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feat: improve semantic voice control and music playback

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This commit is contained in:
future
2026-03-15 14:40:33 +03:00
parent e1a94c68db
commit cb54a9ee75
8 changed files with 1656 additions and 276 deletions
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6
.env.example
View File

@@ -39,6 +39,12 @@ TTS_EN_SPEAKER=en_0
WEATHER_LAT=63.56
WEATHER_LON=53.69
WEATHER_CITY=Ухта
# Navidrome (приоритетный источник музыки; при ошибке — fallback на Spotify)
NAVIDROME_URL=https://navidrome.example.com
NAVIDROME_USERNAME=your_navidrome_username
NAVIDROME_PASSWORD=your_navidrome_password
SPOTIFY_CLIENT_ID=your_spotify_client_id
SPOTIFY_CLIENT_SECRET=your_spotify_client_secret
SPOTIFY_REDIRECT_URI=http://localhost:8888/callback

12
README.md
View File

@@ -31,7 +31,8 @@
- Погода: текущий прогноз по городу по умолчанию или по названию города.
- Таймеры, будильники (включая будни/выходные), секундомеры.
- Управление громкостью системы (через `pactl`/`amixer`).
- Управление Spotify (play/pause/next/what's playing).
- Управление музыкой через Navidrome (приоритет) с fallback на Spotify.
- Persistent resume: `пауза`/`продолжи` продолжают с сохранённой позиции даже после перезапуска колонки.
- Мини-игра "Города".
## Как это работает
@@ -60,7 +61,7 @@ flowchart TD
```bash
sudo apt-get update
sudo apt-get install -y portaudio19-dev libasound2-dev mpg123 pulseaudio-utils alsa-utils
sudo apt-get install -y portaudio19-dev libasound2-dev mpg123 mpv pulseaudio-utils alsa-utils
```
### 2) Установка Python-зависимостей
@@ -156,6 +157,9 @@ python run.py
| `WEATHER_LAT` | Нет | - | Широта города по умолчанию |
| `WEATHER_LON` | Нет | - | Долгота города по умолчанию |
| `WEATHER_CITY` | Нет | `Ухта` | Город по умолчанию для погоды |
| `NAVIDROME_URL` | Нет | - | URL Navidrome (например `https://navidrome.example.com`) |
| `NAVIDROME_USERNAME` | Нет | - | Логин Navidrome |
| `NAVIDROME_PASSWORD` | Нет | - | Пароль Navidrome |
| `SPOTIFY_CLIENT_ID` | Нет | - | Spotify OAuth Client ID |
| `SPOTIFY_CLIENT_SECRET` | Нет | - | Spotify OAuth Client Secret |
| `SPOTIFY_REDIRECT_URI` | Нет | `http://localhost:8888/callback` | Redirect URI для Spotify |
@@ -172,7 +176,7 @@ python run.py
| Будильник | `Поставь будильник на 7:30`, `Будильник по будням в 8:00` |
| Секундомер | `Запусти секундомер`, `Покажи активные секундомеры` |
| Громкость | `Громкость 7` |
| Spotify | `Включи музыку`, `Пауза`, `Что сейчас играет` |
| Музыка (Navidrome first) | `Включи музыку`, `Пауза`, `Продолжи`, `Следующий`, `Предыдущий`, `Что играет`, `Включи жанр electronic`, `Включи папку crystal castles` |
| Игра | `Давай сыграем в города` |
| Управление диалогом | `Повтори`, `Стоп`, `Хватит` |
@@ -222,6 +226,8 @@ alexander_smart-speaker/
| `Audio input/output initialization failed` | проверить, что звук-сервер запущен (PipeWire/PulseAudio), и при необходимости задать `AUDIO_INPUT_DEVICE_NAME`/`AUDIO_OUTPUT_DEVICE_NAME` |
| Будильник/таймер не звонит | наличие `mpg123` в системе |
| Ошибка про несколько AI API | в `.env` должен остаться только один незакомментированный AI ключ |
| Navidrome не воспроизводит | заполнены `NAVIDROME_*`, доступен `NAVIDROME_URL`, установлен `mpv` |
| Fallback ушёл в Spotify | проверить доступность Navidrome, SSL и корректность `NAVIDROME_USERNAME`/`NAVIDROME_PASSWORD` |
| Spotify не управляется | заполнены `SPOTIFY_*`, есть активное устройство, Premium-аккаунт |
## Лицензия

234
app/audio/stt.py
View File

@@ -12,6 +12,8 @@ import re
import time
import pyaudio
import logging
import contextlib
import threading
from datetime import datetime, timedelta
from ..core.config import DEEPGRAM_API_KEY, SAMPLE_RATE, WAKE_WORD_ALIASES
from deepgram import (
@@ -29,8 +31,12 @@ from ..core.audio_manager import get_audio_manager
_original_connect = websockets.sync.client.connect
DEEPGRAM_CONNECT_TIMEOUT_SECONDS = 3.0
DEEPGRAM_CONNECT_WAIT_SECONDS = 1.5
DEEPGRAM_CONNECT_WAIT_SECONDS = 4.0
DEEPGRAM_CONNECT_POLL_SECONDS = 0.001
SENDER_STOP_WAIT_SECONDS = 2.5
SENDER_FORCE_RELEASE_WAIT_SECONDS = 2.5
DEEPGRAM_FINALIZATION_GRACE_SECONDS = 0.35
DEEPGRAM_FINISH_TIMEOUT_SECONDS = 4.0
def _patched_connect(*args, **kwargs):
@@ -152,6 +158,82 @@ class SpeechRecognizer:
)
return self.stream
def _open_stream_for_session(self):
"""Открывает отдельный входной поток для одной STT-сессии."""
if self.audio_manager is None:
self.audio_manager = get_audio_manager()
stream, self._input_device_index, sample_rate = self.audio_manager.open_input_stream(
rate=SAMPLE_RATE,
channels=1,
format=pyaudio.paInt16,
frames_per_buffer=4096,
preferred_index=self._input_device_index,
fallback_rates=[48000, 44100, 32000, 22050, 16000, 8000],
)
if sample_rate != SAMPLE_RATE:
print(
f"⚠️ STT mic stream uses fallback rate={sample_rate} "
f"(requested {SAMPLE_RATE})"
)
return stream, int(sample_rate)
def _stop_stream_quietly(self):
if not self.stream:
return
try:
if self.stream.is_active():
self.stream.stop_stream()
except Exception:
pass
def _release_stream(self):
if not self.stream:
return
self._stop_stream_quietly()
try:
self.stream.close()
except Exception:
pass
self.stream = None
async def _wait_for_thread(self, thread, timeout_seconds: float) -> bool:
"""Асинхронно ждет завершения daemon-thread без блокировки event loop."""
deadline = time.monotonic() + timeout_seconds
while thread.is_alive() and time.monotonic() < deadline:
await asyncio.sleep(0.05)
return not thread.is_alive()
async def _run_blocking_cleanup(self, func, timeout_seconds: float, label: str) -> bool:
"""Запускает потенциально подвисающий cleanup в daemon-thread и ждет ограниченное время."""
done_event = threading.Event()
error_holder = {}
def runner():
try:
func()
except Exception as exc:
error_holder["error"] = exc
finally:
done_event.set()
thread = threading.Thread(target=runner, daemon=True, name=label)
thread.start()
deadline = time.monotonic() + timeout_seconds
while not done_event.is_set() and time.monotonic() < deadline:
await asyncio.sleep(0.05)
if not done_event.is_set():
print(f"⚠️ {label} timed out; continuing cleanup.")
return False
error = error_holder.get("error")
if error is not None:
print(f"⚠️ {label} failed: {error}")
return False
return True
async def _process_audio(
self, dg_connection, timeout_seconds, detection_timeout, fast_stop
):
@@ -166,9 +248,9 @@ class SpeechRecognizer:
"""
self.transcript = ""
transcript_parts = []
latest_interim = ""
loop = asyncio.get_running_loop()
stream = self._get_stream()
effective_detection_timeout = (
detection_timeout
if detection_timeout is not None
@@ -192,9 +274,13 @@ class SpeechRecognizer:
# --- Обработчики событий Deepgram ---
def on_transcript(unused_self, result, **kwargs):
"""Вызывается, когда приходит часть текста."""
nonlocal latest_interim
sentence = result.channel.alternatives[0].transcript
if len(sentence) == 0:
return
sentence = sentence.strip()
if not sentence:
return
try:
loop.call_soon_threadsafe(mark_speech_activity)
except RuntimeError:
@@ -202,9 +288,9 @@ class SpeechRecognizer:
if fast_stop:
if _is_fast_stop_utterance(sentence):
self.transcript = sentence.strip()
self.transcript = sentence
try:
loop.call_soon_threadsafe(stop_event.set)
loop.call_soon_threadsafe(request_stop)
except RuntimeError:
pass
return
@@ -213,6 +299,10 @@ class SpeechRecognizer:
# Собираем только финальные (подтвержденные) фразы
transcript_parts.append(sentence)
self.transcript = " ".join(transcript_parts).strip()
latest_interim = ""
else:
# Fallback: некоторые сессии завершаются без is_final.
latest_interim = sentence
def on_speech_started(unused_self, speech_started, **kwargs):
"""Вызывается, когда VAD (Voice Activity Detection) слышит голос."""
@@ -231,7 +321,7 @@ class SpeechRecognizer:
def on_error(unused_self, error, **kwargs):
print(f"Deepgram Error: {error}")
try:
loop.call_soon_threadsafe(stop_event.set)
loop.call_soon_threadsafe(request_stop)
except RuntimeError:
# Event loop might be closed, ignore
pass
@@ -242,14 +332,27 @@ class SpeechRecognizer:
dg_connection.on(LiveTranscriptionEvents.UtteranceEnd, on_utterance_end)
dg_connection.on(LiveTranscriptionEvents.Error, on_error)
# Параметры распознавания
# --- Задача отправки аудио с буферизацией ---
sender_stop_event = threading.Event()
def request_stop():
stop_event.set()
sender_stop_event.set()
def send_audio():
chunks_sent = 0
audio_buffer = [] # Буфер для накопления звука во время подключения
stream = None
try:
stream, stream_sample_rate = self._open_stream_for_session()
options = LiveOptions(
model="nova-2", # Самая быстрая и точная модель
language=self.current_lang,
smart_format=True, # Расстановка знаков препинания
encoding="linear16",
channels=1,
sample_rate=self._stream_sample_rate,
sample_rate=stream_sample_rate,
interim_results=True,
utterance_end_ms=int(POST_SPEECH_SILENCE_TIMEOUT_SECONDS * 1000),
vad_events=True,
@@ -257,12 +360,6 @@ class SpeechRecognizer:
endpointing=int(POST_SPEECH_SILENCE_TIMEOUT_SECONDS * 1000),
)
# --- Задача отправки аудио с буферизацией ---
async def send_audio():
chunks_sent = 0
audio_buffer = [] # Буфер для накопления звука во время подключения
try:
# 1. Сразу начинаем захват звука, не дожидаясь сети!
stream.start_stream()
print("🎤 Stream started (buffering)...")
@@ -270,34 +367,61 @@ class SpeechRecognizer:
# 2. Запускаем подключение к Deepgram в фоне (через ThreadPool, т.к. start() блокирующий)
# Но в данном SDK start() возвращает bool, он может быть блокирующим.
# Deepgram Python SDK v3+ start() делает handshake.
connect_result = {"done": False, "ok": None, "error": None}
connect_future = loop.run_in_executor(
None, lambda: dg_connection.start(options)
def start_connection():
try:
connect_result["ok"] = dg_connection.start(options)
except Exception as exc:
connect_result["error"] = exc
finally:
connect_result["done"] = True
connect_thread = threading.Thread(
target=start_connection, daemon=True
)
connect_thread.start()
# Пока подключаемся, копим данные.
# Ждём коротко: если сеть подвисла, быстрее перезапускаем попытку.
connect_deadline = time.monotonic() + DEEPGRAM_CONNECT_WAIT_SECONDS
while (
not connect_future.done()
not connect_result["done"]
and time.monotonic() < connect_deadline
and not sender_stop_event.is_set()
):
if stream.is_active():
try:
data = stream.read(4096, exception_on_overflow=False)
except Exception as read_error:
if sender_stop_event.is_set():
return
print(f"Audio read error during connect: {read_error}")
with contextlib.suppress(RuntimeError):
loop.call_soon_threadsafe(request_stop)
return
audio_buffer.append(data)
await asyncio.sleep(DEEPGRAM_CONNECT_POLL_SECONDS)
time.sleep(DEEPGRAM_CONNECT_POLL_SECONDS)
if not connect_future.done():
if sender_stop_event.is_set():
return
if not connect_result["done"]:
print(
f"⏰ Timeout connecting to Deepgram ({DEEPGRAM_CONNECT_WAIT_SECONDS:.1f}s)"
)
stop_event.set()
loop.call_soon_threadsafe(request_stop)
return
# Проверяем результат подключения
if connect_future.result() is False:
if connect_result["error"] is not None:
print(f"Failed to start Deepgram connection: {connect_result['error']}")
loop.call_soon_threadsafe(request_stop)
return
if connect_result["ok"] is False:
print("Failed to start Deepgram connection")
stop_event.set()
loop.call_soon_threadsafe(request_stop)
return
print(f"🚀 Connected! Sending buffer ({len(audio_buffer)} chunks)...")
@@ -310,23 +434,45 @@ class SpeechRecognizer:
audio_buffer = None # Освобождаем память
# 4. Продолжаем стримить в реальном времени до события остановки.
while not stop_event.is_set():
if stream.is_active():
while not sender_stop_event.is_set():
if not stream.is_active():
break
try:
data = stream.read(4096, exception_on_overflow=False)
except Exception as read_error:
if sender_stop_event.is_set():
break
print(f"Audio read error: {read_error}")
with contextlib.suppress(RuntimeError):
loop.call_soon_threadsafe(request_stop)
break
if sender_stop_event.is_set():
break
dg_connection.send(data)
chunks_sent += 1
if chunks_sent % 50 == 0:
print(".", end="", flush=True)
await asyncio.sleep(0.002) # Уменьшаем задержку для более быстрого реагирования
time.sleep(0.002) # Уменьшаем задержку для более быстрого реагирования
except Exception as e:
print(f"Audio send error: {e}")
with contextlib.suppress(RuntimeError):
loop.call_soon_threadsafe(request_stop)
finally:
if stream.is_active():
with contextlib.suppress(Exception):
if stream and stream.is_active():
stream.stop_stream()
with contextlib.suppress(Exception):
if stream:
stream.close()
print(f"\n🛑 Stream stopped. Chunks sent: {chunks_sent}")
sender_task = asyncio.create_task(send_audio())
sender_thread = threading.Thread(
target=send_audio,
daemon=True,
name="deepgram-audio-sender",
)
sender_thread.start()
if False: # dg_connection.start(options) перенесен внутрь send_audio
pass
@@ -356,7 +502,7 @@ class SpeechRecognizer:
if not done:
# Если за detection_timeout никто не начал говорить, выходим
stop_event.set()
request_stop()
# 2. После старта речи завершаем только по тишине POST_SPEECH_SILENCE_TIMEOUT_SECONDS.
# Добавляем длинный защитный лимит, чтобы сессия не зависла навсегда.
@@ -374,7 +520,7 @@ class SpeechRecognizer:
now - last_speech_activity
>= POST_SPEECH_SILENCE_TIMEOUT_SECONDS
):
stop_event.set()
request_stop()
break
if (
@@ -383,7 +529,7 @@ class SpeechRecognizer:
>= max_active_speech_seconds
):
print("⏱️ Достигнут защитный лимит активного прослушивания.")
stop_event.set()
request_stop()
break
await asyncio.sleep(0.05)
@@ -393,19 +539,29 @@ class SpeechRecognizer:
except Exception as e:
print(f"Error in waiting for events: {e}")
stop_event.set()
try:
await sender_task
except Exception as e:
print(f"Error waiting for sender task: {e}")
request_stop()
sender_stopped = await self._wait_for_thread(
sender_thread,
timeout_seconds=max(SENDER_STOP_WAIT_SECONDS, SENDER_FORCE_RELEASE_WAIT_SECONDS),
)
if not sender_stopped:
print("⚠️ Audio sender shutdown timed out; continuing cleanup.")
# Небольшая пауза, чтобы получить последние transcript-события перед finish().
await asyncio.sleep(DEEPGRAM_FINALIZATION_GRACE_SECONDS)
# Завершаем соединение и ждем последние результаты
try:
dg_connection.finish()
except Exception as e:
print(f"Error finishing connection: {e}")
await self._run_blocking_cleanup(
dg_connection.finish,
timeout_seconds=DEEPGRAM_FINISH_TIMEOUT_SECONDS,
label="Deepgram finish",
)
return self.transcript
final_text = self.transcript.strip()
if not final_text:
final_text = latest_interim.strip()
self.transcript = final_text
return final_text
def listen(
self,

11
app/audio/tts.py
View File

@@ -286,6 +286,9 @@ class TextToSpeech:
if not text.strip():
return True
if check_interrupt is None:
check_interrupt = self._default_interrupt_checker()
if language == "ru":
text = self._preprocess_text(text)
segments = self._split_mixed_language(text)
@@ -296,6 +299,14 @@ class TextToSpeech:
text, check_interrupt=check_interrupt, language=language
)
def _default_interrupt_checker(self):
try:
from .wakeword import check_wakeword_once
return check_wakeword_once
except Exception:
return None
def _resample_audio(self, audio_np: np.ndarray, src_rate: int, dst_rate: int):
if src_rate == dst_rate:
return audio_np.astype(np.float32, copy=False)

138
app/core/ai.py
View File

@@ -54,6 +54,26 @@ No explanations, no quotes, no comments.
Separate variants with " / " (space slash space).
Keep the translation максимально кратким и естественным, без лишних слов."""
INTENT_SYSTEM_PROMPT = """Ты NLU-модуль голосовой колонки.
Твоя задача: распознать намерение пользователя и вернуть СТРОГО JSON без markdown и пояснений.
Всегда возвращай объект c ключами:
{
"intent": "none|music|timer|alarm|weather|volume|translation|cities|repeat|stop|smalltalk|chat",
"normalized_command": "<краткая нормализованная команда на русском или пусто>",
"music_action": "none|play|pause|resume|next|previous|current|play_genre|play_folder|play_query",
"music_query": "<запрос для музыки/жанра/папки или пусто>",
"confidence": 0.0
}
Правила:
- Если это музыка, ставь intent=music и выбирай music_action.
- "Включи музыку" и любые эквиваленты = music_action=play.
- Для "пауза/останови музыку/выключи музыку" = music_action=pause.
- Для "что играет" = music_action=current.
- Для "включи жанр X" = music_action=play_genre, music_query=X.
- Для "включи папку X" = music_action=play_folder, music_query=X.
- normalized_command должен быть пригоден для командного парсера (без лишних слов).
- Если уверенность низкая, ставь intent=none, music_action=none, confidence <= 0.4."""
_PROVIDER_ALIASES = {
"": "openrouter",
"anthropic": "anthropic",
@@ -381,6 +401,32 @@ def _log_request_exception(cfg, error: Exception):
print(f"❌ Ошибка API ({cfg['name']}): {error}{details}")
def _extract_json_object(raw_text: str) -> Optional[dict]:
text = str(raw_text or "").strip()
if not text:
return None
try:
payload = json.loads(text)
if isinstance(payload, dict):
return payload
except json.JSONDecodeError:
pass
match = re.search(r"\{.*\}", text, flags=re.DOTALL)
if not match:
return None
candidate = match.group(0).strip()
try:
payload = json.loads(candidate)
except json.JSONDecodeError:
return None
if isinstance(payload, dict):
return payload
return None
def _send_request(messages, max_tokens, temperature, error_text):
"""
Внутренняя функция для отправки HTTP-запроса к выбранному AI-провайдеру.
@@ -422,6 +468,98 @@ def _send_request(messages, max_tokens, temperature, error_text):
return "Не удалось обработать ответ от AI."
def interpret_assistant_intent(text: str) -> dict:
"""
Interprets voice command semantics for downstream command routers.
Returns a normalized dict even when AI is unavailable.
"""
result = {
"intent": "none",
"normalized_command": "",
"music_action": "none",
"music_query": "",
"confidence": 0.0,
}
cleaned_text = str(text or "").strip()
if not cleaned_text:
return result
cfg, selection_error = _get_provider_settings()
if selection_error:
return result
if _get_provider_config_error(cfg):
return result
messages = [
{"role": "system", "content": INTENT_SYSTEM_PROMPT},
{"role": "user", "content": cleaned_text},
]
response = _send_request(
messages,
max_tokens=220,
temperature=0.0,
error_text="",
)
payload = _extract_json_object(response)
if not payload:
return result
allowed_intents = {
"none",
"music",
"timer",
"alarm",
"weather",
"volume",
"translation",
"cities",
"repeat",
"stop",
"smalltalk",
"chat",
}
allowed_music_actions = {
"none",
"play",
"pause",
"resume",
"next",
"previous",
"current",
"play_genre",
"play_folder",
"play_query",
}
intent = str(payload.get("intent", "none")).strip().lower()
if intent not in allowed_intents:
intent = "none"
music_action = str(payload.get("music_action", "none")).strip().lower()
if music_action not in allowed_music_actions:
music_action = "none"
try:
confidence = float(payload.get("confidence", 0.0))
except (TypeError, ValueError):
confidence = 0.0
confidence = max(0.0, min(1.0, confidence))
normalized_command = str(payload.get("normalized_command", "")).strip()
music_query = str(payload.get("music_query", "")).strip()
result.update(
{
"intent": intent,
"normalized_command": normalized_command,
"music_action": music_action,
"music_query": music_query,
"confidence": confidence,
}
)
return result
def ask_ai(messages_history: list) -> str:
"""
Запрос к AI в режиме чата.

5
app/core/config.py
View File

@@ -129,3 +129,8 @@ TTS_SAMPLE_RATE = 48000
WEATHER_LAT = os.getenv("WEATHER_LAT")
WEATHER_LON = os.getenv("WEATHER_LON")
WEATHER_CITY = os.getenv("WEATHER_CITY", "Ухта")
# --- Настройки Navidrome (музыка) ---
NAVIDROME_URL = os.getenv("NAVIDROME_URL", "").strip().rstrip("/")
NAVIDROME_USERNAME = os.getenv("NAVIDROME_USERNAME", "").strip()
NAVIDROME_PASSWORD = os.getenv("NAVIDROME_PASSWORD", "")

1365
app/features/music.py
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File diff suppressed because it is too large Load Diff

115
app/main.py
View File

@@ -33,7 +33,7 @@ from .audio.wakeword import (
from .audio.wakeword import (
stop_monitoring as stop_wakeword_monitoring,
)
from .core.ai import ask_ai_stream, translate_text
from .core.ai import ask_ai_stream, interpret_assistant_intent, translate_text
from .core.config import BASE_DIR, WAKE_WORD
from .core.cleaner import clean_response
from .core.commands import is_stop_command
@@ -163,6 +163,10 @@ _CITY_PATTERNS = [
),
]
_SEMANTIC_INTENT_MIN_CONFIDENCE = 0.55
_SEMANTIC_MUSIC_MIN_CONFIDENCE = 0.45
_SEMANTIC_REPEAT_STOP_MIN_CONFIDENCE = 0.72
def signal_handler(sig, frame):
"""Обработчик Ctrl+C."""
@@ -311,7 +315,7 @@ def main():
continue # Продолжаем цикл
else:
# Follow-up режим — без wake word
print(f"👂 Слушаю ({followup_idle_timeout_seconds:.0f} сек)...")
print(f"👂 Слушаю ({followup_idle_timeout_seconds:.1f} сек)...")
try:
user_text = listen(
timeout_seconds=7.0,
@@ -341,6 +345,11 @@ def main():
# Проверка на команду "Стоп"
if is_stop_command(user_text):
music_controller = get_music_controller()
music_stop_response = music_controller.pause_for_stop_word()
if music_stop_response:
print(f"🎵 {music_stop_response}")
if stopwatch_manager.has_running_stopwatches():
stopwatch_stop_response = stopwatch_manager.pause_stopwatches()
clean_stopwatch_stop_response = clean_response(
@@ -369,8 +378,93 @@ def main():
skip_wakeword = True
continue
effective_text = user_text
semantic_intent = interpret_assistant_intent(user_text)
semantic_type = str(semantic_intent.get("intent", "none")).strip().lower()
try:
semantic_confidence = float(
semantic_intent.get("confidence", 0.0) or 0.0
)
except (TypeError, ValueError):
semantic_confidence = 0.0
semantic_command = str(semantic_intent.get("normalized_command", "")).strip()
semantic_music_action = (
str(semantic_intent.get("music_action", "none")).strip().lower()
)
semantic_music_query = str(semantic_intent.get("music_query", "")).strip()
if (
semantic_type == "stop"
and semantic_confidence >= _SEMANTIC_REPEAT_STOP_MIN_CONFIDENCE
):
music_controller = get_music_controller()
music_stop_response = music_controller.pause_for_stop_word()
if music_stop_response:
print(f"🎵 {music_stop_response}")
if stopwatch_manager.has_running_stopwatches():
stopwatch_stop_response = stopwatch_manager.pause_stopwatches()
clean_stopwatch_stop_response = clean_response(
stopwatch_stop_response, language="ru"
)
speak(clean_stopwatch_stop_response)
last_response = clean_stopwatch_stop_response
skip_wakeword = False
continue
print("_" * 50)
print(f"💤 Жду '{WAKE_WORD}'...")
skip_wakeword = False
continue
if (
semantic_type == "repeat"
and semantic_confidence >= _SEMANTIC_REPEAT_STOP_MIN_CONFIDENCE
):
if last_response:
print(f"🔁 Повторяю: {last_response}")
speak(last_response)
else:
speak("Я еще ничего не говорил.")
skip_wakeword = True
continue
if (
semantic_type == "music"
and semantic_confidence >= _SEMANTIC_MUSIC_MIN_CONFIDENCE
):
music_controller = get_music_controller()
semantic_music_response = music_controller.handle_semantic_action(
semantic_music_action,
semantic_music_query,
)
if semantic_music_response:
clean_music_response = clean_response(
semantic_music_response, language="ru"
)
speak(clean_music_response)
last_response = clean_music_response
skip_wakeword = True
continue
if (
semantic_command
and semantic_confidence >= _SEMANTIC_INTENT_MIN_CONFIDENCE
and semantic_type
in {
"music",
"timer",
"alarm",
"weather",
"volume",
"translation",
"cities",
}
):
effective_text = semantic_command
print(f"🧠 Команда: '{user_text}' -> '{effective_text}'")
# Small-talk
smalltalk_response = get_smalltalk_response(user_text)
smalltalk_response = get_smalltalk_response(effective_text)
if smalltalk_response:
clean_smalltalk = clean_response(smalltalk_response, language="ru")
speak(clean_smalltalk)
@@ -378,7 +472,7 @@ def main():
skip_wakeword = True
continue
command_text = user_text
command_text = effective_text
command_text_lower = command_text.lower()
if pending_time_target == "timer" and "таймер" not in command_text_lower:
command_text = f"таймер {command_text}"
@@ -427,9 +521,9 @@ def main():
continue
# Громкость
if user_text.lower().startswith("громкость"):
if command_text.lower().startswith("громкость"):
try:
vol_str = user_text.lower().replace("громкость", "", 1).strip()
vol_str = command_text.lower().replace("громкость", "", 1).strip()
level = parse_volume_text(vol_str)
if level is not None:
@@ -455,7 +549,7 @@ def main():
# Погода
requested_city = None
user_text_lower = user_text.lower()
user_text_lower = command_text.lower()
for pattern in _CITY_PATTERNS:
match = pattern.search(user_text_lower)
@@ -487,7 +581,7 @@ def main():
# Музыка
music_controller = get_music_controller()
music_response = music_controller.parse_command(user_text)
music_response = music_controller.parse_command(command_text)
if music_response:
clean_music_response = clean_response(music_response, language="ru")
speak(clean_music_response)
@@ -496,7 +590,7 @@ def main():
continue
# Перевод
translation_request = parse_translation_request(user_text)
translation_request = parse_translation_request(command_text)
if translation_request:
source_lang = translation_request["source_lang"]
target_lang = translation_request["target_lang"]
@@ -553,8 +647,7 @@ def main():
continue
# Игра "Города"
cities_response = cities_game.handle(user_text)
cities_response = cities_game.handle(user_text)
cities_response = cities_game.handle(command_text)
if cities_response:
clean_cities_response = clean_response(cities_response, language="ru")
speak(clean_cities_response)