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from typing import Optional | |
from cog import BasePredictor, Input, Path, BaseModel | |
class ModelOutput(BaseModel): | |
prompt_npz: Optional[Path] | |
audio_out: Path | |
class Predictor(BasePredictor): | |
def setup(self): | |
"""Load the model into memory to make running multiple predictions efficient""" | |
def predict( | |
self, | |
speaker: Path = Input( | |
description="Reference audio.", default=None), | |
) -> ModelOutput: | |
"""Run a single prediction on the model""" | |
# SETUP | |
import numpy as np | |
import torch | |
import torchaudio | |
from encodec import EncodecModel | |
from encodec.utils import convert_audio | |
from bark_hubert_quantizer.hubert_manager import HuBERTManager | |
from bark_hubert_quantizer.pre_kmeans_hubert import CustomHubert | |
from bark_hubert_quantizer.customtokenizer import CustomTokenizer | |
large_quant_model = False # Use the larger pretrained model | |
device = torch.device('cpu') # 'cuda', 'cpu', 'cuda:0', 0, -1, torch.device('cuda') | |
model = ('quantifier_V1_hubert_base_ls960_23.pth', 'tokenizer_large.pth') if large_quant_model else ( | |
'quantifier_hubert_base_ls960_14.pth', 'tokenizer.pth') | |
print('Loading HuBERT...') | |
hubert_model = CustomHubert( | |
HuBERTManager.make_sure_hubert_installed(), device=device) | |
print('Loading Quantizer...') | |
quant_model = CustomTokenizer.load_from_checkpoint( | |
HuBERTManager.make_sure_tokenizer_installed(model=model[0], local_file=model[1]), device) | |
print('Loading Encodec...') | |
encodec_model = EncodecModel.encodec_model_24khz() | |
encodec_model.set_target_bandwidth(6.0) | |
encodec_model.to(device) | |
print('Downloaded and loaded models!') | |
# PREDICT | |
# Put the path of the speaker you want to use here. | |
wav_file = speaker | |
# Put the path to save the cloned speaker to here. | |
out_file = 'speaker.npz' | |
wav, sr = torchaudio.load(speaker) | |
wav_hubert = wav.to(device) | |
if wav_hubert.shape[0] == 2: # Stereo to mono if needed | |
wav_hubert = wav_hubert.mean(0, keepdim=True) | |
print('Extracting semantics...') | |
semantic_vectors = hubert_model.forward(wav_hubert, input_sample_hz=sr) | |
print('Tokenizing semantics...') | |
semantic_tokens = quant_model.get_token(semantic_vectors) | |
print('Creating coarse and fine prompts...') | |
wav = convert_audio(wav, sr, encodec_model.sample_rate, 1).unsqueeze(0) | |
wav = wav.to(device) | |
with torch.no_grad(): | |
encoded_frames = encodec_model.encode(wav) | |
codes = torch.cat([encoded[0] | |
for encoded in encoded_frames], dim=-1).squeeze() | |
codes = codes.cpu() | |
semantic_tokens = semantic_tokens.cpu() | |
np.savez(out_file, | |
semantic_prompt=semantic_tokens, | |
fine_prompt=codes, | |
coarse_prompt=codes[:2, :] | |
) | |
print('Done!') | |
return ModelOutput(audio_out=Path('speaker.npz')) | |