def test_transformMeshData(): transformation_matrix = Matrix() transformation_matrix.setByTranslation(Vector(30, 20, 10)) vertices = numpy.zeros((1, 3), dtype=numpy.float32) mesh_data = MeshData(vertices) transformed_mesh = mesh_data.getTransformed(transformation_matrix) assert transformed_mesh.getVertex(0)[0] == 30. assert transformed_mesh.getVertex(0)[1] == 20. assert transformed_mesh.getVertex(0)[2] == 10.
def test_transformMeshData(): transformation_matrix = Matrix() transformation_matrix.setByTranslation(Vector(30, 20, 10)) vertices = numpy.zeros((1, 3), dtype=numpy.float32) mesh_data = MeshData(vertices) transformed_mesh = mesh_data.getTransformed(transformation_matrix) assert transformed_mesh.getVertex(0)[0] == 30. assert transformed_mesh.getVertex(0)[1] == 20. assert transformed_mesh.getVertex(0)[2] == 10.
def read(self, file_name): result = None result = SceneNode() # The base object of 3mf is a zipped archive. archive = zipfile.ZipFile(file_name, "r") try: root = ET.parse(archive.open("3D/3dmodel.model")) # There can be multiple objects, try to load all of them. objects = root.findall("./3mf:resources/3mf:object", self._namespaces) if len(objects) == 0: Logger.log( "w", "No objects found in 3MF file %s, either the file is corrupt or you are using an outdated format", file_name) return None for object in objects: mesh = MeshData() node = SceneNode() vertex_list = [] #for vertex in object.mesh.vertices.vertex: for vertex in object.findall(".//3mf:vertex", self._namespaces): vertex_list.append( [vertex.get("x"), vertex.get("y"), vertex.get("z")]) Job.yieldThread() triangles = object.findall(".//3mf:triangle", self._namespaces) mesh.reserveFaceCount(len(triangles)) #for triangle in object.mesh.triangles.triangle: for triangle in triangles: v1 = int(triangle.get("v1")) v2 = int(triangle.get("v2")) v3 = int(triangle.get("v3")) mesh.addFace(vertex_list[v1][0], vertex_list[v1][1], vertex_list[v1][2], vertex_list[v2][0], vertex_list[v2][1], vertex_list[v2][2], vertex_list[v3][0], vertex_list[v3][1], vertex_list[v3][2]) Job.yieldThread() # Rotate the model; We use a different coordinate frame. rotation = Matrix() rotation.setByRotationAxis(-0.5 * math.pi, Vector(1, 0, 0)) mesh = mesh.getTransformed(rotation) #TODO: We currently do not check for normals and simply recalculate them. mesh.calculateNormals() node.setMeshData(mesh) node.setSelectable(True) transformation = root.findall( "./3mf:build/3mf:item[@objectid='{0}']".format( object.get("id")), self._namespaces) if transformation: transformation = transformation[0] try: if transformation.get("transform"): splitted_transformation = transformation.get( "transform").split() ## Transformation is saved as: ## M00 M01 M02 0.0 ## M10 M11 M12 0.0 ## M20 M21 M22 0.0 ## M30 M31 M32 1.0 ## We switch the row & cols as that is how everyone else uses matrices! temp_mat = Matrix() # Rotation & Scale temp_mat._data[0, 0] = splitted_transformation[0] temp_mat._data[1, 0] = splitted_transformation[1] temp_mat._data[2, 0] = splitted_transformation[2] temp_mat._data[0, 1] = splitted_transformation[3] temp_mat._data[1, 1] = splitted_transformation[4] temp_mat._data[2, 1] = splitted_transformation[5] temp_mat._data[0, 2] = splitted_transformation[6] temp_mat._data[1, 2] = splitted_transformation[7] temp_mat._data[2, 2] = splitted_transformation[8] # Translation temp_mat._data[0, 3] = splitted_transformation[9] temp_mat._data[1, 3] = splitted_transformation[10] temp_mat._data[2, 3] = splitted_transformation[11] node.setTransformation(temp_mat) except AttributeError: pass # Empty list was found. Getting transformation is not possible result.addChild(node) Job.yieldThread() #If there is more then one object, group them. try: if len(objects) > 1: group_decorator = GroupDecorator() result.addDecorator(group_decorator) except: pass except Exception as e: Logger.log("e", "exception occured in 3mf reader: %s", e) return result
def read(self, file_name): result = SceneNode() # The base object of 3mf is a zipped archive. archive = zipfile.ZipFile(file_name, "r") try: root = ET.parse(archive.open("3D/3dmodel.model")) # There can be multiple objects, try to load all of them. objects = root.findall("./3mf:resources/3mf:object", self._namespaces) if len(objects) == 0: Logger.log("w", "No objects found in 3MF file %s, either the file is corrupt or you are using an outdated format", file_name) return None for entry in objects: mesh = MeshData() node = SceneNode() vertex_list = [] #for vertex in entry.mesh.vertices.vertex: for vertex in entry.findall(".//3mf:vertex", self._namespaces): vertex_list.append([vertex.get("x"), vertex.get("y"), vertex.get("z")]) Job.yieldThread() triangles = entry.findall(".//3mf:triangle", self._namespaces) mesh.reserveFaceCount(len(triangles)) #for triangle in object.mesh.triangles.triangle: for triangle in triangles: v1 = int(triangle.get("v1")) v2 = int(triangle.get("v2")) v3 = int(triangle.get("v3")) mesh.addFace(vertex_list[v1][0],vertex_list[v1][1],vertex_list[v1][2],vertex_list[v2][0],vertex_list[v2][1],vertex_list[v2][2],vertex_list[v3][0],vertex_list[v3][1],vertex_list[v3][2]) Job.yieldThread() # Rotate the model; We use a different coordinate frame. rotation = Matrix() rotation.setByRotationAxis(-0.5 * math.pi, Vector(1,0,0)) mesh = mesh.getTransformed(rotation) #TODO: We currently do not check for normals and simply recalculate them. mesh.calculateNormals() node.setMeshData(mesh) node.setSelectable(True) transformation = root.findall("./3mf:build/3mf:item[@objectid='{0}']".format(entry.get("id")), self._namespaces) if transformation: transformation = transformation[0] try: if transformation.get("transform"): splitted_transformation = transformation.get("transform").split() ## Transformation is saved as: ## M00 M01 M02 0.0 ## M10 M11 M12 0.0 ## M20 M21 M22 0.0 ## M30 M31 M32 1.0 ## We switch the row & cols as that is how everyone else uses matrices! temp_mat = Matrix() # Rotation & Scale temp_mat._data[0,0] = splitted_transformation[0] temp_mat._data[1,0] = splitted_transformation[1] temp_mat._data[2,0] = splitted_transformation[2] temp_mat._data[0,1] = splitted_transformation[3] temp_mat._data[1,1] = splitted_transformation[4] temp_mat._data[2,1] = splitted_transformation[5] temp_mat._data[0,2] = splitted_transformation[6] temp_mat._data[1,2] = splitted_transformation[7] temp_mat._data[2,2] = splitted_transformation[8] # Translation temp_mat._data[0,3] = splitted_transformation[9] temp_mat._data[1,3] = splitted_transformation[10] temp_mat._data[2,3] = splitted_transformation[11] node.setTransformation(temp_mat) except AttributeError: pass # Empty list was found. Getting transformation is not possible result.addChild(node) Job.yieldThread() #If there is more then one object, group them. try: if len(objects) > 1: group_decorator = GroupDecorator() result.addDecorator(group_decorator) except: pass except Exception as e: Logger.log("e" ,"exception occured in 3mf reader: %s" , e) return result