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Remove example impl and have a list of example impls instead
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@ -11,55 +11,19 @@ RTIC 0.6 we have moved to assume the user has a time library, e.g. [`fugit`] or
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as the basis for all time-based operations when implementing `Monotonic`. This is why in RTIC 0.6
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it is almost trivial to implement the `Monotonic` trait and use any timer in a system for scheduling.
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The trait documents the requirements for each method, however a small PoC implementation is provided
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below.
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The trait documents the requirements for each method, however below you can find a list of
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implementations in the wild that can be used as inspiration:
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- [`STM32F411 timers`], implemented for the 32-bit timers
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- [`Systick based`], runs at a fixed rate - some overhead but simple
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- [`DWT and Systick based`], a more efficient `Systick` based implementation, but requires `DWT`
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If you know of more implementations feel free to add them to this list.
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[`rtic_monotonic::Monotonic`]: https://docs.rs/rtic-monotonic/
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[`fugit`]: https://docs.rs/fugit/
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[`embedded_time`]: https://docs.rs/embedded_time/
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[`STM32F411 timers`]: https://github.com/kalkyl/f411-rtic/blob/main/src/bin/mono.rs
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[`Systick based`]: https://github.com/rtic-rs/systick-monotonic
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[`DWT and Systick based`]: https://github.com/rtic-rs/dwt-systick-monotonic
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```rust
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pub use fugit::{self, ExtU32};
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use rtic_monotonic::Monotonic;
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/// Example wrapper struct for a timer
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pub struct Timer<const TIMER_HZ: u32> {
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tim: TIM2,
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}
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impl<const TIMER_HZ: u32> Monotonic for Timer<TIMER_HZ> {
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type Instant = fugit::TimerInstantU32<TIMER_HZ>;
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type Duration = fugit::TimerDurationU32<TIMER_HZ>;
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fn now(&mut self) -> Self::Instant {
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// Read the timer count
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Self::Instant::from_ticks(Self::count())
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}
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fn zero() -> Self::Instant {
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// This is used while the app is in `#[init]`, if the system cannot
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// support time in `#[init]` this can also be a `panic!(..)`
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Self::Instant::from_ticks(0)
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}
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unsafe fn reset(&mut self) {
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// Reset timer counter
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self.tim.cnt.write(|_, w| w.bits(0));
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// Since reset is only called once, we use it to enable
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// the interrupt generation bit.
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self.tim.dier.modify(|_, w| w.cc1ie().set_bit());
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}
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fn set_compare(&mut self, instant: Instant<Self>) {
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// Use Compare channel 1 for Monotonic
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self.tim
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.ccr1
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.write(|w| w.ccr().bits(instant.ticks()));
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}
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fn clear_compare_flag(&mut self) {
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self.tim.sr.modify(|_, w| w.cc1if().clear_bit());
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}
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}
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```
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