You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
PaddleSpeech/paddlespeech/s2t/utils/cli_writers.py

295 lines
9.3 KiB

# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Modified from espnet(https://github.com/espnet/espnet)
from pathlib import Path
from typing import Dict
import h5py
import kaldiio
import numpy
import soundfile
from paddlespeech.s2t.io.reader import SoundHDF5File
from paddlespeech.s2t.utils.cli_utils import assert_scipy_wav_style
def file_writer_helper(
wspecifier: str,
filetype: str="mat",
write_num_frames: str=None,
compress: bool=False,
compression_method: int=2,
pcm_format: str="wav", ):
"""Write matrices in kaldi style
Args:
wspecifier: e.g. ark,scp:out.ark,out.scp
filetype: "mat" is kaldi-martix, "hdf5": HDF5
write_num_frames: e.g. 'ark,t:num_frames.txt'
compress: Compress or not
compression_method: Specify compression level
Write in kaldi-matrix-ark with "kaldi-scp" file:
>>> with file_writer_helper('ark,scp:out.ark,out.scp') as f:
>>> f['uttid'] = array
This "scp" has the following format:
uttidA out.ark:1234
uttidB out.ark:2222
where, 1234 and 2222 points the strating byte address of the matrix.
(For detail, see official documentation of Kaldi)
Write in HDF5 with "scp" file:
>>> with file_writer_helper('ark,scp:out.h5,out.scp', 'hdf5') as f:
>>> f['uttid'] = array
This "scp" file is created as:
uttidA out.h5:uttidA
uttidB out.h5:uttidB
HDF5 can be, unlike "kaldi-ark", accessed to any keys,
so originally "scp" is not required for random-reading.
Nevertheless we create "scp" for HDF5 because it is useful
for some use-case. e.g. Concatenation, Splitting.
"""
if filetype == "mat":
return KaldiWriter(
wspecifier,
write_num_frames=write_num_frames,
compress=compress,
compression_method=compression_method, )
elif filetype == "hdf5":
return HDF5Writer(
wspecifier, write_num_frames=write_num_frames, compress=compress)
elif filetype == "sound.hdf5":
return SoundHDF5Writer(
wspecifier,
write_num_frames=write_num_frames,
pcm_format=pcm_format)
elif filetype == "sound":
return SoundWriter(
wspecifier,
write_num_frames=write_num_frames,
pcm_format=pcm_format)
else:
raise NotImplementedError(f"filetype={filetype}")
class BaseWriter:
def __setitem__(self, key, value):
raise NotImplementedError
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.close()
def close(self):
try:
self.writer.close()
except Exception:
pass
if self.writer_scp is not None:
try:
self.writer_scp.close()
except Exception:
pass
if self.writer_nframe is not None:
try:
self.writer_nframe.close()
except Exception:
pass
def get_num_frames_writer(write_num_frames: str):
"""get_num_frames_writer
Examples:
>>> get_num_frames_writer('ark,t:num_frames.txt')
"""
if write_num_frames is not None:
if ":" not in write_num_frames:
raise ValueError('Must include ":", write_num_frames={}'.format(
write_num_frames))
nframes_type, nframes_file = write_num_frames.split(":", 1)
if nframes_type != "ark,t":
raise ValueError("Only supporting text mode. "
"e.g. --write-num-frames=ark,t:foo.txt :"
"{}".format(nframes_type))
return open(nframes_file, "w", encoding="utf-8")
class KaldiWriter(BaseWriter):
def __init__(self,
wspecifier,
write_num_frames=None,
compress=False,
compression_method=2):
if compress:
self.writer = kaldiio.WriteHelper(
wspecifier, compression_method=compression_method)
else:
self.writer = kaldiio.WriteHelper(wspecifier)
self.writer_scp = None
if write_num_frames is not None:
self.writer_nframe = get_num_frames_writer(write_num_frames)
else:
self.writer_nframe = None
def __setitem__(self, key, value):
self.writer[key] = value
if self.writer_nframe is not None:
self.writer_nframe.write(f"{key} {len(value)}\n")
def parse_wspecifier(wspecifier: str) -> Dict[str, str]:
"""Parse wspecifier to dict
Examples:
>>> parse_wspecifier('ark,scp:out.ark,out.scp')
{'ark': 'out.ark', 'scp': 'out.scp'}
"""
ark_scp, filepath = wspecifier.split(":", 1)
if ark_scp not in ["ark", "scp,ark", "ark,scp"]:
raise ValueError("{} is not allowed: {}".format(ark_scp, wspecifier))
ark_scps = ark_scp.split(",")
filepaths = filepath.split(",")
if len(ark_scps) != len(filepaths):
raise ValueError("Mismatch: {} and {}".format(ark_scp, filepath))
spec_dict = dict(zip(ark_scps, filepaths))
return spec_dict
class HDF5Writer(BaseWriter):
"""HDF5Writer
Examples:
>>> with HDF5Writer('ark:out.h5', compress=True) as f:
... f['key'] = array
"""
def __init__(self, wspecifier, write_num_frames=None, compress=False):
spec_dict = parse_wspecifier(wspecifier)
self.filename = spec_dict["ark"]
if compress:
self.kwargs = {"compression": "gzip"}
else:
self.kwargs = {}
self.writer = h5py.File(spec_dict["ark"], "w")
if "scp" in spec_dict:
self.writer_scp = open(spec_dict["scp"], "w", encoding="utf-8")
else:
self.writer_scp = None
if write_num_frames is not None:
self.writer_nframe = get_num_frames_writer(write_num_frames)
else:
self.writer_nframe = None
def __setitem__(self, key, value):
self.writer.create_dataset(key, data=value, **self.kwargs)
if self.writer_scp is not None:
self.writer_scp.write(f"{key} {self.filename}:{key}\n")
if self.writer_nframe is not None:
self.writer_nframe.write(f"{key} {len(value)}\n")
class SoundHDF5Writer(BaseWriter):
"""SoundHDF5Writer
Examples:
>>> fs = 16000
>>> with SoundHDF5Writer('ark:out.h5') as f:
... f['key'] = fs, array
"""
def __init__(self, wspecifier, write_num_frames=None, pcm_format="wav"):
self.pcm_format = pcm_format
spec_dict = parse_wspecifier(wspecifier)
self.filename = spec_dict["ark"]
self.writer = SoundHDF5File(
spec_dict["ark"], "w", format=self.pcm_format)
if "scp" in spec_dict:
self.writer_scp = open(spec_dict["scp"], "w", encoding="utf-8")
else:
self.writer_scp = None
if write_num_frames is not None:
self.writer_nframe = get_num_frames_writer(write_num_frames)
else:
self.writer_nframe = None
def __setitem__(self, key, value):
assert_scipy_wav_style(value)
# Change Tuple[int, ndarray] -> Tuple[ndarray, int]
# (scipy style -> soundfile style)
value = (value[1], value[0])
self.writer.create_dataset(key, data=value)
if self.writer_scp is not None:
self.writer_scp.write(f"{key} {self.filename}:{key}\n")
if self.writer_nframe is not None:
self.writer_nframe.write(f"{key} {len(value[0])}\n")
class SoundWriter(BaseWriter):
"""SoundWriter
Examples:
>>> fs = 16000
>>> with SoundWriter('ark,scp:outdir,out.scp') as f:
... f['key'] = fs, array
"""
def __init__(self, wspecifier, write_num_frames=None, pcm_format="wav"):
self.pcm_format = pcm_format
spec_dict = parse_wspecifier(wspecifier)
# e.g. ark,scp:dirname,wav.scp
# -> The wave files are found in dirname/*.wav
self.dirname = spec_dict["ark"]
Path(self.dirname).mkdir(parents=True, exist_ok=True)
self.writer = None
if "scp" in spec_dict:
self.writer_scp = open(spec_dict["scp"], "w", encoding="utf-8")
else:
self.writer_scp = None
if write_num_frames is not None:
self.writer_nframe = get_num_frames_writer(write_num_frames)
else:
self.writer_nframe = None
def __setitem__(self, key, value):
assert_scipy_wav_style(value)
rate, signal = value
wavfile = Path(self.dirname) / (key + "." + self.pcm_format)
soundfile.write(wavfile, signal.astype(numpy.int16), rate)
if self.writer_scp is not None:
self.writer_scp.write(f"{key} {wavfile}\n")
if self.writer_nframe is not None:
self.writer_nframe.write(f"{key} {len(signal)}\n")