def load_trajectories(args): import os from collections import OrderedDict from evo.tools import file_interface trajectories = OrderedDict() ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file == args.ref: continue trajectories[traj_file] = file_interface.read_tum_trajectory_file( traj_file) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file == args.ref: continue trajectories[pose_file] = file_interface.read_kitti_poses_file( pose_file) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file == args.ref: continue else: trajectories[ csv_file] = file_interface.read_euroc_csv_trajectory( csv_file) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand == "bag": if not (args.topics or args.all_topics): die("No topics used - specify topics or set --all_topics.") if not os.path.exists(args.bag): raise file_interface.FileInterfaceException( "File doesn't exist: {}".format(args.bag)) import rosbag bag = rosbag.Bag(args.bag) try: if args.all_topics: topics = file_interface.get_supported_topics(bag) if args.ref in topics: topics.remove(args.ref) if len(topics) == 0: die("No topics of supported types: {}".format(" ".join( file_interface.SUPPORTED_ROS_MSGS))) else: topics = args.topics for topic in topics: if topic == args.ref: continue trajectories[topic] = file_interface.read_bag_trajectory( bag, topic) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() return trajectories, ref_traj
def load_trajectories(args): from evo.tools import file_interface trajectories = {} ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file == args.ref: continue trajectories[traj_file] = file_interface.read_tum_trajectory_file( traj_file) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file == args.ref: continue trajectories[pose_file] = file_interface.read_kitti_poses_file( pose_file) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file == args.ref: continue else: trajectories[ csv_file] = file_interface.read_euroc_csv_trajectory( csv_file) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand == "bag": if not (args.topics or args.all_topics): die("No topics used - specify topics or set --all_topics.") import rosbag bag = rosbag.Bag(args.bag) try: if args.all_topics: topic_info = bag.get_type_and_topic_info() topics = sorted([ t for t in topic_info[1].keys() if topic_info[1][t][0] in { "geometry_msgs/PoseStamped", "geometry_msgs/PoseWithCovarianceStamped", "nav_msgs/Odometry" } and t != args.ref ]) if len(topics) == 0: die("No geometry_msgs/PoseStamped, " "geometry_msgs/PoseWithCovarianceStamped or " "nav_msgs/Odometry topics found!") else: topics = args.topics for topic in topics: trajectories[topic] = file_interface.read_bag_trajectory( bag, topic) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() return trajectories, ref_traj
def load_trajectories(args): from evo.tools import file_interface trajectories = {} ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file == args.ref: continue trajectories[traj_file] = file_interface.read_tum_trajectory_file( traj_file) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file == args.ref: continue trajectories[pose_file] = file_interface.read_kitti_poses_file( pose_file) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file == args.ref: continue else: trajectories[ csv_file] = file_interface.read_euroc_csv_trajectory( csv_file) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand == "bag": if not (args.topics or args.all_topics): die("No topics used - specify topics or set --all_topics.") import rosbag bag = rosbag.Bag(args.bag) try: if args.all_topics: topic_info = bag.get_type_and_topic_info() topics = sorted([ t for t in topic_info[1].keys() if topic_info[1][t][0] in file_interface.SUPPORTED_ROS_MSGS and t != args.ref ]) if len(topics) == 0: die("No topics of supported types: {}".format(" ".join( file_interface.SUPPORTED_ROS_MSGS))) else: topics = args.topics for topic in topics: trajectories[topic] = file_interface.read_bag_trajectory( bag, topic) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() return trajectories, ref_traj
def load_trajectories(args): from evo.core import sync from evo.tools import file_interface if args.subcommand == "tum": traj_ref = file_interface.read_tum_trajectory_file(args.ref_file) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "kitti": traj_ref = file_interface.read_kitti_poses_file(args.ref_file) traj_est = file_interface.read_kitti_poses_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "euroc": traj_ref = file_interface.read_euroc_csv_trajectory(args.state_gt_csv) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.state_gt_csv, args.est_file elif args.subcommand == "bag": import os logger.debug("Opening bag file " + args.bag) if not os.path.exists(args.bag): raise file_interface.FileInterfaceException( "File doesn't exist: {}".format(args.bag)) import rosbag bag = rosbag.Bag(args.bag, 'r') try: traj_ref = file_interface.read_bag_trajectory(bag, args.ref_topic) traj_est = file_interface.read_bag_trajectory(bag, args.est_topic) ref_name, est_name = args.ref_topic, args.est_topic finally: bag.close() else: raise KeyError("unknown sub-command: {}".format(args.subcommand)) return traj_ref, traj_est, ref_name, est_name
def load_trajectories(args): from evo.core import sync from evo.tools import file_interface if args.subcommand == "tum": traj_ref = file_interface.read_tum_trajectory_file(args.ref_file) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "kitti": traj_ref = file_interface.read_kitti_poses_file(args.ref_file) traj_est = file_interface.read_kitti_poses_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "euroc": args.align = True logger.info("Forcing trajectory alignment implicitly " "(EuRoC ground truth is in IMU frame).") logger.debug(SEP) traj_ref = file_interface.read_euroc_csv_trajectory(args.state_gt_csv) traj_est = file_interface.read_euroc_csv_trajectory(args.est_file) ref_name, est_name = args.state_gt_csv, args.est_file elif args.subcommand == "bag": import rosbag logger.debug("Opening bag file " + args.bag) bag = rosbag.Bag(args.bag, 'r') try: traj_ref = file_interface.read_bag_trajectory(bag, args.ref_topic) traj_est = file_interface.read_bag_trajectory(bag, args.est_topic) ref_name, est_name = args.ref_topic, args.est_topic finally: bag.close() else: raise KeyError("unknown sub-command: {}".format(args.subcommand)) if args.subcommand != "kitti": logger.debug("Synchronizing trajectories...") traj_ref, traj_est = sync.associate_trajectories(traj_ref, traj_est, args.t_max_diff, args.t_offset, first_name=ref_name, snd_name=est_name) return traj_ref, traj_est, ref_name, est_name
def __init__(self, sequences): self.errors = [] self.gt_traj = {} self.raw_timestamps = {} for seq in sequences: gt_traj = file_interface.read_euroc_csv_trajectory( os.path.join(par.data_dir, seq, "groundtruth.csv")) self.gt_traj[seq] = gt_traj self.raw_timestamps[seq] = np.array( SequenceData(seq).get_timestamps_raw()) / 10**9
def load_trajectories( args: argparse.Namespace ) -> typing.Tuple[PosePath3D, PosePath3D, str, str]: from evo.tools import file_interface traj_ref: typing.Union[PosePath3D, PoseTrajectory3D] traj_est: typing.Union[PosePath3D, PoseTrajectory3D] if args.subcommand == "tum": traj_ref = file_interface.read_tum_trajectory_file(args.ref_file) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "kitti": traj_ref = file_interface.read_kitti_poses_file(args.ref_file) traj_est = file_interface.read_kitti_poses_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "euroc": traj_ref = file_interface.read_euroc_csv_trajectory(args.state_gt_csv) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.state_gt_csv, args.est_file elif args.subcommand in ("bag", "bag2"): import os logger.debug("Opening bag file " + args.bag) if not os.path.exists(args.bag): raise file_interface.FileInterfaceException( "File doesn't exist: {}".format(args.bag)) if args.subcommand == "bag2": from rosbags.rosbag2 import Reader as Rosbag2Reader bag = Rosbag2Reader(args.bag) # type: ignore else: from rosbags.rosbag1 import Reader as Rosbag1Reader bag = Rosbag1Reader(args.bag) # type: ignore try: bag.open() traj_ref = file_interface.read_bag_trajectory(bag, args.ref_topic) traj_est = file_interface.read_bag_trajectory(bag, args.est_topic) ref_name, est_name = args.ref_topic, args.est_topic finally: bag.close() else: raise KeyError("unknown sub-command: {}".format(args.subcommand)) return traj_ref, traj_est, ref_name, est_name
def load_trajectories(args): from evo.core import sync from evo.tools import file_interface if args.subcommand == "tum": traj_ref = file_interface.read_tum_trajectory_file(args.ref_file) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "kitti": traj_ref = file_interface.read_kitti_poses_file(args.ref_file) traj_est = file_interface.read_kitti_poses_file(args.est_file) ref_name, est_name = args.ref_file, args.est_file elif args.subcommand == "euroc": args.align = True logger.info("Forcing trajectory alignment implicitly " "(EuRoC ground truth is in IMU frame).") logger.debug(SEP) traj_ref = file_interface.read_euroc_csv_trajectory(args.state_gt_csv) traj_est = file_interface.read_tum_trajectory_file(args.est_file) ref_name, est_name = args.state_gt_csv, args.est_file elif args.subcommand == "bag": import rosbag logger.debug("Opening bag file " + args.bag) bag = rosbag.Bag(args.bag, 'r') try: traj_ref = file_interface.read_bag_trajectory(bag, args.ref_topic) traj_est = file_interface.read_bag_trajectory(bag, args.est_topic) ref_name, est_name = args.ref_topic, args.est_topic finally: bag.close() else: raise KeyError("unknown sub-command: {}".format(args.subcommand)) if args.subcommand != "kitti": logger.debug("Synchronizing trajectories...") traj_ref, traj_est = sync.associate_trajectories( traj_ref, traj_est, args.t_max_diff, args.t_offset, first_name=ref_name, snd_name=est_name) return traj_ref, traj_est, ref_name, est_name
def run(args): import os import sys import numpy as np import evo.core.lie_algebra as lie from evo.core import trajectory from evo.core.trajectory import PoseTrajectory3D from evo.tools import file_interface, log from evo.tools.settings import SETTINGS log.configure_logging(verbose=args.verbose, silent=args.silent, debug=args.debug) if args.debug: import pprint logger.debug( "main_parser config:\n" + pprint.pformat({arg: getattr(args, arg) for arg in vars(args)}) + "\n") logger.debug(SEP) trajectories = [] ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file != args.ref: trajectories.append( (traj_file, file_interface.read_tum_trajectory_file(traj_file))) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file != args.ref: trajectories.append( (pose_file, file_interface.read_kitti_poses_file(pose_file))) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file != args.ref: trajectories.append( (csv_file, file_interface.read_euroc_csv_trajectory(csv_file))) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand == "bag": import rosbag bag = rosbag.Bag(args.bag) try: if args.all_topics: topic_info = bag.get_type_and_topic_info() topics = sorted([ t for t in topic_info[1].keys() if topic_info[1][t][0] == "geometry_msgs/PoseStamped" and t != args.ref ]) if len(topics) == 0: logger.error("No geometry_msgs/PoseStamped topics found!") sys.exit(1) else: topics = args.topics if not topics: logger.warning( "No topics used - specify topics or set --all_topics.") sys.exit(1) for topic in topics: trajectories.append( (topic, file_interface.read_bag_trajectory(bag, topic))) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() else: raise RuntimeError("unsupported subcommand: " + args.subcommand) if args.merge: if args.subcommand == "kitti": raise TypeError( "can't merge KITTI files - but you can append them with 'cat'") if len(trajectories) == 0: raise RuntimeError("no trajectories to merge (excluding --ref)") merged_stamps = trajectories[0][1].timestamps merged_xyz = trajectories[0][1].positions_xyz merged_quat = trajectories[0][1].orientations_quat_wxyz for _, traj in trajectories[1:]: merged_stamps = np.concatenate((merged_stamps, traj.timestamps)) merged_xyz = np.concatenate((merged_xyz, traj.positions_xyz)) merged_quat = np.concatenate( (merged_quat, traj.orientations_quat_wxyz)) order = merged_stamps.argsort() merged_stamps = merged_stamps[order] merged_xyz = merged_xyz[order] merged_quat = merged_quat[order] trajectories = [("merged_trajectory", PoseTrajectory3D(merged_xyz, merged_quat, merged_stamps))] if args.transform_left or args.transform_right: tf_type = "left" if args.transform_left else "right" tf_path = args.transform_left if args.transform_left else args.transform_right t, xyz, quat = file_interface.load_transform_json(tf_path) logger.debug(SEP) if not lie.is_se3(t): logger.warning("Not a valid SE(3) transformation!") if args.invert_transform: t = lie.se3_inverse(t) logger.debug("Applying a {}-multiplicative transformation:\n{}".format( tf_type, t)) for name, traj in trajectories: traj.transform(t, right_mul=args.transform_right) if args.t_offset: logger.debug(SEP) for name, traj in trajectories: if type(traj) is trajectory.PosePath3D: logger.warning( "{} doesn't have timestamps - can't add time offset.". format(name)) else: logger.info("Adding time offset to {}: {} (s)".format( name, args.t_offset)) traj.timestamps += args.t_offset if args.align or args.correct_scale: if not args.ref: logger.debug(SEP) logger.warning("Can't align without a reference! (--ref) *grunt*") else: if args.subcommand == "kitti": traj_tmp, ref_traj_tmp = trajectories, [ ref_traj for n, t in trajectories ] else: traj_tmp, ref_traj_tmp = [], [] from evo.core import sync for name, traj in trajectories: logger.debug(SEP) ref_assoc, traj_assoc = sync.associate_trajectories( ref_traj, traj, max_diff=args.t_max_diff, first_name="ref", snd_name=name) ref_traj_tmp.append(ref_assoc) traj_tmp.append((name, traj_assoc)) trajectories = traj_tmp correct_only_scale = args.correct_scale and not args.align trajectories_new = [] for nt, ref_assoc in zip(trajectories, ref_traj_tmp): logger.debug(SEP) logger.debug("Aligning " + nt[0] + " to " + args.ref + "...") trajectories_new.append( (nt[0], trajectory.align_trajectory(nt[1], ref_assoc, args.correct_scale, correct_only_scale, args.n_to_align))) trajectories = trajectories_new for name, traj in trajectories: print_traj_info(name, traj, args.verbose, args.full_check) if args.ref: print_traj_info(args.ref, ref_traj, args.verbose, args.full_check) if args.plot or args.save_plot or args.serialize_plot: from evo.tools.plot import PlotMode plot_mode = PlotMode.xyz if not args.plot_mode else PlotMode[ args.plot_mode] import numpy as np from evo.tools import plot import matplotlib.pyplot as plt import matplotlib.cm as cm plot_collection = plot.PlotCollection("evo_traj - trajectory plot") fig_xyz, axarr_xyz = plt.subplots(3, sharex="col", figsize=tuple(SETTINGS.plot_figsize)) fig_rpy, axarr_rpy = plt.subplots(3, sharex="col", figsize=tuple(SETTINGS.plot_figsize)) fig_traj = plt.figure(figsize=tuple(SETTINGS.plot_figsize)) if (args.align or args.correct_scale) and not args.ref: plt.xkcd(scale=2, randomness=4) fig_traj.suptitle("what if --ref?") fig_xyz.suptitle("what if --ref?") ax_traj = plot.prepare_axis(fig_traj, plot_mode) if args.ref: short_traj_name = os.path.splitext(os.path.basename(args.ref))[0] if SETTINGS.plot_usetex: short_traj_name = short_traj_name.replace("_", "\\_") plot.traj(ax_traj, plot_mode, ref_traj, '--', 'grey', short_traj_name, alpha=0 if SETTINGS.plot_hideref else 1) plot.traj_xyz(axarr_xyz, ref_traj, '--', 'grey', short_traj_name, alpha=0 if SETTINGS.plot_hideref else 1) plot.traj_rpy(axarr_rpy, ref_traj, '--', 'grey', short_traj_name, alpha=0 if SETTINGS.plot_hideref else 1) cmap_colors = None if SETTINGS.plot_multi_cmap.lower() != "none": cmap = getattr(cm, SETTINGS.plot_multi_cmap) cmap_colors = iter(cmap(np.linspace(0, 1, len(trajectories)))) for name, traj in trajectories: if cmap_colors is None: color = next(ax_traj._get_lines.prop_cycler)['color'] else: color = next(cmap_colors) short_traj_name = os.path.splitext(os.path.basename(name))[0] if SETTINGS.plot_usetex: short_traj_name = short_traj_name.replace("_", "\\_") plot.traj(ax_traj, plot_mode, traj, '-', color, short_traj_name) if args.ref and isinstance(ref_traj, trajectory.PoseTrajectory3D): start_time = ref_traj.timestamps[0] else: start_time = None plot.traj_xyz(axarr_xyz, traj, '-', color, short_traj_name, start_timestamp=start_time) plot.traj_rpy(axarr_rpy, traj, '-', color, short_traj_name, start_timestamp=start_time) plt.tight_layout() plot_collection.add_figure("trajectories", fig_traj) plot_collection.add_figure("xyz_view", fig_xyz) plot_collection.add_figure("rpy_view", fig_rpy) if args.plot: plot_collection.show() if args.save_plot: logger.info(SEP) plot_collection.export(args.save_plot, confirm_overwrite=not args.no_warnings) if args.serialize_plot: logger.info(SEP) plot_collection.serialize(args.serialize_plot, confirm_overwrite=not args.no_warnings) if args.save_as_tum: logger.info(SEP) for name, traj in trajectories: dest = os.path.splitext(os.path.basename(name))[0] + ".tum" file_interface.write_tum_trajectory_file( dest, traj, confirm_overwrite=not args.no_warnings) if args.ref: dest = os.path.splitext(os.path.basename(args.ref))[0] + ".tum" file_interface.write_tum_trajectory_file( dest, ref_traj, confirm_overwrite=not args.no_warnings) if args.save_as_kitti: logger.info(SEP) for name, traj in trajectories: dest = os.path.splitext(os.path.basename(name))[0] + ".kitti" file_interface.write_kitti_poses_file( dest, traj, confirm_overwrite=not args.no_warnings) if args.ref: dest = os.path.splitext(os.path.basename(args.ref))[0] + ".kitti" file_interface.write_kitti_poses_file( dest, ref_traj, confirm_overwrite=not args.no_warnings) if args.save_as_bag: logger.info(SEP) import datetime import rosbag dest_bag_path = str( datetime.datetime.now().strftime('%Y-%m-%d_%H:%M:%S.%f')) + ".bag" logger.info("Saving trajectories to " + dest_bag_path + "...") bag = rosbag.Bag(dest_bag_path, 'w') try: for name, traj in trajectories: dest_topic = os.path.splitext(os.path.basename(name))[0] frame_id = traj.meta[ "frame_id"] if "frame_id" in traj.meta else "" file_interface.write_bag_trajectory(bag, traj, dest_topic, frame_id) if args.ref: dest_topic = os.path.splitext(os.path.basename(args.ref))[0] frame_id = ref_traj.meta[ "frame_id"] if "frame_id" in ref_traj.meta else "" file_interface.write_bag_trajectory(bag, ref_traj, dest_topic, frame_id) finally: bag.close()
def run(args): import os import sys import logging import evo.algorithms.lie_algebra as lie from evo.algorithms import trajectory from evo.tools import file_interface, settings from evo.tools.settings import SETTINGS settings.configure_logging(verbose=True, silent=args.silent, debug=args.debug) if args.debug: import pprint logging.debug( "main_parser config:\n" + pprint.pformat({arg: getattr(args, arg) for arg in vars(args)}) + "\n") logging.debug(SEP) trajectories = [] ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file != args.ref: trajectories.append( (traj_file, file_interface.read_tum_trajectory_file(traj_file))) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file != args.ref: trajectories.append( (pose_file, file_interface.read_kitti_poses_file(pose_file))) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file != args.ref: trajectories.append( (csv_file, file_interface.read_euroc_csv_trajectory(csv_file))) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand == "bag": import rosbag bag = rosbag.Bag(args.bag) try: if args.all_topics: topic_info = bag.get_type_and_topic_info() topics = sorted([ t for t in topic_info[1].keys() if topic_info[1][t][0] == "geometry_msgs/PoseStamped" and t != args.ref ]) if len(topics) == 0: logging.error("no geometry_msgs/PoseStamped topics found!") sys.exit(1) else: topics = args.topics if not topics: logging.warning( "no topics used - specify topics or use the --all_topics flag" ) sys.exit(1) for topic in topics: trajectories.append( (topic, file_interface.read_bag_trajectory(bag, topic))) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() else: raise RuntimeError("unsupported subcommand: " + args.subcommand) if args.transform_left or args.transform_right: tf_path = args.transform_left if args.transform_left else args.transform_right t, xyz, quat = file_interface.load_transform_json(tf_path) logging.debug(SEP) logging.debug("applying transformation to the trajectories:\n" + str(t)) if args.invert_transform: t = lie.se3_inverse(t) for name, traj in trajectories: traj.transform(t, right_mul=args.transform_right) if args.align or args.correct_scale: if args.ref: if args.subcommand == "kitti": traj_tmp, ref_traj_tmp = trajectories, [ ref_traj for n, t in trajectories ] else: traj_tmp, ref_traj_tmp = [], [] from evo.algorithms import sync for name, traj in trajectories: logging.debug(SEP) ref_assoc, traj_assoc = sync.associate_trajectories( ref_traj, traj, first_name="ref", snd_name=name) ref_traj_tmp.append(ref_assoc) traj_tmp.append((name, traj_assoc)) trajectories = traj_tmp correct_only_scale = args.correct_scale and not args.align trajectories_new = [] for nt, ref_assoc in zip(trajectories, ref_traj_tmp): logging.debug(SEP) logging.debug("aligning " + nt[0] + " to " + args.ref + "...") trajectories_new.append( (nt[0], trajectory.align_trajectory(nt[1], ref_assoc, args.correct_scale, correct_only_scale, args.n_to_align))) trajectories = trajectories_new for name, traj in trajectories: if args.t_offset and traj.timestamps.shape[0] != 0: logging.debug(SEP) logging.info("adding time offset to " + name + ": " + str(args.t_offset) + " (s)") traj.timestamps += args.t_offset print_traj_info(name, traj, args.full_check) if (args.align or args.correct_scale) and not args.ref: logging.debug(SEP) logging.warning("can't align without a reference! (--ref) *grunt*") if args.ref: print_traj_info(args.ref, ref_traj, args.full_check) if args.plot or args.save_plot or args.serialize_plot: from evo.tools.plot import PlotMode plot_mode = PlotMode.xyz if not args.plot_mode else PlotMode[ args.plot_mode] import numpy as np from evo.tools import plot import matplotlib.pyplot as plt import matplotlib.cm as cm plot_collection = plot.PlotCollection("evo_traj - trajectory plot") fig_xyz, axarr_xyz = plt.subplots(3, sharex="col", figsize=tuple(SETTINGS.plot_figsize)) fig_traj = plt.figure(figsize=tuple(SETTINGS.plot_figsize)) if (args.align or args.correct_scale) and not args.ref: plt.xkcd(scale=2, randomness=4) fig_traj.suptitle("what if --ref?") fig_xyz.suptitle("what if --ref?") ax_traj = plot.prepare_axis(fig_traj, plot_mode) if args.ref: short_traj_name = os.path.splitext(os.path.basename(args.ref))[0] if SETTINGS.plot_usetex: short_traj_name = short_traj_name.replace("_", "\\_") plot.traj(ax_traj, plot_mode, ref_traj, '--', 'grey', short_traj_name, alpha=0 if SETTINGS.plot_hideref else 1) plot.traj_xyz(axarr_xyz, ref_traj, '--', 'grey', short_traj_name, alpha=0 if SETTINGS.plot_hideref else 1) cmap_colors = None if SETTINGS.plot_multi_cmap.lower() != "none": cmap = getattr(cm, SETTINGS.plot_multi_cmap) cmap_colors = iter(cmap(np.linspace(0, 1, len(trajectories)))) for name, traj in trajectories: if cmap_colors is None: color = next(ax_traj._get_lines.prop_cycler)['color'] else: color = next(cmap_colors) short_traj_name = os.path.splitext(os.path.basename(name))[0] if SETTINGS.plot_usetex: short_traj_name = short_traj_name.replace("_", "\\_") plot.traj(ax_traj, plot_mode, traj, '-', color, short_traj_name) if args.ref and isinstance(ref_traj, trajectory.PoseTrajectory3D): start_time = ref_traj.timestamps[0] else: start_time = None plot.traj_xyz(axarr_xyz, traj, '-', color, short_traj_name, start_timestamp=start_time) plt.tight_layout() plot_collection.add_figure("trajectories", fig_traj) plot_collection.add_figure("xyz_view", fig_xyz) if args.plot: plot_collection.show() if args.save_plot: logging.debug(SEP) plot_collection.export(args.save_plot, confirm_overwrite=not args.no_warnings) if args.serialize_plot: logging.debug(SEP) plot_collection.serialize(args.serialize_plot, confirm_overwrite=not args.no_warnings) if args.save_as_tum: logging.debug(SEP) for name, traj in trajectories: dest = os.path.splitext(os.path.basename(name))[0] + ".tum" file_interface.write_tum_trajectory_file( dest, traj, confirm_overwrite=not args.no_warnings) if args.ref: dest = os.path.splitext(os.path.basename(args.ref))[0] + ".tum" file_interface.write_tum_trajectory_file( dest, ref_traj, confirm_overwrite=not args.no_warnings) if args.save_as_kitti: logging.debug(SEP) for name, traj in trajectories: dest = os.path.splitext(os.path.basename(name))[0] + ".kitti" file_interface.write_kitti_poses_file( dest, traj, confirm_overwrite=not args.no_warnings) if args.ref: dest = os.path.splitext(os.path.basename(args.ref))[0] + ".kitti" file_interface.write_kitti_poses_file( dest, ref_traj, confirm_overwrite=not args.no_warnings) if args.save_as_bag: logging.debug(SEP) import datetime import rosbag dest_bag_path = str( datetime.datetime.now().strftime('%Y-%m-%d_%H:%M:%S.%f')) + ".bag" logging.debug("saving trajectories to " + dest_bag_path + "...") bag = rosbag.Bag(dest_bag_path, 'w') try: for name, traj in trajectories: dest_topic = os.path.splitext(os.path.basename(name))[0] file_interface.write_bag_trajectory(bag, traj, dest_topic) if args.ref: dest_topic = os.path.splitext(os.path.basename(args.ref))[0] file_interface.write_bag_trajectory(bag, ref_traj, dest_topic) finally: bag.close()
def get_and_save_results_from_folder(folder_with_predicted_poses,category): global args global kitti_eval_tool global folder_with_gt_poses global output_folder global t global results values_for_excel = [] columns_for_excel = [] type_of_statistics = 'mean' for filename in sorted(os.listdir(folder_with_predicted_poses)): if not(os.path.exists(os.path.join(folder_with_gt_poses, filename))): print("file with gt poses doesn't exist for "+filename) continue if filename.find('.txt') == -1: continue seq_results = {} seq_results['name_seq'] = filename[:filename.rfind('.')] seq_results['category'] = category folder_name = seq_results['category'] seq_results['metrics'] = {} seq_results['lost'] = False os.makedirs(os.path.join(output_folder, folder_name), exist_ok=True) output_folder_seq = os.path.join(output_folder, folder_name, filename[:filename.rfind('.')]) os.makedirs(output_folder_seq, exist_ok=True) if os.path.isfile(os.path.join(output_folder, folder_name,"results.txt")): file_results_txt = open(os.path.join(output_folder, folder_name,"results.txt"), "a") else: file_results_txt = open(os.path.join(output_folder, folder_name,"results.txt"), "w") file_results_txt.write("translation_error(%) rotation_error(deg/m) ATE(m) APE_translation_error_median(m) APE_rotation_error_median(deg) dst_to_trgt\n") # -------------------------------------Getting results--------------------------------------------------- if args.gt_format == 'kitti': traj_ref = file_interface.read_kitti_poses_file(os.path.join(folder_with_gt_poses, filename)) if args.gt_format == 'tum': traj_ref = file_interface.read_tum_trajectory_file(os.path.join(folder_with_gt_poses, filename)) seq_results["length_of_ref_traj"] = traj_ref.path_length end_time_gt = traj_ref.get_infos()["t_end (s)"] if args.gt_format == 'euroc': traj_ref = file_interface.read_euroc_csv_trajectory(os.path.join(folder_with_gt_poses, filename)) if args.result_format == 'kitti': traj_est = file_interface.read_kitti_poses_file(os.path.join(folder_with_predicted_poses, filename)) if args.result_format == 'tum': traj_est = file_interface.read_tum_trajectory_file(os.path.join(folder_with_predicted_poses, filename)) seq_results["length_of_estimated_traj"] = traj_est.path_length if args.result_format == 'euroc': traj_est = file_interface.read_euroc_csv_trajectory(os.path.join(folder_with_predicted_poses, filename)) if args.result_format == 'tum' and args.gt_format == 'tum': seq_results["num_gt_poses"] = traj_ref.num_poses seq_results["num_predicted_poses"] = traj_est.num_poses traj_ref, traj_est = sync.associate_trajectories(traj_ref, traj_est, args.max_diff) end_time_est = traj_est.get_infos()["t_end (s)"] if (abs(end_time_est - end_time_gt) > 0.2) or (traj_est.get_infos()["t_start (s)"] > 0.2): print('LOST in track '+filename[:filename.rfind('.')]) seq_results['lost'] = True results.append(seq_results) t.update(1) continue if args.alignment != None: traj_est = trajectory.align_trajectory(traj_est, traj_ref, correct_scale=args.alignment.find("scale") != -1, correct_only_scale=args.alignment=="scale") trajectory.align_trajectory_origin(traj_est, traj_ref) data = (traj_ref, traj_est) ape_metric_translation = metrics.APE(metrics.PoseRelation.translation_part) ape_metric_rotation = metrics.APE(metrics.PoseRelation.rotation_angle_deg) ape_metric_translation.process_data(data) ape_metric_rotation.process_data(data) ape_translation_statistics = ape_metric_translation.get_all_statistics() ape_rotation_statistics = ape_metric_rotation.get_all_statistics() ape_translation_statistics_plot = copy.deepcopy(ape_translation_statistics) ape_rotation_statistics_plot = copy.deepcopy(ape_rotation_statistics) ape_translation_statistics_plot.pop('sse') ape_translation_statistics_plot.pop('std') ape_translation_statistics_plot.pop('min') ape_translation_statistics_plot.pop('max') ape_rotation_statistics_plot.pop('sse') ape_rotation_statistics_plot.pop('std') ape_rotation_statistics_plot.pop('min') ape_rotation_statistics_plot.pop('max') kitti_trans_err, kitti_rot_err, ate = kitti_eval_tool.eval(traj_ref.poses_se3, traj_est.poses_se3, alignment=None) #---------------------------------adding results to variable seq_results for excel ----------------------------- seq_results['metrics']['dist_to_trgt'] = traj_est.get_infos()['pos_end (m)'] - traj_ref.get_infos()['pos_end (m)'] seq_results['metrics']['dist_to_trgt'] = np.sum(np.array(seq_results['metrics']['dist_to_trgt'])**2)**0.5 seq_results['metrics']["Kitti trans err (%)"] = kitti_trans_err seq_results['metrics']["Kitti rot err (deg/m)"] = kitti_rot_err seq_results['metrics']["ATE (m)"] = ate seq_results['metrics']["APE(trans err) median (m)"] = ape_translation_statistics["median"] seq_results['metrics']["APE(rot err) median (deg)"] = ape_rotation_statistics["median"] #-------------------------------------------------------------------------------------------------------- #------------------------------------------------------------------------------------------------------- # --------------------------------printing results into console---------------------------------------------- print('Results for "'+filename+'":') print('Kitti average translational error (%): {:.7f}'.format(kitti_trans_err)) print('Kitti average rotational error (deg/m): {:.7f}'.format(kitti_rot_err)) print('ATE (m): {:.7f}'.format(ate)) print('APE(translation error) median (m): {:.7f}'.format(ape_translation_statistics["median"])) print('APE(rotation error) median (deg): {:.7f}'.format(ape_rotation_statistics["median"])) print('distance to target on the last frame: {:.7f}'.format(seq_results['metrics']['dist_to_trgt'])) #------------------------------------------------------------------------------------------------------------ #---------------------------------Saving results into overall results text file------------------------------ file_results_txt.write('{:<24} '.format(filename[:filename.rfind('.')])) file_results_txt.write('{:>7.4f} '.format(kitti_trans_err)) file_results_txt.write('{:>7.4f} '.format(kitti_rot_err)) file_results_txt.write('{:>7.4f} '.format(ate)) file_results_txt.write('{:>7.4f} '.format(ape_translation_statistics["median"])) file_results_txt.write('{:>7.4f} '.format(ape_rotation_statistics["median"])) file_results_txt.write('{:>7.4f}\n'.format(seq_results['metrics']['dist_to_trgt'])) #------------------------------------------------------------------------------------------------------------ # --------------------------------Saving metrics to text file for one track---------------------------------- txt_filename = filename[:filename.rfind('.')]+"_metrics.txt" with open(os.path.join(output_folder_seq, txt_filename), "w") as txt_file: txt_file.write('Kitti average translational error (%): {:.7f}\n'.format(kitti_trans_err)) txt_file.write('Kitti average rotational error (deg/m): {:.7f}\n'.format(kitti_rot_err)) txt_file.write('ATE (m): {:.7f}\n'.format(ate)) txt_file.write('APE(translation error) median (m): {:.7f}\n'.format(ape_translation_statistics["median"])) txt_file.write('APE(rotation error) median (deg): {:.7f}\n'.format(ape_rotation_statistics["median"])) txt_file.write('Distance to target on the last frame: {:.7f}\n'.format(seq_results['metrics']['dist_to_trgt'])) #--------------------------------------------------------------------------------------------------------- # ---------------------------------Saving values of errors for each frame to text file------------------------ # ------------------------------------------for translation errors---------------------------------------- txt_filename = filename[:filename.rfind('.')]+"_APE(translation)_errors.txt" output_folder_seq_translation = os.path.join(output_folder_seq,"translation") output_folder_seq_rotation = os.path.join(output_folder_seq,"rotation") os.makedirs(output_folder_seq_translation, exist_ok=True) os.makedirs(output_folder_seq_rotation, exist_ok=True) with open(os.path.join(output_folder_seq_translation, txt_filename), "w") as txt_file: for error in ape_metric_translation.error: txt_file.write('{:.10f}\n'.format(error)) # -----------------------------------------for rotation degree errors-------------------------------------- txt_filename = filename[:filename.rfind('.')]+"_APE(rotation_deg)_errors.txt" with open(os.path.join(output_folder_seq_rotation, txt_filename), "w") as txt_file: for error in ape_metric_rotation.error: txt_file.write('{:.10f}\n'.format(error)) #---------------------------------------------------------------------------------------------------------- # ---------------------------------------Saving plot of errors of each frame------------------------------ # ------------------------------------------for translation errors---------------------------------------- plot_collection = plot.PlotCollection("Example") fig_1 = plt.figure(figsize=(8, 8)) plot.error_array(fig_1, ape_metric_translation.error, name="APE", title=str(ape_metric_translation), xlabel="Index of frame", ylabel='Error') plot_collection.add_figure("raw", fig_1) plot_filename = filename[:filename.rfind('.')]+"_APE(translation)_errors.png" plt.savefig(os.path.join(output_folder_seq_translation, plot_filename)) plt.close(fig_1) # -----------------------------------------for rotation degree errors-------------------------------------- plot_collection = plot.PlotCollection("Example") fig_1 = plt.figure(figsize=(8, 8)) plot.error_array(fig_1, ape_metric_rotation.error, name="APE", title=str(ape_metric_rotation), xlabel="Index of frame", ylabel='Error') plot_collection.add_figure("raw", fig_1) plot_filename = filename[:filename.rfind('.')]+"_APE(rotation)_errors.png" plt.savefig(os.path.join(output_folder_seq_rotation,plot_filename)) plt.close(fig_1) #----------------------------------------------------------------------------------------------------------- # -----------------------------------------Saving trajectory plot------------------------------------------- # ------------------------------------------for translation errors---------------------------------------- fig_2 = plt.figure(figsize=(8, 8)) ax = plot.prepare_axis(fig_2, plot_mode) plot.traj(ax, plot_mode, traj_ref, '--', 'gray', 'reference') plot.traj_colormap( ax, traj_est, ape_metric_translation.error, plot_mode, min_map=ape_translation_statistics["min"], max_map=ape_translation_statistics["max"], title="APE translation mapped onto trajectory") plot_collection.add_figure("traj (error)", fig_2) plot_filename = filename[:filename.rfind('.')]+"_APE(translation)_map.png" plt.savefig(os.path.join(output_folder_seq_translation,plot_filename)) plt.close(fig_2) # -----------------------------------------for rotation degree errors-------------------------------------- fig_2 = plt.figure(figsize=(8, 8)) ax = plot.prepare_axis(fig_2, plot_mode) plot.traj(ax, plot_mode, traj_ref, '--', 'gray', 'reference') plot.traj_colormap( ax, traj_est, ape_metric_rotation.error, plot_mode, min_map=ape_rotation_statistics["min"], max_map=ape_rotation_statistics["max"], title="APE rotation mapped onto trajectory") plot_collection.add_figure("traj (error)", fig_2) plot_filename = filename[:filename.rfind('.')]+"_APE(rotation)_map.png" plt.savefig(os.path.join(output_folder_seq_rotation,plot_filename)) plt.close(fig_2) #----------------------------------------------------------------------------------------------------------- print() active_worksheet = wb['sheet1'] thin = Side(border_style="thin", color="000000") thick = Side(border_style="thick", color="000000") medium = Side(border_style="medium", color="000000") font_header = Font(name='Arial', size=10, bold=True, italic=False, vertAlign=None, underline='none', strike=False, color='FF000000') font_values = Font(name='Arial', size=10, bold=False, italic=False, vertAlign=None, underline='none', strike=False, color='FF000000') active_worksheet.row_dimensions[2].height = 35 file_results_txt.close() results.append(seq_results) t.update(1)
def load_trajectories(args): from collections import OrderedDict from evo.tools import file_interface trajectories = OrderedDict() ref_traj = None if args.subcommand == "tum": for traj_file in args.traj_files: if traj_file == args.ref: continue trajectories[traj_file] = file_interface.read_tum_trajectory_file( traj_file) if args.ref: ref_traj = file_interface.read_tum_trajectory_file(args.ref) elif args.subcommand == "kitti": for pose_file in args.pose_files: if pose_file == args.ref: continue trajectories[pose_file] = file_interface.read_kitti_poses_file( pose_file) if args.ref: ref_traj = file_interface.read_kitti_poses_file(args.ref) elif args.subcommand == "euroc": for csv_file in args.state_gt_csv: if csv_file == args.ref: continue else: trajectories[ csv_file] = file_interface.read_euroc_csv_trajectory( csv_file) if args.ref: ref_traj = file_interface.read_euroc_csv_trajectory(args.ref) elif args.subcommand in ("bag", "bag2"): if not (args.topics or args.all_topics): die("No topics used - specify topics or set --all_topics.") if not os.path.exists(args.bag): raise file_interface.FileInterfaceException( "File doesn't exist: {}".format(args.bag)) logger.debug("Opening bag file " + args.bag) if args.subcommand == "bag2": from rosbags.rosbag2 import Reader as Rosbag2Reader bag = Rosbag2Reader(args.bag) else: from rosbags.rosbag1 import Reader as Rosbag1Reader bag = Rosbag1Reader(args.bag) bag.open() try: if args.all_topics: # Note: args.topics can have TF stuff here, so we add it too. topics = args.topics topics += natsorted(file_interface.get_supported_topics(bag)) if args.ref in topics: topics.remove(args.ref) if len(topics) == 0: die("No topics of supported types: {}".format(" ".join( file_interface.SUPPORTED_ROS_MSGS))) else: topics = args.topics for topic in topics: if topic == args.ref: continue trajectories[topic] = file_interface.read_bag_trajectory( bag, topic) if args.ref: ref_traj = file_interface.read_bag_trajectory(bag, args.ref) finally: bag.close() return trajectories, ref_traj
'MH_05_difficult', 'V1_01_easy', 'V1_02_medium', 'V1_03_difficult', 'V2_01_easy', 'V2_02_medium', 'V2_03_difficult' ] # for delta in deltas: # res_final = [] for seq in seqs: traj_files = glob.glob(str(data_path / f'{seq}/*.txt')) # print(data_path / f'{seq}') gt_file = f'{gt_path}/{seq}.csv' failure_count = 0 if not len(traj_files) == 0: mean, rmse = [], [] for traj_file in traj_files: traj_gt = file_interface.read_euroc_csv_trajectory(gt_file) traj_est = file_interface.read_tum_trajectory_file(traj_file) kf_traj_est = file_interface.read_tum_trajectory_file(traj_file) traj_gt, traj_est = sync.associate_trajectories(traj_gt, traj_est) traj_est_aligned, rot, trans, scale = trajectory.align_trajectory( traj_est, traj_gt, correct_scale=True, return_parameters=True) data = (traj_gt, traj_est_aligned) ape_metric = metrics.APE(pose_relation=pose_relation) ape_metric.process_data(data) ape_stat = ape_metric.get_all_statistics() mean_curr = ape_stat['mean'] rmse_curr = ape_stat['rmse'] if mean_curr > 1.0 or rmse_curr > 1.0:
def run_analysis(traj_ref_path, traj_est_path, segments, save_results, display_plot, save_plots, save_folder, confirm_overwrite=False, dataset_name="", discard_n_start_poses=0, discard_n_end_poses=0): """ Run analysis on given trajectories, saves plots on given path: :param traj_ref_path: path to the reference (ground truth) trajectory. :param traj_est_path: path to the estimated trajectory. :param save_results: saves APE, and RPE per segment results. :param save_plots: whether to save the plots. :param save_folder: where to save the plots. :param confirm_overwrite: whether to confirm overwriting plots or not. :param dataset_name: optional param, to allow setting the same scale on different plots. """ # Load trajectories. from evo.tools import file_interface traj_ref = None try: traj_ref = file_interface.read_euroc_csv_trajectory( traj_ref_path) # TODO make it non-euroc specific. except file_interface.FileInterfaceException as e: raise Exception( "\033[91mMissing ground truth csv! \033[93m {}.".format(e)) traj_est = None try: traj_est = file_interface.read_swe_csv_trajectory(traj_est_path) except file_interface.FileInterfaceException as e: log.info(e) raise Exception("\033[91mMissing vio output csv.\033[99m") evt.print_purple("Registering trajectories") traj_ref, traj_est = sync.associate_trajectories(traj_ref, traj_est) evt.print_purple("Aligning trajectories") traj_est = trajectory.align_trajectory( traj_est, traj_ref, correct_scale=False, discard_n_start_poses=int(discard_n_start_poses), discard_n_end_poses=int(discard_n_end_poses)) num_of_poses = traj_est.num_poses traj_est.reduce_to_ids( range(int(discard_n_start_poses), int(num_of_poses - discard_n_end_poses), 1)) traj_ref.reduce_to_ids( range(int(discard_n_start_poses), int(num_of_poses - discard_n_end_poses), 1)) results = dict() evt.print_purple("Calculating APE translation part") data = (traj_ref, traj_est) ape_metric = metrics.APE(metrics.PoseRelation.translation_part) ape_metric.process_data(data) ape_result = ape_metric.get_result() results["absolute_errors"] = ape_result log.info(ape_result.pretty_str(info=True)) # TODO(Toni): Save RPE computation results rather than the statistics # you can compute statistics later... evt.print_purple("Calculating RPE translation part for plotting") rpe_metric_trans = metrics.RPE(metrics.PoseRelation.translation_part, 1.0, metrics.Unit.frames, 0.0, False) rpe_metric_trans.process_data(data) rpe_stats_trans = rpe_metric_trans.get_all_statistics() log.info("mean: %f" % rpe_stats_trans["mean"]) evt.print_purple("Calculating RPE rotation angle for plotting") rpe_metric_rot = metrics.RPE(metrics.PoseRelation.rotation_angle_deg, 1.0, metrics.Unit.frames, 1.0, False) rpe_metric_rot.process_data(data) rpe_stats_rot = rpe_metric_rot.get_all_statistics() log.info("mean: %f" % rpe_stats_rot["mean"]) results["relative_errors"] = dict() # Read segments file for segment in segments: results["relative_errors"][segment] = dict() evt.print_purple("RPE analysis of segment: %d" % segment) evt.print_lightpurple("Calculating RPE segment translation part") rpe_segment_metric_trans = metrics.RPE( metrics.PoseRelation.translation_part, float(segment), metrics.Unit.meters, 0.01, True) rpe_segment_metric_trans.process_data(data) rpe_segment_stats_trans = rpe_segment_metric_trans.get_all_statistics() results["relative_errors"][segment][ "rpe_trans"] = rpe_segment_stats_trans # print(rpe_segment_stats_trans) # print("mean:", rpe_segment_stats_trans["mean"]) evt.print_lightpurple("Calculating RPE segment rotation angle") rpe_segment_metric_rot = metrics.RPE( metrics.PoseRelation.rotation_angle_deg, float(segment), metrics.Unit.meters, 0.01, True) rpe_segment_metric_rot.process_data(data) rpe_segment_stats_rot = rpe_segment_metric_rot.get_all_statistics() results["relative_errors"][segment]["rpe_rot"] = rpe_segment_stats_rot # print(rpe_segment_stats_rot) # print("mean:", rpe_segment_stats_rot["mean"]) if save_results: # Save results file results_file = os.path.join(save_folder, 'results.yaml') evt.print_green("Saving analysis results to: %s" % results_file) with open(results_file, 'w') as outfile: if confirm_overwrite: if evt.user.check_and_confirm_overwrite(results_file): outfile.write(yaml.dump(results, default_flow_style=False)) else: log.info("Not overwritting results.") else: outfile.write(yaml.dump(results, default_flow_style=False)) # For each segment in segments file # Calculate rpe with delta = segment in meters with all-pairs set to True # Calculate max, min, rmse, mean, median etc # Plot boxplot, or those cumulative figures you see in evo (like demographic plots) if display_plot or save_plots: evt.print_green("Plotting:") log.info(dataset_name) plot_collection = plot.PlotCollection("Example") # metric values fig_1 = plt.figure(figsize=(8, 8)) ymax = -1 if dataset_name is not "" and FIX_MAX_Y: ymax = Y_MAX_APE_TRANS[dataset_name] ape_statistics = ape_metric.get_all_statistics() plot.error_array( fig_1, ape_metric.error, statistics=ape_statistics, name="APE translation", title="" #str(ape_metric) , xlabel="Keyframe index [-]", ylabel="APE translation [m]", y_min=0.0, y_max=ymax) plot_collection.add_figure("APE_translation", fig_1) # trajectory colormapped with error fig_2 = plt.figure(figsize=(8, 8)) plot_mode = plot.PlotMode.xy ax = plot.prepare_axis(fig_2, plot_mode) plot.traj(ax, plot_mode, traj_ref, '--', 'gray', 'reference') plot.traj_colormap(ax, traj_est, ape_metric.error, plot_mode, min_map=0.0, max_map=math.ceil(ape_statistics['max'] * 10) / 10, title="ATE mapped onto trajectory [m]") plot_collection.add_figure("APE_translation_trajectory_error", fig_2) # RPE ## Trans ### metric values fig_3 = plt.figure(figsize=(8, 8)) if dataset_name is not "" and FIX_MAX_Y: ymax = Y_MAX_RPE_TRANS[dataset_name] plot.error_array( fig_3, rpe_metric_trans.error, statistics=rpe_stats_trans, name="RPE translation", title="" #str(rpe_metric_trans) , xlabel="Keyframe index [-]", ylabel="RPE translation [m]", y_max=ymax) plot_collection.add_figure("RPE_translation", fig_3) ### trajectory colormapped with error fig_4 = plt.figure(figsize=(8, 8)) plot_mode = plot.PlotMode.xy ax = plot.prepare_axis(fig_4, plot_mode) traj_ref_trans = copy.deepcopy(traj_ref) traj_ref_trans.reduce_to_ids(rpe_metric_trans.delta_ids) traj_est_trans = copy.deepcopy(traj_est) traj_est_trans.reduce_to_ids(rpe_metric_trans.delta_ids) plot.traj(ax, plot_mode, traj_ref_trans, '--', 'gray', 'Reference') plot.traj_colormap( ax, traj_est_trans, rpe_metric_trans.error, plot_mode, min_map=0.0, max_map=math.ceil(rpe_stats_trans['max'] * 10) / 10, title="RPE translation error mapped onto trajectory [m]") plot_collection.add_figure("RPE_translation_trajectory_error", fig_4) ## Rot ### metric values fig_5 = plt.figure(figsize=(8, 8)) if dataset_name is not "" and FIX_MAX_Y: ymax = Y_MAX_RPE_ROT[dataset_name] plot.error_array( fig_5, rpe_metric_rot.error, statistics=rpe_stats_rot, name="RPE rotation error", title="" #str(rpe_metric_rot) , xlabel="Keyframe index [-]", ylabel="RPE rotation [deg]", y_max=ymax) plot_collection.add_figure("RPE_rotation", fig_5) ### trajectory colormapped with error fig_6 = plt.figure(figsize=(8, 8)) plot_mode = plot.PlotMode.xy ax = plot.prepare_axis(fig_6, plot_mode) traj_ref_rot = copy.deepcopy(traj_ref) traj_ref_rot.reduce_to_ids(rpe_metric_rot.delta_ids) traj_est_rot = copy.deepcopy(traj_est) traj_est_rot.reduce_to_ids(rpe_metric_rot.delta_ids) plot.traj(ax, plot_mode, traj_ref_rot, '--', 'gray', 'Reference') plot.traj_colormap( ax, traj_est_rot, rpe_metric_rot.error, plot_mode, min_map=0.0, max_map=math.ceil(rpe_stats_rot['max'] * 10) / 10, title="RPE rotation error mapped onto trajectory [deg]") plot_collection.add_figure("RPE_rotation_trajectory_error", fig_6) if display_plot: evt.print_green("Displaying plots.") plot_collection.show() if save_plots: evt.print_green("Saving plots to: ") log.info(save_folder) # Config output format (pdf, eps, ...) using evo_config... plot_collection.export(os.path.join(save_folder, "plots.eps"), False) plot_collection.export(os.path.join(save_folder, "plots.pdf"), False)