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	import os
	import queue
	import sys
	import time

	import matplotlib.pyplot as plt
	import numpy as np
	import sounddevice as sd
	import soundfile as sf
	from gpiozero import Buzzer
	from scipy import signal
	from scipy.io import wavfile

	buzzer = Buzzer(2)
	assert np # its needed for a package but we don't use it


	# MEANT TO BE RUN ON THE RASPBERRY PI

	# option to delete old files
	if os.path.exists("rec1.wav") \| os.path.exists("rec2.wav") \| os.path.exists("rec3.wav"):
	if input("Delete old files? (y/n)") == "y":
	os.remove("rec1.wav")
	os.remove("rec2.wav")
	os.remove("rec3.wav")

	q1 = queue.Queue()
	q2 = queue.Queue()
	q3 = queue.Queue()

	# has to be 48000 for some reason otherwise crashes with pipewire
	fs = 48000 # Hz

	sd.default.samplerate = fs

	print(sd.query_devices())

	# functions for the instantiated object to run every loop
	def callback1(indata, frames, time, status):
	"""This is called (from a separate thread) for each audio block."""
	if status:
	print(status, file=sys.stderr)
	q1.put(indata.copy())


	def callback2(indata, frames, time, status):
	"""This is called (from a separate thread) for each audio block."""
	if status:
	print(status, file=sys.stderr)
	q2.put(indata.copy())


	def callback3(indata, frames, time, status):
	"""This is called (from a separate thread) for each audio block."""
	if status:
	print(status, file=sys.stderr)
	q3.put(indata.copy())

	# calculate delay for the buzzer syncing
	def calc_delay(file1, file2, file3):
	# read data
	data1 = wavfile.read(file1)[1]
	data2 = wavfile.read(file2)[1]
	data3 = wavfile.read(file3)[1]

	peak1, _ = signal.find_peaks(data1, height=7000)
	peak2, _ = signal.find_peaks(data2, height=7000)
	peak3, _ = signal.find_peaks(data3, height=7000)
	if peak1.size == 0 or peak2.size == 0 or peak3.size == 0:
	# throw error
	raise Exception("No peak found, change the height value")
	for i in peak1:
	frame1 = i
	if frame1 / fs > 1:
	break
	for i in peak2:
	frame2 = i
	if frame2 / fs > 1:
	break
	for i in peak3:
	frame3 = i
	if frame3 / fs > 1:
	break
	return [max([frame1, frame2, frame3]) - x for x in [frame1, frame2, frame3]]

	# find order of microphones
	def find_order(file1, file2, file3):
	data1 = wavfile.read(file1)[1]
	data2 = wavfile.read(file2)[1]
	data3 = wavfile.read(file3)[1]

	peak1, _ = signal.find_peaks(data1, height=7000)
	peak2, _ = signal.find_peaks(data2, height=7000)
	peak3, _ = signal.find_peaks(data3, height=7000)
	if peak1.size == 0 or peak2.size == 0 or peak3.size == 0:
	# throw error
	raise Exception(
	"No peak found, change the height value or try again but louder"
	)
	# plot the peaks
	# plt.plot(data1)
	# plt.plot(peak1, data1[peak1], "x")
	# plt.plot(data2)
	# plt.plot(peak2, data2[peak2], "x")
	# plt.plot(data3)
	# plt.plot(peak3, data3[peak3], "x")
	# plt.savefig("flick.png")

	# TODO peak functions return an array so you need to find the flicks only somehow

	return [
	x[0]
	for x in sorted(
	[[1, np.average(peak1)], [2, np.average(peak2)], [3, np.average(peak3)]],
	key=lambda x: x[1],
	)
	]

	# record function
	def record(
	buzzer_sync=False,
	order_mics=False,
	duration=0.0,
	delay=[0, 0, 0],
	file_name_1="rec1.wav",
	file_name_2="rec2.wav",
	file_name_3="rec3.wav",
	):
	# TODO may be the thing causing the weird length

	try:
	with sf.SoundFile(
	file_name_1, mode="x", samplerate=fs, channels=1
	) as file1, sf.SoundFile(
	file_name_2, mode="x", samplerate=fs, channels=1
	) as file2, sf.SoundFile(
	file_name_3, mode="x", samplerate=fs, channels=1
	) as file3:
	start_time = time.time()
	if delay != [0, 0, 0]:
	for sample in np.zeros(delay[0]):
	file1.write(sample)
	for sample in np.zeros(delay[1]):
	file2.write(sample)
	for sample in np.zeros(delay[2]):
	file3.write(sample)
	with sd.InputStream(
	samplerate=fs, device=1, channels=1, callback=callback1
	), sd.InputStream(
	samplerate=fs, device=2, channels=1, callback=callback2
	), sd.InputStream(
	samplerate=fs, device=3, channels=1, callback=callback3
	):
	if duration != 0.0:
	print("Recording for " + str(duration) + " seconds")
	else:
	print("press Ctrl+C to stop the recording")
	while True:
	# TODO on the data collection the length is inconsistent but fine everywhere else
	# may be the delay loops
	dur_time = time.time() - start_time
	file1.write(q1.get())
	file2.write(q2.get())
	file3.write(q3.get())
	if buzzer_sync:
	if dur_time >= 1.2:
	buzzer.off()
	elif dur_time >= 1:
	buzzer.on()
	if duration != 0.0 and dur_time >= duration:
	# i think this might be the error along with the delay
	raise KeyboardInterrupt

	except KeyboardInterrupt:
	print("\nRecording finished: ")
	# find peak
	if buzzer_sync:
	return calc_delay(file_name_1, file_name_2, file_name_3)
	# flush the queues
	if order_mics:
	print("Order: ", find_order(file_name_1, file_name_2, file_name_3))

	# data collection
	def collect_data(delay_times):
	# TODO make some loop with delay and file name option record function to collect data
	no = 0
	# Core loop 10 times around, nothing twice, unrelated talking twice
	# loop the core loop with location, background noise, music, talking, nothing
	location = ""
	background = ""
	for i2 in range(4):
	# location level loop
	if i2 == 0:
	location = "my room"
	if i2 == 1:
	location = "living room"
	if i2 == 2:
	location = "living room coffee table"
	if i2 == 3:
	location = "other room"
	for j in range(6):
	# background stuff level loop
	if j == 0:
	background = "nothing"
	if j == 1:
	background = "one music"
	if j == 2:
	background = "one talking"
	if j == 3:
	background = "one talking and one music"
	if j == 4:
	background = "two talking"
	if j == 5:
	background = "two music"
	if j == 6:
	background = "random coughing or clapping"
	for i in range(10):
	# skip if file already exists
	if i <= 5:
	if os.path.exists(f"rec_{no}_a_t.wav"):
	no += 1
	continue
	else:
	if os.path.exists(f"rec_{no}_a_f.wav"):
	no += 1
	continue
	# buzzer beep
	buzzer.on()
	time.sleep(0.2)
	buzzer.off()
	# direction and label level loop
	if i == 0:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 1:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 1:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 1.5:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 2:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 2:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 3:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 2.5:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 4:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 3:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 5:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, hey at position 3.5 or 0.5:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_t.wav",
	file_name_2=f"rec_{no}_b_t.wav",
	file_name_3=f"rec_{no}_c_t.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 6:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, nothing:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_f.wav",
	file_name_2=f"rec_{no}_b_f.wav",
	file_name_3=f"rec_{no}_c_f.wav",
	delay=delay_times,
	)
	no += 1
	if i == 7:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, nothing:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_f.wav",
	file_name_2=f"rec_{no}_b_f.wav",
	file_name_3=f"rec_{no}_c_f.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 8:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, random noise/talking at any position:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_f.wav",
	file_name_2=f"rec_{no}_b_f.wav",
	file_name_3=f"rec_{no}_c_f.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1
	if i == 9:
	print("#" * 80)
	print("recording no. : " + str(no) + "/" + str(10 * 4 * 6))
	print("location: " + location)
	print("background: " + background)
	input("enter to start, random noise/talking at any position:")
	buzzer.on()
	time.sleep(0.1)
	buzzer.off()
	print("#" * 10 + "recording started" + "#" * 10)
	record(
	duration=3,
	file_name_1=f"rec_{no}_a_f.wav",
	file_name_2=f"rec_{no}_b_f.wav",
	file_name_3=f"rec_{no}_c_f.wav",
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	no += 1


	# sync record
	print("#" * 80)
	print("calculating delay times")
	delay_times = record(buzzer_sync=True, duration=1.5)
	print("Delay times: ", delay_times)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	os.remove("rec1.wav")
	os.remove("rec2.wav")
	os.remove("rec3.wav")
	print("#" * 80)
	print("#" * 80)
	print("calculating microphone locations")
	print("tap the microphones in order then ^c")
	# seems somewhat optional between uses, but can't guarantee anything with USB
	record(
	order_mics=True,
	delay=delay_times,
	)
	q1.queue.clear()
	q2.queue.clear()
	q3.queue.clear()
	os.remove("rec1.wav")
	os.remove("rec2.wav")
	os.remove("rec3.wav")
	print("#" * 80)
	collect_data(delay_times)