python/FunASR-XL.git

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			@@ -0,0 +1,180 @@
			# Copyright (c) Alibaba, Inc. and its affiliates.
			# Part of the implementation is borrowed from espnet/espnet.

			from typing import Tuple

			import numpy as np
			import torch
			import torchaudio.compliance.kaldi as kaldi
			from funasr.models.frontend.abs_frontend import AbsFrontend
			from typeguard import check_argument_types
			from torch.nn.utils.rnn import pad_sequence
			import kaldifeat

			def load_cmvn(cmvn_file):
			with open(cmvn_file, 'r', encoding='utf-8') as f:
			lines = f.readlines()
			means_list = []
			vars_list = []
			for i in range(len(lines)):
			line_item = lines[i].split()
			if line_item[0] == '<AddShift>':
			line_item = lines[i + 1].split()
			if line_item[0] == '<LearnRateCoef>':
			add_shift_line = line_item[3:(len(line_item) - 1)]
			means_list = list(add_shift_line)
			continue
			elif line_item[0] == '<Rescale>':
			line_item = lines[i + 1].split()
			if line_item[0] == '<LearnRateCoef>':
			rescale_line = line_item[3:(len(line_item) - 1)]
			vars_list = list(rescale_line)
			continue
			means = np.array(means_list).astype(np.float)
			vars = np.array(vars_list).astype(np.float)
			cmvn = np.array([means, vars])
			cmvn = torch.as_tensor(cmvn)
			return cmvn


			def apply_cmvn(inputs, cmvn_file): # noqa
			"""
			Apply CMVN with mvn data
			"""

			device = inputs.device
			dtype = inputs.dtype
			frame, dim = inputs.shape

			cmvn = load_cmvn(cmvn_file)
			means = np.tile(cmvn[0:1, :dim], (frame, 1))
			vars = np.tile(cmvn[1:2, :dim], (frame, 1))
			inputs += torch.from_numpy(means).type(dtype).to(device)
			inputs *= torch.from_numpy(vars).type(dtype).to(device)

			return inputs.type(torch.float32)


			def apply_lfr(inputs, lfr_m, lfr_n):
			LFR_inputs = []
			T = inputs.shape[0]
			T_lfr = int(np.ceil(T / lfr_n))
			left_padding = inputs[0].repeat((lfr_m - 1) // 2, 1)
			inputs = torch.vstack((left_padding, inputs))
			T = T + (lfr_m - 1) // 2
			for i in range(T_lfr):
			if lfr_m <= T - i * lfr_n:
			LFR_inputs.append((inputs[i * lfr_n:i * lfr_n + lfr_m]).view(1, -1))
			else: # process last LFR frame
			num_padding = lfr_m - (T - i * lfr_n)
			frame = (inputs[i * lfr_n:]).view(-1)
			for _ in range(num_padding):
			frame = torch.hstack((frame, inputs[-1]))
			LFR_inputs.append(frame)
			LFR_outputs = torch.vstack(LFR_inputs)
			return LFR_outputs.type(torch.float32)


			class WavFrontend_kaldifeat(AbsFrontend):
			"""Conventional frontend structure for ASR.
			"""

			def __init__(
			self,
			cmvn_file: str = None,
			fs: int = 16000,
			window: str = 'hamming',
			n_mels: int = 80,
			frame_length: int = 25,
			frame_shift: int = 10,
			lfr_m: int = 1,
			lfr_n: int = 1,
			dither: float = 1.0,
			snip_edges: bool = True,
			upsacle_samples: bool = True,
			device: str = 'cpu',
			**kwargs,
			):
			super().__init__()

			opts = kaldifeat.FbankOptions()
			opts.device = device
			opts.frame_opts.samp_freq = fs
			opts.frame_opts.dither = dither
			opts.frame_opts.window_type = window
			opts.frame_opts.frame_shift_ms = float(frame_shift)
			opts.frame_opts.frame_length_ms = float(frame_length)
			opts.mel_opts.num_bins = n_mels
			opts.energy_floor = 0
			opts.frame_opts.snip_edges = snip_edges
			opts.mel_opts.debug_mel = False
			self.opts = opts
			self.fbank_fn = None
			self.fbank_beg_idx = 0
			self.reset_fbank_status()

			self.lfr_m = lfr_m
			self.lfr_n = lfr_n
			self.cmvn_file = cmvn_file
			self.upsacle_samples = upsacle_samples

			def output_size(self) -> int:
			return self.n_mels * self.lfr_m

			def forward_fbank(
			self,
			input: torch.Tensor,
			input_lengths: torch.Tensor) -> Tuple[torch.Tensor, torch.Tensor]:
			batch_size = input.size(0)
			feats = []
			feats_lens = []
			for i in range(batch_size):
			waveform_length = input_lengths[i]
			waveform = input[i][:waveform_length]
			waveform = waveform * (1 << 15)

			self.fbank_fn.accept_waveform(self.opts.frame_opts.samp_freq, waveform.tolist())
			frames = self.fbank_fn.num_frames_ready
			frames_cur = frames - self.fbank_beg_idx
			mat = torch.empty([frames_cur, self.opts.mel_opts.num_bins], dtype=torch.float32).to(
			device=self.opts.device)
			for i in range(self.fbank_beg_idx, frames):
			mat[i, :] = self.fbank_fn.get_frame(i)
			self.fbank_beg_idx += frames_cur

			feat_length = mat.size(0)
			feats.append(mat)
			feats_lens.append(feat_length)

			feats_lens = torch.as_tensor(feats_lens)
			feats_pad = pad_sequence(feats,
			batch_first=True,
			padding_value=0.0)
			return feats_pad, feats_lens

			def reset_fbank_status(self):
			self.fbank_fn = kaldifeat.OnlineFbank(self.opts)
			self.fbank_beg_idx = 0

			def forward_lfr_cmvn(
			self,
			input: torch.Tensor,
			input_lengths: torch.Tensor) -> Tuple[torch.Tensor, torch.Tensor]:
			batch_size = input.size(0)
			feats = []
			feats_lens = []
			for i in range(batch_size):
			mat = input[i, :input_lengths[i], :]
			if self.lfr_m != 1 or self.lfr_n != 1:
			mat = apply_lfr(mat, self.lfr_m, self.lfr_n)
			if self.cmvn_file is not None:
			mat = apply_cmvn(mat, self.cmvn_file)
			feat_length = mat.size(0)
			feats.append(mat)
			feats_lens.append(feat_length)

			feats_lens = torch.as_tensor(feats_lens)
			feats_pad = pad_sequence(feats,
			batch_first=True,
			padding_value=0.0)
			return feats_pad, feats_lens

	funasr/models/frontend/wav_frontend_kaldifeat.py	180 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史
	funasr/runtime/python/onnxruntime/rapid_paraformer/utils/frontend.py	2 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史

			@@ -76,7 +76,7 @@
			mat = np.empty([frames, self.opts.mel_opts.num_bins])
			for i in range(self.fbank_beg_idx, frames):
			mat[i, :] = self.fbank_fn.get_frame(i)
			self.fbank_beg_idx += (frames-self.fbank_beg_idx)
			# self.fbank_beg_idx += (frames-self.fbank_beg_idx)
			feat = mat.astype(np.float32)
			feat_len = np.array(mat.shape[0]).astype(np.int32)
			return feat, feat_len