//! [compile-pass] Check `schedule` code generation #![deny(unsafe_code)] #![deny(warnings)] #![no_main] #![no_std] use panic_semihosting as _; #[rtic::app(device = lm3s6965, dispatchers = [SSI0])] mod app { use cortex_m_semihosting::debug; use systick_monotonic::*; #[monotonic(binds = SysTick, default = true)] type MyMono = Systick<100>; // 100 Hz / 10 ms granularity #[shared] struct Shared {} #[local] struct Local {} #[init] fn init(cx: init::Context) -> (Shared, Local, init::Monotonics) { let systick = cx.core.SYST; // Initialize the monotonic (SysTick rate in QEMU is 12 MHz) let mono = Systick::new(systick, 12_000_000); debug::exit(debug::EXIT_SUCCESS); // Exit QEMU simulator (Shared {}, Local {}, init::Monotonics(mono)) } #[idle] fn idle(_: idle::Context) -> ! { // Task without message passing // Not default let _: Result = foo::MyMono::spawn_at(monotonics::MyMono::now()); let handle: Result = foo::MyMono::spawn_after(1.secs()); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = foo::MyMono::spawn_after(1.secs()); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = foo::MyMono::spawn_after(1.secs()); let _: Result<(), ()> = handle.unwrap().cancel(); // Using default let _: Result = foo::spawn_at(monotonics::now()); let handle: Result = foo::spawn_after(1.secs()); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = foo::spawn_after(1.secs()); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = foo::spawn_after(1.secs()); let _: Result<(), ()> = handle.unwrap().cancel(); // Task with single message passing // Not default let _: Result = bar::MyMono::spawn_at(monotonics::MyMono::now(), 0); let handle: Result = bar::MyMono::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = bar::MyMono::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = bar::MyMono::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().cancel(); // Using default let _: Result = bar::spawn_at(monotonics::MyMono::now(), 0); let handle: Result = bar::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = bar::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = bar::spawn_after(1.secs(), 1); let _: Result = handle.unwrap().cancel(); // Task with multiple message passing // Not default let _: Result = baz::MyMono::spawn_at(monotonics::MyMono::now(), 0, 1); let handle: Result = baz::MyMono::spawn_after(1.secs(), 1, 2); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = baz::MyMono::spawn_after(1.secs(), 1, 2); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = baz::MyMono::spawn_after(1.secs(), 1, 2); let _: Result<(u32, u32), ()> = handle.unwrap().cancel(); // Using default let _: Result = baz::spawn_at(monotonics::MyMono::now(), 0, 1); let handle: Result = baz::spawn_after(1.secs(), 1, 2); let _: Result = handle.unwrap().reschedule_after(1.secs()); let handle: Result = baz::spawn_after(1.secs(), 1, 2); let _: Result = handle.unwrap().reschedule_at(monotonics::MyMono::now()); let handle: Result = baz::spawn_after(1.secs(), 1, 2); let _: Result<(u32, u32), ()> = handle.unwrap().cancel(); loop { cortex_m::asm::nop(); } } #[task] fn foo(_: foo::Context) {} #[task] fn bar(_: bar::Context, _x: u32) {} #[task] fn baz(_: baz::Context, _x: u32, _y: u32) {} }