#![deny(unsafe_code)]
#![no_main]
#![no_std]
use cortex_m_rt::entry;
use panic_rtt_target as _;
use rtt_target::{rprintln, rtt_init_print};
mod calibration;
use crate::calibration::calc_calibration;
use crate::calibration::calibrated_measurement;
mod led;
use crate::led::Direction;
use crate::led::direction_to_led;
use microbit::{display::blocking::Display, hal::Timer};
#[cfg(feature = "v1")]
use microbit::{hal::twi, pac::twi0::frequency::FREQUENCY_A};
#[cfg(feature = "v2")]
use microbit::{hal::twim, pac::twim0::frequency::FREQUENCY_A};
use lsm303agr::{AccelOutputDataRate, Lsm303agr, MagOutputDataRate};
#[entry]
fn main() -> ! {
rtt_init_print!();
let board = microbit::Board::take().unwrap();
#[cfg(feature = "v1")]
let i2c = { twi::Twi::new(board.TWI0, board.i2c.into(), FREQUENCY_A::K100) };
#[cfg(feature = "v2")]
let i2c = { twim::Twim::new(board.TWIM0, board.i2c_internal.into(), FREQUENCY_A::K100) };
let mut timer = Timer::new(board.TIMER0);
let mut display = Display::new(board.display_pins);
let mut sensor = Lsm303agr::new_with_i2c(i2c);
sensor.init().unwrap();
sensor.set_mag_odr(MagOutputDataRate::Hz10).unwrap();
sensor.set_accel_odr(AccelOutputDataRate::Hz10).unwrap();
let mut sensor = sensor.into_mag_continuous().ok().unwrap();
let calibration = calc_calibration(&mut sensor, &mut display, &mut timer);
rprintln!("Calibration: {:?}", calibration);
rprintln!("Calibration done, entering busy loop");
loop {
while !sensor.mag_status().unwrap().xyz_new_data {}
let mut data = sensor.mag_data().unwrap();
data = calibrated_measurement(data, &calibration);
let dir = match (data.x > 0, data.y > 0) {
(true, true) => Direction::NorthEast,
(false, true) => Direction::NorthWest,
(false, false) => Direction::SouthWest,
(true, false) => Direction::SouthEast,
};
display.show(&mut timer, direction_to_led(dir), 100);
}
}