Support CVVP & fix for major bug in API
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39ab8a9adf
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26
api.py
26
api.py
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@ -7,12 +7,13 @@ import torch
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import torch.nn.functional as F
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import torch.nn.functional as F
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import progressbar
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import progressbar
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from models.cvvp import CVVP
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from models.diffusion_decoder import DiffusionTts
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from models.diffusion_decoder import DiffusionTts
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from models.autoregressive import UnifiedVoice
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from models.autoregressive import UnifiedVoice
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from tqdm import tqdm
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from tqdm import tqdm
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from models.arch_util import TorchMelSpectrogram
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from models.arch_util import TorchMelSpectrogram
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from models.text_voice_clip import VoiceCLIP
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from models.clvp import CLVP
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from models.vocoder import UnivNetGenerator
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from models.vocoder import UnivNetGenerator
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from utils.audio import load_audio, wav_to_univnet_mel, denormalize_tacotron_mel
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from utils.audio import load_audio, wav_to_univnet_mel, denormalize_tacotron_mel
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from utils.diffusion import SpacedDiffusion, space_timesteps, get_named_beta_schedule
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from utils.diffusion import SpacedDiffusion, space_timesteps, get_named_beta_schedule
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@ -175,11 +176,15 @@ class TextToSpeech:
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average_conditioning_embeddings=True).cpu().eval()
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average_conditioning_embeddings=True).cpu().eval()
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self.autoregressive_for_diffusion.load_state_dict(torch.load('.models/autoregressive.pth'))
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self.autoregressive_for_diffusion.load_state_dict(torch.load('.models/autoregressive.pth'))
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self.clip = VoiceCLIP(dim_text=512, dim_speech=512, dim_latent=512, num_text_tokens=256, text_enc_depth=12,
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self.clvp = CLVP(dim_text=512, dim_speech=512, dim_latent=512, num_text_tokens=256, text_enc_depth=12,
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text_seq_len=350, text_heads=8,
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text_seq_len=350, text_heads=8,
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num_speech_tokens=8192, speech_enc_depth=12, speech_heads=8, speech_seq_len=430,
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num_speech_tokens=8192, speech_enc_depth=12, speech_heads=8, speech_seq_len=430,
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use_xformers=True).cpu().eval()
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use_xformers=True).cpu().eval()
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self.clip.load_state_dict(torch.load('.models/clip.pth'))
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self.clvp.load_state_dict(torch.load('.models/clip.pth'))
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self.cvvp = CVVP(model_dim=512, transformer_heads=8, dropout=0, mel_codes=8192, conditioning_enc_depth=8, cond_mask_percentage=0,
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speech_enc_depth=8, speech_mask_percentage=0, latent_multiplier=1).cpu().eval()
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self.cvvp.load_state_dict(torch.load('.models/cvvp.pth'))
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self.diffusion = DiffusionTts(model_channels=1024, num_layers=10, in_channels=100, out_channels=200,
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self.diffusion = DiffusionTts(model_channels=1024, num_layers=10, in_channels=100, out_channels=200,
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in_latent_channels=1024, in_tokens=8193, dropout=0, use_fp16=False, num_heads=16,
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in_latent_channels=1024, in_tokens=8193, dropout=0, use_fp16=False, num_heads=16,
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@ -216,6 +221,8 @@ class TextToSpeech:
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def tts(self, text, voice_samples, k=1,
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def tts(self, text, voice_samples, k=1,
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# autoregressive generation parameters follow
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# autoregressive generation parameters follow
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num_autoregressive_samples=512, temperature=.8, length_penalty=1, repetition_penalty=2.0, top_p=.8, max_mel_tokens=500,
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num_autoregressive_samples=512, temperature=.8, length_penalty=1, repetition_penalty=2.0, top_p=.8, max_mel_tokens=500,
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# CLVP & CVVP parameters
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clvp_cvvp_slider=.5,
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# diffusion generation parameters follow
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# diffusion generation parameters follow
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diffusion_iterations=100, cond_free=True, cond_free_k=2, diffusion_temperature=1.0,
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diffusion_iterations=100, cond_free=True, cond_free_k=2, diffusion_temperature=1.0,
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**hf_generate_kwargs):
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**hf_generate_kwargs):
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@ -253,15 +260,22 @@ class TextToSpeech:
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self.autoregressive = self.autoregressive.cpu()
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self.autoregressive = self.autoregressive.cpu()
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clip_results = []
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clip_results = []
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self.clip = self.clip.cuda()
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self.clvp = self.clvp.cuda()
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self.cvvp = self.cvvp.cuda()
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for batch in samples:
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for batch in samples:
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for i in range(batch.shape[0]):
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for i in range(batch.shape[0]):
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batch[i] = fix_autoregressive_output(batch[i], stop_mel_token)
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batch[i] = fix_autoregressive_output(batch[i], stop_mel_token)
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clip_results.append(self.clip(text.repeat(batch.shape[0], 1), batch, return_loss=False))
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clvp = self.clvp(text.repeat(batch.shape[0], 1), batch, return_loss=False)
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cvvp_accumulator = 0
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for cl in range(conds.shape[1]):
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cvvp_accumulator = cvvp_accumulator + self.cvvp(conds[:, cl].repeat(batch.shape[0], 1, 1), batch, return_loss=False )
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cvvp = cvvp_accumulator / conds.shape[1]
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clip_results.append(clvp * clvp_cvvp_slider + cvvp * (1-clvp_cvvp_slider))
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clip_results = torch.cat(clip_results, dim=0)
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clip_results = torch.cat(clip_results, dim=0)
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samples = torch.cat(samples, dim=0)
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samples = torch.cat(samples, dim=0)
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best_results = samples[torch.topk(clip_results, k=k).indices]
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best_results = samples[torch.topk(clip_results, k=k).indices]
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self.clip = self.clip.cpu()
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self.clvp = self.clvp.cpu()
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self.cvvp = self.cvvp.cpu()
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del samples
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del samples
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# The diffusion model actually wants the last hidden layer from the autoregressive model as conditioning
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# The diffusion model actually wants the last hidden layer from the autoregressive model as conditioning
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@ -562,7 +562,8 @@ class UnifiedVoice(nn.Module):
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logits_processor = LogitsProcessorList([TypicalLogitsWarper(mass=typical_mass)]) if typical_sampling else LogitsProcessorList()
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logits_processor = LogitsProcessorList([TypicalLogitsWarper(mass=typical_mass)]) if typical_sampling else LogitsProcessorList()
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max_length = trunc_index + self.max_mel_tokens - 1 if max_generate_length is None else trunc_index + max_generate_length
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max_length = trunc_index + self.max_mel_tokens - 1 if max_generate_length is None else trunc_index + max_generate_length
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gen = self.inference_model.generate(inputs, bos_token_id=self.start_mel_token, pad_token_id=self.stop_mel_token, eos_token_id=self.stop_mel_token,
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gen = self.inference_model.generate(inputs, bos_token_id=self.start_mel_token, pad_token_id=self.stop_mel_token, eos_token_id=self.stop_mel_token,
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max_length=max_length, logits_processor=logits_processor, **hf_generate_kwargs)
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max_length=max_length, logits_processor=logits_processor,
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num_return_sequences=num_return_sequences, **hf_generate_kwargs)
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return gen[:, trunc_index:]
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return gen[:, trunc_index:]
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@ -16,7 +16,7 @@ def masked_mean(t, mask, dim = 1):
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t = t.masked_fill(~mask[:, :, None], 0.)
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t = t.masked_fill(~mask[:, :, None], 0.)
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return t.sum(dim = 1) / mask.sum(dim = 1)[..., None]
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return t.sum(dim = 1) / mask.sum(dim = 1)[..., None]
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class VoiceCLIP(nn.Module):
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class CLVP(nn.Module):
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"""
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"""
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CLIP model retrofitted for performing contrastive evaluation between tokenized audio data and the corresponding
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CLIP model retrofitted for performing contrastive evaluation between tokenized audio data and the corresponding
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transcribed text.
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transcribed text.
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@ -141,7 +141,7 @@ class VoiceCLIP(nn.Module):
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if __name__ == '__main__':
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if __name__ == '__main__':
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clip = VoiceCLIP(text_mask_percentage=.2, voice_mask_percentage=.2)
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clip = CLVP(text_mask_percentage=.2, voice_mask_percentage=.2)
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clip(torch.randint(0,256,(2,120)),
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clip(torch.randint(0,256,(2,120)),
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torch.tensor([50,100]),
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torch.tensor([50,100]),
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torch.randint(0,8192,(2,250)),
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torch.randint(0,8192,(2,250)),
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133
models/cvvp.py
133
models/cvvp.py
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@ -0,0 +1,133 @@
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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 torch import einsum
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from torch.utils.checkpoint import checkpoint
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from models.arch_util import AttentionBlock
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from models.xtransformers import ContinuousTransformerWrapper, Encoder
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def exists(val):
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return val is not None
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def masked_mean(t, mask):
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t = t.masked_fill(~mask, 0.)
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return t.sum(dim = 1) / mask.sum(dim = 1)
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class CollapsingTransformer(nn.Module):
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def __init__(self, model_dim, output_dims, heads, dropout, depth, mask_percentage=0, **encoder_kwargs):
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super().__init__()
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self.transformer = ContinuousTransformerWrapper(
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max_seq_len=-1,
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use_pos_emb=False,
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attn_layers=Encoder(
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dim=model_dim,
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depth=depth,
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heads=heads,
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ff_dropout=dropout,
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ff_mult=1,
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attn_dropout=dropout,
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use_rmsnorm=True,
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ff_glu=True,
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rotary_pos_emb=True,
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**encoder_kwargs,
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))
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self.pre_combiner = nn.Sequential(nn.Conv1d(model_dim, output_dims, 1),
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AttentionBlock(output_dims, num_heads=heads, do_checkpoint=False),
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nn.Conv1d(output_dims, output_dims, 1))
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self.mask_percentage = mask_percentage
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def forward(self, x, **transformer_kwargs):
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h = self.transformer(x, **transformer_kwargs)
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h = h.permute(0,2,1)
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h = checkpoint(self.pre_combiner, h).permute(0,2,1)
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if self.training:
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mask = torch.rand_like(h.float()) > self.mask_percentage
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else:
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mask = torch.ones_like(h.float()).bool()
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return masked_mean(h, mask)
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class ConvFormatEmbedding(nn.Module):
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def __init__(self, *args, **kwargs):
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super().__init__()
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self.emb = nn.Embedding(*args, **kwargs)
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def forward(self, x):
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y = self.emb(x)
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return y.permute(0,2,1)
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class CVVP(nn.Module):
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def __init__(
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self,
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model_dim=512,
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transformer_heads=8,
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dropout=.1,
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conditioning_enc_depth=8,
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cond_mask_percentage=0,
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mel_channels=80,
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mel_codes=None,
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speech_enc_depth=8,
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speech_mask_percentage=0,
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latent_multiplier=1,
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):
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super().__init__()
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latent_dim = latent_multiplier*model_dim
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self.temperature = nn.Parameter(torch.tensor(1.))
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self.cond_emb = nn.Sequential(nn.Conv1d(mel_channels, model_dim//2, kernel_size=5, stride=2, padding=2),
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nn.Conv1d(model_dim//2, model_dim, kernel_size=3, stride=2, padding=1))
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self.conditioning_transformer = CollapsingTransformer(model_dim, model_dim, transformer_heads, dropout, conditioning_enc_depth, cond_mask_percentage)
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self.to_conditioning_latent = nn.Linear(latent_dim, latent_dim, bias=False)
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if mel_codes is None:
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self.speech_emb = nn.Conv1d(mel_channels, model_dim, kernel_size=5, padding=2)
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else:
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self.speech_emb = ConvFormatEmbedding(mel_codes, model_dim)
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self.speech_transformer = CollapsingTransformer(model_dim, latent_dim, transformer_heads, dropout, speech_enc_depth, speech_mask_percentage)
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self.to_speech_latent = nn.Linear(latent_dim, latent_dim, bias=False)
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def get_grad_norm_parameter_groups(self):
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return {
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'conditioning': list(self.conditioning_transformer.parameters()),
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'speech': list(self.speech_transformer.parameters()),
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}
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def forward(
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self,
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mel_cond,
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mel_input,
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return_loss=False
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):
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cond_emb = self.cond_emb(mel_cond).permute(0,2,1)
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enc_cond = self.conditioning_transformer(cond_emb)
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cond_latents = self.to_conditioning_latent(enc_cond)
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speech_emb = self.speech_emb(mel_input).permute(0,2,1)
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enc_speech = self.speech_transformer(speech_emb)
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speech_latents = self.to_speech_latent(enc_speech)
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cond_latents, speech_latents = map(lambda t: F.normalize(t, p=2, dim=-1), (cond_latents, speech_latents))
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temp = self.temperature.exp()
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if not return_loss:
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sim = einsum('n d, n d -> n', cond_latents, speech_latents) * temp
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return sim
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sim = einsum('i d, j d -> i j', cond_latents, speech_latents) * temp
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labels = torch.arange(cond_latents.shape[0], device=mel_input.device)
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loss = (F.cross_entropy(sim, labels) + F.cross_entropy(sim.t(), labels)) / 2
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return loss
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if __name__ == '__main__':
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clvp = CVVP()
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clvp(torch.randn(2,80,100),
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torch.randn(2,80,95),
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return_loss=True)
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2
read.py
2
read.py
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@ -28,7 +28,7 @@ def split_and_recombine_text(texts, desired_length=200, max_len=300):
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if __name__ == '__main__':
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if __name__ == '__main__':
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parser = argparse.ArgumentParser()
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parser = argparse.ArgumentParser()
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parser.add_argument('--textfile', type=str, help='A file containing the text to read.', default="data/riding_hood.txt")
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parser.add_argument('--textfile', type=str, help='A file containing the text to read.', default="data/riding_hood2.txt")
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parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) '
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parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) '
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'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='patrick_stewart')
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'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='patrick_stewart')
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parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/longform/')
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parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/longform/')
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