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final / main.py

k22056537

evaluation: channel ablation script + feature importance LOPO

e69e3a3 17 days ago

39.1 kB

	from fastapi import FastAPI, WebSocket, WebSocketDisconnect, HTTPException, Request
	from fastapi.staticfiles import StaticFiles
	from fastapi.responses import FileResponse
	from fastapi.middleware.cors import CORSMiddleware
	from pydantic import BaseModel
	from typing import Optional, List, Any
	import base64
	import cv2
	import numpy as np
	import aiosqlite
	import json
	from datetime import datetime, timedelta
	import math
	import os
	from pathlib import Path
	from typing import Callable
	from contextlib import asynccontextmanager
	import asyncio
	import concurrent.futures
	import threading

	from aiortc import RTCPeerConnection, RTCSessionDescription, VideoStreamTrack
	from av import VideoFrame

	from mediapipe.tasks.python.vision import FaceLandmarksConnections
	from ui.pipeline import FaceMeshPipeline, MLPPipeline, HybridFocusPipeline, XGBoostPipeline
	from models.face_mesh import FaceMeshDetector

	# ================ FACE MESH DRAWING (server-side, for WebRTC) ================

	_FONT = cv2.FONT_HERSHEY_SIMPLEX
	_CYAN = (255, 255, 0)
	_GREEN = (0, 255, 0)
	_MAGENTA = (255, 0, 255)
	_ORANGE = (0, 165, 255)
	_RED = (0, 0, 255)
	_WHITE = (255, 255, 255)
	_LIGHT_GREEN = (144, 238, 144)

	_TESSELATION_CONNS = [(c.start, c.end) for c in FaceLandmarksConnections.FACE_LANDMARKS_TESSELATION]
	_CONTOUR_CONNS = [(c.start, c.end) for c in FaceLandmarksConnections.FACE_LANDMARKS_CONTOURS]
	_LEFT_EYEBROW = [70, 63, 105, 66, 107, 55, 65, 52, 53, 46]
	_RIGHT_EYEBROW = [300, 293, 334, 296, 336, 285, 295, 282, 283, 276]
	_NOSE_BRIDGE = [6, 197, 195, 5, 4, 1, 19, 94, 2]
	_LIPS_OUTER = [61, 146, 91, 181, 84, 17, 314, 405, 321, 375, 291, 409, 270, 269, 267, 0, 37, 39, 40, 185, 61]
	_LIPS_INNER = [78, 95, 88, 178, 87, 14, 317, 402, 318, 324, 308, 415, 310, 311, 312, 13, 82, 81, 80, 191, 78]
	_LEFT_EAR_POINTS = [33, 160, 158, 133, 153, 145]
	_RIGHT_EAR_POINTS = [362, 385, 387, 263, 373, 380]


	def _lm_px(lm, idx, w, h):
	return (int(lm[idx, 0] * w), int(lm[idx, 1] * h))


	def _draw_polyline(frame, lm, indices, w, h, color, thickness):
	for i in range(len(indices) - 1):
	cv2.line(frame, _lm_px(lm, indices[i], w, h), _lm_px(lm, indices[i + 1], w, h), color, thickness, cv2.LINE_AA)


	def _draw_face_mesh(frame, lm, w, h):
	"""Draw tessellation, contours, eyebrows, nose, lips, eyes, irises, gaze lines."""
	# Tessellation (gray triangular grid, semi-transparent)
	overlay = frame.copy()
	for s, e in _TESSELATION_CONNS:
	cv2.line(overlay, _lm_px(lm, s, w, h), _lm_px(lm, e, w, h), (200, 200, 200), 1, cv2.LINE_AA)
	cv2.addWeighted(overlay, 0.3, frame, 0.7, 0, frame)
	# Contours
	for s, e in _CONTOUR_CONNS:
	cv2.line(frame, _lm_px(lm, s, w, h), _lm_px(lm, e, w, h), _CYAN, 1, cv2.LINE_AA)
	# Eyebrows
	_draw_polyline(frame, lm, _LEFT_EYEBROW, w, h, _LIGHT_GREEN, 2)
	_draw_polyline(frame, lm, _RIGHT_EYEBROW, w, h, _LIGHT_GREEN, 2)
	# Nose
	_draw_polyline(frame, lm, _NOSE_BRIDGE, w, h, _ORANGE, 1)
	# Lips
	_draw_polyline(frame, lm, _LIPS_OUTER, w, h, _MAGENTA, 1)
	_draw_polyline(frame, lm, _LIPS_INNER, w, h, (200, 0, 200), 1)
	# Eyes
	left_pts = np.array([_lm_px(lm, i, w, h) for i in FaceMeshDetector.LEFT_EYE_INDICES], dtype=np.int32)
	cv2.polylines(frame, [left_pts], True, _GREEN, 2, cv2.LINE_AA)
	right_pts = np.array([_lm_px(lm, i, w, h) for i in FaceMeshDetector.RIGHT_EYE_INDICES], dtype=np.int32)
	cv2.polylines(frame, [right_pts], True, _GREEN, 2, cv2.LINE_AA)
	# EAR key points
	for indices in [_LEFT_EAR_POINTS, _RIGHT_EAR_POINTS]:
	for idx in indices:
	cv2.circle(frame, _lm_px(lm, idx, w, h), 3, (0, 255, 255), -1, cv2.LINE_AA)
	# Irises + gaze lines
	for iris_idx, eye_inner, eye_outer in [
	(FaceMeshDetector.LEFT_IRIS_INDICES, 133, 33),
	(FaceMeshDetector.RIGHT_IRIS_INDICES, 362, 263),
	]:
	iris_pts = np.array([_lm_px(lm, i, w, h) for i in iris_idx], dtype=np.int32)
	center = iris_pts[0]
	if len(iris_pts) >= 5:
	radii = [np.linalg.norm(iris_pts[j] - center) for j in range(1, 5)]
	radius = max(int(np.mean(radii)), 2)
	cv2.circle(frame, tuple(center), radius, _MAGENTA, 2, cv2.LINE_AA)
	cv2.circle(frame, tuple(center), 2, _WHITE, -1, cv2.LINE_AA)
	eye_cx = int((lm[eye_inner, 0] + lm[eye_outer, 0]) / 2.0 * w)
	eye_cy = int((lm[eye_inner, 1] + lm[eye_outer, 1]) / 2.0 * h)
	dx, dy = center[0] - eye_cx, center[1] - eye_cy
	cv2.line(frame, tuple(center), (int(center[0] + dx * 3), int(center[1] + dy * 3)), _RED, 1, cv2.LINE_AA)


	def _draw_hud(frame, result, model_name):
	"""Draw status bar and detail overlay matching live_demo.py."""
	h, w = frame.shape[:2]
	is_focused = result["is_focused"]
	status = "FOCUSED" if is_focused else "NOT FOCUSED"
	color = _GREEN if is_focused else _RED

	# Top bar
	cv2.rectangle(frame, (0, 0), (w, 55), (0, 0, 0), -1)
	cv2.putText(frame, status, (10, 28), _FONT, 0.8, color, 2, cv2.LINE_AA)
	cv2.putText(frame, model_name.upper(), (w - 150, 28), _FONT, 0.45, _WHITE, 1, cv2.LINE_AA)

	# Detail line
	conf = result.get("mlp_prob", result.get("raw_score", 0.0))
	mar_s = f" MAR:{result['mar']:.2f}" if result.get("mar") is not None else ""
	sf = result.get("s_face", 0)
	se = result.get("s_eye", 0)
	detail = f"conf:{conf:.2f} S_face:{sf:.2f} S_eye:{se:.2f}{mar_s}"
	cv2.putText(frame, detail, (10, 48), _FONT, 0.4, _WHITE, 1, cv2.LINE_AA)

	# Head pose (top right)
	if result.get("yaw") is not None:
	cv2.putText(frame, f"yaw:{result['yaw']:+.0f} pitch:{result['pitch']:+.0f} roll:{result['roll']:+.0f}",
	(w - 280, 48), _FONT, 0.4, (180, 180, 180), 1, cv2.LINE_AA)

	# Yawn indicator
	if result.get("is_yawning"):
	cv2.putText(frame, "YAWN", (10, 75), _FONT, 0.7, _ORANGE, 2, cv2.LINE_AA)

	# Landmark indices used for face mesh drawing on client (union of all groups).
	# Sending only these instead of all 478 saves ~60% of the landmarks payload.
	_MESH_INDICES = sorted(set(
	[10,338,297,332,284,251,389,356,454,323,361,288,397,365,379,378,400,377,152,148,176,149,150,136,172,58,132,93,234,127,162,21,54,103,67,109] # face oval
	+ [33,7,163,144,145,153,154,155,133,173,157,158,159,160,161,246] # left eye
	+ [362,382,381,380,374,373,390,249,263,466,388,387,386,385,384,398] # right eye
	+ [468,469,470,471,472, 473,474,475,476,477] # irises
	+ [70,63,105,66,107,55,65,52,53,46] # left eyebrow
	+ [300,293,334,296,336,285,295,282,283,276] # right eyebrow
	+ [6,197,195,5,4,1,19,94,2] # nose bridge
	+ [61,146,91,181,84,17,314,405,321,375,291,409,270,269,267,0,37,39,40,185] # lips outer
	+ [78,95,88,178,87,14,317,402,318,324,308,415,310,311,312,13,82,81,80,191] # lips inner
	+ [33,160,158,133,153,145] # left EAR key points
	+ [362,385,387,263,373,380] # right EAR key points
	))
	# Build a lookup: original_index -> position in sparse array, so client can reconstruct.
	_MESH_INDEX_SET = set(_MESH_INDICES)

	@asynccontextmanager
	async def lifespan(app):
	global _cached_model_name
	print(" Starting Focus Guard API...")
	await init_database()
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute("SELECT model_name FROM user_settings WHERE id = 1")
	row = await cursor.fetchone()
	if row:
	_cached_model_name = row[0]
	print("[OK] Database initialized")
	try:
	pipelines["geometric"] = FaceMeshPipeline()
	print("[OK] FaceMeshPipeline (geometric) loaded")
	except Exception as e:
	print(f"[WARN] FaceMeshPipeline unavailable: {e}")
	try:
	pipelines["mlp"] = MLPPipeline()
	print("[OK] MLPPipeline loaded")
	except Exception as e:
	print(f"[ERR] Failed to load MLPPipeline: {e}")
	try:
	pipelines["hybrid"] = HybridFocusPipeline()
	print("[OK] HybridFocusPipeline loaded")
	except Exception as e:
	print(f"[WARN] HybridFocusPipeline unavailable: {e}")
	try:
	pipelines["xgboost"] = XGBoostPipeline()
	print("[OK] XGBoostPipeline loaded")
	except Exception as e:
	print(f"[ERR] Failed to load XGBoostPipeline: {e}")
	yield
	_inference_executor.shutdown(wait=False)
	print(" Shutting down Focus Guard API...")

	app = FastAPI(title="Focus Guard API", lifespan=lifespan)

	# Add CORS middleware
	app.add_middleware(
	CORSMiddleware,
	allow_origins=["*"],
	allow_credentials=True,
	allow_methods=["*"],
	allow_headers=["*"],
	)

	# Global variables
	db_path = "focus_guard.db"
	pcs = set()
	_cached_model_name = "mlp"
	pipelines = {
	"geometric": None,
	"mlp": None,
	"hybrid": None,
	"xgboost": None,
	}
	_inference_executor = concurrent.futures.ThreadPoolExecutor(
	max_workers=4,
	thread_name_prefix="inference",
	)
	_pipeline_locks = {name: threading.Lock() for name in ("geometric", "mlp", "hybrid", "xgboost")}

	async def _wait_for_ice_gathering(pc: RTCPeerConnection):
	if pc.iceGatheringState == "complete":
	return
	done = asyncio.Event()

	@pc.on("icegatheringstatechange")
	def _on_state_change():
	if pc.iceGatheringState == "complete":
	done.set()

	await done.wait()

	# ================ DATABASE MODELS ================

	async def init_database():
	"""Initialize SQLite database with required tables"""
	async with aiosqlite.connect(db_path) as db:
	# FocusSessions table
	await db.execute("""
	CREATE TABLE IF NOT EXISTS focus_sessions (
	id INTEGER PRIMARY KEY AUTOINCREMENT,
	start_time TIMESTAMP NOT NULL,
	end_time TIMESTAMP,
	duration_seconds INTEGER DEFAULT 0,
	focus_score REAL DEFAULT 0.0,
	total_frames INTEGER DEFAULT 0,
	focused_frames INTEGER DEFAULT 0,
	created_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP
	)
	""")

	# FocusEvents table
	await db.execute("""
	CREATE TABLE IF NOT EXISTS focus_events (
	id INTEGER PRIMARY KEY AUTOINCREMENT,
	session_id INTEGER NOT NULL,
	timestamp TIMESTAMP NOT NULL,
	is_focused BOOLEAN NOT NULL,
	confidence REAL NOT NULL,
	detection_data TEXT,
	FOREIGN KEY (session_id) REFERENCES focus_sessions (id)
	)
	""")

	# UserSettings table
	await db.execute("""
	CREATE TABLE IF NOT EXISTS user_settings (
	id INTEGER PRIMARY KEY CHECK (id = 1),
	sensitivity INTEGER DEFAULT 6,
	notification_enabled BOOLEAN DEFAULT 1,
	notification_threshold INTEGER DEFAULT 30,
	frame_rate INTEGER DEFAULT 30,
	model_name TEXT DEFAULT 'mlp'
	)
	""")

	# Insert default settings if not exists
	await db.execute("""
	INSERT OR IGNORE INTO user_settings (id, sensitivity, notification_enabled, notification_threshold, frame_rate, model_name)
	VALUES (1, 6, 1, 30, 30, 'mlp')
	""")

	await db.commit()

	# ================ PYDANTIC MODELS ================

	class SessionCreate(BaseModel):
	pass

	class SessionEnd(BaseModel):
	session_id: int

	class SettingsUpdate(BaseModel):
	sensitivity: Optional[int] = None
	notification_enabled: Optional[bool] = None
	notification_threshold: Optional[int] = None
	frame_rate: Optional[int] = None
	model_name: Optional[str] = None

	class VideoTransformTrack(VideoStreamTrack):
	def __init__(self, track, session_id: int, get_channel: Callable[[], Any]):
	super().__init__()
	self.track = track
	self.session_id = session_id
	self.get_channel = get_channel
	self.last_inference_time = 0
	self.min_inference_interval = 1 / 60
	self.last_frame = None

	async def recv(self):
	frame = await self.track.recv()
	img = frame.to_ndarray(format="bgr24")
	if img is None:
	return frame

	# Normalize size for inference/drawing
	img = cv2.resize(img, (640, 480))

	now = datetime.now().timestamp()
	do_infer = (now - self.last_inference_time) >= self.min_inference_interval

	if do_infer:
	self.last_inference_time = now

	model_name = _cached_model_name
	if model_name not in pipelines or pipelines.get(model_name) is None:
	model_name = 'mlp'
	active_pipeline = pipelines.get(model_name)

	if active_pipeline is not None:
	loop = asyncio.get_event_loop()
	out = await loop.run_in_executor(
	_inference_executor,
	_process_frame_safe,
	active_pipeline,
	img,
	model_name,
	)
	is_focused = out["is_focused"]
	confidence = out.get("mlp_prob", out.get("raw_score", 0.0))
	metadata = {"s_face": out.get("s_face", 0.0), "s_eye": out.get("s_eye", 0.0), "mar": out.get("mar", 0.0), "model": model_name}

	# Draw face mesh + HUD on the video frame
	h_f, w_f = img.shape[:2]
	lm = out.get("landmarks")
	if lm is not None:
	_draw_face_mesh(img, lm, w_f, h_f)
	_draw_hud(img, out, model_name)
	else:
	is_focused = False
	confidence = 0.0
	metadata = {"model": model_name}
	cv2.rectangle(img, (0, 0), (img.shape[1], 55), (0, 0, 0), -1)
	cv2.putText(img, "NO MODEL", (10, 28), _FONT, 0.8, _RED, 2, cv2.LINE_AA)

	if self.session_id:
	await store_focus_event(self.session_id, is_focused, confidence, metadata)

	channel = self.get_channel()
	if channel and channel.readyState == "open":
	try:
	channel.send(json.dumps({
	"type": "detection",
	"focused": is_focused,
	"confidence": round(confidence, 3),
	"detections": [],
	"model": model_name,
	}))
	except Exception:
	pass

	self.last_frame = img
	elif self.last_frame is not None:
	img = self.last_frame

	new_frame = VideoFrame.from_ndarray(img, format="bgr24")
	new_frame.pts = frame.pts
	new_frame.time_base = frame.time_base
	return new_frame

	# ================ DATABASE OPERATIONS ================

	async def create_session():
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute(
	"INSERT INTO focus_sessions (start_time) VALUES (?)",
	(datetime.now().isoformat(),)
	)
	await db.commit()
	return cursor.lastrowid

	async def end_session(session_id: int):
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute(
	"SELECT start_time, total_frames, focused_frames FROM focus_sessions WHERE id = ?",
	(session_id,)
	)
	row = await cursor.fetchone()

	if not row:
	return None

	start_time_str, total_frames, focused_frames = row
	start_time = datetime.fromisoformat(start_time_str)
	end_time = datetime.now()
	duration = (end_time - start_time).total_seconds()
	focus_score = focused_frames / total_frames if total_frames > 0 else 0.0

	await db.execute("""
	UPDATE focus_sessions
	SET end_time = ?, duration_seconds = ?, focus_score = ?
	WHERE id = ?
	""", (end_time.isoformat(), int(duration), focus_score, session_id))

	await db.commit()

	return {
	'session_id': session_id,
	'start_time': start_time_str,
	'end_time': end_time.isoformat(),
	'duration_seconds': int(duration),
	'focus_score': round(focus_score, 3),
	'total_frames': total_frames,
	'focused_frames': focused_frames
	}

	async def store_focus_event(session_id: int, is_focused: bool, confidence: float, metadata: dict):
	async with aiosqlite.connect(db_path) as db:
	await db.execute("""
	INSERT INTO focus_events (session_id, timestamp, is_focused, confidence, detection_data)
	VALUES (?, ?, ?, ?, ?)
	""", (session_id, datetime.now().isoformat(), is_focused, confidence, json.dumps(metadata)))

	await db.execute("""
	UPDATE focus_sessions
	SET total_frames = total_frames + 1,
	focused_frames = focused_frames + ?
	WHERE id = ?
	""", (1 if is_focused else 0, session_id))
	await db.commit()


	class _EventBuffer:
	"""Buffer focus events in memory and flush to DB in batches to avoid per-frame DB writes."""

	def __init__(self, flush_interval: float = 2.0):
	self._buf: list = []
	self._lock = asyncio.Lock()
	self._flush_interval = flush_interval
	self._task: asyncio.Task \| None = None
	self._total_frames = 0
	self._focused_frames = 0

	def start(self):
	if self._task is None:
	self._task = asyncio.create_task(self._flush_loop())

	async def stop(self):
	if self._task:
	self._task.cancel()
	try:
	await self._task
	except asyncio.CancelledError:
	pass
	self._task = None
	await self._flush()

	def add(self, session_id: int, is_focused: bool, confidence: float, metadata: dict):
	self._buf.append((session_id, datetime.now().isoformat(), is_focused, confidence, json.dumps(metadata)))
	self._total_frames += 1
	if is_focused:
	self._focused_frames += 1

	async def _flush_loop(self):
	while True:
	await asyncio.sleep(self._flush_interval)
	await self._flush()

	async def _flush(self):
	async with self._lock:
	if not self._buf:
	return
	batch = self._buf[:]
	total = self._total_frames
	focused = self._focused_frames
	self._buf.clear()
	self._total_frames = 0
	self._focused_frames = 0

	if not batch:
	return

	session_id = batch[0][0]
	try:
	async with aiosqlite.connect(db_path) as db:
	await db.executemany("""
	INSERT INTO focus_events (session_id, timestamp, is_focused, confidence, detection_data)
	VALUES (?, ?, ?, ?, ?)
	""", batch)
	await db.execute("""
	UPDATE focus_sessions
	SET total_frames = total_frames + ?,
	focused_frames = focused_frames + ?
	WHERE id = ?
	""", (total, focused, session_id))
	await db.commit()
	except Exception as e:
	print(f"[DB] Flush error: {e}")

	def _process_frame_safe(pipeline, frame, model_name: str):
	with _pipeline_locks[model_name]:
	return pipeline.process_frame(frame)

	# ================ WEBRTC SIGNALING ================

	@app.post("/api/webrtc/offer")
	async def webrtc_offer(offer: dict):
	try:
	print(f"Received WebRTC offer")

	pc = RTCPeerConnection()
	pcs.add(pc)

	session_id = await create_session()
	print(f"Created session: {session_id}")

	channel_ref = {"channel": None}

	@pc.on("datachannel")
	def on_datachannel(channel):
	print(f"Data channel opened")
	channel_ref["channel"] = channel

	@pc.on("track")
	def on_track(track):
	print(f"Received track: {track.kind}")
	if track.kind == "video":
	local_track = VideoTransformTrack(track, session_id, lambda: channel_ref["channel"])
	pc.addTrack(local_track)
	print(f"Video track added")

	@track.on("ended")
	async def on_ended():
	print(f"Track ended")

	@pc.on("connectionstatechange")
	async def on_connectionstatechange():
	print(f"Connection state changed: {pc.connectionState}")
	if pc.connectionState in ("failed", "closed", "disconnected"):
	try:
	await end_session(session_id)
	except Exception as e:
	print(f"⚠Error ending session: {e}")
	pcs.discard(pc)
	await pc.close()

	await pc.setRemoteDescription(RTCSessionDescription(sdp=offer["sdp"], type=offer["type"]))
	print(f"Remote description set")

	answer = await pc.createAnswer()
	await pc.setLocalDescription(answer)
	print(f"Answer created")

	await _wait_for_ice_gathering(pc)
	print(f"ICE gathering complete")

	return {"sdp": pc.localDescription.sdp, "type": pc.localDescription.type, "session_id": session_id}

	except Exception as e:
	print(f"WebRTC offer error: {e}")
	import traceback
	traceback.print_exc()
	raise HTTPException(status_code=500, detail=f"WebRTC error: {str(e)}")

	# ================ WEBSOCKET ================

	@app.websocket("/ws/video")
	async def websocket_endpoint(websocket: WebSocket):
	await websocket.accept()
	session_id = None
	frame_count = 0
	running = True
	event_buffer = _EventBuffer(flush_interval=2.0)

	# Latest frame slot — only the most recent frame is kept, older ones are dropped.
	# Using a dict so nested functions can mutate without nonlocal issues.
	_slot = {"frame": None}
	_frame_ready = asyncio.Event()

	async def _receive_loop():
	"""Receive messages as fast as possible. Binary = frame, text = control."""
	nonlocal session_id, running
	try:
	while running:
	msg = await websocket.receive()
	msg_type = msg.get("type", "")

	if msg_type == "websocket.disconnect":
	running = False
	_frame_ready.set()
	return

	# Binary message → JPEG frame (fast path, no base64)
	raw_bytes = msg.get("bytes")
	if raw_bytes is not None and len(raw_bytes) > 0:
	_slot["frame"] = raw_bytes
	_frame_ready.set()
	continue

	# Text message → JSON control command (or legacy base64 frame)
	text = msg.get("text")
	if not text:
	continue
	data = json.loads(text)

	if data["type"] == "frame":
	# Legacy base64 path (fallback)
	_slot["frame"] = base64.b64decode(data["image"])
	_frame_ready.set()

	elif data["type"] == "start_session":
	session_id = await create_session()
	event_buffer.start()
	for p in pipelines.values():
	if p is not None and hasattr(p, "reset_session"):
	p.reset_session()
	await websocket.send_json({"type": "session_started", "session_id": session_id})

	elif data["type"] == "end_session":
	if session_id:
	await event_buffer.stop()
	summary = await end_session(session_id)
	if summary:
	await websocket.send_json({"type": "session_ended", "summary": summary})
	session_id = None
	except WebSocketDisconnect:
	running = False
	_frame_ready.set()
	except Exception as e:
	print(f"[WS] receive error: {e}")
	running = False
	_frame_ready.set()

	async def _process_loop():
	"""Process only the latest frame, dropping stale ones."""
	nonlocal frame_count, running
	loop = asyncio.get_event_loop()
	while running:
	await _frame_ready.wait()
	_frame_ready.clear()
	if not running:
	return

	# Grab latest frame and clear slot
	raw = _slot["frame"]
	_slot["frame"] = None
	if raw is None:
	continue

	try:
	nparr = np.frombuffer(raw, np.uint8)
	frame = cv2.imdecode(nparr, cv2.IMREAD_COLOR)
	if frame is None:
	continue
	frame = cv2.resize(frame, (640, 480))

	model_name = _cached_model_name
	if model_name not in pipelines or pipelines.get(model_name) is None:
	model_name = "mlp"
	active_pipeline = pipelines.get(model_name)

	landmarks_list = None
	if active_pipeline is not None:
	out = await loop.run_in_executor(
	_inference_executor,
	_process_frame_safe,
	active_pipeline,
	frame,
	model_name,
	)
	is_focused = out["is_focused"]
	confidence = out.get("mlp_prob", out.get("raw_score", 0.0))

	lm = out.get("landmarks")
	if lm is not None:
	# Send all 478 landmarks as flat array for tessellation drawing
	landmarks_list = [
	[round(float(lm[i, 0]), 3), round(float(lm[i, 1]), 3)]
	for i in range(lm.shape[0])
	]

	if session_id:
	event_buffer.add(session_id, is_focused, confidence, {
	"s_face": out.get("s_face", 0.0),
	"s_eye": out.get("s_eye", 0.0),
	"mar": out.get("mar", 0.0),
	"model": model_name,
	})
	else:
	is_focused = False
	confidence = 0.0

	resp = {
	"type": "detection",
	"focused": is_focused,
	"confidence": round(confidence, 3),
	"detections": [],
	"model": model_name,
	"fc": frame_count,
	"frame_count": frame_count,
	}
	if active_pipeline is not None:
	# Send detailed metrics for HUD
	if out.get("yaw") is not None:
	resp["yaw"] = round(out["yaw"], 1)
	resp["pitch"] = round(out["pitch"], 1)
	resp["roll"] = round(out["roll"], 1)
	if out.get("mar") is not None:
	resp["mar"] = round(out["mar"], 3)
	resp["sf"] = round(out.get("s_face", 0), 3)
	resp["se"] = round(out.get("s_eye", 0), 3)
	if landmarks_list is not None:
	resp["lm"] = landmarks_list
	await websocket.send_json(resp)
	frame_count += 1
	except Exception as e:
	print(f"[WS] process error: {e}")

	try:
	await asyncio.gather(_receive_loop(), _process_loop())
	except Exception:
	pass
	finally:
	running = False
	if session_id:
	await event_buffer.stop()
	await end_session(session_id)

	# ================ API ENDPOINTS ================

	@app.post("/api/sessions/start")
	async def api_start_session():
	session_id = await create_session()
	return {"session_id": session_id}

	@app.post("/api/sessions/end")
	async def api_end_session(data: SessionEnd):
	summary = await end_session(data.session_id)
	if not summary: raise HTTPException(status_code=404, detail="Session not found")
	return summary

	@app.get("/api/sessions")
	async def get_sessions(filter: str = "all", limit: int = 50, offset: int = 0):
	async with aiosqlite.connect(db_path) as db:
	db.row_factory = aiosqlite.Row

	# NEW: If importing/exporting all, remove limit if special flag or high limit
	# For simplicity: if limit is -1, return all
	limit_clause = "LIMIT ? OFFSET ?"
	params = []

	base_query = "SELECT * FROM focus_sessions"
	where_clause = ""

	if filter == "today":
	date_filter = datetime.now().replace(hour=0, minute=0, second=0, microsecond=0)
	where_clause = " WHERE start_time >= ?"
	params.append(date_filter.isoformat())
	elif filter == "week":
	date_filter = datetime.now() - timedelta(days=7)
	where_clause = " WHERE start_time >= ?"
	params.append(date_filter.isoformat())
	elif filter == "month":
	date_filter = datetime.now() - timedelta(days=30)
	where_clause = " WHERE start_time >= ?"
	params.append(date_filter.isoformat())
	elif filter == "all":
	# Just ensure we only get completed sessions or all sessions
	where_clause = " WHERE end_time IS NOT NULL"

	query = f"{base_query}{where_clause} ORDER BY start_time DESC"

	# Handle Limit for Exports
	if limit == -1:
	# No limit clause for export
	pass
	else:
	query += f" {limit_clause}"
	params.extend([limit, offset])

	cursor = await db.execute(query, tuple(params))
	rows = await cursor.fetchall()
	return [dict(row) for row in rows]

	# --- NEW: Import Endpoint ---
	@app.post("/api/import")
	async def import_sessions(sessions: List[dict]):
	count = 0
	try:
	async with aiosqlite.connect(db_path) as db:
	for session in sessions:
	# Use .get() to handle potential missing fields from older versions or edits
	await db.execute("""
	INSERT INTO focus_sessions (start_time, end_time, duration_seconds, focus_score, total_frames, focused_frames, created_at)
	VALUES (?, ?, ?, ?, ?, ?, ?)
	""", (
	session.get('start_time'),
	session.get('end_time'),
	session.get('duration_seconds', 0),
	session.get('focus_score', 0.0),
	session.get('total_frames', 0),
	session.get('focused_frames', 0),
	session.get('created_at', session.get('start_time'))
	))
	count += 1
	await db.commit()
	return {"status": "success", "count": count}
	except Exception as e:
	print(f"Import Error: {e}")
	return {"status": "error", "message": str(e)}

	# --- NEW: Clear History Endpoint ---
	@app.delete("/api/history")
	async def clear_history():
	try:
	async with aiosqlite.connect(db_path) as db:
	# Delete events first (foreign key good practice)
	await db.execute("DELETE FROM focus_events")
	await db.execute("DELETE FROM focus_sessions")
	await db.commit()
	return {"status": "success", "message": "History cleared"}
	except Exception as e:
	return {"status": "error", "message": str(e)}

	@app.get("/api/sessions/{session_id}")
	async def get_session(session_id: int):
	async with aiosqlite.connect(db_path) as db:
	db.row_factory = aiosqlite.Row
	cursor = await db.execute("SELECT * FROM focus_sessions WHERE id = ?", (session_id,))
	row = await cursor.fetchone()
	if not row: raise HTTPException(status_code=404, detail="Session not found")
	session = dict(row)
	cursor = await db.execute("SELECT * FROM focus_events WHERE session_id = ? ORDER BY timestamp", (session_id,))
	events = [dict(r) for r in await cursor.fetchall()]
	session['events'] = events
	return session

	@app.get("/api/settings")
	async def get_settings():
	async with aiosqlite.connect(db_path) as db:
	db.row_factory = aiosqlite.Row
	cursor = await db.execute("SELECT * FROM user_settings WHERE id = 1")
	row = await cursor.fetchone()
	if row: return dict(row)
	else: return {'sensitivity': 6, 'notification_enabled': True, 'notification_threshold': 30, 'frame_rate': 30, 'model_name': 'mlp'}

	@app.put("/api/settings")
	async def update_settings(settings: SettingsUpdate):
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute("SELECT id FROM user_settings WHERE id = 1")
	exists = await cursor.fetchone()
	if not exists:
	await db.execute("INSERT INTO user_settings (id, sensitivity) VALUES (1, 6)")
	await db.commit()

	updates = []
	params = []
	if settings.sensitivity is not None:
	updates.append("sensitivity = ?")
	params.append(max(1, min(10, settings.sensitivity)))
	if settings.notification_enabled is not None:
	updates.append("notification_enabled = ?")
	params.append(settings.notification_enabled)
	if settings.notification_threshold is not None:
	updates.append("notification_threshold = ?")
	params.append(max(5, min(300, settings.notification_threshold)))
	if settings.frame_rate is not None:
	updates.append("frame_rate = ?")
	params.append(max(5, min(60, settings.frame_rate)))
	if settings.model_name is not None and settings.model_name in pipelines and pipelines[settings.model_name] is not None:
	updates.append("model_name = ?")
	params.append(settings.model_name)
	global _cached_model_name
	_cached_model_name = settings.model_name

	if updates:
	query = f"UPDATE user_settings SET {', '.join(updates)} WHERE id = 1"
	await db.execute(query, params)
	await db.commit()
	return {"status": "success", "updated": len(updates) > 0}

	@app.get("/api/stats/system")
	async def get_system_stats():
	"""Return server CPU and memory usage for UI display."""
	try:
	import psutil
	cpu = psutil.cpu_percent(interval=0.1)
	mem = psutil.virtual_memory()
	return {
	"cpu_percent": round(cpu, 1),
	"memory_percent": round(mem.percent, 1),
	"memory_used_mb": round(mem.used / (1024 * 1024), 0),
	"memory_total_mb": round(mem.total / (1024 * 1024), 0),
	}
	except ImportError:
	return {"cpu_percent": None, "memory_percent": None, "memory_used_mb": None, "memory_total_mb": None}

	@app.get("/api/stats/summary")
	async def get_stats_summary():
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute("SELECT COUNT(*) FROM focus_sessions WHERE end_time IS NOT NULL")
	total_sessions = (await cursor.fetchone())[0]
	cursor = await db.execute("SELECT SUM(duration_seconds) FROM focus_sessions WHERE end_time IS NOT NULL")
	total_focus_time = (await cursor.fetchone())[0] or 0
	cursor = await db.execute("SELECT AVG(focus_score) FROM focus_sessions WHERE end_time IS NOT NULL")
	avg_focus_score = (await cursor.fetchone())[0] or 0.0
	cursor = await db.execute("SELECT DISTINCT DATE(start_time) as session_date FROM focus_sessions WHERE end_time IS NOT NULL ORDER BY session_date DESC")
	dates = [row[0] for row in await cursor.fetchall()]

	streak_days = 0
	if dates:
	current_date = datetime.now().date()
	for i, date_str in enumerate(dates):
	session_date = datetime.fromisoformat(date_str).date()
	expected_date = current_date - timedelta(days=i)
	if session_date == expected_date: streak_days += 1
	else: break
	return {
	'total_sessions': total_sessions,
	'total_focus_time': int(total_focus_time),
	'avg_focus_score': round(avg_focus_score, 3),
	'streak_days': streak_days
	}

	@app.get("/api/models")
	async def get_available_models():
	"""Return list of loaded model names and which is currently active."""
	available = [name for name, p in pipelines.items() if p is not None]
	async with aiosqlite.connect(db_path) as db:
	cursor = await db.execute("SELECT model_name FROM user_settings WHERE id = 1")
	row = await cursor.fetchone()
	current = row[0] if row else "mlp"
	if current not in available and available:
	current = available[0]
	return {"available": available, "current": current}

	@app.get("/api/mesh-topology")
	async def get_mesh_topology():
	"""Return tessellation edge pairs for client-side face mesh drawing (cached by client)."""
	return {"tessellation": _TESSELATION_CONNS}

	@app.get("/health")
	async def health_check():
	available = [name for name, p in pipelines.items() if p is not None]
	return {"status": "healthy", "models_loaded": available, "database": os.path.exists(db_path)}

	# ================ STATIC FILES (SPA SUPPORT) ================

	# Resolve frontend dir from this file so it works regardless of cwd.
	# Prefer a built `dist/` app when present, otherwise fall back to `static/`.
	_BASE_DIR = Path(__file__).resolve().parent
	_DIST_DIR = _BASE_DIR / "dist"
	_STATIC_DIR = _BASE_DIR / "static"
	_FRONTEND_DIR = _DIST_DIR if (_DIST_DIR / "index.html").is_file() else _STATIC_DIR
	_ASSETS_DIR = _FRONTEND_DIR / "assets"

	# 1. Mount the assets folder (JS/CSS) first so /assets/* is never caught by catch-all
	if _ASSETS_DIR.is_dir():
	app.mount("/assets", StaticFiles(directory=str(_ASSETS_DIR)), name="assets")

	# 2. Catch-all for SPA: serve index.html for app routes, never for /assets (would break JS MIME type)
	@app.get("/{full_path:path}")
	async def serve_react_app(full_path: str, request: Request):
	if full_path.startswith("api") or full_path.startswith("ws"):
	raise HTTPException(status_code=404, detail="Not Found")
	# Don't serve HTML for asset paths; let them 404 so we don't break module script loading
	if full_path.startswith("assets") or full_path.startswith("assets/"):
	raise HTTPException(status_code=404, detail="Not Found")

	file_path = _FRONTEND_DIR / full_path
	if full_path and file_path.is_file():
	return FileResponse(str(file_path))

	index_path = _FRONTEND_DIR / "index.html"
	if index_path.is_file():
	return FileResponse(str(index_path))
	return {"message": "React app not found. Please run 'npm run build' and copy dist to static if needed."}