rtic/examples/cfg-monotonic.rs

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//! examples/cfg-monotonic.rs
#![deny(unsafe_code)]
#![deny(warnings)]
#![deny(missing_docs)]
#![no_main]
#![no_std]
use panic_semihosting as _;
#[rtic::app(device = lm3s6965, dispatchers = [SSI0, QEI0])]
mod app {
use cortex_m_semihosting::{debug, hprintln};
use systick_monotonic::*; // Implements the `Monotonic` trait
// A monotonic timer to enable scheduling in RTIC
#[cfg(feature = "killmono")]
#[monotonic(binds = SysTick, default = true)]
type MyMono = Systick<100>; // 100 Hz / 10 ms granularity
// Not allowed by current rtic-syntax:
// error: `#[monotonic(...)]` on a specific type must appear at most once
// --> examples/cfg-monotonic.rs:23:10
// |
// 23 | type MyMono = Systick<100>; // 100 Hz / 10 ms granularity
// | ^^^^^^
// #[monotonic(binds = SysTick, default = true)]
// type MyMono = Systick<100>; // 100 Hz / 10 ms granularity
// Not allowed by current rtic-syntax:
// error: this interrupt is already bound
// --> examples/cfg-monotonic.rs:31:25
// |
// 31 | #[monotonic(binds = SysTick, default = true)]
// | ^^^^^^^
// #[monotonic(binds = SysTick, default = true)]
// type MyMono2 = DwtSystick<100>; // 100 Hz / 10 ms granularity
// Resources shared between tasks
#[shared]
struct Shared {
s1: u32,
s2: i32,
}
// Local resources to specific tasks (cannot be shared)
#[local]
struct Local {
l1: u8,
l2: i8,
}
#[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)
#[cfg(feature = "killmono")]
let mono = Systick::new(systick, 12_000_000);
// Spawn the task `foo` directly after `init` finishes
foo::spawn().unwrap();
debug::exit(debug::EXIT_SUCCESS); // Exit QEMU simulator
(
// Initialization of shared resources
Shared { s1: 0, s2: 1 },
// Initialization of task local resources
Local { l1: 2, l2: 3 },
// Move the monotonic timer to the RTIC run-time, this enables
// scheduling
#[cfg(feature = "killmono")]
init::Monotonics(mono),
init::Monotonics(),
)
}
// Background task, runs whenever no other tasks are running
#[idle]
fn idle(_: idle::Context) -> ! {
loop {
continue;
}
}
// Software task, not bound to a hardware interrupt.
// This task takes the task local resource `l1`
// The resources `s1` and `s2` are shared between all other tasks.
#[task(shared = [s1, s2], local = [l1])]
fn foo(_: foo::Context) {
// This task is only spawned once in `init`, hence this task will run
// only once
hprintln!("foo");
}
// Software task, also not bound to a hardware interrupt
// This task takes the task local resource `l2`
// The resources `s1` and `s2` are shared between all other tasks.
#[task(shared = [s1, s2], local = [l2])]
fn bar(_: bar::Context) {
hprintln!("bar");
// Run `bar` once per second
// bar::spawn_after(1.secs()).unwrap();
}
// Hardware task, bound to a hardware interrupt
// The resources `s1` and `s2` are shared between all other tasks.
#[task(binds = UART0, priority = 3, shared = [s1, s2])]
fn uart0_interrupt(_: uart0_interrupt::Context) {
// This task is bound to the interrupt `UART0` and will run
// whenever the interrupt fires
// Note that RTIC does NOT clear the interrupt flag, this is up to the
// user
hprintln!("UART0 interrupt!");
}
}