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2 Commits
73c31c0fb3
...
ea90d87019
Author | SHA1 | Date |
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Siwat Sirichai | ea90d87019 | |
Siwat Sirichai | f285eca6d6 |
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@ -0,0 +1,2 @@
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__pycache__/
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@ -1,7 +1,6 @@
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from tkinter import TOP
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import pyautogui
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import scipy.cluster as cluster
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import scipy
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import sys
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import numpy as np
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from time import sleep, time
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@ -12,29 +11,38 @@ from time import perf_counter as timestamp
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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from multiprocessing import Pool
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import PIL.ImageGrab
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from PIL import Image
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import colorsys
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import win32gui, win32ui, win32con
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class size:
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width = None
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height = None
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def get_screenshot():
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return PIL.ImageGrab.grab()
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def sigint_handler(signal=None, frame=None):
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print ('KeyboardInterrupt is caught')
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board.neopixel_clear()
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sleep(0.75)
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board.shutdown()
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sys.exit(0)
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exit()
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FAST_MODE = False
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FAST_MODE = True
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SATURATION_BOOST_FACTOR = 2.5
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def find_dorminant_color(im):
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if FAST_MODE:
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color = numpy.reshape(numpy.asarray(im),(-1,3))
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color = numpy.median(color,axis=0)
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return color
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h,s,v = colorsys.rgb_to_hsv(r=color[0]/255,g=color[1]/255,b=color[2]/255)
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s = min(1,s*SATURATION_BOOST_FACTOR)
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r,g,b = colorsys.hsv_to_rgb(h=h,s=s,v=v)
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return [r*255,g*255,b*255]
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else:
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NUM_CLUSTERS = 3
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NUM_CLUSTERS = 2
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im = im.resize((50, 50))
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im = im.resize((100, 100))
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ar = np.asarray(im)
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shape = ar.shape
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ar = ar.reshape(np.product(shape[:2]), shape[2]).astype(float)
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@ -45,9 +53,15 @@ def find_dorminant_color(im):
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index_max = np.argmax(counts)
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peak = codes[index_max]
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return peak
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h,s,v = colorsys.rgb_to_hsv(r=peak[0]/255,g=peak[1]/255,b=peak[2]/255)
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s = min(1,s*SATURATION_BOOST_FACTOR)
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r,g,b = colorsys.hsv_to_rgb(h=h,s=s,v=v)
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return [r*255,g*255,b*255]
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if __name__ == '__main__':
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size = size()
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size.width=pyautogui.size().width
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size.height=pyautogui.size().height
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signal.signal(signal.SIGINT, sigint_handler)
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atexit.register(sigint_handler)
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global NUM_LEDS,BOARDER_SIZE,TOP_LEDS,RIGHT_LEDS,BUTTOM_LEDS,LEFT_LEDS,screenshot,board
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@ -56,29 +70,25 @@ if __name__ == '__main__':
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BOARDER_SIZE = 150
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BOARDER_SIZE = 50
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TOP_LEDS = 19
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RIGHT_LEDS = 11
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BUTTOM_LEDS = 17
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LEFT_LEDS = 10
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REDUCTION = 4
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BUTTOM_LEDS = 19
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LEFT_LEDS = 11
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MIN_TIME = 0.05
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NUM_LEDS = TOP_LEDS+RIGHT_LEDS+BUTTOM_LEDS+LEFT_LEDS
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=NUM_LEDS)
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board.neopixel_clear(auto_show=True)
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size = size()
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size.width=pyautogui.size().width/REDUCTION
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size.height=pyautogui.size().height/REDUCTION
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board.neopixel_show()
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screenshot = pyautogui.screenshot()
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pool = Pool(16)
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pool = Pool(8)
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while True:
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try:
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screenshot = PIL.ImageGrab.grab()
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screenshot = get_screenshot()
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lastTime = timestamp()
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chunk = []
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top = screenshot.crop(box=[0,0,size.width,BOARDER_SIZE])
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@ -87,25 +97,26 @@ if __name__ == '__main__':
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right = screenshot.crop(box=[size.width-BOARDER_SIZE,0,size.width,size.height])
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for i in range(0,TOP_LEDS):
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segment = top.crop(box=[i*size.width/TOP_LEDS,0,(i+1)*size.width/TOP_LEDS,BOARDER_SIZE])
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chunk.insert(i,segment)
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for i in range(0,LEFT_LEDS):
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segment = left.crop(box=[0,i*size.height/LEFT_LEDS,BOARDER_SIZE,(i+1)*size.height/LEFT_LEDS])
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chunk.insert(TOP_LEDS+RIGHT_LEDS+BUTTOM_LEDS+LEFT_LEDS-i,segment)
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for i in range(0,BUTTOM_LEDS):
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segment = buttom.crop(box=[i*size.width/BUTTOM_LEDS,0,(i+1)*size.width/BUTTOM_LEDS,BOARDER_SIZE])
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chunk.insert(TOP_LEDS+RIGHT_LEDS+BUTTOM_LEDS-i,segment)
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board.neopixel_show()
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chunk.append(segment)
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for i in range(0,RIGHT_LEDS):
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segment = right.crop(box=[0,i*size.height/RIGHT_LEDS,BOARDER_SIZE,(i+1)*size.height/RIGHT_LEDS])
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chunk.insert(i+TOP_LEDS,segment)
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chunk.append(segment)
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for i in reversed(range(0,BUTTOM_LEDS)):
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segment = buttom.crop(box=[i*size.width/BUTTOM_LEDS,0,(i+1)*size.width/BUTTOM_LEDS,BOARDER_SIZE])
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chunk.append(segment)
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for i in reversed(range(0,LEFT_LEDS)):
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segment = left.crop(box=[0,i*size.height/LEFT_LEDS,BOARDER_SIZE,(i+1)*size.height/LEFT_LEDS])
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chunk.append(segment)
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colors = pool.map(find_dorminant_color,chunk)
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for i in range(0,len(colors)):
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board.neo_pixel_set_value(i,r=int(colors[i][0]),g=int(colors[i][1]),b=int(colors[i][2]))
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board.neopixel_show()
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while timestamp()-lastTime < MIN_TIME:
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sleep(0.001)
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print("loop time : "+str(timestamp()-lastTime))
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except Exception as e:
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print(e)
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print("Retrying")
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#print("loop time : "+str(timestamp()-lastTime))
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@ -2,23 +2,48 @@ import scipy.signal as signal
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import pyaudio
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from matplotlib import pyplot as plt
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import numpy as np
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from time import sleep
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from time import sleep, time
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import cupy
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import atexit
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import signal
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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SAMPLE_SIZE = 1024
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def sigint_handler(signal=None, frame=None):
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print ('KeyboardInterrupt is caught')
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board.neopixel_clear()
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sleep(0.75)
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board.shutdown()
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exit()
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signal.signal(signal.SIGINT, sigint_handler)
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atexit.register(sigint_handler)
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NUM_LEDS = 60
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board = telemetrix_rpi_pico.TelemetrixRpiPico()
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=NUM_LEDS)
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board.neopixel_clear(auto_show=True)
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SAMPLE_SIZE = 4096
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SAMPLE_RATE = 48000
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audio = pyaudio.PyAudio()
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audioStream = audio.open(format=pyaudio.paInt16, channels=1, rate=1000, input=True, frames_per_buffer=SAMPLE_SIZE)
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audioStream = audio.open(format=pyaudio.paInt16, channels=1, rate=SAMPLE_RATE, input=True, frames_per_buffer=SAMPLE_SIZE)
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while True:
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data = audioStream.read(SAMPLE_SIZE)
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sample = np.frombuffer(data, dtype=np.int16)
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# plot data
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plt.plot(sample)
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plt.show()
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freqdom_signal = signal.stft(sample)
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print(freqdom_signal)
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# close stream
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sample = cupy.frombuffer(data, dtype=np.int16)
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power = cupy.sum(cupy.abs(sample))/SAMPLE_SIZE
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if power > 1000:
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freq_dom = cupy.fft.fft(sample,10000)
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freqs = cupy.fft.fftfreq(len(freq_dom))
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power_bass = cupy.sum(cupy.abs(freq_dom[0:30]))/cupy.sum(cupy.abs(freq_dom))*power
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power_bass = max(0,power_bass-275)
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print(power_bass)
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idmax = cupy.argmax(cupy.abs(freq_dom))
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freqmax = abs(freqs[idmax]*SAMPLE_RATE)
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board.neopixel_fill(r=int(min(255,power_bass)),g=0,b=0,auto_show=True)
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else:
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board.neopixel_clear(auto_show=True)
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audioStream.stop_stream()
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audioStream.close()
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audio.terminate()
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@ -0,0 +1,51 @@
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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from time import sleep as delay
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import signal
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import sys
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import colorsys
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import numpy
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from time import perf_counter as millis
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def sigint_handler(signal, frame):
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print ('KeyboardInterrupt is caught')
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board.shutdown()
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sys.exit(0)
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signal.signal(signal.SIGINT, sigint_handler)
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board = telemetrix_rpi_pico.TelemetrixRpiPico()
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NUM_LEDS = 60
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=NUM_LEDS)
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board.neopixel_clear(auto_show=True)
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color = [[255,0,0],[255,127,0],[255,255,0],
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[127,255,0],[0,255,0],[0,255,127],
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[0,255,255],[0,127,255],[0,0,255],
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[127,0,255],[255,0,255],[255,0,127]]
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timecounter = 0
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array = numpy.random.randint(low=0,high=9,size=60)
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def updateLED():
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for i in range(0,NUM_LEDS):
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board.neo_pixel_set_value(i,r=color[array[i]][0],g=color[array[i]][1],b=color[array[i]][2])
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board.neopixel_show()
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while True:
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array = numpy.random.randint(low=0,high=9,size=60)
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isSorted = False
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for i in range(len(array)):
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# loop to compare array elements
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for j in range(0, len(array) - i - 1):
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# compare two adjacent elements
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# change > to < to sort in descending order
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if array[j] > array[j + 1]:
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# swapping elements if elements
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# are not in the intended order
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temp = array[j]
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array[j] = array[j+1]
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array[j+1] = temp
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updateLED()
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delay(0.1)
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board.shutdown()
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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from time import sleep as delay
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import signal
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import sys
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import colorsys
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from time import perf_counter as millis
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def sigint_handler(signal, frame):
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print ('KeyboardInterrupt is caught')
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board.shutdown()
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sys.exit(0)
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signal.signal(signal.SIGINT, sigint_handler)
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board = telemetrix_rpi_pico.TelemetrixRpiPico()
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=60)
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board.neopixel_clear(auto_show=True)
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SEGMENT_SIZE = 1
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VELOCITY = 10
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NUM_LEDS = 60
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color = []
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k = 0
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timecounter = 0
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while(True):
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for j in range(0,NUM_LEDS):
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r, g, b = colorsys.hsv_to_rgb(((-timecounter*VELOCITY+j*4)%360)/360,1,1)
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board.neo_pixel_set_value(j,r=int(r*255),g=int(g*255),b=int(b*255))
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timecounter+=1
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delay(0.1)
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board.neopixel_show()
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@ -0,0 +1,34 @@
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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from time import sleep as delay
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import signal
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import sys
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import numpy
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from time import perf_counter as millis
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def sigint_handler(signal, frame):
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print ('KeyboardInterrupt is caught')
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board.shutdown()
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sys.exit(0)
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signal.signal(signal.SIGINT, sigint_handler)
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board = telemetrix_rpi_pico.TelemetrixRpiPico()
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NUM_LEDS = 60
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=NUM_LEDS)
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board.neopixel_clear(auto_show=True)
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color = [[255,0,0],[255,127,0],[255,255,0],
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[127,255,0],[0,255,0],[0,255,127],
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[0,255,255],[0,127,255],[0,0,255],
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[127,0,255],[255,0,255],[255,0,127]]
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array = numpy.random.randint(low=0,high=9,size=60)
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def updateLED():
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for i in range(0,NUM_LEDS):
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board.neo_pixel_set_value(i,r=color[array[i]][0],g=color[array[i]][1],b=color[array[i]][2])
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board.neopixel_show()
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while True:
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array = numpy.random.randint(low=0,high=9,size=60)
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updateLED()
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delay(0.1)
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board.shutdown()
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@ -0,0 +1,7 @@
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pyautogui
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pillow
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telemetrix_rpi_pico
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numpy
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cupy
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scipy
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pywin32
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@ -0,0 +1,47 @@
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from telemetrix_rpi_pico import telemetrix_rpi_pico
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from time import sleep as delay
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import signal
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import sys
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import colorsys
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import numpy
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from scipy.ndimage.interpolation import shift
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from time import perf_counter as millis
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import threading
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def sigint_handler(signal, frame):
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print ('KeyboardInterrupt is caught')
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board.shutdown()
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sys.exit(0)
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signal.signal(signal.SIGINT, sigint_handler)
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board = telemetrix_rpi_pico.TelemetrixRpiPico()
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NUM_LEDS = 60
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TIME_UNIT = 0.1
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global spaces
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spaces = numpy.zeros(NUM_LEDS)
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board.set_pin_mode_neopixel(pin_number=2,num_pixels=NUM_LEDS)
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board.neopixel_clear(auto_show=True)
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def updateLED():
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for i in range(0,NUM_LEDS):
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board.neo_pixel_set_value(i,r=int(spaces[i]*255),g=int(spaces[i]*255),b=int(spaces[i]*255))
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board.neopixel_show()
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def advanceTimeUnit():
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global spaces
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while True:
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spaces = shift(spaces,1,cval=0)
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updateLED()
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delay(TIME_UNIT)
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atu = threading.Thread(target=advanceTimeUnit)
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atu.start()
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while True:
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input("Press Enter to Particle")
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spaces[0] = 1
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16
test.py
16
test.py
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import cupy
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a = cupy.asarray([[[1, 2, 3],[4,5,6],[7,8,9]],[[10, 11, 12],[13,14,15],[16,17,18]]])
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print(a)
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a= cupy.reshape(a,(-1,3))
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print(a)
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a = cupy.median(a,axis=0)
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print(a)
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import colorsys
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peak = [124.3,231.5, 64.4]
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h,s,v = colorsys.rgb_to_hsv(r=peak[0]/255,g=peak[1]/255,b=peak[2]/255)
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SATURATION_BOOST_FACTOR = 1.5
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s = min(1,s*SATURATION_BOOST_FACTOR)
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print([h,s,v])
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r,g,b = colorsys.hsv_to_rgb(h=h,s=s,v=v)
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print([r,g,b])
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