renderbug: split out power and RGB8 types to separate modules
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44
src/lib8.rs
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44
src/lib8.rs
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@ -0,0 +1,44 @@
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use palette::convert::{IntoColor, IntoColorUnclamped, FromColorUnclamped};
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use palette::encoding::srgb::Srgb;
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use palette::Hsv;
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#[derive(PartialEq, Debug)]
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pub struct RGB8 {
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pub red: u8,
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pub green: u8,
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pub blue: u8
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}
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impl RGB8 {
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fn new(red : u8, green : u8, blue : u8) -> Self {
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Self {
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red: red,
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green: green,
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blue: blue
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}
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}
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}
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impl FromColorUnclamped<Hsv<Srgb, u8>> for RGB8 {
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fn from_color_unclamped(hsv: Hsv<Srgb, u8>) -> RGB8 {
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if hsv.saturation == 0 {
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return RGB8::new(hsv.value, hsv.value, hsv.value);
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}
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let region = hsv.hue.into_inner() / 43;
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let remainder = (hsv.hue.into_inner() - (region * 43)) * 6;
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let p = (hsv.value.wrapping_mul(255 - hsv.saturation).wrapping_shr(8));
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let q = (hsv.value.wrapping_mul(255 - ((hsv.saturation.wrapping_mul(remainder)).wrapping_shr(8)))).wrapping_shr(8);
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let t = (hsv.value.wrapping_mul(255 - ((hsv.saturation.wrapping_mul(255 - remainder)).wrapping_shr(8)))).wrapping_shr(8);
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match region {
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0 => RGB8::new(hsv.value, t, p),
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1 => RGB8::new(q, hsv.value, p),
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2 => RGB8::new(p, hsv.value, t),
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3 => RGB8::new(p, q, hsv.value),
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4 => RGB8::new(t, p, hsv.value),
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_ => RGB8::new(hsv.value, p, q)
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}
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}
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}
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84
src/main.rs
84
src/main.rs
@ -3,75 +3,15 @@ use esp_idf_svc::hal::prelude::Peripherals;
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use ws2812_esp32_rmt_driver::lib_embedded_graphics::{LedPixelStrip, Ws2812DrawTarget};
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use embedded_graphics::{
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prelude::*,
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pixelcolor::{Rgb888, RgbColor},
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pixelcolor::Rgb888,
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};
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use std::thread::sleep;
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use std::time::Duration;
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use palette::{Hsv, Srgb};
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use palette::convert::{IntoColor, IntoColorUnclamped, FromColorUnclamped};
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use palette::Hsv;
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use palette::convert::IntoColorUnclamped;
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fn colorToMW(color : impl RgbColor) -> u32 {
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const gRed_mW : u32 = 16 * 5; //< 16mA @ 5v = 80mW
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const gGreen_mW : u32 = 11 * 5; //< 11mA @ 5v = 55mW
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const gBlue_mW : u32 = 15 * 5; //< 15mA @ 5v = 75mW
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const gDark_mW : u32 = 1 * 5; //< 1mA @ 5v = 5mW
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let redMW = (color.r() as u32 * gRed_mW).wrapping_shr(8);
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let greenMW = (color.g() as u32 * gGreen_mW).wrapping_shr(8);
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let blueMW = (color.b() as u32 * gBlue_mW).wrapping_shr(8);
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mod power;
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mod lib8;
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return redMW + greenMW + blueMW + gDark_mW;
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}
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fn brightnessForMW(totalMW : u32, target : u8, maxPower: u32) -> u8 {
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let target32 = target as u32;
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let requestedMW = (totalMW * target32) / 256;
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if requestedMW > maxPower {
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return ((target32 * maxPower) / requestedMW).try_into().unwrap();
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}
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return target;
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}
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#[derive(PartialEq, Debug)]
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struct RGB8 {
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red: u8,
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green: u8,
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blue: u8
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}
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impl RGB8 {
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fn new(red : u8, green : u8, blue : u8) -> Self {
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Self {
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red: red,
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green: green,
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blue: blue
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}
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}
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}
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impl FromColorUnclamped<Hsv<palette::encoding::srgb::Srgb, u8>> for RGB8 {
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fn from_color_unclamped(hsv: Hsv<palette::encoding::srgb::Srgb, u8>) -> RGB8 {
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if hsv.saturation == 0 {
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return RGB8::new(hsv.value, hsv.value, hsv.value);
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}
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let region = hsv.hue.into_inner() / 43;
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let remainder = (hsv.hue.into_inner() - (region * 43)) * 6;
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let p = (hsv.value.wrapping_mul(255 - hsv.saturation).wrapping_shr(8));
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let q = (hsv.value.wrapping_mul(255 - ((hsv.saturation.wrapping_mul(remainder)).wrapping_shr(8)))).wrapping_shr(8);
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let t = (hsv.value.wrapping_mul(255 - ((hsv.saturation.wrapping_mul(255 - remainder)).wrapping_shr(8)))).wrapping_shr(8);
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match region {
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0 => RGB8::new(hsv.value, t, p),
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1 => RGB8::new(q, hsv.value, p),
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2 => RGB8::new(p, hsv.value, t),
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3 => RGB8::new(p, q, hsv.value),
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4 => RGB8::new(t, p, hsv.value),
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_ => RGB8::new(hsv.value, p, q)
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}
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}
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}
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fn main() {
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// It is necessary to call this function once. Otherwise some patches to the runtime
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@ -87,8 +27,10 @@ fn main() {
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let led_pin = peripherals.pins.gpio14;
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let channel = peripherals.rmt.channel0;
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const NUM_PIXELS : usize = 255;
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const MAX_POWER_MW : u32 = 1000;
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const NUM_PIXELS : usize = 300;
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const POWER_VOLTS : u32 = 5;
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const POWER_MA : u32 = 500;
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const MAX_POWER_MW : u32 = POWER_VOLTS * POWER_MA;
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let mut draw = Ws2812DrawTarget::<LedPixelStrip<NUM_PIXELS>>::new(channel, led_pin).unwrap();
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let mut hue : u8 = 0;
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@ -98,16 +40,14 @@ fn main() {
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let mut totalMW = 0;
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draw.clear(Rgb888::BLACK);
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for i in 0..length {
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//let color = HSV::new(hue.wrapping_add(i as u8), 255, 255);
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let hsvColor = Hsv::new_srgb(hue.wrapping_add(i as u8), 255, 255);
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let rgbColor : RGB8 = hsvColor.into_color_unclamped();
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//let rgbColor : Srgb = hsvColor.into_color();
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let rgbColor : lib8::RGB8 = hsvColor.into_color_unclamped();
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let color = Rgb888::new(rgbColor.red, rgbColor.green, rgbColor.blue);
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totalMW += colorToMW(color);
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totalMW += power::colorToMW(color);
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Pixel(Point::new(i as i32, 0), color).draw(&mut draw).unwrap();
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}
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let brightness = brightnessForMW(totalMW, 255, MAX_POWER_MW);
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let brightness = power::brightnessForMW(totalMW, 255, MAX_POWER_MW);
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draw.set_brightness(brightness);
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draw.flush().unwrap();
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log::info!("Frame hue={} power={} brightness={}", hue, totalMW, brightness);
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23
src/power.rs
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23
src/power.rs
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@ -0,0 +1,23 @@
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use embedded_graphics::pixelcolor::RgbColor;
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pub fn colorToMW(color : impl RgbColor) -> u32 {
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const gRed_mW : u32 = 16 * 5; //< 16mA @ 5v = 80mW
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const gGreen_mW : u32 = 11 * 5; //< 11mA @ 5v = 55mW
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const gBlue_mW : u32 = 15 * 5; //< 15mA @ 5v = 75mW
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const gDark_mW : u32 = 1 * 5; //< 1mA @ 5v = 5mW
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let redMW = (color.r() as u32 * gRed_mW).wrapping_shr(8);
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let greenMW = (color.g() as u32 * gGreen_mW).wrapping_shr(8);
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let blueMW = (color.b() as u32 * gBlue_mW).wrapping_shr(8);
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return redMW + greenMW + blueMW + gDark_mW;
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}
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pub fn brightnessForMW(totalMW : u32, target : u8, maxPower: u32) -> u8 {
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let target32 = target as u32;
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let requestedMW = (totalMW * target32) / 256;
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if requestedMW > maxPower {
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return ((target32 * maxPower) / requestedMW).try_into().unwrap();
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}
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return target;
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}
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