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cac25d6006
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97079c7b10
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d66914f74f
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42c18a6d5a
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e98a24d32d
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@@ -5,7 +5,7 @@ use arduino_hal::{
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port::{mode::Output, Pin},
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};
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use crate::DISPLAY_SEGMENTS;
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use crate::{DISPLAY_SEGMENTS, IO_SEGMENT_ON_MAX_US, IO_SEGMENT_ON_MIN_US};
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pub struct SegmentPins {
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kd_seg_a: Pin<Output, PD5>,
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@@ -96,6 +96,16 @@ impl Brightness {
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pub const fn unwrap(self) -> u8 {
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self.0
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}
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pub fn dimm(self, dimming: u8) -> Brightness {
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Brightness(self.0.saturating_sub(dimming))
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}
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// Scales brightness (0-255) to range between IO_SEGMENT_ON_MIN_US and IO_SEGMENT_ON_MAX_US
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pub fn scale_brightness(self) -> u32 {
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// Using >> to avoid 32bit division which take ~576 cycles
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IO_SEGMENT_ON_MIN_US + ((IO_SEGMENT_ON_MAX_US - IO_SEGMENT_ON_MIN_US) * self.0 as u32 >> 8)
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}
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}
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#[derive(Clone, Copy, PartialEq, Eq)]
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@@ -106,8 +116,8 @@ impl Segment {
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Segment(0, Brightness::full())
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}
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pub fn brightness(&mut self, b: u8) -> &mut Self {
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self.1 = Brightness(b);
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pub fn brightness(&mut self, b: Brightness) -> &mut Self {
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self.1 = b;
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self
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}
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70
src/main.rs
70
src/main.rs
@@ -50,14 +50,11 @@ pub const IO_SEGMENT_RATE_US: u32 = 1000; // Time in μs between segment updates
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pub const IO_SEGMENT_ON_MIN_US: u32 = 80; // How long in μs to hold segment LEDs on (dark)
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pub const IO_SEGMENT_ON_MAX_US: u32 = 700; // How long in μs to hold segment LEDs on (bright)
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//TODO: When inline it is much slower due to use of Brightness instead of const 0xFF?!
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#[inline(never)]
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fn scale_brightness(b: Brightness) -> u32 {
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assert_eq!((Brightness::full().unwrap() as u32), 0xFF);
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IO_SEGMENT_ON_MIN_US
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+ (IO_SEGMENT_ON_MAX_US - IO_SEGMENT_ON_MIN_US) * b.unwrap() as u32
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/ (Brightness::full().unwrap() as u32)
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}
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// Dimming
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pub const DISPLAY_FPS: u16 = (1_000_000 / (IO_SEGMENT_RATE_US * DISPLAY_SEGMENTS as u32)) as u16;
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pub const DISPLAY_DIMM_FRAMES: u16 = DISPLAY_FPS * 10; // How many frames of inactivity before dimming
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pub const DISPLAY_DIMM_SPEED: u8 = 4; // Dimm by amount every frame when sleeping
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pub const DISPLAY_UNDIMM_SPEED: u8 = 16; // Brighten by amount every frame when not sleeping
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// Calculator setup
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pub const STACK_DEPTH: usize = 7;
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@@ -91,9 +88,11 @@ fn access_global<'cs, 'v: 'cs, T, O>(
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#[avr_device::interrupt(atmega328p)]
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unsafe fn TIMER0_COMPA() {
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avr_device::interrupt::free(|cs| {
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let brightness = access_global(&IO_LOOP, cs, |io_loop| io_loop.display_on());
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access_global(&SEGMENT_TIMER, cs, |st| {
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st.segment_on_time(scale_brightness(brightness))
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access_global(&IO_LOOP, cs, |io_loop| {
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access_global(&SEGMENT_TIMER, cs, |st| {
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let brightness = io_loop.display_on();
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st.segment_on_time(brightness.scale_brightness());
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});
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});
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});
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}
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@@ -115,24 +114,30 @@ unsafe fn TIMER0_COMPB() {
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pub struct IOLoop {
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index: usize,
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frame: u16,
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io_pins: IOPins,
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segment_pins: SegmentPins,
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dispaly: DispalyState,
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keyboard: Keyboard,
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readount: Option<KeyReadout>,
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debounce: Debounce,
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sleep_timer: u16,
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dimming: u8,
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}
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impl IOLoop {
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pub fn new(io_pins: IOPins, segment_pins: SegmentPins, keyboard: Keyboard) -> IOLoop {
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IOLoop {
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index: 0,
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frame: 0,
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io_pins,
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segment_pins,
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dispaly: Default::default(),
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keyboard,
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readount: None,
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debounce: Default::default(),
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sleep_timer: 0,
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dimming: u8::MAX,
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}
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}
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@@ -151,22 +156,47 @@ impl IOLoop {
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pub fn advance(&mut self) -> Option<KeyPress> {
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self.index += 1;
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if self.index == self.io_pins.len() || self.index == self.dispaly.len() {
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// Frame done
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self.frame = self.frame.wrapping_add(1);
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// Start from first segment
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self.index = 0;
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// Full keyboard scan complete, debounce and return result
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self.debounce.input(self.readount.take())
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// Full keyboard scan complete, debounce
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let key = self.debounce.input(self.readount.take());
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// Reset or advance sleep timer
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if key.is_some() {
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self.sleep_timer = 0;
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} else {
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self.sleep_timer = self.sleep_timer.saturating_add(1);
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}
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if self.is_sleep() {
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self.dimming = self.dimming.saturating_add(DISPLAY_DIMM_SPEED);
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} else {
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self.dimming = self.dimming.saturating_sub(DISPLAY_UNDIMM_SPEED);
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}
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key
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} else {
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None
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}
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}
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pub fn is_sleep(&self) -> bool {
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self.sleep_timer >= DISPLAY_DIMM_FRAMES
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}
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pub fn dimming(&self) -> u8 {
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self.dimming
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}
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pub fn display_on(&mut self) -> Brightness {
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self.select_off();
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let segment = self.dispaly[self.index];
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let brighness = segment.apply(&mut self.segment_pins);
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self.select_on();
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brighness
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brighness.dimm(self.dimming)
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}
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pub fn display_off(&mut self) {
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@@ -181,6 +211,10 @@ impl IOLoop {
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}
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self.select_off();
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}
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pub fn frame(&self) -> (u16, usize) {
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(self.frame, self.index)
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}
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}
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#[derive(uDebug)]
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@@ -603,11 +637,7 @@ fn main() -> ! {
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.take(calc.len())
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{
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seg.dp();
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}
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for (no, seg) in display.slice(0, DISPLAY_SEGMENTS).iter_mut().enumerate() {
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seg.brightness(
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(no * (Brightness::full().unwrap() as usize) / DISPLAY_SEGMENTS) as u8,
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);
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seg.brightness(Brightness::full());
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}
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}
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TransientState::Err { .. } => display.error(),
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@@ -616,7 +646,7 @@ fn main() -> ! {
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avr_device::interrupt::free(|cs| {
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access_global(&IO_LOOP, cs, |io_loop| {
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io_loop.update_display(&display);
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});
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})
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});
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}
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}
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18
src/timer.rs
18
src/timer.rs
@@ -10,7 +10,9 @@ const fn us_to_ticks(us: u32) -> u32 {
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}
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// Timer 0 (8bit)
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pub struct SegmentTimer(TC0);
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pub struct SegmentTimer {
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timer: TC0,
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}
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impl SegmentTimer {
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// Sets up timer to rise interrupts:
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@@ -36,19 +38,17 @@ impl SegmentTimer {
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tc0.timsk0
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.write(|w| w.ocie0a().set_bit().ocie0b().set_bit());
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SegmentTimer(tc0)
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SegmentTimer { timer: tc0 }
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}
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// Set for how long the segment LEDs should be on in μs
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// Controls TIMER0_COMPB interrupt time after TIMER0_COMPA
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pub fn segment_on_time(&mut self, segment_on_us: u32) {
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let ocrb = us_to_ticks(segment_on_us);
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let delay: u8 = us_to_ticks(segment_on_us)
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.try_into()
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.expect("timer init segment_on_us out of rage");
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let elapsed = self.timer.tcnt0.read().bits();
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// Set the compare value for B match
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self.0.ocr0b.write(|w| {
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w.bits(
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ocrb.try_into()
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.expect("timer init segment_on_us out of rage"),
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)
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});
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self.timer.ocr0b.write(|w| w.bits(elapsed + delay));
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}
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}
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