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ukrainian-stt / app.py

Yurii Paniv

Fix dtype handling

1040275 9 months ago

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3.72 kB

	from io import BytesIO
	from typing import Tuple
	import wave
	import gradio as gr
	import numpy as np
	from pydub.audio_segment import AudioSegment
	import requests
	from os.path import exists
	from stt import Model
	from datetime import datetime
	from transformers import Wav2Vec2ForCTC, Wav2Vec2Processor
	import torch

	# download model
	version = "v0.4"
	storage_url = f"https://github.com/robinhad/voice-recognition-ua/releases/download/{version}"
	model_name = "uk.tflite"
	scorer_name = "kenlm.scorer"
	model_link = f"{storage_url}/{model_name}"
	scorer_link = f"{storage_url}/{scorer_name}"

	model = Wav2Vec2ForCTC.from_pretrained("robinhad/wav2vec2-xls-r-300m-uk")#.to("cuda")
	processor = Wav2Vec2Processor.from_pretrained("robinhad/wav2vec2-xls-r-300m-uk")
	# TODO: download config.json, pytorch_model.bin, preprocessor_config.json, tokenizer_config.json, vocab.json, added_tokens.json, special_tokens.json

	def download(url, file_name):
	if not exists(file_name):
	print(f"Downloading {file_name}")
	r = requests.get(url, allow_redirects=True)
	with open(file_name, 'wb') as file:
	file.write(r.content)
	else:
	print(f"Found {file_name}. Skipping download...")


	def deepspeech(audio: np.array, use_scorer=False):
	ds = Model(model_name)
	if use_scorer:
	ds.enableExternalScorer("kenlm.scorer")

	result = ds.stt(audio)

	return result

	def wav2vec2(audio: np.array):
	input_dict = processor(audio, sampling_rate=16000, return_tensors="pt", padding=True)
	with torch.no_grad():
	output = model(input_dict.input_values.float())

	logits = output.logits

	pred_ids = torch.argmax(logits, dim=-1)[0]

	return processor.decode(pred_ids)

	def inference(audio: Tuple[int, np.array]):
	print("=============================")
	print(f"Time: {datetime.utcnow()}.`")

	output_audio = _convert_audio(audio[1], audio[0])

	fin = wave.open(output_audio, 'rb')
	audio = np.frombuffer(fin.readframes(fin.getnframes()), np.int16)
	fin.close()

	transcripts = []

	transcripts.append(wav2vec2(audio))
	print(f"Wav2Vec2: `{transcripts[-1]}`")
	transcripts.append(deepspeech(audio, use_scorer=True))
	print(f"Deepspeech with LM: `{transcripts[-1]}`")
	transcripts.append(deepspeech(audio))
	print(f"Deepspeech: `{transcripts[-1]}`")
	return tuple(transcripts)


	def _convert_audio(audio_data: np.array, sample_rate: int):
	audio_limit = sample_rate * 60 * 2 # limit audio to 2 minutes max
	if audio_data.shape[0] > audio_limit:
	audio_data = audio_data[0:audio_limit]
	source_audio = BytesIO()
	source_audio.write(audio_data)
	source_audio.seek(0)
	output_audio = BytesIO()
	wav_file: AudioSegment = AudioSegment.from_raw(
	source_audio,
	channels=1,
	sample_width=audio_data.dtype.itemsize,
	frame_rate=sample_rate
	)
	wav_file.export(output_audio, "wav", codec="pcm_s16le", parameters=["-ar", "16k"])
	output_audio.seek(0)
	return output_audio

	with open("README.md") as file:
	article = file.read()
	article = article[article.find("---\n", 4) + 5::]

	iface = gr.Interface(
	fn=inference,
	inputs=[
	gr.inputs.Audio(type="numpy",
	label="Аудіо", optional=False),
	],
	outputs=[gr.outputs.Textbox(label="Wav2Vec2"), gr.outputs.Textbox(label="DeepSpeech with LM"), gr.outputs.Textbox(label="DeepSpeech")],
	title="🇺🇦 Ukrainian Speech-to-Text models",
	theme="huggingface",
	description="Україномовний🇺🇦 Speech-to-Text за допомогою Coqui STT",
	article=article,
	)

	download(model_link, model_name)
	download(scorer_link, scorer_name)
	iface.launch()