rtic/examples/baseline.rs

//! examples/baseline.rs

#![deny(unsafe_code)]
#![deny(warnings)]
#![no_main]
#![no_std]

use cortex_m_semihosting::{debug, hprintln};
use lm3s6965::Interrupt;
use panic_semihosting as _;

// NOTE: does NOT properly work on QEMU
#[rtic::app(device = lm3s6965, monotonic = rtic::cyccnt::CYCCNT)]
mod app {
    #[init(spawn = [foo])]
    fn init(cx: init::Context) {
        // omitted: initialization of `CYCCNT`

        hprintln!("init(baseline = {:?})", cx.start).unwrap();

        // `foo` inherits the baseline of `init`: `Instant(0)`
        cx.spawn.foo().unwrap();
    }

    #[task(schedule = [foo])]
    fn foo(cx: foo::Context) {
        static mut ONCE: bool = true;

        hprintln!("foo(baseline = {:?})", cx.scheduled).unwrap();

        if *ONCE {
            *ONCE = false;

            rtic::pend(Interrupt::UART0);
        } else {
            debug::exit(debug::EXIT_SUCCESS);
        }
    }

    #[task(binds = UART0, spawn = [foo])]
    fn uart0(cx: uart0::Context) {
        hprintln!("UART0(baseline = {:?})", cx.start).unwrap();

        // `foo` inherits the baseline of `UART0`: its `start` time
        cx.spawn.foo().unwrap();
    }

    // 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.
    extern "C" {
        fn SSI0();
    }
}
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`//! examples/baseline.rs`

			`#![deny(unsafe_code)]`
			`#![deny(warnings)]`
			`#![no_main]`
			`#![no_std]`

use new cortex_m_semihosting::hprintln macro 2018-11-04 19:57:39 +01:00			`use cortex_m_semihosting::{debug, hprintln};`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`use lm3s6965::Interrupt;`
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`use panic_semihosting as _;`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00
			`// NOTE: does NOT properly work on QEMU`
Rename RTFM to RTIC 2020-06-11 19:18:29 +02:00			`#[rtic::app(device = lm3s6965, monotonic = rtic::cyccnt::CYCCNT)]`
Modules using lower-case in examples 2020-05-19 20:00:13 +02:00			`mod app {`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`#[init(spawn = [foo])]`
doc up 2019-08-21 10:17:27 +02:00			`fn init(cx: init::Context) {`
more monotonic timer docs covers - initialization and configuration of the timer; this is now a responsibility of the application author - correctness of `Monotonic::now()` in `#[init]` - safety of `Monotonic::reset()` closes #251 2019-10-16 01:44:49 +02:00			// omitted: initialization of `CYCCNT`

doc up 2019-08-21 10:17:27 +02:00			`hprintln!("init(baseline = {:?})", cx.start).unwrap();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00
			// `foo` inherits the baseline of `init`: `Instant(0)`
doc up 2019-08-21 10:17:27 +02:00			`cx.spawn.foo().unwrap();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`

			`#[task(schedule = [foo])]`
doc up 2019-08-21 10:17:27 +02:00			`fn foo(cx: foo::Context) {`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`static mut ONCE: bool = true;`

doc up 2019-08-21 10:17:27 +02:00			`hprintln!("foo(baseline = {:?})", cx.scheduled).unwrap();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00
			`if *ONCE {`
			`*ONCE = false;`

Rename RTFM to RTIC 2020-06-11 19:18:29 +02:00			`rtic::pend(Interrupt::UART0);`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`} else {`
			`debug::exit(debug::EXIT_SUCCESS);`
			`}`
			`}`

RFC #207 2019-06-20 06:19:59 +02:00			`#[task(binds = UART0, spawn = [foo])]`
doc up 2019-08-21 10:17:27 +02:00			`fn uart0(cx: uart0::Context) {`
			`hprintln!("UART0(baseline = {:?})", cx.start).unwrap();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00
			// `foo` inherits the baseline of `UART0`: its `start` time
doc up 2019-08-21 10:17:27 +02:00			`cx.spawn.foo().unwrap();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`

Examples: Clarify extern section Some beginners are confused about the "extern" section, so I added an explanation comment to all examples. Furthermore, using the UARTx interrupts when UART is actually being used in the same example may be confusing, so I changed them all to SSI0/QEI0. 2020-06-26 23:46:09 +02:00			`// 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.`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`extern "C" {`
Examples: Clarify extern section Some beginners are confused about the "extern" section, so I added an explanation comment to all examples. Furthermore, using the UARTx interrupts when UART is actually being used in the same example may be confusing, so I changed them all to SSI0/QEI0. 2020-06-26 23:46:09 +02:00			`fn SSI0();`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`
Examples using mod instead of const 2020-04-22 12:58:14 +02:00			`}`