Whisper_speaker_diarization2

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Whisper_speaker_diarization2 / app.py

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	# import whisper
	from faster_whisper import WhisperModel
	import datetime
	import subprocess
	import gradio as gr
	from pathlib import Path
	import pandas as pd
	import re
	import time
	import os
	import numpy as np
	from sklearn.cluster import AgglomerativeClustering
	from sklearn.metrics import silhouette_score

	from pytube import YouTube
	import yt_dlp
	import torch
	import pyannote.audio
	from pyannote.audio.pipelines.speaker_verification import PretrainedSpeakerEmbedding
	from pyannote.audio import Audio
	from pyannote.core import Segment

	from gpuinfo import GPUInfo

	import wave
	import contextlib
	from transformers import pipeline
	import psutil

	whisper_models = ["tiny", "base", "small", "medium", "large-v1", "large-v2"]
	source_languages = {
	"id": "Indonesian",
	"en": "English",
	# "zh": "Chinese",
	# "de": "German",
	# "es": "Spanish",
	# "ru": "Russian",
	# "ko": "Korean",
	# "fr": "French",
	# "ja": "Japanese",
	# "pt": "Portuguese",
	# "tr": "Turkish",
	# "pl": "Polish",
	# "ca": "Catalan",
	# "nl": "Dutch",
	# "ar": "Arabic",
	# "sv": "Swedish",
	# "it": "Italian",
	# "hi": "Hindi",
	# "fi": "Finnish",
	# "vi": "Vietnamese",
	# "he": "Hebrew",
	# "uk": "Ukrainian",
	# "el": "Greek",
	# "ms": "Malay",
	# "cs": "Czech",
	# "ro": "Romanian",
	# "da": "Danish",
	# "hu": "Hungarian",
	# "ta": "Tamil",
	# "no": "Norwegian",
	# "th": "Thai",
	# "ur": "Urdu",
	# "hr": "Croatian",
	# "bg": "Bulgarian",
	# "lt": "Lithuanian",
	# "la": "Latin",
	# "mi": "Maori",
	# "ml": "Malayalam",
	# "cy": "Welsh",
	# "sk": "Slovak",
	# "te": "Telugu",
	# "fa": "Persian",
	# "lv": "Latvian",
	# "bn": "Bengali",
	# "sr": "Serbian",
	# "az": "Azerbaijani",
	# "sl": "Slovenian",
	# "kn": "Kannada",
	# "et": "Estonian",
	# "mk": "Macedonian",
	# "br": "Breton",
	# "eu": "Basque",
	# "is": "Icelandic",
	# "hy": "Armenian",
	# "ne": "Nepali",
	# "mn": "Mongolian",
	# "bs": "Bosnian",
	# "kk": "Kazakh",
	# "sq": "Albanian",
	# "sw": "Swahili",
	# "gl": "Galician",
	# "mr": "Marathi",
	# "pa": "Punjabi",
	# "si": "Sinhala",
	# "km": "Khmer",
	# "sn": "Shona",
	# "yo": "Yoruba",
	# "so": "Somali",
	# "af": "Afrikaans",
	# "oc": "Occitan",
	# "ka": "Georgian",
	# "be": "Belarusian",
	# "tg": "Tajik",
	# "sd": "Sindhi",
	# "gu": "Gujarati",
	# "am": "Amharic",
	# "yi": "Yiddish",
	# "lo": "Lao",
	# "uz": "Uzbek",
	# "fo": "Faroese",
	# "ht": "Haitian creole",
	# "ps": "Pashto",
	# "tk": "Turkmen",
	# "nn": "Nynorsk",
	# "mt": "Maltese",
	# "sa": "Sanskrit",
	# "lb": "Luxembourgish",
	# "my": "Myanmar",
	# "bo": "Tibetan",
	# "tl": "Tagalog",
	# "mg": "Malagasy",
	# "as": "Assamese",
	# "tt": "Tatar",
	# "haw": "Hawaiian",
	# "ln": "Lingala",
	# "ha": "Hausa",
	# "ba": "Bashkir",
	"jw": "Javanese",
	"su": "Sundanese",
	}

	source_language_list = [key[0] for key in source_languages.items()]

	MODEL_NAME = "cahya/whisper-medium-id"
	lang = "id"

	device = 0 if torch.cuda.is_available() else "cpu"
	pipe = pipeline(
	task="automatic-speech-recognition",
	model=MODEL_NAME,
	chunk_length_s=30,
	device=device,
	)
	os.makedirs('output', exist_ok=True)
	pipe.model.config.forced_decoder_ids = pipe.tokenizer.get_decoder_prompt_ids(language=lang, task="transcribe")

	embedding_model = PretrainedSpeakerEmbedding(
	"speechbrain/spkrec-ecapa-voxceleb",
	device=torch.device("cuda" if torch.cuda.is_available() else "cpu"))

	def transcribe(microphone, file_upload):
	warn_output = ""
	if (microphone is not None) and (file_upload is not None):
	warn_output = (
	"WARNING: You've uploaded an audio file and used the microphone. "
	"The recorded file from the microphone will be used and the uploaded audio will be discarded.\n"
	)

	elif (microphone is None) and (file_upload is None):
	return "ERROR: You have to either use the microphone or upload an audio file"

	file = microphone if microphone is not None else file_upload

	text = pipe(file)["text"]

	return warn_output + text

	def _return_yt_html_embed(yt_url):
	video_id = yt_url.split("?v=")[-1]
	HTML_str = (
	f'<center> <iframe width="500" height="320" src="https://www.youtube.com/embed/{video_id}"> </iframe>'
	" </center>"
	)
	return HTML_str

	def yt_transcribe(yt_url):
	yt = YouTube(yt_url)
	html_embed_str = _return_yt_html_embed(yt_url)
	stream = yt.streams.filter(only_audio=True)[0]
	stream.download(filename="audio.mp3")

	ydl_opts = {
	'format': 'bestvideo*+bestaudio/best',
	'postprocessors': [{
	'key': 'FFmpegExtractAudio',
	'preferredcodec': 'mp3',
	'preferredquality': '192',
	}],
	'outtmpl':'audio.%(ext)s',
	}

	with yt_dlp.YoutubeDL(ydl_opts) as ydl:
	ydl.download([yt_url])

	text = pipe("audio.mp3")["text"]
	return html_embed_str, text

	def convert_time(secs):
	return datetime.timedelta(seconds=round(secs))

	def get_youtube(video_url):
	# yt = YouTube(video_url)
	# abs_video_path = yt.streams.filter(progressive=True, file_extension='mp4').order_by('resolution').desc().first().download()

	ydl_opts = {
	'format': 'bestvideo[ext=mp4]+bestaudio[ext=m4a]/best[ext=mp4]/best',
	}

	with yt_dlp.YoutubeDL(ydl_opts) as ydl:
	info = ydl.extract_info(video_url, download=False)
	abs_video_path = ydl.prepare_filename(info)
	ydl.process_info(info)

	print("Success download video")
	print(abs_video_path)
	return abs_video_path

	def speech_to_text(video_file_path, selected_source_lang, whisper_model, num_speakers):
	"""
	# Transcribe youtube link using OpenAI Whisper
	1. Using Open AI's Whisper model to seperate audio into segments and generate transcripts.
	2. Generating speaker embeddings for each segments.
	3. Applying agglomerative clustering on the embeddings to identify the speaker for each segment.

	Speech Recognition is based on models from OpenAI Whisper https://github.com/openai/whisper
	Speaker diarization model and pipeline from by https://github.com/pyannote/pyannote-audio
	"""

	# model = whisper.load_model(whisper_model)
	# model = WhisperModel(whisper_model, device="cuda", compute_type="int8_float16")
	model = WhisperModel(whisper_model, compute_type="int8")
	time_start = time.time()
	if(video_file_path == None):
	raise ValueError("Error no video input")
	print(video_file_path)

	try:
	# Read and convert youtube video
	_,file_ending = os.path.splitext(f'{video_file_path}')
	print(f'file enging is {file_ending}')
	audio_file = video_file_path.replace(file_ending, ".wav")
	print("starting conversion to wav")
	os.system(f'ffmpeg -i "{video_file_path}" -ar 16000 -ac 1 -c:a pcm_s16le "{audio_file}"')

	# Get duration
	with contextlib.closing(wave.open(audio_file,'r')) as f:
	frames = f.getnframes()
	rate = f.getframerate()
	duration = frames / float(rate)
	print(f"conversion to wav ready, duration of audio file: {duration}")

	# Transcribe audio
	options = dict(language=selected_source_lang, beam_size=5, best_of=5)
	transcribe_options = dict(task="transcribe", **options)
	segments_raw, info = model.transcribe(audio_file, **transcribe_options)

	# Convert back to original openai format
	segments = []
	i = 0
	for segment_chunk in segments_raw:
	chunk = {}
	chunk["start"] = segment_chunk.start
	chunk["end"] = segment_chunk.end
	chunk["text"] = segment_chunk.text
	segments.append(chunk)
	i += 1
	print("transcribe audio done with fast whisper")
	except Exception as e:
	raise RuntimeError("Error converting video to audio")

	try:
	# Create embedding
	def segment_embedding(segment):
	audio = Audio()
	start = segment["start"]
	# Whisper overshoots the end timestamp in the last segment
	end = min(duration, segment["end"])
	clip = Segment(start, end)
	waveform, sample_rate = audio.crop(audio_file, clip)
	return embedding_model(waveform[None])

	embeddings = np.zeros(shape=(len(segments), 192))
	for i, segment in enumerate(segments):
	embeddings[i] = segment_embedding(segment)
	embeddings = np.nan_to_num(embeddings)
	print(f'Embedding shape: {embeddings.shape}')

	if num_speakers == 0:
	# Find the best number of speakers
	score_num_speakers = {}

	for num_speakers in range(2, 10+1):
	clustering = AgglomerativeClustering(num_speakers).fit(embeddings)
	score = silhouette_score(embeddings, clustering.labels_, metric='euclidean')
	score_num_speakers[num_speakers] = score
	best_num_speaker = max(score_num_speakers, key=lambda x:score_num_speakers[x])
	print(f"The best number of speakers: {best_num_speaker} with {score_num_speakers[best_num_speaker]} score")
	else:
	best_num_speaker = num_speakers

	# Assign speaker label
	clustering = AgglomerativeClustering(best_num_speaker).fit(embeddings)
	labels = clustering.labels_
	for i in range(len(segments)):
	segments[i]["speaker"] = 'SPEAKER ' + str(labels[i] + 1)

	# Make output
	objects = {
	'Start' : [],
	'End': [],
	'Speaker': [],
	'Text': []
	}
	text = ''
	for (i, segment) in enumerate(segments):
	if i == 0 or segments[i - 1]["speaker"] != segment["speaker"]:
	objects['Start'].append(str(convert_time(segment["start"])))
	objects['Speaker'].append(segment["speaker"])
	if i != 0:
	objects['End'].append(str(convert_time(segments[i - 1]["end"])))
	objects['Text'].append(text)
	text = ''
	text += segment["text"] + ' '
	objects['End'].append(str(convert_time(segments[i - 1]["end"])))
	objects['Text'].append(text)

	time_end = time.time()
	time_diff = time_end - time_start
	memory = psutil.virtual_memory()
	gpu_utilization, gpu_memory = GPUInfo.gpu_usage()
	gpu_utilization = gpu_utilization[0] if len(gpu_utilization) > 0 else 0
	gpu_memory = gpu_memory[0] if len(gpu_memory) > 0 else 0
	system_info = f"""
	Memory: {memory.total / (1024 1024 * 1024):.2f}GB, used: {memory.percent}%, available: {memory.available / (1024 * 1024 * 1024):.2f}GB.*
	Processing time: {time_diff:.5} seconds.
	GPU Utilization: {gpu_utilization}%, GPU Memory: {gpu_memory}MiB.
	"""
	save_path = "output/transcript_result.csv"
	df_results = pd.DataFrame(objects)
	df_results.to_csv(save_path)
	return df_results, system_info, save_path

	except Exception as e:
	raise RuntimeError("Error Running inference with local model", e)


	# ---- Gradio Layout -----
	# Inspiration from https://huggingface.co/spaces/RASMUS/Whisper-youtube-crosslingual-subtitles
	video_in = gr.Video(label="Video file", mirror_webcam=False)
	# youtube_url_in = gr.Textbox(label="Youtube url", lines=1, interactive=True)
	df_init = pd.DataFrame(columns=['Start', 'End', 'Speaker', 'Text'])
	memory = psutil.virtual_memory()
	selected_source_lang = gr.Dropdown(choices=source_language_list, type="value", value="id", label="Bahasa", interactive=True)
	selected_whisper_model = gr.Dropdown(choices=whisper_models, type="value", value="base", label="Whisper model", interactive=True)
	number_speakers = gr.Number(precision=0, value=0, label="Masukkan jumlah pembicara untuk hasil yang lebih baik. Jika nilai=0, model akan secara otomatis menemukan jumlah pembicara terbaik.", interactive=True)
	system_info = gr.Markdown(f"Memory: {memory.total / (1024 1024 * 1024):.2f}GB, used: {memory.percent}%, available: {memory.available / (1024 * 1024 * 1024):.2f}GB*")
	download_transcript = gr.File(label="Download transcript")
	transcription_df = gr.DataFrame(value=df_init,label="Transcription dataframe", row_count=(0, "dynamic"), max_rows = 10, wrap=True, overflow_row_behaviour='paginate')
	title = "Whisper speaker diarization"
	demo = gr.Blocks(title=title)
	demo.encrypt = False


	with demo:
	with gr.Tab("Whisper speaker diarization"):
	gr.Markdown('''
	<div>
	<h1 style='text-align: center'>SPERCO</h1>
	Space ini menggunakan Whisper models dari <a href='https://github.com/openai/whisper' target='_blank'><b>OpenAI</b></a> dengan <a href='https://github.com/guillaumekln/faster-whisper' target='_blank'><b>CTranslate2</b></a> yang merupakan mesin inferensi cepat untuk model Transformer untuk mengenali ucapan (4 kali lebih cepat dari model openai asli dengan akurasi yang sama)
	dan model ECAPA-TDNN dari <a href='https://github.com/speechbrain/speechbrain' target='_blank'><b>SpeechBrain</b></a> untuk mengkodekan dan mengklasifikasikan pembicara.

	</div>
	''')

	with gr.Row():
	gr.Markdown('''
	##### 1. Menggunakan model Whisper dari OpenAI untuk memisahkan audio menjadi segmen dan menghasilkan transkripsi.
	##### 2. Menghasilkan pengkodan pembicara untuk setiap segmen.
	##### 3. Menerapkan pengelompokan aglomeratif pada pengkodean untuk mengidentifikasi pembicara untuk setiap segmen.
	''')

	# with gr.Row():
	# gr.Markdown('''
	# ## Model dan bahasa
	# Di bawah ini adalah nama-nama model yang tersedia beserta perkiraan kebutuhan memori dan kecepatan inferensi relatif terhadap model besar; kecepatan sebenarnya dapat bervariasi tergantung pada banyak faktor termasuk perangkat keras yang tersedia.
	# \| Size \| Parameters \| Multilingual model \| Required VRAM \| Relative speed \|
	# \|:------:\|:----------:\|:------------------:\|:-------------:\|:--------------:\|
	# \| tiny \| 39 M \| `tiny` \| ~1 GB \| ~32x \|
	# \| base \| 74 M \| `base` \| ~1 GB \| ~16x \|
	# \| small \| 244 M \| `small` \| ~2 GB \| ~6x \|
	# \| medium \| 769 M \| `medium` \| ~5 GB \| ~2x \|
	# \| large \| 1550 M \| `large` \| ~10 GB \| 1x \|
	# ''')


	# with gr.Row():
	# gr.Markdown('''
	# ### You can test by following examples:
	# ''')
	# examples = gr.Examples(examples=
	# [ "https://www.youtube.com/watch?v=j7BfEzAFuYc&t=32s",
	# "https://www.youtube.com/watch?v=-UX0X45sYe4",
	# "https://www.youtube.com/watch?v=7minSgqi-Gw"],
	# label="Examples", inputs=[youtube_url_in])


	# with gr.Row():
	# with gr.Column():
	# youtube_url_in.render()
	# download_youtube_btn = gr.Button("Download Youtube video")
	# download_youtube_btn.click(get_youtube, [youtube_url_in], [
	# video_in])
	# print(video_in)


	with gr.Row():
	with gr.Column():
	video_in.render()
	# with gr.Column():
	# gr.Markdown('''
	# ##### Here you can start the transcription process.
	# ##### Please select the source language for transcription.
	# ##### You can select a range of assumed numbers of speakers.
	# ''')
	selected_source_lang.render()
	selected_whisper_model.render()
	number_speakers.render()
	transcribe_btn = gr.Button("Transcribe audio and diarization")
	transcribe_btn.click(speech_to_text,
	[video_in, selected_source_lang, selected_whisper_model, number_speakers],
	[transcription_df, system_info, download_transcript]
	)


	with gr.Row():
	with gr.Column():
	download_transcript.render()
	transcription_df.render()
	system_info.render()
	gr.Markdown('''
	<center>
	<img src='https://visitor-badge.glitch.me/badge?page_id=WhisperDiarizationSpeakers' alt='visitor badge'>
	<a href="https://opensource.org/licenses/Apache-2.0">
	<img src='https://img.shields.io/badge/License-Apache_2.0-blue.svg' alt='License: Apache 2.0'>
	</a>
	</center>
	''')



	# with gr.Tab("Whisper Transcribe Indonesia Audio"):
	# gr.Markdown(f'''
	# <div>
	# <h1 style='text-align: center'>Whisper Transcribe Indonesia Audio</h1>
	# </div>
	# Transcribe long-form microphone or audio inputs with the click of a button! The fine-tuned
	# checkpoint <a href='https://huggingface.co/{MODEL_NAME}' target='_blank'><b>{MODEL_NAME}</b></a> to transcribe audio files of arbitrary length.
	# ''')
	# microphone = gr.inputs.Audio(source="microphone", type="filepath", optional=True)
	# upload = gr.inputs.Audio(source="upload", type="filepath", optional=True)
	# transcribe_btn = gr.Button("Transcribe Audio")
	# text_output = gr.Textbox()
	# with gr.Row():
	# gr.Markdown('''
	# ### You can test by following examples:
	# ''')
	# examples = gr.Examples(examples=
	# [ "sample1.wav",
	# "sample2.wav",
	# ],
	# label="Examples", inputs=[upload])
	# transcribe_btn.click(transcribe, [microphone, upload], outputs=text_output)

	# with gr.Tab("Whisper Transcribe Indonesia YouTube"):
	# gr.Markdown(f'''
	# <div>
	# <h1 style='text-align: center'>Whisper Transcribe Indonesia YouTube</h1>
	# </div>
	# Transcribe long-form YouTube videos with the click of a button! The fine-tuned checkpoint:
	# <a href='https://huggingface.co/{MODEL_NAME}' target='_blank'><b>{MODEL_NAME}</b></a> to transcribe audio files of arbitrary length.
	# ''')
	# youtube_link = gr.Textbox(label="Youtube url", lines=1, interactive=True)
	# yt_transcribe_btn = gr.Button("Transcribe YouTube")
	# text_output2 = gr.Textbox()
	# html_output = gr.Markdown()
	# yt_transcribe_btn.click(yt_transcribe, [youtube_link], outputs=[html_output, text_output2])

	demo.launch(debug=True)