Details:
I am implementing Peterson's Algorithm(below) to avoid race condition. The way I want to do it, is to declare a global integer variable, and create threads one and two. Whenever the thread one had access to the global variable it should print a
and add one to the global variable counter. When the thread two have access to this global variable it should print b
and add one to the global variable counter. This should continue until the global variable reaches a certain number(let's say 10). After that I want the thread(which ever of the two threads that makes the last addition to the global variable) to reset the global variable to 1 and both threads should exit. The code that I have implemented so far kinda does the job,it avoids race condition, but I can't exit both threads when counter reaches limit.
Question:
How can I quit both threads when the counter reaches a specific limit.
Whats the proper form of quitting a thread, right now I am using exit(), which I don't think is very efficient.
Peterson's Algorithm
boolean flag [2];
int turn;
void P0()
{
while (true) {
flag [0] = true;
turn = 1;
while (flag [1] && turn == 1) /* do nothing */;
/* critical section */;
flag [0] = false;
/* remainder */;
}
}
void P1()
{
while (true) {
flag [1] = true;
turn = 0;
while (flag [0] && turn == 0) /* do nothing */;
/* critical section */;
flag [1] = false;
/* remainder */
}
}
void main()
{
flag [0] = false;
flag [1] = false;
parbegin (P0, P1);
}
My Code:
EDIT: I realized that I have to put the if-statement, that is checking for the counter limit value, should be in the critical section(before it changes the flag to false).
#include<stdlib.h>
#include<stdio.h>
#include<pthread.h>
int counter = 0;
int flag[2];
int turn;
void *func1(void *);
void *func2(void *);
int main(int argc,char *argv[]){
pthread_t thread1,thread2;
//int rt1,rt2;
flag[0] = 0;
flag[1] = 0;
//rt1 = pthread_create(&thread1,NULL,&func1,"a");
//rt2 = pthread_create(&thread2,NULL,&func2,"c");
pthread_create(&thread1,NULL,&func1,"a");
pthread_create(&thread2,NULL,&func2,"b");
pthread_join(thread1,NULL);
pthread_join(thread2,NULL);
return 0;
}// End of main function
void *func1(void *message){
while(1){
flag[0] = 1;
turn = 1;
while(flag[1] && turn == 1);
printf("%s %d\n",(char *)message,counter);
counter++;
flag[0] = 0;
if(counter == 10){
counter = 1;
printf("exited at func1, with counter %d\n",counter);
exit(0);
}
}
return 0;
}
void *func2(void *message){
while(1){
flag[1] = 1;
turn = 0;
while(flag[0] && turn == 0);
printf("%s %d\n",(char *)message,counter);
counter++;
flag[1] = 0;
if(counter == 10){
counter = 1;
printf("exited at func2, with counter %d\n",counter);
exit(0);
}
}
return 0;
}