import sys import tinyobjloader filename = "../models/cornell_box.obj" reader = tinyobjloader.ObjReader() # Load .obj(and .mtl) using default configuration ret = reader.ParseFromFile(filename) # Optionally you can set custom `config` # config = tinyobj.ObjReaderConfig() # config.triangulate = False # ret = reader.ParseFromFile(filename, config) if ret == False: print("Failed to load : ", filename) print("Warn:", reader.Warning()) print("Err:", reader.Error()) sys.exit(-1) if reader.Warning(): print("Warn:", reader.Warning()) attrib = reader.GetAttrib() print("attrib.vertices = ", len(attrib.vertices)) print("attrib.normals = ", len(attrib.normals)) print("attrib.texcoords = ", len(attrib.texcoords)) # vertex data must be `xyzxyzxyz...` assert len(attrib.vertices) % 3 == 0 # normal data must be `xyzxyzxyz...` assert len(attrib.normals) % 3 == 0 # texcoords data must be `uvuvuv...` assert len(attrib.texcoords) % 2 == 0 for (i, v) in enumerate(attrib.vertices): print("v[{}] = {}".format(i, v)) for (i, v) in enumerate(attrib.normals): print("vn[{}] = {}".format(i, v)) for (i, v) in enumerate(attrib.texcoords): print("vt[{}] = {}".format(i, t)) print("numpy_vertices = {}".format(attrib.numpy_vertices())) materials = reader.GetMaterials() print("Num materials: ", len(materials)) for m in materials: print(m.name) print(m.diffuse) print(m.diffuse_texname) # Partial update(array indexing) does not work # m.diffuse[1] = 1.0 # Update with full object assignment works m.diffuse = [1, 2, 3] print(m.diffuse) # print(m.shininess) # print(m.illum) shapes = reader.GetShapes() print("Num shapes: ", len(shapes)) for shape in shapes: print(shape.name) print("len(num_indices) = {}".format(len(shape.mesh.indices))) for (i, idx) in enumerate(shape.mesh.indices): print("[{}] v_idx {}".format(i, idx.vertex_index)) print("[{}] vn_idx {}".format(i, idx.normal_index)) print("[{}] vt_idx {}".format(i, idx.texcoord_index)) print("numpy_indices = {}".format(shape.mesh.numpy_indices())) print("numpy_num_face_vertices = {}".format(shape.mesh.numpy_num_face_vertices())) print("numpy_material_ids = {}".format(shape.mesh.numpy_material_ids()))