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| ''' | |
| @Created by chaofengc (chaofenghust@gmail.com) | |
| @Modified by yangxy (yangtao9009@gmail.com) | |
| ''' | |
| from blocks import * | |
| import torch | |
| from torch import nn | |
| import numpy as np | |
| def define_P(in_size=512, out_size=512, min_feat_size=32, relu_type='LeakyReLU', isTrain=False, weight_path=None): | |
| net = ParseNet(in_size, out_size, min_feat_size, 64, 19, norm_type='bn', relu_type=relu_type, ch_range=[32, 256]) | |
| if not isTrain: | |
| net.eval() | |
| if weight_path is not None: | |
| net.load_state_dict(torch.load(weight_path)) | |
| return net | |
| class ParseNet(nn.Module): | |
| def __init__(self, | |
| in_size=128, | |
| out_size=128, | |
| min_feat_size=32, | |
| base_ch=64, | |
| parsing_ch=19, | |
| res_depth=10, | |
| relu_type='prelu', | |
| norm_type='bn', | |
| ch_range=[32, 512], | |
| ): | |
| super().__init__() | |
| self.res_depth = res_depth | |
| act_args = {'norm_type': norm_type, 'relu_type': relu_type} | |
| min_ch, max_ch = ch_range | |
| ch_clip = lambda x: max(min_ch, min(x, max_ch)) | |
| min_feat_size = min(in_size, min_feat_size) | |
| down_steps = int(np.log2(in_size//min_feat_size)) | |
| up_steps = int(np.log2(out_size//min_feat_size)) | |
| # =============== define encoder-body-decoder ==================== | |
| self.encoder = [] | |
| self.encoder.append(ConvLayer(3, base_ch, 3, 1)) | |
| head_ch = base_ch | |
| for i in range(down_steps): | |
| cin, cout = ch_clip(head_ch), ch_clip(head_ch * 2) | |
| self.encoder.append(ResidualBlock(cin, cout, scale='down', **act_args)) | |
| head_ch = head_ch * 2 | |
| self.body = [] | |
| for i in range(res_depth): | |
| self.body.append(ResidualBlock(ch_clip(head_ch), ch_clip(head_ch), **act_args)) | |
| self.decoder = [] | |
| for i in range(up_steps): | |
| cin, cout = ch_clip(head_ch), ch_clip(head_ch // 2) | |
| self.decoder.append(ResidualBlock(cin, cout, scale='up', **act_args)) | |
| head_ch = head_ch // 2 | |
| self.encoder = nn.Sequential(*self.encoder) | |
| self.body = nn.Sequential(*self.body) | |
| self.decoder = nn.Sequential(*self.decoder) | |
| self.out_img_conv = ConvLayer(ch_clip(head_ch), 3) | |
| self.out_mask_conv = ConvLayer(ch_clip(head_ch), parsing_ch) | |
| def forward(self, x): | |
| feat = self.encoder(x) | |
| x = feat + self.body(feat) | |
| x = self.decoder(x) | |
| out_img = self.out_img_conv(x) | |
| out_mask = self.out_mask_conv(x) | |
| return out_mask, out_img | |