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#! /usr/bin/env python3 | |
# | |
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# Originating Authors: Paul-Edouard Sarlin | |
# Daniel DeTone | |
# Tomasz Malisiewicz | |
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from pathlib import Path | |
import argparse | |
import random | |
import numpy as np | |
import matplotlib.cm as cm | |
import torch | |
from models.matching import Matching | |
from models.utils import ( | |
compute_pose_error, | |
compute_epipolar_error, | |
estimate_pose, | |
make_matching_plot, | |
error_colormap, | |
AverageTimer, | |
pose_auc, | |
read_image, | |
rotate_intrinsics, | |
rotate_pose_inplane, | |
scale_intrinsics, | |
) | |
torch.set_grad_enabled(False) | |
if __name__ == "__main__": | |
parser = argparse.ArgumentParser( | |
description="Image pair matching and pose evaluation with SuperGlue", | |
formatter_class=argparse.ArgumentDefaultsHelpFormatter, | |
) | |
parser.add_argument( | |
"--input_pairs", | |
type=str, | |
default="assets/scannet_sample_pairs_with_gt.txt", | |
help="Path to the list of image pairs", | |
) | |
parser.add_argument( | |
"--input_dir", | |
type=str, | |
default="assets/scannet_sample_images/", | |
help="Path to the directory that contains the images", | |
) | |
parser.add_argument( | |
"--output_dir", | |
type=str, | |
default="dump_match_pairs/", | |
help="Path to the directory in which the .npz results and optionally," | |
"the visualization images are written", | |
) | |
parser.add_argument( | |
"--max_length", type=int, default=-1, help="Maximum number of pairs to evaluate" | |
) | |
parser.add_argument( | |
"--resize", | |
type=int, | |
nargs="+", | |
default=[640, 480], | |
help="Resize the input image before running inference. If two numbers, " | |
"resize to the exact dimensions, if one number, resize the max " | |
"dimension, if -1, do not resize", | |
) | |
parser.add_argument( | |
"--resize_float", | |
action="store_true", | |
help="Resize the image after casting uint8 to float", | |
) | |
parser.add_argument( | |
"--superglue", | |
choices={"indoor", "outdoor"}, | |
default="indoor", | |
help="SuperGlue weights", | |
) | |
parser.add_argument( | |
"--max_keypoints", | |
type=int, | |
default=1024, | |
help="Maximum number of keypoints detected by Superpoint" | |
" ('-1' keeps all keypoints)", | |
) | |
parser.add_argument( | |
"--keypoint_threshold", | |
type=float, | |
default=0.005, | |
help="SuperPoint keypoint detector confidence threshold", | |
) | |
parser.add_argument( | |
"--nms_radius", | |
type=int, | |
default=4, | |
help="SuperPoint Non Maximum Suppression (NMS) radius" " (Must be positive)", | |
) | |
parser.add_argument( | |
"--sinkhorn_iterations", | |
type=int, | |
default=20, | |
help="Number of Sinkhorn iterations performed by SuperGlue", | |
) | |
parser.add_argument( | |
"--match_threshold", type=float, default=0.2, help="SuperGlue match threshold" | |
) | |
parser.add_argument( | |
"--viz", action="store_true", help="Visualize the matches and dump the plots" | |
) | |
parser.add_argument( | |
"--eval", | |
action="store_true", | |
help="Perform the evaluation" " (requires ground truth pose and intrinsics)", | |
) | |
parser.add_argument( | |
"--fast_viz", | |
action="store_true", | |
help="Use faster image visualization with OpenCV instead of Matplotlib", | |
) | |
parser.add_argument( | |
"--cache", | |
action="store_true", | |
help="Skip the pair if output .npz files are already found", | |
) | |
parser.add_argument( | |
"--show_keypoints", | |
action="store_true", | |
help="Plot the keypoints in addition to the matches", | |
) | |
parser.add_argument( | |
"--viz_extension", | |
type=str, | |
default="png", | |
choices=["png", "pdf"], | |
help="Visualization file extension. Use pdf for highest-quality.", | |
) | |
parser.add_argument( | |
"--opencv_display", | |
action="store_true", | |
help="Visualize via OpenCV before saving output images", | |
) | |
parser.add_argument( | |
"--shuffle", | |
action="store_true", | |
help="Shuffle ordering of pairs before processing", | |
) | |
parser.add_argument( | |
"--force_cpu", action="store_true", help="Force pytorch to run in CPU mode." | |
) | |
opt = parser.parse_args() | |
print(opt) | |
assert not ( | |
opt.opencv_display and not opt.viz | |
), "Must use --viz with --opencv_display" | |
assert not ( | |
opt.opencv_display and not opt.fast_viz | |
), "Cannot use --opencv_display without --fast_viz" | |
assert not (opt.fast_viz and not opt.viz), "Must use --viz with --fast_viz" | |
assert not ( | |
opt.fast_viz and opt.viz_extension == "pdf" | |
), "Cannot use pdf extension with --fast_viz" | |
if len(opt.resize) == 2 and opt.resize[1] == -1: | |
opt.resize = opt.resize[0:1] | |
if len(opt.resize) == 2: | |
print("Will resize to {}x{} (WxH)".format(opt.resize[0], opt.resize[1])) | |
elif len(opt.resize) == 1 and opt.resize[0] > 0: | |
print("Will resize max dimension to {}".format(opt.resize[0])) | |
elif len(opt.resize) == 1: | |
print("Will not resize images") | |
else: | |
raise ValueError("Cannot specify more than two integers for --resize") | |
with open(opt.input_pairs, "r") as f: | |
pairs = [l.split() for l in f.readlines()] | |
if opt.max_length > -1: | |
pairs = pairs[0 : np.min([len(pairs), opt.max_length])] | |
if opt.shuffle: | |
random.Random(0).shuffle(pairs) | |
if opt.eval: | |
if not all([len(p) == 38 for p in pairs]): | |
raise ValueError( | |
"All pairs should have ground truth info for evaluation." | |
'File "{}" needs 38 valid entries per row'.format(opt.input_pairs) | |
) | |
# Load the SuperPoint and SuperGlue models. | |
device = "cuda" if torch.cuda.is_available() and not opt.force_cpu else "cpu" | |
print('Running inference on device "{}"'.format(device)) | |
config = { | |
"superpoint": { | |
"nms_radius": opt.nms_radius, | |
"keypoint_threshold": opt.keypoint_threshold, | |
"max_keypoints": opt.max_keypoints, | |
}, | |
"superglue": { | |
"weights": opt.superglue, | |
"sinkhorn_iterations": opt.sinkhorn_iterations, | |
"match_threshold": opt.match_threshold, | |
}, | |
} | |
matching = Matching(config).eval().to(device) | |
# Create the output directories if they do not exist already. | |
input_dir = Path(opt.input_dir) | |
print('Looking for data in directory "{}"'.format(input_dir)) | |
output_dir = Path(opt.output_dir) | |
output_dir.mkdir(exist_ok=True, parents=True) | |
print('Will write matches to directory "{}"'.format(output_dir)) | |
if opt.eval: | |
print("Will write evaluation results", 'to directory "{}"'.format(output_dir)) | |
if opt.viz: | |
print("Will write visualization images to", 'directory "{}"'.format(output_dir)) | |
timer = AverageTimer(newline=True) | |
for i, pair in enumerate(pairs): | |
name0, name1 = pair[:2] | |
stem0, stem1 = Path(name0).stem, Path(name1).stem | |
matches_path = output_dir / "{}_{}_matches.npz".format(stem0, stem1) | |
eval_path = output_dir / "{}_{}_evaluation.npz".format(stem0, stem1) | |
viz_path = output_dir / "{}_{}_matches.{}".format( | |
stem0, stem1, opt.viz_extension | |
) | |
viz_eval_path = output_dir / "{}_{}_evaluation.{}".format( | |
stem0, stem1, opt.viz_extension | |
) | |
# Handle --cache logic. | |
do_match = True | |
do_eval = opt.eval | |
do_viz = opt.viz | |
do_viz_eval = opt.eval and opt.viz | |
if opt.cache: | |
if matches_path.exists(): | |
try: | |
results = np.load(matches_path) | |
except: | |
raise IOError("Cannot load matches .npz file: %s" % matches_path) | |
kpts0, kpts1 = results["keypoints0"], results["keypoints1"] | |
matches, conf = results["matches"], results["match_confidence"] | |
do_match = False | |
if opt.eval and eval_path.exists(): | |
try: | |
results = np.load(eval_path) | |
except: | |
raise IOError("Cannot load eval .npz file: %s" % eval_path) | |
err_R, err_t = results["error_R"], results["error_t"] | |
precision = results["precision"] | |
matching_score = results["matching_score"] | |
num_correct = results["num_correct"] | |
epi_errs = results["epipolar_errors"] | |
do_eval = False | |
if opt.viz and viz_path.exists(): | |
do_viz = False | |
if opt.viz and opt.eval and viz_eval_path.exists(): | |
do_viz_eval = False | |
timer.update("load_cache") | |
if not (do_match or do_eval or do_viz or do_viz_eval): | |
timer.print("Finished pair {:5} of {:5}".format(i, len(pairs))) | |
continue | |
# If a rotation integer is provided (e.g. from EXIF data), use it: | |
if len(pair) >= 5: | |
rot0, rot1 = int(pair[2]), int(pair[3]) | |
else: | |
rot0, rot1 = 0, 0 | |
# Load the image pair. | |
image0, inp0, scales0 = read_image( | |
input_dir / name0, device, opt.resize, rot0, opt.resize_float | |
) | |
image1, inp1, scales1 = read_image( | |
input_dir / name1, device, opt.resize, rot1, opt.resize_float | |
) | |
if image0 is None or image1 is None: | |
print( | |
"Problem reading image pair: {} {}".format( | |
input_dir / name0, input_dir / name1 | |
) | |
) | |
exit(1) | |
timer.update("load_image") | |
if do_match: | |
# Perform the matching. | |
pred = matching({"image0": inp0, "image1": inp1}) | |
pred = {k: v[0].cpu().numpy() for k, v in pred.items()} | |
kpts0, kpts1 = pred["keypoints0"], pred["keypoints1"] | |
matches, conf = pred["matches0"], pred["matching_scores0"] | |
timer.update("matcher") | |
# Write the matches to disk. | |
out_matches = { | |
"keypoints0": kpts0, | |
"keypoints1": kpts1, | |
"matches": matches, | |
"match_confidence": conf, | |
} | |
np.savez(str(matches_path), **out_matches) | |
# Keep the matching keypoints. | |
valid = matches > -1 | |
mkpts0 = kpts0[valid] | |
mkpts1 = kpts1[matches[valid]] | |
mconf = conf[valid] | |
if do_eval: | |
# Estimate the pose and compute the pose error. | |
assert len(pair) == 38, "Pair does not have ground truth info" | |
K0 = np.array(pair[4:13]).astype(float).reshape(3, 3) | |
K1 = np.array(pair[13:22]).astype(float).reshape(3, 3) | |
T_0to1 = np.array(pair[22:]).astype(float).reshape(4, 4) | |
# Scale the intrinsics to resized image. | |
K0 = scale_intrinsics(K0, scales0) | |
K1 = scale_intrinsics(K1, scales1) | |
# Update the intrinsics + extrinsics if EXIF rotation was found. | |
if rot0 != 0 or rot1 != 0: | |
cam0_T_w = np.eye(4) | |
cam1_T_w = T_0to1 | |
if rot0 != 0: | |
K0 = rotate_intrinsics(K0, image0.shape, rot0) | |
cam0_T_w = rotate_pose_inplane(cam0_T_w, rot0) | |
if rot1 != 0: | |
K1 = rotate_intrinsics(K1, image1.shape, rot1) | |
cam1_T_w = rotate_pose_inplane(cam1_T_w, rot1) | |
cam1_T_cam0 = cam1_T_w @ np.linalg.inv(cam0_T_w) | |
T_0to1 = cam1_T_cam0 | |
epi_errs = compute_epipolar_error(mkpts0, mkpts1, T_0to1, K0, K1) | |
correct = epi_errs < 5e-4 | |
num_correct = np.sum(correct) | |
precision = np.mean(correct) if len(correct) > 0 else 0 | |
matching_score = num_correct / len(kpts0) if len(kpts0) > 0 else 0 | |
thresh = 1.0 # In pixels relative to resized image size. | |
ret = estimate_pose(mkpts0, mkpts1, K0, K1, thresh) | |
if ret is None: | |
err_t, err_R = np.inf, np.inf | |
else: | |
R, t, inliers = ret | |
err_t, err_R = compute_pose_error(T_0to1, R, t) | |
# Write the evaluation results to disk. | |
out_eval = { | |
"error_t": err_t, | |
"error_R": err_R, | |
"precision": precision, | |
"matching_score": matching_score, | |
"num_correct": num_correct, | |
"epipolar_errors": epi_errs, | |
} | |
np.savez(str(eval_path), **out_eval) | |
timer.update("eval") | |
if do_viz: | |
# Visualize the matches. | |
color = cm.jet(mconf) | |
text = [ | |
"SuperGlue", | |
"Keypoints: {}:{}".format(len(kpts0), len(kpts1)), | |
"Matches: {}".format(len(mkpts0)), | |
] | |
if rot0 != 0 or rot1 != 0: | |
text.append("Rotation: {}:{}".format(rot0, rot1)) | |
# Display extra parameter info. | |
k_thresh = matching.superpoint.config["keypoint_threshold"] | |
m_thresh = matching.superglue.config["match_threshold"] | |
small_text = [ | |
"Keypoint Threshold: {:.4f}".format(k_thresh), | |
"Match Threshold: {:.2f}".format(m_thresh), | |
"Image Pair: {}:{}".format(stem0, stem1), | |
] | |
make_matching_plot( | |
image0, | |
image1, | |
kpts0, | |
kpts1, | |
mkpts0, | |
mkpts1, | |
color, | |
text, | |
viz_path, | |
opt.show_keypoints, | |
opt.fast_viz, | |
opt.opencv_display, | |
"Matches", | |
small_text, | |
) | |
timer.update("viz_match") | |
if do_viz_eval: | |
# Visualize the evaluation results for the image pair. | |
color = np.clip((epi_errs - 0) / (1e-3 - 0), 0, 1) | |
color = error_colormap(1 - color) | |
deg, delta = " deg", "Delta " | |
if not opt.fast_viz: | |
deg, delta = "°", "$\\Delta$" | |
e_t = "FAIL" if np.isinf(err_t) else "{:.1f}{}".format(err_t, deg) | |
e_R = "FAIL" if np.isinf(err_R) else "{:.1f}{}".format(err_R, deg) | |
text = [ | |
"SuperGlue", | |
"{}R: {}".format(delta, e_R), | |
"{}t: {}".format(delta, e_t), | |
"inliers: {}/{}".format(num_correct, (matches > -1).sum()), | |
] | |
if rot0 != 0 or rot1 != 0: | |
text.append("Rotation: {}:{}".format(rot0, rot1)) | |
# Display extra parameter info (only works with --fast_viz). | |
k_thresh = matching.superpoint.config["keypoint_threshold"] | |
m_thresh = matching.superglue.config["match_threshold"] | |
small_text = [ | |
"Keypoint Threshold: {:.4f}".format(k_thresh), | |
"Match Threshold: {:.2f}".format(m_thresh), | |
"Image Pair: {}:{}".format(stem0, stem1), | |
] | |
make_matching_plot( | |
image0, | |
image1, | |
kpts0, | |
kpts1, | |
mkpts0, | |
mkpts1, | |
color, | |
text, | |
viz_eval_path, | |
opt.show_keypoints, | |
opt.fast_viz, | |
opt.opencv_display, | |
"Relative Pose", | |
small_text, | |
) | |
timer.update("viz_eval") | |
timer.print("Finished pair {:5} of {:5}".format(i, len(pairs))) | |
if opt.eval: | |
# Collate the results into a final table and print to terminal. | |
pose_errors = [] | |
precisions = [] | |
matching_scores = [] | |
for pair in pairs: | |
name0, name1 = pair[:2] | |
stem0, stem1 = Path(name0).stem, Path(name1).stem | |
eval_path = output_dir / "{}_{}_evaluation.npz".format(stem0, stem1) | |
results = np.load(eval_path) | |
pose_error = np.maximum(results["error_t"], results["error_R"]) | |
pose_errors.append(pose_error) | |
precisions.append(results["precision"]) | |
matching_scores.append(results["matching_score"]) | |
thresholds = [5, 10, 20] | |
aucs = pose_auc(pose_errors, thresholds) | |
aucs = [100.0 * yy for yy in aucs] | |
prec = 100.0 * np.mean(precisions) | |
ms = 100.0 * np.mean(matching_scores) | |
print("Evaluation Results (mean over {} pairs):".format(len(pairs))) | |
print("AUC@5\t AUC@10\t AUC@20\t Prec\t MScore\t") | |
print( | |
"{:.2f}\t {:.2f}\t {:.2f}\t {:.2f}\t {:.2f}\t".format( | |
aucs[0], aucs[1], aucs[2], prec, ms | |
) | |
) | |