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Rerender / gmflow_module /gmflow /geometry.py

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	import torch
	import torch.nn.functional as F


	def coords_grid(b, h, w, homogeneous=False, device=None):
	y, x = torch.meshgrid(torch.arange(h), torch.arange(w)) # [H, W]

	stacks = [x, y]

	if homogeneous:
	ones = torch.ones_like(x) # [H, W]
	stacks.append(ones)

	grid = torch.stack(stacks, dim=0).float() # [2, H, W] or [3, H, W]

	grid = grid[None].repeat(b, 1, 1, 1) # [B, 2, H, W] or [B, 3, H, W]

	if device is not None:
	grid = grid.to(device)

	return grid


	def generate_window_grid(h_min, h_max, w_min, w_max, len_h, len_w, device=None):
	assert device is not None

	x, y = torch.meshgrid([torch.linspace(w_min, w_max, len_w, device=device),
	torch.linspace(h_min, h_max, len_h, device=device)],
	)
	grid = torch.stack((x, y), -1).transpose(0, 1).float() # [H, W, 2]

	return grid


	def normalize_coords(coords, h, w):
	# coords: [B, H, W, 2]
	c = torch.Tensor([(w - 1) / 2., (h - 1) / 2.]).float().to(coords.device)
	return (coords - c) / c # [-1, 1]


	def bilinear_sample(img, sample_coords, mode='bilinear', padding_mode='zeros', return_mask=False):
	# img: [B, C, H, W]
	# sample_coords: [B, 2, H, W] in image scale
	if sample_coords.size(1) != 2: # [B, H, W, 2]
	sample_coords = sample_coords.permute(0, 3, 1, 2)

	b, _, h, w = sample_coords.shape

	# Normalize to [-1, 1]
	x_grid = 2 * sample_coords[:, 0] / (w - 1) - 1
	y_grid = 2 * sample_coords[:, 1] / (h - 1) - 1

	grid = torch.stack([x_grid, y_grid], dim=-1) # [B, H, W, 2]

	img = F.grid_sample(img, grid, mode=mode, padding_mode=padding_mode, align_corners=True)

	if return_mask:
	mask = (x_grid >= -1) & (y_grid >= -1) & (x_grid <= 1) & (y_grid <= 1) # [B, H, W]

	return img, mask

	return img


	def flow_warp(feature, flow, mask=False, padding_mode='zeros'):
	b, c, h, w = feature.size()
	assert flow.size(1) == 2

	grid = coords_grid(b, h, w).to(flow.device) + flow # [B, 2, H, W]

	return bilinear_sample(feature, grid, padding_mode=padding_mode,
	return_mask=mask)


	def forward_backward_consistency_check(fwd_flow, bwd_flow,
	alpha=0.01,
	beta=0.5
	):
	# fwd_flow, bwd_flow: [B, 2, H, W]
	# alpha and beta values are following UnFlow (https://arxiv.org/abs/1711.07837)
	assert fwd_flow.dim() == 4 and bwd_flow.dim() == 4
	assert fwd_flow.size(1) == 2 and bwd_flow.size(1) == 2
	flow_mag = torch.norm(fwd_flow, dim=1) + torch.norm(bwd_flow, dim=1) # [B, H, W]

	warped_bwd_flow = flow_warp(bwd_flow, fwd_flow) # [B, 2, H, W]
	warped_fwd_flow = flow_warp(fwd_flow, bwd_flow) # [B, 2, H, W]

	diff_fwd = torch.norm(fwd_flow + warped_bwd_flow, dim=1) # [B, H, W]
	diff_bwd = torch.norm(bwd_flow + warped_fwd_flow, dim=1)

	threshold = alpha * flow_mag + beta

	fwd_occ = (diff_fwd > threshold).float() # [B, H, W]
	bwd_occ = (diff_bwd > threshold).float()

	return fwd_occ, bwd_occ