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whisper-translation/transcribe.py

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Python
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import sys
from unittest.mock import MagicMock
# Comprehensive workaround for missing _lzma in some Python builds
try:
import lzma
except ImportError:
mock_lzma = MagicMock()
mock_lzma.FORMAT_XZ = 1
mock_lzma.FORMAT_ALONE = 2
mock_lzma.FORMAT_RAW = 3
mock_lzma.CHECK_NONE = 0
mock_lzma.CHECK_CRC32 = 1
mock_lzma.CHECK_CRC64 = 4
mock_lzma.CHECK_SHA256 = 10
sys.modules["_lzma"] = MagicMock()
sys.modules["lzma"] = mock_lzma
import mlx_whisper
import numpy as np
import sounddevice as sd
import queue
import torch
from silero_vad import load_silero_vad, get_speech_timestamps
from transformers import MarianMTModel, MarianTokenizer
# Parameters
WHISPER_MODEL = "mlx-community/whisper-small.en-mlx"
# List of language pairs (English to ...)
TARGET_LANGS = {
"Spanish": "Helsinki-NLP/opus-mt-en-es",
"French": "Helsinki-NLP/opus-mt-en-fr",
"Arabic": "Helsinki-NLP/opus-mt-en-ar"
}
CHANNELS = 1
SAMPLERATE = 16000
BLOCK_SIZE = 512
VAD_THRESHOLD = 0.5
BUFFER_LIMIT = SAMPLERATE * 30
MIN_SILENCE_DURATION_MS = 500
audio_queue = queue.Queue()
def callback(indata, frames, time, status):
if status:
print(status, file=sys.stderr)
audio_queue.put(indata.copy())
def main():
device = "mps" if torch.backends.mps.is_available() else "cpu"
print(f"Using device: {device}")
print(f"Loading Whisper model '{WHISPER_MODEL}'...")
# Dictionary to hold models and tokenizers
translation_engines = {}
for lang_name, model_id in TARGET_LANGS.items():
print(f"Loading {lang_name} translation model ({model_id})...")
tokenizer = MarianTokenizer.from_pretrained(model_id)
model = MarianMTModel.from_pretrained(model_id).to(device)
translation_engines[lang_name] = (model, tokenizer)
print("Loading Silero VAD model...")
vad_model = load_silero_vad()
print("Models loaded.")
print(f"\nStarting live transcription & multiple translations... (Press Ctrl+C to stop)")
audio_buffer = []
speech_started = False
try:
with sd.InputStream(samplerate=SAMPLERATE, channels=CHANNELS, callback=callback, blocksize=BLOCK_SIZE):
while True:
while not audio_queue.empty():
data = audio_queue.get()
audio_buffer.append(data.flatten())
if len(audio_buffer) > 0:
current_audio = np.concatenate(audio_buffer)
audio_tensor = torch.from_numpy(current_audio)
speech_timestamps = get_speech_timestamps(
audio_tensor,
vad_model,
sampling_rate=SAMPLERATE,
threshold=VAD_THRESHOLD,
min_silence_duration_ms=MIN_SILENCE_DURATION_MS
)
if len(speech_timestamps) > 0:
speech_started = True
last_end = speech_timestamps[-1]['end']
buffer_len_samples = len(current_audio)
if (buffer_len_samples - last_end) > (SAMPLERATE * MIN_SILENCE_DURATION_MS / 1000) or buffer_len_samples > BUFFER_LIMIT:
# 1. Transcribe once
result = mlx_whisper.transcribe(current_audio, path_or_hf_repo=WHISPER_MODEL)
original_text = result['text'].strip()
if original_text:
# Limit the input length to avoid memory spikes or model glitches
if len(original_text) > 250:
original_text = original_text[:247] + "..."
print(f"\n[EN]: {original_text}")
# 2. Translate to all targets
for lang_name, (model, tokenizer) in translation_engines.items():
inputs = tokenizer(original_text, return_tensors="pt", padding=True).to(device)
with torch.no_grad():
# Added max_new_tokens to prevent runaway generation
translated_tokens = model.generate(**inputs, max_new_tokens=150)
translated_text = tokenizer.decode(translated_tokens[0], skip_special_tokens=True)
print(f"[{lang_name[:2].upper()}]: {translated_text}")
audio_buffer = []
speech_started = False
elif not speech_started and len(current_audio) > SAMPLERATE * 2:
audio_buffer = []
except KeyboardInterrupt:
print("\nStopped by user.")
except Exception as e:
print(f"\nError: {e}")
if __name__ == "__main__":
main()
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