import os import argparse import gradio as gr from gradio_i18n import Translate, gettext as _ import yaml from modules.utils.paths import (FASTER_WHISPER_MODELS_DIR, DIARIZATION_MODELS_DIR, OUTPUT_DIR, WHISPER_MODELS_DIR, INSANELY_FAST_WHISPER_MODELS_DIR, NLLB_MODELS_DIR, DEFAULT_PARAMETERS_CONFIG_PATH, UVR_MODELS_DIR, I18N_YAML_PATH) from modules.utils.constants import AUTOMATIC_DETECTION from modules.utils.files_manager import load_yaml from modules.whisper.whisper_factory import WhisperFactory from modules.whisper.faster_whisper_inference import FasterWhisperInference from modules.whisper.insanely_fast_whisper_inference import InsanelyFastWhisperInference from modules.translation.nllb_inference import NLLBInference from modules.ui.htmls import * from modules.utils.cli_manager import str2bool from modules.utils.youtube_manager import get_ytmetas from modules.translation.deepl_api import DeepLAPI from modules.whisper.whisper_parameter import * class App: def __init__(self, args): self.args = args self.app = gr.Blocks(css=CSS, theme=self.args.theme, delete_cache=(60, 3600)) self.i18n = Translate(I18N_YAML_PATH) self.whisper_inf = WhisperFactory.create_whisper_inference( whisper_type=self.args.whisper_type, whisper_model_dir=self.args.whisper_model_dir, faster_whisper_model_dir=self.args.faster_whisper_model_dir, insanely_fast_whisper_model_dir=self.args.insanely_fast_whisper_model_dir, uvr_model_dir=self.args.uvr_model_dir, output_dir=self.args.output_dir, ) self.nllb_inf = NLLBInference( model_dir=self.args.nllb_model_dir, output_dir=os.path.join(self.args.output_dir, "translations") ) self.deepl_api = DeepLAPI( output_dir=os.path.join(self.args.output_dir, "translations") ) self.default_params = load_yaml(DEFAULT_PARAMETERS_CONFIG_PATH) print(f"Use \"{self.args.whisper_type}\" implementation\n" f"Device \"{self.whisper_inf.device}\" is detected") def create_whisper_parameters(self): whisper_params = self.default_params["whisper"] vad_params = self.default_params["vad"] diarization_params = self.default_params["diarization"] uvr_params = self.default_params["bgm_separation"] with gr.Row(): dd_model = gr.Dropdown(choices=self.whisper_inf.available_models, value=whisper_params["model_size"], label=_("Model")) dd_lang = gr.Dropdown(choices=self.whisper_inf.available_langs + [AUTOMATIC_DETECTION], value=AUTOMATIC_DETECTION if whisper_params["lang"] == AUTOMATIC_DETECTION.unwrap() else whisper_params["lang"], label=_("Language")) dd_file_format = gr.Dropdown(choices=["SRT", "WebVTT", "txt"], value="SRT", label=_("File Format")) with gr.Row(): cb_translate = gr.Checkbox(value=whisper_params["is_translate"], label=_("Translate to English?"), interactive=True) with gr.Row(): cb_timestamp = gr.Checkbox(value=whisper_params["add_timestamp"], label=_("Add a timestamp to the end of the filename"), interactive=True) with gr.Accordion(_("Advanced Parameters"), open=False): nb_beam_size = gr.Number(label="Beam Size", value=whisper_params["beam_size"], precision=0, interactive=True, info="Beam size to use for decoding.") nb_log_prob_threshold = gr.Number(label="Log Probability Threshold", value=whisper_params["log_prob_threshold"], interactive=True, info="If the average log probability over sampled tokens is below this value, treat as failed.") nb_no_speech_threshold = gr.Number(label="No Speech Threshold", value=whisper_params["no_speech_threshold"], interactive=True, info="If the no speech probability is higher than this value AND the average log probability over sampled tokens is below 'Log Prob Threshold', consider the segment as silent.") dd_compute_type = gr.Dropdown(label="Compute Type", choices=self.whisper_inf.available_compute_types, value=self.whisper_inf.current_compute_type, interactive=True, allow_custom_value=True, info="Select the type of computation to perform.") nb_best_of = gr.Number(label="Best Of", value=whisper_params["best_of"], interactive=True, info="Number of candidates when sampling with non-zero temperature.") nb_patience = gr.Number(label="Patience", value=whisper_params["patience"], interactive=True, info="Beam search patience factor.") cb_condition_on_previous_text = gr.Checkbox(label="Condition On Previous Text", value=whisper_params["condition_on_previous_text"], interactive=True, info="Condition on previous text during decoding.") sld_prompt_reset_on_temperature = gr.Slider(label="Prompt Reset On Temperature", value=whisper_params["prompt_reset_on_temperature"], minimum=0, maximum=1, step=0.01, interactive=True, info="Resets prompt if temperature is above this value." " Arg has effect only if 'Condition On Previous Text' is True.") tb_initial_prompt = gr.Textbox(label="Initial Prompt", value=None, interactive=True, info="Initial prompt to use for decoding.") sd_temperature = gr.Slider(label="Temperature", value=whisper_params["temperature"], minimum=0.0, step=0.01, maximum=1.0, interactive=True, info="Temperature for sampling. It can be a tuple of temperatures, which will be successively used upon failures according to either `Compression Ratio Threshold` or `Log Prob Threshold`.") nb_compression_ratio_threshold = gr.Number(label="Compression Ratio Threshold", value=whisper_params["compression_ratio_threshold"], interactive=True, info="If the gzip compression ratio is above this value, treat as failed.") nb_chunk_length = gr.Number(label="Chunk Length (s)", value=lambda: whisper_params["chunk_length"], precision=0, info="The length of audio segments. If it is not None, it will overwrite the default chunk_length of the FeatureExtractor.") with gr.Group(visible=isinstance(self.whisper_inf, FasterWhisperInference)): nb_length_penalty = gr.Number(label="Length Penalty", value=whisper_params["length_penalty"], info="Exponential length penalty constant.") nb_repetition_penalty = gr.Number(label="Repetition Penalty", value=whisper_params["repetition_penalty"], info="Penalty applied to the score of previously generated tokens (set > 1 to penalize).") nb_no_repeat_ngram_size = gr.Number(label="No Repeat N-gram Size", value=whisper_params["no_repeat_ngram_size"], precision=0, info="Prevent repetitions of n-grams with this size (set 0 to disable).") tb_prefix = gr.Textbox(label="Prefix", value=lambda: whisper_params["prefix"], info="Optional text to provide as a prefix for the first window.") cb_suppress_blank = gr.Checkbox(label="Suppress Blank", value=whisper_params["suppress_blank"], info="Suppress blank outputs at the beginning of the sampling.") tb_suppress_tokens = gr.Textbox(label="Suppress Tokens", value=whisper_params["suppress_tokens"], info="List of token IDs to suppress. -1 will suppress a default set of symbols as defined in the model config.json file.") nb_max_initial_timestamp = gr.Number(label="Max Initial Timestamp", value=whisper_params["max_initial_timestamp"], info="The initial timestamp cannot be later than this.") cb_word_timestamps = gr.Checkbox(label="Word Timestamps", value=whisper_params["word_timestamps"], info="Extract word-level timestamps using the cross-attention pattern and dynamic time warping, and include the timestamps for each word in each segment.") tb_prepend_punctuations = gr.Textbox(label="Prepend Punctuations", value=whisper_params["prepend_punctuations"], info="If 'Word Timestamps' is True, merge these punctuation symbols with the next word.") tb_append_punctuations = gr.Textbox(label="Append Punctuations", value=whisper_params["append_punctuations"], info="If 'Word Timestamps' is True, merge these punctuation symbols with the previous word.") nb_max_new_tokens = gr.Number(label="Max New Tokens", value=lambda: whisper_params["max_new_tokens"], precision=0, info="Maximum number of new tokens to generate per-chunk. If not set, the maximum will be set by the default max_length.") nb_hallucination_silence_threshold = gr.Number(label="Hallucination Silence Threshold (sec)", value=lambda: whisper_params[ "hallucination_silence_threshold"], info="When 'Word Timestamps' is True, skip silent periods longer than this threshold (in seconds) when a possible hallucination is detected.") tb_hotwords = gr.Textbox(label="Hotwords", value=lambda: whisper_params["hotwords"], info="Hotwords/hint phrases to provide the model with. Has no effect if prefix is not None.") nb_language_detection_threshold = gr.Number(label="Language Detection Threshold", value=lambda: whisper_params[ "language_detection_threshold"], info="If the maximum probability of the language tokens is higher than this value, the language is detected.") nb_language_detection_segments = gr.Number(label="Language Detection Segments", value=lambda: whisper_params["language_detection_segments"], precision=0, info="Number of segments to consider for the language detection.") with gr.Group(visible=isinstance(self.whisper_inf, InsanelyFastWhisperInference)): nb_batch_size = gr.Number(label="Batch Size", value=whisper_params["batch_size"], precision=0) with gr.Accordion(_("Background Music Remover Filter"), open=False): cb_bgm_separation = gr.Checkbox(label=_("Enable Background Music Remover Filter"), value=uvr_params["is_separate_bgm"], interactive=True, info=_("Enabling this will remove background music")) dd_uvr_device = gr.Dropdown(label=_("Device"), value=self.whisper_inf.music_separator.device, choices=self.whisper_inf.music_separator.available_devices) dd_uvr_model_size = gr.Dropdown(label=_("Model"), value=uvr_params["model_size"], choices=self.whisper_inf.music_separator.available_models) nb_uvr_segment_size = gr.Number(label="Segment Size", value=uvr_params["segment_size"], precision=0) cb_uvr_save_file = gr.Checkbox(label=_("Save separated files to output"), value=uvr_params["save_file"]) cb_uvr_enable_offload = gr.Checkbox(label=_("Offload sub model after removing background music"), value=uvr_params["enable_offload"]) with gr.Accordion(_("Voice Detection Filter"), open=False): cb_vad_filter = gr.Checkbox(label=_("Enable Silero VAD Filter"), value=vad_params["vad_filter"], interactive=True, info=_("Enable this to transcribe only detected voice")) sd_threshold = gr.Slider(minimum=0.0, maximum=1.0, step=0.01, label="Speech Threshold", value=vad_params["threshold"], info="Lower it to be more sensitive to small sounds.") nb_min_speech_duration_ms = gr.Number(label="Minimum Speech Duration (ms)", precision=0, value=vad_params["min_speech_duration_ms"], info="Final speech chunks shorter than this time are thrown out") nb_max_speech_duration_s = gr.Number(label="Maximum Speech Duration (s)", value=vad_params["max_speech_duration_s"], info="Maximum duration of speech chunks in \"seconds\".") nb_min_silence_duration_ms = gr.Number(label="Minimum Silence Duration (ms)", precision=0, value=vad_params["min_silence_duration_ms"], info="In the end of each speech chunk wait for this time" " before separating it") nb_speech_pad_ms = gr.Number(label="Speech Padding (ms)", precision=0, value=vad_params["speech_pad_ms"], info="Final speech chunks are padded by this time each side") with gr.Accordion(_("Diarization"), open=False): cb_diarize = gr.Checkbox(label=_("Enable Diarization"), value=diarization_params["is_diarize"]) tb_hf_token = gr.Text(label=_("HuggingFace Token"), value=diarization_params["hf_token"], info=_("This is only needed the first time you download the model")) dd_diarization_device = gr.Dropdown(label=_("Device"), choices=self.whisper_inf.diarizer.get_available_device(), value=self.whisper_inf.diarizer.get_device()) dd_model.change(fn=self.on_change_models, inputs=[dd_model], outputs=[cb_translate]) return ( WhisperParameters( model_size=dd_model, lang=dd_lang, is_translate=cb_translate, beam_size=nb_beam_size, log_prob_threshold=nb_log_prob_threshold, no_speech_threshold=nb_no_speech_threshold, compute_type=dd_compute_type, best_of=nb_best_of, patience=nb_patience, condition_on_previous_text=cb_condition_on_previous_text, initial_prompt=tb_initial_prompt, temperature=sd_temperature, compression_ratio_threshold=nb_compression_ratio_threshold, vad_filter=cb_vad_filter, threshold=sd_threshold, min_speech_duration_ms=nb_min_speech_duration_ms, max_speech_duration_s=nb_max_speech_duration_s, min_silence_duration_ms=nb_min_silence_duration_ms, speech_pad_ms=nb_speech_pad_ms, chunk_length=nb_chunk_length, batch_size=nb_batch_size, is_diarize=cb_diarize, hf_token=tb_hf_token, diarization_device=dd_diarization_device, length_penalty=nb_length_penalty, repetition_penalty=nb_repetition_penalty, no_repeat_ngram_size=nb_no_repeat_ngram_size, prefix=tb_prefix, suppress_blank=cb_suppress_blank, suppress_tokens=tb_suppress_tokens, max_initial_timestamp=nb_max_initial_timestamp, word_timestamps=cb_word_timestamps, prepend_punctuations=tb_prepend_punctuations, append_punctuations=tb_append_punctuations, max_new_tokens=nb_max_new_tokens, hallucination_silence_threshold=nb_hallucination_silence_threshold, hotwords=tb_hotwords, language_detection_threshold=nb_language_detection_threshold, language_detection_segments=nb_language_detection_segments, prompt_reset_on_temperature=sld_prompt_reset_on_temperature, is_bgm_separate=cb_bgm_separation, uvr_device=dd_uvr_device, uvr_model_size=dd_uvr_model_size, uvr_segment_size=nb_uvr_segment_size, uvr_save_file=cb_uvr_save_file, uvr_enable_offload=cb_uvr_enable_offload ), dd_file_format, cb_timestamp ) def launch(self): translation_params = self.default_params["translation"] deepl_params = translation_params["deepl"] nllb_params = translation_params["nllb"] uvr_params = self.default_params["bgm_separation"] with self.app: with self.i18n: with gr.Row(): with gr.Column(): gr.Markdown(MARKDOWN, elem_id="md_project") with gr.Tabs(): with gr.TabItem(_("File")): # tab1 with gr.Column(): input_file = gr.Files(type="filepath", label=_("Upload File here")) tb_input_folder = gr.Textbox(label="Input Folder Path (Optional)", info="Optional: Specify the folder path where the input files are located, if you prefer to use local files instead of uploading them." " Leave this field empty if you do not wish to use a local path.", visible=self.args.colab, value="") whisper_params, dd_file_format, cb_timestamp = self.create_whisper_parameters() with gr.Row(): btn_run = gr.Button(_("GENERATE SUBTITLE FILE"), variant="primary") with gr.Row(): tb_indicator = gr.Textbox(label=_("Output"), scale=5) files_subtitles = gr.Files(label=_("Downloadable output file"), scale=3, interactive=False) btn_openfolder = gr.Button('📂', scale=1) params = [input_file, tb_input_folder, dd_file_format, cb_timestamp] btn_run.click(fn=self.whisper_inf.transcribe_file, inputs=params + whisper_params.as_list(), outputs=[tb_indicator, files_subtitles]) btn_openfolder.click(fn=lambda: self.open_folder("outputs"), inputs=None, outputs=None) with gr.TabItem(_("Youtube")): # tab2 with gr.Row(): tb_youtubelink = gr.Textbox(label=_("Youtube Link")) with gr.Row(equal_height=True): with gr.Column(): img_thumbnail = gr.Image(label=_("Youtube Thumbnail")) with gr.Column(): tb_title = gr.Label(label=_("Youtube Title")) tb_description = gr.Textbox(label=_("Youtube Description"), max_lines=15) whisper_params, dd_file_format, cb_timestamp = self.create_whisper_parameters() with gr.Row(): btn_run = gr.Button(_("GENERATE SUBTITLE FILE"), variant="primary") with gr.Row(): tb_indicator = gr.Textbox(label=_("Output"), scale=5) files_subtitles = gr.Files(label=_("Downloadable output file"), scale=3) btn_openfolder = gr.Button('📂', scale=1) params = [tb_youtubelink, dd_file_format, cb_timestamp] btn_run.click(fn=self.whisper_inf.transcribe_youtube, inputs=params + whisper_params.as_list(), outputs=[tb_indicator, files_subtitles]) tb_youtubelink.change(get_ytmetas, inputs=[tb_youtubelink], outputs=[img_thumbnail, tb_title, tb_description]) btn_openfolder.click(fn=lambda: self.open_folder("outputs"), inputs=None, outputs=None) with gr.TabItem(_("Mic")): # tab3 with gr.Row(): mic_input = gr.Microphone(label=_("Record with Mic"), type="filepath", interactive=True) whisper_params, dd_file_format, cb_timestamp = self.create_whisper_parameters() with gr.Row(): btn_run = gr.Button(_("GENERATE SUBTITLE FILE"), variant="primary") with gr.Row(): tb_indicator = gr.Textbox(label=_("Output"), scale=5) files_subtitles = gr.Files(label=_("Downloadable output file"), scale=3) btn_openfolder = gr.Button('📂', scale=1) params = [mic_input, dd_file_format, cb_timestamp] btn_run.click(fn=self.whisper_inf.transcribe_mic, inputs=params + whisper_params.as_list(), outputs=[tb_indicator, files_subtitles]) btn_openfolder.click(fn=lambda: self.open_folder("outputs"), inputs=None, outputs=None) with gr.TabItem(_("T2T Translation")): # tab 4 with gr.Row(): file_subs = gr.Files(type="filepath", label=_("Upload Subtitle Files to translate here")) with gr.TabItem(_("DeepL API")): # sub tab1 with gr.Row(): tb_api_key = gr.Textbox(label=_("Your Auth Key (API KEY)"), value=deepl_params["api_key"]) with gr.Row(): dd_source_lang = gr.Dropdown(label=_("Source Language"), value=AUTOMATIC_DETECTION if deepl_params["source_lang"] == AUTOMATIC_DETECTION.unwrap() else deepl_params["source_lang"], choices=list(self.deepl_api.available_source_langs.keys())) dd_target_lang = gr.Dropdown(label=_("Target Language"), value=deepl_params["target_lang"], choices=list(self.deepl_api.available_target_langs.keys())) with gr.Row(): cb_is_pro = gr.Checkbox(label=_("Pro User?"), value=deepl_params["is_pro"]) with gr.Row(): cb_timestamp = gr.Checkbox(value=translation_params["add_timestamp"], label=_("Add a timestamp to the end of the filename"), interactive=True) with gr.Row(): btn_run = gr.Button(_("TRANSLATE SUBTITLE FILE"), variant="primary") with gr.Row(): tb_indicator = gr.Textbox(label=_("Output"), scale=5) files_subtitles = gr.Files(label=_("Downloadable output file"), scale=3) btn_openfolder = gr.Button('📂', scale=1) btn_run.click(fn=self.deepl_api.translate_deepl, inputs=[tb_api_key, file_subs, dd_source_lang, dd_target_lang, cb_is_pro, cb_timestamp], outputs=[tb_indicator, files_subtitles]) btn_openfolder.click( fn=lambda: self.open_folder(os.path.join(self.args.output_dir, "translations")), inputs=None, outputs=None) with gr.TabItem(_("NLLB")): # sub tab2 with gr.Row(): dd_model_size = gr.Dropdown(label=_("Model"), value=nllb_params["model_size"], choices=self.nllb_inf.available_models) dd_source_lang = gr.Dropdown(label=_("Source Language"), value=nllb_params["source_lang"], choices=self.nllb_inf.available_source_langs) dd_target_lang = gr.Dropdown(label=_("Target Language"), value=nllb_params["target_lang"], choices=self.nllb_inf.available_target_langs) with gr.Row(): nb_max_length = gr.Number(label="Max Length Per Line", value=nllb_params["max_length"], precision=0) with gr.Row(): cb_timestamp = gr.Checkbox(value=translation_params["add_timestamp"], label=_("Add a timestamp to the end of the filename"), interactive=True) with gr.Row(): btn_run = gr.Button(_("TRANSLATE SUBTITLE FILE"), variant="primary") with gr.Row(): tb_indicator = gr.Textbox(label=_("Output"), scale=5) files_subtitles = gr.Files(label=_("Downloadable output file"), scale=3) btn_openfolder = gr.Button('📂', scale=1) with gr.Column(): md_vram_table = gr.HTML(NLLB_VRAM_TABLE, elem_id="md_nllb_vram_table") btn_run.click(fn=self.nllb_inf.translate_file, inputs=[file_subs, dd_model_size, dd_source_lang, dd_target_lang, nb_max_length, cb_timestamp], outputs=[tb_indicator, files_subtitles]) btn_openfolder.click( fn=lambda: self.open_folder(os.path.join(self.args.output_dir, "translations")), inputs=None, outputs=None) with gr.TabItem(_("BGM Separation")): files_audio = gr.Files(type="filepath", label=_("Upload Audio Files to separate background music")) dd_uvr_device = gr.Dropdown(label=_("Device"), value=self.whisper_inf.music_separator.device, choices=self.whisper_inf.music_separator.available_devices) dd_uvr_model_size = gr.Dropdown(label=_("Model"), value=uvr_params["model_size"], choices=self.whisper_inf.music_separator.available_models) nb_uvr_segment_size = gr.Number(label="Segment Size", value=uvr_params["segment_size"], precision=0) cb_uvr_save_file = gr.Checkbox(label=_("Save separated files to output"), value=True, visible=False) btn_run = gr.Button(_("SEPARATE BACKGROUND MUSIC"), variant="primary") with gr.Column(): with gr.Row(): ad_instrumental = gr.Audio(label=_("Instrumental"), scale=8) btn_open_instrumental_folder = gr.Button('📂', scale=1) with gr.Row(): ad_vocals = gr.Audio(label=_("Vocals"), scale=8) btn_open_vocals_folder = gr.Button('📂', scale=1) btn_run.click(fn=self.whisper_inf.music_separator.separate_files, inputs=[files_audio, dd_uvr_model_size, dd_uvr_device, nb_uvr_segment_size, cb_uvr_save_file], outputs=[ad_instrumental, ad_vocals]) btn_open_instrumental_folder.click(inputs=None, outputs=None, fn=lambda: self.open_folder(os.path.join( self.args.output_dir, "UVR", "instrumental" ))) btn_open_vocals_folder.click(inputs=None, outputs=None, fn=lambda: self.open_folder(os.path.join( self.args.output_dir, "UVR", "vocals" ))) # Launch the app with optional gradio settings args = self.args self.app.queue( api_open=args.api_open ).launch( share=args.share, server_name=args.server_name, server_port=args.server_port, auth=(args.username, args.password) if args.username and args.password else None, root_path=args.root_path, inbrowser=args.inbrowser ) @staticmethod def open_folder(folder_path: str): if os.path.exists(folder_path): os.system(f"start {folder_path}") else: os.makedirs(folder_path, exist_ok=True) print(f"The directory path {folder_path} has newly created.") @staticmethod def on_change_models(model_size: str): translatable_model = ["large", "large-v1", "large-v2", "large-v3"] if model_size not in translatable_model: return gr.Checkbox(visible=False, value=False, interactive=False) else: return gr.Checkbox(visible=True, value=False, label="Translate to English?", interactive=True) parser = argparse.ArgumentParser() parser.add_argument('--whisper_type', type=str, default="faster-whisper", choices=["whisper", "faster-whisper", "insanely-fast-whisper"], help='A type of the whisper implementation (Github repo name)') parser.add_argument('--share', type=str2bool, default=False, nargs='?', const=True, help='Gradio share value') parser.add_argument('--server_name', type=str, default=None, help='Gradio server host') parser.add_argument('--server_port', type=int, default=None, help='Gradio server port') parser.add_argument('--root_path', type=str, default=None, help='Gradio root path') parser.add_argument('--username', type=str, default=None, help='Gradio authentication username') parser.add_argument('--password', type=str, default=None, help='Gradio authentication password') parser.add_argument('--theme', type=str, default=None, help='Gradio Blocks theme') parser.add_argument('--colab', type=str2bool, default=False, nargs='?', const=True, help='Is colab user or not') parser.add_argument('--api_open', type=str2bool, default=False, nargs='?', const=True, help='Enable api or not in Gradio') parser.add_argument('--inbrowser', type=str2bool, default=True, nargs='?', const=True, help='Whether to automatically start Gradio app or not') parser.add_argument('--whisper_model_dir', type=str, default=WHISPER_MODELS_DIR, help='Directory path of the whisper model') parser.add_argument('--faster_whisper_model_dir', type=str, default=FASTER_WHISPER_MODELS_DIR, help='Directory path of the faster-whisper model') parser.add_argument('--insanely_fast_whisper_model_dir', type=str, default=INSANELY_FAST_WHISPER_MODELS_DIR, help='Directory path of the insanely-fast-whisper model') parser.add_argument('--diarization_model_dir', type=str, default=DIARIZATION_MODELS_DIR, help='Directory path of the diarization model') parser.add_argument('--nllb_model_dir', type=str, default=NLLB_MODELS_DIR, help='Directory path of the Facebook NLLB model') parser.add_argument('--uvr_model_dir', type=str, default=UVR_MODELS_DIR, help='Directory path of the UVR model') parser.add_argument('--output_dir', type=str, default=OUTPUT_DIR, help='Directory path of the outputs') _args = parser.parse_args() if __name__ == "__main__": app = App(args=_args) app.launch()