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567 lines
18 KiB
567 lines
18 KiB
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
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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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Data preparation.
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Download: http://groups.inf.ed.ac.uk/ami/download/
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Prepares metadata files (JSON) from manual annotations "segments/" using RTTM format (Oracle VAD).
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"""
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import argparse
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import glob
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import json
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import logging
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import os
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import xml.etree.ElementTree as et
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from distutils.util import strtobool
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from ami_splits import get_AMI_split
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from dataio import load_pkl
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from dataio import save_pkl
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logger = logging.getLogger(__name__)
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SAMPLERATE = 16000
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def prepare_ami(
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data_folder,
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manual_annot_folder,
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save_folder,
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ref_rttm_dir,
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meta_data_dir,
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split_type="full_corpus_asr",
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skip_TNO=True,
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mic_type="Mix-Headset",
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vad_type="oracle",
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max_subseg_dur=3.0,
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overlap=1.5, ):
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"""
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Prepares reference RTTM and JSON files for the AMI dataset.
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Arguments
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---------
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data_folder : str
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Path to the folder where the original amicorpus is stored.
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manual_annot_folder : str
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Directory where the manual annotations are stored.
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save_folder : str
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The save directory in results.
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ref_rttm_dir : str
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Directory to store reference RTTM files.
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meta_data_dir : str
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Directory to store the meta data (json) files.
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split_type : str
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Standard dataset split. See ami_splits.py for more information.
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Allowed split_type: "scenario_only", "full_corpus" or "full_corpus_asr"
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skip_TNO: bool
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Skips TNO meeting recordings if True.
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mic_type : str
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Type of microphone to be used.
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vad_type : str
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Type of VAD. Kept for future when VAD will be added.
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max_subseg_dur : float
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Duration in seconds of a subsegments to be prepared from larger segments.
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overlap : float
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Overlap duration in seconds between adjacent subsegments
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Example
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-------
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>>> from dataset.ami.ami_prepare import prepare_ami
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>>> data_folder = '/home/data/ami/amicorpus/'
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>>> manual_annot_folder = '/home/data/ami/ami_public_manual/'
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>>> save_folder = './results/
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>>> split_type = 'full_corpus_asr'
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>>> mic_type = 'Mix-Headset'
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>>> prepare_ami(data_folder, manual_annot_folder, save_folder, split_type, mic_type)
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"""
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# Meta files
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meta_files = [
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os.path.join(meta_data_dir, "ami_train." + mic_type + ".subsegs.json"),
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os.path.join(meta_data_dir, "ami_dev." + mic_type + ".subsegs.json"),
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os.path.join(meta_data_dir, "ami_eval." + mic_type + ".subsegs.json"),
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]
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# Create configuration for easily skipping data_preparation stage
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conf = {
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"data_folder": data_folder,
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"save_folder": save_folder,
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"ref_rttm_dir": ref_rttm_dir,
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"meta_data_dir": meta_data_dir,
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"split_type": split_type,
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"skip_TNO": skip_TNO,
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"mic_type": mic_type,
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"vad": vad_type,
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"max_subseg_dur": max_subseg_dur,
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"overlap": overlap,
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"meta_files": meta_files,
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}
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if not os.path.exists(save_folder):
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os.makedirs(save_folder)
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# Setting output option files.
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opt_file = "opt_ami_prepare." + mic_type + ".pkl"
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# Check if this phase is already done (if so, skip it)
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if skip(save_folder, conf, meta_files, opt_file):
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logger.info(
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"Skipping data preparation, as it was completed in previous run.")
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return
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msg = "\tCreating meta-data file for the AMI Dataset.."
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logger.debug(msg)
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# Get the split
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train_set, dev_set, eval_set = get_AMI_split(split_type)
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# Prepare RTTM from XML(manual annot) and store are groundtruth
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# Create ref_RTTM directory
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if not os.path.exists(ref_rttm_dir):
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os.makedirs(ref_rttm_dir)
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# Create reference RTTM files
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splits = ["train", "dev", "eval"]
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for i in splits:
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rttm_file = ref_rttm_dir + "/fullref_ami_" + i + ".rttm"
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if i == "train":
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prepare_segs_for_RTTM(
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train_set,
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rttm_file,
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data_folder,
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manual_annot_folder,
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i,
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skip_TNO, )
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if i == "dev":
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prepare_segs_for_RTTM(
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dev_set,
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rttm_file,
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data_folder,
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manual_annot_folder,
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i,
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skip_TNO, )
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if i == "eval":
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prepare_segs_for_RTTM(
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eval_set,
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rttm_file,
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data_folder,
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manual_annot_folder,
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i,
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skip_TNO, )
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# Create meta_files for splits
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meta_data_dir = meta_data_dir
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if not os.path.exists(meta_data_dir):
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os.makedirs(meta_data_dir)
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for i in splits:
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rttm_file = ref_rttm_dir + "/fullref_ami_" + i + ".rttm"
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meta_filename_prefix = "ami_" + i
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prepare_metadata(
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rttm_file,
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meta_data_dir,
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data_folder,
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meta_filename_prefix,
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max_subseg_dur,
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overlap,
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mic_type, )
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save_opt_file = os.path.join(save_folder, opt_file)
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save_pkl(conf, save_opt_file)
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def get_RTTM_per_rec(segs, spkrs_list, rec_id):
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"""Prepares rttm for each recording
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"""
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rttm = []
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# Prepare header
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for spkr_id in spkrs_list:
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# e.g. SPKR-INFO ES2008c 0 <NA> <NA> <NA> unknown ES2008c.A_PM <NA> <NA>
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line = ("SPKR-INFO " + rec_id + " 0 <NA> <NA> <NA> unknown " + spkr_id +
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" <NA> <NA>")
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rttm.append(line)
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# Append remaining lines
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for row in segs:
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# e.g. SPEAKER ES2008c 0 37.880 0.590 <NA> <NA> ES2008c.A_PM <NA> <NA>
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if float(row[1]) < float(row[0]):
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msg1 = (
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"Possibly Incorrect Annotation Found!! transcriber_start (%s) > transcriber_end (%s)"
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% (row[0], row[1]))
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msg2 = (
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"Excluding this incorrect row from the RTTM : %s, %s, %s, %s" %
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(rec_id, row[0], str(round(float(row[1]) - float(row[0]), 4)),
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str(row[2]), ))
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logger.info(msg1)
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logger.info(msg2)
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continue
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line = ("SPEAKER " + rec_id + " 0 " + str(round(float(row[0]), 4)) + " "
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+ str(round(float(row[1]) - float(row[0]), 4)) + " <NA> <NA> " +
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str(row[2]) + " <NA> <NA>")
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rttm.append(line)
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return rttm
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def prepare_segs_for_RTTM(list_ids, out_rttm_file, audio_dir, annot_dir,
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split_type, skip_TNO):
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RTTM = [] # Stores all RTTMs clubbed together for a given dataset split
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for main_meet_id in list_ids:
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# Skip TNO meetings from dev and eval sets
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if (main_meet_id.startswith("TS") and split_type != "train" and
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skip_TNO is True):
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msg = ("Skipping TNO meeting in AMI " + str(split_type) + " set : "
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+ str(main_meet_id))
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logger.info(msg)
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continue
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list_sessions = glob.glob(audio_dir + "/" + main_meet_id + "*")
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list_sessions.sort()
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for sess in list_sessions:
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rec_id = os.path.basename(sess)
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path = annot_dir + "/segments/" + rec_id
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f = path + ".*.segments.xml"
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list_spkr_xmls = glob.glob(f)
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list_spkr_xmls.sort() # A, B, C, D, E etc (Speakers)
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segs = []
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spkrs_list = (
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[]) # Since non-scenario recordings contains 3-5 speakers
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for spkr_xml_file in list_spkr_xmls:
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# Speaker ID
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spkr = os.path.basename(spkr_xml_file).split(".")[1]
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spkr_ID = rec_id + "." + spkr
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spkrs_list.append(spkr_ID)
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# Parse xml tree
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tree = et.parse(spkr_xml_file)
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root = tree.getroot()
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# Start, end and speaker_ID from xml file
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segs = segs + [[
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elem.attrib["transcriber_start"],
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elem.attrib["transcriber_end"],
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spkr_ID,
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] for elem in root.iter("segment")]
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# Sort rows as per the start time (per recording)
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segs.sort(key=lambda x: float(x[0]))
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rttm_per_rec = get_RTTM_per_rec(segs, spkrs_list, rec_id)
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RTTM = RTTM + rttm_per_rec
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# Write one RTTM as groundtruth. For example, "fullref_eval.rttm"
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with open(out_rttm_file, "w") as f:
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for item in RTTM:
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f.write("%s\n" % item)
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def is_overlapped(end1, start2):
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"""Returns True if the two segments overlap
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Arguments
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---------
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end1 : float
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End time of the first segment.
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start2 : float
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Start time of the second segment.
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"""
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if start2 > end1:
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return False
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else:
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return True
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def merge_rttm_intervals(rttm_segs):
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"""Merges adjacent segments in rttm if they overlap.
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"""
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# For one recording
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# rec_id = rttm_segs[0][1]
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rttm_segs.sort(key=lambda x: float(x[3]))
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# first_seg = rttm_segs[0] # first interval.. as it is
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merged_segs = [rttm_segs[0]]
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strt = float(rttm_segs[0][3])
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end = float(rttm_segs[0][3]) + float(rttm_segs[0][4])
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for row in rttm_segs[1:]:
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s = float(row[3])
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e = float(row[3]) + float(row[4])
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if is_overlapped(end, s):
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# Update only end. The strt will be same as in last segment
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# Just update last row in the merged_segs
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end = max(end, e)
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merged_segs[-1][3] = str(round(strt, 4))
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merged_segs[-1][4] = str(round((end - strt), 4))
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merged_segs[-1][7] = "overlap" # previous_row[7] + '-'+ row[7]
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else:
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# Add a new disjoint segment
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strt = s
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end = e
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merged_segs.append(row) # this will have 1 spkr ID
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return merged_segs
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def get_subsegments(merged_segs, max_subseg_dur=3.0, overlap=1.5):
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"""Divides bigger segments into smaller sub-segments
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"""
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shift = max_subseg_dur - overlap
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subsegments = []
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# These rows are in RTTM format
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for row in merged_segs:
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seg_dur = float(row[4])
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rec_id = row[1]
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if seg_dur > max_subseg_dur:
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num_subsegs = int(seg_dur / shift)
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# Taking 0.01 sec as small step
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seg_start = float(row[3])
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seg_end = seg_start + seg_dur
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# Now divide this segment (new_row) in smaller subsegments
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for i in range(num_subsegs):
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subseg_start = seg_start + i * shift
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subseg_end = min(subseg_start + max_subseg_dur - 0.01, seg_end)
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subseg_dur = subseg_end - subseg_start
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new_row = [
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"SPEAKER",
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rec_id,
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"0",
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str(round(float(subseg_start), 4)),
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str(round(float(subseg_dur), 4)),
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"<NA>",
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"<NA>",
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row[7],
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"<NA>",
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"<NA>",
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]
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subsegments.append(new_row)
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# Break if exceeding the boundary
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if subseg_end >= seg_end:
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break
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else:
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subsegments.append(row)
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return subsegments
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def prepare_metadata(rttm_file, save_dir, data_dir, filename, max_subseg_dur,
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overlap, mic_type):
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# Read RTTM, get unique meeting_IDs (from RTTM headers)
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# For each MeetingID. select that meetID -> merge -> subsegment -> json -> append
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# Read RTTM
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RTTM = []
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with open(rttm_file, "r") as f:
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for line in f:
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entry = line[:-1]
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RTTM.append(entry)
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spkr_info = filter(lambda x: x.startswith("SPKR-INFO"), RTTM)
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rec_ids = list(set([row.split(" ")[1] for row in spkr_info]))
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rec_ids.sort() # sorting just to make JSON look in proper sequence
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# For each recording merge segments and then perform subsegmentation
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MERGED_SEGMENTS = []
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SUBSEGMENTS = []
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for rec_id in rec_ids:
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segs_iter = filter(lambda x: x.startswith("SPEAKER " + str(rec_id)),
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RTTM)
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gt_rttm_segs = [row.split(" ") for row in segs_iter]
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# Merge, subsegment and then convert to json format.
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merged_segs = merge_rttm_intervals(
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gt_rttm_segs) # We lose speaker_ID after merging
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MERGED_SEGMENTS = MERGED_SEGMENTS + merged_segs
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# Divide segments into smaller sub-segments
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subsegs = get_subsegments(merged_segs, max_subseg_dur, overlap)
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SUBSEGMENTS = SUBSEGMENTS + subsegs
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# Write segment AND sub-segments (in RTTM format)
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segs_file = save_dir + "/" + filename + ".segments.rttm"
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subsegment_file = save_dir + "/" + filename + ".subsegments.rttm"
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with open(segs_file, "w") as f:
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for row in MERGED_SEGMENTS:
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line_str = " ".join(row)
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f.write("%s\n" % line_str)
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with open(subsegment_file, "w") as f:
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for row in SUBSEGMENTS:
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line_str = " ".join(row)
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f.write("%s\n" % line_str)
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# Create JSON from subsegments
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json_dict = {}
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for row in SUBSEGMENTS:
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rec_id = row[1]
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strt = str(round(float(row[3]), 4))
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end = str(round((float(row[3]) + float(row[4])), 4))
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subsegment_ID = rec_id + "_" + strt + "_" + end
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dur = row[4]
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start_sample = int(float(strt) * SAMPLERATE)
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end_sample = int(float(end) * SAMPLERATE)
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# If multi-mic audio is selected
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if mic_type == "Array1":
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wav_file_base_path = (data_dir + "/" + rec_id + "/audio/" + rec_id +
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"." + mic_type + "-")
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f = [] # adding all 8 mics
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for i in range(8):
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f.append(wav_file_base_path + str(i + 1).zfill(2) + ".wav")
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audio_files_path_list = f
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# Note: key "files" with 's' is used for multi-mic
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json_dict[subsegment_ID] = {
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"wav": {
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"files": audio_files_path_list,
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"duration": float(dur),
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"start": int(start_sample),
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"stop": int(end_sample),
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},
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}
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else:
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# Single mic audio
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wav_file_path = (data_dir + "/" + rec_id + "/audio/" + rec_id + "."
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+ mic_type + ".wav")
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# Note: key "file" without 's' is used for single-mic
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json_dict[subsegment_ID] = {
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"wav": {
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"file": wav_file_path,
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"duration": float(dur),
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"start": int(start_sample),
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"stop": int(end_sample),
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},
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}
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out_json_file = save_dir + "/" + filename + "." + mic_type + ".subsegs.json"
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with open(out_json_file, mode="w") as json_f:
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json.dump(json_dict, json_f, indent=2)
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msg = "%s JSON prepared" % (out_json_file)
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logger.debug(msg)
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def skip(save_folder, conf, meta_files, opt_file):
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"""
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Detects if the AMI data_preparation has been already done.
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If the preparation has been done, we can skip it.
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Returns
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-------
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bool
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if True, the preparation phase can be skipped.
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if False, it must be done.
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"""
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# Checking if meta (json) files are available
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skip = True
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for file_path in meta_files:
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if not os.path.isfile(file_path):
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skip = False
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# Checking saved options
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save_opt_file = os.path.join(save_folder, opt_file)
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if skip is True:
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if os.path.isfile(save_opt_file):
|
|
opts_old = load_pkl(save_opt_file)
|
|
if opts_old == conf:
|
|
skip = True
|
|
else:
|
|
skip = False
|
|
else:
|
|
skip = False
|
|
|
|
return skip
|
|
|
|
|
|
if __name__ == '__main__':
|
|
|
|
parser = argparse.ArgumentParser(
|
|
prog='python ami_prepare.py --data_folder /home/data/ami/amicorpus \
|
|
--manual_annot_folder /home/data/ami/ami_public_manual_1.6.2 \
|
|
--save_folder ./results/ --ref_rttm_dir ./results/ref_rttms \
|
|
--meta_data_dir ./results/metadata',
|
|
description='AMI Data preparation')
|
|
parser.add_argument(
|
|
'--data_folder',
|
|
required=True,
|
|
help='Path to the folder where the original amicorpus is stored')
|
|
parser.add_argument(
|
|
'--manual_annot_folder',
|
|
required=True,
|
|
help='Directory where the manual annotations are stored')
|
|
parser.add_argument(
|
|
'--save_folder', required=True, help='The save directory in results')
|
|
parser.add_argument(
|
|
'--ref_rttm_dir',
|
|
required=True,
|
|
help='Directory to store reference RTTM files')
|
|
parser.add_argument(
|
|
'--meta_data_dir',
|
|
required=True,
|
|
help='Directory to store the meta data (json) files')
|
|
parser.add_argument(
|
|
'--split_type',
|
|
default="full_corpus_asr",
|
|
help='Standard dataset split. See ami_splits.py for more information')
|
|
parser.add_argument(
|
|
'--skip_TNO',
|
|
default=True,
|
|
type=strtobool,
|
|
help='Skips TNO meeting recordings if True')
|
|
parser.add_argument(
|
|
'--mic_type',
|
|
default="Mix-Headset",
|
|
help='Type of microphone to be used')
|
|
parser.add_argument(
|
|
'--vad_type',
|
|
default="oracle",
|
|
help='Type of VAD. Kept for future when VAD will be added')
|
|
parser.add_argument(
|
|
'--max_subseg_dur',
|
|
default=3.0,
|
|
type=float,
|
|
help='Duration in seconds of a subsegments to be prepared from larger segments'
|
|
)
|
|
parser.add_argument(
|
|
'--overlap',
|
|
default=1.5,
|
|
type=float,
|
|
help='Overlap duration in seconds between adjacent subsegments')
|
|
|
|
args = parser.parse_args()
|
|
|
|
prepare_ami(args.data_folder, args.manual_annot_folder, args.save_folder,
|
|
args.ref_rttm_dir, args.meta_data_dir)
|