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SoniTranslate / app_rvc.py

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	import gradio as gr
	from soni_translate.logging_setup import (
	logger,
	set_logging_level,
	configure_logging_libs,
	); configure_logging_libs() # noqa
	import whisperx
	import torch
	import os
	from soni_translate.audio_segments import create_translated_audio
	from soni_translate.text_to_speech import (
	audio_segmentation_to_voice,
	edge_tts_voices_list,
	coqui_xtts_voices_list,
	piper_tts_voices_list,
	create_wav_file_vc,
	accelerate_segments,
	)
	from soni_translate.translate_segments import (
	translate_text,
	TRANSLATION_PROCESS_OPTIONS,
	DOCS_TRANSLATION_PROCESS_OPTIONS
	)
	from soni_translate.preprocessor import (
	audio_video_preprocessor,
	audio_preprocessor,
	)
	from soni_translate.postprocessor import (
	OUTPUT_TYPE_OPTIONS,
	DOCS_OUTPUT_TYPE_OPTIONS,
	sound_separate,
	get_no_ext_filename,
	media_out,
	get_subtitle_speaker,
	)
	from soni_translate.language_configuration import (
	LANGUAGES,
	UNIDIRECTIONAL_L_LIST,
	LANGUAGES_LIST,
	BARK_VOICES_LIST,
	VITS_VOICES_LIST,
	OPENAI_TTS_MODELS,
	)
	from soni_translate.utils import (
	remove_files,
	download_list,
	upload_model_list,
	download_manager,
	run_command,
	is_audio_file,
	is_subtitle_file,
	copy_files,
	get_valid_files,
	get_link_list,
	remove_directory_contents,
	)
	from soni_translate.mdx_net import (
	UVR_MODELS,
	MDX_DOWNLOAD_LINK,
	mdxnet_models_dir,
	)
	from soni_translate.speech_segmentation import (
	ASR_MODEL_OPTIONS,
	COMPUTE_TYPE_GPU,
	COMPUTE_TYPE_CPU,
	find_whisper_models,
	transcribe_speech,
	align_speech,
	diarize_speech,
	diarization_models,
	)
	from soni_translate.text_multiformat_processor import (
	BORDER_COLORS,
	srt_file_to_segments,
	document_preprocessor,
	determine_chunk_size,
	plain_text_to_segments,
	segments_to_plain_text,
	process_subtitles,
	linguistic_level_segments,
	break_aling_segments,
	doc_to_txtximg_pages,
	page_data_to_segments,
	update_page_data,
	fix_timestamps_docs,
	create_video_from_images,
	merge_video_and_audio,
	)
	from soni_translate.languages_gui import language_data, news
	import copy
	import logging
	import json
	from pydub import AudioSegment
	from voice_main import ClassVoices
	import argparse
	import time
	import hashlib
	import sys

	directories = [
	"downloads",
	"logs",
	"weights",
	"clean_song_output",
	"_XTTS_",
	f"audio2{os.sep}audio",
	"audio",
	"outputs",
	]
	[
	os.makedirs(directory)
	for directory in directories
	if not os.path.exists(directory)
	]


	class TTS_Info:
	def __init__(self, piper_enabled, xtts_enabled):
	self.list_edge = edge_tts_voices_list()
	self.list_bark = list(BARK_VOICES_LIST.keys())
	self.list_vits = list(VITS_VOICES_LIST.keys())
	self.list_openai_tts = OPENAI_TTS_MODELS
	self.piper_enabled = piper_enabled
	self.list_vits_onnx = (
	piper_tts_voices_list() if self.piper_enabled else []
	)
	self.xtts_enabled = xtts_enabled

	def tts_list(self):
	self.list_coqui_xtts = (
	coqui_xtts_voices_list() if self.xtts_enabled else []
	)
	list_tts = self.list_coqui_xtts + sorted(
	self.list_edge
	+ self.list_bark
	+ self.list_vits
	+ self.list_openai_tts
	+ self.list_vits_onnx
	)
	return list_tts


	def prog_disp(msg, percent, is_gui, progress=None):
	logger.info(msg)
	if is_gui:
	progress(percent, desc=msg)


	def warn_disp(wrn_lang, is_gui):
	logger.warning(wrn_lang)
	if is_gui:
	gr.Warning(wrn_lang)


	class SoniTrCache:
	def __init__(self):
	self.cache = {
	'media': [[]],
	'refine_vocals': [],
	'transcript_align': [],
	'break_align': [],
	'diarize': [],
	'translate': [],
	'subs_and_edit': [],
	'tts': [],
	'acc_and_vc': [],
	'mix_aud': [],
	'output': []
	}

	self.cache_data = {
	'media': [],
	'refine_vocals': [],
	'transcript_align': [],
	'break_align': [],
	'diarize': [],
	'translate': [],
	'subs_and_edit': [],
	'tts': [],
	'acc_and_vc': [],
	'mix_aud': [],
	'output': []
	}

	self.cache_keys = list(self.cache.keys())
	self.first_task = self.cache_keys[0]
	self.last_task = self.cache_keys[-1]

	self.pre_step = None
	self.pre_params = []

	def set_variable(self, variable_name, value):
	setattr(self, variable_name, value)

	def task_in_cache(self, step: str, params: list, previous_step_data: dict):

	self.pre_step_cache = None

	if step == self.first_task:
	self.pre_step = None

	if self.pre_step:
	self.cache[self.pre_step] = self.pre_params

	# Fill data in cache
	self.cache_data[self.pre_step] = copy.deepcopy(previous_step_data)

	self.pre_params = params
	# logger.debug(f"Step: {str(step)}, Cache params: {str(self.cache)}")
	if params == self.cache[step]:
	logger.debug(f"In cache: {str(step)}")

	# Set the var needed for next step
	# Recovery from cache_data the current step
	for key, value in self.cache_data[step].items():
	self.set_variable(key, copy.deepcopy(value))
	logger.debug(
	f"Chache load: {str(key)}"
	)

	self.pre_step = step
	return True

	else:
	logger.debug(f"Flush next and caching {str(step)}")
	selected_index = self.cache_keys.index(step)

	for idx, key in enumerate(self.cache.keys()):
	if idx >= selected_index:
	self.cache[key] = []
	self.cache_data[key] = {}

	# The last is now previous
	self.pre_step = step
	return False

	def clear_cache(self, media, force=False):

	self.cache["media"] = (
	self.cache["media"] if len(self.cache["media"]) else [[]]
	)

	if media != self.cache["media"][0] or force:

	# Clear cache
	self.cache = {key: [] for key in self.cache}
	self.cache["media"] = [[]]

	logger.info("Cache flushed")


	def get_hash(filepath):
	with open(filepath, 'rb') as f:
	file_hash = hashlib.blake2b()
	while chunk := f.read(8192):
	file_hash.update(chunk)

	return file_hash.hexdigest()[:18]


	def check_openai_api_key():
	if not os.environ.get("OPENAI_API_KEY"):
	raise ValueError(
	"To use GPT for translation, please set up your OpenAI API key "
	"as an environment variable in Linux as follows: "
	"export OPENAI_API_KEY='your-api-key-here'. Or change the "
	"translation process in Advanced settings."
	)


	class SoniTranslate(SoniTrCache):
	def __init__(self, cpu_mode=False):
	super().__init__()
	if cpu_mode:
	os.environ["SONITR_DEVICE"] = "cpu"
	else:
	os.environ["SONITR_DEVICE"] = (
	"cuda" if torch.cuda.is_available() else "cpu"
	)

	self.device = os.environ.get("SONITR_DEVICE")
	self.result_diarize = None
	self.align_language = None
	self.result_source_lang = None
	self.edit_subs_complete = False
	self.voiceless_id = None
	self.burn_subs_id = None

	self.vci = ClassVoices(only_cpu=cpu_mode)

	self.tts_voices = self.get_tts_voice_list()

	logger.info(f"Working in: {self.device}")

	def get_tts_voice_list(self):
	try:
	from piper import PiperVoice # noqa

	piper_enabled = True
	logger.info("PIPER TTS enabled")
	except Exception as error:
	logger.debug(str(error))
	piper_enabled = False
	logger.info("PIPER TTS disabled")
	try:
	from TTS.api import TTS # noqa

	xtts_enabled = True
	logger.info("Coqui XTTS enabled")
	logger.info(
	"In this app, by using Coqui TTS (text-to-speech), you "
	"acknowledge and agree to the license.\n"
	"You confirm that you have read, understood, and agreed "
	"to the Terms and Conditions specified at the following "
	"link:\nhttps://coqui.ai/cpml.txt."
	)
	os.environ["COQUI_TOS_AGREED"] = "1"
	except Exception as error:
	logger.debug(str(error))
	xtts_enabled = False
	logger.info("Coqui XTTS disabled")

	self.tts_info = TTS_Info(piper_enabled, xtts_enabled)

	return self.tts_info.tts_list()

	def batch_multilingual_media_conversion(self, *kwargs):
	# logger.debug(str(kwargs))

	media_file_arg = kwargs[0] if kwargs[0] is not None else []

	link_media_arg = kwargs[1]
	link_media_arg = [x.strip() for x in link_media_arg.split(',')]
	link_media_arg = get_link_list(link_media_arg)

	path_arg = kwargs[2]
	path_arg = [x.strip() for x in path_arg.split(',')]
	path_arg = get_valid_files(path_arg)

	edit_text_arg = kwargs[31]
	get_text_arg = kwargs[32]

	is_gui_arg = kwargs[-1]

	kwargs = kwargs[3:]

	media_batch = media_file_arg + link_media_arg + path_arg
	media_batch = list(filter(lambda x: x != "", media_batch))
	media_batch = media_batch if media_batch else [None]
	logger.debug(str(media_batch))

	remove_directory_contents("outputs")

	if edit_text_arg or get_text_arg:
	return self.multilingual_media_conversion(
	media_batch[0], "", "", *kwargs
	)

	if "SET_LIMIT" == os.getenv("DEMO"):
	media_batch = [media_batch[0]]

	result = []
	for media in media_batch:
	# Call the nested function with the parameters
	output_file = self.multilingual_media_conversion(
	media, "", "", *kwargs
	)

	if isinstance(output_file, str):
	output_file = [output_file]
	result.extend(output_file)

	if is_gui_arg and len(media_batch) > 1:
	gr.Info(f"Done: {os.path.basename(output_file[0])}")

	return result

	def multilingual_media_conversion(
	self,
	media_file=None,
	link_media="",
	directory_input="",
	YOUR_HF_TOKEN="",
	preview=False,
	transcriber_model="large-v3",
	batch_size=4,
	compute_type="auto",
	origin_language="Automatic detection",
	target_language="English (en)",
	min_speakers=1,
	max_speakers=1,
	tts_voice00="en-US-EmmaMultilingualNeural-Female",
	tts_voice01="en-US-AndrewMultilingualNeural-Male",
	tts_voice02="en-US-AvaMultilingualNeural-Female",
	tts_voice03="en-US-BrianMultilingualNeural-Male",
	tts_voice04="de-DE-SeraphinaMultilingualNeural-Female",
	tts_voice05="de-DE-FlorianMultilingualNeural-Male",
	tts_voice06="fr-FR-VivienneMultilingualNeural-Female",
	tts_voice07="fr-FR-RemyMultilingualNeural-Male",
	tts_voice08="en-US-EmmaMultilingualNeural-Female",
	tts_voice09="en-US-AndrewMultilingualNeural-Male",
	tts_voice10="en-US-EmmaMultilingualNeural-Female",
	tts_voice11="en-US-AndrewMultilingualNeural-Male",
	video_output_name="",
	mix_method_audio="Adjusting volumes and mixing audio",
	max_accelerate_audio=2.1,
	acceleration_rate_regulation=False,
	volume_original_audio=0.25,
	volume_translated_audio=1.80,
	output_format_subtitle="srt",
	get_translated_text=False,
	get_video_from_text_json=False,
	text_json="{}",
	avoid_overlap=False,
	vocal_refinement=False,
	literalize_numbers=True,
	segment_duration_limit=15,
	diarization_model="pyannote_2.1",
	translate_process="google_translator_batch",
	subtitle_file=None,
	output_type="video (mp4)",
	voiceless_track=False,
	voice_imitation=False,
	voice_imitation_max_segments=3,
	voice_imitation_vocals_dereverb=False,
	voice_imitation_remove_previous=True,
	voice_imitation_method="freevc",
	dereverb_automatic_xtts=True,
	text_segmentation_scale="sentence",
	divide_text_segments_by="",
	soft_subtitles_to_video=True,
	burn_subtitles_to_video=False,
	enable_cache=True,
	custom_voices=False,
	custom_voices_workers=1,
	is_gui=False,
	progress=gr.Progress(),
	):
	if not YOUR_HF_TOKEN:
	YOUR_HF_TOKEN = os.getenv("YOUR_HF_TOKEN")
	if diarization_model == "disable" or max_speakers == 1:
	if YOUR_HF_TOKEN is None:
	YOUR_HF_TOKEN = ""
	elif not YOUR_HF_TOKEN:
	raise ValueError("No valid Hugging Face token")
	else:
	os.environ["YOUR_HF_TOKEN"] = YOUR_HF_TOKEN

	if (
	"gpt" in translate_process
	or transcriber_model == "OpenAI_API_Whisper"
	or "OpenAI-TTS" in tts_voice00
	):
	check_openai_api_key()

	if media_file is None:
	media_file = (
	directory_input
	if os.path.exists(directory_input)
	else link_media
	)
	media_file = (
	media_file if isinstance(media_file, str) else media_file.name
	)

	if is_subtitle_file(media_file):
	subtitle_file = media_file
	media_file = ""

	if media_file is None:
	media_file = ""

	if not origin_language:
	origin_language = "Automatic detection"

	if origin_language in UNIDIRECTIONAL_L_LIST and not subtitle_file:
	raise ValueError(
	f"The language '{origin_language}' "
	"is not supported for transcription (ASR)."
	)

	if get_translated_text:
	self.edit_subs_complete = False
	if get_video_from_text_json:
	if not self.edit_subs_complete:
	raise ValueError("Generate the transcription first.")

	if (
	("sound" in output_type or output_type == "raw media")
	and (get_translated_text or get_video_from_text_json)
	):
	raise ValueError(
	"Please disable 'edit generate subtitles' "
	f"first to acquire the {output_type}."
	)

	TRANSLATE_AUDIO_TO = LANGUAGES[target_language]
	SOURCE_LANGUAGE = LANGUAGES[origin_language]

	if (
	transcriber_model == "OpenAI_API_Whisper"
	and SOURCE_LANGUAGE == "zh-TW"
	):
	logger.warning(
	"OpenAI API Whisper only supports Chinese (Simplified)."
	)
	SOURCE_LANGUAGE = "zh"

	if (
	text_segmentation_scale in ["word", "character"]
	and "subtitle" not in output_type
	):
	wrn_lang = (
	"Text segmentation by words or characters is typically"
	" used for generating subtitles. If subtitles are not the"
	" intended output, consider selecting 'sentence' "
	"segmentation method to ensure optimal results."

	)
	warn_disp(wrn_lang, is_gui)

	if tts_voice00[:2].lower() != TRANSLATE_AUDIO_TO[:2].lower():
	wrn_lang = (
	"Make sure to select a 'TTS Speaker' suitable for"
	" the translation language to avoid errors with the TTS."
	)
	warn_disp(wrn_lang, is_gui)

	if "_XTTS_" in tts_voice00 and voice_imitation:
	wrn_lang = (
	"When you select XTTS, it is advisable "
	"to disable Voice Imitation."
	)
	warn_disp(wrn_lang, is_gui)

	if custom_voices and voice_imitation:
	wrn_lang = (
	"When you use R.V.C. models, it is advisable"
	" to disable Voice Imitation."
	)
	warn_disp(wrn_lang, is_gui)

	if not media_file and not subtitle_file:
	raise ValueError(
	"Specifify a media or SRT file in advanced settings"
	)

	if subtitle_file:
	subtitle_file = (
	subtitle_file
	if isinstance(subtitle_file, str)
	else subtitle_file.name
	)

	if subtitle_file and SOURCE_LANGUAGE == "Automatic detection":
	raise Exception(
	"To use an SRT file, you need to specify its "
	"original language (Source language)"
	)

	if not media_file and subtitle_file:
	diarization_model = "disable"
	media_file = "audio_support.wav"
	if not get_video_from_text_json:
	remove_files(media_file)
	srt_data = srt_file_to_segments(subtitle_file)
	total_duration = srt_data["segments"][-1]["end"] + 30.
	support_audio = AudioSegment.silent(
	duration=int(total_duration * 1000)
	)
	support_audio.export(
	media_file, format="wav"
	)
	logger.info("Supporting audio for the SRT file, created.")

	if "SET_LIMIT" == os.getenv("DEMO"):
	preview = True
	mix_method_audio = "Adjusting volumes and mixing audio"
	transcriber_model = "medium"
	logger.info(
	"DEMO; set preview=True; Generation is limited to "
	"10 seconds to prevent CPU errors. No limitations with GPU.\n"
	"DEMO; set Adjusting volumes and mixing audio\n"
	"DEMO; set whisper model to medium"
	)

	# Check GPU
	if self.device == "cpu" and compute_type not in COMPUTE_TYPE_CPU:
	logger.info("Compute type changed to float32")
	compute_type = "float32"

	base_video_file = "Video.mp4"
	base_audio_wav = "audio.wav"
	dub_audio_file = "audio_dub_solo.ogg"
	vocals_audio_file = "audio_Vocals_DeReverb.wav"
	voiceless_audio_file = "audio_Voiceless.wav"
	mix_audio_file = "audio_mix.mp3"
	vid_subs = "video_subs_file.mp4"
	video_output_file = "video_dub.mp4"

	if os.path.exists(media_file):
	media_base_hash = get_hash(media_file)
	else:
	media_base_hash = media_file
	self.clear_cache(media_base_hash, force=(not enable_cache))

	if not get_video_from_text_json:
	self.result_diarize = (
	self.align_language
	) = self.result_source_lang = None
	if not self.task_in_cache("media", [media_base_hash, preview], {}):
	if is_audio_file(media_file):
	prog_disp(
	"Processing audio...", 0.15, is_gui, progress=progress
	)
	audio_preprocessor(preview, media_file, base_audio_wav)
	else:
	prog_disp(
	"Processing video...", 0.15, is_gui, progress=progress
	)
	audio_video_preprocessor(
	preview, media_file, base_video_file, base_audio_wav
	)
	logger.debug("Set file complete.")

	if "sound" in output_type:
	prog_disp(
	"Separating sounds in the file...",
	0.50,
	is_gui,
	progress=progress
	)
	separate_out = sound_separate(base_audio_wav, output_type)
	final_outputs = []
	for out in separate_out:
	final_name = media_out(
	media_file,
	f"{get_no_ext_filename(out)}",
	video_output_name,
	"wav",
	file_obj=out,
	)
	final_outputs.append(final_name)
	logger.info(f"Done: {str(final_outputs)}")
	return final_outputs

	if output_type == "raw media":
	output = media_out(
	media_file,
	"raw_media",
	video_output_name,
	"wav" if is_audio_file(media_file) else "mp4",
	file_obj=base_audio_wav if is_audio_file(media_file) else base_video_file,
	)
	logger.info(f"Done: {output}")
	return output

	if not self.task_in_cache("refine_vocals", [vocal_refinement], {}):
	self.vocals = None
	if vocal_refinement:
	try:
	from soni_translate.mdx_net import process_uvr_task
	_, _, _, _, file_vocals = process_uvr_task(
	orig_song_path=base_audio_wav,
	main_vocals=False,
	dereverb=True,
	remove_files_output_dir=True,
	)
	remove_files(vocals_audio_file)
	copy_files(file_vocals, ".")
	self.vocals = vocals_audio_file
	except Exception as error:
	logger.error(str(error))

	if not self.task_in_cache("transcript_align", [
	subtitle_file,
	SOURCE_LANGUAGE,
	transcriber_model,
	compute_type,
	batch_size,
	literalize_numbers,
	segment_duration_limit,
	(
	"l_unit"
	if text_segmentation_scale in ["word", "character"]
	and subtitle_file
	else "sentence"
	)
	], {"vocals": self.vocals}):
	if subtitle_file:
	prog_disp(
	"From SRT file...", 0.30, is_gui, progress=progress
	)
	audio = whisperx.load_audio(
	base_audio_wav if not self.vocals else self.vocals
	)
	self.result = srt_file_to_segments(subtitle_file)
	self.result["language"] = SOURCE_LANGUAGE
	else:
	prog_disp(
	"Transcribing...", 0.30, is_gui, progress=progress
	)
	SOURCE_LANGUAGE = (
	None
	if SOURCE_LANGUAGE == "Automatic detection"
	else SOURCE_LANGUAGE
	)
	audio, self.result = transcribe_speech(
	base_audio_wav if not self.vocals else self.vocals,
	transcriber_model,
	compute_type,
	batch_size,
	SOURCE_LANGUAGE,
	literalize_numbers,
	segment_duration_limit,
	)
	logger.debug(
	"Transcript complete, "
	f"segments count {len(self.result['segments'])}"
	)

	self.align_language = self.result["language"]
	if (
	not subtitle_file
	or text_segmentation_scale in ["word", "character"]
	):
	prog_disp("Aligning...", 0.45, is_gui, progress=progress)
	try:
	if self.align_language in ["vi"]:
	logger.info(
	"Deficient alignment for the "
	f"{self.align_language} language, skipping the"
	" process. It is suggested to reduce the "
	"duration of the segments as an alternative."
	)
	else:
	self.result = align_speech(audio, self.result)
	logger.debug(
	"Align complete, "
	f"segments count {len(self.result['segments'])}"
	)
	except Exception as error:
	logger.error(str(error))

	if self.result["segments"] == []:
	raise ValueError("No active speech found in audio")

	if not self.task_in_cache("break_align", [
	divide_text_segments_by,
	text_segmentation_scale,
	self.align_language
	], {
	"result": self.result,
	"align_language": self.align_language
	}):
	if self.align_language in ["ja", "zh", "zh-TW"]:
	divide_text_segments_by += "\|!\|?\|...\|。"
	if text_segmentation_scale in ["word", "character"]:
	self.result = linguistic_level_segments(
	self.result,
	text_segmentation_scale,
	)
	elif divide_text_segments_by:
	try:
	self.result = break_aling_segments(
	self.result,
	break_characters=divide_text_segments_by,
	)
	except Exception as error:
	logger.error(str(error))

	if not self.task_in_cache("diarize", [
	min_speakers,
	max_speakers,
	YOUR_HF_TOKEN[:len(YOUR_HF_TOKEN)//2],
	diarization_model
	], {
	"result": self.result
	}):
	prog_disp("Diarizing...", 0.60, is_gui, progress=progress)
	diarize_model_select = diarization_models[diarization_model]
	self.result_diarize = diarize_speech(
	base_audio_wav if not self.vocals else self.vocals,
	self.result,
	min_speakers,
	max_speakers,
	YOUR_HF_TOKEN,
	diarize_model_select,
	)
	logger.debug("Diarize complete")
	self.result_source_lang = copy.deepcopy(self.result_diarize)

	if not self.task_in_cache("translate", [
	TRANSLATE_AUDIO_TO,
	translate_process
	], {
	"result_diarize": self.result_diarize
	}):
	prog_disp("Translating...", 0.70, is_gui, progress=progress)
	lang_source = (
	self.align_language
	if self.align_language
	else SOURCE_LANGUAGE
	)
	self.result_diarize["segments"] = translate_text(
	self.result_diarize["segments"],
	TRANSLATE_AUDIO_TO,
	translate_process,
	chunk_size=1800,
	source=lang_source,
	)
	logger.debug("Translation complete")
	logger.debug(self.result_diarize)

	if get_translated_text:

	json_data = []
	for segment in self.result_diarize["segments"]:
	start = segment["start"]
	text = segment["text"]
	speaker = int(segment.get("speaker", "SPEAKER_00")[-2:]) + 1
	json_data.append(
	{"start": start, "text": text, "speaker": speaker}
	)

	# Convert list of dictionaries to a JSON string with indentation
	json_string = json.dumps(json_data, indent=2)
	logger.info("Done")
	self.edit_subs_complete = True
	return json_string.encode().decode("unicode_escape")

	if get_video_from_text_json:

	if self.result_diarize is None:
	raise ValueError("Generate the transcription first.")
	# with open('text_json.json', 'r') as file:
	text_json_loaded = json.loads(text_json)
	for i, segment in enumerate(self.result_diarize["segments"]):
	segment["text"] = text_json_loaded[i]["text"]
	segment["speaker"] = "SPEAKER_{:02d}".format(
	int(text_json_loaded[i]["speaker"]) - 1
	)

	# Write subtitle
	if not self.task_in_cache("subs_and_edit", [
	copy.deepcopy(self.result_diarize),
	output_format_subtitle,
	TRANSLATE_AUDIO_TO
	], {
	"result_diarize": self.result_diarize
	}):
	if output_format_subtitle == "disable":
	self.sub_file = "sub_tra.srt"
	elif output_format_subtitle != "ass":
	self.sub_file = process_subtitles(
	self.result_source_lang,
	self.align_language,
	self.result_diarize,
	output_format_subtitle,
	TRANSLATE_AUDIO_TO,
	)

	# Need task
	if output_format_subtitle != "srt":
	_ = process_subtitles(
	self.result_source_lang,
	self.align_language,
	self.result_diarize,
	"srt",
	TRANSLATE_AUDIO_TO,
	)

	if output_format_subtitle == "ass":
	convert_ori = "ffmpeg -i sub_ori.srt sub_ori.ass -y"
	convert_tra = "ffmpeg -i sub_tra.srt sub_tra.ass -y"
	self.sub_file = "sub_tra.ass"
	run_command(convert_ori)
	run_command(convert_tra)

	format_sub = (
	output_format_subtitle
	if output_format_subtitle != "disable"
	else "srt"
	)

	if output_type == "subtitle":

	out_subs = []
	tra_subs = media_out(
	media_file,
	TRANSLATE_AUDIO_TO,
	video_output_name,
	format_sub,
	file_obj=self.sub_file,
	)
	out_subs.append(tra_subs)

	ori_subs = media_out(
	media_file,
	self.align_language,
	video_output_name,
	format_sub,
	file_obj=f"sub_ori.{format_sub}",
	)
	out_subs.append(ori_subs)
	logger.info(f"Done: {out_subs}")
	return out_subs

	if output_type == "subtitle [by speaker]":
	output = get_subtitle_speaker(
	media_file,
	result=self.result_diarize,
	language=TRANSLATE_AUDIO_TO,
	extension=format_sub,
	base_name=video_output_name,
	)
	logger.info(f"Done: {str(output)}")
	return output

	if "video [subtitled]" in output_type:
	output = media_out(
	media_file,
	TRANSLATE_AUDIO_TO + "_subtitled",
	video_output_name,
	"wav" if is_audio_file(media_file) else (
	"mkv" if "mkv" in output_type else "mp4"
	),
	file_obj=base_audio_wav if is_audio_file(media_file) else base_video_file,
	soft_subtitles=False if is_audio_file(media_file) else True,
	subtitle_files=output_format_subtitle,
	)
	msg_out = output[0] if isinstance(output, list) else output
	logger.info(f"Done: {msg_out}")
	return output

	if not self.task_in_cache("tts", [
	TRANSLATE_AUDIO_TO,
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	dereverb_automatic_xtts
	], {
	"sub_file": self.sub_file
	}):
	prog_disp("Text to speech...", 0.80, is_gui, progress=progress)
	self.valid_speakers = audio_segmentation_to_voice(
	self.result_diarize,
	TRANSLATE_AUDIO_TO,
	is_gui,
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	dereverb_automatic_xtts,
	)

	if not self.task_in_cache("acc_and_vc", [
	max_accelerate_audio,
	acceleration_rate_regulation,
	voice_imitation,
	voice_imitation_max_segments,
	voice_imitation_remove_previous,
	voice_imitation_vocals_dereverb,
	voice_imitation_method,
	custom_voices,
	custom_voices_workers,
	copy.deepcopy(self.vci.model_config),
	avoid_overlap
	], {
	"valid_speakers": self.valid_speakers
	}):
	audio_files, speakers_list = accelerate_segments(
	self.result_diarize,
	max_accelerate_audio,
	self.valid_speakers,
	acceleration_rate_regulation,
	)

	# Voice Imitation (Tone color converter)
	if voice_imitation:
	prog_disp(
	"Voice Imitation...", 0.85, is_gui, progress=progress
	)
	from soni_translate.text_to_speech import toneconverter

	try:
	toneconverter(
	copy.deepcopy(self.result_diarize),
	voice_imitation_max_segments,
	voice_imitation_remove_previous,
	voice_imitation_vocals_dereverb,
	voice_imitation_method,
	)
	except Exception as error:
	logger.error(str(error))

	# custom voice
	if custom_voices:
	prog_disp(
	"Applying customized voices...",
	0.90,
	is_gui,
	progress=progress,
	)

	try:
	self.vci(
	audio_files,
	speakers_list,
	overwrite=True,
	parallel_workers=custom_voices_workers,
	)
	self.vci.unload_models()
	except Exception as error:
	logger.error(str(error))

	prog_disp(
	"Creating final translated video...",
	0.95,
	is_gui,
	progress=progress,
	)
	remove_files(dub_audio_file)
	create_translated_audio(
	self.result_diarize,
	audio_files,
	dub_audio_file,
	False,
	avoid_overlap,
	)

	# Voiceless track, change with file
	hash_base_audio_wav = get_hash(base_audio_wav)
	if voiceless_track:
	if self.voiceless_id != hash_base_audio_wav:
	from soni_translate.mdx_net import process_uvr_task

	try:
	# voiceless_audio_file_dir = "clean_song_output/voiceless"
	remove_files(voiceless_audio_file)
	uvr_voiceless_audio_wav, _ = process_uvr_task(
	orig_song_path=base_audio_wav,
	song_id="voiceless",
	only_voiceless=True,
	remove_files_output_dir=False,
	)
	copy_files(uvr_voiceless_audio_wav, ".")
	base_audio_wav = voiceless_audio_file
	self.voiceless_id = hash_base_audio_wav

	except Exception as error:
	logger.error(str(error))
	else:
	base_audio_wav = voiceless_audio_file

	if not self.task_in_cache("mix_aud", [
	mix_method_audio,
	volume_original_audio,
	volume_translated_audio,
	voiceless_track
	], {}):
	# TYPE MIX AUDIO
	remove_files(mix_audio_file)
	command_volume_mix = f'ffmpeg -y -i {base_audio_wav} -i {dub_audio_file} -filter_complex "[0:0]volume={volume_original_audio}[a];[1:0]volume={volume_translated_audio}[b];[a][b]amix=inputs=2:duration=longest" -c:a libmp3lame {mix_audio_file}'
	command_background_mix = f'ffmpeg -i {base_audio_wav} -i {dub_audio_file} -filter_complex "[1:a]asplit=2[sc][mix];[0:a][sc]sidechaincompress=threshold=0.003:ratio=20[bg]; [bg][mix]amerge[final]" -map [final] {mix_audio_file}'
	if mix_method_audio == "Adjusting volumes and mixing audio":
	# volume mix
	run_command(command_volume_mix)
	else:
	try:
	# background mix
	run_command(command_background_mix)
	except Exception as error_mix:
	# volume mix except
	logger.error(str(error_mix))
	run_command(command_volume_mix)

	if "audio" in output_type or is_audio_file(media_file):
	output = media_out(
	media_file,
	TRANSLATE_AUDIO_TO,
	video_output_name,
	"wav" if "wav" in output_type else (
	"ogg" if "ogg" in output_type else "mp3"
	),
	file_obj=mix_audio_file,
	subtitle_files=output_format_subtitle,
	)
	msg_out = output[0] if isinstance(output, list) else output
	logger.info(f"Done: {msg_out}")
	return output

	hash_base_video_file = get_hash(base_video_file)

	if burn_subtitles_to_video:
	hashvideo_text = [
	hash_base_video_file,
	[seg["text"] for seg in self.result_diarize["segments"]]
	]
	if self.burn_subs_id != hashvideo_text:
	try:
	logger.info("Burn subtitles")
	remove_files(vid_subs)
	command = f"ffmpeg -i {base_video_file} -y -vf subtitles=sub_tra.srt -max_muxing_queue_size 9999 {vid_subs}"
	run_command(command)
	base_video_file = vid_subs
	self.burn_subs_id = hashvideo_text
	except Exception as error:
	logger.error(str(error))
	else:
	base_video_file = vid_subs

	if not self.task_in_cache("output", [
	hash_base_video_file,
	hash_base_audio_wav,
	burn_subtitles_to_video
	], {}):
	# Merge new audio + video
	remove_files(video_output_file)
	run_command(
	f"ffmpeg -i {base_video_file} -i {mix_audio_file} -c:v copy -c:a copy -map 0:v -map 1:a -shortest {video_output_file}"
	)

	output = media_out(
	media_file,
	TRANSLATE_AUDIO_TO,
	video_output_name,
	"mkv" if "mkv" in output_type else "mp4",
	file_obj=video_output_file,
	soft_subtitles=soft_subtitles_to_video,
	subtitle_files=output_format_subtitle,
	)
	msg_out = output[0] if isinstance(output, list) else output
	logger.info(f"Done: {msg_out}")

	return output

	def hook_beta_processor(
	self,
	document,
	tgt_lang,
	translate_process,
	ori_lang,
	tts,
	name_final_file,
	custom_voices,
	custom_voices_workers,
	output_type,
	chunk_size,
	width,
	height,
	start_page,
	end_page,
	bcolor,
	is_gui,
	progress
	):
	prog_disp("Processing pages...", 0.10, is_gui, progress=progress)
	doc_data = doc_to_txtximg_pages(document, width, height, start_page, end_page, bcolor)
	result_diarize = page_data_to_segments(doc_data, 1700)

	prog_disp("Translating...", 0.20, is_gui, progress=progress)
	result_diarize["segments"] = translate_text(
	result_diarize["segments"],
	tgt_lang,
	translate_process,
	chunk_size=0,
	source=ori_lang,
	)
	chunk_size = (
	chunk_size if chunk_size else determine_chunk_size(tts)
	)
	doc_data = update_page_data(result_diarize, doc_data)

	prog_disp("Text to speech...", 0.30, is_gui, progress=progress)
	result_diarize = page_data_to_segments(doc_data, chunk_size)
	valid_speakers = audio_segmentation_to_voice(
	result_diarize,
	tgt_lang,
	is_gui,
	tts,
	)

	# fix format and set folder output
	audio_files, speakers_list = accelerate_segments(
	result_diarize,
	1.0,
	valid_speakers,
	)

	# custom voice
	if custom_voices:
	prog_disp(
	"Applying customized voices...",
	0.60,
	is_gui,
	progress=progress,
	)
	self.vci(
	audio_files,
	speakers_list,
	overwrite=True,
	parallel_workers=custom_voices_workers,
	)
	self.vci.unload_models()

	# Update time segments and not concat
	result_diarize = fix_timestamps_docs(result_diarize, audio_files)
	final_wav_file = "audio_book.wav"
	remove_files(final_wav_file)

	prog_disp("Creating audio file...", 0.70, is_gui, progress=progress)
	create_translated_audio(
	result_diarize, audio_files, final_wav_file, False
	)

	prog_disp("Creating video file...", 0.80, is_gui, progress=progress)
	video_doc = create_video_from_images(
	doc_data,
	result_diarize
	)

	# Merge video and audio
	prog_disp("Merging...", 0.90, is_gui, progress=progress)
	vid_out = merge_video_and_audio(video_doc, final_wav_file)

	# End
	output = media_out(
	document,
	tgt_lang,
	name_final_file,
	"mkv" if "mkv" in output_type else "mp4",
	file_obj=vid_out,
	)
	logger.info(f"Done: {output}")
	return output

	def multilingual_docs_conversion(
	self,
	string_text="", # string
	document=None, # doc path gui
	directory_input="", # doc path
	origin_language="English (en)",
	target_language="English (en)",
	tts_voice00="en-US-EmmaMultilingualNeural-Female",
	name_final_file="",
	translate_process="google_translator",
	output_type="audio",
	chunk_size=None,
	custom_voices=False,
	custom_voices_workers=1,
	start_page=1,
	end_page=99999,
	width=1280,
	height=720,
	bcolor="dynamic",
	is_gui=False,
	progress=gr.Progress(),
	):
	if "gpt" in translate_process:
	check_openai_api_key()

	SOURCE_LANGUAGE = LANGUAGES[origin_language]
	if translate_process != "disable_translation":
	TRANSLATE_AUDIO_TO = LANGUAGES[target_language]
	else:
	TRANSLATE_AUDIO_TO = SOURCE_LANGUAGE
	logger.info("No translation")
	if tts_voice00[:2].lower() != TRANSLATE_AUDIO_TO[:2].lower():
	logger.debug(
	"Make sure to select a 'TTS Speaker' suitable for the "
	"translation language to avoid errors with the TTS."
	)

	self.clear_cache(string_text, force=True)

	is_string = False
	if document is None:
	if os.path.exists(directory_input):
	document = directory_input
	else:
	document = string_text
	is_string = True
	document = document if isinstance(document, str) else document.name
	if not document:
	raise Exception("No data found")

	if "videobook" in output_type:
	if not document.lower().endswith(".pdf"):
	raise ValueError(
	"Videobooks are only compatible with PDF files."
	)

	return self.hook_beta_processor(
	document,
	TRANSLATE_AUDIO_TO,
	translate_process,
	SOURCE_LANGUAGE,
	tts_voice00,
	name_final_file,
	custom_voices,
	custom_voices_workers,
	output_type,
	chunk_size,
	width,
	height,
	start_page,
	end_page,
	bcolor,
	is_gui,
	progress
	)

	# audio_wav = "audio.wav"
	final_wav_file = "audio_book.wav"

	prog_disp("Processing text...", 0.15, is_gui, progress=progress)
	result_file_path, result_text = document_preprocessor(
	document, is_string, start_page, end_page
	)

	if (
	output_type == "book (txt)"
	and translate_process == "disable_translation"
	):
	return result_file_path

	if "SET_LIMIT" == os.getenv("DEMO"):
	result_text = result_text[:50]
	logger.info(
	"DEMO; Generation is limited to 50 characters to prevent "
	"CPU errors. No limitations with GPU.\n"
	)

	if translate_process != "disable_translation":
	# chunks text for translation
	result_diarize = plain_text_to_segments(result_text, 1700)
	prog_disp("Translating...", 0.30, is_gui, progress=progress)
	# not or iterative with 1700 chars
	result_diarize["segments"] = translate_text(
	result_diarize["segments"],
	TRANSLATE_AUDIO_TO,
	translate_process,
	chunk_size=0,
	source=SOURCE_LANGUAGE,
	)

	txt_file_path, result_text = segments_to_plain_text(result_diarize)

	if output_type == "book (txt)":
	return media_out(
	result_file_path if is_string else document,
	TRANSLATE_AUDIO_TO,
	name_final_file,
	"txt",
	file_obj=txt_file_path,
	)

	# (TTS limits) plain text to result_diarize
	chunk_size = (
	chunk_size if chunk_size else determine_chunk_size(tts_voice00)
	)
	result_diarize = plain_text_to_segments(result_text, chunk_size)
	logger.debug(result_diarize)

	prog_disp("Text to speech...", 0.45, is_gui, progress=progress)
	valid_speakers = audio_segmentation_to_voice(
	result_diarize,
	TRANSLATE_AUDIO_TO,
	is_gui,
	tts_voice00,
	)

	# fix format and set folder output
	audio_files, speakers_list = accelerate_segments(
	result_diarize,
	1.0,
	valid_speakers,
	)

	# custom voice
	if custom_voices:
	prog_disp(
	"Applying customized voices...",
	0.80,
	is_gui,
	progress=progress,
	)
	self.vci(
	audio_files,
	speakers_list,
	overwrite=True,
	parallel_workers=custom_voices_workers,
	)
	self.vci.unload_models()

	prog_disp(
	"Creating final audio file...", 0.90, is_gui, progress=progress
	)
	remove_files(final_wav_file)
	create_translated_audio(
	result_diarize, audio_files, final_wav_file, True
	)

	output = media_out(
	result_file_path if is_string else document,
	TRANSLATE_AUDIO_TO,
	name_final_file,
	"mp3" if "mp3" in output_type else (
	"ogg" if "ogg" in output_type else "wav"
	),
	file_obj=final_wav_file,
	)

	logger.info(f"Done: {output}")

	return output


	title = "<center><strong><font size='7'>📽️ SoniTranslate 🈷️</font></strong></center>"


	def create_gui(theme, logs_in_gui=False):
	with gr.Blocks(theme=theme) as app:
	gr.Markdown(title)
	gr.Markdown(lg_conf["description"])

	with gr.Tab(lg_conf["tab_translate"]):
	with gr.Row():
	with gr.Column():
	input_data_type = gr.Dropdown(
	["SUBMIT VIDEO", "URL", "Find Video Path"],
	value="SUBMIT VIDEO",
	label=lg_conf["video_source"],
	)

	def swap_visibility(data_type):
	if data_type == "URL":
	return (
	gr.update(visible=False, value=None),
	gr.update(visible=True, value=""),
	gr.update(visible=False, value=""),
	)
	elif data_type == "SUBMIT VIDEO":
	return (
	gr.update(visible=True, value=None),
	gr.update(visible=False, value=""),
	gr.update(visible=False, value=""),
	)
	elif data_type == "Find Video Path":
	return (
	gr.update(visible=False, value=None),
	gr.update(visible=False, value=""),
	gr.update(visible=True, value=""),
	)

	video_input = gr.File(
	label="VIDEO",
	file_count="multiple",
	type="filepath",
	)
	blink_input = gr.Textbox(
	visible=False,
	label=lg_conf["link_label"],
	info=lg_conf["link_info"],
	placeholder=lg_conf["link_ph"],
	)
	directory_input = gr.Textbox(
	visible=False,
	label=lg_conf["dir_label"],
	info=lg_conf["dir_info"],
	placeholder=lg_conf["dir_ph"],
	)
	input_data_type.change(
	fn=swap_visibility,
	inputs=input_data_type,
	outputs=[video_input, blink_input, directory_input],
	)

	gr.HTML()

	SOURCE_LANGUAGE = gr.Dropdown(
	LANGUAGES_LIST,
	value=LANGUAGES_LIST[0],
	label=lg_conf["sl_label"],
	info=lg_conf["sl_info"],
	)
	TRANSLATE_AUDIO_TO = gr.Dropdown(
	LANGUAGES_LIST[1:],
	value="English (en)",
	label=lg_conf["tat_label"],
	info=lg_conf["tat_info"],
	)

	gr.HTML("<hr></h2>")

	gr.Markdown(lg_conf["num_speakers"])
	MAX_TTS = 12
	min_speakers = gr.Slider(
	1,
	MAX_TTS,
	value=1,
	label=lg_conf["min_sk"],
	step=1,
	visible=False,
	)
	max_speakers = gr.Slider(
	1,
	MAX_TTS,
	value=2,
	step=1,
	label=lg_conf["max_sk"],
	)
	gr.Markdown(lg_conf["tts_select"])

	def submit(value):
	visibility_dict = {
	f"tts_voice{i:02d}": gr.update(visible=i < value)
	for i in range(MAX_TTS)
	}
	return [value for value in visibility_dict.values()]

	tts_voice00 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-EmmaMultilingualNeural-Female",
	label=lg_conf["sk1"],
	visible=True,
	interactive=True,
	)
	tts_voice01 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-AndrewMultilingualNeural-Male",
	label=lg_conf["sk2"],
	visible=True,
	interactive=True,
	)
	tts_voice02 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-AvaMultilingualNeural-Female",
	label=lg_conf["sk3"],
	visible=False,
	interactive=True,
	)
	tts_voice03 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-BrianMultilingualNeural-Male",
	label=lg_conf["sk4"],
	visible=False,
	interactive=True,
	)
	tts_voice04 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="de-DE-SeraphinaMultilingualNeural-Female",
	label=lg_conf["sk4"],
	visible=False,
	interactive=True,
	)
	tts_voice05 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="de-DE-FlorianMultilingualNeural-Male",
	label=lg_conf["sk6"],
	visible=False,
	interactive=True,
	)
	tts_voice06 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="fr-FR-VivienneMultilingualNeural-Female",
	label=lg_conf["sk7"],
	visible=False,
	interactive=True,
	)
	tts_voice07 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="fr-FR-RemyMultilingualNeural-Male",
	label=lg_conf["sk8"],
	visible=False,
	interactive=True,
	)
	tts_voice08 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-EmmaMultilingualNeural-Female",
	label=lg_conf["sk9"],
	visible=False,
	interactive=True,
	)
	tts_voice09 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-AndrewMultilingualNeural-Male",
	label=lg_conf["sk10"],
	visible=False,
	interactive=True,
	)
	tts_voice10 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-EmmaMultilingualNeural-Female",
	label=lg_conf["sk11"],
	visible=False,
	interactive=True,
	)
	tts_voice11 = gr.Dropdown(
	SoniTr.tts_info.tts_list(),
	value="en-US-AndrewMultilingualNeural-Male",
	label=lg_conf["sk12"],
	visible=False,
	interactive=True,
	)
	max_speakers.change(
	submit,
	max_speakers,
	[
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	],
	)

	with gr.Column():
	with gr.Accordion(
	lg_conf["vc_title"],
	open=False,
	):
	gr.Markdown(lg_conf["vc_subtitle"])
	voice_imitation_gui = gr.Checkbox(
	False,
	label=lg_conf["vc_active_label"],
	info=lg_conf["vc_active_info"],
	)
	openvoice_models = ["openvoice", "openvoice_v2"]
	voice_imitation_method_options = (
	["freevc"] + openvoice_models
	if SoniTr.tts_info.xtts_enabled
	else openvoice_models
	)
	voice_imitation_method_gui = gr.Dropdown(
	voice_imitation_method_options,
	value=voice_imitation_method_options[0],
	label=lg_conf["vc_method_label"],
	info=lg_conf["vc_method_info"],
	)
	voice_imitation_max_segments_gui = gr.Slider(
	label=lg_conf["vc_segments_label"],
	info=lg_conf["vc_segments_info"],
	value=3,
	step=1,
	minimum=1,
	maximum=10,
	visible=True,
	interactive=True,
	)
	voice_imitation_vocals_dereverb_gui = gr.Checkbox(
	False,
	label=lg_conf["vc_dereverb_label"],
	info=lg_conf["vc_dereverb_info"],
	)
	voice_imitation_remove_previous_gui = gr.Checkbox(
	True,
	label=lg_conf["vc_remove_label"],
	info=lg_conf["vc_remove_info"],
	)

	if SoniTr.tts_info.xtts_enabled:
	with gr.Column():
	with gr.Accordion(
	lg_conf["xtts_title"],
	open=False,
	):
	gr.Markdown(lg_conf["xtts_subtitle"])
	wav_speaker_file = gr.File(
	label=lg_conf["xtts_file_label"]
	)
	wav_speaker_name = gr.Textbox(
	label=lg_conf["xtts_name_label"],
	value="",
	info=lg_conf["xtts_name_info"],
	placeholder="default_name",
	lines=1,
	)
	wav_speaker_start = gr.Number(
	label="Time audio start",
	value=0,
	visible=False,
	)
	wav_speaker_end = gr.Number(
	label="Time audio end",
	value=0,
	visible=False,
	)
	wav_speaker_dir = gr.Textbox(
	label="Directory save",
	value="_XTTS_",
	visible=False,
	)
	wav_speaker_dereverb = gr.Checkbox(
	True,
	label=lg_conf["xtts_dereverb_label"],
	info=lg_conf["xtts_dereverb_info"]
	)
	wav_speaker_output = gr.HTML()
	create_xtts_wav = gr.Button(
	lg_conf["xtts_button"]
	)
	gr.Markdown(lg_conf["xtts_footer"])
	else:
	wav_speaker_dereverb = gr.Checkbox(
	False,
	label=lg_conf["xtts_dereverb_label"],
	info=lg_conf["xtts_dereverb_info"],
	visible=False
	)

	with gr.Column():
	with gr.Accordion(
	lg_conf["extra_setting"], open=False
	):
	audio_accelerate = gr.Slider(
	label=lg_conf["acc_max_label"],
	value=1.9,
	step=0.1,
	minimum=1.0,
	maximum=2.5,
	visible=True,
	interactive=True,
	info=lg_conf["acc_max_info"],
	)
	acceleration_rate_regulation_gui = gr.Checkbox(
	False,
	label=lg_conf["acc_rate_label"],
	info=lg_conf["acc_rate_info"],
	)
	avoid_overlap_gui = gr.Checkbox(
	False,
	label=lg_conf["or_label"],
	info=lg_conf["or_info"],
	)

	gr.HTML("<hr></h2>")

	audio_mix_options = [
	"Mixing audio with sidechain compression",
	"Adjusting volumes and mixing audio",
	]
	AUDIO_MIX = gr.Dropdown(
	audio_mix_options,
	value=audio_mix_options[1],
	label=lg_conf["aud_mix_label"],
	info=lg_conf["aud_mix_info"],
	)
	volume_original_mix = gr.Slider(
	label=lg_conf["vol_ori"],
	info="for Adjusting volumes and mixing audio",
	value=0.25,
	step=0.05,
	minimum=0.0,
	maximum=2.50,
	visible=True,
	interactive=True,
	)
	volume_translated_mix = gr.Slider(
	label=lg_conf["vol_tra"],
	info="for Adjusting volumes and mixing audio",
	value=1.80,
	step=0.05,
	minimum=0.0,
	maximum=2.50,
	visible=True,
	interactive=True,
	)
	main_voiceless_track = gr.Checkbox(
	label=lg_conf["voiceless_tk_label"],
	info=lg_conf["voiceless_tk_info"],
	)

	gr.HTML("<hr></h2>")
	sub_type_options = [
	"disable",
	"srt",
	"vtt",
	"ass",
	"txt",
	"tsv",
	"json",
	"aud",
	]

	sub_type_output = gr.Dropdown(
	sub_type_options,
	value=sub_type_options[1],
	label=lg_conf["sub_type"],
	)
	soft_subtitles_to_video_gui = gr.Checkbox(
	label=lg_conf["soft_subs_label"],
	info=lg_conf["soft_subs_info"],
	)
	burn_subtitles_to_video_gui = gr.Checkbox(
	label=lg_conf["burn_subs_label"],
	info=lg_conf["burn_subs_info"],
	)

	gr.HTML("<hr></h2>")
	gr.Markdown(lg_conf["whisper_title"])
	literalize_numbers_gui = gr.Checkbox(
	True,
	label=lg_conf["lnum_label"],
	info=lg_conf["lnum_info"],
	)
	vocal_refinement_gui = gr.Checkbox(
	False,
	label=lg_conf["scle_label"],
	info=lg_conf["scle_info"],
	)
	segment_duration_limit_gui = gr.Slider(
	label=lg_conf["sd_limit_label"],
	info=lg_conf["sd_limit_info"],
	value=15,
	step=1,
	minimum=1,
	maximum=30,
	)
	whisper_model_default = (
	"large-v3"
	if SoniTr.device == "cuda"
	else "medium"
	)

	WHISPER_MODEL_SIZE = gr.Dropdown(
	ASR_MODEL_OPTIONS + find_whisper_models(),
	value=whisper_model_default,
	label="Whisper ASR model",
	info=lg_conf["asr_model_info"],
	allow_custom_value=True,
	)
	com_t_opt, com_t_default = (
	[COMPUTE_TYPE_GPU, "float16"]
	if SoniTr.device == "cuda"
	else [COMPUTE_TYPE_CPU, "float32"]
	)
	compute_type = gr.Dropdown(
	com_t_opt,
	value=com_t_default,
	label=lg_conf["ctype_label"],
	info=lg_conf["ctype_info"],
	)
	batch_size = gr.Slider(
	minimum=1,
	maximum=32,
	value=8,
	label=lg_conf["batchz_label"],
	info=lg_conf["batchz_info"],
	step=1,
	)
	input_srt = gr.File(
	label=lg_conf["srt_file_label"],
	file_types=[".srt", ".ass", ".vtt"],
	height=130,
	)

	gr.HTML("<hr></h2>")
	text_segmentation_options = [
	"sentence",
	"word",
	"character"
	]
	text_segmentation_scale_gui = gr.Dropdown(
	text_segmentation_options,
	value=text_segmentation_options[0],
	label=lg_conf["tsscale_label"],
	info=lg_conf["tsscale_info"],
	)
	divide_text_segments_by_gui = gr.Textbox(
	label=lg_conf["divide_text_label"],
	value="",
	info=lg_conf["divide_text_info"],
	)

	gr.HTML("<hr></h2>")
	pyannote_models_list = list(
	diarization_models.keys()
	)
	diarization_process_dropdown = gr.Dropdown(
	pyannote_models_list,
	value=pyannote_models_list[1],
	label=lg_conf["diarization_label"],
	)
	translate_process_dropdown = gr.Dropdown(
	TRANSLATION_PROCESS_OPTIONS,
	value=TRANSLATION_PROCESS_OPTIONS[0],
	label=lg_conf["tr_process_label"],
	)

	gr.HTML("<hr></h2>")
	main_output_type = gr.Dropdown(
	OUTPUT_TYPE_OPTIONS,
	value=OUTPUT_TYPE_OPTIONS[0],
	label=lg_conf["out_type_label"],
	)
	VIDEO_OUTPUT_NAME = gr.Textbox(
	label=lg_conf["out_name_label"],
	value="",
	info=lg_conf["out_name_info"],
	)
	play_sound_gui = gr.Checkbox(
	True,
	label=lg_conf["task_sound_label"],
	info=lg_conf["task_sound_info"],
	)
	enable_cache_gui = gr.Checkbox(
	True,
	label=lg_conf["cache_label"],
	info=lg_conf["cache_info"],
	)
	PREVIEW = gr.Checkbox(
	label="Preview", info=lg_conf["preview_info"]
	)
	is_gui_dummy_check = gr.Checkbox(
	True, visible=False
	)

	with gr.Column(variant="compact"):
	edit_sub_check = gr.Checkbox(
	label=lg_conf["edit_sub_label"],
	info=lg_conf["edit_sub_info"],
	)
	dummy_false_check = gr.Checkbox(
	False,
	visible=False,
	)

	def visible_component_subs(input_bool):
	if input_bool:
	return gr.update(visible=True), gr.update(
	visible=True
	)
	else:
	return gr.update(visible=False), gr.update(
	visible=False
	)

	subs_button = gr.Button(
	lg_conf["button_subs"],
	variant="primary",
	visible=False,
	)
	subs_edit_space = gr.Textbox(
	visible=False,
	lines=10,
	label=lg_conf["editor_sub_label"],
	info=lg_conf["editor_sub_info"],
	placeholder=lg_conf["editor_sub_ph"],
	)
	edit_sub_check.change(
	visible_component_subs,
	[edit_sub_check],
	[subs_button, subs_edit_space],
	)

	with gr.Row():
	video_button = gr.Button(
	lg_conf["button_translate"],
	variant="primary",
	)
	with gr.Row():
	video_output = gr.File(
	label=lg_conf["output_result_label"],
	file_count="multiple",
	interactive=False,

	) # gr.Video()

	gr.HTML("<hr></h2>")

	if (
	os.getenv("YOUR_HF_TOKEN") is None
	or os.getenv("YOUR_HF_TOKEN") == ""
	):
	HFKEY = gr.Textbox(
	visible=True,
	label="HF Token",
	info=lg_conf["ht_token_info"],
	placeholder=lg_conf["ht_token_ph"],
	)
	else:
	HFKEY = gr.Textbox(
	visible=False,
	label="HF Token",
	info=lg_conf["ht_token_info"],
	placeholder=lg_conf["ht_token_ph"],
	)

	gr.Examples(
	examples=[
	[
	["./assets/Video_main.mp4"],
	"",
	"",
	"",
	False,
	whisper_model_default,
	4,
	com_t_default,
	"Spanish (es)",
	"English (en)",
	1,
	2,
	"en-CA-ClaraNeural-Female",
	"en-AU-WilliamNeural-Male",
	],
	], # no update
	fn=SoniTr.batch_multilingual_media_conversion,
	inputs=[
	video_input,
	blink_input,
	directory_input,
	HFKEY,
	PREVIEW,
	WHISPER_MODEL_SIZE,
	batch_size,
	compute_type,
	SOURCE_LANGUAGE,
	TRANSLATE_AUDIO_TO,
	min_speakers,
	max_speakers,
	tts_voice00,
	tts_voice01,
	],
	outputs=[video_output],
	cache_examples=False,
	)

	with gr.Tab(lg_conf["tab_docs"]):
	with gr.Column():
	with gr.Accordion("Docs", open=True):
	with gr.Column(variant="compact"):
	with gr.Column():
	input_doc_type = gr.Dropdown(
	[
	"WRITE TEXT",
	"SUBMIT DOCUMENT",
	"Find Document Path",
	],
	value="SUBMIT DOCUMENT",
	label=lg_conf["docs_input_label"],
	info=lg_conf["docs_input_info"],
	)

	def swap_visibility(data_type):
	if data_type == "WRITE TEXT":
	return (
	gr.update(visible=True, value=""),
	gr.update(visible=False, value=None),
	gr.update(visible=False, value=""),
	)
	elif data_type == "SUBMIT DOCUMENT":
	return (
	gr.update(visible=False, value=""),
	gr.update(visible=True, value=None),
	gr.update(visible=False, value=""),
	)
	elif data_type == "Find Document Path":
	return (
	gr.update(visible=False, value=""),
	gr.update(visible=False, value=None),
	gr.update(visible=True, value=""),
	)

	text_docs = gr.Textbox(
	label="Text",
	value="This is an example",
	info="Write a text",
	placeholder="...",
	lines=5,
	visible=False,
	)
	input_docs = gr.File(
	label="Document", visible=True
	)
	directory_input_docs = gr.Textbox(
	visible=False,
	label="Document Path",
	info="Example: /home/my_doc.pdf",
	placeholder="Path goes here...",
	)
	input_doc_type.change(
	fn=swap_visibility,
	inputs=input_doc_type,
	outputs=[
	text_docs,
	input_docs,
	directory_input_docs,
	],
	)

	gr.HTML()

	tts_documents = gr.Dropdown(
	list(
	filter(
	lambda x: x != "_XTTS_/AUTOMATIC.wav",
	SoniTr.tts_info.tts_list(),
	)
	),
	value="en-US-EmmaMultilingualNeural-Female",
	label="TTS",
	visible=True,
	interactive=True,
	)

	gr.HTML()

	docs_SOURCE_LANGUAGE = gr.Dropdown(
	LANGUAGES_LIST[1:],
	value="English (en)",
	label=lg_conf["sl_label"],
	info=lg_conf["docs_source_info"],
	)
	docs_TRANSLATE_TO = gr.Dropdown(
	LANGUAGES_LIST[1:],
	value="English (en)",
	label=lg_conf["tat_label"],
	info=lg_conf["tat_info"],
	)

	with gr.Column():
	with gr.Accordion(
	lg_conf["extra_setting"], open=False
	):
	docs_translate_process_dropdown = gr.Dropdown(
	DOCS_TRANSLATION_PROCESS_OPTIONS,
	value=DOCS_TRANSLATION_PROCESS_OPTIONS[
	0
	],
	label="Translation process",
	)

	gr.HTML("<hr></h2>")

	docs_output_type = gr.Dropdown(
	DOCS_OUTPUT_TYPE_OPTIONS,
	value=DOCS_OUTPUT_TYPE_OPTIONS[2],
	label="Output type",
	)
	docs_OUTPUT_NAME = gr.Textbox(
	label="Final file name",
	value="",
	info=lg_conf["out_name_info"],
	)
	docs_chunk_size = gr.Number(
	label=lg_conf["chunk_size_label"],
	value=0,
	visible=True,
	interactive=True,
	info=lg_conf["chunk_size_info"],
	)
	gr.HTML("<hr></h2>")
	start_page_gui = gr.Number(
	step=1,
	value=1,
	minimum=1,
	maximum=99999,
	label="Start page",
	)
	end_page_gui = gr.Number(
	step=1,
	value=99999,
	minimum=1,
	maximum=99999,
	label="End page",
	)
	gr.HTML("<hr>Videobook config</h2>")
	videobook_width_gui = gr.Number(
	step=1,
	value=1280,
	minimum=100,
	maximum=4096,
	label="Width",
	)
	videobook_height_gui = gr.Number(
	step=1,
	value=720,
	minimum=100,
	maximum=4096,
	label="Height",
	)
	videobook_bcolor_gui = gr.Dropdown(
	BORDER_COLORS,
	value=BORDER_COLORS[0],
	label="Border color",
	)
	docs_dummy_check = gr.Checkbox(
	True, visible=False
	)

	with gr.Row():
	docs_button = gr.Button(
	lg_conf["docs_button"],
	variant="primary",
	)
	with gr.Row():
	docs_output = gr.File(
	label="Result",
	interactive=False,
	)

	with gr.Tab("Custom voice R.V.C. (Optional)"):

	with gr.Column():
	with gr.Accordion("Get the R.V.C. Models", open=True):
	url_links = gr.Textbox(
	label="URLs",
	value="",
	info=lg_conf["cv_url_info"],
	placeholder="urls here...",
	lines=1,
	)
	download_finish = gr.HTML()
	download_button = gr.Button("DOWNLOAD MODELS")

	def update_models():
	models_path, index_path = upload_model_list()

	dict_models = {
	f"fmodel{i:02d}": gr.update(
	choices=models_path
	)
	for i in range(MAX_TTS+1)
	}
	dict_index = {
	f"findex{i:02d}": gr.update(
	choices=index_path, value=None
	)
	for i in range(MAX_TTS+1)
	}
	dict_changes = {dict_models, dict_index}
	return [value for value in dict_changes.values()]

	with gr.Column():
	with gr.Accordion(lg_conf["replace_title"], open=False):
	with gr.Column(variant="compact"):
	with gr.Column():
	gr.Markdown(lg_conf["sec1_title"])
	enable_custom_voice = gr.Checkbox(
	False,
	label="ENABLE",
	info=lg_conf["enable_replace"]
	)
	workers_custom_voice = gr.Number(
	step=1,
	value=1,
	minimum=1,
	maximum=50,
	label="workers",
	visible=False,
	)

	gr.Markdown(lg_conf["sec2_title"])
	gr.Markdown(lg_conf["sec2_subtitle"])

	PITCH_ALGO_OPT = [
	"pm",
	"harvest",
	"crepe",
	"rmvpe",
	"rmvpe+",
	]

	def model_conf():
	return gr.Dropdown(
	models_path,
	# value="",
	label="Model",
	visible=True,
	interactive=True,
	)

	def pitch_algo_conf():
	return gr.Dropdown(
	PITCH_ALGO_OPT,
	value=PITCH_ALGO_OPT[3],
	label="Pitch algorithm",
	visible=True,
	interactive=True,
	)

	def pitch_lvl_conf():
	return gr.Slider(
	label="Pitch level",
	minimum=-24,
	maximum=24,
	step=1,
	value=0,
	visible=True,
	interactive=True,
	)

	def index_conf():
	return gr.Dropdown(
	index_path,
	value=None,
	label="Index",
	visible=True,
	interactive=True,
	)

	def index_inf_conf():
	return gr.Slider(
	minimum=0,
	maximum=1,
	label="Index influence",
	value=0.75,
	)

	def respiration_filter_conf():
	return gr.Slider(
	minimum=0,
	maximum=7,
	label="Respiration median filtering",
	value=3,
	step=1,
	interactive=True,
	)

	def envelope_ratio_conf():
	return gr.Slider(
	minimum=0,
	maximum=1,
	label="Envelope ratio",
	value=0.25,
	interactive=True,
	)

	def consonant_protec_conf():
	return gr.Slider(
	minimum=0,
	maximum=0.5,
	label="Consonant breath protection",
	value=0.5,
	interactive=True,
	)

	def button_conf(tts_name):
	return gr.Button(
	lg_conf["cv_button_apply"]+" "+tts_name,
	variant="primary",
	)

	TTS_TABS = [
	'TTS Speaker {:02d}'.format(i) for i in range(1, MAX_TTS+1)
	]

	CV_SUBTITLES = [
	lg_conf["cv_tts1"],
	lg_conf["cv_tts2"],
	lg_conf["cv_tts3"],
	lg_conf["cv_tts4"],
	lg_conf["cv_tts5"],
	lg_conf["cv_tts6"],
	lg_conf["cv_tts7"],
	lg_conf["cv_tts8"],
	lg_conf["cv_tts9"],
	lg_conf["cv_tts10"],
	lg_conf["cv_tts11"],
	lg_conf["cv_tts12"],
	]

	configs_storage = []

	for i in range(MAX_TTS): # Loop from 00 to 11
	with gr.Accordion(CV_SUBTITLES[i], open=False):
	gr.Markdown(TTS_TABS[i])
	with gr.Column():
	tag_gui = gr.Textbox(
	value=TTS_TABS[i], visible=False
	)
	model_gui = model_conf()
	pitch_algo_gui = pitch_algo_conf()
	pitch_lvl_gui = pitch_lvl_conf()
	index_gui = index_conf()
	index_inf_gui = index_inf_conf()
	rmf_gui = respiration_filter_conf()
	er_gui = envelope_ratio_conf()
	cbp_gui = consonant_protec_conf()

	with gr.Row(variant="compact"):
	button_config = button_conf(
	TTS_TABS[i]
	)

	confirm_conf = gr.HTML()

	button_config.click(
	SoniTr.vci.apply_conf,
	inputs=[
	tag_gui,
	model_gui,
	pitch_algo_gui,
	pitch_lvl_gui,
	index_gui,
	index_inf_gui,
	rmf_gui,
	er_gui,
	cbp_gui,
	],
	outputs=[confirm_conf],
	)

	configs_storage.append({
	"tag": tag_gui,
	"model": model_gui,
	"index": index_gui,
	})

	with gr.Column():
	with gr.Accordion("Test R.V.C.", open=False):
	with gr.Row(variant="compact"):
	text_test = gr.Textbox(
	label="Text",
	value="This is an example",
	info="write a text",
	placeholder="...",
	lines=5,
	)
	with gr.Column():
	tts_test = gr.Dropdown(
	sorted(SoniTr.tts_info.list_edge),
	value="en-GB-ThomasNeural-Male",
	label="TTS",
	visible=True,
	interactive=True,
	)
	model_test = model_conf()
	index_test = index_conf()
	pitch_test = pitch_lvl_conf()
	pitch_alg_test = pitch_algo_conf()
	with gr.Row(variant="compact"):
	button_test = gr.Button("Test audio")

	with gr.Column():
	with gr.Row():
	original_ttsvoice = gr.Audio()
	ttsvoice = gr.Audio()

	button_test.click(
	SoniTr.vci.make_test,
	inputs=[
	text_test,
	tts_test,
	model_test,
	index_test,
	pitch_test,
	pitch_alg_test,
	],
	outputs=[ttsvoice, original_ttsvoice],
	)

	download_button.click(
	download_list,
	[url_links],
	[download_finish],
	queue=False
	).then(
	update_models,
	[],
	[
	elem["model"] for elem in configs_storage
	] + [model_test] + [
	elem["index"] for elem in configs_storage
	] + [index_test],
	)

	with gr.Tab(lg_conf["tab_help"]):
	gr.Markdown(lg_conf["tutorial"])
	gr.Markdown(news)

	def play_sound_alert(play_sound):

	if not play_sound:
	return None

	# silent_sound = "assets/empty_audio.mp3"
	sound_alert = "assets/sound_alert.mp3"

	time.sleep(0.25)
	# yield silent_sound
	yield None

	time.sleep(0.25)
	yield sound_alert

	sound_alert_notification = gr.Audio(
	value=None,
	type="filepath",
	format="mp3",
	autoplay=True,
	visible=False,
	)

	if logs_in_gui:
	logger.info("Logs in gui need public url")

	class Logger:
	def __init__(self, filename):
	self.terminal = sys.stdout
	self.log = open(filename, "w")

	def write(self, message):
	self.terminal.write(message)
	self.log.write(message)

	def flush(self):
	self.terminal.flush()
	self.log.flush()

	def isatty(self):
	return False

	sys.stdout = Logger("output.log")

	def read_logs():
	sys.stdout.flush()
	with open("output.log", "r") as f:
	return f.read()

	with gr.Accordion("Logs", open=False):
	logs = gr.Textbox(label=">>>")
	app.load(read_logs, None, logs, every=1)

	if SoniTr.tts_info.xtts_enabled:
	# Update tts list
	def update_tts_list():
	update_dict = {
	f"tts_voice{i:02d}": gr.update(choices=SoniTr.tts_info.tts_list())
	for i in range(MAX_TTS)
	}
	update_dict["tts_documents"] = gr.update(
	choices=list(
	filter(
	lambda x: x != "_XTTS_/AUTOMATIC.wav",
	SoniTr.tts_info.tts_list(),
	)
	)
	)
	return [value for value in update_dict.values()]

	create_xtts_wav.click(
	create_wav_file_vc,
	inputs=[
	wav_speaker_name,
	wav_speaker_file,
	wav_speaker_start,
	wav_speaker_end,
	wav_speaker_dir,
	wav_speaker_dereverb,
	],
	outputs=[wav_speaker_output],
	).then(
	update_tts_list,
	None,
	[
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	tts_documents,
	],
	)

	# Run translate text
	subs_button.click(
	SoniTr.batch_multilingual_media_conversion,
	inputs=[
	video_input,
	blink_input,
	directory_input,
	HFKEY,
	PREVIEW,
	WHISPER_MODEL_SIZE,
	batch_size,
	compute_type,
	SOURCE_LANGUAGE,
	TRANSLATE_AUDIO_TO,
	min_speakers,
	max_speakers,
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	VIDEO_OUTPUT_NAME,
	AUDIO_MIX,
	audio_accelerate,
	acceleration_rate_regulation_gui,
	volume_original_mix,
	volume_translated_mix,
	sub_type_output,
	edit_sub_check, # TRUE BY DEFAULT
	dummy_false_check, # dummy false
	subs_edit_space,
	avoid_overlap_gui,
	vocal_refinement_gui,
	literalize_numbers_gui,
	segment_duration_limit_gui,
	diarization_process_dropdown,
	translate_process_dropdown,
	input_srt,
	main_output_type,
	main_voiceless_track,
	voice_imitation_gui,
	voice_imitation_max_segments_gui,
	voice_imitation_vocals_dereverb_gui,
	voice_imitation_remove_previous_gui,
	voice_imitation_method_gui,
	wav_speaker_dereverb,
	text_segmentation_scale_gui,
	divide_text_segments_by_gui,
	soft_subtitles_to_video_gui,
	burn_subtitles_to_video_gui,
	enable_cache_gui,
	enable_custom_voice,
	workers_custom_voice,
	is_gui_dummy_check,
	],
	outputs=subs_edit_space,
	).then(
	play_sound_alert, [play_sound_gui], [sound_alert_notification]
	)

	# Run translate tts and complete
	video_button.click(
	SoniTr.batch_multilingual_media_conversion,
	inputs=[
	video_input,
	blink_input,
	directory_input,
	HFKEY,
	PREVIEW,
	WHISPER_MODEL_SIZE,
	batch_size,
	compute_type,
	SOURCE_LANGUAGE,
	TRANSLATE_AUDIO_TO,
	min_speakers,
	max_speakers,
	tts_voice00,
	tts_voice01,
	tts_voice02,
	tts_voice03,
	tts_voice04,
	tts_voice05,
	tts_voice06,
	tts_voice07,
	tts_voice08,
	tts_voice09,
	tts_voice10,
	tts_voice11,
	VIDEO_OUTPUT_NAME,
	AUDIO_MIX,
	audio_accelerate,
	acceleration_rate_regulation_gui,
	volume_original_mix,
	volume_translated_mix,
	sub_type_output,
	dummy_false_check,
	edit_sub_check,
	subs_edit_space,
	avoid_overlap_gui,
	vocal_refinement_gui,
	literalize_numbers_gui,
	segment_duration_limit_gui,
	diarization_process_dropdown,
	translate_process_dropdown,
	input_srt,
	main_output_type,
	main_voiceless_track,
	voice_imitation_gui,
	voice_imitation_max_segments_gui,
	voice_imitation_vocals_dereverb_gui,
	voice_imitation_remove_previous_gui,
	voice_imitation_method_gui,
	wav_speaker_dereverb,
	text_segmentation_scale_gui,
	divide_text_segments_by_gui,
	soft_subtitles_to_video_gui,
	burn_subtitles_to_video_gui,
	enable_cache_gui,
	enable_custom_voice,
	workers_custom_voice,
	is_gui_dummy_check,
	],
	outputs=video_output,
	trigger_mode="multiple",
	).then(
	play_sound_alert, [play_sound_gui], [sound_alert_notification]
	)

	# Run docs process
	docs_button.click(
	SoniTr.multilingual_docs_conversion,
	inputs=[
	text_docs,
	input_docs,
	directory_input_docs,
	docs_SOURCE_LANGUAGE,
	docs_TRANSLATE_TO,
	tts_documents,
	docs_OUTPUT_NAME,
	docs_translate_process_dropdown,
	docs_output_type,
	docs_chunk_size,
	enable_custom_voice,
	workers_custom_voice,
	start_page_gui,
	end_page_gui,
	videobook_width_gui,
	videobook_height_gui,
	videobook_bcolor_gui,
	docs_dummy_check,
	],
	outputs=docs_output,
	trigger_mode="multiple",
	).then(
	play_sound_alert, [play_sound_gui], [sound_alert_notification]
	)

	return app


	def get_language_config(language_data, language=None, base_key="english"):
	base_lang = language_data.get(base_key)

	if language not in language_data:
	logger.error(
	f"Language {language} not found, defaulting to {base_key}"
	)
	return base_lang

	lg_conf = language_data.get(language, {})
	lg_conf.update((k, v) for k, v in base_lang.items() if k not in lg_conf)

	return lg_conf


	def create_parser():
	parser = argparse.ArgumentParser(
	formatter_class=argparse.ArgumentDefaultsHelpFormatter
	)
	parser.add_argument(
	"--theme",
	type=str,
	default="Taithrah/Minimal",
	help=(
	"Specify the theme; find themes in "
	"https://huggingface.co/spaces/gradio/theme-gallery;"
	" Example: --theme aliabid94/new-theme"
	),
	)
	parser.add_argument(
	"--public_url",
	action="store_true",
	default=False,
	help="Enable public link",
	)
	parser.add_argument(
	"--logs_in_gui",
	action="store_true",
	default=False,
	help="Displays the operations performed in Logs",
	)
	parser.add_argument(
	"--verbosity_level",
	type=str,
	default="info",
	help=(
	"Set logger verbosity level: "
	"debug, info, warning, error, or critical"
	),
	)
	parser.add_argument(
	"--language",
	type=str,
	default="english",
	help=" Select the language of the interface: english, spanish",
	)
	parser.add_argument(
	"--cpu_mode",
	action="store_true",
	default=False,
	help="Enable CPU mode to run the program without utilizing GPU acceleration.",
	)
	return parser


	if __name__ == "__main__":

	parser = create_parser()

	args = parser.parse_args()
	# Simulating command-line arguments
	# args_list = "--theme aliabid94/new-theme --public_url".split()
	# args = parser.parse_args(args_list)

	set_logging_level(args.verbosity_level)

	for id_model in UVR_MODELS:
	download_manager(
	os.path.join(MDX_DOWNLOAD_LINK, id_model), mdxnet_models_dir
	)

	models_path, index_path = upload_model_list()

	SoniTr = SoniTranslate(cpu_mode=args.cpu_mode)

	lg_conf = get_language_config(language_data, language=args.language)

	app = create_gui(args.theme, logs_in_gui=args.logs_in_gui)

	app.queue()

	app.launch(
	max_threads=1,
	share=args.public_url,
	show_error=True,
	quiet=False,
	debug=(True if logger.isEnabledFor(logging.DEBUG) else False),
	)