import sys from zipfile import ZipFile from subprocess import Popen from os import makedirs from os import path as os_path, rename as os_rename, mkdir as os_mkdir from shutil import rmtree from datetime import datetime from logging import getLogger, FileHandler, Formatter, INFO from time import sleep from queue import Queue from threading import Thread, Event from requests import get as requests_get from flashtext import KeywordProcessor from models.translation.translation_translator import Translator from models.transcription.transcription_utils import getInputDevices, getOutputDevices, getDefaultInputDevice, getDefaultOutputDevice from models.osc.osc_tools import sendTyping, sendMessage, sendTestAction, receiveOscParameters from models.transcription.transcription_recorder import SelectedMicRecorder, SelectedSpeakerRecorder from models.transcription.transcription_recorder import SelectedMicEnergyRecorder, SelectedSpeakeEnergyRecorder from models.transcription.transcription_transcriber import AudioTranscriber from models.xsoverlay.notification import xsoverlayForVRCT from models.translation.translation_languages import translatorEngine, translation_lang from models.transcription.transcription_languages import transcription_lang from config import config class threadFnc(Thread): def __init__(self, fnc, daemon=True, *args, **kwargs): super(threadFnc, self).__init__(daemon=daemon, *args, **kwargs) self.fnc = fnc self._stop = Event() def stop(self): self._stop.set() def stopped(self): return self._stop.isSet() def run(self): while True: if self.stopped(): return self.fnc(*self._args, **self._kwargs) class Model: # Languages available for both transcription and translation SUPPORTED_LANGUAGES = [ 'Afrikaans', 'Arabic', 'Basque', 'Bulgarian', 'Catalan', 'Chinese', 'Croatian', 'Czech', 'Danish', 'Dutch', 'English', 'Filipino', 'Finnish', 'French', 'German', 'Greek', 'Hebrew', 'Hindi', 'Hungarian', 'Indonesian', 'Italian', 'Japanese', 'Korean', 'Lithuanian', 'Malay', 'Norwegian', 'Polish', 'Portuguese', 'Romanian', 'Russian', 'Serbian', 'Slovak', 'Slovenian', 'Spanish', 'Swedish', 'Thai', 'Turkish', 'Ukrainian', 'Vietnamese' ] _instance = None def __new__(cls): if cls._instance is None: cls._instance = super(Model, cls).__new__(cls) cls._instance.init() return cls._instance def init(self): self.logger = None self.mic_print_transcript = None self.mic_audio_recorder = None self.mic_energy_recorder = None self.mic_energy_plot_progressbar = None self.spk_print_transcript = None self.spk_audio_recorder = None self.speaker_energy_recorder = None self.speaker_energy_plot_progressbar = None self.translator = Translator() self.keyword_processor = KeywordProcessor() def resetTranslator(self): del self.translator self.translator = Translator() def resetKeywordProcessor(self): del self.keyword_processor self.keyword_processor = KeywordProcessor() def authenticationTranslator(self, fnc, choice_translator=None, auth_key=None): if choice_translator == None: choice_translator = config.CHOICE_TRANSLATOR if auth_key == None: auth_key = config.AUTH_KEYS[choice_translator] result = self.translator.authentication(choice_translator, auth_key) if result: auth_keys = config.AUTH_KEYS auth_keys[choice_translator] = auth_key try: fnc(auth_keys) except: pass return result def startLogger(self): makedirs(os_path.join(os_path.dirname(sys.argv[0]), "logs"), exist_ok=True) logger = getLogger() logger.setLevel(INFO) file_name = os_path.join(os_path.dirname(sys.argv[0]), "logs", f"{datetime.now().strftime('%Y-%m-%d_%H-%M-%S')}.log") file_handler = FileHandler(file_name, encoding="utf-8", delay=True) formatter = Formatter("[%(asctime)s] %(message)s") file_handler.setFormatter(formatter) logger.addHandler(file_handler) self.logger = logger self.logger.disabled = False def stopLogger(self): self.logger.disabled = True self.logger = None @staticmethod def getListLanguageAndCountry(): langs = [] for lang in model.SUPPORTED_LANGUAGES: for country in transcription_lang[lang]: langs.append(f"{lang}\n({country})") return langs @staticmethod def getLanguageAndCountry(select): parts = select.split("\n") language = parts[0] country = parts[1][1:-1] return language, country @staticmethod def findTranslationEngine(source_lang, target_lang): compatible_engines = [] for engine in translatorEngine: source_languages = translation_lang.get(engine, {}).get("source", {}) target_languages = translation_lang.get(engine, {}).get("target", {}) if source_lang in source_languages and target_lang in target_languages: compatible_engines.append(engine) engine_name = compatible_engines[0] if engine_name == "DeepL(web)" and config.AUTH_KEYS["DeepL(auth)"] != None: engine_name = "DeepL(auth)" return engine_name def getTranslatorStatus(self): return self.translator.translator_status[config.CHOICE_TRANSLATOR] def getListTranslatorName(self): return list(self.translator.translator_status.keys()) def getInputTranslate(self, message): try: translation = self.translator.translate( translator_name=config.CHOICE_TRANSLATOR, source_language=config.SOURCE_LANGUAGE, target_language=config.TARGET_LANGUAGE, message=message ) except: translation = None return translation def getOutputTranslate(self, message): try: translation = self.translator.translate( translator_name=config.CHOICE_TRANSLATOR, source_language=config.TARGET_LANGUAGE, target_language=config.SOURCE_LANGUAGE, message=message ) except: translation = None return translation def addKeywords(self): for f in config.INPUT_MIC_WORD_FILTER: self.keyword_processor.add_keyword(f) def checkKeywords(self, message): return len(self.keyword_processor.extract_keywords(message)) != 0 @staticmethod def oscStartSendTyping(): sendTyping(True, config.OSC_IP_ADDRESS, config.OSC_PORT) @staticmethod def oscStopSendTyping(): sendTyping(False, config.OSC_IP_ADDRESS, config.OSC_PORT) @staticmethod def oscSendMessage(message): sendMessage(message, config.OSC_IP_ADDRESS, config.OSC_PORT) def checkOSCStarted(self, fnc): self.is_valid_osc = False def checkOscReceive(address, osc_arguments): if self.is_valid_osc is False: self.is_valid_osc = True self.listening_server = receiveOscParameters(checkOscReceive) def oscListener(): self.listening_server.serve_forever() def sendTestActionLoop(): for _ in range(10): sendTestAction() if self.is_valid_osc is True: break sleep(0.1) self.listening_server.shutdown() # start receive osc th_receive_osc_parameters = Thread(target=oscListener) th_receive_osc_parameters.daemon = True th_receive_osc_parameters.start() # check osc started th_send_osc_test_action = Thread(target=sendTestActionLoop) th_send_osc_test_action.daemon = True th_send_osc_test_action.start() th_receive_osc_parameters.join() th_send_osc_test_action.join() if self.is_valid_osc is False: fnc() @staticmethod def checkSoftwareUpdated(): # check update update_flag = False response = requests_get(config.GITHUB_URL) new_version = response.json()["name"] if new_version != config.VERSION: update_flag = True print("software version", "now:", config.VERSION, "new:", new_version) return update_flag @staticmethod def updateSoftware(restart:bool=True): filename = 'download.zip' program_name = 'VRCT.exe' temporary_name = '_VRCT.exe' tmp_directory_name = 'tmp' batch_name = 'update.bat' current_directory = os_path.dirname(sys.argv[0]) program_directory = os_path.dirname(__file__) os_mkdir(os_path.join(current_directory, tmp_directory_name)) res = requests_get(config.GITHUB_URL) url = res.json()['assets'][0]['browser_download_url'] res = requests_get(url, stream=True) with open(os_path.join(current_directory, tmp_directory_name, filename), 'wb') as file: for chunk in res.iter_content(chunk_size=1024): file.write(chunk) with ZipFile(os_path.join(current_directory, tmp_directory_name, filename)) as zf: zf.extract(program_name, os_path.join(current_directory, tmp_directory_name)) os_rename(os_path.join(current_directory, tmp_directory_name, program_name), os_path.join(current_directory, temporary_name)) rmtree(os_path.join(current_directory, tmp_directory_name)) command = [os_path.join(program_directory, batch_name), program_name, temporary_name, str(restart)] Popen(command) @staticmethod def getListInputHost(): return [host for host in getInputDevices().keys()] @staticmethod def getListInputDevice(): return [device["name"] for device in getInputDevices()[config.CHOICE_MIC_HOST]] @staticmethod def getInputDefaultDevice(): return [device["name"] for device in getInputDevices()[config.CHOICE_MIC_HOST]][0] @staticmethod def getListOutputDevice(): return [device["name"] for device in getOutputDevices()] @staticmethod def checkSpeakerStatus(choice=config.CHOICE_SPEAKER_DEVICE): speaker_device = [device for device in getOutputDevices() if device["name"] == choice][0] if getDefaultOutputDevice()["index"] == speaker_device["index"]: return True return False def startMicTranscript(self, fnc): if config.CHOICE_MIC_HOST == "None" or config.CHOICE_MIC_DEVICE == "None": return mic_audio_queue = Queue() device = [device for device in getInputDevices()[config.CHOICE_MIC_HOST] if device["name"] == config.CHOICE_MIC_DEVICE][0] record_timeout = config.INPUT_MIC_RECORD_TIMEOUT phase_timeout = config.INPUT_MIC_PHRASE_TIMEOUT if record_timeout > phase_timeout: record_timeout = phase_timeout self.mic_audio_recorder = SelectedMicRecorder( device=device, energy_threshold=config.INPUT_MIC_ENERGY_THRESHOLD, dynamic_energy_threshold=config.INPUT_MIC_DYNAMIC_ENERGY_THRESHOLD, record_timeout=record_timeout, ) self.mic_audio_recorder.recordIntoQueue(mic_audio_queue) mic_transcriber = AudioTranscriber( speaker=False, source=self.mic_audio_recorder.source, phrase_timeout=phase_timeout, max_phrases=config.INPUT_MIC_MAX_PHRASES, ) def sendMicTranscript(): mic_transcriber.transcribeAudioQueue(mic_audio_queue, config.SOURCE_LANGUAGE, config.SOURCE_COUNTRY) message = mic_transcriber.getTranscript() try: fnc(message) except: pass self.mic_print_transcript = threadFnc(sendMicTranscript) self.mic_print_transcript.daemon = True self.mic_print_transcript.start() def stopMicTranscript(self): if isinstance(self.mic_print_transcript, threadFnc): self.mic_print_transcript.stop() self.mic_print_transcript = None if isinstance(self.mic_audio_recorder, SelectedMicRecorder): self.mic_audio_recorder.stop() self.mic_audio_recorder = None def startCheckMicEnergy(self, fnc): if config.CHOICE_MIC_HOST == "None" or config.CHOICE_MIC_DEVICE == "None": return def sendMicEnergy(): if mic_energy_queue.empty() is False: energy = mic_energy_queue.get() try: fnc(energy) except: pass # sleep(0.01) mic_energy_queue = Queue() mic_device = [device for device in getInputDevices()[config.CHOICE_MIC_HOST] if device["name"] == config.CHOICE_MIC_DEVICE][0] self.mic_energy_recorder = SelectedMicEnergyRecorder(mic_device) self.mic_energy_recorder.recordIntoQueue(mic_energy_queue) self.mic_energy_plot_progressbar = threadFnc(sendMicEnergy) self.mic_energy_plot_progressbar.daemon = True self.mic_energy_plot_progressbar.start() def stopCheckMicEnergy(self): if isinstance(self.mic_energy_plot_progressbar, threadFnc): self.mic_energy_plot_progressbar.stop() self.mic_energy_plot_progressbar = None if isinstance(self.mic_energy_recorder, SelectedMicEnergyRecorder): self.mic_energy_recorder.stop() self.mic_energy_recorder = None def startSpeakerTranscript(self, fnc): if config.CHOICE_SPEAKER_DEVICE == "None": return spk_audio_queue = Queue() spk_device = [device for device in getOutputDevices() if device["name"] == config.CHOICE_SPEAKER_DEVICE][0] record_timeout = config.INPUT_SPEAKER_RECORD_TIMEOUT phase_timeout = config.INPUT_SPEAKER_PHRASE_TIMEOUT if record_timeout > phase_timeout: record_timeout = phase_timeout self.spk_audio_recorder = SelectedSpeakerRecorder( device=spk_device, energy_threshold=config.INPUT_SPEAKER_ENERGY_THRESHOLD, dynamic_energy_threshold=config.INPUT_SPEAKER_DYNAMIC_ENERGY_THRESHOLD, record_timeout=record_timeout, ) self.spk_audio_recorder.recordIntoQueue(spk_audio_queue) spk_transcriber = AudioTranscriber( speaker=True, source=self.spk_audio_recorder.source, phrase_timeout=phase_timeout, max_phrases=config.INPUT_SPEAKER_MAX_PHRASES, ) def sendSpkTranscript(): spk_transcriber.transcribeAudioQueue(spk_audio_queue, config.TARGET_LANGUAGE, config.TARGET_COUNTRY) message = spk_transcriber.getTranscript() try: fnc(message) except: pass self.spk_print_transcript = threadFnc(sendSpkTranscript) self.spk_print_transcript.daemon = True self.spk_print_transcript.start() def stopSpeakerTranscript(self): if isinstance(self.spk_print_transcript, threadFnc): self.spk_print_transcript.stop() self.spk_print_transcript = None if isinstance(self.spk_audio_recorder, SelectedSpeakerRecorder): self.spk_audio_recorder.stop() self.spk_audio_recorder = None def startCheckSpeakerEnergy(self, fnc): if config.CHOICE_SPEAKER_DEVICE == "None": return def sendSpeakerEnergy(): if speaker_energy_queue.empty() is False: energy = speaker_energy_queue.get() try: fnc(energy) except: pass # sleep(0.01) speaker_device = [device for device in getOutputDevices() if device["name"] == config.CHOICE_SPEAKER_DEVICE][0] speaker_energy_queue = Queue() self.speaker_energy_recorder = SelectedSpeakeEnergyRecorder(speaker_device) self.speaker_energy_recorder.recordIntoQueue(speaker_energy_queue) self.speaker_energy_plot_progressbar = threadFnc(sendSpeakerEnergy) self.speaker_energy_plot_progressbar.daemon = True self.speaker_energy_plot_progressbar.start() def stopCheckSpeakerEnergy(self): if isinstance(self.speaker_energy_plot_progressbar, threadFnc): self.speaker_energy_plot_progressbar.stop() self.speaker_energy_plot_progressbar = None if isinstance(self.speaker_energy_recorder, SelectedSpeakeEnergyRecorder): self.speaker_energy_recorder.stop() self.speaker_energy_recorder = None def notificationXSOverlay(self, message): xsoverlayForVRCT(content=f"{message}") model = Model()