def _maybe_convert_set(input_tsv, audio_dir, space_after_every_character=None): output_csv = os.path.join( audio_dir, os.path.split(input_tsv)[-1].replace("tsv", "csv")) print("Saving new DeepSpeech-formatted CSV file to: ", output_csv) # Get audiofile path and transcript for each sentence in tsv samples = [] with open(input_tsv, encoding="utf-8") as input_tsv_file: reader = csv.DictReader(input_tsv_file, delimiter="\t") for row in reader: samples.append((os.path.join(audio_dir, row["path"]), row["sentence"])) counter = get_counter() num_samples = len(samples) rows = [] print("Importing mp3 files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() with open(output_csv, "w", encoding="utf-8") as output_csv_file: print("Writing CSV file for DeepSpeech.py as: ", output_csv) writer = csv.DictWriter(output_csv_file, fieldnames=FIELDNAMES) writer.writeheader() bar = progressbar.ProgressBar(max_value=len(rows), widgets=SIMPLE_BAR) for filename, file_size, transcript in bar(rows): if space_after_every_character: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": " ".join(transcript), }) else: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": transcript, }) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def _maybe_convert_set(extracted_dir, source_csv, target_csv): print() if os.path.exists(target_csv): print('Found CSV file "%s" - not importing "%s".' % (target_csv, source_csv)) return print('No CSV file "%s" - importing "%s"...' % (target_csv, source_csv)) samples = [] with open(source_csv) as source_csv_file: reader = csv.DictReader(source_csv_file) for row in reader: samples.append((os.path.join(extracted_dir, row["filename"]), row["text"])) # Mutable counters for the concurrent embedded routine counter = get_counter() num_samples = len(samples) rows = [] print("Importing mp3 files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() print('Writing "%s"...' % target_csv) with open(target_csv, "w", encoding="utf-8", newline="") as target_csv_file: writer = csv.DictWriter(target_csv_file, fieldnames=FIELDNAMES) writer.writeheader() bar = progressbar.ProgressBar(max_value=len(rows), widgets=SIMPLE_BAR) for filename, file_size, transcript in bar(rows): writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": transcript, }) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def write_general_csv(target_dir, _rows, _counter): target_csv_template = os.path.join(target_dir, "ccpmf_{}.csv") with open(target_csv_template.format("train"), "w") as train_csv_file: # 80% with open(target_csv_template.format("dev"), "w") as dev_csv_file: # 10% with open(target_csv_template.format("test"), "w") as test_csv_file: # 10% train_writer = csv.DictWriter(train_csv_file, fieldnames=FIELDNAMES) train_writer.writeheader() dev_writer = csv.DictWriter(dev_csv_file, fieldnames=FIELDNAMES) dev_writer.writeheader() test_writer = csv.DictWriter(test_csv_file, fieldnames=FIELDNAMES) test_writer.writeheader() bar = progressbar.ProgressBar(max_value=len(_rows), widgets=SIMPLE_BAR) for i, item in enumerate(bar(_rows)): i_mod = i % 10 if i_mod == 0: writer = test_writer elif i_mod == 1: writer = dev_writer else: writer = train_writer writer.writerow({ "wav_filename": item[0], "wav_filesize": item[1], "transcript": item[2] }) print("") print("~~~~ FINAL STATISTICS ~~~~") print_import_report(_counter, SAMPLE_RATE, MAX_SECS) print("~~~~ (FINAL STATISTICS) ~~~~") print("")
def _maybe_convert_sets(target_dir, extracted_data): extracted_dir = os.path.join(target_dir, extracted_data) # override existing CSV with normalized one target_csv_template = os.path.join( target_dir, ARCHIVE_DIR_NAME, ARCHIVE_NAME.replace(".tar.gz", "_{}.csv")) if os.path.isfile(target_csv_template): return wav_root_dir = os.path.join(extracted_dir) all_files = [ "transcripts/train/yaounde/fn_text.txt", "transcripts/train/ca16_conv/transcripts.txt", "transcripts/train/ca16_read/conditioned.txt", "transcripts/dev/niger_west_african_fr/transcripts.txt", "speech/dev/niger_west_african_fr/niger_wav_file_name_transcript.tsv", "transcripts/devtest/ca16_read/conditioned.txt", "transcripts/test/ca16/prompts.txt", ] transcripts = {} for tr in all_files: with open(os.path.join(target_dir, ARCHIVE_DIR_NAME, tr), "r") as tr_source: for line in tr_source.readlines(): line = line.strip() if ".tsv" in tr: sep = " " else: sep = " " audio = os.path.basename(line.split(sep)[0]) if not (".wav" in audio): if ".tdf" in audio: audio = audio.replace(".tdf", ".wav") else: audio += ".wav" transcript = " ".join(line.split(sep)[1:]) transcripts[audio] = transcript # Get audiofile path and transcript for each sentence in tsv samples = [] glob_dir = os.path.join(wav_root_dir, "**/*.wav") for record in glob(glob_dir, recursive=True): record_file = os.path.basename(record) if record_file in transcripts: samples.append((record, transcripts[record_file])) # Keep track of how many samples are good vs. problematic counter = get_counter() num_samples = len(samples) rows = [] print("Importing WAV files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() with open(target_csv_template.format("train"), "w") as train_csv_file: # 80% with open(target_csv_template.format("dev"), "w") as dev_csv_file: # 10% with open(target_csv_template.format("test"), "w") as test_csv_file: # 10% train_writer = csv.DictWriter(train_csv_file, fieldnames=FIELDNAMES) train_writer.writeheader() dev_writer = csv.DictWriter(dev_csv_file, fieldnames=FIELDNAMES) dev_writer.writeheader() test_writer = csv.DictWriter(test_csv_file, fieldnames=FIELDNAMES) test_writer.writeheader() for i, item in enumerate(rows): transcript = validate_label(item[2]) if not transcript: continue wav_filename = item[0] i_mod = i % 10 if i_mod == 0: writer = test_writer elif i_mod == 1: writer = dev_writer else: writer = train_writer writer.writerow( dict( wav_filename=wav_filename, wav_filesize=os.path.getsize(wav_filename), transcript=transcript, )) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def _maybe_convert_set(dataset, tsv_dir, audio_dir, filter_obj, space_after_every_character=None, rows=None, exclude=None): exclude_transcripts = set() exclude_speakers = set() if exclude is not None: for sample in exclude: exclude_transcripts.add(sample[2]) exclude_speakers.add(sample[3]) if rows is None: rows = [] input_tsv = os.path.join(os.path.abspath(tsv_dir), dataset + ".tsv") if not os.path.isfile(input_tsv): return rows print("Loading TSV file: ", input_tsv) # Get audiofile path and transcript for each sentence in tsv samples = [] with open(input_tsv, encoding="utf-8") as input_tsv_file: reader = csv.DictReader(input_tsv_file, delimiter="\t") for row in reader: samples.append((os.path.join(audio_dir, row["path"]), row["sentence"], row["client_id"])) counter = get_counter() num_samples = len(samples) print("Importing mp3 files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) samples_with_context = itertools.zip_longest(samples, [], fillvalue=filter_obj) for i, processed in enumerate(pool.imap_unordered( one_sample, samples_with_context), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS) output_csv = os.path.join(os.path.abspath(audio_dir), dataset + ".csv") print("Saving new DeepSpeech-formatted CSV file to: ", output_csv) with open(output_csv, "w", encoding="utf-8") as output_csv_file: print("Writing CSV file for DeepSpeech.py as: ", output_csv) writer = csv.DictWriter(output_csv_file, fieldnames=FIELDNAMES) writer.writeheader() bar = progressbar.ProgressBar(max_value=len(rows), widgets=SIMPLE_BAR) for filename, file_size, transcript, speaker in bar(rows): if transcript in exclude_transcripts or speaker in exclude_speakers: continue if space_after_every_character: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": " ".join(transcript), }) else: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": transcript, }) return rows
def _maybe_convert_sets(target_dir, extracted_data): extracted_dir = os.path.join(target_dir, extracted_data) # override existing CSV with normalized one target_csv_template = os.path.join( target_dir, ARCHIVE_DIR_NAME + "_" + ARCHIVE_NAME.replace(".zip", "_{}.csv")) if os.path.isfile(target_csv_template): return ogg_root_dir = os.path.join(extracted_dir, ARCHIVE_NAME.replace(".zip", "")) # Get audiofile path and transcript for each sentence in tsv samples = [] glob_dir = os.path.join(ogg_root_dir, "**/*.ogg") for record in glob(glob_dir, recursive=True): record_file = record.replace(ogg_root_dir + os.path.sep, "") if record_filter(record_file): samples.append(( os.path.join(ogg_root_dir, record_file), os.path.splitext(os.path.basename(record_file))[0], )) counter = get_counter() num_samples = len(samples) rows = [] print("Importing ogg files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() with open(target_csv_template.format("train"), "w") as train_csv_file: # 80% with open(target_csv_template.format("dev"), "w") as dev_csv_file: # 10% with open(target_csv_template.format("test"), "w") as test_csv_file: # 10% train_writer = csv.DictWriter(train_csv_file, fieldnames=FIELDNAMES) train_writer.writeheader() dev_writer = csv.DictWriter(dev_csv_file, fieldnames=FIELDNAMES) dev_writer.writeheader() test_writer = csv.DictWriter(test_csv_file, fieldnames=FIELDNAMES) test_writer.writeheader() for i, item in enumerate(rows): transcript = validate_label(item[2]) if not transcript: continue wav_filename = os.path.join( ogg_root_dir, item[0].replace(".ogg", ".wav")) i_mod = i % 10 if i_mod == 0: writer = test_writer elif i_mod == 1: writer = dev_writer else: writer = train_writer writer.writerow( dict( wav_filename=wav_filename, wav_filesize=os.path.getsize(wav_filename), transcript=transcript, )) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def _maybe_import_data(xml_file, audio_source, target_dir, rel_tol=1e-1): dataset_basename = os.path.splitext(os.path.split(xml_file)[1])[0] wav_root = os.path.join(target_dir, dataset_basename) if not os.path.exists(wav_root): os.makedirs(wav_root) source_frames = int( subprocess.check_output(["soxi", "-s", audio_source], stderr=subprocess.STDOUT)) print("Source audio length: %s" % secs_to_hours(source_frames / SAMPLE_RATE)) # Get audiofile path and transcript for each sentence in tsv samples = [] tree = ET.parse(xml_file) root = tree.getroot() seq_id = 0 this_time = 0.0 this_duration = 0.0 prev_time = 0.0 prev_duration = 0.0 this_text = "" for child in root: if child.tag == "row": cur_time = float(child.attrib["timestamp"]) cur_duration = float(child.attrib["timedur"]) cur_text = child.text if this_time == 0.0: this_time = cur_time delta = cur_time - (prev_time + prev_duration) # rel_tol value is made from trial/error to try and compromise between: # - cutting enough to skip missing words # - not too short, not too long sentences is_close = math.isclose(cur_time, this_time + this_duration, rel_tol=rel_tol) is_short = ((this_duration + cur_duration + delta) < MAX_SECS) # when the previous element is close enough **and** this does not # go over MAX_SECS, we append content if (is_close and is_short): this_duration += cur_duration + delta this_text += cur_text else: samples.append((audio_source, target_dir, dataset_basename, this_time, this_duration, this_text, seq_id)) this_time = cur_time this_duration = cur_duration this_text = cur_text seq_id += 1 prev_time = cur_time prev_duration = cur_duration # Keep track of how many samples are good vs. problematic _counter = get_counter() num_samples = len(samples) _rows = [] print("Processing XML data: {}".format(xml_file)) pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): _counter += processed[0] _rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() imported_samples = get_imported_samples(_counter) assert _counter["all"] == num_samples assert len(_rows) == imported_samples print_import_report(_counter, SAMPLE_RATE, MAX_SECS) print("Import efficiency: %.1f%%" % ((_counter["total_time"] / source_frames) * 100)) print("") return _counter, _rows
def _maybe_convert_sets(target_dir, extracted_data, english_compatible=False): extracted_dir = os.path.join(target_dir, extracted_data) # override existing CSV with normalized one target_csv_template = os.path.join(target_dir, "ts_" + ARCHIVE_NAME + "_{}.csv") if os.path.isfile(target_csv_template): return path_to_original_csv = os.path.join(extracted_dir, "data.csv") with open(path_to_original_csv) as csv_f: data = [ d for d in csv.DictReader(csv_f, delimiter=",") if float(d["duration"]) <= MAX_SECS ] for line in data: line["path"] = os.path.join(extracted_dir, line["path"]) num_samples = len(data) rows = [] counter = get_counter() print("Importing {} wav files...".format(num_samples)) pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, data), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() with open(target_csv_template.format("train"), "w") as train_csv_file: # 80% with open(target_csv_template.format("dev"), "w") as dev_csv_file: # 10% with open(target_csv_template.format("test"), "w") as test_csv_file: # 10% train_writer = csv.DictWriter(train_csv_file, fieldnames=FIELDNAMES) train_writer.writeheader() dev_writer = csv.DictWriter(dev_csv_file, fieldnames=FIELDNAMES) dev_writer.writeheader() test_writer = csv.DictWriter(test_csv_file, fieldnames=FIELDNAMES) test_writer.writeheader() for i, item in enumerate(rows): transcript = validate_label( cleanup_transcript( item[2], english_compatible=english_compatible ) ) if not transcript: continue wav_filename = os.path.join(target_dir, extracted_data, item[0]) i_mod = i % 10 if i_mod == 0: writer = test_writer elif i_mod == 1: writer = dev_writer else: writer = train_writer writer.writerow( dict( wav_filename=wav_filename, wav_filesize=os.path.getsize(wav_filename), transcript=transcript, ) ) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def _maybe_convert_sets(target_dir, extracted_data): extracted_dir = os.path.join(target_dir, extracted_data) # override existing CSV with normalized one target_csv_template = os.path.join(target_dir, ARCHIVE_DIR_NAME, ARCHIVE_NAME.replace(".tgz", "_{}.csv")) if os.path.isfile(target_csv_template): return wav_root_dir = os.path.join(extracted_dir) # Get audiofile path and transcript for each sentence in tsv samples = [] glob_dir = os.path.join(wav_root_dir, "**/metadata.csv") for record in glob(glob_dir, recursive=True): if any(map(lambda sk: sk in record, SKIP_LIST)): # pylint: disable=cell-var-from-loop continue with open(record, "r") as rec: for re in rec.readlines(): re = re.strip().split("|") audio = os.path.join(os.path.dirname(record), "wavs", re[0] + ".wav") transcript = re[2] samples.append((audio, transcript)) counter = get_counter() num_samples = len(samples) rows = [] print("Importing WAV files...") pool = Pool() bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() with open(target_csv_template.format("train"), "w", encoding="utf-8", newline="") as train_csv_file: # 80% with open(target_csv_template.format("dev"), "w", encoding="utf-8", newline="") as dev_csv_file: # 10% with open(target_csv_template.format("test"), "w", encoding="utf-8", newline="") as test_csv_file: # 10% train_writer = csv.DictWriter(train_csv_file, fieldnames=FIELDNAMES) train_writer.writeheader() dev_writer = csv.DictWriter(dev_csv_file, fieldnames=FIELDNAMES) dev_writer.writeheader() test_writer = csv.DictWriter(test_csv_file, fieldnames=FIELDNAMES) test_writer.writeheader() for i, item in enumerate(rows): transcript = validate_label(item[2]) if not transcript: continue wav_filename = item[0] i_mod = i % 10 if i_mod == 0: writer = test_writer elif i_mod == 1: writer = dev_writer else: writer = train_writer writer.writerow( dict( wav_filename=os.path.relpath( wav_filename, extracted_dir), wav_filesize=os.path.getsize(wav_filename), transcript=transcript, )) imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS)
def _maybe_convert_set(dataset_dir, audio_dir, filter_obj, space_after_every_character=None, rows=None): # iterate over all data lists and write converted version near them speaker_iterator = 1 samples = [] total_file_dict = dict() for subdir, dirs, files in os.walk(dataset_dir): for file in files: # Get audiofile path and transcript for each sentence in tsv if file.endswith(".data"): file_path = os.path.join(subdir, file) file = open(file_path, mode="r") data = [] file_folder = os.path.join(os.path.dirname(subdir), "wav") file_dict = dict() for row in file.readlines(): if row.isspace(): continue splitted_row = row.replace("\n", "").replace( " wav ", ".wav ").split(" ", 1) if len(splitted_row) != 2: continue file_name, transcript = splitted_row if file_name.endswith(".wav"): pass elif file_name.endswith(".mp3"): pass elif file_name.find(".") == -1: file_name += ".wav" if file_name.startswith("/"): file_name = file_name[1::] file_name = os.path.join(dataset_dir, file_name) file_dict[file_name] = convert_transcript(transcript) file.close() for wav_subdir, wav_dirs, wav_files in os.walk(file_folder): for wav_file in wav_files: wav_file_path = os.path.join(wav_subdir, wav_file) if file_dict.get(wav_file_path) is not None: total_file_dict[wav_file_path] = file_dict[ wav_file_path] for key in total_file_dict.keys(): samples.append((key, total_file_dict[key], speaker_iterator)) speaker_iterator += 1 del (total_file_dict) if rows is None: rows = [] counter = get_counter() num_samples = len(samples) print("Importing dataset files...") pool = Pool(initializer=init_worker, initargs=(PARAMS, )) bar = progressbar.ProgressBar(max_value=num_samples, widgets=SIMPLE_BAR) for i, processed in enumerate(pool.imap_unordered(one_sample, samples), start=1): counter += processed[0] rows += processed[1] bar.update(i) bar.update(num_samples) pool.close() pool.join() imported_samples = get_imported_samples(counter) assert counter["all"] == num_samples assert len(rows) == imported_samples print_import_report(counter, SAMPLE_RATE, MAX_SECS) output_csv = os.path.join(os.path.abspath(audio_dir), "train.csv") print("Saving new DeepSpeech-formatted CSV file to: ", output_csv) with open(output_csv, "w", encoding="utf-8", newline="") as output_csv_file: print("Writing CSV file for DeepSpeech.py as: ", output_csv) writer = csv.DictWriter(output_csv_file, fieldnames=FIELDNAMES) writer.writeheader() bar = progressbar.ProgressBar(max_value=len(rows), widgets=SIMPLE_BAR) for filename, file_size, transcript, speaker in bar(rows): if space_after_every_character: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": " ".join(transcript), }) else: writer.writerow({ "wav_filename": filename, "wav_filesize": file_size, "transcript": transcript, }) return rows