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from argparse import Namespace
import os
import torch
import cv2
from time import time
from pathlib import Path
import matplotlib.cm as cm
import numpy as np
from src.models.topic_fm import TopicFM
from src import get_model_cfg
from .base import Viz
from src.utils.metrics import compute_symmetrical_epipolar_errors, compute_pose_errors
from src.utils.plotting import draw_topics, draw_topicfm_demo, error_colormap
class VizTopicFM(Viz):
def __init__(self, args):
super().__init__()
if type(args) == dict:
args = Namespace(**args)
self.match_threshold = args.match_threshold
self.n_sampling_topics = args.n_sampling_topics
self.show_n_topics = args.show_n_topics
# Load model
conf = dict(get_model_cfg())
conf["match_coarse"]["thr"] = self.match_threshold
conf["coarse"]["n_samples"] = self.n_sampling_topics
print("model config: ", conf)
self.model = TopicFM(config=conf)
ckpt_dict = torch.load(args.ckpt)
self.model.load_state_dict(ckpt_dict["state_dict"])
self.model = self.model.eval().to(self.device)
# Name the method
# self.ckpt_name = args.ckpt.split('/')[-1].split('.')[0]
self.name = "TopicFM"
print(f"Initialize {self.name}")
def match_and_draw(
self,
data_dict,
root_dir=None,
ground_truth=False,
measure_time=False,
viz_matches=True,
):
if measure_time:
torch.cuda.synchronize()
start = torch.cuda.Event(enable_timing=True)
end = torch.cuda.Event(enable_timing=True)
start.record()
self.model(data_dict)
if measure_time:
torch.cuda.synchronize()
end.record()
torch.cuda.synchronize()
self.time_stats.append(start.elapsed_time(end))
kpts0 = data_dict["mkpts0_f"].cpu().numpy()
kpts1 = data_dict["mkpts1_f"].cpu().numpy()
img_name0, img_name1 = list(zip(*data_dict["pair_names"]))[0]
img0 = cv2.imread(os.path.join(root_dir, img_name0))
img1 = cv2.imread(os.path.join(root_dir, img_name1))
if str(data_dict["dataset_name"][0]).lower() == "scannet":
img0 = cv2.resize(img0, (640, 480))
img1 = cv2.resize(img1, (640, 480))
if viz_matches:
saved_name = "_".join(
[
img_name0.split("/")[-1].split(".")[0],
img_name1.split("/")[-1].split(".")[0],
]
)
folder_matches = os.path.join(root_dir, "{}_viz_matches".format(self.name))
if not os.path.exists(folder_matches):
os.makedirs(folder_matches)
path_to_save_matches = os.path.join(
folder_matches, "{}.png".format(saved_name)
)
if ground_truth:
compute_symmetrical_epipolar_errors(
data_dict
) # compute epi_errs for each match
compute_pose_errors(
data_dict
) # compute R_errs, t_errs, pose_errs for each pair
epi_errors = data_dict["epi_errs"].cpu().numpy()
R_errors, t_errors = data_dict["R_errs"][0], data_dict["t_errs"][0]
self.draw_matches(
kpts0,
kpts1,
img0,
img1,
epi_errors,
path=path_to_save_matches,
R_errs=R_errors,
t_errs=t_errors,
)
# compute evaluation metrics
rel_pair_names = list(zip(*data_dict["pair_names"]))
bs = data_dict["image0"].size(0)
metrics = {
# to filter duplicate pairs caused by DistributedSampler
"identifiers": ["#".join(rel_pair_names[b]) for b in range(bs)],
"epi_errs": [
data_dict["epi_errs"][data_dict["m_bids"] == b].cpu().numpy()
for b in range(bs)
],
"R_errs": data_dict["R_errs"],
"t_errs": data_dict["t_errs"],
"inliers": data_dict["inliers"],
}
self.eval_stats.append({"metrics": metrics})
else:
m_conf = 1 - data_dict["mconf"].cpu().numpy()
self.draw_matches(
kpts0,
kpts1,
img0,
img1,
m_conf,
path=path_to_save_matches,
conf_thr=0.4,
)
if self.show_n_topics > 0:
folder_topics = os.path.join(
root_dir, "{}_viz_topics".format(self.name)
)
if not os.path.exists(folder_topics):
os.makedirs(folder_topics)
draw_topics(
data_dict,
img0,
img1,
saved_folder=folder_topics,
show_n_topics=self.show_n_topics,
saved_name=saved_name,
)
def run_demo(
self, dataloader, writer=None, output_dir=None, no_display=False, skip_frames=1
):
data_dict = next(dataloader)
frame_id = 0
last_image_id = 0
img0 = (
np.array(cv2.imread(str(data_dict["img_path"][0])), dtype=np.float32) / 255
)
frame_tensor = data_dict["img"].to(self.device)
pair_data = {"image0": frame_tensor}
last_frame = cv2.resize(
img0, (frame_tensor.shape[-1], frame_tensor.shape[-2]), cv2.INTER_LINEAR
)
if output_dir is not None:
print("==> Will write outputs to {}".format(output_dir))
Path(output_dir).mkdir(exist_ok=True)
# Create a window to display the demo.
if not no_display:
window_name = "Topic-assisted Feature Matching"
cv2.namedWindow(window_name, cv2.WINDOW_NORMAL)
cv2.resizeWindow(window_name, (640 * 2, 480 * 2))
else:
print("Skipping visualization, will not show a GUI.")
# Print the keyboard help menu.
print(
"==> Keyboard control:\n"
"\tn: select the current frame as the reference image (left)\n"
"\tq: quit"
)
# vis_range = [kwargs["bottom_k"], kwargs["top_k"]]
while True:
frame_id += 1
if frame_id == len(dataloader):
print("Finished demo_loftr.py")
break
data_dict = next(dataloader)
if frame_id % skip_frames != 0:
# print("Skipping frame.")
continue
stem0, stem1 = last_image_id, data_dict["id"][0].item() - 1
frame = (
np.array(cv2.imread(str(data_dict["img_path"][0])), dtype=np.float32)
/ 255
)
frame_tensor = data_dict["img"].to(self.device)
frame = cv2.resize(
frame,
(frame_tensor.shape[-1], frame_tensor.shape[-2]),
interpolation=cv2.INTER_LINEAR,
)
pair_data = {**pair_data, "image1": frame_tensor}
self.model(pair_data)
total_n_matches = len(pair_data["mkpts0_f"])
mkpts0 = pair_data["mkpts0_f"].cpu().numpy() # [vis_range[0]:vis_range[1]]
mkpts1 = pair_data["mkpts1_f"].cpu().numpy() # [vis_range[0]:vis_range[1]]
mconf = pair_data["mconf"].cpu().numpy() # [vis_range[0]:vis_range[1]]
# Normalize confidence.
if len(mconf) > 0:
mconf = 1 - mconf
# alpha = 0
# color = cm.jet(mconf, alpha=alpha)
color = error_colormap(mconf, thr=0.4, alpha=0.1)
text = [
f"Topics",
"#Matches: {}".format(total_n_matches),
]
out = draw_topicfm_demo(
pair_data,
last_frame,
frame,
mkpts0,
mkpts1,
color,
text,
show_n_topics=4,
path=None,
)
if not no_display:
if writer is not None:
writer.write(out)
cv2.imshow("TopicFM Matches", out)
key = chr(cv2.waitKey(10) & 0xFF)
if key == "q":
if writer is not None:
writer.release()
print("Exiting...")
break
elif key == "n":
pair_data["image0"] = frame_tensor
last_frame = frame
last_image_id = data_dict["id"][0].item() - 1
frame_id_left = frame_id
elif output_dir is not None:
stem = "matches_{:06}_{:06}".format(stem0, stem1)
out_file = str(Path(output_dir, stem + ".png"))
print("\nWriting image to {}".format(out_file))
cv2.imwrite(out_file, out)
else:
raise ValueError("output_dir is required when no display is given.")
cv2.destroyAllWindows()
if writer is not None:
writer.release()
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