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ccnet.py
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'''
Function:
Implementation of CCNet
Author:
Zhenchao Jin
'''
import torch
import torch.nn as nn
from ..base import BaseSegmentor
from ....utils import SSSegOutputStructure
from ...backbones import BuildActivation, BuildNormalization
try:
from mmcv.ops import CrissCrossAttention
except:
CrissCrossAttention = None
'''CCNet'''
class CCNet(BaseSegmentor):
def __init__(self, cfg, mode):
super(CCNet, self).__init__(cfg, mode)
align_corners, norm_cfg, act_cfg, head_cfg = self.align_corners, self.norm_cfg, self.act_cfg, cfg['head']
# build criss-cross attention
self.conv_before_cca = nn.Sequential(
nn.Conv2d(head_cfg['in_channels'], head_cfg['feats_channels'], kernel_size=3, stride=1, padding=1, bias=False),
BuildNormalization(placeholder=head_cfg['feats_channels'], norm_cfg=norm_cfg),
BuildActivation(act_cfg),
)
self.cca = CrissCrossAttention(head_cfg['feats_channels'])
self.conv_after_cca = nn.Sequential(
nn.Conv2d(head_cfg['feats_channels'], head_cfg['feats_channels'], kernel_size=3, stride=1, padding=1, bias=False),
BuildNormalization(placeholder=head_cfg['feats_channels'], norm_cfg=norm_cfg),
BuildActivation(act_cfg),
)
# build decoder
self.decoder = nn.Sequential(
nn.Conv2d(head_cfg['in_channels']+head_cfg['feats_channels'], head_cfg['feats_channels'], kernel_size=3, stride=1, padding=1, bias=False),
BuildNormalization(placeholder=head_cfg['feats_channels'], norm_cfg=norm_cfg),
BuildActivation(act_cfg),
nn.Dropout2d(head_cfg['dropout']),
nn.Conv2d(head_cfg['feats_channels'], cfg['num_classes'], kernel_size=1, stride=1, padding=0)
)
# build auxiliary decoder
self.setauxiliarydecoder(cfg['auxiliary'])
# freeze normalization layer if necessary
if cfg.get('is_freeze_norm', False): self.freezenormalization()
'''forward'''
def forward(self, data_meta):
img_size = data_meta.images.size(2), data_meta.images.size(3)
# feed to backbone network
backbone_outputs = self.transforminputs(self.backbone_net(data_meta.images), selected_indices=self.cfg['backbone'].get('selected_indices'))
# feed to cca
feats = self.conv_before_cca(backbone_outputs[-1])
for _ in range(self.cfg['head']['num_recurrence']):
feats = self.cca(feats)
feats = self.conv_after_cca(feats)
# feed to decoder
feats = torch.cat([backbone_outputs[-1], feats], dim=1)
seg_logits = self.decoder(feats)
# forward according to the mode
if self.mode in ['TRAIN', 'TRAIN_DEVELOP']:
loss, losses_log_dict = self.customizepredsandlosses(
seg_logits=seg_logits, annotations=data_meta.getannotations(), backbone_outputs=backbone_outputs, losses_cfg=self.cfg['losses'], img_size=img_size,
)
ssseg_outputs = SSSegOutputStructure(mode=self.mode, loss=loss, losses_log_dict=losses_log_dict) if self.mode == 'TRAIN' else SSSegOutputStructure(mode=self.mode, loss=loss, losses_log_dict=losses_log_dict, seg_logits=seg_logits)
else:
ssseg_outputs = SSSegOutputStructure(mode=self.mode, seg_logits=seg_logits)
return ssseg_outputs