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# This module is from [WeNet](https://github.com/wenet-e2e/wenet). | |
# ## Citations | |
# ```bibtex | |
# @inproceedings{yao2021wenet, | |
# title={WeNet: Production oriented Streaming and Non-streaming End-to-End Speech Recognition Toolkit}, | |
# author={Yao, Zhuoyuan and Wu, Di and Wang, Xiong and Zhang, Binbin and Yu, Fan and Yang, Chao and Peng, Zhendong and Chen, Xiaoyu and Xie, Lei and Lei, Xin}, | |
# booktitle={Proc. Interspeech}, | |
# year={2021}, | |
# address={Brno, Czech Republic }, | |
# organization={IEEE} | |
# } | |
# @article{zhang2022wenet, | |
# title={WeNet 2.0: More Productive End-to-End Speech Recognition Toolkit}, | |
# author={Zhang, Binbin and Wu, Di and Peng, Zhendong and Song, Xingchen and Yao, Zhuoyuan and Lv, Hang and Xie, Lei and Yang, Chao and Pan, Fuping and Niu, Jianwei}, | |
# journal={arXiv preprint arXiv:2203.15455}, | |
# year={2022} | |
# } | |
# | |
import logging | |
import json | |
import random | |
import re | |
import tarfile | |
from subprocess import PIPE, Popen | |
from urllib.parse import urlparse | |
import torch | |
import torchaudio | |
import torchaudio.compliance.kaldi as kaldi | |
from torch.nn.utils.rnn import pad_sequence | |
AUDIO_FORMAT_SETS = set(["flac", "mp3", "m4a", "ogg", "opus", "wav", "wma"]) | |
def url_opener(data): | |
"""Give url or local file, return file descriptor | |
Inplace operation. | |
Args: | |
data(Iterable[str]): url or local file list | |
Returns: | |
Iterable[{src, stream}] | |
""" | |
for sample in data: | |
assert "src" in sample | |
# TODO(Binbin Zhang): support HTTP | |
url = sample["src"] | |
try: | |
pr = urlparse(url) | |
# local file | |
if pr.scheme == "" or pr.scheme == "file": | |
stream = open(url, "rb") | |
# network file, such as HTTP(HDFS/OSS/S3)/HTTPS/SCP | |
else: | |
cmd = f"wget -q -O - {url}" | |
process = Popen(cmd, shell=True, stdout=PIPE) | |
sample.update(process=process) | |
stream = process.stdout | |
sample.update(stream=stream) | |
yield sample | |
except Exception as ex: | |
logging.warning("Failed to open {}".format(url)) | |
def tar_file_and_group(data): | |
"""Expand a stream of open tar files into a stream of tar file contents. | |
And groups the file with same prefix | |
Args: | |
data: Iterable[{src, stream}] | |
Returns: | |
Iterable[{key, wav, txt, sample_rate}] | |
""" | |
for sample in data: | |
assert "stream" in sample | |
stream = tarfile.open(fileobj=sample["stream"], mode="r|*") | |
prev_prefix = None | |
example = {} | |
valid = True | |
for tarinfo in stream: | |
name = tarinfo.name | |
pos = name.rfind(".") | |
assert pos > 0 | |
prefix, postfix = name[:pos], name[pos + 1 :] | |
if prev_prefix is not None and prefix != prev_prefix: | |
example["key"] = prev_prefix | |
if valid: | |
yield example | |
example = {} | |
valid = True | |
with stream.extractfile(tarinfo) as file_obj: | |
try: | |
if postfix == "txt": | |
example["txt"] = file_obj.read().decode("utf8").strip() | |
elif postfix in AUDIO_FORMAT_SETS: | |
waveform, sample_rate = torchaudio.load(file_obj) | |
example["wav"] = waveform | |
example["sample_rate"] = sample_rate | |
else: | |
example[postfix] = file_obj.read() | |
except Exception as ex: | |
valid = False | |
logging.warning("error to parse {}".format(name)) | |
prev_prefix = prefix | |
if prev_prefix is not None: | |
example["key"] = prev_prefix | |
yield example | |
stream.close() | |
if "process" in sample: | |
sample["process"].communicate() | |
sample["stream"].close() | |
def parse_raw(data): | |
"""Parse key/wav/txt from json line | |
Args: | |
data: Iterable[str], str is a json line has key/wav/txt | |
Returns: | |
Iterable[{key, wav, txt, sample_rate}] | |
""" | |
for sample in data: | |
assert "src" in sample | |
json_line = sample["src"] | |
obj = json.loads(json_line) | |
assert "key" in obj | |
assert "wav" in obj | |
assert "txt" in obj | |
key = obj["key"] | |
wav_file = obj["wav"] | |
txt = obj["txt"] | |
try: | |
if "start" in obj: | |
assert "end" in obj | |
sample_rate = torchaudio.backend.sox_io_backend.info( | |
wav_file | |
).sample_rate | |
start_frame = int(obj["start"] * sample_rate) | |
end_frame = int(obj["end"] * sample_rate) | |
waveform, _ = torchaudio.backend.sox_io_backend.load( | |
filepath=wav_file, | |
num_frames=end_frame - start_frame, | |
frame_offset=start_frame, | |
) | |
else: | |
waveform, sample_rate = torchaudio.load(wav_file) | |
example = dict(key=key, txt=txt, wav=waveform, sample_rate=sample_rate) | |
yield example | |
except Exception as ex: | |
logging.warning("Failed to read {}".format(wav_file)) | |
def filter( | |
data, | |
max_length=10240, | |
min_length=10, | |
token_max_length=200, | |
token_min_length=1, | |
min_output_input_ratio=0.0005, | |
max_output_input_ratio=1, | |
): | |
"""Filter sample according to feature and label length | |
Inplace operation. | |
Args:: | |
data: Iterable[{key, wav, label, sample_rate}] | |
max_length: drop utterance which is greater than max_length(10ms) | |
min_length: drop utterance which is less than min_length(10ms) | |
token_max_length: drop utterance which is greater than | |
token_max_length, especially when use char unit for | |
english modeling | |
token_min_length: drop utterance which is | |
less than token_max_length | |
min_output_input_ratio: minimal ration of | |
token_length / feats_length(10ms) | |
max_output_input_ratio: maximum ration of | |
token_length / feats_length(10ms) | |
Returns: | |
Iterable[{key, wav, label, sample_rate}] | |
""" | |
for sample in data: | |
assert "sample_rate" in sample | |
assert "wav" in sample | |
assert "label" in sample | |
# sample['wav'] is torch.Tensor, we have 100 frames every second | |
num_frames = sample["wav"].size(1) / sample["sample_rate"] * 100 | |
if num_frames < min_length: | |
continue | |
if num_frames > max_length: | |
continue | |
if len(sample["label"]) < token_min_length: | |
continue | |
if len(sample["label"]) > token_max_length: | |
continue | |
if num_frames != 0: | |
if len(sample["label"]) / num_frames < min_output_input_ratio: | |
continue | |
if len(sample["label"]) / num_frames > max_output_input_ratio: | |
continue | |
yield sample | |
def resample(data, resample_rate=16000): | |
"""Resample data. | |
Inplace operation. | |
Args: | |
data: Iterable[{key, wav, label, sample_rate}] | |
resample_rate: target resample rate | |
Returns: | |
Iterable[{key, wav, label, sample_rate}] | |
""" | |
print("resample...") | |
for sample in data: | |
assert "sample_rate" in sample | |
assert "wav" in sample | |
sample_rate = sample["sample_rate"] | |
print("sample_rate: ", sample_rate) | |
print("resample_rate: ", resample_rate) | |
waveform = sample["wav"] | |
if sample_rate != resample_rate: | |
sample["sample_rate"] = resample_rate | |
sample["wav"] = torchaudio.transforms.Resample( | |
orig_freq=sample_rate, new_freq=resample_rate | |
)(waveform) | |
yield sample | |
def speed_perturb(data, speeds=None): | |
"""Apply speed perturb to the data. | |
Inplace operation. | |
Args: | |
data: Iterable[{key, wav, label, sample_rate}] | |
speeds(List[float]): optional speed | |
Returns: | |
Iterable[{key, wav, label, sample_rate}] | |
""" | |
if speeds is None: | |
speeds = [0.9, 1.0, 1.1] | |
for sample in data: | |
assert "sample_rate" in sample | |
assert "wav" in sample | |
sample_rate = sample["sample_rate"] | |
waveform = sample["wav"] | |
speed = random.choice(speeds) | |
if speed != 1.0: | |
wav, _ = torchaudio.sox_effects.apply_effects_tensor( | |
waveform, | |
sample_rate, | |
[["speed", str(speed)], ["rate", str(sample_rate)]], | |
) | |
sample["wav"] = wav | |
yield sample | |
def compute_fbank(data, num_mel_bins=23, frame_length=25, frame_shift=10, dither=0.0): | |
"""Extract fbank | |
Args: | |
data: Iterable[{key, wav, label, sample_rate}] | |
Returns: | |
Iterable[{key, feat, label}] | |
""" | |
for sample in data: | |
assert "sample_rate" in sample | |
assert "wav" in sample | |
assert "key" in sample | |
assert "label" in sample | |
sample_rate = sample["sample_rate"] | |
waveform = sample["wav"] | |
waveform = waveform * (1 << 15) | |
# Only keep key, feat, label | |
mat = kaldi.fbank( | |
waveform, | |
num_mel_bins=num_mel_bins, | |
frame_length=frame_length, | |
frame_shift=frame_shift, | |
dither=dither, | |
energy_floor=0.0, | |
sample_frequency=sample_rate, | |
) | |
yield dict(key=sample["key"], label=sample["label"], feat=mat) | |
def compute_mfcc( | |
data, | |
num_mel_bins=23, | |
frame_length=25, | |
frame_shift=10, | |
dither=0.0, | |
num_ceps=40, | |
high_freq=0.0, | |
low_freq=20.0, | |
): | |
"""Extract mfcc | |
Args: | |
data: Iterable[{key, wav, label, sample_rate}] | |
Returns: | |
Iterable[{key, feat, label}] | |
""" | |
for sample in data: | |
assert "sample_rate" in sample | |
assert "wav" in sample | |
assert "key" in sample | |
assert "label" in sample | |
sample_rate = sample["sample_rate"] | |
waveform = sample["wav"] | |
waveform = waveform * (1 << 15) | |
# Only keep key, feat, label | |
mat = kaldi.mfcc( | |
waveform, | |
num_mel_bins=num_mel_bins, | |
frame_length=frame_length, | |
frame_shift=frame_shift, | |
dither=dither, | |
num_ceps=num_ceps, | |
high_freq=high_freq, | |
low_freq=low_freq, | |
sample_frequency=sample_rate, | |
) | |
yield dict(key=sample["key"], label=sample["label"], feat=mat) | |
def __tokenize_by_bpe_model(sp, txt): | |
tokens = [] | |
# CJK(China Japan Korea) unicode range is [U+4E00, U+9FFF], ref: | |
# https://en.wikipedia.org/wiki/CJK_Unified_Ideographs_(Unicode_block) | |
pattern = re.compile(r"([\u4e00-\u9fff])") | |
# Example: | |
# txt = "你好 ITS'S OKAY 的" | |
# chars = ["你", "好", " ITS'S OKAY ", "的"] | |
chars = pattern.split(txt.upper()) | |
mix_chars = [w for w in chars if len(w.strip()) > 0] | |
for ch_or_w in mix_chars: | |
# ch_or_w is a single CJK charater(i.e., "你"), do nothing. | |
if pattern.fullmatch(ch_or_w) is not None: | |
tokens.append(ch_or_w) | |
# ch_or_w contains non-CJK charaters(i.e., " IT'S OKAY "), | |
# encode ch_or_w using bpe_model. | |
else: | |
for p in sp.encode_as_pieces(ch_or_w): | |
tokens.append(p) | |
return tokens | |
def tokenize( | |
data, symbol_table, bpe_model=None, non_lang_syms=None, split_with_space=False | |
): | |
"""Decode text to chars or BPE | |
Inplace operation | |
Args: | |
data: Iterable[{key, wav, txt, sample_rate}] | |
Returns: | |
Iterable[{key, wav, txt, tokens, label, sample_rate}] | |
""" | |
if non_lang_syms is not None: | |
non_lang_syms_pattern = re.compile(r"(\[[^\[\]]+\]|<[^<>]+>|{[^{}]+})") | |
else: | |
non_lang_syms = {} | |
non_lang_syms_pattern = None | |
if bpe_model is not None: | |
import sentencepiece as spm | |
sp = spm.SentencePieceProcessor() | |
sp.load(bpe_model) | |
else: | |
sp = None | |
for sample in data: | |
assert "txt" in sample | |
txt = sample["txt"].strip() | |
if non_lang_syms_pattern is not None: | |
parts = non_lang_syms_pattern.split(txt.upper()) | |
parts = [w for w in parts if len(w.strip()) > 0] | |
else: | |
parts = [txt] | |
label = [] | |
tokens = [] | |
for part in parts: | |
if part in non_lang_syms: | |
tokens.append(part) | |
else: | |
if bpe_model is not None: | |
tokens.extend(__tokenize_by_bpe_model(sp, part)) | |
else: | |
if split_with_space: | |
part = part.split(" ") | |
for ch in part: | |
if ch == " ": | |
ch = "▁" | |
tokens.append(ch) | |
for ch in tokens: | |
if ch in symbol_table: | |
label.append(symbol_table[ch]) | |
elif "<unk>" in symbol_table: | |
label.append(symbol_table["<unk>"]) | |
sample["tokens"] = tokens | |
sample["label"] = label | |
yield sample | |
def spec_aug(data, num_t_mask=2, num_f_mask=2, max_t=50, max_f=10, max_w=80): | |
"""Do spec augmentation | |
Inplace operation | |
Args: | |
data: Iterable[{key, feat, label}] | |
num_t_mask: number of time mask to apply | |
num_f_mask: number of freq mask to apply | |
max_t: max width of time mask | |
max_f: max width of freq mask | |
max_w: max width of time warp | |
Returns | |
Iterable[{key, feat, label}] | |
""" | |
for sample in data: | |
assert "feat" in sample | |
x = sample["feat"] | |
assert isinstance(x, torch.Tensor) | |
y = x.clone().detach() | |
max_frames = y.size(0) | |
max_freq = y.size(1) | |
# time mask | |
for i in range(num_t_mask): | |
start = random.randint(0, max_frames - 1) | |
length = random.randint(1, max_t) | |
end = min(max_frames, start + length) | |
y[start:end, :] = 0 | |
# freq mask | |
for i in range(num_f_mask): | |
start = random.randint(0, max_freq - 1) | |
length = random.randint(1, max_f) | |
end = min(max_freq, start + length) | |
y[:, start:end] = 0 | |
sample["feat"] = y | |
yield sample | |
def spec_sub(data, max_t=20, num_t_sub=3): | |
"""Do spec substitute | |
Inplace operation | |
ref: U2++, section 3.2.3 [https://arxiv.org/abs/2106.05642] | |
Args: | |
data: Iterable[{key, feat, label}] | |
max_t: max width of time substitute | |
num_t_sub: number of time substitute to apply | |
Returns | |
Iterable[{key, feat, label}] | |
""" | |
for sample in data: | |
assert "feat" in sample | |
x = sample["feat"] | |
assert isinstance(x, torch.Tensor) | |
y = x.clone().detach() | |
max_frames = y.size(0) | |
for i in range(num_t_sub): | |
start = random.randint(0, max_frames - 1) | |
length = random.randint(1, max_t) | |
end = min(max_frames, start + length) | |
# only substitute the earlier time chosen randomly for current time | |
pos = random.randint(0, start) | |
y[start:end, :] = x[start - pos : end - pos, :] | |
sample["feat"] = y | |
yield sample | |
def spec_trim(data, max_t=20): | |
"""Trim tailing frames. Inplace operation. | |
ref: TrimTail [https://arxiv.org/abs/2211.00522] | |
Args: | |
data: Iterable[{key, feat, label}] | |
max_t: max width of length trimming | |
Returns | |
Iterable[{key, feat, label}] | |
""" | |
for sample in data: | |
assert "feat" in sample | |
x = sample["feat"] | |
assert isinstance(x, torch.Tensor) | |
max_frames = x.size(0) | |
length = random.randint(1, max_t) | |
if length < max_frames / 2: | |
y = x.clone().detach()[: max_frames - length] | |
sample["feat"] = y | |
yield sample | |
def shuffle(data, shuffle_size=10000): | |
"""Local shuffle the data | |
Args: | |
data: Iterable[{key, feat, label}] | |
shuffle_size: buffer size for shuffle | |
Returns: | |
Iterable[{key, feat, label}] | |
""" | |
buf = [] | |
for sample in data: | |
buf.append(sample) | |
if len(buf) >= shuffle_size: | |
random.shuffle(buf) | |
for x in buf: | |
yield x | |
buf = [] | |
# The sample left over | |
random.shuffle(buf) | |
for x in buf: | |
yield x | |
def sort(data, sort_size=500): | |
"""Sort the data by feature length. | |
Sort is used after shuffle and before batch, so we can group | |
utts with similar lengths into a batch, and `sort_size` should | |
be less than `shuffle_size` | |
Args: | |
data: Iterable[{key, feat, label}] | |
sort_size: buffer size for sort | |
Returns: | |
Iterable[{key, feat, label}] | |
""" | |
buf = [] | |
for sample in data: | |
buf.append(sample) | |
if len(buf) >= sort_size: | |
buf.sort(key=lambda x: x["feat"].size(0)) | |
for x in buf: | |
yield x | |
buf = [] | |
# The sample left over | |
buf.sort(key=lambda x: x["feat"].size(0)) | |
for x in buf: | |
yield x | |
def static_batch(data, batch_size=16): | |
"""Static batch the data by `batch_size` | |
Args: | |
data: Iterable[{key, feat, label}] | |
batch_size: batch size | |
Returns: | |
Iterable[List[{key, feat, label}]] | |
""" | |
buf = [] | |
for sample in data: | |
buf.append(sample) | |
if len(buf) >= batch_size: | |
yield buf | |
buf = [] | |
if len(buf) > 0: | |
yield buf | |
def dynamic_batch(data, max_frames_in_batch=12000): | |
"""Dynamic batch the data until the total frames in batch | |
reach `max_frames_in_batch` | |
Args: | |
data: Iterable[{key, feat, label}] | |
max_frames_in_batch: max_frames in one batch | |
Returns: | |
Iterable[List[{key, feat, label}]] | |
""" | |
buf = [] | |
longest_frames = 0 | |
for sample in data: | |
assert "feat" in sample | |
assert isinstance(sample["feat"], torch.Tensor) | |
new_sample_frames = sample["feat"].size(0) | |
longest_frames = max(longest_frames, new_sample_frames) | |
frames_after_padding = longest_frames * (len(buf) + 1) | |
if frames_after_padding > max_frames_in_batch: | |
yield buf | |
buf = [sample] | |
longest_frames = new_sample_frames | |
else: | |
buf.append(sample) | |
if len(buf) > 0: | |
yield buf | |
def batch(data, batch_type="static", batch_size=16, max_frames_in_batch=12000): | |
"""Wrapper for static/dynamic batch""" | |
if batch_type == "static": | |
return static_batch(data, batch_size) | |
elif batch_type == "dynamic": | |
return dynamic_batch(data, max_frames_in_batch) | |
else: | |
logging.fatal("Unsupported batch type {}".format(batch_type)) | |
def padding(data): | |
"""Padding the data into training data | |
Args: | |
data: Iterable[List[{key, feat, label}]] | |
Returns: | |
Iterable[Tuple(keys, feats, labels, feats lengths, label lengths)] | |
""" | |
for sample in data: | |
assert isinstance(sample, list) | |
feats_length = torch.tensor( | |
[x["feat"].size(0) for x in sample], dtype=torch.int32 | |
) | |
order = torch.argsort(feats_length, descending=True) | |
feats_lengths = torch.tensor( | |
[sample[i]["feat"].size(0) for i in order], dtype=torch.int32 | |
) | |
sorted_feats = [sample[i]["feat"] for i in order] | |
sorted_keys = [sample[i]["key"] for i in order] | |
sorted_labels = [ | |
torch.tensor(sample[i]["label"], dtype=torch.int64) for i in order | |
] | |
label_lengths = torch.tensor( | |
[x.size(0) for x in sorted_labels], dtype=torch.int32 | |
) | |
padded_feats = pad_sequence(sorted_feats, batch_first=True, padding_value=0) | |
padding_labels = pad_sequence(sorted_labels, batch_first=True, padding_value=-1) | |
yield (sorted_keys, padded_feats, padding_labels, feats_lengths, label_lengths) | |