forked from mrq/DL-Art-School
94 lines
4.2 KiB
Python
94 lines
4.2 KiB
Python
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import functools
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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 transformers import T5Config, T5Model
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from x_transformers import Encoder, XTransformer
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from models.gpt_voice.transformer_builders import null_position_embeddings
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from models.gpt_voice.unet_diffusion_tts6 import CheckpointedLayer
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from models.gpt_voice.unified_voice2 import ConditioningEncoder
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from trainer.networks import register_model
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from utils.util import opt_get
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class CtcCodeGenerator(nn.Module):
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def __init__(self, model_dim=512, layers=10, num_heads=8, dropout=.1, ctc_codes=36, max_pad=120, max_repeat=30, checkpointing=True):
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super().__init__()
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self.max_pad = max_pad
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self.max_repeat = max_repeat
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self.start_token = (self.max_repeat+1)*(self.max_pad+1)+1
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self.conditioning_encoder = ConditioningEncoder(80, model_dim, num_attn_heads=num_heads)
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self.embedding = nn.Embedding(ctc_codes, model_dim)
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self.dec_embedding = nn.Embedding(self.start_token+1, model_dim)
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self.config = T5Config(
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vocab_size=1, # T5 embedding will be removed and replaced with custom embedding.
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d_model=model_dim,
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d_kv=model_dim//num_heads,
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d_ff=model_dim*4,
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num_layers=layers,
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num_heads=num_heads,
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dropout_rate=dropout,
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feed_forward_proj='gated-gelu',
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use_cache=not checkpointing,
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gradient_checkpointing=checkpointing
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)
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self.transformer = T5Model(self.config)
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del self.transformer.encoder.embed_tokens
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del self.transformer.decoder.embed_tokens
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self.transformer.encoder.embed_tokens = functools.partial(null_position_embeddings, dim=model_dim)
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self.transformer.decoder.embed_tokens = functools.partial(null_position_embeddings, dim=model_dim)
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self.output_layer = nn.Linear(model_dim, self.start_token+1)
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def forward(self, conditioning_input, codes, pads, repeats, unpadded_lengths):
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max_len = unpadded_lengths.max()
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codes = codes[:, :max_len]
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pads = pads[:, :max_len]
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repeats = repeats[:, :max_len]
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if pads.max() > self.max_pad:
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print(f"Got unexpectedly long pads. Max: {pads.max()}, {pads}")
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pads = torch.clip(pads, 0, self.max_pad)
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if repeats.max() > self.max_repeat:
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print(f"Got unexpectedly long repeats. Max: {repeats.max()}, {repeats}")
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repeats = torch.clip(repeats, 0, self.max_repeat)
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assert codes.max() < 36, codes.max()
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conditioning_input = conditioning_input.unsqueeze(1) if len(conditioning_input.shape) == 3 else conditioning_input
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conds = []
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for j in range(conditioning_input.shape[1]):
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conds.append(self.conditioning_encoder(conditioning_input[:, j]))
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conds = torch.stack(conds, dim=1)
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h = torch.cat([conds, self.embedding(codes)], dim=1)
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labels = pads + repeats * self.max_pad + 1
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for i in range(unpadded_lengths.shape[0]):
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labels[i, unpadded_lengths[i]:] = 0
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labels_in = F.pad(labels, (1,0), value=self.start_token)
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h_dec = self.dec_embedding(labels_in)
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h = self.transformer(inputs_embeds=h, decoder_inputs_embeds=h_dec).last_hidden_state
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logits = self.output_layer(h)
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logits = logits.permute(0,2,1)[:,:,:-1] # Strip off the last token. There is no "stop" token here, so this is just an irrelevant prediction on some future that doesn't actually exist.
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loss = F.cross_entropy(logits, labels, reduction='none')
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# Ignore the first predictions of the sequences. This corresponds to the padding for the first CTC character, which is pretty much random and cannot be predicted.
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#loss = loss[1:].mean()
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return loss
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@register_model
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def register_ctc_code_generator2(opt_net, opt):
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return CtcCodeGenerator(**opt_get(opt_net, ['kwargs'], {}))
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if __name__ == '__main__':
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model = CtcCodeGenerator()
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conds = torch.randn(4,2,80,600)
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inps = torch.randint(0,36, (4, 300))
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pads = torch.randint(0,100, (4,300))
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repeats = torch.randint(0,20, (4,300))
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loss = model(conds, inps, pads, repeats, torch.tensor([250, 300, 280, 30]))
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print(loss.shape)
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