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Depth-Anything / depth_anything /blocks.py

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	import torch.nn as nn


	def _make_scratch(in_shape, out_shape, groups=1, expand=False):
	scratch = nn.Module()

	out_shape1 = out_shape
	out_shape2 = out_shape
	out_shape3 = out_shape
	if len(in_shape) >= 4:
	out_shape4 = out_shape

	if expand:
	out_shape1 = out_shape
	out_shape2 = out_shape*2
	out_shape3 = out_shape*4
	if len(in_shape) >= 4:
	out_shape4 = out_shape*8

	scratch.layer1_rn = nn.Conv2d(
	in_shape[0], out_shape1, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
	)
	scratch.layer2_rn = nn.Conv2d(
	in_shape[1], out_shape2, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
	)
	scratch.layer3_rn = nn.Conv2d(
	in_shape[2], out_shape3, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
	)
	if len(in_shape) >= 4:
	scratch.layer4_rn = nn.Conv2d(
	in_shape[3], out_shape4, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
	)

	return scratch


	class ResidualConvUnit(nn.Module):
	"""Residual convolution module.
	"""

	def __init__(self, features, activation, bn):
	"""Init.

	Args:
	features (int): number of features
	"""
	super().__init__()

	self.bn = bn

	self.groups=1

	self.conv1 = nn.Conv2d(
	features, features, kernel_size=3, stride=1, padding=1, bias=True, groups=self.groups
	)

	self.conv2 = nn.Conv2d(
	features, features, kernel_size=3, stride=1, padding=1, bias=True, groups=self.groups
	)

	if self.bn==True:
	self.bn1 = nn.BatchNorm2d(features)
	self.bn2 = nn.BatchNorm2d(features)

	self.activation = activation

	self.skip_add = nn.quantized.FloatFunctional()

	def forward(self, x):
	"""Forward pass.

	Args:
	x (tensor): input

	Returns:
	tensor: output
	"""

	out = self.activation(x)
	out = self.conv1(out)
	if self.bn==True:
	out = self.bn1(out)

	out = self.activation(out)
	out = self.conv2(out)
	if self.bn==True:
	out = self.bn2(out)

	if self.groups > 1:
	out = self.conv_merge(out)

	return self.skip_add.add(out, x)


	class FeatureFusionBlock(nn.Module):
	"""Feature fusion block.
	"""

	def __init__(self, features, activation, deconv=False, bn=False, expand=False, align_corners=True, size=None):
	"""Init.

	Args:
	features (int): number of features
	"""
	super(FeatureFusionBlock, self).__init__()

	self.deconv = deconv
	self.align_corners = align_corners

	self.groups=1

	self.expand = expand
	out_features = features
	if self.expand==True:
	out_features = features//2

	self.out_conv = nn.Conv2d(features, out_features, kernel_size=1, stride=1, padding=0, bias=True, groups=1)

	self.resConfUnit1 = ResidualConvUnit(features, activation, bn)
	self.resConfUnit2 = ResidualConvUnit(features, activation, bn)

	self.skip_add = nn.quantized.FloatFunctional()

	self.size=size

	def forward(self, *xs, size=None):
	"""Forward pass.

	Returns:
	tensor: output
	"""
	output = xs[0]

	if len(xs) == 2:
	res = self.resConfUnit1(xs[1])
	output = self.skip_add.add(output, res)

	output = self.resConfUnit2(output)

	if (size is None) and (self.size is None):
	modifier = {"scale_factor": 2}
	elif size is None:
	modifier = {"size": self.size}
	else:
	modifier = {"size": size}

	output = nn.functional.interpolate(
	output, **modifier, mode="bilinear", align_corners=self.align_corners
	)

	output = self.out_conv(output)

	return output