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image-matching-webui / third_party /d2net /lib /pyramid.py

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fix: extractors

1ccca05 3 months ago

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4.18 kB

	import torch
	import torch.nn as nn
	import torch.nn.functional as F

	from .exceptions import EmptyTensorError
	from .utils import interpolate_dense_features, upscale_positions


	def process_multiscale(image, model, scales=[.5, 1, 2]):
	b, _, h_init, w_init = image.size()
	device = image.device
	assert(b == 1)

	all_keypoints = torch.zeros([3, 0])
	all_descriptors = torch.zeros([
	model.dense_feature_extraction.num_channels, 0
	])
	all_scores = torch.zeros(0)

	previous_dense_features = None
	banned = None
	for idx, scale in enumerate(scales):
	current_image = F.interpolate(
	image, scale_factor=scale,
	mode='bilinear', align_corners=True
	)
	_, _, h_level, w_level = current_image.size()

	dense_features = model.dense_feature_extraction(current_image)
	del current_image

	_, _, h, w = dense_features.size()

	# Sum the feature maps.
	if previous_dense_features is not None:
	dense_features += F.interpolate(
	previous_dense_features, size=[h, w],
	mode='bilinear', align_corners=True
	)
	del previous_dense_features

	# Recover detections.
	detections = model.detection(dense_features)
	if banned is not None:
	banned = F.interpolate(banned.float(), size=[h, w]).bool()
	detections = torch.min(detections, ~banned)
	banned = torch.max(
	torch.max(detections, dim=1)[0].unsqueeze(1), banned
	)
	else:
	banned = torch.max(detections, dim=1)[0].unsqueeze(1)
	fmap_pos = torch.nonzero(detections[0].cpu()).t()
	del detections

	# Recover displacements.
	displacements = model.localization(dense_features)[0].cpu()
	displacements_i = displacements[
	0, fmap_pos[0, :], fmap_pos[1, :], fmap_pos[2, :]
	]
	displacements_j = displacements[
	1, fmap_pos[0, :], fmap_pos[1, :], fmap_pos[2, :]
	]
	del displacements

	mask = torch.min(
	torch.abs(displacements_i) < 0.5,
	torch.abs(displacements_j) < 0.5
	)
	fmap_pos = fmap_pos[:, mask]
	valid_displacements = torch.stack([
	displacements_i[mask],
	displacements_j[mask]
	], dim=0)
	del mask, displacements_i, displacements_j

	fmap_keypoints = fmap_pos[1 :, :].float() + valid_displacements
	del valid_displacements

	try:
	raw_descriptors, _, ids = interpolate_dense_features(
	fmap_keypoints.to(device),
	dense_features[0]
	)
	except EmptyTensorError:
	continue
	fmap_pos = fmap_pos.to(device)
	fmap_keypoints = fmap_keypoints.to(device)
	fmap_pos = fmap_pos[:, ids]
	fmap_keypoints = fmap_keypoints[:, ids]
	del ids

	keypoints = upscale_positions(fmap_keypoints, scaling_steps=2)
	del fmap_keypoints

	descriptors = F.normalize(raw_descriptors, dim=0).cpu()
	del raw_descriptors

	keypoints[0, :] *= h_init / h_level
	keypoints[1, :] *= w_init / w_level

	fmap_pos = fmap_pos.cpu()
	keypoints = keypoints.cpu()

	keypoints = torch.cat([
	keypoints,
	torch.ones([1, keypoints.size(1)]) * 1 / scale,
	], dim=0)

	scores = dense_features[
	0, fmap_pos[0, :], fmap_pos[1, :], fmap_pos[2, :]
	].cpu() / (idx + 1)
	del fmap_pos

	all_keypoints = torch.cat([all_keypoints, keypoints], dim=1)
	all_descriptors = torch.cat([all_descriptors, descriptors], dim=1)
	all_scores = torch.cat([all_scores, scores], dim=0)
	del keypoints, descriptors

	previous_dense_features = dense_features
	del dense_features
	del previous_dense_features, banned

	keypoints = all_keypoints.t().detach().numpy()
	del all_keypoints
	scores = all_scores.detach().numpy()
	del all_scores
	descriptors = all_descriptors.t().detach().numpy()
	del all_descriptors
	return keypoints, scores, descriptors