def on_wait(self, agent, t): FALLOFF = 1.9 SCAN_SPEED = 4 # ledshim.set_brightness(0.4) ledshim.set_clear_on_exit() ledshim.clear() ledshim.show() # Buffering start and end time to avoid hitting associations, # deauths, and handshakes since it can bug out the wait cycle time.sleep(1) start_time = time.time() while (time.time() - start_time) < (t - 2): delta = (time.time() - start_time) offset = (math.sin(delta * SCAN_SPEED) + 1) / 2 hue = int(round(offset * 360)) max_val = ledshim.NUM_PIXELS - 1 offset = int(round(offset * max_val)) for x in range(ledshim.NUM_PIXELS): sat = 1.0 val = max_val - (abs(offset - x) * FALLOFF) val /= float(max_val) # Convert to 0.0 to 1.0 val = max(val, 0.0) # Ditch negative values r, g, b = [255, 0, 0] ledshim.set_pixel(x, r, g, b, val / 4) ledshim.show() time.sleep(0.001) ledshim.clear() ledshim.show()
def breakup(): stopAnimations() # stop animation thread showTime = 2.0 # show for 2 seconds startTime = time.time() while time.time() - startTime < showTime: pixels = random.sample(range(ledshim.NUM_PIXELS), random.randint(1, 5)) for i in range(ledshim.NUM_PIXELS): if i in pixels: ledshim.set_pixel(i, 255, 150, 0) else: ledshim.set_pixel(i, 0, 0, 0) ledshim.show() time.sleep(0.05) ledshim.clear() # turn off after showTime ledshim.show()
def on_deauthentication(self, agent, access_point, client_station): ledshim.set_clear_on_exit() ledshim.clear() ledshim.show() num = 5 while num >= 0: pixels = random.sample(range(ledshim.NUM_PIXELS), random.randint(1, 5)) for i in range(ledshim.NUM_PIXELS): if i in pixels: ledshim.set_pixel(i, 255, 0, 0) else: ledshim.set_pixel(i, 0, 0, 0) ledshim.show() num -= 1 time.sleep(0.02) ledshim.clear() ledshim.show()
def on_message(client, userdata, msg): data = msg.payload.split(',') command = data.pop(0) if command == 'clr' and len(data) == 0: ledshim.clear() ledshim.show() return if command == 'rgb' and len(data) == 4: try: pixel = data.pop(0) if pixel == '*': pixel = None else: pixel = int(pixel) if pixel > 7: print('Pixel out of range: ' + str(pixel)) return r, g, b = [int(x) & 0xff for x in data] print(command, pixel, r, g, b) except ValueError: print('Malformed command: ' + str(msg.payload)) return if pixel is None: for x in range(ledshim.NUM_PIXELS): ledshim.set_pixel(x, r, g, b) else: ledshim.set_pixel(pixel, r, g, b) ledshim.show() return
def on_handshake(self, agent, filename, access_point, client_station): ledshim.set_clear_on_exit() ledshim.clear() ledshim.show() num = 20 while num >= 0: pixels = random.sample(range(ledshim.NUM_PIXELS), random.randint(1, 5)) for i in range(ledshim.NUM_PIXELS): if i in pixels: ledshim.set_pixel(i, random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) else: ledshim.set_pixel(i, 0, 0, 0) ledshim.show() num -= 1 time.sleep(0.001) ledshim.clear() ledshim.show()
pixel_list.pop() print('Large rise by: ', diff) logging.info('Large rise by: {}'.format(diff)) elif diff < 0 and diff > -threshold: # value falls: < 0 and > -(threshold) pixel_list.insert(0, fall_1) pixel_list.pop() print('Small fall by: ', diff) elif diff <= -threshold: # value LARGE FALL: < or = to threshold pixel_list.insert(0, fall_2) pixel_list.pop() print('Large fall by: ', diff) logging.info('Large fall by: {}'.format(diff)) else: # value unchanged pixel_list.insert(0, same) pixel_list.pop() print('Price unchanged: ', diff) prevPrice = nebl_price_in_euros #print(pixel_list) print() return pixel_list while True: ledshim.clear() get_NEBL_price_in_btc() for num in range(num_of_pixels): ledshim.set_pixel(num, *pixel_list[num]) #print(num, *pixel_list[num]) # Test code ledshim.show() sleep(wait_secs)
max_value = 255 if smooth and value <= 1: return max_value * value else: return max_value def show_info(): temp = 0 load = 0 if mode in ['mixed', 'temp']: temp = get_cpu_temperature() if mode in ['mixed', 'load']: if segmented: load = psutil.cpu_percent(percpu=segmented) else: load = psutil.cpu_percent() show_graph(temp, load) if __name__ == '__main__': while True: if running: show_info() time.sleep(interval) else: break # shut off pixels and exit output_device.clear() output_device.show()
def on_loaded(self): logging.info("Fireworks locked and loaded") ledshim.clear() ledshim.show()
def clear(self): ledshim.clear()