from dotenv import load_dotenv
load_dotenv() # take environment variables from .env.
import os
import asyncio
import threading
import pyaudio
from pynput import keyboard
import json
import traceback
import websockets
import queue
from pydub import AudioSegment
from pydub.playback import play
import time
import wave
import tempfile
from datetime import datetime
import cv2
import base64
import platform
from interpreter import (
interpreter,
) # Just for code execution. Maybe we should let people do from interpreter.computer import run?
# In the future, I guess kernel watching code should be elsewhere? Somewhere server / client agnostic?
from ..server.utils.kernel import put_kernel_messages_into_queue
from ..server.utils.get_system_info import get_system_info
from ..server.utils.process_utils import kill_process_tree
from ..server.utils.logs import setup_logging
from ..server.utils.logs import logger
setup_logging()
os.environ["STT_RUNNER"] = "server"
os.environ["TTS_RUNNER"] = "server"
from ..utils.accumulator import Accumulator
accumulator = Accumulator()
# Configuration for Audio Recording
CHUNK = 1024 # Record in chunks of 1024 samples
FORMAT = pyaudio.paInt16 # 16 bits per sample
CHANNELS = 1 # Mono
RATE = 44100 # Sample rate
RECORDING = False # Flag to control recording state
SPACEBAR_PRESSED = False # Flag to track spacebar press state
# Camera configuration
CAMERA_ENABLED = os.getenv("CAMERA_ENABLED", False)
if type(CAMERA_ENABLED) == str:
CAMERA_ENABLED = CAMERA_ENABLED.lower() == "true"
CAMERA_DEVICE_INDEX = int(os.getenv("CAMERA_DEVICE_INDEX", 0))
CAMERA_WARMUP_SECONDS = float(os.getenv("CAMERA_WARMUP_SECONDS", 0))
# Specify OS
current_platform = get_system_info()
is_win10 = lambda: platform.system() == "Windows" and "10" in platform.version()
# Initialize PyAudio
p = pyaudio.PyAudio()
send_queue = queue.Queue()
class Device:
def __init__(self):
self.pressed_keys = set()
self.captured_images = []
self.audiosegments = []
self.server_url = ""
def fetch_image_from_camera(self, camera_index=CAMERA_DEVICE_INDEX):
"""Captures an image from the specified camera device and saves it to a temporary file. Adds the image to the captured_images list."""
image_path = None
cap = cv2.VideoCapture(camera_index)
ret, frame = cap.read() # Capture a single frame to initialize the camera
if CAMERA_WARMUP_SECONDS > 0:
# Allow camera to warm up, then snap a picture again
# This is a workaround for some cameras that don't return a properly exposed
# picture immediately when they are first turned on
time.sleep(CAMERA_WARMUP_SECONDS)
ret, frame = cap.read()
if ret:
temp_dir = tempfile.gettempdir()
image_path = os.path.join(
temp_dir, f"01_photo_{datetime.now().strftime('%Y%m%d%H%M%S%f')}.png"
)
self.captured_images.append(image_path)
cv2.imwrite(image_path, frame)
logger.info(f"Camera image captured to {image_path}")
logger.info(
f"You now have {len(self.captured_images)} images which will be sent along with your next audio message."
)
else:
logger.error(
f"Error: Couldn't capture an image from camera ({camera_index})"
)
cap.release()
return image_path
def encode_image_to_base64(self, image_path):
"""Encodes an image file to a base64 string."""
with open(image_path, "rb") as image_file:
return base64.b64encode(image_file.read()).decode("utf-8")
def add_image_to_send_queue(self, image_path):
"""Encodes an image and adds an LMC message to the send queue with the image data."""
base64_image = self.encode_image_to_base64(image_path)
image_message = {
"role": "user",
"type": "image",
"format": "base64.png",
"content": base64_image,
}
send_queue.put(image_message)
# Delete the image file from the file system after sending it
os.remove(image_path)
def queue_all_captured_images(self):
"""Queues all captured images to be sent."""
for image_path in self.captured_images:
self.add_image_to_send_queue(image_path)
self.captured_images.clear() # Clear the list after sending
async def play_audiosegments(self):
"""Plays them sequentially."""
while True:
try:
for audio in self.audiosegments:
play(audio)
self.audiosegments.remove(audio)
await asyncio.sleep(0.1)
except asyncio.exceptions.CancelledError:
# This happens once at the start?
pass
except:
logger.info(traceback.format_exc())
def record_audio(self):
if os.getenv("STT_RUNNER") == "server":
# STT will happen on the server. we're sending audio.
send_queue.put(
{"role": "user", "type": "audio", "format": "bytes.wav", "start": True}
)
elif os.getenv("STT_RUNNER") == "client":
# STT will happen here, on the client. we're sending text.
send_queue.put({"role": "user", "type": "message", "start": True})
else:
raise Exception("STT_RUNNER must be set to either 'client' or 'server'.")
"""Record audio from the microphone and add it to the queue."""
stream = p.open(
format=FORMAT,
channels=CHANNELS,
rate=RATE,
input=True,
frames_per_buffer=CHUNK,
)
print("Recording started...")
global RECORDING
# Create a temporary WAV file to store the audio data
temp_dir = tempfile.gettempdir()
wav_path = os.path.join(
temp_dir, f"audio_{datetime.now().strftime('%Y%m%d%H%M%S%f')}.wav"
)
wav_file = wave.open(wav_path, "wb")
wav_file.setnchannels(CHANNELS)
wav_file.setsampwidth(p.get_sample_size(FORMAT))
wav_file.setframerate(RATE)
while RECORDING:
data = stream.read(CHUNK, exception_on_overflow=False)
wav_file.writeframes(data)
wav_file.close()
stream.stop_stream()
stream.close()
print("Recording stopped.")
duration = wav_file.getnframes() / RATE
if duration < 0.3:
# Just pressed it. Send stop message
if os.getenv("STT_RUNNER") == "client":
send_queue.put({"role": "user", "type": "message", "content": "stop"})
send_queue.put({"role": "user", "type": "message", "end": True})
else:
send_queue.put(
{
"role": "user",
"type": "audio",
"format": "bytes.wav",
"content": "",
}
)
send_queue.put(
{
"role": "user",
"type": "audio",
"format": "bytes.wav",
"end": True,
}
)
else:
self.queue_all_captured_images()
if os.getenv("STT_RUNNER") == "client":
# THIS DOES NOT WORK. We moved to this very cool stt_service, llm_service
# way of doing things. stt_wav is not a thing anymore. Needs work to work
# Run stt then send text
text = stt_wav(wav_path)
logger.debug(f"STT result: {text}")
send_queue.put({"role": "user", "type": "message", "content": text})
send_queue.put({"role": "user", "type": "message", "end": True})
else:
# Stream audio
with open(wav_path, "rb") as audio_file:
byte_data = audio_file.read(CHUNK)
while byte_data:
send_queue.put(byte_data)
byte_data = audio_file.read(CHUNK)
send_queue.put(
{
"role": "user",
"type": "audio",
"format": "bytes.wav",
"end": True,
}
)
if os.path.exists(wav_path):
os.remove(wav_path)
def toggle_recording(self, state):
"""Toggle the recording state."""
global RECORDING, SPACEBAR_PRESSED
if state and not SPACEBAR_PRESSED:
SPACEBAR_PRESSED = True
if not RECORDING:
RECORDING = True
threading.Thread(target=self.record_audio).start()
elif not state and SPACEBAR_PRESSED:
SPACEBAR_PRESSED = False
RECORDING = False
def on_press(self, key):
"""Detect spacebar press and Ctrl+C combination."""
self.pressed_keys.add(key) # Add the pressed key to the set
if keyboard.Key.space in self.pressed_keys:
self.toggle_recording(True)
elif {keyboard.Key.ctrl, keyboard.KeyCode.from_char("c")} <= self.pressed_keys:
logger.info("Ctrl+C pressed. Exiting...")
kill_process_tree()
os._exit(0)
def on_release(self, key):
"""Detect spacebar release and 'c' key press for camera, and handle key release."""
self.pressed_keys.discard(
key
) # Remove the released key from the key press tracking set
if key == keyboard.Key.space:
self.toggle_recording(False)
elif CAMERA_ENABLED and key == keyboard.KeyCode.from_char("c"):
self.fetch_image_from_camera()
async def message_sender(self, websocket):
while True:
message = await asyncio.get_event_loop().run_in_executor(
None, send_queue.get
)
if isinstance(message, bytes):
await websocket.send(message)
else:
await websocket.send(json.dumps(message))
send_queue.task_done()
await asyncio.sleep(0.01)
async def websocket_communication(self, WS_URL):
show_connection_log = True
async def exec_ws_communication(websocket):
if CAMERA_ENABLED:
print(
"\nHold the spacebar to start recording. Press 'c' to capture an image from the camera. Press CTRL-C to exit."
)
else:
print("\nHold the spacebar to start recording. Press CTRL-C to exit.")
asyncio.create_task(self.message_sender(websocket))
while True:
await asyncio.sleep(0.01)
chunk = await websocket.recv()
logger.debug(f"Got this message from the server: {type(chunk)} {chunk}")
if type(chunk) == str:
chunk = json.loads(chunk)
message = accumulator.accumulate(chunk)
if message == None:
# Will be None until we have a full message ready
continue
# At this point, we have our message
if message["type"] == "audio" and message["format"].startswith("bytes"):
# Convert bytes to audio file
audio_bytes = message["content"]
# Create an AudioSegment instance with the raw data
audio = AudioSegment(
# raw audio data (bytes)
data=audio_bytes,
# signed 16-bit little-endian format
sample_width=2,
# 16,000 Hz frame rate
frame_rate=16000,
# mono sound
channels=1,
)
self.audiosegments.append(audio)
# Run the code if that's the client's job
if os.getenv("CODE_RUNNER") == "client":
if message["type"] == "code" and "end" in message:
language = message["format"]
code = message["content"]
result = interpreter.computer.run(language, code)
send_queue.put(result)
if is_win10():
logger.info("Windows 10 detected")
# Workaround for Windows 10 not latching to the websocket server.
# See https://github.com/OpenInterpreter/01/issues/197
try:
ws = websockets.connect(WS_URL)
await exec_ws_communication(ws)
except Exception as e:
logger.error(f"Error while attempting to connect: {e}")
else:
while True:
try:
async with websockets.connect(WS_URL) as websocket:
await exec_ws_communication(websocket)
except:
logger.debug(traceback.format_exc())
if show_connection_log:
logger.info(f"Connecting to `{WS_URL}`...")
show_connection_log = False
await asyncio.sleep(2)
async def start_async(self):
# Configuration for WebSocket
WS_URL = f"ws://{self.server_url}"
# Start the WebSocket communication
asyncio.create_task(self.websocket_communication(WS_URL))
# Start watching the kernel if it's your job to do that
if os.getenv("CODE_RUNNER") == "client":
asyncio.create_task(put_kernel_messages_into_queue(send_queue))
asyncio.create_task(self.play_audiosegments())
# If Raspberry Pi, add the button listener, otherwise use the spacebar
if current_platform.startswith("raspberry-pi"):
logger.info("Raspberry Pi detected, using button on GPIO pin 15")
# Use GPIO pin 15
pindef = ["gpiochip4", "15"] # gpiofind PIN15
print("PINDEF", pindef)
# HACK: needs passwordless sudo
process = await asyncio.create_subprocess_exec(
"sudo", "gpiomon", "-brf", *pindef, stdout=asyncio.subprocess.PIPE
)
while True:
line = await process.stdout.readline()
if line:
line = line.decode().strip()
if "FALLING" in line:
self.toggle_recording(False)
elif "RISING" in line:
self.toggle_recording(True)
else:
break
else:
# Keyboard listener for spacebar press/release
listener = keyboard.Listener(
on_press=self.on_press, on_release=self.on_release
)
listener.start()
def start(self):
if os.getenv("TEACH_MODE") != "True":
asyncio.run(self.start_async())
p.terminate()