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PaddleSpeech/paddlespeech/cli/asr/infer.py

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# 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.
import argparse
import io
import os
import sys
from typing import List
from typing import Optional
from typing import Union
import librosa
import numpy as np
import paddle
import soundfile
import yaml
from yacs.config import CfgNode
from ..executor import BaseExecutor
from ..log import logger
from ..utils import cli_register
from ..utils import download_and_decompress
from ..utils import MODEL_HOME
from paddlespeech.s2t.frontend.featurizer.text_featurizer import TextFeaturizer
from paddlespeech.s2t.transform.transformation import Transformation
from paddlespeech.s2t.utils.dynamic_import import dynamic_import
from paddlespeech.s2t.utils.utility import UpdateConfig
__all__ = ['ASRExecutor']
pretrained_models = {
# The tags for pretrained_models should be "{model_name}[_{dataset}][-{lang}][-...]".
# e.g. "conformer_wenetspeech-zh-16k" and "panns_cnn6-32k".
# Command line and python api use "{model_name}[_{dataset}]" as --model, usage:
# "paddlespeech asr --model conformer_wenetspeech --lang zh --sr 16000 --input ./input.wav"
"conformer_wenetspeech-zh-16k": {
'url':
'https://paddlespeech.bj.bcebos.com/s2t/wenetspeech/conformer.model.tar.gz',
'md5':
'54e7a558a6e020c2f5fb224874943f97',
'cfg_path':
'conf/conformer.yaml',
'ckpt_path':
'exp/conformer/checkpoints/wenetspeech',
},
}
model_alias = {
"ds2_offline": "paddlespeech.s2t.models.ds2:DeepSpeech2Model",
"ds2_online": "paddlespeech.s2t.models.ds2_online:DeepSpeech2ModelOnline",
"conformer": "paddlespeech.s2t.models.u2:U2Model",
"transformer": "paddlespeech.s2t.models.u2:U2Model",
"wenetspeech": "paddlespeech.s2t.models.u2:U2Model",
}
@cli_register(
name='paddlespeech.asr', description='Speech to text infer command.')
class ASRExecutor(BaseExecutor):
def __init__(self):
super(ASRExecutor, self).__init__()
self.parser = argparse.ArgumentParser(
prog='paddlespeech.asr', add_help=True)
self.parser.add_argument(
'--input', type=str, required=True, help='Audio file to recognize.')
self.parser.add_argument(
'--model',
type=str,
default='conformer_wenetspeech',
choices=[tag[:tag.index('-')] for tag in pretrained_models.keys()],
help='Choose model type of asr task.')
self.parser.add_argument(
'--lang',
type=str,
default='zh',
help='Choose model language. zh or en')
self.parser.add_argument(
"--sample_rate",
type=int,
default=16000,
choices=[8000, 16000],
help='Choose the audio sample rate of the model. 8000 or 16000')
self.parser.add_argument(
'--config',
type=str,
default=None,
help='Config of asr task. Use deault config when it is None.')
self.parser.add_argument(
'--ckpt_path',
type=str,
default=None,
help='Checkpoint file of model.')
self.parser.add_argument(
'--yes','-y',
action="store_true",
default=False,
help='No additional parameters required. Once set this parameter, it means accepting the request of the program by default, which includes transforming the audio sample rate')
self.parser.add_argument(
'--device',
type=str,
default=paddle.get_device(),
help='Choose device to execute model inference.')
def _get_pretrained_path(self, tag: str) -> os.PathLike:
"""
Download and returns pretrained resources path of current task.
"""
assert tag in pretrained_models, 'Can not find pretrained resources of {}.'.format(
tag)
res_path = os.path.join(MODEL_HOME, tag)
decompressed_path = download_and_decompress(pretrained_models[tag],
res_path)
decompressed_path = os.path.abspath(decompressed_path)
logger.info(
'Use pretrained model stored in: {}'.format(decompressed_path))
return decompressed_path
def _init_from_path(self,
model_type: str='wenetspeech',
lang: str='zh',
sample_rate: int=16000,
cfg_path: Optional[os.PathLike]=None,
ckpt_path: Optional[os.PathLike]=None):
"""
Init model and other resources from a specific path.
"""
if hasattr(self, 'model'):
logger.info('Model had been initialized.')
return
if cfg_path is None or ckpt_path is None:
sample_rate_str = '16k' if sample_rate == 16000 else '8k'
tag = model_type + '-' + lang + '-' + sample_rate_str
res_path = self._get_pretrained_path(tag) # wenetspeech_zh
self.res_path = res_path
self.cfg_path = os.path.join(res_path,
pretrained_models[tag]['cfg_path'])
self.ckpt_path = os.path.join(
res_path, pretrained_models[tag]['ckpt_path'] + ".pdparams")
logger.info(res_path)
logger.info(self.cfg_path)
logger.info(self.ckpt_path)
else:
self.cfg_path = os.path.abspath(cfg_path)
self.ckpt_path = os.path.abspath(ckpt_path + ".pdparams")
res_path = os.path.dirname(
os.path.dirname(os.path.abspath(self.cfg_path)))
#Init body.
self.config = CfgNode(new_allowed=True)
self.config.merge_from_file(self.cfg_path)
self.config.decoding.decoding_method = "attention_rescoring"
with UpdateConfig(self.config):
if "ds2_online" in model_type or "ds2_offline" in model_type:
from paddlespeech.s2t.io.collator import SpeechCollator
self.config.collator.vocab_filepath = os.path.join(
res_path, self.config.collator.vocab_filepath)
self.config.collator.mean_std_filepath = os.path.join(
res_path, self.config.collator.cmvn_path)
self.collate_fn_test = SpeechCollator.from_config(self.config)
text_feature = TextFeaturizer(
unit_type=self.config.collator.unit_type,
vocab=self.config.collator.vocab_filepath,
spm_model_prefix=self.config.collator.spm_model_prefix)
self.config.model.input_dim = self.collate_fn_test.feature_size
self.config.model.output_dim = text_feature.vocab_size
elif "conformer" in model_type or "transformer" in model_type or "wenetspeech" in model_type:
self.config.collator.vocab_filepath = os.path.join(
res_path, self.config.collator.vocab_filepath)
self.config.collator.augmentation_config = os.path.join(
res_path, self.config.collator.augmentation_config)
self.config.collator.spm_model_prefix = os.path.join(
res_path, self.config.collator.spm_model_prefix)
text_feature = TextFeaturizer(
unit_type=self.config.collator.unit_type,
vocab=self.config.collator.vocab_filepath,
spm_model_prefix=self.config.collator.spm_model_prefix)
self.config.model.input_dim = self.config.collator.feat_dim
self.config.model.output_dim = text_feature.vocab_size
else:
raise Exception("wrong type")
# Enter the path of model root
model_name = model_type[:model_type.rindex(
'_')] # model_type: {model_name}_{dataset}
model_class = dynamic_import(model_name, model_alias)
model_conf = self.config.model
logger.info(model_conf)
model = model_class.from_config(model_conf)
self.model = model
self.model.eval()
# load model
model_dict = paddle.load(self.ckpt_path)
self.model.set_state_dict(model_dict)
def preprocess(self, model_type: str, input: Union[str, os.PathLike]):
"""
Input preprocess and return paddle.Tensor stored in self.input.
Input content can be a text(tts), a file(asr, cls) or a streaming(not supported yet).
"""
audio_file = input
logger.info("Preprocess audio_file:" + audio_file)
# Get the object for feature extraction
if "ds2_online" in model_type or "ds2_offline" in model_type:
audio, _ = self.collate_fn_test.process_utterance(
audio_file=audio_file, transcript=" ")
audio_len = audio.shape[0]
audio = paddle.to_tensor(audio, dtype='float32')
audio_len = paddle.to_tensor(audio_len)
audio = paddle.unsqueeze(audio, axis=0)
vocab_list = collate_fn_test.vocab_list
self._inputs["audio"] = audio
self._inputs["audio_len"] = audio_len
logger.info(f"audio feat shape: {audio.shape}")
elif "conformer" in model_type or "transformer" in model_type or "wenetspeech" in model_type:
logger.info("get the preprocess conf")
preprocess_conf_file = self.config.collator.augmentation_config
# redirect the cmvn path
with io.open(preprocess_conf_file, encoding="utf-8") as f:
preprocess_conf = yaml.safe_load(f)
for idx, process in enumerate(preprocess_conf["process"]):
if process['type'] == "cmvn_json":
preprocess_conf["process"][idx][
"cmvn_path"] = os.path.join(
self.res_path,
preprocess_conf["process"][idx]["cmvn_path"])
break
logger.info(preprocess_conf)
preprocess_args = {"train": False}
preprocessing = Transformation(preprocess_conf)
logger.info("read the audio file")
audio, audio_sample_rate = soundfile.read(
audio_file, dtype="int16", always_2d=True)
if self.change_format:
if audio.shape[1] >= 2:
audio = audio.mean(axis=1, dtype=np.int16)
else:
audio = audio[:, 0]
# pcm16 -> pcm 32
audio = self._pcm16to32(audio)
audio = librosa.resample(audio, audio_sample_rate,
self.sample_rate)
audio_sample_rate = self.sample_rate
# pcm32 -> pcm 16
audio = self._pcm32to16(audio)
else:
audio = audio[:, 0]
logger.info(f"audio shape: {audio.shape}")
# fbank
audio = preprocessing(audio, **preprocess_args)
audio_len = paddle.to_tensor(audio.shape[0])
audio = paddle.to_tensor(audio, dtype='float32').unsqueeze(axis=0)
text_feature = TextFeaturizer(
unit_type=self.config.collator.unit_type,
vocab=self.config.collator.vocab_filepath,
spm_model_prefix=self.config.collator.spm_model_prefix)
self._inputs["audio"] = audio
self._inputs["audio_len"] = audio_len
logger.info(f"audio feat shape: {audio.shape}")
else:
raise Exception("wrong type")
@paddle.no_grad()
def infer(self, model_type: str):
"""
Model inference and result stored in self.output.
"""
text_feature = TextFeaturizer(
unit_type=self.config.collator.unit_type,
vocab=self.config.collator.vocab_filepath,
spm_model_prefix=self.config.collator.spm_model_prefix)
cfg = self.config.decoding
audio = self._inputs["audio"]
audio_len = self._inputs["audio_len"]
if "ds2_online" in model_type or "ds2_offline" in model_type:
result_transcripts = self.model.decode(
audio,
audio_len,
text_feature.vocab_list,
decoding_method=cfg.decoding_method,
lang_model_path=cfg.lang_model_path,
beam_alpha=cfg.alpha,
beam_beta=cfg.beta,
beam_size=cfg.beam_size,
cutoff_prob=cfg.cutoff_prob,
cutoff_top_n=cfg.cutoff_top_n,
num_processes=cfg.num_proc_bsearch)
self._outputs["result"] = result_transcripts[0]
elif "conformer" in model_type or "transformer" in model_type:
result_transcripts = self.model.decode(
audio,
audio_len,
text_feature=text_feature,
decoding_method=cfg.decoding_method,
beam_size=cfg.beam_size,
ctc_weight=cfg.ctc_weight,
decoding_chunk_size=cfg.decoding_chunk_size,
num_decoding_left_chunks=cfg.num_decoding_left_chunks,
simulate_streaming=cfg.simulate_streaming)
self._outputs["result"] = result_transcripts[0][0]
else:
raise Exception("invalid model name")
def postprocess(self) -> Union[str, os.PathLike]:
"""
Output postprocess and return human-readable results such as texts and audio files.
"""
return self._outputs["result"]
def _pcm16to32(self, audio):
assert (audio.dtype == np.int16)
audio = audio.astype("float32")
bits = np.iinfo(np.int16).bits
audio = audio / (2**(bits - 1))
return audio
def _pcm32to16(self, audio):
assert (audio.dtype == np.float32)
bits = np.iinfo(np.int16).bits
audio = audio * (2**(bits - 1))
audio = np.round(audio).astype("int16")
return audio
def _check(self, audio_file: str, sample_rate: int, force_yes: bool):
self.sample_rate = sample_rate
if self.sample_rate != 16000 and self.sample_rate != 8000:
logger.error("please input --sr 8000 or --sr 16000")
raise Exception("invalid sample rate")
sys.exit(-1)
if not os.path.isfile(audio_file):
logger.error("Please input the right audio file path")
sys.exit(-1)
logger.info("checking the audio file format......")
try:
audio, audio_sample_rate = soundfile.read(
audio_file, dtype="int16", always_2d=True)
except Exception as e:
logger.exception(e)
logger.error(
"can not open the audio file, please check the audio file format is 'wav'. \n \
you can try to use sox to change the file format.\n \
For example: \n \
sample rate: 16k \n \
sox input_audio.xx --rate 16k --bits 16 --channels 1 output_audio.wav \n \
sample rate: 8k \n \
sox input_audio.xx --rate 8k --bits 16 --channels 1 output_audio.wav \n \
")
sys.exit(-1)
logger.info("The sample rate is %d" % audio_sample_rate)
if audio_sample_rate != self.sample_rate:
logger.warning("The sample rate of the input file is not {}.\n \
The program will resample the wav file to {}.\n \
If the result does not meet your expectations\n \
Please input the 16k 16 bit 1 channel wav file. \
".format(self.sample_rate, self.sample_rate))
if force_yes == False:
while (True):
logger.info(
"Whether to change the sample rate and the channel. Y: change the sample. N: exit the prgream."
)
content = input("Input(Y/N):")
if content.strip() == "Y" or content.strip(
) == "y" or content.strip() == "yes" or content.strip() == "Yes":
logger.info(
"change the sampele rate, channel to 16k and 1 channel")
break
elif content.strip() == "N" or content.strip(
) == "n" or content.strip() == "no" or content.strip() == "No":
logger.info("Exit the program")
exit(1)
else:
logger.warning("Not regular input, please input again")
self.change_format = True
else:
logger.info("The audio file format is right")
self.change_format = False
def execute(self, argv: List[str]) -> bool:
"""
Command line entry.
"""
parser_args = self.parser.parse_args(argv)
model = parser_args.model
lang = parser_args.lang
sample_rate = parser_args.sample_rate
config = parser_args.config
ckpt_path = parser_args.ckpt_path
audio_file = parser_args.input
force_yes = parser_args.yes
device = parser_args.device
try:
res = self(audio_file, model, lang, sample_rate, config, ckpt_path, force_yes,
device)
logger.info('ASR Result: {}'.format(res))
return True
except Exception as e:
logger.exception(e)
return False
def __call__(self,
audio_file: os.PathLike,
model: str='conformer_wenetspeech',
lang: str='zh',
sample_rate: int=16000,
config: os.PathLike=None,
ckpt_path: os.PathLike=None,
force_yes: bool=False,
device=paddle.get_device()):
"""
Python API to call an executor.
"""
audio_file = os.path.abspath(audio_file)
self._check(audio_file, sample_rate, force_yes)
paddle.set_device(device)
self._init_from_path(model, lang, sample_rate, config, ckpt_path)
self.preprocess(model, audio_file)
self.infer(model)
res = self.postprocess() # Retrieve result of asr.
return res