Datasets:

TYTSTQ
/

ordinary-bench-grid3d

scene_id stringlengths 10 10	n_objects int32 4 10	split stringclasses 7 values	objects stringlengths 183 478	system_prompt stringclasses 1 value	user_prompt stringlengths 1.04k 1.51k	ground_truth stringlengths 323 828	scene_metadata stringlengths 9.3k 20.4k
g04_000000	4	g04	[{"id": "obj_0", "desc": "cyan rubber cylinder"}, {"id": "obj_1", "desc": "gray rubber sphere"}, {"id": "obj_2", "desc": "brown rubber sphere"}, {"id": "obj_3", "desc": "red rubber sphere"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "cyan rubber cylinder", "cell": "B3-4", "row": 1, "col": 2, "layer": 3}, {"object": "gray rubber sphere", "cell": "B4-2", "row": 1, "col": 3, "layer": 1}, {"object": "brown rubber sphere", "cell": "A1-4", "row": 0, "col": 0, "layer": 3}, {"object": "red rubber sphere", "cell": "B3-2", "row": 1, "col": 2, "l...	{"scene_id": "g04_000000", "split": "g04", "image_index": 0, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cylinder", "size": "smal...
g04_000001	4	g04	[{"id": "obj_0", "desc": "green metal cylinder"}, {"id": "obj_1", "desc": "red metal cube"}, {"id": "obj_2", "desc": "purple rubber cylinder"}, {"id": "obj_3", "desc": "brown rubber cube"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "green metal cylinder", "cell": "C4-3", "row": 2, "col": 3, "layer": 2}, {"object": "red metal cube", "cell": "B3-1", "row": 1, "col": 2, "layer": 0}, {"object": "purple rubber cylinder", "cell": "A3-1", "row": 0, "col": 2, "layer": 0}, {"object": "brown rubber cube", "cell": "A2-2", "row": 0, "col": 1, "la...	{"scene_id": "g04_000001", "split": "g04", "image_index": 1, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cylinder", "size": "smal...
g04_000002	4	g04	[{"id": "obj_0", "desc": "brown rubber sphere"}, {"id": "obj_1", "desc": "purple rubber cylinder"}, {"id": "obj_2", "desc": "yellow rubber sphere"}, {"id": "obj_3", "desc": "brown metal cube"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "brown rubber sphere", "cell": "A2-4", "row": 0, "col": 1, "layer": 3}, {"object": "purple rubber cylinder", "cell": "B4-2", "row": 1, "col": 3, "layer": 1}, {"object": "yellow rubber sphere", "cell": "A2-1", "row": 0, "col": 1, "layer": 0}, {"object": "brown metal cube", "cell": "C3-1", "row": 2, "col": 2,...	{"scene_id": "g04_000002", "split": "g04", "image_index": 2, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "sphere", "size": "small"...
g04_000003	4	g04	[{"id": "obj_0", "desc": "brown rubber cylinder"}, {"id": "obj_1", "desc": "brown metal cube"}, {"id": "obj_2", "desc": "blue metal sphere"}, {"id": "obj_3", "desc": "brown rubber cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "brown rubber cylinder", "cell": "A3-1", "row": 0, "col": 2, "layer": 0}, {"object": "brown metal cube", "cell": "D1-2", "row": 3, "col": 0, "layer": 1}, {"object": "blue metal sphere", "cell": "D1-1", "row": 3, "col": 0, "layer": 0}, {"object": "brown rubber cylinder", "cell": "D3-4", "row": 3, "col": 2, "...	{"scene_id": "g04_000003", "split": "g04", "image_index": 3, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cylinder", "size": "smal...
g04_000004	4	g04	[{"id": "obj_0", "desc": "purple metal cube"}, {"id": "obj_1", "desc": "red rubber cube"}, {"id": "obj_2", "desc": "blue rubber cube"}, {"id": "obj_3", "desc": "blue metal cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "purple metal cube", "cell": "A1-1", "row": 0, "col": 0, "layer": 0}, {"object": "red rubber cube", "cell": "C3-2", "row": 2, "col": 2, "layer": 1}, {"object": "blue rubber cube", "cell": "D4-3", "row": 3, "col": 3, "layer": 2}, {"object": "blue metal cylinder", "cell": "A1-3", "row": 0, "col": 0, "layer": ...	{"scene_id": "g04_000004", "split": "g04", "image_index": 4, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cube", "size": "small", ...
g04_000005	4	g04	[{"id": "obj_0", "desc": "purple rubber cube"}, {"id": "obj_1", "desc": "green rubber cube"}, {"id": "obj_2", "desc": "gray rubber cylinder"}, {"id": "obj_3", "desc": "purple rubber cube"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "purple rubber cube", "cell": "D3-2", "row": 3, "col": 2, "layer": 1}, {"object": "green rubber cube", "cell": "A4-4", "row": 0, "col": 3, "layer": 3}, {"object": "gray rubber cylinder", "cell": "B4-4", "row": 1, "col": 3, "layer": 3}, {"object": "purple rubber cube", "cell": "B4-1", "row": 1, "col": 3, "la...	{"scene_id": "g04_000005", "split": "g04", "image_index": 5, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cube", "size": "small", ...
g04_000006	4	g04	[{"id": "obj_0", "desc": "yellow rubber sphere"}, {"id": "obj_1", "desc": "red rubber cylinder"}, {"id": "obj_2", "desc": "red rubber sphere"}, {"id": "obj_3", "desc": "yellow rubber cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "yellow rubber sphere", "cell": "A4-1", "row": 0, "col": 3, "layer": 0}, {"object": "red rubber cylinder", "cell": "D2-4", "row": 3, "col": 1, "layer": 3}, {"object": "red rubber sphere", "cell": "C4-2", "row": 2, "col": 3, "layer": 1}, {"object": "yellow rubber cylinder", "cell": "D2-3", "row": 3, "col": 1...	{"scene_id": "g04_000006", "split": "g04", "image_index": 6, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "sphere", "size": "small"...
g04_000007	4	g04	[{"id": "obj_0", "desc": "yellow rubber sphere"}, {"id": "obj_1", "desc": "blue metal cube"}, {"id": "obj_2", "desc": "brown metal sphere"}, {"id": "obj_3", "desc": "yellow rubber cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "yellow rubber sphere", "cell": "A3-4", "row": 0, "col": 2, "layer": 3}, {"object": "blue metal cube", "cell": "B4-3", "row": 1, "col": 3, "layer": 2}, {"object": "brown metal sphere", "cell": "B2-2", "row": 1, "col": 1, "layer": 1}, {"object": "yellow rubber cylinder", "cell": "D2-1", "row": 3, "col": 1, "...	{"scene_id": "g04_000007", "split": "g04", "image_index": 7, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "sphere", "size": "small"...
g04_000008	4	g04	[{"id": "obj_0", "desc": "red rubber sphere"}, {"id": "obj_1", "desc": "red metal cube"}, {"id": "obj_2", "desc": "purple metal cylinder"}, {"id": "obj_3", "desc": "purple rubber cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "red rubber sphere", "cell": "A3-3", "row": 0, "col": 2, "layer": 2}, {"object": "red metal cube", "cell": "B2-4", "row": 1, "col": 1, "layer": 3}, {"object": "purple metal cylinder", "cell": "A3-1", "row": 0, "col": 2, "layer": 0}, {"object": "purple rubber cylinder", "cell": "B4-3", "row": 1, "col": 3, "l...	{"scene_id": "g04_000008", "split": "g04", "image_index": 8, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "sphere", "size": "small"...
g04_000009	4	g04	[{"id": "obj_0", "desc": "green metal cube"}, {"id": "obj_1", "desc": "brown rubber sphere"}, {"id": "obj_2", "desc": "brown rubber cylinder"}, {"id": "obj_3", "desc": "brown rubber cube"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "green metal cube", "cell": "B3-4", "row": 1, "col": 2, "layer": 3}, {"object": "brown rubber sphere", "cell": "C1-2", "row": 2, "col": 0, "layer": 1}, {"object": "brown rubber cylinder", "cell": "B1-1", "row": 1, "col": 0, "layer": 0}, {"object": "brown rubber cube", "cell": "C4-1", "row": 2, "col": 3, "la...	{"scene_id": "g04_000009", "split": "g04", "image_index": 9, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cube", "size": "small", ...
g04_000010	4	g04	[{"id": "obj_0", "desc": "purple rubber cube"}, {"id": "obj_1", "desc": "blue metal sphere"}, {"id": "obj_2", "desc": "gray rubber sphere"}, {"id": "obj_3", "desc": "blue rubber cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "purple rubber cube", "cell": "A3-4", "row": 0, "col": 2, "layer": 3}, {"object": "blue metal sphere", "cell": "D2-3", "row": 3, "col": 1, "layer": 2}, {"object": "gray rubber sphere", "cell": "C1-4", "row": 2, "col": 0, "layer": 3}, {"object": "blue rubber cylinder", "cell": "A2-2", "row": 0, "col": 1, "la...	{"scene_id": "g04_000010", "split": "g04", "image_index": 10, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cube", "size": "small",...
g04_000011	4	g04	[{"id": "obj_0", "desc": "blue metal cube"}, {"id": "obj_1", "desc": "purple metal cylinder"}, {"id": "obj_2", "desc": "green metal cylinder"}, {"id": "obj_3", "desc": "red metal cylinder"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "blue metal cube", "cell": "C4-2", "row": 2, "col": 3, "layer": 1}, {"object": "purple metal cylinder", "cell": "D2-1", "row": 3, "col": 1, "layer": 0}, {"object": "green metal cylinder", "cell": "B1-4", "row": 1, "col": 0, "layer": 3}, {"object": "red metal cylinder", "cell": "B4-3", "row": 1, "col": 3, "l...	{"scene_id": "g04_000011", "split": "g04", "image_index": 11, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cube", "size": "small",...
g04_000012	4	g04	[{"id": "obj_0", "desc": "purple rubber cylinder"}, {"id": "obj_1", "desc": "blue metal sphere"}, {"id": "obj_2", "desc": "cyan metal cylinder"}, {"id": "obj_3", "desc": "cyan rubber sphere"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "purple rubber cylinder", "cell": "A3-1", "row": 0, "col": 2, "layer": 0}, {"object": "blue metal sphere", "cell": "C1-4", "row": 2, "col": 0, "layer": 3}, {"object": "cyan metal cylinder", "cell": "C4-1", "row": 2, "col": 3, "layer": 0}, {"object": "cyan rubber sphere", "cell": "D1-4", "row": 3, "col": 0, ...	{"scene_id": "g04_000012", "split": "g04", "image_index": 12, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cylinder", "size": "sma...
g04_000013	4	g04	[{"id": "obj_0", "desc": "brown metal cylinder"}, {"id": "obj_1", "desc": "cyan metal sphere"}, {"id": "obj_2", "desc": "cyan metal cube"}, {"id": "obj_3", "desc": "brown metal cube"}]	You are analyzing a 3D scene where objects are placed in a 4×4×4 grid. Coordinate system: - Row: A, B, C, D (A=front, D=back) - Column: 1, 2, 3, 4 (1=left, 4=right) - Layer: 1, 2, 3, 4 (1=bottom, 4=top) - Position format: RowCol-Layer, e.g. "B3-4" = Row B, Column 3, Layer 4 You will receive 6 orthographic views of th...	Here are 6 orthographic views of a 3D grid scene: [Image 1 — TOP VIEW (looking down): rows=A-D top-to-bottom, columns=1-4 left-to-right] [Image 2 — FRONT VIEW (looking from front): columns=1-4 left-to-right, layers=1-4 bottom-to-top] [Image 3 — RIGHT VIEW (looking from right side): rows=A-D left-to-right, layers=1-4...	[{"object": "brown metal cylinder", "cell": "A3-1", "row": 0, "col": 2, "layer": 0}, {"object": "cyan metal sphere", "cell": "C3-3", "row": 2, "col": 2, "layer": 2}, {"object": "cyan metal cube", "cell": "C3-1", "row": 2, "col": 2, "layer": 0}, {"object": "brown metal cube", "cell": "A4-4", "row": 0, "col": 3, "layer":...	{"scene_id": "g04_000013", "split": "g04", "image_index": 13, "n_objects": 4, "placement_mode": "grid3d", "grid_info": {"rows": 4, "cols": 4, "layers": 4, "cell_size": 1.5, "grid_extent_xy": [-3.0, 3.0], "grid_extent_z": [0.0, 6.0], "labels_visible": false}, "objects": [{"id": "obj_0", "shape": "cylinder", "size": "sma...

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ORDINARY-BENCH Grid3D Dataset

A benchmark dataset for evaluating Vision-Language Models (VLMs) on 3D object localization in a 4x4x4 grid using 6 orthographic views.

Source code & evaluation pipeline: GitHub - tasd12-ty/ordinary-bench-core

Related dataset (free-placement scenes): TYTSTQ/ordinary-bench

Overview


Scenes	140 synthetic 3D scenes (Blender, 4x4x4 grid)
Complexity	7 levels: 4 to 10 objects per scene (20 each)
Views	6 orthographic projections per scene (480x480 PNG)
Task	Determine each object's grid cell from the 6 views

Task Description

Objects are placed in a 4x4x4 discrete grid (64 possible positions). The VLM receives 6 labeled orthographic views and must output each object's grid cell position.

Coordinate System

Row:    A, B, C, D    (A = front, D = back)
Column: 1, 2, 3, 4    (1 = left,  4 = right)
Layer:  1, 2, 3, 4    (1 = bottom, 4 = top)

Position format: RowCol-Layer
Example: "B3-4" = Row B, Column 3, Layer 4

View Projections

View	What it shows	Axes
Top (looking down)	Row + Column	Rows A-D top-to-bottom, Cols 1-4 left-to-right
Front (from front)	Column + Layer	Cols 1-4 left-to-right, Layers 1-4 bottom-to-top
Right (from right)	Row + Layer	Rows A-D left-to-right, Layers 1-4 bottom-to-top
Back (from back)	Column + Layer	Cols 4-1 left-to-right (reversed), Layers 1-4 bottom-to-top
Left (from left)	Row + Layer	Rows D-A left-to-right (reversed), Layers 1-4 bottom-to-top
Bottom (looking up)	Row + Column	Rows A-D top-to-bottom, Cols 4-1 left-to-right (reversed)

Any two orthogonal views (e.g., Top + Front) are sufficient to determine all 3 coordinates, but 6 views provide redundancy for verification.

Quick Start

from datasets import load_dataset

ds = load_dataset("TYTSTQ/ordinary-bench-grid3d", split="test")

sample = ds[0]
sample["image_top"]       # PIL Image (480x480) - top-down view
sample["image_front"]     # PIL Image (480x480) - front view
sample["system_prompt"]   # System prompt with coordinate system
sample["user_prompt"]     # User prompt with view labels + object list
sample["ground_truth"]    # JSON: [{"object": "cyan rubber cylinder", "cell": "B3-4"}, ...]

Data Splits

Split	Scenes per complexity	Total scenes
train	15	105
test	5	35

Column Schema

Column	Type	Description
`scene_id`	string	Scene identifier, e.g., `g07_000010`
`n_objects`	int	Number of objects (4-10)
`split`	string	Complexity split: `g04` through `g10`
`image_top`	Image	Top orthographic view (looking down)
`image_bottom`	Image	Bottom orthographic view (looking up)
`image_front`	Image	Front orthographic view
`image_back`	Image	Back orthographic view
`image_left`	Image	Left orthographic view
`image_right`	Image	Right orthographic view
`objects`	string	JSON: object descriptions
`system_prompt`	string	System prompt for VLM
`user_prompt`	string	User prompt with view annotations
`ground_truth`	string	JSON: `[{"object": "...", "cell": "B3-4"}, ...]`
`scene_metadata`	string	Full scene JSON (3D coords, grid info)

Expected Response Format

[
  {"object": "cyan rubber cylinder", "cell": "B3-4"},
  {"object": "brown metal sphere", "cell": "A1-2"}
]

Scoring Criteria

Metric	Description
Exact accuracy	Predicted cell == GT cell
Structural accuracy	Correct under D4 symmetry (rotation/reflection in row-col plane)
Per-dimension accuracy	Row, Column, Layer accuracy independently

The D4 symmetry metric accounts for consistent rotations/reflections of the entire grid, which can happen when VLMs misinterpret view orientations.

Source Code

Full generation pipeline, VLM evaluation, and scoring tools:

github.com/tasd12-ty/ordinary-bench-core/tree/main/data-gen-grid3d

License

MIT

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