#!/usr/bin/env python3 # Copyright 2022 Xiaomi Corp. (authors: Fangjun Kuang) # # Copied from https://github.com/k2-fsa/sherpa/blob/master/sherpa/bin/conformer_rnnt/offline_asr.py # # See LICENSE for clarification regarding multiple authors # # 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. """ A standalone script for offline ASR recognition. It loads a torchscript model, decodes the given wav files, and exits. Usage: ./offline_asr.py --help For BPE based models (e.g., LibriSpeech): ./offline_asr.py \ --nn-model-filename /path/to/cpu_jit.pt \ --bpe-model-filename /path/to/bpe.model \ --decoding-method greedy_search \ ./foo.wav \ ./bar.wav \ ./foobar.wav For character based models (e.g., aishell): ./offline.py \ --nn-model-filename /path/to/cpu_jit.pt \ --token-filename /path/to/lang_char/tokens.txt \ --decoding-method greedy_search \ ./foo.wav \ ./bar.wav \ ./foobar.wav Note: We provide pre-trained models for testing. (1) Pre-trained model with the LibriSpeech dataset sudo apt-get install git-lfs git lfs install git clone https://huggingface.co/csukuangfj/icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13 nn_model_filename=./icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13/exp/cpu_jit-torch-1.6.0.pt bpe_model=./icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13/data/lang_bpe_500/bpe.model wav1=./icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13/test_wavs/1089-134686-0001.wav wav2=./icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13/test_wavs/1221-135766-0001.wav wav3=./icefall-asr-librispeech-pruned-transducer-stateless3-2022-05-13/test_wavs/1221-135766-0002.wav sherpa/bin/conformer_rnnt/offline_asr.py \ --nn-model-filename $nn_model_filename \ --bpe-model $bpe_model \ $wav1 \ $wav2 \ $wav3 (2) Pre-trained model with the aishell dataset sudo apt-get install git-lfs git lfs install git clone https://huggingface.co/csukuangfj/icefall-aishell-pruned-transducer-stateless3-2022-06-20 nn_model_filename=./icefall-aishell-pruned-transducer-stateless3-2022-06-20/exp/cpu_jit-epoch-29-avg-5-torch-1.6.0.pt token_filename=./icefall-aishell-pruned-transducer-stateless3-2022-06-20/data/lang_char/tokens.txt wav1=./icefall-aishell-pruned-transducer-stateless3-2022-06-20/test_wavs/BAC009S0764W0121.wav wav2=./icefall-aishell-pruned-transducer-stateless3-2022-06-20/test_wavs/BAC009S0764W0122.wav wav3=./icefall-aishell-pruned-transducer-stateless3-2022-06-20/test_wavs/BAC009S0764W0123.wav sherpa/bin/conformer_rnnt/offline_asr.py \ --nn-model-filename $nn_model_filename \ --token-filename $token_filename \ $wav1 \ $wav2 \ $wav3 """ import argparse import functools import logging from typing import List, Optional, Union import k2 import kaldifeat import sentencepiece as spm import torch import torchaudio from sherpa import RnntConformerModel from decode import run_model_and_do_greedy_search, run_model_and_do_modified_beam_search def get_args(): parser = argparse.ArgumentParser( formatter_class=argparse.ArgumentDefaultsHelpFormatter ) parser.add_argument( "--nn-model-filename", type=str, help="""The torchscript model. You can use icefall/egs/librispeech/ASR/pruned_transducer_statelessX/export.py \ --jit=1 to generate this model. """, ) parser.add_argument( "--bpe-model-filename", type=str, help="""The BPE model You can find it in the directory egs/librispeech/ASR/data/lang_bpe_xxx from icefall, where xxx is the number of BPE tokens you used to train the model. Note: Use it only when your model is using BPE. You don't need to provide it if you provide `--token-filename` """, ) parser.add_argument( "--token-filename", type=str, help="""Filename for tokens.txt You can find it in the directory egs/aishell/ASR/data/lang_char/tokens.txt from icefall. Note: You don't need to provide it if you provide `--bpe-model` """, ) parser.add_argument( "--decoding-method", type=str, default="greedy_search", help="""Decoding method to use. Currently, only greedy_search and modified_beam_search are implemented. """, ) parser.add_argument( "--num-active-paths", type=int, default=4, help="""Used only when decoding_method is modified_beam_search. It specifies number of active paths for each utterance. Due to merging paths with identical token sequences, the actual number may be less than "num_active_paths". """, ) parser.add_argument( "--sample-rate", type=int, default=16000, help="The expected sample rate of the input sound files", ) parser.add_argument( "sound_files", type=str, nargs="+", help="The input sound file(s) to transcribe. " "Supported formats are those supported by torchaudio.load(). " "For example, wav and flac are supported. " "The sample rate has to equal to `--sample-rate`.", ) return parser.parse_args() def read_sound_files( filenames: List[str], expected_sample_rate: int, ) -> List[torch.Tensor]: """Read a list of sound files into a list 1-D float32 torch tensors. Args: filenames: A list of sound filenames. expected_sample_rate: The expected sample rate of the sound files. Returns: Return a list of 1-D float32 torch tensors. """ ans = [] for f in filenames: wave, sample_rate = torchaudio.load(f) assert sample_rate == expected_sample_rate, ( f"expected sample rate: {expected_sample_rate}. " f"Given: {sample_rate}" ) # We use only the first channel ans.append(wave[0]) return ans class OfflineAsr(object): def __init__( self, nn_model_filename: str, bpe_model_filename: Optional[str], token_filename: Optional[str], decoding_method: str, num_active_paths: int, sample_rate: int = 16000, device: Union[str, torch.device] = "cpu", ): """ Args: nn_model_filename: Path to the torch script model. bpe_model_filename: Path to the BPE model. If it is None, you have to provide `token_filename`. token_filename: Path to tokens.txt. If it is None, you have to provide `bpe_model_filename`. decoding_method: The decoding method to use. Currently, only greedy_search and modified_beam_search are implemented. num_active_paths: Used only when decoding_method is modified_beam_search. It specifies number of active paths for each utterance. Due to merging paths with identical token sequences, the actual number may be less than "num_active_paths". sample_rate: Expected sample rate of the feature extractor. device: The device to use for computation. """ self.model = RnntConformerModel( filename=nn_model_filename, device=device, optimize_for_inference=False, ) if bpe_model_filename: self.sp = spm.SentencePieceProcessor() self.sp.load(bpe_model_filename) else: self.token_table = k2.SymbolTable.from_file(token_filename) self.feature_extractor = self._build_feature_extractor( sample_rate=sample_rate, device=device, ) assert decoding_method in ( "greedy_search", "modified_beam_search", ), decoding_method if decoding_method == "greedy_search": nn_and_decoding_func = run_model_and_do_greedy_search elif decoding_method == "modified_beam_search": nn_and_decoding_func = functools.partial( run_model_and_do_modified_beam_search, num_active_paths=num_active_paths, ) else: raise ValueError( f"Unsupported decoding_method: {decoding_method} " "Please use greedy_search or modified_beam_search" ) self.nn_and_decoding_func = nn_and_decoding_func self.device = device def _build_feature_extractor( self, sample_rate: int = 16000, device: Union[str, torch.device] = "cpu", ) -> kaldifeat.OfflineFeature: """Build a fbank feature extractor for extracting features. Args: sample_rate: Expected sample rate of the feature extractor. device: The device to use for computation. Returns: Return a fbank feature extractor. """ opts = kaldifeat.FbankOptions() opts.device = device opts.frame_opts.dither = 0 opts.frame_opts.snip_edges = False opts.frame_opts.samp_freq = sample_rate opts.mel_opts.num_bins = 80 fbank = kaldifeat.Fbank(opts) return fbank def decode_waves(self, waves: List[torch.Tensor]) -> List[List[str]]: """ Args: waves: A list of 1-D torch.float32 tensors containing audio samples. wavs[i] contains audio samples for the i-th utterance. Note: Whether it should be in the range [-32768, 32767] or be normalized to [-1, 1] depends on which range you used for your training data. For instance, if your training data used [-32768, 32767], then the given waves have to contain samples in this range. All models trained in icefall use the normalized range [-1, 1]. Returns: Return a list of decoded results. `ans[i]` contains the decoded results for `wavs[i]`. """ waves = [w.to(self.device) for w in waves] features = self.feature_extractor(waves) tokens = self.nn_and_decoding_func(self.model, features) if hasattr(self, "sp"): results = self.sp.decode(tokens) else: results = [[self.token_table[i] for i in hyp] for hyp in tokens] results = ["".join(r) for r in results] return results @torch.no_grad() def main(): args = get_args() logging.info(vars(args)) nn_model_filename = args.nn_model_filename bpe_model_filename = args.bpe_model_filename token_filename = args.token_filename decoding_method = args.decoding_method num_active_paths = args.num_active_paths sample_rate = args.sample_rate sound_files = args.sound_files assert decoding_method in ("greedy_search", "modified_beam_search"), decoding_method if decoding_method == "modified_beam_search": assert num_active_paths >= 1, num_active_paths if bpe_model_filename: assert token_filename is None if token_filename: assert bpe_model_filename is None device = torch.device("cpu") if torch.cuda.is_available(): device = torch.device("cuda", 0) logging.info(f"device: {device}") offline_asr = OfflineAsr( nn_model_filename=nn_model_filename, bpe_model_filename=bpe_model_filename, token_filename=token_filename, decoding_method=decoding_method, num_active_paths=num_active_paths, sample_rate=sample_rate, device=device, ) waves = read_sound_files( filenames=sound_files, expected_sample_rate=sample_rate, ) logging.info("Decoding started.") hyps = offline_asr.decode_waves(waves) s = "\n" for filename, hyp in zip(sound_files, hyps): s += f"{filename}:\n{hyp}\n\n" logging.info(s) logging.info("Decoding done.") torch.set_num_threads(1) torch.set_num_interop_threads(1) # See https://github.com/pytorch/pytorch/issues/38342 # and https://github.com/pytorch/pytorch/issues/33354 # # If we don't do this, the delay increases whenever there is # a new request that changes the actual batch size. # If you use `py-spy dump --pid --native`, you will # see a lot of time is spent in re-compiling the torch script model. torch._C._jit_set_profiling_executor(False) torch._C._jit_set_profiling_mode(False) torch._C._set_graph_executor_optimize(False) """ // Use the following in C++ torch::jit::getExecutorMode() = false; torch::jit::getProfilingMode() = false; torch::jit::setGraphExecutorOptimize(false); """ if __name__ == "__main__": torch.manual_seed(20220609) formatter = ( "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s" # noqa ) logging.basicConfig(format=formatter, level=logging.INFO) main()