bark-cloning / bark_hubert_quantizer /pre_kmeans_hubert.py
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"""
Modified HuBERT model without kmeans.
Original author: https://github.com/lucidrains/
Modified by: https://www.github.com/gitmylo/
License: MIT
"""
# Modified code from https://github.com/lucidrains/audiolm-pytorch/blob/main/audiolm_pytorch/hubert_kmeans.py
from pathlib import Path
import torch
from torch import nn
from einops import pack, unpack
import fairseq
from torchaudio.functional import resample
from audiolm_pytorch.utils import curtail_to_multiple
import logging
logging.root.setLevel(logging.ERROR)
def exists(val):
return val is not None
def default(val, d):
return val if exists(val) else d
class CustomHubert(nn.Module):
"""
checkpoint and kmeans can be downloaded at https://github.com/facebookresearch/fairseq/tree/main/examples/hubert
or you can train your own
"""
def __init__(
self,
checkpoint_path,
target_sample_hz=16000,
seq_len_multiple_of=None,
output_layer=9,
device=None
):
super().__init__()
self.target_sample_hz = target_sample_hz
self.seq_len_multiple_of = seq_len_multiple_of
self.output_layer = output_layer
if device is not None:
self.to(device)
model_path = Path(checkpoint_path)
assert model_path.exists(), f'path {checkpoint_path} does not exist'
checkpoint = torch.load(checkpoint_path, map_location=device)
load_model_input = {checkpoint_path: checkpoint}
model, *_ = fairseq.checkpoint_utils.load_model_ensemble_and_task(load_model_input)
if device is not None:
model[0].to(device)
self.model = model[0]
self.model.eval()
@property
def groups(self):
return 1
@torch.no_grad()
def forward(
self,
wav_input,
flatten=True,
input_sample_hz=None
):
device = wav_input.device
if exists(input_sample_hz):
wav_input = resample(wav_input, input_sample_hz, self.target_sample_hz)
if exists(self.seq_len_multiple_of):
wav_input = curtail_to_multiple(wav_input, self.seq_len_multiple_of)
embed = self.model(
wav_input,
features_only=True,
mask=False, # thanks to @maitycyrus for noticing that mask is defaulted to True in the fairseq code
output_layer=self.output_layer
)
embed, packed_shape = pack([embed['x']], '* d')
# codebook_indices = self.kmeans.predict(embed.cpu().detach().numpy())
codebook_indices = torch.from_numpy(embed.cpu().detach().numpy()).to(device) # .long()
if flatten:
return codebook_indices
codebook_indices, = unpack(codebook_indices, packed_shape, '*')
return codebook_indices