Ebbe Baß
parent
a06d203245
commit
988d3edf41
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@ -109,36 +109,42 @@ def connect_mqtt():
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return client
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def mqtt_publisher(ti_receiver):
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tube_index_old = None
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# Create and start a thread for each universe
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mqtt_client = connect_mqtt()
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artnetBindIp = get_eth0_ip()
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artNet = Artnet.Artnet(BINDIP = artnetBindIp, DEBUG = True, SHORTNAME = "PiXelTubeMaster", LONGNAME = "PiXelTubeMaster", PORT = 6454)
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while True:
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tube_index = ti_receiver.recv()
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try:
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tube_index = ti_receiver.recv()
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except:
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tube_index = tube_index_old
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tube_index_old = None
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print(tube_index)
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# try:
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# # Gets whatever the last Art-Net packet we received is
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# artNetPacket = artNet.readPacket()
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# # Make sure we actually *have* a packet
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# if artNetPacket is not None:
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# #Checks to see if the current packet is for the specified DMX Universe
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# dmxPacket = artNetPacket.data
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# # Create MQTT topic based on the universe and channel
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# if tube_index is not None:
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# for index_row in tube_index:
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# if artNetPacket.universe == int(index_row[1]):
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# dmx_address = int(index_row[2])
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# #Define RGB values per pixel
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# p1_g, p1_b, p1_r, p2_g, p2_b, p2_r, p3_g, p3_b, p3_r, p4_g, p4_b, p4_r, p5_g, p5_b, p5_r, p6_g, p6_b, p6_r = dmxPacket[dmx_address], dmxPacket[dmx_address+1], dmxPacket[dmx_address+2], dmxPacket[dmx_address+3], dmxPacket[dmx_address+4], dmxPacket[dmx_address+5], dmxPacket[dmx_address+6], dmxPacket[dmx_address+7], dmxPacket[dmx_address+8], dmxPacket[dmx_address+9], dmxPacket[dmx_address+10], dmxPacket[dmx_address+11], dmxPacket[dmx_address+12], dmxPacket[dmx_address+13], dmxPacket[dmx_address+14], dmxPacket[dmx_address+15], dmxPacket[dmx_address+16], dmxPacket[dmx_address+17]
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try:
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# Gets whatever the last Art-Net packet we received is
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artNetPacket = artNet.readPacket()
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# Make sure we actually *have* a packet
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if artNetPacket is not None:
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#Checks to see if the current packet is for the specified DMX Universe
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dmxPacket = artNetPacket.data
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# Create MQTT topic based on the universe and channel
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if tube_index is not None:
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for index_row in tube_index:
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if artNetPacket.universe == int(index_row[1]):
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dmx_address = int(index_row[2])
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#Define RGB values per pixel
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p1_g, p1_b, p1_r, p2_g, p2_b, p2_r, p3_g, p3_b, p3_r, p4_g, p4_b, p4_r, p5_g, p5_b, p5_r, p6_g, p6_b, p6_r = dmxPacket[dmx_address], dmxPacket[dmx_address+1], dmxPacket[dmx_address+2], dmxPacket[dmx_address+3], dmxPacket[dmx_address+4], dmxPacket[dmx_address+5], dmxPacket[dmx_address+6], dmxPacket[dmx_address+7], dmxPacket[dmx_address+8], dmxPacket[dmx_address+9], dmxPacket[dmx_address+10], dmxPacket[dmx_address+11], dmxPacket[dmx_address+12], dmxPacket[dmx_address+13], dmxPacket[dmx_address+14], dmxPacket[dmx_address+15], dmxPacket[dmx_address+16], dmxPacket[dmx_address+17]
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# # Pixel topics
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# p1_topic = "tube-"+str(index_row[0])+"/pixel_colors"
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# Pixel topics
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p1_topic = "tube-"+str(index_row[0])+"/pixel_colors"
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# # Publish pixel topic
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# mqtt_client.publish(p1_topic, str([str([p1_r, p1_g, p1_b]), str([p2_r, p2_g, p2_b]), str([p3_r, p3_g, p3_b]), str([p4_r, p4_g, p4_b]), str([p5_r, p5_g, p5_b]), str([p6_r, p6_g, p6_b])]))
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# except KeyboardInterrupt:
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# artNet.close()
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# sys.exit()
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# Publish pixel topic
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mqtt_client.publish(p1_topic, str([str([p1_r, p1_g, p1_b]), str([p2_r, p2_g, p2_b]), str([p3_r, p3_g, p3_b]), str([p4_r, p4_g, p4_b]), str([p5_r, p5_g, p5_b]), str([p6_r, p6_g, p6_b])]))
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except KeyboardInterrupt:
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artNet.close()
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sys.exit()
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def tube_index_updater(ti_sender):
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while True:
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