# model_card_scaled.py import trimesh import json import numpy as np PI = np.pi # === 你可以只调这两个参数 === MODEL_SCALE = 1 # 让卡变大(几何整体缩放倍数) MARKER_FRAC = 0.02 # 标注物尺寸占物体对角线的比例(越小→球和坐标轴越小) def create_model_data(id="card"): file_path = f"./{id}.glb" save_path = f"./model_data.json" # 1) 读模型并烘焙为单一 Trimesh with open(file_path, "rb") as f: loaded = trimesh.load(f, file_type="glb") mesh = loaded.to_mesh() if isinstance(loaded, trimesh.Scene) else loaded # 2) 放大卡(整体缩放) mesh.apply_scale(MODEL_SCALE) # <— 放大卡,trimesh 内置缩放方法 scene = trimesh.Scene(mesh) # 3) 根据放大后的尺寸自适应计算标注尺寸 obb = mesh.bounding_box_oriented center = obb.centroid ext = obb.extents diag = float(np.linalg.norm(ext)) + 1e-12 # 标注的统一尺度(你也可分别给不同大小) axis_len = diag * MARKER_FRAC * 6.0 # 坐标轴长度 origin_sz = diag * MARKER_FRAC * 0.6 # 轴心小球尺寸 r_target = diag * MARKER_FRAC * 1.2 # 目标点球半径 r_contact0 = diag * MARKER_FRAC * 1.0 # 抓取点球半径(1) r_contact1 = diag * MARKER_FRAC * 1.0 # 抓取点球半径(2) red = [1.0, 0.0, 0.0, 0.5] green = [0.0, 1.0, 0.0, 0.5] blue = [0.0, 0.0, 1.0, 0.5] # 4) Target point:取 OBB 质心 target_sphere = trimesh.creation.icosphere(subdivisions=2, radius=r_target) T_target = trimesh.transformations.translation_matrix(center) target_sphere.apply_transform(T_target) target_sphere.visual.vertex_colors = np.array([red] * len(target_sphere.vertices)) scene.add_geometry(target_sphere) target_points_list = [T_target.tolist()] # 5) 随便放两个 contact(先粗标,后续你再调) contact_points_list, contact_desc = [], [] def add_contact(radius, pos, euler_xyz, desc): sph = trimesh.creation.icosphere(subdivisions=2, radius=radius) T = trimesh.transformations.translation_matrix(pos) @ \ trimesh.transformations.euler_matrix(*euler_xyz) sph.apply_transform(T) sph.visual.vertex_colors = np.array([red] * len(sph.vertices)) # 坐标轴(更小) axis = trimesh.creation.axis(origin_size=origin_sz) # 指定轴心球大小 # 默认 axis_length 会随 origin_size 缩放;如要强行指定:axis = trimesh.creation.axis(origin_size=origin_sz); axis.apply_scale(axis_len / (origin_sz*10)) axis.apply_transform(T) scene.add_geometry(axis) scene.add_geometry(sph) contact_points_list.append(T.tolist()) contact_desc.append(desc) ex, ey, ez = ext print(ext) print(center) c = center add_contact(r_contact0, [c[0] + 0.25 * ex, c[1], c[2] - 0.25 * ez], [0, -PI, 0], "Suction point of the upper right corner to the midpoint by half") add_contact(r_contact1, [c[0], c[1], c[2] + 0.25 * ez], [-PI/2, -PI, 0], "Grasp on midpoint of the bottom edge") add_contact(r_contact1, [c[0], c[1], c[2] - 0.25 * ez], [PI/2, PI, 0], "Grasp on midpoint of the bottom edge") # 6) Orientation 参考点(小绿球) orient = trimesh.creation.icosphere(subdivisions=2, radius=origin_sz) T_orient = trimesh.transformations.translation_matrix([c[0], c[1] + ey/2.0, c[2]]) orient.apply_transform(T_orient) orient.visual.vertex_colors = np.array([green] * len(orient.vertices)) scene.add_geometry(orient) # 7) 世界坐标轴(可选,按比例更小) # world_axis = trimesh.creation.axis(origin_size=origin_sz) # scene.add_geometry(world_axis) # 8) 写 JSON(把 scale 也写成 [MODEL_SCALE]*3,与你的 motionplanner 用法保持一致) transform_matrix = trimesh.transformations.euler_matrix(0, 0, 0).tolist() data = { "center": center.tolist(), "extents": ext.tolist(), "scale": [MODEL_SCALE, MODEL_SCALE, MODEL_SCALE], # <— 与几何缩放一致 "target_pose": target_points_list, "contact_points_pose": contact_points_list, "transform_matrix": transform_matrix, "functional_matrix": [], "orientation_point": T_orient.tolist(), "contact_points_group": [[0, 1]], "contact_points_mask": [True, True], "contact_points_discription": contact_desc, "target_point_discription": ["Object centroid."], "functional_point_discription": [""], "orientation_point_discription": ["OBB +Y reference."] } with open(save_path, "w") as f: json.dump(data, f, indent=4, separators=(",", ": ")) scene.show() if __name__ == "__main__": create_model_data("card")