prompt stringlengths 174 59.5k | completion stringlengths 7 228 | api stringlengths 12 64 |
|---|---|---|
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | FieldVariable('u-1', 'unknown', field) | sfepy.discrete.FieldVariable |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | FieldVariable('u%d' % ii, 'unknown', field) | sfepy.discrete.FieldVariable |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | TimeStepper(0.0, 1.0, 1.0, 5) | sfepy.solvers.ts.TimeStepper |
"""
Basic uniform mesh refinement functions.
"""
import numpy as nm
from sfepy.discrete.fem import Mesh
def refine_2_3(mesh_in):
"""
Refines mesh out of triangles by cutting cutting each edge in half
and making 4 new finer triangles out of one coarser one.
"""
cmesh = mesh_in.cmesh
# Unique e... | FEDomain('aux', mesh) | sfepy.discrete.fem.FEDomain |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | assert_(1 <= dim <= 3) | sfepy.base.base.assert_ |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('generating %d vertices...' % n_nod, verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done', verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('generating %d cells...' % n_el, verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done', verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | Mesh.from_data(name, coors, None, [conn], [mat_ids], [desc]) | sfepy.discrete.fem.mesh.Mesh.from_data |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('generating %d vertices...' % n_nod, verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | assert_(ii == n_nod) | sfepy.base.base.assert_ |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done', verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('generating %d cells...' % n_el, verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | cycle([nr-1, nnfi, nl-1]) | sfepy.linalg.cycle |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done', verbose=verbose) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | Mesh.from_data(name, coors, None, [conn], [mat_id], [desc]) | sfepy.discrete.fem.mesh.Mesh.from_data |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | match_grid_plane(coors[s1], coors[s2], idim) | sfepy.discrete.fem.periodic.match_grid_plane |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('repeating %s ...' % grid) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done') | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | assert_(kind == 'cube') | sfepy.base.base.assert_ |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output(args) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | ensure_path(filename) | sfepy.base.ioutils.ensure_path |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('creating new cube mesh') | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('to file %s...' % filename) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done') | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | ensure_path(filename) | sfepy.base.ioutils.ensure_path |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('to file %s...' % filename) | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | output('...done') | sfepy.base.base.output |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | Mesh.from_file(bname + '.1.node') | sfepy.discrete.fem.mesh.Mesh.from_file |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | Mesh.from_file(bname + '.1.vtk') | sfepy.discrete.fem.mesh.Mesh.from_file |
from __future__ import print_function
from __future__ import absolute_import
import numpy as nm
import sys
from six.moves import range
sys.path.append('.')
from sfepy.base.base import output, assert_
from sfepy.base.ioutils import ensure_path
from sfepy.linalg import cycle
from sfepy.discrete.fem.mesh import Mesh
from... | elems_q2t(elems) | sfepy.mesh.mesh_tools.elems_q2t |
# 30.05.2007, c
# last revision: 25.02.2008
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/2d/square_unit_tri.mesh'
material_1 = {
'name' : 'coef',
'values' : {
'val' : 1.0,
},
}
material_2 = {
'name' : 'm',
'values' : {
... | solve_pde(conf, save_results=False) | sfepy.applications.solve_pde |
# 30.05.2007, c
# last revision: 25.02.2008
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/2d/square_unit_tri.mesh'
material_1 = {
'name' : 'coef',
'values' : {
'val' : 1.0,
},
}
material_2 = {
'name' : 'm',
'values' : {
... | Material.from_conf(conf_m, problem.functions) | sfepy.discrete.Material.from_conf |
# 30.05.2007, c
# last revision: 25.02.2008
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/2d/square_unit_tri.mesh'
material_1 = {
'name' : 'coef',
'values' : {
'val' : 1.0,
},
}
material_2 = {
'name' : 'm',
'values' : {
... | rotation_matrix2d(0) | sfepy.linalg.rotation_matrix2d |
import numpy as nm
from sfepy.mechanics.matcoefs import stiffness_from_youngpoisson
from sfepy.discrete.fem.meshio import UserMeshIO
from sfepy.mesh.mesh_generators import gen_block_mesh
from sfepy import data_dir
def mesh_hook(mesh, mode):
if mode == 'read':
mesh = gen_block_mesh([0.0098, 0.0011, 0.1], [... | UserMeshIO(mesh_hook) | sfepy.discrete.fem.meshio.UserMeshIO |
import numpy as nm
from sfepy.mechanics.matcoefs import stiffness_from_youngpoisson
from sfepy.discrete.fem.meshio import UserMeshIO
from sfepy.mesh.mesh_generators import gen_block_mesh
from sfepy import data_dir
def mesh_hook(mesh, mode):
if mode == 'read':
mesh = gen_block_mesh([0.0098, 0.0011, 0.1], [... | stiffness_from_youngpoisson(3, 150.0e9, 0.3) | sfepy.mechanics.matcoefs.stiffness_from_youngpoisson |
# -*- coding: utf-8 -*-
"""
Fields for Discontinous Galerkin method
"""
import numpy as nm
import six
from numpy.lib.stride_tricks import as_strided
from six.moves import range
from sfepy.base.base import (output, assert_, Struct)
from sfepy.discrete import Integral, PolySpace
from sfepy.discrete.common.fields import ... | parse_shape(shape, region.domain.shape.dim) | sfepy.discrete.common.fields.parse_shape |
# -*- coding: utf-8 -*-
"""
Fields for Discontinous Galerkin method
"""
import numpy as nm
import six
from numpy.lib.stride_tricks import as_strided
from six.moves import range
from sfepy.base.base import (output, assert_, Struct)
from sfepy.discrete import Integral, PolySpace
from sfepy.discrete.common.fields import ... | VolumeMapping(coors, conn, poly_space=geo_ps) | sfepy.discrete.fem.mappings.VolumeMapping |
# -*- coding: utf-8 -*-
"""
Fields for Discontinous Galerkin method
"""
import numpy as nm
import six
from numpy.lib.stride_tricks import as_strided
from six.moves import range
from sfepy.base.base import (output, assert_, Struct)
from sfepy.discrete import Integral, PolySpace
from sfepy.discrete.common.fields import ... | Struct(mode="cell", data=udofs[:, i, None, None]) | sfepy.base.base.Struct |
from __future__ import absolute_import
input_name = '../examples/multi_physics/piezo_elasticity.py'
output_name = 'test_piezo_elasticity.vtk'
from tests_basic import TestInput
class Test( TestInput ):
def from_conf( conf, options ):
return TestInput.from_conf( conf, options, cls = Test )
from_conf =... | Problem.from_conf(self.test_conf) | sfepy.discrete.Problem.from_conf |
"""
Finite element reference mappings.
"""
import numpy as nm
from sfepy import Config
from sfepy.base.base import get_default, output
from sfepy.base.mem_usage import raise_if_too_large
from sfepy.discrete.common.mappings import Mapping
from sfepy.discrete.common.extmods.mappings import CMapping
from sfepy.discrete i... | get_default(poly_space, self.poly_space) | sfepy.base.base.get_default |
"""
Finite element reference mappings.
"""
import numpy as nm
from sfepy import Config
from sfepy.base.base import get_default, output
from sfepy.base.mem_usage import raise_if_too_large
from sfepy.discrete.common.mappings import Mapping
from sfepy.discrete.common.extmods.mappings import CMapping
from sfepy.discrete i... | Config() | sfepy.Config |
"""
Finite element reference mappings.
"""
import numpy as nm
from sfepy import Config
from sfepy.base.base import get_default, output
from sfepy.base.mem_usage import raise_if_too_large
from sfepy.discrete.common.mappings import Mapping
from sfepy.discrete.common.extmods.mappings import CMapping
from sfepy.discrete i... | get_default(poly_space, self.poly_space) | sfepy.base.base.get_default |
r"""
Incompressible Stokes flow with Navier (slip) boundary conditions, flow driven
by a moving wall and a small diffusion for stabilization.
This example demonstrates the use of `no-penetration` boundary conditions as
well as `edge direction` boundary conditions together with Navier or slip
boundary conditions.
Find... | UserMeshIO(mesh_hook) | sfepy.discrete.fem.meshio.UserMeshIO |
r"""
Incompressible Stokes flow with Navier (slip) boundary conditions, flow driven
by a moving wall and a small diffusion for stabilization.
This example demonstrates the use of `no-penetration` boundary conditions as
well as `edge direction` boundary conditions together with Navier or slip
boundary conditions.
Find... | define_box_regions(3, 0.5 * dims) | sfepy.homogenization.utils.define_box_regions |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(conf, self.conf) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(mtx_m, self.mtx_m) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(mtx_d, self.mtx_d) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(mtx_k, self.mtx_k) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(n_eigs, self.n_eigs) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(eigenvectors, self.eigenvectors) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | get_default(status, self.status) | sfepy.base.base.get_default |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_m, mtx_m.T) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_d, mtx_d.T) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_k, mtx_k.T) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_m, mtx_m.H) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_d, mtx_d.H) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_k, mtx_k.H) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_a, mtx_a.T) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_a, mtx_a.H) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_b, mtx_b.T) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_b, mtx_b.H) | sfepy.linalg.utils.max_diff_csr |
"""
Quadratic eigenvalue problem solvers.
"""
from __future__ import absolute_import
import time
import numpy as nm
import scipy.sparse as sps
from sfepy.base.base import output, get_default
from sfepy.linalg.utils import max_diff_csr
from sfepy.solvers.solvers import QuadraticEVPSolver
def standard_call(call):
... | max_diff_csr(mtx_m, mtx_l * mtx_l.T) | sfepy.linalg.utils.max_diff_csr |
from sfepy.terms.terms import *
from sfepy.linalg import dot_sequences
class NonPenetrationTerm(Term):
r"""
:Description:
Non-penetration condition in the weak sense.
:Definition:
.. math::
\int_{\Gamma} \lambda \ul{n} \cdot \ul{v} \mbox{ , }
\int_{\Gamma} \hat\lambda \ul{n} \cdot ... | dot_sequences(ebf_t, normals, use_rows=True) | sfepy.linalg.dot_sequences |
from sfepy.terms.terms import *
from sfepy.linalg import dot_sequences
class NonPenetrationTerm(Term):
r"""
:Description:
Non-penetration condition in the weak sense.
:Definition:
.. math::
\int_{\Gamma} \lambda \ul{n} \cdot \ul{v} \mbox{ , }
\int_{\Gamma} \hat\lambda \ul{n} \cdot ... | dot_sequences(ebf_t, nl, use_rows=True) | sfepy.linalg.dot_sequences |
r"""
Diametrically point loaded 2-D disk with postprocessing and probes. See
:ref:`sec-primer`.
Find :math:`\ul{u}` such that:
.. math::
\int_{\Omega} D_{ijkl}\ e_{ij}(\ul{v}) e_{kl}(\ul{u})
= 0
\;, \quad \forall \ul{v} \;,
where
.. math::
D_{ijkl} = \mu (\delta_{ik} \delta_{jl}+\delta_{il} \delta_{... | Probe(out, pb.domain.mesh, probe_view=True) | sfepy.postprocess.probes_vtk.Probe |
r"""
Diametrically point loaded 2-D disk with postprocessing and probes. See
:ref:`sec-primer`.
Find :math:`\ul{u}` such that:
.. math::
\int_{\Omega} D_{ijkl}\ e_{ij}(\ul{v}) e_{kl}(\ul{u})
= 0
\;, \quad \forall \ul{v} \;,
where
.. math::
D_{ijkl} = \mu (\delta_{ik} \delta_{jl}+\delta_{il} \delta_{... | stiffness_from_youngpoisson(2, young, poisson) | sfepy.mechanics.matcoefs.stiffness_from_youngpoisson |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | output.set_output(quiet=True) | sfepy.base.base.output.set_output |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | EssentialBC("fix_points_BC", x, cond) | sfepy.discrete.conditions.EssentialBC |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Function("material_func", _material_func_) | sfepy.discrete.Function |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Domain("domain", x) | sfepy.discrete.fem.FEDomain |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Field.from_args("fu", np.float64, "vector", x, approx_order=2) | sfepy.discrete.fem.Field.from_args |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Integral("i", order=4) | sfepy.discrete.Integral |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Integral("i", order=4) | sfepy.discrete.Integral |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | ScipyDirect({}) | sfepy.solvers.ls.ScipyDirect |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | FieldVariable("u", "unknown", x) | sfepy.discrete.FieldVariable |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | FieldVariable("v", "test", x, primary_var_name="u") | sfepy.discrete.FieldVariable |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Terms([x[0], x[1]]) | sfepy.terms.Terms |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Functions([x]) | sfepy.discrete.Functions |
"""All Sfepy imports go in this module
"""
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
from sfepy.discrete.fem import FEDomain as Domain
from sfepy.discrete import (
FieldVariable,
Material,
Integral,
Function,
Equation,
Equations,
Problem... | Equations([x]) | sfepy.discrete.Equations |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(solver_class, ScipyDirect) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(solver_conf, {}) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | Timer(start=True) | sfepy.base.timing.Timer |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(conf, self.conf) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(mtx, self.mtx) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(status, self.status) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(context, self.context) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | assert_(mtx.shape[0] == mtx.shape[1] == rhs.shape[0]) | sfepy.base.base.assert_ |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | Timer(start=True) | sfepy.base.timing.Timer |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(conf, self.conf) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(mtx, self.mtx) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(status, self.status) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(context, self.context) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(comm, self.comm) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | assert_(mshape[0] == mshape[1] == rshape[0]) | sfepy.base.base.assert_ |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | LinearSolver.__init__(self, conf, solve=None, **kwargs) | sfepy.solvers.solvers.LinearSolver.__init__ |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | LinearSolver.__init__(self, conf, context=context, **kwargs) | sfepy.solvers.solvers.LinearSolver.__init__ |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(eps_a, self.conf.eps_a) | sfepy.base.base.get_default |
from __future__ import absolute_import
import hashlib
import numpy as nm
import warnings
import scipy.sparse as sps
import six
from six.moves import range
warnings.simplefilter('ignore', sps.SparseEfficiencyWarning)
from sfepy.base.base import output, get_default, assert_, try_imports
from sfepy.base.timing import ... | get_default(eps_r, self.conf.eps_r) | sfepy.base.base.get_default |
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