From 39efd2204c84b086dceac3dbb257425fc640a3ff Mon Sep 17 00:00:00 2001
From: Lizerui9926 <110582652+Lizerui9926@users.noreply.github.com>
Date: 星期一, 17 四月 2023 11:05:01 +0800
Subject: [PATCH] Merge pull request #364 from alibaba-damo-academy/dev_sx

---
 funasr/models/e2e_asr_paraformer.py |  119 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++-
 1 files changed, 116 insertions(+), 3 deletions(-)

diff --git a/funasr/models/e2e_asr_paraformer.py b/funasr/models/e2e_asr_paraformer.py
index b57c8e2..fcef342 100644
--- a/funasr/models/e2e_asr_paraformer.py
+++ b/funasr/models/e2e_asr_paraformer.py
@@ -44,7 +44,7 @@
 
 class Paraformer(AbsESPnetModel):
     """
-    Author: Speech Lab, Alibaba Group, China
+    Author: Speech Lab of DAMO Academy, Alibaba Group
     Paraformer: Fast and Accurate Parallel Transformer for Non-autoregressive End-to-End Speech Recognition
     https://arxiv.org/abs/2206.08317
     """
@@ -612,7 +612,7 @@
 
 class ParaformerBert(Paraformer):
     """
-    Author: Speech Lab, Alibaba Group, China
+    Author: Speech Lab of DAMO Academy, Alibaba Group
     Paraformer2: advanced paraformer with LFMMI and bert for non-autoregressive end-to-end speech recognition
     """
 
@@ -977,6 +977,59 @@
         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:
+            if self.step_cur < 2:
+                logging.info("enable sampler in paraformer, sampling_ratio: {}".format(self.sampling_ratio))
+            sematic_embeds, decoder_out_1st = self.sampler(encoder_out, encoder_out_lens, ys_pad, ys_pad_lens,
+                                                           pre_acoustic_embeds)
+        else:
+            if self.step_cur < 2:
+                logging.info("disable sampler in paraformer, sampling_ratio: {}".format(self.sampling_ratio))
+            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):
 
@@ -1025,16 +1078,76 @@
 
         # 1. Encoder
         encoder_out, encoder_out_lens = self.encode(speech, speech_lengths)
+        intermediate_outs = None
+        if isinstance(encoder_out, tuple):
+            intermediate_outs = encoder_out[1]
+            encoder_out = encoder_out[0]
 
+        loss_att, acc_att, cer_att, wer_att = None, None, None, None
+        loss_ctc, cer_ctc = None, None
+        loss_pre = None
         stats = dict()
+
+        # 1. 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
+
+        # Intermediate CTC (optional)
+        loss_interctc = 0.0
+        if self.interctc_weight != 0.0 and intermediate_outs is not None:
+            for layer_idx, intermediate_out in intermediate_outs:
+                # we assume intermediate_out has the same length & padding
+                # as those of encoder_out
+                loss_ic, cer_ic = self._calc_ctc_loss(
+                    intermediate_out, encoder_out_lens, text, text_lengths
+                )
+                loss_interctc = loss_interctc + loss_ic
+
+                # Collect Intermedaite CTC stats
+                stats["loss_interctc_layer{}".format(layer_idx)] = (
+                    loss_ic.detach() if loss_ic is not None else None
+                )
+                stats["cer_interctc_layer{}".format(layer_idx)] = cer_ic
+
+            loss_interctc = loss_interctc / len(intermediate_outs)
+
+            # calculate whole encoder loss
+            loss_ctc = (
+                               1 - self.interctc_weight
+                       ) * loss_ctc + self.interctc_weight * loss_interctc
+
+        # 2b. Attention decoder branch
+        if self.ctc_weight != 1.0:
+            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
         )
 
-        loss = loss_pre2
+        # 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
+        elif self.ctc_weight == 1.0:
+            loss = loss_ctc
+        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

--
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