import colorsys
import socket
import struct
from threading import Thread
from time import sleep, time


class RGB:
    def __init__(self, dmx, slot, offset=0):
        self.dmx = dmx
        self.slot = slot
        self.offset = offset

    def rgb(self, color):
        (r, g, b) = color
        self.dmx.set(self.slot+self.offset+0, r)
        self.dmx.set(self.slot+self.offset+1, g)
        self.dmx.set(self.slot+self.offset+2, b)

class Bar252(RGB):
    def __init__(self, dmx, slot=1):
        super(Bar252, self).__init__(dmx, slot, 2)
        dmx.set(self.slot+0, 81)
        dmx.set(self.slot+1, 0)


class StairvilleLedPar56(RGB):
    def __init__(self, dmx, slot=1):
        super(StairvilleLedPar56, self).__init__(dmx, slot, 0)
        dmx.set(self.slot+3, 0)
        dmx.set(self.slot+4, 0)
        dmx.set(self.slot+5, 0)
        dmx.set(self.slot+6, 255)


class Steady:
    def __init__(self, r, g, b):
        self.r = r
        self.g = g
        self.b = b

    def update(self, index, count):
        return (self.r, self.g, self.b)

    def __str__(self):
        return f"steady({self.r}, {self.g}, {self.b})"

class RotatingRainbow:
    def __init__(self):
        pass

    def update(self, index, count):
        """
        One full round takes 10 seconds, each RGB is offset in a circle
        :param index:
        :param count:
        :return:
        """
        hue = (time() / 10.0 + (index + 0.0) / count) % 1.0
        rgb = self.hsv_to_rgb(hue, 1, 1)
        return rgb

    def hsv_to_rgb(self, h, s, v):
        (r, g, b) = colorsys.hsv_to_rgb(h, s, v)
        return [int(r * 255), int(g * 255), int(b * 255)]

    def __str__(self):
        return "RotatingRainbow"

class DMX:
    def __init__(self, host, port=0x1936, universe=1):
        self.host = host
        self.port = port
        self.universe = universe
        self.socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)  # UDP
        self.socket.setblocking(False)
        self.data = bytearray(512)
        packet = bytearray()
        packet.extend(map(ord, "Art-Net"))
        packet.append(0x00)          # Null terminate Art-Net
        packet.extend([0x00, 0x50])  # Opcode ArtDMX 0x5000 (Little endian)
        packet.extend([0x00, 0x0e])  # Protocol version 14
        self.header = packet
        self.animation = Steady(64, 64, 64)
        self.rgbs = []

    def start(self):
        self.thread = Thread(daemon=True, target=self.background)
        self.thread.start()

    def background(self):
        print("background starts")
        while True:
            animation = self.animation
            for i in range(0, len(self.rgbs)):
                self.rgbs[i].rgb(animation.update(i, len(self.rgbs)))
            self.update()
            # print("updating")
            print(self.data)
            break
            sleep(1.0/30)
        print("background ends")

    def update(self):
        packet = self.header[:]
        packet.append(0)              # Sequence,
        packet.append(0x00)                                 # Physical
        packet.append(self.universe & 0xFF)                   # Universe LowByte
        packet.append(self.universe >> 8 & 0xFF)              # Universe HighByte

        packet.extend(struct.pack('>h', 512))  # Pack the number of channels Big endian
        packet.extend(self.data)
        self.socket.sendto(packet, (self.host, self.port))

    def set(self, slot, value):
        self.data[slot-1] = value

    def setAnimation(self, animation):
        self.animation = animation
        print(f"Animation: {animation}")