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198 lines
6.4 KiB
198 lines
6.4 KiB
# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# Modified from espnet(https://github.com/espnet/espnet)
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import io
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import json
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import h5py
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import kaldiio
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import numpy as np
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class CMVN():
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"Apply Global/Spk CMVN/iverserCMVN."
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def __init__(
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self,
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stats,
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norm_means=True,
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norm_vars=False,
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filetype="mat",
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utt2spk=None,
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spk2utt=None,
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reverse=False,
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std_floor=1.0e-20, ):
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self.stats_file = stats
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self.norm_means = norm_means
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self.norm_vars = norm_vars
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self.reverse = reverse
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if isinstance(stats, dict):
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stats_dict = dict(stats)
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else:
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# Use for global CMVN
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if filetype == "mat":
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stats_dict = {None: kaldiio.load_mat(stats)}
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# Use for global CMVN
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elif filetype == "npy":
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stats_dict = {None: np.load(stats)}
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# Use for speaker CMVN
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elif filetype == "ark":
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self.accept_uttid = True
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stats_dict = dict(kaldiio.load_ark(stats))
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# Use for speaker CMVN
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elif filetype == "hdf5":
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self.accept_uttid = True
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stats_dict = h5py.File(stats)
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else:
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raise ValueError("Not supporting filetype={}".format(filetype))
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if utt2spk is not None:
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self.utt2spk = {}
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with io.open(utt2spk, "r", encoding="utf-8") as f:
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for line in f:
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utt, spk = line.rstrip().split(None, 1)
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self.utt2spk[utt] = spk
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elif spk2utt is not None:
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self.utt2spk = {}
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with io.open(spk2utt, "r", encoding="utf-8") as f:
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for line in f:
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spk, utts = line.rstrip().split(None, 1)
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for utt in utts.split():
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self.utt2spk[utt] = spk
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else:
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self.utt2spk = None
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# Kaldi makes a matrix for CMVN which has a shape of (2, feat_dim + 1),
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# and the first vector contains the sum of feats and the second is
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# the sum of squares. The last value of the first, i.e. stats[0,-1],
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# is the number of samples for this statistics.
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self.bias = {}
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self.scale = {}
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for spk, stats in stats_dict.items():
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assert len(stats) == 2, stats.shape
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count = stats[0, -1]
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# If the feature has two or more dimensions
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if not (np.isscalar(count) or isinstance(count, (int, float))):
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# The first is only used
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count = count.flatten()[0]
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mean = stats[0, :-1] / count
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# V(x) = E(x^2) - (E(x))^2
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var = stats[1, :-1] / count - mean * mean
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std = np.maximum(np.sqrt(var), std_floor)
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self.bias[spk] = -mean
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self.scale[spk] = 1 / std
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def __repr__(self):
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return ("{name}(stats_file={stats_file}, "
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"norm_means={norm_means}, norm_vars={norm_vars}, "
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"reverse={reverse})".format(
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name=self.__class__.__name__,
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stats_file=self.stats_file,
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norm_means=self.norm_means,
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norm_vars=self.norm_vars,
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reverse=self.reverse, ))
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def __call__(self, x, uttid=None):
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if self.utt2spk is not None:
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spk = self.utt2spk[uttid]
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else:
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spk = uttid
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if not self.reverse:
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# apply cmvn
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if self.norm_means:
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x = np.add(x, self.bias[spk])
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if self.norm_vars:
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x = np.multiply(x, self.scale[spk])
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else:
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# apply reverse cmvn
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if self.norm_vars:
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x = np.divide(x, self.scale[spk])
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if self.norm_means:
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x = np.subtract(x, self.bias[spk])
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return x
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class UtteranceCMVN():
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"Apply Utterance CMVN"
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def __init__(self, norm_means=True, norm_vars=False, std_floor=1.0e-20):
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self.norm_means = norm_means
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self.norm_vars = norm_vars
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self.std_floor = std_floor
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def __repr__(self):
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return "{name}(norm_means={norm_means}, norm_vars={norm_vars})".format(
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name=self.__class__.__name__,
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norm_means=self.norm_means,
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norm_vars=self.norm_vars, )
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def __call__(self, x, uttid=None):
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# x: [Time, Dim]
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square_sums = (x**2).sum(axis=0)
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mean = x.mean(axis=0)
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if self.norm_means:
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x = np.subtract(x, mean)
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if self.norm_vars:
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var = square_sums / x.shape[0] - mean**2
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std = np.maximum(np.sqrt(var), self.std_floor)
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x = np.divide(x, std)
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return x
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class GlobalCMVN():
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"Apply Global CMVN"
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def __init__(self,
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cmvn_path,
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norm_means=True,
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norm_vars=True,
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std_floor=1.0e-20):
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self.cmvn_path = cmvn_path
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self.norm_means = norm_means
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self.norm_vars = norm_vars
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self.std_floor = std_floor
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with open(cmvn_path) as f:
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cmvn_stats = json.load(f)
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self.count = cmvn_stats['frame_num']
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self.mean = np.array(cmvn_stats['mean_stat']) / self.count
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self.square_sums = np.array(cmvn_stats['var_stat'])
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self.var = self.square_sums / self.count - self.mean**2
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self.std = np.maximum(np.sqrt(self.var), self.std_floor)
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def __repr__(self):
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return f"""{self.__class__.__name__}(
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cmvn_path={self.cmvn_path},
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norm_means={self.norm_means},
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norm_vars={self.norm_vars},)"""
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def __call__(self, x, uttid=None):
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# x: [Time, Dim]
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if self.norm_means:
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x = np.subtract(x, self.mean)
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if self.norm_vars:
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x = np.divide(x, self.std)
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return x
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