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Real_Time_diarization / app.py

Saiyaswanth007

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	import gradio as gr
	import numpy as np
	import queue
	import torch
	import time
	import threading
	import os
	import urllib.request
	import torchaudio
	from scipy.spatial.distance import cosine
	import json
	import io
	import wave

	# Simplified configuration parameters
	SILENCE_THRESHS = [0, 0.4]
	FINAL_TRANSCRIPTION_MODEL = "distil-large-v3"
	FINAL_BEAM_SIZE = 5
	REALTIME_TRANSCRIPTION_MODEL = "distil-small.en"
	REALTIME_BEAM_SIZE = 5
	TRANSCRIPTION_LANGUAGE = "en"
	SILERO_SENSITIVITY = 0.4
	WEBRTC_SENSITIVITY = 3
	MIN_LENGTH_OF_RECORDING = 0.7
	PRE_RECORDING_BUFFER_DURATION = 0.35

	# Speaker change detection parameters
	DEFAULT_CHANGE_THRESHOLD = 0.7
	EMBEDDING_HISTORY_SIZE = 5
	MIN_SEGMENT_DURATION = 1.0
	DEFAULT_MAX_SPEAKERS = 4
	ABSOLUTE_MAX_SPEAKERS = 10

	# Global variables
	FAST_SENTENCE_END = True
	SAMPLE_RATE = 16000
	BUFFER_SIZE = 512
	CHANNELS = 1

	# Speaker colors
	SPEAKER_COLORS = [
	"#FFFF00", # Yellow
	"#FF0000", # Red
	"#00FF00", # Green
	"#00FFFF", # Cyan
	"#FF00FF", # Magenta
	"#0000FF", # Blue
	"#FF8000", # Orange
	"#00FF80", # Spring Green
	"#8000FF", # Purple
	"#FFFFFF", # White
	]

	SPEAKER_COLOR_NAMES = [
	"Yellow", "Red", "Green", "Cyan", "Magenta",
	"Blue", "Orange", "Spring Green", "Purple", "White"
	]





	class SpeechBrainEncoder:
	"""ECAPA-TDNN encoder from SpeechBrain for speaker embeddings"""
	def __init__(self, device="cpu"):
	self.device = device
	self.model = None
	self.embedding_dim = 192
	self.model_loaded = False
	self.cache_dir = os.path.join(os.path.expanduser("~"), ".cache", "speechbrain")
	os.makedirs(self.cache_dir, exist_ok=True)

	def load_model(self):
	"""Load the ECAPA-TDNN model"""
	try:
	from speechbrain.pretrained import EncoderClassifier

	self.model = EncoderClassifier.from_hparams(
	source="speechbrain/spkrec-ecapa-voxceleb",
	savedir=self.cache_dir,
	run_opts={"device": self.device}
	)

	self.model_loaded = True
	print("ECAPA-TDNN model loaded successfully!")
	return True
	except Exception as e:
	print(f"SpeechBrain not available: {e}")
	return False

	def embed_utterance(self, audio, sr=16000):
	"""Extract speaker embedding from audio"""
	if not self.model_loaded:
	raise ValueError("Model not loaded. Call load_model() first.")

	try:
	if isinstance(audio, np.ndarray):
	waveform = torch.tensor(audio, dtype=torch.float32).unsqueeze(0)
	else:
	waveform = audio.unsqueeze(0)

	if sr != 16000:
	waveform = torchaudio.functional.resample(waveform, orig_freq=sr, new_freq=16000)

	with torch.no_grad():
	embedding = self.model.encode_batch(waveform)

	return embedding.squeeze().cpu().numpy()
	except Exception as e:
	print(f"Error extracting embedding: {e}")
	return np.zeros(self.embedding_dim)


	class AudioProcessor:
	"""Processes audio data to extract speaker embeddings"""
	def __init__(self, encoder):
	self.encoder = encoder

	def extract_embedding(self, audio_data, sample_rate=16000):
	try:
	# Ensure audio is float32 and normalized
	if audio_data.dtype == np.int16:
	float_audio = audio_data.astype(np.float32) / 32768.0
	else:
	float_audio = audio_data.astype(np.float32)

	# Normalize if needed
	if np.abs(float_audio).max() > 1.0:
	float_audio = float_audio / np.abs(float_audio).max()

	embedding = self.encoder.embed_utterance(float_audio, sample_rate)
	return embedding

	except Exception as e:
	print(f"Embedding extraction error: {e}")
	return np.zeros(self.encoder.embedding_dim)


	class SpeakerChangeDetector:
	"""Speaker change detector that supports a configurable number of speakers"""
	def __init__(self, embedding_dim=192, change_threshold=DEFAULT_CHANGE_THRESHOLD, max_speakers=DEFAULT_MAX_SPEAKERS):
	self.embedding_dim = embedding_dim
	self.change_threshold = change_threshold
	self.max_speakers = min(max_speakers, ABSOLUTE_MAX_SPEAKERS)
	self.current_speaker = 0
	self.previous_embeddings = []
	self.last_change_time = time.time()
	self.mean_embeddings = [None] * self.max_speakers
	self.speaker_embeddings = [[] for _ in range(self.max_speakers)]
	self.last_similarity = 0.0
	self.active_speakers = set([0])

	def set_max_speakers(self, max_speakers):
	"""Update the maximum number of speakers"""
	new_max = min(max_speakers, ABSOLUTE_MAX_SPEAKERS)

	if new_max < self.max_speakers:
	for speaker_id in list(self.active_speakers):
	if speaker_id >= new_max:
	self.active_speakers.discard(speaker_id)

	if self.current_speaker >= new_max:
	self.current_speaker = 0

	if new_max > self.max_speakers:
	self.mean_embeddings.extend([None] * (new_max - self.max_speakers))
	self.speaker_embeddings.extend([[] for _ in range(new_max - self.max_speakers)])
	else:
	self.mean_embeddings = self.mean_embeddings[:new_max]
	self.speaker_embeddings = self.speaker_embeddings[:new_max]

	self.max_speakers = new_max

	def set_change_threshold(self, threshold):
	"""Update the threshold for detecting speaker changes"""
	self.change_threshold = max(0.1, min(threshold, 0.99))

	def add_embedding(self, embedding, timestamp=None):
	"""Add a new embedding and check if there's a speaker change"""
	current_time = timestamp or time.time()

	if not self.previous_embeddings:
	self.previous_embeddings.append(embedding)
	self.speaker_embeddings[self.current_speaker].append(embedding)
	if self.mean_embeddings[self.current_speaker] is None:
	self.mean_embeddings[self.current_speaker] = embedding.copy()
	return self.current_speaker, 1.0

	current_mean = self.mean_embeddings[self.current_speaker]
	if current_mean is not None:
	similarity = 1.0 - cosine(embedding, current_mean)
	else:
	similarity = 1.0 - cosine(embedding, self.previous_embeddings[-1])

	self.last_similarity = similarity

	time_since_last_change = current_time - self.last_change_time
	is_speaker_change = False

	if time_since_last_change >= MIN_SEGMENT_DURATION:
	if similarity < self.change_threshold:
	best_speaker = self.current_speaker
	best_similarity = similarity

	for speaker_id in range(self.max_speakers):
	if speaker_id == self.current_speaker:
	continue

	speaker_mean = self.mean_embeddings[speaker_id]

	if speaker_mean is not None:
	speaker_similarity = 1.0 - cosine(embedding, speaker_mean)

	if speaker_similarity > best_similarity:
	best_similarity = speaker_similarity
	best_speaker = speaker_id

	if best_speaker != self.current_speaker:
	is_speaker_change = True
	self.current_speaker = best_speaker
	elif len(self.active_speakers) < self.max_speakers:
	for new_id in range(self.max_speakers):
	if new_id not in self.active_speakers:
	is_speaker_change = True
	self.current_speaker = new_id
	self.active_speakers.add(new_id)
	break

	if is_speaker_change:
	self.last_change_time = current_time

	self.previous_embeddings.append(embedding)
	if len(self.previous_embeddings) > EMBEDDING_HISTORY_SIZE:
	self.previous_embeddings.pop(0)

	self.speaker_embeddings[self.current_speaker].append(embedding)
	self.active_speakers.add(self.current_speaker)

	if len(self.speaker_embeddings[self.current_speaker]) > 30:
	self.speaker_embeddings[self.current_speaker] = self.speaker_embeddings[self.current_speaker][-30:]

	if self.speaker_embeddings[self.current_speaker]:
	self.mean_embeddings[self.current_speaker] = np.mean(
	self.speaker_embeddings[self.current_speaker], axis=0
	)

	return self.current_speaker, similarity

	def get_color_for_speaker(self, speaker_id):
	"""Return color for speaker ID"""
	if 0 <= speaker_id < len(SPEAKER_COLORS):
	return SPEAKER_COLORS[speaker_id]
	return "#FFFFFF"

	def get_status_info(self):
	"""Return status information about the speaker change detector"""
	speaker_counts = [len(self.speaker_embeddings[i]) for i in range(self.max_speakers)]

	return {
	"current_speaker": self.current_speaker,
	"speaker_counts": speaker_counts,
	"active_speakers": len(self.active_speakers),
	"max_speakers": self.max_speakers,
	"last_similarity": self.last_similarity,
	"threshold": self.change_threshold
	}


	class GradioSpeakerDiarization:
	def __init__(self):
	self.encoder = None
	self.audio_processor = None
	self.speaker_detector = None
	self.full_sentences = []
	self.sentence_speakers = []
	self.is_initialized = False
	self.change_threshold = DEFAULT_CHANGE_THRESHOLD
	self.max_speakers = DEFAULT_MAX_SPEAKERS

	def initialize_models(self):
	"""Initialize the speaker encoder model"""
	try:
	device_str = "cuda" if torch.cuda.is_available() else "cpu"
	print(f"Using device: {device_str}")

	# Load SpeechBrain encoder
	self.encoder = SpeechBrainEncoder(device=device_str)
	success = self.encoder.load_model()

	if success:
	self.audio_processor = AudioProcessor(self.encoder)
	self.speaker_detector = SpeakerChangeDetector(
	embedding_dim=self.encoder.embedding_dim,
	change_threshold=self.change_threshold,
	max_speakers=self.max_speakers
	)
	self.is_initialized = True
	return True
	else:
	return False

	except Exception as e:
	print(f"Model initialization error: {e}")
	return False

	def transcribe_audio(self, audio_input):
	"""Process audio input and perform transcription with speaker diarization"""
	if not self.is_initialized:
	return "❌ Please initialize the system first!", self.get_formatted_conversation(), self.get_status_info()

	if audio_input is None:
	return "No audio received", self.get_formatted_conversation(), self.get_status_info()

	try:
	# Handle different audio input formats
	if isinstance(audio_input, tuple):
	sample_rate, audio_data = audio_input
	else:
	# Assume it's a file path
	import librosa
	audio_data, sample_rate = librosa.load(audio_input, sr=16000)

	# Ensure audio is in the right format
	if len(audio_data.shape) > 1:
	audio_data = audio_data.mean(axis=1) # Convert to mono

	# Perform simple transcription (placeholder - you'd want to integrate with Whisper or similar)
	# For now, we'll just do speaker diarization
	transcription = f"Audio segment {len(self.full_sentences) + 1} (duration: {len(audio_data)/sample_rate:.1f}s)"

	# Extract speaker embedding
	speaker_embedding = self.audio_processor.extract_embedding(audio_data, sample_rate)

	# Store sentence and embedding
	self.full_sentences.append((transcription, speaker_embedding))

	# Detect speaker changes
	speaker_id, similarity = self.speaker_detector.add_embedding(speaker_embedding)
	self.sentence_speakers.append(speaker_id)

	status_msg = f"✅ Processed audio segment. Detected as Speaker {speaker_id + 1} (similarity: {similarity:.3f})"

	return status_msg, self.get_formatted_conversation(), self.get_status_info()

	except Exception as e:
	error_msg = f"❌ Error processing audio: {str(e)}"
	return error_msg, self.get_formatted_conversation(), self.get_status_info()

	def clear_conversation(self):
	"""Clear all conversation data"""
	self.full_sentences = []
	self.sentence_speakers = []

	if self.speaker_detector:
	self.speaker_detector = SpeakerChangeDetector(
	embedding_dim=self.encoder.embedding_dim,
	change_threshold=self.change_threshold,
	max_speakers=self.max_speakers
	)

	return "Conversation cleared!", self.get_formatted_conversation(), self.get_status_info()

	def update_settings(self, threshold, max_speakers):
	"""Update speaker detection settings"""
	self.change_threshold = threshold
	self.max_speakers = max_speakers

	if self.speaker_detector:
	self.speaker_detector.set_change_threshold(threshold)
	self.speaker_detector.set_max_speakers(max_speakers)

	status_msg = f"Settings updated: Threshold={threshold:.2f}, Max Speakers={max_speakers}"
	return status_msg, self.get_formatted_conversation(), self.get_status_info()

	def get_formatted_conversation(self):
	"""Get the formatted conversation with speaker colors"""
	try:
	if not self.full_sentences:
	return "No audio processed yet. Upload an audio file or record using the microphone."

	sentences_with_style = []

	for i, sentence in enumerate(self.full_sentences):
	sentence_text, _ = sentence
	if i >= len(self.sentence_speakers):
	color = "#FFFFFF"
	speaker_name = "Unknown"
	else:
	speaker_id = self.sentence_speakers[i]
	color = self.speaker_detector.get_color_for_speaker(speaker_id)
	speaker_name = f"Speaker {speaker_id + 1}"

	sentences_with_style.append(
	f'<span style="color:{color};"><b>{speaker_name}:</b> {sentence_text}</span>')

	return "<br><br>".join(sentences_with_style)

	except Exception as e:
	return f"Error formatting conversation: {e}"

	def get_status_info(self):
	"""Get current status information"""
	if not self.speaker_detector:
	return "Speaker detector not initialized"

	try:
	status = self.speaker_detector.get_status_info()

	status_lines = [
	f"Current Speaker: {status['current_speaker'] + 1}",
	f"Active Speakers: {status['active_speakers']} of {status['max_speakers']}",
	f"Last Similarity: {status['last_similarity']:.3f}",
	f"Change Threshold: {status['threshold']:.2f}",
	f"Total Segments: {len(self.full_sentences)}",
	"",
	"Speaker Segment Counts:"
	]

	for i in range(status['max_speakers']):
	color_name = SPEAKER_COLOR_NAMES[i] if i < len(SPEAKER_COLOR_NAMES) else f"Speaker {i+1}"
	status_lines.append(f"Speaker {i+1} ({color_name}): {status['speaker_counts'][i]}")

	return "\n".join(status_lines)

	except Exception as e:
	return f"Error getting status: {e}"


	# Global instance
	diarization_system = GradioSpeakerDiarization()


	def initialize_system():
	"""Initialize the diarization system"""
	success = diarization_system.initialize_models()
	if success:
	return "✅ System initialized successfully! Models loaded.", "", ""
	else:
	return "❌ Failed to initialize system. Please check the logs.", "", ""


	def process_audio(audio):
	"""Process uploaded or recorded audio"""
	return diarization_system.transcribe_audio(audio)


	def clear_conversation():
	"""Clear the conversation"""
	return diarization_system.clear_conversation()


	def update_settings(threshold, max_speakers):
	"""Update system settings"""
	return diarization_system.update_settings(threshold, max_speakers)


	# Create Gradio interface
	def create_interface():
	with gr.Blocks(title="Speaker Diarization", theme=gr.themes.Soft()) as app:
	gr.Markdown("# 🎤 Audio Speaker Diarization")
	gr.Markdown("Upload audio files or record directly to identify different speakers using voice characteristics.")

	with gr.Row():
	with gr.Column(scale=2):
	# Initialize button
	with gr.Row():
	init_btn = gr.Button("🔧 Initialize System", variant="primary", size="lg")

	# Audio input options
	gr.Markdown("### 📁 Audio Input")
	with gr.Tab("Upload Audio File"):
	audio_file = gr.Audio(
	label="Upload Audio File",
	type="filepath",
	sources=["upload"]
	)
	process_file_btn = gr.Button("Process Audio File", variant="secondary")

	with gr.Tab("Record Audio"):
	audio_mic = gr.Audio(
	label="Record Audio",
	type="numpy",
	sources=["microphone"]
	)
	process_mic_btn = gr.Button("Process Recording", variant="secondary")

	# Results display
	status_output = gr.Textbox(
	label="Status",
	value="Click 'Initialize System' to start...",
	lines=2,
	interactive=False
	)

	conversation_output = gr.HTML(
	value="<i>System not initialized...</i>",
	label="Speaker Analysis Results"
	)

	# Control buttons
	with gr.Row():
	clear_btn = gr.Button("🗑️ Clear Results", variant="stop")

	with gr.Column(scale=1):
	# Settings panel
	gr.Markdown("## ⚙️ Settings")

	threshold_slider = gr.Slider(
	minimum=0.1,
	maximum=0.95,
	step=0.05,
	value=DEFAULT_CHANGE_THRESHOLD,
	label="Speaker Change Sensitivity",
	info="Lower = more sensitive to speaker changes"
	)

	max_speakers_slider = gr.Slider(
	minimum=2,
	maximum=ABSOLUTE_MAX_SPEAKERS,
	step=1,
	value=DEFAULT_MAX_SPEAKERS,
	label="Maximum Number of Speakers"
	)

	update_settings_btn = gr.Button("Update Settings", variant="secondary")

	# System status
	system_status = gr.Textbox(
	label="System Status",
	value="System not initialized",
	lines=12,
	interactive=False
	)

	# Speaker color legend
	gr.Markdown("## 🎨 Speaker Colors")
	color_info = []
	for i, (color, name) in enumerate(zip(SPEAKER_COLORS[:DEFAULT_MAX_SPEAKERS], SPEAKER_COLOR_NAMES[:DEFAULT_MAX_SPEAKERS])):
	color_info.append(f'<span style="color:{color};">●</span> Speaker {i+1} ({name})')

	gr.HTML("<br>".join(color_info))

	# Event handlers
	init_btn.click(
	initialize_system,
	outputs=[status_output, conversation_output, system_status]
	)

	process_file_btn.click(
	process_audio,
	inputs=[audio_file],
	outputs=[status_output, conversation_output, system_status]
	)

	process_mic_btn.click(
	process_audio,
	inputs=[audio_mic],
	outputs=[status_output, conversation_output, system_status]
	)

	clear_btn.click(
	clear_conversation,
	outputs=[status_output, conversation_output, system_status]
	)

	update_settings_btn.click(
	update_settings,
	inputs=[threshold_slider, max_speakers_slider],
	outputs=[status_output, conversation_output, system_status]
	)

	return app


	if __name__ == "__main__":
	app = create_interface()
	app.launch(
	server_name="0.0.0.0",
	server_port=7860,
	share=True
	)