from time import sleep import optparse parser = optparse.OptionParser() parser.add_option("-p", "--port", dest="portname", help="serial port (ex: /dev/ttyUSB0)", default=None) parser.add_option("-c", "--count", dest="ledcount", help="LED count", default=60, type=int) parser.add_option("-s", "--size", dest="size", help="Size of the light wave", default=20, type=int) (options, args) = parser.parse_args() if options.portname is not None: port = options.portname else: print("Usage: python scanline.py -p <port name>") print("(ex.: python scanline.py -p /dev/ttypACM0)") exit() blinky = BlinkyTape(port, options.ledcount) while True: for position in range(-options.size, options.ledcount + options.size): for led in range(options.ledcount): if abs(position - led) < options.size: blinky.sendPixel(255,0,200) else: blinky.sendPixel(0,0,0) blinky.show() sleep(0.005)
from BlinkyTape import BlinkyTape bb = BlinkyTape("/dev/tty.usbmodemfa131") while True: for x in range(0, 60): bb.sendPixel(10, 10, 10) bb.show() for x in range(0, 60): bb.sendPixel(0, 0, 0) bb.show()
"""Simple animation example using BlinkyTape.py""" from BlinkyTape import BlinkyTape from time import sleep import optparse parser = optparse.OptionParser() parser.add_option("-p", "--port", dest="portname", help="serial port (ex: /dev/ttyUSB0)", default=None) (options, args) = parser.parse_args() if options.portname != None: port = options.portname else: print "Usage: python scanline.py -p <port name>" print "(ex.: python scanline.py -p /dev/ttypACM0)" exit() blinky = BlinkyTape(port) while True: for x in range(0, 60): for y in range(0, 60): l = max(((y-x)%60)-40,0) blinky.sendPixel(l*3,l*3,l*3) blinky.show() sleep(0.01)
while True: output = subprocess.check_output( ["C:\\Program Files\\NVIDIA Corporation\\NVSMI\\nvidia-smi.exe", "-a"], shell=True) #os.popen('C:\\Program Files\NVIDIA Corporation\NVSMI\nvidia-smi.exe') #output=os.popen("C:\\Program Files\\NVIDIA Corporation\\NVSMI\\nvidia-smi.exe").read() #print("====" + str(output) + "=====") temp = re.search("GPU Current.*", output).group()[30:33] temp_baseline = 60 temp_multiplier = 5 color_temp = (int(temp) - temp_baseline) * temp_multiplier green = 100 - color_temp red = 0 + color_temp blue = 0 print "Current GPU Temp: %s RGB: %s %s %s" % (temp, red, green, blue) for x in range(60): bb.sendPixel(red, green, blue) bb.show() #time.sleep(1) #for x in range(60): # bb.sendPixel(100, 0, 0) #bb.show() time.sleep(1)
elif (temperature <= 15): # 10 < t <= 25 r = increasingColourOffset(temperature - 5) return [r,255,0] elif (temperature <= 25): # 25 < t <= 40 g = decreasingColourOffset(temperature - 15) return [255,g,0] else: # 40 < t return [255,0,0] return [0,0,0] bb.displayColor(0,0,0) while True: print "start" temps = getTemperatures() x = 0 for i in temps: if (datetime.utcnow().day != i["timestamp"][0].day or i["timestamp"][0].hour > datetime.utcnow().hour-3): colour = convertTemperatureToRgb(i["Temperature"][0]) bb.sendPixel(colour[0],colour[1],colour[2]) x = x + 1 for i in range(x,60): bb.sendPixel(0,0,0) bb.show() time.sleep(1800)
while True: try: print "GET %s" % (url) rawHttpResponse = urllib.urlopen(url) lines = json.load(rawHttpResponse) if not len(lines) or lines is None: raise Exception("Error parsing data") # Sort the lines lines.sort(key=lambda l: l['modeName'], reverse=True) # Takes at least 2 min for cycles in xrange(240): for pixel in xrange(2): bt.sendPixel(0, 0, 0) for line in lines: alert = False for status in line['lineStatuses']: # https://api.tfl.gov.uk/line/meta/severity if status['statusSeverity'] != 10: alert = True r, g, b = colours[line['id']] for pixel in xrange(4): if alert: # Flash for delays l = (cycles - pixel) % 2 if line['id'] == "northern": # Because black on black doesn't show up r, g, b = 100, 100, 100 bt.sendPixel(l * r, l * g, l * b)
from BlinkyTape import BlinkyTape import time bb = BlinkyTape('/dev/ttyACM0', 120) #bb = BlinkyTape('COM8') while True: for x in range(60): bb.sendPixel(100, 100, 100) bb.show() time.sleep(.5) for x in range(120): bb.sendPixel(0, 0, 0) bb.show() time.sleep(.5)
help="Size of the light wave", default=60, type=int) (options, args) = parser.parse_args() if options.portname is not None: port = options.portname else: print("Usage: python scanline.py -p <port name>") print("(ex.: python scanline.py -p /dev/ttypACM0)") exit() blinky = BlinkyTape(port, options.ledcount) while True: for position in range(options.ledcount): print(position) for led in range(options.ledcount): if position < led: blinky.sendPixel(0, 0, 0) else: print(led) print(f[led]) blinky.sendPixel(*f[led]) blinky.show() if position < dead or position > (options.ledcount - dead): pass else: sleep(.2)
while True: try: print "GET %s" % (url) rawHttpResponse = urllib.urlopen(url) lines = json.load(rawHttpResponse) if not len(lines) or lines is None: raise Exception("Error parsing data") # Sort the lines lines.sort(key = lambda l: l['modeName'], reverse = True) # Takes at least 2 min for cycles in xrange(240): for pixel in xrange(2): bt.sendPixel(0, 0, 0) for line in lines: alert = False for status in line['lineStatuses']: # https://api.tfl.gov.uk/line/meta/severity if status['statusSeverity'] != 10: alert = True r, g, b = colours[line['id']] for pixel in xrange(4): if alert: # Flash for delays l = (cycles - pixel) % 2 if line['id'] == "northern": # Because black on black doesn't show up r, g, b = 100, 100, 100 bt.sendPixel(l * r, l * g, l * b)