コード例 #1
0
ファイル: irxm.py プロジェクト: siriuspal/UniversalRemote
def send_command(add, com, comn=None):
    ''' Sends command on IR input is address and command '''
    # RMT(channel=0, pin=4, source_freq=80000000, clock_div=24, carrier_freq=38222, carrier_duty_percent=50)
    remote = RMT(0, pin=Pin(4), clock_div=24, carrier_freq=38222)

    lst = list()
    add_leadpulse(lst)

    send_byte(add, lst)
    send_byte(~add, lst)
    send_byte(com, lst)
    
    
    # I identified some keys on Yamaha remote did not send exact invert of command, instead some bits were peculiar.
    # This deviated from NEC protocol, but work around was simple.
    # If peculiar code is present that's sent, otherwise inverted code is sent.
    if comn is None:
        send_byte(~com, lst)
    else:
        send_byte(comn, lst)

    add_endpulse(lst)

    remote.write_pulses(lst, start=1)
    remote.wait_done()
    del lst
    # Without deinit and reinitializing remote after every use, second use of remote will hang it.
    # This issue may have been resolved in MicroPython 1.13 or later. Not tested.
    # However using below command is a workaround that works :)
    remote.deinit()
コード例 #2
0
class NeoPixel:
    def __init__(self, pin, pixel_count, rmt_channel=1, pixel_channels=3):
        self.rmt = RMT(rmt_channel, pin=pin, clock_div=4)
        # pixels stores the data sent out via RMT
        self.channels = pixel_channels
        single_pixel = (0, ) * pixel_channels
        self.pixels = [D_ZERO * (pixel_channels * CHANNEL_WIDTH)] * pixel_count
        # colors is only used for __getitem__
        self.colors = [single_pixel] * pixel_count

    def write(self):
        # The bus should be idle low ( I think... )
        # So we finish low and start high.
        pulses = tuple()
        for pixel in self.pixels:
            pulses += pixel
        pulses += (T_RST, )  # The last low should be long.
        self.rmt.write_pulses(pulses, start=1)
        self.rmt.wait_done()

    def __setitem__(self, pixel_index, colors):
        self_colors = self.colors
        self_pixels = self.pixels
        if isinstance(pixel_index, int):
            # pixels[0] = (r, g, b)
            self_colors[pixel_index] = tuple(colors)
            self_pixels[pixel_index] = tuple(
                clocks for bit in (D_ONE if ((channel >> bit) & 1) else D_ZERO
                                   for channel in colors
                                   for bit in range(CHANNEL_WIDTH - 1, -1, -1))
                for clocks in bit)
        elif isinstance(pixel_index, slice):
            start = 0 if pixel_index.start is None else pixel_index.start
            stop = len(
                self.pixels) if pixel_index.stop is None else pixel_index.stop
            step = 1 if pixel_index.step is None else pixel_index.step
            # Assume that if the first colors element is an int, then its not a sequence
            # Otherwise always assume its a sequence of colors
            if isinstance(colors[0], int):
                # pixels[:] = (r,g,b)
                for index in range(start, stop, step):
                    self_colors[index] = tuple(colors)
                    self_pixels[index] = tuple(
                        clocks
                        for bit in (D_ONE if ((channel >> bit) & 1) else D_ZERO
                                    for channel in colors
                                    for bit in range(CHANNEL_WIDTH -
                                                     1, -1, -1))
                        for clocks in bit)
            else:
                # pixels[:] = [(r,g,b), ...]
                # Assume its a sequence, make it a list so we know the length
                if not isinstance(colors, list):
                    colors = list(colors)
                color_length = len(colors)
                for index in range(start, stop, step):
                    color = colors[(index - start) % color_length]
                    self_colors[index] = tuple(color)
                    self_pixels[index] = tuple(
                        clocks
                        for bit in (D_ONE if ((channel >> bit) & 1) else D_ZERO
                                    for channel in color
                                    for bit in range(CHANNEL_WIDTH -
                                                     1, -1, -1))
                        for clocks in bit)
        else:
            raise TypeError('Unsupported pixel_index {} ({})'.format(
                pixel_index, type(pixel_index)))

    def __getitem__(self, pixel_index):
        # slice instances are passed through
        return self.colors[pixel_index]

    def __len__(self):
        return len(self.colors)