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import argparse
import os
from helpers import *
from faster_whisper import WhisperModel
import whisperx
import torch
from pydub import AudioSegment
from nemo.collections.asr.models.msdd_models import NeuralDiarizer
from deepmultilingualpunctuation import PunctuationModel
import re
import logging
import pysrt
mtypes = {"cpu": "int8", "cuda": "float16"}
# Initialize parser
parser = argparse.ArgumentParser()
parser.add_argument(
"-a", "--audio", help="name of the target audio file", required=True
)
parser.add_argument(
"-s", "--srt", help="name of the target SRT file", required=True
)
parser.add_argument(
"--no-stem",
action="store_false",
dest="stemming",
default=True,
help="Disables source separation."
"This helps with long files that don't contain a lot of music.",
)
parser.add_argument(
"--suppress_numerals",
action="store_true",
dest="suppress_numerals",
default=False,
help="Suppresses Numerical Digits."
"This helps the diarization accuracy but converts all digits into written text.",
)
parser.add_argument(
"--whisper-model",
dest="model_name",
default="medium.en",
help="name of the Whisper model to use",
)
parser.add_argument(
"--batch-size",
type=int,
dest="batch_size",
default=8,
help="Batch size for batched inference, reduce if you run out of memory, set to 0 for non-batched inference",
)
parser.add_argument(
"--language",
type=str,
default=None,
choices=whisper_langs,
help="Language spoken in the audio, specify None to perform language detection",
)
parser.add_argument(
"--device",
dest="device",
default="cuda" if torch.cuda.is_available() else "cpu",
help="if you have a GPU use 'cuda', otherwise 'cpu'",
)
args = parser.parse_args()
def ensure_dir(directory):
if not os.path.exists(directory):
os.makedirs(directory)
if args.stemming:
# Isolate vocals from the rest of the audio
return_code = os.system(
f'python3 -m demucs.separate -n htdemucs --two-stems=vocals "{args.audio}" -o "temp_outputs"'
)
if return_code != 0:
logging.warning(
"Source splitting failed, using original audio file. Use --no-stem argument to disable it."
)
vocal_target = args.audio
else:
vocal_target = os.path.join(
"temp_outputs",
"htdemucs",
os.path.splitext(os.path.basename(args.audio))[0],
"vocals.wav",
)
else:
vocal_target = args.audio
# Transcribe the audio file
if args.batch_size != 0:
from transcription_helpers import transcribe_batched
whisper_results, language = transcribe_batched(
vocal_target,
args.language,
args.batch_size,
args.model_name,
mtypes[args.device],
args.suppress_numerals,
args.device,
)
else:
from transcription_helpers import transcribe
whisper_results, language = transcribe(
vocal_target,
args.language,
args.model_name,
mtypes[args.device],
args.suppress_numerals,
args.device,
)
if language in wav2vec2_langs:
alignment_model, metadata = whisperx.load_align_model(
language_code=language, device=args.device
)
result_aligned = whisperx.align(
whisper_results, alignment_model, metadata, vocal_target, args.device
)
word_timestamps = filter_missing_timestamps(
result_aligned["word_segments"],
initial_timestamp=whisper_results[0].get("start"),
final_timestamp=whisper_results[-1].get("end"),
)
# clear gpu vram
del alignment_model
torch.cuda.empty_cache()
else:
assert (
args.batch_size == 0 # TODO: add a better check for word timestamps existence
), (
f"Unsupported language: {language}, use --batch_size to 0"
" to generate word timestamps using whisper directly and fix this error."
)
word_timestamps = []
for segment in whisper_results:
for word in segment["words"]:
word_timestamps.append({"word": word[2], "start": word[0], "end": word[1]})
# convert audio to mono for NeMo compatibility
sound = AudioSegment.from_file(vocal_target).set_channels(1)
ROOT = os.getcwd()
temp_path = os.path.join(ROOT, "temp_outputs")
os.makedirs(temp_path, exist_ok=True)
sound.export(os.path.join(temp_path, "mono_file.wav"), format="wav")
# Initialize NeMo MSDD diarization model
msdd_model = NeuralDiarizer(cfg=create_config(temp_path)).to(args.device)
msdd_model.diarize()
del msdd_model
torch.cuda.empty_cache()
# Reading timestamps <> Speaker Labels mapping
speaker_ts = []
with open(os.path.join(temp_path, "pred_rttms", "mono_file.rttm"), "r") as f:
lines = f.readlines()
for line in lines:
line_list = line.split(" ")
s = int(float(line_list[5]) * 1000)
e = s + int(float(line_list[8]) * 1000)
speaker_ts.append([s, e, int(line_list[11].split("_")[-1])])
wsm = get_words_speaker_mapping(word_timestamps, speaker_ts, "start")
if language in punct_model_langs:
# restoring punctuation in the transcript to help realign the sentences
punct_model = PunctuationModel(model="kredor/punctuate-all")
words_list = list(map(lambda x: x["word"], wsm))
labled_words = punct_model.predict(words_list)
ending_puncts = ".?!"
model_puncts = ".,;:!?"
# We don't want to punctuate U.S.A. with a period. Right?
is_acronym = lambda x: re.fullmatch(r"\b(?:[a-zA-Z]\.){2,}", x)
for word_dict, labeled_tuple in zip(wsm, labled_words):
word = word_dict["word"]
if (
word
and labeled_tuple[1] in ending_puncts
and (word[-1] not in model_puncts or is_acronym(word))
):
word += labeled_tuple[1]
if word.endswith(".."):
word = word.rstrip(".")
word_dict["word"] = word
else:
logging.warning(
f"Punctuation restoration is not available for {language} language. Using the original punctuation."
)
wsm = get_realigned_ws_mapping_with_punctuation(wsm)
ssm = get_sentences_speaker_mapping(wsm, speaker_ts)
# Load the SRT file
subs = pysrt.open(args.srt)
# Base directory for the LJ Speech-like structure
base_dir = "LJ_Speech_dataset"
# Dictionary to hold audio segments and texts for easpeaker_audios_texts = {}
# Process each subtitle
for sub in subs:
start_time = (sub.start.hours * 3600 + sub.start.minutes * 60 + sub.start.seconds) * 1000 + sub.start.milliseconds
end_time = (sub.end.hours * 3600 + sub.end.minutes * 60 + sub.end.seconds) * 1000 + sub.end.milliseconds
# Extract speaker and text from the subtitle
speaker_text = sub.text.split(':')
if len(speaker_text) > 1:
speaker = speaker_text[0].strip()
text = ':'.join(speaker_text[1:]).strip()
segment = sound[start_time:end_time]
# Append or create the audio segment and text for the speaker
if speaker not in speaker_audios_texts:
speaker_audios_texts[speaker] = []
speaker_audios_texts[speaker].append((segment, text))
# Save each speaker's audio to a separate file and generate metadata
for speaker, segments_texts in speaker_audios_texts.items():
speaker_dir = os.path.join(base_dir, speaker.replace(' ', '_'))
ensure_dir(speaker_dir)
metadata_lines = []
for i, (segment, text) in enumerate(segments_texts, start=1):
filename = f"{speaker.replace(' ', '_')}_{i:03}.wav"
filepath = os.path.join(speaker_dir, filename)
segment.export(filepath, format="wav")
# Prepare metadata line (filename without extension, speaker, text)
metadata_lines.append(f"{filename[:-4]}|{speaker}|{text}")
# Save metadata to a file
metadata_file = os.path.join(speaker_dir, "metadata.csv")
with open(metadata_file, "w", encoding="utf-8") as f:
f.write("\n".join(metadata_lines))
print(f"Exported files and metadata for {speaker}")
# Move the original WAV and SRT files to the "handled" subfolder
handled_dir = "handled"
ensure_dir(handled_dir)
os.rename(args.audio, os.path.join(handled_dir, os.path.basename(args.audio)))
os.rename(args.srt, os.path.join(handled_dir, os.path.basename(args.srt)))
print(f"Moved {args.audio} and {args.srt} to the 'handled' subfolder.")
with open(f"{os.path.splitext(args.audio)[0]}.txt", "w", encoding="utf-8-sig") as f:
get_speaker_aware_transcript(ssm, f)
with open(f"{os.path.splitext(args.audio)[0]}.srt", "w", encoding="utf-8-sig") as srt:
write_srt(ssm, srt)
cleanup(temp_path)
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