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# Copyright (c) Meta Platforms, Inc. and affiliates. | |
# All rights reserved. | |
# | |
# This source code is licensed under the license found in the | |
# LICENSE file in the root directory of this source tree. | |
"""Compression models or wrapper around existing models. | |
Also defines the main interface that a model must follow to be usable as an audio tokenizer. | |
""" | |
from abc import ABC, abstractmethod | |
import logging | |
import math | |
from pathlib import Path | |
import typing as tp | |
import numpy as np | |
import torch | |
from torch import nn | |
from transformers import EncodecModel as HFEncodecModel | |
from .. import quantization as qt | |
logger = logging.getLogger() | |
class CompressionModel(ABC, nn.Module): | |
"""Base API for all compression model that aim at being used as audio tokenizers | |
with a language model. | |
""" | |
def forward(self, x: torch.Tensor) -> qt.QuantizedResult: | |
... | |
def encode(self, x: torch.Tensor) -> tp.Tuple[torch.Tensor, tp.Optional[torch.Tensor]]: | |
"""See `EncodecModel.encode`.""" | |
... | |
def decode(self, codes: torch.Tensor, scale: tp.Optional[torch.Tensor] = None): | |
"""See `EncodecModel.decode`.""" | |
... | |
def decode_latent(self, codes: torch.Tensor): | |
"""Decode from the discrete codes to continuous latent space.""" | |
... | |
def channels(self) -> int: | |
... | |
def frame_rate(self) -> float: | |
... | |
def sample_rate(self) -> int: | |
... | |
def cardinality(self) -> int: | |
... | |
def num_codebooks(self) -> int: | |
... | |
def total_codebooks(self) -> int: | |
... | |
def set_num_codebooks(self, n: int): | |
"""Set the active number of codebooks used by the quantizer.""" | |
... | |
def get_pretrained( | |
name: str, device: tp.Union[torch.device, str] = 'cpu' | |
) -> 'CompressionModel': | |
"""Instantiate a CompressionModel from a given pretrained model. | |
Args: | |
name (Path or str): name of the pretrained model. See after. | |
device (torch.device or str): Device on which the model is loaded. | |
Pretrained models: | |
- dac_44khz (https://github.com/descriptinc/descript-audio-codec) | |
- dac_24khz (same) | |
- facebook/encodec_24khz (https://huggingface.co/facebook/encodec_24khz) | |
- facebook/encodec_32khz (https://huggingface.co/facebook/encodec_32khz) | |
- your own model on HugginFace. Export instructions to come... | |
""" | |
from . import builders, loaders | |
model: CompressionModel | |
if name in ['dac_44khz', 'dac_24khz']: | |
model_type = name.split('_')[1] | |
logger.info("Getting pretrained compression model from DAC %s", model_type) | |
model = DAC(model_type) | |
elif name in ['debug_compression_model']: | |
logger.info("Getting pretrained compression model for debug") | |
model = builders.get_debug_compression_model() | |
elif Path(name).exists(): | |
# We assume here if the paths exist that it is in fact an AC checkpoint | |
# that was exported using `audiocraft.utils.export` functions. | |
model = loaders.load_compression_model(name, device=device) | |
else: | |
logger.info("Getting pretrained compression model from HF %s", name) | |
hf_model = HFEncodecModel.from_pretrained(name) | |
model = HFEncodecCompressionModel(hf_model).to(device) | |
return model.to(device).eval() | |
class EncodecModel(CompressionModel): | |
"""Encodec model operating on the raw waveform. | |
Args: | |
encoder (nn.Module): Encoder network. | |
decoder (nn.Module): Decoder network. | |
quantizer (qt.BaseQuantizer): Quantizer network. | |
frame_rate (int): Frame rate for the latent representation. | |
sample_rate (int): Audio sample rate. | |
channels (int): Number of audio channels. | |
causal (bool): Whether to use a causal version of the model. | |
renormalize (bool): Whether to renormalize the audio before running the model. | |
""" | |
# we need assignment to override the property in the abstract class, | |
# I couldn't find a better way... | |
frame_rate: float = 0 | |
sample_rate: int = 0 | |
channels: int = 0 | |
def __init__(self, | |
encoder: nn.Module, | |
decoder: nn.Module, | |
quantizer: qt.BaseQuantizer, | |
frame_rate: int, | |
sample_rate: int, | |
channels: int, | |
causal: bool = False, | |
renormalize: bool = False): | |
super().__init__() | |
self.encoder = encoder | |
self.decoder = decoder | |
self.quantizer = quantizer | |
self.frame_rate = frame_rate | |
self.sample_rate = sample_rate | |
self.channels = channels | |
self.renormalize = renormalize | |
self.causal = causal | |
if self.causal: | |
# we force disabling here to avoid handling linear overlap of segments | |
# as supported in original EnCodec codebase. | |
assert not self.renormalize, 'Causal model does not support renormalize' | |
def total_codebooks(self): | |
"""Total number of quantizer codebooks available.""" | |
return self.quantizer.total_codebooks | |
def num_codebooks(self): | |
"""Active number of codebooks used by the quantizer.""" | |
return self.quantizer.num_codebooks | |
def set_num_codebooks(self, n: int): | |
"""Set the active number of codebooks used by the quantizer.""" | |
self.quantizer.set_num_codebooks(n) | |
def cardinality(self): | |
"""Cardinality of each codebook.""" | |
return self.quantizer.bins | |
def preprocess(self, x: torch.Tensor) -> tp.Tuple[torch.Tensor, tp.Optional[torch.Tensor]]: | |
scale: tp.Optional[torch.Tensor] | |
if self.renormalize: | |
mono = x.mean(dim=1, keepdim=True) | |
volume = mono.pow(2).mean(dim=2, keepdim=True).sqrt() | |
scale = 1e-8 + volume | |
x = x / scale | |
scale = scale.view(-1, 1) | |
else: | |
scale = None | |
return x, scale | |
def postprocess(self, | |
x: torch.Tensor, | |
scale: tp.Optional[torch.Tensor] = None) -> torch.Tensor: | |
if scale is not None: | |
assert self.renormalize | |
x = x * scale.view(-1, 1, 1) | |
return x | |
def forward(self, x: torch.Tensor) -> qt.QuantizedResult: | |
assert x.dim() == 3 | |
length = x.shape[-1] | |
x, scale = self.preprocess(x) | |
emb = self.encoder(x) | |
q_res = self.quantizer(emb, self.frame_rate) | |
out = self.decoder(q_res.x) | |
# remove extra padding added by the encoder and decoder | |
assert out.shape[-1] >= length, (out.shape[-1], length) | |
out = out[..., :length] | |
q_res.x = self.postprocess(out, scale) | |
return q_res | |
def encode(self, x: torch.Tensor) -> tp.Tuple[torch.Tensor, tp.Optional[torch.Tensor]]: | |
"""Encode the given input tensor to quantized representation along with scale parameter. | |
Args: | |
x (torch.Tensor): Float tensor of shape [B, C, T] | |
Returns: | |
codes, scale (tuple of torch.Tensor, torch.Tensor): Tuple composed of: | |
codes a float tensor of shape [B, K, T] with K the number of codebooks used and T the timestep. | |
scale a float tensor containing the scale for audio renormalizealization. | |
""" | |
assert x.dim() == 3 | |
x, scale = self.preprocess(x) | |
emb = self.encoder(x) | |
codes = self.quantizer.encode(emb) | |
return codes, scale | |
def decode(self, codes: torch.Tensor, scale: tp.Optional[torch.Tensor] = None): | |
"""Decode the given codes to a reconstructed representation, using the scale to perform | |
audio denormalization if needed. | |
Args: | |
codes (torch.Tensor): Int tensor of shape [B, K, T] | |
scale (torch.Tensor, optional): Float tensor containing the scale value. | |
Returns: | |
out (torch.Tensor): Float tensor of shape [B, C, T], the reconstructed audio. | |
""" | |
emb = self.decode_latent(codes) | |
out = self.decoder(emb) | |
out = self.postprocess(out, scale) | |
# out contains extra padding added by the encoder and decoder | |
return out | |
def decode_latent(self, codes: torch.Tensor): | |
"""Decode from the discrete codes to continuous latent space.""" | |
return self.quantizer.decode(codes) | |
class DAC(CompressionModel): | |
def __init__(self, model_type: str = "44khz"): | |
super().__init__() | |
try: | |
import dac.utils | |
except ImportError: | |
raise RuntimeError("Could not import dac, make sure it is installed, " | |
"please run `pip install descript-audio-codec`") | |
self.model = dac.utils.load_model(model_type=model_type) | |
self.n_quantizers = self.total_codebooks | |
self.model.eval() | |
def forward(self, x: torch.Tensor) -> qt.QuantizedResult: | |
# We don't support training with this. | |
raise NotImplementedError("Forward and training with DAC not supported.") | |
def encode(self, x: torch.Tensor) -> tp.Tuple[torch.Tensor, tp.Optional[torch.Tensor]]: | |
codes = self.model.encode(x, self.n_quantizers)[1] | |
return codes, None | |
def decode(self, codes: torch.Tensor, scale: tp.Optional[torch.Tensor] = None): | |
assert scale is None | |
z_q = self.decode_latent(codes) | |
return self.model.decode(z_q) | |
def decode_latent(self, codes: torch.Tensor): | |
"""Decode from the discrete codes to continuous latent space.""" | |
return self.model.quantizer.from_codes(codes)[0] | |
def channels(self) -> int: | |
return 1 | |
def frame_rate(self) -> float: | |
return self.model.sample_rate / self.model.hop_length | |
def sample_rate(self) -> int: | |
return self.model.sample_rate | |
def cardinality(self) -> int: | |
return self.model.codebook_size | |
def num_codebooks(self) -> int: | |
return self.n_quantizers | |
def total_codebooks(self) -> int: | |
return self.model.n_codebooks | |
def set_num_codebooks(self, n: int): | |
"""Set the active number of codebooks used by the quantizer. | |
""" | |
assert n >= 1 | |
assert n <= self.total_codebooks | |
self.n_quantizers = n | |
class HFEncodecCompressionModel(CompressionModel): | |
"""Wrapper around HuggingFace Encodec. | |
""" | |
def __init__(self, model: HFEncodecModel): | |
super().__init__() | |
self.model = model | |
bws = self.model.config.target_bandwidths | |
num_codebooks = [ | |
bw * 1000 / (self.frame_rate * math.log2(self.cardinality)) | |
for bw in bws | |
] | |
deltas = [nc - int(nc) for nc in num_codebooks] | |
# Checking we didn't do some bad maths and we indeed have integers! | |
assert all(deltas) <= 1e-3, deltas | |
self.possible_num_codebooks = [int(nc) for nc in num_codebooks] | |
self.set_num_codebooks(max(self.possible_num_codebooks)) | |
def forward(self, x: torch.Tensor) -> qt.QuantizedResult: | |
# We don't support training with this. | |
raise NotImplementedError("Forward and training with HF EncodecModel not supported.") | |
def encode(self, x: torch.Tensor) -> tp.Tuple[torch.Tensor, tp.Optional[torch.Tensor]]: | |
bandwidth_index = self.possible_num_codebooks.index(self.num_codebooks) | |
bandwidth = self.model.config.target_bandwidths[bandwidth_index] | |
res = self.model.encode(x, None, bandwidth) | |
assert len(res[0]) == 1 | |
assert len(res[1]) == 1 | |
return res[0][0], res[1][0] | |
def decode(self, codes: torch.Tensor, scale: tp.Optional[torch.Tensor] = None): | |
if scale is None: | |
scales = [None] # type: ignore | |
else: | |
scales = scale # type: ignore | |
res = self.model.decode(codes[None], scales) | |
return res[0] | |
def decode_latent(self, codes: torch.Tensor): | |
"""Decode from the discrete codes to continuous latent space.""" | |
return self.model.quantizer.decode(codes.transpose(0, 1)) | |
def channels(self) -> int: | |
return self.model.config.audio_channels | |
def frame_rate(self) -> float: | |
hop_length = int(np.prod(self.model.config.upsampling_ratios)) | |
return self.sample_rate / hop_length | |
def sample_rate(self) -> int: | |
return self.model.config.sampling_rate | |
def cardinality(self) -> int: | |
return self.model.config.codebook_size | |
def num_codebooks(self) -> int: | |
return self._num_codebooks | |
def total_codebooks(self) -> int: | |
return max(self.possible_num_codebooks) | |
def set_num_codebooks(self, n: int): | |
"""Set the active number of codebooks used by the quantizer. | |
""" | |
if n not in self.possible_num_codebooks: | |
raise ValueError(f"Allowed values for num codebooks: {self.possible_num_codebooks}") | |
self._num_codebooks = n | |