ai-content-maker/.venv/Lib/site-packages/torchaudio/models/squim/subjective.py

151 lines
5.7 KiB
Python

from typing import Tuple
import torch
import torch.nn as nn
import torchaudio
class AttPool(nn.Module):
"""Attention-Pooling module that estimates the attention score.
Args:
input_dim (int): Input feature dimension.
att_dim (int): Attention Tensor dimension.
"""
def __init__(self, input_dim: int, att_dim: int):
super(AttPool, self).__init__()
self.linear1 = nn.Linear(input_dim, 1)
self.linear2 = nn.Linear(input_dim, att_dim)
def forward(self, x: torch.Tensor) -> torch.Tensor:
"""Apply attention and pooling.
Args:
x (torch.Tensor): Input Tensor with dimensions `(batch, time, feature_dim)`.
Returns:
(torch.Tensor): Attention score with dimensions `(batch, att_dim)`.
"""
att = self.linear1(x) # (batch, time, 1)
att = att.transpose(2, 1) # (batch, 1, time)
att = nn.functional.softmax(att, dim=2)
x = torch.matmul(att, x).squeeze(1) # (batch, input_dim)
x = self.linear2(x) # (batch, att_dim)
return x
class Predictor(nn.Module):
"""Prediction module that apply pooling and attention, then predict subjective metric scores.
Args:
input_dim (int): Input feature dimension.
att_dim (int): Attention Tensor dimension.
"""
def __init__(self, input_dim: int, att_dim: int):
super(Predictor, self).__init__()
self.att_pool_layer = AttPool(input_dim, att_dim)
self.att_dim = att_dim
def forward(self, x: torch.Tensor) -> torch.Tensor:
"""Predict subjective evaluation metric score.
Args:
x (torch.Tensor): Input Tensor with dimensions `(batch, time, feature_dim)`.
Returns:
(torch.Tensor): Subjective metric score. Tensor with dimensions `(batch,)`.
"""
x = self.att_pool_layer(x)
x = nn.functional.softmax(x, dim=1)
B = torch.linspace(0, 4, steps=self.att_dim, device=x.device)
x = (x * B).sum(dim=1)
return x
class SquimSubjective(nn.Module):
"""Speech Quality and Intelligibility Measures (SQUIM) model that predicts **subjective** metric scores
for speech enhancement (e.g., Mean Opinion Score (MOS)). The model is adopted from *NORESQA-MOS*
:cite:`manocha2022speech` which predicts MOS scores given the input speech and a non-matching reference.
Args:
ssl_model (torch.nn.Module): The self-supervised learning model for feature extraction.
projector (torch.nn.Module): Projection layer that projects SSL feature to a lower dimension.
predictor (torch.nn.Module): Predict the subjective scores.
"""
def __init__(self, ssl_model: nn.Module, projector: nn.Module, predictor: nn.Module):
super(SquimSubjective, self).__init__()
self.ssl_model = ssl_model
self.projector = projector
self.predictor = predictor
def _align_shapes(self, waveform: torch.Tensor, reference: torch.Tensor) -> Tuple[torch.Tensor, torch.Tensor]:
"""Cut or pad the reference Tensor to make it aligned with waveform Tensor.
Args:
waveform (torch.Tensor): Input waveform for evaluation. Tensor with dimensions `(batch, time)`.
reference (torch.Tensor): Non-matching clean reference. Tensor with dimensions `(batch, time_ref)`.
Returns:
(torch.Tensor, torch.Tensor): The aligned waveform and reference Tensors
with same dimensions `(batch, time)`.
"""
T_waveform = waveform.shape[-1]
T_reference = reference.shape[-1]
if T_reference < T_waveform:
num_padding = T_waveform // T_reference + 1
reference = torch.cat([reference for _ in range(num_padding)], dim=1)
return waveform, reference[:, :T_waveform]
def forward(self, waveform: torch.Tensor, reference: torch.Tensor):
"""Predict subjective evaluation metric score.
Args:
waveform (torch.Tensor): Input waveform for evaluation. Tensor with dimensions `(batch, time)`.
reference (torch.Tensor): Non-matching clean reference. Tensor with dimensions `(batch, time_ref)`.
Returns:
(torch.Tensor): Subjective metric score. Tensor with dimensions `(batch,)`.
"""
waveform, reference = self._align_shapes(waveform, reference)
waveform = self.projector(self.ssl_model.extract_features(waveform)[0][-1])
reference = self.projector(self.ssl_model.extract_features(reference)[0][-1])
concat = torch.cat((reference, waveform), dim=2)
score_diff = self.predictor(concat) # Score difference compared to the reference
return 5 - score_diff
def squim_subjective_model(
ssl_type: str,
feat_dim: int,
proj_dim: int,
att_dim: int,
) -> SquimSubjective:
"""Build a custome :class:`torchaudio.prototype.models.SquimSubjective` model.
Args:
ssl_type (str): Type of self-supervised learning (SSL) models.
Must be one of ["wav2vec2_base", "wav2vec2_large"].
feat_dim (int): Feature dimension of the SSL feature representation.
proj_dim (int): Output dimension of projection layer.
att_dim (int): Dimension of attention scores.
"""
ssl_model = getattr(torchaudio.models, ssl_type)()
projector = nn.Linear(feat_dim, proj_dim)
predictor = Predictor(proj_dim * 2, att_dim)
return SquimSubjective(ssl_model, projector, predictor)
def squim_subjective_base() -> SquimSubjective:
"""Build :class:`torchaudio.prototype.models.SquimSubjective` model with default arguments."""
return squim_subjective_model(
ssl_type="wav2vec2_base",
feat_dim=768,
proj_dim=32,
att_dim=5,
)