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41b16d7838
* merge upstream * add SURT model and training * add libricss decoding * add chunk width randomization * decode SURT with libricss * initial commit for zipformer_ctc * remove unwanted changes * remove changes to other recipe * fix zipformer softlink * fix for JIT export * add missing file * fix symbolic links * update results * clean commit for SURT recipe * training libricss surt model * remove unwanted files * remove unwanted changes * remove changes in librispeech * change some files to symlinks * remove unwanted changes in utils * add export script * add README * minor fix in README * add assets for README * replace some files with symlinks * remove unused decoding methods * initial commit for SURT AMI recipe * fix symlink * add train + decode scripts * add missing symlink * change files to symlink * change file type
147 lines
5.8 KiB
Python
Executable File
147 lines
5.8 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright 2022 Johns Hopkins University (authors: Desh Raj)
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#
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# See ../../../../LICENSE for clarification regarding multiple authors
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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"""
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This file creates AMI train segments.
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"""
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import logging
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import math
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from pathlib import Path
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import torch
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import torch.multiprocessing
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from lhotse import LilcomChunkyWriter, load_manifest_lazy
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from lhotse.cut import Cut, CutSet
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from lhotse.utils import EPSILON, add_durations
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from tqdm import tqdm
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def cut_into_windows(cuts: CutSet, duration: float):
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"""
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This function takes a CutSet and cuts each cut into windows of roughly
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`duration` seconds. By roughly, we mean that we try to adjust for the last supervision
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that exceeds the duration, or is shorter than the duration.
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"""
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res = []
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with tqdm() as pbar:
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for cut in cuts:
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pbar.update(1)
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sups = cut.index_supervisions()[cut.id]
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sr = cut.sampling_rate
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start = 0.0
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end = duration
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num_tries = 0
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while start < cut.duration and num_tries < 2:
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# Find the supervision that are cut by the window endpoint
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hitlist = [iv for iv in sups.at(end) if iv.begin < end]
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# If there are no supervisions, we are done
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if not hitlist:
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res.append(
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cut.truncate(
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offset=start,
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duration=add_durations(end, -start, sampling_rate=sr),
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keep_excessive_supervisions=False,
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)
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)
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# Update the start and end for the next window
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start = end
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end = add_durations(end, duration, sampling_rate=sr)
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else:
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# find ratio of durations cut by the window endpoint
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ratios = [
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add_durations(end, -iv.end, sampling_rate=sr) / iv.length()
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for iv in hitlist
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]
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# we retain the supervisions that have >50% of their duration
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# in the window, and discard the others
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retained = []
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discarded = []
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for iv, ratio in zip(hitlist, ratios):
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if ratio > 0.5:
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retained.append(iv)
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else:
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discarded.append(iv)
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cur_end = max(iv.end for iv in retained) if retained else end
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res.append(
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cut.truncate(
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offset=start,
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duration=add_durations(cur_end, -start, sampling_rate=sr),
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keep_excessive_supervisions=False,
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)
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)
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# For the next window, we start at the earliest discarded supervision
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next_start = min(iv.begin for iv in discarded) if discarded else end
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next_end = add_durations(next_start, duration, sampling_rate=sr)
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# It may happen that next_start is the same as start, in which case
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# we will advance the window anyway
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if next_start == start:
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logging.warning(
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f"Next start is the same as start: {next_start} == {start} for cut {cut.id}"
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)
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start = end + EPSILON
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end = add_durations(start, duration, sampling_rate=sr)
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num_tries += 1
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else:
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start = next_start
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end = next_end
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return CutSet.from_cuts(res)
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def prepare_train_cuts():
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src_dir = Path("data/manifests")
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logging.info("Loading the manifests")
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train_cuts_ihm = load_manifest_lazy(
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src_dir / "cuts_ami-ihm-mix_train.jsonl.gz"
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).map(lambda c: c.with_id(f"{c.id}_ihm-mix"))
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train_cuts_sdm = load_manifest_lazy(src_dir / "cuts_ami-sdm_train.jsonl.gz").map(
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lambda c: c.with_id(f"{c.id}_sdm")
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)
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train_cuts_mdm = load_manifest_lazy(
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src_dir / "cuts_ami-mdm8-bf_train.jsonl.gz"
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).map(lambda c: c.with_id(f"{c.id}_mdm8-bf"))
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# Combine all cuts into one CutSet
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train_cuts = train_cuts_ihm + train_cuts_sdm + train_cuts_mdm
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train_cuts_1 = train_cuts.trim_to_supervision_groups(max_pause=0.5)
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train_cuts_2 = train_cuts.trim_to_supervision_groups(max_pause=0.0)
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# Combine the two segmentations
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train_all = train_cuts_1 + train_cuts_2
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# At this point, some of the cuts may be very long. We will cut them into windows of
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# roughly 30 seconds.
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logging.info("Cutting the segments into windows of 30 seconds")
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train_all_30 = cut_into_windows(train_all, duration=30.0)
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logging.info(f"Number of cuts after cutting into windows: {len(train_all_30)}")
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# Show statistics
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train_all.describe(full=True)
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# Save the cuts
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logging.info("Saving the cuts")
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train_all.to_file(src_dir / "cuts_train_ami.jsonl.gz")
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if __name__ == "__main__":
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formatter = "%(asctime)s %(levelname)s [%(filename)s:%(lineno)d] %(message)s"
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logging.basicConfig(format=formatter, level=logging.INFO)
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prepare_train_cuts()
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