From f6a1cdaf3488c9ec572e1f753b50cb58a0f8fd79 Mon Sep 17 00:00:00 2001
From: 志浩 <neo.dzh@alibaba-inc.com>
Date: 星期五, 10 二月 2023 18:56:14 +0800
Subject: [PATCH] add sond model

---
 funasr/models/pooling/statistic_pooling.py |   59 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 files changed, 59 insertions(+), 0 deletions(-)

diff --git a/funasr/models/pooling/statistic_pooling.py b/funasr/models/pooling/statistic_pooling.py
index eeaed7d..dc8c98f 100644
--- a/funasr/models/pooling/statistic_pooling.py
+++ b/funasr/models/pooling/statistic_pooling.py
@@ -2,7 +2,10 @@
 from typing import Tuple
 from typing import Union
 from funasr.modules.nets_utils import make_non_pad_mask
+from torch.nn import functional as F
+import math
 
+VAR2STD_EPSILON = 1e-12
 
 class StatisticPooling(torch.nn.Module):
     def __init__(self, pooling_dim: Union[int, Tuple] = 2, eps=1e-12):
@@ -34,3 +37,59 @@
         stat_pooling = torch.cat([mean, stddev], dim=1)
 
         return stat_pooling
+
+    def convert_tf2torch(self, var_dict_tf, var_dict_torch):
+        return {}
+
+
+def statistic_pooling(
+        xs_pad: torch.Tensor,
+        ilens: torch.Tensor = None,
+        pooling_dim: Tuple = (2, 3)
+) -> torch.Tensor:
+    # xs_pad in (Batch, Channel, Time, Frequency)
+
+    if ilens is None:
+        seq_mask = torch.ones_like(xs_pad).to(xs_pad)
+    else:
+        seq_mask = make_non_pad_mask(ilens, xs_pad, length_dim=2).to(xs_pad)
+    mean = (torch.sum(xs_pad, dim=pooling_dim, keepdim=True) /
+            torch.sum(seq_mask, dim=pooling_dim, keepdim=True))
+    squared_difference = torch.pow(xs_pad - mean, 2.0)
+    variance = (torch.sum(squared_difference, dim=pooling_dim, keepdim=True) /
+                torch.sum(seq_mask, dim=pooling_dim, keepdim=True))
+    for i in reversed(pooling_dim):
+        mean, variance = torch.squeeze(mean, dim=i), torch.squeeze(variance, dim=i)
+
+    value_mask = torch.less_equal(variance, VAR2STD_EPSILON).float()
+    variance = (1.0 - value_mask) * variance + value_mask * VAR2STD_EPSILON
+    stddev = torch.sqrt(variance)
+
+    stat_pooling = torch.cat([mean, stddev], dim=1)
+
+    return stat_pooling
+
+
+def windowed_statistic_pooling(
+        xs_pad: torch.Tensor,
+        ilens: torch.Tensor = None,
+        pooling_dim: Tuple = (2, 3),
+        pooling_size: int = 20,
+        pooling_stride: int = 1
+) -> Tuple[torch.Tensor, int]:
+    # xs_pad in (Batch, Channel, Time, Frequency)
+
+    tt = xs_pad.shape[2]
+    num_chunk = int(math.ceil(tt / pooling_stride))
+    pad = pooling_size // 2
+    features = F.pad(xs_pad, (0, 0, pad, pad), "reflect")
+    stat_list = []
+
+    for i in range(num_chunk):
+        # B x C
+        st, ed = i*pooling_stride, i*pooling_stride+pooling_size
+        stat = statistic_pooling(features[:, :, st: ed, :], pooling_dim=pooling_dim)
+        stat_list.append(stat.unsqueeze(2))
+
+    # B x C x T
+    return torch.cat(stat_list, dim=2), ilens / pooling_stride

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