mirror of
https://github.com/modelscope/FunASR
synced 2025-09-15 14:48:36 +08:00
update bicif, bicif seaco
This commit is contained in:
shixian.shi
parent
4719ca44c6
commit
3e3eed1945
@ -2,7 +2,7 @@
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# download model
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local_path_root=../modelscope_models
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mkdir -p ${local_path_root}
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local_path=${local_path_root}/speech_paraformer-large-contextual_asr_nat-zh-cn-16k-common-vocab8404
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local_path=${local_path_root}/speech_seaco_paraformer_large_asr_nat-zh-cn-16k-common-vocab8404-pytorch
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git clone https://www.modelscope.cn/damo/speech_seaco_paraformer_large_asr_nat-zh-cn-16k-common-vocab8404-pytorch.git ${local_path}
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@ -1,338 +0,0 @@
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import logging
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from typing import Dict
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from typing import List
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from typing import Optional
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from typing import Tuple
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from typing import Union
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import tempfile
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import codecs
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import requests
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import re
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import copy
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import torch
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import torch.nn as nn
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import random
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import numpy as np
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import time
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from funasr.models.transformer.utils.add_sos_eos import add_sos_eos
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from funasr.models.transformer.utils.nets_utils import make_pad_mask, pad_list
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from funasr.metrics.compute_acc import th_accuracy
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from funasr.train_utils.device_funcs import force_gatherable
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from funasr.models.paraformer.search import Hypothesis
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from funasr.datasets.audio_datasets.load_audio_extract_fbank import load_audio, extract_fbank
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from funasr.utils import postprocess_utils
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from funasr.utils.datadir_writer import DatadirWriter
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from funasr.utils.timestamp_tools import ts_prediction_lfr6_standard
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from funasr.register import tables
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from funasr.models.ctc.ctc import CTC
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from funasr.models.paraformer.model import Paraformer
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@tables.register("model_classes", "BiCifParaformer")
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class BiCifParaformer(Paraformer):
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"""
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Author: Speech Lab of DAMO Academy, Alibaba Group
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Paraformer: Fast and Accurate Parallel Transformer for Non-autoregressive End-to-End Speech Recognition
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https://arxiv.org/abs/2206.08317
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"""
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def __init__(
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self,
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*args,
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**kwargs,
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):
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super().__init__(*args, **kwargs)
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def _calc_pre2_loss(
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self,
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encoder_out: torch.Tensor,
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encoder_out_lens: torch.Tensor,
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ys_pad: torch.Tensor,
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ys_pad_lens: torch.Tensor,
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):
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encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
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encoder_out.device)
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if self.predictor_bias == 1:
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_, ys_pad = add_sos_eos(ys_pad, self.sos, self.eos, self.ignore_id)
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ys_pad_lens = ys_pad_lens + self.predictor_bias
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_, _, _, _, pre_token_length2 = self.predictor(encoder_out, ys_pad, encoder_out_mask, ignore_id=self.ignore_id)
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# loss_pre = self.criterion_pre(ys_pad_lens.type_as(pre_token_length), pre_token_length)
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loss_pre2 = self.criterion_pre(ys_pad_lens.type_as(pre_token_length2), pre_token_length2)
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return loss_pre2
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def _calc_att_loss(
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self,
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encoder_out: torch.Tensor,
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encoder_out_lens: torch.Tensor,
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ys_pad: torch.Tensor,
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ys_pad_lens: torch.Tensor,
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):
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encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
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encoder_out.device)
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if self.predictor_bias == 1:
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_, ys_pad = add_sos_eos(ys_pad, self.sos, self.eos, self.ignore_id)
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ys_pad_lens = ys_pad_lens + self.predictor_bias
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pre_acoustic_embeds, pre_token_length, _, pre_peak_index, _ = self.predictor(encoder_out, ys_pad,
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encoder_out_mask,
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ignore_id=self.ignore_id)
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# 0. sampler
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decoder_out_1st = None
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if self.sampling_ratio > 0.0:
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sematic_embeds, decoder_out_1st = self.sampler(encoder_out, encoder_out_lens, ys_pad, ys_pad_lens,
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pre_acoustic_embeds)
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else:
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sematic_embeds = pre_acoustic_embeds
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# 1. Forward decoder
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decoder_outs = self.decoder(
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encoder_out, encoder_out_lens, sematic_embeds, ys_pad_lens
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)
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decoder_out, _ = decoder_outs[0], decoder_outs[1]
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if decoder_out_1st is None:
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decoder_out_1st = decoder_out
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# 2. Compute attention loss
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loss_att = self.criterion_att(decoder_out, ys_pad)
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acc_att = th_accuracy(
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decoder_out_1st.view(-1, self.vocab_size),
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ys_pad,
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ignore_label=self.ignore_id,
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)
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loss_pre = self.criterion_pre(ys_pad_lens.type_as(pre_token_length), pre_token_length)
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# Compute cer/wer using attention-decoder
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if self.training or self.error_calculator is None:
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cer_att, wer_att = None, None
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else:
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ys_hat = decoder_out_1st.argmax(dim=-1)
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cer_att, wer_att = self.error_calculator(ys_hat.cpu(), ys_pad.cpu())
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return loss_att, acc_att, cer_att, wer_att, loss_pre
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def calc_predictor(self, encoder_out, encoder_out_lens):
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encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
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encoder_out.device)
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pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index, pre_token_length2 = self.predictor(encoder_out,
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None,
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encoder_out_mask,
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ignore_id=self.ignore_id)
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return pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index
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def calc_predictor_timestamp(self, encoder_out, encoder_out_lens, token_num):
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encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
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encoder_out.device)
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ds_alphas, ds_cif_peak, us_alphas, us_peaks = self.predictor.get_upsample_timestamp(encoder_out,
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encoder_out_mask,
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token_num)
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return ds_alphas, ds_cif_peak, us_alphas, us_peaks
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def forward(
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self,
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speech: torch.Tensor,
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speech_lengths: torch.Tensor,
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text: torch.Tensor,
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text_lengths: torch.Tensor,
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**kwargs,
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) -> Tuple[torch.Tensor, Dict[str, torch.Tensor], torch.Tensor]:
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"""Frontend + Encoder + Decoder + Calc loss
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Args:
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speech: (Batch, Length, ...)
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speech_lengths: (Batch, )
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text: (Batch, Length)
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text_lengths: (Batch,)
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"""
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if len(text_lengths.size()) > 1:
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text_lengths = text_lengths[:, 0]
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if len(speech_lengths.size()) > 1:
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speech_lengths = speech_lengths[:, 0]
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batch_size = speech.shape[0]
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# Encoder
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encoder_out, encoder_out_lens = self.encode(speech, speech_lengths)
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loss_ctc, cer_ctc = None, None
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loss_pre = None
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stats = dict()
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# decoder: CTC branch
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if self.ctc_weight != 0.0:
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loss_ctc, cer_ctc = self._calc_ctc_loss(
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encoder_out, encoder_out_lens, text, text_lengths
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)
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# Collect CTC branch stats
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stats["loss_ctc"] = loss_ctc.detach() if loss_ctc is not None else None
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stats["cer_ctc"] = cer_ctc
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# decoder: Attention decoder branch
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loss_att, acc_att, cer_att, wer_att, loss_pre = self._calc_att_loss(
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encoder_out, encoder_out_lens, text, text_lengths
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)
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loss_pre2 = self._calc_pre2_loss(
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encoder_out, encoder_out_lens, text, text_lengths
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)
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# 3. CTC-Att loss definition
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if self.ctc_weight == 0.0:
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loss = loss_att + loss_pre * self.predictor_weight + loss_pre2 * self.predictor_weight * 0.5
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else:
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loss = self.ctc_weight * loss_ctc + (
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1 - self.ctc_weight) * loss_att + loss_pre * self.predictor_weight + loss_pre2 * self.predictor_weight * 0.5
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# Collect Attn branch stats
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stats["loss_att"] = loss_att.detach() if loss_att is not None else None
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stats["acc"] = acc_att
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stats["cer"] = cer_att
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stats["wer"] = wer_att
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stats["loss_pre"] = loss_pre.detach().cpu() if loss_pre is not None else None
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stats["loss_pre2"] = loss_pre2.detach().cpu()
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stats["loss"] = torch.clone(loss.detach())
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# force_gatherable: to-device and to-tensor if scalar for DataParallel
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if self.length_normalized_loss:
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batch_size = int((text_lengths + self.predictor_bias).sum())
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loss, stats, weight = force_gatherable((loss, stats, batch_size), loss.device)
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return loss, stats, weight
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def generate(self,
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data_in,
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data_lengths=None,
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key: list = None,
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tokenizer=None,
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frontend=None,
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**kwargs,
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):
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# init beamsearch
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is_use_ctc = kwargs.get("decoding_ctc_weight", 0.0) > 0.00001 and self.ctc != None
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is_use_lm = kwargs.get("lm_weight", 0.0) > 0.00001 and kwargs.get("lm_file", None) is not None
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if self.beam_search is None and (is_use_lm or is_use_ctc):
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logging.info("enable beam_search")
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self.init_beam_search(**kwargs)
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self.nbest = kwargs.get("nbest", 1)
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meta_data = {}
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if isinstance(data_in, torch.Tensor): # fbank
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speech, speech_lengths = data_in, data_lengths
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if len(speech.shape) < 3:
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speech = speech[None, :, :]
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if speech_lengths is None:
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speech_lengths = speech.shape[1]
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else:
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# extract fbank feats
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time1 = time.perf_counter()
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audio_sample_list = load_audio(data_in, fs=frontend.fs, audio_fs=kwargs.get("fs", 16000))
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time2 = time.perf_counter()
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meta_data["load_data"] = f"{time2 - time1:0.3f}"
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speech, speech_lengths = extract_fbank(audio_sample_list, data_type=kwargs.get("data_type", "sound"),
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frontend=frontend)
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time3 = time.perf_counter()
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meta_data["extract_feat"] = f"{time3 - time2:0.3f}"
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meta_data["batch_data_time"] = speech_lengths.sum().item() * frontend.frame_shift * frontend.lfr_n / 1000
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speech.to(device=kwargs["device"]), speech_lengths.to(device=kwargs["device"])
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# Encoder
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encoder_out, encoder_out_lens = self.encode(speech, speech_lengths)
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if isinstance(encoder_out, tuple):
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encoder_out = encoder_out[0]
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# predictor
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predictor_outs = self.calc_predictor(encoder_out, encoder_out_lens)
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pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index = predictor_outs[0], predictor_outs[1], \
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predictor_outs[2], predictor_outs[3]
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pre_token_length = pre_token_length.round().long()
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if torch.max(pre_token_length) < 1:
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return []
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decoder_outs = self.cal_decoder_with_predictor(encoder_out, encoder_out_lens, pre_acoustic_embeds,
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pre_token_length)
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decoder_out, ys_pad_lens = decoder_outs[0], decoder_outs[1]
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# BiCifParaformer, test no bias cif2
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_, _, us_alphas, us_peaks = self.calc_predictor_timestamp(encoder_out, encoder_out_lens,
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pre_token_length)
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results = []
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b, n, d = decoder_out.size()
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for i in range(b):
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x = encoder_out[i, :encoder_out_lens[i], :]
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am_scores = decoder_out[i, :pre_token_length[i], :]
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if self.beam_search is not None:
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nbest_hyps = self.beam_search(
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x=x, am_scores=am_scores, maxlenratio=kwargs.get("maxlenratio", 0.0),
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minlenratio=kwargs.get("minlenratio", 0.0)
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)
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nbest_hyps = nbest_hyps[: self.nbest]
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else:
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yseq = am_scores.argmax(dim=-1)
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score = am_scores.max(dim=-1)[0]
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score = torch.sum(score, dim=-1)
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# pad with mask tokens to ensure compatibility with sos/eos tokens
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yseq = torch.tensor(
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[self.sos] + yseq.tolist() + [self.eos], device=yseq.device
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)
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nbest_hyps = [Hypothesis(yseq=yseq, score=score)]
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for nbest_idx, hyp in enumerate(nbest_hyps):
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ibest_writer = None
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if ibest_writer is None and kwargs.get("output_dir") is not None:
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writer = DatadirWriter(kwargs.get("output_dir"))
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ibest_writer = writer[f"{nbest_idx + 1}best_recog"]
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# remove sos/eos and get results
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last_pos = -1
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if isinstance(hyp.yseq, list):
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token_int = hyp.yseq[1:last_pos]
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else:
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token_int = hyp.yseq[1:last_pos].tolist()
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# remove blank symbol id, which is assumed to be 0
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token_int = list(filter(lambda x: x != self.eos and x != self.sos and x != self.blank_id, token_int))
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if tokenizer is not None:
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# Change integer-ids to tokens
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token = tokenizer.ids2tokens(token_int)
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text = tokenizer.tokens2text(token)
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_, timestamp = ts_prediction_lfr6_standard(us_alphas[i][:encoder_out_lens[i] * 3],
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us_peaks[i][:encoder_out_lens[i] * 3],
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copy.copy(token),
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vad_offset=kwargs.get("begin_time", 0))
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text_postprocessed, time_stamp_postprocessed, word_lists = postprocess_utils.sentence_postprocess(
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token, timestamp)
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result_i = {"key": key[i], "text": text_postprocessed,
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"timestamp": time_stamp_postprocessed,
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}
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if ibest_writer is not None:
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ibest_writer["token"][key[i]] = " ".join(token)
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# ibest_writer["text"][key[i]] = text
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ibest_writer["timestamp"][key[i]] = time_stamp_postprocessed
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ibest_writer["text"][key[i]] = text_postprocessed
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else:
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result_i = {"key": key[i], "token_int": token_int}
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results.append(result_i)
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return results, meta_data
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340
funasr/models/bicif_paraformer/model.py
Normal file
340
funasr/models/bicif_paraformer/model.py
Normal file
@ -0,0 +1,340 @@
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import logging
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from typing import Dict
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from typing import List
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from typing import Optional
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from typing import Tuple
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from typing import Union
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import tempfile
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import codecs
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import requests
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import re
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import copy
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import torch
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import torch.nn as nn
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import random
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import numpy as np
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import time
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from funasr.models.transformer.utils.add_sos_eos import add_sos_eos
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from funasr.models.transformer.utils.nets_utils import make_pad_mask, pad_list
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from funasr.metrics.compute_acc import th_accuracy
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from funasr.train_utils.device_funcs import force_gatherable
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from funasr.models.paraformer.search import Hypothesis
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from funasr.datasets.audio_datasets.load_audio_extract_fbank import load_audio, extract_fbank
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from funasr.utils import postprocess_utils
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from funasr.utils.datadir_writer import DatadirWriter
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from funasr.utils.timestamp_tools import ts_prediction_lfr6_standard
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from funasr.register import tables
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from funasr.models.ctc.ctc import CTC
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from funasr.models.paraformer.model import Paraformer
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@tables.register("model_classes", "BiCifParaformer")
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class BiCifParaformer(Paraformer):
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"""
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Author: Speech Lab of DAMO Academy, Alibaba Group
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Paper1: FunASR: A Fundamental End-to-End Speech Recognition Toolkit
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https://arxiv.org/abs/2305.11013
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Paper2: Achieving timestamp prediction while recognizing with non-autoregressive end-to-end ASR model
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https://arxiv.org/abs/2301.12343
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"""
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def __init__(
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self,
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*args,
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**kwargs,
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):
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super().__init__(*args, **kwargs)
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def _calc_pre2_loss(
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self,
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encoder_out: torch.Tensor,
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encoder_out_lens: torch.Tensor,
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ys_pad: torch.Tensor,
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ys_pad_lens: torch.Tensor,
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):
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encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
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encoder_out.device)
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if self.predictor_bias == 1:
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_, ys_pad = add_sos_eos(ys_pad, self.sos, self.eos, self.ignore_id)
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ys_pad_lens = ys_pad_lens + self.predictor_bias
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_, _, _, _, pre_token_length2 = self.predictor(encoder_out, ys_pad, encoder_out_mask, ignore_id=self.ignore_id)
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|
||||
# loss_pre = self.criterion_pre(ys_pad_lens.type_as(pre_token_length), pre_token_length)
|
||||
loss_pre2 = self.criterion_pre(ys_pad_lens.type_as(pre_token_length2), pre_token_length2)
|
||||
|
||||
return loss_pre2
|
||||
|
||||
|
||||
def _calc_att_loss(
|
||||
self,
|
||||
encoder_out: torch.Tensor,
|
||||
encoder_out_lens: torch.Tensor,
|
||||
ys_pad: torch.Tensor,
|
||||
ys_pad_lens: torch.Tensor,
|
||||
):
|
||||
encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
|
||||
encoder_out.device)
|
||||
if self.predictor_bias == 1:
|
||||
_, ys_pad = add_sos_eos(ys_pad, self.sos, self.eos, self.ignore_id)
|
||||
ys_pad_lens = ys_pad_lens + self.predictor_bias
|
||||
pre_acoustic_embeds, pre_token_length, _, pre_peak_index, _ = self.predictor(encoder_out, ys_pad,
|
||||
encoder_out_mask,
|
||||
ignore_id=self.ignore_id)
|
||||
|
||||
# 0. sampler
|
||||
decoder_out_1st = None
|
||||
if self.sampling_ratio > 0.0:
|
||||
sematic_embeds, decoder_out_1st = self.sampler(encoder_out, encoder_out_lens, ys_pad, ys_pad_lens,
|
||||
pre_acoustic_embeds)
|
||||
else:
|
||||
sematic_embeds = pre_acoustic_embeds
|
||||
|
||||
# 1. Forward decoder
|
||||
decoder_outs = self.decoder(
|
||||
encoder_out, encoder_out_lens, sematic_embeds, ys_pad_lens
|
||||
)
|
||||
decoder_out, _ = decoder_outs[0], decoder_outs[1]
|
||||
|
||||
if decoder_out_1st is None:
|
||||
decoder_out_1st = decoder_out
|
||||
# 2. Compute attention loss
|
||||
loss_att = self.criterion_att(decoder_out, ys_pad)
|
||||
acc_att = th_accuracy(
|
||||
decoder_out_1st.view(-1, self.vocab_size),
|
||||
ys_pad,
|
||||
ignore_label=self.ignore_id,
|
||||
)
|
||||
loss_pre = self.criterion_pre(ys_pad_lens.type_as(pre_token_length), pre_token_length)
|
||||
|
||||
# Compute cer/wer using attention-decoder
|
||||
if self.training or self.error_calculator is None:
|
||||
cer_att, wer_att = None, None
|
||||
else:
|
||||
ys_hat = decoder_out_1st.argmax(dim=-1)
|
||||
cer_att, wer_att = self.error_calculator(ys_hat.cpu(), ys_pad.cpu())
|
||||
|
||||
return loss_att, acc_att, cer_att, wer_att, loss_pre
|
||||
|
||||
|
||||
def calc_predictor(self, encoder_out, encoder_out_lens):
|
||||
encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
|
||||
encoder_out.device)
|
||||
pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index, pre_token_length2 = self.predictor(encoder_out,
|
||||
None,
|
||||
encoder_out_mask,
|
||||
ignore_id=self.ignore_id)
|
||||
return pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index
|
||||
|
||||
|
||||
def calc_predictor_timestamp(self, encoder_out, encoder_out_lens, token_num):
|
||||
encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
|
||||
encoder_out.device)
|
||||
ds_alphas, ds_cif_peak, us_alphas, us_peaks = self.predictor.get_upsample_timestamp(encoder_out,
|
||||
encoder_out_mask,
|
||||
token_num)
|
||||
return ds_alphas, ds_cif_peak, us_alphas, us_peaks
|
||||
|
||||
|
||||
def forward(
|
||||
self,
|
||||
speech: torch.Tensor,
|
||||
speech_lengths: torch.Tensor,
|
||||
text: torch.Tensor,
|
||||
text_lengths: torch.Tensor,
|
||||
**kwargs,
|
||||
) -> Tuple[torch.Tensor, Dict[str, torch.Tensor], torch.Tensor]:
|
||||
"""Frontend + Encoder + Decoder + Calc loss
|
||||
Args:
|
||||
speech: (Batch, Length, ...)
|
||||
speech_lengths: (Batch, )
|
||||
text: (Batch, Length)
|
||||
text_lengths: (Batch,)
|
||||
"""
|
||||
if len(text_lengths.size()) > 1:
|
||||
text_lengths = text_lengths[:, 0]
|
||||
if len(speech_lengths.size()) > 1:
|
||||
speech_lengths = speech_lengths[:, 0]
|
||||
|
||||
batch_size = speech.shape[0]
|
||||
|
||||
# Encoder
|
||||
encoder_out, encoder_out_lens = self.encode(speech, speech_lengths)
|
||||
|
||||
|
||||
loss_ctc, cer_ctc = None, None
|
||||
loss_pre = None
|
||||
stats = dict()
|
||||
|
||||
# decoder: CTC branch
|
||||
if self.ctc_weight != 0.0:
|
||||
loss_ctc, cer_ctc = self._calc_ctc_loss(
|
||||
encoder_out, encoder_out_lens, text, text_lengths
|
||||
)
|
||||
|
||||
# Collect CTC branch stats
|
||||
stats["loss_ctc"] = loss_ctc.detach() if loss_ctc is not None else None
|
||||
stats["cer_ctc"] = cer_ctc
|
||||
|
||||
|
||||
# decoder: Attention decoder branch
|
||||
loss_att, acc_att, cer_att, wer_att, loss_pre = self._calc_att_loss(
|
||||
encoder_out, encoder_out_lens, text, text_lengths
|
||||
)
|
||||
|
||||
loss_pre2 = self._calc_pre2_loss(
|
||||
encoder_out, encoder_out_lens, text, text_lengths
|
||||
)
|
||||
|
||||
# 3. CTC-Att loss definition
|
||||
if self.ctc_weight == 0.0:
|
||||
loss = loss_att + loss_pre * self.predictor_weight + loss_pre2 * self.predictor_weight * 0.5
|
||||
else:
|
||||
loss = self.ctc_weight * loss_ctc + (
|
||||
1 - self.ctc_weight) * loss_att + loss_pre * self.predictor_weight + loss_pre2 * self.predictor_weight * 0.5
|
||||
|
||||
# Collect Attn branch stats
|
||||
stats["loss_att"] = loss_att.detach() if loss_att is not None else None
|
||||
stats["acc"] = acc_att
|
||||
stats["cer"] = cer_att
|
||||
stats["wer"] = wer_att
|
||||
stats["loss_pre"] = loss_pre.detach().cpu() if loss_pre is not None else None
|
||||
stats["loss_pre2"] = loss_pre2.detach().cpu()
|
||||
|
||||
stats["loss"] = torch.clone(loss.detach())
|
||||
|
||||
# force_gatherable: to-device and to-tensor if scalar for DataParallel
|
||||
if self.length_normalized_loss:
|
||||
batch_size = int((text_lengths + self.predictor_bias).sum())
|
||||
|
||||
loss, stats, weight = force_gatherable((loss, stats, batch_size), loss.device)
|
||||
return loss, stats, weight
|
||||
|
||||
|
||||
def generate(self,
|
||||
data_in,
|
||||
data_lengths=None,
|
||||
key: list = None,
|
||||
tokenizer=None,
|
||||
frontend=None,
|
||||
**kwargs,
|
||||
):
|
||||
|
||||
# init beamsearch
|
||||
is_use_ctc = kwargs.get("decoding_ctc_weight", 0.0) > 0.00001 and self.ctc != None
|
||||
is_use_lm = kwargs.get("lm_weight", 0.0) > 0.00001 and kwargs.get("lm_file", None) is not None
|
||||
if self.beam_search is None and (is_use_lm or is_use_ctc):
|
||||
logging.info("enable beam_search")
|
||||
self.init_beam_search(**kwargs)
|
||||
self.nbest = kwargs.get("nbest", 1)
|
||||
|
||||
meta_data = {}
|
||||
if isinstance(data_in, torch.Tensor): # fbank
|
||||
speech, speech_lengths = data_in, data_lengths
|
||||
if len(speech.shape) < 3:
|
||||
speech = speech[None, :, :]
|
||||
if speech_lengths is None:
|
||||
speech_lengths = speech.shape[1]
|
||||
else:
|
||||
# extract fbank feats
|
||||
time1 = time.perf_counter()
|
||||
audio_sample_list = load_audio(data_in, fs=frontend.fs, audio_fs=kwargs.get("fs", 16000))
|
||||
time2 = time.perf_counter()
|
||||
meta_data["load_data"] = f"{time2 - time1:0.3f}"
|
||||
speech, speech_lengths = extract_fbank(audio_sample_list, data_type=kwargs.get("data_type", "sound"),
|
||||
frontend=frontend)
|
||||
time3 = time.perf_counter()
|
||||
meta_data["extract_feat"] = f"{time3 - time2:0.3f}"
|
||||
meta_data["batch_data_time"] = speech_lengths.sum().item() * frontend.frame_shift * frontend.lfr_n / 1000
|
||||
|
||||
speech.to(device=kwargs["device"]), speech_lengths.to(device=kwargs["device"])
|
||||
|
||||
# Encoder
|
||||
encoder_out, encoder_out_lens = self.encode(speech, speech_lengths)
|
||||
if isinstance(encoder_out, tuple):
|
||||
encoder_out = encoder_out[0]
|
||||
|
||||
# predictor
|
||||
predictor_outs = self.calc_predictor(encoder_out, encoder_out_lens)
|
||||
pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index = predictor_outs[0], predictor_outs[1], \
|
||||
predictor_outs[2], predictor_outs[3]
|
||||
pre_token_length = pre_token_length.round().long()
|
||||
if torch.max(pre_token_length) < 1:
|
||||
return []
|
||||
decoder_outs = self.cal_decoder_with_predictor(encoder_out, encoder_out_lens, pre_acoustic_embeds,
|
||||
pre_token_length)
|
||||
decoder_out, ys_pad_lens = decoder_outs[0], decoder_outs[1]
|
||||
|
||||
# BiCifParaformer, test no bias cif2
|
||||
_, _, us_alphas, us_peaks = self.calc_predictor_timestamp(encoder_out, encoder_out_lens,
|
||||
pre_token_length)
|
||||
|
||||
results = []
|
||||
b, n, d = decoder_out.size()
|
||||
for i in range(b):
|
||||
x = encoder_out[i, :encoder_out_lens[i], :]
|
||||
am_scores = decoder_out[i, :pre_token_length[i], :]
|
||||
if self.beam_search is not None:
|
||||
nbest_hyps = self.beam_search(
|
||||
x=x, am_scores=am_scores, maxlenratio=kwargs.get("maxlenratio", 0.0),
|
||||
minlenratio=kwargs.get("minlenratio", 0.0)
|
||||
)
|
||||
|
||||
nbest_hyps = nbest_hyps[: self.nbest]
|
||||
else:
|
||||
|
||||
yseq = am_scores.argmax(dim=-1)
|
||||
score = am_scores.max(dim=-1)[0]
|
||||
score = torch.sum(score, dim=-1)
|
||||
# pad with mask tokens to ensure compatibility with sos/eos tokens
|
||||
yseq = torch.tensor(
|
||||
[self.sos] + yseq.tolist() + [self.eos], device=yseq.device
|
||||
)
|
||||
nbest_hyps = [Hypothesis(yseq=yseq, score=score)]
|
||||
for nbest_idx, hyp in enumerate(nbest_hyps):
|
||||
ibest_writer = None
|
||||
if ibest_writer is None and kwargs.get("output_dir") is not None:
|
||||
writer = DatadirWriter(kwargs.get("output_dir"))
|
||||
ibest_writer = writer[f"{nbest_idx + 1}best_recog"]
|
||||
# remove sos/eos and get results
|
||||
last_pos = -1
|
||||
if isinstance(hyp.yseq, list):
|
||||
token_int = hyp.yseq[1:last_pos]
|
||||
else:
|
||||
token_int = hyp.yseq[1:last_pos].tolist()
|
||||
|
||||
# remove blank symbol id, which is assumed to be 0
|
||||
token_int = list(filter(lambda x: x != self.eos and x != self.sos and x != self.blank_id, token_int))
|
||||
|
||||
if tokenizer is not None:
|
||||
# Change integer-ids to tokens
|
||||
token = tokenizer.ids2tokens(token_int)
|
||||
text = tokenizer.tokens2text(token)
|
||||
|
||||
_, timestamp = ts_prediction_lfr6_standard(us_alphas[i][:encoder_out_lens[i] * 3],
|
||||
us_peaks[i][:encoder_out_lens[i] * 3],
|
||||
copy.copy(token),
|
||||
vad_offset=kwargs.get("begin_time", 0))
|
||||
|
||||
text_postprocessed, time_stamp_postprocessed, word_lists = postprocess_utils.sentence_postprocess(
|
||||
token, timestamp)
|
||||
|
||||
result_i = {"key": key[i], "text": text_postprocessed,
|
||||
"timestamp": time_stamp_postprocessed,
|
||||
}
|
||||
|
||||
if ibest_writer is not None:
|
||||
ibest_writer["token"][key[i]] = " ".join(token)
|
||||
# ibest_writer["text"][key[i]] = text
|
||||
ibest_writer["timestamp"][key[i]] = time_stamp_postprocessed
|
||||
ibest_writer["text"][key[i]] = text_postprocessed
|
||||
else:
|
||||
result_i = {"key": key[i], "token_int": token_int}
|
||||
results.append(result_i)
|
||||
|
||||
return results, meta_data
|
||||
@ -1,41 +1,30 @@
|
||||
import os
|
||||
import logging
|
||||
from contextlib import contextmanager
|
||||
from distutils.version import LooseVersion
|
||||
from typing import Dict
|
||||
from typing import List
|
||||
from typing import Optional
|
||||
from typing import Tuple
|
||||
from typing import Union
|
||||
import tempfile
|
||||
import codecs
|
||||
import requests
|
||||
import re
|
||||
import time
|
||||
import copy
|
||||
import torch
|
||||
import torch.nn as nn
|
||||
import random
|
||||
import codecs
|
||||
import logging
|
||||
import tempfile
|
||||
import requests
|
||||
import numpy as np
|
||||
import time
|
||||
# from funasr.layers.abs_normalize import AbsNormalize
|
||||
from typing import Dict
|
||||
from typing import List
|
||||
from typing import Tuple
|
||||
from typing import Union
|
||||
from typing import Optional
|
||||
from contextlib import contextmanager
|
||||
from distutils.version import LooseVersion
|
||||
|
||||
from funasr.losses.label_smoothing_loss import (
|
||||
LabelSmoothingLoss, # noqa: H301
|
||||
)
|
||||
# from funasr.models.ctc import CTC
|
||||
# from funasr.models.decoder.abs_decoder import AbsDecoder
|
||||
# from funasr.models.e2e_asr_common import ErrorCalculator
|
||||
# from funasr.models.encoder.abs_encoder import AbsEncoder
|
||||
# from funasr.frontends.abs_frontend import AbsFrontend
|
||||
# from funasr.models.postencoder.abs_postencoder import AbsPostEncoder
|
||||
from funasr.models.paraformer.cif_predictor import mae_loss
|
||||
# from funasr.models.preencoder.abs_preencoder import AbsPreEncoder
|
||||
# from funasr.models.specaug.abs_specaug import AbsSpecAug
|
||||
from funasr.models.transformer.utils.add_sos_eos import add_sos_eos
|
||||
from funasr.models.transformer.utils.nets_utils import make_pad_mask, pad_list
|
||||
from funasr.utils.timestamp_tools import ts_prediction_lfr6_standard
|
||||
from funasr.metrics.compute_acc import th_accuracy
|
||||
from funasr.train_utils.device_funcs import force_gatherable
|
||||
# from funasr.models.base_model import FunASRModel
|
||||
# from funasr.models.paraformer.cif_predictor import CifPredictorV3
|
||||
from funasr.models.paraformer.search import Hypothesis
|
||||
|
||||
|
||||
@ -51,11 +40,12 @@ from funasr.utils import postprocess_utils
|
||||
from funasr.utils.datadir_writer import DatadirWriter
|
||||
|
||||
from funasr.models.paraformer.model import Paraformer
|
||||
from funasr.models.bicif_paraformer.model import BiCifParaformer
|
||||
from funasr.register import tables
|
||||
|
||||
|
||||
@tables.register("model_classes", "SeacoParaformer")
|
||||
class SeacoParaformer(Paraformer):
|
||||
class SeacoParaformer(BiCifParaformer, Paraformer):
|
||||
"""
|
||||
Author: Speech Lab of DAMO Academy, Alibaba Group
|
||||
SeACo-Paraformer: A Non-Autoregressive ASR System with Flexible and Effective Hotword Customization Ability
|
||||
@ -296,6 +286,26 @@ class SeacoParaformer(Paraformer):
|
||||
selected = hw_embed[_ind, [i-1 for i in hotword_lengths.detach().cpu().tolist()]]
|
||||
return selected
|
||||
|
||||
'''
|
||||
def calc_predictor(self, encoder_out, encoder_out_lens):
|
||||
encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
|
||||
encoder_out.device)
|
||||
pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index, pre_token_length2 = self.predictor(encoder_out,
|
||||
None,
|
||||
encoder_out_mask,
|
||||
ignore_id=self.ignore_id)
|
||||
return pre_acoustic_embeds, pre_token_length, alphas, pre_peak_index
|
||||
|
||||
|
||||
def calc_predictor_timestamp(self, encoder_out, encoder_out_lens, token_num):
|
||||
encoder_out_mask = (~make_pad_mask(encoder_out_lens, maxlen=encoder_out.size(1))[:, None, :]).to(
|
||||
encoder_out.device)
|
||||
ds_alphas, ds_cif_peak, us_alphas, us_peaks = self.predictor.get_upsample_timestamp(encoder_out,
|
||||
encoder_out_mask,
|
||||
token_num)
|
||||
return ds_alphas, ds_cif_peak, us_alphas, us_peaks
|
||||
'''
|
||||
|
||||
def generate(self,
|
||||
data_in,
|
||||
data_lengths=None,
|
||||
@ -351,6 +361,8 @@ class SeacoParaformer(Paraformer):
|
||||
pre_token_length,
|
||||
hw_list=self.hotword_list)
|
||||
# decoder_out, _ = decoder_outs[0], decoder_outs[1]
|
||||
_, _, us_alphas, us_peaks = self.calc_predictor_timestamp(encoder_out, encoder_out_lens,
|
||||
pre_token_length)
|
||||
|
||||
results = []
|
||||
b, n, d = decoder_out.size()
|
||||
@ -395,13 +407,23 @@ class SeacoParaformer(Paraformer):
|
||||
token = tokenizer.ids2tokens(token_int)
|
||||
text = tokenizer.tokens2text(token)
|
||||
|
||||
text_postprocessed, _ = postprocess_utils.sentence_postprocess(token)
|
||||
result_i = {"key": key[i], "token": token, "text": text, "text_postprocessed": text_postprocessed}
|
||||
_, timestamp = ts_prediction_lfr6_standard(us_alphas[i][:encoder_out_lens[i] * 3],
|
||||
us_peaks[i][:encoder_out_lens[i] * 3],
|
||||
copy.copy(token),
|
||||
vad_offset=kwargs.get("begin_time", 0))
|
||||
|
||||
text_postprocessed, time_stamp_postprocessed, word_lists = postprocess_utils.sentence_postprocess(
|
||||
token, timestamp)
|
||||
|
||||
result_i = {"key": key[i], "text": text_postprocessed,
|
||||
"timestamp": time_stamp_postprocessed,
|
||||
}
|
||||
|
||||
if ibest_writer is not None:
|
||||
ibest_writer["token"][key[i]] = " ".join(token)
|
||||
ibest_writer["text"][key[i]] = text
|
||||
ibest_writer["text_postprocessed"][key[i]] = text_postprocessed
|
||||
# ibest_writer["text"][key[i]] = text
|
||||
ibest_writer["timestamp"][key[i]] = time_stamp_postprocessed
|
||||
ibest_writer["text"][key[i]] = text_postprocessed
|
||||
else:
|
||||
result_i = {"key": key[i], "token_int": token_int}
|
||||
results.append(result_i)
|
||||
|
||||
Loading…
Reference in New Issue
Block a user