rtic/examples/t-schedule.rs

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//! [compile-pass] Check `schedule` code generation
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#![deny(unsafe_code)]
#![deny(warnings)]
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#![no_main]
#![no_std]
use panic_halt as _;
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use rtic::cyccnt::{Instant, U32Ext as _};
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#[rtic::app(device = lm3s6965, monotonic = rtic::cyccnt::CYCCNT)]
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mod app {
#[init]
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fn init(c: init::Context) -> init::LateResources {
let _: Result<(), ()> = foo::schedule(c.start + 10.cycles());
let _: Result<(), u32> = bar::schedule(c.start + 20.cycles(), 0);
let _: Result<(), (u32, u32)> = baz::schedule(c.start + 30.cycles(), 0, 1);
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init::LateResources {}
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}
#[idle]
fn idle(_: idle::Context) -> ! {
let _: Result<(), ()> = foo::schedule(Instant::now() + 40.cycles());
let _: Result<(), u32> = bar::schedule(Instant::now() + 50.cycles(), 0);
let _: Result<(), (u32, u32)> = baz::schedule(Instant::now() + 60.cycles(), 0, 1);
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loop {
cortex_m::asm::nop();
}
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}
#[task(binds = SVCall)]
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fn svcall(c: svcall::Context) {
let _: Result<(), ()> = foo::schedule(c.start + 70.cycles());
let _: Result<(), u32> = bar::schedule(c.start + 80.cycles(), 0);
let _: Result<(), (u32, u32)> = baz::schedule(c.start + 90.cycles(), 0, 1);
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}
#[task(binds = UART0)]
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fn uart0(c: uart0::Context) {
let _: Result<(), ()> = foo::schedule(c.start + 100.cycles());
let _: Result<(), u32> = bar::schedule(c.start + 110.cycles(), 0);
let _: Result<(), (u32, u32)> = baz::schedule(c.start + 120.cycles(), 0, 1);
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}
#[task]
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fn foo(c: foo::Context) {
let _: Result<(), ()> = foo::schedule(c.scheduled + 130.cycles());
let _: Result<(), u32> = bar::schedule(c.scheduled + 140.cycles(), 0);
let _: Result<(), (u32, u32)> = baz::schedule(c.scheduled + 150.cycles(), 0, 1);
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}
#[task]
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fn bar(_: bar::Context, _x: u32) {}
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#[task]
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fn baz(_: baz::Context, _x: u32, _y: u32) {}
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// RTIC requires that unused interrupts are declared in an extern block when
// using software tasks; these free interrupts will be used to dispatch the
// software tasks.
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extern "C" {
fn SSI0();
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}
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}