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import torch |
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import torch.nn as nn |
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import torch.nn.functional as F |
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from mmcv.cnn import ConvModule |
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from mmseg.registry import MODELS |
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from ..utils import resize |
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from .decode_head import BaseDecodeHead |
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class ACM(nn.Module): |
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"""Adaptive Context Module used in APCNet. |
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Args: |
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pool_scale (int): Pooling scale used in Adaptive Context |
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Module to extract region features. |
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fusion (bool): Add one conv to fuse residual feature. |
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in_channels (int): Input channels. |
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channels (int): Channels after modules, before conv_seg. |
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conv_cfg (dict | None): Config of conv layers. |
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norm_cfg (dict | None): Config of norm layers. |
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act_cfg (dict): Config of activation layers. |
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""" |
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def __init__(self, pool_scale, fusion, in_channels, channels, conv_cfg, |
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norm_cfg, act_cfg): |
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super().__init__() |
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self.pool_scale = pool_scale |
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self.fusion = fusion |
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self.in_channels = in_channels |
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self.channels = channels |
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self.conv_cfg = conv_cfg |
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self.norm_cfg = norm_cfg |
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self.act_cfg = act_cfg |
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self.pooled_redu_conv = ConvModule( |
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self.in_channels, |
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self.channels, |
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1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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self.input_redu_conv = ConvModule( |
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self.in_channels, |
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self.channels, |
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1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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self.global_info = ConvModule( |
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self.channels, |
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self.channels, |
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1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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self.gla = nn.Conv2d(self.channels, self.pool_scale**2, 1, 1, 0) |
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self.residual_conv = ConvModule( |
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self.channels, |
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self.channels, |
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1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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if self.fusion: |
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self.fusion_conv = ConvModule( |
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self.channels, |
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self.channels, |
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1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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def forward(self, x): |
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"""Forward function.""" |
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pooled_x = F.adaptive_avg_pool2d(x, self.pool_scale) |
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x = self.input_redu_conv(x) |
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pooled_x = self.pooled_redu_conv(pooled_x) |
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batch_size = x.size(0) |
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pooled_x = pooled_x.view(batch_size, self.channels, |
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-1).permute(0, 2, 1).contiguous() |
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affinity_matrix = self.gla(x + resize( |
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self.global_info(F.adaptive_avg_pool2d(x, 1)), size=x.shape[2:]) |
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).permute(0, 2, 3, 1).reshape( |
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batch_size, -1, self.pool_scale**2) |
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affinity_matrix = F.sigmoid(affinity_matrix) |
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z_out = torch.matmul(affinity_matrix, pooled_x) |
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z_out = z_out.permute(0, 2, 1).contiguous() |
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z_out = z_out.view(batch_size, self.channels, x.size(2), x.size(3)) |
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z_out = self.residual_conv(z_out) |
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z_out = F.relu(z_out + x) |
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if self.fusion: |
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z_out = self.fusion_conv(z_out) |
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return z_out |
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@MODELS.register_module() |
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class APCHead(BaseDecodeHead): |
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"""Adaptive Pyramid Context Network for Semantic Segmentation. |
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This head is the implementation of |
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`APCNet <https://openaccess.thecvf.com/content_CVPR_2019/papers/\ |
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He_Adaptive_Pyramid_Context_Network_for_Semantic_Segmentation_\ |
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CVPR_2019_paper.pdf>`_. |
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Args: |
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pool_scales (tuple[int]): Pooling scales used in Adaptive Context |
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Module. Default: (1, 2, 3, 6). |
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fusion (bool): Add one conv to fuse residual feature. |
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""" |
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def __init__(self, pool_scales=(1, 2, 3, 6), fusion=True, **kwargs): |
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super().__init__(**kwargs) |
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assert isinstance(pool_scales, (list, tuple)) |
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self.pool_scales = pool_scales |
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self.fusion = fusion |
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acm_modules = [] |
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for pool_scale in self.pool_scales: |
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acm_modules.append( |
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ACM(pool_scale, |
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self.fusion, |
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self.in_channels, |
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self.channels, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg)) |
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self.acm_modules = nn.ModuleList(acm_modules) |
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self.bottleneck = ConvModule( |
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self.in_channels + len(pool_scales) * self.channels, |
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self.channels, |
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3, |
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padding=1, |
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conv_cfg=self.conv_cfg, |
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norm_cfg=self.norm_cfg, |
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act_cfg=self.act_cfg) |
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def forward(self, inputs): |
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"""Forward function.""" |
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x = self._transform_inputs(inputs) |
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acm_outs = [x] |
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for acm_module in self.acm_modules: |
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acm_outs.append(acm_module(x)) |
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acm_outs = torch.cat(acm_outs, dim=1) |
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output = self.bottleneck(acm_outs) |
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output = self.cls_seg(output) |
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return output |
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