Our Programm to build up from the PES Board Example
Dependencies: PM2_Libary
main.cpp
- Committer:
- oneelia01
- Date:
- 2022-03-25
- Revision:
- 23:4a0912c80739
- Parent:
- 21:f13e39291d80
- Child:
- 24:b45ebc28cdf0
File content as of revision 23:4a0912c80739:
#include "mbed.h" #include "PM2_Libary.h" //this is a change for Commiting (delete later) // logical variable main task bool do_execute_main_task = false; // 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(); // while loop gets executed every main_task_period_ms milliseconds int main_task_period_ms = 50; // 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 // additional Led DigitalOut extra_led(PB_9); // create DigitalOut object to command extra led (do add an aditional resistor, e.g. 220...500 Ohm) // mechanical button DigitalIn mechanical_button(PC_5); // create DigitalIn object to evaluate extra mechanical button, you need to specify the mode for proper usage, see below // Sharp GP2Y0A41SK0F, 4-40 cm IR Sensor float ir_distance_mV = 0.0f; // define variable to store measurement // ??? // create AnalogIn object to read in infrared distance sensor, 0...3.3V are mapped to 0...1 int main() { // 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 timers main_task_timer.start(); // set pullup mode: add resistor between pin and 3.3 V, so that there is a defined potential mechanical_button.mode(PullUp); while (true) { // this loop will run forever main_task_timer.reset(); if (do_execute_main_task) { // read analog input // ??? // if the mechanical button is pressed the extra led is blinking if (mechanical_button.read()) { // visual feedback that the main task is executed extra_led = !extra_led; } else { extra_led = 1; } } else { ir_distance_mV = 0.0f; extra_led = 0; } user_led = !user_led; // do only output via serial what's really necessary (this makes your code slow) printf("IR sensor (mV): %3.3f\r\n", ir_distance_mV); // 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; } }