data/manifest.json

[
  {
    "id": "AGC-0",
    "task": "attribute_group_counting",
    "category": "distributed_scanning",
    "image": "images/AGC-0.png",
    "image_sha256": "d82f8b770b02791aa925d5f6e4c085fb2241574f0d6831e2bf4cd2271cd0b253",
    "image_source_filename": "attribute_group_counting_00000.gptimage_v1_stones.png",
    "question": "How many distinct shapes are in the image? The image contains many small pieces scattered across the canvas. Two pieces belong to the same type if and only if they have exactly the same silhouette. Pieces may differ in surface texture or colour tone — only the silhouette outline matters. Count the total number of distinct silhouette types and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 3
  },
  {
    "id": "AGC-1",
    "task": "attribute_group_counting",
    "category": "distributed_scanning",
    "image": "images/AGC-1.png",
    "image_sha256": "50ff27f0e307d0352e1eeb5601acbf2ba24bbf9cd169d7caab86a47cd9cc663b",
    "image_source_filename": "attribute_group_counting_00001.gptimage_v2_cookies.png",
    "question": "How many distinct shapes are in the image? The image contains many small pieces scattered across the canvas. Two pieces belong to the same type if and only if they have exactly the same silhouette. Pieces may differ in surface texture or colour tone — only the silhouette outline matters. Count the total number of distinct silhouette types and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 5
  },
  {
    "id": "AGC-2",
    "task": "attribute_group_counting",
    "category": "distributed_scanning",
    "image": "images/AGC-2.png",
    "image_sha256": "7d05fa89c6a44d47b43b9f7c24fe3af4cf22c2b126dc1596a9ee0960981fb101",
    "image_source_filename": "attribute_group_counting_00002.gptimage_v3_leaves.png",
    "question": "How many distinct shapes are in the image? The image contains many small pieces scattered across the canvas. Two pieces belong to the same type if and only if they have exactly the same silhouette. Pieces may differ in surface texture or colour tone — only the silhouette outline matters. Count the total number of distinct silhouette types and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 6
  },
  {
    "id": "AGC-3",
    "task": "attribute_group_counting",
    "category": "distributed_scanning",
    "image": "images/AGC-3.png",
    "image_sha256": "bd07263069e58898db048120e93e1079057e7e5e4de039f70e1c199df394c6b5",
    "image_source_filename": "attribute_group_counting_00003.gptimage_v4_teacups.png",
    "question": "How many distinct shapes are in the image? The image contains many small pieces scattered across the canvas. Two pieces belong to the same type if and only if they have exactly the same silhouette. Pieces may differ in surface texture or colour tone — only the silhouette outline matters. Count the total number of distinct silhouette types and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 8
  },
  {
    "id": "AGC-4",
    "task": "attribute_group_counting",
    "category": "distributed_scanning",
    "image": "images/AGC-4.png",
    "image_sha256": "d0611a29bce166345a4409bd34c1158840e4ffc98b9214ad154b9357f5bd4ea1",
    "image_source_filename": "attribute_group_counting_00004.gptimage_v5_claytiles.png",
    "question": "How many distinct shapes are in the image? The image contains many small pieces scattered across the canvas. Two pieces belong to the same type if and only if they have exactly the same silhouette. Pieces may differ in surface texture or colour tone — only the silhouette outline matters. Count the total number of distinct silhouette types and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "BFC-0",
    "task": "bounded_faces_counting",
    "category": "distributed_scanning",
    "image": "images/BFC-0.png",
    "image_sha256": "3a249fbde7c1911df0d5f2f1f6fa294188c94a8517dbd20966d1d8bcc2d1efaa",
    "image_source_filename": "bounded_faces_counting_00000.gptimage_v1_pool1_driftwood.png",
    "question": "How many distinct enclosed regions (bounded faces) are visible in this image? An enclosed region is a maximal area that is fully surrounded by drawn lines or strands on every side, with no opening to the outside background. The unbounded outside area does not count. Each enclosed region should be counted exactly once. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 5
  },
  {
    "id": "BFC-1",
    "task": "bounded_faces_counting",
    "category": "distributed_scanning",
    "image": "images/BFC-1.png",
    "image_sha256": "1a271517410294e0cef4642f2a4244fb06b8725953e0d2a988ed670c1fe3f880",
    "image_source_filename": "bounded_faces_counting_00001.gptimage_v2_pool2_rebar.png",
    "question": "How many distinct enclosed regions (bounded faces) are visible in this image? An enclosed region is a maximal area that is fully surrounded by drawn lines or strands on every side, with no opening to the outside background. The unbounded outside area does not count. Each enclosed region should be counted exactly once. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 8
  },
  {
    "id": "BFC-2",
    "task": "bounded_faces_counting",
    "category": "distributed_scanning",
    "image": "images/BFC-2.png",
    "image_sha256": "252f724e27d6d8b6f95764c25efc26b05c3e4d979b870c22f4fe768a9a683b92",
    "image_source_filename": "bounded_faces_counting_00002.gptimage_v3_pool3_mossstone.png",
    "question": "How many distinct enclosed regions (bounded faces) are visible in this image? An enclosed region is a maximal area that is fully surrounded by drawn lines or strands on every side, with no opening to the outside background. The unbounded outside area does not count. Each enclosed region should be counted exactly once. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "BFC-3",
    "task": "bounded_faces_counting",
    "category": "distributed_scanning",
    "image": "images/BFC-3.png",
    "image_sha256": "9a1ce169b39704bb71e74d7236505504bf7bc786a6e28f8d2b9430d623fd73eb",
    "image_source_filename": "bounded_faces_counting_00003.gptimage_v4_pool4_tentstakes.png",
    "question": "How many distinct enclosed regions (bounded faces) are visible in this image? An enclosed region is a maximal area that is fully surrounded by drawn lines or strands on every side, with no opening to the outside background. The unbounded outside area does not count. Each enclosed region should be counted exactly once. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 12
  },
  {
    "id": "BFC-4",
    "task": "bounded_faces_counting",
    "category": "distributed_scanning",
    "image": "images/BFC-4.png",
    "image_sha256": "a0e9da7e438cb5ca0f21a5d734e95f3d3b199f2dad4df7066eb65d7bfc3ea729",
    "image_source_filename": "bounded_faces_counting_00004.gptimage_v5_pool5_telegraph.png",
    "question": "How many distinct enclosed regions (bounded faces) are visible in this image? An enclosed region is a maximal area that is fully surrounded by drawn lines or strands on every side, with no opening to the outside background. The unbounded outside area does not count. Each enclosed region should be counted exactly once. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 15
  },
  {
    "id": "CCC-0",
    "task": "counting_connected_components",
    "category": "distributed_scanning",
    "image": "images/CCC-0.png",
    "image_sha256": "456cf0bd3b3a832dd6b71e1610e1c324e5ffbc4bd5cdf242e89b3b74989c8cf4",
    "image_source_filename": "counting_connected_components_00000.gptimage_v1_driftwood.png",
    "question": "How many connected components are there in the image? A connected component is a maximal group of anchor points such that any two are linked by a path of one or more strands (directly or through other anchors in the same group). Anchors not linked by any chain belong to different components, even if they appear visually close. Count every connected component and report the total. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "CCC-1",
    "task": "counting_connected_components",
    "category": "distributed_scanning",
    "image": "images/CCC-1.png",
    "image_sha256": "bd91dfb264fe66cb942e6da65048f8f745f542a7f648b38728603434669d720c",
    "image_source_filename": "counting_connected_components_00001.gptimage_v2_rebar.png",
    "question": "How many connected components are there in the image? A connected component is a maximal group of anchor points such that any two are linked by a path of one or more strands (directly or through other anchors in the same group). Anchors not linked by any chain belong to different components, even if they appear visually close. Count every connected component and report the total. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 12
  },
  {
    "id": "CCC-2",
    "task": "counting_connected_components",
    "category": "distributed_scanning",
    "image": "images/CCC-2.png",
    "image_sha256": "b42a2ac6131b69280700b9f615abe5108b0ee4601d6e819c8ab05defd3c0ff30",
    "image_source_filename": "counting_connected_components_00002.gptimage_v3_mossstone.png",
    "question": "How many connected components are there in the image? A connected component is a maximal group of anchor points such that any two are linked by a path of one or more strands (directly or through other anchors in the same group). Anchors not linked by any chain belong to different components, even if they appear visually close. Count every connected component and report the total. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 15
  },
  {
    "id": "CCC-3",
    "task": "counting_connected_components",
    "category": "distributed_scanning",
    "image": "images/CCC-3.png",
    "image_sha256": "c236ae836fd47ef1d5795a6d9d110d8fb20900004eb0f29482ad03e4042a9efc",
    "image_source_filename": "counting_connected_components_00003.gptimage_v4_tentstakes.png",
    "question": "How many connected components are there in the image? A connected component is a maximal group of anchor points such that any two are linked by a path of one or more strands (directly or through other anchors in the same group). Anchors not linked by any chain belong to different components, even if they appear visually close. Count every connected component and report the total. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 18
  },
  {
    "id": "CCC-4",
    "task": "counting_connected_components",
    "category": "distributed_scanning",
    "image": "images/CCC-4.png",
    "image_sha256": "a326a583f1a1d5c3a40f71e0f7ae157cb404a16bc42284fcc97f6c2ea02b360e",
    "image_source_filename": "counting_connected_components_00004.gptimage_v5_telegraph.png",
    "question": "How many connected components are there in the image? A connected component is a maximal group of anchor points such that any two are linked by a path of one or more strands (directly or through other anchors in the same group). Anchors not linked by any chain belong to different components, even if they appear visually close. Count every connected component and report the total. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 20
  },
  {
    "id": "CR-0",
    "task": "counting_regions",
    "category": "distributed_scanning",
    "image": "images/CR-0.png",
    "image_sha256": "0ec1b5a70118a429ba78f324a46d7546a233ff36348cba4ac616ef52ce998b8f",
    "image_source_filename": "counting_regions_00000.gptimage_v8_animaltrails.png",
    "question": "How many separated regions are inside the image? A region is a maximal area filled with one continuous fill. Boundaries between regions may appear as continuous lines OR as a chain of small individual markers — discrete dots, footprints, dashes, or short segments aligned along a curve — that you must visually link together to recognize as a single boundary. Two locations belong to the same region if you can travel between them without crossing such a boundary (continuous or chained). Count every distinct region and report the total as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "CR-1",
    "task": "counting_regions",
    "category": "distributed_scanning",
    "image": "images/CR-1.png",
    "image_sha256": "9c33ca1e80167e758322379f390c3941c443d58ba49c28f9f40e7aee97ca0e58",
    "image_source_filename": "counting_regions_00001.gptimage_v9_footprintsnow.png",
    "question": "How many separated regions are inside the image? A region is a maximal area filled with one continuous fill. Boundaries between regions may appear as continuous lines OR as a chain of small individual markers — discrete dots, footprints, dashes, or short segments aligned along a curve — that you must visually link together to recognize as a single boundary. Two locations belong to the same region if you can travel between them without crossing such a boundary (continuous or chained). Count every distinct region and report the total as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 12
  },
  {
    "id": "CR-2",
    "task": "counting_regions",
    "category": "distributed_scanning",
    "image": "images/CR-2.png",
    "image_sha256": "1dd4b90d468b151f6cb322321b59de35cb50f7d7c0bb2a91433b488df3a1461d",
    "image_source_filename": "counting_regions_00002.gptimage_v13_antmarches.png",
    "question": "How many separated regions are inside the image? A region is a maximal area filled with one continuous fill. Boundaries between regions may appear as continuous lines OR as a chain of small individual markers — discrete dots, footprints, dashes, or short segments aligned along a curve — that you must visually link together to recognize as a single boundary. Two locations belong to the same region if you can travel between them without crossing such a boundary (continuous or chained). Count every distinct region and report the total as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 15
  },
  {
    "id": "CR-3",
    "task": "counting_regions",
    "category": "distributed_scanning",
    "image": "images/CR-3.png",
    "image_sha256": "cc2bce4441e9fdd6a9583915dd337926d73a7ca0dc1f14d9ddf16314ef4dae58",
    "image_source_filename": "counting_regions_00003.gptimage_v14_parchmentink.png",
    "question": "How many separated regions are inside the image? A region is a maximal area filled with one continuous fill. Boundaries between regions may appear as continuous lines OR as a chain of small individual markers — discrete dots, footprints, dashes, or short segments aligned along a curve — that you must visually link together to recognize as a single boundary. Two locations belong to the same region if you can travel between them without crossing such a boundary (continuous or chained). Count every distinct region and report the total as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 18
  },
  {
    "id": "CR-4",
    "task": "counting_regions",
    "category": "distributed_scanning",
    "image": "images/CR-4.png",
    "image_sha256": "40460bb780fc5b2a74edf666b725b8895179e97dfdaf5663a6563be906c4e572",
    "image_source_filename": "counting_regions_00004.gptimage_v15_beachrope.png",
    "question": "How many separated regions are inside the image? A region is a maximal area filled with one continuous fill. Boundaries between regions may appear as continuous lines OR as a chain of small individual markers — discrete dots, footprints, dashes, or short segments aligned along a curve — that you must visually link together to recognize as a single boundary. Two locations belong to the same region if you can travel between them without crossing such a boundary (continuous or chained). Count every distinct region and report the total as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 20
  },
  {
    "id": "TL-0",
    "task": "tangled_loops",
    "category": "distributed_scanning",
    "image": "images/TL-0.png",
    "image_sha256": "39d650e832cc6edd4af73344d31e9c5fbffdd9fabf903b290c7cfa10707ce1c0",
    "image_source_filename": "tangled_loops_00000.gptimage_v1_pool1_oldrope.png",
    "question": "How many distinct closed loops are tangled together in this image? Each loop is a continuous closed curve (rope, cord, cable, etc.) with no loose endpoints anywhere. Loops may cross other loops or themselves freely. Count the total number of distinct closed loops and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "TL-1",
    "task": "tangled_loops",
    "category": "distributed_scanning",
    "image": "images/TL-1.png",
    "image_sha256": "8a4873a9620ebf807e52df9d86aa31de3810c283f4541e97553a74058d766511",
    "image_source_filename": "tangled_loops_00001.gptimage_v2_pool2_cords.png",
    "question": "How many distinct closed loops are tangled together in this image? Each loop is a continuous closed curve (rope, cord, cable, etc.) with no loose endpoints anywhere. Loops may cross other loops or themselves freely. Count the total number of distinct closed loops and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 12
  },
  {
    "id": "TL-2",
    "task": "tangled_loops",
    "category": "distributed_scanning",
    "image": "images/TL-2.png",
    "image_sha256": "7614b2cc36b63e66cf47b0af3780f98c829a9a7e58c54309bfe30a7fa66b7cef",
    "image_source_filename": "tangled_loops_00002.gptimage_v3_pool3_chaos.png",
    "question": "How many distinct closed loops are tangled together in this image? Each loop is a continuous closed curve (rope, cord, cable, etc.) with no loose endpoints anywhere. Loops may cross other loops or themselves freely. Count the total number of distinct closed loops and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 15
  },
  {
    "id": "TL-3",
    "task": "tangled_loops",
    "category": "distributed_scanning",
    "image": "images/TL-3.png",
    "image_sha256": "1d3d0b0d031949467381b78eba6b3e7ae38f49d3a98281b484018c2c47a5bb0c",
    "image_source_filename": "tangled_loops_00003.gptimage_v4_pool4_climbing.png",
    "question": "How many distinct closed loops are tangled together in this image? Each loop is a continuous closed curve (rope, cord, cable, etc.) with no loose endpoints anywhere. Loops may cross other loops or themselves freely. Count the total number of distinct closed loops and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 18
  },
  {
    "id": "TL-4",
    "task": "tangled_loops",
    "category": "distributed_scanning",
    "image": "images/TL-4.png",
    "image_sha256": "1f425f36465b1affbabf42d6b4368f2d5d229bf3ea8f0c231ae2384e0710bd7f",
    "image_source_filename": "tangled_loops_00004.gptimage_v5_pool5_stagecables.png",
    "question": "How many distinct closed loops are tangled together in this image? Each loop is a continuous closed curve (rope, cord, cable, etc.) with no loose endpoints anywhere. Loops may cross other loops or themselves freely. Count the total number of distinct closed loops and report the count as a positive integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 20
  },
  {
    "id": "AC-0",
    "task": "arrow_chain",
    "category": "sequential_traversal",
    "image": "images/AC-0.png",
    "image_sha256": "7417166a81381ac73660a2764bda82600a82ab566b3395df2219ad25d2db4e36",
    "image_source_filename": "arrow_chain_00000.gptimage_v1_foot.png",
    "question": "The image shows many small pieces scattered across the canvas, each clearly oriented in a specific direction, plus several larger labeled terminus markers (each marker bears a distinct letter). The piece highlighted by a green ring is the starting point. From that piece, cast an infinitely thin ray (a mathematical half-line with zero width) from its centre along the direction it points; the next step is the FIRST other marker this ray enters. A marker only counts if the ray actually crosses its boundary — grazing nearby without entering does not count. Continue until the ray enters a labeled terminus marker and report its letter. Answer with a single letter. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "H"
  },
  {
    "id": "AC-1",
    "task": "arrow_chain",
    "category": "sequential_traversal",
    "image": "images/AC-1.png",
    "image_sha256": "3e58261808a2e435d27e9c008860796489e37647458cc30bd25bcbc610dd7f27",
    "image_source_filename": "arrow_chain_00001.gptimage_v2_fish.png",
    "question": "The image shows many small pieces scattered across the canvas, each clearly oriented in a specific direction, plus several larger labeled terminus markers (each marker bears a distinct letter). The piece highlighted by a green ring is the starting point. From that piece, cast an infinitely thin ray (a mathematical half-line with zero width) from its centre along the direction it points; the next step is the FIRST other marker this ray enters. A marker only counts if the ray actually crosses its boundary — grazing nearby without entering does not count. Continue until the ray enters a labeled terminus marker and report its letter. Answer with a single letter. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "B"
  },
  {
    "id": "AC-2",
    "task": "arrow_chain",
    "category": "sequential_traversal",
    "image": "images/AC-2.png",
    "image_sha256": "1b9f82255b54c3c326ef98f0f9b5e274da5854b9dc1d87a1b2ba4d438a2d89ac",
    "image_source_filename": "arrow_chain_00002.gptimage_v3_bird.png",
    "question": "The image shows many small pieces scattered across the canvas, each clearly oriented in a specific direction, plus several larger labeled terminus markers (each marker bears a distinct letter). The piece highlighted by a green ring is the starting point. From that piece, cast an infinitely thin ray (a mathematical half-line with zero width) from its centre along the direction it points; the next step is the FIRST other marker this ray enters. A marker only counts if the ray actually crosses its boundary — grazing nearby without entering does not count. Continue until the ray enters a labeled terminus marker and report its letter. Answer with a single letter. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "B"
  },
  {
    "id": "AC-3",
    "task": "arrow_chain",
    "category": "sequential_traversal",
    "image": "images/AC-3.png",
    "image_sha256": "dcdf8a1800e5dfca85ea527e178298d17030edc4003bfcf2092e8ee576fa8047",
    "image_source_filename": "arrow_chain_00003.gptimage_v4_key.png",
    "question": "The image shows many small pieces scattered across the canvas, each clearly oriented in a specific direction, plus several larger labeled terminus markers (each marker bears a distinct letter). The piece highlighted by a green ring is the starting point. From that piece, cast an infinitely thin ray (a mathematical half-line with zero width) from its centre along the direction it points; the next step is the FIRST other marker this ray enters. A marker only counts if the ray actually crosses its boundary — grazing nearby without entering does not count. Continue until the ray enters a labeled terminus marker and report its letter. Answer with a single letter. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "J"
  },
  {
    "id": "AC-4",
    "task": "arrow_chain",
    "category": "sequential_traversal",
    "image": "images/AC-4.png",
    "image_sha256": "951a6ebde1307c2eca593506d25aac4c044226508422d80375ed96492c74dd9c",
    "image_source_filename": "arrow_chain_00004.gptimage_v5_leaf.png",
    "question": "The image shows many small pieces scattered across the canvas, each clearly oriented in a specific direction, plus several larger labeled terminus markers (each marker bears a distinct letter). The piece highlighted by a green ring is the starting point. From that piece, cast an infinitely thin ray (a mathematical half-line with zero width) from its centre along the direction it points; the next step is the FIRST other marker this ray enters. A marker only counts if the ray actually crosses its boundary — grazing nearby without entering does not count. Continue until the ray enters a labeled terminus marker and report its letter. Answer with a single letter. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C"
  },
  {
    "id": "CZ-0",
    "task": "color_zone_sequence",
    "category": "sequential_traversal",
    "image": "images/CZ-0.png",
    "image_sha256": "88b50223c38c896244842a8f41d0282c683e4abe5d4b8280c8167d9ef242de45",
    "image_source_filename": "color_zone_00000.gptimage_demo.png",
    "question": "The image shows several distinct regions, each carrying a single-letter label and distinguished by its own fill (colour, texture, or material). A single smooth curve starts at the position marked 'Start' and travels through several regions, potentially re-entering earlier ones. Follow the curve from start to end and list the region labels it visits in order, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "H, D, F, B, I, A, C, J, A, J, H"
  },
  {
    "id": "CZ-1",
    "task": "color_zone_sequence",
    "category": "sequential_traversal",
    "image": "images/CZ-1.png",
    "image_sha256": "b4cde60a8e87fd1a7328d35e0dc0d9c302fe6a38f74f086f2a2ee4866dd2a4b6",
    "image_source_filename": "color_zone_00001.gptimage_v2_nautical.png",
    "question": "The image shows several distinct regions, each carrying a single-letter label and distinguished by its own fill (colour, texture, or material). A single smooth curve starts at the position marked 'Start' and travels through several regions, potentially re-entering earlier ones. Follow the curve from start to end and list the region labels it visits in order, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "B, D, C, G, C, E, I, A, J, F, C"
  },
  {
    "id": "CZ-2",
    "task": "color_zone_sequence",
    "category": "sequential_traversal",
    "image": "images/CZ-2.png",
    "image_sha256": "7251a813552432d3bc01544cc3b2fe25014b2b47d9c79a95a00f0dd6ae139032",
    "image_source_filename": "color_zone_00002.gptimage_v3_storybook.png",
    "question": "The image shows several distinct regions, each carrying a single-letter label and distinguished by its own fill (colour, texture, or material). A single smooth curve starts at the position marked 'Start' and travels through several regions, potentially re-entering earlier ones. Follow the curve from start to end and list the region labels it visits in order, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "F, E, F, I, C, D, A, J, H, G, E"
  },
  {
    "id": "CZ-3",
    "task": "color_zone_sequence",
    "category": "sequential_traversal",
    "image": "images/CZ-3.png",
    "image_sha256": "40f669624624fa3481909c9ed943d1d49aaa062fa85dd3f4cd047d1e792243b6",
    "image_source_filename": "color_zone_00003.gptimage_v4_transit.png",
    "question": "The image shows several distinct regions, each carrying a single-letter label and distinguished by its own fill (colour, texture, or material). A single smooth curve starts at the position marked 'Start' and travels through several regions, potentially re-entering earlier ones. Follow the curve from start to end and list the region labels it visits in order, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "G, B, D, G, A, I, C, I, A, G, D, F"
  },
  {
    "id": "CZ-4",
    "task": "color_zone_sequence",
    "category": "sequential_traversal",
    "image": "images/CZ-4.png",
    "image_sha256": "8b1d2112f7125b7999981c58da367935bbe42b7a244aaf4b3463d5f3daca7059",
    "image_source_filename": "color_zone_00004.gptimage_v5_floorplan.png",
    "question": "The image shows several distinct regions, each carrying a single-letter label and distinguished by its own fill (colour, texture, or material). A single smooth curve starts at the position marked 'Start' and travels through several regions, potentially re-entering earlier ones. Follow the curve from start to end and list the region labels it visits in order, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C, A, G, A, F, E, D, J, B, C, H, I, G"
  },
  {
    "id": "LI-0",
    "task": "line_intersections",
    "category": "sequential_traversal",
    "image": "images/LI-0.png",
    "image_sha256": "7d7c33dd7d09f1b8abfc346a63b2dac969beb465d0f03f1301140cdfd492d133",
    "image_source_filename": "line_intersections_00000.gptimage_v1_beach.png",
    "question": "The image shows several curves or strands tangled together. Each curve has a single labeled endpoint on the perimeter, marked with a distinct letter. Starting from the endpoint labeled A, follow that curve through the interior tangle. At every crossing you pass through, record the label of the OTHER curve involved — when curve A crosses itself, record A. Report the ordered sequence of labels, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C, C, D, C, D, D, C, C, C, B, C"
  },
  {
    "id": "LI-1",
    "task": "line_intersections",
    "category": "sequential_traversal",
    "image": "images/LI-1.png",
    "image_sha256": "1504a6fd0ec76e2513a23ad71be4e274e197c470b3b3d9d5d282ed8d94439467",
    "image_source_filename": "line_intersections_00001.gptimage_v2_workshop.png",
    "question": "The image shows several curves or strands tangled together. Each curve has a single labeled endpoint on the perimeter, marked with a distinct letter. Starting from the endpoint labeled A, follow that curve through the interior tangle. At every crossing you pass through, record the label of the OTHER curve involved — when curve A crosses itself, record A. Report the ordered sequence of labels, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "D, B, B, C, C, B, B, B, C"
  },
  {
    "id": "LI-2",
    "task": "line_intersections",
    "category": "sequential_traversal",
    "image": "images/LI-2.png",
    "image_sha256": "d95525d70708fd7213fdb5981ae9a5f522cb36fbe3f7340078243fdf9f7ac23a",
    "image_source_filename": "line_intersections_00002.gptimage_v3_forest.png",
    "question": "The image shows several curves or strands tangled together. Each curve has a single labeled endpoint on the perimeter, marked with a distinct letter. Starting from the endpoint labeled A, follow that curve through the interior tangle. At every crossing you pass through, record the label of the OTHER curve involved — when curve A crosses itself, record A. Report the ordered sequence of labels, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "D, C, C, B, B, D, B, D, C"
  },
  {
    "id": "LI-3",
    "task": "line_intersections",
    "category": "sequential_traversal",
    "image": "images/LI-3.png",
    "image_sha256": "4328215d10303c8a3dfcf81b6b5fa5738cd46e51568766205b0d3d2e08b96751",
    "image_source_filename": "line_intersections_00003.gptimage_v4_hoses.png",
    "question": "The image shows several curves or strands tangled together. Each curve has a single labeled endpoint on the perimeter, marked with a distinct letter. Starting from the endpoint labeled A, follow that curve through the interior tangle. At every crossing you pass through, record the label of the OTHER curve involved — when curve A crosses itself, record A. Report the ordered sequence of labels, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "D, C, B, C, D, C, D, C, C"
  },
  {
    "id": "LI-4",
    "task": "line_intersections",
    "category": "sequential_traversal",
    "image": "images/LI-4.png",
    "image_sha256": "ffcd8c76dad10674c3584a6fda965598cfb1b4c8dcf95311ccc3cd80be85f4df",
    "image_source_filename": "line_intersections_00004.gptimage_v5_ivy.png",
    "question": "The image shows several curves or strands tangled together. Each curve has a single labeled endpoint on the perimeter, marked with a distinct letter. Starting from the endpoint labeled A, follow that curve through the interior tangle. At every crossing you pass through, record the label of the OTHER curve involved — when curve A crosses itself, record A. Report the ordered sequence of labels, separated by commas. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C, C, B, B, C, B, C, B, C, D, B"
  },
  {
    "id": "MZ-0",
    "task": "maze",
    "category": "sequential_traversal",
    "image": "images/MZ-0.png",
    "image_sha256": "8c5d171a2367fe52fcb00d0b54f2da6b03bdb6895e5ffb17512d69e274e3d5fb",
    "image_source_filename": "maze_00000.gptimage_v1_hedge.png",
    "question": "The image shows a maze with several labeled openings on its border. Exactly one pair of openings is connected by a path through the maze; all other pairs are blocked by walls. Identify the connected pair. A path exists only if you can travel from one opening to another through corridors without crossing any wall. Report the connected pair in alphabetical order, formatted as X-Y. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "E-F"
  },
  {
    "id": "MZ-1",
    "task": "maze",
    "category": "sequential_traversal",
    "image": "images/MZ-1.png",
    "image_sha256": "30f0d0e0a9a0f5c63d119cafc794dff22632f61823194c47e1fd97de941e44e3",
    "image_source_filename": "maze_00001.gptimage_v2_dungeon.png",
    "question": "The image shows a maze with several labeled openings on its border. Exactly one pair of openings is connected by a path through the maze; all other pairs are blocked by walls. Identify the connected pair. A path exists only if you can travel from one opening to another through corridors without crossing any wall. Report the connected pair in alphabetical order, formatted as X-Y. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C-E"
  },
  {
    "id": "MZ-2",
    "task": "maze",
    "category": "sequential_traversal",
    "image": "images/MZ-2.png",
    "image_sha256": "b94e9b199c054e6ff90c251be8ba9b0df17189dd9647bbdd61d5dc692942b12b",
    "image_source_filename": "maze_00002.gptimage_v3_cornfield.png",
    "question": "The image shows a maze with several labeled openings on its border. Exactly one pair of openings is connected by a path through the maze; all other pairs are blocked by walls. Identify the connected pair. A path exists only if you can travel from one opening to another through corridors without crossing any wall. Report the connected pair in alphabetical order, formatted as X-Y. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "A-G"
  },
  {
    "id": "MZ-3",
    "task": "maze",
    "category": "sequential_traversal",
    "image": "images/MZ-3.png",
    "image_sha256": "a165f4c4c84a16660f11aea536c50555f7637114973fc89d5283955a39ac4314",
    "image_source_filename": "maze_00003.gptimage_v4_library.png",
    "question": "The image shows a maze with several labeled openings on its border. Exactly one pair of openings is connected by a path through the maze; all other pairs are blocked by walls. Identify the connected pair. A path exists only if you can travel from one opening to another through corridors without crossing any wall. Report the connected pair in alphabetical order, formatted as X-Y. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "C-G"
  },
  {
    "id": "MZ-4",
    "task": "maze",
    "category": "sequential_traversal",
    "image": "images/MZ-4.png",
    "image_sha256": "08177b3d624709e9a53a733fec5efd8f1fcd43a1c3a74b2dc0ba8e4d6dcadb85",
    "image_source_filename": "maze_00004.gptimage_v5_snowmaze.png",
    "question": "The image shows a maze with several labeled openings on its border. Exactly one pair of openings is connected by a path through the maze; all other pairs are blocked by walls. Identify the connected pair. A path exists only if you can travel from one opening to another through corridors without crossing any wall. Report the connected pair in alphabetical order, formatted as X-Y. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "B-C"
  },
  {
    "id": "TO-0",
    "task": "traverse_ordering",
    "category": "sequential_traversal",
    "image": "images/TO-0.png",
    "image_sha256": "a55eaaab754a98dcc7c2a72c62aef5dcfd3a713a9d4d82d92e7642d855cc39c3",
    "image_source_filename": "traverse_ordering_00000.gptimage_v1_beach.png",
    "question": "The image shows two curves or strands that cross each other. Several labeled points are marked on the two curves combined. A green 'S' marks the start endpoint of one of the curves. Starting from S, follow THAT curve (the one S lies on) all the way to its other endpoint, and list the labels of the marked points you visit in order, separated by commas. Ignore any labeled points that lie on the OTHER curve. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "L, G, H, F, C, K"
  },
  {
    "id": "TO-1",
    "task": "traverse_ordering",
    "category": "sequential_traversal",
    "image": "images/TO-1.png",
    "image_sha256": "802513182beca8954adb481bf7351958cb7c74909e80a94496bcc11cae8fd313",
    "image_source_filename": "traverse_ordering_00001.gptimage_v2_workshop.png",
    "question": "The image shows two curves or strands that cross each other. Several labeled points are marked on the two curves combined. A green 'S' marks the start endpoint of one of the curves. Starting from S, follow THAT curve (the one S lies on) all the way to its other endpoint, and list the labels of the marked points you visit in order, separated by commas. Ignore any labeled points that lie on the OTHER curve. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "J, I, A, L, B, E"
  },
  {
    "id": "TO-2",
    "task": "traverse_ordering",
    "category": "sequential_traversal",
    "image": "images/TO-2.png",
    "image_sha256": "616488cce7610f749e86bc449415960cdba9a60d8c479a1a928bf87ba9a2cd36",
    "image_source_filename": "traverse_ordering_00002.gptimage_v3_forest.png",
    "question": "The image shows two curves or strands that cross each other. Several labeled points are marked on the two curves combined. A green 'S' marks the start endpoint of one of the curves. Starting from S, follow THAT curve (the one S lies on) all the way to its other endpoint, and list the labels of the marked points you visit in order, separated by commas. Ignore any labeled points that lie on the OTHER curve. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "I, A, E, F, C, H"
  },
  {
    "id": "TO-3",
    "task": "traverse_ordering",
    "category": "sequential_traversal",
    "image": "images/TO-3.png",
    "image_sha256": "4f275ac1edda0bfc2581550d1d4bab670d15a050399e207f8b5776bf69e8b7c4",
    "image_source_filename": "traverse_ordering_00003.gptimage_v4_hoses.png",
    "question": "The image shows two curves or strands that cross each other. Several labeled points are marked on the two curves combined. A green 'S' marks the start endpoint of one of the curves. Starting from S, follow THAT curve (the one S lies on) all the way to its other endpoint, and list the labels of the marked points you visit in order, separated by commas. Ignore any labeled points that lie on the OTHER curve. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "B, H, D, A, F, G"
  },
  {
    "id": "TO-4",
    "task": "traverse_ordering",
    "category": "sequential_traversal",
    "image": "images/TO-4.png",
    "image_sha256": "3d08aa963f8aa0560967a28a8f6bee9a27ff8a4994654ba215080bd8998f8625",
    "image_source_filename": "traverse_ordering_00004.gptimage_v5_ivy.png",
    "question": "The image shows two curves or strands that cross each other. Several labeled points are marked on the two curves combined. A green 'S' marks the start endpoint of one of the curves. Starting from S, follow THAT curve (the one S lies on) all the way to its other endpoint, and list the labels of the marked points you visit in order, separated by commas. Ignore any labeled points that lie on the OTHER curve. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "D, F, A, C, B, L"
  },
  {
    "id": "CMC-0",
    "task": "constellation_match_count",
    "category": "visual_attribute_transfer",
    "image": "images/CMC-0.png",
    "image_sha256": "5f929a6fea5039fae7174bd6913c431052e366f284482c92496ef6def6b13877",
    "image_source_filename": "constellation_match_count_00000.gptimage_v1_stars.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a small constellation of marker points. The right panel shows the Field: a larger scene with many marker points. Both panels are drawn at the SAME pixel scale. Count how many copies of the Template pattern appear in the Field. A copy may be rotated by a small angle (up to about 20°) and individual point positions may be jittered slightly, but the overall pattern of relative positions must be preserved. No mirroring or scaling. Report the count as a non-negative integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 5
  },
  {
    "id": "CMC-1",
    "task": "constellation_match_count",
    "category": "visual_attribute_transfer",
    "image": "images/CMC-1.png",
    "image_sha256": "18f56e2d6618ebc9a0d310b79d2cce471567ee9b2c4c9ca529aa1b2802691751",
    "image_source_filename": "constellation_match_count_00001.gptimage_v2_gemstones.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a small constellation of marker points. The right panel shows the Field: a larger scene with many marker points. Both panels are drawn at the SAME pixel scale. Count how many copies of the Template pattern appear in the Field. A copy may be rotated by a small angle (up to about 20°) and individual point positions may be jittered slightly, but the overall pattern of relative positions must be preserved. No mirroring or scaling. Report the count as a non-negative integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 6
  },
  {
    "id": "CMC-2",
    "task": "constellation_match_count",
    "category": "visual_attribute_transfer",
    "image": "images/CMC-2.png",
    "image_sha256": "f39221f5dd4c3a532ad331cfb87a1e032e91f31115e8fe871b464f7fd423a54a",
    "image_source_filename": "constellation_match_count_00002.gptimage_v3_lights.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a small constellation of marker points. The right panel shows the Field: a larger scene with many marker points. Both panels are drawn at the SAME pixel scale. Count how many copies of the Template pattern appear in the Field. A copy may be rotated by a small angle (up to about 20°) and individual point positions may be jittered slightly, but the overall pattern of relative positions must be preserved. No mirroring or scaling. Report the count as a non-negative integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 8
  },
  {
    "id": "CMC-3",
    "task": "constellation_match_count",
    "category": "visual_attribute_transfer",
    "image": "images/CMC-3.png",
    "image_sha256": "09de618818bd66d57a79d75bf18d2c1f85f731cb3db5f6da915cd8bf5e544a10",
    "image_source_filename": "constellation_match_count_00003.gptimage_v4_candy.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a small constellation of marker points. The right panel shows the Field: a larger scene with many marker points. Both panels are drawn at the SAME pixel scale. Count how many copies of the Template pattern appear in the Field. A copy may be rotated by a small angle (up to about 20°) and individual point positions may be jittered slightly, but the overall pattern of relative positions must be preserved. No mirroring or scaling. Report the count as a non-negative integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 9
  },
  {
    "id": "CMC-4",
    "task": "constellation_match_count",
    "category": "visual_attribute_transfer",
    "image": "images/CMC-4.png",
    "image_sha256": "7cb4f3e981a45bca948a79e54c7a68aa9141c116d28436f47bda1e594b564485",
    "image_source_filename": "constellation_match_count_00004.gptimage_v5_shells.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a small constellation of marker points. The right panel shows the Field: a larger scene with many marker points. Both panels are drawn at the SAME pixel scale. Count how many copies of the Template pattern appear in the Field. A copy may be rotated by a small angle (up to about 20°) and individual point positions may be jittered slightly, but the overall pattern of relative positions must be preserved. No mirroring or scaling. Report the count as a non-negative integer. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": 10
  },
  {
    "id": "CSC-0",
    "task": "contour_silhouette_count",
    "category": "visual_attribute_transfer",
    "image": "images/CSC-0.png",
    "image_sha256": "b650e26df2081f8e62d66dafc33486cf90549a0e10d1660cda1ed83cc900ed05",
    "image_source_filename": "contour_silhouette_count_00000.gptimage_v1_pool1_kitchen.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single closed silhouette. The right panel shows the Field: many closed silhouettes scattered across the canvas, all at the SAME pixel scale as the Template. Count the number of Field silhouettes that are exact copies of the Template (translation only — same size, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "5"
  },
  {
    "id": "CSC-1",
    "task": "contour_silhouette_count",
    "category": "visual_attribute_transfer",
    "image": "images/CSC-1.png",
    "image_sha256": "034e4e90dfd985f8dfc2e105cf3de8137b6e2cf2642566e855688a3cef29d70b",
    "image_source_filename": "contour_silhouette_count_00001.gptimage_v2_pool2_jewellery.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single closed silhouette. The right panel shows the Field: many closed silhouettes scattered across the canvas, all at the SAME pixel scale as the Template. Count the number of Field silhouettes that are exact copies of the Template (translation only — same size, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "8"
  },
  {
    "id": "CSC-2",
    "task": "contour_silhouette_count",
    "category": "visual_attribute_transfer",
    "image": "images/CSC-2.png",
    "image_sha256": "e516d6b0daddb0bf1197ec78fe3b082d94f00ad321f8dd3a5ed4750c8ed70f4e",
    "image_source_filename": "contour_silhouette_count_00002.gptimage_v3_pool3_fruits.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single closed silhouette. The right panel shows the Field: many closed silhouettes scattered across the canvas, all at the SAME pixel scale as the Template. Count the number of Field silhouettes that are exact copies of the Template (translation only — same size, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "10"
  },
  {
    "id": "CSC-3",
    "task": "contour_silhouette_count",
    "category": "visual_attribute_transfer",
    "image": "images/CSC-3.png",
    "image_sha256": "60ea7ea5a0166726afa95812d7c848dcd0d1d7faeab3cc7a5aa265024dd353b4",
    "image_source_filename": "contour_silhouette_count_00003.gptimage_v4_pool4_industrial.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single closed silhouette. The right panel shows the Field: many closed silhouettes scattered across the canvas, all at the SAME pixel scale as the Template. Count the number of Field silhouettes that are exact copies of the Template (translation only — same size, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "12"
  },
  {
    "id": "CSC-4",
    "task": "contour_silhouette_count",
    "category": "visual_attribute_transfer",
    "image": "images/CSC-4.png",
    "image_sha256": "f38c3ecaf3ecaec06633806d8cfa1b1b67cb79effc7b89c2743ead0236ace0a1",
    "image_source_filename": "contour_silhouette_count_00004.gptimage_v5_pool5_textile.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single closed silhouette. The right panel shows the Field: many closed silhouettes scattered across the canvas, all at the SAME pixel scale as the Template. Count the number of Field silhouettes that are exact copies of the Template (translation only — same size, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "15"
  },
  {
    "id": "SCD-0",
    "task": "spot_the_contour_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SCD-0.png",
    "image_sha256": "3bf0b8dabd91d3cf952ecafa2818fd7758f2feeb6ffd54299bb471c83eb4005d",
    "image_source_filename": "contour_diff_00000.gptimage_v1_pool1_kitchen.png",
    "question": "Two panels are shown side by side. Each panel contains the same set of closed silhouettes at the same positions. Some silhouettes in the right panel have a different shape from the corresponding silhouette in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "5"
  },
  {
    "id": "SCD-1",
    "task": "spot_the_contour_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SCD-1.png",
    "image_sha256": "14ab657991686763224af9c32d45ca07cc5cdb746bb037b71621da4bcab79d97",
    "image_source_filename": "contour_diff_00001.gptimage_v2_pool2_jewellery.png",
    "question": "Two panels are shown side by side. Each panel contains the same set of closed silhouettes at the same positions. Some silhouettes in the right panel have a different shape from the corresponding silhouette in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "8"
  },
  {
    "id": "SCD-2",
    "task": "spot_the_contour_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SCD-2.png",
    "image_sha256": "80f6908839fbb8f8787b04e88634bfdaa3713a9f55030c63ee6f472178530096",
    "image_source_filename": "contour_diff_00002.gptimage_v3_pool3_fruits.png",
    "question": "Two panels are shown side by side. Each panel contains the same set of closed silhouettes at the same positions. Some silhouettes in the right panel have a different shape from the corresponding silhouette in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "10"
  },
  {
    "id": "SCD-3",
    "task": "spot_the_contour_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SCD-3.png",
    "image_sha256": "731301ded0afe036b66e41d5696f970151032ebc25a22d594a3af272745d9067",
    "image_source_filename": "contour_diff_00003.gptimage_v4_pool4_industrial.png",
    "question": "Two panels are shown side by side. Each panel contains the same set of closed silhouettes at the same positions. Some silhouettes in the right panel have a different shape from the corresponding silhouette in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "12"
  },
  {
    "id": "SCD-4",
    "task": "spot_the_contour_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SCD-4.png",
    "image_sha256": "b75e993758e0967a41def272396d62ab00a3969e5752c82fcb75dab13e399c3e",
    "image_source_filename": "contour_diff_00004.gptimage_v5_pool5_textile.png",
    "question": "Two panels are shown side by side. Each panel contains the same set of closed silhouettes at the same positions. Some silhouettes in the right panel have a different shape from the corresponding silhouette in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "15"
  },
  {
    "id": "SFD-0",
    "task": "spot_the_field_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SFD-0.png",
    "image_sha256": "9bd58bde7410c52abb44e401103af4ab81fda4c9cce1f5e26f761ae64b4b5c93",
    "image_source_filename": "field_diff_00000.gptimage_v1_corkboard.png",
    "question": "Three panels are shown side by side. The leftmost panel is an INDEX key: a grid of cells numbered in row-major order (top-left = 1, increasing left-to-right then top-to-bottom). The middle and right panels are 2D color fields, each divided into the same grid. Compare the middle (Field A) and right (Field B) panels cell by cell. List the numbers of all cells that DIFFER between Field A and Field B, in ascending order, separated by commas. If no cells differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "6, 7, 8, 11"
  },
  {
    "id": "SFD-1",
    "task": "spot_the_field_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SFD-1.png",
    "image_sha256": "1460a81f6979fb4c9cc91422f7b2ef5c28c9fad4b4ceafacf3f2f3c4785523d5",
    "image_source_filename": "field_diff_00001.gptimage_v2_woodendesk.png",
    "question": "Three panels are shown side by side. The leftmost panel is an INDEX key: a grid of cells numbered in row-major order (top-left = 1, increasing left-to-right then top-to-bottom). The middle and right panels are 2D color fields, each divided into the same grid. Compare the middle (Field A) and right (Field B) panels cell by cell. List the numbers of all cells that DIFFER between Field A and Field B, in ascending order, separated by commas. If no cells differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "6"
  },
  {
    "id": "SFD-2",
    "task": "spot_the_field_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SFD-2.png",
    "image_sha256": "13b5ac75ddc28310e2796ebdf259765ca00f352df17d85eebb70f3754cea1575",
    "image_source_filename": "field_diff_00002.gptimage_v3_clipboard.png",
    "question": "Three panels are shown side by side. The leftmost panel is an INDEX key: a grid of cells numbered in row-major order (top-left = 1, increasing left-to-right then top-to-bottom). The middle and right panels are 2D color fields, each divided into the same grid. Compare the middle (Field A) and right (Field B) panels cell by cell. List the numbers of all cells that DIFFER between Field A and Field B, in ascending order, separated by commas. If no cells differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "3, 4, 8, 9, 10, 12, 13"
  },
  {
    "id": "SFD-3",
    "task": "spot_the_field_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SFD-3.png",
    "image_sha256": "2b351ff7e5344eae263f953ab5a78d225b6df81596dd18b3eea24021e9d9a519",
    "image_source_filename": "field_diff_00003.gptimage_v4_blanket.png",
    "question": "Three panels are shown side by side. The leftmost panel is an INDEX key: a grid of cells numbered in row-major order (top-left = 1, increasing left-to-right then top-to-bottom). The middle and right panels are 2D color fields, each divided into the same grid. Compare the middle (Field A) and right (Field B) panels cell by cell. List the numbers of all cells that DIFFER between Field A and Field B, in ascending order, separated by commas. If no cells differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "3, 5, 6, 7, 8, 9, 11, 13, 14, 15"
  },
  {
    "id": "SFD-4",
    "task": "spot_the_field_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SFD-4.png",
    "image_sha256": "2aec3568530c4eb4d83d84015818c3eaeb4f61c13e6ac2ac05029f715a16afbd",
    "image_source_filename": "field_diff_00004.gptimage_v5_folder.png",
    "question": "Three panels are shown side by side. The leftmost panel is an INDEX key: a grid of cells numbered in row-major order (top-left = 1, increasing left-to-right then top-to-bottom). The middle and right panels are 2D color fields, each divided into the same grid. Compare the middle (Field A) and right (Field B) panels cell by cell. List the numbers of all cells that DIFFER between Field A and Field B, in ascending order, separated by commas. If no cells differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "1, 2, 3, 5, 7, 8, 9, 10, 11, 12, 13, 14"
  },
  {
    "id": "SSD-0",
    "task": "spot_the_signal_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SSD-0.png",
    "image_sha256": "5101f298b4eff88220e6556800c6aa5cdcbabb39f3d929ae1661aa735108c55b",
    "image_source_filename": "signal_diff_00000.gptimage_v1_lab.png",
    "question": "Two 1D signals are shown side by side. Each signal's x-axis is divided into equal segments by thin vertical gridlines, and each segment is numbered above the gridlines (the two signals share the same numbering). Compare the left (Signal A) and right (Signal B) signals segment by segment. List the numbers of all segments that DIFFER between Signal A and Signal B, in ascending order, separated by commas. If no segments differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "7, 8, 9"
  },
  {
    "id": "SSD-1",
    "task": "spot_the_signal_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SSD-1.png",
    "image_sha256": "cc3743c0ba8a6310a562f221e750d8d918ff305762a5bd1b3a44c149a3789252",
    "image_source_filename": "signal_diff_00001.gptimage_v2_whiteboard.png",
    "question": "Two 1D signals are shown side by side. Each signal's x-axis is divided into equal segments by thin vertical gridlines, and each segment is numbered above the gridlines (the two signals share the same numbering). Compare the left (Signal A) and right (Signal B) signals segment by segment. List the numbers of all segments that DIFFER between Signal A and Signal B, in ascending order, separated by commas. If no segments differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "2, 5, 7, 8, 10"
  },
  {
    "id": "SSD-2",
    "task": "spot_the_signal_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SSD-2.png",
    "image_sha256": "6050738551a82fb9659e42b7ebf5877a789794e1b7e127706dd338e0aceab086",
    "image_source_filename": "signal_diff_00002.gptimage_v3_workbench.png",
    "question": "Two 1D signals are shown side by side. Each signal's x-axis is divided into equal segments by thin vertical gridlines, and each segment is numbered above the gridlines (the two signals share the same numbering). Compare the left (Signal A) and right (Signal B) signals segment by segment. List the numbers of all segments that DIFFER between Signal A and Signal B, in ascending order, separated by commas. If no segments differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "8"
  },
  {
    "id": "SSD-3",
    "task": "spot_the_signal_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SSD-3.png",
    "image_sha256": "4d700c3e6be20af7fde17ab05616ebde070a00f5345385528ec686e7a16177a3",
    "image_source_filename": "signal_diff_00003.gptimage_v4_monitor.png",
    "question": "Two 1D signals are shown side by side. Each signal's x-axis is divided into equal segments by thin vertical gridlines, and each segment is numbered above the gridlines (the two signals share the same numbering). Compare the left (Signal A) and right (Signal B) signals segment by segment. List the numbers of all segments that DIFFER between Signal A and Signal B, in ascending order, separated by commas. If no segments differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "3, 4, 6, 9"
  },
  {
    "id": "SSD-4",
    "task": "spot_the_signal_diff",
    "category": "visual_attribute_transfer",
    "image": "images/SSD-4.png",
    "image_sha256": "3387cf3ef346cd9cfebb554d0cabfc1980b0b768c1e1cee75a5c55c8fdd7b03c",
    "image_source_filename": "signal_diff_00004.gptimage_v5_fabric.png",
    "question": "Two 1D signals are shown side by side. Each signal's x-axis is divided into equal segments by thin vertical gridlines, and each segment is numbered above the gridlines (the two signals share the same numbering). Compare the left (Signal A) and right (Signal B) signals segment by segment. List the numbers of all segments that DIFFER between Signal A and Signal B, in ascending order, separated by commas. If no segments differ, write \"none\". Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "2, 3, 5, 6, 10"
  },
  {
    "id": "STD-0",
    "task": "spot_the_stroke_diff",
    "category": "visual_attribute_transfer",
    "image": "images/STD-0.png",
    "image_sha256": "df712b3d672531c1a4e96f6593ded0dfe760dc8b9748a7a3c6cee8dd6440270f",
    "image_source_filename": "stroke_diff_00000.gptimage_v1_pool1_twigs.png",
    "question": "Two panels are shown side by side. Each panel contains the same number of elongated pieces (strands, twigs, threads, etc.) at the same positions. Some pieces in the right panel have a different shape from the corresponding piece in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "5"
  },
  {
    "id": "STD-1",
    "task": "spot_the_stroke_diff",
    "category": "visual_attribute_transfer",
    "image": "images/STD-1.png",
    "image_sha256": "8af263de4e70c44aafed2a3db9c42bb2808d65d9a11c7c8a1452bbf71acbbb69",
    "image_source_filename": "stroke_diff_00001.gptimage_v2_pool2_sewing.png",
    "question": "Two panels are shown side by side. Each panel contains the same number of elongated pieces (strands, twigs, threads, etc.) at the same positions. Some pieces in the right panel have a different shape from the corresponding piece in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "8"
  },
  {
    "id": "STD-2",
    "task": "spot_the_stroke_diff",
    "category": "visual_attribute_transfer",
    "image": "images/STD-2.png",
    "image_sha256": "dd26b142ae3f324d713c4ebde1630d2cbeddcf0758682bf32b60dc2c6288de0a",
    "image_source_filename": "stroke_diff_00002.gptimage_v3_pool3_noodles.png",
    "question": "Two panels are shown side by side. Each panel contains the same number of elongated pieces (strands, twigs, threads, etc.) at the same positions. Some pieces in the right panel have a different shape from the corresponding piece in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "10"
  },
  {
    "id": "STD-3",
    "task": "spot_the_stroke_diff",
    "category": "visual_attribute_transfer",
    "image": "images/STD-3.png",
    "image_sha256": "bade76b8a07ab6805437b9952a3a438f88152fdfe446c2f2f2818c5047fc35e3",
    "image_source_filename": "stroke_diff_00003.gptimage_v4_pool4_wire.png",
    "question": "Two panels are shown side by side. Each panel contains the same number of elongated pieces (strands, twigs, threads, etc.) at the same positions. Some pieces in the right panel have a different shape from the corresponding piece in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "12"
  },
  {
    "id": "STD-4",
    "task": "spot_the_stroke_diff",
    "category": "visual_attribute_transfer",
    "image": "images/STD-4.png",
    "image_sha256": "8a526d7f5ab2f6429db542939c74abb109a8c0b651640291a7e1b0be0dcb91e7",
    "image_source_filename": "stroke_diff_00004.gptimage_v5_pool5_organic.png",
    "question": "Two panels are shown side by side. Each panel contains the same number of elongated pieces (strands, twigs, threads, etc.) at the same positions. Some pieces in the right panel have a different shape from the corresponding piece in the left panel. Count the number of pairs whose shape differs between the two panels and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "15"
  },
  {
    "id": "SGC-0",
    "task": "stroke_gesture_count",
    "category": "visual_attribute_transfer",
    "image": "images/SGC-0.png",
    "image_sha256": "07cc07427e72e28ad81cf374d5f7029cb2c31177dc1bc8593615d8692b5913fe",
    "image_source_filename": "stroke_gesture_count_00000.gptimage_v1_pool1_twigs.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single elongated piece with a specific curvature profile. The right panel shows the Field: many elongated pieces of similar thickness scattered across the canvas. Both panels use the SAME pixel scale. Count the number of pieces in the Field that have the exact same shape as the Template (translation only — same curvature, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "5"
  },
  {
    "id": "SGC-1",
    "task": "stroke_gesture_count",
    "category": "visual_attribute_transfer",
    "image": "images/SGC-1.png",
    "image_sha256": "2069c73768f3aa6d010048fdffab71b50af1584ba00bf6226341c9cfba8409d8",
    "image_source_filename": "stroke_gesture_count_00001.gptimage_v2_pool2_sewing.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single white brush stroke with a specific curvature profile. The right panel shows the Field: many white brush strokes scattered across the canvas, all at the same thickness. Both panels use the SAME pixel scale and stroke width. Count the number of strokes in the Field that have the exact same shape as the Template (translation only — same curvature, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "8"
  },
  {
    "id": "SGC-2",
    "task": "stroke_gesture_count",
    "category": "visual_attribute_transfer",
    "image": "images/SGC-2.png",
    "image_sha256": "d63c140840e20bec90d4b1fbe6d250784a2aba9db3bd523917fc94c9d2d8dd62",
    "image_source_filename": "stroke_gesture_count_00002.gptimage_v3_pool3_noodles.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single elongated piece with a specific curvature profile. The right panel shows the Field: many elongated pieces of similar thickness scattered across the canvas. Both panels use the SAME pixel scale. Count the number of pieces in the Field that have the exact same shape as the Template (translation only — same curvature, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "10"
  },
  {
    "id": "SGC-3",
    "task": "stroke_gesture_count",
    "category": "visual_attribute_transfer",
    "image": "images/SGC-3.png",
    "image_sha256": "4d3e00a1593a3fc94182c43d5b2f4e0cfd06b710af44174f0d860b081f1807e2",
    "image_source_filename": "stroke_gesture_count_00003.gptimage_v4_pool4_wire.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single elongated piece with a specific curvature profile. The right panel shows the Field: many elongated pieces of similar thickness scattered across the canvas. Both panels use the SAME pixel scale. Count the number of pieces in the Field that have the exact same shape as the Template (translation only — same curvature, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "12"
  },
  {
    "id": "SGC-4",
    "task": "stroke_gesture_count",
    "category": "visual_attribute_transfer",
    "image": "images/SGC-4.png",
    "image_sha256": "90fbdc38b1d0dcbbeab0ec4c1750303fb8058f5dcee9052ae3435e0e4855f1bb",
    "image_source_filename": "stroke_gesture_count_00004.gptimage_v5_pool5_organic.png",
    "question": "This image has two panels separated by a thin vertical divider. The left panel shows the Template: a single elongated piece with a specific curvature profile. The right panel shows the Field: many elongated pieces of similar thickness scattered across the canvas. Both panels use the SAME pixel scale. Count the number of pieces in the Field that have the exact same shape as the Template (translation only — same curvature, same orientation, no rotation or mirroring) and report the integer count. Provide your final answer enclosed in <answer>...</answer> tags.",
    "answer": "15"
  }
]