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
from RealtimeSTT import AudioToTextRecorder
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 _download_model(self):
"""Download pre-trained SpeechBrain ECAPA-TDNN model if not present"""
model_url = "https://huggingface.co/speechbrain/spkrec-ecapa-voxceleb/resolve/main/embedding_model.ckpt"
model_path = os.path.join(self.cache_dir, "embedding_model.ckpt")
if not os.path.exists(model_path):
print(f"Downloading ECAPA-TDNN model to {model_path}...")
urllib.request.urlretrieve(model_url, model_path)
return model_path
def load_model(self):
"""Load the ECAPA-TDNN model"""
try:
from speechbrain.pretrained import EncoderClassifier
model_path = self._download_model()
self.model = EncoderClassifier.from_hparams(
source="speechbrain/spkrec-ecapa-voxceleb",
savedir=self.cache_dir,
run_opts={"device": self.device}
)
self.model_loaded = True
return True
except Exception as e:
print(f"Error loading ECAPA-TDNN model: {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_int16):
try:
float_audio = audio_int16.astype(np.float32) / 32768.0
if np.abs(float_audio).max() > 1.0:
float_audio = float_audio / np.abs(float_audio).max()
embedding = self.encoder.embed_utterance(float_audio)
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 WebRTCAudioProcessor:
"""Processes WebRTC audio streams for speaker diarization"""
def __init__(self, diarization_system):
self.diarization_system = diarization_system
self.audio_buffer = []
self.buffer_lock = threading.Lock()
self.processing_thread = None
self.is_processing = False
def process_audio(self, audio_data, sample_rate):
"""Process incoming audio data from WebRTC"""
try:
# Convert audio data to numpy array if needed
if isinstance(audio_data, bytes):
audio_array = np.frombuffer(audio_data, dtype=np.int16)
elif isinstance(audio_data, tuple):
# Handle tuple format (sample_rate, audio_array)
sample_rate, audio_array = audio_data
if isinstance(audio_array, np.ndarray):
if audio_array.dtype != np.int16:
audio_array = (audio_array * 32767).astype(np.int16)
else:
audio_array = np.array(audio_array, dtype=np.int16)
else:
audio_array = np.array(audio_data, dtype=np.int16)
# Ensure mono audio
if len(audio_array.shape) > 1:
audio_array = audio_array[:, 0]
# Add to buffer
with self.buffer_lock:
self.audio_buffer.extend(audio_array)
# Process buffer when it's large enough (1 second of audio)
if len(self.audio_buffer) >= sample_rate:
buffer_to_process = np.array(self.audio_buffer[:sample_rate])
self.audio_buffer = self.audio_buffer[sample_rate//2:] # Keep 50% overlap
# Feed to recorder in separate thread
if self.diarization_system.recorder:
audio_bytes = buffer_to_process.tobytes()
self.diarization_system.recorder.feed_audio(audio_bytes)
except Exception as e:
print(f"Error processing WebRTC audio: {e}")
class RealtimeSpeakerDiarization:
def __init__(self):
self.encoder = None
self.audio_processor = None
self.speaker_detector = None
self.recorder = None
self.webrtc_processor = None
self.sentence_queue = queue.Queue()
self.full_sentences = []
self.sentence_speakers = []
self.pending_sentences = []
self.displayed_text = ""
self.last_realtime_text = ""
self.is_running = 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}")
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.webrtc_processor = WebRTCAudioProcessor(self)
print("ECAPA-TDNN model loaded successfully!")
return True
else:
print("Failed to load ECAPA-TDNN model")
return False
except Exception as e:
print(f"Model initialization error: {e}")
return False
def live_text_detected(self, text):
"""Callback for real-time transcription updates"""
text = text.strip()
if text:
sentence_delimiters = '.?!ã'
prob_sentence_end = (
len(self.last_realtime_text) > 0
and text[-1] in sentence_delimiters
and self.last_realtime_text[-1] in sentence_delimiters
)
self.last_realtime_text = text
if prob_sentence_end and FAST_SENTENCE_END:
self.recorder.stop()
elif prob_sentence_end:
self.recorder.post_speech_silence_duration = SILENCE_THRESHS[0]
else:
self.recorder.post_speech_silence_duration = SILENCE_THRESHS[1]
def process_final_text(self, text):
"""Process final transcribed text with speaker embedding"""
text = text.strip()
if text:
try:
bytes_data = self.recorder.last_transcription_bytes
self.sentence_queue.put((text, bytes_data))
self.pending_sentences.append(text)
except Exception as e:
print(f"Error processing final text: {e}")
def process_sentence_queue(self):
"""Process sentences in the queue for speaker detection"""
while self.is_running:
try:
text, bytes_data = self.sentence_queue.get(timeout=1)
# Convert audio data to int16
audio_int16 = np.int16(bytes_data * 32767)
# Extract speaker embedding
speaker_embedding = self.audio_processor.extract_embedding(audio_int16)
# Store sentence and embedding
self.full_sentences.append((text, speaker_embedding))
# Fill in missing speaker assignments
while len(self.sentence_speakers) < len(self.full_sentences) - 1:
self.sentence_speakers.append(0)
# Detect speaker changes
speaker_id, similarity = self.speaker_detector.add_embedding(speaker_embedding)
self.sentence_speakers.append(speaker_id)
# Remove from pending
if text in self.pending_sentences:
self.pending_sentences.remove(text)
except queue.Empty:
continue
except Exception as e:
print(f"Error processing sentence: {e}")
def start_recording(self):
"""Start the recording and transcription process"""
if self.encoder is None:
return "Please initialize models first!"
try:
# Setup recorder configuration for WebRTC input
recorder_config = {
'spinner': False,
'use_microphone': False, # We'll feed audio manually
'model': FINAL_TRANSCRIPTION_MODEL,
'language': TRANSCRIPTION_LANGUAGE,
'silero_sensitivity': SILERO_SENSITIVITY,
'webrtc_sensitivity': WEBRTC_SENSITIVITY,
'post_speech_silence_duration': SILENCE_THRESHS[1],
'min_length_of_recording': MIN_LENGTH_OF_RECORDING,
'pre_recording_buffer_duration': PRE_RECORDING_BUFFER_DURATION,
'min_gap_between_recordings': 0,
'enable_realtime_transcription': True,
'realtime_processing_pause': 0,
'realtime_model_type': REALTIME_TRANSCRIPTION_MODEL,
'on_realtime_transcription_update': self.live_text_detected,
'beam_size': FINAL_BEAM_SIZE,
'beam_size_realtime': REALTIME_BEAM_SIZE,
'buffer_size': BUFFER_SIZE,
'sample_rate': SAMPLE_RATE,
}
self.recorder = AudioToTextRecorder(**recorder_config)
# Start sentence processing thread
self.is_running = True
self.sentence_thread = threading.Thread(target=self.process_sentence_queue, daemon=True)
self.sentence_thread.start()
# Start transcription thread
self.transcription_thread = threading.Thread(target=self.run_transcription, daemon=True)
self.transcription_thread.start()
return "Recording started successfully! WebRTC audio input ready."
except Exception as e:
return f"Error starting recording: {e}"
def run_transcription(self):
"""Run the transcription loop"""
try:
while self.is_running:
self.recorder.text(self.process_final_text)
except Exception as e:
print(f"Transcription error: {e}")
def stop_recording(self):
"""Stop the recording process"""
self.is_running = False
if self.recorder:
self.recorder.stop()
return "Recording stopped!"
def clear_conversation(self):
"""Clear all conversation data"""
self.full_sentences = []
self.sentence_speakers = []
self.pending_sentences = []
self.displayed_text = ""
self.last_realtime_text = ""
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!"
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)
return f"Settings updated: Threshold={threshold:.2f}, Max Speakers={max_speakers}"
def get_formatted_conversation(self):
"""Get the formatted conversation with speaker colors"""
try:
sentences_with_style = []
# Process completed sentences
for i, sentence in enumerate(self.full_sentences):
sentence_text, _ = sentence
if i >= len(self.sentence_speakers):
color = "#FFFFFF"
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'{speaker_name}: {sentence_text}')
# Add pending sentences
for pending_sentence in self.pending_sentences:
sentences_with_style.append(
f'Processing: {pending_sentence}')
if sentences_with_style:
return "
".join(sentences_with_style)
else:
return "Waiting for speech input..."
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 Sentences:** {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 = RealtimeSpeakerDiarization()
def initialize_system():
"""Initialize the diarization system"""
success = diarization_system.initialize_models()
if success:
return "â
System initialized successfully! Models loaded."
else:
return "â Failed to initialize system. Please check the logs."
def start_recording():
"""Start recording and transcription"""
return diarization_system.start_recording()
def stop_recording():
"""Stop recording and transcription"""
return diarization_system.stop_recording()
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)
def get_conversation():
"""Get the current conversation"""
return diarization_system.get_formatted_conversation()
def get_status():
"""Get system status"""
return diarization_system.get_status_info()
def process_audio_stream(audio):
"""Process audio stream from WebRTC"""
if diarization_system.webrtc_processor and diarization_system.is_running:
diarization_system.webrtc_processor.process_audio(audio, SAMPLE_RATE)
return None
# Create Gradio interface
def create_interface():
with gr.Blocks(title="Real-time Speaker Diarization", theme=gr.themes.Dark()) as app:
gr.Markdown("# đ¤ Real-time Speech Recognition with Speaker Diarization")
gr.Markdown("This app performs real-time speech recognition with automatic speaker identification and color-coding using WebRTC.")
with gr.Row():
with gr.Column(scale=2):
# WebRTC Audio Input
audio_input = gr.Audio(
sources=["microphone"],
streaming=True,
label="đī¸ Microphone Input",
type="numpy"
)
# Main conversation display
conversation_output = gr.HTML(
value="Click 'Initialize System' to start...",
label="Live Conversation"
)
# Control buttons
with gr.Row():
init_btn = gr.Button("đ§ Initialize System", variant="secondary")
start_btn = gr.Button("đī¸ Start Recording", variant="primary", interactive=False)
stop_btn = gr.Button("âšī¸ Stop Recording", variant="stop", interactive=False)
clear_btn = gr.Button("đī¸ Clear Conversation", interactive=False)
# Status display
status_output = gr.Textbox(
label="System Status",
value="System not initialized",
lines=8,
interactive=False
)
with gr.Column(scale=1):
# Settings panel
gr.Markdown("## âī¸ Settings")
threshold_slider = gr.Slider(
minimum=0.1,
maximum=0.95,
step=0.05,
value=DEFAULT_CHANGE_THRESHOLD,
label="Speaker Change Sensitivity",
info="Lower values = 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")
# Instructions
gr.Markdown("## đ Instructions")
gr.Markdown("""
1. Click **Initialize System** to load models
2. Click **Start Recording** to begin processing
3. Allow microphone access when prompted
4. Speak into your microphone
5. Watch real-time transcription with speaker labels
6. Adjust settings as needed
""")
# Speaker color legend
gr.Markdown("## đ¨ Speaker Colors")
color_info = []
for i, (color, name) in enumerate(zip(SPEAKER_COLORS, SPEAKER_COLOR_NAMES)):
color_info.append(f'â Speaker {i+1} ({name})')
gr.HTML("
".join(color_info[:DEFAULT_MAX_SPEAKERS]))
# Auto-refresh conversation and status
def refresh_display():
return get_conversation(), get_status()
# Event handlers
def on_initialize():
result = initialize_system()
if "successfully" in result:
return (
result,
gr.update(interactive=True), # start_btn
gr.update(interactive=True), # clear_btn
get_conversation(),
get_status()
)
else:
return (
result,
gr.update(interactive=False), # start_btn
gr.update(interactive=False), # clear_btn
get_conversation(),
get_status()
)
def on_start():
result = start_recording()
return (
result,
gr.update(interactive=False), # start_btn
gr.update(interactive=True), # stop_btn
)
def on_stop():
result = stop_recording()
return (
result,
gr.update(interactive=True), # start_btn
gr.update(interactive=False), # stop_btn
)
# Connect event handlers
init_btn.click(
on_initialize,
outputs=[status_output, start_btn, clear_btn, conversation_output, status_output]
)
start_btn.click(
on_start,
outputs=[status_output, start_btn, stop_btn]
)
stop_btn.click(
on_stop,
outputs=[status_output, start_btn, stop_btn]
)
clear_btn.click(
clear_conversation,
outputs=[status_output]
)
update_settings_btn.click(
update_settings,
inputs=[threshold_slider, max_speakers_slider],
outputs=[status_output]
)
# Connect WebRTC audio stream to processing
audio_input.stream(
process_audio_stream,
inputs=[audio_input],
outputs=[]
)
# Auto-refresh every 2 seconds when recording
refresh_timer = gr.Timer(2.0)
refresh_timer.tick(
refresh_display,
outputs=[conversation_output, status_output]
)
return app
if __name__ == "__main__":
app = create_interface()
app.launch(
server_name="0.0.0.0",
server_port=7860,
share=True
)