import gradio as gr import os os.system("pip install -q piper-tts==1.2.0") os.system("pip install -q -r requirements_xtts.txt") os.system("pip install -q TTS==0.21.1 --no-deps") import spaces import librosa 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 if os.environ.get("ZERO_GPU") != "TRUE" else []) + 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.device = self.device if os.environ.get("ZERO_GPU") != "TRUE" else "cuda" 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") or "TRUE" == os.getenv("ZERO_GPU"): 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("SpeechTech token မှားနေပါတယ်။ token ကို Infinity Tech မှဝယ်ယူနိုင်ပါတယ်") 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 os.environ.get("IS_DEMO") == "TRUE": duration_verify = librosa.get_duration(filename=base_audio_wav) logger.info(f"Duration: {duration_verify} seconds") if duration_verify > 1500: raise RuntimeError( "The audio is too long to process in this demo. Alternatively, you" " can install the app locally or use the Colab notebook available " "in the SoniTranslate repository." ) elif duration_verify > 300: tts_voices_list = [ tts_voice00, tts_voice01, tts_voice02, tts_voice03, tts_voice04, tts_voice05, tts_voice06, tts_voice07, tts_voice08, tts_voice09, tts_voice10, tts_voice11 ] for tts_voice_ in tts_voices_list: if "_XTTS_" in tts_voice_: raise RuntimeError( "XTTS is too slow to be used for audio longer than 5 " "minutes in this demo. Alternatively, you can install " "the app locally or use the Colab notebook available in" " the SoniTranslate repository." ) 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 ပြီးသွားပါပြီ") 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 os.environ.get("IS_DEMO") == "TRUE" and not is_string: raise RuntimeError( "This option is disabled in this demo. " "Alternatively, you can install " "the app locally or use the Colab notebook available in" " the SoniTranslate repository." ) 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 = "