This library provides a set of reusable components for the Arduino Uno.
use ruduino::PORTB; // Register
use ruduino::PORTB7; // Pin
Disable interrupts.
without_interrupts(|| {
unsafe { write_volatile(DDRB, 0xFF) }
})
Configure a timer.
const CPU_FREQUENCY_HZ: u64 = 16_000_000;
const DESIRED_HZ_TIM1: f64 = 2.0;
const TIM1_PRESCALER: u64 = 1024;
const INTERRUPT_EVERY_1_HZ_1024_PRESCALER: u16 =
((CPU_FREQUENCY_HZ as f64 / (DESIRED_HZ_TIM1 * TIM1_PRESCALER as f64)) as u64 - 1) as u16;
timer1::Timer::new()
.waveform_generation_mode(timer1::WaveformGenerationMode::ClearOnTimerMatchOutputCompare)
.clock_source(timer1::ClockSource::Prescale1024)
.output_compare_1(Some(INTERRUPT_EVERY_1_HZ_1024_PRESCALER))
.configure();
Set up an interrupt handler that will be called when the timer fires.
#[no_mangle]
pub unsafe extern "avr-interrupt" fn _ivr_timer1_compare_a() {
let prev_value = read_volatile(PORTB);
write_volatile(PORTB, prev_value ^ PINB5);
}
Configure the serial port.
const CPU_FREQUENCY_HZ: u64 = 16_000_000;
const BAUD: u64 = 9600;
const UBRR: u16 = (CPU_FREQUENCY_HZ / 16 / BAUD - 1) as u16;
serial::Serial::new(UBRR)
.character_size(serial::CharacterSize::EightBits)
.mode(serial::Mode::Asynchronous)
.parity(serial::Parity::Disabled)
.stop_bits(serial::StopBits::OneBit)
.configure();
Transmit a sequence of bytes.
for &b in b"OK" {
serial::transmit(b);
}
Read a byte if there's something available.
if let Some(b) = serial::try_receive() {
serial::transmit(b);
serial::transmit(b);
}