python/FunASR-XL.git

			@@ -13,6 +13,9 @@
			from torch import nn
			from typing import Optional, Tuple

			import torch.nn.functional as F
			from funasr.modules.nets_utils import make_pad_mask

			class MultiHeadedAttention(nn.Module):
			"""Multi-Head Attention layer.

			@@ -959,3 +962,37 @@
			q, k, v = self.forward_qkv(query, key, value)
			scores = self.compute_att_score(q, k, pos_enc, left_context=left_context)
			return self.forward_attention(v, scores, mask, chunk_mask=chunk_mask)


			class CosineDistanceAttention(nn.Module):
			""" Compute Cosine Distance between spk decoder output and speaker profile
			Args:
			profile_path: speaker profile file path (.npy file)
			"""

			def __init__(self):
			super().__init__()
			self.softmax = nn.Softmax(dim=-1)

			def forward(self, spk_decoder_out, profile, profile_lens=None):
			"""
			Args:
			spk_decoder_out(torch.Tensor):(B, L, D)
			spk_profiles(torch.Tensor):(B, N, D)
			"""
			x = spk_decoder_out.unsqueeze(2) # (B, L, 1, D)
			if profile_lens is not None:

			mask = (make_pad_mask(profile_lens)[:, None, :]).to(profile.device)
			min_value = float(
			numpy.finfo(torch.tensor(0, dtype=x.dtype).numpy().dtype).min
			)
			weights_not_softmax=F.cosine_similarity(x, profile.unsqueeze(1), dim=-1).masked_fill(mask, min_value)
			weights = self.softmax(weights_not_softmax).masked_fill(mask, 0.0) # (B, L, N)
			else:
			x = x[:, -1:, :, :]
			weights_not_softmax=F.cosine_similarity(x, profile.unsqueeze(1).to(x.device), dim=-1)
			weights = self.softmax(weights_not_softmax) # (B, 1, N)
			spk_embedding = torch.matmul(weights, profile.to(weights.device)) # (B, L, D)

			return spk_embedding, weights