PainterlyUNO/Arduino/LED_Matrix/Matrix Raspberry Pi Pico.py

from time import sleep

from machine import UART, Pin

import array, time
from machine import Pin
import rp2

# Configure the number of WS2812 LEDs.
NUM_LEDS = 256
PIN_NUM = 16
brightness = 0.2

@rp2.asm_pio(sideset_init=rp2.PIO.OUT_LOW, out_shiftdir=rp2.PIO.SHIFT_LEFT, autopull=True, pull_thresh=24)
def ws2812():
    T1 = 2
    T2 = 5
    T3 = 3
    wrap_target()
    label("bitloop")
    out(x, 1)               .side(0)    [T3 - 1]
    jmp(not_x, "do_zero")   .side(1)    [T1 - 1]
    jmp("bitloop")          .side(1)    [T2 - 1]
    label("do_zero")
    nop()                   .side(0)    [T2 - 1]
    wrap()

# Create the StateMachine with the ws2812 program, outputting on pin
sm = rp2.StateMachine(0, ws2812, freq=8_000_000, sideset_base=Pin(PIN_NUM))

# Start the StateMachine, it will wait for data on its FIFO.
sm.active(1)

# Display a pattern on the LEDs via an array of LED RGB values.
global ar
global leds
global gif
global currentFrame
global delay

##########################################################################

def show():
    for i in range(leds):
        r = ar[i] >> 16
        g = ar[i] >> 8 & 0xFF
        b = ar[i] & 0xFF
        
        r = r >> 1
        g = g >> 1
        b = b >> 1
        
        ar[i] = r << 16 | g << 8 | b
        
    sm.put(ar, 8)

leds = 256              # number of leds
uart = UART(0, 9600)    # serial bluetooth
led = Pin(25, Pin.OUT)  # builtin LED
ar = array.array("I", [0 for _ in range(NUM_LEDS)]) # color array
gif = [array.array("I", [0 for _ in range(leds)]) for _ in range(1)]
currentFrame = -1

# gurantees that only N-bytes are read from the UART
def readNBytes(n):
    rawBytes = b''
    bytesRead = 0
    while True:
        if uart.any():
            rawBytes += uart.read(n - bytesRead)
   
        bytesRead = len(rawBytes)
        
        # not enough was read
        if bytesRead < n:
            continue
        else:
            return rawBytes

while True:
    led.low()
    if uart.any() != 0:
        opcode = uart.read(1)
        
        print("Opcode: ", opcode)

        if opcode == b'\x00':
            width  = readNBytes(1)[0]
            height = readNBytes(1)[0]

            if width <= 32 and height <= 32:
                leds = width * height
            
                ar = array.array("I", [0 for _ in range(leds)])
                show()

        elif opcode == b'\x02':   
            rawBytes = readNBytes(leds * 3);
                
            for i in range(leds):
                ar[i] = rawBytes[i * 3 + 1] << 16 | rawBytes[i * 3] << 8 | rawBytes[i * 3 + 2]
       
            show()
            
            currentFrame = -1
            
        elif opcode == b'\x03':
            r = readNBytes(1)
            g = readNBytes(1)
            b = readNBytes(1)

            for i in range(leds):
                ar[i] = g[0] << 16 | r[0] << 8 | b[0]
       
            show()
            
        elif opcode == b'\x04':
            
            uart.write([75])
        
        # [width] [height] [frames] [delay] [rgb-frames]
        elif opcode == b'\x05':
            gifDim = readNBytes(5)
            
            delay = (gifDim[3] << 8) | gifDim[4]
            
            print("w ", gifDim[0], " h ", gifDim[1], " f ", gifDim[2], " d ", delay)
            
            leds = gifDim[0] * gifDim[1]
            gif = [array.array("I", [0 for _ in range(leds)]) for _ in range(gifDim[2])] 
            
            for f in range(gifDim[2]):
                frame = readNBytes(leds * 3)
                print("frame read: ", f)
                for i in range(leds):
                    gif[f][i] = frame[i * 3 + 1] << 16 | frame[i * 3] << 8 | frame[i * 3 + 2]
                #uart.write(bytearray([91])) # synchronize
                 
            currentFrame = 0
            
            print("Everything read")
        
        # [Synchro-byte] [feature-flags] [Controller-Id]
        #
        # feature-flags:
        #   [Bit 7] = Bluetooth (true)
        #   [Bit 6] = USB (false)
        #   [Bit 0] = Upload (true)
        #
        elif opcode == b'\x06':
            uart.write(b'\x5B\x81')
            uart.write("RP2040 Micro python")

        led.high()
        uart.write(bytearray([75]))
    
    elif currentFrame != -1:
        print("showing")
        for i in range(leds):
            ar[i] = gif[currentFrame][i]
            
        show()
        currentFrame += 1
        
        if (currentFrame >= len(gif)):
            currentFrame = 0
            
        time.sleep(delay * 1e-3)
2 new instructions: - upload (beta) - info RP2040 support (see .py) bug fixes 2021-08-08 12:50:24 +00:00			`from time import sleep`

			`from machine import UART, Pin`

			`import array, time`
			`from machine import Pin`
			`import rp2`

			`# Configure the number of WS2812 LEDs.`
			`NUM_LEDS = 256`
			`PIN_NUM = 16`
			`brightness = 0.2`

			`@rp2.asm_pio(sideset_init=rp2.PIO.OUT_LOW, out_shiftdir=rp2.PIO.SHIFT_LEFT, autopull=True, pull_thresh=24)`
			`def ws2812():`
			`T1 = 2`
			`T2 = 5`
			`T3 = 3`
			`wrap_target()`
			`label("bitloop")`
			`out(x, 1) .side(0) [T3 - 1]`
			`jmp(not_x, "do_zero") .side(1) [T1 - 1]`
			`jmp("bitloop") .side(1) [T2 - 1]`
			`label("do_zero")`
			`nop() .side(0) [T2 - 1]`
			`wrap()`

			`# Create the StateMachine with the ws2812 program, outputting on pin`
			`sm = rp2.StateMachine(0, ws2812, freq=8_000_000, sideset_base=Pin(PIN_NUM))`

			`# Start the StateMachine, it will wait for data on its FIFO.`
			`sm.active(1)`

			`# Display a pattern on the LEDs via an array of LED RGB values.`
			`global ar`
			`global leds`
			`global gif`
			`global currentFrame`
			`global delay`

			`##########################################################################`

			`def show():`
			`for i in range(leds):`
			`r = ar[i] >> 16`
			`g = ar[i] >> 8 & 0xFF`
			`b = ar[i] & 0xFF`

			`r = r >> 1`
			`g = g >> 1`
			`b = b >> 1`

			`ar[i] = r << 16 \| g << 8 \| b`

			`sm.put(ar, 8)`

			`leds = 256 # number of leds`
			`uart = UART(0, 9600) # serial bluetooth`
			`led = Pin(25, Pin.OUT) # builtin LED`
			`ar = array.array("I", [0 for _ in range(NUM_LEDS)]) # color array`
			`gif = [array.array("I", [0 for _ in range(leds)]) for _ in range(1)]`
			`currentFrame = -1`

			`# gurantees that only N-bytes are read from the UART`
			`def readNBytes(n):`
			`rawBytes = b''`
			`bytesRead = 0`
			`while True:`
			`if uart.any():`
			`rawBytes += uart.read(n - bytesRead)`

			`bytesRead = len(rawBytes)`

			`# not enough was read`
			`if bytesRead < n:`
			`continue`
			`else:`
			`return rawBytes`

			`while True:`
			`led.low()`
			`if uart.any() != 0:`
			`opcode = uart.read(1)`

			`print("Opcode: ", opcode)`

			`if opcode == b'\x00':`
			`width = readNBytes(1)[0]`
			`height = readNBytes(1)[0]`

			`if width <= 32 and height <= 32:`
			`leds = width * height`

			`ar = array.array("I", [0 for _ in range(leds)])`
			`show()`

			`elif opcode == b'\x02':`
			`rawBytes = readNBytes(leds * 3);`

			`for i in range(leds):`
			`ar[i] = rawBytes[i * 3 + 1] << 16 \| rawBytes[i * 3] << 8 \| rawBytes[i * 3 + 2]`

			`show()`

			`currentFrame = -1`

			`elif opcode == b'\x03':`
			`r = readNBytes(1)`
			`g = readNBytes(1)`
			`b = readNBytes(1)`

			`for i in range(leds):`
			`ar[i] = g[0] << 16 \| r[0] << 8 \| b[0]`

			`show()`

			`elif opcode == b'\x04':`

			`uart.write([75])`

			`# [width] [height] [frames] [delay] [rgb-frames]`
			`elif opcode == b'\x05':`
			`gifDim = readNBytes(5)`

			`delay = (gifDim[3] << 8) \| gifDim[4]`

			`print("w ", gifDim[0], " h ", gifDim[1], " f ", gifDim[2], " d ", delay)`

			`leds = gifDim[0] * gifDim[1]`
			`gif = [array.array("I", [0 for _ in range(leds)]) for _ in range(gifDim[2])]`

			`for f in range(gifDim[2]):`
			`frame = readNBytes(leds * 3)`
			`print("frame read: ", f)`
			`for i in range(leds):`
			`gif[f][i] = frame[i * 3 + 1] << 16 \| frame[i * 3] << 8 \| frame[i * 3 + 2]`
			`#uart.write(bytearray([91])) # synchronize`

			`currentFrame = 0`

			`print("Everything read")`

			`# [Synchro-byte] [feature-flags] [Controller-Id]`
			`#`
			`# feature-flags:`
			`# [Bit 7] = Bluetooth (true)`
			`# [Bit 6] = USB (false)`
			`# [Bit 0] = Upload (true)`
			`#`
			`elif opcode == b'\x06':`
			`uart.write(b'\x5B\x81')`
			`uart.write("RP2040 Micro python")`

			`led.high()`
			`uart.write(bytearray([75]))`

			`elif currentFrame != -1:`
			`print("showing")`
			`for i in range(leds):`
			`ar[i] = gif[currentFrame][i]`

			`show()`
			`currentFrame += 1`

			`if (currentFrame >= len(gif)):`
			`currentFrame = 0`

			`time.sleep(delay * 1e-3)`