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import torch.nn as nn |
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from annotator.mmpkg.mmcv.cnn import (build_conv_layer, build_norm_layer, constant_init, |
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kaiming_init) |
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from annotator.mmpkg.mmcv.runner import load_checkpoint |
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from annotator.mmpkg.mmcv.utils.parrots_wrapper import _BatchNorm |
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|
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from annotator.mmpkg.mmseg.ops import Upsample, resize |
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from annotator.mmpkg.mmseg.utils import get_root_logger |
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from ..builder import BACKBONES |
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from .resnet import BasicBlock, Bottleneck |
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|
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class HRModule(nn.Module): |
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"""High-Resolution Module for HRNet. |
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|
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In this module, every branch has 4 BasicBlocks/Bottlenecks. Fusion/Exchange |
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is in this module. |
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""" |
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|
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def __init__(self, |
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num_branches, |
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blocks, |
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num_blocks, |
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in_channels, |
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num_channels, |
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multiscale_output=True, |
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with_cp=False, |
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conv_cfg=None, |
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norm_cfg=dict(type='BN', requires_grad=True)): |
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super(HRModule, self).__init__() |
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self._check_branches(num_branches, num_blocks, in_channels, |
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num_channels) |
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|
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self.in_channels = in_channels |
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self.num_branches = num_branches |
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|
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self.multiscale_output = multiscale_output |
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self.norm_cfg = norm_cfg |
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self.conv_cfg = conv_cfg |
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self.with_cp = with_cp |
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self.branches = self._make_branches(num_branches, blocks, num_blocks, |
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num_channels) |
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self.fuse_layers = self._make_fuse_layers() |
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self.relu = nn.ReLU(inplace=False) |
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|
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def _check_branches(self, num_branches, num_blocks, in_channels, |
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num_channels): |
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"""Check branches configuration.""" |
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if num_branches != len(num_blocks): |
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error_msg = f'NUM_BRANCHES({num_branches}) <> NUM_BLOCKS(' \ |
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f'{len(num_blocks)})' |
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raise ValueError(error_msg) |
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|
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if num_branches != len(num_channels): |
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error_msg = f'NUM_BRANCHES({num_branches}) <> NUM_CHANNELS(' \ |
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f'{len(num_channels)})' |
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raise ValueError(error_msg) |
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|
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if num_branches != len(in_channels): |
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error_msg = f'NUM_BRANCHES({num_branches}) <> NUM_INCHANNELS(' \ |
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f'{len(in_channels)})' |
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raise ValueError(error_msg) |
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|
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def _make_one_branch(self, |
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branch_index, |
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block, |
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num_blocks, |
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num_channels, |
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stride=1): |
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"""Build one branch.""" |
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downsample = None |
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if stride != 1 or \ |
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self.in_channels[branch_index] != \ |
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num_channels[branch_index] * block.expansion: |
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downsample = nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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self.in_channels[branch_index], |
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num_channels[branch_index] * block.expansion, |
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kernel_size=1, |
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stride=stride, |
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bias=False), |
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build_norm_layer(self.norm_cfg, num_channels[branch_index] * |
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block.expansion)[1]) |
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|
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layers = [] |
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layers.append( |
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block( |
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self.in_channels[branch_index], |
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num_channels[branch_index], |
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stride, |
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downsample=downsample, |
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with_cp=self.with_cp, |
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norm_cfg=self.norm_cfg, |
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conv_cfg=self.conv_cfg)) |
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self.in_channels[branch_index] = \ |
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num_channels[branch_index] * block.expansion |
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for i in range(1, num_blocks[branch_index]): |
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layers.append( |
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block( |
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self.in_channels[branch_index], |
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num_channels[branch_index], |
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with_cp=self.with_cp, |
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norm_cfg=self.norm_cfg, |
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conv_cfg=self.conv_cfg)) |
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|
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return nn.Sequential(*layers) |
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|
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def _make_branches(self, num_branches, block, num_blocks, num_channels): |
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"""Build multiple branch.""" |
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branches = [] |
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|
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for i in range(num_branches): |
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branches.append( |
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self._make_one_branch(i, block, num_blocks, num_channels)) |
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|
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return nn.ModuleList(branches) |
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|
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def _make_fuse_layers(self): |
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"""Build fuse layer.""" |
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if self.num_branches == 1: |
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return None |
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|
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num_branches = self.num_branches |
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in_channels = self.in_channels |
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fuse_layers = [] |
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num_out_branches = num_branches if self.multiscale_output else 1 |
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for i in range(num_out_branches): |
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fuse_layer = [] |
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for j in range(num_branches): |
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if j > i: |
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fuse_layer.append( |
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nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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in_channels[j], |
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in_channels[i], |
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kernel_size=1, |
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stride=1, |
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padding=0, |
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bias=False), |
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build_norm_layer(self.norm_cfg, in_channels[i])[1], |
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|
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Upsample( |
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scale_factor=2**(j - i), |
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mode='bilinear', |
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align_corners=False))) |
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elif j == i: |
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fuse_layer.append(None) |
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else: |
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conv_downsamples = [] |
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for k in range(i - j): |
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if k == i - j - 1: |
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conv_downsamples.append( |
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nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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in_channels[j], |
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in_channels[i], |
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kernel_size=3, |
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stride=2, |
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padding=1, |
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bias=False), |
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build_norm_layer(self.norm_cfg, |
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in_channels[i])[1])) |
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else: |
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conv_downsamples.append( |
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nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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in_channels[j], |
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in_channels[j], |
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kernel_size=3, |
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stride=2, |
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padding=1, |
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bias=False), |
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build_norm_layer(self.norm_cfg, |
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in_channels[j])[1], |
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nn.ReLU(inplace=False))) |
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fuse_layer.append(nn.Sequential(*conv_downsamples)) |
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fuse_layers.append(nn.ModuleList(fuse_layer)) |
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|
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return nn.ModuleList(fuse_layers) |
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|
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def forward(self, x): |
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"""Forward function.""" |
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if self.num_branches == 1: |
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return [self.branches[0](x[0])] |
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|
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for i in range(self.num_branches): |
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x[i] = self.branches[i](x[i]) |
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x_fuse = [] |
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for i in range(len(self.fuse_layers)): |
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y = 0 |
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for j in range(self.num_branches): |
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if i == j: |
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y += x[j] |
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elif j > i: |
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y = y + resize( |
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self.fuse_layers[i][j](x[j]), |
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size=x[i].shape[2:], |
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mode='bilinear', |
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align_corners=False) |
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else: |
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y += self.fuse_layers[i][j](x[j]) |
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x_fuse.append(self.relu(y)) |
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return x_fuse |
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@BACKBONES.register_module() |
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class HRNet(nn.Module): |
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"""HRNet backbone. |
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|
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High-Resolution Representations for Labeling Pixels and Regions |
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arXiv: https://arxiv.org/abs/1904.04514 |
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|
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Args: |
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extra (dict): detailed configuration for each stage of HRNet. |
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in_channels (int): Number of input image channels. Normally 3. |
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conv_cfg (dict): dictionary to construct and config conv layer. |
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norm_cfg (dict): dictionary to construct and config norm layer. |
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norm_eval (bool): Whether to set norm layers to eval mode, namely, |
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freeze running stats (mean and var). Note: Effect on Batch Norm |
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and its variants only. |
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with_cp (bool): Use checkpoint or not. Using checkpoint will save some |
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memory while slowing down the training speed. |
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zero_init_residual (bool): whether to use zero init for last norm layer |
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in resblocks to let them behave as identity. |
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|
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Example: |
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>>> from annotator.mmpkg.mmseg.models import HRNet |
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>>> import torch |
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>>> extra = dict( |
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>>> stage1=dict( |
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>>> num_modules=1, |
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>>> num_branches=1, |
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>>> block='BOTTLENECK', |
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>>> num_blocks=(4, ), |
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>>> num_channels=(64, )), |
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>>> stage2=dict( |
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>>> num_modules=1, |
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>>> num_branches=2, |
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>>> block='BASIC', |
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>>> num_blocks=(4, 4), |
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>>> num_channels=(32, 64)), |
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>>> stage3=dict( |
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>>> num_modules=4, |
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>>> num_branches=3, |
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>>> block='BASIC', |
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>>> num_blocks=(4, 4, 4), |
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>>> num_channels=(32, 64, 128)), |
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>>> stage4=dict( |
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>>> num_modules=3, |
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>>> num_branches=4, |
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>>> block='BASIC', |
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>>> num_blocks=(4, 4, 4, 4), |
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>>> num_channels=(32, 64, 128, 256))) |
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>>> self = HRNet(extra, in_channels=1) |
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>>> self.eval() |
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>>> inputs = torch.rand(1, 1, 32, 32) |
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>>> level_outputs = self.forward(inputs) |
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>>> for level_out in level_outputs: |
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... print(tuple(level_out.shape)) |
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(1, 32, 8, 8) |
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(1, 64, 4, 4) |
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(1, 128, 2, 2) |
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(1, 256, 1, 1) |
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""" |
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|
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blocks_dict = {'BASIC': BasicBlock, 'BOTTLENECK': Bottleneck} |
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|
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def __init__(self, |
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extra, |
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in_channels=3, |
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conv_cfg=None, |
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norm_cfg=dict(type='BN', requires_grad=True), |
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norm_eval=False, |
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with_cp=False, |
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zero_init_residual=False): |
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super(HRNet, self).__init__() |
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self.extra = extra |
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self.conv_cfg = conv_cfg |
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self.norm_cfg = norm_cfg |
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self.norm_eval = norm_eval |
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self.with_cp = with_cp |
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self.zero_init_residual = zero_init_residual |
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|
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|
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self.norm1_name, norm1 = build_norm_layer(self.norm_cfg, 64, postfix=1) |
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self.norm2_name, norm2 = build_norm_layer(self.norm_cfg, 64, postfix=2) |
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|
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self.conv1 = build_conv_layer( |
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self.conv_cfg, |
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in_channels, |
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64, |
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kernel_size=3, |
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stride=2, |
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padding=1, |
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bias=False) |
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|
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self.add_module(self.norm1_name, norm1) |
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self.conv2 = build_conv_layer( |
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self.conv_cfg, |
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64, |
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64, |
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kernel_size=3, |
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stride=2, |
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padding=1, |
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bias=False) |
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|
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self.add_module(self.norm2_name, norm2) |
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self.relu = nn.ReLU(inplace=True) |
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|
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|
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self.stage1_cfg = self.extra['stage1'] |
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num_channels = self.stage1_cfg['num_channels'][0] |
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block_type = self.stage1_cfg['block'] |
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num_blocks = self.stage1_cfg['num_blocks'][0] |
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|
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block = self.blocks_dict[block_type] |
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stage1_out_channels = num_channels * block.expansion |
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self.layer1 = self._make_layer(block, 64, num_channels, num_blocks) |
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|
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|
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self.stage2_cfg = self.extra['stage2'] |
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num_channels = self.stage2_cfg['num_channels'] |
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block_type = self.stage2_cfg['block'] |
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|
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block = self.blocks_dict[block_type] |
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num_channels = [channel * block.expansion for channel in num_channels] |
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self.transition1 = self._make_transition_layer([stage1_out_channels], |
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num_channels) |
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self.stage2, pre_stage_channels = self._make_stage( |
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self.stage2_cfg, num_channels) |
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|
|
|
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self.stage3_cfg = self.extra['stage3'] |
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num_channels = self.stage3_cfg['num_channels'] |
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block_type = self.stage3_cfg['block'] |
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|
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block = self.blocks_dict[block_type] |
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num_channels = [channel * block.expansion for channel in num_channels] |
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self.transition2 = self._make_transition_layer(pre_stage_channels, |
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num_channels) |
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self.stage3, pre_stage_channels = self._make_stage( |
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self.stage3_cfg, num_channels) |
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|
|
|
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self.stage4_cfg = self.extra['stage4'] |
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num_channels = self.stage4_cfg['num_channels'] |
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block_type = self.stage4_cfg['block'] |
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|
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block = self.blocks_dict[block_type] |
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num_channels = [channel * block.expansion for channel in num_channels] |
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self.transition3 = self._make_transition_layer(pre_stage_channels, |
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num_channels) |
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self.stage4, pre_stage_channels = self._make_stage( |
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self.stage4_cfg, num_channels) |
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|
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@property |
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def norm1(self): |
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"""nn.Module: the normalization layer named "norm1" """ |
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return getattr(self, self.norm1_name) |
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|
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@property |
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def norm2(self): |
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"""nn.Module: the normalization layer named "norm2" """ |
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return getattr(self, self.norm2_name) |
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|
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def _make_transition_layer(self, num_channels_pre_layer, |
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num_channels_cur_layer): |
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"""Make transition layer.""" |
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num_branches_cur = len(num_channels_cur_layer) |
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num_branches_pre = len(num_channels_pre_layer) |
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|
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transition_layers = [] |
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for i in range(num_branches_cur): |
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if i < num_branches_pre: |
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if num_channels_cur_layer[i] != num_channels_pre_layer[i]: |
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transition_layers.append( |
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nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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num_channels_pre_layer[i], |
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num_channels_cur_layer[i], |
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kernel_size=3, |
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stride=1, |
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padding=1, |
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bias=False), |
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build_norm_layer(self.norm_cfg, |
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num_channels_cur_layer[i])[1], |
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nn.ReLU(inplace=True))) |
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else: |
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transition_layers.append(None) |
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else: |
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conv_downsamples = [] |
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for j in range(i + 1 - num_branches_pre): |
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in_channels = num_channels_pre_layer[-1] |
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out_channels = num_channels_cur_layer[i] \ |
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if j == i - num_branches_pre else in_channels |
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conv_downsamples.append( |
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nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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in_channels, |
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out_channels, |
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kernel_size=3, |
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stride=2, |
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padding=1, |
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bias=False), |
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build_norm_layer(self.norm_cfg, out_channels)[1], |
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nn.ReLU(inplace=True))) |
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transition_layers.append(nn.Sequential(*conv_downsamples)) |
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|
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return nn.ModuleList(transition_layers) |
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|
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def _make_layer(self, block, inplanes, planes, blocks, stride=1): |
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"""Make each layer.""" |
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downsample = None |
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if stride != 1 or inplanes != planes * block.expansion: |
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downsample = nn.Sequential( |
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build_conv_layer( |
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self.conv_cfg, |
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inplanes, |
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planes * block.expansion, |
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kernel_size=1, |
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stride=stride, |
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bias=False), |
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build_norm_layer(self.norm_cfg, planes * block.expansion)[1]) |
|
|
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layers = [] |
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layers.append( |
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block( |
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inplanes, |
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planes, |
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stride, |
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downsample=downsample, |
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with_cp=self.with_cp, |
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norm_cfg=self.norm_cfg, |
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conv_cfg=self.conv_cfg)) |
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inplanes = planes * block.expansion |
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for i in range(1, blocks): |
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layers.append( |
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block( |
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inplanes, |
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planes, |
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with_cp=self.with_cp, |
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norm_cfg=self.norm_cfg, |
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conv_cfg=self.conv_cfg)) |
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|
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return nn.Sequential(*layers) |
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|
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def _make_stage(self, layer_config, in_channels, multiscale_output=True): |
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"""Make each stage.""" |
|
num_modules = layer_config['num_modules'] |
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num_branches = layer_config['num_branches'] |
|
num_blocks = layer_config['num_blocks'] |
|
num_channels = layer_config['num_channels'] |
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block = self.blocks_dict[layer_config['block']] |
|
|
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hr_modules = [] |
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for i in range(num_modules): |
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|
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if not multiscale_output and i == num_modules - 1: |
|
reset_multiscale_output = False |
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else: |
|
reset_multiscale_output = True |
|
|
|
hr_modules.append( |
|
HRModule( |
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num_branches, |
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block, |
|
num_blocks, |
|
in_channels, |
|
num_channels, |
|
reset_multiscale_output, |
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with_cp=self.with_cp, |
|
norm_cfg=self.norm_cfg, |
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conv_cfg=self.conv_cfg)) |
|
|
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return nn.Sequential(*hr_modules), in_channels |
|
|
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def init_weights(self, pretrained=None): |
|
"""Initialize the weights in backbone. |
|
|
|
Args: |
|
pretrained (str, optional): Path to pre-trained weights. |
|
Defaults to None. |
|
""" |
|
if isinstance(pretrained, str): |
|
logger = get_root_logger() |
|
load_checkpoint(self, pretrained, strict=False, logger=logger) |
|
elif pretrained is None: |
|
for m in self.modules(): |
|
if isinstance(m, nn.Conv2d): |
|
kaiming_init(m) |
|
elif isinstance(m, (_BatchNorm, nn.GroupNorm)): |
|
constant_init(m, 1) |
|
|
|
if self.zero_init_residual: |
|
for m in self.modules(): |
|
if isinstance(m, Bottleneck): |
|
constant_init(m.norm3, 0) |
|
elif isinstance(m, BasicBlock): |
|
constant_init(m.norm2, 0) |
|
else: |
|
raise TypeError('pretrained must be a str or None') |
|
|
|
def forward(self, x): |
|
"""Forward function.""" |
|
|
|
x = self.conv1(x) |
|
x = self.norm1(x) |
|
x = self.relu(x) |
|
x = self.conv2(x) |
|
x = self.norm2(x) |
|
x = self.relu(x) |
|
x = self.layer1(x) |
|
|
|
x_list = [] |
|
for i in range(self.stage2_cfg['num_branches']): |
|
if self.transition1[i] is not None: |
|
x_list.append(self.transition1[i](x)) |
|
else: |
|
x_list.append(x) |
|
y_list = self.stage2(x_list) |
|
|
|
x_list = [] |
|
for i in range(self.stage3_cfg['num_branches']): |
|
if self.transition2[i] is not None: |
|
x_list.append(self.transition2[i](y_list[-1])) |
|
else: |
|
x_list.append(y_list[i]) |
|
y_list = self.stage3(x_list) |
|
|
|
x_list = [] |
|
for i in range(self.stage4_cfg['num_branches']): |
|
if self.transition3[i] is not None: |
|
x_list.append(self.transition3[i](y_list[-1])) |
|
else: |
|
x_list.append(y_list[i]) |
|
y_list = self.stage4(x_list) |
|
|
|
return y_list |
|
|
|
def train(self, mode=True): |
|
"""Convert the model into training mode will keeping the normalization |
|
layer freezed.""" |
|
super(HRNet, self).train(mode) |
|
if mode and self.norm_eval: |
|
for m in self.modules(): |
|
|
|
if isinstance(m, _BatchNorm): |
|
m.eval() |
|
|