Stage-1 Students SoCEM
Demonstration of a message queue + memory pool
main.cpp
- Committer:
- noutram
- Date:
- 2016-03-09
- Revision:
- 5:31707531f715
- Parent:
- 4:dae8898e55fe
- Child:
- 6:2e463846b575
File content as of revision 5:31707531f715:
#include "mbed.h"
#include "rtos.h"
#include "string.h"
#include <stdio.h>
#include <ctype.h>
#define DELAY 200
//Digital outputs
DigitalOut onBoardLED(LED1);
DigitalOut redLED(D7);
DigitalOut yellowLED(D6);
DigitalOut greenLED(D5);
//Serial Interface
Serial pc(USBTX, USBRX);
//Digital inputs
DigitalIn onBoardSwitch(USER_BUTTON);
DigitalIn SW1(D4);
DigitalIn SW2(D3);
//Thread ID for the Main function (CMSIS API)
osThreadId tidMain;
//Thread sychronisation primatives
Mutex lock1;
Mutex lock2;
unsigned long sw1Count = 0;
unsigned long sw2Count = 0;
void thread1( const void* arg )
{
pc.printf("Entering thread 1\n");
while (true) {
yellowLED = 1;
//Start critical section
lock1.lock();
sw1Count++;
printf("\nCount1 = %lu", sw1Count);
Thread::wait(1); //1ms
//End critical section
lock1.unlock();
if (SW1 == 1) {
lock2.lock();
sw2Count--;
lock2.unlock();
}
yellowLED = 0;
Thread::wait(DELAY);
}
}
void thread2( const void* arg )
{
pc.printf("Entering thread 2\n");
while (true) {
redLED = 1;
//Start critical section
lock2.lock();
sw2Count++;
printf("\nCount2 = %lu", sw2Count);
Thread::wait(1); //1ms
//End critical section
lock2.unlock();
if (SW2 == 1) {
lock1.lock();
sw1Count--;
lock1.unlock();
}
redLED = 0;
Thread::wait(DELAY);
}
}
//Main thread
int main() {
redLED = 0;
yellowLED = 0;
greenLED = 0;
//Main thread ID
tidMain = Thread::gettid();
//Threads
Thread t1(thread1);
Thread t2(thread2);
pc.printf("Main Thread\n");
while (true) {
Thread::wait(osWaitForever);
}
}