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https://github.com/AUTOMATIC1111/stable-diffusion-webui.git
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277 lines
11 KiB
Python
277 lines
11 KiB
Python
# this file is copied from CodeFormer repository. Please see comment in modules/codeformer_model.py
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import math
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import torch
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from torch import nn, Tensor
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import torch.nn.functional as F
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from typing import Optional
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from modules.codeformer.vqgan_arch import VQAutoEncoder, ResBlock
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from basicsr.utils.registry import ARCH_REGISTRY
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def calc_mean_std(feat, eps=1e-5):
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"""Calculate mean and std for adaptive_instance_normalization.
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Args:
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feat (Tensor): 4D tensor.
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eps (float): A small value added to the variance to avoid
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divide-by-zero. Default: 1e-5.
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"""
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size = feat.size()
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assert len(size) == 4, 'The input feature should be 4D tensor.'
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b, c = size[:2]
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feat_var = feat.view(b, c, -1).var(dim=2) + eps
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feat_std = feat_var.sqrt().view(b, c, 1, 1)
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feat_mean = feat.view(b, c, -1).mean(dim=2).view(b, c, 1, 1)
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return feat_mean, feat_std
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def adaptive_instance_normalization(content_feat, style_feat):
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"""Adaptive instance normalization.
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Adjust the reference features to have the similar color and illuminations
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as those in the degradate features.
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Args:
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content_feat (Tensor): The reference feature.
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style_feat (Tensor): The degradate features.
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"""
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size = content_feat.size()
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style_mean, style_std = calc_mean_std(style_feat)
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content_mean, content_std = calc_mean_std(content_feat)
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normalized_feat = (content_feat - content_mean.expand(size)) / content_std.expand(size)
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return normalized_feat * style_std.expand(size) + style_mean.expand(size)
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class PositionEmbeddingSine(nn.Module):
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"""
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This is a more standard version of the position embedding, very similar to the one
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used by the Attention is all you need paper, generalized to work on images.
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"""
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def __init__(self, num_pos_feats=64, temperature=10000, normalize=False, scale=None):
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super().__init__()
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self.num_pos_feats = num_pos_feats
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self.temperature = temperature
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self.normalize = normalize
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if scale is not None and normalize is False:
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raise ValueError("normalize should be True if scale is passed")
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if scale is None:
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scale = 2 * math.pi
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self.scale = scale
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def forward(self, x, mask=None):
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if mask is None:
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mask = torch.zeros((x.size(0), x.size(2), x.size(3)), device=x.device, dtype=torch.bool)
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not_mask = ~mask
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y_embed = not_mask.cumsum(1, dtype=torch.float32)
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x_embed = not_mask.cumsum(2, dtype=torch.float32)
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if self.normalize:
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eps = 1e-6
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y_embed = y_embed / (y_embed[:, -1:, :] + eps) * self.scale
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x_embed = x_embed / (x_embed[:, :, -1:] + eps) * self.scale
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dim_t = torch.arange(self.num_pos_feats, dtype=torch.float32, device=x.device)
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dim_t = self.temperature ** (2 * (dim_t // 2) / self.num_pos_feats)
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pos_x = x_embed[:, :, :, None] / dim_t
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pos_y = y_embed[:, :, :, None] / dim_t
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pos_x = torch.stack(
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(pos_x[:, :, :, 0::2].sin(), pos_x[:, :, :, 1::2].cos()), dim=4
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).flatten(3)
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pos_y = torch.stack(
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(pos_y[:, :, :, 0::2].sin(), pos_y[:, :, :, 1::2].cos()), dim=4
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).flatten(3)
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pos = torch.cat((pos_y, pos_x), dim=3).permute(0, 3, 1, 2)
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return pos
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def _get_activation_fn(activation):
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"""Return an activation function given a string"""
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if activation == "relu":
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return F.relu
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if activation == "gelu":
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return F.gelu
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if activation == "glu":
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return F.glu
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raise RuntimeError(F"activation should be relu/gelu, not {activation}.")
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class TransformerSALayer(nn.Module):
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def __init__(self, embed_dim, nhead=8, dim_mlp=2048, dropout=0.0, activation="gelu"):
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super().__init__()
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self.self_attn = nn.MultiheadAttention(embed_dim, nhead, dropout=dropout)
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# Implementation of Feedforward model - MLP
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self.linear1 = nn.Linear(embed_dim, dim_mlp)
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self.dropout = nn.Dropout(dropout)
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self.linear2 = nn.Linear(dim_mlp, embed_dim)
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self.norm1 = nn.LayerNorm(embed_dim)
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self.norm2 = nn.LayerNorm(embed_dim)
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self.dropout1 = nn.Dropout(dropout)
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self.dropout2 = nn.Dropout(dropout)
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self.activation = _get_activation_fn(activation)
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def with_pos_embed(self, tensor, pos: Optional[Tensor]):
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return tensor if pos is None else tensor + pos
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def forward(self, tgt,
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tgt_mask: Optional[Tensor] = None,
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tgt_key_padding_mask: Optional[Tensor] = None,
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query_pos: Optional[Tensor] = None):
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# self attention
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tgt2 = self.norm1(tgt)
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q = k = self.with_pos_embed(tgt2, query_pos)
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tgt2 = self.self_attn(q, k, value=tgt2, attn_mask=tgt_mask,
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key_padding_mask=tgt_key_padding_mask)[0]
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tgt = tgt + self.dropout1(tgt2)
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# ffn
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tgt2 = self.norm2(tgt)
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tgt2 = self.linear2(self.dropout(self.activation(self.linear1(tgt2))))
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tgt = tgt + self.dropout2(tgt2)
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return tgt
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class Fuse_sft_block(nn.Module):
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def __init__(self, in_ch, out_ch):
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super().__init__()
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self.encode_enc = ResBlock(2*in_ch, out_ch)
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self.scale = nn.Sequential(
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nn.Conv2d(in_ch, out_ch, kernel_size=3, padding=1),
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nn.LeakyReLU(0.2, True),
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nn.Conv2d(out_ch, out_ch, kernel_size=3, padding=1))
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self.shift = nn.Sequential(
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nn.Conv2d(in_ch, out_ch, kernel_size=3, padding=1),
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nn.LeakyReLU(0.2, True),
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nn.Conv2d(out_ch, out_ch, kernel_size=3, padding=1))
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def forward(self, enc_feat, dec_feat, w=1):
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enc_feat = self.encode_enc(torch.cat([enc_feat, dec_feat], dim=1))
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scale = self.scale(enc_feat)
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shift = self.shift(enc_feat)
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residual = w * (dec_feat * scale + shift)
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out = dec_feat + residual
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return out
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@ARCH_REGISTRY.register()
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class CodeFormer(VQAutoEncoder):
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def __init__(self, dim_embd=512, n_head=8, n_layers=9,
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codebook_size=1024, latent_size=256,
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connect_list=('32', '64', '128', '256'),
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fix_modules=('quantize', 'generator')):
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super(CodeFormer, self).__init__(512, 64, [1, 2, 2, 4, 4, 8], 'nearest',2, [16], codebook_size)
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if fix_modules is not None:
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for module in fix_modules:
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for param in getattr(self, module).parameters():
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param.requires_grad = False
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self.connect_list = connect_list
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self.n_layers = n_layers
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self.dim_embd = dim_embd
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self.dim_mlp = dim_embd*2
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self.position_emb = nn.Parameter(torch.zeros(latent_size, self.dim_embd))
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self.feat_emb = nn.Linear(256, self.dim_embd)
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# transformer
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self.ft_layers = nn.Sequential(*[TransformerSALayer(embed_dim=dim_embd, nhead=n_head, dim_mlp=self.dim_mlp, dropout=0.0)
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for _ in range(self.n_layers)])
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# logits_predict head
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self.idx_pred_layer = nn.Sequential(
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nn.LayerNorm(dim_embd),
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nn.Linear(dim_embd, codebook_size, bias=False))
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self.channels = {
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'16': 512,
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'32': 256,
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'64': 256,
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'128': 128,
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'256': 128,
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'512': 64,
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}
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# after second residual block for > 16, before attn layer for ==16
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self.fuse_encoder_block = {'512':2, '256':5, '128':8, '64':11, '32':14, '16':18}
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# after first residual block for > 16, before attn layer for ==16
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self.fuse_generator_block = {'16':6, '32': 9, '64':12, '128':15, '256':18, '512':21}
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# fuse_convs_dict
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self.fuse_convs_dict = nn.ModuleDict()
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for f_size in self.connect_list:
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in_ch = self.channels[f_size]
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self.fuse_convs_dict[f_size] = Fuse_sft_block(in_ch, in_ch)
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def _init_weights(self, module):
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if isinstance(module, (nn.Linear, nn.Embedding)):
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module.weight.data.normal_(mean=0.0, std=0.02)
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if isinstance(module, nn.Linear) and module.bias is not None:
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module.bias.data.zero_()
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elif isinstance(module, nn.LayerNorm):
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module.bias.data.zero_()
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module.weight.data.fill_(1.0)
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def forward(self, x, w=0, detach_16=True, code_only=False, adain=False):
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# ################### Encoder #####################
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enc_feat_dict = {}
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out_list = [self.fuse_encoder_block[f_size] for f_size in self.connect_list]
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for i, block in enumerate(self.encoder.blocks):
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x = block(x)
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if i in out_list:
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enc_feat_dict[str(x.shape[-1])] = x.clone()
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lq_feat = x
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# ################# Transformer ###################
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# quant_feat, codebook_loss, quant_stats = self.quantize(lq_feat)
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pos_emb = self.position_emb.unsqueeze(1).repeat(1,x.shape[0],1)
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# BCHW -> BC(HW) -> (HW)BC
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feat_emb = self.feat_emb(lq_feat.flatten(2).permute(2,0,1))
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query_emb = feat_emb
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# Transformer encoder
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for layer in self.ft_layers:
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query_emb = layer(query_emb, query_pos=pos_emb)
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# output logits
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logits = self.idx_pred_layer(query_emb) # (hw)bn
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logits = logits.permute(1,0,2) # (hw)bn -> b(hw)n
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if code_only: # for training stage II
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# logits doesn't need softmax before cross_entropy loss
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return logits, lq_feat
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# ################# Quantization ###################
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# if self.training:
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# quant_feat = torch.einsum('btn,nc->btc', [soft_one_hot, self.quantize.embedding.weight])
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# # b(hw)c -> bc(hw) -> bchw
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# quant_feat = quant_feat.permute(0,2,1).view(lq_feat.shape)
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# ------------
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soft_one_hot = F.softmax(logits, dim=2)
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_, top_idx = torch.topk(soft_one_hot, 1, dim=2)
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quant_feat = self.quantize.get_codebook_feat(top_idx, shape=[x.shape[0],16,16,256])
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# preserve gradients
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# quant_feat = lq_feat + (quant_feat - lq_feat).detach()
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if detach_16:
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quant_feat = quant_feat.detach() # for training stage III
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if adain:
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quant_feat = adaptive_instance_normalization(quant_feat, lq_feat)
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# ################## Generator ####################
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x = quant_feat
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fuse_list = [self.fuse_generator_block[f_size] for f_size in self.connect_list]
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for i, block in enumerate(self.generator.blocks):
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x = block(x)
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if i in fuse_list: # fuse after i-th block
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f_size = str(x.shape[-1])
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if w>0:
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x = self.fuse_convs_dict[f_size](enc_feat_dict[f_size].detach(), x, w)
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out = x
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# logits doesn't need softmax before cross_entropy loss
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return out, logits, lq_feat
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