.9306  0.7205  1\n  Sb  Sb1  1  0.0000  0.0611  0.2818  1\n  Sb  Sb2  1  0.0000  0.4443  0.7863  1\n  Sb  Sb3  1  0.5000  0.5450  0.2162  1\n  P  P4  1  0.5000  0.1008  0.4095  1\n  P  P5  1  0.5000  0.3836  0.8958  1\n  P  P6  1  0.0000  0.6338  0.0906  1\n  P  P7  1  0.0000  0.8846  0.6042  1\n  O  O8  1  0.5000  0.1613  0.5529  1\n  O  O9  1  0.3221  0.2473  0.3325  1\n  O  O10  1  0.6779  0.2473  0.3325  1\n  O  O11  1  0.0000  0.1929  0.6159  1\n  O  O12  1  0.0000  0.3282  0.0987  1\n  O  O13  1  0.3172  0.2535  0.8223  1\n  O  O14  1  0.6828  0.2535  0.8223  1\n  O  O15  1  0.5000  0.2931  0.0408  1\n  O  O16  1  0.0000  0.7304  0.9471  1\n  O  O17  1  0.8216  0.7625  0.1697  1\n  O  O18  1  0.1784  0.7625  0.1697  1\n  O  O19  1  0.5000  0.6873  0.8812  1\n  O  O20  1  0.5000  0.7976  0.3887  1\n  O  O21  1  0.8205  0.7449  0.6800  1\n  O  O22  1  0.1795  0.7449  0.6800  1\n  O  O23  1  0.0000  0.8091  0.4608  1\n",
    "output": "data_image0\n_chemical_formula_structural       PSb3PMnP2O16\n_chemical_formula_sum              \"P4 Sb3 Mn1 O16\"\n_cell_length_a       6.7025\n_cell_length_b       4.9901\n_cell_length_c       10.2967\n_cell_angle_alpha    88.6927\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  P   P1        1.0000  0.5000  0.9306  0.7205  1.0000\n  Sb  Sb1       1.0000  0.0000  0.0611  0.2818  1.0000\n  Sb  Sb2       1.0000  0.0000  0.4443  0.7863  1.0000\n  Sb  Sb3       1.0000  0.5000  0.5450  0.2162  1.0000\n  P   P2        1.0000  0.5000  0.1008  0.4095  1.0000\n  Mn  Mn1       1.0000  0.5000  0.3836  0.8958  1.0000\n  P   P3        1.0000  0.0000  0.6338  0.0906  1.0000\n  P   P4        1.0000  0.0000  0.8846  0.6042  1.0000\n  O   O1        1.0000  0.5000  0.1613  0.5529  1.0000\n  O   O2        1.0000  0.3221  0.2473  0.3325  1.0000\n  O   O3        1.0000  0.6779  0.2473  0.3325  1.0000\n  O   O4        1.0000  0.0000  0.1929  0.6159  1.0000\n  O   O5        1.0000  0.0000  0.3282  0.0987  1.0000\n  O   O6        1.0000  0.3172  0.2535  0.8223  1.0000\n  O   O7        1.0000  0.6828  0.2535  0.8223  1.0000\n  O   O8        1.0000  0.5000  0.2931  0.0408  1.0000\n  O   O9        1.0000  0.0000  0.7304  0.9471  1.0000\n  O   O10       1.0000  0.8216  0.7625  0.1697  1.0000\n  O   O11       1.0000  0.1784  0.7625  0.1697  1.0000\n  O   O12       1.0000  0.5000  0.6873  0.8812  1.0000\n  O   O13       1.0000  0.5000  0.7976  0.3887  1.0000\n  O   O14       1.0000  0.8205  0.7449  0.6800  1.0000\n  O   O15       1.0000  0.1795  0.7449  0.6800  1.0000\n  O   O16       1.0000  0.0000  0.8091  0.4608  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c24b2072-ec71-4316-8fad-091057cefd56",
    "mp_id": "mp-755114",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe6OF11\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8200\n_cell_length_b   5.8200\n_cell_length_c   7.6023\n_cell_angle_alpha   72.8130\n_cell_angle_beta   72.8130\n_cell_angle_gamma   71.6281\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe6OF11\n_chemical_formula_sum   'Fe6 O1 F11'\n_cell_volume   227.5776\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.6596  0.6420  0.8473  1\n  Fe  Fe1  1  0.3352  0.3264  0.6689  1\n  Fe  Fe2  1  0.6736  0.6648  0.3311  1\n  Fe  Fe3  1  0.3580  0.3404  0.1527  1\n  Fe  Fe4  1  0.0023  0.9977  0.5000  1\n  Fe  Fe5  1  0.9788  0.0212  0.0000  1\n  O  O6  1  0.6908  0.3092  0.0000  1\n  F  F7  1  0.6313  0.0163  0.6749  1\n  F  F8  1  0.9837  0.3687  0.3251  1\n  F  F9  1  0.9054  0.8953  0.3051  1\n  F  F10  1  0.2365  0.2386  0.9692  1\n  F  F11  1  0.5635  0.5698  0.6333  1\n  F  F12  1  0.7614  0.7635  0.0308  1\n  F  F13  1  0.4302  0.4365  0.3667  1\n  F  F14  1  0.1047  0.0946  0.6949  1\n  F  F15  1  0.3758  0.9768  0.3264  1\n  F  F16  1  0.0232  0.6242  0.6736  1\n  F  F17  1  0.2859  0.7141  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       FeFFe4OF4FeF6\n_chemical_formula_sum              \"Fe6 F11 O1\"\n_cell_length_a       5.8200\n_cell_length_b       5.8200\n_cell_length_c       7.6023\n_cell_angle_alpha    72.8130\n_cell_angle_beta     72.8130\n_cell_angle_gamma    71.6281\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.6596  0.6420  0.8473  1.0000\n  F   F1        1.0000  0.3352  0.3264  0.6689  1.0000\n  Fe  Fe2       1.0000  0.6736  0.6648  0.3311  1.0000\n  Fe  Fe3       1.0000  0.3580  0.3404  0.1527  1.0000\n  Fe  Fe4       1.0000  0.0023  0.9977  0.5000  1.0000\n  Fe  Fe5       1.0000  0.9788  0.0212  0.0000  1.0000\n  O   O1        1.0000  0.6908  0.3092  0.0000  1.0000\n  F   F2        1.0000  0.6313  0.0163  0.6749  1.0000\n  F   F3        1.0000  0.9837  0.3687  0.3251  1.0000\n  F   F4        1.0000  0.9054  0.8953  0.3051  1.0000\n  F   F5        1.0000  0.2365  0.2386  0.9692  1.0000\n  Fe  Fe6       1.0000  0.5635  0.5698  0.6333  1.0000\n  F   F6        1.0000  0.7614  0.7635  0.0308  1.0000\n  F   F7        1.0000  0.4302  0.4365  0.3667  1.0000\n  F   F8        1.0000  0.1047  0.0946  0.6949  1.0000\n  F   F9        1.0000  0.3758  0.9768  0.3264  1.0000\n  F   F10       1.0000  0.0232  0.6242  0.6736  1.0000\n  F   F11       1.0000  0.2859  0.7141  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dcaa829e-7220-4182-a14b-4e8a6e816c63",
    "mp_id": "mp-755229",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V4(OF3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0810\n_cell_length_b   5.2944\n_cell_length_c   8.9552\n_cell_angle_alpha   73.7273\n_cell_angle_beta   90.4434\n_cell_angle_gamma   61.0763\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V4(OF3)3\n_chemical_formula_sum   'V4 O3 F9'\n_cell_volume   199.4420\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.7530  0.4987  0.2512  1\n  V  V1  1  0.4636  0.0125  0.5016  1\n  V  V2  1  0.2633  0.5203  0.7454  1\n  V  V3  1  0.0372  0.9840  0.0026  1\n  O  O4  1  0.4002  0.7502  0.0860  1\n  O  O5  1  0.3976  0.7518  0.6663  1\n  O  O6  1  0.1017  0.2530  0.4125  1\n  F  F7  1  0.8990  0.7722  0.1702  1\n  F  F8  1  0.9120  0.7333  0.5800  1\n  F  F9  1  0.9663  0.2689  0.1176  1\n  F  F10  1  0.5310  0.7388  0.3780  1\n  F  F11  1  0.6070  0.2271  0.3329  1\n  F  F12  1  0.5810  0.2520  0.9248  1\n  F  F13  1  0.4891  0.2344  0.6322  1\n  F  F14  1  0.0142  0.7522  0.8750  1\n  F  F15  1  0.0839  0.2505  0.8238  1\n",
    "output": "data_image0\n_chemical_formula_structural       V4O2F6OF3\n_chemical_formula_sum              \"V4 O3 F9\"\n_cell_length_a       5.0810\n_cell_length_b       5.2944\n_cell_length_c       8.9552\n_cell_angle_alpha    73.7273\n_cell_angle_beta     90.4434\n_cell_angle_gamma    61.0763\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.7530  0.4987  0.2512  1.0000\n  V   V2        1.0000  0.4636  0.0125  0.5016  1.0000\n  V   V3        1.0000  0.2633  0.5203  0.7454  1.0000\n  V   V4        1.0000  0.0372  0.9840  0.0026  1.0000\n  O   O1        1.0000  0.4002  0.7502  0.0860  1.0000\n  O   O2        1.0000  0.3976  0.7518  0.6663  1.0000\n  F   F1        1.0000  0.1017  0.2530  0.4125  1.0000\n  F   F2        1.0000  0.8990  0.7722  0.1702  1.0000\n  F   F3        1.0000  0.9120  0.7333  0.5800  1.0000\n  F   F4        1.0000  0.9663  0.2689  0.1176  1.0000\n  F   F5        1.0000  0.5310  0.7388  0.3780  1.0000\n  F   F6        1.0000  0.6070  0.2271  0.3329  1.0000\n  O   O3        1.0000  0.5810  0.2520  0.9248  1.0000\n  F   F7        1.0000  0.4891  0.2344  0.6322  1.0000\n  F   F8        1.0000  0.0142  0.7522  0.8750  1.0000\n  F   F9        1.0000  0.0839  0.2505  0.8238  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8b0dbec0-6d65-49ce-a67c-49954a3ac983",
    "mp_id": "mp-755317",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y2TeO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0527\n_cell_length_b   9.0528\n_cell_length_c   5.1845\n_cell_angle_alpha   90.0004\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.9994\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y2TeO6\n_chemical_formula_sum   'Y6 Te3 O18'\n_cell_volume   367.9628\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.0000  0.6175  1.0000  1\n  Y  Y1  1  0.0000  0.2807  0.5000  1\n  Y  Y2  1  0.3824  0.3824  -0.0000  1\n  Y  Y3  1  0.2807  0.0000  0.5000  1\n  Y  Y4  1  0.7193  0.7193  0.5000  1\n  Y  Y5  1  0.6176  0.0000  0.0000  1\n  Te  Te6  1  0.3333  0.6667  0.4969  1\n  Te  Te7  1  0.0000  0.0000  0.0000  1\n  Te  Te8  1  0.6667  0.3333  0.5031  1\n  O  O9  1  0.0764  0.8775  0.7890  1\n  O  O10  1  0.2266  0.7614  0.2833  1\n  O  O11  1  0.1338  0.5441  0.7093  1\n  O  O12  1  0.4103  0.8662  0.7093  1\n  O  O13  1  0.2386  0.4652  0.2833  1\n  O  O14  1  0.1225  0.1989  0.7890  1\n  O  O15  1  0.1989  0.1225  0.2110  1\n  O  O16  1  0.5348  0.7734  0.2833  1\n  O  O17  1  0.4558  0.5897  0.7093  1\n  O  O18  1  0.8011  0.9236  0.7890  1\n  O  O19  1  0.4652  0.2386  0.7167  1\n  O  O20  1  0.5897  0.4559  0.2907  1\n  O  O21  1  0.5441  0.1338  0.2907  1\n  O  O22  1  0.7734  0.5348  0.7167  1\n  O  O23  1  0.9236  0.8011  0.2110  1\n  O  O24  1  0.7614  0.2266  0.7167  1\n  O  O25  1  0.8662  0.4103  0.2907  1\n  O  O26  1  0.8775  0.0764  0.2110  1\n",
    "output": "data_image0\n_chemical_formula_structural       YOY4Te3O12YO5\n_chemical_formula_sum              \"Y6 O18 Te3\"\n_cell_length_a       9.0527\n_cell_length_b       9.0528\n_cell_length_c       5.1845\n_cell_angle_alpha    90.0004\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.9994\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.0000  0.6175  1.0000  1.0000\n  O   O1        1.0000  0.0000  0.2807  0.5000  1.0000\n  Y   Y2        1.0000  0.3824  0.3824  1.0000  1.0000\n  Y   Y3        1.0000  0.2807  0.0000  0.5000  1.0000\n  Y   Y4        1.0000  0.7193  0.7193  0.5000  1.0000\n  Y   Y5        1.0000  0.6176  0.0000  0.0000  1.0000\n  Te  Te1       1.0000  0.3333  0.6667  0.4969  1.0000\n  Te  Te2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Te  Te3       1.0000  0.6667  0.3333  0.5031  1.0000\n  O   O2        1.0000  0.0764  0.8775  0.7890  1.0000\n  O   O3        1.0000  0.2266  0.7614  0.2833  1.0000\n  O   O4        1.0000  0.1338  0.5441  0.7093  1.0000\n  O   O5        1.0000  0.4103  0.8662  0.7093  1.0000\n  O   O6        1.0000  0.2386  0.4652  0.2833  1.0000\n  O   O7        1.0000  0.1225  0.1989  0.7890  1.0000\n  O   O8        1.0000  0.1989  0.1225  0.2110  1.0000\n  O   O9        1.0000  0.5348  0.7734  0.2833  1.0000\n  O   O10       1.0000  0.4558  0.5897  0.7093  1.0000\n  O   O11       1.0000  0.8011  0.9236  0.7890  1.0000\n  O   O12       1.0000  0.4652  0.2386  0.7167  1.0000\n  O   O13       1.0000  0.5897  0.4559  0.2907  1.0000\n  Y   Y6        1.0000  0.5441  0.1338  0.2907  1.0000\n  O   O14       1.0000  0.7734  0.5348  0.7167  1.0000\n  O   O15       1.0000  0.9236  0.8011  0.2110  1.0000\n  O   O16       1.0000  0.7614  0.2266  0.7167  1.0000\n  O   O17       1.0000  0.8662  0.4103  0.2907  1.0000\n  O   O18       1.0000  0.8775  0.0764  0.2110  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "432b2852-eba2-45b9-8c00-ab47da7b341d",
    "mp_id": "mp-755498",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li7(CoO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2886\n_cell_length_b   5.3524\n_cell_length_c   5.8470\n_cell_angle_alpha   116.9374\n_cell_angle_beta   87.3976\n_cell_angle_gamma   97.7398\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li7(CoO3)2\n_chemical_formula_sum   'Li7 Co2 O6'\n_cell_volume   146.1861\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8559  0.4632  0.1493  1\n  Li  Li1  1  0.8802  0.9897  0.8116  1\n  Li  Li2  1  0.4926  0.8355  0.0597  1\n  Li  Li3  1  0.3990  0.2720  0.8386  1\n  Li  Li4  1  0.0360  0.9373  0.3750  1\n  Li  Li5  1  0.1852  0.2183  0.1747  1\n  Li  Li6  1  0.1021  0.5731  0.8292  1\n  Co  Co7  1  0.3809  0.6972  0.4994  1\n  Co  Co8  1  0.6880  0.3261  0.4984  1\n  O  O9  1  0.8136  0.0927  0.1859  1\n  O  O10  1  0.7691  0.3567  0.8080  1\n  O  O11  1  0.7518  0.6930  0.4889  1\n  O  O12  1  0.3138  0.2951  0.5112  1\n  O  O13  1  0.2358  0.5904  0.1558  1\n  O  O14  1  0.2588  0.9280  0.8405  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OLi3Co2O2LiO3\n_chemical_formula_sum              \"Li7 O6 Co2\"\n_cell_length_a       5.2886\n_cell_length_b       5.3524\n_cell_length_c       5.8470\n_cell_angle_alpha    116.9374\n_cell_angle_beta     87.3976\n_cell_angle_gamma    97.7398\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8559  0.4632  0.1493  1.0000\n  Li  Li2       1.0000  0.8802  0.9897  0.8116  1.0000\n  Li  Li3       1.0000  0.4926  0.8355  0.0597  1.0000\n  O   O1        1.0000  0.3990  0.2720  0.8386  1.0000\n  Li  Li4       1.0000  0.0360  0.9373  0.3750  1.0000\n  Li  Li5       1.0000  0.1852  0.2183  0.1747  1.0000\n  Li  Li6       1.0000  0.1021  0.5731  0.8292  1.0000\n  Co  Co1       1.0000  0.3809  0.6972  0.4994  1.0000\n  Co  Co2       1.0000  0.6880  0.3261  0.4984  1.0000\n  O   O2        1.0000  0.8136  0.0927  0.1859  1.0000\n  O   O3        1.0000  0.7691  0.3567  0.8080  1.0000\n  Li  Li7       1.0000  0.7518  0.6930  0.4889  1.0000\n  O   O4        1.0000  0.3138  0.2951  0.5112  1.0000\n  O   O5        1.0000  0.2358  0.5904  0.1558  1.0000\n  O   O6        1.0000  0.2588  0.9280  0.8405  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "57a7eab7-14c2-4901-8133-f63bf687b029",
    "mp_id": "mp-755582",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2MnF4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4785\n_cell_length_b   5.4785\n_cell_length_c   6.1343\n_cell_angle_alpha   89.6091\n_cell_angle_beta   89.6091\n_cell_angle_gamma   59.9908\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2MnF4\n_chemical_formula_sum   'Li4 Mn2 F8'\n_cell_volume   159.4290\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3002  0.3790  0.1656  1\n  Li  Li1  1  0.0242  0.9758  0.5000  1\n  Li  Li2  1  0.0225  0.9775  0.0000  1\n  Li  Li3  1  0.6210  0.6998  0.8344  1\n  Mn  Mn4  1  0.4094  0.2864  0.6745  1\n  Mn  Mn5  1  0.7136  0.5906  0.3255  1\n  F  F6  1  0.3527  0.1055  0.9508  1\n  F  F7  1  0.1505  0.3015  0.4265  1\n  F  F8  1  0.2660  0.7124  0.7411  1\n  F  F9  1  0.7944  0.2639  0.7468  1\n  F  F10  1  0.7361  0.2056  0.2532  1\n  F  F11  1  0.2876  0.7340  0.2589  1\n  F  F12  1  0.6985  0.8495  0.5735  1\n  F  F13  1  0.8945  0.6473  0.0492  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiFLi2Mn2F7Li\n_chemical_formula_sum              \"Li4 F8 Mn2\"\n_cell_length_a       5.4785\n_cell_length_b       5.4785\n_cell_length_c       6.1343\n_cell_angle_alpha    89.6091\n_cell_angle_beta     89.6091\n_cell_angle_gamma    59.9908\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3002  0.3790  0.1656  1.0000\n  F   F1        1.0000  0.0242  0.9758  0.5000  1.0000\n  Li  Li2       1.0000  0.0225  0.9775  0.0000  1.0000\n  Li  Li3       1.0000  0.6210  0.6998  0.8344  1.0000\n  Mn  Mn1       1.0000  0.4094  0.2864  0.6745  1.0000\n  Mn  Mn2       1.0000  0.7136  0.5906  0.3255  1.0000\n  F   F2        1.0000  0.3527  0.1055  0.9508  1.0000\n  F   F3        1.0000  0.1505  0.3015  0.4265  1.0000\n  F   F4        1.0000  0.2660  0.7124  0.7411  1.0000\n  F   F5        1.0000  0.7944  0.2639  0.7468  1.0000\n  F   F6        1.0000  0.7361  0.2056  0.2532  1.0000\n  F   F7        1.0000  0.2876  0.7340  0.2589  1.0000\n  F   F8        1.0000  0.6985  0.8495  0.5735  1.0000\n  Li  Li4       1.0000  0.8945  0.6473  0.0492  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5a19405a-3f57-4fa2-8fdf-dbe1e7b4afed",
    "mp_id": "mp-755926",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3CoO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2167\n_cell_length_b   5.4835\n_cell_length_c   5.5848\n_cell_angle_alpha   117.9618\n_cell_angle_beta   90.0118\n_cell_angle_gamma   90.9671\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3CoO3\n_chemical_formula_sum   'Li6 Co2 O6'\n_cell_volume   141.0802\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9144  0.4738  0.2017  1\n  Li  Li1  1  0.8721  0.9932  0.7913  1\n  Li  Li2  1  0.5547  0.7349  0.9907  1\n  Li  Li3  1  0.4453  0.2651  0.0093  1\n  Li  Li4  1  0.1279  0.0068  0.2087  1\n  Li  Li5  1  0.0856  0.5262  0.7983  1\n  Co  Co6  1  0.6505  0.2880  0.5007  1\n  Co  Co7  1  0.3495  0.7120  0.4993  1\n  O  O8  1  0.7647  0.0674  0.1651  1\n  O  O9  1  0.7496  0.3590  0.8406  1\n  O  O10  1  0.7103  0.6555  0.5255  1\n  O  O11  1  0.2897  0.3445  0.4745  1\n  O  O12  1  0.2504  0.6410  0.1594  1\n  O  O13  1  0.2353  0.9326  0.8349  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOLi4Co2O3LiO2\n_chemical_formula_sum              \"Li6 O6 Co2\"\n_cell_length_a       5.2167\n_cell_length_b       5.4835\n_cell_length_c       5.5848\n_cell_angle_alpha    117.9618\n_cell_angle_beta     90.0118\n_cell_angle_gamma    90.9671\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9144  0.4738  0.2017  1.0000\n  O   O1        1.0000  0.8721  0.9932  0.7913  1.0000\n  Li  Li2       1.0000  0.5547  0.7349  0.9907  1.0000\n  Li  Li3       1.0000  0.4453  0.2651  0.0093  1.0000\n  Li  Li4       1.0000  0.1279  0.0068  0.2087  1.0000\n  Li  Li5       1.0000  0.0856  0.5262  0.7983  1.0000\n  Co  Co1       1.0000  0.6505  0.2880  0.5007  1.0000\n  Co  Co2       1.0000  0.3495  0.7120  0.4993  1.0000\n  O   O2        1.0000  0.7647  0.0674  0.1651  1.0000\n  O   O3        1.0000  0.7496  0.3590  0.8406  1.0000\n  O   O4        1.0000  0.7103  0.6555  0.5255  1.0000\n  Li  Li6       1.0000  0.2897  0.3445  0.4745  1.0000\n  O   O5        1.0000  0.2504  0.6410  0.1594  1.0000\n  O   O6        1.0000  0.2353  0.9326  0.8349  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0f1b98b9-5b58-4cc8-ad0e-a9bf3be5a8e9",
    "mp_id": "mp-755997",
    "action_prompt": "Swap the spatial positions of atoms at indices 13 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe6O7F5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7828\n_cell_length_b   5.6561\n_cell_length_c   7.7140\n_cell_angle_alpha   84.5946\n_cell_angle_beta   87.8289\n_cell_angle_gamma   86.3794\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe6O7F5\n_chemical_formula_sum   'Fe6 O7 F5'\n_cell_volume   207.2284\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.5114  0.8188  0.6672  1\n  Fe  Fe1  1  0.4601  0.4821  0.9939  1\n  Fe  Fe2  1  0.5544  0.1873  0.3323  1\n  Fe  Fe3  1  0.9804  0.3420  0.6738  1\n  Fe  Fe4  1  0.9843  0.6538  0.3320  1\n  Fe  Fe5  1  0.0214  0.0143  0.0007  1\n  O  O6  1  0.8146  0.3754  0.4452  1\n  O  O7  1  0.6972  0.2132  0.0920  1\n  O  O8  1  0.6816  0.5269  0.7785  1\n  O  O9  1  0.6969  0.8720  0.4373  1\n  O  O10  1  0.3040  0.4643  0.2268  1\n  O  O11  1  0.3030  0.7905  0.9004  1\n  O  O12  1  0.1871  0.2872  0.8868  1\n  F  F13  1  0.8046  0.0279  0.7646  1\n  F  F14  1  0.8121  0.7208  0.1001  1\n  F  F15  1  0.3015  0.1310  0.5653  1\n  F  F16  1  0.1887  0.9600  0.2369  1\n  F  F17  1  0.1968  0.6323  0.5662  1\n",
    "output": "data_image0\n_chemical_formula_structural       FFe5O7FeF4\n_chemical_formula_sum              \"F5 Fe6 O7\"\n_cell_length_a       4.7828\n_cell_length_b       5.6561\n_cell_length_c       7.7140\n_cell_angle_alpha    84.5946\n_cell_angle_beta     87.8289\n_cell_angle_gamma    86.3794\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.5114  0.8188  0.6672  1.0000\n  Fe  Fe1       1.0000  0.4601  0.4821  0.9939  1.0000\n  Fe  Fe2       1.0000  0.5544  0.1873  0.3323  1.0000\n  Fe  Fe3       1.0000  0.9804  0.3420  0.6738  1.0000\n  Fe  Fe4       1.0000  0.9843  0.6538  0.3320  1.0000\n  Fe  Fe5       1.0000  0.0214  0.0143  0.0007  1.0000\n  O   O1        1.0000  0.8146  0.3754  0.4452  1.0000\n  O   O2        1.0000  0.6972  0.2132  0.0920  1.0000\n  O   O3        1.0000  0.6816  0.5269  0.7785  1.0000\n  O   O4        1.0000  0.6969  0.8720  0.4373  1.0000\n  O   O5        1.0000  0.3040  0.4643  0.2268  1.0000\n  O   O6        1.0000  0.3030  0.7905  0.9004  1.0000\n  O   O7        1.0000  0.1871  0.2872  0.8868  1.0000\n  Fe  Fe6       1.0000  0.8046  0.0279  0.7646  1.0000\n  F   F2        1.0000  0.8121  0.7208  0.1001  1.0000\n  F   F3        1.0000  0.3015  0.1310  0.5653  1.0000\n  F   F4        1.0000  0.1887  0.9600  0.2369  1.0000\n  F   F5        1.0000  0.1968  0.6323  0.5662  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e7a97c8d-cd35-4106-af48-3ea6c271a7d1",
    "mp_id": "mp-756062",
    "action_prompt": "Swap the spatial positions of atoms at indices 16 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CeFeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.4670\n_cell_length_b   5.7839\n_cell_length_c   7.7773\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CeFeO3\n_chemical_formula_sum   'Ce4 Fe4 O12'\n_cell_volume   245.9248\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ce  Ce0  1  0.0247  0.4163  0.7500  1\n  Ce  Ce1  1  0.4753  0.9163  0.7500  1\n  Ce  Ce2  1  0.5247  0.0837  0.2500  1\n  Ce  Ce3  1  0.9753  0.5837  0.2500  1\n  Fe  Fe4  1  0.0000  0.0000  0.0000  1\n  Fe  Fe5  1  0.0000  0.0000  0.5000  1\n  Fe  Fe6  1  0.5000  0.5000  0.0000  1\n  Fe  Fe7  1  0.5000  0.5000  0.5000  1\n  O  O8  1  0.1359  0.9530  0.2500  1\n  O  O9  1  0.1820  0.6811  0.5681  1\n  O  O10  1  0.1820  0.6811  0.9319  1\n  O  O11  1  0.3180  0.1811  0.5681  1\n  O  O12  1  0.3180  0.1811  0.9319  1\n  O  O13  1  0.3641  0.4530  0.2500  1\n  O  O14  1  0.6359  0.5470  0.7500  1\n  O  O15  1  0.6820  0.8189  0.0681  1\n  O  O16  1  0.6820  0.8189  0.4319  1\n  O  O17  1  0.8180  0.3189  0.0681  1\n  O  O18  1  0.8180  0.3189  0.4319  1\n  O  O19  1  0.8641  0.0470  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ce2OCeFe4O8CeO3\n_chemical_formula_sum              \"Ce4 O12 Fe4\"\n_cell_length_a       5.4670\n_cell_length_b       5.7839\n_cell_length_c       7.7773\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ce  Ce1       1.0000  0.0247  0.4163  0.7500  1.0000\n  Ce  Ce2       1.0000  0.4753  0.9163  0.7500  1.0000\n  O   O1        1.0000  0.5247  0.0837  0.2500  1.0000\n  Ce  Ce3       1.0000  0.9753  0.5837  0.2500  1.0000\n  Fe  Fe1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Fe  Fe3       1.0000  0.5000  0.5000  0.0000  1.0000\n  Fe  Fe4       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.1359  0.9530  0.2500  1.0000\n  O   O3        1.0000  0.1820  0.6811  0.5681  1.0000\n  O   O4        1.0000  0.1820  0.6811  0.9319  1.0000\n  O   O5        1.0000  0.3180  0.1811  0.5681  1.0000\n  O   O6        1.0000  0.3180  0.1811  0.9319  1.0000\n  O   O7        1.0000  0.3641  0.4530  0.2500  1.0000\n  O   O8        1.0000  0.6359  0.5470  0.7500  1.0000\n  O   O9        1.0000  0.6820  0.8189  0.0681  1.0000\n  Ce  Ce4       1.0000  0.6820  0.8189  0.4319  1.0000\n  O   O10       1.0000  0.8180  0.3189  0.0681  1.0000\n  O   O11       1.0000  0.8180  0.3189  0.4319  1.0000\n  O   O12       1.0000  0.8641  0.0470  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6febc795-b8b7-4792-979c-8096919d2ce4",
    "mp_id": "mp-756382",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 18 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sr3WO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8561\n_cell_length_b   6.8561\n_cell_length_c   6.8561\n_cell_angle_alpha   91.6899\n_cell_angle_beta   91.6899\n_cell_angle_gamma   91.6899\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sr3WO6\n_chemical_formula_sum   'Sr6 W2 O12'\n_cell_volume   321.8498\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sr  Sr0  1  0.0644  0.2533  0.5628  1\n  Sr  Sr1  1  0.4372  0.9356  0.7467  1\n  Sr  Sr2  1  0.7467  0.4372  0.9356  1\n  Sr  Sr3  1  0.2533  0.5628  0.0644  1\n  Sr  Sr4  1  0.5628  0.0644  0.2533  1\n  Sr  Sr5  1  0.9356  0.7467  0.4372  1\n  W  W6  1  0.5000  0.5000  0.5000  1\n  W  W7  1  0.0000  -0.0000  -0.0000  1\n  O  O8  1  0.0675  0.2695  0.9418  1\n  O  O9  1  0.0582  0.9325  0.7305  1\n  O  O10  1  0.4534  0.5729  0.7698  1\n  O  O11  1  0.7305  0.0582  0.9325  1\n  O  O12  1  0.2302  0.5466  0.4271  1\n  O  O13  1  0.4271  0.2302  0.5466  1\n  O  O14  1  0.5729  0.7698  0.4534  1\n  O  O15  1  0.7698  0.4534  0.5729  1\n  O  O16  1  0.2695  0.9418  0.0675  1\n  O  O17  1  0.5466  0.4271  0.2302  1\n  O  O18  1  0.9418  0.0675  0.2695  1\n  O  O19  1  0.9325  0.7305  0.0582  1\n",
    "output": "data_image0\n_chemical_formula_structural       OSr5W2O10SrO\n_chemical_formula_sum              \"O12 Sr6 W2\"\n_cell_length_a       6.8561\n_cell_length_b       6.8561\n_cell_length_c       6.8561\n_cell_angle_alpha    91.6899\n_cell_angle_beta     91.6899\n_cell_angle_gamma    91.6899\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.0644  0.2533  0.5628  1.0000\n  Sr  Sr1       1.0000  0.4372  0.9356  0.7467  1.0000\n  Sr  Sr2       1.0000  0.7467  0.4372  0.9356  1.0000\n  Sr  Sr3       1.0000  0.2533  0.5628  0.0644  1.0000\n  Sr  Sr4       1.0000  0.5628  0.0644  0.2533  1.0000\n  Sr  Sr5       1.0000  0.9356  0.7467  0.4372  1.0000\n  W   W1        1.0000  0.5000  0.5000  0.5000  1.0000\n  W   W2        1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.0675  0.2695  0.9418  1.0000\n  O   O3        1.0000  0.0582  0.9325  0.7305  1.0000\n  O   O4        1.0000  0.4534  0.5729  0.7698  1.0000\n  O   O5        1.0000  0.7305  0.0582  0.9325  1.0000\n  O   O6        1.0000  0.2302  0.5466  0.4271  1.0000\n  O   O7        1.0000  0.4271  0.2302  0.5466  1.0000\n  O   O8        1.0000  0.5729  0.7698  0.4534  1.0000\n  O   O9        1.0000  0.7698  0.4534  0.5729  1.0000\n  O   O10       1.0000  0.2695  0.9418  0.0675  1.0000\n  O   O11       1.0000  0.5466  0.4271  0.2302  1.0000\n  Sr  Sr6       1.0000  0.9418  0.0675  0.2695  1.0000\n  O   O12       1.0000  0.9325  0.7305  0.0582  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "195395fd-deb5-4458-bc44-694ae3832796",
    "mp_id": "mp-756670",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Eu2Pb2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6453\n_cell_length_b   7.6454\n_cell_length_c   7.6466\n_cell_angle_alpha   59.9948\n_cell_angle_beta   59.9948\n_cell_angle_gamma   60.0111\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Eu2Pb2O7\n_chemical_formula_sum   'Eu4 Pb4 O14'\n_cell_volume   316.0471\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Eu  Eu0  1  0.6250  0.6250  0.1250  1\n  Eu  Eu1  1  0.6250  0.6250  0.6250  1\n  Eu  Eu2  1  0.6250  0.1250  0.6250  1\n  Eu  Eu3  1  0.1250  0.6250  0.6250  1\n  Pb  Pb4  1  0.1250  0.1250  0.1250  1\n  Pb  Pb5  1  0.6250  0.1250  0.1250  1\n  Pb  Pb6  1  0.1250  0.6250  0.1250  1\n  Pb  Pb7  1  0.1250  0.1250  0.6250  1\n  O  O8  1  0.0310  0.4690  0.4690  1\n  O  O9  1  0.7809  0.7809  0.2191  1\n  O  O10  1  0.7810  0.2190  0.2190  1\n  O  O11  1  0.4690  0.0310  0.4690  1\n  O  O12  1  0.7500  0.7500  0.7500  1\n  O  O13  1  0.0309  0.0309  0.4691  1\n  O  O14  1  0.0310  0.4690  0.0310  1\n  O  O15  1  0.2190  0.7810  0.2190  1\n  O  O16  1  0.2191  0.2191  0.7809  1\n  O  O17  1  0.7810  0.2190  0.7810  1\n  O  O18  1  0.5000  0.5000  0.5000  1\n  O  O19  1  0.4690  0.0310  0.0310  1\n  O  O20  1  0.4691  0.4691  0.0309  1\n  O  O21  1  0.2190  0.7810  0.7810  1\n",
    "output": "data_image0\n_chemical_formula_structural       Eu3Pb2EuPb2O14\n_chemical_formula_sum              \"Eu4 Pb4 O14\"\n_cell_length_a       7.6453\n_cell_length_b       7.6454\n_cell_length_c       7.6466\n_cell_angle_alpha    59.9948\n_cell_angle_beta     59.9948\n_cell_angle_gamma    60.0111\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Eu  Eu1       1.0000  0.6250  0.6250  0.1250  1.0000\n  Eu  Eu2       1.0000  0.6250  0.6250  0.6250  1.0000\n  Eu  Eu3       1.0000  0.6250  0.1250  0.6250  1.0000\n  Pb  Pb1       1.0000  0.1250  0.6250  0.6250  1.0000\n  Pb  Pb2       1.0000  0.1250  0.1250  0.1250  1.0000\n  Eu  Eu4       1.0000  0.6250  0.1250  0.1250  1.0000\n  Pb  Pb3       1.0000  0.1250  0.6250  0.1250  1.0000\n  Pb  Pb4       1.0000  0.1250  0.1250  0.6250  1.0000\n  O   O1        1.0000  0.0310  0.4690  0.4690  1.0000\n  O   O2        1.0000  0.7809  0.7809  0.2191  1.0000\n  O   O3        1.0000  0.7810  0.2190  0.2190  1.0000\n  O   O4        1.0000  0.4690  0.0310  0.4690  1.0000\n  O   O5        1.0000  0.7500  0.7500  0.7500  1.0000\n  O   O6        1.0000  0.0309  0.0309  0.4691  1.0000\n  O   O7        1.0000  0.0310  0.4690  0.0310  1.0000\n  O   O8        1.0000  0.2190  0.7810  0.2190  1.0000\n  O   O9        1.0000  0.2191  0.2191  0.7809  1.0000\n  O   O10       1.0000  0.7810  0.2190  0.7810  1.0000\n  O   O11       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O12       1.0000  0.4690  0.0310  0.0310  1.0000\n  O   O13       1.0000  0.4691  0.4691  0.0309  1.0000\n  O   O14       1.0000  0.2190  0.7810  0.7810  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4c1a8f6b-4b76-498c-8fbc-6caa92a5da97",
    "mp_id": "mp-756859",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3V2CoO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.5899\n_cell_length_b   6.5899\n_cell_length_c   5.9917\n_cell_angle_alpha   75.7298\n_cell_angle_beta   75.7298\n_cell_angle_gamma   26.3499\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3V2CoO6\n_chemical_formula_sum   'Li3 V2 Co1 O6'\n_cell_volume   111.7297\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.6638  0.6638  0.6651  1\n  Li  Li2  1  0.3362  0.3362  0.3349  1\n  V  V3  1  0.6630  0.6630  0.1740  1\n  V  V4  1  0.3370  0.3370  0.8260  1\n  Co  Co5  1  0.0000  0.0000  0.5000  1\n  O  O6  1  0.1685  0.1685  0.3988  1\n  O  O7  1  0.8268  0.8268  0.0661  1\n  O  O8  1  0.8315  0.8315  0.6012  1\n  O  O9  1  0.4909  0.4909  0.7543  1\n  O  O10  1  0.5091  0.5091  0.2457  1\n  O  O11  1  0.1732  0.1732  0.9339  1\n",
    "output": "data_image0\n_chemical_formula_structural       VLi3VCoO6\n_chemical_formula_sum              \"V2 Li3 Co1 O6\"\n_cell_length_a       6.5899\n_cell_length_b       6.5899\n_cell_length_c       5.9917\n_cell_angle_alpha    75.7298\n_cell_angle_beta     75.7298\n_cell_angle_gamma    26.3499\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li1       1.0000  0.6638  0.6638  0.6651  1.0000\n  Li  Li2       1.0000  0.3362  0.3362  0.3349  1.0000\n  Li  Li3       1.0000  0.6630  0.6630  0.1740  1.0000\n  V   V2        1.0000  0.3370  0.3370  0.8260  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.1685  0.1685  0.3988  1.0000\n  O   O2        1.0000  0.8268  0.8268  0.0661  1.0000\n  O   O3        1.0000  0.8315  0.8315  0.6012  1.0000\n  O   O4        1.0000  0.4909  0.4909  0.7543  1.0000\n  O   O5        1.0000  0.5091  0.5091  0.2457  1.0000\n  O   O6        1.0000  0.1732  0.1732  0.9339  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "17e14338-365a-40ba-9a32-522067ac37b2",
    "mp_id": "mp-756990",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 29 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2CrP3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.9824\n_cell_length_b   7.9824\n_cell_length_c   9.5712\n_cell_angle_alpha   57.5956\n_cell_angle_beta   57.5956\n_cell_angle_gamma   53.5625\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2CrP3O10\n_chemical_formula_sum   'Li4 Cr2 P6 O20'\n_cell_volume   392.4091\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7165  0.7424  0.9591  1\n  Li  Li1  1  0.7424  0.7165  0.4591  1\n  Li  Li2  1  0.2576  0.2835  0.5409  1\n  Li  Li3  1  0.2835  0.2576  0.0409  1\n  Cr  Cr4  1  0.3363  0.6637  0.7500  1\n  Cr  Cr5  1  0.6637  0.3363  0.2500  1\n  P  P6  1  0.8028  0.4332  0.8164  1\n  P  P7  1  0.4332  0.8028  0.3164  1\n  P  P8  1  0.9572  0.0428  0.7500  1\n  P  P9  1  0.0428  0.9572  0.2500  1\n  P  P10  1  0.5668  0.1972  0.6836  1\n  P  P11  1  0.1972  0.5668  0.1836  1\n  O  O12  1  0.9787  0.8076  0.8435  1\n  O  O13  1  0.8076  0.9787  0.3435  1\n  O  O14  1  0.5571  0.9824  0.8044  1\n  O  O15  1  0.7161  0.4662  0.9900  1\n  O  O16  1  0.6327  0.5948  0.7166  1\n  O  O17  1  0.9824  0.5571  0.3044  1\n  O  O18  1  0.8253  0.1826  0.8778  1\n  O  O19  1  0.4662  0.7161  0.4900  1\n  O  O20  1  0.5948  0.6327  0.2166  1\n  O  O21  1  0.8174  0.1747  0.6222  1\n  O  O22  1  0.1826  0.8253  0.3778  1\n  O  O23  1  0.4052  0.3673  0.7834  1\n  O  O24  1  0.5338  0.2839  0.5100  1\n  O  O25  1  0.1747  0.8174  0.1222  1\n  O  O26  1  0.0176  0.4429  0.6956  1\n  O  O27  1  0.3673  0.4052  0.2834  1\n  O  O28  1  0.2839  0.5338  0.0100  1\n  O  O29  1  0.4429  0.0176  0.1956  1\n  O  O30  1  0.1924  0.0213  0.6565  1\n  O  O31  1  0.0213  0.1924  0.1565  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi3Cr2P6O17LiO2\n_chemical_formula_sum              \"O20 Li4 Cr2 P6\"\n_cell_length_a       7.9824\n_cell_length_b       7.9824\n_cell_length_c       9.5712\n_cell_angle_alpha    57.5956\n_cell_angle_beta     57.5956\n_cell_angle_gamma    53.5625\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.7165  0.7424  0.9591  1.0000\n  Li  Li1       1.0000  0.7424  0.7165  0.4591  1.0000\n  Li  Li2       1.0000  0.2576  0.2835  0.5409  1.0000\n  Li  Li3       1.0000  0.2835  0.2576  0.0409  1.0000\n  Cr  Cr1       1.0000  0.3363  0.6637  0.7500  1.0000\n  Cr  Cr2       1.0000  0.6637  0.3363  0.2500  1.0000\n  P   P1        1.0000  0.8028  0.4332  0.8164  1.0000\n  P   P2        1.0000  0.4332  0.8028  0.3164  1.0000\n  P   P3        1.0000  0.9572  0.0428  0.7500  1.0000\n  P   P4        1.0000  0.0428  0.9572  0.2500  1.0000\n  P   P5        1.0000  0.5668  0.1972  0.6836  1.0000\n  P   P6        1.0000  0.1972  0.5668  0.1836  1.0000\n  O   O2        1.0000  0.9787  0.8076  0.8435  1.0000\n  O   O3        1.0000  0.8076  0.9787  0.3435  1.0000\n  O   O4        1.0000  0.5571  0.9824  0.8044  1.0000\n  O   O5        1.0000  0.7161  0.4662  0.9900  1.0000\n  O   O6        1.0000  0.6327  0.5948  0.7166  1.0000\n  O   O7        1.0000  0.9824  0.5571  0.3044  1.0000\n  O   O8        1.0000  0.8253  0.1826  0.8778  1.0000\n  O   O9        1.0000  0.4662  0.7161  0.4900  1.0000\n  O   O10       1.0000  0.5948  0.6327  0.2166  1.0000\n  O   O11       1.0000  0.8174  0.1747  0.6222  1.0000\n  O   O12       1.0000  0.1826  0.8253  0.3778  1.0000\n  O   O13       1.0000  0.4052  0.3673  0.7834  1.0000\n  O   O14       1.0000  0.5338  0.2839  0.5100  1.0000\n  O   O15       1.0000  0.1747  0.8174  0.1222  1.0000\n  O   O16       1.0000  0.0176  0.4429  0.6956  1.0000\n  O   O17       1.0000  0.3673  0.4052  0.2834  1.0000\n  O   O18       1.0000  0.2839  0.5338  0.0100  1.0000\n  Li  Li4       1.0000  0.4429  0.0176  0.1956  1.0000\n  O   O19       1.0000  0.1924  0.0213  0.6565  1.0000\n  O   O20       1.0000  0.0213  0.1924  0.1565  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "66797707-6f92-45fa-8ba1-fd3929713b80",
    "mp_id": "mp-757189",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 41 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiVPO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.2222\n_cell_length_b   5.7076\n_cell_length_c   9.9769\n_cell_angle_alpha   88.0167\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiVPO4\n_chemical_formula_sum   'Li8 V8 P8 O32'\n_cell_volume   638.6507\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8899  0.9189  0.9301  1\n  Li  Li1  1  0.6101  0.9189  0.4301  1\n  Li  Li2  1  0.3400  0.5418  0.6702  1\n  Li  Li3  1  0.1600  0.5418  0.1702  1\n  Li  Li4  1  0.8400  0.4582  0.8298  1\n  Li  Li5  1  0.6600  0.4582  0.3298  1\n  Li  Li6  1  0.3899  0.0811  0.5699  1\n  Li  Li7  1  0.1101  0.0811  0.0699  1\n  V  V8  1  0.0996  0.8684  0.7298  1\n  V  V9  1  0.4004  0.8684  0.2298  1\n  V  V10  1  0.6288  0.6690  0.9839  1\n  V  V11  1  0.8712  0.6690  0.4839  1\n  V  V12  1  0.1288  0.3310  0.5161  1\n  V  V13  1  0.3712  0.3310  0.0161  1\n  V  V14  1  0.5996  0.1316  0.7702  1\n  V  V15  1  0.9004  0.1316  0.2702  1\n  P  P16  1  0.3579  0.8810  0.9058  1\n  P  P17  1  0.1421  0.8810  0.4058  1\n  P  P18  1  0.6057  0.6223  0.6474  1\n  P  P19  1  0.8943  0.6223  0.1474  1\n  P  P20  1  0.1057  0.3777  0.8526  1\n  P  P21  1  0.3943  0.3777  0.3526  1\n  P  P22  1  0.8579  0.1190  0.5942  1\n  P  P23  1  0.6421  0.1190  0.0942  1\n  O  O24  1  0.2039  0.9601  0.5389  1\n  O  O25  1  0.9282  0.8973  0.6443  1\n  O  O26  1  0.2961  0.9601  0.0389  1\n  O  O27  1  0.5718  0.8973  0.1443  1\n  O  O28  1  0.2728  0.8072  0.7958  1\n  O  O29  1  0.5392  0.8653  0.6305  1\n  O  O30  1  0.2272  0.8072  0.2958  1\n  O  O31  1  0.9608  0.8653  0.1305  1\n  O  O32  1  0.4402  0.6694  0.9411  1\n  O  O33  1  0.6824  0.6190  0.7783  1\n  O  O34  1  0.0598  0.6694  0.4411  1\n  O  O35  1  0.6858  0.6008  0.5208  1\n  O  O36  1  0.0144  0.5818  0.8418  1\n  O  O37  1  0.8176  0.6190  0.2783  1\n  O  O38  1  0.8142  0.6008  0.0208  1\n  O  O39  1  0.4856  0.5818  0.3418  1\n  O  O40  1  0.5144  0.4182  0.6582  1\n  O  O41  1  0.1858  0.3992  0.9792  1\n  O  O42  1  0.1824  0.3810  0.7217  1\n  O  O43  1  0.9856  0.4182  0.1582  1\n  O  O44  1  0.3142  0.3992  0.4792  1\n  O  O45  1  0.9402  0.3306  0.5589  1\n  O  O46  1  0.3176  0.3810  0.2217  1\n  O  O47  1  0.5598  0.3306  0.0589  1\n  O  O48  1  0.0392  0.1347  0.8695  1\n  O  O49  1  0.7728  0.1928  0.7042  1\n  O  O50  1  0.4608  0.1347  0.3695  1\n  O  O51  1  0.7272  0.1928  0.2042  1\n  O  O52  1  0.4282  0.1027  0.8557  1\n  O  O53  1  0.7039  0.0399  0.9611  1\n  O  O54  1  0.0718  0.1027  0.3557  1\n  O  O55  1  0.7961  0.0399  0.4611  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OV8P8O17LiO14\n_chemical_formula_sum              \"Li8 O32 V8 P8\"\n_cell_length_a       11.2222\n_cell_length_b       5.7076\n_cell_length_c       9.9769\n_cell_angle_alpha    88.0167\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8899  0.9189  0.9301  1.0000\n  Li  Li2       1.0000  0.6101  0.9189  0.4301  1.0000\n  Li  Li3       1.0000  0.3400  0.5418  0.6702  1.0000\n  Li  Li4       1.0000  0.1600  0.5418  0.1702  1.0000\n  Li  Li5       1.0000  0.8400  0.4582  0.8298  1.0000\n  Li  Li6       1.0000  0.6600  0.4582  0.3298  1.0000\n  Li  Li7       1.0000  0.3899  0.0811  0.5699  1.0000\n  O   O1        1.0000  0.1101  0.0811  0.0699  1.0000\n  V   V1        1.0000  0.0996  0.8684  0.7298  1.0000\n  V   V2        1.0000  0.4004  0.8684  0.2298  1.0000\n  V   V3        1.0000  0.6288  0.6690  0.9839  1.0000\n  V   V4        1.0000  0.8712  0.6690  0.4839  1.0000\n  V   V5        1.0000  0.1288  0.3310  0.5161  1.0000\n  V   V6        1.0000  0.3712  0.3310  0.0161  1.0000\n  V   V7        1.0000  0.5996  0.1316  0.7702  1.0000\n  V   V8        1.0000  0.9004  0.1316  0.2702  1.0000\n  P   P1        1.0000  0.3579  0.8810  0.9058  1.0000\n  P   P2        1.0000  0.1421  0.8810  0.4058  1.0000\n  P   P3        1.0000  0.6057  0.6223  0.6474  1.0000\n  P   P4        1.0000  0.8943  0.6223  0.1474  1.0000\n  P   P5        1.0000  0.1057  0.3777  0.8526  1.0000\n  P   P6        1.0000  0.3943  0.3777  0.3526  1.0000\n  P   P7        1.0000  0.8579  0.1190  0.5942  1.0000\n  P   P8        1.0000  0.6421  0.1190  0.0942  1.0000\n  O   O2        1.0000  0.2039  0.9601  0.5389  1.0000\n  O   O3        1.0000  0.9282  0.8973  0.6443  1.0000\n  O   O4        1.0000  0.2961  0.9601  0.0389  1.0000\n  O   O5        1.0000  0.5718  0.8973  0.1443  1.0000\n  O   O6        1.0000  0.2728  0.8072  0.7958  1.0000\n  O   O7        1.0000  0.5392  0.8653  0.6305  1.0000\n  O   O8        1.0000  0.2272  0.8072  0.2958  1.0000\n  O   O9        1.0000  0.9608  0.8653  0.1305  1.0000\n  O   O10       1.0000  0.4402  0.6694  0.9411  1.0000\n  O   O11       1.0000  0.6824  0.6190  0.7783  1.0000\n  O   O12       1.0000  0.0598  0.6694  0.4411  1.0000\n  O   O13       1.0000  0.6858  0.6008  0.5208  1.0000\n  O   O14       1.0000  0.0144  0.5818  0.8418  1.0000\n  O   O15       1.0000  0.8176  0.6190  0.2783  1.0000\n  O   O16       1.0000  0.8142  0.6008  0.0208  1.0000\n  O   O17       1.0000  0.4856  0.5818  0.3418  1.0000\n  O   O18       1.0000  0.5144  0.4182  0.6582  1.0000\n  Li  Li8       1.0000  0.1858  0.3992  0.9792  1.0000\n  O   O19       1.0000  0.1824  0.3810  0.7217  1.0000\n  O   O20       1.0000  0.9856  0.4182  0.1582  1.0000\n  O   O21       1.0000  0.3142  0.3992  0.4792  1.0000\n  O   O22       1.0000  0.9402  0.3306  0.5589  1.0000\n  O   O23       1.0000  0.3176  0.3810  0.2217  1.0000\n  O   O24       1.0000  0.5598  0.3306  0.0589  1.0000\n  O   O25       1.0000  0.0392  0.1347  0.8695  1.0000\n  O   O26       1.0000  0.7728  0.1928  0.7042  1.0000\n  O   O27       1.0000  0.4608  0.1347  0.3695  1.0000\n  O   O28       1.0000  0.7272  0.1928  0.2042  1.0000\n  O   O29       1.0000  0.4282  0.1027  0.8557  1.0000\n  O   O30       1.0000  0.7039  0.0399  0.9611  1.0000\n  O   O31       1.0000  0.0718  0.1027  0.3557  1.0000\n  O   O32       1.0000  0.7961  0.0399  0.4611  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "32acd56d-1524-4b71-ad7e-03f6db43d9a4",
    "mp_id": "mp-757311",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 39 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Fe3(Si3O8)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0203\n_cell_length_b   9.7535\n_cell_length_c   10.2941\n_cell_angle_alpha   80.0030\n_cell_angle_beta   70.3255\n_cell_angle_gamma   82.5003\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Fe3(Si3O8)2\n_chemical_formula_sum   'Li4 Fe6 Si12 O32'\n_cell_volume   651.6561\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8587  0.8882  0.4689  1\n  Li  Li1  1  0.8363  0.5787  0.8146  1\n  Li  Li2  1  0.1637  0.4213  0.1854  1\n  Li  Li3  1  0.1413  0.1118  0.5311  1\n  Fe  Fe4  1  0.4205  0.8578  0.4737  1\n  Fe  Fe5  1  0.8494  0.8926  0.0905  1\n  Fe  Fe6  1  0.3476  0.8765  0.1106  1\n  Fe  Fe7  1  0.6524  0.1235  0.8894  1\n  Fe  Fe8  1  0.1506  0.1074  0.9095  1\n  Fe  Fe9  1  0.5795  0.1422  0.5263  1\n  Si  Si10  1  0.9945  0.8610  0.7582  1\n  Si  Si11  1  0.5487  0.8670  0.7670  1\n  Si  Si12  1  0.2173  0.6797  0.9333  1\n  Si  Si13  1  0.2527  0.6171  0.3498  1\n  Si  Si14  1  0.6447  0.6000  0.1344  1\n  Si  Si15  1  0.7923  0.5989  0.3868  1\n  Si  Si16  1  0.2077  0.4011  0.6132  1\n  Si  Si17  1  0.3553  0.4000  0.8656  1\n  Si  Si18  1  0.7473  0.3829  0.6502  1\n  Si  Si19  1  0.7827  0.3203  0.0667  1\n  Si  Si20  1  0.4513  0.1330  0.2330  1\n  Si  Si21  1  0.0055  0.1390  0.2418  1\n  O  O22  1  0.9457  0.9773  0.8665  1\n  O  O23  1  0.4511  0.9750  0.8828  1\n  O  O24  1  0.1346  0.9124  0.6026  1\n  O  O25  1  0.5415  0.9338  0.6143  1\n  O  O26  1  0.7874  0.8083  0.7467  1\n  O  O27  1  0.0712  0.7084  0.8336  1\n  O  O28  1  0.2687  0.7824  0.3415  1\n  O  O29  1  0.4424  0.7185  0.8294  1\n  O  O30  1  0.6518  0.7617  0.0703  1\n  O  O31  1  0.7147  0.7588  0.4076  1\n  O  O32  1  0.1325  0.7674  0.0627  1\n  O  O33  1  0.2410  0.5077  0.9832  1\n  O  O34  1  0.2424  0.4431  0.7491  1\n  O  O35  1  0.0396  0.5668  0.3488  1\n  O  O36  1  0.4074  0.5609  0.2049  1\n  O  O37  1  0.3050  0.5213  0.4824  1\n  O  O38  1  0.6950  0.4787  0.5176  1\n  O  O39  1  0.5926  0.4391  0.7951  1\n  O  O40  1  0.9604  0.4332  0.6512  1\n  O  O41  1  0.7576  0.5569  0.2509  1\n  O  O42  1  0.7590  0.4923  0.0168  1\n  O  O43  1  0.8675  0.2326  0.9373  1\n  O  O44  1  0.2853  0.2412  0.5924  1\n  O  O45  1  0.3482  0.2383  0.9297  1\n  O  O46  1  0.5576  0.2815  0.1706  1\n  O  O47  1  0.7313  0.2176  0.6585  1\n  O  O48  1  0.9288  0.2916  0.1664  1\n  O  O49  1  0.2126  0.1917  0.2533  1\n  O  O50  1  0.4585  0.0662  0.3857  1\n  O  O51  1  0.8654  0.0876  0.3974  1\n  O  O52  1  0.5489  0.0250  0.1172  1\n  O  O53  1  0.0543  0.0227  0.1335  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4OFe5Si12O17FeO14\n_chemical_formula_sum              \"Li4 O32 Fe6 Si12\"\n_cell_length_a       7.0203\n_cell_length_b       9.7535\n_cell_length_c       10.2941\n_cell_angle_alpha    80.0030\n_cell_angle_beta     70.3255\n_cell_angle_gamma    82.5003\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8587  0.8882  0.4689  1.0000\n  Li  Li2       1.0000  0.8363  0.5787  0.8146  1.0000\n  Li  Li3       1.0000  0.1637  0.4213  0.1854  1.0000\n  Li  Li4       1.0000  0.1413  0.1118  0.5311  1.0000\n  O   O1        1.0000  0.4205  0.8578  0.4737  1.0000\n  Fe  Fe1       1.0000  0.8494  0.8926  0.0905  1.0000\n  Fe  Fe2       1.0000  0.3476  0.8765  0.1106  1.0000\n  Fe  Fe3       1.0000  0.6524  0.1235  0.8894  1.0000\n  Fe  Fe4       1.0000  0.1506  0.1074  0.9095  1.0000\n  Fe  Fe5       1.0000  0.5795  0.1422  0.5263  1.0000\n  Si  Si1       1.0000  0.9945  0.8610  0.7582  1.0000\n  Si  Si2       1.0000  0.5487  0.8670  0.7670  1.0000\n  Si  Si3       1.0000  0.2173  0.6797  0.9333  1.0000\n  Si  Si4       1.0000  0.2527  0.6171  0.3498  1.0000\n  Si  Si5       1.0000  0.6447  0.6000  0.1344  1.0000\n  Si  Si6       1.0000  0.7923  0.5989  0.3868  1.0000\n  Si  Si7       1.0000  0.2077  0.4011  0.6132  1.0000\n  Si  Si8       1.0000  0.3553  0.4000  0.8656  1.0000\n  Si  Si9       1.0000  0.7473  0.3829  0.6502  1.0000\n  Si  Si10      1.0000  0.7827  0.3203  0.0667  1.0000\n  Si  Si11      1.0000  0.4513  0.1330  0.2330  1.0000\n  Si  Si12      1.0000  0.0055  0.1390  0.2418  1.0000\n  O   O2        1.0000  0.9457  0.9773  0.8665  1.0000\n  O   O3        1.0000  0.4511  0.9750  0.8828  1.0000\n  O   O4        1.0000  0.1346  0.9124  0.6026  1.0000\n  O   O5        1.0000  0.5415  0.9338  0.6143  1.0000\n  O   O6        1.0000  0.7874  0.8083  0.7467  1.0000\n  O   O7        1.0000  0.0712  0.7084  0.8336  1.0000\n  O   O8        1.0000  0.2687  0.7824  0.3415  1.0000\n  O   O9        1.0000  0.4424  0.7185  0.8294  1.0000\n  O   O10       1.0000  0.6518  0.7617  0.0703  1.0000\n  O   O11       1.0000  0.7147  0.7588  0.4076  1.0000\n  O   O12       1.0000  0.1325  0.7674  0.0627  1.0000\n  O   O13       1.0000  0.2410  0.5077  0.9832  1.0000\n  O   O14       1.0000  0.2424  0.4431  0.7491  1.0000\n  O   O15       1.0000  0.0396  0.5668  0.3488  1.0000\n  O   O16       1.0000  0.4074  0.5609  0.2049  1.0000\n  O   O17       1.0000  0.3050  0.5213  0.4824  1.0000\n  O   O18       1.0000  0.6950  0.4787  0.5176  1.0000\n  Fe  Fe6       1.0000  0.5926  0.4391  0.7951  1.0000\n  O   O19       1.0000  0.9604  0.4332  0.6512  1.0000\n  O   O20       1.0000  0.7576  0.5569  0.2509  1.0000\n  O   O21       1.0000  0.7590  0.4923  0.0168  1.0000\n  O   O22       1.0000  0.8675  0.2326  0.9373  1.0000\n  O   O23       1.0000  0.2852  0.2412  0.5924  1.0000\n  O   O24       1.0000  0.3482  0.2383  0.9297  1.0000\n  O   O25       1.0000  0.5576  0.2815  0.1706  1.0000\n  O   O26       1.0000  0.7313  0.2176  0.6585  1.0000\n  O   O27       1.0000  0.9288  0.2916  0.1664  1.0000\n  O   O28       1.0000  0.2126  0.1917  0.2533  1.0000\n  O   O29       1.0000  0.4585  0.0662  0.3857  1.0000\n  O   O30       1.0000  0.8654  0.0876  0.3974  1.0000\n  O   O31       1.0000  0.5489  0.0250  0.1172  1.0000\n  O   O32       1.0000  0.0543  0.0227  0.1335  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e8cfb928-8bc7-4425-89aa-b758c9fe235c",
    "mp_id": "mp-757314",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiCrPO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1207\n_cell_length_b   9.2487\n_cell_length_c   6.4457\n_cell_angle_alpha   90.0002\n_cell_angle_beta   90.0000\n_cell_angle_gamma   89.9999\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiCrPO4\n_chemical_formula_sum   'Li4 Cr4 P4 O16'\n_cell_volume   305.2713\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.0000  0.0000  0.5000  1\n  Li  Li2  1  0.5000  0.5000  0.0000  1\n  Li  Li3  1  0.5000  0.5000  0.5000  1\n  Cr  Cr4  1  0.9497  0.3619  0.2500  1\n  Cr  Cr5  1  0.5503  0.8619  0.2500  1\n  Cr  Cr6  1  0.4496  0.1380  0.7500  1\n  Cr  Cr7  1  0.0504  0.6380  0.7500  1\n  P  P8  1  0.4634  0.1884  0.2500  1\n  P  P9  1  0.9634  0.3116  0.7500  1\n  P  P10  1  0.0366  0.6884  0.2500  1\n  P  P11  1  0.5366  0.8116  0.7500  1\n  O  O12  1  0.7637  0.1596  0.2500  1\n  O  O13  1  0.2637  0.3404  0.7500  1\n  O  O14  1  0.7363  0.6596  0.2500  1\n  O  O15  1  0.2363  0.8404  0.7500  1\n  O  O16  1  0.9029  0.1464  0.7500  1\n  O  O17  1  0.4028  0.3536  0.2500  1\n  O  O18  1  0.5971  0.6464  0.7500  1\n  O  O19  1  0.0972  0.8536  0.2500  1\n  O  O20  1  0.3404  0.1142  0.0568  1\n  O  O21  1  0.3404  0.1142  0.4432  1\n  O  O22  1  0.8404  0.3858  0.9432  1\n  O  O23  1  0.8404  0.3858  0.5568  1\n  O  O24  1  0.1596  0.6142  0.0568  1\n  O  O25  1  0.1596  0.6142  0.4432  1\n  O  O26  1  0.6596  0.8858  0.5568  1\n  O  O27  1  0.6596  0.8858  0.9432  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Cr4OP3O10PO5\n_chemical_formula_sum              \"Li4 Cr4 O16 P4\"\n_cell_length_a       5.1207\n_cell_length_b       9.2487\n_cell_length_c       6.4457\n_cell_angle_alpha    90.0002\n_cell_angle_beta     90.0000\n_cell_angle_gamma    89.9999\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  1e-06  1.0000\n  Li  Li2       1.0000  0.0000  8e-06  0.5000  1.0000\n  Li  Li3       1.0000  0.5000  0.5000  2e-06  1.0000\n  Li  Li4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cr  Cr1       1.0000  0.9497  0.3619  0.2500  1.0000\n  Cr  Cr2       1.0000  0.5503  0.8619  0.2500  1.0000\n  Cr  Cr3       1.0000  0.4496  0.1380  0.7500  1.0000\n  Cr  Cr4       1.0000  0.0504  0.6380  0.7500  1.0000\n  O   O1        1.0000  0.4634  0.1884  0.2500  1.0000\n  P   P1        1.0000  0.9634  0.3116  0.7500  1.0000\n  P   P2        1.0000  0.0366  0.6884  0.2500  1.0000\n  P   P3        1.0000  0.5366  0.8116  0.7500  1.0000\n  O   O2        1.0000  0.7637  0.1596  0.2500  1.0000\n  O   O3        1.0000  0.2637  0.3404  0.7500  1.0000\n  O   O4        1.0000  0.7363  0.6596  0.2500  1.0000\n  O   O5        1.0000  0.2363  0.8404  0.7500  1.0000\n  O   O6        1.0000  0.9029  0.1464  0.7500  1.0000\n  O   O7        1.0000  0.4028  0.3536  0.2500  1.0000\n  O   O8        1.0000  0.5971  0.6464  0.7500  1.0000\n  O   O9        1.0000  0.0972  0.8536  0.2500  1.0000\n  O   O10       1.0000  0.3404  0.1142  0.0568  1.0000\n  O   O11       1.0000  0.3404  0.1142  0.4432  1.0000\n  P   P4        1.0000  0.8404  0.3858  0.9432  1.0000\n  O   O12       1.0000  0.8404  0.3858  0.5568  1.0000\n  O   O13       1.0000  0.1596  0.6142  0.0568  1.0000\n  O   O14       1.0000  0.1596  0.6142  0.4432  1.0000\n  O   O15       1.0000  0.6596  0.8858  0.5568  1.0000\n  O   O16       1.0000  0.6596  0.8858  0.9432  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1e3dd08a-512c-4f90-8f27-11a658b0e474",
    "mp_id": "mp-757440",
    "action_prompt": "Swap the spatial positions of atoms at indices 29 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cr(SO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8967\n_cell_length_b   8.8967\n_cell_length_c   8.8967\n_cell_angle_alpha   56.0040\n_cell_angle_beta   56.0040\n_cell_angle_gamma   56.0040\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cr(SO4)2\n_chemical_formula_sum   'Cr3 S6 O24'\n_cell_volume   451.8390\n_cell_formula_units_Z   3\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.3555  0.3555  0.3555  1\n  Cr  Cr1  1  0.6451  0.6451  0.6451  1\n  Cr  Cr2  1  0.8498  0.8498  0.8498  1\n  S  S3  1  0.4688  0.7455  0.0378  1\n  S  S4  1  0.7455  0.0378  0.4688  1\n  S  S5  1  0.0378  0.4688  0.7455  1\n  S  S6  1  0.9597  0.5359  0.2536  1\n  S  S7  1  0.2536  0.9597  0.5359  1\n  S  S8  1  0.5359  0.2536  0.9597  1\n  O  O9  1  0.5164  0.2958  0.1108  1\n  O  O10  1  0.1108  0.5164  0.2958  1\n  O  O11  1  0.3378  0.9453  0.0014  1\n  O  O12  1  0.2958  0.1108  0.5164  1\n  O  O13  1  0.6608  0.7136  0.0224  1\n  O  O14  1  0.3905  0.6095  0.2322  1\n  O  O15  1  0.6095  0.2322  0.3905  1\n  O  O16  1  0.9453  0.0014  0.3378  1\n  O  O17  1  0.2322  0.3905  0.6095  1\n  O  O18  1  0.9784  0.6783  0.0516  1\n  O  O19  1  0.9675  0.3518  0.2868  1\n  O  O20  1  0.2868  0.9675  0.3518  1\n  O  O21  1  0.7136  0.0224  0.6608  1\n  O  O22  1  0.0224  0.6608  0.7136  1\n  O  O23  1  0.0014  0.3378  0.9453  1\n  O  O24  1  0.7618  0.6259  0.3871  1\n  O  O25  1  0.0516  0.9784  0.6783  1\n  O  O26  1  0.3871  0.7618  0.6259  1\n  O  O27  1  0.6259  0.3871  0.7618  1\n  O  O28  1  0.3518  0.2868  0.9675  1\n  O  O29  1  0.6807  0.8931  0.5010  1\n  O  O30  1  0.6783  0.0516  0.9784  1\n  O  O31  1  0.8931  0.5010  0.6807  1\n  O  O32  1  0.5010  0.6807  0.8931  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr3S3OS2O20SO3\n_chemical_formula_sum              \"Cr3 S6 O24\"\n_cell_length_a       8.8967\n_cell_length_b       8.8967\n_cell_length_c       8.8967\n_cell_angle_alpha    56.0040\n_cell_angle_beta     56.0040\n_cell_angle_gamma    56.0040\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.3555  0.3555  0.3555  1.0000\n  Cr  Cr2       1.0000  0.6451  0.6451  0.6451  1.0000\n  Cr  Cr3       1.0000  0.8498  0.8498  0.8498  1.0000\n  S   S1        1.0000  0.4688  0.7455  0.0378  1.0000\n  S   S2        1.0000  0.7455  0.0378  0.4688  1.0000\n  S   S3        1.0000  0.0378  0.4688  0.7455  1.0000\n  O   O1        1.0000  0.9597  0.5359  0.2536  1.0000\n  S   S4        1.0000  0.2536  0.9597  0.5359  1.0000\n  S   S5        1.0000  0.5359  0.2536  0.9597  1.0000\n  O   O2        1.0000  0.5164  0.2958  0.1108  1.0000\n  O   O3        1.0000  0.1108  0.5164  0.2958  1.0000\n  O   O4        1.0000  0.3378  0.9453  0.0014  1.0000\n  O   O5        1.0000  0.2958  0.1108  0.5164  1.0000\n  O   O6        1.0000  0.6608  0.7136  0.0224  1.0000\n  O   O7        1.0000  0.3905  0.6095  0.2322  1.0000\n  O   O8        1.0000  0.6095  0.2322  0.3905  1.0000\n  O   O9        1.0000  0.9453  0.0014  0.3378  1.0000\n  O   O10       1.0000  0.2322  0.3905  0.6095  1.0000\n  O   O11       1.0000  0.9784  0.6783  0.0516  1.0000\n  O   O12       1.0000  0.9675  0.3518  0.2868  1.0000\n  O   O13       1.0000  0.2868  0.9675  0.3518  1.0000\n  O   O14       1.0000  0.7136  0.0224  0.6608  1.0000\n  O   O15       1.0000  0.0224  0.6608  0.7136  1.0000\n  O   O16       1.0000  0.0014  0.3378  0.9453  1.0000\n  O   O17       1.0000  0.7618  0.6259  0.3870  1.0000\n  O   O18       1.0000  0.0516  0.9784  0.6783  1.0000\n  O   O19       1.0000  0.3871  0.7618  0.6259  1.0000\n  O   O20       1.0000  0.6259  0.3871  0.7618  1.0000\n  O   O21       1.0000  0.3518  0.2868  0.9675  1.0000\n  S   S6        1.0000  0.6807  0.8931  0.5010  1.0000\n  O   O22       1.0000  0.6783  0.0516  0.9784  1.0000\n  O   O23       1.0000  0.8931  0.5010  0.6807  1.0000\n  O   O24       1.0000  0.5010  0.6807  0.8931  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "64570d81-ce10-4178-95b9-b1d2046b1f7a",
    "mp_id": "mp-757579",
    "action_prompt": "Swap the spatial positions of atoms at indices 47 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Fe(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8804\n_cell_length_b   9.0847\n_cell_length_c   14.7966\n_cell_angle_alpha   76.3668\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Fe(PO4)2\n_chemical_formula_sum   'Li12 Fe4 P8 O32'\n_cell_volume   637.5500\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7464  0.8920  0.9235  1\n  Li  Li1  1  0.7536  0.8920  0.4235  1\n  Li  Li2  1  0.3472  0.7337  0.5092  1\n  Li  Li3  1  0.1528  0.7337  0.0092  1\n  Li  Li4  1  0.8641  0.6002  0.6544  1\n  Li  Li5  1  0.6359  0.6002  0.1544  1\n  Li  Li6  1  0.3641  0.3998  0.8456  1\n  Li  Li7  1  0.1359  0.3998  0.3456  1\n  Li  Li8  1  0.6528  0.2663  0.4908  1\n  Li  Li9  1  0.8472  0.2663  0.9908  1\n  Li  Li10  1  0.2464  0.1080  0.5765  1\n  Li  Li11  1  0.2536  0.1080  0.0765  1\n  Fe  Fe12  1  0.2086  0.8107  0.7927  1\n  Fe  Fe13  1  0.2914  0.8107  0.2927  1\n  Fe  Fe14  1  0.7086  0.1893  0.7073  1\n  Fe  Fe15  1  0.7914  0.1893  0.2073  1\n  P  P16  1  0.7504  0.9325  0.6276  1\n  P  P17  1  0.7496  0.9325  0.1276  1\n  P  P18  1  0.7739  0.5939  0.8566  1\n  P  P19  1  0.7261  0.5939  0.3566  1\n  P  P20  1  0.2739  0.4061  0.6434  1\n  P  P21  1  0.2261  0.4061  0.1434  1\n  P  P22  1  0.2504  0.0675  0.8724  1\n  P  P23  1  0.2496  0.0675  0.3724  1\n  O  O24  1  0.5260  0.9672  0.6967  1\n  O  O25  1  0.9740  0.9672  0.1967  1\n  O  O26  1  0.3548  0.9022  0.9160  1\n  O  O27  1  0.1452  0.9022  0.4160  1\n  O  O28  1  0.6379  0.8487  0.5579  1\n  O  O29  1  0.8621  0.8487  0.0579  1\n  O  O30  1  0.9977  0.8404  0.6768  1\n  O  O31  1  0.5023  0.8404  0.1768  1\n  O  O32  1  0.5030  0.6726  0.8138  1\n  O  O33  1  0.9309  0.7167  0.8980  1\n  O  O34  1  0.9970  0.6726  0.3138  1\n  O  O35  1  0.5691  0.7167  0.3980  1\n  O  O36  1  0.1879  0.5510  0.5736  1\n  O  O37  1  0.3121  0.5510  0.0736  1\n  O  O38  1  0.9747  0.5642  0.7841  1\n  O  O39  1  0.4747  0.4358  0.7159  1\n  O  O40  1  0.5253  0.5642  0.2841  1\n  O  O41  1  0.0253  0.4358  0.2159  1\n  O  O42  1  0.6879  0.4490  0.9264  1\n  O  O43  1  0.8121  0.4490  0.4264  1\n  O  O44  1  0.4309  0.2833  0.6020  1\n  O  O45  1  0.0030  0.3274  0.6862  1\n  O  O46  1  0.0691  0.2833  0.1020  1\n  O  O47  1  0.4970  0.3274  0.1862  1\n  O  O48  1  0.4977  0.1596  0.8232  1\n  O  O49  1  0.0023  0.1596  0.3232  1\n  O  O50  1  0.1379  0.1513  0.9421  1\n  O  O51  1  0.3621  0.1513  0.4421  1\n  O  O52  1  0.8548  0.0978  0.5840  1\n  O  O53  1  0.6452  0.0978  0.0840  1\n  O  O54  1  0.0260  0.0328  0.8033  1\n  O  O55  1  0.4740  0.0328  0.3033  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6OLi5Fe4P8O23LiO8\n_chemical_formula_sum              \"Li12 O32 Fe4 P8\"\n_cell_length_a       4.8804\n_cell_length_b       9.0847\n_cell_length_c       14.7966\n_cell_angle_alpha    76.3668\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7464  0.8920  0.9235  1.0000\n  Li  Li2       1.0000  0.7536  0.8920  0.4235  1.0000\n  Li  Li3       1.0000  0.3472  0.7337  0.5092  1.0000\n  Li  Li4       1.0000  0.1528  0.7337  0.0092  1.0000\n  Li  Li5       1.0000  0.8641  0.6002  0.6544  1.0000\n  Li  Li6       1.0000  0.6359  0.6002  0.1544  1.0000\n  O   O1        1.0000  0.3641  0.3998  0.8456  1.0000\n  Li  Li7       1.0000  0.1359  0.3998  0.3456  1.0000\n  Li  Li8       1.0000  0.6528  0.2663  0.4908  1.0000\n  Li  Li9       1.0000  0.8472  0.2663  0.9908  1.0000\n  Li  Li10      1.0000  0.2464  0.1080  0.5765  1.0000\n  Li  Li11      1.0000  0.2536  0.1080  0.0765  1.0000\n  Fe  Fe1       1.0000  0.2086  0.8107  0.7927  1.0000\n  Fe  Fe2       1.0000  0.2914  0.8107  0.2927  1.0000\n  Fe  Fe3       1.0000  0.7086  0.1893  0.7073  1.0000\n  Fe  Fe4       1.0000  0.7914  0.1893  0.2073  1.0000\n  P   P1        1.0000  0.7504  0.9325  0.6276  1.0000\n  P   P2        1.0000  0.7496  0.9325  0.1276  1.0000\n  P   P3        1.0000  0.7739  0.5939  0.8566  1.0000\n  P   P4        1.0000  0.7261  0.5939  0.3566  1.0000\n  P   P5        1.0000  0.2739  0.4061  0.6434  1.0000\n  P   P6        1.0000  0.2261  0.4061  0.1434  1.0000\n  P   P7        1.0000  0.2504  0.0675  0.8724  1.0000\n  P   P8        1.0000  0.2496  0.0675  0.3724  1.0000\n  O   O2        1.0000  0.5260  0.9672  0.6967  1.0000\n  O   O3        1.0000  0.9740  0.9672  0.1967  1.0000\n  O   O4        1.0000  0.3548  0.9022  0.9160  1.0000\n  O   O5        1.0000  0.1452  0.9022  0.4160  1.0000\n  O   O6        1.0000  0.6379  0.8487  0.5579  1.0000\n  O   O7        1.0000  0.8621  0.8487  0.0579  1.0000\n  O   O8        1.0000  0.9977  0.8404  0.6768  1.0000\n  O   O9        1.0000  0.5023  0.8404  0.1768  1.0000\n  O   O10       1.0000  0.5030  0.6726  0.8138  1.0000\n  O   O11       1.0000  0.9309  0.7167  0.8980  1.0000\n  O   O12       1.0000  0.9970  0.6726  0.3138  1.0000\n  O   O13       1.0000  0.5691  0.7167  0.3980  1.0000\n  O   O14       1.0000  0.1879  0.5510  0.5736  1.0000\n  O   O15       1.0000  0.3121  0.5510  0.0736  1.0000\n  O   O16       1.0000  0.9747  0.5642  0.7841  1.0000\n  O   O17       1.0000  0.4747  0.4358  0.7159  1.0000\n  O   O18       1.0000  0.5253  0.5642  0.2841  1.0000\n  O   O19       1.0000  0.0253  0.4358  0.2159  1.0000\n  O   O20       1.0000  0.6879  0.4490  0.9264  1.0000\n  O   O21       1.0000  0.8121  0.4490  0.4264  1.0000\n  O   O22       1.0000  0.4309  0.2833  0.6020  1.0000\n  O   O23       1.0000  0.0030  0.3274  0.6862  1.0000\n  O   O24       1.0000  0.0691  0.2833  0.1020  1.0000\n  Li  Li12      1.0000  0.4970  0.3274  0.1862  1.0000\n  O   O25       1.0000  0.4977  0.1596  0.8232  1.0000\n  O   O26       1.0000  0.0023  0.1596  0.3232  1.0000\n  O   O27       1.0000  0.1379  0.1513  0.9421  1.0000\n  O   O28       1.0000  0.3621  0.1513  0.4421  1.0000\n  O   O29       1.0000  0.8548  0.0978  0.5840  1.0000\n  O   O30       1.0000  0.6452  0.0978  0.0840  1.0000\n  O   O31       1.0000  0.0260  0.0328  0.8033  1.0000\n  O   O32       1.0000  0.4740  0.0328  0.3033  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "caf1ccfe-250c-4cb6-addc-a200262feb99",
    "mp_id": "mp-757665",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiNiPO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.9705\n_cell_length_b   4.9705\n_cell_length_c   15.4017\n_cell_angle_alpha   86.5627\n_cell_angle_beta   86.5627\n_cell_angle_gamma   74.7939\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiNiPO4\n_chemical_formula_sum   'Li4 Ni4 P4 O16'\n_cell_volume   366.1443\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7861  0.6691  0.2705  1\n  Li  Li1  1  0.6691  0.7861  0.7705  1\n  Li  Li2  1  0.3309  0.2139  0.2295  1\n  Li  Li3  1  0.2139  0.3309  0.7295  1\n  Ni  Ni4  1  0.9296  0.3766  0.0885  1\n  Ni  Ni5  1  0.6234  0.0704  0.4115  1\n  Ni  Ni6  1  0.3766  0.9296  0.5885  1\n  Ni  Ni7  1  0.0704  0.6234  0.9115  1\n  P  P8  1  0.2991  0.7351  0.3772  1\n  P  P9  1  0.2649  0.7009  0.1228  1\n  P  P10  1  0.7351  0.2991  0.8772  1\n  P  P11  1  0.7009  0.2649  0.6228  1\n  O  O12  1  0.4384  0.9161  0.3110  1\n  O  O13  1  0.9161  0.4384  0.8110  1\n  O  O14  1  0.2027  0.0186  0.1310  1\n  O  O15  1  0.5687  0.5552  0.1439  1\n  O  O16  1  0.3773  0.8170  0.4663  1\n  O  O17  1  0.0186  0.2027  0.6310  1\n  O  O18  1  0.5552  0.5687  0.6439  1\n  O  O19  1  0.8170  0.3773  0.9663  1\n  O  O20  1  0.1830  0.6227  0.0337  1\n  O  O21  1  0.4448  0.4313  0.3561  1\n  O  O22  1  0.9814  0.7973  0.3690  1\n  O  O23  1  0.6227  0.1830  0.5337  1\n  O  O24  1  0.4313  0.4448  0.8561  1\n  O  O25  1  0.7973  0.9814  0.8690  1\n  O  O26  1  0.0839  0.5616  0.1890  1\n  O  O27  1  0.5616  0.0839  0.6890  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiPLi2Ni4P3LiO16\n_chemical_formula_sum              \"Li4 P4 Ni4 O16\"\n_cell_length_a       4.9705\n_cell_length_b       4.9705\n_cell_length_c       15.4017\n_cell_angle_alpha    86.5627\n_cell_angle_beta     86.5627\n_cell_angle_gamma    74.7939\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7861  0.6691  0.2705  1.0000\n  P   P1        1.0000  0.6691  0.7861  0.7705  1.0000\n  Li  Li2       1.0000  0.3309  0.2139  0.2295  1.0000\n  Li  Li3       1.0000  0.2139  0.3309  0.7295  1.0000\n  Ni  Ni1       1.0000  0.9296  0.3766  0.0885  1.0000\n  Ni  Ni2       1.0000  0.6234  0.0704  0.4115  1.0000\n  Ni  Ni3       1.0000  0.3766  0.9296  0.5885  1.0000\n  Ni  Ni4       1.0000  0.0704  0.6234  0.9115  1.0000\n  P   P2        1.0000  0.2991  0.7351  0.3772  1.0000\n  P   P3        1.0000  0.2649  0.7009  0.1228  1.0000\n  P   P4        1.0000  0.7351  0.2991  0.8772  1.0000\n  Li  Li4       1.0000  0.7009  0.2649  0.6228  1.0000\n  O   O1        1.0000  0.4384  0.9161  0.3110  1.0000\n  O   O2        1.0000  0.9161  0.4384  0.8110  1.0000\n  O   O3        1.0000  0.2027  0.0186  0.1310  1.0000\n  O   O4        1.0000  0.5687  0.5552  0.1439  1.0000\n  O   O5        1.0000  0.3773  0.8170  0.4663  1.0000\n  O   O6        1.0000  0.0186  0.2027  0.6310  1.0000\n  O   O7        1.0000  0.5552  0.5687  0.6439  1.0000\n  O   O8        1.0000  0.8170  0.3773  0.9663  1.0000\n  O   O9        1.0000  0.1830  0.6227  0.0337  1.0000\n  O   O10       1.0000  0.4448  0.4313  0.3561  1.0000\n  O   O11       1.0000  0.9814  0.7973  0.3690  1.0000\n  O   O12       1.0000  0.6227  0.1830  0.5337  1.0000\n  O   O13       1.0000  0.4313  0.4448  0.8561  1.0000\n  O   O14       1.0000  0.7973  0.9814  0.8690  1.0000\n  O   O15       1.0000  0.0839  0.5616  0.1890  1.0000\n  O   O16       1.0000  0.5616  0.0839  0.6890  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1d05733b-a0a0-4175-af02-6dcf37b78a02",
    "mp_id": "mp-757787",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2VOF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7098\n_cell_length_b   5.7099\n_cell_length_c   5.2254\n_cell_angle_alpha   89.7324\n_cell_angle_beta   90.2669\n_cell_angle_gamma   118.0890\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2VOF3\n_chemical_formula_sum   'Li4 V2 O2 F6'\n_cell_volume   150.2919\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3462  0.9593  0.7546  1\n  Li  Li1  1  0.0626  0.6527  0.2678  1\n  Li  Li2  1  0.9593  0.3462  0.7454  1\n  Li  Li3  1  0.6527  0.0626  0.2322  1\n  V  V4  1  0.6138  0.6138  0.7500  1\n  V  V5  1  0.3528  0.3528  0.2500  1\n  O  O6  1  0.2947  0.5126  0.9427  1\n  O  O7  1  0.5126  0.2946  0.5573  1\n  F  F8  1  0.7343  0.9953  0.8840  1\n  F  F9  1  0.9975  0.2717  0.3869  1\n  F  F10  1  0.4762  0.7302  0.4265  1\n  F  F11  1  0.7302  0.4762  0.0735  1\n  F  F12  1  0.9953  0.7343  0.6160  1\n  F  F13  1  0.2717  0.9975  0.1131  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4V2FO2F5\n_chemical_formula_sum              \"Li4 V2 F6 O2\"\n_cell_length_a       5.7098\n_cell_length_b       5.7099\n_cell_length_c       5.2254\n_cell_angle_alpha    89.7324\n_cell_angle_beta     90.2669\n_cell_angle_gamma    118.0890\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3462  0.9593  0.7546  1.0000\n  Li  Li2       1.0000  0.0626  0.6527  0.2678  1.0000\n  Li  Li3       1.0000  0.9593  0.3462  0.7454  1.0000\n  Li  Li4       1.0000  0.6527  0.0626  0.2322  1.0000\n  V   V1        1.0000  0.6138  0.6138  0.7500  1.0000\n  V   V2        1.0000  0.3528  0.3528  0.2500  1.0000\n  F   F1        1.0000  0.2947  0.5126  0.9427  1.0000\n  O   O1        1.0000  0.5126  0.2946  0.5573  1.0000\n  O   O2        1.0000  0.7343  0.9953  0.8840  1.0000\n  F   F2        1.0000  0.9975  0.2717  0.3869  1.0000\n  F   F3        1.0000  0.4762  0.7302  0.4265  1.0000\n  F   F4        1.0000  0.7302  0.4762  0.0735  1.0000\n  F   F5        1.0000  0.9953  0.7343  0.6160  1.0000\n  F   F6        1.0000  0.2717  0.9975  0.1131  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "58bb7a95-cef9-49a0-ae2c-c8be75b19705",
    "mp_id": "mp-758534",
    "action_prompt": "Swap the spatial positions of atoms at indices 60 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFe(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.1580\n_cell_length_b   7.2812\n_cell_length_c   11.7693\n_cell_angle_alpha   54.0570\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFe(PO3)4\n_chemical_formula_sum   'Li4 Fe4 P16 O48'\n_cell_volume   912.8800\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2005  0.9444  0.0269  1\n  Li  Li1  1  0.7005  0.0556  0.4731  1\n  Li  Li2  1  0.2995  0.9444  0.5269  1\n  Li  Li3  1  0.7995  0.0556  0.9731  1\n  Fe  Fe4  1  0.2904  0.5454  0.4378  1\n  Fe  Fe5  1  0.7904  0.4546  0.0622  1\n  Fe  Fe6  1  0.2096  0.5454  0.9378  1\n  Fe  Fe7  1  0.7096  0.4546  0.5622  1\n  P  P8  1  0.6183  0.8191  0.2596  1\n  P  P9  1  0.1303  0.4192  0.6933  1\n  P  P10  1  0.9120  0.4583  0.7075  1\n  P  P11  1  0.8997  0.0690  0.2220  1\n  P  P12  1  0.3997  0.9310  0.2780  1\n  P  P13  1  0.4120  0.5417  0.7925  1\n  P  P14  1  0.6303  0.5808  0.8067  1\n  P  P15  1  0.1183  0.1809  0.2404  1\n  P  P16  1  0.8817  0.8191  0.7596  1\n  P  P17  1  0.3697  0.4192  0.1933  1\n  P  P18  1  0.5880  0.4583  0.2075  1\n  P  P19  1  0.6003  0.0690  0.7220  1\n  P  P20  1  0.1003  0.9310  0.7780  1\n  P  P21  1  0.0880  0.5417  0.2925  1\n  P  P22  1  0.8697  0.5808  0.3067  1\n  P  P23  1  0.3817  0.1809  0.7404  1\n  O  O24  1  0.8776  0.8114  0.2953  1\n  O  O25  1  0.9018  0.2129  0.8210  1\n  O  O26  1  0.4161  0.4011  0.7285  1\n  O  O27  1  0.3268  0.8306  0.2267  1\n  O  O28  1  0.6920  0.9638  0.1449  1\n  O  O29  1  0.1446  0.3690  0.8351  1\n  O  O30  1  0.6451  0.7309  0.4097  1\n  O  O31  1  0.8897  0.2180  0.0627  1\n  O  O32  1  0.5120  0.9524  0.2218  1\n  O  O33  1  0.0206  0.5289  0.6273  1\n  O  O34  1  0.2083  0.5650  0.5800  1\n  O  O35  1  0.3343  0.4346  0.9105  1\n  O  O36  1  0.8343  0.5654  0.5895  1\n  O  O37  1  0.0120  0.0476  0.2782  1\n  O  O38  1  0.7083  0.4350  0.9200  1\n  O  O39  1  0.3897  0.7820  0.4373  1\n  O  O40  1  0.5206  0.4711  0.8727  1\n  O  O41  1  0.1451  0.2691  0.0903  1\n  O  O42  1  0.6446  0.6310  0.6649  1\n  O  O43  1  0.1920  0.0362  0.3551  1\n  O  O44  1  0.8268  0.1694  0.2733  1\n  O  O45  1  0.9161  0.5989  0.7715  1\n  O  O46  1  0.3776  0.1886  0.2047  1\n  O  O47  1  0.4018  0.7871  0.6790  1\n  O  O48  1  0.5982  0.2129  0.3210  1\n  O  O49  1  0.6224  0.8114  0.7953  1\n  O  O50  1  0.0839  0.4011  0.2285  1\n  O  O51  1  0.1732  0.8306  0.7267  1\n  O  O52  1  0.8080  0.9638  0.6449  1\n  O  O53  1  0.3554  0.3690  0.3351  1\n  O  O54  1  0.8549  0.7309  0.9097  1\n  O  O55  1  0.4794  0.5289  0.1273  1\n  O  O56  1  0.6103  0.2180  0.5627  1\n  O  O57  1  0.2917  0.5650  0.0800  1\n  O  O58  1  0.9880  0.9524  0.7218  1\n  O  O59  1  0.1657  0.4346  0.4105  1\n  O  O60  1  0.6657  0.5654  0.0895  1\n  O  O61  1  0.7917  0.4350  0.4200  1\n  O  O62  1  0.9794  0.4711  0.3727  1\n  O  O63  1  0.4880  0.0476  0.7782  1\n  O  O64  1  0.1103  0.7820  0.9373  1\n  O  O65  1  0.3549  0.2691  0.5903  1\n  O  O66  1  0.8554  0.6310  0.1649  1\n  O  O67  1  0.3080  0.0362  0.8551  1\n  O  O68  1  0.6732  0.1694  0.7733  1\n  O  O69  1  0.5839  0.5989  0.2715  1\n  O  O70  1  0.0982  0.7871  0.1790  1\n  O  O71  1  0.1224  0.1886  0.7047  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Fe4P11OP4O36PO11\n_chemical_formula_sum              \"Li4 Fe4 P16 O48\"\n_cell_length_a       13.1580\n_cell_length_b       7.2812\n_cell_length_c       11.7693\n_cell_angle_alpha    54.0570\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2005  0.9444  0.0269  1.0000\n  Li  Li2       1.0000  0.7005  0.0556  0.4731  1.0000\n  Li  Li3       1.0000  0.2995  0.9444  0.5269  1.0000\n  Li  Li4       1.0000  0.7995  0.0556  0.9731  1.0000\n  Fe  Fe1       1.0000  0.2904  0.5454  0.4378  1.0000\n  Fe  Fe2       1.0000  0.7904  0.4546  0.0622  1.0000\n  Fe  Fe3       1.0000  0.2096  0.5454  0.9378  1.0000\n  Fe  Fe4       1.0000  0.7096  0.4546  0.5622  1.0000\n  P   P1        1.0000  0.6183  0.8191  0.2596  1.0000\n  P   P2        1.0000  0.1303  0.4192  0.6933  1.0000\n  P   P3        1.0000  0.9120  0.4583  0.7075  1.0000\n  P   P4        1.0000  0.8997  0.0690  0.2220  1.0000\n  P   P5        1.0000  0.3997  0.9310  0.2780  1.0000\n  P   P6        1.0000  0.4120  0.5417  0.7925  1.0000\n  P   P7        1.0000  0.6303  0.5808  0.8067  1.0000\n  P   P8        1.0000  0.1183  0.1809  0.2404  1.0000\n  P   P9        1.0000  0.8817  0.8191  0.7596  1.0000\n  P   P10       1.0000  0.3697  0.4192  0.1933  1.0000\n  P   P11       1.0000  0.5880  0.4583  0.2075  1.0000\n  O   O1        1.0000  0.6003  0.0690  0.7220  1.0000\n  P   P12       1.0000  0.1003  0.9310  0.7780  1.0000\n  P   P13       1.0000  0.0880  0.5417  0.2925  1.0000\n  P   P14       1.0000  0.8697  0.5808  0.3067  1.0000\n  P   P15       1.0000  0.3817  0.1809  0.7404  1.0000\n  O   O2        1.0000  0.8776  0.8114  0.2953  1.0000\n  O   O3        1.0000  0.9018  0.2129  0.8210  1.0000\n  O   O4        1.0000  0.4161  0.4011  0.7285  1.0000\n  O   O5        1.0000  0.3268  0.8306  0.2267  1.0000\n  O   O6        1.0000  0.6920  0.9638  0.1449  1.0000\n  O   O7        1.0000  0.1446  0.3690  0.8351  1.0000\n  O   O8        1.0000  0.6451  0.7309  0.4097  1.0000\n  O   O9        1.0000  0.8897  0.2180  0.0627  1.0000\n  O   O10       1.0000  0.5120  0.9524  0.2218  1.0000\n  O   O11       1.0000  0.0206  0.5289  0.6273  1.0000\n  O   O12       1.0000  0.2083  0.5650  0.5800  1.0000\n  O   O13       1.0000  0.3343  0.4346  0.9105  1.0000\n  O   O14       1.0000  0.8343  0.5654  0.5895  1.0000\n  O   O15       1.0000  0.0120  0.0476  0.2782  1.0000\n  O   O16       1.0000  0.7083  0.4350  0.9200  1.0000\n  O   O17       1.0000  0.3897  0.7820  0.4373  1.0000\n  O   O18       1.0000  0.5206  0.4711  0.8727  1.0000\n  O   O19       1.0000  0.1451  0.2691  0.0903  1.0000\n  O   O20       1.0000  0.6446  0.6310  0.6649  1.0000\n  O   O21       1.0000  0.1920  0.0362  0.3551  1.0000\n  O   O22       1.0000  0.8268  0.1694  0.2733  1.0000\n  O   O23       1.0000  0.9161  0.5989  0.7715  1.0000\n  O   O24       1.0000  0.3776  0.1886  0.2047  1.0000\n  O   O25       1.0000  0.4018  0.7871  0.6790  1.0000\n  O   O26       1.0000  0.5982  0.2129  0.3210  1.0000\n  O   O27       1.0000  0.6224  0.8114  0.7953  1.0000\n  O   O28       1.0000  0.0839  0.4011  0.2285  1.0000\n  O   O29       1.0000  0.1732  0.8306  0.7267  1.0000\n  O   O30       1.0000  0.8080  0.9638  0.6449  1.0000\n  O   O31       1.0000  0.3554  0.3690  0.3351  1.0000\n  O   O32       1.0000  0.8549  0.7309  0.9097  1.0000\n  O   O33       1.0000  0.4794  0.5289  0.1273  1.0000\n  O   O34       1.0000  0.6103  0.2180  0.5627  1.0000\n  O   O35       1.0000  0.2917  0.5650  0.0800  1.0000\n  O   O36       1.0000  0.9880  0.9524  0.7218  1.0000\n  O   O37       1.0000  0.1657  0.4346  0.4105  1.0000\n  P   P16       1.0000  0.6657  0.5654  0.0895  1.0000\n  O   O38       1.0000  0.7917  0.4350  0.4200  1.0000\n  O   O39       1.0000  0.9794  0.4711  0.3727  1.0000\n  O   O40       1.0000  0.4880  0.0476  0.7782  1.0000\n  O   O41       1.0000  0.1103  0.7820  0.9373  1.0000\n  O   O42       1.0000  0.3549  0.2691  0.5903  1.0000\n  O   O43       1.0000  0.8554  0.6310  0.1649  1.0000\n  O   O44       1.0000  0.3080  0.0362  0.8551  1.0000\n  O   O45       1.0000  0.6732  0.1694  0.7733  1.0000\n  O   O46       1.0000  0.5839  0.5989  0.2715  1.0000\n  O   O47       1.0000  0.0982  0.7871  0.1790  1.0000\n  O   O48       1.0000  0.1224  0.1886  0.7047  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0e947bbe-82a2-4ad3-890e-88b5af837b05",
    "mp_id": "mp-758565",
    "action_prompt": "Swap the spatial positions of atoms at indices 37 and 16 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Fe2(CO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7257\n_cell_length_b   7.1263\n_cell_length_c   8.4650\n_cell_angle_alpha   70.4181\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Fe2(CO3)4\n_chemical_formula_sum   'Li6 Fe4 C8 O24'\n_cell_volume   552.7661\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1825  0.3131  0.8129  1\n  Li  Li1  1  0.8925  0.2539  0.0906  1\n  Li  Li2  1  0.3925  0.7461  0.9094  1\n  Li  Li3  1  0.6825  0.6869  0.1871  1\n  Li  Li4  1  0.6060  0.7514  0.5932  1\n  Li  Li5  1  0.1060  0.2486  0.4068  1\n  Fe  Fe6  1  0.3692  0.2969  0.1884  1\n  Fe  Fe7  1  0.8692  0.7031  0.8116  1\n  Fe  Fe8  1  0.1327  0.7998  0.6762  1\n  Fe  Fe9  1  0.6327  0.2002  0.3238  1\n  C  C10  1  0.1119  0.4974  0.0322  1\n  C  C11  1  0.6119  0.5026  0.9678  1\n  C  C12  1  0.4839  0.5264  0.3931  1\n  C  C13  1  0.9839  0.4736  0.6069  1\n  C  C14  1  0.0141  0.0298  0.8845  1\n  C  C15  1  0.5141  0.9702  0.1155  1\n  C  C16  1  0.3853  0.9988  0.5321  1\n  C  C17  1  0.8853  0.0012  0.4679  1\n  O  O18  1  0.1581  0.3646  0.1670  1\n  O  O19  1  0.4805  0.4747  0.9856  1\n  O  O20  1  0.6982  0.4087  0.0846  1\n  O  O21  1  0.1982  0.5913  0.9154  1\n  O  O22  1  0.9805  0.5253  0.0144  1\n  O  O23  1  0.9755  0.3626  0.5204  1\n  O  O24  1  0.6581  0.6354  0.8330  1\n  O  O25  1  0.6071  0.4520  0.3716  1\n  O  O26  1  0.3786  0.4837  0.3162  1\n  O  O27  1  0.8786  0.5163  0.6838  1\n  O  O28  1  0.1071  0.5480  0.6284  1\n  O  O29  1  0.5221  0.8342  0.0489  1\n  O  O30  1  0.4755  0.6374  0.4796  1\n  O  O31  1  0.9048  0.9183  0.9036  1\n  O  O32  1  0.1190  0.0080  0.7946  1\n  O  O33  1  0.6190  0.9920  0.2054  1\n  O  O34  1  0.4048  0.0817  0.0964  1\n  O  O35  1  0.3412  0.8667  0.6688  1\n  O  O36  1  0.0221  0.1658  0.9511  1\n  O  O37  1  0.0172  0.9729  0.4859  1\n  O  O38  1  0.7993  0.9022  0.5809  1\n  O  O39  1  0.2993  0.0978  0.4191  1\n  O  O40  1  0.5172  0.0271  0.5141  1\n  O  O41  1  0.8412  0.1333  0.3312  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6Fe4C6OCO19CO4\n_chemical_formula_sum              \"Li6 Fe4 C8 O24\"\n_cell_length_a       9.7257\n_cell_length_b       7.1263\n_cell_length_c       8.4650\n_cell_angle_alpha    70.4181\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.1825  0.3131  0.8129  1.0000\n  Li  Li2       1.0000  0.8925  0.2539  0.0906  1.0000\n  Li  Li3       1.0000  0.3925  0.7461  0.9094  1.0000\n  Li  Li4       1.0000  0.6825  0.6869  0.1871  1.0000\n  Li  Li5       1.0000  0.6060  0.7514  0.5932  1.0000\n  Li  Li6       1.0000  0.1060  0.2486  0.4068  1.0000\n  Fe  Fe1       1.0000  0.3692  0.2969  0.1884  1.0000\n  Fe  Fe2       1.0000  0.8692  0.7031  0.8116  1.0000\n  Fe  Fe3       1.0000  0.1327  0.7998  0.6762  1.0000\n  Fe  Fe4       1.0000  0.6327  0.2002  0.3238  1.0000\n  C   C1        1.0000  0.1119  0.4974  0.0322  1.0000\n  C   C2        1.0000  0.6119  0.5026  0.9678  1.0000\n  C   C3        1.0000  0.4839  0.5264  0.3931  1.0000\n  C   C4        1.0000  0.9839  0.4736  0.6069  1.0000\n  C   C5        1.0000  0.0141  0.0298  0.8845  1.0000\n  C   C6        1.0000  0.5141  0.9702  0.1155  1.0000\n  O   O1        1.0000  0.3853  0.9988  0.5321  1.0000\n  C   C7        1.0000  0.8853  0.0012  0.4679  1.0000\n  O   O2        1.0000  0.1581  0.3646  0.1670  1.0000\n  O   O3        1.0000  0.4805  0.4747  0.9856  1.0000\n  O   O4        1.0000  0.6982  0.4087  0.0846  1.0000\n  O   O5        1.0000  0.1982  0.5913  0.9154  1.0000\n  O   O6        1.0000  0.9805  0.5253  0.0144  1.0000\n  O   O7        1.0000  0.9755  0.3626  0.5204  1.0000\n  O   O8        1.0000  0.6581  0.6354  0.8330  1.0000\n  O   O9        1.0000  0.6071  0.4520  0.3716  1.0000\n  O   O10       1.0000  0.3786  0.4837  0.3162  1.0000\n  O   O11       1.0000  0.8786  0.5163  0.6838  1.0000\n  O   O12       1.0000  0.1071  0.5480  0.6284  1.0000\n  O   O13       1.0000  0.5221  0.8342  0.0489  1.0000\n  O   O14       1.0000  0.4755  0.6374  0.4796  1.0000\n  O   O15       1.0000  0.9048  0.9183  0.9036  1.0000\n  O   O16       1.0000  0.1190  0.0080  0.7946  1.0000\n  O   O17       1.0000  0.6190  0.9920  0.2054  1.0000\n  O   O18       1.0000  0.4048  0.0817  0.0964  1.0000\n  O   O19       1.0000  0.3412  0.8667  0.6688  1.0000\n  O   O20       1.0000  0.0221  0.1658  0.9511  1.0000\n  C   C8        1.0000  0.0172  0.9729  0.4859  1.0000\n  O   O21       1.0000  0.7993  0.9022  0.5809  1.0000\n  O   O22       1.0000  0.2993  0.0978  0.4191  1.0000\n  O   O23       1.0000  0.5172  0.0271  0.5141  1.0000\n  O   O24       1.0000  0.8412  0.1333  0.3312  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d5ab02c4-7a9b-4847-a370-0d86b7329e5d",
    "mp_id": "mp-758722",
    "action_prompt": "Swap the spatial positions of atoms at indices 14 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2FeCu(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0485\n_cell_length_b   4.7135\n_cell_length_c   10.0807\n_cell_angle_alpha   88.7234\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2FeCu(PO4)2\n_chemical_formula_sum   'Li4 Fe2 Cu2 P4 O16'\n_cell_volume   287.3216\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.5000  0.0000  0.0000  1\n  Li  Li2  1  0.0000  0.5000  0.5000  1\n  Li  Li3  1  0.5000  0.5000  0.5000  1\n  Fe  Fe4  1  0.7500  0.4787  0.7811  1\n  Fe  Fe5  1  0.2500  0.5213  0.2189  1\n  Cu  Cu6  1  0.2500  0.9485  0.7154  1\n  Cu  Cu7  1  0.7500  0.0515  0.2846  1\n  P  P8  1  0.2500  0.4193  0.9031  1\n  P  P9  1  0.7500  0.9207  0.5931  1\n  P  P10  1  0.2500  0.0793  0.4069  1\n  P  P11  1  0.7500  0.5807  0.0969  1\n  O  O12  1  0.7500  0.7078  0.9536  1\n  O  O13  1  0.2500  0.7496  0.8984  1\n  O  O14  1  0.0415  0.2940  0.8350  1\n  O  O15  1  0.4585  0.2940  0.8350  1\n  O  O16  1  0.5484  0.7756  0.6656  1\n  O  O17  1  0.9516  0.7756  0.6656  1\n  O  O18  1  0.7500  0.2442  0.5963  1\n  O  O19  1  0.2500  0.1938  0.5515  1\n  O  O20  1  0.7500  0.8062  0.4485  1\n  O  O21  1  0.2500  0.7558  0.4037  1\n  O  O22  1  0.0484  0.2244  0.3344  1\n  O  O23  1  0.4516  0.2244  0.3344  1\n  O  O24  1  0.5415  0.7060  0.1650  1\n  O  O25  1  0.9585  0.7060  0.1650  1\n  O  O26  1  0.7500  0.2504  0.1016  1\n  O  O27  1  0.2500  0.2922  0.0464  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4FeOCu2P4O2FeO13\n_chemical_formula_sum              \"Li4 Fe2 O16 Cu2 P4\"\n_cell_length_a       6.0485\n_cell_length_b       4.7135\n_cell_length_c       10.0807\n_cell_angle_alpha    88.7234\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Li  Li3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Li  Li4       1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe1       1.0000  0.7500  0.4787  0.7811  1.0000\n  O   O1        1.0000  0.2500  0.5213  0.2189  1.0000\n  Cu  Cu1       1.0000  0.2500  0.9485  0.7154  1.0000\n  Cu  Cu2       1.0000  0.7500  0.0515  0.2846  1.0000\n  P   P1        1.0000  0.2500  0.4193  0.9031  1.0000\n  P   P2        1.0000  0.7500  0.9207  0.5931  1.0000\n  P   P3        1.0000  0.2500  0.0793  0.4069  1.0000\n  P   P4        1.0000  0.7500  0.5807  0.0969  1.0000\n  O   O2        1.0000  0.7500  0.7078  0.9536  1.0000\n  O   O3        1.0000  0.2500  0.7496  0.8984  1.0000\n  Fe  Fe2       1.0000  0.0415  0.2940  0.8350  1.0000\n  O   O4        1.0000  0.4585  0.2940  0.8350  1.0000\n  O   O5        1.0000  0.5484  0.7756  0.6656  1.0000\n  O   O6        1.0000  0.9516  0.7756  0.6656  1.0000\n  O   O7        1.0000  0.7500  0.2442  0.5963  1.0000\n  O   O8        1.0000  0.2500  0.1938  0.5515  1.0000\n  O   O9        1.0000  0.7500  0.8062  0.4485  1.0000\n  O   O10       1.0000  0.2500  0.7558  0.4037  1.0000\n  O   O11       1.0000  0.0484  0.2244  0.3344  1.0000\n  O   O12       1.0000  0.4516  0.2244  0.3344  1.0000\n  O   O13       1.0000  0.5415  0.7060  0.1650  1.0000\n  O   O14       1.0000  0.9585  0.7060  0.1650  1.0000\n  O   O15       1.0000  0.7500  0.2504  0.1016  1.0000\n  O   O16       1.0000  0.2500  0.2922  0.0464  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9c7b6de9-4c7b-4a53-af83-fdd543d6eae0",
    "mp_id": "mp-758858",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2VO2F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9468\n_cell_length_b   11.9279\n_cell_length_c   6.6577\n_cell_angle_alpha   77.1169\n_cell_angle_beta   77.2154\n_cell_angle_gamma   89.9975\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2VO2F\n_chemical_formula_sum   'Li8 V4 O8 F4'\n_cell_volume   222.1654\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  1.0000  0.2558  1.0000  1\n  Li  Li1  1  1.0000  0.7558  1.0000  1\n  Li  Li2  1  0.3333  0.3275  0.3333  1\n  Li  Li3  1  0.3333  0.8275  0.3334  1\n  Li  Li4  1  0.6665  0.1788  0.6670  1\n  Li  Li5  1  0.6665  0.6788  0.6670  1\n  Li  Li6  1  0.6669  0.4045  0.6663  1\n  Li  Li7  1  0.6669  0.9045  0.6663  1\n  V  V8  1  0.9963  0.9957  0.0074  1\n  V  V9  1  0.3371  0.5876  0.3259  1\n  V  V10  1  0.9963  0.4956  0.0075  1\n  V  V11  1  0.3371  0.0878  0.3259  1\n  O  O12  1  0.5004  0.1172  0.9992  1\n  O  O13  1  0.5004  0.6172  0.9992  1\n  O  O14  1  0.8330  0.4661  0.3342  1\n  O  O15  1  0.8330  0.9661  0.3341  1\n  O  O16  1  0.5038  0.3851  0.9924  1\n  O  O17  1  0.5038  0.8851  0.9924  1\n  O  O18  1  0.8296  0.1982  0.3410  1\n  O  O19  1  0.8295  0.6982  0.3410  1\n  F  F20  1  0.1666  0.0417  0.6666  1\n  F  F21  1  0.1666  0.5417  0.6666  1\n  F  F22  1  0.1666  0.2917  0.6667  1\n  F  F23  1  0.1666  0.7917  0.6667  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8V2OVO7VF4\n_chemical_formula_sum              \"Li8 V4 O8 F4\"\n_cell_length_a       2.9468\n_cell_length_b       11.9279\n_cell_length_c       6.6577\n_cell_angle_alpha    77.1169\n_cell_angle_beta     77.2154\n_cell_angle_gamma    89.9975\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  1.0000  0.2558  1.0000  1.0000\n  Li  Li2       1.0000  1.0000  0.7558  1.0000  1.0000\n  Li  Li3       1.0000  0.3333  0.3275  0.3333  1.0000\n  Li  Li4       1.0000  0.3333  0.8275  0.3334  1.0000\n  Li  Li5       1.0000  0.6665  0.1788  0.6670  1.0000\n  Li  Li6       1.0000  0.6665  0.6788  0.6670  1.0000\n  Li  Li7       1.0000  0.6669  0.4045  0.6663  1.0000\n  Li  Li8       1.0000  0.6669  0.9045  0.6663  1.0000\n  V   V1        1.0000  0.9963  0.9957  0.0074  1.0000\n  V   V2        1.0000  0.3371  0.5876  0.3259  1.0000\n  O   O1        1.0000  0.9963  0.4956  0.0075  1.0000\n  V   V3        1.0000  0.3371  0.0878  0.3259  1.0000\n  O   O2        1.0000  0.5004  0.1172  0.9992  1.0000\n  O   O3        1.0000  0.5004  0.6172  0.9992  1.0000\n  O   O4        1.0000  0.8330  0.4661  0.3342  1.0000\n  O   O5        1.0000  0.8330  0.9661  0.3341  1.0000\n  O   O6        1.0000  0.5038  0.3851  0.9924  1.0000\n  O   O7        1.0000  0.5038  0.8851  0.9924  1.0000\n  O   O8        1.0000  0.8296  0.1982  0.3410  1.0000\n  V   V4        1.0000  0.8295  0.6982  0.3410  1.0000\n  F   F1        1.0000  0.1666  0.0417  0.6666  1.0000\n  F   F2        1.0000  0.1666  0.5417  0.6666  1.0000\n  F   F3        1.0000  0.1666  0.2917  0.6667  1.0000\n  F   F4        1.0000  0.1666  0.7917  0.6667  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "132c7a3d-411a-47f0-b7bb-c9a117fa5fea",
    "mp_id": "mp-759080",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_FeOF\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.1108\n_cell_length_b   9.4821\n_cell_length_c   14.1719\n_cell_angle_alpha   89.9923\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   FeOF\n_chemical_formula_sum   'Fe12 O12 F12'\n_cell_volume   418.0334\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.0000  0.9899  0.0076  1\n  Fe  Fe1  1  0.0000  0.4942  0.0107  1\n  Fe  Fe2  1  0.5000  0.2424  0.1492  1\n  Fe  Fe3  1  0.5000  0.7448  0.1496  1\n  Fe  Fe4  1  0.0000  0.9897  0.3413  1\n  Fe  Fe5  1  0.0000  0.4931  0.3434  1\n  Fe  Fe6  1  0.5000  0.7439  0.4874  1\n  Fe  Fe7  1  0.5000  0.2746  0.5056  1\n  Fe  Fe8  1  0.0000  0.9947  0.6796  1\n  Fe  Fe9  1  0.0000  0.4863  0.6742  1\n  Fe  Fe10  1  0.5000  0.2455  0.8208  1\n  Fe  Fe11  1  0.5000  0.7743  0.8397  1\n  O  O12  1  0.5000  0.4018  0.0630  1\n  O  O13  1  0.5000  0.9042  0.0674  1\n  O  O14  1  0.0000  0.1480  0.1010  1\n  O  O15  1  0.0000  0.6516  0.0994  1\n  O  O16  1  0.5000  0.3975  0.3949  1\n  O  O17  1  0.5000  0.9060  0.3990  1\n  O  O18  1  0.0000  0.6511  0.4338  1\n  O  O19  1  0.0000  0.3527  0.5673  1\n  O  O20  1  0.5000  0.4092  0.7361  1\n  O  O21  1  0.5000  0.8993  0.7290  1\n  O  O22  1  0.0000  0.1539  0.7661  1\n  O  O23  1  0.0000  0.8523  0.9009  1\n  F  F24  1  0.0000  0.3463  0.2305  1\n  F  F25  1  0.0000  0.8493  0.2328  1\n  F  F26  1  0.5000  0.0983  0.2710  1\n  F  F27  1  0.5000  0.5983  0.2665  1\n  F  F28  1  0.0000  0.1542  0.4350  1\n  F  F29  1  0.0000  0.8484  0.5632  1\n  F  F30  1  0.5000  0.0951  0.5962  1\n  F  F31  1  0.5000  0.6060  0.6049  1\n  F  F32  1  0.0000  0.6555  0.7698  1\n  F  F33  1  0.0000  0.3480  0.8984  1\n  F  F34  1  0.5000  0.1051  0.9338  1\n  F  F35  1  0.5000  0.5943  0.9308  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe3FFe8O12F2FeF9\n_chemical_formula_sum              \"Fe12 F12 O12\"\n_cell_length_a       3.1108\n_cell_length_b       9.4821\n_cell_length_c       14.1719\n_cell_angle_alpha    89.9923\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.0000  0.9899  0.0076  1.0000\n  Fe  Fe2       1.0000  0.0000  0.4942  0.0107  1.0000\n  Fe  Fe3       1.0000  0.5000  0.2424  0.1492  1.0000\n  F   F1        1.0000  0.5000  0.7448  0.1496  1.0000\n  Fe  Fe4       1.0000  0.0000  0.9897  0.3413  1.0000\n  Fe  Fe5       1.0000  0.0000  0.4931  0.3434  1.0000\n  Fe  Fe6       1.0000  0.5000  0.7439  0.4874  1.0000\n  Fe  Fe7       1.0000  0.5000  0.2746  0.5056  1.0000\n  Fe  Fe8       1.0000  0.0000  0.9947  0.6796  1.0000\n  Fe  Fe9       1.0000  0.0000  0.4863  0.6742  1.0000\n  Fe  Fe10      1.0000  0.5000  0.2455  0.8208  1.0000\n  Fe  Fe11      1.0000  0.5000  0.7743  0.8397  1.0000\n  O   O1        1.0000  0.5000  0.4018  0.0630  1.0000\n  O   O2        1.0000  0.5000  0.9042  0.0674  1.0000\n  O   O3        1.0000  0.0000  0.1480  0.1010  1.0000\n  O   O4        1.0000  0.0000  0.6516  0.0994  1.0000\n  O   O5        1.0000  0.5000  0.3975  0.3949  1.0000\n  O   O6        1.0000  0.5000  0.9060  0.3990  1.0000\n  O   O7        1.0000  0.0000  0.6511  0.4338  1.0000\n  O   O8        1.0000  0.0000  0.3527  0.5673  1.0000\n  O   O9        1.0000  0.5000  0.4092  0.7361  1.0000\n  O   O10       1.0000  0.5000  0.8993  0.7290  1.0000\n  O   O11       1.0000  0.0000  0.1539  0.7661  1.0000\n  O   O12       1.0000  0.0000  0.8523  0.9009  1.0000\n  F   F2        1.0000  0.0000  0.3463  0.2305  1.0000\n  F   F3        1.0000  0.0000  0.8493  0.2328  1.0000\n  Fe  Fe12      1.0000  0.5000  0.0983  0.2710  1.0000\n  F   F4        1.0000  0.5000  0.5983  0.2665  1.0000\n  F   F5        1.0000  0.0000  0.1542  0.4350  1.0000\n  F   F6        1.0000  0.0000  0.8484  0.5632  1.0000\n  F   F7        1.0000  0.5000  0.0951  0.5962  1.0000\n  F   F8        1.0000  0.5000  0.6060  0.6049  1.0000\n  F   F9        1.0000  0.0000  0.6555  0.7698  1.0000\n  F   F10       1.0000  0.0000  0.3480  0.8984  1.0000\n  F   F11       1.0000  0.5000  0.1051  0.9338  1.0000\n  F   F12       1.0000  0.5000  0.5943  0.9308  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1ae8c1a4-6f40-4144-958f-0ea58634c501",
    "mp_id": "mp-759482",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2VO2F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1530\n_cell_length_b   7.2108\n_cell_length_c   6.5171\n_cell_angle_alpha   110.8218\n_cell_angle_beta   75.1615\n_cell_angle_gamma   89.0925\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2VO2F\n_chemical_formula_sum   'Li8 V4 O8 F4'\n_cell_volume   217.2603\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5835  0.9149  0.7495  1\n  Li  Li1  1  0.0831  0.4191  0.2515  1\n  Li  Li2  1  0.8322  0.1669  0.4999  1\n  Li  Li3  1  0.3352  0.6661  0.9996  1\n  Li  Li4  1  0.7506  0.7499  0.2516  1\n  Li  Li5  1  0.2495  0.2497  0.7499  1\n  Li  Li6  1  0.4174  0.0828  0.2492  1\n  Li  Li7  1  0.9163  0.5839  0.7481  1\n  V  V8  1  0.6413  0.3243  0.9930  1\n  V  V9  1  0.0245  0.0080  0.0076  1\n  V  V10  1  0.1453  0.8282  0.4941  1\n  V  V11  1  0.5244  0.5073  0.5066  1\n  O  O12  1  0.8304  0.6659  0.4995  1\n  O  O13  1  0.3336  0.1682  0.9996  1\n  O  O14  1  0.0849  0.9140  0.2492  1\n  O  O15  1  0.5816  0.4172  0.7503  1\n  O  O16  1  0.9170  0.0780  0.7574  1\n  O  O17  1  0.4143  0.5805  0.2619  1\n  O  O18  1  0.2485  0.7547  0.7429  1\n  O  O19  1  0.7537  0.2523  0.2385  1\n  F  F20  1  0.4816  0.9959  0.4941  1\n  F  F21  1  0.9773  0.4925  0.9924  1\n  F  F22  1  0.1878  0.3386  0.5053  1\n  F  F23  1  0.6861  0.8412  0.0082  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4FLi3V4O8F3Li\n_chemical_formula_sum              \"Li8 F4 V4 O8\"\n_cell_length_a       5.1530\n_cell_length_b       7.2108\n_cell_length_c       6.5171\n_cell_angle_alpha    110.8218\n_cell_angle_beta     75.1615\n_cell_angle_gamma    89.0925\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5835  0.9149  0.7495  1.0000\n  Li  Li2       1.0000  0.0831  0.4191  0.2515  1.0000\n  Li  Li3       1.0000  0.8322  0.1669  0.4999  1.0000\n  Li  Li4       1.0000  0.3352  0.6661  0.9996  1.0000\n  F   F1        1.0000  0.7506  0.7499  0.2516  1.0000\n  Li  Li5       1.0000  0.2495  0.2497  0.7499  1.0000\n  Li  Li6       1.0000  0.4174  0.0828  0.2492  1.0000\n  Li  Li7       1.0000  0.9163  0.5839  0.7481  1.0000\n  V   V1        1.0000  0.6413  0.3243  0.9930  1.0000\n  V   V2        1.0000  0.0245  0.0080  0.0076  1.0000\n  V   V3        1.0000  0.1453  0.8282  0.4941  1.0000\n  V   V4        1.0000  0.5244  0.5073  0.5066  1.0000\n  O   O1        1.0000  0.8304  0.6659  0.4995  1.0000\n  O   O2        1.0000  0.3336  0.1682  0.9996  1.0000\n  O   O3        1.0000  0.0849  0.9140  0.2492  1.0000\n  O   O4        1.0000  0.5816  0.4172  0.7503  1.0000\n  O   O5        1.0000  0.9170  0.0780  0.7574  1.0000\n  O   O6        1.0000  0.4143  0.5805  0.2619  1.0000\n  O   O7        1.0000  0.2485  0.7547  0.7429  1.0000\n  O   O8        1.0000  0.7537  0.2523  0.2385  1.0000\n  F   F2        1.0000  0.4816  0.9959  0.4941  1.0000\n  F   F3        1.0000  0.9773  0.4925  0.9924  1.0000\n  F   F4        1.0000  0.1878  0.3386  0.5053  1.0000\n  Li  Li8       1.0000  0.6861  0.8412  0.0082  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9722d5a8-4925-4023-81e0-4d0960d10613",
    "mp_id": "mp-759507",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3OF8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0808\n_cell_length_b   5.1196\n_cell_length_c   26.7135\n_cell_angle_alpha   90.8969\n_cell_angle_beta   90.1537\n_cell_angle_gamma   119.6717\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3OF8\n_chemical_formula_sum   'Mn12 O4 F32'\n_cell_volume   603.6251\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.1955  0.8430  0.8366  1\n  Mn  Mn1  1  0.1542  0.8412  0.5865  1\n  Mn  Mn2  1  0.1892  0.8479  0.0865  1\n  Mn  Mn3  1  0.1540  0.8489  0.3366  1\n  Mn  Mn4  1  0.8045  0.1570  0.1634  1\n  Mn  Mn5  1  0.8460  0.1511  0.6634  1\n  Mn  Mn6  1  0.8458  0.1588  0.4135  1\n  Mn  Mn7  1  0.8108  0.1521  0.9135  1\n  Mn  Mn8  1  0.4838  0.4977  0.2500  1\n  Mn  Mn9  1  0.5162  0.5023  0.7500  1\n  Mn  Mn10  1  0.5000  0.5000  0.0000  1\n  Mn  Mn11  1  0.5000  0.5000  0.5000  1\n  O  O12  1  0.8843  0.8813  0.6241  1\n  O  O13  1  0.1157  0.1187  0.3759  1\n  O  O14  1  0.5045  0.8829  0.8753  1\n  O  O15  1  0.4955  0.1171  0.1247  1\n  F  F16  1  0.8815  0.8855  0.1244  1\n  F  F17  1  0.7676  0.8403  0.9579  1\n  F  F18  1  0.7761  0.8413  0.4585  1\n  F  F19  1  0.1185  0.1145  0.8756  1\n  F  F20  1  0.1485  0.2219  0.2072  1\n  F  F21  1  0.1813  0.2295  0.7080  1\n  F  F22  1  0.5008  0.8911  0.3758  1\n  F  F23  1  0.4992  0.1089  0.6242  1\n  F  F24  1  0.1593  0.4289  0.9587  1\n  F  F25  1  0.1681  0.4412  0.4581  1\n  F  F26  1  0.1071  0.5005  0.1248  1\n  F  F27  1  0.1088  0.4962  0.6251  1\n  F  F28  1  0.4258  0.1648  0.2929  1\n  F  F29  1  0.4481  0.1726  0.7935  1\n  F  F30  1  0.5600  0.2289  0.9569  1\n  F  F31  1  0.5742  0.2379  0.4579  1\n  F  F32  1  0.7601  0.4261  0.2091  1\n  F  F33  1  0.7820  0.4224  0.7083  1\n  F  F34  1  0.8929  0.4995  0.8752  1\n  F  F35  1  0.8912  0.5038  0.3749  1\n  F  F36  1  0.2324  0.1597  0.0421  1\n  F  F37  1  0.2239  0.1587  0.5415  1\n  F  F38  1  0.8319  0.5588  0.5419  1\n  F  F39  1  0.8407  0.5711  0.0413  1\n  F  F40  1  0.8515  0.7781  0.7928  1\n  F  F41  1  0.8187  0.7705  0.2920  1\n  F  F42  1  0.2180  0.5776  0.2917  1\n  F  F43  1  0.2399  0.5739  0.7909  1\n  F  F44  1  0.5519  0.8274  0.2065  1\n  F  F45  1  0.5742  0.8352  0.7071  1\n  F  F46  1  0.4258  0.7621  0.5421  1\n  F  F47  1  0.4400  0.7711  0.0431  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn9FMn2O4FMnF30\n_chemical_formula_sum              \"Mn12 F32 O4\"\n_cell_length_a       5.0808\n_cell_length_b       5.1196\n_cell_length_c       26.7135\n_cell_angle_alpha    90.8969\n_cell_angle_beta     90.1537\n_cell_angle_gamma    119.6717\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.1955  0.8430  0.8366  1.0000\n  Mn  Mn2       1.0000  0.1542  0.8412  0.5865  1.0000\n  Mn  Mn3       1.0000  0.1892  0.8479  0.0865  1.0000\n  Mn  Mn4       1.0000  0.1540  0.8489  0.3366  1.0000\n  Mn  Mn5       1.0000  0.8045  0.1570  0.1634  1.0000\n  Mn  Mn6       1.0000  0.8460  0.1511  0.6634  1.0000\n  Mn  Mn7       1.0000  0.8458  0.1588  0.4135  1.0000\n  Mn  Mn8       1.0000  0.8108  0.1521  0.9135  1.0000\n  Mn  Mn9       1.0000  0.4838  0.4977  0.2500  1.0000\n  F   F1        1.0000  0.5162  0.5023  0.7500  1.0000\n  Mn  Mn10      1.0000  0.5000  0.5000  0.0000  1.0000\n  Mn  Mn11      1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.8843  0.8813  0.6241  1.0000\n  O   O2        1.0000  0.1157  0.1187  0.3759  1.0000\n  O   O3        1.0000  0.5045  0.8829  0.8753  1.0000\n  O   O4        1.0000  0.4955  0.1171  0.1247  1.0000\n  F   F2        1.0000  0.8815  0.8855  0.1244  1.0000\n  Mn  Mn12      1.0000  0.7676  0.8403  0.9579  1.0000\n  F   F3        1.0000  0.7761  0.8413  0.4585  1.0000\n  F   F4        1.0000  0.1185  0.1145  0.8756  1.0000\n  F   F5        1.0000  0.1485  0.2219  0.2072  1.0000\n  F   F6        1.0000  0.1813  0.2295  0.7080  1.0000\n  F   F7        1.0000  0.5008  0.8911  0.3758  1.0000\n  F   F8        1.0000  0.4992  0.1089  0.6242  1.0000\n  F   F9        1.0000  0.1593  0.4289  0.9587  1.0000\n  F   F10       1.0000  0.1681  0.4412  0.4581  1.0000\n  F   F11       1.0000  0.1071  0.5005  0.1248  1.0000\n  F   F12       1.0000  0.1088  0.4962  0.6251  1.0000\n  F   F13       1.0000  0.4258  0.1648  0.2929  1.0000\n  F   F14       1.0000  0.4481  0.1726  0.7935  1.0000\n  F   F15       1.0000  0.5600  0.2289  0.9569  1.0000\n  F   F16       1.0000  0.5742  0.2379  0.4579  1.0000\n  F   F17       1.0000  0.7601  0.4261  0.2091  1.0000\n  F   F18       1.0000  0.7820  0.4224  0.7083  1.0000\n  F   F19       1.0000  0.8929  0.4995  0.8752  1.0000\n  F   F20       1.0000  0.8912  0.5038  0.3749  1.0000\n  F   F21       1.0000  0.2324  0.1597  0.0421  1.0000\n  F   F22       1.0000  0.2239  0.1587  0.5415  1.0000\n  F   F23       1.0000  0.8319  0.5588  0.5419  1.0000\n  F   F24       1.0000  0.8407  0.5711  0.0413  1.0000\n  F   F25       1.0000  0.8515  0.7781  0.7928  1.0000\n  F   F26       1.0000  0.8187  0.7705  0.2920  1.0000\n  F   F27       1.0000  0.2180  0.5776  0.2917  1.0000\n  F   F28       1.0000  0.2399  0.5739  0.7909  1.0000\n  F   F29       1.0000  0.5519  0.8274  0.2065  1.0000\n  F   F30       1.0000  0.5742  0.8352  0.7071  1.0000\n  F   F31       1.0000  0.4258  0.7621  0.5421  1.0000\n  F   F32       1.0000  0.4400  0.7711  0.0431  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5ba7ae81-bd1f-4fb6-a42d-869d9e73e8df",
    "mp_id": "mp-759524",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V6O5F19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1648\n_cell_length_b   5.3842\n_cell_length_c   13.8531\n_cell_angle_alpha   100.0149\n_cell_angle_beta   89.9781\n_cell_angle_gamma   90.3006\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V6O5F19\n_chemical_formula_sum   'V6 O5 F19'\n_cell_volume   379.3496\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.0103  0.9852  0.0001  1\n  V  V1  1  0.5174  0.1085  0.3309  1\n  V  V2  1  0.9802  0.2767  0.6642  1\n  V  V3  1  0.5278  0.4562  0.9966  1\n  V  V4  1  0.9804  0.6096  0.3311  1\n  V  V5  1  0.5173  0.7757  0.6642  1\n  O  O6  1  0.7974  0.0267  0.6408  1\n  O  O7  1  0.7090  0.2068  0.9754  1\n  O  O8  1  0.7973  0.3597  0.3078  1\n  O  O9  1  0.6988  0.5269  0.6410  1\n  O  O10  1  0.6988  0.8597  0.3076  1\n  F  F11  1  0.2820  0.1478  0.6938  1\n  F  F12  1  0.9080  0.0553  0.1216  1\n  F  F13  1  0.5883  0.2301  0.4534  1\n  F  F14  1  0.9071  0.3970  0.7864  1\n  F  F15  1  0.4116  0.1501  0.2150  1\n  F  F16  1  0.0827  0.3182  0.5477  1\n  F  F17  1  0.4085  0.4751  0.8803  1\n  F  F18  1  0.7996  0.6892  0.9732  1\n  F  F19  1  0.2205  0.2995  0.0272  1\n  F  F20  1  0.2819  0.4808  0.3611  1\n  F  F21  1  0.2140  0.6458  0.6942  1\n  F  F22  1  0.5827  0.5660  0.1211  1\n  F  F23  1  0.9072  0.7309  0.4533  1\n  F  F24  1  0.5877  0.8976  0.7867  1\n  F  F25  1  0.0828  0.6497  0.2145  1\n  F  F26  1  0.4118  0.8162  0.5481  1\n  F  F27  1  0.0814  0.9759  0.8768  1\n  F  F28  1  0.2935  0.8039  0.0250  1\n  F  F29  1  0.2139  0.9789  0.3610  1\n",
    "output": "data_image0\n_chemical_formula_structural       VFV4O5F9VF9\n_chemical_formula_sum              \"V6 F19 O5\"\n_cell_length_a       5.1648\n_cell_length_b       5.3842\n_cell_length_c       13.8531\n_cell_angle_alpha    100.0149\n_cell_angle_beta     89.9781\n_cell_angle_gamma    90.3006\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.0103  0.9852  0.0001  1.0000\n  F   F1        1.0000  0.5174  0.1085  0.3309  1.0000\n  V   V2        1.0000  0.9802  0.2767  0.6642  1.0000\n  V   V3        1.0000  0.5278  0.4562  0.9966  1.0000\n  V   V4        1.0000  0.9804  0.6096  0.3311  1.0000\n  V   V5        1.0000  0.5173  0.7757  0.6642  1.0000\n  O   O1        1.0000  0.7974  0.0267  0.6408  1.0000\n  O   O2        1.0000  0.7090  0.2068  0.9754  1.0000\n  O   O3        1.0000  0.7973  0.3597  0.3078  1.0000\n  O   O4        1.0000  0.6988  0.5269  0.6410  1.0000\n  O   O5        1.0000  0.6988  0.8597  0.3076  1.0000\n  F   F2        1.0000  0.2820  0.1478  0.6938  1.0000\n  F   F3        1.0000  0.9080  0.0553  0.1216  1.0000\n  F   F4        1.0000  0.5883  0.2301  0.4534  1.0000\n  F   F5        1.0000  0.9071  0.3970  0.7864  1.0000\n  F   F6        1.0000  0.4116  0.1501  0.2150  1.0000\n  F   F7        1.0000  0.0827  0.3182  0.5477  1.0000\n  F   F8        1.0000  0.4085  0.4751  0.8803  1.0000\n  F   F9        1.0000  0.7996  0.6892  0.9732  1.0000\n  F   F10       1.0000  0.2205  0.2995  0.0272  1.0000\n  V   V6        1.0000  0.2819  0.4808  0.3611  1.0000\n  F   F11       1.0000  0.2140  0.6458  0.6942  1.0000\n  F   F12       1.0000  0.5827  0.5660  0.1211  1.0000\n  F   F13       1.0000  0.9072  0.7309  0.4533  1.0000\n  F   F14       1.0000  0.5877  0.8976  0.7867  1.0000\n  F   F15       1.0000  0.0828  0.6497  0.2145  1.0000\n  F   F16       1.0000  0.4118  0.8162  0.5481  1.0000\n  F   F17       1.0000  0.0814  0.9759  0.8768  1.0000\n  F   F18       1.0000  0.2935  0.8039  0.0250  1.0000\n  F   F19       1.0000  0.2139  0.9789  0.3610  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "43b8554f-af18-49e5-b3e2-3944c8b485f1",
    "mp_id": "mp-759607",
    "action_prompt": "Swap the spatial positions of atoms at indices 36 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiSb4P7O24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.0068\n_cell_length_b   11.0340\n_cell_length_c   11.6097\n_cell_angle_alpha   108.3410\n_cell_angle_beta   112.6058\n_cell_angle_gamma   104.2513\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiSb4P7O24\n_chemical_formula_sum   'Li2 Sb8 P14 O48'\n_cell_volume   1121.8702\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5881  0.2670  0.6277  1\n  Li  Li1  1  0.4119  0.7330  0.3723  1\n  Sb  Sb2  1  0.5011  0.9058  0.7468  1\n  Sb  Sb3  1  0.9871  0.3569  0.0700  1\n  Sb  Sb4  1  0.5234  0.6597  0.8897  1\n  Sb  Sb5  1  0.9827  0.8080  0.4020  1\n  Sb  Sb6  1  0.0173  0.1920  0.5980  1\n  Sb  Sb7  1  0.4766  0.3403  0.1103  1\n  Sb  Sb8  1  0.0129  0.6431  0.9300  1\n  Sb  Sb9  1  0.4989  0.0942  0.2532  1\n  P  P10  1  0.7856  0.7937  0.7638  1\n  P  P11  1  0.2023  0.6182  0.4261  1\n  P  P12  1  0.2119  0.9512  0.2785  1\n  P  P13  1  0.2607  0.0434  0.7647  1\n  P  P14  1  0.2558  0.3930  0.5150  1\n  P  P15  1  0.7398  0.1663  0.1241  1\n  P  P16  1  0.7400  0.5228  0.0504  1\n  P  P17  1  0.2600  0.4772  0.9496  1\n  P  P18  1  0.2602  0.8337  0.8759  1\n  P  P19  1  0.7442  0.6070  0.4850  1\n  P  P20  1  0.7393  0.9566  0.2353  1\n  P  P21  1  0.7881  0.0488  0.7215  1\n  P  P22  1  0.7977  0.3818  0.5739  1\n  P  P23  1  0.2144  0.2063  0.2362  1\n  O  O24  1  0.8434  0.1757  0.8593  1\n  O  O25  1  0.6199  0.9745  0.6423  1\n  O  O26  1  0.6537  0.0645  0.9679  1\n  O  O27  1  0.0890  0.2222  0.1394  1\n  O  O28  1  0.3619  0.7275  0.5079  1\n  O  O29  1  0.1655  0.5475  0.2727  1\n  O  O30  1  0.6648  0.5638  0.9328  1\n  O  O31  1  0.6666  0.7926  0.7990  1\n  O  O32  1  0.1906  0.5014  0.4826  1\n  O  O33  1  0.3720  0.0204  0.7191  1\n  O  O34  1  0.2959  0.3330  0.3939  1\n  O  O35  1  0.1497  0.0633  0.2416  1\n  O  O36  1  0.1580  0.9204  0.3725  1\n  O  O37  1  0.3975  0.4676  0.6517  1\n  O  O38  1  0.8401  0.4630  0.0131  1\n  O  O39  1  0.0994  0.6787  0.4505  1\n  O  O40  1  0.8711  0.2950  0.1630  1\n  O  O41  1  0.3320  0.1771  0.9021  1\n  O  O42  1  0.1909  0.9125  0.7894  1\n  O  O43  1  0.1364  0.2733  0.4953  1\n  O  O44  1  0.1319  0.0374  0.6453  1\n  O  O45  1  0.3526  0.7857  0.8168  1\n  O  O46  1  0.3824  0.5910  0.9571  1\n  O  O47  1  0.8270  0.6517  0.1967  1\n  O  O48  1  0.1730  0.3483  0.8033  1\n  O  O49  1  0.6176  0.4090  0.0429  1\n  O  O50  1  0.6474  0.2143  0.1832  1\n  O  O51  1  0.8681  0.9626  0.3547  1\n  O  O52  1  0.8636  0.7267  0.5047  1\n  O  O53  1  0.8091  0.0875  0.2106  1\n  O  O54  1  0.6680  0.8229  0.0979  1\n  O  O55  1  0.1289  0.7050  0.8370  1\n  O  O56  1  0.9006  0.3213  0.5495  1\n  O  O57  1  0.1599  0.5370  0.9869  1\n  O  O58  1  0.6025  0.5324  0.3483  1\n  O  O59  1  0.8419  0.0796  0.6275  1\n  O  O60  1  0.8503  0.9367  0.7584  1\n  O  O61  1  0.7041  0.6670  0.6061  1\n  O  O62  1  0.6280  0.9796  0.2809  1\n  O  O63  1  0.8094  0.4986  0.5174  1\n  O  O64  1  0.3334  0.2074  0.2010  1\n  O  O65  1  0.3352  0.4362  0.0672  1\n  O  O66  1  0.8345  0.4525  0.7273  1\n  O  O67  1  0.6381  0.2725  0.4921  1\n  O  O68  1  0.9110  0.7778  0.8606  1\n  O  O69  1  0.3463  0.9355  0.0321  1\n  O  O70  1  0.3801  0.0255  0.3577  1\n  O  O71  1  0.1566  0.8243  0.1407  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLiSb8P14O12LiO35\n_chemical_formula_sum              \"O48 Li2 Sb8 P14\"\n_cell_length_a       11.0068\n_cell_length_b       11.0340\n_cell_length_c       11.6097\n_cell_angle_alpha    108.3410\n_cell_angle_beta     112.6058\n_cell_angle_gamma    104.2513\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.5881  0.2670  0.6277  1.0000\n  Li  Li1       1.0000  0.4119  0.7330  0.3723  1.0000\n  Sb  Sb1       1.0000  0.5011  0.9058  0.7468  1.0000\n  Sb  Sb2       1.0000  0.9871  0.3569  0.0700  1.0000\n  Sb  Sb3       1.0000  0.5234  0.6597  0.8897  1.0000\n  Sb  Sb4       1.0000  0.9827  0.8080  0.4020  1.0000\n  Sb  Sb5       1.0000  0.0173  0.1920  0.5980  1.0000\n  Sb  Sb6       1.0000  0.4766  0.3403  0.1103  1.0000\n  Sb  Sb7       1.0000  0.0129  0.6431  0.9300  1.0000\n  Sb  Sb8       1.0000  0.4989  0.0942  0.2532  1.0000\n  P   P1        1.0000  0.7856  0.7937  0.7638  1.0000\n  P   P2        1.0000  0.2023  0.6182  0.4261  1.0000\n  P   P3        1.0000  0.2119  0.9512  0.2785  1.0000\n  P   P4        1.0000  0.2607  0.0434  0.7647  1.0000\n  P   P5        1.0000  0.2558  0.3930  0.5150  1.0000\n  P   P6        1.0000  0.7398  0.1663  0.1241  1.0000\n  P   P7        1.0000  0.7400  0.5228  0.0504  1.0000\n  P   P8        1.0000  0.2600  0.4772  0.9496  1.0000\n  P   P9        1.0000  0.2602  0.8337  0.8759  1.0000\n  P   P10       1.0000  0.7442  0.6070  0.4850  1.0000\n  P   P11       1.0000  0.7393  0.9566  0.2353  1.0000\n  P   P12       1.0000  0.7881  0.0488  0.7215  1.0000\n  P   P13       1.0000  0.7977  0.3818  0.5739  1.0000\n  P   P14       1.0000  0.2144  0.2063  0.2362  1.0000\n  O   O2        1.0000  0.8434  0.1757  0.8593  1.0000\n  O   O3        1.0000  0.6199  0.9745  0.6423  1.0000\n  O   O4        1.0000  0.6537  0.0645  0.9679  1.0000\n  O   O5        1.0000  0.0890  0.2222  0.1394  1.0000\n  O   O6        1.0000  0.3619  0.7275  0.5079  1.0000\n  O   O7        1.0000  0.1655  0.5475  0.2727  1.0000\n  O   O8        1.0000  0.6648  0.5638  0.9328  1.0000\n  O   O9        1.0000  0.6666  0.7926  0.7990  1.0000\n  O   O10       1.0000  0.1906  0.5014  0.4826  1.0000\n  O   O11       1.0000  0.3720  0.0204  0.7191  1.0000\n  O   O12       1.0000  0.2959  0.3330  0.3939  1.0000\n  O   O13       1.0000  0.1497  0.0633  0.2416  1.0000\n  Li  Li2       1.0000  0.1580  0.9204  0.3725  1.0000\n  O   O14       1.0000  0.3975  0.4676  0.6517  1.0000\n  O   O15       1.0000  0.8401  0.4630  0.0131  1.0000\n  O   O16       1.0000  0.0994  0.6787  0.4505  1.0000\n  O   O17       1.0000  0.8711  0.2950  0.1630  1.0000\n  O   O18       1.0000  0.3320  0.1771  0.9021  1.0000\n  O   O19       1.0000  0.1909  0.9125  0.7894  1.0000\n  O   O20       1.0000  0.1364  0.2733  0.4953  1.0000\n  O   O21       1.0000  0.1319  0.0374  0.6453  1.0000\n  O   O22       1.0000  0.3526  0.7857  0.8168  1.0000\n  O   O23       1.0000  0.3824  0.5910  0.9571  1.0000\n  O   O24       1.0000  0.8270  0.6517  0.1967  1.0000\n  O   O25       1.0000  0.1730  0.3483  0.8033  1.0000\n  O   O26       1.0000  0.6176  0.4090  0.0429  1.0000\n  O   O27       1.0000  0.6474  0.2143  0.1832  1.0000\n  O   O28       1.0000  0.8681  0.9626  0.3547  1.0000\n  O   O29       1.0000  0.8636  0.7267  0.5047  1.0000\n  O   O30       1.0000  0.8091  0.0875  0.2106  1.0000\n  O   O31       1.0000  0.6680  0.8229  0.0979  1.0000\n  O   O32       1.0000  0.1289  0.7050  0.8370  1.0000\n  O   O33       1.0000  0.9006  0.3213  0.5495  1.0000\n  O   O34       1.0000  0.1599  0.5370  0.9869  1.0000\n  O   O35       1.0000  0.6025  0.5324  0.3483  1.0000\n  O   O36       1.0000  0.8420  0.0796  0.6275  1.0000\n  O   O37       1.0000  0.8503  0.9367  0.7584  1.0000\n  O   O38       1.0000  0.7041  0.6670  0.6061  1.0000\n  O   O39       1.0000  0.6280  0.9796  0.2809  1.0000\n  O   O40       1.0000  0.8094  0.4986  0.5174  1.0000\n  O   O41       1.0000  0.3334  0.2074  0.2010  1.0000\n  O   O42       1.0000  0.3352  0.4362  0.0672  1.0000\n  O   O43       1.0000  0.8345  0.4525  0.7273  1.0000\n  O   O44       1.0000  0.6381  0.2725  0.4921  1.0000\n  O   O45       1.0000  0.9110  0.7778  0.8606  1.0000\n  O   O46       1.0000  0.3463  0.9355  0.0321  1.0000\n  O   O47       1.0000  0.3801  0.0255  0.3577  1.0000\n  O   O48       1.0000  0.1566  0.8243  0.1407  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5bd63bb3-9ae8-44b1-8784-3725e8af9ccf",
    "mp_id": "mp-759656",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3MnP2HO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4235\n_cell_length_b   4.9599\n_cell_length_c   7.7703\n_cell_angle_alpha   76.2980\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3MnP2HO8\n_chemical_formula_sum   'Li6 Mn2 P4 H2 O16'\n_cell_volume   315.3996\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7935  0.0809  0.6839  1\n  Li  Li1  1  0.6400  0.1352  0.3881  1\n  Li  Li2  1  0.1400  0.8648  0.6119  1\n  Li  Li3  1  0.2935  0.9191  0.3161  1\n  Li  Li4  1  0.8465  0.6099  0.9443  1\n  Li  Li5  1  0.3465  0.3901  0.0557  1\n  Mn  Mn6  1  0.4965  0.7505  0.7481  1\n  Mn  Mn7  1  0.9965  0.2495  0.2519  1\n  P  P8  1  0.6425  0.1157  0.0262  1\n  P  P9  1  0.1425  0.8843  0.9738  1\n  P  P10  1  0.8577  0.6227  0.5292  1\n  P  P11  1  0.3577  0.3773  0.4708  1\n  H  H12  1  0.4996  0.7030  0.2423  1\n  H  H13  1  0.9996  0.2970  0.7577  1\n  O  O14  1  0.4805  0.1742  0.5732  1\n  O  O15  1  0.7951  0.2412  0.0860  1\n  O  O16  1  0.1848  0.0865  0.0936  1\n  O  O17  1  0.5537  0.9603  0.1999  1\n  O  O18  1  0.9805  0.8258  0.4268  1\n  O  O19  1  0.7085  0.7822  0.5649  1\n  O  O20  1  0.0537  0.0397  0.8001  1\n  O  O21  1  0.6848  0.9135  0.9064  1\n  O  O22  1  0.3222  0.6270  0.5526  1\n  O  O23  1  0.9281  0.4935  0.7232  1\n  O  O24  1  0.2951  0.7588  0.9140  1\n  O  O25  1  0.0341  0.6514  0.0772  1\n  O  O26  1  0.4281  0.5065  0.2768  1\n  O  O27  1  0.8222  0.3730  0.4474  1\n  O  O28  1  0.2085  0.2178  0.4351  1\n  O  O29  1  0.5341  0.3486  0.9228  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OLi2Mn2P4H2O10LiO5\n_chemical_formula_sum              \"Li6 O16 Mn2 P4 H2\"\n_cell_length_a       8.4235\n_cell_length_b       4.9599\n_cell_length_c       7.7703\n_cell_angle_alpha    76.2980\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7935  0.0809  0.6839  1.0000\n  Li  Li2       1.0000  0.6400  0.1352  0.3881  1.0000\n  Li  Li3       1.0000  0.1400  0.8648  0.6119  1.0000\n  O   O1        1.0000  0.2935  0.9191  0.3161  1.0000\n  Li  Li4       1.0000  0.8465  0.6099  0.9443  1.0000\n  Li  Li5       1.0000  0.3465  0.3901  0.0557  1.0000\n  Mn  Mn1       1.0000  0.4965  0.7505  0.7481  1.0000\n  Mn  Mn2       1.0000  0.9965  0.2495  0.2519  1.0000\n  P   P1        1.0000  0.6425  0.1157  0.0262  1.0000\n  P   P2        1.0000  0.1425  0.8843  0.9738  1.0000\n  P   P3        1.0000  0.8577  0.6227  0.5292  1.0000\n  P   P4        1.0000  0.3577  0.3773  0.4708  1.0000\n  H   H1        1.0000  0.4996  0.7030  0.2423  1.0000\n  H   H2        1.0000  0.9996  0.2970  0.7577  1.0000\n  O   O2        1.0000  0.4805  0.1742  0.5732  1.0000\n  O   O3        1.0000  0.7951  0.2412  0.0860  1.0000\n  O   O4        1.0000  0.1848  0.0865  0.0936  1.0000\n  O   O5        1.0000  0.5537  0.9603  0.1999  1.0000\n  O   O6        1.0000  0.9805  0.8258  0.4268  1.0000\n  O   O7        1.0000  0.7085  0.7822  0.5649  1.0000\n  O   O8        1.0000  0.0537  0.0397  0.8001  1.0000\n  O   O9        1.0000  0.6848  0.9135  0.9064  1.0000\n  O   O10       1.0000  0.3222  0.6270  0.5526  1.0000\n  O   O11       1.0000  0.9281  0.4935  0.7232  1.0000\n  Li  Li6       1.0000  0.2951  0.7588  0.9140  1.0000\n  O   O12       1.0000  0.0341  0.6514  0.0772  1.0000\n  O   O13       1.0000  0.4281  0.5065  0.2768  1.0000\n  O   O14       1.0000  0.8222  0.3730  0.4474  1.0000\n  O   O15       1.0000  0.2085  0.2178  0.4351  1.0000\n  O   O16       1.0000  0.5341  0.3486  0.9228  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7e1e6786-805e-4484-90df-38ad29873148",
    "mp_id": "mp-759790",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ag2Hg5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.2631\n_cell_length_b   10.2631\n_cell_length_c   3.0904\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ag2Hg5\n_chemical_formula_sum   'Ag4 Hg10'\n_cell_volume   325.5149\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ag  Ag0  1  0.6809  0.1809  0.5000  1\n  Ag  Ag1  1  0.1809  0.3191  0.5000  1\n  Ag  Ag2  1  0.8191  0.6809  0.5000  1\n  Ag  Ag3  1  0.3191  0.8191  0.5000  1\n  Hg  Hg4  1  0.5000  0.0000  0.0000  1\n  Hg  Hg5  1  0.2013  0.0629  0.0000  1\n  Hg  Hg6  1  0.9371  0.2013  0.0000  1\n  Hg  Hg7  1  0.4371  0.2987  0.0000  1\n  Hg  Hg8  1  0.7013  0.4371  0.0000  1\n  Hg  Hg9  1  0.0000  0.5000  0.0000  1\n  Hg  Hg10  1  0.2987  0.5629  0.0000  1\n  Hg  Hg11  1  0.5629  0.7013  0.0000  1\n  Hg  Hg12  1  0.0629  0.7987  0.0000  1\n  Hg  Hg13  1  0.7987  0.9371  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       AgHgAg2Hg5AgHg4\n_chemical_formula_sum              \"Ag4 Hg10\"\n_cell_length_a       10.2631\n_cell_length_b       10.2631\n_cell_length_c       3.0904\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ag  Ag1       1.0000  0.6809  0.1809  0.5000  1.0000\n  Hg  Hg1       1.0000  0.1809  0.3191  0.5000  1.0000\n  Ag  Ag2       1.0000  0.8191  0.6809  0.5000  1.0000\n  Ag  Ag3       1.0000  0.3191  0.8191  0.5000  1.0000\n  Hg  Hg2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Hg  Hg3       1.0000  0.2013  0.0629  0.0000  1.0000\n  Hg  Hg4       1.0000  0.9371  0.2013  0.0000  1.0000\n  Hg  Hg5       1.0000  0.4371  0.2987  0.0000  1.0000\n  Hg  Hg6       1.0000  0.7013  0.4371  0.0000  1.0000\n  Ag  Ag4       1.0000  0.0000  0.5000  0.0000  1.0000\n  Hg  Hg7       1.0000  0.2987  0.5629  0.0000  1.0000\n  Hg  Hg8       1.0000  0.5629  0.7013  0.0000  1.0000\n  Hg  Hg9       1.0000  0.0629  0.7987  0.0000  1.0000\n  Hg  Hg10      1.0000  0.7987  0.9371  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0601024b-0ec2-4806-bc46-1fa8de907562",
    "mp_id": "mp-759809",
    "action_prompt": "Swap the spatial positions of atoms at indices 26 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V6O5F19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3693\n_cell_length_b   5.5031\n_cell_length_c   15.1368\n_cell_angle_alpha   100.2969\n_cell_angle_beta   89.9451\n_cell_angle_gamma   90.6865\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V6O5F19\n_chemical_formula_sum   'V6 O5 F19'\n_cell_volume   440.0253\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.9512  0.9793  0.0042  1\n  V  V1  1  0.5072  0.8129  0.6671  1\n  V  V2  1  0.9751  0.7325  0.3362  1\n  V  V3  1  0.4494  0.5229  0.9957  1\n  V  V4  1  0.0281  0.2825  0.6643  1\n  V  V5  1  0.5207  0.2296  0.3353  1\n  O  O6  1  0.8069  0.9850  0.3596  1\n  O  O7  1  0.7346  0.7708  0.0174  1\n  O  O8  1  0.6935  0.4839  0.3579  1\n  O  O9  1  0.2337  0.7268  0.9828  1\n  O  O10  1  0.2060  0.0371  0.6451  1\n  F  F11  1  0.2752  0.8496  0.3072  1\n  F  F12  1  0.9526  0.9581  0.8861  1\n  F  F13  1  0.5673  0.8056  0.5517  1\n  F  F14  1  0.9031  0.6061  0.2234  1\n  F  F15  1  0.4071  0.8866  0.7799  1\n  F  F16  1  0.0749  0.6782  0.4425  1\n  F  F17  1  0.4537  0.5407  0.1136  1\n  F  F18  1  0.7846  0.6388  0.6898  1\n  F  F19  1  0.7728  0.2621  0.0200  1\n  F  F20  1  0.2986  0.5148  0.6422  1\n  F  F21  1  0.2260  0.3468  0.3058  1\n  F  F22  1  0.5800  0.4414  0.8868  1\n  F  F23  1  0.9166  0.3061  0.5566  1\n  F  F24  1  0.5973  0.0989  0.2235  1\n  F  F25  1  0.0773  0.4027  0.7789  1\n  F  F26  1  0.4236  0.1809  0.4426  1\n  F  F27  1  0.0838  0.0596  0.1129  1\n  F  F28  1  0.7265  0.1265  0.6910  1\n  F  F29  1  0.2727  0.2333  0.9797  1\n",
    "output": "data_image0\n_chemical_formula_structural       VFV4O5F15VF3\n_chemical_formula_sum              \"V6 F19 O5\"\n_cell_length_a       5.3693\n_cell_length_b       5.5031\n_cell_length_c       15.1368\n_cell_angle_alpha    100.2969\n_cell_angle_beta     89.9451\n_cell_angle_gamma    90.6865\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.9512  0.9793  0.0042  1.0000\n  F   F1        1.0000  0.5072  0.8129  0.6671  1.0000\n  V   V2        1.0000  0.9751  0.7325  0.3362  1.0000\n  V   V3        1.0000  0.4494  0.5229  0.9957  1.0000\n  V   V4        1.0000  0.0281  0.2825  0.6643  1.0000\n  V   V5        1.0000  0.5207  0.2296  0.3353  1.0000\n  O   O1        1.0000  0.8069  0.9850  0.3596  1.0000\n  O   O2        1.0000  0.7346  0.7708  0.0174  1.0000\n  O   O3        1.0000  0.6935  0.4839  0.3579  1.0000\n  O   O4        1.0000  0.2337  0.7268  0.9828  1.0000\n  O   O5        1.0000  0.2060  0.0371  0.6451  1.0000\n  F   F2        1.0000  0.2752  0.8496  0.3072  1.0000\n  F   F3        1.0000  0.9526  0.9581  0.8861  1.0000\n  F   F4        1.0000  0.5673  0.8056  0.5517  1.0000\n  F   F5        1.0000  0.9031  0.6061  0.2234  1.0000\n  F   F6        1.0000  0.4071  0.8866  0.7799  1.0000\n  F   F7        1.0000  0.0749  0.6782  0.4425  1.0000\n  F   F8        1.0000  0.4537  0.5407  0.1136  1.0000\n  F   F9        1.0000  0.7846  0.6388  0.6898  1.0000\n  F   F10       1.0000  0.7728  0.2621  0.0200  1.0000\n  F   F11       1.0000  0.2986  0.5148  0.6422  1.0000\n  F   F12       1.0000  0.2260  0.3468  0.3058  1.0000\n  F   F13       1.0000  0.5800  0.4414  0.8868  1.0000\n  F   F14       1.0000  0.9166  0.3061  0.5566  1.0000\n  F   F15       1.0000  0.5973  0.0989  0.2235  1.0000\n  F   F16       1.0000  0.0773  0.4027  0.7789  1.0000\n  V   V6        1.0000  0.4236  0.1809  0.4426  1.0000\n  F   F17       1.0000  0.0838  0.0596  0.1129  1.0000\n  F   F18       1.0000  0.7265  0.1265  0.6910  1.0000\n  F   F19       1.0000  0.2727  0.2333  0.9797  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b096436b-0cbd-45eb-9300-9445d7e5077e",
    "mp_id": "mp-760193",
    "action_prompt": "Swap the spatial positions of atoms at indices 44 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_H9PbC3I\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7009\n_cell_length_b   10.5945\n_cell_length_c   11.5412\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   H9PbC3I\n_chemical_formula_sum   'H36 Pb4 C12 I4'\n_cell_volume   819.3465\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  H  H0  1  0.0569  0.0241  0.4451  1\n  H  H1  1  0.0775  0.2194  0.0211  1\n  H  H2  1  0.1217  0.3389  0.6799  1\n  H  H3  1  0.1361  0.2300  0.8000  1\n  H  H4  1  0.1898  0.1764  0.6545  1\n  H  H5  1  0.1950  0.8382  0.5853  1\n  H  H6  1  0.2144  0.8867  0.9329  1\n  H  H7  1  0.2386  0.9841  0.3350  1\n  H  H8  1  0.2422  0.3274  0.0956  1\n  H  H9  1  0.2578  0.6726  0.5956  1\n  H  H10  1  0.2614  0.0159  0.8350  1\n  H  H11  1  0.2856  0.1133  0.4329  1\n  H  H12  1  0.3050  0.1618  0.0853  1\n  H  H13  1  0.3102  0.8236  0.1545  1\n  H  H14  1  0.3639  0.7700  0.3000  1\n  H  H15  1  0.3783  0.6611  0.1799  1\n  H  H16  1  0.4225  0.7806  0.5211  1\n  H  H17  1  0.4431  0.9759  0.9451  1\n  H  H18  1  0.5569  0.4759  0.5549  1\n  H  H19  1  0.5775  0.2806  0.9789  1\n  H  H20  1  0.6217  0.1611  0.3201  1\n  H  H21  1  0.6361  0.2700  0.2000  1\n  H  H22  1  0.6898  0.3236  0.3455  1\n  H  H23  1  0.6950  0.6618  0.4147  1\n  H  H24  1  0.7144  0.6133  0.0671  1\n  H  H25  1  0.7386  0.5159  0.6650  1\n  H  H26  1  0.7422  0.1726  0.9044  1\n  H  H27  1  0.7578  0.8274  0.4044  1\n  H  H28  1  0.7614  0.4841  0.1650  1\n  H  H29  1  0.7856  0.3867  0.5671  1\n  H  H30  1  0.8050  0.3382  0.9147  1\n  H  H31  1  0.8102  0.6764  0.8455  1\n  H  H32  1  0.8639  0.7300  0.7000  1\n  H  H33  1  0.8783  0.8389  0.8201  1\n  H  H34  1  0.9225  0.7194  0.4789  1\n  H  H35  1  0.9431  0.5241  0.0549  1\n  Pb  Pb36  1  0.0214  0.1933  0.2607  1\n  Pb  Pb37  1  0.4786  0.8067  0.7607  1\n  Pb  Pb38  1  0.5214  0.3067  0.7393  1\n  Pb  Pb39  1  0.9786  0.6933  0.2393  1\n  C  C40  1  0.1714  0.0600  0.3859  1\n  C  C41  1  0.1842  0.2311  0.0922  1\n  C  C42  1  0.1968  0.2557  0.7151  1\n  C  C43  1  0.3032  0.7443  0.2151  1\n  C  C44  1  0.3158  0.7689  0.5922  1\n  C  C45  1  0.3286  0.9400  0.8859  1\n  C  C46  1  0.6714  0.4400  0.6141  1\n  C  C47  1  0.6842  0.2689  0.9078  1\n  C  C48  1  0.6968  0.2443  0.2849  1\n  C  C49  1  0.8032  0.7557  0.7849  1\n  C  C50  1  0.8158  0.7311  0.4078  1\n  C  C51  1  0.8286  0.5600  0.1141  1\n  I  I52  1  0.1789  0.4361  0.3793  1\n  I  I53  1  0.3211  0.5639  0.8793  1\n  I  I54  1  0.6789  0.0639  0.6207  1\n  I  I55  1  0.8211  0.9361  0.1207  1\n",
    "output": "data_image0\n_chemical_formula_structural       H30CH5Pb4C4HC7I4\n_chemical_formula_sum              \"H36 C12 Pb4 I4\"\n_cell_length_a       6.7009\n_cell_length_b       10.5945\n_cell_length_c       11.5412\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  H   H1        1.0000  0.0569  0.0241  0.4451  1.0000\n  H   H2        1.0000  0.0775  0.2194  0.0211  1.0000\n  H   H3        1.0000  0.1217  0.3389  0.6799  1.0000\n  H   H4        1.0000  0.1361  0.2300  0.8000  1.0000\n  H   H5        1.0000  0.1898  0.1764  0.6545  1.0000\n  H   H6        1.0000  0.1950  0.8382  0.5853  1.0000\n  H   H7        1.0000  0.2144  0.8867  0.9329  1.0000\n  H   H8        1.0000  0.2386  0.9841  0.3350  1.0000\n  H   H9        1.0000  0.2422  0.3274  0.0956  1.0000\n  H   H10       1.0000  0.2578  0.6726  0.5956  1.0000\n  H   H11       1.0000  0.2614  0.0159  0.8350  1.0000\n  H   H12       1.0000  0.2856  0.1133  0.4329  1.0000\n  H   H13       1.0000  0.3050  0.1618  0.0853  1.0000\n  H   H14       1.0000  0.3102  0.8236  0.1545  1.0000\n  H   H15       1.0000  0.3639  0.7700  0.3000  1.0000\n  H   H16       1.0000  0.3783  0.6611  0.1799  1.0000\n  H   H17       1.0000  0.4225  0.7806  0.5211  1.0000\n  H   H18       1.0000  0.4431  0.9759  0.9451  1.0000\n  H   H19       1.0000  0.5569  0.4759  0.5549  1.0000\n  H   H20       1.0000  0.5775  0.2806  0.9789  1.0000\n  H   H21       1.0000  0.6217  0.1611  0.3201  1.0000\n  H   H22       1.0000  0.6361  0.2700  0.2000  1.0000\n  H   H23       1.0000  0.6898  0.3236  0.3455  1.0000\n  H   H24       1.0000  0.6950  0.6618  0.4147  1.0000\n  H   H25       1.0000  0.7144  0.6133  0.0671  1.0000\n  H   H26       1.0000  0.7386  0.5159  0.6650  1.0000\n  H   H27       1.0000  0.7422  0.1726  0.9044  1.0000\n  H   H28       1.0000  0.7578  0.8274  0.4044  1.0000\n  H   H29       1.0000  0.7614  0.4841  0.1650  1.0000\n  H   H30       1.0000  0.7856  0.3867  0.5671  1.0000\n  C   C1        1.0000  0.8050  0.3382  0.9147  1.0000\n  H   H31       1.0000  0.8102  0.6764  0.8455  1.0000\n  H   H32       1.0000  0.8639  0.7300  0.7000  1.0000\n  H   H33       1.0000  0.8783  0.8389  0.8201  1.0000\n  H   H34       1.0000  0.9225  0.7194  0.4789  1.0000\n  H   H35       1.0000  0.9431  0.5241  0.0549  1.0000\n  Pb  Pb1       1.0000  0.0214  0.1933  0.2607  1.0000\n  Pb  Pb2       1.0000  0.4786  0.8067  0.7607  1.0000\n  Pb  Pb3       1.0000  0.5214  0.3067  0.7393  1.0000\n  Pb  Pb4       1.0000  0.9786  0.6933  0.2393  1.0000\n  C   C2        1.0000  0.1714  0.0600  0.3859  1.0000\n  C   C3        1.0000  0.1842  0.2311  0.0922  1.0000\n  C   C4        1.0000  0.1968  0.2557  0.7151  1.0000\n  C   C5        1.0000  0.3032  0.7443  0.2151  1.0000\n  H   H36       1.0000  0.3158  0.7689  0.5922  1.0000\n  C   C6        1.0000  0.3286  0.9400  0.8859  1.0000\n  C   C7        1.0000  0.6714  0.4400  0.6141  1.0000\n  C   C8        1.0000  0.6842  0.2689  0.9078  1.0000\n  C   C9        1.0000  0.6968  0.2443  0.2849  1.0000\n  C   C10       1.0000  0.8032  0.7557  0.7849  1.0000\n  C   C11       1.0000  0.8158  0.7311  0.4078  1.0000\n  C   C12       1.0000  0.8286  0.5600  0.1141  1.0000\n  I   I1        1.0000  0.1789  0.4361  0.3793  1.0000\n  I   I2        1.0000  0.3211  0.5639  0.8793  1.0000\n  I   I3        1.0000  0.6789  0.0639  0.6207  1.0000\n  I   I4        1.0000  0.8211  0.9361  0.1207  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8bd1e3c5-c26c-4773-aee6-ce51b0c35eb6",
    "mp_id": "mp-760300",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li3Co2O2F3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.6053\n_cell_length_b   10.6053\n_cell_length_c   10.6053\n_cell_angle_alpha   164.0076\n_cell_angle_beta   164.0076\n_cell_angle_gamma   22.6914\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li3Co2O2F3\n_chemical_formula_sum   'Li3 Co2 O2 F3'\n_cell_volume   90.5221\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5965  0.5965  0.0000  1\n  Li  Li1  1  0.4035  0.4035  0.0000  1\n  Li  Li2  1  0.0000  0.0000  0.0000  1\n  Co  Co3  1  0.2069  0.2069  0.0000  1\n  Co  Co4  1  0.7931  0.7931  0.0000  1\n  O  O5  1  0.6950  0.6950  0.0000  1\n  O  O6  1  0.3050  0.3050  0.0000  1\n  F  F7  1  0.0958  0.0958  0.0000  1\n  F  F8  1  0.9042  0.9042  0.0000  1\n  F  F9  1  0.5000  0.5000  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiCoLi2CoO2F3\n_chemical_formula_sum              \"Li3 Co2 O2 F3\"\n_cell_length_a       10.6053\n_cell_length_b       10.6053\n_cell_length_c       10.6053\n_cell_angle_alpha    164.0076\n_cell_angle_beta     164.0076\n_cell_angle_gamma    22.6914\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5965  0.5965  0.0000  1.0000\n  Co  Co1       1.0000  0.4035  0.4035  0.0000  1.0000\n  Li  Li2       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li3       1.0000  0.2069  0.2069  0.0000  1.0000\n  Co  Co2       1.0000  0.7931  0.7931  0.0000  1.0000\n  O   O1        1.0000  0.6950  0.6950  0.0000  1.0000\n  O   O2        1.0000  0.3050  0.3050  0.0000  1.0000\n  F   F1        1.0000  0.0958  0.0958  0.0000  1.0000\n  F   F2        1.0000  0.9042  0.9042  0.0000  1.0000\n  F   F3        1.0000  0.5000  0.5000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d1bd8817-8561-4d4b-8ab8-d71d9d75ca23",
    "mp_id": "mp-761082",
    "action_prompt": "Swap the spatial positions of atoms at indices 50 and 35 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5MnCr3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.6820\n_cell_length_b   8.6820\n_cell_length_c   8.3953\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5MnCr3O8\n_chemical_formula_sum   'Li20 Mn4 Cr12 O32'\n_cell_volume   632.8188\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1978  0.0488  0.0568  1\n  Li  Li1  1  0.1472  0.8528  0.2500  1\n  Li  Li2  1  0.1330  0.6104  0.4830  1\n  Li  Li3  1  0.1104  0.3670  0.7330  1\n  Li  Li4  1  0.9512  0.8022  0.4432  1\n  Li  Li5  1  0.0488  0.1978  0.9432  1\n  Li  Li6  1  0.8896  0.6330  0.2330  1\n  Li  Li7  1  0.8670  0.3896  0.9830  1\n  Li  Li8  1  0.8528  0.1472  0.7500  1\n  Li  Li9  1  0.8022  0.9512  0.5568  1\n  Li  Li10  1  0.6978  0.4512  0.1932  1\n  Li  Li11  1  0.6104  0.1330  0.5170  1\n  Li  Li12  1  0.6330  0.8896  0.7670  1\n  Li  Li13  1  0.6472  0.6472  0.0000  1\n  Li  Li14  1  0.4512  0.6978  0.8068  1\n  Li  Li15  1  0.5488  0.3022  0.3068  1\n  Li  Li16  1  0.3528  0.3528  0.5000  1\n  Li  Li17  1  0.3670  0.1104  0.2670  1\n  Li  Li18  1  0.3896  0.8670  0.0170  1\n  Li  Li19  1  0.3022  0.5488  0.6932  1\n  Mn  Mn20  1  0.1191  0.1191  0.5000  1\n  Mn  Mn21  1  0.8809  0.8809  0.0000  1\n  Mn  Mn22  1  0.6191  0.3809  0.7500  1\n  Mn  Mn23  1  0.3809  0.6191  0.2500  1\n  Cr  Cr24  1  0.1291  0.8709  0.7500  1\n  Cr  Cr25  1  0.1210  0.3737  0.2473  1\n  Cr  Cr26  1  0.8790  0.6263  0.7473  1\n  Cr  Cr27  1  0.8709  0.1291  0.2500  1\n  Cr  Cr28  1  0.6210  0.1263  0.0027  1\n  Cr  Cr29  1  0.6291  0.6291  0.5000  1\n  Cr  Cr30  1  0.3709  0.3709  0.0000  1\n  Cr  Cr31  1  0.3790  0.8737  0.5027  1\n  Cr  Cr32  1  0.1263  0.6210  0.9973  1\n  Cr  Cr33  1  0.8737  0.3790  0.4973  1\n  Cr  Cr34  1  0.6263  0.8790  0.2527  1\n  Cr  Cr35  1  0.3737  0.1210  0.7527  1\n  O  O36  1  0.1222  0.6137  0.2403  1\n  O  O37  1  0.1373  0.1066  0.7597  1\n  O  O38  1  0.1334  0.3870  0.0047  1\n  O  O39  1  0.1457  0.8665  0.5060  1\n  O  O40  1  0.1130  0.6334  0.7547  1\n  O  O41  1  0.1066  0.1373  0.2403  1\n  O  O42  1  0.1137  0.3778  0.4903  1\n  O  O43  1  0.1335  0.8543  0.9940  1\n  O  O44  1  0.8665  0.1457  0.4940  1\n  O  O45  1  0.8863  0.6222  0.9903  1\n  O  O46  1  0.8934  0.8627  0.7403  1\n  O  O47  1  0.8870  0.3666  0.2547  1\n  O  O48  1  0.8543  0.1335  0.0060  1\n  O  O49  1  0.8666  0.6130  0.5047  1\n  O  O50  1  0.8627  0.8934  0.2597  1\n  O  O51  1  0.8778  0.3863  0.7403  1\n  O  O52  1  0.6222  0.8863  0.0097  1\n  O  O53  1  0.6373  0.3934  0.4903  1\n  O  O54  1  0.6457  0.6335  0.7440  1\n  O  O55  1  0.6334  0.1130  0.2453  1\n  O  O56  1  0.6066  0.3627  0.0097  1\n  O  O57  1  0.6130  0.8666  0.4953  1\n  O  O58  1  0.6137  0.1222  0.7597  1\n  O  O59  1  0.6335  0.6457  0.2560  1\n  O  O60  1  0.3665  0.3543  0.7560  1\n  O  O61  1  0.3863  0.8778  0.2597  1\n  O  O62  1  0.3870  0.1334  0.9953  1\n  O  O63  1  0.3934  0.6373  0.5097  1\n  O  O64  1  0.3666  0.8870  0.7453  1\n  O  O65  1  0.3543  0.3665  0.2440  1\n  O  O66  1  0.3627  0.6066  0.9903  1\n  O  O67  1  0.3778  0.1137  0.5097  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li20Mn4Cr11O15CrO17\n_chemical_formula_sum              \"Li20 Mn4 Cr12 O32\"\n_cell_length_a       8.6820\n_cell_length_b       8.6820\n_cell_length_c       8.3953\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.1978  0.0488  0.0568  1.0000\n  Li  Li2       1.0000  0.1472  0.8528  0.2500  1.0000\n  Li  Li3       1.0000  0.1330  0.6104  0.4830  1.0000\n  Li  Li4       1.0000  0.1104  0.3670  0.7330  1.0000\n  Li  Li5       1.0000  0.9512  0.8022  0.4432  1.0000\n  Li  Li6       1.0000  0.0488  0.1978  0.9432  1.0000\n  Li  Li7       1.0000  0.8896  0.6330  0.2330  1.0000\n  Li  Li8       1.0000  0.8670  0.3896  0.9830  1.0000\n  Li  Li9       1.0000  0.8528  0.1472  0.7500  1.0000\n  Li  Li10      1.0000  0.8022  0.9512  0.5568  1.0000\n  Li  Li11      1.0000  0.6978  0.4512  0.1932  1.0000\n  Li  Li12      1.0000  0.6104  0.1330  0.5170  1.0000\n  Li  Li13      1.0000  0.6330  0.8896  0.7670  1.0000\n  Li  Li14      1.0000  0.6472  0.6472  0.0000  1.0000\n  Li  Li15      1.0000  0.4512  0.6978  0.8068  1.0000\n  Li  Li16      1.0000  0.5488  0.3022  0.3068  1.0000\n  Li  Li17      1.0000  0.3528  0.3528  0.5000  1.0000\n  Li  Li18      1.0000  0.3670  0.1104  0.2670  1.0000\n  Li  Li19      1.0000  0.3896  0.8670  0.0170  1.0000\n  Li  Li20      1.0000  0.3022  0.5488  0.6932  1.0000\n  Mn  Mn1       1.0000  0.1191  0.1191  0.5000  1.0000\n  Mn  Mn2       1.0000  0.8809  0.8809  0.0000  1.0000\n  Mn  Mn3       1.0000  0.6191  0.3809  0.7500  1.0000\n  Mn  Mn4       1.0000  0.3809  0.6191  0.2500  1.0000\n  Cr  Cr1       1.0000  0.1291  0.8709  0.7500  1.0000\n  Cr  Cr2       1.0000  0.1210  0.3737  0.2473  1.0000\n  Cr  Cr3       1.0000  0.8790  0.6263  0.7473  1.0000\n  Cr  Cr4       1.0000  0.8709  0.1291  0.2500  1.0000\n  Cr  Cr5       1.0000  0.6210  0.1263  0.0027  1.0000\n  Cr  Cr6       1.0000  0.6291  0.6291  0.5000  1.0000\n  Cr  Cr7       1.0000  0.3709  0.3709  0.0000  1.0000\n  Cr  Cr8       1.0000  0.3790  0.8737  0.5027  1.0000\n  Cr  Cr9       1.0000  0.1263  0.6210  0.9973  1.0000\n  Cr  Cr10      1.0000  0.8737  0.3790  0.4973  1.0000\n  Cr  Cr11      1.0000  0.6263  0.8790  0.2527  1.0000\n  O   O1        1.0000  0.3737  0.1210  0.7527  1.0000\n  O   O2        1.0000  0.1222  0.6137  0.2403  1.0000\n  O   O3        1.0000  0.1373  0.1066  0.7597  1.0000\n  O   O4        1.0000  0.1334  0.3870  0.0047  1.0000\n  O   O5        1.0000  0.1457  0.8665  0.5060  1.0000\n  O   O6        1.0000  0.1130  0.6334  0.7547  1.0000\n  O   O7        1.0000  0.1066  0.1373  0.2403  1.0000\n  O   O8        1.0000  0.1137  0.3778  0.4903  1.0000\n  O   O9        1.0000  0.1335  0.8543  0.9940  1.0000\n  O   O10       1.0000  0.8665  0.1457  0.4940  1.0000\n  O   O11       1.0000  0.8863  0.6222  0.9903  1.0000\n  O   O12       1.0000  0.8934  0.8627  0.7403  1.0000\n  O   O13       1.0000  0.8870  0.3666  0.2547  1.0000\n  O   O14       1.0000  0.8543  0.1335  0.0060  1.0000\n  O   O15       1.0000  0.8666  0.6130  0.5047  1.0000\n  Cr  Cr12      1.0000  0.8627  0.8934  0.2597  1.0000\n  O   O16       1.0000  0.8778  0.3863  0.7403  1.0000\n  O   O17       1.0000  0.6222  0.8863  0.0097  1.0000\n  O   O18       1.0000  0.6373  0.3934  0.4903  1.0000\n  O   O19       1.0000  0.6457  0.6335  0.7440  1.0000\n  O   O20       1.0000  0.6334  0.1130  0.2453  1.0000\n  O   O21       1.0000  0.6066  0.3627  0.0097  1.0000\n  O   O22       1.0000  0.6130  0.8666  0.4953  1.0000\n  O   O23       1.0000  0.6137  0.1222  0.7597  1.0000\n  O   O24       1.0000  0.6335  0.6457  0.2560  1.0000\n  O   O25       1.0000  0.3665  0.3543  0.7560  1.0000\n  O   O26       1.0000  0.3863  0.8778  0.2597  1.0000\n  O   O27       1.0000  0.3870  0.1334  0.9953  1.0000\n  O   O28       1.0000  0.3934  0.6373  0.5097  1.0000\n  O   O29       1.0000  0.3666  0.8870  0.7453  1.0000\n  O   O30       1.0000  0.3543  0.3665  0.2440  1.0000\n  O   O31       1.0000  0.3627  0.6066  0.9903  1.0000\n  O   O32       1.0000  0.3778  0.1137  0.5097  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "bf99f259-bcae-409e-8396-0332cbd510a1",
    "mp_id": "mp-761112",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2VCr(P2O7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2278\n_cell_length_b   7.0272\n_cell_length_c   9.7341\n_cell_angle_alpha   71.2114\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2VCr(P2O7)2\n_chemical_formula_sum   'Li4 V2 Cr2 P8 O28'\n_cell_volume   532.8174\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8630  0.6768  0.6615  1\n  Li  Li1  1  0.3630  0.3232  0.3385  1\n  Li  Li2  1  0.8628  0.6764  0.1617  1\n  Li  Li3  1  0.3628  0.3236  0.8383  1\n  V  V4  1  0.4995  0.7293  0.6419  1\n  V  V5  1  0.9995  0.2707  0.3581  1\n  Cr  Cr6  1  0.5002  0.7273  0.1426  1\n  Cr  Cr7  1  0.0002  0.2727  0.8574  1\n  P  P8  1  0.1798  0.5216  0.5504  1\n  P  P9  1  0.7846  0.0865  0.6449  1\n  P  P10  1  0.2846  0.9135  0.3551  1\n  P  P11  1  0.6798  0.4784  0.4496  1\n  P  P12  1  0.1806  0.5228  0.0496  1\n  P  P13  1  0.7831  0.0848  0.1430  1\n  P  P14  1  0.2831  0.9152  0.8570  1\n  P  P15  1  0.6806  0.4772  0.9504  1\n  O  O16  1  0.3223  0.8534  0.7245  1\n  O  O17  1  0.6969  0.8851  0.6850  1\n  O  O18  1  0.0365  0.4818  0.6567  1\n  O  O19  1  0.3440  0.5043  0.6269  1\n  O  O20  1  0.6783  0.6059  0.5515  1\n  O  O21  1  0.4349  0.9173  0.4483  1\n  O  O22  1  0.1524  0.7532  0.4528  1\n  O  O23  1  0.6524  0.2468  0.5472  1\n  O  O24  1  0.9349  0.0827  0.5517  1\n  O  O25  1  0.1783  0.3941  0.4485  1\n  O  O26  1  0.8440  0.4957  0.3731  1\n  O  O27  1  0.5365  0.5182  0.3433  1\n  O  O28  1  0.3242  0.8524  0.2230  1\n  O  O29  1  0.6933  0.8833  0.1842  1\n  O  O30  1  0.1969  0.1149  0.3150  1\n  O  O31  1  0.8223  0.1466  0.2755  1\n  O  O32  1  0.0383  0.4819  0.1570  1\n  O  O33  1  0.3460  0.5094  0.1256  1\n  O  O34  1  0.6797  0.6061  0.0506  1\n  O  O35  1  0.4336  0.9176  0.9493  1\n  O  O36  1  0.1514  0.7540  0.9528  1\n  O  O37  1  0.6514  0.2460  0.0472  1\n  O  O38  1  0.9336  0.0824  0.0507  1\n  O  O39  1  0.1797  0.3939  0.9494  1\n  O  O40  1  0.8460  0.4906  0.8744  1\n  O  O41  1  0.5383  0.5181  0.8430  1\n  O  O42  1  0.1933  0.1167  0.8158  1\n  O  O43  1  0.8242  0.1476  0.7770  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4VPCr2P4VP3O28\n_chemical_formula_sum              \"Li4 V2 P8 Cr2 O28\"\n_cell_length_a       8.2278\n_cell_length_b       7.0272\n_cell_length_c       9.7341\n_cell_angle_alpha    71.2114\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8630  0.6768  0.6615  1.0000\n  Li  Li2       1.0000  0.3630  0.3232  0.3385  1.0000\n  Li  Li3       1.0000  0.8628  0.6764  0.1617  1.0000\n  Li  Li4       1.0000  0.3628  0.3236  0.8383  1.0000\n  V   V1        1.0000  0.4995  0.7293  0.6419  1.0000\n  P   P1        1.0000  0.9995  0.2707  0.3581  1.0000\n  Cr  Cr1       1.0000  0.5002  0.7273  0.1426  1.0000\n  Cr  Cr2       1.0000  0.0002  0.2727  0.8574  1.0000\n  P   P2        1.0000  0.1798  0.5216  0.5504  1.0000\n  P   P3        1.0000  0.7846  0.0865  0.6449  1.0000\n  P   P4        1.0000  0.2846  0.9135  0.3551  1.0000\n  P   P5        1.0000  0.6798  0.4784  0.4496  1.0000\n  V   V2        1.0000  0.1806  0.5228  0.0496  1.0000\n  P   P6        1.0000  0.7831  0.0848  0.1430  1.0000\n  P   P7        1.0000  0.2831  0.9152  0.8570  1.0000\n  P   P8        1.0000  0.6806  0.4772  0.9504  1.0000\n  O   O1        1.0000  0.3223  0.8534  0.7245  1.0000\n  O   O2        1.0000  0.6969  0.8851  0.6850  1.0000\n  O   O3        1.0000  0.0365  0.4818  0.6567  1.0000\n  O   O4        1.0000  0.3440  0.5043  0.6269  1.0000\n  O   O5        1.0000  0.6783  0.6059  0.5515  1.0000\n  O   O6        1.0000  0.4349  0.9173  0.4483  1.0000\n  O   O7        1.0000  0.1524  0.7532  0.4528  1.0000\n  O   O8        1.0000  0.6524  0.2468  0.5472  1.0000\n  O   O9        1.0000  0.9349  0.0827  0.5517  1.0000\n  O   O10       1.0000  0.1783  0.3941  0.4485  1.0000\n  O   O11       1.0000  0.8440  0.4957  0.3731  1.0000\n  O   O12       1.0000  0.5365  0.5182  0.3433  1.0000\n  O   O13       1.0000  0.3242  0.8524  0.2230  1.0000\n  O   O14       1.0000  0.6933  0.8833  0.1842  1.0000\n  O   O15       1.0000  0.1969  0.1149  0.3150  1.0000\n  O   O16       1.0000  0.8223  0.1466  0.2755  1.0000\n  O   O17       1.0000  0.0383  0.4819  0.1570  1.0000\n  O   O18       1.0000  0.3460  0.5094  0.1256  1.0000\n  O   O19       1.0000  0.6797  0.6061  0.0506  1.0000\n  O   O20       1.0000  0.4336  0.9176  0.9493  1.0000\n  O   O21       1.0000  0.1514  0.7540  0.9528  1.0000\n  O   O22       1.0000  0.6514  0.2460  0.0472  1.0000\n  O   O23       1.0000  0.9336  0.0824  0.0507  1.0000\n  O   O24       1.0000  0.1797  0.3939  0.9494  1.0000\n  O   O25       1.0000  0.8460  0.4906  0.8744  1.0000\n  O   O26       1.0000  0.5383  0.5181  0.8430  1.0000\n  O   O27       1.0000  0.1933  0.1167  0.8158  1.0000\n  O   O28       1.0000  0.8242  0.1476  0.7770  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1c53298d-b51e-46fa-8fc6-84efafff5962",
    "mp_id": "mp-7614",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Si(Ag4S3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4707\n_cell_length_b   10.5768\n_cell_length_c   15.0625\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Si(Ag4S3)2\n_chemical_formula_sum   'Si4 Ag32 S24'\n_cell_volume   1190.1726\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Si  Si0  1  0.2646  0.0318  0.3766  1\n  Si  Si1  1  0.7354  0.5318  0.6234  1\n  Si  Si2  1  0.2354  0.0318  0.8766  1\n  Si  Si3  1  0.7646  0.5318  0.1234  1\n  Ag  Ag4  1  0.0739  0.3628  0.9318  1\n  Ag  Ag5  1  0.1323  0.4771  0.7598  1\n  Ag  Ag6  1  0.8677  0.9771  0.2402  1\n  Ag  Ag7  1  0.3677  0.4771  0.2598  1\n  Ag  Ag8  1  0.2633  0.5451  0.0630  1\n  Ag  Ag9  1  0.7367  0.0451  0.9370  1\n  Ag  Ag10  1  0.2367  0.5451  0.5630  1\n  Ag  Ag11  1  0.7633  0.0451  0.4370  1\n  Ag  Ag12  1  0.3866  0.6903  0.4117  1\n  Ag  Ag13  1  0.6134  0.1903  0.5883  1\n  Ag  Ag14  1  0.1134  0.6903  0.9117  1\n  Ag  Ag15  1  0.8866  0.1903  0.0883  1\n  Ag  Ag16  1  0.4929  0.7947  0.2256  1\n  Ag  Ag17  1  0.5071  0.2947  0.7744  1\n  Ag  Ag18  1  0.0071  0.7947  0.7256  1\n  Ag  Ag19  1  0.9929  0.2947  0.2744  1\n  Ag  Ag20  1  0.9261  0.8628  0.0682  1\n  Ag  Ag21  1  0.6323  0.9771  0.7402  1\n  Ag  Ag22  1  0.5739  0.8628  0.5682  1\n  Ag  Ag23  1  0.4261  0.3628  0.4318  1\n  Ag  Ag24  1  0.1200  0.6903  0.2685  1\n  Ag  Ag25  1  0.8800  0.1903  0.7315  1\n  Ag  Ag26  1  0.3800  0.6903  0.7685  1\n  Ag  Ag27  1  0.6200  0.1903  0.2315  1\n  Ag  Ag28  1  0.4831  0.7696  0.0137  1\n  Ag  Ag29  1  0.5169  0.2696  0.9863  1\n  Ag  Ag30  1  0.0169  0.7696  0.5137  1\n  Ag  Ag31  1  0.9831  0.2696  0.4863  1\n  Ag  Ag32  1  0.7286  0.5134  0.3684  1\n  Ag  Ag33  1  0.2714  0.0134  0.6316  1\n  Ag  Ag34  1  0.7714  0.5134  0.8684  1\n  Ag  Ag35  1  0.2286  0.0134  0.1316  1\n  S  S36  1  0.9942  0.4107  0.1215  1\n  S  S37  1  0.0058  0.9107  0.8785  1\n  S  S38  1  0.5058  0.4107  0.6215  1\n  S  S39  1  0.4942  0.9107  0.3785  1\n  S  S40  1  0.7704  0.6485  0.0079  1\n  S  S41  1  0.2296  0.1485  0.9921  1\n  S  S42  1  0.7296  0.6485  0.5079  1\n  S  S43  1  0.2704  0.1485  0.4921  1\n  S  S44  1  0.7695  0.6524  0.2364  1\n  S  S45  1  0.2305  0.1524  0.7636  1\n  S  S46  1  0.7305  0.6524  0.7364  1\n  S  S47  1  0.2695  0.1524  0.2636  1\n  S  S48  1  0.1741  0.5136  0.3871  1\n  S  S49  1  0.8259  0.0136  0.6129  1\n  S  S50  1  0.3259  0.5136  0.8871  1\n  S  S51  1  0.6741  0.0136  0.1129  1\n  S  S52  1  0.2288  0.7763  0.1208  1\n  S  S53  1  0.7712  0.2763  0.8792  1\n  S  S54  1  0.2712  0.7763  0.6208  1\n  S  S55  1  0.7288  0.2763  0.3792  1\n  S  S56  1  0.0328  0.9116  0.3727  1\n  S  S57  1  0.9672  0.4116  0.6273  1\n  S  S58  1  0.4672  0.9116  0.8727  1\n  S  S59  1  0.5328  0.4116  0.1273  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiAgSi2Ag3SiAg28S24\n_chemical_formula_sum              \"Si4 Ag32 S24\"\n_cell_length_a       7.4707\n_cell_length_b       10.5768\n_cell_length_c       15.0625\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.2646  0.0318  0.3766  1.0000\n  Ag  Ag1       1.0000  0.7354  0.5318  0.6234  1.0000\n  Si  Si2       1.0000  0.2354  0.0318  0.8766  1.0000\n  Si  Si3       1.0000  0.7646  0.5318  0.1234  1.0000\n  Ag  Ag2       1.0000  0.0739  0.3628  0.9318  1.0000\n  Ag  Ag3       1.0000  0.1323  0.4771  0.7598  1.0000\n  Ag  Ag4       1.0000  0.8677  0.9771  0.2402  1.0000\n  Si  Si4       1.0000  0.3677  0.4771  0.2598  1.0000\n  Ag  Ag5       1.0000  0.2633  0.5451  0.0630  1.0000\n  Ag  Ag6       1.0000  0.7367  0.0451  0.9370  1.0000\n  Ag  Ag7       1.0000  0.2367  0.5451  0.5630  1.0000\n  Ag  Ag8       1.0000  0.7633  0.0451  0.4370  1.0000\n  Ag  Ag9       1.0000  0.3866  0.6903  0.4117  1.0000\n  Ag  Ag10      1.0000  0.6134  0.1903  0.5883  1.0000\n  Ag  Ag11      1.0000  0.1134  0.6903  0.9117  1.0000\n  Ag  Ag12      1.0000  0.8866  0.1903  0.0883  1.0000\n  Ag  Ag13      1.0000  0.4929  0.7947  0.2256  1.0000\n  Ag  Ag14      1.0000  0.5071  0.2947  0.7744  1.0000\n  Ag  Ag15      1.0000  0.0071  0.7947  0.7256  1.0000\n  Ag  Ag16      1.0000  0.9929  0.2947  0.2744  1.0000\n  Ag  Ag17      1.0000  0.9261  0.8628  0.0682  1.0000\n  Ag  Ag18      1.0000  0.6323  0.9771  0.7402  1.0000\n  Ag  Ag19      1.0000  0.5739  0.8628  0.5682  1.0000\n  Ag  Ag20      1.0000  0.4261  0.3628  0.4318  1.0000\n  Ag  Ag21      1.0000  0.1200  0.6903  0.2685  1.0000\n  Ag  Ag22      1.0000  0.8800  0.1903  0.7315  1.0000\n  Ag  Ag23      1.0000  0.3800  0.6903  0.7685  1.0000\n  Ag  Ag24      1.0000  0.6200  0.1903  0.2315  1.0000\n  Ag  Ag25      1.0000  0.4831  0.7696  0.0137  1.0000\n  Ag  Ag26      1.0000  0.5169  0.2696  0.9863  1.0000\n  Ag  Ag27      1.0000  0.0169  0.7696  0.5137  1.0000\n  Ag  Ag28      1.0000  0.9831  0.2696  0.4863  1.0000\n  Ag  Ag29      1.0000  0.7286  0.5134  0.3684  1.0000\n  Ag  Ag30      1.0000  0.2714  0.0134  0.6316  1.0000\n  Ag  Ag31      1.0000  0.7714  0.5134  0.8684  1.0000\n  Ag  Ag32      1.0000  0.2286  0.0134  0.1316  1.0000\n  S   S1        1.0000  0.9942  0.4107  0.1215  1.0000\n  S   S2        1.0000  0.0058  0.9107  0.8785  1.0000\n  S   S3        1.0000  0.5058  0.4107  0.6215  1.0000\n  S   S4        1.0000  0.4942  0.9107  0.3785  1.0000\n  S   S5        1.0000  0.7704  0.6485  0.0079  1.0000\n  S   S6        1.0000  0.2296  0.1485  0.9921  1.0000\n  S   S7        1.0000  0.7296  0.6485  0.5079  1.0000\n  S   S8        1.0000  0.2704  0.1485  0.4921  1.0000\n  S   S9        1.0000  0.7695  0.6524  0.2364  1.0000\n  S   S10       1.0000  0.2305  0.1524  0.7636  1.0000\n  S   S11       1.0000  0.7305  0.6524  0.7364  1.0000\n  S   S12       1.0000  0.2695  0.1524  0.2636  1.0000\n  S   S13       1.0000  0.1741  0.5136  0.3871  1.0000\n  S   S14       1.0000  0.8259  0.0136  0.6129  1.0000\n  S   S15       1.0000  0.3259  0.5136  0.8871  1.0000\n  S   S16       1.0000  0.6741  0.0136  0.1129  1.0000\n  S   S17       1.0000  0.2288  0.7763  0.1208  1.0000\n  S   S18       1.0000  0.7712  0.2763  0.8792  1.0000\n  S   S19       1.0000  0.2712  0.7763  0.6208  1.0000\n  S   S20       1.0000  0.7288  0.2763  0.3792  1.0000\n  S   S21       1.0000  0.0328  0.9116  0.3727  1.0000\n  S   S22       1.0000  0.9672  0.4116  0.6273  1.0000\n  S   S23       1.0000  0.4672  0.9116  0.8727  1.0000\n  S   S24       1.0000  0.5328  0.4116  0.1273  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "6854a5c4-f565-4483-9c71-f379278eb0f1",
    "mp_id": "mp-762304",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BiOF\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7421\n_cell_length_b   5.8658\n_cell_length_c   5.9605\n_cell_angle_alpha   90.0000\n_cell_angle_beta   96.1437\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BiOF\n_chemical_formula_sum   'Bi4 O4 F4'\n_cell_volume   199.6091\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Bi  Bi0  1  0.2431  0.4560  0.6960  1\n  Bi  Bi1  1  0.2431  0.0440  0.1960  1\n  Bi  Bi2  1  0.7569  0.9560  0.8040  1\n  Bi  Bi3  1  0.7569  0.5440  0.3040  1\n  O  O4  1  0.0751  0.1702  0.8714  1\n  O  O5  1  0.0751  0.3298  0.3714  1\n  O  O6  1  0.9249  0.6702  0.6286  1\n  O  O7  1  0.9249  0.8298  0.1286  1\n  F  F8  1  0.4407  0.7595  0.9788  1\n  F  F9  1  0.4407  0.7405  0.4788  1\n  F  F10  1  0.5593  0.2595  0.5212  1\n  F  F11  1  0.5593  0.2405  0.0212  1\n",
    "output": "data_image0\n_chemical_formula_structural       Bi4O2FOF2OF\n_chemical_formula_sum              \"Bi4 O4 F4\"\n_cell_length_a       5.7421\n_cell_length_b       5.8658\n_cell_length_c       5.9605\n_cell_angle_alpha    90.0000\n_cell_angle_beta     96.1437\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.2431  0.4560  0.6960  1.0000\n  Bi  Bi2       1.0000  0.2431  0.0440  0.1960  1.0000\n  Bi  Bi3       1.0000  0.7569  0.9560  0.8040  1.0000\n  Bi  Bi4       1.0000  0.7569  0.5440  0.3040  1.0000\n  O   O1        1.0000  0.0751  0.1702  0.8714  1.0000\n  O   O2        1.0000  0.0751  0.3298  0.3714  1.0000\n  F   F1        1.0000  0.9249  0.6702  0.6286  1.0000\n  O   O3        1.0000  0.9249  0.8298  0.1286  1.0000\n  F   F2        1.0000  0.4407  0.7595  0.9788  1.0000\n  F   F3        1.0000  0.4407  0.7405  0.4788  1.0000\n  O   O4        1.0000  0.5593  0.2595  0.5212  1.0000\n  F   F4        1.0000  0.5593  0.2405  0.0212  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "60a43f49-22d7-48f2-a1c7-c1c94e49c7c0",
    "mp_id": "mp-7625",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y3ReB7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0979\n_cell_length_b   8.0979\n_cell_length_c   9.3556\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   154.7088\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y3ReB7\n_chemical_formula_sum   'Y6 Re2 B14'\n_cell_volume   262.1010\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.8953  0.1047  0.9402  1\n  Y  Y1  1  0.1047  0.8953  0.0598  1\n  Y  Y2  1  0.7583  0.2417  0.2500  1\n  Y  Y3  1  0.2417  0.7583  0.7500  1\n  Y  Y4  1  0.8953  0.1047  0.5598  1\n  Y  Y5  1  0.1047  0.8953  0.4402  1\n  Re  Re6  1  0.0533  0.9467  0.7500  1\n  Re  Re7  1  0.9467  0.0533  0.2500  1\n  B  B8  1  0.5424  0.4576  0.2500  1\n  B  B9  1  0.4576  0.5424  0.7500  1\n  B  B10  1  0.5207  0.4793  0.9039  1\n  B  B11  1  0.4793  0.5207  0.0961  1\n  B  B12  1  0.4793  0.5207  0.4039  1\n  B  B13  1  0.5207  0.4793  0.5961  1\n  B  B14  1  0.6315  0.3685  0.8492  1\n  B  B15  1  0.3685  0.6315  0.1508  1\n  B  B16  1  0.7270  0.2730  0.9658  1\n  B  B17  1  0.2730  0.7270  0.0342  1\n  B  B18  1  0.2730  0.7270  0.4658  1\n  B  B19  1  0.7270  0.2730  0.5342  1\n  B  B20  1  0.6315  0.3685  0.6508  1\n  B  B21  1  0.3685  0.6315  0.3492  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y3BY2Re2YB13\n_chemical_formula_sum              \"Y6 B14 Re2\"\n_cell_length_a       8.0979\n_cell_length_b       8.0979\n_cell_length_c       9.3556\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    154.7088\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.8953  0.1047  0.9402  1.0000\n  Y   Y2        1.0000  0.1047  0.8953  0.0598  1.0000\n  Y   Y3        1.0000  0.7583  0.2417  0.2500  1.0000\n  B   B1        1.0000  0.2417  0.7583  0.7500  1.0000\n  Y   Y4        1.0000  0.8953  0.1047  0.5598  1.0000\n  Y   Y5        1.0000  0.1047  0.8953  0.4402  1.0000\n  Re  Re1       1.0000  0.0533  0.9467  0.7500  1.0000\n  Re  Re2       1.0000  0.9467  0.0533  0.2500  1.0000\n  Y   Y6        1.0000  0.5424  0.4576  0.2500  1.0000\n  B   B2        1.0000  0.4576  0.5424  0.7500  1.0000\n  B   B3        1.0000  0.5207  0.4793  0.9039  1.0000\n  B   B4        1.0000  0.4793  0.5207  0.0961  1.0000\n  B   B5        1.0000  0.4793  0.5207  0.4039  1.0000\n  B   B6        1.0000  0.5207  0.4793  0.5961  1.0000\n  B   B7        1.0000  0.6315  0.3685  0.8492  1.0000\n  B   B8        1.0000  0.3685  0.6315  0.1508  1.0000\n  B   B9        1.0000  0.7270  0.2730  0.9658  1.0000\n  B   B10       1.0000  0.2730  0.7270  0.0342  1.0000\n  B   B11       1.0000  0.2730  0.7270  0.4658  1.0000\n  B   B12       1.0000  0.7270  0.2730  0.5342  1.0000\n  B   B13       1.0000  0.6315  0.3685  0.6508  1.0000\n  B   B14       1.0000  0.3685  0.6315  0.3492  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4202b1d5-e086-4376-8734-6662a89d4233",
    "mp_id": "mp-762521",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiMn3Al2(HO2)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9541\n_cell_length_b   7.9048\n_cell_length_c   10.5024\n_cell_angle_alpha   105.2913\n_cell_angle_beta   105.7764\n_cell_angle_gamma   101.9229\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiMn3Al2(HO2)6\n_chemical_formula_sum   'Li2 Mn6 Al4 H12 O24'\n_cell_volume   437.7313\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7581  0.0110  0.4992  1\n  Li  Li1  1  0.0753  0.3225  0.5009  1\n  Mn  Mn2  1  0.9954  0.9978  0.9961  1\n  Mn  Mn3  1  0.4959  0.9988  0.9975  1\n  Mn  Mn4  1  0.3344  0.3358  0.0027  1\n  Mn  Mn5  1  0.1676  0.6670  0.0008  1\n  Mn  Mn6  1  0.8382  0.3362  0.0048  1\n  Mn  Mn7  1  0.6656  0.6642  0.9967  1\n  Al  Al8  1  0.2468  0.0047  0.4973  1\n  Al  Al9  1  0.5863  0.3284  0.5023  1\n  Al  Al10  1  0.9172  0.6666  0.5001  1\n  Al  Al11  1  0.4164  0.6668  0.5003  1\n  H  H12  1  0.3889  0.0254  0.2899  1\n  H  H13  1  0.9109  0.3249  0.7099  1\n  H  H14  1  0.9211  0.0089  0.2898  1\n  H  H15  1  0.7715  0.6501  0.7132  1\n  H  H16  1  0.4469  0.3054  0.7102  1\n  H  H17  1  0.7208  0.3627  0.2955  1\n  H  H18  1  0.2612  0.6603  0.7048  1\n  H  H19  1  0.5684  0.6752  0.2958  1\n  H  H20  1  0.2561  0.3612  0.3006  1\n  H  H21  1  0.1137  0.9707  0.7047  1\n  H  H22  1  0.0672  0.6782  0.2866  1\n  H  H23  1  0.5762  0.9754  0.6997  1\n  O  O24  1  0.2171  0.0688  0.8995  1\n  O  O25  1  0.4482  0.0750  0.3939  1\n  O  O26  1  0.8533  0.2859  0.6072  1\n  O  O27  1  0.0514  0.3989  0.9006  1\n  O  O28  1  0.7021  0.0747  0.8946  1\n  O  O29  1  0.9797  0.0472  0.3924  1\n  O  O30  1  0.1226  0.2808  0.1063  1\n  O  O31  1  0.7033  0.6099  0.6079  1\n  O  O32  1  0.5524  0.3939  0.9004  1\n  O  O33  1  0.3847  0.2589  0.6063  1\n  O  O34  1  0.6172  0.2693  0.1050  1\n  O  O35  1  0.7840  0.4101  0.3994  1\n  O  O36  1  0.2029  0.6171  0.6004  1\n  O  O37  1  0.3582  0.7407  0.8902  1\n  O  O38  1  0.4498  0.6018  0.1015  1\n  O  O39  1  0.3233  0.4099  0.4045  1\n  O  O40  1  0.6306  0.7158  0.3996  1\n  O  O41  1  0.0495  0.9235  0.6009  1\n  O  O42  1  0.8826  0.7128  0.8927  1\n  O  O43  1  0.2943  0.9273  0.1043  1\n  O  O44  1  0.9741  0.5962  0.1111  1\n  O  O45  1  0.1303  0.7243  0.3926  1\n  O  O46  1  0.5105  0.9235  0.5957  1\n  O  O47  1  0.7777  0.9357  0.0944  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Mn6Al4H3OH8O16HO7\n_chemical_formula_sum              \"Li2 Mn6 Al4 H12 O24\"\n_cell_length_a       5.9541\n_cell_length_b       7.9048\n_cell_length_c       10.5024\n_cell_angle_alpha    105.2913\n_cell_angle_beta     105.7764\n_cell_angle_gamma    101.9229\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7581  0.0110  0.4992  1.0000\n  Li  Li2       1.0000  0.0753  0.3225  0.5009  1.0000\n  Mn  Mn1       1.0000  0.9954  0.9978  0.9961  1.0000\n  Mn  Mn2       1.0000  0.4959  0.9988  0.9975  1.0000\n  Mn  Mn3       1.0000  0.3344  0.3358  0.0027  1.0000\n  Mn  Mn4       1.0000  0.1676  0.6670  0.0008  1.0000\n  Mn  Mn5       1.0000  0.8382  0.3362  0.0048  1.0000\n  Mn  Mn6       1.0000  0.6656  0.6642  0.9967  1.0000\n  Al  Al1       1.0000  0.2468  0.0047  0.4973  1.0000\n  Al  Al2       1.0000  0.5863  0.3284  0.5023  1.0000\n  Al  Al3       1.0000  0.9172  0.6666  0.5001  1.0000\n  Al  Al4       1.0000  0.4164  0.6668  0.5003  1.0000\n  H   H1        1.0000  0.3889  0.0254  0.2899  1.0000\n  H   H2        1.0000  0.9109  0.3249  0.7099  1.0000\n  H   H3        1.0000  0.9211  0.0089  0.2898  1.0000\n  O   O1        1.0000  0.7715  0.6501  0.7132  1.0000\n  H   H4        1.0000  0.4469  0.3054  0.7102  1.0000\n  H   H5        1.0000  0.7208  0.3627  0.2955  1.0000\n  H   H6        1.0000  0.2612  0.6603  0.7048  1.0000\n  H   H7        1.0000  0.5684  0.6752  0.2958  1.0000\n  H   H8        1.0000  0.2561  0.3612  0.3006  1.0000\n  H   H9        1.0000  0.1137  0.9707  0.7047  1.0000\n  H   H10       1.0000  0.0672  0.6782  0.2866  1.0000\n  H   H11       1.0000  0.5762  0.9754  0.6997  1.0000\n  O   O2        1.0000  0.2171  0.0688  0.8995  1.0000\n  O   O3        1.0000  0.4482  0.0750  0.3939  1.0000\n  O   O4        1.0000  0.8533  0.2859  0.6072  1.0000\n  O   O5        1.0000  0.0514  0.3989  0.9006  1.0000\n  O   O6        1.0000  0.7021  0.0747  0.8946  1.0000\n  O   O7        1.0000  0.9797  0.0472  0.3924  1.0000\n  O   O8        1.0000  0.1226  0.2808  0.1063  1.0000\n  O   O9        1.0000  0.7033  0.6099  0.6079  1.0000\n  O   O10       1.0000  0.5524  0.3939  0.9004  1.0000\n  O   O11       1.0000  0.3847  0.2589  0.6063  1.0000\n  O   O12       1.0000  0.6172  0.2693  0.1050  1.0000\n  O   O13       1.0000  0.7840  0.4101  0.3994  1.0000\n  O   O14       1.0000  0.2029  0.6171  0.6004  1.0000\n  O   O15       1.0000  0.3582  0.7407  0.8902  1.0000\n  O   O16       1.0000  0.4498  0.6018  0.1015  1.0000\n  O   O17       1.0000  0.3233  0.4099  0.4045  1.0000\n  H   H12       1.0000  0.6306  0.7158  0.3996  1.0000\n  O   O18       1.0000  0.0495  0.9235  0.6009  1.0000\n  O   O19       1.0000  0.8826  0.7128  0.8927  1.0000\n  O   O20       1.0000  0.2943  0.9273  0.1043  1.0000\n  O   O21       1.0000  0.9741  0.5962  0.1111  1.0000\n  O   O22       1.0000  0.1303  0.7243  0.3926  1.0000\n  O   O23       1.0000  0.5105  0.9235  0.5957  1.0000\n  O   O24       1.0000  0.7777  0.9357  0.0944  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "590199bc-dcd0-4413-a277-0a8a9afae62d",
    "mp_id": "mp-763259",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2013\n_cell_length_b   8.6346\n_cell_length_c   7.7200\n_cell_angle_alpha   89.9998\n_cell_angle_beta   86.7489\n_cell_angle_gamma   89.9987\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3(PO4)2\n_chemical_formula_sum   'Mn6 P4 O16'\n_cell_volume   346.1563\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.4999  0.5000  0.5001  1\n  Mn  Mn1  1  0.4135  0.1423  0.6215  1\n  Mn  Mn2  1  0.5866  0.8578  0.3784  1\n  Mn  Mn3  1  -0.0000  -0.0000  0.0000  1\n  Mn  Mn4  1  0.0866  0.6422  0.8784  1\n  Mn  Mn5  1  0.9134  0.3578  0.1216  1\n  P  P6  1  0.0331  0.6939  0.2983  1\n  P  P7  1  0.4669  0.1939  0.2017  1\n  P  P8  1  0.5331  0.8061  0.7983  1\n  P  P9  1  0.9669  0.3061  0.7017  1\n  O  O10  1  0.0411  0.5815  0.1429  1\n  O  O11  1  0.4589  0.0815  0.3571  1\n  O  O12  1  0.5411  0.9185  0.6429  1\n  O  O13  1  0.9589  0.4185  0.8571  1\n  O  O14  1  0.0489  0.1430  0.7612  1\n  O  O15  1  0.4511  0.6430  0.7388  1\n  O  O16  1  0.5489  0.3570  0.2612  1\n  O  O17  1  0.9511  0.8570  0.2388  1\n  O  O18  1  0.2006  0.1950  0.1269  1\n  O  O19  1  0.2994  0.6950  0.3731  1\n  O  O20  1  0.7006  0.3050  0.6269  1\n  O  O21  1  0.7994  0.8050  0.8731  1\n  O  O22  1  0.1763  0.3559  0.5649  1\n  O  O23  1  0.3237  0.8559  0.9351  1\n  O  O24  1  0.6763  0.1441  0.0649  1\n  O  O25  1  0.8237  0.6441  0.4351  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn3OMn2P4O11MnO4\n_chemical_formula_sum              \"Mn6 O16 P4\"\n_cell_length_a       5.2013\n_cell_length_b       8.6346\n_cell_length_c       7.7200\n_cell_angle_alpha    89.9998\n_cell_angle_beta     86.7489\n_cell_angle_gamma    89.9987\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.4999  0.5000  0.5001  1.0000\n  Mn  Mn2       1.0000  0.4135  0.1423  0.6215  1.0000\n  Mn  Mn3       1.0000  0.5866  0.8578  0.3784  1.0000\n  O   O1        1.0000  1.0000  1.0000  0.0000  1.0000\n  Mn  Mn4       1.0000  0.0866  0.6422  0.8784  1.0000\n  Mn  Mn5       1.0000  0.9134  0.3578  0.1216  1.0000\n  P   P1        1.0000  0.0331  0.6939  0.2983  1.0000\n  P   P2        1.0000  0.4669  0.1939  0.2017  1.0000\n  P   P3        1.0000  0.5331  0.8061  0.7983  1.0000\n  P   P4        1.0000  0.9669  0.3061  0.7017  1.0000\n  O   O2        1.0000  0.0411  0.5815  0.1429  1.0000\n  O   O3        1.0000  0.4589  0.0815  0.3571  1.0000\n  O   O4        1.0000  0.5411  0.9185  0.6429  1.0000\n  O   O5        1.0000  0.9589  0.4185  0.8571  1.0000\n  O   O6        1.0000  0.0489  0.1430  0.7612  1.0000\n  O   O7        1.0000  0.4511  0.6430  0.7388  1.0000\n  O   O8        1.0000  0.5489  0.3570  0.2612  1.0000\n  O   O9        1.0000  0.9511  0.8570  0.2388  1.0000\n  O   O10       1.0000  0.2006  0.1950  0.1269  1.0000\n  O   O11       1.0000  0.2994  0.6950  0.3731  1.0000\n  O   O12       1.0000  0.7006  0.3050  0.6269  1.0000\n  Mn  Mn6       1.0000  0.7994  0.8050  0.8731  1.0000\n  O   O13       1.0000  0.1763  0.3559  0.5649  1.0000\n  O   O14       1.0000  0.3237  0.8559  0.9351  1.0000\n  O   O15       1.0000  0.6763  0.1441  0.0649  1.0000\n  O   O16       1.0000  0.8237  0.6441  0.4351  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1942e34a-7c33-4971-ad5a-7f96994caff2",
    "mp_id": "mp-763484",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe4OF7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8064\n_cell_length_b   5.8126\n_cell_length_c   10.9133\n_cell_angle_alpha   81.9923\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe4OF7\n_chemical_formula_sum   'Fe8 O2 F14'\n_cell_volume   301.9170\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.5143  0.1329  0.3746  1\n  Fe  Fe1  1  0.4875  0.6267  0.8680  1\n  Fe  Fe2  1  0.4810  0.3963  0.6306  1\n  Fe  Fe3  1  0.5031  0.8779  0.1239  1\n  Fe  Fe4  1  0.9875  0.3733  0.1320  1\n  Fe  Fe5  1  0.9810  0.6037  0.3694  1\n  Fe  Fe6  1  0.0143  0.8671  0.6254  1\n  Fe  Fe7  1  0.0031  0.1221  0.8761  1\n  O  O8  1  0.8094  0.3622  0.3087  1\n  O  O9  1  0.3094  0.6378  0.6913  1\n  F  F10  1  0.7944  0.5946  0.5391  1\n  F  F11  1  0.8045  0.8482  0.8003  1\n  F  F12  1  0.8004  0.0999  0.0491  1\n  F  F13  1  0.7004  0.6049  0.0461  1\n  F  F14  1  0.7092  0.8477  0.3013  1\n  F  F15  1  0.7025  0.3407  0.7901  1\n  F  F16  1  0.6932  0.1136  0.5622  1\n  F  F17  1  0.3004  0.9001  0.9509  1\n  F  F18  1  0.2944  0.4054  0.4609  1\n  F  F19  1  0.3045  0.1518  0.1997  1\n  F  F20  1  0.2092  0.1523  0.6987  1\n  F  F21  1  0.2004  0.3951  0.9539  1\n  F  F22  1  0.2025  0.6593  0.2099  1\n  F  F23  1  0.1932  0.8864  0.4378  1\n",
    "output": "data_image0\n_chemical_formula_structural       FeFFe6O2F13Fe\n_chemical_formula_sum              \"Fe8 F14 O2\"\n_cell_length_a       4.8064\n_cell_length_b       5.8126\n_cell_length_c       10.9133\n_cell_angle_alpha    81.9923\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.5143  0.1329  0.3746  1.0000\n  F   F1        1.0000  0.4875  0.6267  0.8680  1.0000\n  Fe  Fe2       1.0000  0.4810  0.3963  0.6306  1.0000\n  Fe  Fe3       1.0000  0.5031  0.8779  0.1239  1.0000\n  Fe  Fe4       1.0000  0.9875  0.3733  0.1320  1.0000\n  Fe  Fe5       1.0000  0.9810  0.6037  0.3694  1.0000\n  Fe  Fe6       1.0000  0.0143  0.8671  0.6254  1.0000\n  Fe  Fe7       1.0000  0.0031  0.1221  0.8761  1.0000\n  O   O1        1.0000  0.8094  0.3622  0.3087  1.0000\n  O   O2        1.0000  0.3094  0.6378  0.6913  1.0000\n  F   F2        1.0000  0.7944  0.5946  0.5391  1.0000\n  F   F3        1.0000  0.8045  0.8482  0.8003  1.0000\n  F   F4        1.0000  0.8004  0.0999  0.0491  1.0000\n  F   F5        1.0000  0.7004  0.6049  0.0461  1.0000\n  F   F6        1.0000  0.7092  0.8477  0.3013  1.0000\n  F   F7        1.0000  0.7025  0.3407  0.7901  1.0000\n  F   F8        1.0000  0.6932  0.1136  0.5622  1.0000\n  F   F9        1.0000  0.3004  0.9001  0.9509  1.0000\n  F   F10       1.0000  0.2944  0.4054  0.4609  1.0000\n  F   F11       1.0000  0.3045  0.1518  0.1997  1.0000\n  F   F12       1.0000  0.2092  0.1523  0.6987  1.0000\n  F   F13       1.0000  0.2004  0.3951  0.9539  1.0000\n  F   F14       1.0000  0.2025  0.6593  0.2099  1.0000\n  Fe  Fe8       1.0000  0.1932  0.8864  0.4378  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2b1f5f39-d6f2-4ea8-9543-0bab539f4b5b",
    "mp_id": "mp-763920",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6Fe5CoO12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0965\n_cell_length_b   5.0965\n_cell_length_c   10.1033\n_cell_angle_alpha   85.8252\n_cell_angle_beta   85.8252\n_cell_angle_gamma   120.1244\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6Fe5CoO12\n_chemical_formula_sum   'Li6 Fe5 Co1 O12'\n_cell_volume   224.5518\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7343  0.0581  0.7580  1\n  Li  Li1  1  0.0581  0.7343  0.7580  1\n  Li  Li2  1  0.6198  0.6198  0.2417  1\n  Li  Li3  1  0.3802  0.3802  0.7583  1\n  Li  Li4  1  0.9419  0.2657  0.2420  1\n  Li  Li5  1  0.2657  0.9419  0.2420  1\n  Fe  Fe6  1  0.5000  0.5000  0.5000  1\n  Fe  Fe7  1  0.3334  0.6666  0.0000  1\n  Fe  Fe8  1  0.6666  0.3334  0.0000  1\n  Fe  Fe9  1  0.8328  0.1672  0.5000  1\n  Fe  Fe10  1  0.1672  0.8328  0.5000  1\n  Co  Co11  1  0.0000  0.0000  0.0000  1\n  O  O12  1  0.8707  0.8707  0.3851  1\n  O  O13  1  0.7088  0.7088  0.8907  1\n  O  O14  1  0.7964  0.4631  0.6155  1\n  O  O15  1  0.4631  0.7964  0.6155  1\n  O  O16  1  0.0301  0.3525  0.8904  1\n  O  O17  1  0.3525  0.0301  0.8904  1\n  O  O18  1  0.6475  0.9699  0.1096  1\n  O  O19  1  0.9699  0.6475  0.1096  1\n  O  O20  1  0.5369  0.2036  0.3845  1\n  O  O21  1  0.2036  0.5369  0.3845  1\n  O  O22  1  0.2912  0.2912  0.1093  1\n  O  O23  1  0.1293  0.1293  0.6149  1\n",
    "output": "data_image0\n_chemical_formula_structural       LiOLi4Fe5CoO6LiO5\n_chemical_formula_sum              \"Li6 O12 Fe5 Co1\"\n_cell_length_a       5.0965\n_cell_length_b       5.0965\n_cell_length_c       10.1033\n_cell_angle_alpha    85.8252\n_cell_angle_beta     85.8252\n_cell_angle_gamma    120.1244\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7343  0.0581  0.7580  1.0000\n  O   O1        1.0000  0.0581  0.7343  0.7580  1.0000\n  Li  Li2       1.0000  0.6198  0.6198  0.2417  1.0000\n  Li  Li3       1.0000  0.3802  0.3802  0.7583  1.0000\n  Li  Li4       1.0000  0.9419  0.2657  0.2420  1.0000\n  Li  Li5       1.0000  0.2657  0.9419  0.2420  1.0000\n  Fe  Fe1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Fe  Fe2       1.0000  0.3334  0.6666  0.0000  1.0000\n  Fe  Fe3       1.0000  0.6666  0.3334  0.0000  1.0000\n  Fe  Fe4       1.0000  0.8328  0.1672  0.5000  1.0000\n  Fe  Fe5       1.0000  0.1672  0.8328  0.5000  1.0000\n  Co  Co1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.8707  0.8707  0.3851  1.0000\n  O   O3        1.0000  0.7088  0.7088  0.8907  1.0000\n  O   O4        1.0000  0.7964  0.4631  0.6155  1.0000\n  O   O5        1.0000  0.4631  0.7964  0.6155  1.0000\n  O   O6        1.0000  0.0301  0.3525  0.8904  1.0000\n  O   O7        1.0000  0.3525  0.0301  0.8904  1.0000\n  Li  Li6       1.0000  0.6475  0.9699  0.1096  1.0000\n  O   O8        1.0000  0.9699  0.6475  0.1096  1.0000\n  O   O9        1.0000  0.5369  0.2036  0.3845  1.0000\n  O   O10       1.0000  0.2036  0.5369  0.3845  1.0000\n  O   O11       1.0000  0.2912  0.2912  0.1093  1.0000\n  O   O12       1.0000  0.1293  0.1293  0.6149  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7f8d7edd-98c9-48a5-87e1-d2bcf5d23459",
    "mp_id": "mp-765709",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Ti2Fe3O10\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1680\n_cell_length_b   5.2384\n_cell_length_c   7.8407\n_cell_angle_alpha   72.0185\n_cell_angle_beta   71.1045\n_cell_angle_gamma   80.0753\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Ti2Fe3O10\n_chemical_formula_sum   'Li5 Ti2 Fe3 O10'\n_cell_volume   190.3992\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4948  0.7799  0.4050  1\n  Li  Li1  1  0.5137  0.6004  0.7901  1\n  Li  Li2  1  0.0000  0.5000  0.5000  1\n  Li  Li3  1  0.5052  0.2201  0.5950  1\n  Li  Li4  1  0.4863  0.3996  0.2099  1\n  Ti  Ti5  1  0.0218  0.9042  0.6942  1\n  Ti  Ti6  1  0.9782  0.0958  0.3058  1\n  Fe  Fe7  1  0.5000  0.0000  0.0000  1\n  Fe  Fe8  1  0.0009  0.6874  0.1061  1\n  Fe  Fe9  1  0.9991  0.3126  0.8939  1\n  O  O10  1  0.2452  0.9512  0.8458  1\n  O  O11  1  0.7815  0.8658  0.5399  1\n  O  O12  1  0.7497  0.6846  0.9330  1\n  O  O13  1  0.2528  0.7841  0.2401  1\n  O  O14  1  0.2289  0.5769  0.6603  1\n  O  O15  1  0.7711  0.4231  0.3397  1\n  O  O16  1  0.7472  0.2159  0.7599  1\n  O  O17  1  0.2503  0.3154  0.0670  1\n  O  O18  1  0.2185  0.1342  0.4601  1\n  O  O19  1  0.7548  0.0488  0.1542  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5OTiFe3O5TiO4\n_chemical_formula_sum              \"Li5 O10 Ti2 Fe3\"\n_cell_length_a       5.1680\n_cell_length_b       5.2384\n_cell_length_c       7.8407\n_cell_angle_alpha    72.0185\n_cell_angle_beta     71.1045\n_cell_angle_gamma    80.0753\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4948  0.7799  0.4050  1.0000\n  Li  Li2       1.0000  0.5137  0.6004  0.7901  1.0000\n  Li  Li3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Li  Li4       1.0000  0.5052  0.2201  0.5950  1.0000\n  Li  Li5       1.0000  0.4863  0.3996  0.2099  1.0000\n  O   O1        1.0000  0.0218  0.9042  0.6942  1.0000\n  Ti  Ti1       1.0000  0.9782  0.0958  0.3058  1.0000\n  Fe  Fe1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.0009  0.6874  0.1061  1.0000\n  Fe  Fe3       1.0000  0.9991  0.3126  0.8939  1.0000\n  O   O2        1.0000  0.2452  0.9512  0.8458  1.0000\n  O   O3        1.0000  0.7815  0.8658  0.5399  1.0000\n  O   O4        1.0000  0.7497  0.6846  0.9330  1.0000\n  O   O5        1.0000  0.2528  0.7841  0.2401  1.0000\n  O   O6        1.0000  0.2289  0.5769  0.6603  1.0000\n  Ti  Ti2       1.0000  0.7711  0.4231  0.3397  1.0000\n  O   O7        1.0000  0.7472  0.2159  0.7599  1.0000\n  O   O8        1.0000  0.2503  0.3154  0.0670  1.0000\n  O   O9        1.0000  0.2185  0.1342  0.4601  1.0000\n  O   O10       1.0000  0.7548  0.0488  0.1542  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e40009fd-d3e9-4fd7-8524-e7a757a60f41",
    "mp_id": "mp-766040",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 45 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4V2SiO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.9336\n_cell_length_b   8.2738\n_cell_length_c   8.2791\n_cell_angle_alpha   76.9021\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4V2SiO8\n_chemical_formula_sum   'Li16 V8 Si4 O32'\n_cell_volume   729.4606\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6689  0.3995  0.0963  1\n  Li  Li1  1  0.1663  0.3371  0.1625  1\n  Li  Li2  1  0.3368  0.8566  0.1573  1\n  Li  Li3  1  0.4216  0.5352  0.2190  1\n  Li  Li4  1  0.9216  0.4648  0.2810  1\n  Li  Li5  1  0.8368  0.1434  0.3427  1\n  Li  Li6  1  0.6663  0.6629  0.3375  1\n  Li  Li7  1  0.1689  0.6005  0.4037  1\n  Li  Li8  1  0.8311  0.3995  0.5963  1\n  Li  Li9  1  0.3337  0.3371  0.6625  1\n  Li  Li10  1  0.1632  0.8566  0.6573  1\n  Li  Li11  1  0.0784  0.5352  0.7190  1\n  Li  Li12  1  0.5784  0.4648  0.7810  1\n  Li  Li13  1  0.6632  0.1434  0.8427  1\n  Li  Li14  1  0.8337  0.6629  0.8375  1\n  Li  Li15  1  0.3311  0.6005  0.9037  1\n  V  V16  1  0.4107  0.2356  0.0419  1\n  V  V17  1  0.0869  0.7122  0.0310  1\n  V  V18  1  0.5869  0.2878  0.4690  1\n  V  V19  1  0.0893  0.2356  0.5419  1\n  V  V20  1  0.9107  0.7644  0.4581  1\n  V  V21  1  0.4130  0.7122  0.5310  1\n  V  V22  1  0.9131  0.2878  0.9690  1\n  V  V23  1  0.5893  0.7644  0.9581  1\n  Si  Si24  1  0.8341  0.9103  0.0862  1\n  Si  Si25  1  0.3341  0.0897  0.4138  1\n  Si  Si26  1  0.6659  0.9103  0.5862  1\n  Si  Si27  1  0.1659  0.0897  0.9138  1\n  O  O28  1  0.0814  0.2206  0.9914  1\n  O  O29  1  0.3339  0.4032  0.0907  1\n  O  O30  1  0.3858  0.0579  0.2363  1\n  O  O31  1  0.4369  0.7419  0.0205  1\n  O  O32  1  0.8428  0.3351  0.1425  1\n  O  O33  1  0.1728  0.9088  0.0486  1\n  O  O34  1  0.6953  0.8310  0.1169  1\n  O  O35  1  0.0885  0.5455  0.2079  1\n  O  O36  1  0.5885  0.4545  0.2921  1\n  O  O37  1  0.1953  0.1690  0.3831  1\n  O  O38  1  0.6728  0.0912  0.4514  1\n  O  O39  1  0.3428  0.6649  0.3575  1\n  O  O40  1  0.9369  0.2581  0.4795  1\n  O  O41  1  0.8858  0.9421  0.2637  1\n  O  O42  1  0.4186  0.2206  0.4914  1\n  O  O43  1  0.8339  0.5968  0.4093  1\n  O  O44  1  0.1661  0.4032  0.5907  1\n  O  O45  1  0.5814  0.7794  0.5086  1\n  O  O46  1  0.1142  0.0579  0.7363  1\n  O  O47  1  0.0631  0.7419  0.5205  1\n  O  O48  1  0.6572  0.3351  0.6425  1\n  O  O49  1  0.3272  0.9088  0.5486  1\n  O  O50  1  0.8047  0.8310  0.6169  1\n  O  O51  1  0.4115  0.5455  0.7079  1\n  O  O52  1  0.9115  0.4545  0.7921  1\n  O  O53  1  0.3047  0.1690  0.8831  1\n  O  O54  1  0.8272  0.0912  0.9514  1\n  O  O55  1  0.1572  0.6649  0.8575  1\n  O  O56  1  0.5631  0.2581  0.9795  1\n  O  O57  1  0.6142  0.9421  0.7637  1\n  O  O58  1  0.6661  0.5968  0.9093  1\n  O  O59  1  0.9186  0.7794  0.0086  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OLi8V8Si4O17LiO14\n_chemical_formula_sum              \"Li16 O32 V8 Si4\"\n_cell_length_a       10.9336\n_cell_length_b       8.2738\n_cell_length_c       8.2791\n_cell_angle_alpha    76.9021\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6689  0.3995  0.0963  1.0000\n  Li  Li2       1.0000  0.1663  0.3371  0.1625  1.0000\n  Li  Li3       1.0000  0.3368  0.8566  0.1573  1.0000\n  Li  Li4       1.0000  0.4216  0.5352  0.2190  1.0000\n  Li  Li5       1.0000  0.9216  0.4648  0.2810  1.0000\n  Li  Li6       1.0000  0.8368  0.1434  0.3427  1.0000\n  Li  Li7       1.0000  0.6663  0.6629  0.3375  1.0000\n  O   O1        1.0000  0.1689  0.6005  0.4037  1.0000\n  Li  Li8       1.0000  0.8311  0.3995  0.5963  1.0000\n  Li  Li9       1.0000  0.3337  0.3371  0.6625  1.0000\n  Li  Li10      1.0000  0.1632  0.8566  0.6573  1.0000\n  Li  Li11      1.0000  0.0784  0.5352  0.7190  1.0000\n  Li  Li12      1.0000  0.5784  0.4648  0.7810  1.0000\n  Li  Li13      1.0000  0.6632  0.1434  0.8427  1.0000\n  Li  Li14      1.0000  0.8337  0.6629  0.8375  1.0000\n  Li  Li15      1.0000  0.3311  0.6005  0.9037  1.0000\n  V   V1        1.0000  0.4107  0.2356  0.0419  1.0000\n  V   V2        1.0000  0.0869  0.7122  0.0310  1.0000\n  V   V3        1.0000  0.5869  0.2878  0.4690  1.0000\n  V   V4        1.0000  0.0893  0.2356  0.5419  1.0000\n  V   V5        1.0000  0.9107  0.7644  0.4581  1.0000\n  V   V6        1.0000  0.4130  0.7122  0.5310  1.0000\n  V   V7        1.0000  0.9131  0.2878  0.9690  1.0000\n  V   V8        1.0000  0.5893  0.7644  0.9581  1.0000\n  Si  Si1       1.0000  0.8341  0.9103  0.0862  1.0000\n  Si  Si2       1.0000  0.3341  0.0897  0.4138  1.0000\n  Si  Si3       1.0000  0.6659  0.9103  0.5862  1.0000\n  Si  Si4       1.0000  0.1659  0.0897  0.9138  1.0000\n  O   O2        1.0000  0.0814  0.2206  0.9914  1.0000\n  O   O3        1.0000  0.3339  0.4032  0.0907  1.0000\n  O   O4        1.0000  0.3858  0.0579  0.2363  1.0000\n  O   O5        1.0000  0.4369  0.7419  0.0205  1.0000\n  O   O6        1.0000  0.8428  0.3351  0.1425  1.0000\n  O   O7        1.0000  0.1728  0.9088  0.0486  1.0000\n  O   O8        1.0000  0.6953  0.8310  0.1169  1.0000\n  O   O9        1.0000  0.0885  0.5455  0.2079  1.0000\n  O   O10       1.0000  0.5885  0.4545  0.2921  1.0000\n  O   O11       1.0000  0.1953  0.1690  0.3831  1.0000\n  O   O12       1.0000  0.6728  0.0912  0.4514  1.0000\n  O   O13       1.0000  0.3428  0.6649  0.3575  1.0000\n  O   O14       1.0000  0.9369  0.2581  0.4795  1.0000\n  O   O15       1.0000  0.8858  0.9421  0.2637  1.0000\n  O   O16       1.0000  0.4186  0.2206  0.4914  1.0000\n  O   O17       1.0000  0.8339  0.5968  0.4093  1.0000\n  O   O18       1.0000  0.1661  0.4032  0.5907  1.0000\n  Li  Li16      1.0000  0.5814  0.7794  0.5086  1.0000\n  O   O19       1.0000  0.1142  0.0579  0.7363  1.0000\n  O   O20       1.0000  0.0631  0.7419  0.5205  1.0000\n  O   O21       1.0000  0.6572  0.3351  0.6425  1.0000\n  O   O22       1.0000  0.3272  0.9088  0.5486  1.0000\n  O   O23       1.0000  0.8047  0.8310  0.6169  1.0000\n  O   O24       1.0000  0.4115  0.5455  0.7079  1.0000\n  O   O25       1.0000  0.9115  0.4545  0.7921  1.0000\n  O   O26       1.0000  0.3047  0.1690  0.8831  1.0000\n  O   O27       1.0000  0.8272  0.0912  0.9514  1.0000\n  O   O28       1.0000  0.1572  0.6649  0.8575  1.0000\n  O   O29       1.0000  0.5631  0.2581  0.9795  1.0000\n  O   O30       1.0000  0.6142  0.9421  0.7637  1.0000\n  O   O31       1.0000  0.6661  0.5968  0.9093  1.0000\n  O   O32       1.0000  0.9186  0.7794  0.0086  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d9d6ecd5-a588-463c-9af3-e324d1fa333c",
    "mp_id": "mp-766051",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiVSiO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8965\n_cell_length_b   6.5610\n_cell_length_c   9.5225\n_cell_angle_alpha   75.7505\n_cell_angle_beta   86.3047\n_cell_angle_gamma   79.1465\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiVSiO4\n_chemical_formula_sum   'Li4 V4 Si4 O16'\n_cell_volume   350.6128\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5853  0.8419  0.7423  1\n  Li  Li1  1  0.4409  0.6642  0.3278  1\n  Li  Li2  1  0.5591  0.3358  0.6722  1\n  Li  Li3  1  0.4147  0.1581  0.2577  1\n  V  V4  1  0.9887  0.9299  0.2921  1\n  V  V5  1  0.8113  0.6431  0.0741  1\n  V  V6  1  0.1887  0.3569  0.9259  1\n  V  V7  1  0.0113  0.0701  0.7079  1\n  Si  Si8  1  0.1492  0.7112  0.6179  1\n  Si  Si9  1  0.2832  0.8253  0.0012  1\n  Si  Si10  1  0.7168  0.1747  0.9988  1\n  Si  Si11  1  0.8508  0.2888  0.3821  1\n  O  O12  1  0.5468  0.7320  0.9517  1\n  O  O13  1  0.3009  0.8838  0.6466  1\n  O  O14  1  0.8945  0.8228  0.6741  1\n  O  O15  1  0.8087  0.9425  0.1131  1\n  O  O16  1  0.1152  0.6552  0.9808  1\n  O  O17  1  0.1602  0.7028  0.4471  1\n  O  O18  1  0.2773  0.8394  0.1688  1\n  O  O19  1  0.7588  0.5340  0.2833  1\n  O  O20  1  0.2412  0.4660  0.7167  1\n  O  O21  1  0.7227  0.1606  0.8312  1\n  O  O22  1  0.8398  0.2972  0.5529  1\n  O  O23  1  0.8848  0.3448  0.0192  1\n  O  O24  1  0.1913  0.0575  0.8869  1\n  O  O25  1  0.1055  0.1772  0.3259  1\n  O  O26  1  0.6991  0.1162  0.3534  1\n  O  O27  1  0.4532  0.2680  0.0483  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OV4Si4O9LiO6\n_chemical_formula_sum              \"Li4 O16 V4 Si4\"\n_cell_length_a       5.8965\n_cell_length_b       6.5610\n_cell_length_c       9.5225\n_cell_angle_alpha    75.7505\n_cell_angle_beta     86.3047\n_cell_angle_gamma    79.1465\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5853  0.8419  0.7423  1.0000\n  Li  Li2       1.0000  0.4409  0.6642  0.3278  1.0000\n  Li  Li3       1.0000  0.5591  0.3358  0.6722  1.0000\n  O   O1        1.0000  0.4147  0.1581  0.2577  1.0000\n  V   V1        1.0000  0.9887  0.9299  0.2921  1.0000\n  V   V2        1.0000  0.8113  0.6431  0.0741  1.0000\n  V   V3        1.0000  0.1887  0.3569  0.9259  1.0000\n  V   V4        1.0000  0.0113  0.0701  0.7079  1.0000\n  Si  Si1       1.0000  0.1492  0.7112  0.6179  1.0000\n  Si  Si2       1.0000  0.2832  0.8253  0.0012  1.0000\n  Si  Si3       1.0000  0.7168  0.1747  0.9988  1.0000\n  Si  Si4       1.0000  0.8508  0.2888  0.3821  1.0000\n  O   O2        1.0000  0.5468  0.7320  0.9517  1.0000\n  O   O3        1.0000  0.3009  0.8838  0.6466  1.0000\n  O   O4        1.0000  0.8945  0.8228  0.6741  1.0000\n  O   O5        1.0000  0.8087  0.9425  0.1131  1.0000\n  O   O6        1.0000  0.1152  0.6552  0.9808  1.0000\n  O   O7        1.0000  0.1602  0.7028  0.4471  1.0000\n  O   O8        1.0000  0.2773  0.8394  0.1688  1.0000\n  O   O9        1.0000  0.7588  0.5340  0.2833  1.0000\n  O   O10       1.0000  0.2412  0.4660  0.7167  1.0000\n  Li  Li4       1.0000  0.7227  0.1606  0.8312  1.0000\n  O   O11       1.0000  0.8398  0.2972  0.5529  1.0000\n  O   O12       1.0000  0.8848  0.3448  0.0192  1.0000\n  O   O13       1.0000  0.1913  0.0575  0.8869  1.0000\n  O   O14       1.0000  0.1055  0.1772  0.3259  1.0000\n  O   O15       1.0000  0.6991  0.1162  0.3534  1.0000\n  O   O16       1.0000  0.4532  0.2680  0.0483  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "68a011fe-a45e-4a29-a546-9ab4c0a93dae",
    "mp_id": "mp-766137",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8MnO5F\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5280\n_cell_length_b   5.5816\n_cell_length_c   10.9977\n_cell_angle_alpha   89.5412\n_cell_angle_beta   89.5910\n_cell_angle_gamma   61.8557\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8MnO5F\n_chemical_formula_sum   'Li16 Mn2 O10 F2'\n_cell_volume   299.2003\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3154  0.9734  0.7716  1\n  Li  Li1  1  0.3593  0.0190  0.1236  1\n  Li  Li2  1  0.6445  0.9793  0.6216  1\n  Li  Li3  1  0.6884  0.0251  0.2714  1\n  Li  Li4  1  0.3374  0.3275  0.4123  1\n  Li  Li5  1  0.3288  0.3343  0.9235  1\n  Li  Li6  1  0.7094  0.3119  0.7732  1\n  Li  Li7  1  0.6130  0.3684  0.1220  1\n  Li  Li8  1  0.3857  0.6311  0.6228  1\n  Li  Li9  1  0.0185  0.2908  0.2722  1\n  Li  Li10  1  0.2880  0.6868  0.2735  1\n  Li  Li11  1  0.9772  0.3841  0.6225  1\n  Li  Li12  1  0.6652  0.6666  0.9123  1\n  Li  Li13  1  0.6647  0.6687  0.4237  1\n  Li  Li14  1  0.0226  0.6194  0.1222  1\n  Li  Li15  1  0.9787  0.7137  0.7716  1\n  Mn  Mn16  1  0.9934  0.0065  0.9818  1\n  Mn  Mn17  1  0.0116  0.9972  0.4820  1\n  O  O18  1  0.3311  0.9889  0.9481  1\n  O  O19  1  0.6785  0.0016  0.4457  1\n  O  O20  1  0.3315  0.3338  0.2139  1\n  O  O21  1  0.0040  0.0030  0.6754  1\n  O  O22  1  0.0003  0.0006  0.1758  1\n  O  O23  1  0.6664  0.3297  0.9492  1\n  O  O24  1  0.9812  0.3373  0.4480  1\n  O  O25  1  0.3243  0.6637  0.4504  1\n  O  O26  1  0.6685  0.6664  0.7137  1\n  O  O27  1  0.0120  0.6719  0.9463  1\n  F  F28  1  0.3363  0.3303  0.7108  1\n  F  F29  1  0.6640  0.6692  0.2105  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li7OLi8Mn2O9LiF2\n_chemical_formula_sum              \"Li16 O10 Mn2 F2\"\n_cell_length_a       5.5280\n_cell_length_b       5.5816\n_cell_length_c       10.9977\n_cell_angle_alpha    89.5412\n_cell_angle_beta     89.5910\n_cell_angle_gamma    61.8557\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3154  0.9734  0.7716  1.0000\n  Li  Li2       1.0000  0.3593  0.0190  0.1236  1.0000\n  Li  Li3       1.0000  0.6445  0.9793  0.6216  1.0000\n  Li  Li4       1.0000  0.6884  0.0251  0.2714  1.0000\n  Li  Li5       1.0000  0.3374  0.3275  0.4123  1.0000\n  Li  Li6       1.0000  0.3288  0.3343  0.9235  1.0000\n  Li  Li7       1.0000  0.7094  0.3119  0.7732  1.0000\n  O   O1        1.0000  0.6130  0.3684  0.1220  1.0000\n  Li  Li8       1.0000  0.3857  0.6311  0.6228  1.0000\n  Li  Li9       1.0000  0.0185  0.2908  0.2722  1.0000\n  Li  Li10      1.0000  0.2880  0.6868  0.2735  1.0000\n  Li  Li11      1.0000  0.9772  0.3841  0.6225  1.0000\n  Li  Li12      1.0000  0.6652  0.6666  0.9123  1.0000\n  Li  Li13      1.0000  0.6647  0.6687  0.4237  1.0000\n  Li  Li14      1.0000  0.0226  0.6194  0.1222  1.0000\n  Li  Li15      1.0000  0.9787  0.7137  0.7716  1.0000\n  Mn  Mn1       1.0000  0.9934  0.0065  0.9818  1.0000\n  Mn  Mn2       1.0000  0.0116  0.9972  0.4820  1.0000\n  O   O2        1.0000  0.3311  0.9889  0.9481  1.0000\n  O   O3        1.0000  0.6785  0.0016  0.4457  1.0000\n  O   O4        1.0000  0.3315  0.3338  0.2139  1.0000\n  O   O5        1.0000  0.0040  0.0030  0.6754  1.0000\n  O   O6        1.0000  0.0003  0.0006  0.1758  1.0000\n  O   O7        1.0000  0.6664  0.3297  0.9492  1.0000\n  O   O8        1.0000  0.9812  0.3373  0.4480  1.0000\n  O   O9        1.0000  0.3243  0.6637  0.4504  1.0000\n  O   O10       1.0000  0.6685  0.6664  0.7137  1.0000\n  Li  Li16      1.0000  0.0120  0.6719  0.9463  1.0000\n  F   F1        1.0000  0.3363  0.3303  0.7108  1.0000\n  F   F2        1.0000  0.6640  0.6692  0.2105  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7b7057d3-54b3-4e96-b88c-23472124716c",
    "mp_id": "mp-766408",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2V(Si2O5)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9828\n_cell_length_b   7.5754\n_cell_length_c   9.7317\n_cell_angle_alpha   99.3937\n_cell_angle_beta   102.4992\n_cell_angle_gamma   116.8496\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2V(Si2O5)2\n_chemical_formula_sum   'Li4 V2 Si8 O20'\n_cell_volume   427.8054\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3878  0.2545  0.0562  1\n  Li  Li1  1  0.2180  0.6817  0.5720  1\n  Li  Li2  1  0.7820  0.3183  0.4280  1\n  Li  Li3  1  0.6122  0.7455  0.9438  1\n  V  V4  1  0.2409  0.3002  0.4257  1\n  V  V5  1  0.7591  0.6998  0.5743  1\n  Si  Si6  1  0.2475  0.9496  0.1872  1\n  Si  Si7  1  0.3890  0.6380  0.2571  1\n  Si  Si8  1  0.8110  0.6149  0.2394  1\n  Si  Si9  1  0.8953  0.2762  0.1420  1\n  Si  Si10  1  0.1047  0.7238  0.8580  1\n  Si  Si11  1  0.1890  0.3851  0.7606  1\n  Si  Si12  1  0.6110  0.3620  0.7429  1\n  Si  Si13  1  0.7525  0.0504  0.8128  1\n  O  O14  1  0.2226  0.9222  0.0091  1\n  O  O15  1  0.1438  0.4503  0.1377  1\n  O  O16  1  0.4096  0.8629  0.2605  1\n  O  O17  1  0.5744  0.6226  0.1818  1\n  O  O18  1  0.9931  0.8070  0.1964  1\n  O  O19  1  0.7362  0.3881  0.1239  1\n  O  O20  1  0.4280  0.6157  0.4216  1\n  O  O21  1  0.3536  0.1923  0.2576  1\n  O  O22  1  0.0884  0.7885  0.7103  1\n  O  O23  1  0.1066  0.3805  0.5924  1\n  O  O24  1  0.8934  0.6195  0.4076  1\n  O  O25  1  0.9116  0.2115  0.2897  1\n  O  O26  1  0.6464  0.8077  0.7424  1\n  O  O27  1  0.5720  0.3843  0.5784  1\n  O  O28  1  0.2638  0.6119  0.8761  1\n  O  O29  1  0.0069  0.1930  0.8036  1\n  O  O30  1  0.4256  0.3774  0.8182  1\n  O  O31  1  0.5904  0.1371  0.7395  1\n  O  O32  1  0.8562  0.5497  0.8623  1\n  O  O33  1  0.7774  0.0778  0.9909  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2SiLiV2Si4LiSi3O20\n_chemical_formula_sum              \"Li4 Si8 V2 O20\"\n_cell_length_a       6.9828\n_cell_length_b       7.5754\n_cell_length_c       9.7317\n_cell_angle_alpha    99.3937\n_cell_angle_beta     102.4992\n_cell_angle_gamma    116.8496\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3878  0.2545  0.0562  1.0000\n  Li  Li2       1.0000  0.2180  0.6817  0.5720  1.0000\n  Si  Si1       1.0000  0.7820  0.3183  0.4280  1.0000\n  Li  Li3       1.0000  0.6122  0.7455  0.9438  1.0000\n  V   V1        1.0000  0.2409  0.3002  0.4257  1.0000\n  V   V2        1.0000  0.7591  0.6998  0.5743  1.0000\n  Si  Si2       1.0000  0.2475  0.9496  0.1872  1.0000\n  Si  Si3       1.0000  0.3890  0.6380  0.2571  1.0000\n  Si  Si4       1.0000  0.8110  0.6149  0.2394  1.0000\n  Si  Si5       1.0000  0.8953  0.2762  0.1420  1.0000\n  Li  Li4       1.0000  0.1047  0.7238  0.8580  1.0000\n  Si  Si6       1.0000  0.1890  0.3851  0.7606  1.0000\n  Si  Si7       1.0000  0.6110  0.3620  0.7429  1.0000\n  Si  Si8       1.0000  0.7525  0.0504  0.8128  1.0000\n  O   O1        1.0000  0.2226  0.9222  0.0091  1.0000\n  O   O2        1.0000  0.1438  0.4503  0.1377  1.0000\n  O   O3        1.0000  0.4096  0.8629  0.2605  1.0000\n  O   O4        1.0000  0.5744  0.6226  0.1818  1.0000\n  O   O5        1.0000  0.9931  0.8070  0.1964  1.0000\n  O   O6        1.0000  0.7362  0.3881  0.1239  1.0000\n  O   O7        1.0000  0.4280  0.6157  0.4216  1.0000\n  O   O8        1.0000  0.3536  0.1923  0.2576  1.0000\n  O   O9        1.0000  0.0884  0.7885  0.7103  1.0000\n  O   O10       1.0000  0.1066  0.3805  0.5924  1.0000\n  O   O11       1.0000  0.8934  0.6195  0.4076  1.0000\n  O   O12       1.0000  0.9116  0.2115  0.2897  1.0000\n  O   O13       1.0000  0.6464  0.8077  0.7424  1.0000\n  O   O14       1.0000  0.5720  0.3843  0.5784  1.0000\n  O   O15       1.0000  0.2638  0.6119  0.8761  1.0000\n  O   O16       1.0000  0.0069  0.1930  0.8036  1.0000\n  O   O17       1.0000  0.4256  0.3774  0.8182  1.0000\n  O   O18       1.0000  0.5904  0.1371  0.7395  1.0000\n  O   O19       1.0000  0.8562  0.5497  0.8623  1.0000\n  O   O20       1.0000  0.7774  0.0778  0.9909  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "45186d44-af0b-4a31-bd85-d9fe566445bd",
    "mp_id": "mp-766447",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 8 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Cu4S3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3625\n_cell_length_b   8.4530\n_cell_length_c   10.7725\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Cu4S3\n_chemical_formula_sum   'Li8 Cu16 S12'\n_cell_volume   579.3707\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.0000  0.0000  0.5000  1\n  Li  Li2  1  0.6103  0.0251  0.7500  1\n  Li  Li3  1  0.1103  0.4749  0.2500  1\n  Li  Li4  1  0.5000  0.5000  0.0000  1\n  Li  Li5  1  0.5000  0.5000  0.5000  1\n  Li  Li6  1  0.8897  0.5251  0.7500  1\n  Li  Li7  1  0.3897  0.9749  0.2500  1\n  Cu  Cu8  1  0.6276  0.1699  0.0852  1\n  Cu  Cu9  1  0.6276  0.1699  0.4148  1\n  Cu  Cu10  1  0.9861  0.1407  0.7500  1\n  Cu  Cu11  1  0.0602  0.1628  0.2500  1\n  Cu  Cu12  1  0.5602  0.3372  0.7500  1\n  Cu  Cu13  1  0.4861  0.3593  0.2500  1\n  Cu  Cu14  1  0.1276  0.3301  0.5852  1\n  Cu  Cu15  1  0.1276  0.3301  0.9148  1\n  Cu  Cu16  1  0.8724  0.6699  0.0852  1\n  Cu  Cu17  1  0.8724  0.6699  0.4148  1\n  Cu  Cu18  1  0.5139  0.6407  0.7500  1\n  Cu  Cu19  1  0.4398  0.6628  0.2500  1\n  Cu  Cu20  1  0.9398  0.8372  0.7500  1\n  Cu  Cu21  1  0.0139  0.8593  0.2500  1\n  Cu  Cu22  1  0.3724  0.8301  0.5852  1\n  Cu  Cu23  1  0.3724  0.8301  0.9148  1\n  S  S24  1  0.7547  0.0373  0.2500  1\n  S  S25  1  0.7774  0.2512  0.5913  1\n  S  S26  1  0.7774  0.2512  0.9087  1\n  S  S27  1  0.2774  0.2488  0.0913  1\n  S  S28  1  0.2774  0.2488  0.4087  1\n  S  S29  1  0.2547  0.4627  0.7500  1\n  S  S30  1  0.7453  0.5373  0.2500  1\n  S  S31  1  0.7226  0.7512  0.5913  1\n  S  S32  1  0.7226  0.7512  0.9087  1\n  S  S33  1  0.2226  0.7488  0.0913  1\n  S  S34  1  0.2226  0.7488  0.4087  1\n  S  S35  1  0.2453  0.9627  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6CuLi2Cu15S12\n_chemical_formula_sum              \"Li8 Cu16 S12\"\n_cell_length_a       6.3625\n_cell_length_b       8.4530\n_cell_length_c       10.7725\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Li  Li3       1.0000  0.6103  0.0251  0.7500  1.0000\n  Li  Li4       1.0000  0.1103  0.4749  0.2500  1.0000\n  Li  Li5       1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li6       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cu  Cu1       1.0000  0.8897  0.5251  0.7500  1.0000\n  Li  Li7       1.0000  0.3897  0.9749  0.2500  1.0000\n  Li  Li8       1.0000  0.6276  0.1699  0.0852  1.0000\n  Cu  Cu2       1.0000  0.6276  0.1699  0.4148  1.0000\n  Cu  Cu3       1.0000  0.9861  0.1407  0.7500  1.0000\n  Cu  Cu4       1.0000  0.0602  0.1628  0.2500  1.0000\n  Cu  Cu5       1.0000  0.5602  0.3372  0.7500  1.0000\n  Cu  Cu6       1.0000  0.4861  0.3593  0.2500  1.0000\n  Cu  Cu7       1.0000  0.1276  0.3301  0.5852  1.0000\n  Cu  Cu8       1.0000  0.1276  0.3301  0.9148  1.0000\n  Cu  Cu9       1.0000  0.8724  0.6699  0.0852  1.0000\n  Cu  Cu10      1.0000  0.8724  0.6699  0.4148  1.0000\n  Cu  Cu11      1.0000  0.5139  0.6407  0.7500  1.0000\n  Cu  Cu12      1.0000  0.4398  0.6628  0.2500  1.0000\n  Cu  Cu13      1.0000  0.9398  0.8372  0.7500  1.0000\n  Cu  Cu14      1.0000  0.0139  0.8593  0.2500  1.0000\n  Cu  Cu15      1.0000  0.3724  0.8301  0.5852  1.0000\n  Cu  Cu16      1.0000  0.3724  0.8301  0.9148  1.0000\n  S   S1        1.0000  0.7547  0.0373  0.2500  1.0000\n  S   S2        1.0000  0.7774  0.2512  0.5913  1.0000\n  S   S3        1.0000  0.7774  0.2512  0.9087  1.0000\n  S   S4        1.0000  0.2774  0.2488  0.0913  1.0000\n  S   S5        1.0000  0.2774  0.2488  0.4087  1.0000\n  S   S6        1.0000  0.2547  0.4627  0.7500  1.0000\n  S   S7        1.0000  0.7453  0.5373  0.2500  1.0000\n  S   S8        1.0000  0.7226  0.7512  0.5913  1.0000\n  S   S9        1.0000  0.7226  0.7512  0.9087  1.0000\n  S   S10       1.0000  0.2226  0.7488  0.0913  1.0000\n  S   S11       1.0000  0.2226  0.7488  0.4087  1.0000\n  S   S12       1.0000  0.2453  0.9627  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f101b5b7-8c94-48fb-b0bf-6ceb64c706e3",
    "mp_id": "mp-766539",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li12FeNi3P4(CO7)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4468\n_cell_length_b   8.3777\n_cell_length_c   9.9418\n_cell_angle_alpha   85.4173\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li12FeNi3P4(CO7)4\n_chemical_formula_sum   'Li12 Fe1 Ni3 P4 C4 O28'\n_cell_volume   535.2340\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.9017  0.6186  1\n  Li  Li1  1  0.0000  0.9049  0.1178  1\n  Li  Li2  1  0.2294  0.7236  0.8765  1\n  Li  Li3  1  0.7706  0.7236  0.8765  1\n  Li  Li4  1  0.2300  0.7247  0.3771  1\n  Li  Li5  1  0.7700  0.7247  0.3771  1\n  Li  Li6  1  0.7287  0.2766  0.6234  1\n  Li  Li7  1  0.2713  0.2766  0.6234  1\n  Li  Li8  1  0.7276  0.2765  0.1222  1\n  Li  Li9  1  0.2724  0.2765  0.1222  1\n  Li  Li10  1  0.5000  0.0969  0.8822  1\n  Li  Li11  1  0.5000  0.0971  0.3828  1\n  Fe  Fe12  1  0.0000  0.3373  0.3904  1\n  Ni  Ni13  1  0.5000  0.6673  0.6044  1\n  Ni  Ni14  1  0.5000  0.6678  0.1033  1\n  Ni  Ni15  1  0.0000  0.3327  0.8969  1\n  P  P16  1  0.0000  0.5858  0.6413  1\n  P  P17  1  0.0000  0.5884  0.1383  1\n  P  P18  1  0.5000  0.4150  0.8606  1\n  P  P19  1  0.5000  0.4142  0.3605  1\n  C  C20  1  0.5000  0.9608  0.6484  1\n  C  C21  1  0.5000  0.9610  0.1485  1\n  C  C22  1  0.0000  0.0394  0.8515  1\n  C  C23  1  0.0000  0.0335  0.3523  1\n  O  O24  1  0.5000  0.9234  0.5244  1\n  O  O25  1  0.0000  0.8919  0.8210  1\n  O  O26  1  0.5000  0.9242  0.0244  1\n  O  O27  1  0.5000  0.8443  0.7435  1\n  O  O28  1  0.0000  0.8866  0.3209  1\n  O  O29  1  0.5000  0.8444  0.2436  1\n  O  O30  1  0.1871  0.6905  0.5893  1\n  O  O31  1  0.8129  0.6905  0.5893  1\n  O  O32  1  0.1874  0.6920  0.0858  1\n  O  O33  1  0.8126  0.6920  0.0858  1\n  O  O34  1  0.5000  0.5823  0.9148  1\n  O  O35  1  0.0000  0.5631  0.7989  1\n  O  O36  1  0.5000  0.5816  0.4155  1\n  O  O37  1  0.0000  0.5699  0.2958  1\n  O  O38  1  0.5000  0.4376  0.7029  1\n  O  O39  1  0.0000  0.4182  0.5865  1\n  O  O40  1  0.5000  0.4374  0.2029  1\n  O  O41  1  0.0000  0.4178  0.0882  1\n  O  O42  1  0.3129  0.3093  0.9121  1\n  O  O43  1  0.6871  0.3093  0.9121  1\n  O  O44  1  0.6857  0.3087  0.4122  1\n  O  O45  1  0.3143  0.3087  0.4122  1\n  O  O46  1  0.0000  0.1561  0.7563  1\n  O  O47  1  0.5000  0.1084  0.6791  1\n  O  O48  1  0.0000  0.1495  0.2560  1\n  O  O49  1  0.0000  0.0773  0.9754  1\n  O  O50  1  0.5000  0.1087  0.1795  1\n  O  O51  1  0.0000  0.0703  0.4759  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li12PNi3P2FePC4O28\n_chemical_formula_sum              \"Li12 P4 Ni3 Fe1 C4 O28\"\n_cell_length_a       6.4468\n_cell_length_b       8.3777\n_cell_length_c       9.9418\n_cell_angle_alpha    85.4173\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.9017  0.6186  1.0000\n  Li  Li2       1.0000  0.0000  0.9049  0.1178  1.0000\n  Li  Li3       1.0000  0.2294  0.7236  0.8765  1.0000\n  Li  Li4       1.0000  0.7706  0.7236  0.8765  1.0000\n  Li  Li5       1.0000  0.2300  0.7247  0.3771  1.0000\n  Li  Li6       1.0000  0.7700  0.7247  0.3771  1.0000\n  Li  Li7       1.0000  0.7287  0.2766  0.6234  1.0000\n  Li  Li8       1.0000  0.2713  0.2766  0.6234  1.0000\n  Li  Li9       1.0000  0.7276  0.2765  0.1222  1.0000\n  Li  Li10      1.0000  0.2724  0.2765  0.1222  1.0000\n  Li  Li11      1.0000  0.5000  0.0969  0.8822  1.0000\n  Li  Li12      1.0000  0.5000  0.0971  0.3828  1.0000\n  P   P1        1.0000  0.0000  0.3373  0.3904  1.0000\n  Ni  Ni1       1.0000  0.5000  0.6673  0.6044  1.0000\n  Ni  Ni2       1.0000  0.5000  0.6678  0.1033  1.0000\n  Ni  Ni3       1.0000  0.0000  0.3327  0.8969  1.0000\n  P   P2        1.0000  0.0000  0.5858  0.6413  1.0000\n  P   P3        1.0000  0.0000  0.5884  0.1383  1.0000\n  Fe  Fe1       1.0000  0.5000  0.4150  0.8606  1.0000\n  P   P4        1.0000  0.5000  0.4142  0.3605  1.0000\n  C   C1        1.0000  0.5000  0.9608  0.6484  1.0000\n  C   C2        1.0000  0.5000  0.9610  0.1485  1.0000\n  C   C3        1.0000  0.0000  0.0394  0.8515  1.0000\n  C   C4        1.0000  0.0000  0.0335  0.3523  1.0000\n  O   O1        1.0000  0.5000  0.9234  0.5244  1.0000\n  O   O2        1.0000  0.0000  0.8919  0.8210  1.0000\n  O   O3        1.0000  0.5000  0.9242  0.0244  1.0000\n  O   O4        1.0000  0.5000  0.8443  0.7435  1.0000\n  O   O5        1.0000  0.0000  0.8866  0.3209  1.0000\n  O   O6        1.0000  0.5000  0.8444  0.2436  1.0000\n  O   O7        1.0000  0.1871  0.6905  0.5893  1.0000\n  O   O8        1.0000  0.8129  0.6905  0.5893  1.0000\n  O   O9        1.0000  0.1874  0.6920  0.0858  1.0000\n  O   O10       1.0000  0.8126  0.6920  0.0858  1.0000\n  O   O11       1.0000  0.5000  0.5823  0.9148  1.0000\n  O   O12       1.0000  0.0000  0.5631  0.7989  1.0000\n  O   O13       1.0000  0.5000  0.5816  0.4155  1.0000\n  O   O14       1.0000  0.0000  0.5699  0.2958  1.0000\n  O   O15       1.0000  0.5000  0.4376  0.7029  1.0000\n  O   O16       1.0000  0.0000  0.4182  0.5865  1.0000\n  O   O17       1.0000  0.5000  0.4374  0.2029  1.0000\n  O   O18       1.0000  0.0000  0.4178  0.0882  1.0000\n  O   O19       1.0000  0.3129  0.3093  0.9121  1.0000\n  O   O20       1.0000  0.6871  0.3093  0.9121  1.0000\n  O   O21       1.0000  0.6857  0.3087  0.4122  1.0000\n  O   O22       1.0000  0.3143  0.3087  0.4122  1.0000\n  O   O23       1.0000  0.0000  0.1561  0.7563  1.0000\n  O   O24       1.0000  0.5000  0.1084  0.6791  1.0000\n  O   O25       1.0000  0.0000  0.1495  0.2560  1.0000\n  O   O26       1.0000  0.0000  0.0773  0.9754  1.0000\n  O   O27       1.0000  0.5000  0.1087  0.1795  1.0000\n  O   O28       1.0000  0.0000  0.0703  0.4759  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "8166546d-44aa-4d1b-80be-946e181738b6",
    "mp_id": "mp-768276",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_InFe17O24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4768\n_cell_length_b   10.4768\n_cell_length_c   10.4768\n_cell_angle_alpha   146.7156\n_cell_angle_beta   131.5304\n_cell_angle_gamma   60.0678\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   InFe17O24\n_chemical_formula_sum   'In1 Fe17 O24'\n_cell_volume   468.1515\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  In  In0  1  0.8703  0.0000  0.8703  1\n  Fe  Fe1  1  0.7549  0.2518  0.5031  1\n  Fe  Fe2  1  0.9213  0.4175  0.5038  1\n  Fe  Fe3  1  0.9650  0.8352  0.1298  1\n  Fe  Fe4  1  0.9158  0.9154  0.4948  1\n  Fe  Fe5  1  0.9158  0.4209  0.0004  1\n  Fe  Fe6  1  0.1999  0.3344  0.8655  1\n  Fe  Fe7  1  0.0862  0.5825  0.5038  1\n  Fe  Fe8  1  0.2514  0.7482  0.5031  1\n  Fe  Fe9  1  0.4071  0.9155  0.4916  1\n  Fe  Fe10  1  0.2946  0.1648  0.1298  1\n  Fe  Fe11  1  0.2522  0.2548  0.5071  1\n  Fe  Fe12  1  0.2522  0.7452  0.9974  1\n  Fe  Fe13  1  0.5794  0.5791  0.4948  1\n  Fe  Fe14  1  0.5794  0.0846  0.0004  1\n  Fe  Fe15  1  0.5311  0.6656  0.8655  1\n  Fe  Fe16  1  0.5761  0.0845  0.4916  1\n  Fe  Fe17  1  0.6357  0.5000  0.1357  1\n  O  O18  1  0.8372  0.1054  0.2707  1\n  O  O19  1  0.8372  0.5666  0.7319  1\n  O  O20  1  0.9869  0.2507  0.7362  1\n  O  O21  1  0.8195  0.0916  0.7279  1\n  O  O22  1  0.1513  0.4191  0.7323  1\n  O  O23  1  0.1805  0.9215  0.2590  1\n  O  O24  1  0.0077  0.7487  0.2590  1\n  O  O25  1  0.8570  0.5833  0.2737  1\n  O  O26  1  0.1653  0.8946  0.7319  1\n  O  O27  1  0.1653  0.4334  0.2707  1\n  O  O28  1  0.3265  0.5980  0.2594  1\n  O  O29  1  0.0104  0.7145  0.7249  1\n  O  O30  1  0.0104  0.2855  0.2959  1\n  O  O31  1  0.3265  0.0671  0.7285  1\n  O  O32  1  0.3132  0.5809  0.7323  1\n  O  O33  1  0.4855  0.7493  0.7362  1\n  O  O34  1  0.6362  0.9084  0.7279  1\n  O  O35  1  0.3375  0.0785  0.2590  1\n  O  O36  1  0.5103  0.2513  0.2590  1\n  O  O37  1  0.6904  0.4167  0.2737  1\n  O  O38  1  0.4975  0.2376  0.7351  1\n  O  O39  1  0.4975  0.7624  0.2600  1\n  O  O40  1  0.6614  0.9329  0.2594  1\n  O  O41  1  0.6614  0.4020  0.7285  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe2InFe15O24\n_chemical_formula_sum              \"Fe17 In1 O24\"\n_cell_length_a       10.4768\n_cell_length_b       10.4768\n_cell_length_c       10.4768\n_cell_angle_alpha    146.7156\n_cell_angle_beta     131.5304\n_cell_angle_gamma    60.0678\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.8703  0.0000  0.8703  1.0000\n  Fe  Fe2       1.0000  0.7549  0.2518  0.5031  1.0000\n  In  In1       1.0000  0.9213  0.4175  0.5038  1.0000\n  Fe  Fe3       1.0000  0.9650  0.8352  0.1298  1.0000\n  Fe  Fe4       1.0000  0.9158  0.9154  0.4948  1.0000\n  Fe  Fe5       1.0000  0.9158  0.4209  0.0004  1.0000\n  Fe  Fe6       1.0000  0.1999  0.3344  0.8655  1.0000\n  Fe  Fe7       1.0000  0.0862  0.5825  0.5038  1.0000\n  Fe  Fe8       1.0000  0.2514  0.7482  0.5031  1.0000\n  Fe  Fe9       1.0000  0.4071  0.9155  0.4916  1.0000\n  Fe  Fe10      1.0000  0.2946  0.1648  0.1298  1.0000\n  Fe  Fe11      1.0000  0.2522  0.2548  0.5071  1.0000\n  Fe  Fe12      1.0000  0.2522  0.7452  0.9974  1.0000\n  Fe  Fe13      1.0000  0.5794  0.5791  0.4948  1.0000\n  Fe  Fe14      1.0000  0.5794  0.0846  0.0004  1.0000\n  Fe  Fe15      1.0000  0.5311  0.6656  0.8655  1.0000\n  Fe  Fe16      1.0000  0.5761  0.0845  0.4916  1.0000\n  Fe  Fe17      1.0000  0.6357  0.5000  0.1357  1.0000\n  O   O1        1.0000  0.8372  0.1054  0.2707  1.0000\n  O   O2        1.0000  0.8372  0.5666  0.7319  1.0000\n  O   O3        1.0000  0.9869  0.2507  0.7362  1.0000\n  O   O4        1.0000  0.8195  0.0916  0.7279  1.0000\n  O   O5        1.0000  0.1513  0.4191  0.7323  1.0000\n  O   O6        1.0000  0.1805  0.9215  0.2590  1.0000\n  O   O7        1.0000  0.0077  0.7487  0.2590  1.0000\n  O   O8        1.0000  0.8570  0.5833  0.2737  1.0000\n  O   O9        1.0000  0.1653  0.8946  0.7319  1.0000\n  O   O10       1.0000  0.1653  0.4334  0.2707  1.0000\n  O   O11       1.0000  0.3265  0.5980  0.2594  1.0000\n  O   O12       1.0000  0.0104  0.7145  0.7249  1.0000\n  O   O13       1.0000  0.0104  0.2855  0.2959  1.0000\n  O   O14       1.0000  0.3265  0.0671  0.7285  1.0000\n  O   O15       1.0000  0.3132  0.5809  0.7323  1.0000\n  O   O16       1.0000  0.4855  0.7493  0.7362  1.0000\n  O   O17       1.0000  0.6362  0.9084  0.7279  1.0000\n  O   O18       1.0000  0.3375  0.0785  0.2590  1.0000\n  O   O19       1.0000  0.5103  0.2513  0.2590  1.0000\n  O   O20       1.0000  0.6904  0.4167  0.2737  1.0000\n  O   O21       1.0000  0.4975  0.2376  0.7351  1.0000\n  O   O22       1.0000  0.4975  0.7624  0.2600  1.0000\n  O   O23       1.0000  0.6614  0.9329  0.2594  1.0000\n  O   O24       1.0000  0.6614  0.4020  0.7285  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1c2513b3-58c9-4ae4-8de2-39c26c927ae1",
    "mp_id": "mp-768373",
    "action_prompt": "Swap the spatial positions of atoms at indices 38 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba2YBr7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   14.4321\n_cell_length_b   7.5951\n_cell_length_c   13.2781\n_cell_angle_alpha   83.1678\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba2YBr7\n_chemical_formula_sum   'Ba8 Y4 Br28'\n_cell_volume   1445.1061\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.5443  0.7692  0.7440  1\n  Ba  Ba1  1  0.1363  0.7351  0.6247  1\n  Ba  Ba2  1  0.7855  0.7474  0.1251  1\n  Ba  Ba3  1  0.3690  0.7017  0.2332  1\n  Ba  Ba4  1  0.8690  0.2983  0.7668  1\n  Ba  Ba5  1  0.2855  0.2526  0.8749  1\n  Ba  Ba6  1  0.6363  0.2649  0.3753  1\n  Ba  Ba7  1  0.0443  0.2308  0.2560  1\n  Y  Y8  1  0.8449  0.8132  0.5471  1\n  Y  Y9  1  0.0761  0.7953  0.0444  1\n  Y  Y10  1  0.5761  0.2047  0.9556  1\n  Y  Y11  1  0.3449  0.1868  0.4529  1\n  Br  Br12  1  0.7060  0.9623  0.8902  1\n  Br  Br13  1  0.4372  0.9411  0.9837  1\n  Br  Br14  1  0.4972  0.9581  0.5023  1\n  Br  Br15  1  0.1514  0.8841  0.8556  1\n  Br  Br16  1  0.2332  0.9102  0.3943  1\n  Br  Br17  1  0.7713  0.8927  0.3560  1\n  Br  Br18  1  0.9148  0.7912  0.7443  1\n  Br  Br19  1  0.0105  0.7722  0.2446  1\n  Br  Br20  1  0.3361  0.6162  0.7273  1\n  Br  Br21  1  0.5871  0.6228  0.2245  1\n  Br  Br22  1  0.7015  0.5703  0.6073  1\n  Br  Br23  1  0.7052  0.4795  0.9027  1\n  Br  Br24  1  0.9546  0.5185  0.5296  1\n  Br  Br25  1  0.4507  0.4652  0.9890  1\n  Br  Br26  1  0.9507  0.5348  0.0110  1\n  Br  Br27  1  0.4546  0.4815  0.4704  1\n  Br  Br28  1  0.2052  0.5205  0.0973  1\n  Br  Br29  1  0.2015  0.4297  0.3927  1\n  Br  Br30  1  0.0871  0.3772  0.7755  1\n  Br  Br31  1  0.8361  0.3838  0.2727  1\n  Br  Br32  1  0.5105  0.2278  0.7554  1\n  Br  Br33  1  0.4148  0.2088  0.2557  1\n  Br  Br34  1  0.2713  0.1073  0.6440  1\n  Br  Br35  1  0.7332  0.0898  0.6057  1\n  Br  Br36  1  0.6514  0.1159  0.1444  1\n  Br  Br37  1  0.9972  0.0419  0.4977  1\n  Br  Br38  1  0.9372  0.0589  0.0163  1\n  Br  Br39  1  0.2060  0.0377  0.1098  1\n",
    "output": "data_image0\n_chemical_formula_structural       BrBa7Y4Br26BaBr\n_chemical_formula_sum              \"Br28 Ba8 Y4\"\n_cell_length_a       14.4321\n_cell_length_b       7.5951\n_cell_length_c       13.2781\n_cell_angle_alpha    83.1678\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Br  Br1       1.0000  0.5443  0.7692  0.7440  1.0000\n  Ba  Ba1       1.0000  0.1363  0.7351  0.6247  1.0000\n  Ba  Ba2       1.0000  0.7855  0.7474  0.1251  1.0000\n  Ba  Ba3       1.0000  0.3690  0.7017  0.2332  1.0000\n  Ba  Ba4       1.0000  0.8690  0.2983  0.7668  1.0000\n  Ba  Ba5       1.0000  0.2855  0.2526  0.8749  1.0000\n  Ba  Ba6       1.0000  0.6363  0.2649  0.3753  1.0000\n  Ba  Ba7       1.0000  0.0443  0.2308  0.2560  1.0000\n  Y   Y1        1.0000  0.8450  0.8132  0.5471  1.0000\n  Y   Y2        1.0000  0.0761  0.7953  0.0444  1.0000\n  Y   Y3        1.0000  0.5761  0.2047  0.9556  1.0000\n  Y   Y4        1.0000  0.3449  0.1868  0.4529  1.0000\n  Br  Br2       1.0000  0.7060  0.9623  0.8902  1.0000\n  Br  Br3       1.0000  0.4372  0.9411  0.9837  1.0000\n  Br  Br4       1.0000  0.4972  0.9581  0.5023  1.0000\n  Br  Br5       1.0000  0.1514  0.8841  0.8556  1.0000\n  Br  Br6       1.0000  0.2332  0.9102  0.3943  1.0000\n  Br  Br7       1.0000  0.7713  0.8927  0.3560  1.0000\n  Br  Br8       1.0000  0.9148  0.7912  0.7443  1.0000\n  Br  Br9       1.0000  0.0105  0.7722  0.2446  1.0000\n  Br  Br10      1.0000  0.3361  0.6162  0.7273  1.0000\n  Br  Br11      1.0000  0.5871  0.6228  0.2245  1.0000\n  Br  Br12      1.0000  0.7015  0.5703  0.6073  1.0000\n  Br  Br13      1.0000  0.7052  0.4795  0.9027  1.0000\n  Br  Br14      1.0000  0.9546  0.5185  0.5296  1.0000\n  Br  Br15      1.0000  0.4507  0.4652  0.9890  1.0000\n  Br  Br16      1.0000  0.9507  0.5348  0.0110  1.0000\n  Br  Br17      1.0000  0.4546  0.4815  0.4704  1.0000\n  Br  Br18      1.0000  0.2052  0.5205  0.0973  1.0000\n  Br  Br19      1.0000  0.2015  0.4297  0.3927  1.0000\n  Br  Br20      1.0000  0.0871  0.3772  0.7755  1.0000\n  Br  Br21      1.0000  0.8361  0.3838  0.2727  1.0000\n  Br  Br22      1.0000  0.5105  0.2278  0.7554  1.0000\n  Br  Br23      1.0000  0.4148  0.2088  0.2557  1.0000\n  Br  Br24      1.0000  0.2713  0.1073  0.6440  1.0000\n  Br  Br25      1.0000  0.7332  0.0898  0.6057  1.0000\n  Br  Br26      1.0000  0.6514  0.1159  0.1444  1.0000\n  Br  Br27      1.0000  0.9972  0.0419  0.4977  1.0000\n  Ba  Ba8       1.0000  0.9372  0.0589  0.0163  1.0000\n  Br  Br28      1.0000  0.2060  0.0377  0.1098  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4d0cd838-2570-478d-a398-f038efc34f82",
    "mp_id": "mp-768854",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Mn2P2(CO7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4361\n_cell_length_b   8.5127\n_cell_length_c   10.1088\n_cell_angle_alpha   86.0410\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Mn2P2(CO7)2\n_chemical_formula_sum   'Li10 Mn4 P4 C4 O28'\n_cell_volume   552.5259\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7500  0.9050  0.8659  1\n  Li  Li1  1  0.9831  0.7460  0.6134  1\n  Li  Li2  1  0.5169  0.7460  0.6134  1\n  Li  Li3  1  0.9769  0.7416  0.1302  1\n  Li  Li4  1  0.5231  0.7416  0.1302  1\n  Li  Li5  1  0.4831  0.2540  0.3866  1\n  Li  Li6  1  0.0169  0.2540  0.3866  1\n  Li  Li7  1  0.4769  0.2584  0.8698  1\n  Li  Li8  1  0.0231  0.2584  0.8698  1\n  Li  Li9  1  0.2500  0.0950  0.1341  1\n  Mn  Mn10  1  0.2500  0.6576  0.3551  1\n  Mn  Mn11  1  0.2500  0.6642  0.8537  1\n  Mn  Mn12  1  0.7500  0.3424  0.6449  1\n  Mn  Mn13  1  0.7500  0.3358  0.1463  1\n  P  P14  1  0.7500  0.5823  0.3879  1\n  P  P15  1  0.7500  0.5853  0.8897  1\n  P  P16  1  0.2500  0.4177  0.6121  1\n  P  P17  1  0.2500  0.4147  0.1103  1\n  C  C18  1  0.2500  0.9586  0.3885  1\n  C  C19  1  0.2500  0.9592  0.8983  1\n  C  C20  1  0.7500  0.0414  0.6115  1\n  C  C21  1  0.7500  0.0408  0.1017  1\n  O  O22  1  0.2500  0.9202  0.2668  1\n  O  O23  1  0.7500  0.8985  0.5804  1\n  O  O24  1  0.2500  0.9236  0.7784  1\n  O  O25  1  0.2500  0.8406  0.4812  1\n  O  O26  1  0.7500  0.8964  0.0656  1\n  O  O27  1  0.2500  0.8439  0.9939  1\n  O  O28  1  0.9406  0.6743  0.3306  1\n  O  O29  1  0.5594  0.6743  0.3306  1\n  O  O30  1  0.9360  0.6878  0.8363  1\n  O  O31  1  0.5640  0.6878  0.8363  1\n  O  O32  1  0.2500  0.5899  0.6559  1\n  O  O33  1  0.7500  0.5744  0.5423  1\n  O  O34  1  0.2500  0.5816  0.1617  1\n  O  O35  1  0.7500  0.5687  0.0438  1\n  O  O36  1  0.2500  0.4256  0.4577  1\n  O  O37  1  0.7500  0.4101  0.3441  1\n  O  O38  1  0.2500  0.4313  0.9562  1\n  O  O39  1  0.7500  0.4184  0.8383  1\n  O  O40  1  0.0594  0.3257  0.6694  1\n  O  O41  1  0.4406  0.3257  0.6694  1\n  O  O42  1  0.4360  0.3122  0.1637  1\n  O  O43  1  0.0640  0.3122  0.1637  1\n  O  O44  1  0.7500  0.1594  0.5188  1\n  O  O45  1  0.2500  0.1015  0.4196  1\n  O  O46  1  0.7500  0.1561  0.0061  1\n  O  O47  1  0.7500  0.0798  0.7332  1\n  O  O48  1  0.2500  0.1036  0.9344  1\n  O  O49  1  0.7500  0.0764  0.2216  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2OLi7Mn4P4C4O18LiO9\n_chemical_formula_sum              \"Li10 O28 Mn4 P4 C4\"\n_cell_length_a       6.4361\n_cell_length_b       8.5127\n_cell_length_c       10.1088\n_cell_angle_alpha    86.0410\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7500  0.9050  0.8659  1.0000\n  Li  Li2       1.0000  0.9831  0.7460  0.6134  1.0000\n  O   O1        1.0000  0.5169  0.7460  0.6134  1.0000\n  Li  Li3       1.0000  0.9769  0.7416  0.1302  1.0000\n  Li  Li4       1.0000  0.5231  0.7416  0.1302  1.0000\n  Li  Li5       1.0000  0.4831  0.2540  0.3866  1.0000\n  Li  Li6       1.0000  0.0169  0.2540  0.3866  1.0000\n  Li  Li7       1.0000  0.4769  0.2584  0.8698  1.0000\n  Li  Li8       1.0000  0.0231  0.2584  0.8698  1.0000\n  Li  Li9       1.0000  0.2500  0.0950  0.1341  1.0000\n  Mn  Mn1       1.0000  0.2500  0.6576  0.3551  1.0000\n  Mn  Mn2       1.0000  0.2500  0.6642  0.8537  1.0000\n  Mn  Mn3       1.0000  0.7500  0.3424  0.6449  1.0000\n  Mn  Mn4       1.0000  0.7500  0.3358  0.1463  1.0000\n  P   P1        1.0000  0.7500  0.5823  0.3879  1.0000\n  P   P2        1.0000  0.7500  0.5853  0.8897  1.0000\n  P   P3        1.0000  0.2500  0.4177  0.6121  1.0000\n  P   P4        1.0000  0.2500  0.4147  0.1103  1.0000\n  C   C1        1.0000  0.2500  0.9586  0.3885  1.0000\n  C   C2        1.0000  0.2500  0.9592  0.8983  1.0000\n  C   C3        1.0000  0.7500  0.0414  0.6115  1.0000\n  C   C4        1.0000  0.7500  0.0408  0.1017  1.0000\n  O   O2        1.0000  0.2500  0.9202  0.2668  1.0000\n  O   O3        1.0000  0.7500  0.8985  0.5804  1.0000\n  O   O4        1.0000  0.2500  0.9236  0.7784  1.0000\n  O   O5        1.0000  0.2500  0.8406  0.4812  1.0000\n  O   O6        1.0000  0.7500  0.8964  0.0656  1.0000\n  O   O7        1.0000  0.2500  0.8439  0.9939  1.0000\n  O   O8        1.0000  0.9406  0.6743  0.3306  1.0000\n  O   O9        1.0000  0.5594  0.6743  0.3306  1.0000\n  O   O10       1.0000  0.9360  0.6878  0.8363  1.0000\n  O   O11       1.0000  0.5640  0.6878  0.8363  1.0000\n  O   O12       1.0000  0.2500  0.5899  0.6559  1.0000\n  O   O13       1.0000  0.7500  0.5744  0.5423  1.0000\n  O   O14       1.0000  0.2500  0.5816  0.1617  1.0000\n  O   O15       1.0000  0.7500  0.5687  0.0438  1.0000\n  O   O16       1.0000  0.2500  0.4256  0.4577  1.0000\n  O   O17       1.0000  0.7500  0.4101  0.3441  1.0000\n  O   O18       1.0000  0.2500  0.4313  0.9562  1.0000\n  O   O19       1.0000  0.7500  0.4184  0.8383  1.0000\n  Li  Li10      1.0000  0.0594  0.3257  0.6694  1.0000\n  O   O20       1.0000  0.4406  0.3257  0.6694  1.0000\n  O   O21       1.0000  0.4360  0.3122  0.1637  1.0000\n  O   O22       1.0000  0.0640  0.3122  0.1637  1.0000\n  O   O23       1.0000  0.7500  0.1594  0.5188  1.0000\n  O   O24       1.0000  0.2500  0.1015  0.4196  1.0000\n  O   O25       1.0000  0.7500  0.1561  0.0061  1.0000\n  O   O26       1.0000  0.7500  0.0798  0.7332  1.0000\n  O   O27       1.0000  0.2500  0.1036  0.9344  1.0000\n  O   O28       1.0000  0.7500  0.0764  0.2216  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f134d341-235f-49ba-b536-35a25275cd92",
    "mp_id": "mp-768859",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 43 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Mn2P2(CO7)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4423\n_cell_length_b   8.5136\n_cell_length_c   10.0910\n_cell_angle_alpha   86.0988\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Mn2P2(CO7)2\n_chemical_formula_sum   'Li10 Mn4 P4 C4 O28'\n_cell_volume   552.1851\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7500  0.9030  0.6171  1\n  Li  Li1  1  0.9799  0.7523  0.8807  1\n  Li  Li2  1  0.5201  0.7523  0.8807  1\n  Li  Li3  1  0.9793  0.7383  0.3640  1\n  Li  Li4  1  0.5207  0.7383  0.3640  1\n  Li  Li5  1  0.4793  0.2617  0.6360  1\n  Li  Li6  1  0.0207  0.2617  0.6360  1\n  Li  Li7  1  0.4799  0.2477  0.1193  1\n  Li  Li8  1  0.0201  0.2477  0.1193  1\n  Li  Li9  1  0.2500  0.0970  0.3829  1\n  Mn  Mn10  1  0.2500  0.6613  0.6074  1\n  Mn  Mn11  1  0.2500  0.6588  0.1014  1\n  Mn  Mn12  1  0.7500  0.3412  0.8986  1\n  Mn  Mn13  1  0.7500  0.3387  0.3926  1\n  P  P14  1  0.7500  0.5857  0.6389  1\n  P  P15  1  0.7500  0.5816  0.1367  1\n  P  P16  1  0.2500  0.4184  0.8633  1\n  P  P17  1  0.2500  0.4143  0.3611  1\n  C  C18  1  0.2500  0.9642  0.6394  1\n  C  C19  1  0.2500  0.9535  0.1463  1\n  C  C20  1  0.7500  0.0465  0.8537  1\n  C  C21  1  0.7500  0.0358  0.3606  1\n  O  O22  1  0.2500  0.9241  0.5168  1\n  O  O23  1  0.7500  0.9039  0.8148  1\n  O  O24  1  0.2500  0.9198  0.0255  1\n  O  O25  1  0.2500  0.8480  0.7328  1\n  O  O26  1  0.7500  0.8928  0.3318  1\n  O  O27  1  0.2500  0.8350  0.2401  1\n  O  O28  1  0.9363  0.6880  0.5856  1\n  O  O29  1  0.5637  0.6880  0.5856  1\n  O  O30  1  0.9401  0.6736  0.0793  1\n  O  O31  1  0.5599  0.6736  0.0793  1\n  O  O32  1  0.2500  0.5915  0.9052  1\n  O  O33  1  0.7500  0.5702  0.7930  1\n  O  O34  1  0.2500  0.5807  0.4137  1\n  O  O35  1  0.7500  0.5728  0.2919  1\n  O  O36  1  0.2500  0.4272  0.7081  1\n  O  O37  1  0.7500  0.4193  0.5863  1\n  O  O38  1  0.2500  0.4298  0.2070  1\n  O  O39  1  0.7500  0.4085  0.0948  1\n  O  O40  1  0.0599  0.3264  0.9207  1\n  O  O41  1  0.4401  0.3264  0.9207  1\n  O  O42  1  0.4363  0.3120  0.4144  1\n  O  O43  1  0.0637  0.3120  0.4144  1\n  O  O44  1  0.7500  0.1650  0.7599  1\n  O  O45  1  0.2500  0.1072  0.6682  1\n  O  O46  1  0.7500  0.1520  0.2672  1\n  O  O47  1  0.7500  0.0802  0.9745  1\n  O  O48  1  0.2500  0.0961  0.1852  1\n  O  O49  1  0.7500  0.0759  0.4832  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li10Mn4P4C3O22CO6\n_chemical_formula_sum              \"Li10 Mn4 P4 C4 O28\"\n_cell_length_a       6.4423\n_cell_length_b       8.5136\n_cell_length_c       10.0910\n_cell_angle_alpha    86.0988\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7500  0.9030  0.6171  1.0000\n  Li  Li2       1.0000  0.9799  0.7523  0.8807  1.0000\n  Li  Li3       1.0000  0.5201  0.7523  0.8807  1.0000\n  Li  Li4       1.0000  0.9793  0.7383  0.3640  1.0000\n  Li  Li5       1.0000  0.5207  0.7383  0.3640  1.0000\n  Li  Li6       1.0000  0.4793  0.2617  0.6360  1.0000\n  Li  Li7       1.0000  0.0207  0.2617  0.6360  1.0000\n  Li  Li8       1.0000  0.4799  0.2477  0.1193  1.0000\n  Li  Li9       1.0000  0.0201  0.2477  0.1193  1.0000\n  Li  Li10      1.0000  0.2500  0.0970  0.3829  1.0000\n  Mn  Mn1       1.0000  0.2500  0.6613  0.6074  1.0000\n  Mn  Mn2       1.0000  0.2500  0.6588  0.1014  1.0000\n  Mn  Mn3       1.0000  0.7500  0.3412  0.8986  1.0000\n  Mn  Mn4       1.0000  0.7500  0.3387  0.3926  1.0000\n  P   P1        1.0000  0.7500  0.5857  0.6389  1.0000\n  P   P2        1.0000  0.7500  0.5816  0.1367  1.0000\n  P   P3        1.0000  0.2500  0.4184  0.8633  1.0000\n  P   P4        1.0000  0.2500  0.4143  0.3611  1.0000\n  C   C1        1.0000  0.2500  0.9642  0.6394  1.0000\n  C   C2        1.0000  0.2500  0.9535  0.1463  1.0000\n  C   C3        1.0000  0.7500  0.0465  0.8537  1.0000\n  O   O1        1.0000  0.7500  0.0358  0.3606  1.0000\n  O   O2        1.0000  0.2500  0.9241  0.5168  1.0000\n  O   O3        1.0000  0.7500  0.9039  0.8148  1.0000\n  O   O4        1.0000  0.2500  0.9198  0.0255  1.0000\n  O   O5        1.0000  0.2500  0.8480  0.7328  1.0000\n  O   O6        1.0000  0.7500  0.8928  0.3318  1.0000\n  O   O7        1.0000  0.2500  0.8350  0.2401  1.0000\n  O   O8        1.0000  0.9363  0.6880  0.5856  1.0000\n  O   O9        1.0000  0.5637  0.6880  0.5856  1.0000\n  O   O10       1.0000  0.9401  0.6736  0.0793  1.0000\n  O   O11       1.0000  0.5599  0.6736  0.0793  1.0000\n  O   O12       1.0000  0.2500  0.5915  0.9052  1.0000\n  O   O13       1.0000  0.7500  0.5702  0.7930  1.0000\n  O   O14       1.0000  0.2500  0.5807  0.4137  1.0000\n  O   O15       1.0000  0.7500  0.5728  0.2919  1.0000\n  O   O16       1.0000  0.2500  0.4272  0.7081  1.0000\n  O   O17       1.0000  0.7500  0.4193  0.5863  1.0000\n  O   O18       1.0000  0.2500  0.4298  0.2070  1.0000\n  O   O19       1.0000  0.7500  0.4085  0.0948  1.0000\n  O   O20       1.0000  0.0599  0.3264  0.9207  1.0000\n  O   O21       1.0000  0.4401  0.3264  0.9207  1.0000\n  O   O22       1.0000  0.4363  0.3120  0.4144  1.0000\n  C   C4        1.0000  0.0637  0.3120  0.4144  1.0000\n  O   O23       1.0000  0.7500  0.1650  0.7599  1.0000\n  O   O24       1.0000  0.2500  0.1072  0.6682  1.0000\n  O   O25       1.0000  0.7500  0.1520  0.2672  1.0000\n  O   O26       1.0000  0.7500  0.0802  0.9745  1.0000\n  O   O27       1.0000  0.2500  0.0961  0.1852  1.0000\n  O   O28       1.0000  0.7500  0.0759  0.4832  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cb16c510-f234-4fc5-ad51-8422b9de40d4",
    "mp_id": "mp-769049",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaLaCl5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9483\n_cell_length_b   7.3127\n_cell_length_c   19.1359\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaLaCl5\n_chemical_formula_sum   'Ba4 La4 Cl20'\n_cell_volume   832.3733\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.7817  0.2500  0.0564  1\n  Ba  Ba1  1  0.2817  0.7500  0.4436  1\n  Ba  Ba2  1  0.7183  0.2500  0.5564  1\n  Ba  Ba3  1  0.2183  0.7500  0.9436  1\n  La  La4  1  0.4332  0.7500  0.1787  1\n  La  La5  1  0.9332  0.2500  0.3213  1\n  La  La6  1  0.0668  0.7500  0.6787  1\n  La  La7  1  0.5668  0.2500  0.8213  1\n  Cl  Cl8  1  0.7230  0.7500  0.0630  1\n  Cl  Cl9  1  0.2430  0.4936  0.0860  1\n  Cl  Cl10  1  0.2430  0.0064  0.0860  1\n  Cl  Cl11  1  0.7635  0.4774  0.2074  1\n  Cl  Cl12  1  0.7635  0.0226  0.2074  1\n  Cl  Cl13  1  0.2635  0.9774  0.2926  1\n  Cl  Cl14  1  0.2635  0.5226  0.2926  1\n  Cl  Cl15  1  0.7430  0.9936  0.4140  1\n  Cl  Cl16  1  0.7430  0.5064  0.4140  1\n  Cl  Cl17  1  0.2230  0.2500  0.4370  1\n  Cl  Cl18  1  0.7770  0.7500  0.5630  1\n  Cl  Cl19  1  0.2570  0.4936  0.5860  1\n  Cl  Cl20  1  0.2570  0.0064  0.5860  1\n  Cl  Cl21  1  0.7365  0.4774  0.7074  1\n  Cl  Cl22  1  0.7365  0.0226  0.7074  1\n  Cl  Cl23  1  0.2365  0.9774  0.7926  1\n  Cl  Cl24  1  0.2365  0.5226  0.7926  1\n  Cl  Cl25  1  0.7570  0.9936  0.9140  1\n  Cl  Cl26  1  0.7570  0.5064  0.9140  1\n  Cl  Cl27  1  0.2770  0.2500  0.9370  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba4La3Cl8LaCl12\n_chemical_formula_sum              \"Ba4 La4 Cl20\"\n_cell_length_a       5.9483\n_cell_length_b       7.3127\n_cell_length_c       19.1359\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.7817  0.2500  0.0564  1.0000\n  Ba  Ba2       1.0000  0.2817  0.7500  0.4436  1.0000\n  Ba  Ba3       1.0000  0.7183  0.2500  0.5564  1.0000\n  Ba  Ba4       1.0000  0.2183  0.7500  0.9436  1.0000\n  La  La1       1.0000  0.4332  0.7500  0.1787  1.0000\n  La  La2       1.0000  0.9332  0.2500  0.3213  1.0000\n  La  La3       1.0000  0.0668  0.7500  0.6787  1.0000\n  Cl  Cl1       1.0000  0.5668  0.2500  0.8213  1.0000\n  Cl  Cl2       1.0000  0.7230  0.7500  0.0630  1.0000\n  Cl  Cl3       1.0000  0.2430  0.4936  0.0860  1.0000\n  Cl  Cl4       1.0000  0.2430  0.0064  0.0860  1.0000\n  Cl  Cl5       1.0000  0.7635  0.4774  0.2074  1.0000\n  Cl  Cl6       1.0000  0.7635  0.0226  0.2074  1.0000\n  Cl  Cl7       1.0000  0.2635  0.9774  0.2926  1.0000\n  Cl  Cl8       1.0000  0.2635  0.5226  0.2926  1.0000\n  La  La4       1.0000  0.7430  0.9936  0.4140  1.0000\n  Cl  Cl9       1.0000  0.7430  0.5064  0.4140  1.0000\n  Cl  Cl10      1.0000  0.2230  0.2500  0.4370  1.0000\n  Cl  Cl11      1.0000  0.7770  0.7500  0.5630  1.0000\n  Cl  Cl12      1.0000  0.2570  0.4936  0.5860  1.0000\n  Cl  Cl13      1.0000  0.2570  0.0064  0.5860  1.0000\n  Cl  Cl14      1.0000  0.7365  0.4774  0.7074  1.0000\n  Cl  Cl15      1.0000  0.7365  0.0226  0.7074  1.0000\n  Cl  Cl16      1.0000  0.2365  0.9774  0.7926  1.0000\n  Cl  Cl17      1.0000  0.2365  0.5226  0.7926  1.0000\n  Cl  Cl18      1.0000  0.7570  0.9936  0.9140  1.0000\n  Cl  Cl19      1.0000  0.7570  0.5064  0.9140  1.0000\n  Cl  Cl20      1.0000  0.2770  0.2500  0.9370  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e92269cb-e974-4bc7-b74f-33379b336331",
    "mp_id": "mp-769346",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 4 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Y2Ge2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8475\n_cell_length_b   6.8690\n_cell_length_c   12.4064\n_cell_angle_alpha   93.8519\n_cell_angle_beta   92.9679\n_cell_angle_gamma   92.6161\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Y2Ge2O7\n_chemical_formula_sum   'Y8 Ge8 O28'\n_cell_volume   580.7274\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.6853  0.1684  0.8811  1\n  Y  Y1  1  0.9544  0.6681  0.8874  1\n  Y  Y2  1  0.3663  0.2300  0.6307  1\n  Y  Y3  1  0.8890  0.9192  0.6436  1\n  Y  Y4  1  0.1110  0.0808  0.3564  1\n  Y  Y5  1  0.6337  0.7700  0.3693  1\n  Y  Y6  1  0.0456  0.3319  0.1126  1\n  Y  Y7  1  0.3147  0.8316  0.1189  1\n  Ge  Ge8  1  0.1685  0.1470  0.8864  1\n  Ge  Ge9  1  0.4860  0.6677  0.8362  1\n  Ge  Ge10  1  0.8553  0.3858  0.6223  1\n  Ge  Ge11  1  0.3899  0.7351  0.6028  1\n  Ge  Ge12  1  0.6101  0.2649  0.3972  1\n  Ge  Ge13  1  0.1447  0.6142  0.3777  1\n  Ge  Ge14  1  0.5140  0.3323  0.1638  1\n  Ge  Ge15  1  0.8315  0.8530  0.1136  1\n  O  O16  1  0.7554  0.9035  0.9818  1\n  O  O17  1  0.0010  0.3363  0.9176  1\n  O  O18  1  0.2915  0.7168  0.9185  1\n  O  O19  1  0.6589  0.5078  0.8826  1\n  O  O20  1  0.3664  0.2113  0.8123  1\n  O  O21  1  0.9919  0.9797  0.8167  1\n  O  O22  1  0.6006  0.8688  0.7767  1\n  O  O23  1  0.3909  0.5539  0.7006  1\n  O  O24  1  0.7064  0.2132  0.6887  1\n  O  O25  1  0.9296  0.6042  0.6967  1\n  O  O26  1  0.2251  0.9190  0.6225  1\n  O  O27  1  0.0386  0.2250  0.5823  1\n  O  O28  1  0.6026  0.8365  0.5490  1\n  O  O29  1  0.7043  0.4404  0.5070  1\n  O  O30  1  0.2957  0.5596  0.4930  1\n  O  O31  1  0.3974  0.1635  0.4510  1\n  O  O32  1  0.9614  0.7750  0.4177  1\n  O  O33  1  0.7749  0.0810  0.3775  1\n  O  O34  1  0.0704  0.3958  0.3033  1\n  O  O35  1  0.2936  0.7868  0.3113  1\n  O  O36  1  0.6091  0.4461  0.2994  1\n  O  O37  1  0.3994  0.1312  0.2233  1\n  O  O38  1  0.0081  0.0203  0.1833  1\n  O  O39  1  0.6336  0.7887  0.1877  1\n  O  O40  1  0.3411  0.4922  0.1174  1\n  O  O41  1  0.7085  0.2832  0.0815  1\n  O  O42  1  0.9990  0.6636  0.0824  1\n  O  O43  1  0.2446  0.0965  0.0182  1\n",
    "output": "data_image0\n_chemical_formula_structural       Y4GeY3Ge7YO28\n_chemical_formula_sum              \"Y8 Ge8 O28\"\n_cell_length_a       6.8475\n_cell_length_b       6.8690\n_cell_length_c       12.4064\n_cell_angle_alpha    93.8519\n_cell_angle_beta     92.9679\n_cell_angle_gamma    92.6161\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Y   Y1        1.0000  0.6853  0.1684  0.8811  1.0000\n  Y   Y2        1.0000  0.9544  0.6681  0.8874  1.0000\n  Y   Y3        1.0000  0.3663  0.2300  0.6307  1.0000\n  Y   Y4        1.0000  0.8890  0.9192  0.6436  1.0000\n  Ge  Ge1       1.0000  0.1110  0.0808  0.3564  1.0000\n  Y   Y5        1.0000  0.6337  0.7700  0.3693  1.0000\n  Y   Y6        1.0000  0.0456  0.3319  0.1126  1.0000\n  Y   Y7        1.0000  0.3147  0.8316  0.1189  1.0000\n  Ge  Ge2       1.0000  0.1685  0.1470  0.8864  1.0000\n  Ge  Ge3       1.0000  0.4860  0.6677  0.8362  1.0000\n  Ge  Ge4       1.0000  0.8553  0.3858  0.6223  1.0000\n  Ge  Ge5       1.0000  0.3899  0.7351  0.6028  1.0000\n  Ge  Ge6       1.0000  0.6101  0.2649  0.3972  1.0000\n  Ge  Ge7       1.0000  0.1447  0.6142  0.3777  1.0000\n  Ge  Ge8       1.0000  0.5140  0.3323  0.1638  1.0000\n  Y   Y8        1.0000  0.8315  0.8530  0.1136  1.0000\n  O   O1        1.0000  0.7554  0.9035  0.9818  1.0000\n  O   O2        1.0000  0.0010  0.3363  0.9176  1.0000\n  O   O3        1.0000  0.2915  0.7168  0.9185  1.0000\n  O   O4        1.0000  0.6589  0.5078  0.8826  1.0000\n  O   O5        1.0000  0.3664  0.2113  0.8123  1.0000\n  O   O6        1.0000  0.9919  0.9797  0.8167  1.0000\n  O   O7        1.0000  0.6006  0.8688  0.7767  1.0000\n  O   O8        1.0000  0.3909  0.5539  0.7006  1.0000\n  O   O9        1.0000  0.7064  0.2132  0.6887  1.0000\n  O   O10       1.0000  0.9296  0.6042  0.6967  1.0000\n  O   O11       1.0000  0.2251  0.9190  0.6225  1.0000\n  O   O12       1.0000  0.0386  0.2250  0.5823  1.0000\n  O   O13       1.0000  0.6026  0.8365  0.5490  1.0000\n  O   O14       1.0000  0.7043  0.4404  0.5070  1.0000\n  O   O15       1.0000  0.2957  0.5596  0.4930  1.0000\n  O   O16       1.0000  0.3974  0.1635  0.4510  1.0000\n  O   O17       1.0000  0.9614  0.7750  0.4177  1.0000\n  O   O18       1.0000  0.7749  0.0810  0.3775  1.0000\n  O   O19       1.0000  0.0704  0.3958  0.3033  1.0000\n  O   O20       1.0000  0.2936  0.7868  0.3113  1.0000\n  O   O21       1.0000  0.6091  0.4461  0.2994  1.0000\n  O   O22       1.0000  0.3994  0.1312  0.2233  1.0000\n  O   O23       1.0000  0.0081  0.0203  0.1833  1.0000\n  O   O24       1.0000  0.6336  0.7887  0.1877  1.0000\n  O   O25       1.0000  0.3411  0.4922  0.1174  1.0000\n  O   O26       1.0000  0.7085  0.2832  0.0815  1.0000\n  O   O27       1.0000  0.9990  0.6637  0.0824  1.0000\n  O   O28       1.0000  0.2446  0.0965  0.0182  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "91803413-602f-4a43-95cc-98e7e2f389fe",
    "mp_id": "mp-769383",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbB3Te2O9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6952\n_cell_length_b   6.2465\n_cell_length_c   13.5636\n_cell_angle_alpha   75.6971\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbB3Te2O9\n_chemical_formula_sum   'Rb2 B6 Te4 O18'\n_cell_volume   467.5639\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.6759  0.0000  0.7500  1\n  Rb  Rb1  1  0.3241  0.0000  0.2500  1\n  B  B2  1  0.1569  0.8009  0.9423  1\n  B  B3  1  0.8431  0.8009  0.4423  1\n  B  B4  1  0.1607  0.5000  0.7500  1\n  B  B5  1  0.8393  0.5000  0.2500  1\n  B  B6  1  0.1569  0.1991  0.5577  1\n  B  B7  1  0.8431  0.1991  0.0577  1\n  Te  Te8  1  0.2948  0.7027  0.5646  1\n  Te  Te9  1  0.7052  0.7027  0.0646  1\n  Te  Te10  1  0.2948  0.2973  0.9354  1\n  Te  Te11  1  0.7052  0.2973  0.4354  1\n  O  O12  1  0.3002  0.9794  0.9047  1\n  O  O13  1  0.6998  0.9794  0.4047  1\n  O  O14  1  0.9137  0.8360  0.9498  1\n  O  O15  1  0.0863  0.8360  0.4498  1\n  O  O16  1  0.7420  0.5956  0.4702  1\n  O  O17  1  0.2580  0.5956  0.9702  1\n  O  O18  1  0.0362  0.6198  0.6648  1\n  O  O19  1  0.9638  0.6198  0.1648  1\n  O  O20  1  0.3985  0.5000  0.7500  1\n  O  O21  1  0.6015  0.5000  0.2500  1\n  O  O22  1  0.0362  0.3802  0.8352  1\n  O  O23  1  0.9638  0.3802  0.3352  1\n  O  O24  1  0.7420  0.4044  0.0298  1\n  O  O25  1  0.2580  0.4044  0.5298  1\n  O  O26  1  0.9137  0.1640  0.5502  1\n  O  O27  1  0.0863  0.1640  0.0502  1\n  O  O28  1  0.3002  0.0206  0.5953  1\n  O  O29  1  0.6998  0.0206  0.0953  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2B3OB2Te4O12BO5\n_chemical_formula_sum              \"Rb2 B6 O18 Te4\"\n_cell_length_a       5.6952\n_cell_length_b       6.2465\n_cell_length_c       13.5636\n_cell_angle_alpha    75.6971\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.6759  0.0000  0.7500  1.0000\n  Rb  Rb2       1.0000  0.3241  0.0000  0.2500  1.0000\n  B   B1        1.0000  0.1569  0.8009  0.9423  1.0000\n  B   B2        1.0000  0.8431  0.8009  0.4423  1.0000\n  B   B3        1.0000  0.1607  0.5000  0.7500  1.0000\n  O   O1        1.0000  0.8393  0.5000  0.2500  1.0000\n  B   B4        1.0000  0.1569  0.1991  0.5577  1.0000\n  B   B5        1.0000  0.8431  0.1991  0.0577  1.0000\n  Te  Te1       1.0000  0.2948  0.7027  0.5646  1.0000\n  Te  Te2       1.0000  0.7052  0.7027  0.0646  1.0000\n  Te  Te3       1.0000  0.2948  0.2973  0.9354  1.0000\n  Te  Te4       1.0000  0.7052  0.2973  0.4354  1.0000\n  O   O2        1.0000  0.3002  0.9794  0.9047  1.0000\n  O   O3        1.0000  0.6998  0.9794  0.4047  1.0000\n  O   O4        1.0000  0.9137  0.8360  0.9498  1.0000\n  O   O5        1.0000  0.0863  0.8360  0.4498  1.0000\n  O   O6        1.0000  0.7420  0.5956  0.4702  1.0000\n  O   O7        1.0000  0.2580  0.5956  0.9702  1.0000\n  O   O8        1.0000  0.0362  0.6198  0.6648  1.0000\n  O   O9        1.0000  0.9638  0.6198  0.1648  1.0000\n  O   O10       1.0000  0.3985  0.5000  0.7500  1.0000\n  O   O11       1.0000  0.6015  0.5000  0.2500  1.0000\n  O   O12       1.0000  0.0362  0.3802  0.8352  1.0000\n  O   O13       1.0000  0.9638  0.3802  0.3352  1.0000\n  B   B6        1.0000  0.7420  0.4044  0.0298  1.0000\n  O   O14       1.0000  0.2580  0.4044  0.5298  1.0000\n  O   O15       1.0000  0.9137  0.1640  0.5502  1.0000\n  O   O16       1.0000  0.0863  0.1640  0.0502  1.0000\n  O   O17       1.0000  0.3002  0.0206  0.5953  1.0000\n  O   O18       1.0000  0.6998  0.0206  0.0953  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b199c2ad-af0a-4142-94ad-67aa9d29ffb0",
    "mp_id": "mp-770406",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2WO6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3329\n_cell_length_b   9.2212\n_cell_length_c   10.0851\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2WO6\n_chemical_formula_sum   'Sm8 W4 O24'\n_cell_volume   495.9445\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.0238  0.3963  0.0357  1\n  Sm  Sm1  1  0.0331  0.2811  0.6296  1\n  Sm  Sm2  1  0.4669  0.7189  0.1296  1\n  Sm  Sm3  1  0.4762  0.6037  0.5357  1\n  Sm  Sm4  1  0.5238  0.1037  0.9643  1\n  Sm  Sm5  1  0.5331  0.2189  0.3704  1\n  Sm  Sm6  1  0.9669  0.7811  0.8704  1\n  Sm  Sm7  1  0.9762  0.8963  0.4643  1\n  W  W8  1  0.0419  0.0041  0.1506  1\n  W  W9  1  0.4581  0.9959  0.6506  1\n  W  W10  1  0.5419  0.4959  0.8494  1\n  W  W11  1  0.9581  0.5041  0.3494  1\n  O  O12  1  0.0715  0.6520  0.4732  1\n  O  O13  1  0.1717  0.5491  0.2097  1\n  O  O14  1  0.1876  0.8640  0.6796  1\n  O  O15  1  0.1875  0.8617  0.2618  1\n  O  O16  1  0.2238  0.3887  0.4340  1\n  O  O17  1  0.2486  0.0900  0.5089  1\n  O  O18  1  0.2514  0.9100  0.0089  1\n  O  O19  1  0.2762  0.6113  0.9340  1\n  O  O20  1  0.3125  0.1383  0.7618  1\n  O  O21  1  0.3124  0.1360  0.1796  1\n  O  O22  1  0.3283  0.4509  0.7097  1\n  O  O23  1  0.4285  0.3480  0.9732  1\n  O  O24  1  0.5715  0.8480  0.5268  1\n  O  O25  1  0.6717  0.9509  0.7903  1\n  O  O26  1  0.6876  0.6360  0.3204  1\n  O  O27  1  0.6875  0.6383  0.7382  1\n  O  O28  1  0.7238  0.1113  0.5660  1\n  O  O29  1  0.7486  0.4100  0.4911  1\n  O  O30  1  0.7514  0.5900  0.9911  1\n  O  O31  1  0.7762  0.8887  0.0660  1\n  O  O32  1  0.8125  0.3617  0.2382  1\n  O  O33  1  0.8124  0.3640  0.8204  1\n  O  O34  1  0.8283  0.0491  0.2903  1\n  O  O35  1  0.9285  0.1520  0.0268  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm8W2OWO12WO11\n_chemical_formula_sum              \"Sm8 W4 O24\"\n_cell_length_a       5.3329\n_cell_length_b       9.2212\n_cell_length_c       10.0851\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.0238  0.3963  0.0357  1.0000\n  Sm  Sm2       1.0000  0.0331  0.2811  0.6296  1.0000\n  Sm  Sm3       1.0000  0.4669  0.7189  0.1296  1.0000\n  Sm  Sm4       1.0000  0.4762  0.6037  0.5357  1.0000\n  Sm  Sm5       1.0000  0.5238  0.1037  0.9643  1.0000\n  Sm  Sm6       1.0000  0.5331  0.2189  0.3704  1.0000\n  Sm  Sm7       1.0000  0.9669  0.7811  0.8704  1.0000\n  Sm  Sm8       1.0000  0.9762  0.8963  0.4643  1.0000\n  W   W1        1.0000  0.0419  0.0041  0.1506  1.0000\n  W   W2        1.0000  0.4581  0.9959  0.6506  1.0000\n  O   O1        1.0000  0.5419  0.4959  0.8494  1.0000\n  W   W3        1.0000  0.9581  0.5041  0.3494  1.0000\n  O   O2        1.0000  0.0715  0.6520  0.4732  1.0000\n  O   O3        1.0000  0.1717  0.5491  0.2097  1.0000\n  O   O4        1.0000  0.1876  0.8640  0.6796  1.0000\n  O   O5        1.0000  0.1875  0.8617  0.2618  1.0000\n  O   O6        1.0000  0.2238  0.3887  0.4340  1.0000\n  O   O7        1.0000  0.2486  0.0900  0.5089  1.0000\n  O   O8        1.0000  0.2514  0.9100  0.0089  1.0000\n  O   O9        1.0000  0.2762  0.6113  0.9340  1.0000\n  O   O10       1.0000  0.3125  0.1383  0.7618  1.0000\n  O   O11       1.0000  0.3124  0.1360  0.1796  1.0000\n  O   O12       1.0000  0.3283  0.4509  0.7097  1.0000\n  O   O13       1.0000  0.4285  0.3480  0.9732  1.0000\n  W   W4        1.0000  0.5715  0.8480  0.5268  1.0000\n  O   O14       1.0000  0.6717  0.9509  0.7903  1.0000\n  O   O15       1.0000  0.6876  0.6360  0.3204  1.0000\n  O   O16       1.0000  0.6875  0.6383  0.7382  1.0000\n  O   O17       1.0000  0.7238  0.1113  0.5660  1.0000\n  O   O18       1.0000  0.7486  0.4100  0.4911  1.0000\n  O   O19       1.0000  0.7514  0.5900  0.9911  1.0000\n  O   O20       1.0000  0.7762  0.8887  0.0660  1.0000\n  O   O21       1.0000  0.8125  0.3617  0.2382  1.0000\n  O   O22       1.0000  0.8124  0.3640  0.8204  1.0000\n  O   O23       1.0000  0.8283  0.0491  0.2903  1.0000\n  O   O24       1.0000  0.9285  0.1520  0.0268  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c7d5edfb-91db-46db-8ccc-ddc15e87e278",
    "mp_id": "mp-770508",
    "action_prompt": "Swap the spatial positions of atoms at indices 18 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Ti3Mn3(FeO8)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8870\n_cell_length_b   5.9394\n_cell_length_c   9.5918\n_cell_angle_alpha   90.4302\n_cell_angle_beta   90.1013\n_cell_angle_gamma   119.0900\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Ti3Mn3(FeO8)2\n_chemical_formula_sum   'Li4 Ti3 Mn3 Fe2 O16'\n_cell_volume   293.0602\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3265  0.6677  0.8903  1\n  Li  Li1  1  0.0020  0.0024  0.9954  1\n  Li  Li2  1  0.0059  0.9950  0.4967  1\n  Li  Li3  1  0.6673  0.3289  0.3953  1\n  Ti  Ti4  1  0.1687  0.3399  0.2163  1\n  Ti  Ti5  1  0.6593  0.8326  0.2157  1\n  Ti  Ti6  1  0.8319  0.1719  0.7141  1\n  Mn  Mn7  1  0.1670  0.8291  0.2122  1\n  Mn  Mn8  1  0.3410  0.1689  0.7138  1\n  Mn  Mn9  1  0.8271  0.6601  0.7156  1\n  Fe  Fe10  1  0.3358  0.6693  0.4926  1\n  Fe  Fe11  1  0.6580  0.3383  0.9897  1\n  O  O12  1  0.1646  0.3233  0.6020  1\n  O  O13  1  0.4878  0.5195  0.3318  1\n  O  O14  1  0.3278  0.6686  0.1061  1\n  O  O15  1  0.0048  0.9970  0.3088  1\n  O  O16  1  0.0167  0.0202  0.8103  1\n  O  O17  1  0.6797  0.8348  0.6035  1\n  O  O18  1  0.0408  0.5022  0.3456  1\n  O  O19  1  0.4932  0.9584  0.3410  1\n  O  O20  1  0.8320  0.1650  0.1046  1\n  O  O21  1  0.1795  0.8492  0.6016  1\n  O  O22  1  0.5209  0.0392  0.8358  1\n  O  O23  1  0.9561  0.4812  0.8351  1\n  O  O24  1  0.6546  0.3098  0.6030  1\n  O  O25  1  0.3268  0.1835  0.0984  1\n  O  O26  1  0.5009  0.4671  0.8367  1\n  O  O27  1  0.8230  0.6766  0.0960  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2OLiTi3Mn3Fe2O6LiO9\n_chemical_formula_sum              \"Li4 O16 Ti3 Mn3 Fe2\"\n_cell_length_a       5.8870\n_cell_length_b       5.9394\n_cell_length_c       9.5918\n_cell_angle_alpha    90.4302\n_cell_angle_beta     90.1013\n_cell_angle_gamma    119.0900\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3265  0.6677  0.8903  1.0000\n  Li  Li2       1.0000  0.0020  0.0024  0.9954  1.0000\n  O   O1        1.0000  0.0059  0.9950  0.4967  1.0000\n  Li  Li3       1.0000  0.6673  0.3289  0.3953  1.0000\n  Ti  Ti1       1.0000  0.1687  0.3399  0.2163  1.0000\n  Ti  Ti2       1.0000  0.6593  0.8326  0.2157  1.0000\n  Ti  Ti3       1.0000  0.8319  0.1719  0.7141  1.0000\n  Mn  Mn1       1.0000  0.1670  0.8291  0.2122  1.0000\n  Mn  Mn2       1.0000  0.3410  0.1689  0.7138  1.0000\n  Mn  Mn3       1.0000  0.8271  0.6601  0.7156  1.0000\n  Fe  Fe1       1.0000  0.3358  0.6693  0.4926  1.0000\n  Fe  Fe2       1.0000  0.6580  0.3383  0.9897  1.0000\n  O   O2        1.0000  0.1646  0.3233  0.6020  1.0000\n  O   O3        1.0000  0.4878  0.5195  0.3318  1.0000\n  O   O4        1.0000  0.3278  0.6686  0.1061  1.0000\n  O   O5        1.0000  0.0048  0.9970  0.3088  1.0000\n  O   O6        1.0000  0.0167  0.0202  0.8103  1.0000\n  O   O7        1.0000  0.6797  0.8348  0.6035  1.0000\n  Li  Li4       1.0000  0.0408  0.5022  0.3456  1.0000\n  O   O8        1.0000  0.4932  0.9584  0.3410  1.0000\n  O   O9        1.0000  0.8320  0.1650  0.1046  1.0000\n  O   O10       1.0000  0.1795  0.8492  0.6016  1.0000\n  O   O11       1.0000  0.5209  0.0392  0.8358  1.0000\n  O   O12       1.0000  0.9561  0.4812  0.8351  1.0000\n  O   O13       1.0000  0.6546  0.3098  0.6030  1.0000\n  O   O14       1.0000  0.3268  0.1835  0.0984  1.0000\n  O   O15       1.0000  0.5009  0.4671  0.8367  1.0000\n  O   O16       1.0000  0.8230  0.6766  0.0960  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "162fa47b-381e-4100-ac3e-44b11878879d",
    "mp_id": "mp-770714",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiAlFeO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   2.9041\n_cell_length_b   9.3309\n_cell_length_c   10.3735\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiAlFeO4\n_chemical_formula_sum   'Li4 Al4 Fe4 O16'\n_cell_volume   281.0967\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2500  0.1012  0.6132  1\n  Li  Li1  1  0.7500  0.3988  0.1132  1\n  Li  Li2  1  0.2500  0.6012  0.8868  1\n  Li  Li3  1  0.7500  0.8988  0.3868  1\n  Al  Al4  1  0.2500  0.0109  0.1250  1\n  Al  Al5  1  0.7500  0.4891  0.6250  1\n  Al  Al6  1  0.2500  0.5109  0.3750  1\n  Al  Al7  1  0.7500  0.9891  0.8750  1\n  Fe  Fe8  1  0.7500  0.2314  0.3406  1\n  Fe  Fe9  1  0.2500  0.2686  0.8406  1\n  Fe  Fe10  1  0.7500  0.7314  0.1594  1\n  Fe  Fe11  1  0.2500  0.7686  0.6594  1\n  O  O12  1  0.2500  0.0986  0.9576  1\n  O  O13  1  0.2500  0.1303  0.4258  1\n  O  O14  1  0.7500  0.1087  0.1931  1\n  O  O15  1  0.7500  0.1434  0.7537  1\n  O  O16  1  0.2500  0.3566  0.2537  1\n  O  O17  1  0.2500  0.3913  0.6931  1\n  O  O18  1  0.7500  0.3697  0.9258  1\n  O  O19  1  0.7500  0.4014  0.4576  1\n  O  O20  1  0.2500  0.5986  0.5424  1\n  O  O21  1  0.2500  0.6303  0.0742  1\n  O  O22  1  0.7500  0.6087  0.3069  1\n  O  O23  1  0.7500  0.6434  0.7463  1\n  O  O24  1  0.2500  0.8566  0.2463  1\n  O  O25  1  0.2500  0.8913  0.8069  1\n  O  O26  1  0.7500  0.8697  0.5742  1\n  O  O27  1  0.7500  0.9014  0.0424  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Al4Fe3O12FeO4\n_chemical_formula_sum              \"Li4 Al4 Fe4 O16\"\n_cell_length_a       2.9041\n_cell_length_b       9.3309\n_cell_length_c       10.3735\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2500  0.1012  0.6132  1.0000\n  Li  Li2       1.0000  0.7500  0.3988  0.1132  1.0000\n  Li  Li3       1.0000  0.2500  0.6012  0.8868  1.0000\n  Li  Li4       1.0000  0.7500  0.8988  0.3868  1.0000\n  Al  Al1       1.0000  0.2500  0.0109  0.1250  1.0000\n  Al  Al2       1.0000  0.7500  0.4891  0.6250  1.0000\n  Al  Al3       1.0000  0.2500  0.5109  0.3750  1.0000\n  Al  Al4       1.0000  0.7500  0.9891  0.8750  1.0000\n  Fe  Fe1       1.0000  0.7500  0.2314  0.3406  1.0000\n  Fe  Fe2       1.0000  0.2500  0.2686  0.8406  1.0000\n  Fe  Fe3       1.0000  0.7500  0.7314  0.1594  1.0000\n  O   O1        1.0000  0.2500  0.7686  0.6594  1.0000\n  O   O2        1.0000  0.2500  0.0986  0.9576  1.0000\n  O   O3        1.0000  0.2500  0.1303  0.4258  1.0000\n  O   O4        1.0000  0.7500  0.1087  0.1931  1.0000\n  O   O5        1.0000  0.7500  0.1434  0.7537  1.0000\n  O   O6        1.0000  0.2500  0.3566  0.2537  1.0000\n  O   O7        1.0000  0.2500  0.3913  0.6931  1.0000\n  O   O8        1.0000  0.7500  0.3697  0.9258  1.0000\n  O   O9        1.0000  0.7500  0.4014  0.4576  1.0000\n  O   O10       1.0000  0.2500  0.5986  0.5424  1.0000\n  O   O11       1.0000  0.2500  0.6303  0.0742  1.0000\n  O   O12       1.0000  0.7500  0.6087  0.3069  1.0000\n  Fe  Fe4       1.0000  0.7500  0.6434  0.7463  1.0000\n  O   O13       1.0000  0.2500  0.8566  0.2463  1.0000\n  O   O14       1.0000  0.2500  0.8913  0.8069  1.0000\n  O   O15       1.0000  0.7500  0.8697  0.5742  1.0000\n  O   O16       1.0000  0.7500  0.9014  0.0424  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0c5d8aec-cfcf-4b9c-80b5-b552481b6c3b",
    "mp_id": "mp-770847",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La2Cd2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.0228\n_cell_length_b   6.2214\n_cell_length_c   16.0482\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La2Cd2O5\n_chemical_formula_sum   'La8 Cd8 O20'\n_cell_volume   601.3303\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.4927  0.9379  0.1158  1\n  La  La1  1  0.4927  0.9379  0.3842  1\n  La  La2  1  0.9927  0.5621  0.6158  1\n  La  La3  1  0.9927  0.5621  0.8842  1\n  La  La4  1  0.0073  0.4379  0.1158  1\n  La  La5  1  0.0073  0.4379  0.3842  1\n  La  La6  1  0.5073  0.0621  0.6158  1\n  La  La7  1  0.5073  0.0621  0.8842  1\n  Cd  Cd8  1  0.0000  0.0000  0.0000  1\n  Cd  Cd9  1  0.0000  0.0000  0.5000  1\n  Cd  Cd10  1  0.0236  0.0723  0.7500  1\n  Cd  Cd11  1  0.5236  0.4277  0.2500  1\n  Cd  Cd12  1  0.5000  0.5000  0.0000  1\n  Cd  Cd13  1  0.5000  0.5000  0.5000  1\n  Cd  Cd14  1  0.4764  0.5723  0.7500  1\n  Cd  Cd15  1  0.9764  0.9277  0.2500  1\n  O  O16  1  0.1353  0.0735  0.1403  1\n  O  O17  1  0.1353  0.0735  0.3597  1\n  O  O18  1  0.6214  0.0723  0.2500  1\n  O  O19  1  0.1835  0.3125  0.5352  1\n  O  O20  1  0.1835  0.3125  0.9648  1\n  O  O21  1  0.6835  0.1875  0.4648  1\n  O  O22  1  0.6835  0.1875  0.0352  1\n  O  O23  1  0.1214  0.4277  0.7500  1\n  O  O24  1  0.6353  0.4265  0.6403  1\n  O  O25  1  0.6353  0.4265  0.8597  1\n  O  O26  1  0.3647  0.5735  0.1403  1\n  O  O27  1  0.3647  0.5735  0.3597  1\n  O  O28  1  0.8786  0.5723  0.2500  1\n  O  O29  1  0.3165  0.8125  0.9648  1\n  O  O30  1  0.3165  0.8125  0.5352  1\n  O  O31  1  0.8165  0.6875  0.0352  1\n  O  O32  1  0.8165  0.6875  0.4648  1\n  O  O33  1  0.3786  0.9277  0.7500  1\n  O  O34  1  0.8647  0.9265  0.6403  1\n  O  O35  1  0.8647  0.9265  0.8597  1\n",
    "output": "data_image0\n_chemical_formula_structural       La8Cd2OCd5O4CdO15\n_chemical_formula_sum              \"La8 Cd8 O20\"\n_cell_length_a       6.0228\n_cell_length_b       6.2214\n_cell_length_c       16.0482\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.4927  0.9379  0.1158  1.0000\n  La  La2       1.0000  0.4927  0.9379  0.3842  1.0000\n  La  La3       1.0000  0.9927  0.5621  0.6158  1.0000\n  La  La4       1.0000  0.9927  0.5621  0.8842  1.0000\n  La  La5       1.0000  0.0073  0.4379  0.1158  1.0000\n  La  La6       1.0000  0.0073  0.4379  0.3842  1.0000\n  La  La7       1.0000  0.5073  0.0621  0.6158  1.0000\n  La  La8       1.0000  0.5073  0.0621  0.8842  1.0000\n  Cd  Cd1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Cd  Cd2       1.0000  0.0000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0236  0.0723  0.7500  1.0000\n  Cd  Cd3       1.0000  0.5236  0.4277  0.2500  1.0000\n  Cd  Cd4       1.0000  0.5000  0.5000  0.0000  1.0000\n  Cd  Cd5       1.0000  0.5000  0.5000  0.5000  1.0000\n  Cd  Cd6       1.0000  0.4764  0.5723  0.7500  1.0000\n  Cd  Cd7       1.0000  0.9764  0.9277  0.2500  1.0000\n  O   O2        1.0000  0.1353  0.0735  0.1403  1.0000\n  O   O3        1.0000  0.1353  0.0735  0.3597  1.0000\n  O   O4        1.0000  0.6214  0.0723  0.2500  1.0000\n  O   O5        1.0000  0.1835  0.3125  0.5352  1.0000\n  Cd  Cd8       1.0000  0.1835  0.3125  0.9648  1.0000\n  O   O6        1.0000  0.6835  0.1875  0.4648  1.0000\n  O   O7        1.0000  0.6835  0.1875  0.0352  1.0000\n  O   O8        1.0000  0.1214  0.4277  0.7500  1.0000\n  O   O9        1.0000  0.6353  0.4265  0.6403  1.0000\n  O   O10       1.0000  0.6353  0.4265  0.8597  1.0000\n  O   O11       1.0000  0.3647  0.5735  0.1403  1.0000\n  O   O12       1.0000  0.3647  0.5735  0.3597  1.0000\n  O   O13       1.0000  0.8786  0.5723  0.2500  1.0000\n  O   O14       1.0000  0.3165  0.8125  0.9648  1.0000\n  O   O15       1.0000  0.3165  0.8125  0.5352  1.0000\n  O   O16       1.0000  0.8165  0.6875  0.0352  1.0000\n  O   O17       1.0000  0.8165  0.6875  0.4648  1.0000\n  O   O18       1.0000  0.3786  0.9277  0.7500  1.0000\n  O   O19       1.0000  0.8647  0.9265  0.6403  1.0000\n  O   O20       1.0000  0.8647  0.9265  0.8597  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "d153af3d-505f-4a75-a78b-334fa440e6d5",
    "mp_id": "mp-770865",
    "action_prompt": "Swap the spatial positions of atoms at indices 1 and 26 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3SnO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.4470\n_cell_length_b   8.4470\n_cell_length_c   8.4470\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3SnO8\n_chemical_formula_sum   'Mn12 Sn4 O32'\n_cell_volume   602.7158\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.1115  0.1385  0.6250  1\n  Mn  Mn1  1  0.1250  0.3885  0.8615  1\n  Mn  Mn2  1  0.1385  0.6250  0.1115  1\n  Mn  Mn3  1  0.3615  0.3750  0.6115  1\n  Mn  Mn4  1  0.3750  0.6115  0.3615  1\n  Mn  Mn5  1  0.3885  0.8615  0.1250  1\n  Mn  Mn6  1  0.6115  0.3615  0.3750  1\n  Mn  Mn7  1  0.6250  0.1115  0.1385  1\n  Mn  Mn8  1  0.6385  0.8750  0.8885  1\n  Mn  Mn9  1  0.8615  0.1250  0.3885  1\n  Mn  Mn10  1  0.8750  0.8885  0.6385  1\n  Mn  Mn11  1  0.8885  0.6385  0.8750  1\n  Sn  Sn12  1  0.1250  0.8750  0.3750  1\n  Sn  Sn13  1  0.3750  0.1250  0.8750  1\n  Sn  Sn14  1  0.6250  0.6250  0.6250  1\n  Sn  Sn15  1  0.8750  0.3750  0.1250  1\n  O  O16  1  0.0917  0.1233  0.3958  1\n  O  O17  1  0.1042  0.9083  0.6233  1\n  O  O18  1  0.1179  0.6179  0.8821  1\n  O  O19  1  0.1267  0.1583  0.8542  1\n  O  O20  1  0.1233  0.3958  0.0917  1\n  O  O21  1  0.1321  0.3679  0.6321  1\n  O  O22  1  0.1458  0.6267  0.3417  1\n  O  O23  1  0.1583  0.8542  0.1267  1\n  O  O24  1  0.3417  0.1458  0.6267  1\n  O  O25  1  0.3542  0.3733  0.8417  1\n  O  O26  1  0.3679  0.6321  0.1321  1\n  O  O27  1  0.3767  0.6042  0.5917  1\n  O  O28  1  0.3733  0.8417  0.3542  1\n  O  O29  1  0.3821  0.3821  0.3821  1\n  O  O30  1  0.3958  0.0917  0.1233  1\n  O  O31  1  0.4083  0.8767  0.8958  1\n  O  O32  1  0.5917  0.3767  0.6042  1\n  O  O33  1  0.6042  0.5917  0.3767  1\n  O  O34  1  0.6179  0.8821  0.1179  1\n  O  O35  1  0.6267  0.3417  0.1458  1\n  O  O36  1  0.6233  0.1042  0.9083  1\n  O  O37  1  0.6321  0.1321  0.3679  1\n  O  O38  1  0.6458  0.8733  0.6583  1\n  O  O39  1  0.6583  0.6458  0.8733  1\n  O  O40  1  0.8417  0.3542  0.3733  1\n  O  O41  1  0.8542  0.1267  0.1583  1\n  O  O42  1  0.8679  0.8679  0.8679  1\n  O  O43  1  0.8767  0.8958  0.4083  1\n  O  O44  1  0.8733  0.6583  0.6458  1\n  O  O45  1  0.8821  0.1179  0.6179  1\n  O  O46  1  0.8958  0.4083  0.8767  1\n  O  O47  1  0.9083  0.6233  0.1042  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnOMn10Sn4O10MnO21\n_chemical_formula_sum              \"Mn12 O32 Sn4\"\n_cell_length_a       8.4470\n_cell_length_b       8.4470\n_cell_length_c       8.4470\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.1115  0.1385  0.6250  1.0000\n  O   O1        1.0000  0.1250  0.3885  0.8615  1.0000\n  Mn  Mn2       1.0000  0.1385  0.6250  0.1115  1.0000\n  Mn  Mn3       1.0000  0.3615  0.3750  0.6115  1.0000\n  Mn  Mn4       1.0000  0.3750  0.6115  0.3615  1.0000\n  Mn  Mn5       1.0000  0.3885  0.8615  0.1250  1.0000\n  Mn  Mn6       1.0000  0.6115  0.3615  0.3750  1.0000\n  Mn  Mn7       1.0000  0.6250  0.1115  0.1385  1.0000\n  Mn  Mn8       1.0000  0.6385  0.8750  0.8885  1.0000\n  Mn  Mn9       1.0000  0.8615  0.1250  0.3885  1.0000\n  Mn  Mn10      1.0000  0.8750  0.8885  0.6385  1.0000\n  Mn  Mn11      1.0000  0.8885  0.6385  0.8750  1.0000\n  Sn  Sn1       1.0000  0.1250  0.8750  0.3750  1.0000\n  Sn  Sn2       1.0000  0.3750  0.1250  0.8750  1.0000\n  Sn  Sn3       1.0000  0.6250  0.6250  0.6250  1.0000\n  Sn  Sn4       1.0000  0.8750  0.3750  0.1250  1.0000\n  O   O2        1.0000  0.0917  0.1233  0.3958  1.0000\n  O   O3        1.0000  0.1042  0.9083  0.6233  1.0000\n  O   O4        1.0000  0.1179  0.6179  0.8821  1.0000\n  O   O5        1.0000  0.1267  0.1583  0.8542  1.0000\n  O   O6        1.0000  0.1233  0.3958  0.0917  1.0000\n  O   O7        1.0000  0.1321  0.3679  0.6321  1.0000\n  O   O8        1.0000  0.1458  0.6267  0.3417  1.0000\n  O   O9        1.0000  0.1583  0.8542  0.1267  1.0000\n  O   O10       1.0000  0.3417  0.1458  0.6267  1.0000\n  O   O11       1.0000  0.3542  0.3733  0.8417  1.0000\n  Mn  Mn12      1.0000  0.3679  0.6321  0.1321  1.0000\n  O   O12       1.0000  0.3767  0.6042  0.5917  1.0000\n  O   O13       1.0000  0.3733  0.8417  0.3542  1.0000\n  O   O14       1.0000  0.3821  0.3821  0.3821  1.0000\n  O   O15       1.0000  0.3958  0.0917  0.1233  1.0000\n  O   O16       1.0000  0.4083  0.8767  0.8958  1.0000\n  O   O17       1.0000  0.5917  0.3767  0.6042  1.0000\n  O   O18       1.0000  0.6042  0.5917  0.3767  1.0000\n  O   O19       1.0000  0.6179  0.8821  0.1179  1.0000\n  O   O20       1.0000  0.6267  0.3417  0.1458  1.0000\n  O   O21       1.0000  0.6233  0.1042  0.9083  1.0000\n  O   O22       1.0000  0.6321  0.1321  0.3679  1.0000\n  O   O23       1.0000  0.6458  0.8733  0.6583  1.0000\n  O   O24       1.0000  0.6583  0.6458  0.8733  1.0000\n  O   O25       1.0000  0.8417  0.3542  0.3733  1.0000\n  O   O26       1.0000  0.8542  0.1267  0.1583  1.0000\n  O   O27       1.0000  0.8679  0.8679  0.8679  1.0000\n  O   O28       1.0000  0.8767  0.8958  0.4083  1.0000\n  O   O29       1.0000  0.8733  0.6583  0.6458  1.0000\n  O   O30       1.0000  0.8821  0.1179  0.6179  1.0000\n  O   O31       1.0000  0.8958  0.4083  0.8767  1.0000\n  O   O32       1.0000  0.9083  0.6233  0.1042  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "e98c5531-68b8-471c-b927-02882c7e44f9",
    "mp_id": "mp-770898",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti3Nb2V3O16\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9926\n_cell_length_b   6.0073\n_cell_length_c   9.4193\n_cell_angle_alpha   90.1830\n_cell_angle_beta   90.1670\n_cell_angle_gamma   119.3278\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti3Nb2V3O16\n_chemical_formula_sum   'Ti3 Nb2 V3 O16'\n_cell_volume   295.6245\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.1756  0.3438  0.7807  1\n  Ti  Ti1  1  0.1749  0.8314  0.7809  1\n  Ti  Ti2  1  0.3446  0.1746  0.2776  1\n  Nb  Nb3  1  0.3410  0.6698  0.5006  1\n  Nb  Nb4  1  0.6730  0.3403  0.0009  1\n  V  V5  1  0.6623  0.8322  0.7911  1\n  V  V6  1  0.8307  0.1738  0.2855  1\n  V  V7  1  0.8378  0.6649  0.2907  1\n  O  O8  1  0.1737  0.3458  0.4012  1\n  O  O9  1  0.0416  0.5223  0.6658  1\n  O  O10  1  0.3179  0.6588  0.8946  1\n  O  O11  1  0.0057  0.0039  0.6971  1\n  O  O12  1  0.0006  0.0153  0.1976  1\n  O  O13  1  0.1747  0.8310  0.3992  1\n  O  O14  1  0.4675  0.5143  0.6636  1\n  O  O15  1  0.4657  0.9506  0.6630  1\n  O  O16  1  0.3432  0.1711  0.9013  1\n  O  O17  1  0.6616  0.8284  0.4021  1\n  O  O18  1  0.5210  0.0432  0.1656  1\n  O  O19  1  0.5148  0.4696  0.1653  1\n  O  O20  1  0.6631  0.3133  0.3941  1\n  O  O21  1  0.8292  0.1737  0.9004  1\n  O  O22  1  0.9490  0.4690  0.1638  1\n  O  O23  1  0.8308  0.6585  0.9016  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti2ONb2V3O3TiO12\n_chemical_formula_sum              \"Ti3 O16 Nb2 V3\"\n_cell_length_a       5.9926\n_cell_length_b       6.0073\n_cell_length_c       9.4193\n_cell_angle_alpha    90.1830\n_cell_angle_beta     90.1670\n_cell_angle_gamma    119.3278\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.1756  0.3438  0.7807  1.0000\n  Ti  Ti2       1.0000  0.1749  0.8314  0.7809  1.0000\n  O   O1        1.0000  0.3446  0.1746  0.2776  1.0000\n  Nb  Nb1       1.0000  0.3410  0.6698  0.5006  1.0000\n  Nb  Nb2       1.0000  0.6730  0.3403  0.0009  1.0000\n  V   V1        1.0000  0.6623  0.8322  0.7911  1.0000\n  V   V2        1.0000  0.8307  0.1738  0.2855  1.0000\n  V   V3        1.0000  0.8378  0.6649  0.2907  1.0000\n  O   O2        1.0000  0.1737  0.3458  0.4012  1.0000\n  O   O3        1.0000  0.0416  0.5223  0.6658  1.0000\n  O   O4        1.0000  0.3179  0.6588  0.8946  1.0000\n  Ti  Ti3       1.0000  0.0057  0.0039  0.6971  1.0000\n  O   O5        1.0000  0.0006  0.0153  0.1976  1.0000\n  O   O6        1.0000  0.1747  0.8310  0.3992  1.0000\n  O   O7        1.0000  0.4675  0.5143  0.6636  1.0000\n  O   O8        1.0000  0.4657  0.9506  0.6630  1.0000\n  O   O9        1.0000  0.3432  0.1711  0.9013  1.0000\n  O   O10       1.0000  0.6616  0.8284  0.4021  1.0000\n  O   O11       1.0000  0.5210  0.0432  0.1656  1.0000\n  O   O12       1.0000  0.5148  0.4696  0.1653  1.0000\n  O   O13       1.0000  0.6631  0.3133  0.3941  1.0000\n  O   O14       1.0000  0.8292  0.1737  0.9004  1.0000\n  O   O15       1.0000  0.9490  0.4690  0.1638  1.0000\n  O   O16       1.0000  0.8308  0.6585  0.9016  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c81ab43e-4dd5-43d8-89ac-a2f5e2a22130",
    "mp_id": "mp-770995",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Co2HgO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8484\n_cell_length_b   5.6072\n_cell_length_c   11.4703\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Co2HgO4\n_chemical_formula_sum   'Co8 Hg4 O16'\n_cell_volume   311.8300\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Co  Co0  1  0.5034  0.0000  0.7554  1\n  Co  Co1  1  0.4966  0.5000  0.7446  1\n  Co  Co2  1  0.5034  0.0000  0.2446  1\n  Co  Co3  1  0.4966  0.5000  0.2554  1\n  Co  Co4  1  -0.0000  0.7500  0.7500  1\n  Co  Co5  1  -0.0000  0.7500  0.2500  1\n  Co  Co6  1  -0.0000  0.2500  0.7500  1\n  Co  Co7  1  -0.0000  0.2500  0.2500  1\n  Hg  Hg8  1  0.5744  0.5000  0.0000  1\n  Hg  Hg9  1  0.8788  0.5000  0.5000  1\n  Hg  Hg10  1  0.1212  0.0000  0.0000  1\n  Hg  Hg11  1  0.4256  0.0000  0.5000  1\n  O  O12  1  0.6672  0.7488  0.6609  1\n  O  O13  1  0.6672  0.7488  0.3391  1\n  O  O14  1  0.6672  0.2512  0.3391  1\n  O  O15  1  0.6672  0.2512  0.6609  1\n  O  O16  1  0.8440  0.0000  0.8368  1\n  O  O17  1  0.8440  0.0000  0.1632  1\n  O  O18  1  0.8247  0.5000  0.8329  1\n  O  O19  1  0.8247  0.5000  0.1671  1\n  O  O20  1  0.1753  0.0000  0.3329  1\n  O  O21  1  0.1753  0.0000  0.6671  1\n  O  O22  1  0.1560  0.5000  0.3368  1\n  O  O23  1  0.1560  0.5000  0.6632  1\n  O  O24  1  0.3328  0.7512  0.8391  1\n  O  O25  1  0.3328  0.7512  0.1609  1\n  O  O26  1  0.3328  0.2488  0.8391  1\n  O  O27  1  0.3328  0.2488  0.1609  1\n",
    "output": "data_image0\n_chemical_formula_structural       Co4OCo3Hg4O7CoO8\n_chemical_formula_sum              \"Co8 O16 Hg4\"\n_cell_length_a       4.8484\n_cell_length_b       5.6072\n_cell_length_c       11.4703\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Co  Co1       1.0000  0.5034  0.0000  0.7554  1.0000\n  Co  Co2       1.0000  0.4966  0.5000  0.7446  1.0000\n  Co  Co3       1.0000  0.5034  0.0000  0.2446  1.0000\n  Co  Co4       1.0000  0.4966  0.5000  0.2554  1.0000\n  O   O1        1.0000  0.0000  0.7500  0.7500  1.0000\n  Co  Co5       1.0000  0.0000  0.7500  0.2500  1.0000\n  Co  Co6       1.0000  0.0000  0.2500  0.7500  1.0000\n  Co  Co7       1.0000  0.0000  0.2500  0.2500  1.0000\n  Hg  Hg1       1.0000  0.5744  0.5000  0.0000  1.0000\n  Hg  Hg2       1.0000  0.8788  0.5000  0.5000  1.0000\n  Hg  Hg3       1.0000  0.1212  0.0000  0.0000  1.0000\n  Hg  Hg4       1.0000  0.4256  0.0000  0.5000  1.0000\n  O   O2        1.0000  0.6672  0.7488  0.6609  1.0000\n  O   O3        1.0000  0.6672  0.7488  0.3391  1.0000\n  O   O4        1.0000  0.6672  0.2512  0.3391  1.0000\n  O   O5        1.0000  0.6672  0.2512  0.6609  1.0000\n  O   O6        1.0000  0.8440  0.0000  0.8368  1.0000\n  O   O7        1.0000  0.8440  0.0000  0.1632  1.0000\n  O   O8        1.0000  0.8247  0.5000  0.8329  1.0000\n  Co  Co8       1.0000  0.8247  0.5000  0.1671  1.0000\n  O   O9        1.0000  0.1753  0.0000  0.3329  1.0000\n  O   O10       1.0000  0.1753  0.0000  0.6671  1.0000\n  O   O11       1.0000  0.1560  0.5000  0.3368  1.0000\n  O   O12       1.0000  0.1560  0.5000  0.6632  1.0000\n  O   O13       1.0000  0.3328  0.7512  0.8391  1.0000\n  O   O14       1.0000  0.3328  0.7512  0.1609  1.0000\n  O   O15       1.0000  0.3328  0.2488  0.8391  1.0000\n  O   O16       1.0000  0.3328  0.2488  0.1609  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1c2971ac-beca-4e54-a61b-49f67c5b7945",
    "mp_id": "mp-771674",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_MgCr3(SO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8571\n_cell_length_b   8.8571\n_cell_length_c   8.8571\n_cell_angle_alpha   55.9104\n_cell_angle_beta   55.9104\n_cell_angle_gamma   55.9104\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   MgCr3(SO4)6\n_chemical_formula_sum   'Mg1 Cr3 S6 O24'\n_cell_volume   444.7486\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mg  Mg0  1  0.6417  0.6417  0.6417  1\n  Cr  Cr1  1  0.8492  0.8492  0.8492  1\n  Cr  Cr2  1  0.3558  0.3558  0.3558  1\n  Cr  Cr3  1  0.1503  0.1503  0.1503  1\n  S  S4  1  0.5396  0.9606  0.2458  1\n  S  S5  1  0.7467  0.4612  0.0443  1\n  S  S6  1  0.0443  0.7467  0.4612  1\n  S  S7  1  0.9606  0.2458  0.5396  1\n  S  S8  1  0.2458  0.5396  0.9606  1\n  S  S9  1  0.4612  0.0443  0.7467  1\n  O  O10  1  0.6705  0.9934  0.0384  1\n  O  O11  1  0.3428  0.9819  0.2778  1\n  O  O12  1  0.7200  0.6510  0.0284  1\n  O  O13  1  0.0228  0.9546  0.3242  1\n  O  O14  1  0.2951  0.5107  0.1118  1\n  O  O15  1  0.6193  0.7658  0.3745  1\n  O  O16  1  0.9546  0.3242  0.0228  1\n  O  O17  1  0.2430  0.6162  0.3784  1\n  O  O18  1  0.8930  0.7063  0.4848  1\n  O  O19  1  0.4848  0.8930  0.7063  1\n  O  O20  1  0.6162  0.3784  0.2430  1\n  O  O21  1  0.0284  0.7200  0.6510  1\n  O  O22  1  0.9819  0.2778  0.3428  1\n  O  O23  1  0.3745  0.6193  0.7658  1\n  O  O24  1  0.5107  0.1118  0.2951  1\n  O  O25  1  0.1118  0.2951  0.5107  1\n  O  O26  1  0.7658  0.3745  0.6193  1\n  O  O27  1  0.0384  0.6705  0.9934  1\n  O  O28  1  0.3784  0.2430  0.6162  1\n  O  O29  1  0.7063  0.4848  0.8930  1\n  O  O30  1  0.9934  0.0384  0.6705  1\n  O  O31  1  0.2778  0.3428  0.9819  1\n  O  O32  1  0.6510  0.0284  0.7200  1\n  O  O33  1  0.3242  0.0228  0.9546  1\n",
    "output": "data_image0\n_chemical_formula_structural       MgCr3S5O16SO8\n_chemical_formula_sum              \"Mg1 Cr3 S6 O24\"\n_cell_length_a       8.8571\n_cell_length_b       8.8571\n_cell_length_c       8.8571\n_cell_angle_alpha    55.9104\n_cell_angle_beta     55.9104\n_cell_angle_gamma    55.9104\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mg  Mg1       1.0000  0.6417  0.6417  0.6417  1.0000\n  Cr  Cr1       1.0000  0.8492  0.8492  0.8492  1.0000\n  Cr  Cr2       1.0000  0.3558  0.3558  0.3558  1.0000\n  Cr  Cr3       1.0000  0.1503  0.1503  0.1503  1.0000\n  S   S1        1.0000  0.5396  0.9606  0.2458  1.0000\n  S   S2        1.0000  0.7467  0.4612  0.0443  1.0000\n  S   S3        1.0000  0.0443  0.7467  0.4612  1.0000\n  S   S4        1.0000  0.9606  0.2458  0.5396  1.0000\n  S   S5        1.0000  0.2458  0.5396  0.9606  1.0000\n  O   O1        1.0000  0.4612  0.0443  0.7467  1.0000\n  O   O2        1.0000  0.6705  0.9934  0.0384  1.0000\n  O   O3        1.0000  0.3428  0.9819  0.2778  1.0000\n  O   O4        1.0000  0.7200  0.6510  0.0284  1.0000\n  O   O5        1.0000  0.0228  0.9546  0.3242  1.0000\n  O   O6        1.0000  0.2951  0.5107  0.1118  1.0000\n  O   O7        1.0000  0.6193  0.7658  0.3745  1.0000\n  O   O8        1.0000  0.9546  0.3242  0.0228  1.0000\n  O   O9        1.0000  0.2430  0.6163  0.3784  1.0000\n  O   O10       1.0000  0.8930  0.7063  0.4848  1.0000\n  O   O11       1.0000  0.4848  0.8930  0.7063  1.0000\n  O   O12       1.0000  0.6162  0.3784  0.2430  1.0000\n  O   O13       1.0000  0.0284  0.7200  0.6510  1.0000\n  O   O14       1.0000  0.9819  0.2778  0.3428  1.0000\n  O   O15       1.0000  0.3745  0.6193  0.7658  1.0000\n  O   O16       1.0000  0.5107  0.1118  0.2951  1.0000\n  S   S6        1.0000  0.1118  0.2951  0.5107  1.0000\n  O   O17       1.0000  0.7658  0.3745  0.6193  1.0000\n  O   O18       1.0000  0.0384  0.6705  0.9934  1.0000\n  O   O19       1.0000  0.3784  0.2430  0.6162  1.0000\n  O   O20       1.0000  0.7063  0.4848  0.8930  1.0000\n  O   O21       1.0000  0.9934  0.0384  0.6705  1.0000\n  O   O22       1.0000  0.2778  0.3428  0.9819  1.0000\n  O   O23       1.0000  0.6510  0.0284  0.7200  1.0000\n  O   O24       1.0000  0.3242  0.0228  0.9546  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3fa9a6b1-9457-435a-b149-72fc5d865581",
    "mp_id": "mp-772172",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cr(PO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6800\n_cell_length_b   7.6800\n_cell_length_c   9.8466\n_cell_angle_alpha   65.2041\n_cell_angle_beta   65.2041\n_cell_angle_gamma   64.5733\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cr(PO3)2\n_chemical_formula_sum   'Cr4 P8 O24'\n_cell_volume   455.4190\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.0534  0.9466  0.2500  1\n  Cr  Cr1  1  -0.0000  0.5000  0.5000  1\n  Cr  Cr2  1  0.5000  -0.0000  0.0000  1\n  Cr  Cr3  1  0.9466  0.0534  0.7500  1\n  P  P4  1  0.6837  0.6872  0.8063  1\n  P  P5  1  0.2498  0.7276  0.9784  1\n  P  P6  1  0.6872  0.6837  0.3063  1\n  P  P7  1  0.2724  0.7502  0.5216  1\n  P  P8  1  0.7276  0.2498  0.4784  1\n  P  P9  1  0.3128  0.3163  0.6937  1\n  P  P10  1  0.7502  0.2724  0.0216  1\n  P  P11  1  0.3163  0.3128  0.1937  1\n  O  O12  1  0.7957  0.6542  0.6517  1\n  O  O13  1  0.2699  0.7983  0.0903  1\n  O  O14  1  0.4564  0.7011  0.8408  1\n  O  O15  1  0.8654  0.6884  0.3292  1\n  O  O16  1  0.0816  0.8441  0.9098  1\n  O  O17  1  0.7983  0.2699  0.5903  1\n  O  O18  1  0.2419  0.5023  0.0573  1\n  O  O19  1  0.1559  0.9184  0.5902  1\n  O  O20  1  0.4977  0.7581  0.4427  1\n  O  O21  1  0.6542  0.7957  0.1517  1\n  O  O22  1  0.2989  0.5436  0.6592  1\n  O  O23  1  0.3116  0.1346  0.1708  1\n  O  O24  1  0.6884  0.8654  0.8292  1\n  O  O25  1  0.7011  0.4564  0.3408  1\n  O  O26  1  0.3458  0.2043  0.8483  1\n  O  O27  1  0.5023  0.2419  0.5573  1\n  O  O28  1  0.8441  0.0816  0.4098  1\n  O  O29  1  0.7581  0.4977  0.9427  1\n  O  O30  1  0.2017  0.7301  0.4097  1\n  O  O31  1  0.9184  0.1559  0.0902  1\n  O  O32  1  0.1346  0.3116  0.6708  1\n  O  O33  1  0.5436  0.2989  0.1592  1\n  O  O34  1  0.7301  0.2017  0.9097  1\n  O  O35  1  0.2043  0.3458  0.3483  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr4P7OPO23\n_chemical_formula_sum              \"Cr4 P8 O24\"\n_cell_length_a       7.6800\n_cell_length_b       7.6800\n_cell_length_c       9.8466\n_cell_angle_alpha    65.2041\n_cell_angle_beta     65.2041\n_cell_angle_gamma    64.5733\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.0534  0.9466  0.2500  1.0000\n  Cr  Cr2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Cr  Cr3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Cr  Cr4       1.0000  0.9466  0.0534  0.7500  1.0000\n  P   P1        1.0000  0.6837  0.6872  0.8063  1.0000\n  P   P2        1.0000  0.2498  0.7276  0.9784  1.0000\n  P   P3        1.0000  0.6872  0.6837  0.3063  1.0000\n  P   P4        1.0000  0.2724  0.7502  0.5216  1.0000\n  P   P5        1.0000  0.7276  0.2498  0.4784  1.0000\n  P   P6        1.0000  0.3128  0.3163  0.6937  1.0000\n  P   P7        1.0000  0.7502  0.2724  0.0216  1.0000\n  O   O1        1.0000  0.3163  0.3128  0.1937  1.0000\n  P   P8        1.0000  0.7957  0.6542  0.6517  1.0000\n  O   O2        1.0000  0.2699  0.7983  0.0903  1.0000\n  O   O3        1.0000  0.4564  0.7011  0.8408  1.0000\n  O   O4        1.0000  0.8654  0.6884  0.3292  1.0000\n  O   O5        1.0000  0.0816  0.8441  0.9098  1.0000\n  O   O6        1.0000  0.7983  0.2699  0.5903  1.0000\n  O   O7        1.0000  0.2419  0.5023  0.0573  1.0000\n  O   O8        1.0000  0.1559  0.9184  0.5902  1.0000\n  O   O9        1.0000  0.4977  0.7581  0.4427  1.0000\n  O   O10       1.0000  0.6542  0.7957  0.1517  1.0000\n  O   O11       1.0000  0.2989  0.5436  0.6592  1.0000\n  O   O12       1.0000  0.3116  0.1346  0.1708  1.0000\n  O   O13       1.0000  0.6884  0.8654  0.8292  1.0000\n  O   O14       1.0000  0.7011  0.4564  0.3408  1.0000\n  O   O15       1.0000  0.3458  0.2043  0.8483  1.0000\n  O   O16       1.0000  0.5023  0.2419  0.5573  1.0000\n  O   O17       1.0000  0.8441  0.0816  0.4098  1.0000\n  O   O18       1.0000  0.7581  0.4977  0.9427  1.0000\n  O   O19       1.0000  0.2017  0.7301  0.4097  1.0000\n  O   O20       1.0000  0.9184  0.1559  0.0902  1.0000\n  O   O21       1.0000  0.1346  0.3116  0.6708  1.0000\n  O   O22       1.0000  0.5436  0.2989  0.1592  1.0000\n  O   O23       1.0000  0.7301  0.2017  0.9097  1.0000\n  O   O24       1.0000  0.2043  0.3458  0.3483  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f20b7142-0e3b-4aef-a9c3-1e270f0f5dd2",
    "mp_id": "mp-772550",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.8700\n_cell_length_b   6.8700\n_cell_length_c   5.8576\n_cell_angle_alpha   74.7341\n_cell_angle_beta   74.7341\n_cell_angle_gamma   84.3929\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrO3\n_chemical_formula_sum   'Cr4 O12'\n_cell_volume   257.1743\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.7964  0.6174  0.7701  1\n  Cr  Cr1  1  0.6174  0.7964  0.2701  1\n  Cr  Cr2  1  0.3826  0.2036  0.7299  1\n  Cr  Cr3  1  0.2036  0.3826  0.2299  1\n  O  O4  1  0.9697  0.7764  0.6672  1\n  O  O5  1  0.8971  0.3958  0.8130  1\n  O  O6  1  0.7764  0.9697  0.1672  1\n  O  O7  1  0.6493  0.6430  0.5548  1\n  O  O8  1  0.6042  0.1029  0.6870  1\n  O  O9  1  0.6430  0.6493  0.0548  1\n  O  O10  1  0.3570  0.3507  0.9452  1\n  O  O11  1  0.3958  0.8971  0.3130  1\n  O  O12  1  0.3507  0.3570  0.4452  1\n  O  O13  1  0.2236  0.0303  0.8328  1\n  O  O14  1  0.1029  0.6042  0.1870  1\n  O  O15  1  0.0303  0.2236  0.3328  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr3O3CrO9\n_chemical_formula_sum              \"Cr4 O12\"\n_cell_length_a       6.8700\n_cell_length_b       6.8700\n_cell_length_c       5.8576\n_cell_angle_alpha    74.7341\n_cell_angle_beta     74.7341\n_cell_angle_gamma    84.3929\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.7964  0.6174  0.7701  1.0000\n  Cr  Cr2       1.0000  0.6174  0.7964  0.2701  1.0000\n  Cr  Cr3       1.0000  0.3826  0.2036  0.7299  1.0000\n  O   O1        1.0000  0.2036  0.3826  0.2299  1.0000\n  O   O2        1.0000  0.9697  0.7764  0.6672  1.0000\n  O   O3        1.0000  0.8971  0.3958  0.8130  1.0000\n  Cr  Cr4       1.0000  0.7764  0.9697  0.1672  1.0000\n  O   O4        1.0000  0.6493  0.6430  0.5548  1.0000\n  O   O5        1.0000  0.6042  0.1029  0.6870  1.0000\n  O   O6        1.0000  0.6430  0.6493  0.0548  1.0000\n  O   O7        1.0000  0.3570  0.3507  0.9452  1.0000\n  O   O8        1.0000  0.3958  0.8971  0.3130  1.0000\n  O   O9        1.0000  0.3507  0.3570  0.4452  1.0000\n  O   O10       1.0000  0.2236  0.0303  0.8328  1.0000\n  O   O11       1.0000  0.1029  0.6042  0.1870  1.0000\n  O   O12       1.0000  0.0303  0.2236  0.3328  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9e435be5-2db6-4b54-9c62-83f6b42536b5",
    "mp_id": "mp-772610",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 30 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ho2(SeO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.7960\n_cell_length_b   6.7960\n_cell_length_c   11.3054\n_cell_angle_alpha   80.6293\n_cell_angle_beta   80.6293\n_cell_angle_gamma   117.0743\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ho2(SeO4)3\n_chemical_formula_sum   'Ho4 Se6 O24'\n_cell_volume   441.7246\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ho  Ho0  1  0.7081  0.9576  0.5945  1\n  Ho  Ho1  1  0.9576  0.7081  0.0945  1\n  Ho  Ho2  1  0.0424  0.2919  0.9055  1\n  Ho  Ho3  1  0.2919  0.0424  0.4055  1\n  Se  Se4  1  0.5284  0.7860  0.9245  1\n  Se  Se5  1  0.7860  0.5284  0.4245  1\n  Se  Se6  1  0.1198  0.8802  0.7500  1\n  Se  Se7  1  0.8802  0.1198  0.2500  1\n  Se  Se8  1  0.2140  0.4716  0.5755  1\n  Se  Se9  1  0.4716  0.2140  0.0755  1\n  O  O10  1  0.5870  0.9721  0.7894  1\n  O  O11  1  0.8738  0.7864  0.7117  1\n  O  O12  1  0.0798  0.6789  0.8775  1\n  O  O13  1  0.7674  0.3371  0.5436  1\n  O  O14  1  0.7894  0.8886  0.9578  1\n  O  O15  1  0.4699  0.5760  0.6055  1\n  O  O16  1  0.9721  0.5870  0.2894  1\n  O  O17  1  0.4240  0.5301  0.8945  1\n  O  O18  1  0.1114  0.2106  0.5422  1\n  O  O19  1  0.6629  0.2326  0.9564  1\n  O  O20  1  0.3211  0.9202  0.6225  1\n  O  O21  1  0.7864  0.8738  0.2117  1\n  O  O22  1  0.2136  0.1262  0.7883  1\n  O  O23  1  0.6789  0.0798  0.3775  1\n  O  O24  1  0.3371  0.7674  0.0436  1\n  O  O25  1  0.8886  0.7894  0.4578  1\n  O  O26  1  0.5760  0.4699  0.1055  1\n  O  O27  1  0.0279  0.4130  0.7106  1\n  O  O28  1  0.5301  0.4240  0.3945  1\n  O  O29  1  0.2106  0.1114  0.0422  1\n  O  O30  1  0.2326  0.6629  0.4564  1\n  O  O31  1  0.9202  0.3211  0.1225  1\n  O  O32  1  0.1262  0.2136  0.2883  1\n  O  O33  1  0.4130  0.0279  0.2106  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ho4Se3OSe2O20SeO3\n_chemical_formula_sum              \"Ho4 Se6 O24\"\n_cell_length_a       6.7960\n_cell_length_b       6.7960\n_cell_length_c       11.3054\n_cell_angle_alpha    80.6293\n_cell_angle_beta     80.6293\n_cell_angle_gamma    117.0743\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ho  Ho1       1.0000  0.7081  0.9576  0.5945  1.0000\n  Ho  Ho2       1.0000  0.9576  0.7081  0.0945  1.0000\n  Ho  Ho3       1.0000  0.0424  0.2919  0.9055  1.0000\n  Ho  Ho4       1.0000  0.2919  0.0424  0.4055  1.0000\n  Se  Se1       1.0000  0.5284  0.7860  0.9245  1.0000\n  Se  Se2       1.0000  0.7860  0.5284  0.4245  1.0000\n  Se  Se3       1.0000  0.1198  0.8802  0.7500  1.0000\n  O   O1        1.0000  0.8802  0.1198  0.2500  1.0000\n  Se  Se4       1.0000  0.2140  0.4716  0.5755  1.0000\n  Se  Se5       1.0000  0.4716  0.2140  0.0755  1.0000\n  O   O2        1.0000  0.5870  0.9721  0.7894  1.0000\n  O   O3        1.0000  0.8738  0.7864  0.7117  1.0000\n  O   O4        1.0000  0.0798  0.6789  0.8775  1.0000\n  O   O5        1.0000  0.7674  0.3371  0.5436  1.0000\n  O   O6        1.0000  0.7894  0.8886  0.9578  1.0000\n  O   O7        1.0000  0.4699  0.5760  0.6055  1.0000\n  O   O8        1.0000  0.9721  0.5870  0.2894  1.0000\n  O   O9        1.0000  0.4240  0.5301  0.8945  1.0000\n  O   O10       1.0000  0.1114  0.2106  0.5422  1.0000\n  O   O11       1.0000  0.6629  0.2326  0.9564  1.0000\n  O   O12       1.0000  0.3211  0.9202  0.6225  1.0000\n  O   O13       1.0000  0.7864  0.8738  0.2117  1.0000\n  O   O14       1.0000  0.2136  0.1262  0.7883  1.0000\n  O   O15       1.0000  0.6789  0.0798  0.3775  1.0000\n  O   O16       1.0000  0.3371  0.7674  0.0436  1.0000\n  O   O17       1.0000  0.8886  0.7894  0.4578  1.0000\n  O   O18       1.0000  0.5760  0.4699  0.1055  1.0000\n  O   O19       1.0000  0.0279  0.4130  0.7106  1.0000\n  O   O20       1.0000  0.5301  0.4240  0.3945  1.0000\n  O   O21       1.0000  0.2106  0.1114  0.0422  1.0000\n  Se  Se6       1.0000  0.2326  0.6629  0.4564  1.0000\n  O   O22       1.0000  0.9202  0.3211  0.1225  1.0000\n  O   O23       1.0000  0.1262  0.2136  0.2883  1.0000\n  O   O24       1.0000  0.4130  0.0279  0.2106  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3b0588c8-a61b-4889-9209-a568a025c6f8",
    "mp_id": "mp-772749",
    "action_prompt": "Swap the spatial positions of atoms at indices 46 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ti17(NO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.5017\n_cell_length_b   7.5017\n_cell_length_c   10.7366\n_cell_angle_alpha   74.2114\n_cell_angle_beta   74.2114\n_cell_angle_gamma   80.2810\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ti17(NO4)6\n_chemical_formula_sum   'Ti17 N6 O24'\n_cell_volume   556.5367\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ti  Ti0  1  0.7130  0.4977  0.6731  1\n  Ti  Ti1  1  0.9484  0.1702  0.8223  1\n  Ti  Ti2  1  0.8298  0.0516  0.1777  1\n  Ti  Ti3  1  0.7823  0.8890  0.5003  1\n  Ti  Ti4  1  0.5023  0.2870  0.3269  1\n  Ti  Ti5  1  0.5539  0.4461  0.0000  1\n  Ti  Ti6  1  0.3879  0.1714  0.6726  1\n  Ti  Ti7  1  0.8286  0.6121  0.3274  1\n  Ti  Ti8  1  0.1633  0.3857  0.1754  1\n  Ti  Ti9  1  0.1110  0.2177  0.4997  1\n  Ti  Ti10  1  0.8842  0.7794  0.0010  1\n  Ti  Ti11  1  0.2206  0.1158  0.9990  1\n  Ti  Ti12  1  0.6143  0.8367  0.8246  1\n  Ti  Ti13  1  0.0543  0.8238  0.6824  1\n  Ti  Ti14  1  0.4918  0.7132  0.1929  1\n  Ti  Ti15  1  0.1762  0.9457  0.3176  1\n  Ti  Ti16  1  0.2868  0.5082  0.8071  1\n  N  N17  1  0.9808  0.0192  0.0000  1\n  N  N18  1  0.3499  0.2908  0.4998  1\n  N  N19  1  0.3153  0.3551  0.9991  1\n  N  N20  1  0.7092  0.6501  0.5002  1\n  N  N21  1  0.0201  0.9799  0.5000  1\n  N  N22  1  0.6449  0.6847  0.0009  1\n  O  O23  1  0.9192  0.3241  0.6320  1\n  O  O24  1  0.6397  0.4937  0.2996  1\n  O  O25  1  0.5063  0.3603  0.7004  1\n  O  O26  1  0.9555  0.8388  0.3124  1\n  O  O27  1  0.6759  0.0808  0.3680  1\n  O  O28  1  0.6553  0.2503  0.1296  1\n  O  O29  1  0.7497  0.3447  0.8704  1\n  O  O30  1  0.5875  0.9926  0.6312  1\n  O  O31  1  0.8305  0.7138  0.6877  1\n  O  O32  1  0.2862  0.1695  0.3123  1\n  O  O33  1  0.7079  0.8325  0.1878  1\n  O  O34  1  0.8267  0.9598  0.8188  1\n  O  O35  1  0.0074  0.4125  0.3688  1\n  O  O36  1  0.1612  0.0445  0.6876  1\n  O  O37  1  0.9949  0.5912  0.1304  1\n  O  O38  1  0.4088  0.0051  0.8696  1\n  O  O39  1  0.1675  0.2921  0.8122  1\n  O  O40  1  0.3400  0.7530  0.3593  1\n  O  O41  1  0.2470  0.6600  0.6407  1\n  O  O42  1  0.3246  0.9244  0.1279  1\n  O  O43  1  0.0402  0.1733  0.1812  1\n  O  O44  1  0.5013  0.6236  0.8128  1\n  O  O45  1  0.3764  0.4987  0.1872  1\n  O  O46  1  0.0756  0.6754  0.8721  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ti5OTi11N6O23Ti\n_chemical_formula_sum              \"Ti17 O24 N6\"\n_cell_length_a       7.5017\n_cell_length_b       7.5017\n_cell_length_c       10.7366\n_cell_angle_alpha    74.2114\n_cell_angle_beta     74.2114\n_cell_angle_gamma    80.2810\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ti  Ti1       1.0000  0.7130  0.4977  0.6731  1.0000\n  Ti  Ti2       1.0000  0.9484  0.1702  0.8223  1.0000\n  Ti  Ti3       1.0000  0.8298  0.0516  0.1777  1.0000\n  Ti  Ti4       1.0000  0.7823  0.8890  0.5003  1.0000\n  Ti  Ti5       1.0000  0.5023  0.2870  0.3269  1.0000\n  O   O1        1.0000  0.5539  0.4461  0.0000  1.0000\n  Ti  Ti6       1.0000  0.3879  0.1714  0.6726  1.0000\n  Ti  Ti7       1.0000  0.8286  0.6121  0.3274  1.0000\n  Ti  Ti8       1.0000  0.1633  0.3857  0.1754  1.0000\n  Ti  Ti9       1.0000  0.1110  0.2177  0.4997  1.0000\n  Ti  Ti10      1.0000  0.8842  0.7794  0.0010  1.0000\n  Ti  Ti11      1.0000  0.2206  0.1158  0.9990  1.0000\n  Ti  Ti12      1.0000  0.6143  0.8367  0.8246  1.0000\n  Ti  Ti13      1.0000  0.0543  0.8238  0.6824  1.0000\n  Ti  Ti14      1.0000  0.4918  0.7132  0.1929  1.0000\n  Ti  Ti15      1.0000  0.1762  0.9457  0.3176  1.0000\n  Ti  Ti16      1.0000  0.2868  0.5082  0.8071  1.0000\n  N   N1        1.0000  0.9808  0.0192  0.0000  1.0000\n  N   N2        1.0000  0.3499  0.2908  0.4998  1.0000\n  N   N3        1.0000  0.3153  0.3551  0.9991  1.0000\n  N   N4        1.0000  0.7092  0.6501  0.5002  1.0000\n  N   N5        1.0000  0.0201  0.9799  0.5000  1.0000\n  N   N6        1.0000  0.6449  0.6847  0.0009  1.0000\n  O   O2        1.0000  0.9192  0.3241  0.6320  1.0000\n  O   O3        1.0000  0.6397  0.4937  0.2996  1.0000\n  O   O4        1.0000  0.5063  0.3603  0.7004  1.0000\n  O   O5        1.0000  0.9555  0.8388  0.3124  1.0000\n  O   O6        1.0000  0.6759  0.0808  0.3680  1.0000\n  O   O7        1.0000  0.6553  0.2503  0.1296  1.0000\n  O   O8        1.0000  0.7497  0.3447  0.8704  1.0000\n  O   O9        1.0000  0.5875  0.9926  0.6312  1.0000\n  O   O10       1.0000  0.8305  0.7138  0.6877  1.0000\n  O   O11       1.0000  0.2862  0.1695  0.3123  1.0000\n  O   O12       1.0000  0.7079  0.8325  0.1878  1.0000\n  O   O13       1.0000  0.8267  0.9598  0.8188  1.0000\n  O   O14       1.0000  0.0074  0.4125  0.3688  1.0000\n  O   O15       1.0000  0.1612  0.0445  0.6876  1.0000\n  O   O16       1.0000  0.9949  0.5912  0.1304  1.0000\n  O   O17       1.0000  0.4088  0.0051  0.8696  1.0000\n  O   O18       1.0000  0.1675  0.2921  0.8122  1.0000\n  O   O19       1.0000  0.3400  0.7530  0.3593  1.0000\n  O   O20       1.0000  0.2470  0.6600  0.6407  1.0000\n  O   O21       1.0000  0.3246  0.9244  0.1279  1.0000\n  O   O22       1.0000  0.0402  0.1733  0.1812  1.0000\n  O   O23       1.0000  0.5013  0.6236  0.8128  1.0000\n  O   O24       1.0000  0.3764  0.4987  0.1872  1.0000\n  Ti  Ti17      1.0000  0.0756  0.6754  0.8721  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "279f5b90-ea56-467f-81f8-590d0dd5dc25",
    "mp_id": "mp-772763",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_K2ScPCO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9110\n_cell_length_b   5.7228\n_cell_length_c   9.7834\n_cell_angle_alpha   89.0157\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   K2ScPCO7\n_chemical_formula_sum   'K4 Sc2 P2 C2 O14'\n_cell_volume   386.8842\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.4833  0.2473  0.7662  1\n  K  K1  1  0.0167  0.2473  0.7662  1\n  K  K2  1  0.5167  0.7527  0.2338  1\n  K  K3  1  0.9833  0.7527  0.2338  1\n  Sc  Sc4  1  0.7500  0.7758  0.6391  1\n  Sc  Sc5  1  0.2500  0.2242  0.3609  1\n  P  P6  1  0.2500  0.7178  0.5668  1\n  P  P7  1  0.7500  0.2822  0.4331  1\n  C  C8  1  0.7500  0.7297  0.9031  1\n  C  C9  1  0.2500  0.2703  0.0969  1\n  O  O10  1  0.2500  0.2970  0.9698  1\n  O  O11  1  0.7500  0.9351  0.8395  1\n  O  O12  1  0.7500  0.5524  0.8170  1\n  O  O13  1  0.0642  0.7625  0.6512  1\n  O  O14  1  0.4358  0.7625  0.6512  1\n  O  O15  1  0.7500  0.1181  0.5627  1\n  O  O16  1  0.2500  0.4566  0.5204  1\n  O  O17  1  0.7500  0.5434  0.4796  1\n  O  O18  1  0.2500  0.8819  0.4373  1\n  O  O19  1  0.5642  0.2375  0.3488  1\n  O  O20  1  0.9358  0.2375  0.3488  1\n  O  O21  1  0.2500  0.4476  0.1830  1\n  O  O22  1  0.2500  0.0649  0.1605  1\n  O  O23  1  0.7500  0.7030  0.0302  1\n",
    "output": "data_image0\n_chemical_formula_structural       K4Sc2P2OCO7CO6\n_chemical_formula_sum              \"K4 Sc2 P2 O14 C2\"\n_cell_length_a       6.9110\n_cell_length_b       5.7228\n_cell_length_c       9.7834\n_cell_angle_alpha    89.0157\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.4833  0.2473  0.7662  1.0000\n  K   K2        1.0000  0.0167  0.2473  0.7662  1.0000\n  K   K3        1.0000  0.5167  0.7527  0.2338  1.0000\n  K   K4        1.0000  0.9833  0.7527  0.2338  1.0000\n  Sc  Sc1       1.0000  0.7500  0.7758  0.6391  1.0000\n  Sc  Sc2       1.0000  0.2500  0.2242  0.3609  1.0000\n  P   P1        1.0000  0.2500  0.7178  0.5668  1.0000\n  P   P2        1.0000  0.7500  0.2822  0.4332  1.0000\n  O   O1        1.0000  0.7500  0.7297  0.9031  1.0000\n  C   C1        1.0000  0.2500  0.2703  0.0969  1.0000\n  O   O2        1.0000  0.2500  0.2970  0.9698  1.0000\n  O   O3        1.0000  0.7500  0.9351  0.8395  1.0000\n  O   O4        1.0000  0.7500  0.5524  0.8170  1.0000\n  O   O5        1.0000  0.0642  0.7625  0.6512  1.0000\n  O   O6        1.0000  0.4358  0.7625  0.6512  1.0000\n  O   O7        1.0000  0.7500  0.1181  0.5627  1.0000\n  O   O8        1.0000  0.2500  0.4566  0.5204  1.0000\n  C   C2        1.0000  0.7500  0.5434  0.4796  1.0000\n  O   O9        1.0000  0.2500  0.8819  0.4373  1.0000\n  O   O10       1.0000  0.5642  0.2375  0.3488  1.0000\n  O   O11       1.0000  0.9358  0.2375  0.3488  1.0000\n  O   O12       1.0000  0.2500  0.4476  0.1830  1.0000\n  O   O13       1.0000  0.2500  0.0649  0.1605  1.0000\n  O   O14       1.0000  0.7500  0.7030  0.0302  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "08a138c5-b711-4734-b2ab-cf3d99704edd",
    "mp_id": "mp-772999",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na2SiBiBO7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.9090\n_cell_length_b   5.4383\n_cell_length_c   9.4148\n_cell_angle_alpha   89.0851\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na2SiBiBO7\n_chemical_formula_sum   'Na4 Si2 Bi2 B2 O14'\n_cell_volume   353.6975\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.9993  0.7655  0.7905  1\n  Na  Na1  1  0.5007  0.7655  0.7905  1\n  Na  Na2  1  0.4993  0.2345  0.2095  1\n  Na  Na3  1  0.0007  0.2345  0.2095  1\n  Si  Si4  1  0.7500  0.2825  0.5730  1\n  Si  Si5  1  0.2500  0.7175  0.4270  1\n  Bi  Bi6  1  0.2500  0.2201  0.6538  1\n  Bi  Bi7  1  0.7500  0.7799  0.3462  1\n  B  B8  1  0.2500  0.2716  0.9309  1\n  B  B9  1  0.7500  0.7284  0.0691  1\n  O  O10  1  0.7500  0.6973  0.9307  1\n  O  O11  1  0.2500  0.0424  0.8589  1\n  O  O12  1  0.2500  0.4725  0.8269  1\n  O  O13  1  0.9381  0.1977  0.6671  1\n  O  O14  1  0.5619  0.1977  0.6671  1\n  O  O15  1  0.2500  0.8408  0.5865  1\n  O  O16  1  0.7500  0.5884  0.5484  1\n  O  O17  1  0.2500  0.4116  0.4516  1\n  O  O18  1  0.7500  0.1592  0.4135  1\n  O  O19  1  0.4381  0.8023  0.3329  1\n  O  O20  1  0.0619  0.8023  0.3329  1\n  O  O21  1  0.7500  0.5275  0.1731  1\n  O  O22  1  0.7500  0.9576  0.1411  1\n  O  O23  1  0.2500  0.3027  0.0693  1\n",
    "output": "data_image0\n_chemical_formula_structural       BiNa3Si2BiNaB2O14\n_chemical_formula_sum              \"Bi2 Na4 Si2 B2 O14\"\n_cell_length_a       6.9090\n_cell_length_b       5.4383\n_cell_length_c       9.4148\n_cell_angle_alpha    89.0851\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Bi  Bi1       1.0000  0.9993  0.7655  0.7905  1.0000\n  Na  Na1       1.0000  0.5007  0.7655  0.7905  1.0000\n  Na  Na2       1.0000  0.4993  0.2345  0.2095  1.0000\n  Na  Na3       1.0000  0.0007  0.2345  0.2095  1.0000\n  Si  Si1       1.0000  0.7500  0.2825  0.5730  1.0000\n  Si  Si2       1.0000  0.2500  0.7175  0.4270  1.0000\n  Bi  Bi2       1.0000  0.2500  0.2201  0.6538  1.0000\n  Na  Na4       1.0000  0.7500  0.7799  0.3462  1.0000\n  B   B1        1.0000  0.2500  0.2716  0.9309  1.0000\n  B   B2        1.0000  0.7500  0.7284  0.0691  1.0000\n  O   O1        1.0000  0.7500  0.6973  0.9307  1.0000\n  O   O2        1.0000  0.2500  0.0424  0.8589  1.0000\n  O   O3        1.0000  0.2500  0.4725  0.8269  1.0000\n  O   O4        1.0000  0.9381  0.1977  0.6671  1.0000\n  O   O5        1.0000  0.5619  0.1977  0.6671  1.0000\n  O   O6        1.0000  0.2500  0.8408  0.5865  1.0000\n  O   O7        1.0000  0.7500  0.5884  0.5484  1.0000\n  O   O8        1.0000  0.2500  0.4116  0.4516  1.0000\n  O   O9        1.0000  0.7500  0.1592  0.4135  1.0000\n  O   O10       1.0000  0.4381  0.8023  0.3329  1.0000\n  O   O11       1.0000  0.0619  0.8023  0.3329  1.0000\n  O   O12       1.0000  0.7500  0.5275  0.1731  1.0000\n  O   O13       1.0000  0.7500  0.9576  0.1411  1.0000\n  O   O14       1.0000  0.2500  0.3027  0.0693  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "84f9a03f-809a-45de-bbbb-733e0c81a25f",
    "mp_id": "mp-773070",
    "action_prompt": "Swap the spatial positions of atoms at indices 40 and 15 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KNb2O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   12.9623\n_cell_length_b   4.1189\n_cell_length_c   12.9346\n_cell_angle_alpha   88.6757\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KNb2O5\n_chemical_formula_sum   'K6 Nb12 O30'\n_cell_volume   690.4015\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.2444  0.5202  0.0013  1\n  K  K1  1  0.4140  0.5134  0.3266  1\n  K  K2  1  0.5860  0.5134  0.8266  1\n  K  K3  1  0.7556  0.5202  0.5013  1\n  K  K4  1  0.9294  0.5070  0.1711  1\n  K  K5  1  0.0706  0.5070  0.6711  1\n  Nb  Nb6  1  0.2388  0.0012  0.4870  1\n  Nb  Nb7  1  0.3213  0.0329  0.7952  1\n  Nb  Nb8  1  0.3720  0.3917  0.6318  1\n  Nb  Nb9  1  0.4474  0.0131  0.0727  1\n  Nb  Nb10  1  0.5526  0.0131  0.5727  1\n  Nb  Nb11  1  0.6280  0.3917  0.1318  1\n  Nb  Nb12  1  0.6787  0.0329  0.2952  1\n  Nb  Nb13  1  0.7612  0.0012  0.9870  1\n  Nb  Nb14  1  0.8347  0.9870  0.7063  1\n  Nb  Nb15  1  0.9575  0.9879  0.4209  1\n  Nb  Nb16  1  0.0425  0.9879  0.9209  1\n  Nb  Nb17  1  0.1653  0.9870  0.2063  1\n  O  O18  1  0.2623  0.5352  0.5099  1\n  O  O19  1  0.2518  0.0518  0.6500  1\n  O  O20  1  0.3183  0.0328  0.1415  1\n  O  O21  1  0.3290  0.5482  0.7821  1\n  O  O22  1  0.3914  0.0269  0.9340  1\n  O  O23  1  0.4006  0.0653  0.5091  1\n  O  O24  1  0.4633  0.0358  0.7115  1\n  O  O25  1  0.4716  0.5324  0.0772  1\n  O  O26  1  0.5284  0.5324  0.5772  1\n  O  O27  1  0.5367  0.0358  0.2115  1\n  O  O28  1  0.5994  0.0653  0.0091  1\n  O  O29  1  0.6086  0.0269  0.4340  1\n  O  O30  1  0.6710  0.5482  0.2821  1\n  O  O31  1  0.6817  0.0328  0.6415  1\n  O  O32  1  0.7482  0.0518  0.1500  1\n  O  O33  1  0.7377  0.5352  0.0099  1\n  O  O34  1  0.7479  0.0350  0.8430  1\n  O  O35  1  0.8197  0.0364  0.3587  1\n  O  O36  1  0.8267  0.5396  0.7064  1\n  O  O37  1  0.8928  0.0356  0.5686  1\n  O  O38  1  0.9052  0.0332  0.0021  1\n  O  O39  1  0.9626  0.0316  0.7873  1\n  O  O40  1  0.9569  0.5397  0.4237  1\n  O  O41  1  0.0431  0.5397  0.9237  1\n  O  O42  1  0.0374  0.0316  0.2873  1\n  O  O43  1  0.0948  0.0332  0.5021  1\n  O  O44  1  0.1072  0.0356  0.0686  1\n  O  O45  1  0.1733  0.5396  0.2064  1\n  O  O46  1  0.1803  0.0364  0.8587  1\n  O  O47  1  0.2521  0.0350  0.3430  1\n",
    "output": "data_image0\n_chemical_formula_structural       K6Nb9ONb2O22NbO7\n_chemical_formula_sum              \"K6 Nb12 O30\"\n_cell_length_a       12.9623\n_cell_length_b       4.1189\n_cell_length_c       12.9346\n_cell_angle_alpha    88.6757\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  K   K1        1.0000  0.2444  0.5202  0.0013  1.0000\n  K   K2        1.0000  0.4140  0.5134  0.3266  1.0000\n  K   K3        1.0000  0.5860  0.5134  0.8266  1.0000\n  K   K4        1.0000  0.7556  0.5202  0.5013  1.0000\n  K   K5        1.0000  0.9294  0.5070  0.1711  1.0000\n  K   K6        1.0000  0.0706  0.5070  0.6711  1.0000\n  Nb  Nb1       1.0000  0.2388  0.0012  0.4870  1.0000\n  Nb  Nb2       1.0000  0.3213  0.0329  0.7952  1.0000\n  Nb  Nb3       1.0000  0.3720  0.3917  0.6318  1.0000\n  Nb  Nb4       1.0000  0.4474  0.0131  0.0727  1.0000\n  Nb  Nb5       1.0000  0.5526  0.0131  0.5727  1.0000\n  Nb  Nb6       1.0000  0.6280  0.3917  0.1318  1.0000\n  Nb  Nb7       1.0000  0.6787  0.0329  0.2952  1.0000\n  Nb  Nb8       1.0000  0.7612  0.0012  0.9870  1.0000\n  Nb  Nb9       1.0000  0.8347  0.9870  0.7063  1.0000\n  O   O1        1.0000  0.9575  0.9879  0.4209  1.0000\n  Nb  Nb10      1.0000  0.0425  0.9879  0.9209  1.0000\n  Nb  Nb11      1.0000  0.1653  0.9870  0.2063  1.0000\n  O   O2        1.0000  0.2623  0.5352  0.5099  1.0000\n  O   O3        1.0000  0.2518  0.0518  0.6500  1.0000\n  O   O4        1.0000  0.3183  0.0328  0.1415  1.0000\n  O   O5        1.0000  0.3290  0.5482  0.7821  1.0000\n  O   O6        1.0000  0.3914  0.0269  0.9340  1.0000\n  O   O7        1.0000  0.4006  0.0653  0.5091  1.0000\n  O   O8        1.0000  0.4633  0.0358  0.7115  1.0000\n  O   O9        1.0000  0.4716  0.5324  0.0772  1.0000\n  O   O10       1.0000  0.5284  0.5324  0.5772  1.0000\n  O   O11       1.0000  0.5367  0.0358  0.2115  1.0000\n  O   O12       1.0000  0.5994  0.0653  0.0091  1.0000\n  O   O13       1.0000  0.6086  0.0269  0.4340  1.0000\n  O   O14       1.0000  0.6710  0.5482  0.2821  1.0000\n  O   O15       1.0000  0.6817  0.0328  0.6415  1.0000\n  O   O16       1.0000  0.7482  0.0518  0.1500  1.0000\n  O   O17       1.0000  0.7377  0.5352  0.0099  1.0000\n  O   O18       1.0000  0.7479  0.0350  0.8430  1.0000\n  O   O19       1.0000  0.8197  0.0364  0.3587  1.0000\n  O   O20       1.0000  0.8267  0.5396  0.7064  1.0000\n  O   O21       1.0000  0.8928  0.0356  0.5686  1.0000\n  O   O22       1.0000  0.9052  0.0332  0.0021  1.0000\n  O   O23       1.0000  0.9626  0.0316  0.7873  1.0000\n  Nb  Nb12      1.0000  0.9569  0.5397  0.4237  1.0000\n  O   O24       1.0000  0.0431  0.5397  0.9237  1.0000\n  O   O25       1.0000  0.0374  0.0316  0.2873  1.0000\n  O   O26       1.0000  0.0948  0.0332  0.5021  1.0000\n  O   O27       1.0000  0.1072  0.0356  0.0686  1.0000\n  O   O28       1.0000  0.1733  0.5396  0.2064  1.0000\n  O   O29       1.0000  0.1803  0.0364  0.8587  1.0000\n  O   O30       1.0000  0.2521  0.0350  0.3430  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b4506f26-bea8-47d6-8607-55c5c091aaf5",
    "mp_id": "mp-774146",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_W(BrO)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.8696\n_cell_length_b   7.7078\n_cell_length_c   8.8239\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   W(BrO)2\n_chemical_formula_sum   'W2 Br4 O4'\n_cell_volume   263.1843\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  W  W0  1  0.0250  0.9729  0.0000  1\n  W  W1  1  0.9750  0.4729  0.0000  1\n  Br  Br2  1  0.9958  0.9592  0.7174  1\n  Br  Br3  1  0.9958  0.9592  0.2826  1\n  Br  Br4  1  0.0042  0.4592  0.7174  1\n  Br  Br5  1  0.0042  0.4592  0.2826  1\n  O  O6  1  0.5073  0.9686  0.0000  1\n  O  O7  1  0.9981  0.7172  0.0000  1\n  O  O8  1  0.4927  0.4686  0.0000  1\n  O  O9  1  0.0019  0.2172  0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       W2OBr4O3\n_chemical_formula_sum              \"W2 O4 Br4\"\n_cell_length_a       3.8696\n_cell_length_b       7.7078\n_cell_length_c       8.8239\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  W   W1        1.0000  0.0250  0.9729  0.0000  1.0000\n  W   W2        1.0000  0.9750  0.4729  0.0000  1.0000\n  O   O1        1.0000  0.9958  0.9592  0.7174  1.0000\n  Br  Br1       1.0000  0.9958  0.9592  0.2826  1.0000\n  Br  Br2       1.0000  0.0042  0.4592  0.7174  1.0000\n  Br  Br3       1.0000  0.0042  0.4592  0.2826  1.0000\n  Br  Br4       1.0000  0.5073  0.9686  0.0000  1.0000\n  O   O2        1.0000  0.9981  0.7172  0.0000  1.0000\n  O   O3        1.0000  0.4927  0.4686  0.0000  1.0000\n  O   O4        1.0000  0.0019  0.2172  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "38e3967e-7e73-41d0-8cfe-058bbdd3f819",
    "mp_id": "mp-774370",
    "action_prompt": "Swap the spatial positions of atoms at indices 35 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6Mn5Fe(BO3)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8527\n_cell_length_b   8.8527\n_cell_length_c   8.2734\n_cell_angle_alpha   62.2557\n_cell_angle_beta   62.2557\n_cell_angle_gamma   42.1880\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6Mn5Fe(BO3)6\n_chemical_formula_sum   'Li6 Mn5 Fe1 B6 O18'\n_cell_volume   377.3568\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2404  0.7414  0.3016  1\n  Li  Li1  1  0.7414  0.2404  0.3016  1\n  Li  Li2  1  0.4009  0.9003  0.7164  1\n  Li  Li3  1  0.9003  0.4009  0.7164  1\n  Li  Li4  1  0.1075  0.6084  0.9831  1\n  Li  Li5  1  0.6084  0.1075  0.9831  1\n  Mn  Mn6  1  0.1800  0.1800  0.0120  1\n  Mn  Mn7  1  0.6796  0.6796  0.0122  1\n  Mn  Mn8  1  0.5059  0.5059  0.6290  1\n  Mn  Mn9  1  0.0063  0.0063  0.6278  1\n  Mn  Mn10  1  0.3145  0.3145  0.3588  1\n  Fe  Fe11  1  0.8158  0.8158  0.3603  1\n  B  B12  1  0.5852  0.0815  0.6658  1\n  B  B13  1  0.0815  0.5852  0.6658  1\n  B  B14  1  0.4184  0.9162  0.3335  1\n  B  B15  1  0.9162  0.4184  0.3335  1\n  B  B16  1  0.9989  0.9989  0.0002  1\n  B  B17  1  0.5000  0.5000  0.0000  1\n  O  O18  1  0.4613  0.4613  0.1934  1\n  O  O19  1  0.9581  0.9581  0.1946  1\n  O  O20  1  0.0363  0.5444  0.5579  1\n  O  O21  1  0.5444  0.0363  0.5579  1\n  O  O22  1  0.0958  0.0958  0.8871  1\n  O  O23  1  0.5968  0.5968  0.8843  1\n  O  O24  1  0.6800  0.1803  0.5801  1\n  O  O25  1  0.1803  0.6800  0.5801  1\n  O  O26  1  0.0296  0.5296  0.8592  1\n  O  O27  1  0.5296  0.0296  0.8592  1\n  O  O28  1  0.3752  0.8762  0.2224  1\n  O  O29  1  0.8762  0.3752  0.2224  1\n  O  O30  1  0.4420  0.4420  0.9224  1\n  O  O31  1  0.9420  0.9420  0.9205  1\n  O  O32  1  0.5165  0.0118  0.2517  1\n  O  O33  1  0.0118  0.5165  0.2517  1\n  O  O34  1  0.3616  0.8612  0.5271  1\n  O  O35  1  0.8612  0.3616  0.5271  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5OMn5FeB6O17Li\n_chemical_formula_sum              \"Li6 O18 Mn5 Fe1 B6\"\n_cell_length_a       8.8527\n_cell_length_b       8.8527\n_cell_length_c       8.2734\n_cell_angle_alpha    62.2557\n_cell_angle_beta     62.2557\n_cell_angle_gamma    42.1880\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2404  0.7414  0.3016  1.0000\n  Li  Li2       1.0000  0.7414  0.2404  0.3016  1.0000\n  Li  Li3       1.0000  0.4009  0.9003  0.7164  1.0000\n  Li  Li4       1.0000  0.9003  0.4009  0.7164  1.0000\n  Li  Li5       1.0000  0.1075  0.6084  0.9831  1.0000\n  O   O1        1.0000  0.6084  0.1075  0.9831  1.0000\n  Mn  Mn1       1.0000  0.1800  0.1800  0.0120  1.0000\n  Mn  Mn2       1.0000  0.6796  0.6796  0.0122  1.0000\n  Mn  Mn3       1.0000  0.5059  0.5059  0.6290  1.0000\n  Mn  Mn4       1.0000  0.0063  0.0063  0.6278  1.0000\n  Mn  Mn5       1.0000  0.3145  0.3145  0.3588  1.0000\n  Fe  Fe1       1.0000  0.8158  0.8158  0.3603  1.0000\n  B   B1        1.0000  0.5852  0.0815  0.6658  1.0000\n  B   B2        1.0000  0.0815  0.5852  0.6658  1.0000\n  B   B3        1.0000  0.4184  0.9162  0.3335  1.0000\n  B   B4        1.0000  0.9162  0.4184  0.3335  1.0000\n  B   B5        1.0000  0.9989  0.9989  0.0002  1.0000\n  B   B6        1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O2        1.0000  0.4613  0.4613  0.1934  1.0000\n  O   O3        1.0000  0.9581  0.9581  0.1946  1.0000\n  O   O4        1.0000  0.0363  0.5444  0.5579  1.0000\n  O   O5        1.0000  0.5444  0.0363  0.5579  1.0000\n  O   O6        1.0000  0.0958  0.0958  0.8871  1.0000\n  O   O7        1.0000  0.5968  0.5968  0.8843  1.0000\n  O   O8        1.0000  0.6800  0.1803  0.5801  1.0000\n  O   O9        1.0000  0.1803  0.6800  0.5801  1.0000\n  O   O10       1.0000  0.0296  0.5296  0.8592  1.0000\n  O   O11       1.0000  0.5296  0.0296  0.8592  1.0000\n  O   O12       1.0000  0.3752  0.8762  0.2224  1.0000\n  O   O13       1.0000  0.8762  0.3752  0.2224  1.0000\n  O   O14       1.0000  0.4420  0.4420  0.9224  1.0000\n  O   O15       1.0000  0.9420  0.9420  0.9205  1.0000\n  O   O16       1.0000  0.5165  0.0118  0.2517  1.0000\n  O   O17       1.0000  0.0118  0.5165  0.2517  1.0000\n  O   O18       1.0000  0.3616  0.8612  0.5271  1.0000\n  Li  Li6       1.0000  0.8612  0.3616  0.5271  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "30719b5f-a3a6-4e18-af0a-e374612be209",
    "mp_id": "mp-774459",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 42 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8Ti16CuS32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0396\n_cell_length_b   7.0443\n_cell_length_c   23.4428\n_cell_angle_alpha   90.1952\n_cell_angle_beta   98.4307\n_cell_angle_gamma   119.9567\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8Ti16CuS32\n_chemical_formula_sum   'Li8 Ti16 Cu1 S32'\n_cell_volume   992.3191\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2439  0.1192  0.8632  1\n  Li  Li1  1  0.4993  0.5000  0.5004  1\n  Li  Li2  1  0.9986  0.2512  0.7497  1\n  Li  Li3  1  0.2520  0.6281  0.3761  1\n  Li  Li4  1  0.7500  0.3751  0.6248  1\n  Li  Li5  1  0.9988  0.7514  0.2502  1\n  Li  Li6  1  0.7463  0.8732  0.1235  1\n  Li  Li7  1  0.9995  0.2479  0.2503  1\n  Ti  Ti8  1  0.2565  0.6304  0.8745  1\n  Ti  Ti9  1  0.2497  0.8748  0.6249  1\n  Ti  Ti10  1  0.7483  0.6266  0.8747  1\n  Ti  Ti11  1  0.0021  0.4998  0.0040  1\n  Ti  Ti12  1  0.4993  0.7482  0.7474  1\n  Ti  Ti13  1  0.7444  0.1180  0.8746  1\n  Ti  Ti14  1  0.7503  0.8751  0.6249  1\n  Ti  Ti15  1  0.2496  0.3747  0.6249  1\n  Ti  Ti16  1  0.0012  0.0021  0.5011  1\n  Ti  Ti17  1  0.7517  0.6274  0.3763  1\n  Ti  Ti18  1  0.2521  0.1236  0.3761  1\n  Ti  Ti19  1  0.2485  0.8668  0.1247  1\n  Ti  Ti20  1  0.7477  0.1239  0.3762  1\n  Ti  Ti21  1  0.2483  0.3813  0.1247  1\n  Ti  Ti22  1  0.4988  0.2504  0.2489  1\n  Ti  Ti23  1  0.7551  0.3774  0.1251  1\n  Cu  Cu24  1  0.3142  0.1583  0.9733  1\n  S  S25  1  0.1180  0.8006  0.9369  1\n  S  S26  1  0.1181  0.3182  0.9365  1\n  S  S27  1  0.6228  0.8109  0.9340  1\n  S  S28  1  0.3819  0.9305  0.8121  1\n  S  S29  1  0.8637  0.9307  0.8121  1\n  S  S30  1  0.3816  0.4485  0.8121  1\n  S  S31  1  0.6360  0.3188  0.9370  1\n  S  S32  1  0.1323  0.5679  0.6867  1\n  S  S33  1  0.6194  0.5669  0.6863  1\n  S  S34  1  0.1183  0.8173  0.4371  1\n  S  S35  1  0.3769  0.6891  0.5657  1\n  S  S36  1  0.8784  0.4386  0.8167  1\n  S  S37  1  0.1230  0.0611  0.6843  1\n  S  S38  1  0.3669  0.1817  0.5631  1\n  S  S39  1  0.8815  0.6967  0.5631  1\n  S  S40  1  0.3817  0.9472  0.3131  1\n  S  S41  1  0.6186  0.0542  0.6866  1\n  S  S42  1  0.1185  0.3031  0.4370  1\n  S  S43  1  0.6334  0.8180  0.4375  1\n  S  S44  1  0.8764  0.9385  0.3157  1\n  S  S45  1  0.6239  0.3123  0.4349  1\n  S  S46  1  0.8809  0.1825  0.5634  1\n  S  S47  1  0.3810  0.4330  0.3136  1\n  S  S48  1  0.1255  0.5631  0.1863  1\n  S  S49  1  0.3670  0.6831  0.0629  1\n  S  S50  1  0.8674  0.4330  0.3134  1\n  S  S51  1  0.6197  0.5542  0.1870  1\n  S  S52  1  0.1318  0.0662  0.1866  1\n  S  S53  1  0.6200  0.0661  0.1868  1\n  S  S54  1  0.3787  0.1887  0.0687  1\n  S  S55  1  0.8814  0.6834  0.0637  1\n  S  S56  1  0.8814  0.1972  0.0635  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Ti16S18CuS14\n_chemical_formula_sum              \"Li8 Ti16 S32 Cu1\"\n_cell_length_a       7.0396\n_cell_length_b       7.0443\n_cell_length_c       23.4428\n_cell_angle_alpha    90.1952\n_cell_angle_beta     98.4307\n_cell_angle_gamma    119.9567\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2439  0.1192  0.8632  1.0000\n  Li  Li2       1.0000  0.4993  0.4999  0.5004  1.0000\n  Li  Li3       1.0000  0.9986  0.2512  0.7497  1.0000\n  Li  Li4       1.0000  0.2520  0.6281  0.3761  1.0000\n  Li  Li5       1.0000  0.7500  0.3751  0.6248  1.0000\n  Li  Li6       1.0000  0.9988  0.7514  0.2502  1.0000\n  Li  Li7       1.0000  0.7463  0.8732  0.1235  1.0000\n  Li  Li8       1.0000  0.9995  0.2479  0.2503  1.0000\n  Ti  Ti1       1.0000  0.2565  0.6304  0.8745  1.0000\n  Ti  Ti2       1.0000  0.2497  0.8748  0.6249  1.0000\n  Ti  Ti3       1.0000  0.7483  0.6266  0.8747  1.0000\n  Ti  Ti4       1.0000  0.0021  0.4998  0.0040  1.0000\n  Ti  Ti5       1.0000  0.4993  0.7482  0.7474  1.0000\n  Ti  Ti6       1.0000  0.7444  0.1180  0.8746  1.0000\n  Ti  Ti7       1.0000  0.7503  0.8751  0.6249  1.0000\n  Ti  Ti8       1.0000  0.2496  0.3747  0.6249  1.0000\n  Ti  Ti9       1.0000  0.0012  0.0021  0.5011  1.0000\n  Ti  Ti10      1.0000  0.7517  0.6274  0.3763  1.0000\n  Ti  Ti11      1.0000  0.2521  0.1236  0.3761  1.0000\n  Ti  Ti12      1.0000  0.2485  0.8668  0.1247  1.0000\n  Ti  Ti13      1.0000  0.7477  0.1239  0.3762  1.0000\n  Ti  Ti14      1.0000  0.2483  0.3813  0.1247  1.0000\n  Ti  Ti15      1.0000  0.4988  0.2504  0.2489  1.0000\n  Ti  Ti16      1.0000  0.7551  0.3774  0.1251  1.0000\n  S   S1        1.0000  0.3142  0.1583  0.9733  1.0000\n  S   S2        1.0000  0.1180  0.8006  0.9369  1.0000\n  S   S3        1.0000  0.1181  0.3182  0.9365  1.0000\n  S   S4        1.0000  0.6228  0.8109  0.9340  1.0000\n  S   S5        1.0000  0.3819  0.9305  0.8121  1.0000\n  S   S6        1.0000  0.8637  0.9307  0.8121  1.0000\n  S   S7        1.0000  0.3816  0.4485  0.8121  1.0000\n  S   S8        1.0000  0.6360  0.3188  0.9370  1.0000\n  S   S9        1.0000  0.1323  0.5679  0.6867  1.0000\n  S   S10       1.0000  0.6194  0.5669  0.6863  1.0000\n  S   S11       1.0000  0.1183  0.8173  0.4371  1.0000\n  S   S12       1.0000  0.3769  0.6891  0.5657  1.0000\n  S   S13       1.0000  0.8784  0.4386  0.8167  1.0000\n  S   S14       1.0000  0.1230  0.0611  0.6843  1.0000\n  S   S15       1.0000  0.3669  0.1817  0.5631  1.0000\n  S   S16       1.0000  0.8815  0.6967  0.5631  1.0000\n  S   S17       1.0000  0.3817  0.9472  0.3131  1.0000\n  S   S18       1.0000  0.6186  0.0542  0.6866  1.0000\n  Cu  Cu1       1.0000  0.1185  0.3031  0.4370  1.0000\n  S   S19       1.0000  0.6334  0.8180  0.4375  1.0000\n  S   S20       1.0000  0.8764  0.9385  0.3157  1.0000\n  S   S21       1.0000  0.6239  0.3123  0.4349  1.0000\n  S   S22       1.0000  0.8809  0.1825  0.5634  1.0000\n  S   S23       1.0000  0.3810  0.4330  0.3136  1.0000\n  S   S24       1.0000  0.1255  0.5631  0.1863  1.0000\n  S   S25       1.0000  0.3670  0.6831  0.0629  1.0000\n  S   S26       1.0000  0.8674  0.4330  0.3134  1.0000\n  S   S27       1.0000  0.6197  0.5542  0.1870  1.0000\n  S   S28       1.0000  0.1318  0.0662  0.1866  1.0000\n  S   S29       1.0000  0.6200  0.0661  0.1868  1.0000\n  S   S30       1.0000  0.3787  0.1887  0.0687  1.0000\n  S   S31       1.0000  0.8814  0.6834  0.0637  1.0000\n  S   S32       1.0000  0.8814  0.1972  0.0635  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c3dbb919-b30d-434f-8cac-ff171ad70f5c",
    "mp_id": "mp-774822",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Mn3CoO8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8007\n_cell_length_b   5.8008\n_cell_length_c   5.8008\n_cell_angle_alpha   61.4836\n_cell_angle_beta   61.4803\n_cell_angle_gamma   61.4829\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Mn3CoO8\n_chemical_formula_sum   'Li2 Mn3 Co1 O8'\n_cell_volume   142.6128\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1229  0.1229  0.1229  1\n  Li  Li1  1  0.8771  0.8771  0.8771  1\n  Mn  Mn2  1  1.0000  0.5000  0.5000  1\n  Mn  Mn3  1  0.5000  0.0000  0.5000  1\n  Mn  Mn4  1  0.5000  0.5000  1.0000  1\n  Co  Co5  1  0.5000  0.5000  0.5000  1\n  O  O6  1  0.2597  0.2598  0.2596  1\n  O  O7  1  0.7403  0.7402  0.7404  1\n  O  O8  1  0.2648  0.2648  0.7071  1\n  O  O9  1  0.7071  0.2649  0.2648  1\n  O  O10  1  0.2648  0.7071  0.2648  1\n  O  O11  1  0.7352  0.2929  0.7352  1\n  O  O12  1  0.2929  0.7351  0.7352  1\n  O  O13  1  0.7352  0.7352  0.2929  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnLi2Mn2CoO8\n_chemical_formula_sum              \"Mn3 Li2 Co1 O8\"\n_cell_length_a       5.8007\n_cell_length_b       5.8008\n_cell_length_c       5.8008\n_cell_angle_alpha    61.4836\n_cell_angle_beta     61.4803\n_cell_angle_gamma    61.4829\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.1229  0.1229  0.1229  1.0000\n  Li  Li1       1.0000  0.8771  0.8771  0.8771  1.0000\n  Li  Li2       1.0000  1.0000  0.5000  0.5000  1.0000\n  Mn  Mn2       1.0000  0.5000  0.0000  0.5000  1.0000\n  Mn  Mn3       1.0000  0.5000  0.5000  1.0000  1.0000\n  Co  Co1       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.2597  0.2598  0.2596  1.0000\n  O   O2        1.0000  0.7403  0.7402  0.7404  1.0000\n  O   O3        1.0000  0.2648  0.2648  0.7071  1.0000\n  O   O4        1.0000  0.7071  0.2649  0.2648  1.0000\n  O   O5        1.0000  0.2648  0.7071  0.2648  1.0000\n  O   O6        1.0000  0.7352  0.2929  0.7352  1.0000\n  O   O7        1.0000  0.2929  0.7351  0.7352  1.0000\n  O   O8        1.0000  0.7352  0.7352  0.2929  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ec877293-c259-4ee9-b059-bb27e26630ba",
    "mp_id": "mp-774929",
    "action_prompt": "Swap the spatial positions of atoms at indices 53 and 23 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Na5Bi2P(CO4)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   10.4355\n_cell_length_b   10.4355\n_cell_length_c   10.2569\n_cell_angle_alpha   60.7019\n_cell_angle_beta   60.7019\n_cell_angle_gamma   91.4025\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Na5Bi2P(CO4)4\n_chemical_formula_sum   'Na10 Bi4 P2 C8 O32'\n_cell_volume   796.6937\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0711  0.3231  0.3647  1\n  Na  Na1  1  0.3235  0.0711  0.2411  1\n  Na  Na2  1  0.3231  0.0711  0.8647  1\n  Na  Na3  1  0.0661  0.9339  0.7500  1\n  Na  Na4  1  0.0711  0.3235  0.7411  1\n  Na  Na5  1  0.9339  0.0661  0.2500  1\n  Na  Na6  1  0.9289  0.6765  0.2589  1\n  Na  Na7  1  0.6769  0.9289  0.1353  1\n  Na  Na8  1  0.6765  0.9289  0.7589  1\n  Na  Na9  1  0.9289  0.6769  0.6353  1\n  Bi  Bi10  1  0.5000  0.0000  0.5000  1\n  Bi  Bi11  1  0.5000  0.5000  0.0000  1\n  Bi  Bi12  1  0.5000  0.5000  0.5000  1\n  Bi  Bi13  1  0.0000  0.5000  0.0000  1\n  P  P14  1  0.8761  0.1239  0.7500  1\n  P  P15  1  0.1239  0.8761  0.2500  1\n  C  C16  1  0.2798  0.7227  0.9405  1\n  C  C17  1  0.2702  0.3328  0.9479  1\n  C  C18  1  0.2773  0.7202  0.5595  1\n  C  C19  1  0.6672  0.7298  0.5521  1\n  C  C20  1  0.3328  0.2702  0.4479  1\n  C  C21  1  0.7227  0.2798  0.4405  1\n  C  C22  1  0.7202  0.2773  0.0595  1\n  C  C23  1  0.7298  0.6672  0.0521  1\n  O  O24  1  0.3298  0.1386  0.4621  1\n  O  O25  1  0.1488  0.6033  0.0655  1\n  O  O26  1  0.2823  0.3333  0.0686  1\n  O  O27  1  0.5946  0.2870  0.0649  1\n  O  O28  1  0.1386  0.3298  0.9621  1\n  O  O29  1  0.6948  0.0559  0.8750  1\n  O  O30  1  0.9389  0.0622  0.8741  1\n  O  O31  1  0.2846  0.8537  0.8173  1\n  O  O32  1  0.3862  0.3327  0.8177  1\n  O  O33  1  0.6673  0.6138  0.6823  1\n  O  O34  1  0.1463  0.7154  0.6827  1\n  O  O35  1  0.9378  0.0611  0.6259  1\n  O  O36  1  0.9441  0.3052  0.6250  1\n  O  O37  1  0.3333  0.2823  0.5686  1\n  O  O38  1  0.6033  0.1488  0.5655  1\n  O  O39  1  0.2870  0.5946  0.5649  1\n  O  O40  1  0.7130  0.4054  0.4351  1\n  O  O41  1  0.6667  0.7177  0.4314  1\n  O  O42  1  0.3967  0.8512  0.4345  1\n  O  O43  1  0.0559  0.6948  0.3750  1\n  O  O44  1  0.0622  0.9389  0.3741  1\n  O  O45  1  0.8537  0.2846  0.3173  1\n  O  O46  1  0.3327  0.3862  0.3177  1\n  O  O47  1  0.7154  0.1463  0.1827  1\n  O  O48  1  0.6138  0.6673  0.1823  1\n  O  O49  1  0.0611  0.9378  0.1259  1\n  O  O50  1  0.3052  0.9441  0.1250  1\n  O  O51  1  0.8614  0.6702  0.0379  1\n  O  O52  1  0.4054  0.7130  0.9351  1\n  O  O53  1  0.7177  0.6667  0.9314  1\n  O  O54  1  0.8512  0.3967  0.9345  1\n  O  O55  1  0.6702  0.8614  0.5379  1\n",
    "output": "data_image0\n_chemical_formula_structural       Na10Bi4P2C7O30CO2\n_chemical_formula_sum              \"Na10 Bi4 P2 C8 O32\"\n_cell_length_a       10.4355\n_cell_length_b       10.4355\n_cell_length_c       10.2569\n_cell_angle_alpha    60.7019\n_cell_angle_beta     60.7019\n_cell_angle_gamma    91.4025\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0711  0.3231  0.3647  1.0000\n  Na  Na2       1.0000  0.3235  0.0711  0.2411  1.0000\n  Na  Na3       1.0000  0.3231  0.0711  0.8647  1.0000\n  Na  Na4       1.0000  0.0661  0.9339  0.7500  1.0000\n  Na  Na5       1.0000  0.0711  0.3235  0.7411  1.0000\n  Na  Na6       1.0000  0.9339  0.0661  0.2500  1.0000\n  Na  Na7       1.0000  0.9289  0.6765  0.2589  1.0000\n  Na  Na8       1.0000  0.6769  0.9289  0.1353  1.0000\n  Na  Na9       1.0000  0.6765  0.9289  0.7589  1.0000\n  Na  Na10      1.0000  0.9289  0.6769  0.6353  1.0000\n  Bi  Bi1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Bi  Bi2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Bi  Bi3       1.0000  0.5000  0.5000  0.5000  1.0000\n  Bi  Bi4       1.0000  0.0000  0.5000  0.0000  1.0000\n  P   P1        1.0000  0.8761  0.1239  0.7500  1.0000\n  P   P2        1.0000  0.1239  0.8761  0.2500  1.0000\n  C   C1        1.0000  0.2798  0.7227  0.9405  1.0000\n  C   C2        1.0000  0.2702  0.3328  0.9479  1.0000\n  C   C3        1.0000  0.2773  0.7202  0.5595  1.0000\n  C   C4        1.0000  0.6672  0.7298  0.5521  1.0000\n  C   C5        1.0000  0.3328  0.2702  0.4479  1.0000\n  C   C6        1.0000  0.7227  0.2798  0.4405  1.0000\n  C   C7        1.0000  0.7202  0.2773  0.0595  1.0000\n  O   O1        1.0000  0.7298  0.6672  0.0521  1.0000\n  O   O2        1.0000  0.3298  0.1386  0.4621  1.0000\n  O   O3        1.0000  0.1488  0.6033  0.0655  1.0000\n  O   O4        1.0000  0.2823  0.3333  0.0686  1.0000\n  O   O5        1.0000  0.5946  0.2870  0.0649  1.0000\n  O   O6        1.0000  0.1386  0.3298  0.9621  1.0000\n  O   O7        1.0000  0.6948  0.0559  0.8750  1.0000\n  O   O8        1.0000  0.9389  0.0622  0.8741  1.0000\n  O   O9        1.0000  0.2846  0.8537  0.8173  1.0000\n  O   O10       1.0000  0.3862  0.3327  0.8177  1.0000\n  O   O11       1.0000  0.6673  0.6138  0.6823  1.0000\n  O   O12       1.0000  0.1463  0.7154  0.6827  1.0000\n  O   O13       1.0000  0.9378  0.0611  0.6259  1.0000\n  O   O14       1.0000  0.9441  0.3052  0.6250  1.0000\n  O   O15       1.0000  0.3333  0.2823  0.5686  1.0000\n  O   O16       1.0000  0.6033  0.1488  0.5655  1.0000\n  O   O17       1.0000  0.2870  0.5946  0.5649  1.0000\n  O   O18       1.0000  0.7130  0.4054  0.4351  1.0000\n  O   O19       1.0000  0.6667  0.7177  0.4314  1.0000\n  O   O20       1.0000  0.3967  0.8512  0.4345  1.0000\n  O   O21       1.0000  0.0559  0.6948  0.3750  1.0000\n  O   O22       1.0000  0.0622  0.9389  0.3741  1.0000\n  O   O23       1.0000  0.8537  0.2846  0.3173  1.0000\n  O   O24       1.0000  0.3327  0.3862  0.3177  1.0000\n  O   O25       1.0000  0.7154  0.1463  0.1827  1.0000\n  O   O26       1.0000  0.6138  0.6673  0.1823  1.0000\n  O   O27       1.0000  0.0611  0.9378  0.1259  1.0000\n  O   O28       1.0000  0.3052  0.9441  0.1250  1.0000\n  O   O29       1.0000  0.8614  0.6702  0.0379  1.0000\n  O   O30       1.0000  0.4054  0.7130  0.9351  1.0000\n  C   C8        1.0000  0.7177  0.6667  0.9314  1.0000\n  O   O31       1.0000  0.8512  0.3967  0.9345  1.0000\n  O   O32       1.0000  0.6702  0.8614  0.5379  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3db8f26d-daaa-48a2-a918-54ff5078be50",
    "mp_id": "mp-774940",
    "action_prompt": "Swap the spatial positions of atoms at indices 30 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3Ni2Sb(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.5399\n_cell_length_b   8.5399\n_cell_length_c   8.5399\n_cell_angle_alpha   61.0290\n_cell_angle_beta   61.0290\n_cell_angle_gamma   61.0290\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3Ni2Sb(PO4)6\n_chemical_formula_sum   'Mn3 Ni2 Sb1 P6 O24'\n_cell_volume   450.5955\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.8553  0.8553  0.8553  1\n  Mn  Mn1  1  0.6443  0.6443  0.6443  1\n  Mn  Mn2  1  0.3574  0.3574  0.3574  1\n  Ni  Ni3  1  0.9948  0.9948  0.9948  1\n  Ni  Ni4  1  0.5007  0.5007  0.5007  1\n  Sb  Sb5  1  0.1428  0.1428  0.1428  1\n  P  P6  1  0.9522  0.2524  0.5487  1\n  P  P7  1  0.5487  0.9522  0.2524  1\n  P  P8  1  0.2524  0.5487  0.9522  1\n  P  P9  1  0.7461  0.4573  0.0490  1\n  P  P10  1  0.4573  0.0490  0.7461  1\n  P  P11  1  0.0490  0.7461  0.4573  1\n  O  O12  1  0.8953  0.6863  0.4847  1\n  O  O13  1  0.6863  0.4847  0.8953  1\n  O  O14  1  0.9413  0.0887  0.7421  1\n  O  O15  1  0.4847  0.8953  0.6863  1\n  O  O16  1  0.9928  0.1816  0.3892  1\n  O  O17  1  0.7559  0.4063  0.5570  1\n  O  O18  1  0.7421  0.9413  0.0887  1\n  O  O19  1  0.5570  0.7559  0.4063  1\n  O  O20  1  0.8151  0.6091  0.0134  1\n  O  O21  1  0.4063  0.5570  0.7559  1\n  O  O22  1  0.9129  0.2533  0.0631  1\n  O  O23  1  0.6091  0.0134  0.8151  1\n  O  O24  1  0.3892  0.9928  0.1816  1\n  O  O25  1  0.0887  0.7421  0.9413  1\n  O  O26  1  0.5942  0.4350  0.2492  1\n  O  O27  1  0.1816  0.3892  0.9928  1\n  O  O28  1  0.4350  0.2492  0.5942  1\n  O  O29  1  0.2533  0.0631  0.9129  1\n  O  O30  1  0.2492  0.5942  0.4350  1\n  O  O31  1  0.0134  0.8151  0.6091  1\n  O  O32  1  0.5072  0.1101  0.3155  1\n  O  O33  1  0.0631  0.9129  0.2533  1\n  O  O34  1  0.3155  0.5072  0.1101  1\n  O  O35  1  0.1101  0.3155  0.5072  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn2ONi2SbP6O18MnO5\n_chemical_formula_sum              \"Mn3 O24 Ni2 Sb1 P6\"\n_cell_length_a       8.5399\n_cell_length_b       8.5399\n_cell_length_c       8.5399\n_cell_angle_alpha    61.0290\n_cell_angle_beta     61.0290\n_cell_angle_gamma    61.0290\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.8553  0.8553  0.8553  1.0000\n  Mn  Mn2       1.0000  0.6443  0.6443  0.6443  1.0000\n  O   O1        1.0000  0.3574  0.3574  0.3574  1.0000\n  Ni  Ni1       1.0000  0.9948  0.9948  0.9948  1.0000\n  Ni  Ni2       1.0000  0.5007  0.5007  0.5007  1.0000\n  Sb  Sb1       1.0000  0.1428  0.1428  0.1428  1.0000\n  P   P1        1.0000  0.9522  0.2524  0.5487  1.0000\n  P   P2        1.0000  0.5487  0.9522  0.2524  1.0000\n  P   P3        1.0000  0.2524  0.5487  0.9522  1.0000\n  P   P4        1.0000  0.7461  0.4573  0.0490  1.0000\n  P   P5        1.0000  0.4573  0.0490  0.7461  1.0000\n  P   P6        1.0000  0.0490  0.7461  0.4573  1.0000\n  O   O2        1.0000  0.8953  0.6863  0.4847  1.0000\n  O   O3        1.0000  0.6863  0.4847  0.8953  1.0000\n  O   O4        1.0000  0.9413  0.0887  0.7421  1.0000\n  O   O5        1.0000  0.4847  0.8953  0.6863  1.0000\n  O   O6        1.0000  0.9928  0.1816  0.3892  1.0000\n  O   O7        1.0000  0.7559  0.4063  0.5570  1.0000\n  O   O8        1.0000  0.7421  0.9413  0.0887  1.0000\n  O   O9        1.0000  0.5570  0.7559  0.4063  1.0000\n  O   O10       1.0000  0.8151  0.6091  0.0134  1.0000\n  O   O11       1.0000  0.4063  0.5570  0.7559  1.0000\n  O   O12       1.0000  0.9129  0.2533  0.0631  1.0000\n  O   O13       1.0000  0.6091  0.0134  0.8151  1.0000\n  O   O14       1.0000  0.3892  0.9928  0.1816  1.0000\n  O   O15       1.0000  0.0887  0.7421  0.9413  1.0000\n  O   O16       1.0000  0.5942  0.4350  0.2492  1.0000\n  O   O17       1.0000  0.1816  0.3892  0.9928  1.0000\n  O   O18       1.0000  0.4350  0.2492  0.5942  1.0000\n  O   O19       1.0000  0.2533  0.0631  0.9129  1.0000\n  Mn  Mn3       1.0000  0.2492  0.5942  0.4350  1.0000\n  O   O20       1.0000  0.0134  0.8151  0.6091  1.0000\n  O   O21       1.0000  0.5072  0.1101  0.3155  1.0000\n  O   O22       1.0000  0.0631  0.9129  0.2533  1.0000\n  O   O23       1.0000  0.3155  0.5072  0.1101  1.0000\n  O   O24       1.0000  0.1101  0.3155  0.5072  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f4ba4f7a-cce6-4d06-8e27-f0b02efa2d4f",
    "mp_id": "mp-775126",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn12O7F17\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.0579\n_cell_length_b   5.6833\n_cell_length_c   15.3598\n_cell_angle_alpha   87.3789\n_cell_angle_beta   88.7328\n_cell_angle_gamma   86.2460\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn12O7F17\n_chemical_formula_sum   'Mn12 O7 F17'\n_cell_volume   440.0344\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.9703  0.9105  0.9983  1\n  Mn  Mn1  1  0.0301  0.6138  0.8329  1\n  Mn  Mn2  1  0.9829  0.9340  0.6601  1\n  Mn  Mn3  1  0.0149  0.4566  0.4965  1\n  Mn  Mn4  1  0.9700  0.8863  0.3305  1\n  Mn  Mn5  1  0.9471  0.4814  0.1794  1\n  Mn  Mn6  1  0.5365  0.1187  0.8289  1\n  Mn  Mn7  1  0.5140  0.3848  0.0050  1\n  Mn  Mn8  1  0.5326  0.5654  0.3414  1\n  Mn  Mn9  1  0.5058  0.1003  0.4887  1\n  Mn  Mn10  1  0.5169  0.5565  0.6810  1\n  Mn  Mn11  1  0.4901  0.0146  0.1683  1\n  O  O12  1  0.8090  0.8844  0.8873  1\n  O  O13  1  0.7210  0.1222  0.0585  1\n  O  O14  1  0.7094  0.7729  0.2522  1\n  O  O15  1  0.8229  0.6842  0.7318  1\n  O  O16  1  0.8200  0.6616  0.4099  1\n  O  O17  1  0.3505  0.3843  0.4302  1\n  O  O18  1  0.3227  0.4057  0.7807  1\n  F  F19  1  0.7841  0.1869  0.7314  1\n  F  F20  1  0.8369  0.1540  0.4185  1\n  F  F21  1  0.6651  0.8661  0.5786  1\n  F  F22  1  0.7543  0.3817  0.9003  1\n  F  F23  1  0.7473  0.6217  0.0664  1\n  F  F24  1  0.6500  0.2945  0.2449  1\n  F  F25  1  0.6888  0.3681  0.5731  1\n  F  F26  1  0.2615  0.3386  0.1038  1\n  F  F27  1  0.2316  0.6276  0.9469  1\n  F  F28  1  0.1916  0.6401  0.5984  1\n  F  F29  1  0.2143  0.6000  0.2688  1\n  F  F30  1  0.1764  0.1426  0.5705  1\n  F  F31  1  0.2975  0.1230  0.9349  1\n  F  F32  1  0.1381  0.0979  0.2478  1\n  F  F33  1  0.3032  0.8817  0.4027  1\n  F  F34  1  0.1960  0.8438  0.1006  1\n  F  F35  1  0.2967  0.8934  0.7508  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn10FMnO7F6MnF10\n_chemical_formula_sum              \"Mn12 F17 O7\"\n_cell_length_a       5.0579\n_cell_length_b       5.6833\n_cell_length_c       15.3598\n_cell_angle_alpha    87.3789\n_cell_angle_beta     88.7328\n_cell_angle_gamma    86.2460\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.9703  0.9105  0.9983  1.0000\n  Mn  Mn2       1.0000  0.0301  0.6138  0.8329  1.0000\n  Mn  Mn3       1.0000  0.9829  0.9340  0.6601  1.0000\n  Mn  Mn4       1.0000  0.0149  0.4566  0.4965  1.0000\n  Mn  Mn5       1.0000  0.9700  0.8863  0.3305  1.0000\n  Mn  Mn6       1.0000  0.9471  0.4814  0.1794  1.0000\n  Mn  Mn7       1.0000  0.5365  0.1187  0.8289  1.0000\n  Mn  Mn8       1.0000  0.5140  0.3848  0.0050  1.0000\n  Mn  Mn9       1.0000  0.5326  0.5654  0.3414  1.0000\n  Mn  Mn10      1.0000  0.5058  0.1003  0.4887  1.0000\n  F   F1        1.0000  0.5169  0.5565  0.6810  1.0000\n  Mn  Mn11      1.0000  0.4901  0.0146  0.1683  1.0000\n  O   O1        1.0000  0.8090  0.8844  0.8873  1.0000\n  O   O2        1.0000  0.7210  0.1222  0.0585  1.0000\n  O   O3        1.0000  0.7094  0.7729  0.2522  1.0000\n  O   O4        1.0000  0.8229  0.6842  0.7318  1.0000\n  O   O5        1.0000  0.8200  0.6616  0.4099  1.0000\n  O   O6        1.0000  0.3505  0.3843  0.4302  1.0000\n  O   O7        1.0000  0.3227  0.4057  0.7807  1.0000\n  F   F2        1.0000  0.7841  0.1869  0.7314  1.0000\n  F   F3        1.0000  0.8369  0.1540  0.4185  1.0000\n  F   F4        1.0000  0.6651  0.8661  0.5786  1.0000\n  F   F5        1.0000  0.7543  0.3817  0.9003  1.0000\n  F   F6        1.0000  0.7473  0.6217  0.0664  1.0000\n  F   F7        1.0000  0.6500  0.2945  0.2449  1.0000\n  Mn  Mn12      1.0000  0.6888  0.3681  0.5731  1.0000\n  F   F8        1.0000  0.2615  0.3386  0.1038  1.0000\n  F   F9        1.0000  0.2316  0.6276  0.9469  1.0000\n  F   F10       1.0000  0.1916  0.6401  0.5984  1.0000\n  F   F11       1.0000  0.2143  0.6000  0.2688  1.0000\n  F   F12       1.0000  0.1764  0.1426  0.5705  1.0000\n  F   F13       1.0000  0.2975  0.1230  0.9349  1.0000\n  F   F14       1.0000  0.1381  0.0979  0.2478  1.0000\n  F   F15       1.0000  0.3032  0.8817  0.4027  1.0000\n  F   F16       1.0000  0.1960  0.8438  0.1006  1.0000\n  F   F17       1.0000  0.2967  0.8934  0.7508  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "9941e761-ebc5-46a3-aaa5-50172c2d595b",
    "mp_id": "mp-775216",
    "action_prompt": "Swap the spatial positions of atoms at indices 29 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiVTeO5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4513\n_cell_length_b   7.9608\n_cell_length_c   8.5737\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiVTeO5\n_chemical_formula_sum   'Li4 V4 Te4 O20'\n_cell_volume   440.3203\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.5000  0.0000  0.0000  1\n  Li  Li2  1  0.0000  0.5000  0.5000  1\n  Li  Li3  1  0.5000  0.5000  0.5000  1\n  V  V4  1  0.2500  0.7351  0.1988  1\n  V  V5  1  0.7500  0.2351  0.3012  1\n  V  V6  1  0.2500  0.7649  0.6988  1\n  V  V7  1  0.7500  0.2649  0.8012  1\n  Te  Te8  1  0.7500  0.6315  0.1442  1\n  Te  Te9  1  0.2500  0.1315  0.3558  1\n  Te  Te10  1  0.7500  0.8685  0.6442  1\n  Te  Te11  1  0.2500  0.3685  0.8558  1\n  O  O12  1  0.2500  0.5385  0.1382  1\n  O  O13  1  0.7500  0.2165  0.1054  1\n  O  O14  1  0.5342  0.7979  0.1569  1\n  O  O15  1  0.9658  0.7979  0.1569  1\n  O  O16  1  0.2500  0.0397  0.1521  1\n  O  O17  1  0.7500  0.5397  0.3479  1\n  O  O18  1  0.0342  0.2979  0.3431  1\n  O  O19  1  0.4658  0.2979  0.3431  1\n  O  O20  1  0.2500  0.7165  0.3946  1\n  O  O21  1  0.7500  0.0385  0.3618  1\n  O  O22  1  0.2500  0.9615  0.6382  1\n  O  O23  1  0.7500  0.2835  0.6054  1\n  O  O24  1  0.5342  0.7021  0.6569  1\n  O  O25  1  0.9658  0.7021  0.6569  1\n  O  O26  1  0.2500  0.4603  0.6521  1\n  O  O27  1  0.7500  0.9603  0.8479  1\n  O  O28  1  0.0342  0.2021  0.8431  1\n  O  O29  1  0.4658  0.2021  0.8431  1\n  O  O30  1  0.2500  0.7835  0.8946  1\n  O  O31  1  0.7500  0.4615  0.8618  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OV4Te4O17LiO2\n_chemical_formula_sum              \"Li4 O20 V4 Te4\"\n_cell_length_a       6.4513\n_cell_length_b       7.9608\n_cell_length_c       8.5737\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li2       1.0000  0.5000  0.0000  0.0000  1.0000\n  Li  Li3       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O1        1.0000  0.5000  0.5000  0.5000  1.0000\n  V   V1        1.0000  0.2500  0.7351  0.1988  1.0000\n  V   V2        1.0000  0.7500  0.2351  0.3012  1.0000\n  V   V3        1.0000  0.2500  0.7649  0.6988  1.0000\n  V   V4        1.0000  0.7500  0.2649  0.8012  1.0000\n  Te  Te1       1.0000  0.7500  0.6315  0.1442  1.0000\n  Te  Te2       1.0000  0.2500  0.1315  0.3558  1.0000\n  Te  Te3       1.0000  0.7500  0.8685  0.6442  1.0000\n  Te  Te4       1.0000  0.2500  0.3685  0.8558  1.0000\n  O   O2        1.0000  0.2500  0.5385  0.1382  1.0000\n  O   O3        1.0000  0.7500  0.2165  0.1054  1.0000\n  O   O4        1.0000  0.5342  0.7979  0.1569  1.0000\n  O   O5        1.0000  0.9658  0.7979  0.1569  1.0000\n  O   O6        1.0000  0.2500  0.0397  0.1521  1.0000\n  O   O7        1.0000  0.7500  0.5397  0.3479  1.0000\n  O   O8        1.0000  0.0342  0.2979  0.3431  1.0000\n  O   O9        1.0000  0.4658  0.2979  0.3431  1.0000\n  O   O10       1.0000  0.2500  0.7165  0.3946  1.0000\n  O   O11       1.0000  0.7500  0.0385  0.3618  1.0000\n  O   O12       1.0000  0.2500  0.9615  0.6382  1.0000\n  O   O13       1.0000  0.7500  0.2835  0.6054  1.0000\n  O   O14       1.0000  0.5342  0.7021  0.6569  1.0000\n  O   O15       1.0000  0.9658  0.7021  0.6569  1.0000\n  O   O16       1.0000  0.2500  0.4603  0.6521  1.0000\n  O   O17       1.0000  0.7500  0.9603  0.8479  1.0000\n  O   O18       1.0000  0.0342  0.2021  0.8431  1.0000\n  Li  Li4       1.0000  0.4658  0.2021  0.8431  1.0000\n  O   O19       1.0000  0.2500  0.7835  0.8946  1.0000\n  O   O20       1.0000  0.7500  0.4615  0.8618  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "cfd534c7-235f-43f4-b459-46fc4f367ddc",
    "mp_id": "mp-775224",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 31 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NbV3(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8034\n_cell_length_b   8.8034\n_cell_length_c   8.8034\n_cell_angle_alpha   58.6375\n_cell_angle_beta   58.6375\n_cell_angle_gamma   58.6375\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NbV3(PO4)6\n_chemical_formula_sum   'Nb1 V3 P6 O24'\n_cell_volume   467.4145\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nb  Nb0  1  0.1394  0.1394  0.1394  1\n  V  V1  1  0.8578  0.8578  0.8578  1\n  V  V2  1  0.6406  0.6406  0.6406  1\n  V  V3  1  0.3574  0.3574  0.3574  1\n  P  P4  1  0.5402  0.9644  0.2500  1\n  P  P5  1  0.2500  0.5402  0.9644  1\n  P  P6  1  0.9644  0.2500  0.5402  1\n  P  P7  1  0.0326  0.7410  0.4736  1\n  P  P8  1  0.7410  0.4736  0.0326  1\n  P  P9  1  0.4736  0.0326  0.7410  1\n  O  O10  1  0.5019  0.8578  0.7155  1\n  O  O11  1  0.8578  0.7155  0.5019  1\n  O  O12  1  0.7179  0.9342  0.0778  1\n  O  O13  1  0.7155  0.5019  0.8578  1\n  O  O14  1  0.5670  0.7831  0.4269  1\n  O  O15  1  0.3647  0.9910  0.2254  1\n  O  O16  1  0.0778  0.7179  0.9342  1\n  O  O17  1  0.4269  0.5670  0.7831  1\n  O  O18  1  0.7831  0.4269  0.5670  1\n  O  O19  1  0.0056  0.7783  0.6389  1\n  O  O20  1  0.0568  0.9176  0.2911  1\n  O  O21  1  0.7783  0.6389  0.0056  1\n  O  O22  1  0.2254  0.3647  0.9910  1\n  O  O23  1  0.9342  0.0778  0.7179  1\n  O  O24  1  0.9910  0.2254  0.3647  1\n  O  O25  1  0.2132  0.5720  0.4414  1\n  O  O26  1  0.5720  0.4414  0.2132  1\n  O  O27  1  0.9176  0.2911  0.0568  1\n  O  O28  1  0.6389  0.0056  0.7783  1\n  O  O29  1  0.4414  0.2132  0.5720  1\n  O  O30  1  0.2809  0.5082  0.1356  1\n  O  O31  1  0.2911  0.0568  0.9176  1\n  O  O32  1  0.1356  0.2809  0.5082  1\n  O  O33  1  0.5082  0.1356  0.2809  1\n",
    "output": "data_image0\n_chemical_formula_structural       NbVOVP6O21VO2\n_chemical_formula_sum              \"Nb1 V3 O24 P6\"\n_cell_length_a       8.8034\n_cell_length_b       8.8034\n_cell_length_c       8.8034\n_cell_angle_alpha    58.6375\n_cell_angle_beta     58.6375\n_cell_angle_gamma    58.6375\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nb  Nb1       1.0000  0.1394  0.1394  0.1394  1.0000\n  V   V1        1.0000  0.8578  0.8578  0.8578  1.0000\n  O   O1        1.0000  0.6406  0.6406  0.6406  1.0000\n  V   V2        1.0000  0.3574  0.3574  0.3574  1.0000\n  P   P1        1.0000  0.5402  0.9644  0.2500  1.0000\n  P   P2        1.0000  0.2500  0.5402  0.9644  1.0000\n  P   P3        1.0000  0.9644  0.2500  0.5402  1.0000\n  P   P4        1.0000  0.0326  0.7410  0.4736  1.0000\n  P   P5        1.0000  0.7410  0.4736  0.0326  1.0000\n  P   P6        1.0000  0.4736  0.0326  0.7410  1.0000\n  O   O2        1.0000  0.5019  0.8578  0.7155  1.0000\n  O   O3        1.0000  0.8578  0.7155  0.5019  1.0000\n  O   O4        1.0000  0.7179  0.9342  0.0778  1.0000\n  O   O5        1.0000  0.7155  0.5019  0.8578  1.0000\n  O   O6        1.0000  0.5670  0.7831  0.4269  1.0000\n  O   O7        1.0000  0.3647  0.9910  0.2254  1.0000\n  O   O8        1.0000  0.0778  0.7179  0.9342  1.0000\n  O   O9        1.0000  0.4269  0.5670  0.7831  1.0000\n  O   O10       1.0000  0.7831  0.4269  0.5670  1.0000\n  O   O11       1.0000  0.0056  0.7783  0.6389  1.0000\n  O   O12       1.0000  0.0568  0.9176  0.2911  1.0000\n  O   O13       1.0000  0.7783  0.6389  0.0056  1.0000\n  O   O14       1.0000  0.2254  0.3647  0.9910  1.0000\n  O   O15       1.0000  0.9342  0.0778  0.7179  1.0000\n  O   O16       1.0000  0.9910  0.2254  0.3647  1.0000\n  O   O17       1.0000  0.2132  0.5720  0.4414  1.0000\n  O   O18       1.0000  0.5720  0.4414  0.2132  1.0000\n  O   O19       1.0000  0.9176  0.2911  0.0568  1.0000\n  O   O20       1.0000  0.6389  0.0056  0.7783  1.0000\n  O   O21       1.0000  0.4414  0.2132  0.5720  1.0000\n  O   O22       1.0000  0.2809  0.5082  0.1356  1.0000\n  V   V3        1.0000  0.2911  0.0568  0.9176  1.0000\n  O   O23       1.0000  0.1356  0.2809  0.5082  1.0000\n  O   O24       1.0000  0.5082  0.1356  0.2809  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "64499166-0a9a-4568-9747-9661c65d6c79",
    "mp_id": "mp-775268",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8Mn7Fe(BO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2449\n_cell_length_b   5.2506\n_cell_length_c   21.0051\n_cell_angle_alpha   91.0420\n_cell_angle_beta   90.9548\n_cell_angle_gamma   119.8023\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8Mn7Fe(BO3)8\n_chemical_formula_sum   'Li8 Mn7 Fe1 B8 O24'\n_cell_volume   501.6542\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3484  0.3220  0.6659  1\n  Li  Li1  1  0.3209  0.3487  0.9159  1\n  Li  Li2  1  0.3491  0.3210  0.1661  1\n  Li  Li3  1  0.3211  0.3491  0.4161  1\n  Li  Li4  1  0.6618  0.6531  0.7915  1\n  Li  Li5  1  0.6508  0.6620  0.5413  1\n  Li  Li6  1  0.6618  0.6515  0.2912  1\n  Li  Li7  1  0.6514  0.6618  0.0412  1\n  Mn  Mn8  1  0.9933  0.3262  0.5591  1\n  Mn  Mn9  1  0.9963  0.3294  0.0585  1\n  Mn  Mn10  1  0.9975  0.6768  0.9334  1\n  Mn  Mn11  1  0.9976  0.6767  0.4337  1\n  Mn  Mn12  1  0.6770  0.9973  0.1835  1\n  Mn  Mn13  1  0.3306  0.9958  0.8076  1\n  Mn  Mn14  1  0.3290  0.9962  0.3085  1\n  Fe  Fe15  1  0.6818  0.9945  0.6838  1\n  B  B16  1  0.6584  0.0028  0.9370  1\n  B  B17  1  0.6585  0.0029  0.4371  1\n  B  B18  1  0.9963  0.3343  0.8114  1\n  B  B19  1  0.9956  0.3344  0.3121  1\n  B  B20  1  0.0036  0.6614  0.6869  1\n  B  B21  1  0.0026  0.6585  0.1871  1\n  B  B22  1  0.3337  0.9942  0.5629  1\n  B  B23  1  0.3344  0.9954  0.0621  1\n  O  O24  1  0.7535  0.0707  0.7903  1\n  O  O25  1  0.7527  0.0700  0.2910  1\n  O  O26  1  0.9300  0.2537  0.9521  1\n  O  O27  1  0.4208  0.0331  0.9163  1\n  O  O28  1  0.9299  0.2535  0.4523  1\n  O  O29  1  0.4208  0.0333  0.4164  1\n  O  O30  1  0.9631  0.5779  0.8268  1\n  O  O31  1  0.3577  0.2680  0.5699  1\n  O  O32  1  0.9622  0.5778  0.3274  1\n  O  O33  1  0.3589  0.2691  0.0694  1\n  O  O34  1  0.2696  0.3581  0.8191  1\n  O  O35  1  0.2692  0.3588  0.3195  1\n  O  O36  1  0.7303  0.6407  0.6937  1\n  O  O37  1  0.7278  0.6291  0.1944  1\n  O  O38  1  0.6293  0.7280  0.9442  1\n  O  O39  1  0.0219  0.4148  0.6680  1\n  O  O40  1  0.6292  0.7280  0.4445  1\n  O  O41  1  0.0335  0.4210  0.1664  1\n  O  O42  1  0.5772  0.9618  0.5784  1\n  O  O43  1  0.5779  0.9623  0.0774  1\n  O  O44  1  0.0699  0.7512  0.5415  1\n  O  O45  1  0.0699  0.7526  0.0410  1\n  O  O46  1  0.2587  0.9293  0.7007  1\n  O  O47  1  0.2535  0.9300  0.2021  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnLi7Mn2LiMn4FeB8O24\n_chemical_formula_sum              \"Mn7 Li8 Fe1 B8 O24\"\n_cell_length_a       5.2449\n_cell_length_b       5.2506\n_cell_length_c       21.0051\n_cell_angle_alpha    91.0420\n_cell_angle_beta     90.9548\n_cell_angle_gamma    119.8023\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.3484  0.3220  0.6659  1.0000\n  Li  Li1       1.0000  0.3209  0.3487  0.9159  1.0000\n  Li  Li2       1.0000  0.3491  0.3210  0.1661  1.0000\n  Li  Li3       1.0000  0.3211  0.3491  0.4161  1.0000\n  Li  Li4       1.0000  0.6618  0.6531  0.7915  1.0000\n  Li  Li5       1.0000  0.6508  0.6620  0.5413  1.0000\n  Li  Li6       1.0000  0.6618  0.6515  0.2912  1.0000\n  Li  Li7       1.0000  0.6514  0.6618  0.0412  1.0000\n  Mn  Mn2       1.0000  0.9933  0.3262  0.5591  1.0000\n  Mn  Mn3       1.0000  0.9963  0.3294  0.0585  1.0000\n  Li  Li8       1.0000  0.9975  0.6768  0.9334  1.0000\n  Mn  Mn4       1.0000  0.9976  0.6767  0.4337  1.0000\n  Mn  Mn5       1.0000  0.6770  0.9973  0.1835  1.0000\n  Mn  Mn6       1.0000  0.3306  0.9958  0.8076  1.0000\n  Mn  Mn7       1.0000  0.3290  0.9962  0.3085  1.0000\n  Fe  Fe1       1.0000  0.6818  0.9945  0.6838  1.0000\n  B   B1        1.0000  0.6584  0.0028  0.9370  1.0000\n  B   B2        1.0000  0.6585  0.0029  0.4371  1.0000\n  B   B3        1.0000  0.9963  0.3343  0.8114  1.0000\n  B   B4        1.0000  0.9956  0.3344  0.3121  1.0000\n  B   B5        1.0000  0.0036  0.6614  0.6869  1.0000\n  B   B6        1.0000  0.0026  0.6585  0.1871  1.0000\n  B   B7        1.0000  0.3337  0.9942  0.5629  1.0000\n  B   B8        1.0000  0.3344  0.9954  0.0621  1.0000\n  O   O1        1.0000  0.7535  0.0707  0.7903  1.0000\n  O   O2        1.0000  0.7527  0.0700  0.2910  1.0000\n  O   O3        1.0000  0.9300  0.2537  0.9521  1.0000\n  O   O4        1.0000  0.4208  0.0331  0.9163  1.0000\n  O   O5        1.0000  0.9299  0.2535  0.4523  1.0000\n  O   O6        1.0000  0.4208  0.0333  0.4164  1.0000\n  O   O7        1.0000  0.9631  0.5779  0.8268  1.0000\n  O   O8        1.0000  0.3577  0.2680  0.5699  1.0000\n  O   O9        1.0000  0.9622  0.5778  0.3274  1.0000\n  O   O10       1.0000  0.3589  0.2691  0.0694  1.0000\n  O   O11       1.0000  0.2696  0.3581  0.8191  1.0000\n  O   O12       1.0000  0.2692  0.3588  0.3195  1.0000\n  O   O13       1.0000  0.7303  0.6407  0.6937  1.0000\n  O   O14       1.0000  0.7278  0.6291  0.1944  1.0000\n  O   O15       1.0000  0.6293  0.7280  0.9442  1.0000\n  O   O16       1.0000  0.0219  0.4148  0.6680  1.0000\n  O   O17       1.0000  0.6292  0.7280  0.4445  1.0000\n  O   O18       1.0000  0.0335  0.4210  0.1664  1.0000\n  O   O19       1.0000  0.5772  0.9618  0.5784  1.0000\n  O   O20       1.0000  0.5779  0.9623  0.0774  1.0000\n  O   O21       1.0000  0.0699  0.7512  0.5415  1.0000\n  O   O22       1.0000  0.0699  0.7526  0.0410  1.0000\n  O   O23       1.0000  0.2587  0.9293  0.7007  1.0000\n  O   O24       1.0000  0.2535  0.9300  0.2021  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fe9dadf4-273e-43c5-8190-419952d2a03f",
    "mp_id": "mp-775340",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 42 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Cr(Si2O5)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.7302\n_cell_length_b   9.7302\n_cell_length_c   9.7302\n_cell_angle_alpha   132.8123\n_cell_angle_beta   118.5808\n_cell_angle_gamma   80.9094\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Cr(Si2O5)3\n_chemical_formula_sum   'Li4 Cr2 Si12 O30'\n_cell_volume   573.1332\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2441  0.2441  0.5000  1\n  Li  Li1  1  0.2441  0.7441  0.0000  1\n  Li  Li2  1  0.7559  0.7559  0.5000  1\n  Li  Li3  1  0.7559  0.2559  0.0000  1\n  Cr  Cr4  1  0.5000  0.0000  0.5000  1\n  Cr  Cr5  1  0.0000  0.5000  0.5000  1\n  Si  Si6  1  0.8785  0.6518  0.2267  1\n  Si  Si7  1  0.0749  0.8482  0.2267  1\n  Si  Si8  1  0.3899  0.5452  0.2298  1\n  Si  Si9  1  0.3899  0.1602  0.8448  1\n  Si  Si10  1  0.1846  0.9548  0.8448  1\n  Si  Si11  1  0.1846  0.3398  0.2298  1\n  Si  Si12  1  0.6101  0.8398  0.1552  1\n  Si  Si13  1  0.6101  0.4548  0.7702  1\n  Si  Si14  1  0.8154  0.0452  0.1552  1\n  Si  Si15  1  0.8154  0.6602  0.7702  1\n  Si  Si16  1  0.1215  0.3482  0.7733  1\n  Si  Si17  1  0.9251  0.1518  0.7733  1\n  O  O18  1  0.9506  0.2500  0.7006  1\n  O  O19  1  0.7385  0.0677  0.6708  1\n  O  O20  1  0.1031  0.4323  0.6708  1\n  O  O21  1  0.7681  0.8108  0.2928  1\n  O  O22  1  0.7681  0.4753  0.9574  1\n  O  O23  1  0.4740  0.3705  0.1035  1\n  O  O24  1  0.9820  0.6892  0.9574  1\n  O  O25  1  0.9820  0.0247  0.2928  1\n  O  O26  1  0.2329  0.1295  0.1035  1\n  O  O27  1  0.1574  0.3927  0.4081  1\n  O  O28  1  0.1574  0.7494  0.7647  1\n  O  O29  1  0.5154  0.7506  0.4081  1\n  O  O30  1  0.5154  0.1073  0.7647  1\n  O  O31  1  0.3259  0.9908  0.8167  1\n  O  O32  1  0.3259  0.5092  0.3351  1\n  O  O33  1  0.6741  0.0092  0.1833  1\n  O  O34  1  0.6741  0.4908  0.6649  1\n  O  O35  1  0.8426  0.2506  0.2353  1\n  O  O36  1  0.8426  0.6073  0.5919  1\n  O  O37  1  0.4846  0.2494  0.5919  1\n  O  O38  1  0.4846  0.8927  0.2353  1\n  O  O39  1  0.5260  0.6295  0.8965  1\n  O  O40  1  0.2319  0.5247  0.0426  1\n  O  O41  1  0.2319  0.1892  0.7072  1\n  O  O42  1  0.7671  0.8705  0.8965  1\n  O  O43  1  0.0180  0.3108  0.0426  1\n  O  O44  1  0.0180  0.9753  0.7072  1\n  O  O45  1  0.2615  0.9323  0.3292  1\n  O  O46  1  0.8969  0.5677  0.3292  1\n  O  O47  1  0.0494  0.7500  0.2994  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4Cr2Si2OSi9O24SiO5\n_chemical_formula_sum              \"Li4 Cr2 Si12 O30\"\n_cell_length_a       9.7302\n_cell_length_b       9.7302\n_cell_length_c       9.7302\n_cell_angle_alpha    132.8123\n_cell_angle_beta     118.5808\n_cell_angle_gamma    80.9094\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2441  0.2441  0.5000  1.0000\n  Li  Li2       1.0000  0.2441  0.7441  0.0000  1.0000\n  Li  Li3       1.0000  0.7559  0.7559  0.5000  1.0000\n  Li  Li4       1.0000  0.7559  0.2559  0.0000  1.0000\n  Cr  Cr1       1.0000  0.5000  0.0000  0.5000  1.0000\n  Cr  Cr2       1.0000  0.0000  0.5000  0.5000  1.0000\n  Si  Si1       1.0000  0.8785  0.6518  0.2267  1.0000\n  Si  Si2       1.0000  0.0749  0.8482  0.2267  1.0000\n  O   O1        1.0000  0.3899  0.5452  0.2298  1.0000\n  Si  Si3       1.0000  0.3899  0.1602  0.8448  1.0000\n  Si  Si4       1.0000  0.1846  0.9549  0.8448  1.0000\n  Si  Si5       1.0000  0.1846  0.3398  0.2298  1.0000\n  Si  Si6       1.0000  0.6101  0.8398  0.1552  1.0000\n  Si  Si7       1.0000  0.6101  0.4548  0.7702  1.0000\n  Si  Si8       1.0000  0.8154  0.0452  0.1552  1.0000\n  Si  Si9       1.0000  0.8154  0.6602  0.7702  1.0000\n  Si  Si10      1.0000  0.1215  0.3482  0.7733  1.0000\n  Si  Si11      1.0000  0.9251  0.1518  0.7733  1.0000\n  O   O2        1.0000  0.9506  0.2500  0.7006  1.0000\n  O   O3        1.0000  0.7385  0.0677  0.6708  1.0000\n  O   O4        1.0000  0.1031  0.4323  0.6708  1.0000\n  O   O5        1.0000  0.7681  0.8108  0.2928  1.0000\n  O   O6        1.0000  0.7681  0.4753  0.9574  1.0000\n  O   O7        1.0000  0.4740  0.3705  0.1035  1.0000\n  O   O8        1.0000  0.9820  0.6892  0.9574  1.0000\n  O   O9        1.0000  0.9820  0.0247  0.2928  1.0000\n  O   O10       1.0000  0.2330  0.1295  0.1035  1.0000\n  O   O11       1.0000  0.1574  0.3927  0.4081  1.0000\n  O   O12       1.0000  0.1574  0.7494  0.7647  1.0000\n  O   O13       1.0000  0.5154  0.7506  0.4081  1.0000\n  O   O14       1.0000  0.5154  0.1073  0.7647  1.0000\n  O   O15       1.0000  0.3259  0.9908  0.8167  1.0000\n  O   O16       1.0000  0.3259  0.5092  0.3351  1.0000\n  O   O17       1.0000  0.6741  0.0092  0.1833  1.0000\n  O   O18       1.0000  0.6741  0.4908  0.6649  1.0000\n  O   O19       1.0000  0.8426  0.2506  0.2353  1.0000\n  O   O20       1.0000  0.8426  0.6073  0.5919  1.0000\n  O   O21       1.0000  0.4846  0.2494  0.5919  1.0000\n  O   O22       1.0000  0.4846  0.8927  0.2353  1.0000\n  O   O23       1.0000  0.5260  0.6295  0.8965  1.0000\n  O   O24       1.0000  0.2319  0.5247  0.0426  1.0000\n  O   O25       1.0000  0.2319  0.1892  0.7072  1.0000\n  Si  Si12      1.0000  0.7671  0.8705  0.8965  1.0000\n  O   O26       1.0000  0.0180  0.3108  0.0426  1.0000\n  O   O27       1.0000  0.0180  0.9753  0.7072  1.0000\n  O   O28       1.0000  0.2615  0.9323  0.3292  1.0000\n  O   O29       1.0000  0.8969  0.5677  0.3292  1.0000\n  O   O30       1.0000  0.0494  0.7500  0.2994  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "38ef9dbe-3988-46be-aea3-13c406877687",
    "mp_id": "mp-775989",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 27 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_CrFe3Sb2(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.8439\n_cell_length_b   8.8439\n_cell_length_c   8.8439\n_cell_angle_alpha   58.7155\n_cell_angle_beta   58.7155\n_cell_angle_gamma   58.7156\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   CrFe3Sb2(PO4)6\n_chemical_formula_sum   'Cr1 Fe3 Sb2 P6 O24'\n_cell_volume   474.7664\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.1455  0.1455  0.1455  1\n  Fe  Fe1  1  0.8506  0.8506  0.8506  1\n  Fe  Fe2  1  0.6493  0.6493  0.6493  1\n  Fe  Fe3  1  0.3510  0.3510  0.3510  1\n  Sb  Sb4  1  0.9971  0.9971  0.9971  1\n  Sb  Sb5  1  0.5004  0.5004  0.5004  1\n  P  P6  1  0.9605  0.2503  0.5380  1\n  P  P7  1  0.5380  0.9605  0.2503  1\n  P  P8  1  0.2503  0.5380  0.9605  1\n  P  P9  1  0.7507  0.4594  0.0415  1\n  P  P10  1  0.4594  0.0415  0.7507  1\n  P  P11  1  0.0415  0.7507  0.4594  1\n  O  O12  1  0.8839  0.6996  0.4912  1\n  O  O13  1  0.6996  0.4912  0.8839  1\n  O  O14  1  0.9405  0.0827  0.7332  1\n  O  O15  1  0.4912  0.8839  0.6996  1\n  O  O16  1  0.9918  0.1991  0.3823  1\n  O  O17  1  0.7668  0.4170  0.5608  1\n  O  O18  1  0.7332  0.9405  0.0827  1\n  O  O19  1  0.5608  0.7668  0.4170  1\n  O  O20  1  0.8020  0.6172  0.0078  1\n  O  O21  1  0.4170  0.5608  0.7668  1\n  O  O22  1  0.9183  0.2677  0.0610  1\n  O  O23  1  0.6172  0.0078  0.8020  1\n  O  O24  1  0.3823  0.9918  0.1991  1\n  O  O25  1  0.0827  0.7332  0.9405  1\n  O  O26  1  0.5828  0.4400  0.2335  1\n  O  O27  1  0.1991  0.3823  0.9918  1\n  O  O28  1  0.4400  0.2335  0.5828  1\n  O  O29  1  0.2677  0.0610  0.9183  1\n  O  O30  1  0.2335  0.5828  0.4400  1\n  O  O31  1  0.0078  0.8020  0.6172  1\n  O  O32  1  0.5075  0.1164  0.3025  1\n  O  O33  1  0.0610  0.9183  0.2677  1\n  O  O34  1  0.3025  0.5075  0.1164  1\n  O  O35  1  0.1164  0.3025  0.5075  1\n",
    "output": "data_image0\n_chemical_formula_structural       CrFe3OSbP6O15SbO8\n_chemical_formula_sum              \"Cr1 Fe3 O24 Sb2 P6\"\n_cell_length_a       8.8439\n_cell_length_b       8.8439\n_cell_length_c       8.8439\n_cell_angle_alpha    58.7155\n_cell_angle_beta     58.7155\n_cell_angle_gamma    58.7156\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.1455  0.1455  0.1455  1.0000\n  Fe  Fe1       1.0000  0.8506  0.8506  0.8506  1.0000\n  Fe  Fe2       1.0000  0.6493  0.6493  0.6493  1.0000\n  Fe  Fe3       1.0000  0.3510  0.3510  0.3510  1.0000\n  O   O1        1.0000  0.9971  0.9971  0.9971  1.0000\n  Sb  Sb1       1.0000  0.5004  0.5004  0.5004  1.0000\n  P   P1        1.0000  0.9605  0.2503  0.5380  1.0000\n  P   P2        1.0000  0.5380  0.9605  0.2503  1.0000\n  P   P3        1.0000  0.2503  0.5380  0.9605  1.0000\n  P   P4        1.0000  0.7507  0.4594  0.0415  1.0000\n  P   P5        1.0000  0.4594  0.0415  0.7507  1.0000\n  P   P6        1.0000  0.0415  0.7507  0.4594  1.0000\n  O   O2        1.0000  0.8839  0.6996  0.4912  1.0000\n  O   O3        1.0000  0.6996  0.4912  0.8839  1.0000\n  O   O4        1.0000  0.9405  0.0827  0.7332  1.0000\n  O   O5        1.0000  0.4912  0.8839  0.6996  1.0000\n  O   O6        1.0000  0.9918  0.1991  0.3823  1.0000\n  O   O7        1.0000  0.7668  0.4170  0.5608  1.0000\n  O   O8        1.0000  0.7332  0.9405  0.0827  1.0000\n  O   O9        1.0000  0.5608  0.7668  0.4170  1.0000\n  O   O10       1.0000  0.8020  0.6172  0.0078  1.0000\n  O   O11       1.0000  0.4170  0.5608  0.7668  1.0000\n  O   O12       1.0000  0.9183  0.2677  0.0610  1.0000\n  O   O13       1.0000  0.6172  0.0078  0.8020  1.0000\n  O   O14       1.0000  0.3823  0.9918  0.1991  1.0000\n  O   O15       1.0000  0.0827  0.7332  0.9405  1.0000\n  O   O16       1.0000  0.5828  0.4400  0.2335  1.0000\n  Sb  Sb2       1.0000  0.1991  0.3823  0.9918  1.0000\n  O   O17       1.0000  0.4400  0.2335  0.5828  1.0000\n  O   O18       1.0000  0.2677  0.0610  0.9183  1.0000\n  O   O19       1.0000  0.2335  0.5828  0.4400  1.0000\n  O   O20       1.0000  0.0078  0.8020  0.6172  1.0000\n  O   O21       1.0000  0.5075  0.1164  0.3025  1.0000\n  O   O22       1.0000  0.0610  0.9183  0.2677  1.0000\n  O   O23       1.0000  0.3025  0.5075  0.1164  1.0000\n  O   O24       1.0000  0.1164  0.3025  0.5075  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dd6725c6-6a5a-43af-94ca-c946fa6123d5",
    "mp_id": "mp-776097",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_HfO2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8100\n_cell_length_b   5.7840\n_cell_length_c   15.9176\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   HfO2\n_chemical_formula_sum   'Hf12 O24'\n_cell_volume   442.8407\n_cell_formula_units_Z   12\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Hf  Hf0  1  0.0026  0.3485  0.0842  1\n  Hf  Hf1  1  0.0000  0.0233  0.2500  1\n  Hf  Hf2  1  0.9974  0.3485  0.4158  1\n  Hf  Hf3  1  0.0000  0.9767  0.7500  1\n  Hf  Hf4  1  0.0026  0.6515  0.5842  1\n  Hf  Hf5  1  0.9974  0.6515  0.9158  1\n  Hf  Hf6  1  0.4974  0.1515  0.5842  1\n  Hf  Hf7  1  0.5000  0.5233  0.2500  1\n  Hf  Hf8  1  0.5026  0.1515  0.9158  1\n  Hf  Hf9  1  0.5000  0.4767  0.7500  1\n  Hf  Hf10  1  0.5026  0.8485  0.4158  1\n  Hf  Hf11  1  0.4974  0.8485  0.0842  1\n  O  O12  1  0.2044  0.6298  0.0301  1\n  O  O13  1  0.2044  0.3702  0.5301  1\n  O  O14  1  0.2786  0.1910  0.6957  1\n  O  O15  1  0.2786  0.8090  0.1957  1\n  O  O16  1  0.2123  0.0726  0.3623  1\n  O  O17  1  0.2123  0.9274  0.8623  1\n  O  O18  1  0.2877  0.5726  0.3623  1\n  O  O19  1  0.2877  0.4274  0.8623  1\n  O  O20  1  0.2214  0.3090  0.1957  1\n  O  O21  1  0.2214  0.6910  0.6957  1\n  O  O22  1  0.2956  0.1298  0.0301  1\n  O  O23  1  0.2956  0.8702  0.5301  1\n  O  O24  1  0.7044  0.8702  0.9699  1\n  O  O25  1  0.7044  0.1298  0.4699  1\n  O  O26  1  0.7786  0.3090  0.3043  1\n  O  O27  1  0.7786  0.6910  0.8043  1\n  O  O28  1  0.7123  0.4274  0.6377  1\n  O  O29  1  0.7123  0.5726  0.1377  1\n  O  O30  1  0.7877  0.9274  0.6377  1\n  O  O31  1  0.7877  0.0726  0.1377  1\n  O  O32  1  0.7214  0.1910  0.8043  1\n  O  O33  1  0.7214  0.8090  0.3043  1\n  O  O34  1  0.7956  0.3702  0.9699  1\n  O  O35  1  0.7956  0.6298  0.4699  1\n",
    "output": "data_image0\n_chemical_formula_structural       Hf6OHf5O21HfO2\n_chemical_formula_sum              \"Hf12 O24\"\n_cell_length_a       4.8100\n_cell_length_b       5.7840\n_cell_length_c       15.9176\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Hf  Hf1       1.0000  0.0026  0.3485  0.0842  1.0000\n  Hf  Hf2       1.0000  0.0000  0.0233  0.2500  1.0000\n  Hf  Hf3       1.0000  0.9974  0.3485  0.4158  1.0000\n  Hf  Hf4       1.0000  0.0000  0.9767  0.7500  1.0000\n  Hf  Hf5       1.0000  0.0026  0.6515  0.5842  1.0000\n  Hf  Hf6       1.0000  0.9974  0.6515  0.9158  1.0000\n  O   O1        1.0000  0.4974  0.1515  0.5842  1.0000\n  Hf  Hf7       1.0000  0.5000  0.5233  0.2500  1.0000\n  Hf  Hf8       1.0000  0.5026  0.1515  0.9158  1.0000\n  Hf  Hf9       1.0000  0.5000  0.4767  0.7500  1.0000\n  Hf  Hf10      1.0000  0.5026  0.8485  0.4158  1.0000\n  Hf  Hf11      1.0000  0.4974  0.8485  0.0842  1.0000\n  O   O2        1.0000  0.2044  0.6298  0.0301  1.0000\n  O   O3        1.0000  0.2044  0.3702  0.5301  1.0000\n  O   O4        1.0000  0.2786  0.1910  0.6957  1.0000\n  O   O5        1.0000  0.2786  0.8090  0.1957  1.0000\n  O   O6        1.0000  0.2123  0.0726  0.3623  1.0000\n  O   O7        1.0000  0.2123  0.9274  0.8623  1.0000\n  O   O8        1.0000  0.2877  0.5726  0.3623  1.0000\n  O   O9        1.0000  0.2877  0.4274  0.8623  1.0000\n  O   O10       1.0000  0.2214  0.3090  0.1957  1.0000\n  O   O11       1.0000  0.2214  0.6910  0.6957  1.0000\n  O   O12       1.0000  0.2956  0.1298  0.0301  1.0000\n  O   O13       1.0000  0.2956  0.8702  0.5301  1.0000\n  O   O14       1.0000  0.7044  0.8702  0.9699  1.0000\n  O   O15       1.0000  0.7044  0.1298  0.4699  1.0000\n  O   O16       1.0000  0.7786  0.3090  0.3043  1.0000\n  O   O17       1.0000  0.7786  0.6910  0.8043  1.0000\n  O   O18       1.0000  0.7123  0.4274  0.6377  1.0000\n  O   O19       1.0000  0.7123  0.5726  0.1377  1.0000\n  O   O20       1.0000  0.7877  0.9274  0.6377  1.0000\n  O   O21       1.0000  0.7877  0.0726  0.1377  1.0000\n  O   O22       1.0000  0.7214  0.1910  0.8043  1.0000\n  Hf  Hf12      1.0000  0.7214  0.8090  0.3043  1.0000\n  O   O23       1.0000  0.7956  0.3702  0.9699  1.0000\n  O   O24       1.0000  0.7956  0.6298  0.4699  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1432fdac-ba24-4086-aa5f-65a16af722ed",
    "mp_id": "mp-776529",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 6 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NaLiMn2Fe4(PO4)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4719\n_cell_length_b   8.6845\n_cell_length_c   8.7547\n_cell_angle_alpha   92.7209\n_cell_angle_beta   106.6993\n_cell_angle_gamma   106.2824\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NaLiMn2Fe4(PO4)6\n_chemical_formula_sum   'Na1 Li1 Mn2 Fe4 P6 O24'\n_cell_volume   448.0015\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Na  Na0  1  0.0014  0.4983  0.5009  1\n  Li  Li1  1  0.7535  0.0108  0.9901  1\n  Mn  Mn2  1  0.2528  0.2699  0.7299  1\n  Mn  Mn3  1  0.7459  0.7231  0.2773  1\n  Fe  Fe4  1  0.3648  0.9345  0.6217  1\n  Fe  Fe5  1  0.8719  0.6300  0.9330  1\n  Fe  Fe6  1  0.1359  0.3761  0.0676  1\n  Fe  Fe7  1  0.6273  0.0656  0.3718  1\n  P  P8  1  0.3750  0.6566  0.8693  1\n  P  P9  1  0.8701  0.8661  0.6515  1\n  P  P10  1  0.2486  0.7129  0.2854  1\n  P  P11  1  0.7510  0.2866  0.7152  1\n  P  P12  1  0.1207  0.1326  0.3455  1\n  P  P13  1  0.6337  0.3471  0.1312  1\n  O  O14  1  0.1033  0.9950  0.6658  1\n  O  O15  1  0.1869  0.6098  0.9550  1\n  O  O16  1  0.4051  0.8299  0.8199  1\n  O  O17  1  0.6070  0.6691  0.9979  1\n  O  O18  1  0.6793  0.9504  0.5947  1\n  O  O19  1  0.8753  0.8225  0.8224  1\n  O  O20  1  0.3100  0.5254  0.7272  1\n  O  O21  1  0.2368  0.7418  0.4587  1\n  O  O22  1  0.0304  0.7370  0.1691  1\n  O  O23  1  0.4671  0.8301  0.2643  1\n  O  O24  1  0.8275  0.7211  0.5295  1\n  O  O25  1  0.7461  0.4618  0.7431  1\n  O  O26  1  0.2572  0.5378  0.2586  1\n  O  O27  1  0.1681  0.2746  0.4724  1\n  O  O28  1  0.5351  0.1673  0.7404  1\n  O  O29  1  0.9660  0.2574  0.8337  1\n  O  O30  1  0.7602  0.2568  0.5418  1\n  O  O31  1  0.6937  0.4731  0.2766  1\n  O  O32  1  0.0940  0.1782  0.1720  1\n  O  O33  1  0.3158  0.0515  0.3978  1\n  O  O34  1  0.3987  0.3361  0.0076  1\n  O  O35  1  0.6256  0.1759  0.1786  1\n  O  O36  1  0.8178  0.3988  0.0428  1\n  O  O37  1  0.8904  0.9989  0.3291  1\n",
    "output": "data_image0\n_chemical_formula_structural       NaLiMn2Fe2OFeP6OFeO22\n_chemical_formula_sum              \"Na1 Li1 Mn2 Fe4 O24 P6\"\n_cell_length_a       6.4719\n_cell_length_b       8.6845\n_cell_length_c       8.7547\n_cell_angle_alpha    92.7209\n_cell_angle_beta     106.6993\n_cell_angle_gamma    106.2824\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Na  Na1       1.0000  0.0014  0.4983  0.5009  1.0000\n  Li  Li1       1.0000  0.7535  0.0108  0.9901  1.0000\n  Mn  Mn1       1.0000  0.2528  0.2699  0.7299  1.0000\n  Mn  Mn2       1.0000  0.7459  0.7231  0.2773  1.0000\n  Fe  Fe1       1.0000  0.3648  0.9345  0.6217  1.0000\n  Fe  Fe2       1.0000  0.8719  0.6300  0.9330  1.0000\n  O   O1        1.0000  0.1359  0.3761  0.0676  1.0000\n  Fe  Fe3       1.0000  0.6273  0.0656  0.3718  1.0000\n  P   P1        1.0000  0.3750  0.6566  0.8693  1.0000\n  P   P2        1.0000  0.8701  0.8661  0.6515  1.0000\n  P   P3        1.0000  0.2486  0.7129  0.2854  1.0000\n  P   P4        1.0000  0.7510  0.2866  0.7152  1.0000\n  P   P5        1.0000  0.1207  0.1326  0.3455  1.0000\n  P   P6        1.0000  0.6337  0.3471  0.1312  1.0000\n  O   O2        1.0000  0.1033  0.9950  0.6658  1.0000\n  Fe  Fe4       1.0000  0.1869  0.6098  0.9550  1.0000\n  O   O3        1.0000  0.4051  0.8299  0.8199  1.0000\n  O   O4        1.0000  0.6070  0.6691  0.9979  1.0000\n  O   O5        1.0000  0.6793  0.9504  0.5947  1.0000\n  O   O6        1.0000  0.8753  0.8225  0.8224  1.0000\n  O   O7        1.0000  0.3100  0.5254  0.7272  1.0000\n  O   O8        1.0000  0.2368  0.7418  0.4587  1.0000\n  O   O9        1.0000  0.0304  0.7370  0.1691  1.0000\n  O   O10       1.0000  0.4671  0.8301  0.2643  1.0000\n  O   O11       1.0000  0.8275  0.7211  0.5295  1.0000\n  O   O12       1.0000  0.7461  0.4618  0.7431  1.0000\n  O   O13       1.0000  0.2572  0.5378  0.2586  1.0000\n  O   O14       1.0000  0.1681  0.2746  0.4724  1.0000\n  O   O15       1.0000  0.5351  0.1673  0.7404  1.0000\n  O   O16       1.0000  0.9660  0.2574  0.8337  1.0000\n  O   O17       1.0000  0.7602  0.2568  0.5418  1.0000\n  O   O18       1.0000  0.6937  0.4731  0.2766  1.0000\n  O   O19       1.0000  0.0940  0.1782  0.1720  1.0000\n  O   O20       1.0000  0.3158  0.0515  0.3978  1.0000\n  O   O21       1.0000  0.3987  0.3361  0.0076  1.0000\n  O   O22       1.0000  0.6256  0.1759  0.1786  1.0000\n  O   O23       1.0000  0.8178  0.3988  0.0428  1.0000\n  O   O24       1.0000  0.8904  0.9989  0.3291  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "786e1cb3-0e7b-4b4a-8246-50604b5aad52",
    "mp_id": "mp-7767",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbAgF3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1521\n_cell_length_b   6.1521\n_cell_length_c   6.1521\n_cell_angle_alpha   90.3510\n_cell_angle_beta   119.7976\n_cell_angle_gamma   119.7976\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbAgF3\n_chemical_formula_sum   'Rb2 Ag2 F6'\n_cell_volume   165.1502\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.0000  0.2500  0.2500  1\n  Rb  Rb1  1  0.0000  0.7500  0.7500  1\n  Ag  Ag2  1  0.5000  0.5000  0.0000  1\n  Ag  Ag3  1  0.5000  0.0000  0.5000  1\n  F  F4  1  0.0161  0.2581  0.7581  1\n  F  F5  1  0.5000  0.7581  0.7419  1\n  F  F6  1  0.5000  0.2419  0.2581  1\n  F  F7  1  0.9839  0.7419  0.2419  1\n  F  F8  1  0.5000  0.7500  0.2500  1\n  F  F9  1  0.5000  0.2500  0.7500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Rb2AgF2AgF4\n_chemical_formula_sum              \"Rb2 Ag2 F6\"\n_cell_length_a       6.1521\n_cell_length_b       6.1521\n_cell_length_c       6.1521\n_cell_angle_alpha    90.3510\n_cell_angle_beta     119.7976\n_cell_angle_gamma    119.7976\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Rb  Rb1       1.0000  0.0000  0.2500  0.2500  1.0000\n  Rb  Rb2       1.0000  0.0000  0.7500  0.7500  1.0000\n  Ag  Ag1       1.0000  0.5000  0.5000  0.0000  1.0000\n  F   F1        1.0000  0.5000  0.0000  0.5000  1.0000\n  F   F2        1.0000  0.0161  0.2581  0.7581  1.0000\n  Ag  Ag2       1.0000  0.5000  0.7581  0.7419  1.0000\n  F   F3        1.0000  0.5000  0.2419  0.2581  1.0000\n  F   F4        1.0000  0.9839  0.7419  0.2419  1.0000\n  F   F5        1.0000  0.5000  0.7500  0.2500  1.0000\n  F   F6        1.0000  0.5000  0.2500  0.7500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "84ec962b-ed4c-40bf-ab8f-fee86b1ade35",
    "mp_id": "mp-776873",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cr2O3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0393\n_cell_length_b   9.2823\n_cell_length_c   9.2823\n_cell_angle_alpha   89.9975\n_cell_angle_beta   54.7346\n_cell_angle_gamma   54.7316\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cr2O3\n_chemical_formula_sum   'Cr16 O24'\n_cell_volume   399.8815\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.9980  0.0017  0.0014  1\n  Cr  Cr1  1  0.9980  0.0017  0.5014  1\n  Cr  Cr2  1  0.9980  0.5017  0.0014  1\n  Cr  Cr3  1  0.9980  0.5017  0.5014  1\n  Cr  Cr4  1  0.9980  0.2517  0.2903  1\n  Cr  Cr5  1  0.9980  0.2517  0.7903  1\n  Cr  Cr6  1  0.4980  0.5406  0.7514  1\n  Cr  Cr7  1  0.4979  0.4628  0.2514  1\n  Cr  Cr8  1  0.4201  0.2906  0.0403  1\n  Cr  Cr9  1  0.4202  0.7905  0.5403  1\n  Cr  Cr10  1  0.5759  0.7128  0.9624  1\n  Cr  Cr11  1  0.5759  0.2127  0.4624  1\n  Cr  Cr12  1  0.4980  0.9628  0.2515  1\n  Cr  Cr13  1  0.4980  0.0406  0.7514  1\n  Cr  Cr14  1  0.9980  0.7517  0.7125  1\n  Cr  Cr15  1  0.9980  0.7517  0.2125  1\n  O  O16  1  0.1827  0.5499  0.2744  1\n  O  O17  1  0.1828  0.7687  0.7745  1\n  O  O18  1  0.1827  0.0499  0.5436  1\n  O  O19  1  0.1828  0.2687  0.0436  1\n  O  O20  1  0.2671  0.9595  0.2263  1\n  O  O21  1  0.2672  0.2747  0.7262  1\n  O  O22  1  0.2671  0.7748  0.0074  1\n  O  O23  1  0.2672  0.4595  0.5074  1\n  O  O24  1  0.2792  0.9956  0.7684  1\n  O  O25  1  0.2792  0.2265  0.2684  1\n  O  O26  1  0.2792  0.4956  0.9532  1\n  O  O27  1  0.2792  0.7265  0.4532  1\n  O  O28  1  0.7168  0.7769  0.7343  1\n  O  O29  1  0.7169  0.0077  0.2343  1\n  O  O30  1  0.7168  0.2769  0.5496  1\n  O  O31  1  0.7168  0.5077  0.0496  1\n  O  O32  1  0.7289  0.7286  0.2766  1\n  O  O33  1  0.7289  0.0439  0.7766  1\n  O  O34  1  0.7289  0.2286  0.9953  1\n  O  O35  1  0.7289  0.5439  0.4954  1\n  O  O36  1  0.8132  0.4535  0.7284  1\n  O  O37  1  0.8132  0.2347  0.2283  1\n  O  O38  1  0.8132  0.7347  0.9592  1\n  O  O39  1  0.8133  0.9534  0.4592  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr2OCr13OCrO22\n_chemical_formula_sum              \"Cr16 O24\"\n_cell_length_a       8.0393\n_cell_length_b       9.2823\n_cell_length_c       9.2823\n_cell_angle_alpha    89.9975\n_cell_angle_beta     54.7346\n_cell_angle_gamma    54.7316\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.9980  0.0017  0.0014  1.0000\n  Cr  Cr2       1.0000  0.9980  0.0017  0.5014  1.0000\n  O   O1        1.0000  0.9980  0.5017  0.0014  1.0000\n  Cr  Cr3       1.0000  0.9980  0.5017  0.5014  1.0000\n  Cr  Cr4       1.0000  0.9980  0.2517  0.2903  1.0000\n  Cr  Cr5       1.0000  0.9980  0.2517  0.7903  1.0000\n  Cr  Cr6       1.0000  0.4980  0.5406  0.7514  1.0000\n  Cr  Cr7       1.0000  0.4979  0.4628  0.2514  1.0000\n  Cr  Cr8       1.0000  0.4201  0.2906  0.0403  1.0000\n  Cr  Cr9       1.0000  0.4202  0.7905  0.5403  1.0000\n  Cr  Cr10      1.0000  0.5759  0.7128  0.9624  1.0000\n  Cr  Cr11      1.0000  0.5759  0.2127  0.4624  1.0000\n  Cr  Cr12      1.0000  0.4980  0.9628  0.2515  1.0000\n  Cr  Cr13      1.0000  0.4980  0.0406  0.7514  1.0000\n  Cr  Cr14      1.0000  0.9980  0.7517  0.7125  1.0000\n  Cr  Cr15      1.0000  0.9980  0.7517  0.2125  1.0000\n  O   O2        1.0000  0.1827  0.5499  0.2744  1.0000\n  Cr  Cr16      1.0000  0.1828  0.7687  0.7745  1.0000\n  O   O3        1.0000  0.1827  0.0499  0.5436  1.0000\n  O   O4        1.0000  0.1828  0.2687  0.0436  1.0000\n  O   O5        1.0000  0.2671  0.9595  0.2263  1.0000\n  O   O6        1.0000  0.2672  0.2747  0.7262  1.0000\n  O   O7        1.0000  0.2671  0.7748  0.0074  1.0000\n  O   O8        1.0000  0.2672  0.4595  0.5074  1.0000\n  O   O9        1.0000  0.2792  0.9956  0.7684  1.0000\n  O   O10       1.0000  0.2792  0.2265  0.2684  1.0000\n  O   O11       1.0000  0.2792  0.4956  0.9532  1.0000\n  O   O12       1.0000  0.2792  0.7265  0.4532  1.0000\n  O   O13       1.0000  0.7168  0.7769  0.7343  1.0000\n  O   O14       1.0000  0.7169  0.0077  0.2343  1.0000\n  O   O15       1.0000  0.7168  0.2769  0.5496  1.0000\n  O   O16       1.0000  0.7168  0.5077  0.0496  1.0000\n  O   O17       1.0000  0.7289  0.7286  0.2766  1.0000\n  O   O18       1.0000  0.7289  0.0439  0.7766  1.0000\n  O   O19       1.0000  0.7289  0.2286  0.9953  1.0000\n  O   O20       1.0000  0.7289  0.5439  0.4954  1.0000\n  O   O21       1.0000  0.8132  0.4535  0.7284  1.0000\n  O   O22       1.0000  0.8132  0.2347  0.2283  1.0000\n  O   O23       1.0000  0.8132  0.7347  0.9592  1.0000\n  O   O24       1.0000  0.8133  0.9534  0.4592  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ecbf16a8-e81e-4536-a8de-252de81becc2",
    "mp_id": "mp-777288",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5V6O5F19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1847\n_cell_length_b   5.3865\n_cell_length_c   16.1777\n_cell_angle_alpha   79.9967\n_cell_angle_beta   89.8871\n_cell_angle_gamma   89.8655\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5V6O5F19\n_chemical_formula_sum   'Li5 V6 O5 F19'\n_cell_volume   444.9267\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.7146  0.0239  0.5063  1\n  Li  Li1  1  0.9584  0.2205  0.7890  1\n  Li  Li2  1  0.8272  0.6254  0.1738  1\n  Li  Li3  1  0.2920  0.5187  0.4883  1\n  Li  Li4  1  0.0333  0.6528  0.8904  1\n  V  V5  1  0.5087  0.4919  0.9999  1\n  V  V6  1  0.0273  0.3608  0.3342  1\n  V  V7  1  0.9826  0.0325  0.0007  1\n  V  V8  1  0.4658  0.1888  0.6718  1\n  V  V9  1  0.5218  0.8097  0.3278  1\n  V  V10  1  0.9755  0.6998  0.6636  1\n  O  O11  1  0.2095  0.3601  0.6877  1\n  O  O12  1  0.2840  0.5496  0.3537  1\n  O  O13  1  0.7820  0.6111  0.3131  1\n  O  O14  1  0.7914  0.3036  0.9790  1\n  O  O15  1  0.7816  0.9485  0.6453  1\n  F  F16  1  0.2996  0.1902  0.0230  1\n  F  F17  1  0.2204  0.0447  0.3546  1\n  F  F18  1  0.7195  0.1096  0.3206  1\n  F  F19  1  0.4309  0.2057  0.5517  1\n  F  F20  1  0.0828  0.0164  0.8859  1\n  F  F21  1  0.0746  0.3712  0.2211  1\n  F  F22  1  0.9318  0.2830  0.4496  1\n  F  F23  1  0.5854  0.4763  0.1116  1\n  F  F24  1  0.6167  0.1203  0.7776  1\n  F  F25  1  0.1868  0.6871  0.0187  1\n  F  F26  1  0.7163  0.4568  0.6398  1\n  F  F27  1  0.9199  0.5802  0.7827  1\n  F  F28  1  0.3846  0.5367  0.8906  1\n  F  F29  1  0.9085  0.9452  0.1127  1\n  F  F30  1  0.0965  0.7158  0.5533  1\n  F  F31  1  0.5708  0.7725  0.4494  1\n  F  F32  1  0.4245  0.8843  0.2203  1\n  F  F33  1  0.2814  0.8660  0.6972  1\n  F  F34  1  0.7022  0.8062  0.9730  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5V6OFO3F8OF10\n_chemical_formula_sum              \"Li5 V6 O5 F19\"\n_cell_length_a       5.1847\n_cell_length_b       5.3865\n_cell_length_c       16.1777\n_cell_angle_alpha    79.9967\n_cell_angle_beta     89.8871\n_cell_angle_gamma    89.8655\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.7146  0.0239  0.5063  1.0000\n  Li  Li2       1.0000  0.9584  0.2205  0.7890  1.0000\n  Li  Li3       1.0000  0.8272  0.6254  0.1738  1.0000\n  Li  Li4       1.0000  0.2920  0.5187  0.4883  1.0000\n  Li  Li5       1.0000  0.0333  0.6528  0.8904  1.0000\n  V   V1        1.0000  0.5087  0.4919  0.9999  1.0000\n  V   V2        1.0000  0.0273  0.3608  0.3342  1.0000\n  V   V3        1.0000  0.9826  0.0325  0.0007  1.0000\n  V   V4        1.0000  0.4658  0.1888  0.6718  1.0000\n  V   V5        1.0000  0.5218  0.8097  0.3278  1.0000\n  V   V6        1.0000  0.9755  0.6998  0.6636  1.0000\n  O   O1        1.0000  0.2095  0.3601  0.6877  1.0000\n  F   F1        1.0000  0.2840  0.5496  0.3537  1.0000\n  O   O2        1.0000  0.7820  0.6111  0.3131  1.0000\n  O   O3        1.0000  0.7914  0.3036  0.9790  1.0000\n  O   O4        1.0000  0.7816  0.9485  0.6453  1.0000\n  F   F2        1.0000  0.2996  0.1902  0.0230  1.0000\n  F   F3        1.0000  0.2204  0.0447  0.3546  1.0000\n  F   F4        1.0000  0.7195  0.1096  0.3206  1.0000\n  F   F5        1.0000  0.4309  0.2057  0.5517  1.0000\n  F   F6        1.0000  0.0828  0.0164  0.8859  1.0000\n  F   F7        1.0000  0.0746  0.3712  0.2211  1.0000\n  F   F8        1.0000  0.9318  0.2830  0.4496  1.0000\n  F   F9        1.0000  0.5854  0.4763  0.1116  1.0000\n  O   O5        1.0000  0.6167  0.1203  0.7776  1.0000\n  F   F10       1.0000  0.1868  0.6871  0.0187  1.0000\n  F   F11       1.0000  0.7163  0.4568  0.6398  1.0000\n  F   F12       1.0000  0.9199  0.5802  0.7827  1.0000\n  F   F13       1.0000  0.3846  0.5367  0.8906  1.0000\n  F   F14       1.0000  0.9085  0.9452  0.1127  1.0000\n  F   F15       1.0000  0.0965  0.7158  0.5533  1.0000\n  F   F16       1.0000  0.5708  0.7725  0.4494  1.0000\n  F   F17       1.0000  0.4245  0.8843  0.2203  1.0000\n  F   F18       1.0000  0.2814  0.8660  0.6972  1.0000\n  F   F19       1.0000  0.7022  0.8062  0.9730  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "066b353e-f648-484e-b6cf-a368dcc502f0",
    "mp_id": "mp-777458",
    "action_prompt": "Swap the spatial positions of atoms at indices 24 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn6O5F7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.5780\n_cell_length_b   5.0617\n_cell_length_c   15.1489\n_cell_angle_alpha   96.5002\n_cell_angle_beta   85.0406\n_cell_angle_gamma   94.5495\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn6O5F7\n_chemical_formula_sum   'Mn12 O10 F14'\n_cell_volume   422.3250\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0960  0.0033  0.0134  1\n  Mn  Mn1  1  0.9305  0.5067  0.1658  1\n  Mn  Mn2  1  0.0895  0.9486  0.3375  1\n  Mn  Mn3  1  0.9236  0.4985  0.5011  1\n  Mn  Mn4  1  0.1343  0.9821  0.6721  1\n  Mn  Mn5  1  0.9189  0.4943  0.8317  1\n  Mn  Mn6  1  0.4328  0.0148  0.1605  1\n  Mn  Mn7  1  0.4526  0.5121  0.0006  1\n  Mn  Mn8  1  0.4480  0.5168  0.6624  1\n  Mn  Mn9  1  0.4650  0.0029  0.4955  1\n  Mn  Mn10  1  0.4374  0.5241  0.3223  1\n  Mn  Mn11  1  0.4523  0.0258  0.8249  1\n  O  O12  1  0.2057  0.7416  0.0840  1\n  O  O13  1  0.2091  0.7249  0.4208  1\n  O  O14  1  0.2008  0.7386  0.7561  1\n  O  O15  1  0.3213  0.2368  0.0752  1\n  O  O16  1  0.3130  0.7804  0.2534  1\n  O  O17  1  0.3689  0.8049  0.5963  1\n  O  O18  1  0.3606  0.2193  0.7310  1\n  O  O19  1  0.6218  0.3137  0.8953  1\n  O  O20  1  0.6196  0.3158  0.5644  1\n  O  O21  1  0.6023  0.3066  0.2278  1\n  F  F22  1  0.1096  0.2553  0.2587  1\n  F  F23  1  0.1348  0.2505  0.5821  1\n  F  F24  1  0.1421  0.2621  0.9123  1\n  F  F25  1  0.4056  0.8120  0.9263  1\n  F  F26  1  0.3875  0.2193  0.3987  1\n  F  F27  1  0.6759  0.7277  0.0969  1\n  F  F28  1  0.6759  0.6792  0.4317  1\n  F  F29  1  0.6705  0.6933  0.7657  1\n  F  F30  1  0.8779  0.1523  0.4198  1\n  F  F31  1  0.8307  0.2289  0.0648  1\n  F  F32  1  0.8822  0.1709  0.7406  1\n  F  F33  1  0.8895  0.7782  0.6071  1\n  F  F34  1  0.8999  0.7746  0.9356  1\n  F  F35  1  0.8140  0.7831  0.2673  1\n",
    "output": "data_image0\n_chemical_formula_structural       FMn11O10F2MnF11\n_chemical_formula_sum              \"F14 Mn12 O10\"\n_cell_length_a       5.5780\n_cell_length_b       5.0617\n_cell_length_c       15.1489\n_cell_angle_alpha    96.5002\n_cell_angle_beta     85.0406\n_cell_angle_gamma    94.5495\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.0960  0.0033  0.0134  1.0000\n  Mn  Mn1       1.0000  0.9305  0.5067  0.1658  1.0000\n  Mn  Mn2       1.0000  0.0895  0.9486  0.3375  1.0000\n  Mn  Mn3       1.0000  0.9236  0.4985  0.5011  1.0000\n  Mn  Mn4       1.0000  0.1343  0.9821  0.6721  1.0000\n  Mn  Mn5       1.0000  0.9189  0.4943  0.8317  1.0000\n  Mn  Mn6       1.0000  0.4328  0.0148  0.1605  1.0000\n  Mn  Mn7       1.0000  0.4526  0.5121  0.0006  1.0000\n  Mn  Mn8       1.0000  0.4480  0.5168  0.6624  1.0000\n  Mn  Mn9       1.0000  0.4650  0.0029  0.4955  1.0000\n  Mn  Mn10      1.0000  0.4374  0.5241  0.3223  1.0000\n  Mn  Mn11      1.0000  0.4523  0.0258  0.8249  1.0000\n  O   O1        1.0000  0.2057  0.7416  0.0840  1.0000\n  O   O2        1.0000  0.2091  0.7249  0.4208  1.0000\n  O   O3        1.0000  0.2008  0.7386  0.7561  1.0000\n  O   O4        1.0000  0.3213  0.2368  0.0752  1.0000\n  O   O5        1.0000  0.3130  0.7804  0.2534  1.0000\n  O   O6        1.0000  0.3689  0.8049  0.5963  1.0000\n  O   O7        1.0000  0.3606  0.2193  0.7310  1.0000\n  O   O8        1.0000  0.6218  0.3137  0.8953  1.0000\n  O   O9        1.0000  0.6196  0.3158  0.5644  1.0000\n  O   O10       1.0000  0.6023  0.3066  0.2278  1.0000\n  F   F2        1.0000  0.1096  0.2553  0.2587  1.0000\n  F   F3        1.0000  0.1348  0.2505  0.5821  1.0000\n  Mn  Mn12      1.0000  0.1421  0.2621  0.9123  1.0000\n  F   F4        1.0000  0.4056  0.8120  0.9263  1.0000\n  F   F5        1.0000  0.3875  0.2193  0.3987  1.0000\n  F   F6        1.0000  0.6759  0.7277  0.0969  1.0000\n  F   F7        1.0000  0.6759  0.6792  0.4317  1.0000\n  F   F8        1.0000  0.6705  0.6933  0.7657  1.0000\n  F   F9        1.0000  0.8779  0.1523  0.4198  1.0000\n  F   F10       1.0000  0.8307  0.2289  0.0648  1.0000\n  F   F11       1.0000  0.8822  0.1709  0.7406  1.0000\n  F   F12       1.0000  0.8895  0.7782  0.6071  1.0000\n  F   F13       1.0000  0.8999  0.7746  0.9356  1.0000\n  F   F14       1.0000  0.8140  0.7831  0.2673  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "5f176774-368c-4974-b8d5-11479158ac0f",
    "mp_id": "mp-777764",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 24 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFeP3H8O13\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1230\n_cell_length_b   7.6942\n_cell_length_c   9.9649\n_cell_angle_alpha   84.0286\n_cell_angle_beta   74.1043\n_cell_angle_gamma   78.3466\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFeP3H8O13\n_chemical_formula_sum   'Li2 Fe2 P6 H16 O26'\n_cell_volume   513.7367\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0000  0.0000  0.0000  1\n  Li  Li1  1  0.0000  0.5000  0.5000  1\n  Fe  Fe2  1  0.8149  0.8076  0.7622  1\n  Fe  Fe3  1  0.1851  0.1924  0.2378  1\n  P  P4  1  0.3275  0.8056  0.7429  1\n  P  P5  1  0.2382  0.8055  0.4779  1\n  P  P6  1  0.5956  0.4622  0.7309  1\n  P  P7  1  0.4044  0.5378  0.2691  1\n  P  P8  1  0.7618  0.1945  0.5221  1\n  P  P9  1  0.6725  0.1944  0.2571  1\n  H  H10  1  0.3593  0.9824  0.9676  1\n  H  H11  1  0.8189  0.8181  0.4305  1\n  H  H12  1  0.3090  0.8638  0.1035  1\n  H  H13  1  0.9203  0.7413  0.2051  1\n  H  H14  1  0.6903  0.6943  0.3987  1\n  H  H15  1  0.8572  0.6630  0.0095  1\n  H  H16  1  0.6499  0.6255  0.0035  1\n  H  H17  1  0.0998  0.6599  0.0842  1\n  H  H18  1  0.9002  0.3401  0.9158  1\n  H  H19  1  0.3501  0.3745  0.9965  1\n  H  H20  1  0.1428  0.3370  0.9905  1\n  H  H21  1  0.3097  0.3057  0.6013  1\n  H  H22  1  0.0797  0.2587  0.7949  1\n  H  H23  1  0.6910  0.1362  0.8965  1\n  H  H24  1  0.1811  0.1819  0.5695  1\n  H  H25  1  0.6407  0.0176  0.0324  1\n  O  O26  1  0.4779  0.8780  0.7910  1\n  O  O27  1  0.2705  0.9857  0.0632  1\n  O  O28  1  0.1925  0.9602  0.3811  1\n  O  O29  1  0.3630  0.8603  0.5760  1\n  O  O30  1  0.1114  0.8540  0.8138  1\n  O  O31  1  0.9760  0.7475  0.1015  1\n  O  O32  1  0.8270  0.7137  0.3797  1\n  O  O33  1  0.7870  0.6263  0.9450  1\n  O  O34  1  0.7617  0.5648  0.6744  1\n  O  O35  1  0.0758  0.7125  0.5652  1\n  O  O36  1  0.4155  0.6551  0.3931  1\n  O  O37  1  0.3816  0.5897  0.7462  1\n  O  O38  1  0.4133  0.6516  0.1364  1\n  O  O39  1  0.5867  0.3484  0.8636  1\n  O  O40  1  0.6184  0.4103  0.2538  1\n  O  O41  1  0.5845  0.3449  0.6069  1\n  O  O42  1  0.9242  0.2875  0.4348  1\n  O  O43  1  0.2383  0.4352  0.3256  1\n  O  O44  1  0.2130  0.3737  0.0550  1\n  O  O45  1  0.1730  0.2863  0.6203  1\n  O  O46  1  0.0240  0.2525  0.8985  1\n  O  O47  1  0.8886  0.1460  0.1862  1\n  O  O48  1  0.6370  0.1397  0.4240  1\n  O  O49  1  0.8075  0.0398  0.6189  1\n  O  O50  1  0.7295  0.0143  0.9368  1\n  O  O51  1  0.5221  0.1220  0.2090  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2HFeP6H14FeHO26\n_chemical_formula_sum              \"Li2 H16 Fe2 P6 O26\"\n_cell_length_a       7.1230\n_cell_length_b       7.6942\n_cell_length_c       9.9649\n_cell_angle_alpha    84.0286\n_cell_angle_beta     74.1043\n_cell_angle_gamma    78.3466\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Li  Li2       1.0000  1.0000  0.5000  0.5000  1.0000\n  H   H1        1.0000  0.8149  0.8076  0.7622  1.0000\n  Fe  Fe1       1.0000  0.1851  0.1924  0.2378  1.0000\n  P   P1        1.0000  0.3275  0.8056  0.7429  1.0000\n  P   P2        1.0000  0.2382  0.8055  0.4779  1.0000\n  P   P3        1.0000  0.5956  0.4622  0.7309  1.0000\n  P   P4        1.0000  0.4044  0.5378  0.2691  1.0000\n  P   P5        1.0000  0.7618  0.1945  0.5221  1.0000\n  P   P6        1.0000  0.6725  0.1944  0.2571  1.0000\n  H   H2        1.0000  0.3593  0.9824  0.9676  1.0000\n  H   H3        1.0000  0.8189  0.8181  0.4305  1.0000\n  H   H4        1.0000  0.3090  0.8638  0.1035  1.0000\n  H   H5        1.0000  0.9203  0.7413  0.2051  1.0000\n  H   H6        1.0000  0.6903  0.6943  0.3987  1.0000\n  H   H7        1.0000  0.8572  0.6630  0.0095  1.0000\n  H   H8        1.0000  0.6499  0.6255  0.0035  1.0000\n  H   H9        1.0000  0.0998  0.6599  0.0842  1.0000\n  H   H10       1.0000  0.9002  0.3401  0.9158  1.0000\n  H   H11       1.0000  0.3501  0.3745  0.9965  1.0000\n  H   H12       1.0000  0.1428  0.3370  0.9905  1.0000\n  H   H13       1.0000  0.3097  0.3057  0.6013  1.0000\n  H   H14       1.0000  0.0797  0.2587  0.7949  1.0000\n  H   H15       1.0000  0.6910  0.1362  0.8965  1.0000\n  Fe  Fe2       1.0000  0.1811  0.1819  0.5695  1.0000\n  H   H16       1.0000  0.6407  0.0176  0.0324  1.0000\n  O   O1        1.0000  0.4779  0.8780  0.7910  1.0000\n  O   O2        1.0000  0.2705  0.9857  0.0632  1.0000\n  O   O3        1.0000  0.1925  0.9602  0.3811  1.0000\n  O   O4        1.0000  0.3630  0.8603  0.5760  1.0000\n  O   O5        1.0000  0.1114  0.8540  0.8138  1.0000\n  O   O6        1.0000  0.9760  0.7475  0.1015  1.0000\n  O   O7        1.0000  0.8270  0.7137  0.3797  1.0000\n  O   O8        1.0000  0.7870  0.6263  0.9450  1.0000\n  O   O9        1.0000  0.7617  0.5648  0.6744  1.0000\n  O   O10       1.0000  0.0758  0.7125  0.5652  1.0000\n  O   O11       1.0000  0.4155  0.6551  0.3931  1.0000\n  O   O12       1.0000  0.3816  0.5897  0.7462  1.0000\n  O   O13       1.0000  0.4133  0.6516  0.1364  1.0000\n  O   O14       1.0000  0.5867  0.3484  0.8636  1.0000\n  O   O15       1.0000  0.6184  0.4103  0.2538  1.0000\n  O   O16       1.0000  0.5845  0.3449  0.6069  1.0000\n  O   O17       1.0000  0.9242  0.2875  0.4348  1.0000\n  O   O18       1.0000  0.2383  0.4352  0.3256  1.0000\n  O   O19       1.0000  0.2130  0.3737  0.0550  1.0000\n  O   O20       1.0000  0.1730  0.2863  0.6203  1.0000\n  O   O21       1.0000  0.0240  0.2525  0.8985  1.0000\n  O   O22       1.0000  0.8886  0.1460  0.1862  1.0000\n  O   O23       1.0000  0.6370  0.1397  0.4240  1.0000\n  O   O24       1.0000  0.8075  0.0398  0.6189  1.0000\n  O   O25       1.0000  0.7295  0.0143  0.9368  1.0000\n  O   O26       1.0000  0.5221  0.1220  0.2090  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c6805708-799d-4272-a671-4ec02c65dfd7",
    "mp_id": "mp-778141",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 40 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm2Pb2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1778\n_cell_length_b   7.5956\n_cell_length_c   12.6891\n_cell_angle_alpha   79.0114\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm2Pb2O7\n_chemical_formula_sum   'Sm8 Pb8 O28'\n_cell_volume   679.1194\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.8993  0.5277  0.6443  1\n  Sm  Sm1  1  0.3993  0.4723  0.8557  1\n  Sm  Sm2  1  0.6857  0.7295  0.3871  1\n  Sm  Sm3  1  0.1857  0.2705  0.1129  1\n  Sm  Sm4  1  0.8143  0.7295  0.8871  1\n  Sm  Sm5  1  0.3143  0.2705  0.6129  1\n  Sm  Sm6  1  0.6007  0.5277  0.1443  1\n  Sm  Sm7  1  0.1007  0.4723  0.3557  1\n  Pb  Pb8  1  0.8853  0.2329  0.8981  1\n  Pb  Pb9  1  0.3853  0.7671  0.6019  1\n  Pb  Pb10  1  0.1110  0.9426  0.3881  1\n  Pb  Pb11  1  0.6110  0.0574  0.1119  1\n  Pb  Pb12  1  0.3890  0.9426  0.8881  1\n  Pb  Pb13  1  0.8890  0.0574  0.6119  1\n  Pb  Pb14  1  0.6147  0.2329  0.3981  1\n  Pb  Pb15  1  0.1147  0.7671  0.1019  1\n  O  O16  1  0.6891  0.0015  0.9351  1\n  O  O17  1  0.2348  0.5308  0.6762  1\n  O  O18  1  0.1159  0.3931  0.9325  1\n  O  O19  1  0.0357  0.7851  0.2627  1\n  O  O20  1  0.6065  0.8022  0.2060  1\n  O  O21  1  0.6159  0.6069  0.5675  1\n  O  O22  1  0.9938  0.6820  0.4689  1\n  O  O23  1  0.7348  0.4692  0.8238  1\n  O  O24  1  0.3925  0.8442  0.4239  1\n  O  O25  1  0.4643  0.7851  0.7627  1\n  O  O26  1  0.1891  0.9985  0.5649  1\n  O  O27  1  0.8935  0.8022  0.7060  1\n  O  O28  1  0.8925  0.1558  0.0761  1\n  O  O29  1  0.5062  0.6820  0.9689  1\n  O  O30  1  0.4938  0.3180  0.0311  1\n  O  O31  1  0.1075  0.8442  0.9239  1\n  O  O32  1  0.1065  0.1978  0.2940  1\n  O  O33  1  0.8109  0.0015  0.4351  1\n  O  O34  1  0.5357  0.2149  0.2373  1\n  O  O35  1  0.6075  0.1558  0.5761  1\n  O  O36  1  0.2652  0.5308  0.1762  1\n  O  O37  1  0.0062  0.3180  0.5311  1\n  O  O38  1  0.3841  0.3931  0.4325  1\n  O  O39  1  0.3935  0.1978  0.7940  1\n  O  O40  1  0.9643  0.2149  0.7373  1\n  O  O41  1  0.8841  0.6069  0.0675  1\n  O  O42  1  0.7652  0.4692  0.3238  1\n  O  O43  1  0.3109  0.9985  0.0649  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm3OSm4Pb8O24SmO3\n_chemical_formula_sum              \"Sm8 O28 Pb8\"\n_cell_length_a       7.1778\n_cell_length_b       7.5956\n_cell_length_c       12.6891\n_cell_angle_alpha    79.0114\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.8993  0.5277  0.6443  1.0000\n  Sm  Sm2       1.0000  0.3993  0.4723  0.8557  1.0000\n  Sm  Sm3       1.0000  0.6857  0.7295  0.3871  1.0000\n  O   O1        1.0000  0.1857  0.2705  0.1129  1.0000\n  Sm  Sm4       1.0000  0.8143  0.7295  0.8871  1.0000\n  Sm  Sm5       1.0000  0.3143  0.2705  0.6129  1.0000\n  Sm  Sm6       1.0000  0.6007  0.5277  0.1443  1.0000\n  Sm  Sm7       1.0000  0.1007  0.4723  0.3557  1.0000\n  Pb  Pb1       1.0000  0.8853  0.2329  0.8981  1.0000\n  Pb  Pb2       1.0000  0.3853  0.7671  0.6019  1.0000\n  Pb  Pb3       1.0000  0.1110  0.9426  0.3881  1.0000\n  Pb  Pb4       1.0000  0.6110  0.0574  0.1119  1.0000\n  Pb  Pb5       1.0000  0.3890  0.9426  0.8881  1.0000\n  Pb  Pb6       1.0000  0.8890  0.0574  0.6119  1.0000\n  Pb  Pb7       1.0000  0.6147  0.2329  0.3981  1.0000\n  Pb  Pb8       1.0000  0.1147  0.7671  0.1019  1.0000\n  O   O2        1.0000  0.6891  0.0015  0.9351  1.0000\n  O   O3        1.0000  0.2348  0.5308  0.6762  1.0000\n  O   O4        1.0000  0.1159  0.3931  0.9325  1.0000\n  O   O5        1.0000  0.0357  0.7851  0.2627  1.0000\n  O   O6        1.0000  0.6065  0.8022  0.2060  1.0000\n  O   O7        1.0000  0.6159  0.6069  0.5675  1.0000\n  O   O8        1.0000  0.9938  0.6820  0.4689  1.0000\n  O   O9        1.0000  0.7348  0.4692  0.8238  1.0000\n  O   O10       1.0000  0.3925  0.8442  0.4239  1.0000\n  O   O11       1.0000  0.4643  0.7851  0.7627  1.0000\n  O   O12       1.0000  0.1891  0.9985  0.5649  1.0000\n  O   O13       1.0000  0.8935  0.8022  0.7060  1.0000\n  O   O14       1.0000  0.8925  0.1558  0.0761  1.0000\n  O   O15       1.0000  0.5062  0.6820  0.9689  1.0000\n  O   O16       1.0000  0.4938  0.3180  0.0311  1.0000\n  O   O17       1.0000  0.1075  0.8442  0.9239  1.0000\n  O   O18       1.0000  0.1065  0.1978  0.2940  1.0000\n  O   O19       1.0000  0.8109  0.0015  0.4351  1.0000\n  O   O20       1.0000  0.5357  0.2149  0.2373  1.0000\n  O   O21       1.0000  0.6075  0.1558  0.5761  1.0000\n  O   O22       1.0000  0.2652  0.5308  0.1762  1.0000\n  O   O23       1.0000  0.0062  0.3180  0.5311  1.0000\n  O   O24       1.0000  0.3841  0.3931  0.4325  1.0000\n  O   O25       1.0000  0.3935  0.1978  0.7940  1.0000\n  Sm  Sm8       1.0000  0.9643  0.2149  0.7373  1.0000\n  O   O26       1.0000  0.8841  0.6069  0.0675  1.0000\n  O   O27       1.0000  0.7652  0.4692  0.3238  1.0000\n  O   O28       1.0000  0.3109  0.9985  0.0649  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "73724240-543f-465e-98cc-a9ba9ab54859",
    "mp_id": "mp-778158",
    "action_prompt": "Swap the spatial positions of atoms at indices 41 and 17 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8Mn3Fe5(BO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2310\n_cell_length_b   5.2398\n_cell_length_c   20.8616\n_cell_angle_alpha   90.5550\n_cell_angle_beta   90.8430\n_cell_angle_gamma   119.8171\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8Mn3Fe5(BO3)8\n_chemical_formula_sum   'Li8 Mn3 Fe5 B8 O24'\n_cell_volume   495.9528\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.6778  0.6528  0.3333  1\n  Li  Li1  1  0.6521  0.6758  0.0848  1\n  Li  Li2  1  0.6787  0.6517  0.8333  1\n  Li  Li3  1  0.6512  0.6758  0.5841  1\n  Li  Li4  1  0.3507  0.3401  0.2081  1\n  Li  Li5  1  0.3369  0.3463  0.4582  1\n  Li  Li6  1  0.3522  0.3397  0.7082  1\n  Li  Li7  1  0.3371  0.3459  0.9585  1\n  Mn  Mn8  1  0.6716  0.0063  0.4418  1\n  Mn  Mn9  1  0.6684  0.0035  0.9426  1\n  Mn  Mn10  1  0.0021  0.3257  0.8163  1\n  Fe  Fe11  1  0.3153  0.0008  0.0671  1\n  Fe  Fe12  1  0.3149  0.9981  0.5668  1\n  Fe  Fe13  1  0.0037  0.3207  0.3160  1\n  Fe  Fe14  1  0.0120  0.6672  0.1913  1\n  Fe  Fe15  1  0.0044  0.6668  0.6906  1\n  B  B16  1  0.9952  0.3370  0.0640  1\n  B  B17  1  0.9961  0.3373  0.5636  1\n  B  B18  1  0.6677  0.0053  0.1880  1\n  B  B19  1  0.6683  0.0083  0.6870  1\n  B  B20  1  0.3373  0.9973  0.3124  1\n  B  B21  1  0.3402  0.9975  0.8120  1\n  B  B22  1  0.0050  0.6666  0.4376  1\n  B  B23  1  0.0036  0.6659  0.9387  1\n  O  O24  1  0.9298  0.2557  0.2079  1\n  O  O25  1  0.9327  0.2579  0.7070  1\n  O  O26  1  0.7404  0.0692  0.0498  1\n  O  O27  1  0.9752  0.5820  0.0827  1\n  O  O28  1  0.7411  0.0706  0.5493  1\n  O  O29  1  0.9758  0.5827  0.5825  1\n  O  O30  1  0.4176  0.0308  0.1735  1\n  O  O31  1  0.7301  0.6423  0.4305  1\n  O  O32  1  0.4191  0.0331  0.6727  1\n  O  O33  1  0.7289  0.6411  0.9311  1\n  O  O34  1  0.6547  0.7374  0.1813  1\n  O  O35  1  0.6553  0.7398  0.6808  1\n  O  O36  1  0.3590  0.2718  0.3059  1\n  O  O37  1  0.3700  0.2734  0.8053  1\n  O  O38  1  0.2701  0.3586  0.0576  1\n  O  O39  1  0.5841  0.9790  0.3317  1\n  O  O40  1  0.2708  0.3592  0.5571  1\n  O  O41  1  0.5780  0.9667  0.8332  1\n  O  O42  1  0.0384  0.4240  0.4220  1\n  O  O43  1  0.0379  0.4235  0.9232  1\n  O  O44  1  0.2466  0.9296  0.4593  1\n  O  O45  1  0.2449  0.9294  0.9601  1\n  O  O46  1  0.0697  0.7432  0.2983  1\n  O  O47  1  0.0689  0.7479  0.7967  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn3Fe5BOB6O17BO6\n_chemical_formula_sum              \"Li8 Mn3 Fe5 B8 O24\"\n_cell_length_a       5.2310\n_cell_length_b       5.2398\n_cell_length_c       20.8616\n_cell_angle_alpha    90.5550\n_cell_angle_beta     90.8430\n_cell_angle_gamma    119.8171\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.6778  0.6528  0.3333  1.0000\n  Li  Li2       1.0000  0.6521  0.6758  0.0848  1.0000\n  Li  Li3       1.0000  0.6787  0.6517  0.8333  1.0000\n  Li  Li4       1.0000  0.6512  0.6758  0.5841  1.0000\n  Li  Li5       1.0000  0.3507  0.3401  0.2081  1.0000\n  Li  Li6       1.0000  0.3369  0.3463  0.4582  1.0000\n  Li  Li7       1.0000  0.3522  0.3397  0.7082  1.0000\n  Li  Li8       1.0000  0.3371  0.3459  0.9585  1.0000\n  Mn  Mn1       1.0000  0.6716  0.0063  0.4418  1.0000\n  Mn  Mn2       1.0000  0.6684  0.0035  0.9426  1.0000\n  Mn  Mn3       1.0000  0.0021  0.3257  0.8163  1.0000\n  Fe  Fe1       1.0000  0.3153  0.0008  0.0671  1.0000\n  Fe  Fe2       1.0000  0.3149  0.9981  0.5668  1.0000\n  Fe  Fe3       1.0000  0.0037  0.3207  0.3160  1.0000\n  Fe  Fe4       1.0000  0.0120  0.6672  0.1913  1.0000\n  Fe  Fe5       1.0000  0.0044  0.6668  0.6906  1.0000\n  B   B1        1.0000  0.9952  0.3370  0.0640  1.0000\n  O   O1        1.0000  0.9961  0.3373  0.5636  1.0000\n  B   B2        1.0000  0.6677  0.0053  0.1880  1.0000\n  B   B3        1.0000  0.6683  0.0083  0.6870  1.0000\n  B   B4        1.0000  0.3373  0.9973  0.3124  1.0000\n  B   B5        1.0000  0.3402  0.9975  0.8120  1.0000\n  B   B6        1.0000  0.0050  0.6666  0.4376  1.0000\n  B   B7        1.0000  0.0036  0.6659  0.9387  1.0000\n  O   O2        1.0000  0.9298  0.2557  0.2079  1.0000\n  O   O3        1.0000  0.9327  0.2579  0.7070  1.0000\n  O   O4        1.0000  0.7404  0.0692  0.0498  1.0000\n  O   O5        1.0000  0.9752  0.5820  0.0827  1.0000\n  O   O6        1.0000  0.7411  0.0706  0.5493  1.0000\n  O   O7        1.0000  0.9758  0.5827  0.5825  1.0000\n  O   O8        1.0000  0.4176  0.0308  0.1735  1.0000\n  O   O9        1.0000  0.7301  0.6423  0.4305  1.0000\n  O   O10       1.0000  0.4191  0.0331  0.6727  1.0000\n  O   O11       1.0000  0.7289  0.6411  0.9311  1.0000\n  O   O12       1.0000  0.6547  0.7374  0.1813  1.0000\n  O   O13       1.0000  0.6553  0.7398  0.6808  1.0000\n  O   O14       1.0000  0.3590  0.2718  0.3059  1.0000\n  O   O15       1.0000  0.3700  0.2734  0.8053  1.0000\n  O   O16       1.0000  0.2701  0.3586  0.0576  1.0000\n  O   O17       1.0000  0.5841  0.9790  0.3317  1.0000\n  O   O18       1.0000  0.2708  0.3592  0.5571  1.0000\n  B   B8        1.0000  0.5780  0.9667  0.8332  1.0000\n  O   O19       1.0000  0.0384  0.4240  0.4220  1.0000\n  O   O20       1.0000  0.0379  0.4235  0.9232  1.0000\n  O   O21       1.0000  0.2466  0.9296  0.4593  1.0000\n  O   O22       1.0000  0.2449  0.9294  0.9601  1.0000\n  O   O23       1.0000  0.0697  0.7432  0.2983  1.0000\n  O   O24       1.0000  0.0689  0.7479  0.7967  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "02841159-c9f8-4b48-8bb3-c67b23bb5741",
    "mp_id": "mp-778252",
    "action_prompt": "Swap the spatial positions of atoms at indices 2 and 36 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_V5O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1160\n_cell_length_b   8.9837\n_cell_length_c   15.5008\n_cell_angle_alpha   55.1940\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   V5O12\n_chemical_formula_sum   'V20 O48'\n_cell_volume   1042.3230\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  V  V0  1  0.9805  0.3773  0.8758  1\n  V  V1  1  0.4805  0.6227  0.6242  1\n  V  V2  1  0.0296  0.8690  0.3776  1\n  V  V3  1  0.5296  0.1310  0.1224  1\n  V  V4  1  0.4704  0.8690  0.8776  1\n  V  V5  1  0.9704  0.1310  0.6224  1\n  V  V6  1  0.5195  0.3773  0.3758  1\n  V  V7  1  0.0195  0.6227  0.1242  1\n  V  V8  1  0.7462  0.5360  0.4897  1\n  V  V9  1  0.6177  0.2500  0.8587  1\n  V  V10  1  0.8889  0.9732  0.1391  1\n  V  V11  1  0.1177  0.7500  0.6413  1\n  V  V12  1  0.3889  0.0268  0.3609  1\n  V  V13  1  0.2462  0.4640  0.0103  1\n  V  V14  1  0.7538  0.5360  0.9897  1\n  V  V15  1  0.6111  0.9732  0.6391  1\n  V  V16  1  0.8823  0.2500  0.3587  1\n  V  V17  1  0.1111  0.0268  0.8609  1\n  V  V18  1  0.3823  0.7500  0.1413  1\n  V  V19  1  0.2538  0.4640  0.5103  1\n  O  O20  1  0.1435  0.6501  0.4339  1\n  O  O21  1  0.0917  0.1994  0.8845  1\n  O  O22  1  0.3396  0.4758  0.6058  1\n  O  O23  1  0.4192  0.9112  0.1639  1\n  O  O24  1  0.6198  0.5447  0.5760  1\n  O  O25  1  0.8067  0.2878  0.8492  1\n  O  O26  1  0.5563  0.1767  0.9810  1\n  O  O27  1  0.0020  0.9111  0.2488  1\n  O  O28  1  0.7090  0.9838  0.1667  1\n  O  O29  1  0.8492  0.7301  0.4305  1\n  O  O30  1  0.5169  0.4543  0.7602  1\n  O  O31  1  0.0169  0.5457  0.7398  1\n  O  O32  1  0.9382  0.1794  0.0345  1\n  O  O33  1  0.4382  0.8206  0.4655  1\n  O  O34  1  0.3492  0.2699  0.0695  1\n  O  O35  1  0.2090  0.0162  0.3333  1\n  O  O36  1  0.0563  0.8233  0.5190  1\n  O  O37  1  0.5020  0.0889  0.2512  1\n  O  O38  1  0.3067  0.7122  0.6508  1\n  O  O39  1  0.1198  0.4553  0.9240  1\n  O  O40  1  0.8396  0.5242  0.8942  1\n  O  O41  1  0.5917  0.8006  0.6155  1\n  O  O42  1  0.9192  0.0888  0.3361  1\n  O  O43  1  0.6435  0.3499  0.0661  1\n  O  O44  1  0.3565  0.6501  0.9339  1\n  O  O45  1  0.0808  0.9112  0.6639  1\n  O  O46  1  0.4083  0.1994  0.3845  1\n  O  O47  1  0.1604  0.4758  0.1058  1\n  O  O48  1  0.8802  0.5447  0.0760  1\n  O  O49  1  0.6933  0.2878  0.3492  1\n  O  O50  1  0.4980  0.9111  0.7488  1\n  O  O51  1  0.9437  0.1767  0.4810  1\n  O  O52  1  0.7910  0.9838  0.6667  1\n  O  O53  1  0.6508  0.7301  0.9305  1\n  O  O54  1  0.5618  0.1794  0.5345  1\n  O  O55  1  0.0618  0.8206  0.9655  1\n  O  O56  1  0.9831  0.4543  0.2602  1\n  O  O57  1  0.4831  0.5457  0.2398  1\n  O  O58  1  0.1508  0.2699  0.5695  1\n  O  O59  1  0.2910  0.0162  0.8333  1\n  O  O60  1  0.9980  0.0889  0.7512  1\n  O  O61  1  0.4437  0.8233  0.0190  1\n  O  O62  1  0.1933  0.7122  0.1508  1\n  O  O63  1  0.3802  0.4553  0.4240  1\n  O  O64  1  0.5808  0.0888  0.8361  1\n  O  O65  1  0.6604  0.5242  0.3942  1\n  O  O66  1  0.9083  0.8006  0.1155  1\n  O  O67  1  0.8565  0.3499  0.5661  1\n",
    "output": "data_image0\n_chemical_formula_structural       V2OV17O16VO31\n_chemical_formula_sum              \"V20 O48\"\n_cell_length_a       9.1160\n_cell_length_b       8.9837\n_cell_length_c       15.5008\n_cell_angle_alpha    55.1940\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  V   V1        1.0000  0.9805  0.3773  0.8758  1.0000\n  V   V2        1.0000  0.4805  0.6227  0.6242  1.0000\n  O   O1        1.0000  0.0296  0.8690  0.3776  1.0000\n  V   V3        1.0000  0.5296  0.1310  0.1224  1.0000\n  V   V4        1.0000  0.4704  0.8690  0.8776  1.0000\n  V   V5        1.0000  0.9704  0.1310  0.6224  1.0000\n  V   V6        1.0000  0.5195  0.3773  0.3758  1.0000\n  V   V7        1.0000  0.0195  0.6227  0.1242  1.0000\n  V   V8        1.0000  0.7462  0.5360  0.4897  1.0000\n  V   V9        1.0000  0.6177  0.2500  0.8587  1.0000\n  V   V10       1.0000  0.8889  0.9732  0.1391  1.0000\n  V   V11       1.0000  0.1177  0.7500  0.6413  1.0000\n  V   V12       1.0000  0.3889  0.0268  0.3609  1.0000\n  V   V13       1.0000  0.2462  0.4640  0.0103  1.0000\n  V   V14       1.0000  0.7538  0.5360  0.9897  1.0000\n  V   V15       1.0000  0.6111  0.9732  0.6391  1.0000\n  V   V16       1.0000  0.8823  0.2500  0.3587  1.0000\n  V   V17       1.0000  0.1111  0.0268  0.8609  1.0000\n  V   V18       1.0000  0.3823  0.7500  0.1413  1.0000\n  V   V19       1.0000  0.2538  0.4640  0.5103  1.0000\n  O   O2        1.0000  0.1435  0.6501  0.4339  1.0000\n  O   O3        1.0000  0.0917  0.1994  0.8845  1.0000\n  O   O4        1.0000  0.3396  0.4758  0.6058  1.0000\n  O   O5        1.0000  0.4192  0.9112  0.1639  1.0000\n  O   O6        1.0000  0.6198  0.5447  0.5760  1.0000\n  O   O7        1.0000  0.8067  0.2878  0.8492  1.0000\n  O   O8        1.0000  0.5563  0.1767  0.9810  1.0000\n  O   O9        1.0000  0.0020  0.9111  0.2488  1.0000\n  O   O10       1.0000  0.7090  0.9838  0.1667  1.0000\n  O   O11       1.0000  0.8492  0.7301  0.4305  1.0000\n  O   O12       1.0000  0.5169  0.4543  0.7602  1.0000\n  O   O13       1.0000  0.0169  0.5457  0.7398  1.0000\n  O   O14       1.0000  0.9382  0.1794  0.0345  1.0000\n  O   O15       1.0000  0.4382  0.8206  0.4655  1.0000\n  O   O16       1.0000  0.3492  0.2699  0.0695  1.0000\n  O   O17       1.0000  0.2090  0.0162  0.3333  1.0000\n  V   V20       1.0000  0.0563  0.8233  0.5190  1.0000\n  O   O18       1.0000  0.5020  0.0889  0.2512  1.0000\n  O   O19       1.0000  0.3067  0.7122  0.6508  1.0000\n  O   O20       1.0000  0.1198  0.4553  0.9240  1.0000\n  O   O21       1.0000  0.8396  0.5242  0.8942  1.0000\n  O   O22       1.0000  0.5917  0.8006  0.6155  1.0000\n  O   O23       1.0000  0.9192  0.0888  0.3361  1.0000\n  O   O24       1.0000  0.6435  0.3499  0.0661  1.0000\n  O   O25       1.0000  0.3565  0.6501  0.9339  1.0000\n  O   O26       1.0000  0.0808  0.9112  0.6639  1.0000\n  O   O27       1.0000  0.4083  0.1994  0.3845  1.0000\n  O   O28       1.0000  0.1604  0.4758  0.1058  1.0000\n  O   O29       1.0000  0.8802  0.5447  0.0760  1.0000\n  O   O30       1.0000  0.6933  0.2878  0.3492  1.0000\n  O   O31       1.0000  0.4980  0.9111  0.7488  1.0000\n  O   O32       1.0000  0.9437  0.1767  0.4810  1.0000\n  O   O33       1.0000  0.7910  0.9838  0.6667  1.0000\n  O   O34       1.0000  0.6508  0.7301  0.9305  1.0000\n  O   O35       1.0000  0.5618  0.1794  0.5345  1.0000\n  O   O36       1.0000  0.0618  0.8206  0.9655  1.0000\n  O   O37       1.0000  0.9831  0.4543  0.2602  1.0000\n  O   O38       1.0000  0.4831  0.5457  0.2398  1.0000\n  O   O39       1.0000  0.1508  0.2699  0.5695  1.0000\n  O   O40       1.0000  0.2910  0.0162  0.8333  1.0000\n  O   O41       1.0000  0.9980  0.0889  0.7512  1.0000\n  O   O42       1.0000  0.4437  0.8233  0.0190  1.0000\n  O   O43       1.0000  0.1933  0.7122  0.1508  1.0000\n  O   O44       1.0000  0.3802  0.4553  0.4240  1.0000\n  O   O45       1.0000  0.5808  0.0888  0.8361  1.0000\n  O   O46       1.0000  0.6604  0.5242  0.3942  1.0000\n  O   O47       1.0000  0.9083  0.8006  0.1155  1.0000\n  O   O48       1.0000  0.8565  0.3499  0.5661  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "dcaa9712-0706-4938-870a-36621599a52b",
    "mp_id": "mp-778260",
    "action_prompt": "Swap the spatial positions of atoms at indices 25 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li6Mn5Fe(BO3)6\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.3653\n_cell_length_b   8.2658\n_cell_length_c   8.2778\n_cell_angle_alpha   60.0831\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li6Mn5Fe(BO3)6\n_chemical_formula_sum   'Li6 Mn5 Fe1 B6 O18'\n_cell_volume   377.4912\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.2498  0.9822  0.3017  1\n  Li  Li1  1  0.7502  0.9822  0.3017  1\n  Li  Li2  1  0.2504  0.3012  0.7161  1\n  Li  Li3  1  0.7496  0.3012  0.7161  1\n  Li  Li4  1  0.7496  0.7154  0.9835  1\n  Li  Li5  1  0.2504  0.7154  0.9835  1\n  Mn  Mn6  1  0.0000  0.3595  0.0120  1\n  Mn  Mn7  1  0.5000  0.3606  0.0119  1\n  Mn  Mn8  1  0.0000  0.0119  0.6288  1\n  Mn  Mn9  1  0.5000  0.0121  0.6276  1\n  Mn  Mn10  1  0.0000  0.6286  0.3592  1\n  Fe  Fe11  1  0.5000  0.6335  0.3596  1\n  B  B12  1  0.0000  0.0003  0.9998  1\n  B  B13  1  0.5000  0.9975  0.0001  1\n  B  B14  1  0.2518  0.6666  0.6659  1\n  B  B15  1  0.7482  0.6666  0.6659  1\n  B  B16  1  0.2513  0.3345  0.3336  1\n  B  B17  1  0.7487  0.3345  0.3336  1\n  O  O18  1  0.5000  0.9160  0.1946  1\n  O  O19  1  0.0000  0.9226  0.1931  1\n  O  O20  1  0.2541  0.5805  0.5582  1\n  O  O21  1  0.7459  0.5805  0.5582  1\n  O  O22  1  0.0000  0.1939  0.8842  1\n  O  O23  1  0.5000  0.1911  0.8882  1\n  O  O24  1  0.2499  0.8600  0.5801  1\n  O  O25  1  0.7501  0.8600  0.5801  1\n  O  O26  1  0.2501  0.5593  0.8592  1\n  O  O27  1  0.7499  0.5593  0.8592  1\n  O  O28  1  0.2503  0.2518  0.2221  1\n  O  O29  1  0.7497  0.2518  0.2221  1\n  O  O30  1  0.0000  0.8845  0.9220  1\n  O  O31  1  0.5000  0.8841  0.9200  1\n  O  O32  1  0.2525  0.5279  0.2522  1\n  O  O33  1  0.7475  0.5279  0.2522  1\n  O  O34  1  0.7495  0.2224  0.5270  1\n  O  O35  1  0.2505  0.2224  0.5270  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li6Mn5FeB2OB3O7BO10\n_chemical_formula_sum              \"Li6 Mn5 Fe1 B6 O18\"\n_cell_length_a       6.3653\n_cell_length_b       8.2658\n_cell_length_c       8.2778\n_cell_angle_alpha    60.0831\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.2498  0.9822  0.3017  1.0000\n  Li  Li2       1.0000  0.7502  0.9822  0.3017  1.0000\n  Li  Li3       1.0000  0.2504  0.3012  0.7161  1.0000\n  Li  Li4       1.0000  0.7496  0.3012  0.7161  1.0000\n  Li  Li5       1.0000  0.7496  0.7154  0.9835  1.0000\n  Li  Li6       1.0000  0.2504  0.7154  0.9835  1.0000\n  Mn  Mn1       1.0000  0.0000  0.3595  0.0120  1.0000\n  Mn  Mn2       1.0000  0.5000  0.3606  0.0119  1.0000\n  Mn  Mn3       1.0000  0.0000  0.0119  0.6288  1.0000\n  Mn  Mn4       1.0000  0.5000  0.0121  0.6276  1.0000\n  Mn  Mn5       1.0000  0.0000  0.6286  0.3592  1.0000\n  Fe  Fe1       1.0000  0.5000  0.6335  0.3596  1.0000\n  B   B1        1.0000  0.0000  0.0003  0.9998  1.0000\n  B   B2        1.0000  0.5000  0.9975  0.0001  1.0000\n  O   O1        1.0000  0.2518  0.6666  0.6659  1.0000\n  B   B3        1.0000  0.7482  0.6666  0.6659  1.0000\n  B   B4        1.0000  0.2513  0.3345  0.3336  1.0000\n  B   B5        1.0000  0.7487  0.3345  0.3336  1.0000\n  O   O2        1.0000  0.5000  0.9160  0.1946  1.0000\n  O   O3        1.0000  0.0000  0.9226  0.1931  1.0000\n  O   O4        1.0000  0.2541  0.5805  0.5582  1.0000\n  O   O5        1.0000  0.7459  0.5805  0.5582  1.0000\n  O   O6        1.0000  0.0000  0.1939  0.8842  1.0000\n  O   O7        1.0000  0.5000  0.1911  0.8882  1.0000\n  O   O8        1.0000  0.2499  0.8600  0.5801  1.0000\n  B   B6        1.0000  0.7501  0.8600  0.5801  1.0000\n  O   O9        1.0000  0.2501  0.5593  0.8592  1.0000\n  O   O10       1.0000  0.7499  0.5593  0.8592  1.0000\n  O   O11       1.0000  0.2503  0.2518  0.2221  1.0000\n  O   O12       1.0000  0.7497  0.2518  0.2221  1.0000\n  O   O13       1.0000  0.0000  0.8845  0.9220  1.0000\n  O   O14       1.0000  0.5000  0.8841  0.9200  1.0000\n  O   O15       1.0000  0.2525  0.5279  0.2522  1.0000\n  O   O16       1.0000  0.7475  0.5279  0.2522  1.0000\n  O   O17       1.0000  0.7495  0.2224  0.5270  1.0000\n  O   O18       1.0000  0.2505  0.2224  0.5270  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "4e9183b9-ae31-4ba9-a507-04a8488df7ea",
    "mp_id": "mp-779095",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn3OF5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.8563\n_cell_length_b   5.8738\n_cell_length_c   7.7252\n_cell_angle_alpha   72.3104\n_cell_angle_beta   72.1154\n_cell_angle_gamma   70.6048\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn3OF5\n_chemical_formula_sum   'Mn6 O2 F10'\n_cell_volume   232.4367\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0000  0.0000  0.0000  1\n  Mn  Mn1  1  0.3690  0.3042  0.1616  1\n  Mn  Mn2  1  0.0000  0.0000  0.5000  1\n  Mn  Mn3  1  0.3273  0.3189  0.6750  1\n  Mn  Mn4  1  0.6727  0.6811  0.3250  1\n  Mn  Mn5  1  0.6310  0.6958  0.8384  1\n  O  O6  1  0.6707  0.0170  0.1579  1\n  O  O7  1  0.3293  0.9830  0.8421  1\n  F  F8  1  0.0584  0.6192  0.1618  1\n  F  F9  1  0.6986  0.3185  0.4921  1\n  F  F10  1  0.7589  0.7723  0.5394  1\n  F  F11  1  0.1075  0.0937  0.1994  1\n  F  F12  1  0.4328  0.4338  0.8660  1\n  F  F13  1  0.5672  0.5662  0.1340  1\n  F  F14  1  0.8925  0.9063  0.8006  1\n  F  F15  1  0.2411  0.2277  0.4606  1\n  F  F16  1  0.3014  0.6815  0.5079  1\n  F  F17  1  0.9416  0.3808  0.8382  1\n",
    "output": "data_image0\n_chemical_formula_structural       MnFMn4O2FMnF8\n_chemical_formula_sum              \"Mn6 F10 O2\"\n_cell_length_a       5.8563\n_cell_length_b       5.8738\n_cell_length_c       7.7252\n_cell_angle_alpha    72.3104\n_cell_angle_beta     72.1154\n_cell_angle_gamma    70.6048\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0000  0.0000  0.0000  1.0000\n  F   F1        1.0000  0.3690  0.3042  0.1616  1.0000\n  Mn  Mn2       1.0000  0.0000  0.0000  0.5000  1.0000\n  Mn  Mn3       1.0000  0.3273  0.3189  0.6750  1.0000\n  Mn  Mn4       1.0000  0.6727  0.6811  0.3250  1.0000\n  Mn  Mn5       1.0000  0.6310  0.6958  0.8384  1.0000\n  O   O1        1.0000  0.6707  0.0170  0.1579  1.0000\n  O   O2        1.0000  0.3293  0.9830  0.8421  1.0000\n  F   F2        1.0000  0.0584  0.6192  0.1618  1.0000\n  Mn  Mn6       1.0000  0.6986  0.3185  0.4921  1.0000\n  F   F3        1.0000  0.7589  0.7723  0.5394  1.0000\n  F   F4        1.0000  0.1075  0.0937  0.1994  1.0000\n  F   F5        1.0000  0.4328  0.4338  0.8660  1.0000\n  F   F6        1.0000  0.5672  0.5662  0.1340  1.0000\n  F   F7        1.0000  0.8925  0.9063  0.8006  1.0000\n  F   F8        1.0000  0.2411  0.2277  0.4606  1.0000\n  F   F9        1.0000  0.3014  0.6815  0.5079  1.0000\n  F   F10       1.0000  0.9416  0.3808  0.8382  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "97dd3cb0-e3f6-47cc-b752-c97c02e97c73",
    "mp_id": "mp-779789",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 33 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Mn3Fe(BO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2320\n_cell_length_b   6.0398\n_cell_length_c   16.2522\n_cell_angle_alpha   82.1135\n_cell_angle_beta   88.9306\n_cell_angle_gamma   89.3562\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Mn3Fe(BO3)4\n_chemical_formula_sum   'Li8 Mn6 Fe2 B8 O24'\n_cell_volume   508.6098\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8495  0.0621  0.3899  1\n  Li  Li1  1  0.1504  0.4361  0.1099  1\n  Li  Li2  1  0.6504  0.1870  0.8595  1\n  Li  Li3  1  0.3480  0.3127  0.6396  1\n  Li  Li4  1  0.6508  0.6870  0.3586  1\n  Li  Li5  1  0.3504  0.8128  0.1419  1\n  Li  Li6  1  0.8488  0.5631  0.8914  1\n  Li  Li7  1  0.1509  0.9386  0.6082  1\n  Mn  Mn8  1  0.6674  0.2728  0.0411  1\n  Mn  Mn9  1  0.1671  0.0247  0.7899  1\n  Mn  Mn10  1  0.1671  0.5229  0.2910  1\n  Mn  Mn11  1  0.8327  0.4756  0.7105  1\n  Mn  Mn12  1  0.6657  0.7734  0.5399  1\n  Mn  Mn13  1  0.3326  0.7244  0.9603  1\n  Fe  Fe14  1  0.3389  0.2256  0.4603  1\n  Fe  Fe15  1  0.8292  0.9755  0.2112  1\n  B  B16  1  0.3291  0.0356  0.2974  1\n  B  B17  1  0.8295  0.2872  0.5465  1\n  B  B18  1  0.6704  0.4642  0.2025  1\n  B  B19  1  0.1697  0.2148  0.9522  1\n  B  B20  1  0.8318  0.7850  0.0491  1\n  B  B21  1  0.3301  0.5353  0.7980  1\n  B  B22  1  0.1701  0.7141  0.4522  1\n  B  B23  1  0.6692  0.9656  0.7017  1\n  O  O24  1  0.5911  0.0159  0.3084  1\n  O  O25  1  0.1866  0.1667  0.3464  1\n  O  O26  1  0.7075  0.1736  0.4890  1\n  O  O27  1  0.2869  0.3331  0.0086  1\n  O  O28  1  0.7858  0.0833  0.7583  1\n  O  O29  1  0.8191  0.3272  0.1571  1\n  O  O30  1  0.3194  0.0794  0.9061  1\n  O  O31  1  0.0894  0.2631  0.5582  1\n  O  O32  1  0.4108  0.4859  0.1891  1\n  O  O33  1  0.9100  0.2362  0.9387  1\n  O  O34  1  0.6821  0.4194  0.5941  1\n  O  O35  1  0.2145  0.4172  0.7410  1\n  O  O36  1  0.7881  0.5825  0.2588  1\n  O  O37  1  0.3201  0.5776  0.4067  1\n  O  O38  1  0.0919  0.7636  0.0622  1\n  O  O39  1  0.5897  0.5146  0.8120  1\n  O  O40  1  0.9100  0.7363  0.4383  1\n  O  O41  1  0.6828  0.9184  0.0958  1\n  O  O42  1  0.1792  0.6701  0.8437  1\n  O  O43  1  0.2063  0.9216  0.2409  1\n  O  O44  1  0.7134  0.6690  0.9921  1\n  O  O45  1  0.2863  0.8325  0.5086  1\n  O  O46  1  0.8195  0.8305  0.6556  1\n  O  O47  1  0.4096  0.9864  0.6878  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8Mn6Fe2B7O10BO14\n_chemical_formula_sum              \"Li8 Mn6 Fe2 B8 O24\"\n_cell_length_a       5.2320\n_cell_length_b       6.0398\n_cell_length_c       16.2522\n_cell_angle_alpha    82.1135\n_cell_angle_beta     88.9306\n_cell_angle_gamma    89.3562\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8495  0.0621  0.3899  1.0000\n  Li  Li2       1.0000  0.1504  0.4361  0.1099  1.0000\n  Li  Li3       1.0000  0.6504  0.1870  0.8595  1.0000\n  Li  Li4       1.0000  0.3480  0.3127  0.6396  1.0000\n  Li  Li5       1.0000  0.6508  0.6870  0.3586  1.0000\n  Li  Li6       1.0000  0.3504  0.8128  0.1419  1.0000\n  Li  Li7       1.0000  0.8488  0.5631  0.8914  1.0000\n  Li  Li8       1.0000  0.1509  0.9386  0.6082  1.0000\n  Mn  Mn1       1.0000  0.6674  0.2728  0.0411  1.0000\n  Mn  Mn2       1.0000  0.1671  0.0247  0.7899  1.0000\n  Mn  Mn3       1.0000  0.1671  0.5229  0.2910  1.0000\n  Mn  Mn4       1.0000  0.8327  0.4756  0.7105  1.0000\n  Mn  Mn5       1.0000  0.6657  0.7734  0.5399  1.0000\n  Mn  Mn6       1.0000  0.3326  0.7244  0.9603  1.0000\n  Fe  Fe1       1.0000  0.3389  0.2256  0.4603  1.0000\n  Fe  Fe2       1.0000  0.8292  0.9755  0.2112  1.0000\n  B   B1        1.0000  0.3291  0.0356  0.2974  1.0000\n  B   B2        1.0000  0.8295  0.2872  0.5465  1.0000\n  B   B3        1.0000  0.6704  0.4642  0.2025  1.0000\n  B   B4        1.0000  0.1697  0.2148  0.9522  1.0000\n  B   B5        1.0000  0.8318  0.7850  0.0491  1.0000\n  B   B6        1.0000  0.3301  0.5353  0.7980  1.0000\n  B   B7        1.0000  0.1701  0.7141  0.4522  1.0000\n  O   O1        1.0000  0.6692  0.9656  0.7017  1.0000\n  O   O2        1.0000  0.5911  0.0159  0.3084  1.0000\n  O   O3        1.0000  0.1866  0.1667  0.3464  1.0000\n  O   O4        1.0000  0.7075  0.1736  0.4890  1.0000\n  O   O5        1.0000  0.2869  0.3331  0.0086  1.0000\n  O   O6        1.0000  0.7858  0.0833  0.7583  1.0000\n  O   O7        1.0000  0.8191  0.3272  0.1571  1.0000\n  O   O8        1.0000  0.3194  0.0794  0.9061  1.0000\n  O   O9        1.0000  0.0894  0.2631  0.5582  1.0000\n  O   O10       1.0000  0.4108  0.4859  0.1891  1.0000\n  B   B8        1.0000  0.9100  0.2362  0.9387  1.0000\n  O   O11       1.0000  0.6821  0.4194  0.5941  1.0000\n  O   O12       1.0000  0.2145  0.4172  0.7410  1.0000\n  O   O13       1.0000  0.7881  0.5825  0.2588  1.0000\n  O   O14       1.0000  0.3201  0.5776  0.4067  1.0000\n  O   O15       1.0000  0.0919  0.7636  0.0622  1.0000\n  O   O16       1.0000  0.5897  0.5146  0.8120  1.0000\n  O   O17       1.0000  0.9100  0.7363  0.4383  1.0000\n  O   O18       1.0000  0.6828  0.9184  0.0958  1.0000\n  O   O19       1.0000  0.1792  0.6701  0.8437  1.0000\n  O   O20       1.0000  0.2063  0.9216  0.2409  1.0000\n  O   O21       1.0000  0.7134  0.6690  0.9921  1.0000\n  O   O22       1.0000  0.2863  0.8325  0.5086  1.0000\n  O   O23       1.0000  0.8195  0.8305  0.6556  1.0000\n  O   O24       1.0000  0.4096  0.9864  0.6878  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c932b613-f562-455c-825b-dc968cb85d75",
    "mp_id": "mp-780121",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 22 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe4O5F3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.9234\n_cell_length_b   9.9234\n_cell_length_c   4.7325\n_cell_angle_alpha   88.4107\n_cell_angle_beta   88.4107\n_cell_angle_gamma   35.7636\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe4O5F3\n_chemical_formula_sum   'Fe8 O10 F6'\n_cell_volume   272.2536\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.0000  0.5000  0.0000  1\n  Fe  Fe1  1  0.7448  0.2552  0.0000  1\n  Fe  Fe2  1  0.2552  0.7448  0.0000  1\n  Fe  Fe3  1  0.5000  0.0000  0.0000  1\n  Fe  Fe4  1  0.6343  0.6343  0.5285  1\n  Fe  Fe5  1  0.3657  0.3657  0.4715  1\n  Fe  Fe6  1  0.1274  0.1274  0.5658  1\n  Fe  Fe7  1  0.8726  0.8726  0.4342  1\n  O  O8  1  0.0745  0.5732  0.2842  1\n  O  O9  1  0.5732  0.0745  0.2842  1\n  O  O10  1  0.7042  0.7042  0.1973  1\n  O  O11  1  0.9525  0.9525  0.1753  1\n  O  O12  1  0.4504  0.4504  0.1821  1\n  O  O13  1  0.0475  0.0475  0.8247  1\n  O  O14  1  0.5496  0.5496  0.8179  1\n  O  O15  1  0.2958  0.2958  0.8027  1\n  O  O16  1  0.4268  0.9255  0.7158  1\n  O  O17  1  0.9255  0.4268  0.7158  1\n  F  F18  1  0.8295  0.3270  0.3279  1\n  F  F19  1  0.3270  0.8295  0.3279  1\n  F  F20  1  0.1968  0.1968  0.2130  1\n  F  F21  1  0.8032  0.8032  0.7870  1\n  F  F22  1  0.6730  0.1705  0.6721  1\n  F  F23  1  0.1705  0.6730  0.6721  1\n",
    "output": "data_image0\n_chemical_formula_structural       FFe7O10F4FeF\n_chemical_formula_sum              \"F6 Fe8 O10\"\n_cell_length_a       9.9234\n_cell_length_b       9.9234\n_cell_length_c       4.7325\n_cell_angle_alpha    88.4107\n_cell_angle_beta     88.4107\n_cell_angle_gamma    35.7636\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  F   F1        1.0000  0.0000  0.5000  0.0000  1.0000\n  Fe  Fe1       1.0000  0.7448  0.2552  0.0000  1.0000\n  Fe  Fe2       1.0000  0.2552  0.7448  0.0000  1.0000\n  Fe  Fe3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe4       1.0000  0.6343  0.6343  0.5285  1.0000\n  Fe  Fe5       1.0000  0.3657  0.3657  0.4715  1.0000\n  Fe  Fe6       1.0000  0.1274  0.1274  0.5658  1.0000\n  Fe  Fe7       1.0000  0.8726  0.8726  0.4342  1.0000\n  O   O1        1.0000  0.0745  0.5732  0.2842  1.0000\n  O   O2        1.0000  0.5732  0.0745  0.2842  1.0000\n  O   O3        1.0000  0.7042  0.7042  0.1973  1.0000\n  O   O4        1.0000  0.9525  0.9525  0.1753  1.0000\n  O   O5        1.0000  0.4504  0.4504  0.1821  1.0000\n  O   O6        1.0000  0.0475  0.0475  0.8247  1.0000\n  O   O7        1.0000  0.5496  0.5496  0.8179  1.0000\n  O   O8        1.0000  0.2958  0.2958  0.8027  1.0000\n  O   O9        1.0000  0.4268  0.9255  0.7158  1.0000\n  O   O10       1.0000  0.9255  0.4268  0.7158  1.0000\n  F   F2        1.0000  0.8295  0.3270  0.3279  1.0000\n  F   F3        1.0000  0.3270  0.8295  0.3279  1.0000\n  F   F4        1.0000  0.1968  0.1968  0.2130  1.0000\n  F   F5        1.0000  0.8032  0.8032  0.7870  1.0000\n  Fe  Fe8       1.0000  0.6730  0.1705  0.6721  1.0000\n  F   F6        1.0000  0.1705  0.6730  0.6721  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ec614f6f-887d-4ddf-ae74-7c9ccbe1cea0",
    "mp_id": "mp-780175",
    "action_prompt": "Swap the spatial positions of atoms at indices 5 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Fe3P4(HO8)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.4804\n_cell_length_b   8.6901\n_cell_length_c   9.2551\n_cell_angle_alpha   64.0122\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Fe3P4(HO8)2\n_chemical_formula_sum   'Li8 Fe6 P8 H4 O32'\n_cell_volume   685.3910\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.3458  0.4189  0.0339  1\n  Li  Li1  1  0.9798  0.2830  0.3114  1\n  Li  Li2  1  0.1542  0.9189  0.0339  1\n  Li  Li3  1  0.5202  0.7830  0.3114  1\n  Li  Li4  1  0.4798  0.2170  0.6886  1\n  Li  Li5  1  0.8458  0.0811  0.9661  1\n  Li  Li6  1  0.0202  0.7170  0.6886  1\n  Li  Li7  1  0.6542  0.5811  0.9661  1\n  Fe  Fe8  1  0.6326  0.3937  0.3760  1\n  Fe  Fe9  1  0.1326  0.1063  0.6240  1\n  Fe  Fe10  1  0.0000  0.5000  0.5000  1\n  Fe  Fe11  1  0.8674  0.8937  0.3760  1\n  Fe  Fe12  1  0.3674  0.6063  0.6240  1\n  Fe  Fe13  1  0.5000  0.0000  0.5000  1\n  P  P14  1  0.6848  0.1904  0.1700  1\n  P  P15  1  0.8152  0.6904  0.1700  1\n  P  P16  1  0.3160  0.4346  0.3804  1\n  P  P17  1  0.8160  0.0654  0.6196  1\n  P  P18  1  0.1840  0.9346  0.3804  1\n  P  P19  1  0.6840  0.5654  0.6196  1\n  P  P20  1  0.1848  0.3096  0.8300  1\n  P  P21  1  0.3152  0.8096  0.8300  1\n  H  H22  1  0.1958  0.1396  0.1115  1\n  H  H23  1  0.3042  0.6396  0.1115  1\n  H  H24  1  0.6958  0.3604  0.8885  1\n  H  H25  1  0.8042  0.8604  0.8885  1\n  O  O26  1  0.1892  0.2928  0.0055  1\n  O  O27  1  0.2001  0.9942  0.1948  1\n  O  O28  1  0.8381  0.1579  0.2381  1\n  O  O29  1  0.5888  0.0374  0.2759  1\n  O  O30  1  0.6269  0.3620  0.1625  1\n  O  O31  1  0.3108  0.7928  0.0055  1\n  O  O32  1  0.2999  0.4942  0.1948  1\n  O  O33  1  0.1345  0.0892  0.4062  1\n  O  O34  1  0.6619  0.6579  0.2381  1\n  O  O35  1  0.9112  0.5374  0.2759  1\n  O  O36  1  0.6714  0.1303  0.5369  1\n  O  O37  1  0.8731  0.8620  0.1625  1\n  O  O38  1  0.4244  0.2857  0.4460  1\n  O  O39  1  0.9244  0.2143  0.5540  1\n  O  O40  1  0.1714  0.3697  0.4631  1\n  O  O41  1  0.3655  0.5892  0.4062  1\n  O  O42  1  0.6345  0.4108  0.5938  1\n  O  O43  1  0.8286  0.6303  0.5369  1\n  O  O44  1  0.0756  0.7857  0.4460  1\n  O  O45  1  0.5756  0.7143  0.5540  1\n  O  O46  1  0.1269  0.1380  0.8375  1\n  O  O47  1  0.3286  0.8697  0.4631  1\n  O  O48  1  0.0888  0.4626  0.7241  1\n  O  O49  1  0.3381  0.3421  0.7619  1\n  O  O50  1  0.8655  0.9108  0.5938  1\n  O  O51  1  0.7001  0.5058  0.8052  1\n  O  O52  1  0.6892  0.2072  0.9945  1\n  O  O53  1  0.3731  0.6380  0.8375  1\n  O  O54  1  0.4112  0.9626  0.7241  1\n  O  O55  1  0.1619  0.8421  0.7619  1\n  O  O56  1  0.7999  0.0058  0.8052  1\n  O  O57  1  0.8108  0.7072  0.9945  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li5PLi2Fe6P5LiP2H4O32\n_chemical_formula_sum              \"Li8 P8 Fe6 H4 O32\"\n_cell_length_a       9.4804\n_cell_length_b       8.6901\n_cell_length_c       9.2551\n_cell_angle_alpha    64.0122\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.3458  0.4189  0.0339  1.0000\n  Li  Li2       1.0000  0.9798  0.2830  0.3114  1.0000\n  Li  Li3       1.0000  0.1542  0.9189  0.0339  1.0000\n  Li  Li4       1.0000  0.5202  0.7830  0.3114  1.0000\n  Li  Li5       1.0000  0.4798  0.2170  0.6886  1.0000\n  P   P1        1.0000  0.8458  0.0811  0.9661  1.0000\n  Li  Li6       1.0000  0.0202  0.7170  0.6886  1.0000\n  Li  Li7       1.0000  0.6542  0.5811  0.9661  1.0000\n  Fe  Fe1       1.0000  0.6326  0.3937  0.3760  1.0000\n  Fe  Fe2       1.0000  0.1326  0.1063  0.6240  1.0000\n  Fe  Fe3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Fe  Fe4       1.0000  0.8674  0.8937  0.3760  1.0000\n  Fe  Fe5       1.0000  0.3674  0.6063  0.6240  1.0000\n  Fe  Fe6       1.0000  0.5000  0.0000  0.5000  1.0000\n  P   P2        1.0000  0.6848  0.1904  0.1700  1.0000\n  P   P3        1.0000  0.8152  0.6904  0.1700  1.0000\n  P   P4        1.0000  0.3160  0.4346  0.3804  1.0000\n  P   P5        1.0000  0.8160  0.0654  0.6196  1.0000\n  P   P6        1.0000  0.1840  0.9346  0.3804  1.0000\n  Li  Li8       1.0000  0.6840  0.5654  0.6196  1.0000\n  P   P7        1.0000  0.1848  0.3096  0.8300  1.0000\n  P   P8        1.0000  0.3152  0.8096  0.8300  1.0000\n  H   H1        1.0000  0.1958  0.1396  0.1115  1.0000\n  H   H2        1.0000  0.3042  0.6396  0.1115  1.0000\n  H   H3        1.0000  0.6958  0.3604  0.8885  1.0000\n  H   H4        1.0000  0.8042  0.8604  0.8885  1.0000\n  O   O1        1.0000  0.1892  0.2928  0.0055  1.0000\n  O   O2        1.0000  0.2001  0.9942  0.1948  1.0000\n  O   O3        1.0000  0.8381  0.1579  0.2381  1.0000\n  O   O4        1.0000  0.5888  0.0374  0.2759  1.0000\n  O   O5        1.0000  0.6269  0.3620  0.1625  1.0000\n  O   O6        1.0000  0.3108  0.7928  0.0055  1.0000\n  O   O7        1.0000  0.2999  0.4942  0.1948  1.0000\n  O   O8        1.0000  0.1345  0.0892  0.4062  1.0000\n  O   O9        1.0000  0.6619  0.6579  0.2381  1.0000\n  O   O10       1.0000  0.9112  0.5374  0.2759  1.0000\n  O   O11       1.0000  0.6714  0.1303  0.5369  1.0000\n  O   O12       1.0000  0.8731  0.8620  0.1625  1.0000\n  O   O13       1.0000  0.4244  0.2857  0.4460  1.0000\n  O   O14       1.0000  0.9244  0.2143  0.5540  1.0000\n  O   O15       1.0000  0.1714  0.3697  0.4631  1.0000\n  O   O16       1.0000  0.3655  0.5892  0.4062  1.0000\n  O   O17       1.0000  0.6345  0.4108  0.5938  1.0000\n  O   O18       1.0000  0.8286  0.6303  0.5369  1.0000\n  O   O19       1.0000  0.0756  0.7857  0.4460  1.0000\n  O   O20       1.0000  0.5756  0.7143  0.5540  1.0000\n  O   O21       1.0000  0.1269  0.1380  0.8375  1.0000\n  O   O22       1.0000  0.3286  0.8697  0.4631  1.0000\n  O   O23       1.0000  0.0888  0.4626  0.7241  1.0000\n  O   O24       1.0000  0.3381  0.3421  0.7619  1.0000\n  O   O25       1.0000  0.8655  0.9108  0.5938  1.0000\n  O   O26       1.0000  0.7001  0.5058  0.8052  1.0000\n  O   O27       1.0000  0.6892  0.2072  0.9945  1.0000\n  O   O28       1.0000  0.3731  0.6380  0.8375  1.0000\n  O   O29       1.0000  0.4112  0.9626  0.7241  1.0000\n  O   O30       1.0000  0.1619  0.8421  0.7619  1.0000\n  O   O31       1.0000  0.7999  0.0058  0.8052  1.0000\n  O   O32       1.0000  0.8108  0.7072  0.9945  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "eb39917c-ddbe-468f-9efd-69fdaa144437",
    "mp_id": "mp-780392",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li5Cu(PO4)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.3380\n_cell_length_b   6.2150\n_cell_length_c   9.9557\n_cell_angle_alpha   89.8782\n_cell_angle_beta   89.8150\n_cell_angle_gamma   89.9104\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li5Cu(PO4)2\n_chemical_formula_sum   'Li10 Cu2 P4 O16'\n_cell_volume   330.2843\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8448  0.0000  0.7552  1\n  Li  Li1  1  0.6735  0.7549  0.5051  1\n  Li  Li2  1  0.6717  0.7519  0.0036  1\n  Li  Li3  1  0.3277  0.7467  0.7545  1\n  Li  Li4  1  0.3265  0.7498  0.2547  1\n  Li  Li5  1  0.1550  0.4996  0.0036  1\n  Li  Li6  1  0.1563  0.5002  0.5052  1\n  Li  Li7  1  0.3269  0.2505  0.2550  1\n  Li  Li8  1  0.3263  0.2532  0.7540  1\n  Li  Li9  1  0.6739  0.2465  0.5060  1\n  Cu  Cu10  1  0.8258  0.0022  0.2537  1\n  Cu  Cu11  1  0.6647  0.2444  0.0026  1\n  P  P12  1  0.1781  0.9957  0.9980  1\n  P  P13  1  0.1787  0.9999  0.5032  1\n  P  P14  1  0.8263  0.5018  0.7475  1\n  P  P15  1  0.8283  0.5029  0.2531  1\n  O  O16  1  0.1933  0.0000  0.3464  1\n  O  O17  1  0.9011  0.0001  0.5519  1\n  O  O18  1  0.1863  0.0001  0.8419  1\n  O  O19  1  0.8988  0.9842  0.0439  1\n  O  O20  1  0.3141  0.7931  0.5557  1\n  O  O21  1  0.3178  0.7927  0.0518  1\n  O  O22  1  0.6875  0.7052  0.8021  1\n  O  O23  1  0.6823  0.7033  0.3076  1\n  O  O24  1  0.8270  0.5096  0.0965  1\n  O  O25  1  0.1038  0.5010  0.3032  1\n  O  O26  1  0.8226  0.5038  0.5912  1\n  O  O27  1  0.1015  0.4999  0.7999  1\n  O  O28  1  0.6841  0.3008  0.3061  1\n  O  O29  1  0.6867  0.2925  0.7937  1\n  O  O30  1  0.3134  0.2067  0.5551  1\n  O  O31  1  0.2951  0.2070  0.0554  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8CuLiCuLiP4O16\n_chemical_formula_sum              \"Li10 Cu2 P4 O16\"\n_cell_length_a       5.3380\n_cell_length_b       6.2150\n_cell_length_c       9.9557\n_cell_angle_alpha    89.8782\n_cell_angle_beta     89.8150\n_cell_angle_gamma    89.9104\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8448  0.0000  0.7552  1.0000\n  Li  Li2       1.0000  0.6735  0.7549  0.5051  1.0000\n  Li  Li3       1.0000  0.6717  0.7519  0.0036  1.0000\n  Li  Li4       1.0000  0.3277  0.7467  0.7545  1.0000\n  Li  Li5       1.0000  0.3265  0.7498  0.2547  1.0000\n  Li  Li6       1.0000  0.1550  0.4996  0.0036  1.0000\n  Li  Li7       1.0000  0.1563  0.5002  0.5052  1.0000\n  Li  Li8       1.0000  0.3269  0.2505  0.2550  1.0000\n  Cu  Cu1       1.0000  0.3263  0.2532  0.7540  1.0000\n  Li  Li9       1.0000  0.6739  0.2465  0.5060  1.0000\n  Cu  Cu2       1.0000  0.8258  0.0022  0.2537  1.0000\n  Li  Li10      1.0000  0.6647  0.2444  0.0026  1.0000\n  P   P1        1.0000  0.1781  0.9957  0.9980  1.0000\n  P   P2        1.0000  0.1787  0.9999  0.5032  1.0000\n  P   P3        1.0000  0.8263  0.5018  0.7475  1.0000\n  P   P4        1.0000  0.8283  0.5029  0.2531  1.0000\n  O   O1        1.0000  0.1933  0.0000  0.3464  1.0000\n  O   O2        1.0000  0.9011  0.0001  0.5519  1.0000\n  O   O3        1.0000  0.1863  0.0001  0.8419  1.0000\n  O   O4        1.0000  0.8988  0.9842  0.0439  1.0000\n  O   O5        1.0000  0.3141  0.7931  0.5557  1.0000\n  O   O6        1.0000  0.3178  0.7927  0.0518  1.0000\n  O   O7        1.0000  0.6875  0.7052  0.8021  1.0000\n  O   O8        1.0000  0.6823  0.7033  0.3076  1.0000\n  O   O9        1.0000  0.8270  0.5096  0.0965  1.0000\n  O   O10       1.0000  0.1038  0.5010  0.3032  1.0000\n  O   O11       1.0000  0.8226  0.5038  0.5912  1.0000\n  O   O12       1.0000  0.1015  0.4999  0.7999  1.0000\n  O   O13       1.0000  0.6841  0.3008  0.3061  1.0000\n  O   O14       1.0000  0.6867  0.2925  0.7937  1.0000\n  O   O15       1.0000  0.3134  0.2067  0.5551  1.0000\n  O   O16       1.0000  0.2951  0.2070  0.0554  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c7567cb3-368d-4810-878b-c2d111a30226",
    "mp_id": "mp-780797",
    "action_prompt": "Swap the spatial positions of atoms at indices 21 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Fe10O11F9\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.7024\n_cell_length_b   4.7101\n_cell_length_c   15.4762\n_cell_angle_alpha   89.8761\n_cell_angle_beta   89.7842\n_cell_angle_gamma   89.4847\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Fe10O11F9\n_chemical_formula_sum   'Fe10 O11 F9'\n_cell_volume   342.7623\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Fe  Fe0  1  0.0391  0.0141  0.9937  1\n  Fe  Fe1  1  0.0101  0.9857  0.8060  1\n  Fe  Fe2  1  0.0267  0.9836  0.6020  1\n  Fe  Fe3  1  0.9989  0.9583  0.4006  1\n  Fe  Fe4  1  0.9943  0.9534  0.1974  1\n  Fe  Fe5  1  0.5025  0.4803  0.9042  1\n  Fe  Fe6  1  0.4959  0.5232  0.5044  1\n  Fe  Fe7  1  0.4834  0.5218  0.6893  1\n  Fe  Fe8  1  0.5043  0.5402  0.3017  1\n  Fe  Fe9  1  0.4771  0.5191  0.1013  1\n  O  O10  1  0.2127  0.7963  0.8977  1\n  O  O11  1  0.1911  0.8134  0.7046  1\n  O  O12  1  0.1926  0.8072  0.5006  1\n  O  O13  1  0.1800  0.7982  0.2993  1\n  O  O14  1  0.1900  0.8135  0.0967  1\n  O  O15  1  0.7031  0.7055  0.6005  1\n  O  O16  1  0.6851  0.6920  0.4026  1\n  O  O17  1  0.6802  0.6903  0.1981  1\n  O  O18  1  0.3198  0.3154  0.0018  1\n  O  O19  1  0.3045  0.3052  0.5987  1\n  O  O20  1  0.8136  0.1949  0.8981  1\n  F  F21  1  0.7068  0.7017  0.9999  1\n  F  F22  1  0.6932  0.6867  0.7992  1\n  F  F23  1  0.3128  0.3071  0.7973  1\n  F  F24  1  0.2969  0.2985  0.3994  1\n  F  F25  1  0.2898  0.2987  0.2013  1\n  F  F26  1  0.8044  0.1974  0.4987  1\n  F  F27  1  0.7999  0.2025  0.7046  1\n  F  F28  1  0.8001  0.2020  0.1002  1\n  F  F29  1  0.7909  0.1939  0.3000  1\n",
    "output": "data_image0\n_chemical_formula_structural       Fe2FFe7O11FeF8\n_chemical_formula_sum              \"Fe10 F9 O11\"\n_cell_length_a       4.7024\n_cell_length_b       4.7101\n_cell_length_c       15.4762\n_cell_angle_alpha    89.8761\n_cell_angle_beta     89.7842\n_cell_angle_gamma    89.4847\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Fe  Fe1       1.0000  0.0391  0.0141  0.9937  1.0000\n  Fe  Fe2       1.0000  0.0101  0.9857  0.8060  1.0000\n  F   F1        1.0000  0.0267  0.9836  0.6020  1.0000\n  Fe  Fe3       1.0000  0.9989  0.9583  0.4006  1.0000\n  Fe  Fe4       1.0000  0.9943  0.9534  0.1974  1.0000\n  Fe  Fe5       1.0000  0.5025  0.4803  0.9042  1.0000\n  Fe  Fe6       1.0000  0.4959  0.5232  0.5044  1.0000\n  Fe  Fe7       1.0000  0.4834  0.5218  0.6893  1.0000\n  Fe  Fe8       1.0000  0.5043  0.5402  0.3017  1.0000\n  Fe  Fe9       1.0000  0.4771  0.5191  0.1013  1.0000\n  O   O1        1.0000  0.2127  0.7963  0.8977  1.0000\n  O   O2        1.0000  0.1911  0.8134  0.7046  1.0000\n  O   O3        1.0000  0.1926  0.8072  0.5006  1.0000\n  O   O4        1.0000  0.1800  0.7982  0.2993  1.0000\n  O   O5        1.0000  0.1900  0.8135  0.0967  1.0000\n  O   O6        1.0000  0.7031  0.7055  0.6005  1.0000\n  O   O7        1.0000  0.6851  0.6920  0.4026  1.0000\n  O   O8        1.0000  0.6802  0.6903  0.1981  1.0000\n  O   O9        1.0000  0.3198  0.3154  0.0018  1.0000\n  O   O10       1.0000  0.3045  0.3052  0.5987  1.0000\n  O   O11       1.0000  0.8136  0.1949  0.8981  1.0000\n  Fe  Fe10      1.0000  0.7068  0.7017  0.9999  1.0000\n  F   F2        1.0000  0.6932  0.6867  0.7992  1.0000\n  F   F3        1.0000  0.3128  0.3071  0.7973  1.0000\n  F   F4        1.0000  0.2969  0.2985  0.3994  1.0000\n  F   F5        1.0000  0.2898  0.2987  0.2013  1.0000\n  F   F6        1.0000  0.8044  0.1974  0.4987  1.0000\n  F   F7        1.0000  0.7999  0.2025  0.7046  1.0000\n  F   F8        1.0000  0.8001  0.2020  0.1002  1.0000\n  F   F9        1.0000  0.7909  0.1939  0.3000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1ae3e929-cf8e-47a3-b44e-518ab37a690a",
    "mp_id": "mp-782009",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 53 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca9La5Br33\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.8115\n_cell_length_b   11.9263\n_cell_length_c   22.2418\n_cell_angle_alpha   98.4613\n_cell_angle_beta   100.9511\n_cell_angle_gamma   110.0389\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca9La5Br33\n_chemical_formula_sum   'Ca18 La10 Br66'\n_cell_volume   2812.3276\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.9107  0.2359  0.9274  1\n  Ca  Ca1  1  0.3176  0.0812  0.9711  1\n  Ca  Ca2  1  0.4794  0.0182  0.1940  1\n  Ca  Ca3  1  0.8673  0.2622  0.3343  1\n  Ca  Ca4  1  0.2365  0.1455  0.3822  1\n  Ca  Ca5  1  0.6876  0.4021  0.5428  1\n  Ca  Ca6  1  0.0687  0.2578  0.5605  1\n  Ca  Ca7  1  0.7637  0.3482  0.1197  1\n  Ca  Ca8  1  0.1325  0.2025  0.1529  1\n  Ca  Ca9  1  0.8675  0.7975  0.8471  1\n  Ca  Ca10  1  0.2363  0.6518  0.8803  1\n  Ca  Ca11  1  0.9313  0.7422  0.4395  1\n  Ca  Ca12  1  0.3124  0.5979  0.4572  1\n  Ca  Ca13  1  0.7635  0.8545  0.6178  1\n  Ca  Ca14  1  0.1327  0.7378  0.6657  1\n  Ca  Ca15  1  0.5206  0.9818  0.8060  1\n  Ca  Ca16  1  0.6824  0.9188  0.0289  1\n  Ca  Ca17  1  0.0893  0.7641  0.0726  1\n  La  La18  1  0.3785  0.0474  0.5844  1\n  La  La19  1  0.1740  0.1365  0.7628  1\n  La  La20  1  0.8626  0.3563  0.7354  1\n  La  La21  1  0.6323  0.4555  0.9301  1\n  La  La22  1  0.4664  0.5441  0.6840  1\n  La  La23  1  0.5336  0.4559  0.3160  1\n  La  La24  1  0.3677  0.5445  0.0699  1\n  La  La25  1  0.1374  0.6437  0.2646  1\n  La  La26  1  0.8260  0.8635  0.2372  1\n  La  La27  1  0.6215  0.9526  0.4156  1\n  Br  Br28  1  0.7673  0.1379  0.7909  1\n  Br  Br29  1  0.9334  0.1380  0.6698  1\n  Br  Br30  1  0.6295  0.1990  0.9163  1\n  Br  Br31  1  0.7346  0.0491  0.1934  1\n  Br  Br32  1  0.1491  0.9923  0.6346  1\n  Br  Br33  1  0.0481  0.0640  0.8752  1\n  Br  Br34  1  0.6575  0.1966  0.6212  1\n  Br  Br35  1  0.4464  0.1880  0.7375  1\n  Br  Br36  1  0.8154  0.2247  0.4827  1\n  Br  Br37  1  0.5993  0.1222  0.3311  1\n  Br  Br38  1  0.4696  0.1172  0.4645  1\n  Br  Br39  1  0.1493  0.0517  0.4862  1\n  Br  Br40  1  0.3565  0.2766  0.8893  1\n  Br  Br41  1  0.8839  0.1769  0.0579  1\n  Br  Br42  1  0.8291  0.4572  0.8598  1\n  Br  Br43  1  0.5583  0.1074  0.0701  1\n  Br  Br44  1  0.9597  0.4426  0.6261  1\n  Br  Br45  1  0.2532  0.0470  0.0938  1\n  Br  Br46  1  0.3955  0.3080  0.5851  1\n  Br  Br47  1  0.9724  0.3662  0.2202  1\n  Br  Br48  1  0.3414  0.1933  0.2652  1\n  Br  Br49  1  0.6607  0.3212  0.2336  1\n  Br  Br50  1  0.0403  0.1330  0.2759  1\n  Br  Br51  1  0.2331  0.3502  0.6978  1\n  Br  Br52  1  0.7108  0.5048  0.6850  1\n  Br  Br53  1  0.0915  0.3604  0.8263  1\n  Br  Br54  1  0.7554  0.4604  0.4152  1\n  Br  Br55  1  0.5896  0.5724  0.8210  1\n  Br  Br56  1  0.4419  0.3865  0.4302  1\n  Br  Br57  1  0.8137  0.7238  0.9749  1\n  Br  Br58  1  0.4588  0.6073  0.9539  1\n  Br  Br59  1  0.1170  0.3222  0.4357  1\n  Br  Br60  1  0.1390  0.5372  0.9770  1\n  Br  Br61  1  0.8610  0.4628  0.0230  1\n  Br  Br62  1  0.8830  0.6778  0.5643  1\n  Br  Br63  1  0.5412  0.3927  0.0461  1\n  Br  Br64  1  0.1863  0.2762  0.0251  1\n  Br  Br65  1  0.5581  0.6135  0.5698  1\n  Br  Br66  1  0.4104  0.4276  0.1790  1\n  Br  Br67  1  0.2446  0.5396  0.5848  1\n  Br  Br68  1  0.9085  0.6396  0.1737  1\n  Br  Br69  1  0.2892  0.4952  0.3150  1\n  Br  Br70  1  0.7669  0.6498  0.3022  1\n  Br  Br71  1  0.9597  0.8670  0.7241  1\n  Br  Br72  1  0.3393  0.6788  0.7664  1\n  Br  Br73  1  0.6586  0.8067  0.7348  1\n  Br  Br74  1  0.0276  0.6338  0.7798  1\n  Br  Br75  1  0.6045  0.6920  0.4149  1\n  Br  Br76  1  0.7468  0.9530  0.9062  1\n  Br  Br77  1  0.0403  0.5574  0.3739  1\n  Br  Br78  1  0.4417  0.8926  0.9299  1\n  Br  Br79  1  0.1709  0.5428  0.1402  1\n  Br  Br80  1  0.1161  0.8231  0.9421  1\n  Br  Br81  1  0.6435  0.7234  0.1107  1\n  Br  Br82  1  0.8507  0.9483  0.5138  1\n  Br  Br83  1  0.5304  0.8828  0.5355  1\n  Br  Br84  1  0.4007  0.8778  0.6689  1\n  Br  Br85  1  0.1846  0.7753  0.5173  1\n  Br  Br86  1  0.5536  0.8120  0.2625  1\n  Br  Br87  1  0.3425  0.8034  0.3788  1\n  Br  Br88  1  0.9519  0.9360  0.1248  1\n  Br  Br89  1  0.8509  0.0077  0.3654  1\n  Br  Br90  1  0.2654  0.9509  0.8066  1\n  Br  Br91  1  0.3705  0.8010  0.0837  1\n  Br  Br92  1  0.0666  0.8620  0.3302  1\n  Br  Br93  1  0.2327  0.8620  0.2091  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca18La2BrLa7Br25LaBr40\n_chemical_formula_sum              \"Ca18 La10 Br66\"\n_cell_length_a       11.8115\n_cell_length_b       11.9263\n_cell_length_c       22.2418\n_cell_angle_alpha    98.4613\n_cell_angle_beta     100.9511\n_cell_angle_gamma    110.0389\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.9107  0.2359  0.9274  1.0000\n  Ca  Ca2       1.0000  0.3176  0.0812  0.9711  1.0000\n  Ca  Ca3       1.0000  0.4794  0.0182  0.1940  1.0000\n  Ca  Ca4       1.0000  0.8673  0.2622  0.3343  1.0000\n  Ca  Ca5       1.0000  0.2365  0.1455  0.3822  1.0000\n  Ca  Ca6       1.0000  0.6876  0.4021  0.5428  1.0000\n  Ca  Ca7       1.0000  0.0687  0.2578  0.5605  1.0000\n  Ca  Ca8       1.0000  0.7637  0.3482  0.1197  1.0000\n  Ca  Ca9       1.0000  0.1325  0.2025  0.1529  1.0000\n  Ca  Ca10      1.0000  0.8675  0.7975  0.8471  1.0000\n  Ca  Ca11      1.0000  0.2363  0.6518  0.8803  1.0000\n  Ca  Ca12      1.0000  0.9313  0.7422  0.4395  1.0000\n  Ca  Ca13      1.0000  0.3124  0.5979  0.4572  1.0000\n  Ca  Ca14      1.0000  0.7635  0.8545  0.6178  1.0000\n  Ca  Ca15      1.0000  0.1327  0.7378  0.6657  1.0000\n  Ca  Ca16      1.0000  0.5206  0.9818  0.8060  1.0000\n  Ca  Ca17      1.0000  0.6824  0.9188  0.0289  1.0000\n  Ca  Ca18      1.0000  0.0893  0.7641  0.0726  1.0000\n  La  La1       1.0000  0.3785  0.0474  0.5844  1.0000\n  La  La2       1.0000  0.1740  0.1365  0.7628  1.0000\n  Br  Br1       1.0000  0.8626  0.3563  0.7354  1.0000\n  La  La3       1.0000  0.6323  0.4555  0.9301  1.0000\n  La  La4       1.0000  0.4664  0.5441  0.6840  1.0000\n  La  La5       1.0000  0.5336  0.4559  0.3160  1.0000\n  La  La6       1.0000  0.3677  0.5445  0.0699  1.0000\n  La  La7       1.0000  0.1374  0.6437  0.2646  1.0000\n  La  La8       1.0000  0.8260  0.8635  0.2372  1.0000\n  La  La9       1.0000  0.6215  0.9526  0.4156  1.0000\n  Br  Br2       1.0000  0.7673  0.1379  0.7909  1.0000\n  Br  Br3       1.0000  0.9334  0.1380  0.6698  1.0000\n  Br  Br4       1.0000  0.6295  0.1990  0.9163  1.0000\n  Br  Br5       1.0000  0.7346  0.0491  0.1934  1.0000\n  Br  Br6       1.0000  0.1491  0.9923  0.6346  1.0000\n  Br  Br7       1.0000  0.0481  0.0640  0.8752  1.0000\n  Br  Br8       1.0000  0.6575  0.1966  0.6212  1.0000\n  Br  Br9       1.0000  0.4464  0.1880  0.7375  1.0000\n  Br  Br10      1.0000  0.8154  0.2247  0.4827  1.0000\n  Br  Br11      1.0000  0.5993  0.1222  0.3311  1.0000\n  Br  Br12      1.0000  0.4696  0.1172  0.4645  1.0000\n  Br  Br13      1.0000  0.1493  0.0517  0.4862  1.0000\n  Br  Br14      1.0000  0.3565  0.2766  0.8893  1.0000\n  Br  Br15      1.0000  0.8839  0.1769  0.0579  1.0000\n  Br  Br16      1.0000  0.8291  0.4572  0.8598  1.0000\n  Br  Br17      1.0000  0.5583  0.1074  0.0701  1.0000\n  Br  Br18      1.0000  0.9597  0.4426  0.6261  1.0000\n  Br  Br19      1.0000  0.2532  0.0470  0.0938  1.0000\n  Br  Br20      1.0000  0.3955  0.3080  0.5851  1.0000\n  Br  Br21      1.0000  0.9724  0.3662  0.2202  1.0000\n  Br  Br22      1.0000  0.3414  0.1933  0.2652  1.0000\n  Br  Br23      1.0000  0.6607  0.3212  0.2336  1.0000\n  Br  Br24      1.0000  0.0403  0.1330  0.2759  1.0000\n  Br  Br25      1.0000  0.2331  0.3502  0.6978  1.0000\n  Br  Br26      1.0000  0.7108  0.5048  0.6850  1.0000\n  La  La10      1.0000  0.0915  0.3604  0.8263  1.0000\n  Br  Br27      1.0000  0.7554  0.4604  0.4152  1.0000\n  Br  Br28      1.0000  0.5896  0.5724  0.8210  1.0000\n  Br  Br29      1.0000  0.4419  0.3865  0.4302  1.0000\n  Br  Br30      1.0000  0.8137  0.7238  0.9749  1.0000\n  Br  Br31      1.0000  0.4588  0.6073  0.9539  1.0000\n  Br  Br32      1.0000  0.1170  0.3222  0.4357  1.0000\n  Br  Br33      1.0000  0.1390  0.5372  0.9770  1.0000\n  Br  Br34      1.0000  0.8610  0.4628  0.0230  1.0000\n  Br  Br35      1.0000  0.8830  0.6778  0.5643  1.0000\n  Br  Br36      1.0000  0.5412  0.3927  0.0461  1.0000\n  Br  Br37      1.0000  0.1863  0.2762  0.0251  1.0000\n  Br  Br38      1.0000  0.5581  0.6135  0.5698  1.0000\n  Br  Br39      1.0000  0.4104  0.4276  0.1790  1.0000\n  Br  Br40      1.0000  0.2446  0.5396  0.5848  1.0000\n  Br  Br41      1.0000  0.9085  0.6396  0.1737  1.0000\n  Br  Br42      1.0000  0.2892  0.4952  0.3150  1.0000\n  Br  Br43      1.0000  0.7669  0.6498  0.3022  1.0000\n  Br  Br44      1.0000  0.9597  0.8670  0.7241  1.0000\n  Br  Br45      1.0000  0.3393  0.6788  0.7664  1.0000\n  Br  Br46      1.0000  0.6586  0.8067  0.7348  1.0000\n  Br  Br47      1.0000  0.0276  0.6338  0.7798  1.0000\n  Br  Br48      1.0000  0.6045  0.6920  0.4149  1.0000\n  Br  Br49      1.0000  0.7468  0.9530  0.9062  1.0000\n  Br  Br50      1.0000  0.0403  0.5574  0.3739  1.0000\n  Br  Br51      1.0000  0.4417  0.8926  0.9299  1.0000\n  Br  Br52      1.0000  0.1709  0.5428  0.1402  1.0000\n  Br  Br53      1.0000  0.1161  0.8231  0.9421  1.0000\n  Br  Br54      1.0000  0.6435  0.7234  0.1107  1.0000\n  Br  Br55      1.0000  0.8507  0.9483  0.5138  1.0000\n  Br  Br56      1.0000  0.5304  0.8828  0.5355  1.0000\n  Br  Br57      1.0000  0.4007  0.8778  0.6689  1.0000\n  Br  Br58      1.0000  0.1846  0.7753  0.5173  1.0000\n  Br  Br59      1.0000  0.5536  0.8120  0.2625  1.0000\n  Br  Br60      1.0000  0.3425  0.8034  0.3788  1.0000\n  Br  Br61      1.0000  0.9519  0.9360  0.1248  1.0000\n  Br  Br62      1.0000  0.8509  0.0077  0.3654  1.0000\n  Br  Br63      1.0000  0.2654  0.9509  0.8066  1.0000\n  Br  Br64      1.0000  0.3705  0.8010  0.0837  1.0000\n  Br  Br65      1.0000  0.0666  0.8620  0.3302  1.0000\n  Br  Br66      1.0000  0.2327  0.8620  0.2091  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1e273527-91ce-4f0a-a2b7-05ff960aa9ed",
    "mp_id": "mp-7926",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TaSe2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   3.4766\n_cell_length_b   3.4766\n_cell_length_c   26.9173\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TaSe2\n_chemical_formula_sum   'Ta4 Se8'\n_cell_volume   281.7553\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ta  Ta0  1  0.6667  0.3333  0.3733  1\n  Ta  Ta1  1  0.3333  0.6667  0.8733  1\n  Ta  Ta2  1  0.6667  0.3333  0.1221  1\n  Ta  Ta3  1  0.3333  0.6667  0.6221  1\n  Se  Se4  1  0.6667  0.3333  0.9352  1\n  Se  Se5  1  0.3333  0.6667  0.4352  1\n  Se  Se6  1  0.6667  0.3333  0.8114  1\n  Se  Se7  1  0.3333  0.6667  0.3114  1\n  Se  Se8  1  -0.0000  -0.0000  0.0602  1\n  Se  Se9  1  -0.0000  -0.0000  0.5602  1\n  Se  Se10  1  -0.0000  0.0000  0.1838  1\n  Se  Se11  1  -0.0000  -0.0000  0.6838  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ta3Se5TaSe3\n_chemical_formula_sum              \"Ta4 Se8\"\n_cell_length_a       3.4766\n_cell_length_b       3.4766\n_cell_length_c       26.9173\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ta  Ta1       1.0000  0.6667  0.3333  0.3733  1.0000\n  Ta  Ta2       1.0000  0.3333  0.6667  0.8733  1.0000\n  Ta  Ta3       1.0000  0.6667  0.3333  0.1221  1.0000\n  Se  Se1       1.0000  0.3333  0.6667  0.6221  1.0000\n  Se  Se2       1.0000  0.6667  0.3333  0.9352  1.0000\n  Se  Se3       1.0000  0.3333  0.6667  0.4352  1.0000\n  Se  Se4       1.0000  0.6667  0.3333  0.8114  1.0000\n  Se  Se5       1.0000  0.3333  0.6667  0.3114  1.0000\n  Ta  Ta4       1.0000  0.0000  0.0000  0.0602  1.0000\n  Se  Se6       1.0000  0.0000  0.0000  0.5602  1.0000\n  Se  Se7       1.0000  0.0000  0.0000  0.1838  1.0000\n  Se  Se8       1.0000  0.0000  0.0000  0.6838  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "298fbef9-a1a5-41fd-b41c-f5811a346b1b",
    "mp_id": "mp-803628",
    "action_prompt": "Swap the spatial positions of atoms at indices 8 and 25 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4TiCo3O8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9264\n_cell_length_b   5.9438\n_cell_length_c   8.3616\n_cell_angle_alpha   89.4203\n_cell_angle_beta   89.7390\n_cell_angle_gamma   91.0403\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4TiCo3O8\n_chemical_formula_sum   'Li8 Ti2 Co6 O16'\n_cell_volume   294.4704\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.5000  0.5000  0.0000  1\n  Li  Li1  1  0.0000  1.0000  0.5000  1\n  Li  Li2  1  0.2499  0.2503  0.2486  1\n  Li  Li3  1  0.7501  0.7497  0.7514  1\n  Li  Li4  1  0.2528  0.7527  0.7494  1\n  Li  Li5  1  0.7472  0.2473  0.2506  1\n  Li  Li6  1  0.0000  0.5000  0.0000  1\n  Li  Li7  1  0.5000  0.0000  0.5000  1\n  Ti  Ti8  1  0.0000  0.0000  1.0000  1\n  Ti  Ti9  1  0.5000  0.5000  0.5000  1\n  Co  Co10  1  0.2524  0.7507  0.2497  1\n  Co  Co11  1  0.7476  0.2493  0.7503  1\n  Co  Co12  1  0.5000  0.0000  0.0000  1\n  Co  Co13  1  0.2473  0.2511  0.7487  1\n  Co  Co14  1  0.7527  0.7489  0.2513  1\n  Co  Co15  1  0.0000  0.5000  0.5000  1\n  O  O16  1  0.0176  0.5196  0.2653  1\n  O  O17  1  0.5082  0.0214  0.7680  1\n  O  O18  1  0.4918  0.9786  0.2320  1\n  O  O19  1  0.9824  0.4804  0.7347  1\n  O  O20  1  0.2543  0.7749  0.9999  1\n  O  O21  1  0.7369  0.2633  0.5015  1\n  O  O22  1  0.2631  0.7367  0.4985  1\n  O  O23  1  0.7457  0.2251  0.0001  1\n  O  O24  1  0.2549  0.2666  0.5007  1\n  O  O25  1  0.7696  0.7582  0.0035  1\n  O  O26  1  0.4968  0.5042  0.2631  1\n  O  O27  1  0.9932  0.0050  0.7628  1\n  O  O28  1  0.2304  0.2418  0.9965  1\n  O  O29  1  0.7451  0.7334  0.4993  1\n  O  O30  1  0.0068  0.9950  0.2372  1\n  O  O31  1  0.5032  0.4958  0.7369  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li8OTiCo6O9TiO6\n_chemical_formula_sum              \"Li8 O16 Ti2 Co6\"\n_cell_length_a       5.9264\n_cell_length_b       5.9438\n_cell_length_c       8.3616\n_cell_angle_alpha    89.4203\n_cell_angle_beta     89.7390\n_cell_angle_gamma    91.0403\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.5000  0.5000  1e-06  1.0000\n  Li  Li2       1.0000  0.0000  1.0000  0.5000  1.0000\n  Li  Li3       1.0000  0.2499  0.2503  0.2486  1.0000\n  Li  Li4       1.0000  0.7501  0.7497  0.7514  1.0000\n  Li  Li5       1.0000  0.2528  0.7527  0.7494  1.0000\n  Li  Li6       1.0000  0.7472  0.2473  0.2506  1.0000\n  Li  Li7       1.0000  0.0000  0.5000  3e-06  1.0000\n  Li  Li8       1.0000  0.5000  0.0000  0.5000  1.0000\n  O   O1        1.0000  0.0000  0.0000  1.0000  1.0000\n  Ti  Ti1       1.0000  0.5000  0.5000  0.5000  1.0000\n  Co  Co1       1.0000  0.2524  0.7507  0.2497  1.0000\n  Co  Co2       1.0000  0.7476  0.2493  0.7503  1.0000\n  Co  Co3       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co4       1.0000  0.2473  0.2511  0.7487  1.0000\n  Co  Co5       1.0000  0.7527  0.7489  0.2513  1.0000\n  Co  Co6       1.0000  0.0000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.0176  0.5196  0.2653  1.0000\n  O   O3        1.0000  0.5082  0.0214  0.7680  1.0000\n  O   O4        1.0000  0.4918  0.9786  0.2320  1.0000\n  O   O5        1.0000  0.9824  0.4804  0.7347  1.0000\n  O   O6        1.0000  0.2543  0.7749  0.9999  1.0000\n  O   O7        1.0000  0.7369  0.2633  0.5015  1.0000\n  O   O8        1.0000  0.2631  0.7367  0.4985  1.0000\n  O   O9        1.0000  0.7457  0.2251  0.0001  1.0000\n  O   O10       1.0000  0.2549  0.2666  0.5007  1.0000\n  Ti  Ti2       1.0000  0.7696  0.7582  0.0035  1.0000\n  O   O11       1.0000  0.4968  0.5042  0.2631  1.0000\n  O   O12       1.0000  0.9932  0.0050  0.7628  1.0000\n  O   O13       1.0000  0.2304  0.2418  0.9965  1.0000\n  O   O14       1.0000  0.7451  0.7334  0.4993  1.0000\n  O   O15       1.0000  0.0068  0.9950  0.2372  1.0000\n  O   O16       1.0000  0.5032  0.4958  0.7369  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "75a6c167-fe4c-46fa-aa6b-513e891bcdf3",
    "mp_id": "mp-8058",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_YAsO4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.9109\n_cell_length_b   5.9109\n_cell_length_c   5.9109\n_cell_angle_alpha   106.5587\n_cell_angle_beta   106.5587\n_cell_angle_gamma   115.4679\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   YAsO4\n_chemical_formula_sum   'Y2 As2 O8'\n_cell_volume   157.6557\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Y  Y0  1  0.3750  0.6250  0.7500  1\n  Y  Y1  1  0.6250  0.3750  0.2500  1\n  As  As2  1  0.8750  0.1250  0.7500  1\n  As  As3  1  0.1250  0.8750  0.2500  1\n  O  O4  1  0.3000  0.2318  0.4318  1\n  O  O5  1  0.8682  0.3000  0.5682  1\n  O  O6  1  0.2318  0.3000  0.9318  1\n  O  O7  1  0.3000  0.8682  0.0682  1\n  O  O8  1  0.1318  0.7000  0.4318  1\n  O  O9  1  0.7000  0.7682  0.5682  1\n  O  O10  1  0.7000  0.1318  0.9318  1\n  O  O11  1  0.7682  0.7000  0.0682  1\n",
    "output": "data_image0\n_chemical_formula_structural       OYAs2O6YO\n_chemical_formula_sum              \"O8 Y2 As2\"\n_cell_length_a       5.9109\n_cell_length_b       5.9109\n_cell_length_c       5.9109\n_cell_angle_alpha    106.5587\n_cell_angle_beta     106.5587\n_cell_angle_gamma    115.4679\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.3750  0.6250  0.7500  1.0000\n  Y   Y1        1.0000  0.6250  0.3750  0.2500  1.0000\n  As  As1       1.0000  0.8750  0.1250  0.7500  1.0000\n  As  As2       1.0000  0.1250  0.8750  0.2500  1.0000\n  O   O2        1.0000  0.3000  0.2318  0.4318  1.0000\n  O   O3        1.0000  0.8682  0.3000  0.5682  1.0000\n  O   O4        1.0000  0.2318  0.3000  0.9318  1.0000\n  O   O5        1.0000  0.3000  0.8682  0.0682  1.0000\n  O   O6        1.0000  0.1318  0.7000  0.4318  1.0000\n  O   O7        1.0000  0.7000  0.7682  0.5682  1.0000\n  Y   Y2        1.0000  0.7000  0.1318  0.9318  1.0000\n  O   O8        1.0000  0.7682  0.7000  0.0682  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "973fee1f-bb0d-4bc6-807d-b3a975cad334",
    "mp_id": "mp-807001",
    "action_prompt": "Swap the spatial positions of atoms at indices 27 and 2 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiFe2F5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0471\n_cell_length_b   8.8578\n_cell_length_c   6.3156\n_cell_angle_alpha   91.0853\n_cell_angle_beta   101.2529\n_cell_angle_gamma   105.9095\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiFe2F5\n_chemical_formula_sum   'Li4 Fe8 F20'\n_cell_volume   423.3561\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4392  0.7942  0.2089  1\n  Li  Li1  1  0.1672  0.3070  0.2113  1\n  Li  Li2  1  0.8328  0.6930  0.7887  1\n  Li  Li3  1  0.5608  0.2058  0.7911  1\n  Fe  Fe4  1  0.7942  0.5458  0.1869  1\n  Fe  Fe5  1  0.7928  0.0416  0.1699  1\n  Fe  Fe6  1  0.5832  0.3399  0.3937  1\n  Fe  Fe7  1  0.1144  0.8545  0.3927  1\n  Fe  Fe8  1  0.8856  0.1455  0.6073  1\n  Fe  Fe9  1  0.4168  0.6601  0.6063  1\n  Fe  Fe10  1  0.2072  0.9584  0.8301  1\n  Fe  Fe11  1  0.2058  0.4542  0.8131  1\n  F  F12  1  0.7690  0.7437  0.0018  1\n  F  F13  1  0.7320  0.2540  0.0016  1\n  F  F14  1  0.2680  0.7460  0.9984  1\n  F  F15  1  0.2311  0.2563  0.9982  1\n  F  F16  1  0.5768  0.5593  0.2223  1\n  F  F17  1  0.8668  0.8691  0.3918  1\n  F  F18  1  0.5719  0.0467  0.2189  1\n  F  F19  1  0.8273  0.3260  0.3847  1\n  F  F20  1  0.0333  0.5531  0.2328  1\n  F  F21  1  0.3452  0.8307  0.3979  1\n  F  F22  1  0.0370  0.0593  0.2174  1\n  F  F23  1  0.3539  0.3810  0.4043  1\n  F  F24  1  0.6461  0.6190  0.5957  1\n  F  F25  1  0.9630  0.9407  0.7826  1\n  F  F26  1  0.6548  0.1693  0.6021  1\n  F  F27  1  0.9667  0.4469  0.7672  1\n  F  F28  1  0.1727  0.6740  0.6153  1\n  F  F29  1  0.4281  0.9533  0.7811  1\n  F  F30  1  0.1332  0.1309  0.6082  1\n  F  F31  1  0.4232  0.4407  0.7777  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2FLiFe8F15LiF4\n_chemical_formula_sum              \"Li4 F20 Fe8\"\n_cell_length_a       8.0471\n_cell_length_b       8.8578\n_cell_length_c       6.3156\n_cell_angle_alpha    91.0853\n_cell_angle_beta     101.2529\n_cell_angle_gamma    105.9095\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4392  0.7942  0.2089  1.0000\n  Li  Li2       1.0000  0.1672  0.3070  0.2113  1.0000\n  F   F1        1.0000  0.8328  0.6930  0.7887  1.0000\n  Li  Li3       1.0000  0.5608  0.2058  0.7911  1.0000\n  Fe  Fe1       1.0000  0.7942  0.5458  0.1869  1.0000\n  Fe  Fe2       1.0000  0.7928  0.0416  0.1699  1.0000\n  Fe  Fe3       1.0000  0.5832  0.3399  0.3937  1.0000\n  Fe  Fe4       1.0000  0.1144  0.8545  0.3927  1.0000\n  Fe  Fe5       1.0000  0.8856  0.1455  0.6073  1.0000\n  Fe  Fe6       1.0000  0.4168  0.6601  0.6063  1.0000\n  Fe  Fe7       1.0000  0.2072  0.9584  0.8301  1.0000\n  Fe  Fe8       1.0000  0.2058  0.4542  0.8131  1.0000\n  F   F2        1.0000  0.7690  0.7437  0.0018  1.0000\n  F   F3        1.0000  0.7320  0.2540  0.0016  1.0000\n  F   F4        1.0000  0.2680  0.7460  0.9984  1.0000\n  F   F5        1.0000  0.2310  0.2563  0.9982  1.0000\n  F   F6        1.0000  0.5768  0.5593  0.2223  1.0000\n  F   F7        1.0000  0.8668  0.8691  0.3918  1.0000\n  F   F8        1.0000  0.5719  0.0467  0.2189  1.0000\n  F   F9        1.0000  0.8273  0.3260  0.3847  1.0000\n  F   F10       1.0000  0.0333  0.5531  0.2328  1.0000\n  F   F11       1.0000  0.3452  0.8307  0.3979  1.0000\n  F   F12       1.0000  0.0370  0.0593  0.2174  1.0000\n  F   F13       1.0000  0.3539  0.3810  0.4043  1.0000\n  F   F14       1.0000  0.6461  0.6190  0.5957  1.0000\n  F   F15       1.0000  0.9630  0.9407  0.7826  1.0000\n  F   F16       1.0000  0.6548  0.1693  0.6021  1.0000\n  Li  Li4       1.0000  0.9667  0.4469  0.7672  1.0000\n  F   F17       1.0000  0.1727  0.6740  0.6153  1.0000\n  F   F18       1.0000  0.4281  0.9533  0.7811  1.0000\n  F   F19       1.0000  0.1332  0.1309  0.6082  1.0000\n  F   F20       1.0000  0.4232  0.4407  0.7777  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3ce014d6-8536-40a7-ac61-026fe8f87769",
    "mp_id": "mp-818638",
    "action_prompt": "Swap the spatial positions of atoms at indices 17 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_NdFeC6N6O5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.1837\n_cell_length_b   7.4465\n_cell_length_c   7.9557\n_cell_angle_alpha   62.1214\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   NdFeC6N6O5\n_chemical_formula_sum   'Nd2 Fe2 C12 N12 O10'\n_cell_volume   690.3818\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Nd  Nd0  1  0.2500  0.3224  0.3541  1\n  Nd  Nd1  1  0.7500  0.6776  0.6459  1\n  Fe  Fe2  1  0.5000  0.0000  0.0000  1\n  Fe  Fe3  1  0.0000  0.0000  0.0000  1\n  C  C4  1  0.4183  0.7567  0.1162  1\n  C  C5  1  0.4184  0.1257  0.1174  1\n  C  C6  1  0.4195  0.1175  0.7664  1\n  C  C7  1  0.9183  0.2433  0.8838  1\n  C  C8  1  0.9184  0.8743  0.8826  1\n  C  C9  1  0.9195  0.8825  0.2336  1\n  C  C10  1  0.5817  0.2433  0.8838  1\n  C  C11  1  0.5816  0.8743  0.8826  1\n  C  C12  1  0.5805  0.8825  0.2336  1\n  C  C13  1  0.0817  0.7567  0.1162  1\n  C  C14  1  0.0816  0.1257  0.1174  1\n  C  C15  1  0.0805  0.1175  0.7664  1\n  N  N16  1  0.3672  0.6119  0.1895  1\n  N  N17  1  0.3675  0.1962  0.1916  1\n  N  N18  1  0.3711  0.1876  0.6268  1\n  N  N19  1  0.8672  0.3881  0.8105  1\n  N  N20  1  0.8675  0.8038  0.8084  1\n  N  N21  1  0.8711  0.8124  0.3732  1\n  N  N22  1  0.6328  0.3881  0.8105  1\n  N  N23  1  0.6325  0.8038  0.8084  1\n  N  N24  1  0.6289  0.8124  0.3732  1\n  N  N25  1  0.1328  0.6119  0.1895  1\n  N  N26  1  0.1325  0.1962  0.1916  1\n  N  N27  1  0.1289  0.1876  0.6268  1\n  O  O28  1  0.2500  0.5803  0.8366  1\n  O  O29  1  0.2500  0.8907  0.5136  1\n  O  O30  1  0.2500  0.6015  0.5106  1\n  O  O31  1  0.7500  0.4197  0.1634  1\n  O  O32  1  0.7500  0.1093  0.4864  1\n  O  O33  1  0.7500  0.3985  0.4894  1\n  O  O34  1  0.3328  0.6338  0.7304  1\n  O  O35  1  0.8328  0.3662  0.2696  1\n  O  O36  1  0.6672  0.3662  0.2696  1\n  O  O37  1  0.1672  0.6338  0.7304  1\n",
    "output": "data_image0\n_chemical_formula_structural       Nd2Fe2C5NC6NCN10O10\n_chemical_formula_sum              \"Nd2 Fe2 C12 N12 O10\"\n_cell_length_a       13.1837\n_cell_length_b       7.4465\n_cell_length_c       7.9557\n_cell_angle_alpha    62.1214\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Nd  Nd1       1.0000  0.2500  0.3224  0.3541  1.0000\n  Nd  Nd2       1.0000  0.7500  0.6776  0.6459  1.0000\n  Fe  Fe1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.0000  0.0000  0.0000  1.0000\n  C   C1        1.0000  0.4183  0.7567  0.1162  1.0000\n  C   C2        1.0000  0.4184  0.1257  0.1174  1.0000\n  C   C3        1.0000  0.4195  0.1175  0.7664  1.0000\n  C   C4        1.0000  0.9183  0.2433  0.8838  1.0000\n  C   C5        1.0000  0.9184  0.8743  0.8826  1.0000\n  N   N1        1.0000  0.9195  0.8825  0.2336  1.0000\n  C   C6        1.0000  0.5817  0.2433  0.8838  1.0000\n  C   C7        1.0000  0.5816  0.8743  0.8826  1.0000\n  C   C8        1.0000  0.5805  0.8825  0.2336  1.0000\n  C   C9        1.0000  0.0817  0.7567  0.1162  1.0000\n  C   C10       1.0000  0.0816  0.1257  0.1174  1.0000\n  C   C11       1.0000  0.0805  0.1175  0.7664  1.0000\n  N   N2        1.0000  0.3672  0.6119  0.1895  1.0000\n  C   C12       1.0000  0.3675  0.1962  0.1916  1.0000\n  N   N3        1.0000  0.3711  0.1876  0.6268  1.0000\n  N   N4        1.0000  0.8672  0.3881  0.8105  1.0000\n  N   N5        1.0000  0.8675  0.8038  0.8084  1.0000\n  N   N6        1.0000  0.8711  0.8124  0.3732  1.0000\n  N   N7        1.0000  0.6328  0.3881  0.8105  1.0000\n  N   N8        1.0000  0.6325  0.8038  0.8084  1.0000\n  N   N9        1.0000  0.6289  0.8124  0.3732  1.0000\n  N   N10       1.0000  0.1328  0.6119  0.1895  1.0000\n  N   N11       1.0000  0.1325  0.1962  0.1916  1.0000\n  N   N12       1.0000  0.1289  0.1876  0.6268  1.0000\n  O   O1        1.0000  0.2500  0.5803  0.8366  1.0000\n  O   O2        1.0000  0.2500  0.8907  0.5136  1.0000\n  O   O3        1.0000  0.2500  0.6015  0.5106  1.0000\n  O   O4        1.0000  0.7500  0.4197  0.1634  1.0000\n  O   O5        1.0000  0.7500  0.1093  0.4864  1.0000\n  O   O6        1.0000  0.7500  0.3985  0.4894  1.0000\n  O   O7        1.0000  0.3328  0.6338  0.7304  1.0000\n  O   O8        1.0000  0.8328  0.3662  0.2696  1.0000\n  O   O9        1.0000  0.6672  0.3662  0.2696  1.0000\n  O   O10       1.0000  0.1672  0.6338  0.7304  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "33a08f33-ea7d-4a05-b3d3-a836fcfabc2f",
    "mp_id": "mp-850260",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li8MnFe7(BO3)8\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2319\n_cell_length_b   6.0279\n_cell_length_c   16.0926\n_cell_angle_alpha   81.4842\n_cell_angle_beta   89.5305\n_cell_angle_gamma   88.9218\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li8MnFe7(BO3)8\n_chemical_formula_sum   'Li8 Mn1 Fe7 B8 O24'\n_cell_volume   501.8295\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8477  0.0661  0.3890  1\n  Li  Li1  1  0.1512  0.4357  0.1110  1\n  Li  Li2  1  0.6532  0.1826  0.8610  1\n  Li  Li3  1  0.3490  0.3163  0.6393  1\n  Li  Li4  1  0.6523  0.6871  0.3586  1\n  Li  Li5  1  0.3486  0.8132  0.1412  1\n  Li  Li6  1  0.8492  0.5640  0.8912  1\n  Li  Li7  1  0.1498  0.9343  0.6091  1\n  Mn  Mn8  1  0.1684  0.0271  0.7899  1\n  Fe  Fe9  1  0.6627  0.2774  0.0402  1\n  Fe  Fe10  1  0.3377  0.2222  0.4599  1\n  Fe  Fe11  1  0.1640  0.5228  0.2927  1\n  Fe  Fe12  1  0.8211  0.4747  0.7103  1\n  Fe  Fe13  1  0.6735  0.7754  0.5389  1\n  Fe  Fe14  1  0.8370  0.9768  0.2074  1\n  Fe  Fe15  1  0.3243  0.7224  0.9615  1\n  B  B16  1  0.3289  0.0388  0.2969  1\n  B  B17  1  0.8301  0.2875  0.5463  1\n  B  B18  1  0.6709  0.4617  0.2030  1\n  B  B19  1  0.1728  0.2125  0.9544  1\n  B  B20  1  0.8275  0.7869  0.0466  1\n  B  B21  1  0.3296  0.5350  0.7967  1\n  B  B22  1  0.1735  0.7128  0.4535  1\n  B  B23  1  0.6685  0.9649  0.7019  1\n  O  O24  1  0.5899  0.0130  0.3082  1\n  O  O25  1  0.1834  0.1689  0.3456  1\n  O  O26  1  0.7059  0.1745  0.4888  1\n  O  O27  1  0.2941  0.3275  0.0115  1\n  O  O28  1  0.7863  0.0807  0.7595  1\n  O  O29  1  0.8164  0.3309  0.1544  1\n  O  O30  1  0.3199  0.0805  0.9072  1\n  O  O31  1  0.0901  0.2621  0.5571  1\n  O  O32  1  0.4101  0.4873  0.1917  1\n  O  O33  1  0.9126  0.2366  0.9425  1\n  O  O34  1  0.6871  0.4202  0.5946  1\n  O  O35  1  0.2056  0.4219  0.7400  1\n  O  O36  1  0.7952  0.5749  0.2600  1\n  O  O37  1  0.3159  0.5811  0.4046  1\n  O  O38  1  0.0894  0.7647  0.0583  1\n  O  O39  1  0.5899  0.5128  0.8086  1\n  O  O40  1  0.9124  0.7367  0.4423  1\n  O  O41  1  0.6845  0.9188  0.0951  1\n  O  O42  1  0.1866  0.6670  0.8459  1\n  O  O43  1  0.2047  0.9256  0.2396  1\n  O  O44  1  0.7066  0.6721  0.9901  1\n  O  O45  1  0.2959  0.8259  0.5103  1\n  O  O46  1  0.8166  0.8303  0.6552  1\n  O  O47  1  0.4090  0.9877  0.6883  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4BLi3MnFe7B4LiB3O24\n_chemical_formula_sum              \"Li8 B8 Mn1 Fe7 O24\"\n_cell_length_a       5.2319\n_cell_length_b       6.0279\n_cell_length_c       16.0926\n_cell_angle_alpha    81.4842\n_cell_angle_beta     89.5305\n_cell_angle_gamma    88.9218\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8477  0.0661  0.3890  1.0000\n  Li  Li2       1.0000  0.1512  0.4357  0.1110  1.0000\n  Li  Li3       1.0000  0.6532  0.1826  0.8610  1.0000\n  Li  Li4       1.0000  0.3490  0.3163  0.6393  1.0000\n  B   B1        1.0000  0.6523  0.6871  0.3586  1.0000\n  Li  Li5       1.0000  0.3486  0.8132  0.1412  1.0000\n  Li  Li6       1.0000  0.8492  0.5640  0.8912  1.0000\n  Li  Li7       1.0000  0.1498  0.9343  0.6091  1.0000\n  Mn  Mn1       1.0000  0.1684  0.0271  0.7899  1.0000\n  Fe  Fe1       1.0000  0.6627  0.2774  0.0402  1.0000\n  Fe  Fe2       1.0000  0.3377  0.2222  0.4599  1.0000\n  Fe  Fe3       1.0000  0.1640  0.5228  0.2927  1.0000\n  Fe  Fe4       1.0000  0.8211  0.4747  0.7103  1.0000\n  Fe  Fe5       1.0000  0.6735  0.7754  0.5389  1.0000\n  Fe  Fe6       1.0000  0.8370  0.9768  0.2074  1.0000\n  Fe  Fe7       1.0000  0.3243  0.7224  0.9615  1.0000\n  B   B2        1.0000  0.3289  0.0388  0.2969  1.0000\n  B   B3        1.0000  0.8301  0.2875  0.5463  1.0000\n  B   B4        1.0000  0.6709  0.4617  0.2030  1.0000\n  B   B5        1.0000  0.1728  0.2125  0.9544  1.0000\n  Li  Li8       1.0000  0.8275  0.7869  0.0466  1.0000\n  B   B6        1.0000  0.3296  0.5350  0.7967  1.0000\n  B   B7        1.0000  0.1735  0.7128  0.4535  1.0000\n  B   B8        1.0000  0.6685  0.9649  0.7019  1.0000\n  O   O1        1.0000  0.5899  0.0130  0.3082  1.0000\n  O   O2        1.0000  0.1834  0.1689  0.3456  1.0000\n  O   O3        1.0000  0.7059  0.1745  0.4888  1.0000\n  O   O4        1.0000  0.2941  0.3275  0.0115  1.0000\n  O   O5        1.0000  0.7863  0.0807  0.7595  1.0000\n  O   O6        1.0000  0.8164  0.3309  0.1544  1.0000\n  O   O7        1.0000  0.3199  0.0805  0.9072  1.0000\n  O   O8        1.0000  0.0901  0.2621  0.5571  1.0000\n  O   O9        1.0000  0.4101  0.4873  0.1917  1.0000\n  O   O10       1.0000  0.9126  0.2366  0.9425  1.0000\n  O   O11       1.0000  0.6871  0.4202  0.5946  1.0000\n  O   O12       1.0000  0.2056  0.4219  0.7400  1.0000\n  O   O13       1.0000  0.7952  0.5749  0.2600  1.0000\n  O   O14       1.0000  0.3159  0.5811  0.4046  1.0000\n  O   O15       1.0000  0.0894  0.7647  0.0583  1.0000\n  O   O16       1.0000  0.5899  0.5128  0.8086  1.0000\n  O   O17       1.0000  0.9124  0.7367  0.4423  1.0000\n  O   O18       1.0000  0.6845  0.9188  0.0951  1.0000\n  O   O19       1.0000  0.1866  0.6670  0.8459  1.0000\n  O   O20       1.0000  0.2047  0.9256  0.2396  1.0000\n  O   O21       1.0000  0.7066  0.6721  0.9901  1.0000\n  O   O22       1.0000  0.2959  0.8259  0.5103  1.0000\n  O   O23       1.0000  0.8166  0.8303  0.6552  1.0000\n  O   O24       1.0000  0.4090  0.9877  0.6883  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "97c48867-3fe8-42fb-99d8-fd2f4d659849",
    "mp_id": "mp-850784",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 5 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Mn3(BO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.2257\n_cell_length_b   5.8668\n_cell_length_c   13.4365\n_cell_angle_alpha   96.5810\n_cell_angle_beta   91.2899\n_cell_angle_gamma   112.3858\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Mn3(BO3)3\n_chemical_formula_sum   'Li4 Mn6 B6 O18'\n_cell_volume   377.4021\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8148  0.4692  0.1278  1\n  Li  Li1  1  0.4750  0.7766  0.4609  1\n  Li  Li2  1  0.5250  0.2234  0.5391  1\n  Li  Li3  1  0.1852  0.5308  0.8722  1\n  Mn  Mn4  1  0.3641  0.5103  0.2561  1\n  Mn  Mn5  1  0.0127  0.8372  0.5912  1\n  Mn  Mn6  1  0.6766  0.1553  0.9170  1\n  Mn  Mn7  1  0.3234  0.8447  0.0830  1\n  Mn  Mn8  1  0.9873  0.1628  0.4088  1\n  Mn  Mn9  1  0.6359  0.4897  0.7439  1\n  B  B10  1  0.2437  0.2913  0.0342  1\n  B  B11  1  0.9079  0.6174  0.3615  1\n  B  B12  1  0.5743  0.9521  0.6905  1\n  B  B13  1  0.4257  0.0479  0.3095  1\n  B  B14  1  0.0921  0.3826  0.6385  1\n  B  B15  1  0.7563  0.7087  0.9658  1\n  O  O16  1  0.4695  0.2201  0.0489  1\n  O  O17  1  0.1365  0.5519  0.3791  1\n  O  O18  1  0.7585  0.5392  0.2706  1\n  O  O19  1  0.4368  0.8993  0.5971  1\n  O  O20  1  0.1872  0.4382  0.1146  1\n  O  O21  1  0.8449  0.7648  0.4382  1\n  O  O22  1  0.5600  0.1364  0.7629  1\n  O  O23  1  0.7551  0.8356  0.7127  1\n  O  O24  1  0.9031  0.7615  0.0557  1\n  O  O25  1  0.0969  0.2385  0.9443  1\n  O  O26  1  0.2449  0.1644  0.2873  1\n  O  O27  1  0.4400  0.8636  0.2371  1\n  O  O28  1  0.1551  0.2352  0.5618  1\n  O  O29  1  0.8128  0.5618  0.8854  1\n  O  O30  1  0.5632  0.1007  0.4029  1\n  O  O31  1  0.2415  0.4608  0.7294  1\n  O  O32  1  0.8635  0.4481  0.6209  1\n  O  O33  1  0.5305  0.7799  0.9511  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li4MnBMn4B2MnB3O18\n_chemical_formula_sum              \"Li4 Mn6 B6 O18\"\n_cell_length_a       5.2257\n_cell_length_b       5.8668\n_cell_length_c       13.4365\n_cell_angle_alpha    96.5810\n_cell_angle_beta     91.2899\n_cell_angle_gamma    112.3858\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8148  0.4692  0.1278  1.0000\n  Li  Li2       1.0000  0.4750  0.7766  0.4609  1.0000\n  Li  Li3       1.0000  0.5250  0.2234  0.5391  1.0000\n  Li  Li4       1.0000  0.1852  0.5308  0.8722  1.0000\n  Mn  Mn1       1.0000  0.3641  0.5103  0.2561  1.0000\n  B   B1        1.0000  0.0127  0.8372  0.5912  1.0000\n  Mn  Mn2       1.0000  0.6766  0.1553  0.9170  1.0000\n  Mn  Mn3       1.0000  0.3234  0.8447  0.0830  1.0000\n  Mn  Mn4       1.0000  0.9873  0.1628  0.4088  1.0000\n  Mn  Mn5       1.0000  0.6359  0.4897  0.7439  1.0000\n  B   B2        1.0000  0.2437  0.2913  0.0342  1.0000\n  B   B3        1.0000  0.9079  0.6174  0.3615  1.0000\n  Mn  Mn6       1.0000  0.5743  0.9521  0.6905  1.0000\n  B   B4        1.0000  0.4257  0.0479  0.3095  1.0000\n  B   B5        1.0000  0.0921  0.3826  0.6385  1.0000\n  B   B6        1.0000  0.7563  0.7087  0.9658  1.0000\n  O   O1        1.0000  0.4695  0.2201  0.0489  1.0000\n  O   O2        1.0000  0.1365  0.5519  0.3791  1.0000\n  O   O3        1.0000  0.7585  0.5392  0.2706  1.0000\n  O   O4        1.0000  0.4368  0.8993  0.5971  1.0000\n  O   O5        1.0000  0.1872  0.4382  0.1146  1.0000\n  O   O6        1.0000  0.8449  0.7648  0.4382  1.0000\n  O   O7        1.0000  0.5600  0.1364  0.7629  1.0000\n  O   O8        1.0000  0.7551  0.8356  0.7127  1.0000\n  O   O9        1.0000  0.9031  0.7615  0.0557  1.0000\n  O   O10       1.0000  0.0969  0.2385  0.9443  1.0000\n  O   O11       1.0000  0.2449  0.1644  0.2873  1.0000\n  O   O12       1.0000  0.4400  0.8636  0.2371  1.0000\n  O   O13       1.0000  0.1551  0.2352  0.5618  1.0000\n  O   O14       1.0000  0.8128  0.5618  0.8854  1.0000\n  O   O15       1.0000  0.5632  0.1007  0.4029  1.0000\n  O   O16       1.0000  0.2415  0.4608  0.7294  1.0000\n  O   O17       1.0000  0.8635  0.4481  0.6209  1.0000\n  O   O18       1.0000  0.5305  0.7799  0.9511  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a6e3d2d1-3b57-4a26-8e1e-7dd8ddb1f16a",
    "mp_id": "mp-850942",
    "action_prompt": "Swap the spatial positions of atoms at indices 6 and 19 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Mn12O7F17\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8426\n_cell_length_b   5.8224\n_cell_length_c   15.8211\n_cell_angle_alpha   88.8196\n_cell_angle_beta   89.2343\n_cell_angle_gamma   84.7996\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Mn12O7F17\n_chemical_formula_sum   'Mn12 O7 F17'\n_cell_volume   444.1245\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Mn  Mn0  1  0.0030  0.8231  0.4168  1\n  Mn  Mn1  1  0.9679  0.1665  0.2452  1\n  Mn  Mn2  1  0.0042  0.8464  0.0843  1\n  Mn  Mn3  1  0.9949  0.8489  0.7467  1\n  Mn  Mn4  1  0.9918  0.1830  0.5832  1\n  Mn  Mn5  1  0.9900  0.1707  0.9047  1\n  Mn  Mn6  1  0.4898  0.6488  0.5955  1\n  Mn  Mn7  1  0.4915  0.6727  0.9269  1\n  Mn  Mn8  1  0.5053  0.6479  0.2570  1\n  Mn  Mn9  1  0.4929  0.3365  0.0842  1\n  Mn  Mn10  1  0.4911  0.3493  0.4070  1\n  Mn  Mn11  1  0.5132  0.3485  0.7470  1\n  O  O12  1  0.7777  0.1129  0.1338  1\n  O  O13  1  0.7762  0.1113  0.7959  1\n  O  O14  1  0.7177  0.3929  0.3089  1\n  O  O15  1  0.7073  0.3953  0.6427  1\n  O  O16  1  0.2750  0.6091  0.0366  1\n  O  O17  1  0.2865  0.6095  0.3573  1\n  O  O18  1  0.2664  0.6096  0.6966  1\n  F  F19  1  0.7633  0.8903  0.3072  1\n  F  F20  1  0.7769  0.8902  0.6378  1\n  F  F21  1  0.7866  0.8866  0.9744  1\n  F  F22  1  0.7570  0.1216  0.4684  1\n  F  F23  1  0.7350  0.6184  0.1500  1\n  F  F24  1  0.7232  0.6204  0.4880  1\n  F  F25  1  0.7504  0.6184  0.8159  1\n  F  F26  1  0.7314  0.3820  0.9805  1\n  F  F27  1  0.2731  0.3720  0.1905  1\n  F  F28  1  0.2670  0.3837  0.5144  1\n  F  F29  1  0.3008  0.3792  0.8566  1\n  F  F30  1  0.2350  0.8749  0.1962  1\n  F  F31  1  0.2379  0.8810  0.5317  1\n  F  F32  1  0.2137  0.1096  0.3562  1\n  F  F33  1  0.2409  0.1045  0.0187  1\n  F  F34  1  0.2281  0.8813  0.8529  1\n  F  F35  1  0.2374  0.1030  0.6904  1\n",
    "output": "data_image0\n_chemical_formula_structural       Mn6FMn5O7MnF16\n_chemical_formula_sum              \"Mn12 F17 O7\"\n_cell_length_a       4.8426\n_cell_length_b       5.8224\n_cell_length_c       15.8211\n_cell_angle_alpha    88.8196\n_cell_angle_beta     89.2343\n_cell_angle_gamma    84.7996\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Mn  Mn1       1.0000  0.0030  0.8231  0.4168  1.0000\n  Mn  Mn2       1.0000  0.9679  0.1665  0.2452  1.0000\n  Mn  Mn3       1.0000  0.0042  0.8464  0.0843  1.0000\n  Mn  Mn4       1.0000  0.9949  0.8489  0.7467  1.0000\n  Mn  Mn5       1.0000  0.9918  0.1830  0.5832  1.0000\n  Mn  Mn6       1.0000  0.9900  0.1707  0.9047  1.0000\n  F   F1        1.0000  0.4898  0.6488  0.5955  1.0000\n  Mn  Mn7       1.0000  0.4915  0.6727  0.9269  1.0000\n  Mn  Mn8       1.0000  0.5053  0.6479  0.2570  1.0000\n  Mn  Mn9       1.0000  0.4929  0.3365  0.0842  1.0000\n  Mn  Mn10      1.0000  0.4911  0.3493  0.4070  1.0000\n  Mn  Mn11      1.0000  0.5132  0.3485  0.7470  1.0000\n  O   O1        1.0000  0.7777  0.1129  0.1338  1.0000\n  O   O2        1.0000  0.7762  0.1113  0.7959  1.0000\n  O   O3        1.0000  0.7177  0.3929  0.3089  1.0000\n  O   O4        1.0000  0.7073  0.3953  0.6427  1.0000\n  O   O5        1.0000  0.2750  0.6091  0.0366  1.0000\n  O   O6        1.0000  0.2865  0.6095  0.3573  1.0000\n  O   O7        1.0000  0.2664  0.6096  0.6966  1.0000\n  Mn  Mn12      1.0000  0.7633  0.8903  0.3072  1.0000\n  F   F2        1.0000  0.7769  0.8902  0.6378  1.0000\n  F   F3        1.0000  0.7866  0.8866  0.9744  1.0000\n  F   F4        1.0000  0.7570  0.1216  0.4684  1.0000\n  F   F5        1.0000  0.7350  0.6184  0.1500  1.0000\n  F   F6        1.0000  0.7232  0.6204  0.4880  1.0000\n  F   F7        1.0000  0.7504  0.6184  0.8159  1.0000\n  F   F8        1.0000  0.7314  0.3820  0.9805  1.0000\n  F   F9        1.0000  0.2731  0.3720  0.1905  1.0000\n  F   F10       1.0000  0.2670  0.3837  0.5144  1.0000\n  F   F11       1.0000  0.3008  0.3792  0.8566  1.0000\n  F   F12       1.0000  0.2350  0.8749  0.1962  1.0000\n  F   F13       1.0000  0.2379  0.8810  0.5317  1.0000\n  F   F14       1.0000  0.2137  0.1096  0.3562  1.0000\n  F   F15       1.0000  0.2410  0.1045  0.0187  1.0000\n  F   F16       1.0000  0.2281  0.8813  0.8529  1.0000\n  F   F17       1.0000  0.2374  0.1030  0.6904  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c7cff07a-fc95-489e-9547-e064a026668b",
    "mp_id": "mp-861324",
    "action_prompt": "Swap the spatial positions of atoms at indices 34 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_GaFeO3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1643\n_cell_length_b   8.8532\n_cell_length_c   9.5280\n_cell_angle_alpha   89.9099\n_cell_angle_beta   89.9072\n_cell_angle_gamma   89.9150\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   GaFeO3\n_chemical_formula_sum   'Ga8 Fe8 O24'\n_cell_volume   435.6251\n_cell_formula_units_Z   8\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ga  Ga0  1  0.2030  0.3234  0.0341  1\n  Ga  Ga1  1  0.0010  0.8250  0.1535  1\n  Ga  Ga2  1  0.6938  0.1856  0.1610  1\n  Ga  Ga3  1  0.6940  0.6849  0.3384  1\n  Ga  Ga4  1  0.0011  0.3237  0.3465  1\n  Ga  Ga5  1  0.5008  0.6747  0.6518  1\n  Ga  Ga6  1  0.1937  0.3131  0.6606  1\n  Ga  Ga7  1  0.4997  0.1764  0.8471  1\n  Fe  Fe8  1  0.4171  0.8122  0.1517  1\n  Fe  Fe9  1  0.4168  0.3096  0.3465  1\n  Fe  Fe10  1  0.2030  0.8240  0.4689  1\n  Fe  Fe11  1  0.7022  0.1753  0.5310  1\n  Fe  Fe12  1  0.9178  0.6904  0.6514  1\n  Fe  Fe13  1  0.1926  0.8124  0.8396  1\n  Fe  Fe14  1  0.9171  0.1910  0.8485  1\n  Fe  Fe15  1  0.7015  0.6750  0.9695  1\n  O  O16  1  0.2970  0.6481  0.0017  1\n  O  O17  1  0.5677  0.9859  0.0107  1\n  O  O18  1  0.8032  0.8463  0.1606  1\n  O  O19  1  0.3270  0.1536  0.1691  1\n  O  O20  1  0.0614  0.4859  0.1686  1\n  O  O21  1  0.5776  0.5253  0.1765  1\n  O  O22  1  0.5761  0.0246  0.3211  1\n  O  O23  1  0.0603  0.9852  0.3316  1\n  O  O24  1  0.3287  0.6534  0.3294  1\n  O  O25  1  0.8035  0.3457  0.3392  1\n  O  O26  1  0.5686  0.4854  0.4877  1\n  O  O27  1  0.2989  0.1544  0.5023  1\n  O  O28  1  0.7971  0.8437  0.4978  1\n  O  O29  1  0.0686  0.5134  0.5110  1\n  O  O30  1  0.3036  0.6523  0.6587  1\n  O  O31  1  0.8280  0.3470  0.6700  1\n  O  O32  1  0.5599  0.0142  0.6693  1\n  O  O33  1  0.0745  0.9793  0.6743  1\n  O  O34  1  0.0759  0.4745  0.8222  1\n  O  O35  1  0.5601  0.5150  0.8303  1\n  O  O36  1  0.8301  0.8455  0.8316  1\n  O  O37  1  0.3023  0.1568  0.8416  1\n  O  O38  1  0.0691  0.0236  0.9924  1\n  O  O39  1  0.7973  0.3443  0.0022  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ga8Fe6OFeO18FeO5\n_chemical_formula_sum              \"Ga8 Fe8 O24\"\n_cell_length_a       5.1643\n_cell_length_b       8.8532\n_cell_length_c       9.5280\n_cell_angle_alpha    89.9099\n_cell_angle_beta     89.9072\n_cell_angle_gamma    89.9150\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ga  Ga1       1.0000  0.2030  0.3234  0.0341  1.0000\n  Ga  Ga2       1.0000  0.0010  0.8250  0.1535  1.0000\n  Ga  Ga3       1.0000  0.6938  0.1856  0.1610  1.0000\n  Ga  Ga4       1.0000  0.6940  0.6849  0.3384  1.0000\n  Ga  Ga5       1.0000  0.0011  0.3237  0.3465  1.0000\n  Ga  Ga6       1.0000  0.5008  0.6747  0.6518  1.0000\n  Ga  Ga7       1.0000  0.1937  0.3131  0.6606  1.0000\n  Ga  Ga8       1.0000  0.4997  0.1764  0.8471  1.0000\n  Fe  Fe1       1.0000  0.4171  0.8122  0.1517  1.0000\n  Fe  Fe2       1.0000  0.4168  0.3096  0.3465  1.0000\n  Fe  Fe3       1.0000  0.2030  0.8240  0.4689  1.0000\n  Fe  Fe4       1.0000  0.7022  0.1753  0.5310  1.0000\n  Fe  Fe5       1.0000  0.9178  0.6904  0.6514  1.0000\n  Fe  Fe6       1.0000  0.1926  0.8124  0.8396  1.0000\n  O   O1        1.0000  0.9171  0.1910  0.8485  1.0000\n  Fe  Fe7       1.0000  0.7015  0.6750  0.9695  1.0000\n  O   O2        1.0000  0.2970  0.6481  0.0017  1.0000\n  O   O3        1.0000  0.5677  0.9859  0.0107  1.0000\n  O   O4        1.0000  0.8032  0.8463  0.1606  1.0000\n  O   O5        1.0000  0.3270  0.1536  0.1691  1.0000\n  O   O6        1.0000  0.0614  0.4859  0.1686  1.0000\n  O   O7        1.0000  0.5776  0.5253  0.1765  1.0000\n  O   O8        1.0000  0.5761  0.0246  0.3211  1.0000\n  O   O9        1.0000  0.0603  0.9852  0.3316  1.0000\n  O   O10       1.0000  0.3287  0.6534  0.3294  1.0000\n  O   O11       1.0000  0.8035  0.3457  0.3392  1.0000\n  O   O12       1.0000  0.5686  0.4854  0.4877  1.0000\n  O   O13       1.0000  0.2989  0.1544  0.5023  1.0000\n  O   O14       1.0000  0.7971  0.8437  0.4978  1.0000\n  O   O15       1.0000  0.0686  0.5134  0.5110  1.0000\n  O   O16       1.0000  0.3036  0.6523  0.6587  1.0000\n  O   O17       1.0000  0.8280  0.3470  0.6700  1.0000\n  O   O18       1.0000  0.5599  0.0142  0.6693  1.0000\n  O   O19       1.0000  0.0745  0.9793  0.6743  1.0000\n  Fe  Fe8       1.0000  0.0759  0.4745  0.8222  1.0000\n  O   O20       1.0000  0.5601  0.5150  0.8303  1.0000\n  O   O21       1.0000  0.8301  0.8455  0.8316  1.0000\n  O   O22       1.0000  0.3023  0.1568  0.8416  1.0000\n  O   O23       1.0000  0.0691  0.0236  0.9924  1.0000\n  O   O24       1.0000  0.7973  0.3443  0.0022  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "91f1a2e5-78c1-47a0-a0fb-c78a0dfb2abf",
    "mp_id": "mp-861689",
    "action_prompt": "Swap the spatial positions of atoms at indices 22 and 13 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li15Cr15SiO32\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.0823\n_cell_length_b   8.0858\n_cell_length_c   8.8739\n_cell_angle_alpha   90.1066\n_cell_angle_beta   90.0092\n_cell_angle_gamma   90.0116\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li15Cr15SiO32\n_chemical_formula_sum   'Li15 Cr15 Si1 O32'\n_cell_volume   579.9196\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.8751  0.8746  0.7701  1\n  Li  Li1  1  0.8752  0.6218  0.5100  1\n  Li  Li2  1  0.8758  0.1285  0.5158  1\n  Li  Li3  1  0.6249  0.6230  0.2513  1\n  Li  Li4  1  0.6228  0.1250  0.2562  1\n  Li  Li5  1  0.6239  0.3775  0.9836  1\n  Li  Li6  1  0.6257  0.8731  0.0001  1\n  Li  Li7  1  0.3731  0.1250  0.5034  1\n  Li  Li8  1  0.3740  0.6247  0.5020  1\n  Li  Li9  1  0.3748  0.8738  0.7497  1\n  Li  Li10  1  0.3749  0.3766  0.7450  1\n  Li  Li11  1  0.1230  0.8745  0.9961  1\n  Li  Li12  1  0.1244  0.3763  0.9867  1\n  Li  Li13  1  0.1256  0.1252  0.2332  1\n  Li  Li14  1  0.1240  0.6232  0.2490  1\n  Cr  Cr15  1  0.8746  0.8741  0.2454  1\n  Cr  Cr16  1  0.8744  0.6222  0.9958  1\n  Cr  Cr17  1  0.8743  0.3735  0.2473  1\n  Cr  Cr18  1  0.6281  0.6220  0.7493  1\n  Cr  Cr19  1  0.6262  0.8748  0.5012  1\n  Cr  Cr20  1  0.6280  0.1281  0.7525  1\n  Cr  Cr21  1  0.6264  0.3747  0.5020  1\n  Cr  Cr22  1  0.3745  0.6247  0.9986  1\n  Cr  Cr23  1  0.3743  0.8744  0.2507  1\n  Cr  Cr24  1  0.3763  0.1252  0.0014  1\n  Cr  Cr25  1  0.3747  0.3749  0.2505  1\n  Cr  Cr26  1  0.1230  0.8757  0.5015  1\n  Cr  Cr27  1  0.1213  0.6216  0.7494  1\n  Cr  Cr28  1  0.1230  0.3738  0.5017  1\n  Cr  Cr29  1  0.1221  0.1285  0.7547  1\n  Si  Si30  1  0.8719  0.1345  0.9981  1\n  O  O31  1  0.8748  0.3707  0.4711  1\n  O  O32  1  0.8752  0.1194  0.7999  1\n  O  O33  1  0.8725  0.1232  0.1991  1\n  O  O34  1  0.8737  0.3582  0.0191  1\n  O  O35  1  0.8742  0.8841  0.0167  1\n  O  O36  1  0.8746  0.6233  0.2233  1\n  O  O37  1  0.8747  0.6345  0.7724  1\n  O  O38  1  0.8746  0.8797  0.4728  1\n  O  O39  1  0.6250  0.3729  0.2731  1\n  O  O40  1  0.6406  0.1261  0.9822  1\n  O  O41  1  0.6277  0.1248  0.5247  1\n  O  O42  1  0.6142  0.3744  0.7287  1\n  O  O43  1  0.6265  0.8764  0.7290  1\n  O  O44  1  0.6268  0.6249  0.5214  1\n  O  O45  1  0.6255  0.6238  0.9781  1\n  O  O46  1  0.6250  0.8753  0.2714  1\n  O  O47  1  0.3753  0.1228  0.7762  1\n  O  O48  1  0.3746  0.3739  0.4777  1\n  O  O49  1  0.3752  0.3734  0.0213  1\n  O  O50  1  0.3757  0.1245  0.2277  1\n  O  O51  1  0.3743  0.6248  0.2274  1\n  O  O52  1  0.3750  0.8763  0.0218  1\n  O  O53  1  0.3745  0.8758  0.4788  1\n  O  O54  1  0.3747  0.6275  0.7718  1\n  O  O55  1  0.1092  0.1263  0.9858  1\n  O  O56  1  0.1240  0.3715  0.2719  1\n  O  O57  1  0.1356  0.3744  0.7288  1\n  O  O58  1  0.1217  0.1248  0.5285  1\n  O  O59  1  0.1226  0.6249  0.5212  1\n  O  O60  1  0.1235  0.8762  0.7304  1\n  O  O61  1  0.1240  0.8770  0.2712  1\n  O  O62  1  0.1235  0.6233  0.9785  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li13CrLiCr7LiCr7SiO32\n_chemical_formula_sum              \"Li15 Cr15 Si1 O32\"\n_cell_length_a       8.0823\n_cell_length_b       8.0858\n_cell_length_c       8.8739\n_cell_angle_alpha    90.1066\n_cell_angle_beta     90.0092\n_cell_angle_gamma    90.0116\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.8751  0.8746  0.7701  1.0000\n  Li  Li2       1.0000  0.8752  0.6218  0.5100  1.0000\n  Li  Li3       1.0000  0.8758  0.1285  0.5158  1.0000\n  Li  Li4       1.0000  0.6249  0.6230  0.2513  1.0000\n  Li  Li5       1.0000  0.6228  0.1250  0.2562  1.0000\n  Li  Li6       1.0000  0.6239  0.3775  0.9836  1.0000\n  Li  Li7       1.0000  0.6257  0.8731  5e-05  1.0000\n  Li  Li8       1.0000  0.3731  0.1250  0.5034  1.0000\n  Li  Li9       1.0000  0.3740  0.6247  0.5020  1.0000\n  Li  Li10      1.0000  0.3748  0.8738  0.7497  1.0000\n  Li  Li11      1.0000  0.3749  0.3766  0.7450  1.0000\n  Li  Li12      1.0000  0.1230  0.8745  0.9961  1.0000\n  Li  Li13      1.0000  0.1244  0.3763  0.9867  1.0000\n  Cr  Cr1       1.0000  0.1256  0.1252  0.2332  1.0000\n  Li  Li14      1.0000  0.1240  0.6232  0.2490  1.0000\n  Cr  Cr2       1.0000  0.8746  0.8741  0.2454  1.0000\n  Cr  Cr3       1.0000  0.8744  0.6222  0.9958  1.0000\n  Cr  Cr4       1.0000  0.8743  0.3735  0.2473  1.0000\n  Cr  Cr5       1.0000  0.6281  0.6220  0.7493  1.0000\n  Cr  Cr6       1.0000  0.6262  0.8748  0.5012  1.0000\n  Cr  Cr7       1.0000  0.6280  0.1281  0.7525  1.0000\n  Cr  Cr8       1.0000  0.6264  0.3747  0.5020  1.0000\n  Li  Li15      1.0000  0.3745  0.6247  0.9986  1.0000\n  Cr  Cr9       1.0000  0.3743  0.8744  0.2507  1.0000\n  Cr  Cr10      1.0000  0.3763  0.1252  0.0014  1.0000\n  Cr  Cr11      1.0000  0.3747  0.3749  0.2505  1.0000\n  Cr  Cr12      1.0000  0.1230  0.8757  0.5015  1.0000\n  Cr  Cr13      1.0000  0.1213  0.6216  0.7494  1.0000\n  Cr  Cr14      1.0000  0.1230  0.3738  0.5017  1.0000\n  Cr  Cr15      1.0000  0.1221  0.1285  0.7547  1.0000\n  Si  Si1       1.0000  0.8719  0.1345  0.9981  1.0000\n  O   O1        1.0000  0.8748  0.3707  0.4711  1.0000\n  O   O2        1.0000  0.8752  0.1194  0.7999  1.0000\n  O   O3        1.0000  0.8725  0.1232  0.1991  1.0000\n  O   O4        1.0000  0.8737  0.3582  0.0191  1.0000\n  O   O5        1.0000  0.8742  0.8841  0.0167  1.0000\n  O   O6        1.0000  0.8746  0.6233  0.2233  1.0000\n  O   O7        1.0000  0.8747  0.6345  0.7724  1.0000\n  O   O8        1.0000  0.8746  0.8797  0.4728  1.0000\n  O   O9        1.0000  0.6250  0.3729  0.2731  1.0000\n  O   O10       1.0000  0.6406  0.1261  0.9822  1.0000\n  O   O11       1.0000  0.6277  0.1248  0.5247  1.0000\n  O   O12       1.0000  0.6142  0.3744  0.7287  1.0000\n  O   O13       1.0000  0.6265  0.8764  0.7291  1.0000\n  O   O14       1.0000  0.6268  0.6249  0.5214  1.0000\n  O   O15       1.0000  0.6255  0.6238  0.9781  1.0000\n  O   O16       1.0000  0.6250  0.8753  0.2714  1.0000\n  O   O17       1.0000  0.3753  0.1228  0.7762  1.0000\n  O   O18       1.0000  0.3746  0.3739  0.4777  1.0000\n  O   O19       1.0000  0.3752  0.3734  0.0213  1.0000\n  O   O20       1.0000  0.3757  0.1245  0.2277  1.0000\n  O   O21       1.0000  0.3743  0.6248  0.2274  1.0000\n  O   O22       1.0000  0.3750  0.8763  0.0218  1.0000\n  O   O23       1.0000  0.3745  0.8758  0.4788  1.0000\n  O   O24       1.0000  0.3747  0.6275  0.7718  1.0000\n  O   O25       1.0000  0.1092  0.1263  0.9858  1.0000\n  O   O26       1.0000  0.1240  0.3715  0.2719  1.0000\n  O   O27       1.0000  0.1356  0.3744  0.7288  1.0000\n  O   O28       1.0000  0.1217  0.1248  0.5285  1.0000\n  O   O29       1.0000  0.1226  0.6249  0.5212  1.0000\n  O   O30       1.0000  0.1235  0.8762  0.7304  1.0000\n  O   O31       1.0000  0.1240  0.8770  0.2712  1.0000\n  O   O32       1.0000  0.1235  0.6233  0.9785  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c5a6edb3-cf9b-4b89-9ddf-0254303343fa",
    "mp_id": "mp-863022",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_RbTaGeS5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.0402\n_cell_length_b   7.2096\n_cell_length_c   9.1407\n_cell_angle_alpha   69.4883\n_cell_angle_beta   78.5635\n_cell_angle_gamma   74.8214\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   RbTaGeS5\n_chemical_formula_sum   'Rb2 Ta2 Ge2 S10'\n_cell_volume   416.4575\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Rb  Rb0  1  0.5895  0.3625  0.3107  1\n  Rb  Rb1  1  0.4105  0.6375  0.6893  1\n  Ta  Ta2  1  0.2393  0.0306  0.0058  1\n  Ta  Ta3  1  0.7607  0.9694  0.9942  1\n  Ge  Ge4  1  0.9808  0.7031  0.3753  1\n  Ge  Ge5  1  0.0192  0.2969  0.6247  1\n  S  S6  1  0.0696  0.7570  -0.0005  1\n  S  S7  1  0.4353  0.2279  0.0311  1\n  S  S8  1  0.6961  0.8739  0.2903  1\n  S  S9  1  0.2265  0.8620  0.2955  1\n  S  S10  1  0.0656  0.3861  0.3592  1\n  S  S11  1  0.9344  0.6139  0.6408  1\n  S  S12  1  0.7735  0.1380  0.7045  1\n  S  S13  1  0.3039  0.1261  0.7097  1\n  S  S14  1  0.5647  0.7721  0.9689  1\n  S  S15  1  0.9304  0.2430  0.0005  1\n",
    "output": "data_image0\n_chemical_formula_structural       SRbTa2Ge2S4RbS5\n_chemical_formula_sum              \"S10 Rb2 Ta2 Ge2\"\n_cell_length_a       7.0402\n_cell_length_b       7.2096\n_cell_length_c       9.1407\n_cell_angle_alpha    69.4883\n_cell_angle_beta     78.5635\n_cell_angle_gamma    74.8214\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  S   S1        1.0000  0.5895  0.3625  0.3107  1.0000\n  Rb  Rb1       1.0000  0.4105  0.6375  0.6893  1.0000\n  Ta  Ta1       1.0000  0.2393  0.0306  0.0058  1.0000\n  Ta  Ta2       1.0000  0.7607  0.9694  0.9942  1.0000\n  Ge  Ge1       1.0000  0.9808  0.7031  0.3753  1.0000\n  Ge  Ge2       1.0000  0.0192  0.2969  0.6247  1.0000\n  S   S2        1.0000  0.0696  0.7570  0.9995  1.0000\n  S   S3        1.0000  0.4353  0.2279  0.0311  1.0000\n  S   S4        1.0000  0.6961  0.8739  0.2903  1.0000\n  S   S5        1.0000  0.2265  0.8620  0.2955  1.0000\n  Rb  Rb2       1.0000  0.0656  0.3861  0.3592  1.0000\n  S   S6        1.0000  0.9344  0.6139  0.6408  1.0000\n  S   S7        1.0000  0.7735  0.1380  0.7045  1.0000\n  S   S8        1.0000  0.3039  0.1261  0.7097  1.0000\n  S   S9        1.0000  0.5647  0.7721  0.9689  1.0000\n  S   S10       1.0000  0.9304  0.2430  0.0005  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "a3515d52-1aae-4f91-8919-ef6a521a0a11",
    "mp_id": "mp-863365",
    "action_prompt": "Swap the spatial positions of atoms at indices 31 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Sn(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.1652\n_cell_length_b   9.1652\n_cell_length_c   7.3914\n_cell_angle_alpha   89.0946\n_cell_angle_beta   89.0946\n_cell_angle_gamma   119.3988\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Sn(PO3)4\n_chemical_formula_sum   'Li4 Sn2 P8 O24'\n_cell_volume   540.6699\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.4863  0.7986  0.8178  1\n  Li  Li1  1  0.7986  0.4863  0.3178  1\n  Li  Li2  1  0.2014  0.5137  0.6822  1\n  Li  Li3  1  0.5137  0.2014  0.1822  1\n  Sn  Sn4  1  0.8691  0.1309  0.7500  1\n  Sn  Sn5  1  0.1309  0.8691  0.2500  1\n  P  P6  1  0.9263  0.7732  0.6776  1\n  P  P7  1  0.7732  0.9263  0.1776  1\n  P  P8  1  0.7821  0.4545  0.8838  1\n  P  P9  1  0.4545  0.7821  0.3838  1\n  P  P10  1  0.5455  0.2179  0.6162  1\n  P  P11  1  0.2179  0.5455  0.1162  1\n  P  P12  1  0.2268  0.0737  0.8224  1\n  P  P13  1  0.0737  0.2268  0.3224  1\n  O  O14  1  0.8416  0.8777  0.6593  1\n  O  O15  1  0.8777  0.8416  0.1593  1\n  O  O16  1  0.9342  0.6794  0.5148  1\n  O  O17  1  0.6794  0.9342  0.0148  1\n  O  O18  1  0.8389  0.6492  0.8497  1\n  O  O19  1  0.6492  0.8389  0.3497  1\n  O  O20  1  0.9197  0.4200  0.8215  1\n  O  O21  1  0.4200  0.9197  0.3215  1\n  O  O22  1  0.4089  0.7106  0.5737  1\n  O  O23  1  0.1162  0.8838  0.7500  1\n  O  O24  1  0.6260  0.3740  0.7500  1\n  O  O25  1  0.7106  0.4089  0.0737  1\n  O  O26  1  0.2894  0.5911  0.9263  1\n  O  O27  1  0.3740  0.6260  0.2500  1\n  O  O28  1  0.8838  0.1162  0.2500  1\n  O  O29  1  0.5911  0.2894  0.4263  1\n  O  O30  1  0.5800  0.0803  0.6785  1\n  O  O31  1  0.0803  0.5800  0.1785  1\n  O  O32  1  0.3508  0.1611  0.6503  1\n  O  O33  1  0.1611  0.3508  0.1504  1\n  O  O34  1  0.3206  0.0658  0.9852  1\n  O  O35  1  0.0658  0.3206  0.4852  1\n  O  O36  1  0.1223  0.1584  0.8407  1\n  O  O37  1  0.1584  0.1223  0.3407  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li3OSn2P8O17LiO6\n_chemical_formula_sum              \"Li4 O24 Sn2 P8\"\n_cell_length_a       9.1652\n_cell_length_b       9.1652\n_cell_length_c       7.3914\n_cell_angle_alpha    89.0946\n_cell_angle_beta     89.0946\n_cell_angle_gamma    119.3988\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.4863  0.7986  0.8178  1.0000\n  Li  Li2       1.0000  0.7986  0.4863  0.3178  1.0000\n  Li  Li3       1.0000  0.2014  0.5137  0.6822  1.0000\n  O   O1        1.0000  0.5137  0.2014  0.1822  1.0000\n  Sn  Sn1       1.0000  0.8691  0.1309  0.7500  1.0000\n  Sn  Sn2       1.0000  0.1309  0.8691  0.2500  1.0000\n  P   P1        1.0000  0.9263  0.7732  0.6776  1.0000\n  P   P2        1.0000  0.7732  0.9263  0.1776  1.0000\n  P   P3        1.0000  0.7821  0.4545  0.8838  1.0000\n  P   P4        1.0000  0.4545  0.7821  0.3838  1.0000\n  P   P5        1.0000  0.5455  0.2179  0.6162  1.0000\n  P   P6        1.0000  0.2179  0.5455  0.1162  1.0000\n  P   P7        1.0000  0.2268  0.0737  0.8224  1.0000\n  P   P8        1.0000  0.0737  0.2268  0.3224  1.0000\n  O   O2        1.0000  0.8416  0.8777  0.6593  1.0000\n  O   O3        1.0000  0.8777  0.8416  0.1593  1.0000\n  O   O4        1.0000  0.9342  0.6794  0.5148  1.0000\n  O   O5        1.0000  0.6794  0.9342  0.0148  1.0000\n  O   O6        1.0000  0.8389  0.6492  0.8497  1.0000\n  O   O7        1.0000  0.6492  0.8389  0.3497  1.0000\n  O   O8        1.0000  0.9197  0.4200  0.8215  1.0000\n  O   O9        1.0000  0.4200  0.9197  0.3215  1.0000\n  O   O10       1.0000  0.4089  0.7106  0.5737  1.0000\n  O   O11       1.0000  0.1162  0.8838  0.7500  1.0000\n  O   O12       1.0000  0.6260  0.3740  0.7500  1.0000\n  O   O13       1.0000  0.7106  0.4089  0.0737  1.0000\n  O   O14       1.0000  0.2894  0.5911  0.9263  1.0000\n  O   O15       1.0000  0.3740  0.6260  0.2500  1.0000\n  O   O16       1.0000  0.8838  0.1162  0.2500  1.0000\n  O   O17       1.0000  0.5911  0.2894  0.4263  1.0000\n  O   O18       1.0000  0.5800  0.0803  0.6785  1.0000\n  Li  Li4       1.0000  0.0803  0.5800  0.1785  1.0000\n  O   O19       1.0000  0.3508  0.1611  0.6503  1.0000\n  O   O20       1.0000  0.1611  0.3508  0.1504  1.0000\n  O   O21       1.0000  0.3206  0.0658  0.9852  1.0000\n  O   O22       1.0000  0.0658  0.3206  0.4852  1.0000\n  O   O23       1.0000  0.1223  0.1584  0.8407  1.0000\n  O   O24       1.0000  0.1584  0.1223  0.3407  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "72b06e7d-e8ee-4c44-8f6e-7b456095b9c8",
    "mp_id": "mp-863428",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 47 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li2Fe(SiO3)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   16.0702\n_cell_length_b   12.4013\n_cell_length_c   11.1569\n_cell_angle_alpha   85.8514\n_cell_angle_beta   50.3247\n_cell_angle_gamma   43.8239\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li2Fe(SiO3)2\n_chemical_formula_sum   'Li12 Fe6 Si12 O36'\n_cell_volume   811.7668\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.9885  0.9885  0.5115  1\n  Li  Li1  1  0.6505  0.6505  0.8495  1\n  Li  Li2  1  0.0873  0.4543  0.5434  1\n  Li  Li3  1  0.7951  0.0705  0.9245  1\n  Li  Li4  1  0.3255  0.0400  0.4549  1\n  Li  Li5  1  0.7066  0.3351  0.1627  1\n  Li  Li6  1  0.7385  0.7385  0.2615  1\n  Li  Li7  1  0.4005  0.4005  0.5995  1\n  Li  Li8  1  0.3351  0.7066  0.7957  1\n  Li  Li9  1  0.0400  0.3255  0.1795  1\n  Li  Li10  1  0.0705  0.7951  0.2100  1\n  Li  Li11  1  0.4543  0.0873  0.9150  1\n  Fe  Fe12  1  0.8687  0.8687  0.6313  1\n  Fe  Fe13  1  0.9217  0.2254  0.7449  1\n  Fe  Fe14  1  0.5051  0.1421  0.3283  1\n  Fe  Fe15  1  0.6187  0.6187  0.3813  1\n  Fe  Fe16  1  0.1421  0.5051  0.0246  1\n  Fe  Fe17  1  0.2254  0.9217  0.1079  1\n  Si  Si18  1  0.1638  0.1638  0.3362  1\n  Si  Si19  1  0.4860  0.4860  0.0140  1\n  Si  Si20  1  0.5622  0.9550  0.0536  1\n  Si  Si21  1  0.2858  0.5797  0.4310  1\n  Si  Si22  1  0.8190  0.5465  0.9642  1\n  Si  Si23  1  0.1964  0.8208  0.6878  1\n  Si  Si24  1  0.9137  0.9137  0.0862  1\n  Si  Si25  1  0.2360  0.2360  0.7640  1\n  Si  Si26  1  0.8208  0.1964  0.2950  1\n  Si  Si27  1  0.5465  0.8190  0.6703  1\n  Si  Si28  1  0.5797  0.2858  0.7035  1\n  Si  Si29  1  0.9550  0.5622  0.4292  1\n  O  O30  1  0.4274  0.9834  0.0862  1\n  O  O31  1  0.7480  0.2919  0.7765  1\n  O  O32  1  0.6049  0.0194  0.9238  1\n  O  O33  1  0.0262  0.8298  0.6070  1\n  O  O34  1  0.4671  0.4221  0.1599  1\n  O  O35  1  0.1792  0.0830  0.4516  1\n  O  O36  1  0.8054  0.6785  0.8909  1\n  O  O37  1  0.7628  0.5005  0.9259  1\n  O  O38  1  0.3985  0.1236  0.3045  1\n  O  O39  1  0.9455  0.0766  0.8515  1\n  O  O40  1  0.3241  0.4393  0.4872  1\n  O  O41  1  0.3591  0.6248  0.4446  1\n  O  O42  1  0.7984  0.9639  0.0708  1\n  O  O43  1  0.0901  0.2991  0.7829  1\n  O  O44  1  0.6430  0.7130  0.2238  1\n  O  O45  1  0.3262  0.7981  0.6451  1\n  O  O46  1  0.4735  0.0664  0.5020  1\n  O  O47  1  0.1638  0.7469  0.8226  1\n  O  O48  1  0.7469  0.1638  0.2666  1\n  O  O49  1  0.0664  0.4735  0.9581  1\n  O  O50  1  0.7981  0.3262  0.2306  1\n  O  O51  1  0.7130  0.6430  0.4202  1\n  O  O52  1  0.2991  0.0901  0.8279  1\n  O  O53  1  0.9639  0.7984  0.1670  1\n  O  O54  1  0.6248  0.3591  0.5715  1\n  O  O55  1  0.4393  0.3241  0.7495  1\n  O  O56  1  0.0766  0.9455  0.1264  1\n  O  O57  1  0.1236  0.3985  0.1734  1\n  O  O58  1  0.5005  0.7628  0.8107  1\n  O  O59  1  0.6785  0.8054  0.6252  1\n  O  O60  1  0.0830  0.1792  0.2861  1\n  O  O61  1  0.4221  0.4671  0.9509  1\n  O  O62  1  0.8298  0.0262  0.5370  1\n  O  O63  1  0.0194  0.6049  0.4519  1\n  O  O64  1  0.2919  0.7480  0.1836  1\n  O  O65  1  0.9834  0.4274  0.5031  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li11OFe6Si12O17LiO18\n_chemical_formula_sum              \"Li12 O36 Fe6 Si12\"\n_cell_length_a       16.0702\n_cell_length_b       12.4013\n_cell_length_c       11.1569\n_cell_angle_alpha    85.8514\n_cell_angle_beta     50.3247\n_cell_angle_gamma    43.8239\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.9885  0.9885  0.5115  1.0000\n  Li  Li2       1.0000  0.6505  0.6505  0.8495  1.0000\n  Li  Li3       1.0000  0.0873  0.4543  0.5434  1.0000\n  Li  Li4       1.0000  0.7951  0.0705  0.9245  1.0000\n  Li  Li5       1.0000  0.3255  0.0400  0.4549  1.0000\n  Li  Li6       1.0000  0.7066  0.3350  0.1627  1.0000\n  Li  Li7       1.0000  0.7385  0.7385  0.2615  1.0000\n  Li  Li8       1.0000  0.4005  0.4005  0.5995  1.0000\n  Li  Li9       1.0000  0.3351  0.7066  0.7957  1.0000\n  Li  Li10      1.0000  0.0400  0.3255  0.1795  1.0000\n  Li  Li11      1.0000  0.0705  0.7951  0.2100  1.0000\n  O   O1        1.0000  0.4543  0.0873  0.9150  1.0000\n  Fe  Fe1       1.0000  0.8687  0.8687  0.6313  1.0000\n  Fe  Fe2       1.0000  0.9217  0.2254  0.7449  1.0000\n  Fe  Fe3       1.0000  0.5051  0.1421  0.3283  1.0000\n  Fe  Fe4       1.0000  0.6187  0.6187  0.3813  1.0000\n  Fe  Fe5       1.0000  0.1421  0.5051  0.0246  1.0000\n  Fe  Fe6       1.0000  0.2254  0.9217  0.1079  1.0000\n  Si  Si1       1.0000  0.1638  0.1637  0.3362  1.0000\n  Si  Si2       1.0000  0.4860  0.4860  0.0140  1.0000\n  Si  Si3       1.0000  0.5622  0.9550  0.0536  1.0000\n  Si  Si4       1.0000  0.2858  0.5797  0.4310  1.0000\n  Si  Si5       1.0000  0.8190  0.5465  0.9642  1.0000\n  Si  Si6       1.0000  0.1964  0.8208  0.6878  1.0000\n  Si  Si7       1.0000  0.9137  0.9137  0.0862  1.0000\n  Si  Si8       1.0000  0.2360  0.2360  0.7640  1.0000\n  Si  Si9       1.0000  0.8208  0.1964  0.2950  1.0000\n  Si  Si10      1.0000  0.5465  0.8190  0.6703  1.0000\n  Si  Si11      1.0000  0.5797  0.2858  0.7035  1.0000\n  Si  Si12      1.0000  0.9550  0.5622  0.4292  1.0000\n  O   O2        1.0000  0.4274  0.9834  0.0862  1.0000\n  O   O3        1.0000  0.7480  0.2919  0.7765  1.0000\n  O   O4        1.0000  0.6049  0.0194  0.9238  1.0000\n  O   O5        1.0000  0.0262  0.8298  0.6070  1.0000\n  O   O6        1.0000  0.4671  0.4221  0.1599  1.0000\n  O   O7        1.0000  0.1792  0.0830  0.4516  1.0000\n  O   O8        1.0000  0.8054  0.6785  0.8909  1.0000\n  O   O9        1.0000  0.7628  0.5005  0.9259  1.0000\n  O   O10       1.0000  0.3985  0.1236  0.3045  1.0000\n  O   O11       1.0000  0.9455  0.0766  0.8515  1.0000\n  O   O12       1.0000  0.3241  0.4393  0.4872  1.0000\n  O   O13       1.0000  0.3591  0.6248  0.4446  1.0000\n  O   O14       1.0000  0.7984  0.9639  0.0708  1.0000\n  O   O15       1.0000  0.0901  0.2991  0.7829  1.0000\n  O   O16       1.0000  0.6430  0.7130  0.2238  1.0000\n  O   O17       1.0000  0.3262  0.7981  0.6451  1.0000\n  O   O18       1.0000  0.4735  0.0664  0.5020  1.0000\n  Li  Li12      1.0000  0.1638  0.7469  0.8226  1.0000\n  O   O19       1.0000  0.7469  0.1638  0.2666  1.0000\n  O   O20       1.0000  0.0664  0.4735  0.9581  1.0000\n  O   O21       1.0000  0.7981  0.3262  0.2306  1.0000\n  O   O22       1.0000  0.7130  0.6430  0.4202  1.0000\n  O   O23       1.0000  0.2991  0.0901  0.8279  1.0000\n  O   O24       1.0000  0.9639  0.7984  0.1670  1.0000\n  O   O25       1.0000  0.6248  0.3591  0.5715  1.0000\n  O   O26       1.0000  0.4393  0.3241  0.7495  1.0000\n  O   O27       1.0000  0.0766  0.9455  0.1264  1.0000\n  O   O28       1.0000  0.1236  0.3985  0.1734  1.0000\n  O   O29       1.0000  0.5005  0.7628  0.8107  1.0000\n  O   O30       1.0000  0.6785  0.8054  0.6252  1.0000\n  O   O31       1.0000  0.0830  0.1792  0.2861  1.0000\n  O   O32       1.0000  0.4221  0.4671  0.9509  1.0000\n  O   O33       1.0000  0.8298  0.0262  0.5370  1.0000\n  O   O34       1.0000  0.0194  0.6049  0.4519  1.0000\n  O   O35       1.0000  0.2919  0.7480  0.1836  1.0000\n  O   O36       1.0000  0.9834  0.4274  0.5031  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2106cc2f-9e4f-4c06-b2cd-3f1c6c214bf2",
    "mp_id": "mp-863754",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_KYSiS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.6188\n_cell_length_b   6.4027\n_cell_length_c   8.5965\n_cell_angle_alpha   72.3730\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   KYSiS4\n_chemical_formula_sum   'K2 Y2 Si2 S8'\n_cell_volume   347.1961\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  K  K0  1  0.9776  0.7307  0.0653  1\n  K  K1  1  0.4776  0.2693  0.9347  1\n  Y  Y2  1  0.4993  0.2302  0.4497  1\n  Y  Y3  1  0.9993  0.7698  0.5503  1\n  Si  Si4  1  0.4618  0.7796  0.3247  1\n  Si  Si5  1  0.9618  0.2204  0.6753  1\n  S  S6  1  0.4630  0.5836  0.1688  1\n  S  S7  1  0.2300  0.0200  0.2780  1\n  S  S8  1  0.7265  0.9765  0.2983  1\n  S  S9  1  0.9088  0.4203  0.4326  1\n  S  S10  1  0.4088  0.5797  0.5674  1\n  S  S11  1  0.2265  0.0235  0.7017  1\n  S  S12  1  0.7300  0.9800  0.7220  1\n  S  S13  1  0.9630  0.4164  0.8312  1\n",
    "output": "data_image0\n_chemical_formula_structural       SiKY2KSiS8\n_chemical_formula_sum              \"Si2 K2 Y2 S8\"\n_cell_length_a       6.6188\n_cell_length_b       6.4027\n_cell_length_c       8.5965\n_cell_angle_alpha    72.3730\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Si  Si1       1.0000  0.9776  0.7307  0.0653  1.0000\n  K   K1        1.0000  0.4776  0.2693  0.9347  1.0000\n  Y   Y1        1.0000  0.4993  0.2302  0.4497  1.0000\n  Y   Y2        1.0000  0.9993  0.7698  0.5503  1.0000\n  K   K2        1.0000  0.4618  0.7796  0.3247  1.0000\n  Si  Si2       1.0000  0.9618  0.2204  0.6753  1.0000\n  S   S1        1.0000  0.4630  0.5836  0.1688  1.0000\n  S   S2        1.0000  0.2300  0.0200  0.2780  1.0000\n  S   S3        1.0000  0.7265  0.9765  0.2983  1.0000\n  S   S4        1.0000  0.9088  0.4203  0.4326  1.0000\n  S   S5        1.0000  0.4088  0.5797  0.5674  1.0000\n  S   S6        1.0000  0.2265  0.0235  0.7017  1.0000\n  S   S7        1.0000  0.7300  0.9800  0.7220  1.0000\n  S   S8        1.0000  0.9630  0.4164  0.8312  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "443a8da6-f406-4d83-92c4-b83418edfb40",
    "mp_id": "mp-865205",
    "action_prompt": "Swap the spatial positions of atoms at indices 9 and 3 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Dy2Ni7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.8489\n_cell_length_b   4.8488\n_cell_length_c   12.1926\n_cell_angle_alpha   101.4473\n_cell_angle_beta   78.5537\n_cell_angle_gamma   119.9806\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Dy2Ni7\n_chemical_formula_sum   'Dy4 Ni14'\n_cell_volume   241.6988\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Dy  Dy0  1  0.9483  0.0517  0.1516  1\n  Dy  Dy1  1  0.8530  0.1470  0.4410  1\n  Dy  Dy2  1  0.1470  0.8530  0.5591  1\n  Dy  Dy3  1  0.0517  0.9483  0.8484  1\n  Ni  Ni4  1  0.5000  -0.0000  -0.0000  1\n  Ni  Ni5  1  -0.0000  0.5000  0.0000  1\n  Ni  Ni6  1  0.5000  0.5000  -0.0000  1\n  Ni  Ni7  1  0.6099  0.3901  0.1644  1\n  Ni  Ni8  1  0.2771  0.7229  0.1650  1\n  Ni  Ni9  1  0.3900  0.1085  0.3278  1\n  Ni  Ni10  1  0.3899  0.6100  0.3277  1\n  Ni  Ni11  1  0.8915  0.6100  0.3278  1\n  Ni  Ni12  1  0.5000  0.5000  0.5000  1\n  Ni  Ni13  1  0.1085  0.3900  0.6722  1\n  Ni  Ni14  1  0.6100  0.3900  0.6722  1\n  Ni  Ni15  1  0.6100  0.8915  0.6722  1\n  Ni  Ni16  1  0.7229  0.2771  0.8350  1\n  Ni  Ni17  1  0.3901  0.6099  0.8356  1\n",
    "output": "data_image0\n_chemical_formula_structural       Dy3Ni6DyNi8\n_chemical_formula_sum              \"Dy4 Ni14\"\n_cell_length_a       4.8489\n_cell_length_b       4.8488\n_cell_length_c       12.1926\n_cell_angle_alpha    101.4473\n_cell_angle_beta     78.5537\n_cell_angle_gamma    119.9806\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Dy  Dy1       1.0000  0.9483  0.0517  0.1516  1.0000\n  Dy  Dy2       1.0000  0.8530  0.1470  0.4410  1.0000\n  Dy  Dy3       1.0000  0.1470  0.8530  0.5591  1.0000\n  Ni  Ni1       1.0000  0.0517  0.9483  0.8484  1.0000\n  Ni  Ni2       1.0000  0.5000  1.0000  1.0000  1.0000\n  Ni  Ni3       1.0000  1.0000  0.5000  0.0000  1.0000\n  Ni  Ni4       1.0000  0.5000  0.5000  1.0000  1.0000\n  Ni  Ni5       1.0000  0.6099  0.3901  0.1644  1.0000\n  Ni  Ni6       1.0000  0.2771  0.7229  0.1650  1.0000\n  Dy  Dy4       1.0000  0.3900  0.1085  0.3278  1.0000\n  Ni  Ni7       1.0000  0.3899  0.6100  0.3277  1.0000\n  Ni  Ni8       1.0000  0.8915  0.6100  0.3278  1.0000\n  Ni  Ni9       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ni  Ni10      1.0000  0.1085  0.3900  0.6722  1.0000\n  Ni  Ni11      1.0000  0.6100  0.3900  0.6722  1.0000\n  Ni  Ni12      1.0000  0.6100  0.8915  0.6722  1.0000\n  Ni  Ni13      1.0000  0.7229  0.2771  0.8350  1.0000\n  Ni  Ni14      1.0000  0.3901  0.6099  0.8356  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "1bb0a207-411e-4486-85c0-1d4537147bc9",
    "mp_id": "mp-866298",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_BaNaScSi2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6915\n_cell_length_b   6.9141\n_cell_length_c   8.9298\n_cell_angle_alpha   70.5571\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   BaNaScSi2O7\n_chemical_formula_sum   'Ba2 Na2 Sc2 Si4 O14'\n_cell_volume   331.3682\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.2500  0.7943  0.5338  1\n  Ba  Ba1  1  0.7500  0.2057  0.4662  1\n  Na  Na2  1  0.7500  0.2306  0.9984  1\n  Na  Na3  1  0.2500  0.7694  0.0016  1\n  Sc  Sc4  1  0.7500  0.7984  0.2652  1\n  Sc  Sc5  1  0.2500  0.2016  0.7348  1\n  Si  Si6  1  0.7500  0.8602  0.8433  1\n  Si  Si7  1  0.2500  0.1398  0.1567  1\n  Si  Si8  1  0.7500  0.5527  0.6807  1\n  Si  Si9  1  0.2500  0.4473  0.3193  1\n  O  O10  1  0.7500  0.6150  0.8475  1\n  O  O11  1  0.2500  0.3850  0.1525  1\n  O  O12  1  0.9911  0.9657  0.7489  1\n  O  O13  1  0.4911  0.0343  0.2511  1\n  O  O14  1  0.0089  0.0343  0.2511  1\n  O  O15  1  0.5089  0.9657  0.7489  1\n  O  O16  1  0.7500  0.8635  0.0243  1\n  O  O17  1  0.2500  0.1365  0.9757  1\n  O  O18  1  0.7500  0.7618  0.5237  1\n  O  O19  1  0.2500  0.2382  0.4763  1\n  O  O20  1  0.5133  0.4189  0.6868  1\n  O  O21  1  0.0133  0.5811  0.3132  1\n  O  O22  1  0.4867  0.5811  0.3132  1\n  O  O23  1  0.9867  0.4189  0.6868  1\n",
    "output": "data_image0\n_chemical_formula_structural       OBaNa2Sc2Si4O5BaO8\n_chemical_formula_sum              \"O14 Ba2 Na2 Sc2 Si4\"\n_cell_length_a       5.6915\n_cell_length_b       6.9141\n_cell_length_c       8.9298\n_cell_angle_alpha    70.5571\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.2500  0.7943  0.5338  1.0000\n  Ba  Ba1       1.0000  0.7500  0.2057  0.4662  1.0000\n  Na  Na1       1.0000  0.7500  0.2306  0.9984  1.0000\n  Na  Na2       1.0000  0.2500  0.7694  0.0016  1.0000\n  Sc  Sc1       1.0000  0.7500  0.7984  0.2652  1.0000\n  Sc  Sc2       1.0000  0.2500  0.2016  0.7348  1.0000\n  Si  Si1       1.0000  0.7500  0.8602  0.8433  1.0000\n  Si  Si2       1.0000  0.2500  0.1398  0.1567  1.0000\n  Si  Si3       1.0000  0.7500  0.5527  0.6807  1.0000\n  Si  Si4       1.0000  0.2500  0.4473  0.3193  1.0000\n  O   O2        1.0000  0.7500  0.6150  0.8475  1.0000\n  O   O3        1.0000  0.2500  0.3850  0.1525  1.0000\n  O   O4        1.0000  0.9911  0.9657  0.7489  1.0000\n  O   O5        1.0000  0.4911  0.0343  0.2511  1.0000\n  O   O6        1.0000  0.0089  0.0343  0.2511  1.0000\n  Ba  Ba2       1.0000  0.5089  0.9657  0.7489  1.0000\n  O   O7        1.0000  0.7500  0.8635  0.0243  1.0000\n  O   O8        1.0000  0.2500  0.1365  0.9757  1.0000\n  O   O9        1.0000  0.7500  0.7618  0.5237  1.0000\n  O   O10       1.0000  0.2500  0.2382  0.4763  1.0000\n  O   O11       1.0000  0.5133  0.4189  0.6868  1.0000\n  O   O12       1.0000  0.0133  0.5811  0.3132  1.0000\n  O   O13       1.0000  0.4867  0.5811  0.3132  1.0000\n  O   O14       1.0000  0.9867  0.4189  0.6868  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "826f49ae-e3a7-4dba-8a4a-e1a234f1e7f7",
    "mp_id": "mp-866520",
    "action_prompt": "Swap the spatial positions of atoms at indices 20 and 9 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ca2SnS4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.1573\n_cell_length_b   6.8016\n_cell_length_c   15.5791\n_cell_angle_alpha   73.6568\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ca2SnS4\n_chemical_formula_sum   'Ca8 Sn4 S16'\n_cell_volume   727.7564\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ca  Ca0  1  0.2470  0.7959  0.0236  1\n  Ca  Ca1  1  0.7470  0.2041  0.4764  1\n  Ca  Ca2  1  0.7530  0.2041  0.9764  1\n  Ca  Ca3  1  0.2530  0.7959  0.5236  1\n  Ca  Ca4  1  0.3310  0.7407  0.2827  1\n  Ca  Ca5  1  0.8310  0.2593  0.2173  1\n  Ca  Ca6  1  0.6690  0.2593  0.7173  1\n  Ca  Ca7  1  0.1690  0.7407  0.7827  1\n  Sn  Sn8  1  0.2646  0.2567  0.0945  1\n  Sn  Sn9  1  0.7646  0.7433  0.4055  1\n  Sn  Sn10  1  0.7354  0.7433  0.9055  1\n  Sn  Sn11  1  0.2354  0.2567  0.5945  1\n  S  S12  1  0.0086  0.0123  0.1203  1\n  S  S13  1  0.5086  0.9877  0.3797  1\n  S  S14  1  0.9914  0.9877  0.8797  1\n  S  S15  1  0.4914  0.0123  0.6203  1\n  S  S16  1  0.0141  0.9922  0.3721  1\n  S  S17  1  0.5141  0.0078  0.1279  1\n  S  S18  1  0.9859  0.0078  0.6279  1\n  S  S19  1  0.4859  0.9922  0.8721  1\n  S  S20  1  0.1856  0.4744  0.1867  1\n  S  S21  1  0.6856  0.5256  0.3133  1\n  S  S22  1  0.8144  0.5256  0.8133  1\n  S  S23  1  0.3144  0.4744  0.6867  1\n  S  S24  1  0.2166  0.4665  0.4439  1\n  S  S25  1  0.7166  0.5335  0.0561  1\n  S  S26  1  0.7834  0.5335  0.5561  1\n  S  S27  1  0.2834  0.4665  0.9439  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ca8SnSSn2S8SnS7\n_chemical_formula_sum              \"Ca8 Sn4 S16\"\n_cell_length_a       7.1573\n_cell_length_b       6.8016\n_cell_length_c       15.5791\n_cell_angle_alpha    73.6568\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ca  Ca1       1.0000  0.2470  0.7959  0.0236  1.0000\n  Ca  Ca2       1.0000  0.7470  0.2041  0.4764  1.0000\n  Ca  Ca3       1.0000  0.7530  0.2041  0.9764  1.0000\n  Ca  Ca4       1.0000  0.2530  0.7959  0.5236  1.0000\n  Ca  Ca5       1.0000  0.3310  0.7407  0.2827  1.0000\n  Ca  Ca6       1.0000  0.8310  0.2593  0.2173  1.0000\n  Ca  Ca7       1.0000  0.6690  0.2593  0.7173  1.0000\n  Ca  Ca8       1.0000  0.1690  0.7407  0.7827  1.0000\n  Sn  Sn1       1.0000  0.2646  0.2567  0.0945  1.0000\n  S   S1        1.0000  0.7646  0.7433  0.4055  1.0000\n  Sn  Sn2       1.0000  0.7354  0.7433  0.9055  1.0000\n  Sn  Sn3       1.0000  0.2354  0.2567  0.5945  1.0000\n  S   S2        1.0000  0.0086  0.0123  0.1203  1.0000\n  S   S3        1.0000  0.5086  0.9877  0.3797  1.0000\n  S   S4        1.0000  0.9914  0.9877  0.8797  1.0000\n  S   S5        1.0000  0.4914  0.0123  0.6203  1.0000\n  S   S6        1.0000  0.0141  0.9922  0.3721  1.0000\n  S   S7        1.0000  0.5141  0.0078  0.1279  1.0000\n  S   S8        1.0000  0.9859  0.0078  0.6279  1.0000\n  S   S9        1.0000  0.4859  0.9922  0.8721  1.0000\n  Sn  Sn4       1.0000  0.1856  0.4744  0.1867  1.0000\n  S   S10       1.0000  0.6856  0.5256  0.3133  1.0000\n  S   S11       1.0000  0.8144  0.5256  0.8133  1.0000\n  S   S12       1.0000  0.3144  0.4744  0.6867  1.0000\n  S   S13       1.0000  0.2166  0.4665  0.4439  1.0000\n  S   S14       1.0000  0.7166  0.5335  0.0561  1.0000\n  S   S15       1.0000  0.7834  0.5335  0.5561  1.0000\n  S   S16       1.0000  0.2834  0.4665  0.9439  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "aa2ec30d-94ce-4cb4-85c6-967de59d640a",
    "mp_id": "mp-867606",
    "action_prompt": "Swap the spatial positions of atoms at indices 11 and 14 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiNi(PO3)4\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   13.6257\n_cell_length_b   5.0755\n_cell_length_c   7.0872\n_cell_angle_alpha   82.4594\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiNi(PO3)4\n_chemical_formula_sum   'Li2 Ni2 P8 O24'\n_cell_volume   485.8930\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0094  0.4065  0.1303  1\n  Li  Li1  1  0.5094  0.5935  0.8697  1\n  Ni  Ni2  1  0.2368  0.4888  0.5087  1\n  Ni  Ni3  1  0.7368  0.5112  0.4913  1\n  P  P4  1  0.0965  0.9798  0.5469  1\n  P  P5  1  0.3764  0.9980  0.4628  1\n  P  P6  1  0.6715  0.8525  0.1006  1\n  P  P7  1  0.3215  0.7732  0.1162  1\n  P  P8  1  0.8215  0.2268  0.8838  1\n  P  P9  1  0.1715  0.1475  0.8994  1\n  P  P10  1  0.8764  0.0020  0.5372  1\n  P  P11  1  0.5965  0.0202  0.4531  1\n  O  O12  1  0.2625  0.9538  0.9522  1\n  O  O13  1  0.1039  0.9709  0.7745  1\n  O  O14  1  0.8649  0.0006  0.7625  1\n  O  O15  1  0.6141  0.8024  0.9308  1\n  O  O16  1  0.4886  0.8993  0.5030  1\n  O  O17  1  0.6674  0.8170  0.5510  1\n  O  O18  1  0.3129  0.7856  0.5728  1\n  O  O19  1  0.1032  0.7051  0.4920  1\n  O  O20  1  0.8673  0.7261  0.4847  1\n  O  O21  1  0.2491  0.6006  0.2388  1\n  O  O22  1  0.7107  0.6078  0.2243  1\n  O  O23  1  0.4026  0.6441  0.0220  1\n  O  O24  1  0.9026  0.3559  0.9780  1\n  O  O25  1  0.2107  0.3922  0.7757  1\n  O  O26  1  0.7491  0.3994  0.7612  1\n  O  O27  1  0.3673  0.2739  0.5153  1\n  O  O28  1  0.6032  0.2949  0.5080  1\n  O  O29  1  0.8129  0.2144  0.4272  1\n  O  O30  1  0.1674  0.1830  0.4490  1\n  O  O31  1  0.9886  0.1007  0.4970  1\n  O  O32  1  0.1141  0.1976  0.0692  1\n  O  O33  1  0.3649  0.9994  0.2375  1\n  O  O34  1  0.6039  0.0291  0.2255  1\n  O  O35  1  0.7625  0.0462  0.0478  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Ni2P7O3PO21\n_chemical_formula_sum              \"Li2 Ni2 P8 O24\"\n_cell_length_a       13.6257\n_cell_length_b       5.0755\n_cell_length_c       7.0872\n_cell_angle_alpha    82.4594\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0094  0.4065  0.1303  1.0000\n  Li  Li2       1.0000  0.5094  0.5935  0.8697  1.0000\n  Ni  Ni1       1.0000  0.2368  0.4888  0.5087  1.0000\n  Ni  Ni2       1.0000  0.7368  0.5112  0.4913  1.0000\n  P   P1        1.0000  0.0965  0.9798  0.5469  1.0000\n  P   P2        1.0000  0.3764  0.9980  0.4628  1.0000\n  P   P3        1.0000  0.6715  0.8525  0.1006  1.0000\n  P   P4        1.0000  0.3215  0.7732  0.1162  1.0000\n  P   P5        1.0000  0.8215  0.2268  0.8838  1.0000\n  P   P6        1.0000  0.1715  0.1475  0.8994  1.0000\n  P   P7        1.0000  0.8764  0.0020  0.5372  1.0000\n  O   O1        1.0000  0.5965  0.0202  0.4531  1.0000\n  O   O2        1.0000  0.2625  0.9538  0.9522  1.0000\n  O   O3        1.0000  0.1039  0.9709  0.7745  1.0000\n  P   P8        1.0000  0.8649  0.0006  0.7625  1.0000\n  O   O4        1.0000  0.6141  0.8024  0.9308  1.0000\n  O   O5        1.0000  0.4886  0.8993  0.5030  1.0000\n  O   O6        1.0000  0.6674  0.8170  0.5510  1.0000\n  O   O7        1.0000  0.3129  0.7856  0.5728  1.0000\n  O   O8        1.0000  0.1032  0.7051  0.4920  1.0000\n  O   O9        1.0000  0.8673  0.7261  0.4847  1.0000\n  O   O10       1.0000  0.2491  0.6006  0.2388  1.0000\n  O   O11       1.0000  0.7107  0.6078  0.2243  1.0000\n  O   O12       1.0000  0.4026  0.6441  0.0220  1.0000\n  O   O13       1.0000  0.9026  0.3559  0.9780  1.0000\n  O   O14       1.0000  0.2107  0.3922  0.7757  1.0000\n  O   O15       1.0000  0.7491  0.3994  0.7612  1.0000\n  O   O16       1.0000  0.3673  0.2739  0.5153  1.0000\n  O   O17       1.0000  0.6032  0.2949  0.5080  1.0000\n  O   O18       1.0000  0.8129  0.2144  0.4272  1.0000\n  O   O19       1.0000  0.1674  0.1830  0.4490  1.0000\n  O   O20       1.0000  0.9886  0.1007  0.4970  1.0000\n  O   O21       1.0000  0.1141  0.1976  0.0692  1.0000\n  O   O22       1.0000  0.3649  0.9994  0.2375  1.0000\n  O   O23       1.0000  0.6039  0.0291  0.2255  1.0000\n  O   O24       1.0000  0.7625  0.0462  0.0478  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "68315472-797e-4f77-82a8-ef53153f8a1d",
    "mp_id": "mp-881189",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Li4Fe3(CoO4)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.7266\n_cell_length_b   5.9028\n_cell_length_c   6.6099\n_cell_angle_alpha   105.6192\n_cell_angle_beta   102.7222\n_cell_angle_gamma   88.9822\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Li4Fe3(CoO4)3\n_chemical_formula_sum   'Li4 Fe3 Co3 O12'\n_cell_volume   209.6964\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.1785  0.1525  0.6524  1\n  Li  Li1  1  0.8215  0.8475  0.3476  1\n  Li  Li2  1  0.5000  0.5000  0.0000  1\n  Li  Li3  1  0.0000  0.5000  0.0000  1\n  Fe  Fe4  1  0.0000  0.0000  0.0000  1\n  Fe  Fe5  1  0.6642  0.6684  0.6645  1\n  Fe  Fe6  1  0.3358  0.3316  0.3355  1\n  Co  Co7  1  0.5000  0.0000  0.0000  1\n  Co  Co8  1  0.1670  0.6669  0.6623  1\n  Co  Co9  1  0.8330  0.3331  0.3377  1\n  O  O10  1  0.4174  0.8906  0.6893  1\n  O  O11  1  0.9194  0.8886  0.6720  1\n  O  O12  1  0.5826  0.1094  0.3107  1\n  O  O13  1  0.2537  0.7602  0.9706  1\n  O  O14  1  0.0806  0.1114  0.3280  1\n  O  O15  1  0.7398  0.7593  0.9819  1\n  O  O16  1  0.5897  0.5596  0.3534  1\n  O  O17  1  0.2602  0.2407  0.0181  1\n  O  O18  1  0.0818  0.5526  0.3469  1\n  O  O19  1  0.7463  0.2398  0.0294  1\n  O  O20  1  0.4103  0.4404  0.6466  1\n  O  O21  1  0.9182  0.4474  0.6531  1\n",
    "output": "data_image0\n_chemical_formula_structural       OLi3Fe3Co3O2LiO9\n_chemical_formula_sum              \"O12 Li4 Fe3 Co3\"\n_cell_length_a       5.7266\n_cell_length_b       5.9028\n_cell_length_c       6.6099\n_cell_angle_alpha    105.6192\n_cell_angle_beta     102.7222\n_cell_angle_gamma    88.9822\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.1785  0.1525  0.6524  1.0000\n  Li  Li1       1.0000  0.8215  0.8475  0.3476  1.0000\n  Li  Li2       1.0000  0.5000  0.5000  0.0000  1.0000\n  Li  Li3       1.0000  0.0000  0.5000  0.0000  1.0000\n  Fe  Fe1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Fe  Fe2       1.0000  0.6642  0.6684  0.6645  1.0000\n  Fe  Fe3       1.0000  0.3358  0.3316  0.3355  1.0000\n  Co  Co1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Co  Co2       1.0000  0.1670  0.6669  0.6623  1.0000\n  Co  Co3       1.0000  0.8330  0.3331  0.3377  1.0000\n  O   O2        1.0000  0.4174  0.8906  0.6893  1.0000\n  O   O3        1.0000  0.9194  0.8886  0.6720  1.0000\n  Li  Li4       1.0000  0.5826  0.1094  0.3107  1.0000\n  O   O4        1.0000  0.2537  0.7602  0.9706  1.0000\n  O   O5        1.0000  0.0806  0.1114  0.3280  1.0000\n  O   O6        1.0000  0.7398  0.7593  0.9819  1.0000\n  O   O7        1.0000  0.5897  0.5596  0.3534  1.0000\n  O   O8        1.0000  0.2602  0.2407  0.0181  1.0000\n  O   O9        1.0000  0.0818  0.5526  0.3469  1.0000\n  O   O10       1.0000  0.7463  0.2398  0.0294  1.0000\n  O   O11       1.0000  0.4103  0.4404  0.6466  1.0000\n  O   O12       1.0000  0.9182  0.4474  0.6531  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "fd225209-6f71-4b5b-8ff3-e5f4761f9919",
    "mp_id": "mp-9275",
    "action_prompt": "Swap the spatial positions of atoms at indices 0 and 21 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Th2Ta6O19\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.4387\n_cell_length_b   6.4387\n_cell_length_c   20.1976\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Th2Ta6O19\n_chemical_formula_sum   'Th4 Ta12 O38'\n_cell_volume   725.1556\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Th  Th0  1  0.3333  0.6667  0.5000  1\n  Th  Th1  1  0.6667  0.3333  0.0000  1\n  Th  Th2  1  0.6667  0.3333  0.5000  1\n  Th  Th3  1  0.3333  0.6667  0.0000  1\n  Ta  Ta4  1  0.6530  0.6530  0.8437  1\n  Ta  Ta5  1  0.3471  0.0000  0.8437  1\n  Ta  Ta6  1  0.0000  0.3471  0.8437  1\n  Ta  Ta7  1  0.0000  0.6530  0.3437  1\n  Ta  Ta8  1  0.3471  0.0000  0.6563  1\n  Ta  Ta9  1  0.3471  0.3471  0.3437  1\n  Ta  Ta10  1  0.6530  0.0000  0.3437  1\n  Ta  Ta11  1  0.3471  0.3471  0.1563  1\n  Ta  Ta12  1  0.0000  0.6530  0.1563  1\n  Ta  Ta13  1  0.0000  0.3471  0.6563  1\n  Ta  Ta14  1  0.6530  0.6530  0.6563  1\n  Ta  Ta15  1  0.6530  0.0000  0.1563  1\n  O  O16  1  0.6667  0.3333  0.1460  1\n  O  O17  1  0.3333  0.6667  0.6460  1\n  O  O18  1  0.3333  0.6667  0.3540  1\n  O  O19  1  0.6667  0.3333  0.8540  1\n  O  O20  1  0.3333  0.6667  0.8540  1\n  O  O21  1  0.6667  0.3333  0.3540  1\n  O  O22  1  0.6667  0.3333  0.6460  1\n  O  O23  1  0.3333  0.6667  0.1460  1\n  O  O24  1  0.6192  0.6192  0.9428  1\n  O  O25  1  0.3808  0.0000  0.9428  1\n  O  O26  1  0.0000  0.3808  0.9428  1\n  O  O27  1  0.0000  0.6192  0.4428  1\n  O  O28  1  0.3808  0.0000  0.5572  1\n  O  O29  1  0.3808  0.3808  0.4428  1\n  O  O30  1  0.6192  0.0000  0.4428  1\n  O  O31  1  0.3808  0.3808  0.0572  1\n  O  O32  1  0.2364  0.0000  0.1565  1\n  O  O33  1  0.2364  0.2364  0.6565  1\n  O  O34  1  0.0000  0.7636  0.6565  1\n  O  O35  1  0.0000  0.2364  0.1565  1\n  O  O36  1  0.7636  0.7636  0.1565  1\n  O  O37  1  0.2364  0.0000  0.3435  1\n  O  O38  1  0.7636  0.7636  0.3435  1\n  O  O39  1  0.7636  0.0000  0.6565  1\n  O  O40  1  0.0000  0.2364  0.3435  1\n  O  O41  1  0.0000  0.7636  0.8435  1\n  O  O42  1  0.7636  0.0000  0.8435  1\n  O  O43  1  0.2364  0.2364  0.8435  1\n  O  O44  1  0.5970  0.0000  0.2500  1\n  O  O45  1  0.5970  0.5970  0.7500  1\n  O  O46  1  0.0000  0.4030  0.7500  1\n  O  O47  1  0.0000  0.5970  0.2500  1\n  O  O48  1  0.4030  0.4030  0.2500  1\n  O  O49  1  0.4030  0.0000  0.7500  1\n  O  O50  1  0.6192  0.0000  0.0572  1\n  O  O51  1  0.6192  0.6192  0.5572  1\n  O  O52  1  0.0000  0.3808  0.5572  1\n  O  O53  1  0.0000  0.6192  0.0572  1\n",
    "output": "data_image0\n_chemical_formula_structural       OTh3Ta12O5ThO32\n_chemical_formula_sum              \"O38 Th4 Ta12\"\n_cell_length_a       6.4387\n_cell_length_b       6.4387\n_cell_length_c       20.1976\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  O   O1        1.0000  0.3333  0.6667  0.5000  1.0000\n  Th  Th1       1.0000  0.6667  0.3333  0.0000  1.0000\n  Th  Th2       1.0000  0.6667  0.3333  0.5000  1.0000\n  Th  Th3       1.0000  0.3333  0.6667  0.0000  1.0000\n  Ta  Ta1       1.0000  0.6530  0.6530  0.8437  1.0000\n  Ta  Ta2       1.0000  0.3471  0.0000  0.8437  1.0000\n  Ta  Ta3       1.0000  0.0000  0.3471  0.8437  1.0000\n  Ta  Ta4       1.0000  0.0000  0.6530  0.3437  1.0000\n  Ta  Ta5       1.0000  0.3471  0.0000  0.6563  1.0000\n  Ta  Ta6       1.0000  0.3471  0.3471  0.3437  1.0000\n  Ta  Ta7       1.0000  0.6530  0.0000  0.3437  1.0000\n  Ta  Ta8       1.0000  0.3471  0.3471  0.1563  1.0000\n  Ta  Ta9       1.0000  0.0000  0.6530  0.1563  1.0000\n  Ta  Ta10      1.0000  0.0000  0.3471  0.6563  1.0000\n  Ta  Ta11      1.0000  0.6530  0.6530  0.6563  1.0000\n  Ta  Ta12      1.0000  0.6530  0.0000  0.1563  1.0000\n  O   O2        1.0000  0.6667  0.3333  0.1460  1.0000\n  O   O3        1.0000  0.3333  0.6667  0.6460  1.0000\n  O   O4        1.0000  0.3333  0.6667  0.3540  1.0000\n  O   O5        1.0000  0.6667  0.3333  0.8540  1.0000\n  O   O6        1.0000  0.3333  0.6667  0.8540  1.0000\n  Th  Th4       1.0000  0.6667  0.3333  0.3540  1.0000\n  O   O7        1.0000  0.6667  0.3333  0.6460  1.0000\n  O   O8        1.0000  0.3333  0.6667  0.1460  1.0000\n  O   O9        1.0000  0.6192  0.6192  0.9428  1.0000\n  O   O10       1.0000  0.3808  0.0000  0.9428  1.0000\n  O   O11       1.0000  0.0000  0.3808  0.9428  1.0000\n  O   O12       1.0000  0.0000  0.6192  0.4428  1.0000\n  O   O13       1.0000  0.3808  0.0000  0.5572  1.0000\n  O   O14       1.0000  0.3808  0.3808  0.4428  1.0000\n  O   O15       1.0000  0.6192  0.0000  0.4428  1.0000\n  O   O16       1.0000  0.3808  0.3808  0.0572  1.0000\n  O   O17       1.0000  0.2364  0.0000  0.1565  1.0000\n  O   O18       1.0000  0.2364  0.2364  0.6565  1.0000\n  O   O19       1.0000  0.0000  0.7636  0.6565  1.0000\n  O   O20       1.0000  1.0000  0.2364  0.1565  1.0000\n  O   O21       1.0000  0.7636  0.7636  0.1565  1.0000\n  O   O22       1.0000  0.2364  0.0000  0.3435  1.0000\n  O   O23       1.0000  0.7636  0.7636  0.3435  1.0000\n  O   O24       1.0000  0.7636  0.0000  0.6565  1.0000\n  O   O25       1.0000  1.0000  0.2364  0.3435  1.0000\n  O   O26       1.0000  0.0000  0.7636  0.8435  1.0000\n  O   O27       1.0000  0.7636  0.0000  0.8435  1.0000\n  O   O28       1.0000  0.2364  0.2364  0.8435  1.0000\n  O   O29       1.0000  0.5970  0.0000  0.2500  1.0000\n  O   O30       1.0000  0.5970  0.5970  0.7500  1.0000\n  O   O31       1.0000  0.0000  0.4030  0.7500  1.0000\n  O   O32       1.0000  0.0000  0.5970  0.2500  1.0000\n  O   O33       1.0000  0.4030  0.4030  0.2500  1.0000\n  O   O34       1.0000  0.4030  0.0000  0.7500  1.0000\n  O   O35       1.0000  0.6192  0.0000  0.0572  1.0000\n  O   O36       1.0000  0.6192  0.6192  0.5572  1.0000\n  O   O37       1.0000  0.0000  0.3808  0.5572  1.0000\n  O   O38       1.0000  0.0000  0.6192  0.0572  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "2ed7a406-54e9-40b8-bfc1-abb6f7770c6e",
    "mp_id": "mp-9324",
    "action_prompt": "Swap the spatial positions of atoms at indices 3 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Ba3MnN3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   8.2026\n_cell_length_b   8.2025\n_cell_length_c   5.5338\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   120.0017\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Ba3MnN3\n_chemical_formula_sum   'Ba6 Mn2 N6'\n_cell_volume   322.4333\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Ba  Ba0  1  0.6371  0.7217  0.7500  1\n  Ba  Ba1  1  0.9154  0.6371  0.2500  1\n  Ba  Ba2  1  0.7217  0.0846  0.2500  1\n  Ba  Ba3  1  0.2783  0.9154  0.7500  1\n  Ba  Ba4  1  0.0846  0.3629  0.7500  1\n  Ba  Ba5  1  0.3629  0.2783  0.2500  1\n  Mn  Mn6  1  0.3333  0.6667  0.2500  1\n  Mn  Mn7  1  0.6667  0.3333  0.7500  1\n  N  N8  1  0.8677  0.5509  0.7500  1\n  N  N9  1  0.3168  0.8677  0.2500  1\n  N  N10  1  0.5508  0.6832  0.2500  1\n  N  N11  1  0.4492  0.3168  0.7500  1\n  N  N12  1  0.6832  0.1322  0.7500  1\n  N  N13  1  0.1323  0.4492  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       Ba3NBa2Mn2N3BaN2\n_chemical_formula_sum              \"Ba6 N6 Mn2\"\n_cell_length_a       8.2026\n_cell_length_b       8.2025\n_cell_length_c       5.5338\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    120.0017\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Ba  Ba1       1.0000  0.6371  0.7217  0.7500  1.0000\n  Ba  Ba2       1.0000  0.9154  0.6371  0.2500  1.0000\n  Ba  Ba3       1.0000  0.7217  0.0846  0.2500  1.0000\n  N   N1        1.0000  0.2783  0.9154  0.7500  1.0000\n  Ba  Ba4       1.0000  0.0846  0.3629  0.7500  1.0000\n  Ba  Ba5       1.0000  0.3629  0.2783  0.2500  1.0000\n  Mn  Mn1       1.0000  0.3333  0.6667  0.2500  1.0000\n  Mn  Mn2       1.0000  0.6667  0.3333  0.7500  1.0000\n  N   N2        1.0000  0.8677  0.5509  0.7500  1.0000\n  N   N3        1.0000  0.3168  0.8677  0.2500  1.0000\n  N   N4        1.0000  0.5508  0.6832  0.2500  1.0000\n  Ba  Ba6       1.0000  0.4492  0.3168  0.7500  1.0000\n  N   N5        1.0000  0.6832  0.1322  0.7500  1.0000\n  N   N6        1.0000  0.1323  0.4492  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "7dcbed44-b66d-4ddf-9616-31a0403eec03",
    "mp_id": "mp-935710",
    "action_prompt": "Swap the spatial positions of atoms at indices 10 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_LiSnP2O7\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.1201\n_cell_length_b   6.6648\n_cell_length_c   9.6781\n_cell_angle_alpha   109.6793\n_cell_angle_beta   91.5270\n_cell_angle_gamma   109.3306\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   LiSnP2O7\n_chemical_formula_sum   'Li2 Sn2 P4 O14'\n_cell_volume   289.8729\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Li  Li0  1  0.0597  0.2475  0.0409  1\n  Li  Li1  1  0.9403  0.7525  0.9591  1\n  Sn  Sn2  1  0.1475  0.4486  0.3363  1\n  Sn  Sn3  1  0.8525  0.5514  0.6637  1\n  P  P4  1  0.2894  0.9142  0.3787  1\n  P  P5  1  0.5026  0.5553  0.1406  1\n  P  P6  1  0.4974  0.4447  0.8594  1\n  P  P7  1  0.7106  0.0858  0.6213  1\n  O  O8  1  0.0843  0.9932  0.4057  1\n  O  O9  1  0.1467  0.8665  0.2753  1\n  O  O10  1  0.2911  0.5781  0.0242  1\n  O  O11  1  0.4399  0.6492  0.5254  1\n  O  O12  1  0.1876  0.3323  0.8824  1\n  O  O13  1  0.5910  0.3114  0.8222  1\n  O  O14  1  0.5253  0.1976  0.2958  1\n  O  O15  1  0.4747  0.8024  0.7042  1\n  O  O16  1  0.4090  0.6886  0.1778  1\n  O  O17  1  0.8124  0.6677  0.1176  1\n  O  O18  1  0.5601  0.3508  0.4746  1\n  O  O19  1  0.7089  0.4219  0.9758  1\n  O  O20  1  0.8533  0.1335  0.7247  1\n  O  O21  1  0.9157  0.0068  0.5943  1\n",
    "output": "data_image0\n_chemical_formula_structural       Li2Sn2P3O3PO11\n_chemical_formula_sum              \"Li2 Sn2 P4 O14\"\n_cell_length_a       5.1201\n_cell_length_b       6.6648\n_cell_length_c       9.6781\n_cell_angle_alpha    109.6793\n_cell_angle_beta     91.5270\n_cell_angle_gamma    109.3306\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Li  Li1       1.0000  0.0597  0.2475  0.0409  1.0000\n  Li  Li2       1.0000  0.9403  0.7525  0.9591  1.0000\n  Sn  Sn1       1.0000  0.1475  0.4486  0.3363  1.0000\n  Sn  Sn2       1.0000  0.8525  0.5514  0.6637  1.0000\n  P   P1        1.0000  0.2894  0.9142  0.3787  1.0000\n  P   P2        1.0000  0.5026  0.5553  0.1406  1.0000\n  P   P3        1.0000  0.4974  0.4447  0.8594  1.0000\n  O   O1        1.0000  0.7106  0.0858  0.6213  1.0000\n  O   O2        1.0000  0.0843  0.9932  0.4057  1.0000\n  O   O3        1.0000  0.1467  0.8665  0.2753  1.0000\n  P   P4        1.0000  0.2911  0.5781  0.0242  1.0000\n  O   O4        1.0000  0.4399  0.6492  0.5254  1.0000\n  O   O5        1.0000  0.1876  0.3323  0.8824  1.0000\n  O   O6        1.0000  0.5910  0.3114  0.8222  1.0000\n  O   O7        1.0000  0.5253  0.1976  0.2958  1.0000\n  O   O8        1.0000  0.4747  0.8024  0.7042  1.0000\n  O   O9        1.0000  0.4090  0.6886  0.1778  1.0000\n  O   O10       1.0000  0.8124  0.6677  0.1176  1.0000\n  O   O11       1.0000  0.5601  0.3508  0.4746  1.0000\n  O   O12       1.0000  0.7089  0.4219  0.9758  1.0000\n  O   O13       1.0000  0.8533  0.1335  0.7247  1.0000\n  O   O14       1.0000  0.9157  0.0068  0.5943  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "3b02876c-9e39-4af3-9c64-7513066294dc",
    "mp_id": "mp-9403",
    "action_prompt": "Swap the spatial positions of atoms at indices 72 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Cr(PO3)3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   11.7447\n_cell_length_b   11.7447\n_cell_length_c   9.5467\n_cell_angle_alpha   70.1457\n_cell_angle_beta   70.1457\n_cell_angle_gamma   111.0650\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Cr(PO3)3\n_chemical_formula_sum   'Cr6 P18 O54'\n_cell_volume   982.9787\n_cell_formula_units_Z   6\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Cr  Cr0  1  0.0211  0.8591  0.2725  1\n  Cr  Cr1  1  0.8591  0.0211  0.7725  1\n  Cr  Cr2  1  0.1686  0.6716  0.8024  1\n  Cr  Cr3  1  0.6716  0.1686  0.3024  1\n  Cr  Cr4  1  0.5294  0.3543  0.7695  1\n  Cr  Cr5  1  0.3543  0.5294  0.2695  1\n  P  P6  1  0.7778  0.8434  0.5864  1\n  P  P7  1  0.8434  0.7778  0.0864  1\n  P  P8  1  0.0967  0.4885  0.6160  1\n  P  P9  1  0.4885  0.0967  0.1160  1\n  P  P10  1  0.1521  0.4240  0.1190  1\n  P  P11  1  0.4240  0.1521  0.6190  1\n  P  P12  1  0.2198  0.1836  0.5054  1\n  P  P13  1  0.1836  0.2198  0.0054  1\n  P  P14  1  0.8775  0.5045  0.5182  1\n  P  P15  1  0.5045  0.8775  0.0182  1\n  P  P16  1  0.6111  0.5613  0.9316  1\n  P  P17  1  0.5613  0.6111  0.4316  1\n  P  P18  1  0.8138  0.5214  0.0554  1\n  P  P19  1  0.5214  0.8138  0.5554  1\n  P  P20  1  0.8709  0.2637  0.4655  1\n  P  P21  1  0.2637  0.8709  0.9655  1\n  P  P22  1  0.2029  0.9292  0.4643  1\n  P  P23  1  0.9292  0.2029  0.9643  1\n  O  O24  1  0.8190  0.6234  0.1334  1\n  O  O25  1  0.6234  0.8190  0.6334  1\n  O  O26  1  0.9136  0.6453  0.3848  1\n  O  O27  1  0.6453  0.9136  0.8848  1\n  O  O28  1  0.0764  0.8520  0.4524  1\n  O  O29  1  0.8520  0.0764  0.9524  1\n  O  O30  1  0.9568  0.5883  0.8970  1\n  O  O31  1  0.5883  0.9568  0.3970  1\n  O  O32  1  0.6009  0.1871  0.1385  1\n  O  O33  1  0.1871  0.6009  0.6385  1\n  O  O34  1  0.5218  0.4524  0.9044  1\n  O  O35  1  0.4524  0.5218  0.4044  1\n  O  O36  1  0.7013  0.5088  0.9953  1\n  O  O37  1  0.5088  0.7013  0.4953  1\n  O  O38  1  0.9709  0.8669  0.0893  1\n  O  O39  1  0.8669  0.9709  0.5893  1\n  O  O40  1  0.7482  0.3773  0.2114  1\n  O  O41  1  0.3773  0.7482  0.7114  1\n  O  O42  1  0.0025  0.5389  0.5587  1\n  O  O43  1  0.5389  0.0025  0.0587  1\n  O  O44  1  0.5306  0.2589  0.6324  1\n  O  O45  1  0.2589  0.5306  0.1324  1\n  O  O46  1  0.3243  0.2834  0.8449  1\n  O  O47  1  0.2834  0.3243  0.3449  1\n  O  O48  1  0.7391  0.7024  0.7456  1\n  O  O49  1  0.7024  0.7391  0.2456  1\n  O  O50  1  0.7355  0.4118  0.6889  1\n  O  O51  1  0.4118  0.7355  0.1889  1\n  O  O52  1  0.8953  0.4188  0.4190  1\n  O  O53  1  0.4188  0.8953  0.9190  1\n  O  O54  1  0.3023  0.0129  0.8082  1\n  O  O55  1  0.0129  0.3023  0.3082  1\n  O  O56  1  0.3454  0.9737  0.3012  1\n  O  O57  1  0.9737  0.3454  0.8012  1\n  O  O58  1  0.4558  0.1747  0.9906  1\n  O  O59  1  0.1747  0.4558  0.4906  1\n  O  O60  1  0.5984  0.5340  0.5517  1\n  O  O61  1  0.5340  0.5984  0.0517  1\n  O  O62  1  0.1725  0.7449  0.9625  1\n  O  O63  1  0.7449  0.1725  0.4625  1\n  O  O64  1  0.8414  0.8440  0.4202  1\n  O  O65  1  0.8440  0.8414  0.9202  1\n  O  O66  1  0.1996  0.8699  0.1319  1\n  O  O67  1  0.8699  0.1996  0.6319  1\n  O  O68  1  0.2005  0.8527  0.6278  1\n  O  O69  1  0.8527  0.2005  0.1278  1\n  O  O70  1  0.4841  0.1110  0.4924  1\n  O  O71  1  0.1110  0.4841  0.9924  1\n  O  O72  1  0.3282  0.2070  0.5737  1\n  O  O73  1  0.2070  0.3282  0.0737  1\n  O  O74  1  0.2290  0.0816  0.4314  1\n  O  O75  1  0.0816  0.2290  0.9314  1\n  O  O76  1  0.1150  0.0734  0.1584  1\n  O  O77  1  0.0734  0.1150  0.6584  1\n",
    "output": "data_image0\n_chemical_formula_structural       Cr6P5OP12O48PO5\n_chemical_formula_sum              \"Cr6 P18 O54\"\n_cell_length_a       11.7447\n_cell_length_b       11.7447\n_cell_length_c       9.5467\n_cell_angle_alpha    70.1457\n_cell_angle_beta     70.1457\n_cell_angle_gamma    111.0650\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cr  Cr1       1.0000  0.0211  0.8591  0.2725  1.0000\n  Cr  Cr2       1.0000  0.8591  0.0211  0.7725  1.0000\n  Cr  Cr3       1.0000  0.1686  0.6716  0.8024  1.0000\n  Cr  Cr4       1.0000  0.6716  0.1686  0.3024  1.0000\n  Cr  Cr5       1.0000  0.5294  0.3543  0.7695  1.0000\n  Cr  Cr6       1.0000  0.3543  0.5294  0.2695  1.0000\n  P   P1        1.0000  0.7778  0.8434  0.5864  1.0000\n  P   P2        1.0000  0.8434  0.7778  0.0864  1.0000\n  P   P3        1.0000  0.0967  0.4885  0.6160  1.0000\n  P   P4        1.0000  0.4885  0.0967  0.1160  1.0000\n  P   P5        1.0000  0.1521  0.4240  0.1190  1.0000\n  O   O1        1.0000  0.4240  0.1521  0.6190  1.0000\n  P   P6        1.0000  0.2198  0.1836  0.5054  1.0000\n  P   P7        1.0000  0.1836  0.2198  0.0054  1.0000\n  P   P8        1.0000  0.8775  0.5045  0.5182  1.0000\n  P   P9        1.0000  0.5045  0.8775  0.0182  1.0000\n  P   P10       1.0000  0.6111  0.5613  0.9316  1.0000\n  P   P11       1.0000  0.5613  0.6111  0.4316  1.0000\n  P   P12       1.0000  0.8138  0.5214  0.0554  1.0000\n  P   P13       1.0000  0.5214  0.8138  0.5554  1.0000\n  P   P14       1.0000  0.8709  0.2637  0.4655  1.0000\n  P   P15       1.0000  0.2637  0.8709  0.9655  1.0000\n  P   P16       1.0000  0.2029  0.9292  0.4643  1.0000\n  P   P17       1.0000  0.9292  0.2029  0.9643  1.0000\n  O   O2        1.0000  0.8190  0.6234  0.1334  1.0000\n  O   O3        1.0000  0.6234  0.8190  0.6334  1.0000\n  O   O4        1.0000  0.9136  0.6453  0.3848  1.0000\n  O   O5        1.0000  0.6453  0.9136  0.8848  1.0000\n  O   O6        1.0000  0.0764  0.8520  0.4524  1.0000\n  O   O7        1.0000  0.8520  0.0764  0.9524  1.0000\n  O   O8        1.0000  0.9568  0.5883  0.8970  1.0000\n  O   O9        1.0000  0.5883  0.9568  0.3970  1.0000\n  O   O10       1.0000  0.6009  0.1871  0.1385  1.0000\n  O   O11       1.0000  0.1871  0.6009  0.6385  1.0000\n  O   O12       1.0000  0.5218  0.4524  0.9044  1.0000\n  O   O13       1.0000  0.4524  0.5218  0.4044  1.0000\n  O   O14       1.0000  0.7013  0.5088  0.9953  1.0000\n  O   O15       1.0000  0.5088  0.7013  0.4953  1.0000\n  O   O16       1.0000  0.9709  0.8669  0.0893  1.0000\n  O   O17       1.0000  0.8669  0.9709  0.5893  1.0000\n  O   O18       1.0000  0.7482  0.3773  0.2114  1.0000\n  O   O19       1.0000  0.3773  0.7482  0.7114  1.0000\n  O   O20       1.0000  0.0025  0.5389  0.5587  1.0000\n  O   O21       1.0000  0.5389  0.0025  0.0587  1.0000\n  O   O22       1.0000  0.5306  0.2589  0.6324  1.0000\n  O   O23       1.0000  0.2589  0.5306  0.1324  1.0000\n  O   O24       1.0000  0.3243  0.2834  0.8449  1.0000\n  O   O25       1.0000  0.2834  0.3243  0.3449  1.0000\n  O   O26       1.0000  0.7391  0.7024  0.7456  1.0000\n  O   O27       1.0000  0.7024  0.7391  0.2456  1.0000\n  O   O28       1.0000  0.7355  0.4118  0.6889  1.0000\n  O   O29       1.0000  0.4118  0.7355  0.1889  1.0000\n  O   O30       1.0000  0.8953  0.4188  0.4190  1.0000\n  O   O31       1.0000  0.4188  0.8953  0.9190  1.0000\n  O   O32       1.0000  0.3023  0.0129  0.8082  1.0000\n  O   O33       1.0000  0.0129  0.3023  0.3082  1.0000\n  O   O34       1.0000  0.3454  0.9737  0.3012  1.0000\n  O   O35       1.0000  0.9737  0.3454  0.8012  1.0000\n  O   O36       1.0000  0.4558  0.1747  0.9906  1.0000\n  O   O37       1.0000  0.1747  0.4558  0.4906  1.0000\n  O   O38       1.0000  0.5984  0.5340  0.5517  1.0000\n  O   O39       1.0000  0.5340  0.5984  0.0517  1.0000\n  O   O40       1.0000  0.1725  0.7449  0.9625  1.0000\n  O   O41       1.0000  0.7449  0.1725  0.4625  1.0000\n  O   O42       1.0000  0.8414  0.8440  0.4202  1.0000\n  O   O43       1.0000  0.8440  0.8414  0.9202  1.0000\n  O   O44       1.0000  0.1996  0.8699  0.1319  1.0000\n  O   O45       1.0000  0.8699  0.1996  0.6319  1.0000\n  O   O46       1.0000  0.2005  0.8527  0.6278  1.0000\n  O   O47       1.0000  0.8527  0.2005  0.1278  1.0000\n  O   O48       1.0000  0.4841  0.1110  0.4924  1.0000\n  O   O49       1.0000  0.1110  0.4841  0.9924  1.0000\n  P   P18       1.0000  0.3282  0.2070  0.5737  1.0000\n  O   O50       1.0000  0.2070  0.3282  0.0737  1.0000\n  O   O51       1.0000  0.2290  0.0816  0.4314  1.0000\n  O   O52       1.0000  0.0816  0.2290  0.9314  1.0000\n  O   O53       1.0000  0.1150  0.0734  0.1584  1.0000\n  O   O54       1.0000  0.0734  0.1150  0.6584  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "223b99d8-5812-4260-9ed9-1de353d40cc2",
    "mp_id": "mp-9417",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Sm(CuO2)2\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   5.6892\n_cell_length_b   5.7728\n_cell_length_c   6.2671\n_cell_angle_alpha   116.7501\n_cell_angle_beta   116.3128\n_cell_angle_gamma   91.3086\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Sm(CuO2)2\n_chemical_formula_sum   'Sm2 Cu4 O8'\n_cell_volume   158.2713\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Sm  Sm0  1  0.8746  0.1246  0.7493  1\n  Sm  Sm1  1  0.1254  0.8754  0.2507  1\n  Cu  Cu2  1  0.5000  0.0000  0.0000  1\n  Cu  Cu3  1  0.5000  0.5000  0.0000  1\n  Cu  Cu4  1  -0.0000  0.5000  0.5000  1\n  Cu  Cu5  1  0.5000  0.5000  0.5000  1\n  O  O6  1  0.7130  0.5275  0.8551  1\n  O  O7  1  0.1422  0.8276  0.8551  1\n  O  O8  1  0.2870  0.4725  0.1449  1\n  O  O9  1  0.8578  0.1724  0.1449  1\n  O  O10  1  0.5374  0.1405  0.3487  1\n  O  O11  1  0.8112  0.7082  0.3486  1\n  O  O12  1  0.1888  0.2918  0.6514  1\n  O  O13  1  0.4626  0.8595  0.6513  1\n",
    "output": "data_image0\n_chemical_formula_structural       Sm2Cu2OCuO5CuO2\n_chemical_formula_sum              \"Sm2 Cu4 O8\"\n_cell_length_a       5.6892\n_cell_length_b       5.7728\n_cell_length_c       6.2671\n_cell_angle_alpha    116.7501\n_cell_angle_beta     116.3128\n_cell_angle_gamma    91.3086\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Sm  Sm1       1.0000  0.8746  0.1246  0.7493  1.0000\n  Sm  Sm2       1.0000  0.1254  0.8754  0.2507  1.0000\n  Cu  Cu1       1.0000  0.5000  0.0000  0.0000  1.0000\n  Cu  Cu2       1.0000  0.5000  0.5000  0.0000  1.0000\n  O   O1        1.0000  1.0000  0.5000  0.5000  1.0000\n  Cu  Cu3       1.0000  0.5000  0.5000  0.5000  1.0000\n  O   O2        1.0000  0.7130  0.5275  0.8551  1.0000\n  O   O3        1.0000  0.1422  0.8276  0.8551  1.0000\n  O   O4        1.0000  0.2870  0.4725  0.1449  1.0000\n  O   O5        1.0000  0.8578  0.1724  0.1449  1.0000\n  O   O6        1.0000  0.5374  0.1405  0.3487  1.0000\n  Cu  Cu4       1.0000  0.8112  0.7082  0.3486  1.0000\n  O   O7        1.0000  0.1888  0.2918  0.6514  1.0000\n  O   O8        1.0000  0.4626  0.8595  0.6513  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "f05019c4-42a1-408f-bf34-196e4517a301",
    "mp_id": "mp-978989",
    "action_prompt": "Swap the spatial positions of atoms at indices 19 and 11 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Tc7B3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4665\n_cell_length_b   7.4665\n_cell_length_c   4.8299\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   119.9998\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Tc7B3\n_chemical_formula_sum   'Tc14 B6'\n_cell_volume   233.1910\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tc  Tc0  1  0.5456  0.4544  0.0484  1\n  Tc  Tc1  1  0.4544  0.5456  0.5484  1\n  Tc  Tc2  1  0.5456  0.0913  0.0484  1\n  Tc  Tc3  1  0.9087  0.4544  0.0484  1\n  Tc  Tc4  1  0.0913  0.5456  0.5484  1\n  Tc  Tc5  1  0.4544  0.9087  0.5484  1\n  Tc  Tc6  1  0.1237  0.8763  0.2549  1\n  Tc  Tc7  1  0.8763  0.1237  0.7549  1\n  Tc  Tc8  1  0.1237  0.2474  0.2549  1\n  Tc  Tc9  1  0.7526  0.8763  0.2549  1\n  Tc  Tc10  1  0.2474  0.1237  0.7549  1\n  Tc  Tc11  1  0.8763  0.7526  0.7549  1\n  Tc  Tc12  1  0.3333  0.6667  0.0819  1\n  Tc  Tc13  1  0.6667  0.3333  0.5819  1\n  B  B14  1  0.8107  0.6215  0.3401  1\n  B  B15  1  0.1893  0.8107  0.8401  1\n  B  B16  1  0.8107  0.1893  0.3401  1\n  B  B17  1  0.3785  0.1893  0.3401  1\n  B  B18  1  0.6215  0.8107  0.8401  1\n  B  B19  1  0.1893  0.3785  0.8401  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tc11BTc2B5Tc\n_chemical_formula_sum              \"Tc14 B6\"\n_cell_length_a       7.4665\n_cell_length_b       7.4665\n_cell_length_c       4.8299\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    119.9998\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tc  Tc1       1.0000  0.5456  0.4544  0.0484  1.0000\n  Tc  Tc2       1.0000  0.4544  0.5456  0.5484  1.0000\n  Tc  Tc3       1.0000  0.5456  0.0913  0.0484  1.0000\n  Tc  Tc4       1.0000  0.9087  0.4544  0.0484  1.0000\n  Tc  Tc5       1.0000  0.0913  0.5456  0.5484  1.0000\n  Tc  Tc6       1.0000  0.4544  0.9087  0.5484  1.0000\n  Tc  Tc7       1.0000  0.1237  0.8763  0.2549  1.0000\n  Tc  Tc8       1.0000  0.8763  0.1237  0.7549  1.0000\n  Tc  Tc9       1.0000  0.1237  0.2474  0.2549  1.0000\n  Tc  Tc10      1.0000  0.7526  0.8763  0.2549  1.0000\n  Tc  Tc11      1.0000  0.2474  0.1237  0.7549  1.0000\n  B   B1        1.0000  0.8763  0.7526  0.7549  1.0000\n  Tc  Tc12      1.0000  0.3333  0.6667  0.0819  1.0000\n  Tc  Tc13      1.0000  0.6667  0.3333  0.5819  1.0000\n  B   B2        1.0000  0.8107  0.6215  0.3401  1.0000\n  B   B3        1.0000  0.1893  0.8107  0.8401  1.0000\n  B   B4        1.0000  0.8107  0.1893  0.3401  1.0000\n  B   B5        1.0000  0.3785  0.1893  0.3401  1.0000\n  B   B6        1.0000  0.6215  0.8107  0.8401  1.0000\n  Tc  Tc14      1.0000  0.1893  0.3785  0.8401  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ef10eae1-7111-4f58-b6f2-73ee5271bfd9",
    "mp_id": "mp-979264",
    "action_prompt": "Swap the spatial positions of atoms at indices 15 and 0 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Te6RhCl3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   9.0685\n_cell_length_b   9.0685\n_cell_length_c   9.0685\n_cell_angle_alpha   107.8302\n_cell_angle_beta   107.8302\n_cell_angle_gamma   107.8302\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Te6RhCl3\n_chemical_formula_sum   'Te12 Rh2 Cl6'\n_cell_volume   606.4810\n_cell_formula_units_Z   2\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Te  Te0  1  0.8109  0.8270  0.0798  1\n  Te  Te1  1  0.0798  0.8109  0.8270  1\n  Te  Te2  1  0.8270  0.0798  0.8109  1\n  Te  Te3  1  0.6730  0.6891  0.4202  1\n  Te  Te4  1  0.6891  0.4202  0.6730  1\n  Te  Te5  1  0.4202  0.6730  0.6891  1\n  Te  Te6  1  0.1891  0.1730  0.9202  1\n  Te  Te7  1  0.9202  0.1891  0.1730  1\n  Te  Te8  1  0.1730  0.9202  0.1891  1\n  Te  Te9  1  0.3270  0.3109  0.5798  1\n  Te  Te10  1  0.3109  0.5798  0.3270  1\n  Te  Te11  1  0.5798  0.3270  0.3109  1\n  Rh  Rh12  1  0.7500  0.7500  0.7500  1\n  Rh  Rh13  1  0.2500  0.2500  0.2500  1\n  Cl  Cl14  1  0.0143  0.7500  0.4857  1\n  Cl  Cl15  1  0.7500  0.4857  0.0143  1\n  Cl  Cl16  1  0.4857  0.0143  0.7500  1\n  Cl  Cl17  1  0.9857  0.2500  0.5143  1\n  Cl  Cl18  1  0.2500  0.5143  0.9857  1\n  Cl  Cl19  1  0.5143  0.9857  0.2500  1\n",
    "output": "data_image0\n_chemical_formula_structural       ClTe11Rh2ClTeCl4\n_chemical_formula_sum              \"Cl6 Te12 Rh2\"\n_cell_length_a       9.0685\n_cell_length_b       9.0685\n_cell_length_c       9.0685\n_cell_angle_alpha    107.8302\n_cell_angle_beta     107.8302\n_cell_angle_gamma    107.8302\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Cl  Cl1       1.0000  0.8109  0.8270  0.0798  1.0000\n  Te  Te1       1.0000  0.0798  0.8109  0.8270  1.0000\n  Te  Te2       1.0000  0.8270  0.0798  0.8109  1.0000\n  Te  Te3       1.0000  0.6730  0.6891  0.4202  1.0000\n  Te  Te4       1.0000  0.6891  0.4202  0.6730  1.0000\n  Te  Te5       1.0000  0.4202  0.6730  0.6891  1.0000\n  Te  Te6       1.0000  0.1891  0.1730  0.9202  1.0000\n  Te  Te7       1.0000  0.9202  0.1891  0.1730  1.0000\n  Te  Te8       1.0000  0.1730  0.9202  0.1891  1.0000\n  Te  Te9       1.0000  0.3270  0.3109  0.5798  1.0000\n  Te  Te10      1.0000  0.3109  0.5798  0.3270  1.0000\n  Te  Te11      1.0000  0.5798  0.3270  0.3109  1.0000\n  Rh  Rh1       1.0000  0.7500  0.7500  0.7500  1.0000\n  Rh  Rh2       1.0000  0.2500  0.2500  0.2500  1.0000\n  Cl  Cl2       1.0000  0.0143  0.7500  0.4857  1.0000\n  Te  Te12      1.0000  0.7500  0.4857  0.0143  1.0000\n  Cl  Cl3       1.0000  0.4857  0.0143  0.7500  1.0000\n  Cl  Cl4       1.0000  0.9857  0.2500  0.5143  1.0000\n  Cl  Cl5       1.0000  0.2500  0.5143  0.9857  1.0000\n  Cl  Cl6       1.0000  0.5143  0.9857  0.2500  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "b5c2b975-19de-4ac3-a29e-7d805cdb68ea",
    "mp_id": "mp-982385",
    "action_prompt": "Swap the spatial positions of atoms at indices 23 and 10 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Np3S5\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.4776\n_cell_length_b   8.0770\n_cell_length_c   11.8413\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Np3S5\n_chemical_formula_sum   'Np12 S20'\n_cell_volume   715.1725\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Np  Np0  1  0.0216  0.0024  0.6764  1\n  Np  Np1  1  0.5216  0.9976  0.8236  1\n  Np  Np2  1  0.4784  0.4976  0.1764  1\n  Np  Np3  1  0.9784  0.5024  0.3236  1\n  Np  Np4  1  0.9784  0.9976  0.3236  1\n  Np  Np5  1  0.4784  0.0024  0.1764  1\n  Np  Np6  1  0.5216  0.5024  0.8236  1\n  Np  Np7  1  0.0216  0.4976  0.6764  1\n  Np  Np8  1  0.5606  0.2500  0.5052  1\n  Np  Np9  1  0.0606  0.7500  0.9948  1\n  Np  Np10  1  0.9394  0.2500  0.0052  1\n  Np  Np11  1  0.4394  0.7500  0.4948  1\n  S  S12  1  0.3338  0.2500  0.6881  1\n  S  S13  1  0.8338  0.7500  0.8119  1\n  S  S14  1  0.1662  0.2500  0.1881  1\n  S  S15  1  0.6662  0.7500  0.3119  1\n  S  S16  1  0.9567  0.2500  0.5012  1\n  S  S17  1  0.4567  0.7500  -0.0012  1\n  S  S18  1  0.5433  0.2500  0.0012  1\n  S  S19  1  0.0433  0.7500  0.4988  1\n  S  S20  1  0.6663  0.5376  0.5969  1\n  S  S21  1  0.1663  0.4624  0.9031  1\n  S  S22  1  0.8337  0.9624  0.0969  1\n  S  S23  1  0.3337  0.0376  0.4031  1\n  S  S24  1  0.3337  0.4624  0.4031  1\n  S  S25  1  0.8337  0.5376  0.0969  1\n  S  S26  1  0.1663  0.0376  0.9031  1\n  S  S27  1  0.6663  0.9624  0.5969  1\n  S  S28  1  0.8074  0.2500  0.7875  1\n  S  S29  1  0.3074  0.7500  0.7125  1\n  S  S30  1  0.6926  0.2500  0.2875  1\n  S  S31  1  0.1926  0.7500  0.2125  1\n",
    "output": "data_image0\n_chemical_formula_structural       Np10SNpS11NpS8\n_chemical_formula_sum              \"Np12 S20\"\n_cell_length_a       7.4776\n_cell_length_b       8.0770\n_cell_length_c       11.8413\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Np  Np1       1.0000  0.0216  0.0024  0.6764  1.0000\n  Np  Np2       1.0000  0.5216  0.9976  0.8236  1.0000\n  Np  Np3       1.0000  0.4784  0.4976  0.1764  1.0000\n  Np  Np4       1.0000  0.9784  0.5024  0.3236  1.0000\n  Np  Np5       1.0000  0.9784  0.9976  0.3236  1.0000\n  Np  Np6       1.0000  0.4784  0.0024  0.1764  1.0000\n  Np  Np7       1.0000  0.5216  0.5024  0.8236  1.0000\n  Np  Np8       1.0000  0.0216  0.4976  0.6764  1.0000\n  Np  Np9       1.0000  0.5606  0.2500  0.5052  1.0000\n  Np  Np10      1.0000  0.0606  0.7500  0.9948  1.0000\n  S   S1        1.0000  0.9394  0.2500  0.0052  1.0000\n  Np  Np11      1.0000  0.4394  0.7500  0.4948  1.0000\n  S   S2        1.0000  0.3338  0.2500  0.6881  1.0000\n  S   S3        1.0000  0.8338  0.7500  0.8119  1.0000\n  S   S4        1.0000  0.1662  0.2500  0.1881  1.0000\n  S   S5        1.0000  0.6662  0.7500  0.3119  1.0000\n  S   S6        1.0000  0.9567  0.2500  0.5012  1.0000\n  S   S7        1.0000  0.4567  0.7500  0.9988  1.0000\n  S   S8        1.0000  0.5433  0.2500  0.0012  1.0000\n  S   S9        1.0000  0.0433  0.7500  0.4988  1.0000\n  S   S10       1.0000  0.6663  0.5376  0.5969  1.0000\n  S   S11       1.0000  0.1663  0.4624  0.9031  1.0000\n  S   S12       1.0000  0.8337  0.9624  0.0969  1.0000\n  Np  Np12      1.0000  0.3337  0.0376  0.4031  1.0000\n  S   S13       1.0000  0.3337  0.4624  0.4031  1.0000\n  S   S14       1.0000  0.8337  0.5376  0.0969  1.0000\n  S   S15       1.0000  0.1663  0.0376  0.9031  1.0000\n  S   S16       1.0000  0.6663  0.9624  0.5969  1.0000\n  S   S17       1.0000  0.8074  0.2500  0.7875  1.0000\n  S   S18       1.0000  0.3074  0.7500  0.7125  1.0000\n  S   S19       1.0000  0.6926  0.2500  0.2875  1.0000\n  S   S20       1.0000  0.1926  0.7500  0.2125  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "c44083e8-8258-4ee2-a8f2-b03c09526ffa",
    "mp_id": "mp-985468",
    "action_prompt": "Swap the spatial positions of atoms at indices 7 and 1 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Er2Ga8Co\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1704\n_cell_length_b   4.1704\n_cell_length_c   10.9669\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0004\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Er2Ga8Co\n_chemical_formula_sum   'Er2 Ga8 Co1'\n_cell_volume   190.7417\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Er  Er0  1  1.0000  0.0000  0.3057  1\n  Er  Er1  1  -0.0000  -0.0000  0.6943  1\n  Ga  Ga2  1  0.5000  -0.0000  0.1159  1\n  Ga  Ga3  1  -0.0000  0.5000  0.1159  1\n  Ga  Ga4  1  0.5000  0.5000  0.3050  1\n  Ga  Ga5  1  0.5000  -0.0000  0.5000  1\n  Ga  Ga6  1  0.0000  0.5000  0.5000  1\n  Ga  Ga7  1  0.5000  0.5000  0.6950  1\n  Ga  Ga8  1  0.5000  0.0000  0.8841  1\n  Ga  Ga9  1  0.0000  0.5000  0.8841  1\n  Co  Co10  1  0.0000  0.0000  -0.0000  1\n",
    "output": "data_image0\n_chemical_formula_structural       ErGa6ErGa2Co\n_chemical_formula_sum              \"Er2 Ga8 Co1\"\n_cell_length_a       4.1704\n_cell_length_b       4.1704\n_cell_length_c       10.9669\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0004\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Er  Er1       1.0000  1.0000  1e-06  0.3057  1.0000\n  Ga  Ga1       1.0000  0.0000  0.0000  0.6943  1.0000\n  Ga  Ga2       1.0000  0.5000  0.0000  0.1159  1.0000\n  Ga  Ga3       1.0000  0.0000  0.5000  0.1159  1.0000\n  Ga  Ga4       1.0000  0.5000  0.5000  0.3050  1.0000\n  Ga  Ga5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Ga  Ga6       1.0000  1e-06  0.5000  0.5000  1.0000\n  Er  Er2       1.0000  0.5000  0.5000  0.6950  1.0000\n  Ga  Ga7       1.0000  0.5000  0.0000  0.8841  1.0000\n  Ga  Ga8       1.0000  0.0000  0.5000  0.8841  1.0000\n  Co  Co1       1.0000  1e-06  0.0000  0.0000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "23ce5960-750c-4967-8633-8e96b8b8d81b",
    "mp_id": "mp-991772",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 12 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_Pr7O12\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   6.1383\n_cell_length_b   8.6809\n_cell_length_c   8.6809\n_cell_angle_alpha   120.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   Pr7O12\n_chemical_formula_sum   'Pr7 O12'\n_cell_volume   400.6033\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Pr  Pr0  1  0.0000  0.0000  0.0000  1\n  Pr  Pr1  1  0.8612  0.6081  0.3072  1\n  Pr  Pr2  1  0.6991  0.1388  0.5307  1\n  Pr  Pr3  1  0.3919  0.3009  0.1621  1\n  Pr  Pr4  1  0.1388  0.3919  0.6928  1\n  Pr  Pr5  1  0.3009  0.8612  0.4693  1\n  Pr  Pr6  1  0.6081  0.6991  0.8379  1\n  O  O7  1  0.9338  0.6744  0.7349  1\n  O  O8  1  0.0605  0.0662  0.3918  1\n  O  O9  1  0.3256  0.9395  0.8733  1\n  O  O10  1  0.0662  0.3256  0.2651  1\n  O  O11  1  0.9395  0.9338  0.6082  1\n  O  O12  1  0.6744  0.0605  0.1267  1\n  O  O13  1  0.5809  0.8210  0.2593  1\n  O  O14  1  0.4383  0.4191  0.5981  1\n  O  O15  1  0.1790  0.5617  0.1426  1\n  O  O16  1  0.4191  0.1790  0.7407  1\n  O  O17  1  0.5617  0.5809  0.4019  1\n  O  O18  1  0.8210  0.4383  0.8574  1\n",
    "output": "data_image0\n_chemical_formula_structural       Pr4OPr2O5PrO6\n_chemical_formula_sum              \"Pr7 O12\"\n_cell_length_a       6.1383\n_cell_length_b       8.6809\n_cell_length_c       8.6809\n_cell_angle_alpha    120.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Pr  Pr1       1.0000  0.0000  0.0000  0.0000  1.0000\n  Pr  Pr2       1.0000  0.8612  0.6081  0.3072  1.0000\n  Pr  Pr3       1.0000  0.6991  0.1388  0.5307  1.0000\n  Pr  Pr4       1.0000  0.3919  0.3009  0.1621  1.0000\n  O   O1        1.0000  0.1388  0.3919  0.6928  1.0000\n  Pr  Pr5       1.0000  0.3009  0.8612  0.4693  1.0000\n  Pr  Pr6       1.0000  0.6081  0.6991  0.8379  1.0000\n  O   O2        1.0000  0.9338  0.6744  0.7349  1.0000\n  O   O3        1.0000  0.0605  0.0662  0.3918  1.0000\n  O   O4        1.0000  0.3256  0.9395  0.8733  1.0000\n  O   O5        1.0000  0.0662  0.3256  0.2651  1.0000\n  O   O6        1.0000  0.9395  0.9338  0.6082  1.0000\n  Pr  Pr7       1.0000  0.6744  0.0605  0.1267  1.0000\n  O   O7        1.0000  0.5809  0.8210  0.2593  1.0000\n  O   O8        1.0000  0.4383  0.4191  0.5981  1.0000\n  O   O9        1.0000  0.1790  0.5617  0.1426  1.0000\n  O   O10       1.0000  0.4191  0.1790  0.7407  1.0000\n  O   O11       1.0000  0.5617  0.5809  0.4019  1.0000\n  O   O12       1.0000  0.8210  0.4383  0.8574  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "ab93f2d6-d22f-43f9-8be7-01e158a8ea2c",
    "mp_id": "mp-997585",
    "action_prompt": "Swap the spatial positions of atoms at indices 4 and 20 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_La8Al7GaO24\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   7.6521\n_cell_length_b   7.6521\n_cell_length_c   7.6521\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   La8Al7GaO24\n_chemical_formula_sum   'La8 Al7 Ga1 O24'\n_cell_volume   448.0743\n_cell_formula_units_Z   1\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  La  La0  1  0.2502  0.2502  0.2502  1\n  La  La1  1  0.2502  0.2502  0.7498  1\n  La  La2  1  0.2502  0.7498  0.2502  1\n  La  La3  1  0.2502  0.7498  0.7498  1\n  La  La4  1  0.7498  0.2502  0.2502  1\n  La  La5  1  0.7498  0.2502  0.7498  1\n  La  La6  1  0.7498  0.7498  0.2502  1\n  La  La7  1  0.7498  0.7498  0.7498  1\n  Al  Al8  1  0.0000  0.0000  0.5000  1\n  Al  Al9  1  0.0000  0.5000  0.0000  1\n  Al  Al10  1  0.0000  0.5000  0.5000  1\n  Al  Al11  1  0.5000  0.0000  0.0000  1\n  Al  Al12  1  0.5000  0.0000  0.5000  1\n  Al  Al13  1  0.5000  0.5000  0.0000  1\n  Al  Al14  1  0.5000  0.5000  0.5000  1\n  Ga  Ga15  1  0.0000  0.0000  0.0000  1\n  O  O16  1  0.0000  0.2557  0.0000  1\n  O  O17  1  0.0000  0.2504  0.5000  1\n  O  O18  1  0.0000  0.7443  0.0000  1\n  O  O19  1  0.0000  0.7496  0.5000  1\n  O  O20  1  0.5000  0.2504  0.0000  1\n  O  O21  1  0.5000  0.2501  0.5000  1\n  O  O22  1  0.5000  0.7496  0.0000  1\n  O  O23  1  0.5000  0.7499  0.5000  1\n  O  O24  1  0.0000  0.0000  0.2557  1\n  O  O25  1  0.0000  0.0000  0.7443  1\n  O  O26  1  0.0000  0.5000  0.2504  1\n  O  O27  1  0.0000  0.5000  0.7496  1\n  O  O28  1  0.5000  0.0000  0.2504  1\n  O  O29  1  0.5000  0.0000  0.7496  1\n  O  O30  1  0.5000  0.5000  0.2501  1\n  O  O31  1  0.5000  0.5000  0.7499  1\n  O  O32  1  0.2557  0.0000  0.0000  1\n  O  O33  1  0.2504  0.0000  0.5000  1\n  O  O34  1  0.2504  0.5000  0.0000  1\n  O  O35  1  0.2501  0.5000  0.5000  1\n  O  O36  1  0.7443  0.0000  0.0000  1\n  O  O37  1  0.7496  0.0000  0.5000  1\n  O  O38  1  0.7496  0.5000  0.0000  1\n  O  O39  1  0.7499  0.5000  0.5000  1\n",
    "output": "data_image0\n_chemical_formula_structural       La4OLa3Al7GaO4LaO19\n_chemical_formula_sum              \"La8 O24 Al7 Ga1\"\n_cell_length_a       7.6521\n_cell_length_b       7.6521\n_cell_length_c       7.6521\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  La  La1       1.0000  0.2502  0.2502  0.2502  1.0000\n  La  La2       1.0000  0.2502  0.2502  0.7498  1.0000\n  La  La3       1.0000  0.2502  0.7498  0.2502  1.0000\n  La  La4       1.0000  0.2502  0.7498  0.7498  1.0000\n  O   O1        1.0000  0.7498  0.2502  0.2502  1.0000\n  La  La5       1.0000  0.7498  0.2502  0.7498  1.0000\n  La  La6       1.0000  0.7498  0.7498  0.2502  1.0000\n  La  La7       1.0000  0.7498  0.7498  0.7498  1.0000\n  Al  Al1       1.0000  0.0000  0.0000  0.5000  1.0000\n  Al  Al2       1.0000  0.0000  0.5000  0.0000  1.0000\n  Al  Al3       1.0000  0.0000  0.5000  0.5000  1.0000\n  Al  Al4       1.0000  0.5000  0.0000  0.0000  1.0000\n  Al  Al5       1.0000  0.5000  0.0000  0.5000  1.0000\n  Al  Al6       1.0000  0.5000  0.5000  0.0000  1.0000\n  Al  Al7       1.0000  0.5000  0.5000  0.5000  1.0000\n  Ga  Ga1       1.0000  0.0000  0.0000  0.0000  1.0000\n  O   O2        1.0000  0.0000  0.2557  0.0000  1.0000\n  O   O3        1.0000  0.0000  0.2504  0.5000  1.0000\n  O   O4        1.0000  0.0000  0.7443  0.0000  1.0000\n  O   O5        1.0000  0.0000  0.7496  0.5000  1.0000\n  La  La8       1.0000  0.5000  0.2504  0.0000  1.0000\n  O   O6        1.0000  0.5000  0.2501  0.5000  1.0000\n  O   O7        1.0000  0.5000  0.7496  0.0000  1.0000\n  O   O8        1.0000  0.5000  0.7499  0.5000  1.0000\n  O   O9        1.0000  0.0000  0.0000  0.2557  1.0000\n  O   O10       1.0000  0.0000  0.0000  0.7443  1.0000\n  O   O11       1.0000  0.0000  0.5000  0.2504  1.0000\n  O   O12       1.0000  0.0000  0.5000  0.7496  1.0000\n  O   O13       1.0000  0.5000  0.0000  0.2504  1.0000\n  O   O14       1.0000  0.5000  0.0000  0.7496  1.0000\n  O   O15       1.0000  0.5000  0.5000  0.2501  1.0000\n  O   O16       1.0000  0.5000  0.5000  0.7499  1.0000\n  O   O17       1.0000  0.2557  0.0000  0.0000  1.0000\n  O   O18       1.0000  0.2504  0.0000  0.5000  1.0000\n  O   O19       1.0000  0.2504  0.5000  0.0000  1.0000\n  O   O20       1.0000  0.2501  0.5000  0.5000  1.0000\n  O   O21       1.0000  0.7443  0.0000  0.0000  1.0000\n  O   O22       1.0000  0.7496  0.0000  0.5000  1.0000\n  O   O23       1.0000  0.7496  0.5000  0.0000  1.0000\n  O   O24       1.0000  0.7499  0.5000  0.5000  1.0000\n"
  },
  {
    "action_type": "SwapAtomsAction",
    "problem_id": "0a395f42-0372-4939-b40f-395ef671f9a8",
    "mp_id": "mp-998746",
    "action_prompt": "Swap the spatial positions of atoms at indices 12 and 7 in the cif file. The indices of atoms are started from 0.",
    "input": "# generated using pymatgen\ndata_TlGeBr3\n_symmetry_space_group_name_H-M   'P 1'\n_cell_length_a   4.1812\n_cell_length_b   9.5026\n_cell_length_c   15.5490\n_cell_angle_alpha   90.0000\n_cell_angle_beta   90.0000\n_cell_angle_gamma   90.0000\n_symmetry_Int_Tables_number   1\n_chemical_formula_structural   TlGeBr3\n_chemical_formula_sum   'Tl4 Ge4 Br12'\n_cell_volume   617.8031\n_cell_formula_units_Z   4\nloop_\n _symmetry_equiv_pos_site_id\n _symmetry_equiv_pos_as_xyz\n  1  'x, y, z'\nloop_\n _atom_site_type_symbol\n _atom_site_label\n _atom_site_symmetry_multiplicity\n _atom_site_fract_x\n _atom_site_fract_y\n _atom_site_fract_z\n _atom_site_occupancy\n  Tl  Tl0  1  0.7500  0.0790  0.6686  1\n  Tl  Tl1  1  0.2500  0.9210  0.3314  1\n  Tl  Tl2  1  0.7500  0.5790  0.8314  1\n  Tl  Tl3  1  0.2500  0.4210  0.1686  1\n  Ge  Ge4  1  0.2500  0.1618  0.9361  1\n  Ge  Ge5  1  0.7500  0.8382  0.0639  1\n  Ge  Ge6  1  0.2500  0.6618  0.5639  1\n  Ge  Ge7  1  0.7500  0.3382  0.4361  1\n  Br  Br8  1  0.7500  0.3328  0.0036  1\n  Br  Br9  1  0.2500  0.6672  0.9964  1\n  Br  Br10  1  0.7500  0.8328  0.4964  1\n  Br  Br11  1  0.2500  0.1672  0.5036  1\n  Br  Br12  1  0.2500  0.0176  0.1199  1\n  Br  Br13  1  0.7500  0.9824  0.8801  1\n  Br  Br14  1  0.2500  0.5176  0.3801  1\n  Br  Br15  1  0.7500  0.4824  0.6199  1\n  Br  Br16  1  0.2500  0.2966  0.7927  1\n  Br  Br17  1  0.7500  0.7034  0.2073  1\n  Br  Br18  1  0.2500  0.7966  0.7073  1\n  Br  Br19  1  0.7500  0.2034  0.2927  1\n",
    "output": "data_image0\n_chemical_formula_structural       Tl4Ge3Br5GeBr7\n_chemical_formula_sum              \"Tl4 Ge4 Br12\"\n_cell_length_a       4.1812\n_cell_length_b       9.5026\n_cell_length_c       15.5490\n_cell_angle_alpha    90.0000\n_cell_angle_beta     90.0000\n_cell_angle_gamma    90.0000\n\n_space_group_name_H-M_alt    \"P 1\"\n_space_group_IT_number       1\n\nloop_\n  _space_group_symop_operation_xyz\n  'x, y, z'\n\nloop_\n  _atom_site_type_symbol\n  _atom_site_label\n  _atom_site_symmetry_multiplicity\n  _atom_site_fract_x\n  _atom_site_fract_y\n  _atom_site_fract_z\n  _atom_site_occupancy\n  Tl  Tl1       1.0000  0.7500  0.0790  0.6686  1.0000\n  Tl  Tl2       1.0000  0.2500  0.9210  0.3314  1.0000\n  Tl  Tl3       1.0000  0.7500  0.5790  0.8314  1.0000\n  Tl  Tl4       1.0000  0.2500  0.4210  0.1686  1.0000\n  Ge  Ge1       1.0000  0.2500  0.1618  0.9361  1.0000\n  Ge  Ge2       1.0000  0.7500  0.8382  0.0639  1.0000\n  Ge  Ge3       1.0000  0.2500  0.6618  0.5639  1.0000\n  Br  Br1       1.0000  0.7500  0.3382  0.4361  1.0000\n  Br  Br2       1.0000  0.7500  0.3328  0.0036  1.0000\n  Br  Br3       1.0000  0.2500  0.6672  0.9964  1.0000\n  Br  Br4       1.0000  0.7500  0.8328  0.4964  1.0000\n  Br  Br5       1.0000  0.2500  0.1672  0.5036  1.0000\n  Ge  Ge4       1.0000  0.2500  0.0176  0.1199  1.0000\n  Br  Br6       1.0000  0.7500  0.9824  0.8801  1.0000\n  Br  Br7       1.0000  0.2500  0.5176  0.3801  1.0000\n  Br  Br8       1.0000  0.7500  0.4824  0.6199  1.0000\n  Br  Br9       1.0000  0.2500  0.2966  0.7927  1.0000\n  Br  Br10      1.0000  0.7500  0.7034  0.2073  1.0000\n  Br  Br11      1.0000  0.2500  0.7966  0.7073  1.0000\n  Br  Br12      1.0000  0.7500  0.2034  0.2927  1.0000\n"
  }
]