コード例 #1
0
def test_kitti_export(bounding_box, tmpdir):
    label_manager = LabelManager(strategy="kitti", path_to_label_folder=tmpdir)
    label_manager.export_labels("testfolder/testpcd.ply", [bounding_box])

    with open(os.path.join(tmpdir, "testpcd.txt"), "r") as read_file:
        data = read_file.readlines()

    assert data == ['test_bbox 0 0 0 0 0 0 0 1 1 1 0 0 0 -1.570796\n']
コード例 #2
0
ファイル: pcd_manager.py プロジェクト: Siyeong-Lee/labelCloud
 def __init__(self):
     # Point cloud management
     self.pcd_folder = PointCloudManger.PCD_FOLDER
     self.pcds = find_pcd_files(self.pcd_folder)
     self.no_of_pcds = len(self.pcds)
     self.current_id = -1
     self.current_o3d_pcd = None
     self.view = None
     self.label_manager = LabelManager()
     # Point cloud control
     self.pointcloud = None
コード例 #3
0
def test_centroid_abs_export(bounding_box, tmpdir):
    label_manager = LabelManager(strategy="centroid_abs", path_to_label_folder=tmpdir)
    label_manager.export_labels("testfolder/testpcd.ply", [bounding_box])

    with open(os.path.join(tmpdir, "testpcd.json"), "r") as read_file:
        data = json.load(read_file)

    assert data == {'folder': 'testfolder', 'filename': 'testpcd.ply', 'path': 'testfolder/testpcd.ply', 'objects':
        [{'name': 'test_bbox', 'centroid': {'x': 0, 'y': 0, 'z': 0},
          'dimensions': {'length': 1, 'width': 1, 'height': 1},
          'rotations': {'x': 90, 'y': 180, 'z': 270}}]}
コード例 #4
0
def test_vertices_export(bounding_box, tmpdir):
    label_manager = LabelManager(strategy="vertices", path_to_label_folder=tmpdir)
    label_manager.export_labels("testfolder/testpcd.ply", [bounding_box])

    with open(os.path.join(tmpdir, "testpcd.json"), "r") as read_file:
        data = json.load(read_file)

    assert data == {'folder': 'testfolder', 'filename': 'testpcd.ply', 'path': 'testfolder/testpcd.ply',
                    'objects': [{'name': 'test_bbox', 'vertices': [[0.5, -0.5, 0.5], [0.5, -0.5, -0.5],
                                                                   [0.5, 0.5, -0.5], [0.5, 0.5, 0.5],
                                                                   [-0.5, -0.5, 0.5], [-0.5, -0.5, -0.5],
                                                                   [-0.5, 0.5, -0.5], [-0.5, 0.5, 0.5]]}]}
コード例 #5
0
def test_kitti(label_kitti, tmpdir):
    # Write label to file
    with open(os.path.join(tmpdir, "test.txt"), "w") as write_file:
        write_file.write(label_kitti)

    # Import label file
    label_manager = LabelManager(strategy="kitti", path_to_label_folder=tmpdir)
    bounding_boxes = label_manager.import_labels("test.txt")
    bbox = bounding_boxes[0]

    # Check label content
    assert bbox.get_classname() == "cart"
    assert bbox.get_center() == (-0.409794, -0.012696, 0.076757)
    assert bbox.get_dimensions() == (0.75, 0.55, 0.15)
    assert bbox.get_rotations() == pytest.approx(
        (0, 0, 25))  # apply for rounding errors
コード例 #6
0
def test_centroid_import(label_centroid, tmpdir, label_format, rotation):
    # Write label to file
    with open(os.path.join(tmpdir, "test.json"), "w") as write_file:
        write_file.write(label_centroid)

    # Import label file
    label_manager = LabelManager(strategy=label_format,
                                 path_to_label_folder=tmpdir)
    bounding_boxes = label_manager.import_labels("test.ply")
    bbox = bounding_boxes[0]

    # Check label content
    assert bbox.get_classname() == "cart"
    assert bbox.get_center() == (-0.186338, -0.241696, 0.054818)
    assert bbox.get_dimensions() == (0.80014, 0.512493, 0.186055)
    assert bbox.get_rotations() == rotation
コード例 #7
0
def test_vertices(label_vertices, tmpdir):
    # Write label to file
    with open(os.path.join(tmpdir, "test.json"), "w") as write_file:
        write_file.write(label_vertices)

    # Import label file
    label_manager = LabelManager(strategy="vertices",
                                 path_to_label_folder=tmpdir)
    bounding_boxes = label_manager.import_labels("test.ply")
    bbox = bounding_boxes[0]

    # Check label content
    assert bbox.get_classname() == "cart"
    assert bbox.get_center() == pytest.approx(
        (-0.212846, -0.3679275, 0.0893245))
    assert bbox.get_dimensions() == pytest.approx((0.75, 0.55, 0.15))
    assert bbox.get_rotations() == pytest.approx(
        (270, 45, 25))  # apply for rounding errors
コード例 #8
0
ファイル: pcd_manager.py プロジェクト: Siyeong-Lee/labelCloud
class PointCloudManger:
    PCD_EXTENSIONS = (".pcd", ".ply", ".pts", ".xyz", ".xyzn", ".xyzrgb",
                      ".bin")
    PCD_FOLDER = config_parser.get_file_settings("POINTCLOUD_FOLDER")
    ORIGINALS_FOLDER = "original_pointclouds"
    TRANSLATION_FACTOR = config_parser.get_pointcloud_settings(
        "STD_TRANSLATION")
    ZOOM_FACTOR = config_parser.get_pointcloud_settings("STD_ZOOM")
    COLORIZE = config_parser.get_pointcloud_settings("COLORLESS_COLORIZE")

    def __init__(self):
        # Point cloud management
        self.pcd_folder = PointCloudManger.PCD_FOLDER
        self.pcds = find_pcd_files(self.pcd_folder)
        self.no_of_pcds = len(self.pcds)
        self.current_id = -1
        self.current_o3d_pcd = None
        self.view = None
        self.label_manager = LabelManager()
        # Point cloud control
        self.pointcloud = None

    # GETTER
    def pcds_left(self) -> bool:
        return self.current_id + 1 < self.no_of_pcds

    def get_next_pcd(self):
        print("Loading next point cloud...")
        if self.pcds_left():
            self.current_id += 1
            self.pointcloud = self.load_pointcloud(self.get_current_path())
            self.update_pcd_infos()
        else:
            if self.current_id == -1:
                show_no_pcd_dialog()
                sys.exit()
            raise Exception("No point cloud left for loading!")

    def get_prev_pcd(self):
        print("Loading previous point cloud...")
        if self.current_id > 0:
            self.current_id -= 1
            self.pointcloud = self.load_pointcloud(self.get_current_path())
            self.update_pcd_infos()
        else:
            raise Exception("No point cloud left for loading!")

    def get_pointcloud(self):
        return self.pointcloud

    def get_current_name(self) -> str:
        if self.current_id >= 0:
            return self.pcds[self.current_id]

    def get_current_details(self) -> Tuple[str, int, int]:
        if self.current_id >= 0:
            return self.get_current_name(
            ), self.current_id + 1, self.no_of_pcds

    def get_current_path(self) -> str:
        return os.path.join(self.pcd_folder, self.pcds[self.current_id])

    def get_labels_from_file(self):
        bboxes = self.label_manager.import_labels(self.get_current_name())
        print("Loaded %s bboxes!" % len(bboxes))
        return bboxes

    # SETTER
    def set_view(self, view: 'GUI') -> None:
        self.view = view
        self.view.init_progress(min_value=0, max_value=self.no_of_pcds)
        self.view.glWidget.set_pointcloud_controler(self)
        self.get_next_pcd()

    def save_labels_into_file(self, bboxes: List[BBox]):
        self.label_manager.export_labels(self.get_current_path(), bboxes)
        self.update_label_completer(get_unique_classnames(bboxes))

    # MANIPULATOR
    def load_pointcloud(self, path_to_pointcloud: str) -> PointCloud:
        print("=" * 20, "Loading", ntpath.basename(path_to_pointcloud),
              "=" * 20)

        if os.path.splitext(path_to_pointcloud
                            )[1] == ".bin":  # Loading binary pcds with numpy
            bin_pcd = np.fromfile(path_to_pointcloud, dtype=np.float32)
            points = bin_pcd.reshape(
                (-1, 4))[:, 0:3]  # Reshape and drop reflection values
            self.current_o3d_pcd = o3d.geometry.PointCloud(
                o3d.utility.Vector3dVector(points))
        else:
            self.current_o3d_pcd = o3d.io.read_point_cloud(
                path_to_pointcloud)  # Load point cloud with open3d

        tmp_pcd = PointCloud(path_to_pointcloud)
        tmp_pcd.points = np.asarray(self.current_o3d_pcd.points).astype(
            "float32")  # Unpack point cloud
        tmp_pcd.colors = np.asarray(
            self.current_o3d_pcd.colors).astype("float32")

        tmp_pcd.colorless = len(tmp_pcd.colors) == 0

        print("Number of Points: %s" % len(tmp_pcd.points))
        # Calculate and set initial translation to view full pointcloud
        tmp_pcd.center = self.current_o3d_pcd.get_center()
        tmp_pcd.set_mins_maxs()

        if PointCloudManger.COLORIZE and tmp_pcd.colorless:
            print("Generating colors for colorless point cloud!")
            min_height, max_height = tmp_pcd.get_min_max_height()
            tmp_pcd.colors = color_pointcloud(tmp_pcd.points, min_height,
                                              max_height)
            tmp_pcd.colorless = False

        max_dims = np.subtract(tmp_pcd.pcd_maxs, tmp_pcd.pcd_mins)
        init_trans_z = max(
            tmp_pcd.center[2] - max(
                ((max(max_dims[:2]) / 2) / np.tan(0.39) + 2), -15), -25)
        init_trans_x = -tmp_pcd.center[0] + max_dims[0] * 0.1
        init_trans_y = -tmp_pcd.center[1] + max_dims[1] * -0.1
        tmp_pcd.init_translation = init_trans_x, init_trans_y, init_trans_z
        tmp_pcd.reset_translation()
        tmp_pcd.print_details()
        if self.pointcloud is not None:  # Skip first pcd to intialize OpenGL first
            tmp_pcd.write_vbo()

        print("Successfully loaded point cloud from %s!" % path_to_pointcloud)
        if tmp_pcd.colorless:
            print(
                "Did not find colors for the loaded point cloud, drawing in colorless mode!"
            )
        print("=" * 65)
        return tmp_pcd

    def rotate_around_x(self, dangle):
        self.pointcloud.set_rot_x(self.pointcloud.rot_x - dangle)

    def rotate_around_y(self, dangle):
        self.pointcloud.set_rot_y(self.pointcloud.rot_y - dangle)

    def rotate_around_z(self, dangle):
        self.pointcloud.set_rot_z(self.pointcloud.rot_z - dangle)

    def translate_along_x(self, distance):
        self.pointcloud.set_trans_x(self.pointcloud.trans_x - distance *
                                    PointCloudManger.TRANSLATION_FACTOR)

    def translate_along_y(self, distance):
        self.pointcloud.set_trans_y(self.pointcloud.trans_y + distance *
                                    PointCloudManger.TRANSLATION_FACTOR)

    def translate_along_z(self, distance):
        self.pointcloud.set_trans_z(self.pointcloud.trans_z - distance *
                                    PointCloudManger.TRANSLATION_FACTOR)

    def zoom_into(self, distance):
        zoom_distance = distance * PointCloudManger.ZOOM_FACTOR
        self.pointcloud.set_trans_z(self.pointcloud.trans_z + zoom_distance)

    def reset_translation(self):
        self.pointcloud.reset_translation()

    def reset_rotation(self):
        self.pointcloud.rot_x, self.pointcloud.rot_y, self.pointcloud.rot_z = (
            0, 0, 0)

    def reset_transformations(self):
        self.reset_translation()
        self.reset_rotation()

    def rotate_pointcloud(self, axis: List[float], angle: float,
                          rotation_point: List[float]) -> None:
        # Save current, original point cloud in ORIGINALS_FOLDER
        originals_path = os.path.join(self.pcd_folder,
                                      PointCloudManger.ORIGINALS_FOLDER)
        if not os.path.exists(originals_path):
            os.mkdir(originals_path)
        copyfile(self.get_current_path(),
                 os.path.join(originals_path, self.get_current_name()))
        # o3d.io.write_point_cloud(os.path.join(originals_path, self.get_current_name()), self.current_o3d_pcd)

        # Rotate and translate point cloud
        rotation_matrix = o3d.geometry.get_rotation_matrix_from_axis_angle(
            np.multiply(axis, angle))
        self.current_o3d_pcd.rotate(rotation_matrix,
                                    center=tuple(rotation_point))
        self.current_o3d_pcd.translate([0, 0, -rotation_point[2]])

        # Check if pointcloud is upside-down
        pcd_mins = np.amin(self.current_o3d_pcd.points, axis=0)
        pcd_maxs = np.amax(self.current_o3d_pcd.points, axis=0)

        if abs(pcd_mins[2]) > pcd_maxs[2]:
            print("Point cloud is upside down, rotating ...")
            self.current_o3d_pcd.rotate(
                o3d.geometry.get_rotation_matrix_from_xyz([np.pi, 0, 0]),
                center=(0, 0, 0))

        # Overwrite current point cloud and reload
        # if os.path.splitext(self.get_current_path())[1] == ".bin":
        #     points = np.asarray(self.current_o3d_pcd.points)
        #     flattened_points = np.append(points, np.zeros((len(points), 1)), axis=1).flatten()  # add dummy reflection
        #     flattened_points.tofile(self.get_current_path())
        # else:
        save_path = self.get_current_path()
        if os.path.splitext(save_path)[1] == ".bin":
            save_path = save_path[:-4] + ".pcd"

        o3d.io.write_point_cloud(save_path, self.current_o3d_pcd)
        self.pointcloud = self.load_pointcloud(save_path)

    # HELPER

    def get_perspective(self):
        x_rotation = self.pointcloud.rot_x
        # y_rotation = self.pcdc.get_pointcloud().rot_y
        z_rotation = self.pointcloud.rot_z
        # print("PCD-ROTX/y/z: %s, %s, %s" % (x_rotation, y_rotation, z_rotation))

        cosz = round(np.cos(np.deg2rad(z_rotation)), 1)
        sinz = -round(np.sin(np.deg2rad(z_rotation)), 1)

        # detect bottom-up state
        bottom_up = 1
        if 30 < x_rotation < 210:
            bottom_up = -1
        return cosz, sinz, bottom_up

    # UPDATE GUI
    def update_label_completer(self, classnames: Set[str]):
        self.view.curr_class_edit.setCompleter(QCompleter(classnames))

    def update_pcd_infos(self):
        self.view.set_pcd_label(self.get_current_name())
        self.view.update_progress(self.current_id)

        if self.current_id <= 0:
            self.view.button_prev_pcd.setEnabled(False)
        else:
            self.view.button_next_pcd.setEnabled(True)
            self.view.button_prev_pcd.setEnabled(True)