import os import wave import numpy as np import scipy import ffmpeg import pyaudio import threading import textwrap import json import websocket import uuid import time def resample(file: str, sr: int = 16000): """ # https://github.com/openai/whisper/blob/7858aa9c08d98f75575035ecd6481f462d66ca27/whisper/audio.py#L22 Open an audio file and read as mono waveform, resampling as necessary, save the resampled audio Args: file (str): The audio file to open sr (int): The sample rate to resample the audio if necessary Returns: resampled_file (str): The resampled audio file """ try: # This launches a subprocess to decode audio while down-mixing and resampling as necessary. # Requires the ffmpeg CLI and `ffmpeg-python` package to be installed. out, _ = ( ffmpeg.input(file, threads=0) .output("-", format="s16le", acodec="pcm_s16le", ac=1, ar=sr) .run(cmd=["ffmpeg", "-nostdin"], capture_stdout=True, capture_stderr=True) ) except ffmpeg.Error as e: raise RuntimeError(f"Failed to load audio: {e.stderr.decode()}") from e np_buffer = np.frombuffer(out, dtype=np.int16) resampled_file = f"{file.split('.')[0]}_resampled.wav" scipy.io.wavfile.write(resampled_file, sr, np_buffer.astype(np.int16)) return resampled_file class Client: """ Handles audio recording, streaming, and communication with a server using WebSocket. """ INSTANCES = {} def __init__( self, host=None, port=None, is_multilingual=False, lang=None, translate=False, model_size="small" ): """ Initializes a Client instance for audio recording and streaming to a server. If host and port are not provided, the WebSocket connection will not be established. When translate is True, the task will be set to "translate" instead of "transcribe". he audio recording starts immediately upon initialization. Args: host (str): The hostname or IP address of the server. port (int): The port number for the WebSocket server. is_multilingual (bool, optional): Specifies if multilingual transcription is enabled. Default is False. lang (str, optional): The selected language for transcription when multilingual is disabled. Default is None. translate (bool, optional): Specifies if the task is translation. Default is False. """ self.chunk = 1024 * 3 self.format = pyaudio.paInt16 self.channels = 1 self.rate = 16000 self.record_seconds = 60000 self.recording = False self.multilingual = False self.language = None self.task = "transcribe" self.uid = str(uuid.uuid4()) self.waiting = False self.last_response_recieved = None self.disconnect_if_no_response_for = 15 self.multilingual = is_multilingual self.language = lang self.model_size = model_size self.server_error = False if translate: self.task = "translate" self.timestamp_offset = 0.0 self.audio_bytes = None self.p = pyaudio.PyAudio() self.stream = self.p.open( format=self.format, channels=self.channels, rate=self.rate, input=True, frames_per_buffer=self.chunk, ) if host is not None and port is not None: socket_url = f"ws://{host}:{port}" self.client_socket = websocket.WebSocketApp( socket_url, on_open=lambda ws: self.on_open(ws), on_message=lambda ws, message: self.on_message(ws, message), on_error=lambda ws, error: self.on_error(ws, error), on_close=lambda ws, close_status_code, close_msg: self.on_close( ws, close_status_code, close_msg ), ) else: print("[ERROR]: No host or port specified.") return Client.INSTANCES[self.uid] = self # start websocket client in a thread self.ws_thread = threading.Thread(target=self.client_socket.run_forever) self.ws_thread.setDaemon(True) self.ws_thread.start() self.frames = b"" print("[INFO]: * recording") def on_message(self, ws, message): """ Callback function called when a message is received from the server. It updates various attributes of the client based on the received message, including recording status, language detection, and server messages. If a disconnect message is received, it sets the recording status to False. Args: ws (websocket.WebSocketApp): The WebSocket client instance. message (str): The received message from the server. """ self.last_response_recieved = time.time() message = json.loads(message) if self.uid != message.get("uid"): print("[ERROR]: invalid client uid") return if "status" in message.keys(): if message["status"] == "WAIT": self.waiting = True print( f"[INFO]:Server is full. Estimated wait time {round(message['message'])} minutes." ) elif message["status"] == "ERROR": print(f"Message from Server: {message['message']}") self.server_error = True return if "message" in message.keys() and message["message"] == "DISCONNECT": print("[INFO]: Server overtime disconnected.") self.recording = False if "message" in message.keys() and message["message"] == "SERVER_READY": self.recording = True return if "language" in message.keys(): self.language = message.get("language") lang_prob = message.get("language_prob") print( f"[INFO]: Server detected language {self.language} with probability {lang_prob}" ) return if "llm_output" in message.keys(): print("LLM output: ") for item in message["llm_output"]: print(item) if "segments" not in message.keys(): return message = message["segments"] text = [] print(message) if len(message): for seg in message: if text and text[-1] == seg["text"]: # already got it continue text.append(seg["text"]) # keep only last 3 if len(text) > 3: text = text[-3:] wrapper = textwrap.TextWrapper(width=60) word_list = wrapper.wrap(text="".join(text)) # Print each line. if os.name == "nt": os.system("cls") else: os.system("clear") for element in word_list: print(element) def on_error(self, ws, error): print(error) def on_close(self, ws, close_status_code, close_msg): print(f"[INFO]: Websocket connection closed: {close_status_code}: {close_msg}") def on_open(self, ws): """ Callback function called when the WebSocket connection is successfully opened. Sends an initial configuration message to the server, including client UID, multilingual mode, language selection, and task type. Args: ws (websocket.WebSocketApp): The WebSocket client instance. """ print(self.multilingual, self.language, self.task) print("[INFO]: Opened connection") ws.send( json.dumps( { "uid": self.uid, "multilingual": self.multilingual, "language": self.language, "task": self.task, "model_size": self.model_size, } ) ) @staticmethod def bytes_to_float_array(audio_bytes): """ Convert audio data from bytes to a NumPy float array. It assumes that the audio data is in 16-bit PCM format. The audio data is normalized to have values between -1 and 1. Args: audio_bytes (bytes): Audio data in bytes. Returns: np.ndarray: A NumPy array containing the audio data as float values normalized between -1 and 1. """ raw_data = np.frombuffer(buffer=audio_bytes, dtype=np.int16) return raw_data.astype(np.float32) / 32768.0 def send_packet_to_server(self, message): """ Send an audio packet to the server using WebSocket. Args: message (bytes): The audio data packet in bytes to be sent to the server. """ try: self.client_socket.send(message, websocket.ABNF.OPCODE_BINARY) except Exception as e: print(e) def play_file(self, filename): """ Play an audio file and send it to the server for processing. Reads an audio file, plays it through the audio output, and simultaneously sends the audio data to the server for processing. It uses PyAudio to create an audio stream for playback. The audio data is read from the file in chunks, converted to floating-point format, and sent to the server using WebSocket communication. This method is typically used when you want to process pre-recorded audio and send it to the server in real-time. Args: filename (str): The path to the audio file to be played and sent to the server. """ # read audio and create pyaudio stream with wave.open(filename, "rb") as wavfile: self.stream = self.p.open( format=self.p.get_format_from_width(wavfile.getsampwidth()), channels=wavfile.getnchannels(), rate=wavfile.getframerate(), input=True, output=True, frames_per_buffer=self.chunk, ) try: while self.recording: data = wavfile.readframes(self.chunk) if data == b"": break audio_array = self.bytes_to_float_array(data) self.send_packet_to_server(audio_array.tobytes()) self.stream.write(data) wavfile.close() assert self.last_response_recieved while time.time() - self.last_response_recieved < self.disconnect_if_no_response_for: continue self.stream.close() self.close_websocket() except KeyboardInterrupt: wavfile.close() self.stream.stop_stream() self.stream.close() self.p.terminate() self.close_websocket() print("[INFO]: Keyboard interrupt.") def close_websocket(self): """ Close the WebSocket connection and join the WebSocket thread. First attempts to close the WebSocket connection using `self.client_socket.close()`. After closing the connection, it joins the WebSocket thread to ensure proper termination. """ try: self.client_socket.close() except Exception as e: print("[ERROR]: Error closing WebSocket:", e) try: self.ws_thread.join() except Exception as e: print("[ERROR:] Error joining WebSocket thread:", e) def get_client_socket(self): """ Get the WebSocket client socket instance. Returns: WebSocketApp: The WebSocket client socket instance currently in use by the client. """ return self.client_socket def write_audio_frames_to_file(self, frames, file_name): """ Write audio frames to a WAV file. The WAV file is created or overwritten with the specified name. The audio frames should be in the correct format and match the specified channel, sample width, and sample rate. Args: frames (bytes): The audio frames to be written to the file. file_name (str): The name of the WAV file to which the frames will be written. """ with wave.open(file_name, "wb") as wavfile: wavfile: wave.Wave_write wavfile.setnchannels(self.channels) wavfile.setsampwidth(2) wavfile.setframerate(self.rate) wavfile.writeframes(frames) def process_hls_stream(self, hls_url): """ Connect to an HLS source, process the audio stream, and send it for transcription. Args: hls_url (str): The URL of the HLS stream source. """ print("[INFO]: Connecting to HLS stream...") process = None # Initialize process to None try: # Connecting to the HLS stream using ffmpeg-python process = ( ffmpeg .input(hls_url, threads=0) .output('-', format='s16le', acodec='pcm_s16le', ac=1, ar=self.rate) .run_async(pipe_stdout=True, pipe_stderr=True) ) # Process the stream while True: in_bytes = process.stdout.read(self.chunk * 2) # 2 bytes per sample if not in_bytes: break audio_array = self.bytes_to_float_array(in_bytes) self.send_packet_to_server(audio_array.tobytes()) except Exception as e: print(f"[ERROR]: Failed to connect to HLS stream: {e}") finally: if process: process.kill() print("[INFO]: HLS stream processing finished.") def record(self, out_file="output_recording.wav"): """ Record audio data from the input stream and save it to a WAV file. Continuously records audio data from the input stream, sends it to the server via a WebSocket connection, and simultaneously saves it to multiple WAV files in chunks. It stops recording when the `RECORD_SECONDS` duration is reached or when the `RECORDING` flag is set to `False`. Audio data is saved in chunks to the "chunks" directory. Each chunk is saved as a separate WAV file. The recording will continue until the specified duration is reached or until the `RECORDING` flag is set to `False`. The recording process can be interrupted by sending a KeyboardInterrupt (e.g., pressing Ctrl+C). After recording, the method combines all the saved audio chunks into the specified `out_file`. Args: out_file (str, optional): The name of the output WAV file to save the entire recording. Default is "output_recording.wav". """ n_audio_file = 0 if not os.path.exists("chunks"): os.makedirs("chunks", exist_ok=True) try: for _ in range(0, int(self.rate / self.chunk * self.record_seconds)): if not self.recording: break data = self.stream.read(self.chunk) self.frames += data audio_array = Client.bytes_to_float_array(data) self.send_packet_to_server(audio_array.tobytes()) # save frames if more than a minute if len(self.frames) > 60 * self.rate: t = threading.Thread( target=self.write_audio_frames_to_file, args=( self.frames[:], f"chunks/{n_audio_file}.wav", ), ) t.start() n_audio_file += 1 self.frames = b"" except KeyboardInterrupt: if len(self.frames): self.write_audio_frames_to_file( self.frames[:], f"chunks/{n_audio_file}.wav" ) n_audio_file += 1 self.stream.stop_stream() self.stream.close() self.p.terminate() self.close_websocket() self.write_output_recording(n_audio_file, out_file) def write_output_recording(self, n_audio_file, out_file): """ Combine and save recorded audio chunks into a single WAV file. The individual audio chunk files are expected to be located in the "chunks" directory. Reads each chunk file, appends its audio data to the final recording, and then deletes the chunk file. After combining and saving, the final recording is stored in the specified `out_file`. Args: n_audio_file (int): The number of audio chunk files to combine. out_file (str): The name of the output WAV file to save the final recording. """ input_files = [ f"chunks/{i}.wav" for i in range(n_audio_file) if os.path.exists(f"chunks/{i}.wav") ] with wave.open(out_file, "wb") as wavfile: wavfile: wave.Wave_write wavfile.setnchannels(self.channels) wavfile.setsampwidth(2) wavfile.setframerate(self.rate) for in_file in input_files: with wave.open(in_file, "rb") as wav_in: while True: data = wav_in.readframes(self.chunk) if data == b"": break wavfile.writeframes(data) # remove this file os.remove(in_file) wavfile.close() class TranscriptionClient: """ Client for handling audio transcription tasks via a WebSocket connection. Acts as a high-level client for audio transcription tasks using a WebSocket connection. It can be used to send audio data for transcription to a server and receive transcribed text segments. Args: host (str): The hostname or IP address of the server. port (int): The port number to connect to on the server. is_multilingual (bool, optional): Indicates whether the transcription should support multiple languages (default is False). lang (str, optional): The primary language for transcription (used if `is_multilingual` is False). Default is None, which defaults to English ('en'). translate (bool, optional): Indicates whether translation tasks are required (default is False). Attributes: client (Client): An instance of the underlying Client class responsible for handling the WebSocket connection. Example: To create a TranscriptionClient and start transcription on microphone audio: ```python transcription_client = TranscriptionClient(host="localhost", port=9090, is_multilingual=True) transcription_client() ``` """ def __init__(self, host, port, is_multilingual=False, lang=None, translate=False, model_size="small"): self.client = Client(host, port, is_multilingual, lang, translate, model_size) def __call__(self, audio=None, hls_url=None): """ Start the transcription process. Initiates the transcription process by connecting to the server via a WebSocket. It waits for the server to be ready to receive audio data and then sends audio for transcription. If an audio file is provided, it will be played and streamed to the server; otherwise, it will perform live recording. Args: audio (str, optional): Path to an audio file for transcription. Default is None, which triggers live recording. """ print("[INFO]: Waiting for server ready ...") while not self.client.recording: if self.client.waiting or self.client.server_error: self.client.close_websocket() return print("[INFO]: Server Ready!") if hls_url is not None: self.client.process_hls_stream(hls_url) elif audio is not None: resampled_file = resample(audio) self.client.play_file(resampled_file) else: self.client.record()