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yolov5 / models /common.py

glenn-jocher

v3.0 Release (#725)

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	# This file contains modules common to various models
	import math

	import torch
	import torch.nn as nn


	def autopad(k, p=None): # kernel, padding
	# Pad to 'same'
	if p is None:
	p = k // 2 if isinstance(k, int) else [x // 2 for x in k] # auto-pad
	return p


	def DWConv(c1, c2, k=1, s=1, act=True):
	# Depthwise convolution
	return Conv(c1, c2, k, s, g=math.gcd(c1, c2), act=act)


	class Conv(nn.Module):
	# Standard convolution
	def __init__(self, c1, c2, k=1, s=1, p=None, g=1, act=True): # ch_in, ch_out, kernel, stride, padding, groups
	super(Conv, self).__init__()
	self.conv = nn.Conv2d(c1, c2, k, s, autopad(k, p), groups=g, bias=False)
	self.bn = nn.BatchNorm2d(c2)
	self.act = nn.Hardswish() if act else nn.Identity()

	def forward(self, x):
	return self.act(self.bn(self.conv(x)))

	def fuseforward(self, x):
	return self.act(self.conv(x))


	class Bottleneck(nn.Module):
	# Standard bottleneck
	def __init__(self, c1, c2, shortcut=True, g=1, e=0.5): # ch_in, ch_out, shortcut, groups, expansion
	super(Bottleneck, self).__init__()
	c_ = int(c2 * e) # hidden channels
	self.cv1 = Conv(c1, c_, 1, 1)
	self.cv2 = Conv(c_, c2, 3, 1, g=g)
	self.add = shortcut and c1 == c2

	def forward(self, x):
	return x + self.cv2(self.cv1(x)) if self.add else self.cv2(self.cv1(x))


	class BottleneckCSP(nn.Module):
	# CSP Bottleneck https://github.com/WongKinYiu/CrossStagePartialNetworks
	def __init__(self, c1, c2, n=1, shortcut=True, g=1, e=0.5): # ch_in, ch_out, number, shortcut, groups, expansion
	super(BottleneckCSP, self).__init__()
	c_ = int(c2 * e) # hidden channels
	self.cv1 = Conv(c1, c_, 1, 1)
	self.cv2 = nn.Conv2d(c1, c_, 1, 1, bias=False)
	self.cv3 = nn.Conv2d(c_, c_, 1, 1, bias=False)
	self.cv4 = Conv(2 * c_, c2, 1, 1)
	self.bn = nn.BatchNorm2d(2 * c_) # applied to cat(cv2, cv3)
	self.act = nn.LeakyReLU(0.1, inplace=True)
	self.m = nn.Sequential(*[Bottleneck(c_, c_, shortcut, g, e=1.0) for _ in range(n)])

	def forward(self, x):
	y1 = self.cv3(self.m(self.cv1(x)))
	y2 = self.cv2(x)
	return self.cv4(self.act(self.bn(torch.cat((y1, y2), dim=1))))


	class SPP(nn.Module):
	# Spatial pyramid pooling layer used in YOLOv3-SPP
	def __init__(self, c1, c2, k=(5, 9, 13)):
	super(SPP, self).__init__()
	c_ = c1 // 2 # hidden channels
	self.cv1 = Conv(c1, c_, 1, 1)
	self.cv2 = Conv(c_ * (len(k) + 1), c2, 1, 1)
	self.m = nn.ModuleList([nn.MaxPool2d(kernel_size=x, stride=1, padding=x // 2) for x in k])

	def forward(self, x):
	x = self.cv1(x)
	return self.cv2(torch.cat([x] + [m(x) for m in self.m], 1))


	class Focus(nn.Module):
	# Focus wh information into c-space
	def __init__(self, c1, c2, k=1, s=1, p=None, g=1, act=True): # ch_in, ch_out, kernel, stride, padding, groups
	super(Focus, self).__init__()
	self.conv = Conv(c1 * 4, c2, k, s, p, g, act)

	def forward(self, x): # x(b,c,w,h) -> y(b,4c,w/2,h/2)
	return self.conv(torch.cat([x[..., ::2, ::2], x[..., 1::2, ::2], x[..., ::2, 1::2], x[..., 1::2, 1::2]], 1))


	class Concat(nn.Module):
	# Concatenate a list of tensors along dimension
	def __init__(self, dimension=1):
	super(Concat, self).__init__()
	self.d = dimension

	def forward(self, x):
	return torch.cat(x, self.d)


	class Flatten(nn.Module):
	# Use after nn.AdaptiveAvgPool2d(1) to remove last 2 dimensions
	@staticmethod
	def forward(x):
	return x.view(x.size(0), -1)


	class Classify(nn.Module):
	# Classification head, i.e. x(b,c1,20,20) to x(b,c2)
	def __init__(self, c1, c2, k=1, s=1, p=None, g=1): # ch_in, ch_out, kernel, stride, padding, groups
	super(Classify, self).__init__()
	self.aap = nn.AdaptiveAvgPool2d(1) # to x(b,c1,1,1)
	self.conv = nn.Conv2d(c1, c2, k, s, autopad(k, p), groups=g, bias=False) # to x(b,c2,1,1)
	self.flat = Flatten()

	def forward(self, x):
	z = torch.cat([self.aap(y) for y in (x if isinstance(x, list) else [x])], 1) # cat if list
	return self.flat(self.conv(z)) # flatten to x(b,c2)