Exemplo n.º 1
0
def create_2d_point_mesh(width, height, pts_2d, point_size_px):
    # create a triangle mesh
    def _rot_mat(angle_rad):
        return np.array(
            [[np.cos(angle_rad), -np.sin(angle_rad)],
             [np.sin(angle_rad), np.cos(angle_rad)]],
            dtype=np.float32)

    if isinstance(pts_2d, list):
        pts_2d = np.array(pts_2d, dtype=np.float32)

    vertices = np.zeros((3, 3), dtype=np.float32)
    point_size_ndc = point_size_px / height
    vec = np.array([0, point_size_ndc])
    vertices[0, 0:2] = vec
    vertices[1, 0:2] = _rot_mat(np.radians(120)) @ vec
    vertices[2, 0:2] = _rot_mat(np.radians(-120)) @ vec
    mat = MetallicRoughnessMaterial(doubleSided=True,
                                    baseColorFactor=[1.0, 0, 0, 1])

    instances = [np.eye(4) for i in range(pts_2d.shape[0])]
    for i in range(pts_2d.shape[0]):
        instances[i][0, 3] = (2 * pts_2d[i][0] - width) / height
        instances[i][1, 3] = pts_2d[i][1] / height * 2 - 1
        instances[i][2, 3] = -1
    prim = Primitive(positions=vertices,
                     mode=GLTF.TRIANGLES,
                     material=mat,
                     poses=instances)
    return Mesh(primitives=[prim])
    def _reset_scene(self, scale_factor=1.0):
        """Resets the scene.

        Parameters
        ----------
        scale_factor : float
            optional scale factor to apply to the image dimensions
        """
        # delete scene
        if self._scene is not None:
            self._scene.clear()
            del self._scene

        # create scene
        scene = Scene()

        # setup camera
        camera = IntrinsicsCamera(
            self.camera.intrinsics.fx,
            self.camera.intrinsics.fy,
            self.camera.intrinsics.cx,
            self.camera.intrinsics.cy,
        )
        pose_m = self.camera.pose.matrix.copy()
        pose_m[:, 1:3] *= -1.0
        scene.add(camera, pose=pose_m, name=self.camera.frame)
        scene.main_camera_node = next(
            iter(scene.get_nodes(name=self.camera.frame))
        )

        material = MetallicRoughnessMaterial(
            baseColorFactor=np.array([1, 1, 1, 1.0]),
            metallicFactor=0.2,
            roughnessFactor=0.8,
        )

        # add workspace objects
        for obj_key in self.state.workspace_keys:
            obj_state = self.state[obj_key]
            obj_mesh = Mesh.from_trimesh(obj_state.mesh, material=material)
            T_obj_world = obj_state.pose.matrix
            scene.add(obj_mesh, pose=T_obj_world, name=obj_key)

        # add scene objects
        for obj_key in self.state.obj_keys:
            obj_state = self.state[obj_key]
            obj_mesh = Mesh.from_trimesh(obj_state.mesh, material=material)
            T_obj_world = obj_state.pose.matrix
            scene.add(obj_mesh, pose=T_obj_world, name=obj_key)

        # add light (for color rendering)
        light = DirectionalLight(color=np.ones(3), intensity=1.0)
        scene.add(light, pose=np.eye(4))
        ray_light_nodes = self._create_raymond_lights()
        [scene.add_node(rln) for rln in ray_light_nodes]

        self._scene = scene
Exemplo n.º 3
0
def extract_material(mesh):
    pyrender_mat = None
    if mesh.visual.kind == 'texture':
        trimesh_mat = mesh.visual.material
        if isinstance(trimesh_mat, trimesh.visual.texture.PBRMaterial):
            pyrender_mat = MetallicRoughnessMaterial(
                normalTexture=trimesh_mat.normalTexture,
                occlusionTexture=trimesh_mat.occlusionTexture,
                emissiveTexture=trimesh_mat.emissiveTexture,
                emissiveFactor=trimesh_mat.emissiveFactor,
                alphaMode='BLEND',
                baseColorFactor=trimesh_mat.baseColorFactor,
                baseColorTexture=trimesh_mat.baseColorTexture,
                metallicFactor=trimesh_mat.metallicFactor,
                metallicRoughnessTexture=trimesh_mat.metallicRoughnessTexture,
                doubleSided=trimesh_mat.doubleSided,
                alphaCutoff=trimesh_mat.alphaCutoff
            )
        elif isinstance(trimesh_mat, trimesh.visual.texture.SimpleMaterial):
            pyrender_mat = MetallicRoughnessMaterial(
                alphaMode='BLEND',
                baseColorTexture=trimesh_mat.image
            )
    return pyrender_mat
Exemplo n.º 4
0
    def get_random_material(self):
        roughness = random.choice(self.roughness_values)
        metalness = random.uniform(0.0, 1.0)

        if self.use_textures and random.random() < 0.9:
            image = self.load_random_image(self.texture_paths)
            # base_color = [1.0, 1.0, 1.0]
            base_color = np.random.uniform(1.0, 2.0, 3)
        else:
            base_color = np.random.uniform(0.2, 1.0, 3)
            image = None

        return MetallicRoughnessMaterial(
            alphaMode='BLEND',
            roughnessFactor=roughness,
            metallicFactor=metalness,
            baseColorFactor=base_color,
            baseColorTexture=image,
        )
Exemplo n.º 5
0
    def _create_node_from_mesh(mesh,
                               name=None,
                               pose=None,
                               color=None,
                               material=None,
                               poses=None,
                               wireframe=False,
                               smooth=True):
        """Helper method that creates a pyrender.Node from a trimesh.Trimesh"""
        # Create default pose
        if pose is None:
            pose = np.eye(4)
        elif isinstance(pose, RigidTransform):
            pose = pose.matrix

        # Create vertex colors if needed
        if color is not None:
            color = np.asanyarray(color, dtype=np.float)
            if color.ndim == 1 or len(color) != len(mesh.vertices):
                color = np.repeat(color[np.newaxis, :],
                                  len(mesh.vertices),
                                  axis=0)
            mesh.visual.vertex_colors = color

        if material is None and mesh.visual.kind != 'texture':
            if color is not None:
                material = None
            else:
                material = MetallicRoughnessMaterial(baseColorFactor=np.array(
                    [1.0, 1.0, 1.0, 1.0]),
                                                     metallicFactor=0.2,
                                                     roughnessFactor=0.8)

        m = Mesh.from_trimesh(mesh,
                              material=material,
                              poses=poses,
                              wireframe=wireframe,
                              smooth=smooth)
        return Node(mesh=m, name=name, matrix=pose)
Exemplo n.º 6
0
    def __init__(self, args):
        super(self.__class__, self).__init__()

        self.save_params_path = args.save_model_params if args.save_model_params is not None\
            else args.fit_result

        # Result retrieve
        with open(args.fit_result, 'rb') as f:
            fitting_results = pickle.load(f, encoding='latin1')
        self.cam_rot = fitting_results['camera_rotation'][0]
        self.cam_trans = fitting_results['camera_translation'][0]

        # Background image setup
        self.base_img = load_image(
            args.image_path) if args.image_path else None
        if self.base_img is not None:
            self.canvas_size = np.array(self.base_img.shape[:2][::-1],
                                        dtype=np.float32)
            if self.canvas_size[1] > MAX_CANVAS_HEIGHT:
                self.canvas_size *= (MAX_CANVAS_HEIGHT /
                                     float(self.canvas_size[1]))
            if self.canvas_size[0] > MAX_CANVAS_WIDTH:
                self.canvas_size *= (MAX_CANVAS_WIDTH /
                                     float(self.canvas_size[0]))
            self.canvas_size = tuple(self.canvas_size.astype(int))
        else:
            self.canvas_size = None

        # Model setup
        self.model = self._init_model(fitting_results, args.gender)

        # Scene setup
        self.scene = Scene(bg_color=[1.0, 1.0, 1.0])
        self.material = MetallicRoughnessMaterial(metallicFactor=0.0,
                                                  alphaMode='BLEND',
                                                  baseColorFactor=(5.0, 5.0,
                                                                   5.0, 1.0))
        im_size = self.canvas_size if self.canvas_size is not None else (
            MAX_CANVAS_WIDTH, MAX_CANVAS_HEIGHT)
        # self.camera = PerspectiveCamera(yfov=np.pi/3.0,
        #                                 aspectRatio=float(self.canvas_size[0])/self.canvas_size[1])
        self.camera = IntrinsicsCamera(fx=5000.,
                                       fy=5000.,
                                       cx=im_size[0] / 2,
                                       cy=im_size[1] / 2)
        # self.camera = CustomIntrinsicsCamera(fx=5000., fy=5000.,
        #                                cx=im_size[0]/2, cy=im_size[1]/2)

        self.camera_params = {
            't': self.cam_trans,
            'rt': cv2.Rodrigues(self.cam_rot)[0],
            'c': np.array(im_size).astype(float) / 2,
            'f': np.array((im_size[0], ) * 2) * 1.0,
            'k': np.zeros(5),
            'frustum': {
                'near': self.camera.znear,
                'far': self.camera.zfar,
                'width': im_size[0],
                'height': im_size[1]
            }
        }
        camera_pos = np.eye(4)
        # print(self.cam_trans)
        # print(self.camera.get_projection_matrix(im_size[0], im_size[1]))
        # print(self.camera.cx, self.camera.cy)
        camera_pos[:3, :3] = self.cam_rot
        self.cam_trans[0] *= -1
        camera_pos[:3, 3] = self.cam_trans
        slight = SpotLight(color=[1.0, 1.0, 1.0], intensity=10.0)
        slight_pos = np.eye(4)
        slight_pos[:3, 3] = np.array([0, 0, 5])
        self.scene.add(self.camera, pose=camera_pos)
        self.scene.add(slight, pose=slight_pos)
        self.renderer = OffscreenRenderer(viewport_width=im_size[0],
                                          viewport_height=im_size[1],
                                          point_size=1.0)

        # Rest setup
        self.setupUi(self)
        self._moving = False
        self._rotating = False
        self._mouse_begin_pos = None
        self._loaded_gender = None
        self._update_canvas = False

        self.camera_widget = Ui_CameraWidget(self.camera,
                                             self.camera_params['frustum'],
                                             self.draw, self.camera_params)
        self._bind_actions()
        self._update_canvas = True