diff --git a/.flake8 b/.flake8 index 609fa2c03..a0f44263c 100644 --- a/.flake8 +++ b/.flake8 @@ -11,7 +11,7 @@ per-file-ignores = egs/*/ASR/*/scaling.py: E501, egs/librispeech/ASR/lstm_transducer_stateless*/*.py: E501, E203 egs/librispeech/ASR/conv_emformer_transducer_stateless*/*.py: E501, E203 - egs/librispeech/ASR/conformer_ctc2/*py: E501, + egs/librispeech/ASR/conformer_ctc*/*py: E501, egs/librispeech/ASR/RESULTS.md: E999, # invalid escape sequence (cause by tex formular), W605 diff --git a/.github/scripts/run-librispeech-conformer-ctc3-2022-11-28.sh b/.github/scripts/run-librispeech-conformer-ctc3-2022-11-28.sh new file mode 100755 index 000000000..27944807f --- /dev/null +++ b/.github/scripts/run-librispeech-conformer-ctc3-2022-11-28.sh @@ -0,0 +1,119 @@ +#!/usr/bin/env bash + +set -e + +log() { + # This function is from espnet + local fname=${BASH_SOURCE[1]##*/} + echo -e "$(date '+%Y-%m-%d %H:%M:%S') (${fname}:${BASH_LINENO[0]}:${FUNCNAME[1]}) $*" +} + +cd egs/librispeech/ASR + +repo_url=https://huggingface.co/Zengwei/icefall-asr-librispeech-conformer-ctc3-2022-11-27 + +log "Downloading pre-trained model from $repo_url" +git lfs install +GIT_LFS_SKIP_SMUDGE=1 git clone $repo_url +repo=$(basename $repo_url) + +log "Display test files" +tree $repo/ +soxi $repo/test_wavs/*.wav +ls -lh $repo/test_wavs/*.wav + +pushd $repo/exp +git lfs pull --include "data/*" +git lfs pull --include "exp/jit_trace.pt" +git lfs pull --include "exp/pretrained.pt" +ln -s pretrained.pt epoch-99.pt +ls -lh *.pt +popd + +log "Decode with models exported by torch.jit.trace()" + +for m in ctc-decoding 1best; do + ./conformer_ctc3/jit_pretrained.py \ + --model-filename $repo/exp/jit_trace.pt \ + --words-file $repo/data/lang_bpe_500/words.txt \ + --HLG $repo/data/lang_bpe_500/HLG.pt \ + --bpe-model $repo/data/lang_bpe_500/bpe.model \ + --G $repo/data/lm/G_4_gram.pt \ + --method $m \ + --sample-rate 16000 \ + $repo/test_wavs/1089-134686-0001.wav \ + $repo/test_wavs/1221-135766-0001.wav \ + $repo/test_wavs/1221-135766-0002.wav +done + +log "Export to torchscript model" + +./conformer_ctc3/export.py \ + --exp-dir $repo/exp \ + --lang-dir $repo/data/lang_bpe_500 \ + --jit-trace 1 \ + --epoch 99 \ + --avg 1 \ + --use-averaged-model 0 + +ls -lh $repo/exp/*.pt + +log "Decode with models exported by torch.jit.trace()" + +for m in ctc-decoding 1best; do + ./conformer_ctc3/jit_pretrained.py \ + --model-filename $repo/exp/jit_trace.pt \ + --words-file $repo/data/lang_bpe_500/words.txt \ + --HLG $repo/data/lang_bpe_500/HLG.pt \ + --bpe-model $repo/data/lang_bpe_500/bpe.model \ + --G $repo/data/lm/G_4_gram.pt \ + --method $m \ + --sample-rate 16000 \ + $repo/test_wavs/1089-134686-0001.wav \ + $repo/test_wavs/1221-135766-0001.wav \ + $repo/test_wavs/1221-135766-0002.wav +done + +for m in ctc-decoding 1best; do + ./conformer_ctc3/pretrained.py \ + --checkpoint $repo/exp/pretrained.pt \ + --words-file $repo/data/lang_bpe_500/words.txt \ + --HLG $repo/data/lang_bpe_500/HLG.pt \ + --bpe-model $repo/data/lang_bpe_500/bpe.model \ + --G $repo/data/lm/G_4_gram.pt \ + --method $m \ + --sample-rate 16000 \ + $repo/test_wavs/1089-134686-0001.wav \ + $repo/test_wavs/1221-135766-0001.wav \ + $repo/test_wavs/1221-135766-0002.wav +done + +echo "GITHUB_EVENT_NAME: ${GITHUB_EVENT_NAME}" +echo "GITHUB_EVENT_LABEL_NAME: ${GITHUB_EVENT_LABEL_NAME}" +if [[ x"${GITHUB_EVENT_NAME}" == x"schedule" || x"${GITHUB_EVENT_LABEL_NAME}" == x"run-decode" ]]; then + mkdir -p conformer_ctc3/exp + ln -s $PWD/$repo/exp/pretrained.pt conformer_ctc3/exp/epoch-999.pt + ln -s $PWD/$repo/data/lang_bpe_500 data/ + + ls -lh data + ls -lh conformer_ctc3/exp + + log "Decoding test-clean and test-other" + + # use a small value for decoding with CPU + max_duration=100 + + for method in ctc-decoding 1best; do + log "Decoding with $method" + ./conformer_ctc3/decode.py \ + --epoch 999 \ + --avg 1 \ + --use-averaged-model 0 \ + --exp-dir conformer_ctc3/exp/ \ + --max-duration $max_duration \ + --decoding-method $method \ + --lm-dir data/lm + done + + rm conformer_ctc3/exp/*.pt +fi diff --git a/.github/workflows/run-librispeech-conformer-ctc3-2022-11-28.yml b/.github/workflows/run-librispeech-conformer-ctc3-2022-11-28.yml new file mode 100644 index 000000000..21f396c32 --- /dev/null +++ b/.github/workflows/run-librispeech-conformer-ctc3-2022-11-28.yml @@ -0,0 +1,151 @@ +# Copyright 2022 Fangjun Kuang (csukuangfj@gmail.com) + +# 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. + +name: run-librispeech-conformer-ctc3-2022-11-28 +# zipformer + +on: + push: + branches: + - master + pull_request: + types: [labeled] + + schedule: + # minute (0-59) + # hour (0-23) + # day of the month (1-31) + # month (1-12) + # day of the week (0-6) + # nightly build at 15:50 UTC time every day + - cron: "50 15 * * *" + +jobs: + run_librispeech_2022_11_28_conformer_ctc3: + if: github.event.label.name == 'ready' || github.event.label.name == 'run-decode' || github.event_name == 'push' || github.event_name == 'schedule' + runs-on: ${{ matrix.os }} + strategy: + matrix: + os: [ubuntu-latest] + python-version: [3.8] + + fail-fast: false + + steps: + - uses: actions/checkout@v2 + with: + fetch-depth: 0 + + - name: Setup Python ${{ matrix.python-version }} + uses: actions/setup-python@v2 + with: + python-version: ${{ matrix.python-version }} + cache: 'pip' + cache-dependency-path: '**/requirements-ci.txt' + + - name: Install Python dependencies + run: | + grep -v '^#' ./requirements-ci.txt | xargs -n 1 -L 1 pip install + pip uninstall -y protobuf + pip install --no-binary protobuf protobuf + + - name: Cache kaldifeat + id: my-cache + uses: actions/cache@v2 + with: + path: | + ~/tmp/kaldifeat + key: cache-tmp-${{ matrix.python-version }}-2022-09-25 + + - name: Install kaldifeat + if: steps.my-cache.outputs.cache-hit != 'true' + shell: bash + run: | + .github/scripts/install-kaldifeat.sh + + - name: Cache LibriSpeech test-clean and test-other datasets + id: libri-test-clean-and-test-other-data + uses: actions/cache@v2 + with: + path: | + ~/tmp/download + key: cache-libri-test-clean-and-test-other + + - name: Download LibriSpeech test-clean and test-other + if: steps.libri-test-clean-and-test-other-data.outputs.cache-hit != 'true' + shell: bash + run: | + .github/scripts/download-librispeech-test-clean-and-test-other-dataset.sh + + - name: Prepare manifests for LibriSpeech test-clean and test-other + shell: bash + run: | + .github/scripts/prepare-librispeech-test-clean-and-test-other-manifests.sh + + - name: Cache LibriSpeech test-clean and test-other fbank features + id: libri-test-clean-and-test-other-fbank + uses: actions/cache@v2 + with: + path: | + ~/tmp/fbank-libri + key: cache-libri-fbank-test-clean-and-test-other-v2 + + - name: Compute fbank for LibriSpeech test-clean and test-other + if: steps.libri-test-clean-and-test-other-fbank.outputs.cache-hit != 'true' + shell: bash + run: | + .github/scripts/compute-fbank-librispeech-test-clean-and-test-other.sh + + - name: Inference with pre-trained model + shell: bash + env: + GITHUB_EVENT_NAME: ${{ github.event_name }} + GITHUB_EVENT_LABEL_NAME: ${{ github.event.label.name }} + run: | + mkdir -p egs/librispeech/ASR/data + ln -sfv ~/tmp/fbank-libri egs/librispeech/ASR/data/fbank + ls -lh egs/librispeech/ASR/data/* + + sudo apt-get -qq install git-lfs tree sox + export PYTHONPATH=$PWD:$PYTHONPATH + export PYTHONPATH=~/tmp/kaldifeat/kaldifeat/python:$PYTHONPATH + export PYTHONPATH=~/tmp/kaldifeat/build/lib:$PYTHONPATH + + .github/scripts/run-librispeech-conformer-ctc3-2022-11-28.sh + + - name: Display decoding results for librispeech conformer_ctc3 + if: github.event_name == 'schedule' || github.event.label.name == 'run-decode' + shell: bash + run: | + cd egs/librispeech/ASR/ + tree ./conformer_ctc3/exp + + cd conformer_ctc3 + echo "results for conformer_ctc3" + echo "===ctc-decoding===" + find exp/ctc-decoding -name "log-*" -exec grep -n --color "best for test-clean" {} + | sort -n -k2 + find exp/ctc-decoding -name "log-*" -exec grep -n --color "best for test-other" {} + | sort -n -k2 + + echo "===1best===" + find exp/1best -name "log-*" -exec grep -n --color "best for test-clean" {} + | sort -n -k2 + find exp/1best -name "log-*" -exec grep -n --color "best for test-other" {} + | sort -n -k2 + + - name: Upload decoding results for librispeech conformer_ctc3 + uses: actions/upload-artifact@v2 + if: github.event_name == 'schedule' || github.event.label.name == 'run-decode' + with: + name: torch-${{ matrix.torch }}-python-${{ matrix.python-version }}-ubuntu-18.04-cpu-conformer_ctc3-2022-11-28 + path: egs/librispeech/ASR/conformer_ctc3/exp/ diff --git a/egs/librispeech/ASR/RESULTS.md b/egs/librispeech/ASR/RESULTS.md index 030e47b86..efd60ba81 100644 --- a/egs/librispeech/ASR/RESULTS.md +++ b/egs/librispeech/ASR/RESULTS.md @@ -1,5 +1,106 @@ ## Results +### LibriSpeech BPE training results (Conformer CTC, supporting delay penalty) + +#### [conformer_ctc3](./conformer_ctc3) + +It implements Conformer model training with CTC loss. +For streaming mode, it supports symbol delay penalty. + +See for more details. + +##### training on full librispeech + +This model contains 12 encoder layers. The number of model parameters is 77352694. + +The WERs are: + +| | test-clean | test-other | comment | +|-------------------------------------|------------|------------|----------------------| +| ctc-decoding | 3.09 | 7.62 | --epoch 25 --avg 7 | +| 1best | 2.87 | 6.44 | --epoch 25 --avg 7 | +| nbest | 2.88 | 6.5 | --epoch 25 --avg 7 | +| nbest-rescoring | 2.71 | 6.1 | --epoch 25 --avg 7 | +| whole-lattice-rescoring | 2.71 | 6.04 | --epoch 25 --avg 7 | + +The training command is: + +```bash +./conformer_ctc3/train.py \ + --world-size 4 \ + --num-epochs 25 \ + --start-epoch 1 \ + --exp-dir conformer_ctc3/full \ + --full-libri 1 \ + --max-duration 300 \ + --master-port 12345 +``` + +The tensorboard log can be found at + + +The decoding command using different methods is: +```bash +for method in ctc-decoding 1best nbest nbest-rescoring whole-lattice-rescoring; do + ./conformer_ctc3/decode.py \ + --epoch 25 \ + --avg 7 \ + --exp-dir conformer_ctc3/exp \ + --max-duration 300 \ + --decoding-method $method \ + --manifest-dir data/fbank \ + --lm-dir data/lm \ +done +``` + +Pretrained models, training logs, decoding logs, and decoding results +are available at + + +The command to train a streaming model with symbol delay penalty is: +```bash +./conformer_ctc3/train.py \ + --world-size 4 \ + --num-epochs 30 \ + --start-epoch 1 \ + --exp-dir conformer_ctc3/exp \ + --full-libri 1 \ + --dynamic-chunk-training 1 \ + --causal-convolution 1 \ + --short-chunk-size 25 \ + --num-left-chunks 4 \ + --max-duration 300 \ + --delay-penalty 0.1 +``` +To evaluate symbol delay, you should: +(1) Generate cuts with word-time alignments: +```bash +./local/add_alignment_librispeech.py \ + --alignments-dir data/alignment \ + --cuts-in-dir data/fbank \ + --cuts-out-dir data/fbank_ali +``` +(2) Set the argument "--manifest-dir data/fbank_ali" while decoding. +For example: +```bash +./conformer_ctc3/decode.py \ + --epoch 25 \ + --avg 7 \ + --exp-dir ./conformer_ctc3/exp \ + --max-duration 300 \ + --decoding-method ctc-decoding \ + --simulate-streaming 1 \ + --causal-convolution 1 \ + --decode-chunk-size 16 \ + --left-context 64 \ + --manifest-dir data/fbank_ali +``` +Note: It supports to calculate symbol delay with following decoding methods: + - ctc-greedy-search + - ctc-decoding + - 1best + + ### pruned_transducer_stateless8 (zipformer + multidataset) See for more details. @@ -115,7 +216,6 @@ done ``` - ### LibriSpeech BPE training results (Pruned Stateless LSTM RNN-T + gradient filter) #### [lstm_transducer_stateless3](./lstm_transducer_stateless3) diff --git a/egs/librispeech/ASR/conformer_ctc3/__init__.py b/egs/librispeech/ASR/conformer_ctc3/__init__.py new file mode 120000 index 000000000..b24e5e357 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/__init__.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/__init__.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/asr_datamodule.py b/egs/librispeech/ASR/conformer_ctc3/asr_datamodule.py new file mode 120000 index 000000000..a074d6085 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/asr_datamodule.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/asr_datamodule.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/conformer.py b/egs/librispeech/ASR/conformer_ctc3/conformer.py new file mode 120000 index 000000000..3b84b9573 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/conformer.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/conformer.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/decode.py b/egs/librispeech/ASR/conformer_ctc3/decode.py new file mode 100755 index 000000000..8eca2ae02 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/decode.py @@ -0,0 +1,1004 @@ +#!/usr/bin/env python3 +# +# Copyright 2021-2022 Xiaomi Corporation (Author: Fangjun Kuang, +# Zengwei Yao) +# +# 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. +""" +Usage: +(1) decode in non-streaming mode (take ctc-decoding as an example) +./conformer_ctc3/decode.py \ + --epoch 30 \ + --avg 15 \ + --exp-dir ./conformer_ctc3/exp \ + --max-duration 600 \ + --decoding-method ctc-decoding + +(2) decode in streaming mode (take ctc-decoding as an example) +./conformer_ctc3/decode.py \ + --epoch 30 \ + --avg 15 \ + --simulate-streaming 1 \ + --causal-convolution 1 \ + --decode-chunk-size 16 \ + --left-context 64 \ + --exp-dir ./conformer_ctc3/exp \ + --max-duration 600 \ + --decoding-method ctc-decoding + +To evaluate symbol delay, you should: +(1) Generate cuts with word-time alignments: +./local/add_alignment_librispeech.py \ + --alignments-dir data/alignment \ + --cuts-in-dir data/fbank \ + --cuts-out-dir data/fbank_ali +(2) Set the argument "--manifest-dir data/fbank_ali" while decoding. +For example: +./conformer_ctc3/decode.py \ + --epoch 30 \ + --avg 15 \ + --exp-dir ./conformer_ctc3/exp \ + --max-duration 600 \ + --decoding-method ctc-decoding \ + --simulate-streaming 1 \ + --causal-convolution 1 \ + --decode-chunk-size 16 \ + --left-context 64 \ + --manifest-dir data/fbank_ali +Note: It supports calculating symbol delay with following decoding methods: + - ctc-greedy-search + - ctc-decoding + - 1best +""" + + +import argparse +import logging +import math +from collections import defaultdict +from pathlib import Path +from typing import Dict, List, Optional, Tuple + +import k2 +import sentencepiece as spm +import torch +import torch.nn as nn +from asr_datamodule import LibriSpeechAsrDataModule +from train import add_model_arguments, get_ctc_model, get_params + +from icefall.bpe_graph_compiler import BpeCtcTrainingGraphCompiler +from icefall.checkpoint import ( + average_checkpoints, + average_checkpoints_with_averaged_model, + find_checkpoints, + load_checkpoint, +) +from icefall.decode import ( + get_lattice, + nbest_decoding, + nbest_oracle, + one_best_decoding, + rescore_with_n_best_list, + rescore_with_whole_lattice, +) +from icefall.lexicon import Lexicon +from icefall.utils import ( + AttributeDict, + DecodingResults, + get_texts, + get_texts_with_timestamp, + make_pad_mask, + parse_hyp_and_timestamp, + setup_logger, + store_transcripts_and_timestamps, + str2bool, + write_error_stats_with_timestamps, +) + +LOG_EPS = math.log(1e-10) + + +def get_parser(): + parser = argparse.ArgumentParser( + formatter_class=argparse.ArgumentDefaultsHelpFormatter + ) + + parser.add_argument( + "--epoch", + type=int, + default=30, + help="""It specifies the checkpoint to use for decoding. + Note: Epoch counts from 1. + You can specify --avg to use more checkpoints for model averaging.""", + ) + + parser.add_argument( + "--iter", + type=int, + default=0, + help="""If positive, --epoch is ignored and it + will use the checkpoint exp_dir/checkpoint-iter.pt. + You can specify --avg to use more checkpoints for model averaging. + """, + ) + + parser.add_argument( + "--avg", + type=int, + default=15, + help="Number of checkpoints to average. Automatically select " + "consecutive checkpoints before the checkpoint specified by " + "'--epoch' and '--iter'", + ) + + parser.add_argument( + "--use-averaged-model", + type=str2bool, + default=True, + help="Whether to load averaged model. Currently it only supports " + "using --epoch. If True, it would decode with the averaged model " + "over the epoch range from `epoch-avg` (excluded) to `epoch`." + "Actually only the models with epoch number of `epoch-avg` and " + "`epoch` are loaded for averaging. ", + ) + + parser.add_argument( + "--exp-dir", + type=str, + default="pruned_transducer_stateless4/exp", + help="The experiment dir", + ) + + parser.add_argument( + "--lang-dir", + type=Path, + default="data/lang_bpe_500", + help="The lang dir containing word table and LG graph", + ) + + parser.add_argument( + "--decoding-method", + type=str, + default="ctc-decoding", + help="""Decoding method. + Supported values are: + - (0) ctc-decoding. Use CTC decoding. It uses a sentence piece + model, i.e., lang_dir/bpe.model, to convert word pieces to words. + It needs neither a lexicon nor an n-gram LM. + - (1) ctc-greedy-search. It only use CTC output and a sentence piece + model for decoding. It produces the same results with ctc-decoding. + - (2) 1best. Extract the best path from the decoding lattice as the + decoding result. + - (3) nbest. Extract n paths from the decoding lattice; the path + with the highest score is the decoding result. + - (4) nbest-rescoring. Extract n paths from the decoding lattice, + rescore them with an n-gram LM (e.g., a 4-gram LM), the path with + the highest score is the decoding result. + - (5) whole-lattice-rescoring. Rescore the decoding lattice with an + n-gram LM (e.g., a 4-gram LM), the best path of rescored lattice + is the decoding result. + you have trained an RNN LM using ./rnn_lm/train.py + - (6) nbest-oracle. Its WER is the lower bound of any n-best + rescoring method can achieve. Useful for debugging n-best + rescoring method. + """, + ) + + parser.add_argument( + "--num-paths", + type=int, + default=100, + help="""Number of paths for n-best based decoding method. + Used only when "method" is one of the following values: + nbest, nbest-rescoring, and nbest-oracle + """, + ) + + parser.add_argument( + "--nbest-scale", + type=float, + default=0.5, + help="""The scale to be applied to `lattice.scores`. + It's needed if you use any kinds of n-best based rescoring. + Used only when "method" is one of the following values: + nbest, nbest-rescoring, and nbest-oracle + A smaller value results in more unique paths. + """, + ) + + parser.add_argument( + "--lm-dir", + type=str, + default="data/lm", + help="""The n-gram LM dir. + It should contain either G_4_gram.pt or G_4_gram.fst.txt + """, + ) + + parser.add_argument( + "--simulate-streaming", + type=str2bool, + default=False, + help="""Whether to simulate streaming in decoding, this is a good way to + test a streaming model. + """, + ) + + parser.add_argument( + "--decode-chunk-size", + type=int, + default=16, + help="The chunk size for decoding (in frames after subsampling)", + ) + + parser.add_argument( + "--left-context", + type=int, + default=64, + help="left context can be seen during decoding (in frames after subsampling)", + ) + + add_model_arguments(parser) + + return parser + + +def get_decoding_params() -> AttributeDict: + """Parameters for decoding.""" + params = AttributeDict( + { + "frame_shift_ms": 10, + "search_beam": 20, + "output_beam": 8, + "min_active_states": 30, + "max_active_states": 10000, + "use_double_scores": True, + } + ) + return params + + +def ctc_greedy_search( + ctc_probs: torch.Tensor, + nnet_output_lens: torch.Tensor, +) -> List[List[int]]: + """Apply CTC greedy search + Args: + ctc_probs (torch.Tensor): (batch, max_len, feat_dim) + nnet_output_lens (torch.Tensor): (batch, ) + Returns: + List[List[int]]: best path result + """ + topk_prob, topk_index = ctc_probs.topk(1, dim=2) # (B, maxlen, 1) + topk_index = topk_index.squeeze(2) # (B, maxlen) + mask = make_pad_mask(nnet_output_lens) + topk_index = topk_index.masked_fill_(mask, 0) # (B, maxlen) + hyps = [hyp.tolist() for hyp in topk_index] + scores = topk_prob.max(1) + ret_hyps = [] + timestamps = [] + for i in range(len(hyps)): + hyp, time = remove_duplicates_and_blank(hyps[i]) + ret_hyps.append(hyp) + timestamps.append(time) + return ret_hyps, timestamps, scores + + +def remove_duplicates_and_blank(hyp: List[int]) -> Tuple[List[int], List[int]]: + # modified from https://github.com/wenet-e2e/wenet/blob/main/wenet/utils/common.py + new_hyp: List[int] = [] + time: List[int] = [] + cur = 0 + while cur < len(hyp): + if hyp[cur] != 0: + new_hyp.append(hyp[cur]) + time.append(cur) + prev = cur + while cur < len(hyp) and hyp[cur] == hyp[prev]: + cur += 1 + return new_hyp, time + + +def decode_one_batch( + params: AttributeDict, + model: nn.Module, + HLG: Optional[k2.Fsa], + H: Optional[k2.Fsa], + bpe_model: Optional[spm.SentencePieceProcessor], + batch: dict, + word_table: k2.SymbolTable, + sos_id: int, + eos_id: int, + G: Optional[k2.Fsa] = None, +) -> Dict[str, Tuple[List[List[str]], List[List[float]]]]: + """Decode one batch and return the result in a dict. The dict has the + following format: + - key: It indicates the setting used for decoding. For example, + if no rescoring is used, the key is the string `no_rescore`. + If LM rescoring is used, the key is the string `lm_scale_xxx`, + where `xxx` is the value of `lm_scale`. An example key is + `lm_scale_0.7` + - value: It contains the decoding result. `len(value)` equals to + batch size. `value[i]` is the decoding result for the i-th + utterance in the given batch. + + Args: + params: + It's the return value of :func:`get_params`. + + - params.decoding_method is "1best", it uses 1best decoding without LM rescoring. + - params.decoding_method is "nbest", it uses nbest decoding without LM rescoring. + - params.decoding_method is "nbest-rescoring", it uses nbest LM rescoring. + - params.decoding_method is "whole-lattice-rescoring", it uses whole lattice LM + rescoring. + + model: + The neural model. + HLG: + The decoding graph. Used only when params.decoding_method is NOT ctc-decoding. + H: + The ctc topo. Used only when params.decoding_method is ctc-decoding. + bpe_model: + The BPE model. Used only when params.decoding_method is ctc-decoding. + batch: + It is the return value from iterating + `lhotse.dataset.K2SpeechRecognitionDataset`. See its documentation + for the format of the `batch`. + word_table: + The word symbol table. + sos_id: + The token ID of the SOS. + eos_id: + The token ID of the EOS. + G: + An LM. It is not None when params.decoding_method is "nbest-rescoring" + or "whole-lattice-rescoring". In general, the G in HLG + is a 3-gram LM, while this G is a 4-gram LM. + Returns: + Return the decoding result. See above description for the format of + the returned dict. Note: If it decodes to nothing, then return None. + """ + if HLG is not None: + device = HLG.device + else: + device = H.device + feature = batch["inputs"] + assert feature.ndim == 3 + feature = feature.to(device) + # at entry, feature is (N, T, C) + + supervisions = batch["supervisions"] + feature_lens = supervisions["num_frames"].to(device) + + if params.simulate_streaming: + feature_lens += params.left_context + feature = torch.nn.functional.pad( + feature, + pad=(0, 0, 0, params.left_context), + value=LOG_EPS, + ) + encoder_out, encoder_out_lens, _ = model.encoder.streaming_forward( + x=feature, + x_lens=feature_lens, + chunk_size=params.decode_chunk_size, + left_context=params.left_context, + simulate_streaming=True, + ) + else: + encoder_out, encoder_out_lens = model.encoder(feature, feature_lens) + + nnet_output = model.get_ctc_output(encoder_out) + # nnet_output is (N, T, C) + + if params.decoding_method == "ctc-greedy-search": + hyps, timestamps, _ = ctc_greedy_search( + nnet_output, + encoder_out_lens, + ) + res = DecodingResults(hyps=hyps, timestamps=timestamps) + hyps, timestamps = parse_hyp_and_timestamp( + res=res, + sp=bpe_model, + subsampling_factor=params.subsampling_factor, + frame_shift_ms=params.frame_shift_ms, + ) + key = "ctc-greedy-search" + return {key: (hyps, timestamps)} + + supervision_segments = torch.stack( + ( + supervisions["sequence_idx"], + supervisions["start_frame"] // params.subsampling_factor, + supervisions["num_frames"] // params.subsampling_factor, + ), + 1, + ).to(torch.int32) + + if H is None: + assert HLG is not None + decoding_graph = HLG + else: + assert HLG is None + assert bpe_model is not None + decoding_graph = H + + if params.decoding_method in ["1best", "nbest", "nbest-oracle"]: + hlg_scale_list = [0.2, 0.4, 0.6, 0.8, 1.0] + + ori_scores = decoding_graph.scores.clone() + + ans = {} + for hlg_scale in hlg_scale_list: + decoding_graph.scores = ori_scores * hlg_scale + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=decoding_graph, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + key_suffix = f"-HLG-scale-{hlg_scale}" + + if params.decoding_method == "nbest-oracle": + # Note: You can also pass rescored lattices to it. + # We choose the HLG decoded lattice for speed reasons + # as HLG decoding is faster and the oracle WER + # is only slightly worse than that of rescored lattices. + best_path = nbest_oracle( + lattice=lattice, + num_paths=params.num_paths, + ref_texts=supervisions["text"], + word_table=word_table, + nbest_scale=params.nbest_scale, + oov="", + ) + hyps = get_texts(best_path) + hyps = [[word_table[i] for i in ids] for ids in hyps] + key = f"oracle-{params.num_paths}-nbest-scale-{params.nbest_scale}" # noqa + timestamps = [[] for _ in range(len(hyps))] + ans[key + key_suffix] = (hyps, timestamps) + + elif params.decoding_method in ["1best", "nbest"]: + if params.decoding_method == "1best": + best_path = one_best_decoding( + lattice=lattice, + use_double_scores=params.use_double_scores, + ) + key = "no-rescore" + res = get_texts_with_timestamp(best_path) + hyps, timestamps = parse_hyp_and_timestamp( + res=res, + subsampling_factor=params.subsampling_factor, + frame_shift_ms=params.frame_shift_ms, + word_table=word_table, + ) + else: + best_path = nbest_decoding( + lattice=lattice, + num_paths=params.num_paths, + use_double_scores=params.use_double_scores, + nbest_scale=params.nbest_scale, + ) + key = f"no_rescore-nbest-scale-{params.nbest_scale}-{params.num_paths}" # noqa + hyps = get_texts(best_path) + hyps = [[word_table[i] for i in ids] for ids in hyps] + timestamps = [[] for _ in range(len(hyps))] + + ans[key + key_suffix] = (hyps, timestamps) + + return ans + + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=decoding_graph, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + + if params.decoding_method == "ctc-decoding": + best_path = one_best_decoding( + lattice=lattice, use_double_scores=params.use_double_scores + ) + # Note: `best_path.aux_labels` contains token IDs, not word IDs + # since we are using H, not HLG here. + # + # token_ids is a lit-of-list of IDs + res = get_texts_with_timestamp(best_path) + hyps, timestamps = parse_hyp_and_timestamp( + res=res, + sp=bpe_model, + subsampling_factor=params.subsampling_factor, + frame_shift_ms=params.frame_shift_ms, + ) + key = "ctc-decoding" + return {key: (hyps, timestamps)} + + assert params.decoding_method in [ + "nbest-rescoring", + "whole-lattice-rescoring", + ] + + lm_scale_list = [0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7] + lm_scale_list += [0.8, 0.9, 1.0, 1.1, 1.2, 1.3] + lm_scale_list += [1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0] + + if params.decoding_method == "nbest-rescoring": + best_path_dict = rescore_with_n_best_list( + lattice=lattice, + G=G, + num_paths=params.num_paths, + lm_scale_list=lm_scale_list, + nbest_scale=params.nbest_scale, + ) + elif params.decoding_method == "whole-lattice-rescoring": + best_path_dict = rescore_with_whole_lattice( + lattice=lattice, + G_with_epsilon_loops=G, + lm_scale_list=lm_scale_list, + ) + else: + assert False, f"Unsupported decoding method: {params.decoding_method}" + + ans = dict() + if best_path_dict is not None: + for lm_scale_str, best_path in best_path_dict.items(): + hyps = get_texts(best_path) + hyps = [[word_table[i] for i in ids] for ids in hyps] + timestamps = [[] for _ in range(len(hyps))] + ans[lm_scale_str] = (hyps, timestamps) + else: + ans = None + return ans + + +def decode_dataset( + dl: torch.utils.data.DataLoader, + params: AttributeDict, + model: nn.Module, + HLG: Optional[k2.Fsa], + H: Optional[k2.Fsa], + bpe_model: Optional[spm.SentencePieceProcessor], + word_table: k2.SymbolTable, + sos_id: int, + eos_id: int, + G: Optional[k2.Fsa] = None, +) -> Dict[str, List[Tuple[str, List[str], List[str], List[float], List[float]]]]: + """Decode dataset. + + Args: + dl: + PyTorch's dataloader containing the dataset to decode. + params: + It is returned by :func:`get_params`. + model: + The neural model. + HLG: + The decoding graph. Used only when params.decoding_method is NOT ctc-decoding. + H: + The ctc topo. Used only when params.decoding_method is ctc-decoding. + bpe_model: + The BPE model. Used only when params.decoding_method is ctc-decoding. + word_table: + It is the word symbol table. + sos_id: + The token ID for SOS. + eos_id: + The token ID for EOS. + G: + An LM. It is not None when params.decoding_method is "nbest-rescoring" + or "whole-lattice-rescoring". In general, the G in HLG + is a 3-gram LM, while this G is a 4-gram LM. + Returns: + Return a dict, whose key may be "no-rescore" if no LM rescoring + is used, or it may be "lm_scale_0.7" if LM rescoring is used. + Its value is a list of tuples. Each tuple contains two elements: + The first is the reference transcript, and the second is the + predicted result. + """ + num_cuts = 0 + + try: + num_batches = len(dl) + except TypeError: + num_batches = "?" + + results = defaultdict(list) + for batch_idx, batch in enumerate(dl): + texts = batch["supervisions"]["text"] + cut_ids = [cut.id for cut in batch["supervisions"]["cut"]] + + timestamps_ref = [] + for cut in batch["supervisions"]["cut"]: + for s in cut.supervisions: + time = [] + if s.alignment is not None and "word" in s.alignment: + time = [ + aliword.start + for aliword in s.alignment["word"] + if aliword.symbol != "" + ] + timestamps_ref.append(time) + + hyps_dict = decode_one_batch( + params=params, + model=model, + HLG=HLG, + H=H, + bpe_model=bpe_model, + batch=batch, + word_table=word_table, + G=G, + sos_id=sos_id, + eos_id=eos_id, + ) + + for name, (hyps, timestamps_hyp) in hyps_dict.items(): + this_batch = [] + assert len(hyps) == len(texts) and len(timestamps_hyp) == len( + timestamps_ref + ) + for cut_id, hyp_words, ref_text, time_hyp, time_ref in zip( + cut_ids, hyps, texts, timestamps_hyp, timestamps_ref + ): + ref_words = ref_text.split() + this_batch.append((cut_id, ref_words, hyp_words, time_ref, time_hyp)) + + results[name].extend(this_batch) + + num_cuts += len(texts) + + if batch_idx % 100 == 0: + batch_str = f"{batch_idx}/{num_batches}" + + logging.info(f"batch {batch_str}, cuts processed until now is {num_cuts}") + return results + + +def save_results( + params: AttributeDict, + test_set_name: str, + results_dict: Dict[ + str, + List[Tuple[List[str], List[str], List[str], List[float], List[float]]], + ], +): + test_set_wers = dict() + test_set_delays = dict() + for key, results in results_dict.items(): + recog_path = ( + params.res_dir / f"recogs-{test_set_name}-{key}-{params.suffix}.txt" + ) + results = sorted(results) + store_transcripts_and_timestamps(filename=recog_path, texts=results) + logging.info(f"The transcripts are stored in {recog_path}") + + # The following prints out WERs, per-word error statistics and aligned + # ref/hyp pairs. + errs_filename = ( + params.res_dir / f"errs-{test_set_name}-{key}-{params.suffix}.txt" + ) + with open(errs_filename, "w") as f: + wer, mean_delay, var_delay = write_error_stats_with_timestamps( + f, f"{test_set_name}-{key}", results, enable_log=True + ) + test_set_wers[key] = wer + test_set_delays[key] = (mean_delay, var_delay) + + logging.info("Wrote detailed error stats to {}".format(errs_filename)) + + test_set_wers = sorted(test_set_wers.items(), key=lambda x: x[1]) + errs_info = ( + params.res_dir / f"wer-summary-{test_set_name}-{key}-{params.suffix}.txt" + ) + with open(errs_info, "w") as f: + print("settings\tWER", file=f) + for key, val in test_set_wers: + print("{}\t{}".format(key, val), file=f) + + test_set_delays = sorted(test_set_delays.items(), key=lambda x: x[1][0]) + delays_info = ( + params.res_dir + / f"symbol-delay-summary-{test_set_name}-{key}-{params.suffix}.txt" + ) + with open(delays_info, "w") as f: + print("settings\tsymbol-delay", file=f) + for key, val in test_set_delays: + print( + "{}\tmean: {}s, variance: {}".format(key, val[0], val[1]), + file=f, + ) + + s = "\nFor {}, WER of different settings are:\n".format(test_set_name) + note = "\tbest for {}".format(test_set_name) + for key, val in test_set_wers: + s += "{}\t{}{}\n".format(key, val, note) + note = "" + logging.info(s) + + s = "\nFor {}, symbol-delay of different settings are:\n".format(test_set_name) + note = "\tbest for {}".format(test_set_name) + for key, val in test_set_delays: + s += "{}\tmean: {}s, variance: {}{}\n".format(key, val[0], val[1], note) + note = "" + logging.info(s) + + +@torch.no_grad() +def main(): + parser = get_parser() + LibriSpeechAsrDataModule.add_arguments(parser) + args = parser.parse_args() + args.exp_dir = Path(args.exp_dir) + args.lang_dir = Path(args.lang_dir) + args.lm_dir = Path(args.lm_dir) + + params = get_params() + # add decoding params + params.update(get_decoding_params()) + params.update(vars(args)) + + assert params.decoding_method in ( + "ctc-greedy-search", + "ctc-decoding", + "1best", + "nbest", + "nbest-rescoring", + "whole-lattice-rescoring", + "nbest-oracle", + ) + params.res_dir = params.exp_dir / params.decoding_method + + if params.iter > 0: + params.suffix = f"iter-{params.iter}-avg-{params.avg}" + else: + params.suffix = f"epoch-{params.epoch}-avg-{params.avg}" + + if params.simulate_streaming: + params.suffix += f"-streaming-chunk-size-{params.decode_chunk_size}" + params.suffix += f"-left-context-{params.left_context}" + + if params.simulate_streaming: + assert ( + params.causal_convolution + ), "Decoding in streaming requires causal convolution" + + if params.use_averaged_model: + params.suffix += "-use-averaged-model" + + setup_logger(f"{params.res_dir}/log-decode-{params.suffix}") + logging.info("Decoding started") + + device = torch.device("cpu") + if torch.cuda.is_available(): + device = torch.device("cuda", 0) + + logging.info(f"Device: {device}") + logging.info(params) + + lexicon = Lexicon(params.lang_dir) + max_token_id = max(lexicon.tokens) + num_classes = max_token_id + 1 # +1 for the blank + + graph_compiler = BpeCtcTrainingGraphCompiler( + params.lang_dir, + device=device, + sos_token="", + eos_token="", + ) + sos_id = graph_compiler.sos_id + eos_id = graph_compiler.eos_id + + params.vocab_size = num_classes + params.sos_id = sos_id + params.eos_id = eos_id + + if params.decoding_method in ["ctc-decoding", "ctc-greedy-search"]: + HLG = None + H = k2.ctc_topo( + max_token=max_token_id, + modified=False, + device=device, + ) + bpe_model = spm.SentencePieceProcessor() + bpe_model.load(str(params.lang_dir / "bpe.model")) + else: + H = None + bpe_model = None + HLG = k2.Fsa.from_dict( + torch.load(f"{params.lang_dir}/HLG.pt", map_location=device) + ) + assert HLG.requires_grad is False + + if not hasattr(HLG, "lm_scores"): + HLG.lm_scores = HLG.scores.clone() + + if params.decoding_method in ( + "nbest-rescoring", + "whole-lattice-rescoring", + ): + if not (params.lm_dir / "G_4_gram.pt").is_file(): + logging.info("Loading G_4_gram.fst.txt") + logging.warning("It may take 8 minutes.") + with open(params.lm_dir / "G_4_gram.fst.txt") as f: + first_word_disambig_id = lexicon.word_table["#0"] + + G = k2.Fsa.from_openfst(f.read(), acceptor=False) + # G.aux_labels is not needed in later computations, so + # remove it here. + del G.aux_labels + # CAUTION: The following line is crucial. + # Arcs entering the back-off state have label equal to #0. + # We have to change it to 0 here. + G.labels[G.labels >= first_word_disambig_id] = 0 + # See https://github.com/k2-fsa/k2/issues/874 + # for why we need to set G.properties to None + G.__dict__["_properties"] = None + G = k2.Fsa.from_fsas([G]).to(device) + G = k2.arc_sort(G) + # Save a dummy value so that it can be loaded in C++. + # See https://github.com/pytorch/pytorch/issues/67902 + # for why we need to do this. + G.dummy = 1 + + torch.save(G.as_dict(), params.lm_dir / "G_4_gram.pt") + else: + logging.info("Loading pre-compiled G_4_gram.pt") + d = torch.load(params.lm_dir / "G_4_gram.pt", map_location=device) + G = k2.Fsa.from_dict(d) + + if params.decoding_method == "whole-lattice-rescoring": + # Add epsilon self-loops to G as we will compose + # it with the whole lattice later + G = k2.add_epsilon_self_loops(G) + G = k2.arc_sort(G) + G = G.to(device) + + # G.lm_scores is used to replace HLG.lm_scores during + # LM rescoring. + G.lm_scores = G.scores.clone() + else: + G = None + + logging.info("About to create model") + model = get_ctc_model(params) + + if not params.use_averaged_model: + if params.iter > 0: + filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[ + : params.avg + ] + if len(filenames) == 0: + raise ValueError( + f"No checkpoints found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + elif len(filenames) < params.avg: + raise ValueError( + f"Not enough checkpoints ({len(filenames)}) found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + logging.info(f"averaging {filenames}") + model.to(device) + model.load_state_dict(average_checkpoints(filenames, device=device)) + elif params.avg == 1: + load_checkpoint(f"{params.exp_dir}/epoch-{params.epoch}.pt", model) + else: + start = params.epoch - params.avg + 1 + filenames = [] + for i in range(start, params.epoch + 1): + if i >= 1: + filenames.append(f"{params.exp_dir}/epoch-{i}.pt") + logging.info(f"averaging {filenames}") + model.to(device) + model.load_state_dict(average_checkpoints(filenames, device=device)) + else: + if params.iter > 0: + filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[ + : params.avg + 1 + ] + if len(filenames) == 0: + raise ValueError( + f"No checkpoints found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + elif len(filenames) < params.avg + 1: + raise ValueError( + f"Not enough checkpoints ({len(filenames)}) found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + filename_start = filenames[-1] + filename_end = filenames[0] + logging.info( + "Calculating the averaged model over iteration checkpoints" + f" from {filename_start} (excluded) to {filename_end}" + ) + model.to(device) + model.load_state_dict( + average_checkpoints_with_averaged_model( + filename_start=filename_start, + filename_end=filename_end, + device=device, + ) + ) + else: + assert params.avg > 0, params.avg + start = params.epoch - params.avg + assert start >= 1, start + filename_start = f"{params.exp_dir}/epoch-{start}.pt" + filename_end = f"{params.exp_dir}/epoch-{params.epoch}.pt" + logging.info( + f"Calculating the averaged model over epoch range from " + f"{start} (excluded) to {params.epoch}" + ) + model.to(device) + model.load_state_dict( + average_checkpoints_with_averaged_model( + filename_start=filename_start, + filename_end=filename_end, + device=device, + ) + ) + + model.to(device) + model.eval() + + num_param = sum([p.numel() for p in model.parameters()]) + logging.info(f"Number of model parameters: {num_param}") + + # we need cut ids to display recognition results. + args.return_cuts = True + librispeech = LibriSpeechAsrDataModule(args) + + test_clean_cuts = librispeech.test_clean_cuts() + test_other_cuts = librispeech.test_other_cuts() + + test_clean_dl = librispeech.test_dataloaders(test_clean_cuts) + test_other_dl = librispeech.test_dataloaders(test_other_cuts) + + test_sets = ["test-clean", "test-other"] + test_dl = [test_clean_dl, test_other_dl] + + for test_set, test_dl in zip(test_sets, test_dl): + results_dict = decode_dataset( + dl=test_dl, + params=params, + model=model, + HLG=HLG, + H=H, + bpe_model=bpe_model, + word_table=lexicon.word_table, + G=G, + sos_id=sos_id, + eos_id=eos_id, + ) + + save_results( + params=params, + test_set_name=test_set, + results_dict=results_dict, + ) + + logging.info("Done!") + + +if __name__ == "__main__": + main() diff --git a/egs/librispeech/ASR/conformer_ctc3/encoder_interface.py b/egs/librispeech/ASR/conformer_ctc3/encoder_interface.py new file mode 120000 index 000000000..b9aa0ae08 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/encoder_interface.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/encoder_interface.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/export.py b/egs/librispeech/ASR/conformer_ctc3/export.py new file mode 100755 index 000000000..c5b95d981 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/export.py @@ -0,0 +1,292 @@ +#!/usr/bin/env python3 +# +# Copyright 2021 Xiaomi Corporation (Author: Fangjun Kuang) +# +# 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. + +# This script converts several saved checkpoints +# to a single one using model averaging. +""" +Usage: + +(1) Export to torchscript model using torch.jit.trace() + +./conformer_ctc3/export.py \ + --exp-dir ./conformer_ctc3/exp \ + --lang-dir data/lang_bpe_500 \ + --epoch 20 \ + --avg 10 \ + --jit-trace 1 + +It will generates the file: `jit_trace.pt`. + +(2) Export `model.state_dict()` + +./conformer_ctc3/export.py \ + --exp-dir ./conformer_ctc3/exp \ + --lang-dir data/lang_bpe_500 \ + --epoch 20 \ + --avg 10 + +It will generate a file `pretrained.pt` in the given `exp_dir`. You can later +load it by `icefall.checkpoint.load_checkpoint()`. + +To use the generated file with `conformer_ctc3/decode.py`, +you can do: + + cd /path/to/exp_dir + ln -s pretrained.pt epoch-9999.pt + + cd /path/to/egs/librispeech/ASR + ./conformer_ctc3/decode.py \ + --exp-dir ./conformer_ctc3/exp \ + --epoch 9999 \ + --avg 1 \ + --max-duration 100 \ + --lang-dir data/lang_bpe_500 +""" + +import argparse +import logging +from pathlib import Path + +import torch +from scaling_converter import convert_scaled_to_non_scaled +from train import add_model_arguments, get_ctc_model, get_params + +from icefall.checkpoint import ( + average_checkpoints, + average_checkpoints_with_averaged_model, + find_checkpoints, + load_checkpoint, +) +from icefall.lexicon import Lexicon +from icefall.utils import str2bool + + +def get_parser(): + parser = argparse.ArgumentParser( + formatter_class=argparse.ArgumentDefaultsHelpFormatter + ) + + parser.add_argument( + "--epoch", + type=int, + default=28, + help="""It specifies the checkpoint to use for averaging. + Note: Epoch counts from 0. + You can specify --avg to use more checkpoints for model averaging.""", + ) + + parser.add_argument( + "--iter", + type=int, + default=0, + help="""If positive, --epoch is ignored and it + will use the checkpoint exp_dir/checkpoint-iter.pt. + You can specify --avg to use more checkpoints for model averaging. + """, + ) + + parser.add_argument( + "--avg", + type=int, + default=15, + help="Number of checkpoints to average. Automatically select " + "consecutive checkpoints before the checkpoint specified by " + "'--epoch' and '--iter'", + ) + + parser.add_argument( + "--use-averaged-model", + type=str2bool, + default=True, + help="Whether to load averaged model. Currently it only supports " + "using --epoch. If True, it would decode with the averaged model " + "over the epoch range from `epoch-avg` (excluded) to `epoch`." + "Actually only the models with epoch number of `epoch-avg` and " + "`epoch` are loaded for averaging. ", + ) + + parser.add_argument( + "--exp-dir", + type=str, + default="pruned_transducer_stateless4/exp", + help="""It specifies the directory where all training related + files, e.g., checkpoints, log, etc, are saved + """, + ) + + parser.add_argument( + "--lang-dir", + type=Path, + default="data/lang_bpe_500", + help="The lang dir containing word table and LG graph", + ) + + parser.add_argument( + "--jit-trace", + type=str2bool, + default=False, + help="""True to save a model after applying torch.jit.script. + """, + ) + + parser.add_argument( + "--streaming-model", + type=str2bool, + default=False, + help="""Whether to export a streaming model, if the models in exp-dir + are streaming model, this should be True. + """, + ) + + add_model_arguments(parser) + + return parser + + +def main(): + args = get_parser().parse_args() + args.exp_dir = Path(args.exp_dir) + + params = get_params() + params.update(vars(args)) + + device = torch.device("cpu") + if torch.cuda.is_available(): + device = torch.device("cuda", 0) + + logging.info(f"device: {device}") + + lexicon = Lexicon(params.lang_dir) + max_token_id = max(lexicon.tokens) + num_classes = max_token_id + 1 # +1 for the blank + params.vocab_size = num_classes + + if params.streaming_model: + assert params.causal_convolution + + logging.info(params) + + logging.info("About to create model") + model = get_ctc_model(params) + + model.to(device) + + if not params.use_averaged_model: + if params.iter > 0: + filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[ + : params.avg + ] + if len(filenames) == 0: + raise ValueError( + f"No checkpoints found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + elif len(filenames) < params.avg: + raise ValueError( + f"Not enough checkpoints ({len(filenames)}) found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + logging.info(f"averaging {filenames}") + model.load_state_dict(average_checkpoints(filenames, device=device)) + elif params.avg == 1: + load_checkpoint(f"{params.exp_dir}/epoch-{params.epoch}.pt", model) + else: + start = params.epoch - params.avg + 1 + filenames = [] + for i in range(start, params.epoch + 1): + if i >= 1: + filenames.append(f"{params.exp_dir}/epoch-{i}.pt") + logging.info(f"averaging {filenames}") + model.load_state_dict(average_checkpoints(filenames, device=device)) + else: + if params.iter > 0: + filenames = find_checkpoints(params.exp_dir, iteration=-params.iter)[ + : params.avg + 1 + ] + if len(filenames) == 0: + raise ValueError( + f"No checkpoints found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + elif len(filenames) < params.avg + 1: + raise ValueError( + f"Not enough checkpoints ({len(filenames)}) found for" + f" --iter {params.iter}, --avg {params.avg}" + ) + filename_start = filenames[-1] + filename_end = filenames[0] + logging.info( + "Calculating the averaged model over iteration checkpoints" + f" from {filename_start} (excluded) to {filename_end}" + ) + model.load_state_dict( + average_checkpoints_with_averaged_model( + filename_start=filename_start, + filename_end=filename_end, + device=device, + ) + ) + else: + assert params.avg > 0, params.avg + start = params.epoch - params.avg + assert start >= 1, start + filename_start = f"{params.exp_dir}/epoch-{start}.pt" + filename_end = f"{params.exp_dir}/epoch-{params.epoch}.pt" + logging.info( + f"Calculating the averaged model over epoch range from " + f"{start} (excluded) to {params.epoch}" + ) + model.load_state_dict( + average_checkpoints_with_averaged_model( + filename_start=filename_start, + filename_end=filename_end, + device=device, + ) + ) + + model.to("cpu") + model.eval() + + if params.jit_trace: + # TODO: will support streaming mode + assert not params.streaming_model + convert_scaled_to_non_scaled(model, inplace=True) + + logging.info("Using torch.jit.trace()") + + x = torch.zeros(1, 100, 80, dtype=torch.float32) + x_lens = torch.tensor([100], dtype=torch.int64) + traced_model = torch.jit.trace(model, (x, x_lens)) + + filename = params.exp_dir / "jit_trace.pt" + traced_model.save(str(filename)) + logging.info(f"Saved to {filename}") + else: + logging.info("Not using torch.jit.trace()") + # Save it using a format so that it can be loaded + # by :func:`load_checkpoint` + filename = params.exp_dir / "pretrained.pt" + torch.save({"model": model.state_dict()}, str(filename)) + logging.info(f"Saved to {filename}") + + +if __name__ == "__main__": + formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s" + + logging.basicConfig(format=formatter, level=logging.INFO) + main() diff --git a/egs/librispeech/ASR/conformer_ctc3/jit_pretrained.py b/egs/librispeech/ASR/conformer_ctc3/jit_pretrained.py new file mode 100755 index 000000000..c96defd23 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/jit_pretrained.py @@ -0,0 +1,406 @@ +#!/usr/bin/env python3 +# Copyright 2021 Xiaomi Corp. (authors: Fangjun Kuang, +# Mingshuang Luo,) +# Zengwei Yao) +# +# 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. + + +""" +Usage (for non-streaming mode): + +(1) ctc-decoding +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --bpe-model data/lang_bpe_500/bpe.model \ + --method ctc-decoding \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(2) 1best +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --method 1best \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(3) nbest-rescoring +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --G data/lm/G_4_gram.pt \ + --method nbest-rescoring \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(4) whole-lattice-rescoring +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --G data/lm/G_4_gram.pt \ + --method whole-lattice-rescoring \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav +""" + + +import argparse +import logging +import math +from typing import List + +import k2 +import kaldifeat +import sentencepiece as spm +import torch +import torchaudio +from decode import get_decoding_params +from torch.nn.utils.rnn import pad_sequence +from train import add_model_arguments, get_params + +from icefall.decode import ( + get_lattice, + one_best_decoding, + rescore_with_n_best_list, + rescore_with_whole_lattice, +) +from icefall.utils import get_texts + + +def get_parser(): + parser = argparse.ArgumentParser( + formatter_class=argparse.ArgumentDefaultsHelpFormatter + ) + + parser.add_argument( + "--model-filename", + type=str, + required=True, + help="Path to the torchscript model.", + ) + + parser.add_argument( + "--words-file", + type=str, + help="""Path to words.txt. + Used only when method is not ctc-decoding. + """, + ) + + parser.add_argument( + "--HLG", + type=str, + help="""Path to HLG.pt. + Used only when method is not ctc-decoding. + """, + ) + + parser.add_argument( + "--bpe-model", + type=str, + help="""Path to bpe.model. + Used only when method is ctc-decoding. + """, + ) + + parser.add_argument( + "--method", + type=str, + default="1best", + help="""Decoding method. + Possible values are: + (0) ctc-decoding - Use CTC decoding. It uses a sentence + piece model, i.e., lang_dir/bpe.model, to convert + word pieces to words. It needs neither a lexicon + nor an n-gram LM. + (1) 1best - Use the best path as decoding output. Only + the transformer encoder output is used for decoding. + We call it HLG decoding. + (2) nbest-rescoring. Extract n paths from the decoding lattice, + rescore them with an LM, the path with + the highest score is the decoding result. + We call it HLG decoding + n-gram LM rescoring. + (3) whole-lattice-rescoring - Use an LM to rescore the + decoding lattice and then use 1best to decode the + rescored lattice. + We call it HLG decoding + n-gram LM rescoring. + """, + ) + + parser.add_argument( + "--G", + type=str, + help="""An LM for rescoring. + Used only when method is + whole-lattice-rescoring or nbest-rescoring. + It's usually a 4-gram LM. + """, + ) + + parser.add_argument( + "--num-paths", + type=int, + default=100, + help=""" + Used only when method is attention-decoder. + It specifies the size of n-best list.""", + ) + + parser.add_argument( + "--ngram-lm-scale", + type=float, + default=1.3, + help=""" + Used only when method is whole-lattice-rescoring and nbest-rescoring. + It specifies the scale for n-gram LM scores. + (Note: You need to tune it on a dataset.) + """, + ) + + parser.add_argument( + "--nbest-scale", + type=float, + default=0.5, + help=""" + Used only when method is nbest-rescoring. + It specifies the scale for lattice.scores when + extracting n-best lists. A smaller value results in + more unique number of paths with the risk of missing + the best path. + """, + ) + + parser.add_argument( + "--num-classes", + type=int, + default=500, + help=""" + Vocab size in the BPE model. + """, + ) + + parser.add_argument( + "--sample-rate", + type=int, + default=16000, + help="The sample rate of the input sound file", + ) + + 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 be 16kHz.", + ) + + add_model_arguments(parser) + + return parser + + +def read_sound_files( + filenames: List[str], expected_sample_rate: float +) -> 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 + + +def main(): + parser = get_parser() + args = parser.parse_args() + + params = get_params() + # add decoding params + params.update(get_decoding_params()) + params.update(vars(args)) + params.vocab_size = params.num_classes + + logging.info(f"{params}") + + device = torch.device("cpu") + + logging.info(f"device: {device}") + + model = torch.jit.load(args.model_filename) + model.to(device) + model.eval() + + logging.info("Constructing Fbank computer") + opts = kaldifeat.FbankOptions() + opts.device = device + opts.frame_opts.dither = 0 + opts.frame_opts.snip_edges = False + opts.frame_opts.samp_freq = params.sample_rate + opts.mel_opts.num_bins = params.feature_dim + + fbank = kaldifeat.Fbank(opts) + + logging.info(f"Reading sound files: {params.sound_files}") + waves = read_sound_files( + filenames=params.sound_files, expected_sample_rate=params.sample_rate + ) + waves = [w.to(device) for w in waves] + + logging.info("Decoding started") + features = fbank(waves) + feature_lengths = [f.size(0) for f in features] + + features = pad_sequence(features, batch_first=True, padding_value=math.log(1e-10)) + feature_lengths = torch.tensor(feature_lengths, device=device) + + nnet_output, _ = model(features, feature_lengths) + + batch_size = nnet_output.shape[0] + supervision_segments = torch.tensor( + [[i, 0, nnet_output.shape[1]] for i in range(batch_size)], + dtype=torch.int32, + ) + + if params.method == "ctc-decoding": + logging.info("Use CTC decoding") + bpe_model = spm.SentencePieceProcessor() + bpe_model.load(params.bpe_model) + max_token_id = params.num_classes - 1 + + H = k2.ctc_topo( + max_token=max_token_id, + modified=False, + device=device, + ) + + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=H, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + + best_path = one_best_decoding( + lattice=lattice, use_double_scores=params.use_double_scores + ) + token_ids = get_texts(best_path) + hyps = bpe_model.decode(token_ids) + hyps = [s.split() for s in hyps] + elif params.method in [ + "1best", + "nbest-rescoring", + "whole-lattice-rescoring", + ]: + logging.info(f"Loading HLG from {params.HLG}") + HLG = k2.Fsa.from_dict(torch.load(params.HLG, map_location="cpu")) + HLG = HLG.to(device) + if not hasattr(HLG, "lm_scores"): + # For whole-lattice-rescoring and attention-decoder + HLG.lm_scores = HLG.scores.clone() + + if params.method in [ + "nbest-rescoring", + "whole-lattice-rescoring", + ]: + logging.info(f"Loading G from {params.G}") + G = k2.Fsa.from_dict(torch.load(params.G, map_location="cpu")) + G = G.to(device) + if params.method == "whole-lattice-rescoring": + # Add epsilon self-loops to G as we will compose + # it with the whole lattice later + G = k2.add_epsilon_self_loops(G) + G = k2.arc_sort(G) + + # G.lm_scores is used to replace HLG.lm_scores during + # LM rescoring. + G.lm_scores = G.scores.clone() + + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=HLG, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + + if params.method == "1best": + logging.info("Use HLG decoding") + best_path = one_best_decoding( + lattice=lattice, use_double_scores=params.use_double_scores + ) + if params.method == "nbest-rescoring": + logging.info("Use HLG decoding + LM rescoring") + best_path_dict = rescore_with_n_best_list( + lattice=lattice, + G=G, + num_paths=params.num_paths, + lm_scale_list=[params.ngram_lm_scale], + nbest_scale=params.nbest_scale, + ) + best_path = next(iter(best_path_dict.values())) + elif params.method == "whole-lattice-rescoring": + logging.info("Use HLG decoding + LM rescoring") + best_path_dict = rescore_with_whole_lattice( + lattice=lattice, + G_with_epsilon_loops=G, + lm_scale_list=[params.ngram_lm_scale], + ) + best_path = next(iter(best_path_dict.values())) + + hyps = get_texts(best_path) + word_sym_table = k2.SymbolTable.from_file(params.words_file) + hyps = [[word_sym_table[i] for i in ids] for ids in hyps] + else: + raise ValueError(f"Unsupported decoding method: {params.method}") + + s = "\n" + for filename, hyp in zip(params.sound_files, hyps): + words = " ".join(hyp) + s += f"{filename}:\n{words}\n\n" + logging.info(s) + + logging.info("Decoding Done") + + +if __name__ == "__main__": + formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s" + + logging.basicConfig(format=formatter, level=logging.INFO) + main() diff --git a/egs/librispeech/ASR/conformer_ctc3/lstmp.py b/egs/librispeech/ASR/conformer_ctc3/lstmp.py new file mode 120000 index 000000000..4f377cd01 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/lstmp.py @@ -0,0 +1 @@ +../lstm_transducer_stateless2/lstmp.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/model.py b/egs/librispeech/ASR/conformer_ctc3/model.py new file mode 100644 index 000000000..f56df2006 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/model.py @@ -0,0 +1,122 @@ +# Copyright 2021-2022 Xiaomi Corp. (authors: Fangjun Kuang, +# Wei Kang, +# Zengwei Yao) +# +# 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. + + +import math +from typing import Tuple + +import torch +import torch.nn as nn +from encoder_interface import EncoderInterface +from scaling import ScaledLinear + + +class CTCModel(nn.Module): + """It implements https://www.cs.toronto.edu/~graves/icml_2006.pdf + "Connectionist Temporal Classification: Labelling Unsegmented + Sequence Data with Recurrent Neural Networks" + """ + + def __init__( + self, + encoder: EncoderInterface, + encoder_dim: int, + vocab_size: int, + ): + """ + Args: + encoder: + It is the transcription network in the paper. Its accepts + two inputs: `x` of (N, T, encoder_dim) and `x_lens` of shape (N,). + It returns two tensors: `logits` of shape (N, T, encoder_dm) and + `logit_lens` of shape (N,). + encoder_dim: + The feature embedding dimension. + vocab_size: + The vocabulary size. + """ + super().__init__() + assert isinstance(encoder, EncoderInterface), type(encoder) + + self.encoder = encoder + self.ctc_output_module = nn.Sequential( + nn.Dropout(p=0.1), + ScaledLinear(encoder_dim, vocab_size), + ) + + def get_ctc_output( + self, + encoder_out: torch.Tensor, + delay_penalty: float = 0.0, + blank_threshold: float = 0.99, + ): + """Compute ctc log-prob and optionally (delay_penalty > 0) apply delay penalty. + We first split utterance into sub-utterances according to the + blank probs, and then add sawtooth-like "blank-bonus" values to + the blank probs. + See https://github.com/k2-fsa/icefall/pull/669 for details. + + Args: + encoder_out: + A tensor with shape of (N, T, C). + delay_penalty: + A constant used to scale the delay penalty score. + blank_threshold: + The threshold used to split utterance into sub-utterances. + """ + output = self.ctc_output_module(encoder_out) + log_prob = nn.functional.log_softmax(output, dim=-1) + + if self.training and delay_penalty > 0: + T_arange = torch.arange(encoder_out.shape[1]).to(device=encoder_out.device) + # split into sub-utterances using the blank-id + mask = log_prob[:, :, 0] >= math.log(blank_threshold) # (B, T) + mask[:, 0] = True + cummax_out = (T_arange * mask).cummax(dim=-1)[0] # (B, T) + # the sawtooth "blank-bonus" value + penalty = T_arange - cummax_out # (B, T) + penalty_all = torch.zeros_like(log_prob) + penalty_all[:, :, 0] = delay_penalty * penalty + # apply latency penalty on probs + log_prob = log_prob + penalty_all + + return log_prob + + def forward( + self, + x: torch.Tensor, + x_lens: torch.Tensor, + warmup: float = 1.0, + delay_penalty: float = 0.0, + ) -> Tuple[torch.Tensor, torch.Tensor]: + """ + Args: + x: + A 3-D tensor of shape (N, T, C). + x_lens: + A 1-D tensor of shape (N,). It contains the number of frames in `x` + before padding. + warmup: a floating point value which increases throughout training; + values >= 1.0 are fully warmed up and have all modules present. + delay_penalty: + A constant used to scale the delay penalty score. + """ + encoder_out, encoder_out_lens = self.encoder(x, x_lens, warmup=warmup) + assert torch.all(encoder_out_lens > 0) + nnet_output = self.get_ctc_output(encoder_out, delay_penalty=delay_penalty) + return nnet_output, encoder_out_lens diff --git a/egs/librispeech/ASR/conformer_ctc3/optim.py b/egs/librispeech/ASR/conformer_ctc3/optim.py new file mode 120000 index 000000000..e2deb4492 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/optim.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/optim.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/pretrained.py b/egs/librispeech/ASR/conformer_ctc3/pretrained.py new file mode 100755 index 000000000..3628d6a5f --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/pretrained.py @@ -0,0 +1,458 @@ +#!/usr/bin/env python3 +# Copyright 2021 Xiaomi Corp. (authors: Fangjun Kuang, +# Mingshuang Luo,) +# Zengwei Yao) +# +# 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. + + +""" +Usage (for non-streaming mode): + +(1) ctc-decoding +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --bpe-model data/lang_bpe_500/bpe.model \ + --method ctc-decoding \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(2) 1best +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --method 1best \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(3) nbest-rescoring +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --G data/lm/G_4_gram.pt \ + --method nbest-rescoring \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav + +(4) whole-lattice-rescoring +./conformer_ctc3/pretrained.py \ + --checkpoint conformer_ctc3/exp/pretrained.pt \ + --HLG data/lang_bpe_500/HLG.pt \ + --words-file data/lang_bpe_500/words.txt \ + --G data/lm/G_4_gram.pt \ + --method whole-lattice-rescoring \ + --sample-rate 16000 \ + test_wavs/1089-134686-0001.wav +""" + + +import argparse +import logging +import math +from typing import List + +import k2 +import kaldifeat +import sentencepiece as spm +import torch +import torchaudio +from decode import get_decoding_params +from torch.nn.utils.rnn import pad_sequence +from train import add_model_arguments, get_ctc_model, get_params + +from icefall.decode import ( + get_lattice, + one_best_decoding, + rescore_with_n_best_list, + rescore_with_whole_lattice, +) +from icefall.utils import get_texts, str2bool + + +def get_parser(): + parser = argparse.ArgumentParser( + formatter_class=argparse.ArgumentDefaultsHelpFormatter + ) + + parser.add_argument( + "--checkpoint", + type=str, + required=True, + help="Path to the checkpoint. " + "The checkpoint is assumed to be saved by " + "icefall.checkpoint.save_checkpoint().", + ) + + parser.add_argument( + "--words-file", + type=str, + help="""Path to words.txt. + Used only when method is not ctc-decoding. + """, + ) + + parser.add_argument( + "--HLG", + type=str, + help="""Path to HLG.pt. + Used only when method is not ctc-decoding. + """, + ) + + parser.add_argument( + "--bpe-model", + type=str, + help="""Path to bpe.model. + Used only when method is ctc-decoding. + """, + ) + + parser.add_argument( + "--method", + type=str, + default="1best", + help="""Decoding method. + Possible values are: + (0) ctc-decoding - Use CTC decoding. It uses a sentence + piece model, i.e., lang_dir/bpe.model, to convert + word pieces to words. It needs neither a lexicon + nor an n-gram LM. + (1) 1best - Use the best path as decoding output. Only + the transformer encoder output is used for decoding. + We call it HLG decoding. + (2) nbest-rescoring. Extract n paths from the decoding lattice, + rescore them with an LM, the path with + the highest score is the decoding result. + We call it HLG decoding + n-gram LM rescoring. + (3) whole-lattice-rescoring - Use an LM to rescore the + decoding lattice and then use 1best to decode the + rescored lattice. + We call it HLG decoding + n-gram LM rescoring. + """, + ) + + parser.add_argument( + "--G", + type=str, + help="""An LM for rescoring. + Used only when method is + whole-lattice-rescoring or nbest-rescoring. + It's usually a 4-gram LM. + """, + ) + + parser.add_argument( + "--num-paths", + type=int, + default=100, + help=""" + Used only when method is attention-decoder. + It specifies the size of n-best list.""", + ) + + parser.add_argument( + "--ngram-lm-scale", + type=float, + default=1.3, + help=""" + Used only when method is whole-lattice-rescoring and nbest-rescoring. + It specifies the scale for n-gram LM scores. + (Note: You need to tune it on a dataset.) + """, + ) + + parser.add_argument( + "--nbest-scale", + type=float, + default=0.5, + help=""" + Used only when method is nbest-rescoring. + It specifies the scale for lattice.scores when + extracting n-best lists. A smaller value results in + more unique number of paths with the risk of missing + the best path. + """, + ) + + parser.add_argument( + "--num-classes", + type=int, + default=500, + help=""" + Vocab size in the BPE model. + """, + ) + + parser.add_argument( + "--simulate-streaming", + type=str2bool, + default=False, + help="""Whether to simulate streaming in decoding, this is a good way to + test a streaming model. + """, + ) + + parser.add_argument( + "--decode-chunk-size", + type=int, + default=16, + help="The chunk size for decoding (in frames after subsampling)", + ) + + parser.add_argument( + "--left-context", + type=int, + default=64, + help="left context can be seen during decoding (in frames after subsampling)", + ) + + parser.add_argument( + "--sample-rate", + type=int, + default=16000, + help="The sample rate of the input sound file", + ) + + 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 be 16kHz.", + ) + + add_model_arguments(parser) + + return parser + + +def read_sound_files( + filenames: List[str], expected_sample_rate: float +) -> 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 + + +def main(): + parser = get_parser() + args = parser.parse_args() + + params = get_params() + # add decoding params + params.update(get_decoding_params()) + params.update(vars(args)) + params.vocab_size = params.num_classes + + if params.simulate_streaming: + assert ( + params.causal_convolution + ), "Decoding in streaming requires causal convolution" + + logging.info(f"{params}") + + device = torch.device("cpu") + if torch.cuda.is_available(): + device = torch.device("cuda", 0) + + logging.info(f"device: {device}") + + logging.info("About to create model") + model = get_ctc_model(params) + + num_param = sum([p.numel() for p in model.parameters()]) + logging.info(f"Number of model parameters: {num_param}") + + checkpoint = torch.load(args.checkpoint, map_location="cpu") + model.load_state_dict(checkpoint["model"], strict=False) + model.to(device) + model.eval() + + logging.info("Constructing Fbank computer") + opts = kaldifeat.FbankOptions() + opts.device = device + opts.frame_opts.dither = 0 + opts.frame_opts.snip_edges = False + opts.frame_opts.samp_freq = params.sample_rate + opts.mel_opts.num_bins = params.feature_dim + + fbank = kaldifeat.Fbank(opts) + + logging.info(f"Reading sound files: {params.sound_files}") + waves = read_sound_files( + filenames=params.sound_files, expected_sample_rate=params.sample_rate + ) + waves = [w.to(device) for w in waves] + + logging.info("Decoding started") + features = fbank(waves) + feature_lengths = [f.size(0) for f in features] + + features = pad_sequence(features, batch_first=True, padding_value=math.log(1e-10)) + feature_lengths = torch.tensor(feature_lengths, device=device) + + # model forward + if params.simulate_streaming: + encoder_out, encoder_out_lens, _ = model.encoder.streaming_forward( + x=features, + x_lens=feature_lengths, + chunk_size=params.decode_chunk_size, + left_context=params.left_context, + simulate_streaming=True, + ) + else: + encoder_out, encoder_out_lens = model.encoder( + x=features, x_lens=feature_lengths + ) + nnet_output = model.get_ctc_output(encoder_out) + + batch_size = nnet_output.shape[0] + supervision_segments = torch.tensor( + [[i, 0, nnet_output.shape[1]] for i in range(batch_size)], + dtype=torch.int32, + ) + + if params.method == "ctc-decoding": + logging.info("Use CTC decoding") + bpe_model = spm.SentencePieceProcessor() + bpe_model.load(params.bpe_model) + max_token_id = params.num_classes - 1 + + H = k2.ctc_topo( + max_token=max_token_id, + modified=False, + device=device, + ) + + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=H, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + + best_path = one_best_decoding( + lattice=lattice, use_double_scores=params.use_double_scores + ) + token_ids = get_texts(best_path) + hyps = bpe_model.decode(token_ids) + hyps = [s.split() for s in hyps] + elif params.method in [ + "1best", + "nbest-rescoring", + "whole-lattice-rescoring", + ]: + logging.info(f"Loading HLG from {params.HLG}") + HLG = k2.Fsa.from_dict(torch.load(params.HLG, map_location="cpu")) + HLG = HLG.to(device) + if not hasattr(HLG, "lm_scores"): + # For whole-lattice-rescoring and attention-decoder + HLG.lm_scores = HLG.scores.clone() + + if params.method in [ + "nbest-rescoring", + "whole-lattice-rescoring", + ]: + logging.info(f"Loading G from {params.G}") + G = k2.Fsa.from_dict(torch.load(params.G, map_location="cpu")) + G = G.to(device) + if params.method == "whole-lattice-rescoring": + # Add epsilon self-loops to G as we will compose + # it with the whole lattice later + G = k2.add_epsilon_self_loops(G) + G = k2.arc_sort(G) + + # G.lm_scores is used to replace HLG.lm_scores during + # LM rescoring. + G.lm_scores = G.scores.clone() + + lattice = get_lattice( + nnet_output=nnet_output, + decoding_graph=HLG, + supervision_segments=supervision_segments, + search_beam=params.search_beam, + output_beam=params.output_beam, + min_active_states=params.min_active_states, + max_active_states=params.max_active_states, + subsampling_factor=params.subsampling_factor, + ) + + if params.method == "1best": + logging.info("Use HLG decoding") + best_path = one_best_decoding( + lattice=lattice, use_double_scores=params.use_double_scores + ) + if params.method == "nbest-rescoring": + logging.info("Use HLG decoding + LM rescoring") + best_path_dict = rescore_with_n_best_list( + lattice=lattice, + G=G, + num_paths=params.num_paths, + lm_scale_list=[params.ngram_lm_scale], + nbest_scale=params.nbest_scale, + ) + best_path = next(iter(best_path_dict.values())) + elif params.method == "whole-lattice-rescoring": + logging.info("Use HLG decoding + LM rescoring") + best_path_dict = rescore_with_whole_lattice( + lattice=lattice, + G_with_epsilon_loops=G, + lm_scale_list=[params.ngram_lm_scale], + ) + best_path = next(iter(best_path_dict.values())) + + hyps = get_texts(best_path) + word_sym_table = k2.SymbolTable.from_file(params.words_file) + hyps = [[word_sym_table[i] for i in ids] for ids in hyps] + else: + raise ValueError(f"Unsupported decoding method: {params.method}") + + s = "\n" + for filename, hyp in zip(params.sound_files, hyps): + words = " ".join(hyp) + s += f"{filename}:\n{words}\n\n" + logging.info(s) + + logging.info("Decoding Done") + + +if __name__ == "__main__": + formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s" + + logging.basicConfig(format=formatter, level=logging.INFO) + main() diff --git a/egs/librispeech/ASR/conformer_ctc3/scaling.py b/egs/librispeech/ASR/conformer_ctc3/scaling.py new file mode 120000 index 000000000..09d802cc4 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/scaling.py @@ -0,0 +1 @@ +../pruned_transducer_stateless2/scaling.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/scaling_converter.py b/egs/librispeech/ASR/conformer_ctc3/scaling_converter.py new file mode 120000 index 000000000..3b667058d --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/scaling_converter.py @@ -0,0 +1 @@ +../pruned_transducer_stateless3/scaling_converter.py \ No newline at end of file diff --git a/egs/librispeech/ASR/conformer_ctc3/test_model.py b/egs/librispeech/ASR/conformer_ctc3/test_model.py new file mode 100755 index 000000000..b97b7eed8 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/test_model.py @@ -0,0 +1,82 @@ +#!/usr/bin/env python3 +# Copyright 2022 Xiaomi Corp. (authors: Fangjun Kuang) +# +# 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. + + +""" +To run this file, do: + + cd icefall/egs/librispeech/ASR + python ./conformer_ctc3/test_model.py +""" + +import torch + +from train import get_params, get_ctc_model + + +def test_model(): + params = get_params() + params.vocab_size = 500 + params.blank_id = 0 + params.context_size = 2 + params.unk_id = 2 + + params.dynamic_chunk_training = False + params.short_chunk_size = 25 + params.num_left_chunks = 4 + params.causal_convolution = False + + model = get_ctc_model(params) + + num_param = sum([p.numel() for p in model.parameters()]) + print(f"Number of model parameters: {num_param}") + + features = torch.randn(2, 100, 80) + feature_lengths = torch.full((2,), 100) + model(x=features, x_lens=feature_lengths) + + +def test_model_streaming(): + params = get_params() + params.vocab_size = 500 + params.blank_id = 0 + params.context_size = 2 + params.unk_id = 2 + + params.dynamic_chunk_training = True + params.short_chunk_size = 25 + params.num_left_chunks = 4 + params.causal_convolution = True + + model = get_ctc_model(params) + + num_param = sum([p.numel() for p in model.parameters()]) + print(f"Number of model parameters: {num_param}") + + features = torch.randn(2, 100, 80) + feature_lengths = torch.full((2,), 100) + encoder_out, _ = model.encoder(x=features, x_lens=feature_lengths) + model.get_ctc_output(encoder_out) + + +def main(): + test_model() + test_model_streaming() + + +if __name__ == "__main__": + main() diff --git a/egs/librispeech/ASR/conformer_ctc3/train.py b/egs/librispeech/ASR/conformer_ctc3/train.py new file mode 100755 index 000000000..fb3b740c1 --- /dev/null +++ b/egs/librispeech/ASR/conformer_ctc3/train.py @@ -0,0 +1,1108 @@ +#!/usr/bin/env python3 +# Copyright 2021 Xiaomi Corp. (authors: Fangjun Kuang, +# Wei Kang, +# Mingshuang Luo,) +# Zengwei Yao) +# +# 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. +""" +Usage: + +export CUDA_VISIBLE_DEVICES="0,1,2,3" + +./conformer_ctc3/train.py \ + --world-size 4 \ + --num-epochs 30 \ + --start-epoch 1 \ + --exp-dir conformer_ctc3/exp \ + --full-libri 1 \ + --max-duration 300 + +# For mix precision training: + +./conformer_ctc3/train.py \ + --world-size 4 \ + --num-epochs 30 \ + --start-epoch 1 \ + --use-fp16 1 \ + --exp-dir conformer_ctc3/exp \ + --full-libri 1 \ + --max-duration 550 + +# train a streaming model +./conformer_ctc3/train.py \ + --world-size 4 \ + --num-epochs 30 \ + --start-epoch 1 \ + --exp-dir conformer_ctc3/exp \ + --full-libri 1 \ + --dynamic-chunk-training 1 \ + --causal-convolution 1 \ + --short-chunk-size 25 \ + --num-left-chunks 4 \ + --max-duration 300 \ + --delay-penalty 0.0 +""" + +import argparse +import copy +import logging +from pathlib import Path +from shutil import copyfile +from typing import Any, Dict, Optional, Tuple, Union + +import k2 +import optim +import torch +import torch.multiprocessing as mp +import torch.nn as nn +from asr_datamodule import LibriSpeechAsrDataModule +from conformer import Conformer +from lhotse.cut import Cut +from lhotse.dataset.sampling.base import CutSampler +from lhotse.utils import fix_random_seed +from model import CTCModel +from optim import Eden, Eve +from torch import Tensor +from torch.cuda.amp import GradScaler +from torch.nn.parallel import DistributedDataParallel as DDP +from torch.utils.tensorboard import SummaryWriter + +from icefall import diagnostics +from icefall.bpe_graph_compiler import BpeCtcTrainingGraphCompiler +from icefall.checkpoint import load_checkpoint, remove_checkpoints +from icefall.checkpoint import save_checkpoint as save_checkpoint_impl +from icefall.checkpoint import ( + save_checkpoint_with_global_batch_idx, + update_averaged_model, +) +from icefall.dist import cleanup_dist, setup_dist +from icefall.env import get_env_info +from icefall.graph_compiler import CtcTrainingGraphCompiler +from icefall.lexicon import Lexicon +from icefall.utils import ( + AttributeDict, + MetricsTracker, + encode_supervisions, + setup_logger, + str2bool, +) + +LRSchedulerType = Union[torch.optim.lr_scheduler._LRScheduler, optim.LRScheduler] + + +def add_model_arguments(parser: argparse.ArgumentParser): + parser.add_argument( + "--dynamic-chunk-training", + type=str2bool, + default=False, + help="""Whether to use dynamic_chunk_training, if you want a streaming + model, this requires to be True. + """, + ) + + parser.add_argument( + "--causal-convolution", + type=str2bool, + default=False, + help="""Whether to use causal convolution, this requires to be True when + using dynamic_chunk_training. + """, + ) + + parser.add_argument( + "--short-chunk-size", + type=int, + default=25, + help="""Chunk length of dynamic training, the chunk size would be either + max sequence length of current batch or uniformly sampled from (1, short_chunk_size). + """, + ) + + parser.add_argument( + "--num-left-chunks", + type=int, + default=4, + help="How many left context can be seen in chunks when calculating attention.", + ) + + +def get_parser(): + parser = argparse.ArgumentParser( + formatter_class=argparse.ArgumentDefaultsHelpFormatter + ) + + parser.add_argument( + "--world-size", + type=int, + default=1, + help="Number of GPUs for DDP training.", + ) + + parser.add_argument( + "--master-port", + type=int, + default=12354, + help="Master port to use for DDP training.", + ) + + parser.add_argument( + "--tensorboard", + type=str2bool, + default=True, + help="Should various information be logged in tensorboard.", + ) + + parser.add_argument( + "--num-epochs", + type=int, + default=30, + help="Number of epochs to train.", + ) + + parser.add_argument( + "--start-epoch", + type=int, + default=1, + help="""Resume training from this epoch. It should be positive. + If larger than 1, it will load checkpoint from + exp-dir/epoch-{start_epoch-1}.pt + """, + ) + + parser.add_argument( + "--start-batch", + type=int, + default=0, + help="""If positive, --start-epoch is ignored and + it loads the checkpoint from exp-dir/checkpoint-{start_batch}.pt + """, + ) + + parser.add_argument( + "--exp-dir", + type=str, + default="conformer_ctc3/exp", + help="""The experiment dir. + It specifies the directory where all training related + files, e.g., checkpoints, log, etc, are saved + """, + ) + + parser.add_argument( + "--lang-dir", + type=str, + default="data/lang_bpe_500", + help="""The lang dir + It contains language related input files such as + "lexicon.txt" + """, + ) + + parser.add_argument( + "--initial-lr", + type=float, + default=0.003, + help="""The initial learning rate. This value should not need to be + changed.""", + ) + + parser.add_argument( + "--lr-batches", + type=float, + default=5000, + help="""Number of steps that affects how rapidly the learning rate decreases. + We suggest not to change this.""", + ) + + parser.add_argument( + "--lr-epochs", + type=float, + default=6, + help="""Number of epochs that affects how rapidly the learning rate decreases. + """, + ) + + parser.add_argument( + "--seed", + type=int, + default=42, + help="The seed for random generators intended for reproducibility", + ) + + parser.add_argument( + "--print-diagnostics", + type=str2bool, + default=False, + help="Accumulate stats on activations, print them and exit.", + ) + + parser.add_argument( + "--save-every-n", + type=int, + default=8000, + help="""Save checkpoint after processing this number of batches" + periodically. We save checkpoint to exp-dir/ whenever + params.batch_idx_train % save_every_n == 0. The checkpoint filename + has the form: f'exp-dir/checkpoint-{params.batch_idx_train}.pt' + Note: It also saves checkpoint to `exp-dir/epoch-xxx.pt` at the + end of each epoch where `xxx` is the epoch number counting from 0. + """, + ) + + parser.add_argument( + "--keep-last-k", + type=int, + default=20, + help="""Only keep this number of checkpoints on disk. + For instance, if it is 3, there are only 3 checkpoints + in the exp-dir with filenames `checkpoint-xxx.pt`. + It does not affect checkpoints with name `epoch-xxx.pt`. + """, + ) + + parser.add_argument( + "--average-period", + type=int, + default=100, + help="""Update the averaged model, namely `model_avg`, after processing + this number of batches. `model_avg` is a separate version of model, + in which each floating-point parameter is the average of all the + parameters from the start of training. Each time we take the average, + we do: `model_avg = model * (average_period / batch_idx_train) + + model_avg * ((batch_idx_train - average_period) / batch_idx_train)`. + """, + ) + + parser.add_argument( + "--use-fp16", + type=str2bool, + default=False, + help="Whether to use half precision training.", + ) + + parser.add_argument( + "--delay-penalty", + type=float, + default=0.0, + help="""A constant used to scale the symbol delay penalty, + to encourage symbol emit earlier for streaming models. + It is almost the same as the `delay_penalty` in our `rnnt_loss`, See + https://github.com/k2-fsa/k2/issues/955 and + https://arxiv.org/pdf/2211.00490.pdf for more details.""", + ) + + parser.add_argument( + "--nnet-delay-penalty", + type=float, + default=0.0, + help="""A constant to penalize symbol delay, which is applied on + the nnet_output after log-softmax. + We recommend using --delay-penalty instead. + See https://github.com/k2-fsa/icefall/pull/669 for details.""", + ) + + add_model_arguments(parser) + + return parser + + +def get_params() -> AttributeDict: + """Return a dict containing training parameters. + + All training related parameters that are not passed from the commandline + are saved in the variable `params`. + + Commandline options are merged into `params` after they are parsed, so + you can also access them via `params`. + + Explanation of options saved in `params`: + + - best_train_loss: Best training loss so far. It is used to select + the model that has the lowest training loss. It is + updated during the training. + + - best_valid_loss: Best validation loss so far. It is used to select + the model that has the lowest validation loss. It is + updated during the training. + + - best_train_epoch: It is the epoch that has the best training loss. + + - best_valid_epoch: It is the epoch that has the best validation loss. + + - batch_idx_train: Used to writing statistics to tensorboard. It + contains number of batches trained so far across + epochs. + + - log_interval: Print training loss if batch_idx % log_interval` is 0 + + - reset_interval: Reset statistics if batch_idx % reset_interval is 0 + + - valid_interval: Run validation if batch_idx % valid_interval is 0 + + - feature_dim: The model input dim. It has to match the one used + in computing features. + + - subsampling_factor: The subsampling factor for the model. + + - encoder_dim: Hidden dim for multi-head attention model. + + - num_decoder_layers: Number of decoder layer of transformer decoder. + + - warm_step: The warm_step for Noam optimizer. + """ + params = AttributeDict( + { + "best_train_loss": float("inf"), + "best_valid_loss": float("inf"), + "best_train_epoch": -1, + "best_valid_epoch": -1, + "batch_idx_train": 0, + "log_interval": 50, + "reset_interval": 200, + "valid_interval": 3000, # For the 100h subset, use 800 + # parameters for conformer + "feature_dim": 80, + "subsampling_factor": 4, + "encoder_dim": 512, + "nhead": 8, + "dim_feedforward": 2048, + "num_encoder_layers": 12, + # parameters for loss + "beam_size": 10, + "reduction": "sum", + "use_double_scores": True, + # parameters for Noam + "model_warm_step": 3000, # arg given to model, not for lrate + "env_info": get_env_info(), + } + ) + + return params + + +def get_encoder_model(params: AttributeDict) -> nn.Module: + # TODO: We can add an option to switch between Conformer and Transformer + encoder = Conformer( + num_features=params.feature_dim, + subsampling_factor=params.subsampling_factor, + d_model=params.encoder_dim, + nhead=params.nhead, + dim_feedforward=params.dim_feedforward, + num_encoder_layers=params.num_encoder_layers, + dynamic_chunk_training=params.dynamic_chunk_training, + short_chunk_size=params.short_chunk_size, + num_left_chunks=params.num_left_chunks, + causal=params.causal_convolution, + ) + return encoder + + +def get_ctc_model(params: AttributeDict) -> nn.Module: + encoder = get_encoder_model(params) + model = CTCModel( + encoder=encoder, + encoder_dim=params.encoder_dim, + vocab_size=params.vocab_size, + ) + return model + + +def load_checkpoint_if_available( + params: AttributeDict, + model: nn.Module, + model_avg: nn.Module = None, + optimizer: Optional[torch.optim.Optimizer] = None, + scheduler: Optional[LRSchedulerType] = None, +) -> Optional[Dict[str, Any]]: + """Load checkpoint from file. + + If params.start_batch is positive, it will load the checkpoint from + `params.exp_dir/checkpoint-{params.start_batch}.pt`. Otherwise, if + params.start_epoch is larger than 1, it will load the checkpoint from + `params.start_epoch - 1`. + + Apart from loading state dict for `model` and `optimizer` it also updates + `best_train_epoch`, `best_train_loss`, `best_valid_epoch`, + and `best_valid_loss` in `params`. + + Args: + params: + The return value of :func:`get_params`. + model: + The training model. + model_avg: + The stored model averaged from the start of training. + optimizer: + The optimizer that we are using. + scheduler: + The scheduler that we are using. + Returns: + Return a dict containing previously saved training info. + """ + if params.start_batch > 0: + filename = params.exp_dir / f"checkpoint-{params.start_batch}.pt" + elif params.start_epoch > 1: + filename = params.exp_dir / f"epoch-{params.start_epoch-1}.pt" + else: + return None + + assert filename.is_file(), f"{filename} does not exist!" + + saved_params = load_checkpoint( + filename, + model=model, + model_avg=model_avg, + optimizer=optimizer, + scheduler=scheduler, + ) + + keys = [ + "best_train_epoch", + "best_valid_epoch", + "batch_idx_train", + "best_train_loss", + "best_valid_loss", + ] + for k in keys: + params[k] = saved_params[k] + + if params.start_batch > 0: + if "cur_epoch" in saved_params: + params["start_epoch"] = saved_params["cur_epoch"] + + return saved_params + + +def save_checkpoint( + params: AttributeDict, + model: Union[nn.Module, DDP], + model_avg: Optional[nn.Module] = None, + optimizer: Optional[torch.optim.Optimizer] = None, + scheduler: Optional[LRSchedulerType] = None, + sampler: Optional[CutSampler] = None, + scaler: Optional[GradScaler] = None, + rank: int = 0, +) -> None: + """Save model, optimizer, scheduler and training stats to file. + + Args: + params: + It is returned by :func:`get_params`. + model: + The training model. + model_avg: + The stored model averaged from the start of training. + optimizer: + The optimizer used in the training. + sampler: + The sampler for the training dataset. + scaler: + The scaler used for mix precision training. + """ + if rank != 0: + return + filename = params.exp_dir / f"epoch-{params.cur_epoch}.pt" + save_checkpoint_impl( + filename=filename, + model=model, + model_avg=model_avg, + params=params, + optimizer=optimizer, + scheduler=scheduler, + sampler=sampler, + scaler=scaler, + rank=rank, + ) + + if params.best_train_epoch == params.cur_epoch: + best_train_filename = params.exp_dir / "best-train-loss.pt" + copyfile(src=filename, dst=best_train_filename) + + if params.best_valid_epoch == params.cur_epoch: + best_valid_filename = params.exp_dir / "best-valid-loss.pt" + copyfile(src=filename, dst=best_valid_filename) + + +def compute_loss( + params: AttributeDict, + model: Union[nn.Module, DDP], + graph_compiler: Union[BpeCtcTrainingGraphCompiler, CtcTrainingGraphCompiler], + batch: dict, + is_training: bool, + warmup: float = 1.0, +) -> Tuple[Tensor, MetricsTracker]: + """ + Compute RNN-T loss given the model and its inputs. + + Args: + params: + Parameters for training. See :func:`get_params`. + model: + The model for training. It is an instance of Conformer in our case. + graph_compiler: + It is used to build a decoding graph from a ctc topo and training + transcript. The training transcript is contained in the given `batch`, + while the ctc topo is built when this compiler is instantiated. + batch: + A batch of data. See `lhotse.dataset.K2SpeechRecognitionDataset()` + for the content in it. + is_training: + True for training. False for validation. When it is True, this + function enables autograd during computation; when it is False, it + disables autograd. + warmup: a floating point value which increases throughout training; + values >= 1.0 are fully warmed up and have all modules present. + """ + device = model.device if isinstance(model, DDP) else next(model.parameters()).device + feature = batch["inputs"] + # at entry, feature is (N, T, C) + assert feature.ndim == 3 + feature = feature.to(device) + + supervisions = batch["supervisions"] + feature_lens = supervisions["num_frames"].to(device) + + with torch.set_grad_enabled(is_training): + nnet_output, encoder_out_lens = model( + feature, + feature_lens, + warmup=warmup, + delay_penalty=params.nnet_delay_penalty if warmup >= 1.0 else 0, + ) + assert torch.all(encoder_out_lens > 0) + + # NOTE: We need `encode_supervisions` to sort sequences with + # different duration in decreasing order, required by + # `k2.intersect_dense` called in `k2.ctc_loss` + supervision_segments, texts = encode_supervisions( + supervisions, subsampling_factor=params.subsampling_factor + ) + + if isinstance(graph_compiler, BpeCtcTrainingGraphCompiler): + # Works with a BPE model + token_ids = graph_compiler.texts_to_ids(texts) + decoding_graph = graph_compiler.compile(token_ids) + elif isinstance(graph_compiler, CtcTrainingGraphCompiler): + # Works with a phone lexicon + decoding_graph = graph_compiler.compile(texts) + else: + raise ValueError(f"Unsupported type of graph compiler: {type(graph_compiler)}") + + dense_fsa_vec = k2.DenseFsaVec( + nnet_output, + supervision_segments, + allow_truncate=params.subsampling_factor - 1, + ) + + ctc_loss = k2.ctc_loss( + decoding_graph=decoding_graph, + dense_fsa_vec=dense_fsa_vec, + output_beam=params.beam_size, + delay_penalty=params.delay_penalty if warmup >= 1.0 else 0.0, + reduction=params.reduction, + use_double_scores=params.use_double_scores, + ) + ctc_loss_is_finite = torch.isfinite(ctc_loss) + if not torch.all(ctc_loss_is_finite): + logging.info("Not all losses are finite!\n" f"ctc_loss: {ctc_loss}") + ctc_loss = ctc_loss[ctc_loss_is_finite] + + # If either all simple_loss or pruned_loss is inf or nan, + # we stop the training process by raising an exception + if torch.all(~ctc_loss_is_finite): + raise ValueError( + "There are too many utterances in this batch " + "leading to inf or nan losses." + ) + loss = ctc_loss.sum() + + assert loss.requires_grad == is_training + + info = MetricsTracker() + # info["frames"] is an approximate number for two reasons: + # (1) The acutal subsampling factor is ((lens - 1) // 2 - 1) // 2 + # (2) If some utterances in the batch lead to inf/nan loss, they + # are filtered out. + info["frames"] = supervision_segments[:, 2].sum().item() + # `utt_duration` and `utt_pad_proportion` would be normalized by `utterances` # noqa + info["utterances"] = feature.size(0) + # averaged input duration in frames over utterances + info["utt_duration"] = feature_lens.sum().item() + # averaged padding proportion over utterances + info["utt_pad_proportion"] = ( + ((feature.size(1) - feature_lens) / feature.size(1)).sum().item() + ) + + # Note: We use reduction=sum while computing the loss. + info["loss"] = loss.detach().cpu().item() + + return loss, info + + +def compute_validation_loss( + params: AttributeDict, + model: Union[nn.Module, DDP], + graph_compiler: Union[BpeCtcTrainingGraphCompiler, CtcTrainingGraphCompiler], + valid_dl: torch.utils.data.DataLoader, + world_size: int = 1, +) -> MetricsTracker: + """Run the validation process.""" + model.eval() + + tot_loss = MetricsTracker() + + for batch_idx, batch in enumerate(valid_dl): + loss, loss_info = compute_loss( + params=params, + model=model, + graph_compiler=graph_compiler, + batch=batch, + is_training=False, + ) + assert loss.requires_grad is False + tot_loss = tot_loss + loss_info + + if world_size > 1: + tot_loss.reduce(loss.device) + + loss_value = tot_loss["loss"] / tot_loss["frames"] + if loss_value < params.best_valid_loss: + params.best_valid_epoch = params.cur_epoch + params.best_valid_loss = loss_value + + return tot_loss + + +def train_one_epoch( + params: AttributeDict, + model: Union[nn.Module, DDP], + optimizer: torch.optim.Optimizer, + scheduler: LRSchedulerType, + graph_compiler: Union[BpeCtcTrainingGraphCompiler, CtcTrainingGraphCompiler], + train_dl: torch.utils.data.DataLoader, + valid_dl: torch.utils.data.DataLoader, + scaler: GradScaler, + model_avg: Optional[nn.Module] = None, + tb_writer: Optional[SummaryWriter] = None, + world_size: int = 1, + rank: int = 0, +) -> None: + """Train the model for one epoch. + + The training loss from the mean of all frames is saved in + `params.train_loss`. It runs the validation process every + `params.valid_interval` batches. + + Args: + params: + It is returned by :func:`get_params`. + model: + The model for training. + optimizer: + The optimizer we are using. + scheduler: + The learning rate scheduler, we call step() every step. + graph_compiler: + It is used to build a decoding graph from a ctc topo and training + transcript. The training transcript is contained in the given `batch`, + while the ctc topo is built when this compiler is instantiated. + train_dl: + Dataloader for the training dataset. + valid_dl: + Dataloader for the validation dataset. + scaler: + The scaler used for mix precision training. + model_avg: + The stored model averaged from the start of training. + tb_writer: + Writer to write log messages to tensorboard. + world_size: + Number of nodes in DDP training. If it is 1, DDP is disabled. + rank: + The rank of the node in DDP training. If no DDP is used, it should + be set to 0. + """ + model.train() + + tot_loss = MetricsTracker() + + for batch_idx, batch in enumerate(train_dl): + params.batch_idx_train += 1 + batch_size = len(batch["supervisions"]["text"]) + + with torch.cuda.amp.autocast(enabled=params.use_fp16): + loss, loss_info = compute_loss( + params=params, + model=model, + graph_compiler=graph_compiler, + batch=batch, + is_training=True, + warmup=(params.batch_idx_train / params.model_warm_step), + ) + # summary stats + tot_loss = (tot_loss * (1 - 1 / params.reset_interval)) + loss_info + + # NOTE: We use reduction==sum and loss is computed over utterances + # in the batch and there is no normalization to it so far. + scaler.scale(loss).backward() + scheduler.step_batch(params.batch_idx_train) + scaler.step(optimizer) + scaler.update() + optimizer.zero_grad() + + if params.print_diagnostics and batch_idx == 30: + return + + if ( + rank == 0 + and params.batch_idx_train > 0 + and params.batch_idx_train % params.average_period == 0 + ): + update_averaged_model( + params=params, + model_cur=model, + model_avg=model_avg, + ) + + if ( + params.batch_idx_train > 0 + and params.batch_idx_train % params.save_every_n == 0 + ): + save_checkpoint_with_global_batch_idx( + out_dir=params.exp_dir, + global_batch_idx=params.batch_idx_train, + model=model, + model_avg=model_avg, + params=params, + optimizer=optimizer, + scheduler=scheduler, + sampler=train_dl.sampler, + scaler=scaler, + rank=rank, + ) + remove_checkpoints( + out_dir=params.exp_dir, + topk=params.keep_last_k, + rank=rank, + ) + + if batch_idx % params.log_interval == 0: + cur_lr = scheduler.get_last_lr()[0] + logging.info( + f"Epoch {params.cur_epoch}, " + f"batch {batch_idx}, loss[{loss_info}], " + f"tot_loss[{tot_loss}], batch size: {batch_size}, " + f"lr: {cur_lr:.2e}" + ) + + if tb_writer is not None: + tb_writer.add_scalar( + "train/learning_rate", cur_lr, params.batch_idx_train + ) + + loss_info.write_summary( + tb_writer, "train/current_", params.batch_idx_train + ) + tot_loss.write_summary(tb_writer, "train/tot_", params.batch_idx_train) + + if batch_idx > 0 and batch_idx % params.valid_interval == 0: + logging.info("Computing validation loss") + valid_info = compute_validation_loss( + params=params, + model=model, + graph_compiler=graph_compiler, + valid_dl=valid_dl, + world_size=world_size, + ) + model.train() + logging.info(f"Epoch {params.cur_epoch}, validation: {valid_info}") + if tb_writer is not None: + valid_info.write_summary( + tb_writer, "train/valid_", params.batch_idx_train + ) + + loss_value = tot_loss["loss"] / tot_loss["frames"] + params.train_loss = loss_value + if params.train_loss < params.best_train_loss: + params.best_train_epoch = params.cur_epoch + params.best_train_loss = params.train_loss + + +def run(rank, world_size, args): + """ + Args: + rank: + It is a value between 0 and `world_size-1`, which is + passed automatically by `mp.spawn()` in :func:`main`. + The node with rank 0 is responsible for saving checkpoint. + world_size: + Number of GPUs for DDP training. + args: + The return value of get_parser().parse_args() + """ + params = get_params() + params.update(vars(args)) + if params.full_libri is False: + params.valid_interval = 1600 + + fix_random_seed(params.seed) + if world_size > 1: + setup_dist(rank, world_size, params.master_port) + + setup_logger(f"{params.exp_dir}/log/log-train") + logging.info("Training started") + + if args.tensorboard and rank == 0: + tb_writer = SummaryWriter(log_dir=f"{params.exp_dir}/tensorboard") + else: + tb_writer = None + + lexicon = Lexicon(params.lang_dir) + max_token_id = max(lexicon.tokens) + params.vocab_size = max_token_id + 1 # +1 for the blank + + device = torch.device("cpu") + if torch.cuda.is_available(): + device = torch.device("cuda", rank) + logging.info(f"Device: {device}") + + if "lang_bpe" in str(params.lang_dir): + graph_compiler = BpeCtcTrainingGraphCompiler( + params.lang_dir, + device=device, + sos_token="", + eos_token="", + ) + elif "lang_phone" in str(params.lang_dir): + graph_compiler = CtcTrainingGraphCompiler( + lexicon, + device=device, + ) + # Manually add the sos/eos ID with their default values + # from the BPE recipe which we're adapting here. + graph_compiler.sos_id = 1 + graph_compiler.eos_id = 1 + else: + raise ValueError( + f"Unsupported type of lang dir (we expected it to have " + f"'lang_bpe' or 'lang_phone' in its name): {params.lang_dir}" + ) + + if params.dynamic_chunk_training: + assert ( + params.causal_convolution + ), "dynamic_chunk_training requires causal convolution" + + logging.info(params) + + logging.info("About to create model") + model = get_ctc_model(params) + + num_param = sum([p.numel() for p in model.parameters()]) + logging.info(f"Number of model parameters: {num_param}") + + assert params.save_every_n >= params.average_period + model_avg: Optional[nn.Module] = None + if rank == 0: + # model_avg is only used with rank 0 + model_avg = copy.deepcopy(model) + + assert params.start_epoch > 0, params.start_epoch + checkpoints = load_checkpoint_if_available( + params=params, model=model, model_avg=model_avg + ) + + model.to(device) + if world_size > 1: + logging.info("Using DDP") + model = DDP(model, device_ids=[rank]) + + optimizer = Eve(model.parameters(), lr=params.initial_lr) + + scheduler = Eden(optimizer, params.lr_batches, params.lr_epochs) + + if checkpoints and "optimizer" in checkpoints: + logging.info("Loading optimizer state dict") + optimizer.load_state_dict(checkpoints["optimizer"]) + + if ( + checkpoints + and "scheduler" in checkpoints + and checkpoints["scheduler"] is not None + ): + logging.info("Loading scheduler state dict") + scheduler.load_state_dict(checkpoints["scheduler"]) + + if params.print_diagnostics: + diagnostic = diagnostics.attach_diagnostics(model) + + librispeech = LibriSpeechAsrDataModule(args) + + train_cuts = librispeech.train_clean_100_cuts() + if params.full_libri: + train_cuts += librispeech.train_clean_360_cuts() + train_cuts += librispeech.train_other_500_cuts() + + def remove_short_and_long_utt(c: Cut): + # Keep only utterances with duration between 1 second and 20 seconds + # + # Caution: There is a reason to select 20.0 here. Please see + # ../local/display_manifest_statistics.py + # + # You should use ../local/display_manifest_statistics.py to get + # an utterance duration distribution for your dataset to select + # the threshold + return 1.0 <= c.duration <= 20.0 + + train_cuts = train_cuts.filter(remove_short_and_long_utt) + + if params.start_batch > 0 and checkpoints and "sampler" in checkpoints: + # We only load the sampler's state dict when it loads a checkpoint + # saved in the middle of an epoch + sampler_state_dict = checkpoints["sampler"] + else: + sampler_state_dict = None + + train_dl = librispeech.train_dataloaders( + train_cuts, sampler_state_dict=sampler_state_dict + ) + + valid_cuts = librispeech.dev_clean_cuts() + valid_cuts += librispeech.dev_other_cuts() + valid_dl = librispeech.valid_dataloaders(valid_cuts) + + if params.start_batch <= 0 and not params.print_diagnostics: + scan_pessimistic_batches_for_oom( + model=model, + train_dl=train_dl, + optimizer=optimizer, + graph_compiler=graph_compiler, + params=params, + warmup=0.0 if params.start_epoch == 1 else 1.0, + ) + + scaler = GradScaler(enabled=params.use_fp16) + if checkpoints and "grad_scaler" in checkpoints: + logging.info("Loading grad scaler state dict") + scaler.load_state_dict(checkpoints["grad_scaler"]) + + for epoch in range(params.start_epoch, params.num_epochs + 1): + scheduler.step_epoch(epoch - 1) + fix_random_seed(params.seed + epoch - 1) + train_dl.sampler.set_epoch(epoch - 1) + + if tb_writer is not None: + tb_writer.add_scalar("train/epoch", epoch, params.batch_idx_train) + + params.cur_epoch = epoch + + train_one_epoch( + params=params, + model=model, + model_avg=model_avg, + optimizer=optimizer, + scheduler=scheduler, + graph_compiler=graph_compiler, + train_dl=train_dl, + valid_dl=valid_dl, + scaler=scaler, + tb_writer=tb_writer, + world_size=world_size, + rank=rank, + ) + + if params.print_diagnostics: + diagnostic.print_diagnostics() + break + + save_checkpoint( + params=params, + model=model, + model_avg=model_avg, + optimizer=optimizer, + scheduler=scheduler, + sampler=train_dl.sampler, + scaler=scaler, + rank=rank, + ) + + logging.info("Done!") + + if world_size > 1: + torch.distributed.barrier() + cleanup_dist() + + +def scan_pessimistic_batches_for_oom( + model: Union[nn.Module, DDP], + train_dl: torch.utils.data.DataLoader, + optimizer: torch.optim.Optimizer, + graph_compiler: Union[BpeCtcTrainingGraphCompiler, CtcTrainingGraphCompiler], + params: AttributeDict, + warmup: float, +): + from lhotse.dataset import find_pessimistic_batches + + logging.info( + "Sanity check -- see if any of the batches in epoch 1 would cause OOM." + ) + batches, crit_values = find_pessimistic_batches(train_dl.sampler) + for criterion, cuts in batches.items(): + batch = train_dl.dataset[cuts] + try: + with torch.cuda.amp.autocast(enabled=params.use_fp16): + loss, _ = compute_loss( + params=params, + model=model, + graph_compiler=graph_compiler, + batch=batch, + is_training=True, + warmup=warmup, + ) + loss.backward() + optimizer.step() + optimizer.zero_grad() + except RuntimeError as e: + if "CUDA out of memory" in str(e): + logging.error( + "Your GPU ran out of memory with the current " + "max_duration setting. We recommend decreasing " + "max_duration and trying again.\n" + f"Failing criterion: {criterion} " + f"(={crit_values[criterion]}) ..." + ) + raise + + +def main(): + parser = get_parser() + LibriSpeechAsrDataModule.add_arguments(parser) + args = parser.parse_args() + args.exp_dir = Path(args.exp_dir) + + world_size = args.world_size + assert world_size >= 1 + if world_size > 1: + mp.spawn(run, args=(world_size, args), nprocs=world_size, join=True) + else: + run(rank=0, world_size=1, args=args) + + +torch.set_num_threads(1) +torch.set_num_interop_threads(1) + +if __name__ == "__main__": + main() diff --git a/icefall/bpe_graph_compiler.py b/icefall/bpe_graph_compiler.py index e76b7ea32..d9659c2dd 100644 --- a/icefall/bpe_graph_compiler.py +++ b/icefall/bpe_graph_compiler.py @@ -83,11 +83,12 @@ class BpeCtcTrainingGraphCompiler(object): Args: piece_ids: It is a list-of-list integer IDs. - modified: + modified: See :func:`k2.ctc_graph` for its meaning. Return: Return an FsaVec, which is the result of composing a CTC topology with linear FSAs constructed from the given piece IDs. """ - return k2.ctc_graph(piece_ids, modified=modified, device=self.device) + graph = k2.ctc_graph(piece_ids, modified=modified, device=self.device) + return graph diff --git a/icefall/char_graph_compiler.py b/icefall/char_graph_compiler.py index c31db6e4c..5f9571d42 100644 --- a/icefall/char_graph_compiler.py +++ b/icefall/char_graph_compiler.py @@ -117,4 +117,5 @@ class CharCtcTrainingGraphCompiler(object): CTC topology with linear FSAs constructed from the given piece IDs. """ - return k2.ctc_graph(token_ids, modified=modified, device=self.device) + graph = k2.ctc_graph(token_ids, modified=modified, device=self.device) + return graph diff --git a/icefall/checkpoint.py b/icefall/checkpoint.py index f0663a1df..c83c56a53 100644 --- a/icefall/checkpoint.py +++ b/icefall/checkpoint.py @@ -298,7 +298,7 @@ def find_checkpoints(out_dir: Path, iteration: int = 0) -> List[str]: if not result: logging.warn(f"Invalid checkpoint filename {c}") continue - + iter_checkpoints.append((int(result.group(1)), c)) # iter_checkpoints is a list of tuples. Each tuple contains diff --git a/icefall/graph_compiler.py b/icefall/graph_compiler.py index e2ff03f61..84be81254 100644 --- a/icefall/graph_compiler.py +++ b/icefall/graph_compiler.py @@ -79,6 +79,10 @@ class CtcTrainingGraphCompiler(object): fsa_with_self_loops = k2.arc_sort(fsa_with_self_loops) + self.ctc_topo._is_repeat_token_ = ( + self.ctc_topo.labels != self.ctc_topo.aux_labels + ) + decoding_graph = k2.compose( self.ctc_topo, fsa_with_self_loops, treat_epsilons_specially=False ) diff --git a/icefall/utils.py b/icefall/utils.py index b4d8e9a51..d852491c8 100644 --- a/icefall/utils.py +++ b/icefall/utils.py @@ -670,8 +670,8 @@ def write_error_stats_with_timestamps( all_delay = [] for cut_id, ref, hyp, time_ref, time_hyp in results: ali = kaldialign.align(ref, hyp, ERR) - has_time_ref = len(time_ref) > 0 - if has_time_ref: + has_time = len(time_ref) > 0 and len(time_hyp) > 0 + if has_time: # pointer to timestamp_hyp p_hyp = 0 # pointer to timestamp_ref @@ -680,28 +680,28 @@ def write_error_stats_with_timestamps( if ref_word == ERR: ins[hyp_word] += 1 words[hyp_word][3] += 1 - if has_time_ref: + if has_time: p_hyp += 1 elif hyp_word == ERR: dels[ref_word] += 1 words[ref_word][4] += 1 - if has_time_ref: + if has_time: p_ref += 1 elif hyp_word != ref_word: subs[(ref_word, hyp_word)] += 1 words[ref_word][1] += 1 words[hyp_word][2] += 1 - if has_time_ref: + if has_time: p_hyp += 1 p_ref += 1 else: words[ref_word][0] += 1 num_corr += 1 - if has_time_ref: + if has_time: all_delay.append(time_hyp[p_hyp] - time_ref[p_ref]) p_hyp += 1 p_ref += 1 - if has_time_ref: + if has_time: assert p_hyp == len(hyp), (p_hyp, len(hyp)) assert p_ref == len(ref), (p_ref, len(ref)) @@ -1327,10 +1327,9 @@ def parse_timestamp(tokens: List[str], timestamp: List[float]) -> List[float]: def parse_hyp_and_timestamp( res: DecodingResults, - decoding_method: str, - sp: spm.SentencePieceProcessor, subsampling_factor: int, frame_shift_ms: float = 10, + sp: Optional[spm.SentencePieceProcessor] = None, word_table: Optional[k2.SymbolTable] = None, ) -> Tuple[List[List[str]], List[List[float]]]: """Parse hypothesis and timestamp. @@ -1338,51 +1337,29 @@ def parse_hyp_and_timestamp( Args: res: A DecodingResults object. - decoding_method: - Possible values are: - - greedy_search - - beam_search - - modified_beam_search - - fast_beam_search - - fast_beam_search_LG - - fast_beam_search_nbest - - fast_beam_search_nbest_oracle - - fast_beam_search_nbest_LG - sp: - The BPE model. subsampling_factor: The integer subsampling factor. frame_shift_ms: The float frame shift used for feature extraction. + sp: + The BPE model. word_table: The word symbol table. Returns: Return a list of hypothesis and timestamp. """ - assert decoding_method in ( - "greedy_search", - "beam_search", - "fast_beam_search", - "fast_beam_search_LG", - "fast_beam_search_nbest", - "fast_beam_search_nbest_LG", - "fast_beam_search_nbest_oracle", - "modified_beam_search", - ) - hyps = [] timestamps = [] N = len(res.hyps) assert len(res.timestamps) == N, (len(res.timestamps), N) use_word_table = False - if ( - decoding_method == "fast_beam_search_nbest_LG" - and decoding_method == "fast_beam_search_LG" - ): - assert word_table is not None + if word_table is not None: + assert sp is None use_word_table = True + else: + assert sp is not None and word_table is None for i in range(N): time = convert_timestamp(res.timestamps[i], subsampling_factor, frame_shift_ms)