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# Ultralytics YOLO 🚀, AGPL-3.0 license
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"""
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Convolution modules
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"""
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import math
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import numpy as np
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import torch
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import torch.nn as nn
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__all__ = ('Conv', 'LightConv', 'DWConv', 'DWConvTranspose2d', 'ConvTranspose', 'Focus', 'GhostConv',
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'ChannelAttention', 'SpatialAttention', 'CBAM', 'Concat', 'RepConv')
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def autopad(k, p=None, d=1): # kernel, padding, dilation
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"""Pad to 'same' shape outputs."""
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if d > 1:
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k = d * (k - 1) + 1 if isinstance(k, int) else [d * (x - 1) + 1 for x in k] # actual kernel-size
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if p is None:
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p = k // 2 if isinstance(k, int) else [x // 2 for x in k] # auto-pad
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return p
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class Conv(nn.Module):
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"""Standard convolution with args(ch_in, ch_out, kernel, stride, padding, groups, dilation, activation)."""
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default_act = nn.SiLU() # default activation
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def __init__(self, c1, c2, k=1, s=1, p=None, g=1, d=1, act=True):
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"""Initialize Conv layer with given arguments including activation."""
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super().__init__()
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self.conv = nn.Conv2d(c1, c2, k, s, autopad(k, p, d), groups=g, dilation=d, bias=False)
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self.bn = nn.BatchNorm2d(c2)
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self.act = self.default_act if act is True else act if isinstance(act, nn.Module) else nn.Identity()
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def forward(self, x):
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"""Apply convolution, batch normalization and activation to input tensor."""
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return self.act(self.bn(self.conv(x)))
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def forward_fuse(self, x):
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"""Perform transposed convolution of 2D data."""
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return self.act(self.conv(x))
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class Conv2(Conv):
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"""Simplified RepConv module with Conv fusing."""
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def __init__(self, c1, c2, k=3, s=1, p=None, g=1, d=1, act=True):
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"""Initialize Conv layer with given arguments including activation."""
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super().__init__(c1, c2, k, s, p, g=g, d=d, act=act)
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self.cv2 = nn.Conv2d(c1, c2, 1, s, autopad(1, p, d), groups=g, dilation=d, bias=False) # add 1x1 conv
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def forward(self, x):
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"""Apply convolution, batch normalization and activation to input tensor."""
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return self.act(self.bn(self.conv(x) + self.cv2(x)))
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def fuse_convs(self):
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"""Fuse parallel convolutions."""
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w = torch.zeros_like(self.conv.weight.data)
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i = [x // 2 for x in w.shape[2:]]
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w[:, :, i[0]:i[0] + 1, i[1]:i[1] + 1] = self.cv2.weight.data.clone()
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self.conv.weight.data += w
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self.__delattr__('cv2')
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class LightConv(nn.Module):
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"""Light convolution with args(ch_in, ch_out, kernel).
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https://github.com/PaddlePaddle/PaddleDetection/blob/develop/ppdet/modeling/backbones/hgnet_v2.py
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"""
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def __init__(self, c1, c2, k=1, act=nn.ReLU()):
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"""Initialize Conv layer with given arguments including activation."""
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super().__init__()
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self.conv1 = Conv(c1, c2, 1, act=False)
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self.conv2 = DWConv(c2, c2, k, act=act)
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def forward(self, x):
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"""Apply 2 convolutions to input tensor."""
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return self.conv2(self.conv1(x))
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class DWConv(Conv):
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"""Depth-wise convolution."""
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def __init__(self, c1, c2, k=1, s=1, d=1, act=True): # ch_in, ch_out, kernel, stride, dilation, activation
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super().__init__(c1, c2, k, s, g=math.gcd(c1, c2), d=d, act=act)
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class DWConvTranspose2d(nn.ConvTranspose2d):
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"""Depth-wise transpose convolution."""
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def __init__(self, c1, c2, k=1, s=1, p1=0, p2=0): # ch_in, ch_out, kernel, stride, padding, padding_out
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super().__init__(c1, c2, k, s, p1, p2, groups=math.gcd(c1, c2))
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class ConvTranspose(nn.Module):
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"""Convolution transpose 2d layer."""
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default_act = nn.SiLU() # default activation
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def __init__(self, c1, c2, k=2, s=2, p=0, bn=True, act=True):
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"""Initialize ConvTranspose2d layer with batch normalization and activation function."""
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super().__init__()
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self.conv_transpose = nn.ConvTranspose2d(c1, c2, k, s, p, bias=not bn)
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self.bn = nn.BatchNorm2d(c2) if bn else nn.Identity()
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self.act = self.default_act if act is True else act if isinstance(act, nn.Module) else nn.Identity()
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def forward(self, x):
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"""Applies transposed convolutions, batch normalization and activation to input."""
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return self.act(self.bn(self.conv_transpose(x)))
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def forward_fuse(self, x):
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"""Applies activation and convolution transpose operation to input."""
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return self.act(self.conv_transpose(x))
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class Focus(nn.Module):
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"""Focus wh information into c-space."""
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def __init__(self, c1, c2, k=1, s=1, p=None, g=1, act=True): # ch_in, ch_out, kernel, stride, padding, groups
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super().__init__()
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self.conv = Conv(c1 * 4, c2, k, s, p, g, act=act)
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# self.contract = Contract(gain=2)
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def forward(self, x): # x(b,c,w,h) -> y(b,4c,w/2,h/2)
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return self.conv(torch.cat((x[..., ::2, ::2], x[..., 1::2, ::2], x[..., ::2, 1::2], x[..., 1::2, 1::2]), 1))
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# return self.conv(self.contract(x))
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class GhostConv(nn.Module):
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"""Ghost Convolution https://github.com/huawei-noah/ghostnet."""
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def __init__(self, c1, c2, k=1, s=1, g=1, act=True): # ch_in, ch_out, kernel, stride, groups
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super().__init__()
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c_ = c2 // 2 # hidden channels
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self.cv1 = Conv(c1, c_, k, s, None, g, act=act)
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self.cv2 = Conv(c_, c_, 5, 1, None, c_, act=act)
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def forward(self, x):
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"""Forward propagation through a Ghost Bottleneck layer with skip connection."""
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y = self.cv1(x)
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return torch.cat((y, self.cv2(y)), 1)
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class RepConv(nn.Module):
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"""
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RepConv is a basic rep-style block, including training and deploy status. This module is used in RT-DETR.
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Based on https://github.com/DingXiaoH/RepVGG/blob/main/repvgg.py
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"""
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default_act = nn.SiLU() # default activation
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def __init__(self, c1, c2, k=3, s=1, p=1, g=1, d=1, act=True, bn=False, deploy=False):
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super().__init__()
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assert k == 3 and p == 1
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self.g = g
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self.c1 = c1
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self.c2 = c2
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self.act = self.default_act if act is True else act if isinstance(act, nn.Module) else nn.Identity()
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self.bn = nn.BatchNorm2d(num_features=c1) if bn and c2 == c1 and s == 1 else None
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self.conv1 = Conv(c1, c2, k, s, p=p, g=g, act=False)
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self.conv2 = Conv(c1, c2, 1, s, p=(p - k // 2), g=g, act=False)
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def forward_fuse(self, x):
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"""Forward process"""
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return self.act(self.conv(x))
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def forward(self, x):
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"""Forward process"""
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id_out = 0 if self.bn is None else self.bn(x)
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return self.act(self.conv1(x) + self.conv2(x) + id_out)
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def get_equivalent_kernel_bias(self):
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kernel3x3, bias3x3 = self._fuse_bn_tensor(self.conv1)
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kernel1x1, bias1x1 = self._fuse_bn_tensor(self.conv2)
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kernelid, biasid = self._fuse_bn_tensor(self.bn)
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return kernel3x3 + self._pad_1x1_to_3x3_tensor(kernel1x1) + kernelid, bias3x3 + bias1x1 + biasid
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def _avg_to_3x3_tensor(self, avgp):
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channels = self.c1
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groups = self.g
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kernel_size = avgp.kernel_size
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input_dim = channels // groups
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k = torch.zeros((channels, input_dim, kernel_size, kernel_size))
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k[np.arange(channels), np.tile(np.arange(input_dim), groups), :, :] = 1.0 / kernel_size ** 2
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return k
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def _pad_1x1_to_3x3_tensor(self, kernel1x1):
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if kernel1x1 is None:
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return 0
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else:
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return torch.nn.functional.pad(kernel1x1, [1, 1, 1, 1])
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def _fuse_bn_tensor(self, branch):
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if branch is None:
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return 0, 0
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if isinstance(branch, Conv):
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kernel = branch.conv.weight
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running_mean = branch.bn.running_mean
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running_var = branch.bn.running_var
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gamma = branch.bn.weight
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beta = branch.bn.bias
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eps = branch.bn.eps
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elif isinstance(branch, nn.BatchNorm2d):
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if not hasattr(self, 'id_tensor'):
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input_dim = self.c1 // self.g
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kernel_value = np.zeros((self.c1, input_dim, 3, 3), dtype=np.float32)
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for i in range(self.c1):
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kernel_value[i, i % input_dim, 1, 1] = 1
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self.id_tensor = torch.from_numpy(kernel_value).to(branch.weight.device)
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kernel = self.id_tensor
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running_mean = branch.running_mean
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running_var = branch.running_var
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gamma = branch.weight
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beta = branch.bias
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eps = branch.eps
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std = (running_var + eps).sqrt()
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t = (gamma / std).reshape(-1, 1, 1, 1)
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return kernel * t, beta - running_mean * gamma / std
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def fuse_convs(self):
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if hasattr(self, 'conv'):
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return
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kernel, bias = self.get_equivalent_kernel_bias()
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self.conv = nn.Conv2d(in_channels=self.conv1.conv.in_channels,
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out_channels=self.conv1.conv.out_channels,
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kernel_size=self.conv1.conv.kernel_size,
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stride=self.conv1.conv.stride,
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padding=self.conv1.conv.padding,
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dilation=self.conv1.conv.dilation,
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groups=self.conv1.conv.groups,
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bias=True).requires_grad_(False)
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self.conv.weight.data = kernel
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self.conv.bias.data = bias
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for para in self.parameters():
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para.detach_()
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self.__delattr__('conv1')
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self.__delattr__('conv2')
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if hasattr(self, 'nm'):
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self.__delattr__('nm')
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if hasattr(self, 'bn'):
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self.__delattr__('bn')
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if hasattr(self, 'id_tensor'):
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self.__delattr__('id_tensor')
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class ChannelAttention(nn.Module):
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"""Channel-attention module https://github.com/open-mmlab/mmdetection/tree/v3.0.0rc1/configs/rtmdet."""
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def __init__(self, channels: int) -> None:
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super().__init__()
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self.pool = nn.AdaptiveAvgPool2d(1)
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self.fc = nn.Conv2d(channels, channels, 1, 1, 0, bias=True)
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self.act = nn.Sigmoid()
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def forward(self, x: torch.Tensor) -> torch.Tensor:
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return x * self.act(self.fc(self.pool(x)))
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class SpatialAttention(nn.Module):
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"""Spatial-attention module."""
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def __init__(self, kernel_size=7):
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"""Initialize Spatial-attention module with kernel size argument."""
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super().__init__()
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assert kernel_size in (3, 7), 'kernel size must be 3 or 7'
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padding = 3 if kernel_size == 7 else 1
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self.cv1 = nn.Conv2d(2, 1, kernel_size, padding=padding, bias=False)
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self.act = nn.Sigmoid()
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def forward(self, x):
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"""Apply channel and spatial attention on input for feature recalibration."""
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return x * self.act(self.cv1(torch.cat([torch.mean(x, 1, keepdim=True), torch.max(x, 1, keepdim=True)[0]], 1)))
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class CBAM(nn.Module):
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"""Convolutional Block Attention Module."""
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def __init__(self, c1, kernel_size=7): # ch_in, kernels
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super().__init__()
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self.channel_attention = ChannelAttention(c1)
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self.spatial_attention = SpatialAttention(kernel_size)
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def forward(self, x):
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"""Applies the forward pass through C1 module."""
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return self.spatial_attention(self.channel_attention(x))
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class Concat(nn.Module):
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"""Concatenate a list of tensors along dimension."""
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def __init__(self, dimension=1):
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"""Concatenates a list of tensors along a specified dimension."""
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super().__init__()
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self.d = dimension
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def forward(self, x):
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"""Forward pass for the YOLOv8 mask Proto module."""
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return torch.cat(x, self.d)
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