//! [compile-pass] Check code generation of resources #![deny(unsafe_code)] #![deny(warnings)] #![no_main] #![no_std] use panic_halt as _; #[rtic::app(device = lm3s6965)] mod app { #[resources] struct Resources { #[init(0)] o1: u32, // init #[init(0)] o2: u32, // idle #[init(0)] o3: u32, // EXTI0 #[init(0)] o4: u32, // idle #[init(0)] o5: u32, // EXTI1 #[init(0)] o6: u32, // init #[init(0)] s1: u32, // idle & uart0 #[init(0)] s2: u32, // uart0 & uart1 #[init(0)] s3: u32, // idle & uart0 } #[init] fn init(_: init::Context) -> (init::LateResources, init::Monotonics) { (init::LateResources {}, init::Monotonics()) } #[idle(resources = [o2, &o4, s1, &s3])] fn idle(mut c: idle::Context) -> ! { // owned by `idle` == `&'static mut` let _: resources::o2 = c.resources.o2; // owned by `idle` == `&'static` if read-only let _: &u32 = c.resources.o4; // shared with `idle` == `Mutex` c.resources.s1.lock(|_| {}); // `&` if read-only let _: &u32 = c.resources.s3; loop { cortex_m::asm::nop(); } } #[task(binds = UART0, resources = [o3, s1, s2, &s3])] fn uart0(c: uart0::Context) { // owned by interrupt == `&mut` let _: resources::o3 = c.resources.o3; // no `Mutex` proxy when access from highest priority task let _: resources::s1 = c.resources.s1; // no `Mutex` proxy when co-owned by cooperative (same priority) tasks let _: resources::s2 = c.resources.s2; // `&` if read-only let _: &u32 = c.resources.s3; } #[task(binds = UART1, resources = [s2, &o5])] fn uart1(c: uart1::Context) { // owned by interrupt == `&` if read-only let _: &u32 = c.resources.o5; // no `Mutex` proxy when co-owned by cooperative (same priority) tasks let _: resources::s2 = c.resources.s2; } }