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DiffIR2VR / GMFlow /utils /utils.py

jimmycv07

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1de8821 4 months ago

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	import torch
	import torch.nn.functional as F


	class InputPadder:
	""" Pads images such that dimensions are divisible by 8 """

	def __init__(self, dims, mode='sintel', padding_factor=8):
	self.ht, self.wd = dims[-2:]
	pad_ht = (((self.ht // padding_factor) + 1) * padding_factor - self.ht) % padding_factor
	pad_wd = (((self.wd // padding_factor) + 1) * padding_factor - self.wd) % padding_factor
	if mode == 'sintel':
	self._pad = [pad_wd // 2, pad_wd - pad_wd // 2, pad_ht // 2, pad_ht - pad_ht // 2]
	else:
	self._pad = [pad_wd // 2, pad_wd - pad_wd // 2, 0, pad_ht]

	def pad(self, *inputs):
	return [F.pad(x, self._pad, mode='replicate') for x in inputs]

	def unpad(self, x):
	ht, wd = x.shape[-2:]
	c = [self._pad[2], ht - self._pad[3], self._pad[0], wd - self._pad[1]]
	return x[..., c[0]:c[1], c[2]:c[3]]


	def coords_grid(batch, ht, wd, normalize=False):
	if normalize: # [-1, 1]
	coords = torch.meshgrid(2 * torch.arange(ht) / (ht - 1) - 1,
	2 * torch.arange(wd) / (wd - 1) - 1)
	else:
	coords = torch.meshgrid(torch.arange(ht), torch.arange(wd))
	coords = torch.stack(coords[::-1], dim=0).float()
	return coords[None].repeat(batch, 1, 1, 1) # [B, 2, H, W]


	def compute_out_of_boundary_mask(flow):
	# flow: [B, 2, H, W]
	assert flow.dim() == 4 and flow.size(1) == 2
	b, _, h, w = flow.shape
	init_coords = coords_grid(b, h, w).to(flow.device)
	corres = init_coords + flow # [B, 2, H, W]

	max_w = w - 1
	max_h = h - 1

	valid_mask = (corres[:, 0] >= 0) & (corres[:, 0] <= max_w) & (corres[:, 1] >= 0) & (corres[:, 1] <= max_h)

	# in case very large flow
	flow_mask = (flow[:, 0].abs() <= max_w) & (flow[:, 1].abs() <= max_h)

	valid_mask = valid_mask & flow_mask

	return valid_mask # [B, H, W]


	def count_parameters(model):
	num = sum(p.numel() for p in model.parameters() if p.requires_grad)
	return num