AutoVol / autovol_tray.py

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	#!/usr/bin/env python3
	# -- coding: utf-8 --

	"""
	AutoVol (Tray) — zero-config, self-healing auto volume learner.

	What it tries to do:
	- Watch "how loud the system audio is" (best effort: real loopback audio; fallback: peak meter).
	- Learn when you turn volume down (stores the loudness level at that moment).
	- Next time it detects you're above your learned loudness threshold, it gently ducks volume.

	v0.10.11 fixes vs v0.10.10 (quality-of-life + fewer “sampler thrash” loops):
	- BETTER: Smarter audio-device picking (especially avoids HDMI/Display endpoints when possible).
	* soundcard loopback no longer blindly prefers a “bad” default speaker (HDMI/display/etc).
	* sounddevice WASAPI output selection uses a score-based pick, not just default output.
	- BETTER: Sampler selection preflight now requires actual sample flow (recent window n>0),
	not just “stream opened”. This prevents picking a sampler that’s dead-on-arrival.
	- BETTER: Adds per-sampler exponential backoff when a sampler repeatedly fails preflight,
	so the system doesn’t rotate through the same broken sources every ~15s forever.
	- BETTER: Pycaw “degraded” threshold relaxed so it keeps trying longer on flaky COM systems
	instead of force-switching too aggressively.
	- KEEP: Prior COM-finalizer safety and WinVolSTA thread join behavior.

	Run:
	python autovol_tray.py

	Data dir (Windows):
	%LOCALAPPDATA%\\AutoVol
	"""

	from __future__ import annotations

	import os
	import sys
	import math
	import time
	import json
	import platform
	import threading
	import argparse
	import queue
	import subprocess
	import traceback
	import logging
	import gc
	from logging.handlers import RotatingFileHandler
	from typing import Deque, Dict, List, Optional, Tuple, Callable, Any
	from collections import deque
	from dataclasses import dataclass

	__version__ = "0.10.11"
	_WIN = platform.system().lower().startswith("win")

	DEFAULT_SR = 48000
	DEFAULT_FRAME_S = 0.20
	DEFAULT_FRAMES = int(round(DEFAULT_SR * DEFAULT_FRAME_S))

	# ------------------ dependency bootstrap ------------------

	_NO_AUTOINSTALL = ("--no-autoinstall" in sys.argv)


	def _pip_install(pkgs: List[str]) -> bool:
	"""Best-effort dependency install.

	If you're NOT in a venv, install into per-user site-packages (avoids admin/permission issues).
	If you're in a venv, install into the venv as normal.
	"""
	try:
	in_venv = (getattr(sys, "base_prefix", sys.prefix) != sys.prefix) or bool(os.environ.get("VIRTUAL_ENV"))
	cmd = [sys.executable, "-m", "pip", "install", "--upgrade"]
	if not in_venv:
	cmd.append("--user")
	cmd += pkgs
	p = subprocess.run(cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, text=True)
	if p.returncode != 0:
	logging.info("[deps] pip failed (%s):\n%s", p.returncode, p.stdout[-3000:])
	return (p.returncode == 0)
	except Exception:
	return False


	def _ensure_deps(auto_install: bool = True) -> None:
	need: List[str] = []

	try:
	import numpy # noqa: F401
	except Exception:
	need.append("numpy")

	try:
	import PIL # noqa: F401
	except Exception:
	need.append("Pillow")

	try:
	import pystray # noqa: F401
	except Exception:
	need.append("pystray")

	if _WIN:
	try:
	import comtypes # noqa: F401
	except Exception:
	need.append("comtypes")
	try:
	import pycaw # noqa: F401
	except Exception:
	need.append("pycaw")
	try:
	import win32api # type: ignore # noqa: F401
	except Exception:
	need.append("pywin32")

	try:
	import sounddevice # noqa: F401
	except Exception:
	need.append("sounddevice")

	# Optional fallback
	try:
	import soundcard # noqa: F401
	except Exception:
	if auto_install:
	need.append("soundcard")

	# Optional VAD (do not force install)
	try:
	import webrtcvad # noqa: F401
	except Exception:
	pass

	if need and auto_install:
	_pip_install(need)


	# Install before importing heavy deps (best effort).
	try:
	_ensure_deps(auto_install=(not _NO_AUTOINSTALL))
	except Exception:
	pass

	# Third-party deps
	import numpy as np

	try:
	import sounddevice as sd
	except Exception:
	sd = None

	try:
	import soundcard as sc
	except Exception:
	sc = None

	try:
	import webrtcvad # type: ignore
	_HAVE_WEBRTCVAD = True
	except Exception:
	webrtcvad = None
	_HAVE_WEBRTCVAD = False

	import pystray
	from pystray import MenuItem as Item, Menu
	from PIL import Image, ImageDraw


	# ------------------ logging ------------------

	def _default_data_dir() -> str:
	if _WIN and "LOCALAPPDATA" in os.environ:
	return os.path.join(os.environ["LOCALAPPDATA"], "AutoVol")
	return os.path.abspath(".")


	def setup_logging(data_dir: str) -> str:
	os.makedirs(data_dir, exist_ok=True)
	log_path = os.path.join(data_dir, "autovol.log")

	logger = logging.getLogger()
	logger.setLevel(logging.INFO)

	fmt = logging.Formatter("%(asctime)s %(levelname)s %(threadName)s %(message)s")
	fh = RotatingFileHandler(log_path, maxBytes=512_000, backupCount=2, encoding="utf-8")
	fh.setFormatter(fmt)
	sh = logging.StreamHandler(sys.stdout)
	sh.setFormatter(fmt)

	logger.handlers = []
	logger.addHandler(fh)
	logger.addHandler(sh)

	logging.info("AutoVol starting v%s (win=%s) data_dir=%s", __version__, _WIN, data_dir)
	logging.info("Args: %s", " ".join(sys.argv))
	if _NO_AUTOINSTALL:
	logging.info("Auto-install deps: DISABLED (--no-autoinstall)")
	return log_path


	# ------------------ utils ------------------

	_BAD_AUDIO_TOKENS = [
	"hdmi", "display", "nvidia", "amd", "intel", "dp audio", "display audio", "vf", "virtual",
	"monitor", "sonic", "nahimic", "remote", "wireless display",
	]

	_GOOD_AUDIO_TOKENS = [
	"realtek", "speakers", "speaker", "headphones", "headphone", "usb", "dac", "analog", "line out",
	]


	def clamp(x: float, lo: float, hi: float) -> float:
	return max(lo, min(hi, x))


	def db_to_lin(db: float) -> float:
	return 10.0 ** (db / 20.0)


	def rms_dbfs(x: np.ndarray, eps: float = 1e-12) -> float:
	if x is None or getattr(x, "size", 0) == 0:
	return -100.0
	if x.ndim == 2 and x.shape[1] > 1:
	x = x.mean(axis=1)
	rms = float(np.sqrt(np.mean(np.square(x), dtype=np.float64)))
	if not np.isfinite(rms) or rms <= eps:
	return -100.0
	db = 20.0 * math.log10(max(eps, rms))
	return float(max(min(db, 0.0), -100.0))


	def safe_tooltip(s: str, max_len: int = 120) -> str:
	"""
	Windows NOTIFYICONDATAW tooltip limit is 128 WCHAR incl null.
	Keep it comfortably below to avoid pystray ValueError.
	"""
	s = s.replace("\n", " ").strip()
	if len(s) <= max_len:
	return s
	return s[: max_len - 1] + "…"


	def name_score_audio_device(name: str) -> int:
	"""
	Heuristic: prefer likely-real speaker endpoints, avoid HDMI/display/virtual endpoints.
	"""
	n = (name or "").lower()
	score = 0
	for t in _GOOD_AUDIO_TOKENS:
	if t in n:
	score += 12
	for t in _BAD_AUDIO_TOKENS:
	if t in n:
	score -= 18
	if "realtek" in n:
	score += 25
	if "speaker" in n:
	score += 10
	if "headphone" in n:
	score += 8
	if "usb" in n:
	score += 6
	return score


	def looks_bad_default_endpoint(name: str) -> bool:
	n = (name or "").lower()
	if any(t in n for t in _BAD_AUDIO_TOKENS):
	return True
	# Very low score is suspicious as "default"
	return name_score_audio_device(name) < -5


	@dataclass
	class Stats:
	p50: float
	p70: float
	p85: float
	p95: float
	n: int


	class PercentileWindow:
	def __init__(self, frame_s: float, history_s: float):
	self.frame_s = float(frame_s)
	self.buf: Deque[Tuple[float, float]] = deque(maxlen=int(history_s / frame_s) + 16)
	self.lock = threading.Lock()

	def push(self, ts: float, db: float) -> None:
	with self.lock:
	self.buf.append((ts, db))

	def stats(self, window_s: float) -> Stats:
	cutoff = time.time() - float(window_s)
	with self.lock:
	vals = [db for (ts, db) in self.buf if ts >= cutoff]
	if not vals:
	return Stats(-100.0, -100.0, -100.0, -100.0, 0)
	vals.sort()

	def pct(p: float) -> float:
	k = int(round((len(vals) - 1) * clamp(p, 0.0, 1.0)))
	return float(vals[k])

	return Stats(p50=pct(0.50), p70=pct(0.70), p85=pct(0.85), p95=pct(0.95), n=len(vals))


	# ------------------ samplers ------------------

	class SamplerBase:
	"""
	Samplers should be "alive" even during silence.
	Health is: are samples arriving (n>0), not whether audio is loud.
	"""
	def chosen_name(self) -> Optional[str]:
	return None

	def start(self) -> None:
	pass

	def stop(self) -> None:
	pass

	def get_last_block(self) -> Optional[np.ndarray]:
	return None

	def samples_recent(self, window_s: float = 1.5) -> bool:
	try:
	win = getattr(self, "win", None)
	if win is None:
	return False
	st = win.stats(window_s)
	return st.n > 0
	except Exception:
	return False

	def sampler_key(self) -> str:
	return self.__class__.__name__


	class LoopbackSampler_SD(SamplerBase):
	"""
	sounddevice WASAPI loopback.

	Key detail: some PortAudio/WASAPI builds on Windows do NOT support the blocking API
	(you'll see: "Blocking API not supported yet"). To self-heal across machines, we run
	the stream in CALLBACK mode and never call stream.read().

	Strategy:
	- Prefer explicit "(loopback)" INPUT devices when present.
	- Otherwise, try output devices with WasapiSettings(loopback=True).
	- Score devices to avoid HDMI/display endpoints when possible.
	"""

	def __init__(self, sr=DEFAULT_SR, frame_s=DEFAULT_FRAME_S, history_s=150.0):
	self.sr = int(sr)
	self.frame_s = float(frame_s)
	self.frames = int(round(self.frame_s * self.sr))
	self.win = PercentileWindow(frame_s, history_s)

	self.ok = False
	self._stop = threading.Event()
	self._th: Optional[threading.Thread] = None
	self._last_block: Optional[np.ndarray] = None
	self._lb_lock = threading.Lock()

	self._chosen: Optional[str] = None
	self._dev_index: Optional[int] = None
	self._extra = None

	def chosen_name(self) -> Optional[str]:
	return self._chosen if self.ok else None

	def get_last_block(self) -> Optional[np.ndarray]:
	with self._lb_lock:
	return None if self._last_block is None else self._last_block.copy()

	def _wasapi_idx(self) -> Optional[int]:
	if sd is None:
	return None
	try:
	hostapis = sd.query_hostapis()
	for i, h in enumerate(hostapis):
	if "wasapi" in str(h.get("name", "")).lower():
	return i
	except Exception:
	return None
	return None

	def _pick_loopback_input_device(self) -> Optional[int]:
	"""
	Many systems expose loopback capture as a dedicated input device with "(loopback)" in name.
	If present, prefer it.
	"""
	if sd is None or not _WIN:
	return None
	wasapi_idx = self._wasapi_idx()
	if wasapi_idx is None:
	return None
	try:
	devs = sd.query_devices()
	except Exception:
	return None

	out_name = ""
	try:
	out_idx = int(sd.default.device[1])
	out_name = str(sd.query_devices(out_idx).get("name", "")).lower()
	except Exception:
	out_name = ""

	loopbacks: List[int] = []
	for i, d in enumerate(devs):
	try:
	if int(d.get("hostapi", -1)) != wasapi_idx:
	continue
	if int(d.get("max_input_channels", 0)) <= 0:
	continue
	name = str(d.get("name", "")).lower()
	if "loopback" in name or "(loopback)" in name:
	loopbacks.append(i)
	except Exception:
	continue
	if not loopbacks:
	return None

	# Prefer loopback device that matches the default output device name
	if out_name:
	out_stem = out_name.split("(")[0].strip()
	if out_stem:
	for i in loopbacks:
	try:
	name = str(devs[i].get("name", "")).lower()
	if out_stem in name:
	return i
	except Exception:
	continue

	# Otherwise choose best score (avoid HDMI loopback variants when multiple exist)
	best = None
	best_score = -10_000
	for i in loopbacks:
	try:
	nm = str(devs[i].get("name", ""))
	scv = name_score_audio_device(nm)
	if scv > best_score:
	best_score = scv
	best = i
	except Exception:
	continue
	return best if best is not None else loopbacks[0]

	def _pick_output_device(self) -> Optional[int]:
	if sd is None or not _WIN:
	return None
	wasapi_idx = self._wasapi_idx()
	if wasapi_idx is None:
	return None
	try:
	devs = sd.query_devices()
	except Exception:
	return None

	outs: List[int] = []
	for i, d in enumerate(devs):
	try:
	if int(d.get("hostapi", -1)) == wasapi_idx and int(d.get("max_output_channels", 0)) > 0:
	outs.append(i)
	except Exception:
	continue
	if not outs:
	return None

	# Prefer default output unless it looks like HDMI/display; then pick best-scored output.
	try:
	out_def = int(sd.default.device[1])
	if out_def in outs:
	def_name = str(devs[out_def].get("name", ""))
	if not looks_bad_default_endpoint(def_name):
	return out_def
	except Exception:
	pass

	best = None
	best_score = -10_000
	for i in outs:
	try:
	nm = str(devs[i].get("name", ""))
	scv = name_score_audio_device(nm)
	if scv > best_score:
	best_score = scv
	best = i
	except Exception:
	continue
	return best if best is not None else outs[0]

	def start(self) -> None:
	if self._th or sd is None or not _WIN:
	return

	dev = self._pick_loopback_input_device()
	using_loopback_input = True
	if dev is None:
	dev = self._pick_output_device()
	using_loopback_input = False
	if dev is None:
	logging.info("[SD Loopback] no WASAPI device found.")
	return

	self._dev_index = dev
	try:
	devinfo = sd.query_devices(dev)
	devname = str(devinfo.get("name", "?"))
	max_in = int(devinfo.get("max_input_channels", 0) or 0)
	max_out = int(devinfo.get("max_output_channels", 0) or 0)
	dev_sr = float(devinfo.get("default_samplerate", self.sr) or self.sr)
	except Exception:
	devname, max_in, max_out, dev_sr = f"dev#{dev}", 0, 2, float(self.sr)

	extra = None
	try:
	extra = sd.WasapiSettings(loopback=True)
	except Exception:
	extra = None
	self._extra = extra

	if using_loopback_input:
	self._chosen = f"sd/wasapi loopback-in: {devname}"
	ch_max = max(1, max_in)
	else:
	self._chosen = f"sd/wasapi loopback: {devname}"
	ch_max = max(1, max_out)

	sr_candidates: List[int] = []
	for s in [self.sr, int(dev_sr), 48000, 44100]:
	if s > 8000 and s not in sr_candidates:
	sr_candidates.append(int(s))

	ch_candidates: List[int] = []
	for c in [2, 1]:
	if c <= ch_max:
	ch_candidates.append(c)
	if not ch_candidates:
	ch_candidates = [1]

	def cb(indata, frames, time_info, status): # noqa: ANN001
	try:
	block = np.asarray(indata, dtype=np.float32)
	self.win.push(time.time(), rms_dbfs(block))
	with self._lb_lock:
	self._last_block = block.copy()
	except Exception:
	pass

	def run():
	try:
	last_err = None
	stream = None

	for sr_try in sr_candidates:
	for ch_try in ch_candidates:
	try:
	frames = int(round(self.frame_s * sr_try))
	stream = sd.InputStream(
	samplerate=sr_try,
	channels=ch_try,
	dtype="float32",
	blocksize=frames,
	device=self._dev_index,
	extra_settings=self._extra if _WIN else None,
	callback=cb,
	)
	self.sr = int(sr_try)
	self.frames = int(frames)
	self.ok = True
	logging.info("[SD Loopback] opened sr=%s ch=%s (%s)", sr_try, ch_try, self._chosen)
	break
	except Exception as e:
	last_err = e
	stream = None
	if stream is not None:
	break

	if stream is None:
	logging.info("[SD Loopback] init error: %r", last_err)
	self.ok = False
	return

	with stream:
	while not self._stop.is_set():
	time.sleep(0.25)
	except Exception as e:
	logging.info("[SD Loopback] thread error: %r", e)
	self.ok = False

	self._th = threading.Thread(target=run, name="SDLoopback", daemon=True)
	self._th.start()

	def stop(self) -> None:
	self._stop.set()
	if self._th:
	self._th.join(timeout=1.5)


	class StereoMixSampler_SD(SamplerBase):
	"""
	Capture from an input device that looks like "Stereo Mix"/"What U Hear".

	Use CALLBACK mode so we don't depend on PortAudio's blocking API support.
	"""

	def __init__(self, sr=DEFAULT_SR, frame_s=DEFAULT_FRAME_S, history_s=150.0):
	self.sr = int(sr)
	self.frame_s = float(frame_s)
	self.frames = int(round(self.frame_s * self.sr))
	self.win = PercentileWindow(frame_s, history_s)

	self.ok = False
	self._stop = threading.Event()
	self._th: Optional[threading.Thread] = None
	self._last_block: Optional[np.ndarray] = None
	self._lb_lock = threading.Lock()

	self._chosen: Optional[str] = None
	self._dev_index: Optional[int] = None

	def chosen_name(self) -> Optional[str]:
	return self._chosen if self.ok else None

	def get_last_block(self) -> Optional[np.ndarray]:
	with self._lb_lock:
	return None if self._last_block is None else self._last_block.copy()

	def _pick_device(self) -> Optional[int]:
	if sd is None:
	return None
	try:
	devs = sd.query_devices()
	except Exception:
	return None

	needles = ["stereo mix", "what u hear", "what you hear"]
	hits: List[int] = []
	for i, d in enumerate(devs):
	try:
	name = str(d.get("name", "")).lower()
	max_in = int(d.get("max_input_channels", 0))
	if max_in <= 0:
	continue
	if any(n in name for n in needles):
	hits.append(i)
	except Exception:
	continue

	if not hits:
	return None

	# Prefer higher score names (realtek tends to be correct)
	best = None
	best_score = -10_000
	for i in hits:
	try:
	nm = str(devs[i].get("name", ""))
	scv = name_score_audio_device(nm)
	if scv > best_score:
	best_score = scv
	best = i
	except Exception:
	continue
	return best if best is not None else hits[0]

	def start(self) -> None:
	if self._th or sd is None:
	return
	dev = self._pick_device()
	if dev is None:
	return
	self._dev_index = dev

	try:
	devinfo = sd.query_devices(dev)
	devname = str(devinfo.get("name", "?"))
	max_in = int(devinfo.get("max_input_channels", 1) or 1)
	dev_sr = float(devinfo.get("default_samplerate", self.sr) or self.sr)
	except Exception:
	devname, max_in, dev_sr = f"dev#{dev}", 1, float(self.sr)

	self._chosen = f"sd/input: {devname}"

	sr_candidates: List[int] = []
	for s in [self.sr, int(dev_sr), 48000, 44100]:
	if s > 8000 and s not in sr_candidates:
	sr_candidates.append(int(s))

	ch_candidates = [c for c in [2, 1] if c <= max_in] or [1]

	def cb(indata, frames, time_info, status): # noqa: ANN001
	try:
	block = np.asarray(indata, dtype=np.float32)
	self.win.push(time.time(), rms_dbfs(block))
	with self._lb_lock:
	self._last_block = block.copy()
	except Exception:
	pass

	def run():
	last_err = None
	stream = None

	for sr_try in sr_candidates:
	for ch_try in ch_candidates:
	try:
	frames = int(round(self.frame_s * sr_try))
	stream = sd.InputStream(
	samplerate=sr_try,
	channels=ch_try,
	dtype="float32",
	blocksize=frames,
	device=self._dev_index,
	callback=cb,
	)
	self.sr = int(sr_try)
	self.frames = int(frames)
	self.ok = True
	logging.info("[StereoMix] opened sr=%s ch=%s (%s)", sr_try, ch_try, self._chosen)
	break
	except Exception as e:
	last_err = e
	stream = None
	if stream is not None:
	break

	if stream is None:
	logging.info("[StereoMix] init error: %r", last_err)
	self.ok = False
	return

	try:
	with stream:
	while not self._stop.is_set():
	time.sleep(0.25)
	except Exception as e:
	logging.info("[StereoMix] thread error: %r", e)
	self.ok = False

	self._th = threading.Thread(target=run, name="StereoMix", daemon=True)
	self._th.start()

	def stop(self) -> None:
	self._stop.set()
	if self._th:
	self._th.join(timeout=1.5)


	class LoopbackSampler_SC(SamplerBase):
	"""python-soundcard loopback (can pick the "wrong" speaker on multi-output systems)."""

	def __init__(self, sr: int = DEFAULT_SR, frame_s: float = DEFAULT_FRAME_S, history_s: float = 150.0, dev_name: Optional[str] = None):
	self.ok = False
	self.sr = int(sr)
	self.frame_s = float(frame_s)
	self.frames = int(round(self.frame_s * self.sr))
	self.win = PercentileWindow(self.frame_s, history_s)
	self.stop_evt = threading.Event()
	self.th: Optional[threading.Thread] = None
	self._last_block: Optional[np.ndarray] = None
	self._lb_lock = threading.Lock()
	self._chosen_name: Optional[str] = None
	self._dev_name = dev_name

	def chosen_name(self) -> Optional[str]:
	return self._chosen_name if self.ok else None

	def get_last_block(self) -> Optional[np.ndarray]:
	with self._lb_lock:
	return None if self._last_block is None else self._last_block.copy()

	def _speaker_score(self, name: str) -> int:
	return name_score_audio_device(name)

	def _pick_recorder(self):
	"""
	python-soundcard loopback.

	Change vs older versions:
	- We do NOT always prioritize sc.default_speaker() if it looks like HDMI/display/etc.
	Instead we score endpoints and choose the best likely-real speaker.
	"""
	if sc is None:
	return None

	speakers: List[Any] = []
	try:
	speakers = list(sc.all_speakers())
	except Exception:
	speakers = []

	# If dev_name supplied, try it first.
	if self._dev_name:
	for spk in speakers:
	try:
	if str(getattr(spk, "name", "")) == str(self._dev_name):
	try:
	mic = sc.get_microphone(id=str(spk.name), include_loopback=True)
	self._chosen_name = f"soundcard loopback: {mic.name}"
	for ch in (2, 1):
	try:
	rec = mic.recorder(samplerate=self.sr, channels=ch)
	return rec
	except Exception:
	continue
	except Exception:
	pass
	except Exception:
	continue

	default_first: List[Any] = []
	try:
	d = sc.default_speaker()
	dname = str(getattr(d, "name", ""))
	if not looks_bad_default_endpoint(dname):
	default_first = [d]
	speakers = [s for s in speakers if getattr(s, "name", None) != getattr(d, "name", None)]
	else:
	# Bad default endpoint: do NOT force it to the front.
	default_first = []
	except Exception:
	default_first = []

	speakers_sorted = sorted(
	speakers,
	key=lambda s: self._speaker_score(getattr(s, "name", "")),
	reverse=True,
	)

	candidates = (default_first + speakers_sorted)[:14]

	for spk in candidates:
	try:
	mic = sc.get_microphone(id=str(spk.name), include_loopback=True)
	self._chosen_name = f"soundcard loopback: {mic.name}"
	for ch in (2, 1):
	try:
	rec = mic.recorder(samplerate=self.sr, channels=ch)
	return rec
	except Exception:
	continue
	except Exception:
	continue

	return None

	def start(self) -> None:
	if self.th or sc is None:
	return
	rec = self._pick_recorder()
	if rec is None:
	return

	def run():
	try:
	with rec:
	while not self.stop_evt.is_set():
	try:
	block = rec.record(self.frames)
	block = np.asarray(block, dtype=np.float32)
	self.win.push(time.time(), rms_dbfs(block))
	with self._lb_lock:
	self._last_block = block.copy()
	except Exception:
	time.sleep(0.05)
	except Exception:
	pass

	self.th = threading.Thread(target=run, name="SCLoopback", daemon=True)
	self.th.start()
	self.ok = True
	logging.info("[soundcard loopback] running: %s", self._chosen_name)

	def stop(self) -> None:
	self.stop_evt.set()
	if self.th:
	self.th.join(timeout=1.5)


	class PycawPeakSampler(SamplerBase):
	"""
	Reliable-ish fallback: system output peak meter via Pycaw.

	Notes:
	- This sampler does NOT provide raw audio blocks (so VAD is disabled).
	- Some systems throw intermittent COM errors on GetPeakValue(). We keep emitting samples
	(using last known value) and aggressively re-acquire the meter to self-heal.

	v0.10.11: relaxed "degraded" threshold so we don't force-switch too aggressively.
	"""

	def __init__(self, frame_s=DEFAULT_FRAME_S, history_s=150.0):
	self.frame_s = float(frame_s)
	self.win = PercentileWindow(frame_s, history_s)
	self._stop = threading.Event()
	self._th: Optional[threading.Thread] = None
	self._ok = False

	self._mu = threading.Lock()
	self._succ = 0
	self._fail = 0
	self._fail_streak = 0
	self._last_ok_ts = 0.0

	def chosen_name(self) -> Optional[str]:
	return "pycaw peak meter" if self._ok else None

	def is_degraded(self) -> bool:
	with self._mu:
	if not self._ok:
	return True
	now = time.time()
	# v0.10.11: be less trigger-happy.
	# Only declare degraded if we haven't had a successful read in a long time AND fail streak is huge.
	if (now - self._last_ok_ts) > 60.0 and self._fail_streak >= 500:
	return True
	return False

	def start(self) -> None:
	if self._th or not _WIN:
	return

	def run():
	meter = None
	last_db = -100.0

	def acquire():
	nonlocal meter
	try:
	import ctypes
	from ctypes import POINTER
	from pycaw.pycaw import AudioUtilities, IAudioMeterInformation
	from comtypes import CLSCTX_ALL

	dev = AudioUtilities.GetSpeakers()
	iface = dev.Activate(IAudioMeterInformation._iid_, CLSCTX_ALL, None)
	meter = ctypes.cast(iface, POINTER(IAudioMeterInformation))
	return True
	except Exception as e:
	logging.info("[PycawMeter] acquire failed: %r", e)
	meter = None
	return False

	CoUninitialize = None
	try:
	try:
	from comtypes import CoInitializeEx, CoUninitialize as _CoUninitialize, COINIT_MULTITHREADED
	CoUninitialize = _CoUninitialize
	CoInitializeEx(COINIT_MULTITHREADED)
	except Exception:
	from comtypes import CoInitialize, CoUninitialize as _CoUninitialize
	CoUninitialize = _CoUninitialize
	CoInitialize()

	try:
	ok = acquire()
	self._ok = bool(ok)
	if self._ok:
	logging.info("[PycawMeter] running.")

	last_log = 0.0
	while not self._stop.is_set():
	db = last_db
	try:
	if meter is None:
	acquire()

	if meter is not None:
	import ctypes
	from ctypes import byref, c_float

	v = c_float()
	meter.GetPeakValue(byref(v))
	peak = float(v.value)
	if peak <= 0.0 or not math.isfinite(peak):
	db = -100.0
	else:
	db = 20.0 * math.log10(max(1e-9, peak))
	last_db = db

	with self._mu:
	self._succ += 1
	self._fail_streak = 0
	self._last_ok_ts = time.time()
	else:
	raise RuntimeError("meter not acquired")
	except Exception:
	with self._mu:
	self._fail += 1
	self._fail_streak += 1
	fs = self._fail_streak

	if fs in (1, 10, 25, 50, 100, 200) or (time.time() - last_log) > 15.0:
	last_log = time.time()
	logging.info("[PycawMeter] read error (x%s) — continuing.", fs)

	# keep trying to reacquire periodically, but don't force-switch early
	if fs in (3, 10, 25, 50, 100, 200, 350) or (time.time() - self._last_ok_ts) > 10.0:
	acquire()

	# ALWAYS push a sample (even last known) so the controller sees "alive"
	self.win.push(time.time(), db)
	time.sleep(self.frame_s)
	finally:
	# IMPORTANT: drop COM interface refs BEFORE CoUninitialize
	try:
	meter = None
	gc.collect()
	except Exception:
	pass
	try:
	if CoUninitialize is not None:
	CoUninitialize()
	except Exception:
	pass
	except Exception as e:
	logging.info("[PycawMeter] init error: %r", e)

	self._th = threading.Thread(target=run, name="PycawMeter", daemon=True)
	self._th.start()

	def stop(self) -> None:
	self._stop.set()
	if self._th:
	self._th.join(timeout=2.5)


	class MeterSampler(SamplerBase):
	"""
	Last-resort COM meter via CreateObject("MMDeviceEnumerator") and IAudioMeterInformation.
	"""

	def __init__(self, frame_s=DEFAULT_FRAME_S, history_s=150.0):
	self.frame_s = float(frame_s)
	self.win = PercentileWindow(frame_s, history_s)
	self._ok = False
	self._stop = threading.Event()
	self._th: Optional[threading.Thread] = None

	self._mu = threading.Lock()
	self._fail_streak = 0
	self._last_ok_ts = 0.0

	def chosen_name(self) -> Optional[str]:
	return "endpoint peak meter" if self._ok else None

	def is_degraded(self) -> bool:
	with self._mu:
	if not self._ok:
	return True
	# slightly relaxed vs old: require longer time with no ok and a big fail streak
	if (time.time() - self._last_ok_ts) > 60.0 and self._fail_streak >= 500:
	return True
	return False

	def start(self) -> None:
	if self._th or not _WIN:
	return

	def run():
	meter = None
	last_db = -100.0

	def acquire():
	nonlocal meter
	try:
	import ctypes
	from ctypes import POINTER, byref, c_float, c_int, c_void_p, c_ulong
	from comtypes import (
	IUnknown, GUID, HRESULT, COMMETHOD,
	CLSCTX_ALL,
	)
	from comtypes.client import CreateObject

	eRender = 0
	eMultimedia = 1

	class IMMDevice(IUnknown):
	_iid_ = GUID('{D666063F-1587-4E43-81F1-B948E807363F}')
	_methods_ = [
	COMMETHOD([], HRESULT, 'Activate',
	(['in'], GUID, 'iid'),
	(['in'], c_ulong, 'dwClsCtx'),
	(['in'], c_void_p, 'pActivationParams'),
	(['out'], POINTER(c_void_p), 'ppInterface')),
	]

	class IMMDeviceEnumerator(IUnknown):
	_iid_ = GUID('{A95664D2-9614-4F35-A746-DE8DB63617E6}')
	_methods_ = [
	COMMETHOD([], HRESULT, 'GetDefaultAudioEndpoint',
	(['in'], c_int, 'dataFlow'),
	(['in'], c_int, 'role'),
	(['out'], POINTER(POINTER(IMMDevice)), 'ppDevice')),
	]

	class IAudioMeterInformation(IUnknown):
	_iid_ = GUID('{C02216F6-8C67-4B5B-9D00-D008E73E0064}')
	_methods_ = [
	COMMETHOD([], HRESULT, 'GetPeakValue',
	(['out'], POINTER(c_float), 'pfPeak')),
	]

	enum = CreateObject("MMDeviceEnumerator", interface=IMMDeviceEnumerator)
	dev = POINTER(IMMDevice)()
	hr = enum.GetDefaultAudioEndpoint(eRender, eMultimedia, byref(dev))
	if hr:
	raise OSError(f"GetDefaultAudioEndpoint failed hr=0x{hr:08X}")
	ptr = c_void_p()
	hr = dev.Activate(IAudioMeterInformation._iid_, CLSCTX_ALL, None, byref(ptr))
	if hr:
	raise OSError(f"Activate(IAudioMeterInformation) failed hr=0x{hr:08X}")

	meter = ctypes.cast(ptr, POINTER(IAudioMeterInformation))
	return True
	except Exception as e:
	logging.info("[Meter] acquire failed: %r", e)
	meter = None
	return False

	CoUninitialize = None
	try:
	try:
	from comtypes import CoInitializeEx, CoUninitialize as _CoUninitialize, COINIT_MULTITHREADED
	CoUninitialize = _CoUninitialize
	CoInitializeEx(COINIT_MULTITHREADED)
	except Exception:
	from comtypes import CoInitialize, CoUninitialize as _CoUninitialize
	CoUninitialize = _CoUninitialize
	CoInitialize()

	try:
	ok = acquire()
	self._ok = bool(ok)
	if self._ok:
	logging.info("[Meter] running (COM peak).")

	last_log = 0.0
	while not self._stop.is_set():
	db = last_db
	try:
	if meter is None:
	acquire()

	if meter is not None:
	from ctypes import byref, c_float
	v = c_float()
	meter.GetPeakValue(byref(v))
	peak = float(v.value)
	if peak <= 0.0 or not math.isfinite(peak):
	db = -100.0
	else:
	db = 20.0 * math.log10(max(1e-9, peak))
	last_db = db

	with self._mu:
	self._fail_streak = 0
	self._last_ok_ts = time.time()
	else:
	raise RuntimeError("meter not acquired")
	except Exception:
	with self._mu:
	self._fail_streak += 1
	fs = self._fail_streak

	if fs in (1, 10, 25, 50, 100, 200) or (time.time() - last_log) > 15.0:
	last_log = time.time()
	logging.info("[Meter] read error (x%s) — continuing.", fs)

	if fs in (3, 10, 25, 50, 100, 200, 350):
	acquire()

	self.win.push(time.time(), db)
	time.sleep(self.frame_s)
	finally:
	# IMPORTANT: drop COM interface refs BEFORE CoUninitialize
	try:
	meter = None
	gc.collect()
	except Exception:
	pass
	try:
	if CoUninitialize is not None:
	CoUninitialize()
	except Exception:
	pass
	except Exception as e:
	logging.info("[Meter] init error: %r", e)

	self._th = threading.Thread(target=run, name="MeterCOM", daemon=True)
	self._th.start()

	def stop(self) -> None:
	self._stop.set()
	if self._th:
	self._th.join(timeout=2.5)


	# ------------------ volume backends ------------------

	class VolBackend:
	def get(self) -> float:
	raise NotImplementedError

	def set(self, s: float) -> None:
	raise NotImplementedError


	class WinVolSTA(VolBackend):
	"""System master volume via pycaw on a dedicated COM thread."""

	def __init__(self):
	self._q: queue.Queue = queue.Queue()
	self._ready = threading.Event()
	self._stop = threading.Event()
	self._th = threading.Thread(target=self._run, name="WinVolCOM", daemon=True)
	self._th.start()
	if not self._ready.wait(timeout=2.5):
	raise RuntimeError("WinVolSTA COM init timed out")

	def _run(self):
	dev = None
	iface = None
	ep = None
	CoUninitialize = None
	try:
	from comtypes import CoInitialize, CoUninitialize as _CoUninitialize, CLSCTX_ALL # type: ignore
	from ctypes import POINTER, cast
	from pycaw.pycaw import AudioUtilities, IAudioEndpointVolume # type: ignore

	CoUninitialize = _CoUninitialize

	CoInitialize()
	try:
	dev = AudioUtilities.GetSpeakers()
	iface = dev.Activate(IAudioEndpointVolume._iid_, CLSCTX_ALL, None)
	ep = cast(iface, POINTER(IAudioEndpointVolume))
	self._ready.set()

	while not self._stop.is_set():
	try:
	op, val, ack = self._q.get(timeout=0.1)
	except queue.Empty:
	continue
	try:
	if op == "get":
	ack.set_result(float(ep.GetMasterVolumeLevelScalar()))
	elif op == "set":
	ep.SetMasterVolumeLevelScalar(clamp(float(val), 0.0, 1.0), None)
	ack.set_result(True)
	elif op == "quit":
	ack.set_result(True)
	break
	except Exception as e:
	ack.set_exception(e)
	finally:
	# IMPORTANT: drop COM interface refs BEFORE CoUninitialize
	try:
	ep = None
	iface = None
	dev = None
	gc.collect()
	except Exception:
	pass
	try:
	if CoUninitialize is not None:
	CoUninitialize()
	except Exception:
	pass
	except Exception as e:
	self._ready.set()
	try:
	while True:
	op, val, ack = self._q.get_nowait()
	ack.set_exception(e)
	except queue.Empty:
	pass

	class _Ack:
	def __init__(self):
	self._ev = threading.Event()
	self._res = None
	self._exc: Optional[BaseException] = None

	def set_result(self, r):
	self._res = r
	self._ev.set()

	def set_exception(self, e: BaseException):
	self._exc = e
	self._ev.set()

	def wait(self, timeout=None):
	ok = self._ev.wait(timeout)
	if not ok:
	raise TimeoutError("WinVolSTA RPC timed out")
	if self._exc:
	raise self._exc
	return self._res

	def _rpc(self, op: str, val=None, timeout=2.0):
	ack = WinVolSTA._Ack()
	self._q.put((op, val, ack))
	return ack.wait(timeout=timeout)

	def get(self) -> float:
	try:
	return float(self._rpc("get"))
	except Exception:
	return 0.5

	def set(self, s: float) -> None:
	try:
	self._rpc("set", s)
	except Exception:
	pass

	def close(self):
	try:
	self._rpc("quit", timeout=1.5)
	except Exception:
	pass
	self._stop.set()
	try:
	if self._th and self._th.is_alive():
	self._th.join(timeout=2.5)
	except Exception:
	pass


	class DryVol(VolBackend):
	def __init__(self):
	self._s = 0.4

	def get(self) -> float:
	return self._s

	def set(self, s: float) -> None:
	self._s = clamp(float(s), 0.0, 1.0)


	def choose_backend(force_dry: bool = False) -> VolBackend:
	if not _WIN or force_dry:
	logging.info("[Vol] Using DryVol (no system changes).")
	return DryVol()
	try:
	bk = WinVolSTA()
	logging.info("[Vol] Using WinVolSTA (COM thread).")
	return bk
	except Exception as e:
	logging.info("[Vol] Falling back to DryVol: %r", e)
	return DryVol()


	# ------------------ learner ------------------

	class Learner:
	def __init__(self, path: str, min_events=6, q=0.70):
	self.path = path
	self.min_events = int(min_events)
	self.q = float(q)
	self.global_downs: Deque[float] = deque(maxlen=600)
	self.hour_downs: Dict[int, Deque[float]] = {h: deque(maxlen=300) for h in range(24)}
	self._mu = threading.Lock()
	self.load()

	def load(self):
	if not os.path.exists(self.path):
	return
	try:
	with open(self.path, "r", encoding="utf-8") as f:
	data = json.load(f)
	except Exception as e:
	logging.info("[Learner] load error: %r", e)
	return

	with self._mu:
	self.global_downs.clear()
	for h in range(24):
	self.hour_downs[h].clear()

	g_src = data.get("global_downs", [])
	if isinstance(g_src, list):
	for x in g_src[-600:]:
	try:
	self.global_downs.append(float(x))
	except Exception:
	pass

	h_src = data.get("hour_downs", {})
	if isinstance(h_src, dict):
	for k, arr in h_src.items():
	try:
	h = int(k)
	if 0 <= h <= 23 and isinstance(arr, list):
	for x in arr[-300:]:
	try:
	self.hour_downs[h].append(float(x))
	except Exception:
	pass
	except Exception:
	continue

	def save(self):
	try:
	with self._mu:
	out = {
	"global_downs": list(self.global_downs),
	"hour_downs": {str(h): list(self.hour_downs[h]) for h in range(24)},
	}
	tmp = self.path + ".tmp"
	with open(tmp, "w", encoding="utf-8") as f:
	json.dump(out, f)
	os.replace(tmp, self.path)
	except Exception as e:
	logging.info("[Learner] save error: %r", e)

	@staticmethod
	def _percentile(vals: List[float], q: float) -> float:
	if not vals:
	return -100.0
	s = sorted(vals)
	k = int(round((len(s) - 1) * clamp(q, 0.0, 1.0)))
	return float(s[k])

	def record_down(self, db_at: float, hour: int):
	with self._mu:
	self.global_downs.append(float(db_at))
	if 0 <= hour <= 23:
	self.hour_downs[hour].append(float(db_at))

	def threshold(self, hour: int) -> Optional[float]:
	with self._mu:
	per = self.hour_downs.get(hour, deque())
	g = self.global_downs

	if len(per) >= self.min_events:
	q_use = 0.75 if len(per) > 20 else self.q
	return self._percentile(list(per), q_use)

	if len(g) >= self.min_events:
	q_use = 0.75 if len(g) > 20 else self.q
	return self._percentile(list(g), q_use)

	return None

	def counts(self) -> Tuple[int, Dict[int, int]]:
	with self._mu:
	return len(self.global_downs), {h: len(self.hour_downs[h]) for h in range(24)}

	def reset(self):
	with self._mu:
	self.global_downs.clear()
	for h in range(24):
	self.hour_downs[h].clear()
	self.save()


	# ------------------ speech gate ------------------

	class SpeechGate:
	def __init__(self, fs_capture: int, frame_ms: int = 20, aggressiveness: int = 2, ema_alpha: float = 0.35):
	self.fs_cap = int(fs_capture)
	self.frame_ms = int(frame_ms)
	self._ema = 0.0
	self._alpha = float(clamp(ema_alpha, 0.0, 1.0))
	self._have_vad = _HAVE_WEBRTCVAD
	if self._have_vad:
	self.vad = webrtcvad.Vad(int(clamp(aggressiveness, 0, 3)))

	def _to_16k_pcm16(self, x: np.ndarray) -> Tuple[bytes, int]:
	if x.ndim > 1:
	x = x.mean(axis=1)
	fs16 = 16000
	if self.fs_cap == 48000:
	x = x[::3]
	else:
	idx = np.linspace(0, len(x) - 1, int(len(x) * fs16 / self.fs_cap))
	x = np.interp(idx, np.arange(len(x)), x).astype(np.float32)
	x = np.clip(x, -1.0, 1.0)
	return (x * 32767.0).astype(np.int16).tobytes(), fs16

	def _heuristic_prob(self, block: np.ndarray) -> float:
	if block.ndim > 1:
	x = block.mean(axis=1).astype(np.float32, copy=False)
	else:
	x = block.astype(np.float32, copy=False)

	e_db = 20.0 * math.log10(max(1e-9, float(np.sqrt(np.mean(x * x)))))
	if e_db <= -55.0 or len(x) < 512:
	return 0.0

	zc = float(np.mean((x[1:] * x[:-1]) < 0.0))
	X = np.fft.rfft(x * np.hanning(len(x)))
	mag = np.abs(X) + 1e-9
	freqs = np.fft.rfftfreq(len(x), 1.0 / self.fs_cap)
	hf = float(mag[freqs >= 2000].sum() / mag.sum())
	return 1.0 if (0.03 <= zc <= 0.25) and (0.05 <= hf <= 0.60) else 0.0

	def prob(self, block: Optional[np.ndarray]) -> float:
	if block is None or getattr(block, "size", 0) == 0:
	self._ema = (1.0 - self._alpha) * self._ema
	return self._ema

	if self._have_vad:
	try:
	pcm16, fs16 = self._to_16k_pcm16(block)
	frame_len = int((self.frame_ms / 1000.0) * fs16)
	hits = 0
	total = 0
	step = frame_len * 2
	for i in range(0, len(pcm16), step):
	frame = pcm16[i: i + step]
	if len(frame) < step:
	break
	total += 1
	if self.vad.is_speech(frame, fs16):
	hits += 1
	raw = (hits / total) if total else 0.0
	except Exception:
	raw = 0.0
	else:
	raw = self._heuristic_prob(block)

	self._ema = self._alpha * raw + (1.0 - self._alpha) * self._ema
	return self._ema


	# ------------------ volume poller ------------------

	class VolumePoller:
	def __init__(self, bk, poll_s=0.05, min_step=0.005):
	self.bk = bk
	self.poll_s = float(poll_s)
	self.min_step = float(min_step)
	self._stop = threading.Event()
	self._thr: Optional[threading.Thread] = None
	self._prev = self.bk.get()
	self._callbacks: List[Callable[[float, float, float], None]] = []

	def on_change(self, fn: Callable[[float, float, float], None]):
	self._callbacks.append(fn)

	def start(self):
	if self._thr:
	return

	def run():
	while not self._stop.is_set():
	time.sleep(self.poll_s)
	try:
	cur = self.bk.get()
	except Exception:
	continue
	prev = self._prev
	if abs(cur - prev) >= self.min_step:
	ts = time.time()
	for fn in self._callbacks:
	try:
	fn(ts, prev, cur)
	except Exception:
	pass
	self._prev = cur

	self._thr = threading.Thread(target=run, name="VolPoll", daemon=True)
	self._thr.start()

	def stop(self):
	self._stop.set()
	if self._thr:
	self._thr.join(timeout=1.5)


	# ------------------ controller ------------------

	class AutoVolController:
	def __init__(self, model_path: str, events_path: str, force_dryvol: bool = False):
	self.model_path = model_path
	self.events_path = events_path

	self.FRAME_S = DEFAULT_FRAME_S
	self.BASELINE_WIN_S = 45.0
	self.SHORT_WIN_S = 1.0

	self.OVER_MARGIN_DB = 1.2
	self.ATTACK_DB_MAX = 1.6
	self.RELEASE_DB_MAX = 0.45
	self.MIN_VOL = 0.03

	self.SPEECH_UP_DB = 2.0
	self.NOSPEECH_DOWN_DB = -2.0

	self.IGNORE_OWN_SET_S = 0.8
	self.USER_DOWN_COOLDOWN_S = 1.2
	self.SET_COOLDOWN_S = 1.6
	self.STARTUP_OBS_S = 6.0

	self.NO_SAMPLE_GRACE_S = 8.0
	self.SWITCH_COOLDOWN_S = 15.0

	# v0.10.11: selection preflight and backoff (reduces infinite sampler cycling)
	self.SAMPLER_PREFLIGHT_S = 4.5
	self.SAMPLER_BACKOFF_BASE_S = 25.0
	self.SAMPLER_BACKOFF_MAX_S = 15 * 60.0

	self._stop = threading.Event()
	self._paused = threading.Event()
	self._observe = threading.Event() # observe-only mode (no volume changes)
	self._thread: Optional[threading.Thread] = None
	self._last_set_ts = 0.0
	self._last_user_down_ts = 0.0
	self._startup_ts = time.time()

	self.observe_only = False

	self._last_th: Optional[float] = None
	self._last_p85 = -100.0
	self._last_p95 = -100.0
	self._speech = 0.0
	self._flash_duck_until = 0.0

	self._signal_state = "INIT"
	self._last_sample_ts = time.time()
	self._last_switch_ts = 0.0

	self.bk = choose_backend(force_dry=force_dryvol)
	self.learner = Learner(path=self.model_path)
	self._downs_total = self.learner.counts()[0]

	try:
	self.events = open(self.events_path, "a", encoding="utf-8")
	except Exception as e:
	logging.info("[AutoVol] cannot open events file: %r", e)
	self.events = None

	self.resting = self.bk.get()
	self.current = self.resting

	self.poll = VolumePoller(self.bk, poll_s=0.05, min_step=0.005)
	self.poll.on_change(self._on_user_change)

	self.vad = SpeechGate(fs_capture=48000, frame_ms=20, aggressiveness=2, ema_alpha=0.35)

	self._samplers: List[SamplerBase] = [
	LoopbackSampler_SD(sr=48000, frame_s=self.FRAME_S, history_s=150.0),
	LoopbackSampler_SC(sr=48000, frame_s=self.FRAME_S, history_s=150.0),
	PycawPeakSampler(frame_s=self.FRAME_S, history_s=150.0),
	StereoMixSampler_SD(sr=48000, frame_s=self.FRAME_S, history_s=150.0),
	MeterSampler(frame_s=self.FRAME_S, history_s=150.0),
	]

	self.sampler: Optional[SamplerBase] = None
	self._sampler_idx = -1

	# v0.10.11: per-sampler backoff
	self._sampler_fail: Dict[str, Dict[str, float]] = {}

	self._switch_sampler(reason="startup")

	bk_name = "WinVolSTA" if isinstance(self.bk, WinVolSTA) else "DryVol"
	src = self.sampler.chosen_name() if self.sampler else "none"
	logging.info("[AutoVol] backend=%s sampler=%s model=%s events=%s", bk_name, src, self.model_path, self.events_path)

	@property
	def observe_only(self) -> bool:
	"""If True, AutoVol will not change system volume (it still learns + shows stats)."""
	return bool(self._observe.is_set())

	@observe_only.setter
	def observe_only(self, v: bool) -> None:
	if bool(v):
	self._observe.set()
	else:
	self._observe.clear()

	def _write_event(self, obj: Dict[str, Any]) -> None:
	try:
	if self.events:
	self.events.write(json.dumps(obj) + "\n")
	self.events.flush()
	except Exception:
	pass

	def _sampler_stats(self, window_s: float) -> Stats:
	if self.sampler is not None and hasattr(self.sampler, "win"):
	try:
	return getattr(self.sampler, "win").stats(window_s)
	except Exception:
	pass
	return Stats(-100.0, -100.0, -100.0, -100.0, 0)

	def _sampler_backoff_until(self, key: str) -> float:
	st = self._sampler_fail.get(key, {})
	return float(st.get("until", 0.0))

	def _mark_sampler_fail(self, key: str) -> None:
	now = time.time()
	st = self._sampler_fail.get(key)
	if not st:
	st = {"fails": 0.0, "until": 0.0}
	self._sampler_fail[key] = st
	st["fails"] = float(st.get("fails", 0.0) + 1.0)
	fails = st["fails"]
	backoff = min(self.SAMPLER_BACKOFF_MAX_S, self.SAMPLER_BACKOFF_BASE_S * (2.0 ** max(0.0, fails - 1.0)))
	st["until"] = now + backoff

	def _switch_sampler(self, reason: str) -> None:
	try:
	if self.sampler:
	self.sampler.stop()
	except Exception:
	pass

	picked = None
	best_name = None

	n_samplers = max(1, len(self._samplers))
	now = time.time()

	for _ in range(n_samplers):
	self._sampler_idx = (self._sampler_idx + 1) % n_samplers
	cand = self._samplers[self._sampler_idx]
	key = cand.sampler_key()

	# v0.10.11: skip samplers in backoff
	if now < self._sampler_backoff_until(key):
	continue

	try:
	cand.start()
	except Exception:
	pass

	# v0.10.11: preflight must see actual sample flow (n>0)
	t0 = time.time()
	ok_flow = False
	while time.time() - t0 < self.SAMPLER_PREFLIGHT_S:
	try:
	if cand.samples_recent(1.2):
	ok_flow = True
	break
	except Exception:
	pass
	time.sleep(0.2)

	nm = cand.chosen_name()
	if ok_flow:
	picked = cand
	best_name = nm or key
	break

	# preflight failed -> stop and backoff this sampler
	try:
	cand.stop()
	except Exception:
	pass
	self._mark_sampler_fail(key)

	self.sampler = picked
	self._last_switch_ts = time.time()

	if self.sampler:
	logging.info("[Sampler] switched -> %s (%s)", self.sampler.chosen_name() or best_name or self.sampler.sampler_key(), reason)
	self._signal_state = f"SWITCH({reason})"
	else:
	logging.info("[Sampler] no viable sampler found (%s).", reason)
	self._signal_state = "NO SAMPLER"

	def _update_signal_health(self) -> None:
	now = time.time()

	if self.sampler is not None:
	deg = getattr(self.sampler, "is_degraded", None)
	if callable(deg):
	try:
	if bool(deg()) and (now - self._last_switch_ts) >= self.SWITCH_COOLDOWN_S:
	self._signal_state = "DEGRADED"
	self._switch_sampler(reason="degraded")
	return
	except Exception:
	pass

	st = self._sampler_stats(1.5)
	if st.n > 0:
	self._last_sample_ts = now
	if (
	self._signal_state in ("INIT", "NO SAMPLES", "NO SAMPLER")
	or self._signal_state.startswith("SWITCH")
	or self._signal_state == "DEGRADED"
	):
	self._signal_state = "LIVE"
	return

	if (now - self._last_sample_ts) > self.NO_SAMPLE_GRACE_S:
	self._signal_state = "NO SAMPLES"
	if (now - self._last_switch_ts) >= self.SWITCH_COOLDOWN_S:
	self._switch_sampler(reason="no-samples")

	def vol_set(self, new_scalar: float, why: str = "auto") -> None:
	new_scalar = clamp(new_scalar, self.MIN_VOL, 1.0)
	self.bk.set(new_scalar)
	self.current = new_scalar
	now = time.time()
	self._last_set_ts = now
	self._flash_duck_until = now + 2.2

	self._write_event({
	"ts": round(now, 3),
	"type": "AUTO_SET",
	"why": why,
	"vol": round(new_scalar, 3),
	"th_db": None if self._last_th is None else round(self._last_th, 2),
	"p85_db": round(self._last_p85, 2),
	"p95_db": round(self._last_p95, 2),
	"signal": self._signal_state,
	"sampler": self.sampler.chosen_name() if self.sampler else None,
	})

	def _on_user_change(self, ts: float, old: float, new: float):
	if ts - self._last_set_ts <= self.IGNORE_OWN_SET_S:
	return

	self.resting = new
	self.current = new

	if self._paused.is_set():
	return

	st = self._sampler_stats(self.SHORT_WIN_S)
	hour = time.localtime(ts).tm_hour
	db_at = st.p85

	self._write_event({
	"ts": round(ts, 3),
	"type": "USER_SET",
	"hour": hour,
	"dir": "DOWN" if new < old else "UP",
	"p85_db": round(db_at, 2),
	"old": round(old, 3),
	"new": round(new, 3),
	"signal": self._signal_state,
	"sampler": self.sampler.chosen_name() if self.sampler else None,
	})

	if (
	new < old
	and st.n >= 1
	and (ts - self._last_user_down_ts) > self.USER_DOWN_COOLDOWN_S
	):
	self.learner.record_down(db_at, hour)
	self._last_user_down_ts = ts
	self._downs_total += 1
	self.learner.save()

	def start(self):
	self.poll.start()
	if self._thread:
	return
	self._thread = threading.Thread(target=self._run, name="AutoVolLoop", daemon=True)
	self._thread.start()

	def stop(self):
	self._stop.set()
	try:
	self.poll.stop()
	except Exception:
	pass
	try:
	if isinstance(self.bk, WinVolSTA):
	self.bk.close()
	except Exception:
	pass
	try:
	if self.sampler:
	self.sampler.stop()
	except Exception:
	pass
	try:
	self.learner.save()
	if self.events:
	self.events.close()
	except Exception:
	pass
	if self._thread:
	self._thread.join(timeout=1.5)

	def pause(self, do_pause: bool):
	if do_pause:
	self._paused.set()
	if abs(self.current - self.resting) > 1e-3:
	self.vol_set(self.resting, why="pause->restore")
	else:
	self._paused.clear()

	def reset_learning(self):
	try:
	self.learner.reset()
	self._downs_total = 0
	except Exception:
	pass

	def open_data_folder(self, data_dir: str):
	try:
	if _WIN:
	os.startfile(data_dir) # type: ignore[attr-defined]
	elif sys.platform == "darwin":
	subprocess.Popen(["open", data_dir])
	else:
	subprocess.Popen(["xdg-open", data_dir])
	except Exception:
	pass

	def stats_text_short(self) -> str:
	mode = "P" if self._paused.is_set() else ("O" if self.observe_only or (time.time() - self._startup_ts < self.STARTUP_OBS_S) else "L")
	th_txt = f"{self._last_th:.0f}" if self._last_th is not None else "—"
	src = self.sampler.chosen_name() if self.sampler else "none"
	return f"{self._signal_state} {mode} vol:{self.current:.2f} p85:{self._last_p85:.0f} th:{th_txt} d:{self._downs_total} ({src})"

	def stats_text_long(self) -> str:
	tag = "vad" if _HAVE_WEBRTCVAD else "lite"
	th_txt = f"{self._last_th:.1f}dB" if (self._last_th is not None) else "—"
	mode_txt = "PAUSED" if self._paused.is_set() else ("OBSERVE" if self.observe_only or (time.time() - self._startup_ts < self.STARTUP_OBS_S) else "LIVE")
	duck_txt = " ↓" if (time.time() < self._flash_duck_until) else ""
	src = self.sampler.chosen_name() if self.sampler else "none"
	return f"{self._signal_state} \| {mode_txt}{duck_txt} \| downs:{self._downs_total} \| p85:{self._last_p85:.1f} \| p95:{self._last_p95:.1f} \| th:{th_txt} \| vol:{self.current:.2f} \| sp:{self._speech:.2f}({tag}) \| src:{src}"

	def _maybe_promote_sampler(self, now: float) -> None:
	# This method exists in some builds; keep it safe even if called.
	if self._paused.is_set() or self._observe.is_set():
	return

	def _run(self):
	last_save = time.time()

	while not self._stop.is_set():
	time.sleep(0.25)
	now = time.time()

	actual = self.bk.get()
	if abs(actual - self.current) > 0.05:
	self.resting = actual
	self.current = actual

	self._update_signal_health()
	if self._signal_state in ("NO SAMPLER", "NO SAMPLES"):
	continue

	if self._paused.is_set() or self.observe_only or (now - self._startup_ts < self.STARTUP_OBS_S):
	continue

	if not self.sampler:
	continue

	base = self._sampler_stats(self.BASELINE_WIN_S)
	cur = self._sampler_stats(self.SHORT_WIN_S)
	self._last_p85 = cur.p85
	self._last_p95 = cur.p95

	if cur.n < 1:
	continue

	hour = time.localtime().tm_hour
	th = self.learner.threshold(hour)
	if th is None:
	th = max(base.p70, -45.0) + 6.0
	self._last_th = th

	over85 = cur.p85 - th
	if (now - self._last_set_ts) >= self.SET_COOLDOWN_S and over85 > self.OVER_MARGIN_DB:
	step_db = clamp(over85 * 0.35, 0.25, self.ATTACK_DB_MAX)
	self.vol_set(self.current * db_to_lin(-step_db), why="steady_over85")
	continue

	over95 = cur.p95 - th
	if (now - self._last_set_ts) >= self.SET_COOLDOWN_S and over95 > (self.OVER_MARGIN_DB + 1.8):
	step_db = clamp(over95 * 0.55, 0.6, 2.8)
	self.vol_set(self.current * db_to_lin(-step_db), why="spike_over95")
	continue

	block = None
	try:
	block = self.sampler.get_last_block()
	except Exception:
	block = None

	if block is not None and getattr(block, "size", 0) > 0:
	sp_prob = self.vad.prob(block)
	self._speech = 0.6 * sp_prob + 0.4 * self._speech

	if (now - self._last_set_ts) >= self.SET_COOLDOWN_S:
	target = self.resting
	if self._speech >= 0.55:
	target = min(1.0, self.resting * db_to_lin(self.SPEECH_UP_DB))
	else:
	target = max(self.MIN_VOL, self.resting * db_to_lin(self.NOSPEECH_DOWN_DB))

	if abs(target - self.current) > 0.015:
	step_up = db_to_lin(self.RELEASE_DB_MAX)
	step_dn = db_to_lin(-self.RELEASE_DB_MAX)
	if target > self.current:
	new = min(target, self.current * step_up)
	else:
	new = max(target, self.current * step_dn)
	self.vol_set(new, why="speech_gate")
	else:
	self.vad.prob(None)
	self._speech = 0.0

	if now - last_save >= 25.0:
	last_save = now
	self.learner.save()


	# ------------------ tray ------------------

	def make_icon(color_fg=(255, 255, 255, 255), color_bg=(0, 0, 0, 0)) -> Image.Image:
	W, H = 64, 64
	img = Image.new("RGBA", (W, H), color_bg)
	d = ImageDraw.Draw(img)
	d.rectangle([12, 24, 24, 40], fill=color_fg)
	d.polygon([(24, 24), (36, 16), (36, 48), (24, 40)], fill=color_fg)
	d.arc([38, 18, 58, 46], start=315, end=45, width=3, fill=color_fg)
	d.arc([42, 14, 62, 50], start=315, end=45, width=2, fill=color_fg)
	return img


	def resolve_paths(model_filename: str, events_filename: str) -> Tuple[str, str, str]:
	data_dir = _default_data_dir()
	os.makedirs(data_dir, exist_ok=True)
	model_path = model_filename if os.path.isabs(model_filename) else os.path.join(data_dir, model_filename)
	events_path = events_filename if os.path.isabs(events_filename) else os.path.join(data_dir, events_filename)
	return data_dir, model_path, events_path


	def run_tray():
	ap = argparse.ArgumentParser(add_help=True)
	ap.add_argument("--model", default="autovol_learn.json")
	ap.add_argument("--events", default="autovol_events.jsonl")
	ap.add_argument("--force-dryvol", action="store_true", help="don't touch system volume (debug)")
	ap.add_argument("--observe", action="store_true", help="start in observe-only mode (no volume changes)")
	ap.add_argument("--reset", action="store_true", help="reset learned downs before starting")
	ap.add_argument("--no-autoinstall", action="store_true", help="disable auto-install of missing deps")
	args = ap.parse_args()

	data_dir, model_path, events_path = resolve_paths(args.model, args.events)
	log_path = setup_logging(data_dir)
	logging.info("Log file: %s", log_path)

	ctl = AutoVolController(model_path=model_path, events_path=events_path, force_dryvol=args.force_dryvol)
	if args.reset:
	ctl.reset_learning()
	logging.info("Learning reset.")
	ctl.observe_only = bool(args.observe)
	ctl.start()

	icon_img = make_icon()
	icon = pystray.Icon("AutoVol", icon=icon_img, title="AutoVol")

	def update_title():
	icon.title = safe_tooltip("AutoVol — " + ctl.stats_text_short())

	def on_pause(_icon, _item):
	ctl.pause(not ctl._paused.is_set())
	update_title()

	def on_toggle_observe(_icon, _item):
	ctl.observe_only = not ctl.observe_only
	update_title()

	def on_reset(_icon, _item):
	ctl.reset_learning()
	update_title()

	def on_open(_icon, _item):
	ctl.open_data_folder(data_dir)

	def on_quit(icon_obj, _item):
	try:
	ctl.stop()
	finally:
	icon_obj.stop()

	menu = Menu(
	Item(lambda _item: safe_tooltip("Status: " + ctl.stats_text_long(), max_len=120), None, enabled=False),
	Item(lambda _item: "Observe only (no changes)", on_toggle_observe, checked=lambda _item: ctl.observe_only),
	Item(lambda _item: "Resume" if ctl._paused.is_set() else "Pause", on_pause),
	Item("Reset learning", on_reset),
	Item("Open data folder", on_open),
	Item("Quit", on_quit),
	)
	icon.menu = menu

	def refresher():
	while not ctl._stop.is_set():
	update_title()
	time.sleep(1.8)

	threading.Thread(target=refresher, name="TrayRefresh", daemon=True).start()

	logging.info("[AutoVol] tray up — check system tray.")
	update_title()
	icon.run()


	if __name__ == "__main__":
	try:
	run_tray()
	except KeyboardInterrupt:
	pass
	except Exception as e:
	try:
	dd = _default_data_dir()
	os.makedirs(dd, exist_ok=True)
	with open(os.path.join(dd, "autovol_crash.txt"), "w", encoding="utf-8") as f:
	f.write(repr(e) + "\n\n")
	f.write(traceback.format_exc())
	except Exception:
	pass
	raise