rtic/examples/schedule.rs

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//! examples/schedule.rs
#![deny(unsafe_code)]
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#![deny(warnings)]
#![no_main]
#![no_std]
use cortex_m::peripheral::DWT;
use cortex_m_semihosting::hprintln;
use panic_halt as _;
use rtfm::cyccnt::{Instant, U32Ext as _};
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// NOTE: does NOT work on QEMU!
#[rtfm::app(device = lm3s6965, monotonic = rtfm::cyccnt::CYCCNT)]
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const APP: () = {
#[init(schedule = [foo, bar])]
fn init(mut cx: init::Context) {
// Initialize (enable) the monotonic timer (CYCCNT)
cx.core.DCB.enable_trace();
// required on Cortex-M7 devices that software lock the DWT (e.g. STM32F7)
DWT::unlock();
cx.core.DWT.enable_cycle_counter();
// semantically, the monotonic timer is frozen at time "zero" during `init`
// NOTE do *not* call `Instant::now` in this context; it will return a nonsense value
let now = cx.start; // the start time of the system
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hprintln!("init @ {:?}", now).unwrap();
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// Schedule `foo` to run 8e6 cycles (clock cycles) in the future
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cx.schedule.foo(now + 8_000_000.cycles()).unwrap();
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// Schedule `bar` to run 4e6 cycles in the future
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cx.schedule.bar(now + 4_000_000.cycles()).unwrap();
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}
#[task]
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fn foo(_: foo::Context) {
hprintln!("foo @ {:?}", Instant::now()).unwrap();
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}
#[task]
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fn bar(_: bar::Context) {
hprintln!("bar @ {:?}", Instant::now()).unwrap();
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}
extern "C" {
fn UART0();
}
};