2023-03-11 08:58:28 +01:00
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#![no_std]
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#![no_main]
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#![feature(type_alias_impl_trait)]
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use defmt::*;
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use embassy_executor::Spawner;
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2023-05-06 11:36:07 +02:00
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use embassy_rp::pio::{Common, Config, FifoJoin, Instance, Pio, PioPin, ShiftConfig, ShiftDirection, StateMachine};
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2023-03-11 08:58:28 +01:00
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use embassy_rp::relocate::RelocatedProgram;
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use embassy_time::{Duration, Timer};
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2023-05-06 11:36:07 +02:00
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use fixed_macro::fixed;
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2023-03-11 08:58:28 +01:00
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use smart_leds::RGB8;
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use {defmt_rtt as _, panic_probe as _};
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2023-05-03 17:16:35 +02:00
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pub struct Ws2812<'d, P: Instance, const S: usize> {
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sm: StateMachine<'d, P, S>,
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2023-03-11 08:58:28 +01:00
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}
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2023-05-03 17:16:35 +02:00
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impl<'d, P: Instance, const S: usize> Ws2812<'d, P, S> {
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pub fn new(mut pio: Common<'d, P>, mut sm: StateMachine<'d, P, S>, pin: impl PioPin) -> Self {
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2023-03-11 08:58:28 +01:00
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// Setup sm0
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// prepare the PIO program
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let side_set = pio::SideSet::new(false, 1, false);
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let mut a: pio::Assembler<32> = pio::Assembler::new_with_side_set(side_set);
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const T1: u8 = 2; // start bit
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const T2: u8 = 5; // data bit
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const T3: u8 = 3; // stop bit
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const CYCLES_PER_BIT: u32 = (T1 + T2 + T3) as u32;
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let mut wrap_target = a.label();
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let mut wrap_source = a.label();
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let mut do_zero = a.label();
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a.set_with_side_set(pio::SetDestination::PINDIRS, 1, 0);
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a.bind(&mut wrap_target);
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// Do stop bit
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a.out_with_delay_and_side_set(pio::OutDestination::X, 1, T3 - 1, 0);
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// Do start bit
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a.jmp_with_delay_and_side_set(pio::JmpCondition::XIsZero, &mut do_zero, T1 - 1, 1);
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// Do data bit = 1
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a.jmp_with_delay_and_side_set(pio::JmpCondition::Always, &mut wrap_target, T2 - 1, 1);
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a.bind(&mut do_zero);
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// Do data bit = 0
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a.nop_with_delay_and_side_set(T2 - 1, 0);
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a.bind(&mut wrap_source);
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let prg = a.assemble_with_wrap(wrap_source, wrap_target);
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2023-05-06 11:36:07 +02:00
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let mut cfg = Config::default();
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2023-03-11 08:58:28 +01:00
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// Pin config
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2023-04-25 20:16:27 +02:00
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let out_pin = pio.make_pio_pin(pin);
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2023-05-05 19:49:34 +02:00
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let relocated = RelocatedProgram::new(&prg);
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2023-05-06 11:36:07 +02:00
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cfg.use_program(&pio.load_program(&relocated), &[&out_pin]);
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2023-03-11 08:58:28 +01:00
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2023-05-06 11:36:07 +02:00
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// Clock config, measured in kHz to avoid overflows
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2023-03-11 08:58:28 +01:00
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// TODO CLOCK_FREQ should come from embassy_rp
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2023-05-06 11:36:07 +02:00
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let clock_freq = fixed!(125_000: U24F8);
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let ws2812_freq = fixed!(800: U24F8);
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let bit_freq = ws2812_freq * CYCLES_PER_BIT;
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cfg.clock_divider = clock_freq / bit_freq;
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2023-03-11 08:58:28 +01:00
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// FIFO config
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2023-05-06 11:36:07 +02:00
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cfg.fifo_join = FifoJoin::TxOnly;
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cfg.shift_out = ShiftConfig {
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auto_fill: true,
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threshold: 24,
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direction: ShiftDirection::Left,
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};
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sm.set_config(&cfg);
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2023-03-11 08:58:28 +01:00
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sm.set_enable(true);
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Self { sm }
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}
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pub async fn write(&mut self, colors: &[RGB8]) {
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for color in colors {
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let word = (u32::from(color.g) << 24) | (u32::from(color.r) << 16) | (u32::from(color.b) << 8);
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2023-05-03 12:49:55 +02:00
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self.sm.tx().wait_push(word).await;
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2023-03-11 08:58:28 +01:00
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}
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}
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}
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/// Input a value 0 to 255 to get a color value
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/// The colours are a transition r - g - b - back to r.
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fn wheel(mut wheel_pos: u8) -> RGB8 {
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wheel_pos = 255 - wheel_pos;
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if wheel_pos < 85 {
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return (255 - wheel_pos * 3, 0, wheel_pos * 3).into();
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}
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if wheel_pos < 170 {
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wheel_pos -= 85;
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return (0, wheel_pos * 3, 255 - wheel_pos * 3).into();
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}
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wheel_pos -= 170;
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(wheel_pos * 3, 255 - wheel_pos * 3, 0).into()
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}
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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info!("Start");
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let p = embassy_rp::init(Default::default());
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2023-04-26 19:43:57 +02:00
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let Pio { common, sm0, .. } = Pio::new(p.PIO0);
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2023-03-11 08:58:28 +01:00
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// This is the number of leds in the string. Helpfully, the sparkfun thing plus and adafruit
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// feather boards for the 2040 both have one built in.
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const NUM_LEDS: usize = 1;
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let mut data = [RGB8::default(); NUM_LEDS];
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// For the thing plus, use pin 8
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// For the feather, use pin 16
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2023-05-03 08:15:46 +02:00
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let mut ws2812 = Ws2812::new(common, sm0, p.PIN_8);
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2023-03-11 08:58:28 +01:00
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// Loop forever making RGB values and pushing them out to the WS2812.
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loop {
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for j in 0..(256 * 5) {
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debug!("New Colors:");
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for i in 0..NUM_LEDS {
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data[i] = wheel((((i * 256) as u16 / NUM_LEDS as u16 + j as u16) & 255) as u8);
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debug!("R: {} G: {} B: {}", data[i].r, data[i].g, data[i].b);
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}
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ws2812.write(&data).await;
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Timer::after(Duration::from_micros(5)).await;
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}
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}
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}
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