From b8bf792ce7df411ae4ed8d2bd8c8eba7c59e082b Mon Sep 17 00:00:00 2001
From: 维石 <shixian.shi@alibaba-inc.com>
Date: 星期三, 10 四月 2024 11:37:27 +0800
Subject: [PATCH] fix bug

---
 funasr/models/paraformer/cif_predictor.py |  116 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 files changed, 115 insertions(+), 1 deletions(-)

diff --git a/funasr/models/paraformer/cif_predictor.py b/funasr/models/paraformer/cif_predictor.py
index 4d9f5d8..d538e21 100644
--- a/funasr/models/paraformer/cif_predictor.py
+++ b/funasr/models/paraformer/cif_predictor.py
@@ -155,7 +155,7 @@
                  tf2torch_tensor_name_prefix_tf="seq2seq/cif",
                  tail_mask=True,
                  ):
-        super(CifPredictorV2, self).__init__()
+        super().__init__()
 
         self.pad = torch.nn.ConstantPad1d((l_order, r_order), 0)
         self.cif_conv1d = torch.nn.Conv1d(idim, idim, l_order + r_order + 1)
@@ -375,6 +375,120 @@
         predictor_alignments_length = predictor_alignments.sum(-1).type(encoder_sequence_length.dtype)
         return predictor_alignments.detach(), predictor_alignments_length.detach()
 
+@tables.register("predictor_classes", "CifPredictorV2Export")
+class CifPredictorV2Export(torch.nn.Module):
+    def __init__(self, model, **kwargs):
+        super().__init__()
+        
+        self.pad = model.pad
+        self.cif_conv1d = model.cif_conv1d
+        self.cif_output = model.cif_output
+        self.threshold = model.threshold
+        self.smooth_factor = model.smooth_factor
+        self.noise_threshold = model.noise_threshold
+        self.tail_threshold = model.tail_threshold
+    
+    def forward(self, hidden: torch.Tensor,
+                mask: torch.Tensor,
+                ):
+        alphas, token_num = self.forward_cnn(hidden, mask)
+        mask = mask.transpose(-1, -2).float()
+        mask = mask.squeeze(-1)
+        hidden, alphas, token_num = self.tail_process_fn(hidden, alphas, mask=mask)
+        acoustic_embeds, cif_peak = cif_export(hidden, alphas, self.threshold)
+        
+        return acoustic_embeds, token_num, alphas, cif_peak
+    
+    def forward_cnn(self, hidden: torch.Tensor,
+                    mask: torch.Tensor,
+                    ):
+        h = hidden
+        context = h.transpose(1, 2)
+        queries = self.pad(context)
+        output = torch.relu(self.cif_conv1d(queries))
+        output = output.transpose(1, 2)
+        
+        output = self.cif_output(output)
+        alphas = torch.sigmoid(output)
+        alphas = torch.nn.functional.relu(alphas * self.smooth_factor - self.noise_threshold)
+        mask = mask.transpose(-1, -2).float()
+        alphas = alphas * mask
+        alphas = alphas.squeeze(-1)
+        token_num = alphas.sum(-1)
+        
+        return alphas, token_num
+    
+    def tail_process_fn(self, hidden, alphas, token_num=None, mask=None):
+        b, t, d = hidden.size()
+        tail_threshold = self.tail_threshold
+        
+        zeros_t = torch.zeros((b, 1), dtype=torch.float32, device=alphas.device)
+        ones_t = torch.ones_like(zeros_t)
+        
+        mask_1 = torch.cat([mask, zeros_t], dim=1)
+        mask_2 = torch.cat([ones_t, mask], dim=1)
+        mask = mask_2 - mask_1
+        tail_threshold = mask * tail_threshold
+        alphas = torch.cat([alphas, zeros_t], dim=1)
+        alphas = torch.add(alphas, tail_threshold)
+        
+        zeros = torch.zeros((b, 1, d), dtype=hidden.dtype).to(hidden.device)
+        hidden = torch.cat([hidden, zeros], dim=1)
+        token_num = alphas.sum(dim=-1)
+        token_num_floor = torch.floor(token_num)
+        
+        return hidden, alphas, token_num_floor
+
+@torch.jit.script
+def cif_export(hidden, alphas, threshold: float):
+    batch_size, len_time, hidden_size = hidden.size()
+    threshold = torch.tensor([threshold], dtype=alphas.dtype).to(alphas.device)
+    
+    # loop varss
+    integrate = torch.zeros([batch_size], dtype=alphas.dtype, device=hidden.device)
+    frame = torch.zeros([batch_size, hidden_size], dtype=hidden.dtype, device=hidden.device)
+    # intermediate vars along time
+    list_fires = []
+    list_frames = []
+    
+    for t in range(len_time):
+        alpha = alphas[:, t]
+        distribution_completion = torch.ones([batch_size], dtype=alphas.dtype, device=hidden.device) - integrate
+        
+        integrate += alpha
+        list_fires.append(integrate)
+        
+        fire_place = integrate >= threshold
+        integrate = torch.where(fire_place,
+                                integrate - torch.ones([batch_size], dtype=alphas.dtype, device=hidden.device),
+                                integrate)
+        cur = torch.where(fire_place,
+                          distribution_completion,
+                          alpha)
+        remainds = alpha - cur
+        
+        frame += cur[:, None] * hidden[:, t, :]
+        list_frames.append(frame)
+        frame = torch.where(fire_place[:, None].repeat(1, hidden_size),
+                            remainds[:, None] * hidden[:, t, :],
+                            frame)
+    
+    fires = torch.stack(list_fires, 1)
+    frames = torch.stack(list_frames, 1)
+    
+    fire_idxs = fires >= threshold
+    frame_fires = torch.zeros_like(hidden)
+    max_label_len = frames[0, fire_idxs[0]].size(0)
+    for b in range(batch_size):
+        frame_fire = frames[b, fire_idxs[b]]
+        frame_len = frame_fire.size(0)
+        frame_fires[b, :frame_len, :] = frame_fire
+        
+        if frame_len >= max_label_len:
+            max_label_len = frame_len
+    frame_fires = frame_fires[:, :max_label_len, :]
+    return frame_fires, fires
+
 
 class mae_loss(torch.nn.Module):
 

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