Michael Ernst Peter / Mbed OS Test_GPS

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Dependencies:   Eigen

main.cpp

Committer:
pmic
Date:
2022-06-03
Revision:
55:fbd59767e175
Parent:
53:50ecf1240eba
Child:
57:6c87f4989616

File content as of revision 55:fbd59767e175:

#include <mbed.h>

// GNSS and Compass test programm for Mateksys GNSS&Compass M9N-5883

// #include "Eigen/Dense.h"
#include "QMC5883L.h"
#include "LinearCharacteristics.h"
#include "NEOM9N.h"

// logical variable main task
bool do_execute_main_task = true;  // this variable will be toggled via the user button (blue button) to or not to execute the main task

// user button on nucleo board
Timer user_button_timer;            // create Timer object which we use to check if user button was pressed for a certain time (robust against signal bouncing)
InterruptIn user_button(PC_13);     // create InterruptIn interface object to evaluate user button falling and rising edge (no blocking code in ISR)
void user_button_pressed_fcn();     // custom functions which gets executed when user button gets pressed and released, definition below
void user_button_released_fcn();

int main()
{
    // while loop gets executed every main_task_period_ms milliseconds
    const int main_task_period_ms = 40;  // define main task period time in ms e.g. 50 ms -> main task runns 20 times per second
    Timer main_task_timer;               // create Timer object which we use to run the main task every main task period time in ms

    // led on nucleo board
    DigitalOut user_led(LED1);      // create DigitalOut object to command user led

    // create QMC5883L compass object
    I2C i2c(PB_9, PB_8); // I2C1
    QMC5883L mag(i2c);
    LinearCharacteristics raw_mx2mx, raw_my2my, raw_mz2mz;
    raw_mx2mx.setup(0.9991f, 0.0088f);
    raw_my2my.setup(0.9982f, 0.2092f);
    raw_mz2mz.setup(1.0027f, -0.0903f);
    float mag_val[3] = {0.0f, 0.0f, 0.0f};
    
    // create object for GNSS Sensor NEO-M9N
    NEOM9N neom9n(PA_9, PA_10); // UART1
    
    // attach button fall and rise functions to user button object
    user_button.fall(&user_button_pressed_fcn);
    user_button.rise(&user_button_released_fcn);

    // start timer
    main_task_timer.start();

    while (true) { // this loop will run forever

        main_task_timer.reset();

        // update magnetometer
        mag.readMag(); // this needs approx 2450 mus
        mag_val[0] = raw_mx2mx.evaluate( mag.magX() );
        mag_val[1] = raw_my2my.evaluate( mag.magY() );
        mag_val[2] = raw_mz2mz.evaluate( mag.magZ() );

        // update GNSS
        neom9n.update();

        if (do_execute_main_task) {

        } else {

        }

        user_led = !user_led;

        //int main_task_elapsed_time_mus = std::chrono::duration_cast<std::chrono::microseconds>(main_task_timer.elapsed_time()).count();

        // do only output via serial what's really necessary (this makes your code slow)
        printf("%0.3f, %0.3f, %0.3f, ",        //  1: 3 : scaled with 10.0f
            mag_val[0] * 10.0f,
            mag_val[1] * 10.0f,
            mag_val[2] * 10.0f);
        printf("%0.3f, %0.3f, %0.3f, ",        //  4: 6 : scaled with 10.0f
            neom9n.getVelN() * 10.0f,
            neom9n.getVelE() * 10.0f,
            neom9n.getVelD() * 10.0f);
        printf("%0.3f, %0.3f, %0.3f, %0.3f, ", //  7:10 : scaled with 10.0f
            neom9n.getGroundSpeed() * 10.0f,
            neom9n.getSpeedAcc() * 10.0f,
            neom9n.getHeading() * 10.0f,
            neom9n.getHeadAcc() * 10.0f);
        printf("%0.6f, %0.6f, %0.3f, %0.3f, ", // 11:14 : scaled with 10.0f
            neom9n.getLon() * 10.0f,
            neom9n.getLat() * 10.0f,
            neom9n.getHeight() * 10.0f,
            neom9n.getHeightMSL() * 10.0f);
        printf("%0.3f, %d",                    // 15:16 : no scaling
            neom9n.getSatTime(),
            neom9n.getNumSat());

        printf("\r\n");
        //printf("Update time: %d\r\n", main_task_elapsed_time_mus);

        // read timer and make the main thread sleep for the remaining time span (non blocking)
        int main_task_elapsed_time_ms = std::chrono::duration_cast<std::chrono::milliseconds>(main_task_timer.elapsed_time()).count();
        thread_sleep_for(main_task_period_ms - main_task_elapsed_time_ms);
    }
}

void user_button_pressed_fcn()
{
    user_button_timer.start();
    user_button_timer.reset();
}

void user_button_released_fcn()
{
    // read timer and toggle do_execute_main_task if the button was pressed longer than the below specified time
    int user_button_elapsed_time_ms = std::chrono::duration_cast<std::chrono::milliseconds>(user_button_timer.elapsed_time()).count();
    user_button_timer.stop();
    if (user_button_elapsed_time_ms > 200) {
        do_execute_main_task = !do_execute_main_task;
    }
}