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I am a rookie in multi-thread programming. Here I wrote a small program to compute the square root from 0 to 20. The size of my thread_id array is 3. My strategy is like asking thread_ID[0] to compute square root of 0,3,6...and thread_ID[1] to compute 1,4,7... But the result seems to have some problems. There are duplicate results.

#include <stdio.h>
#include <math.h>
#include <pthread.h>

#define THREAD_NUM 3

void *thread_function( void *arg )
    int *incoming = (int*)(arg);

    double result = sqrt(*incoming);
    printf("The square root of %d is %f\n ",*incoming, result);
    return NULL;

int main( void )
    pthread_t thread_ID[THREAD_NUM];

    void *exit_result;
    int i;

    for( i = 0; i < 20; i++ )
        int id = i%THREAD_NUM;
        int num = i;
        if( i >= THREAD_NUM )
            if(pthread_join( thread_ID[id], &exit_result ) != 0)
                perror("join failed");

        if( pthread_create( &thread_ID[id],NULL,thread_function,&(num)) != 0)
            perror("create failed");

    for( i = 0; i < THREAD_NUM; i++ )
        pthread_join( thread_ID[i], &exit_result );
    return 0;

The result is

The square root of 2 is 1.414214 The square root of 3 is 1.732051 The square root of 2 is 1.414214 The square root of 4 is 2.000000 The square root of 5 is 2.236068 The square root of 7 is 2.645751 The square root of 8 is 2.828427 The square root of 6 is 2.449490 The square root of 9 is 3.000000 The square root of 10 is 3.162278 The square root of 12 is 3.464102 The square root of 13 is 3.605551 The square root of 11 is 3.316625 The square root of 14 is 3.741657 The square root of 15 is 3.872983 The square root of 16 is 4.000000 The square root of 18 is 4.242641 The square root of 17 is 4.123106 The square root of 19 is 4.358899 The square root of 19 is 4.358899

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Please format code and also add to the question the output you were expecting. –  Ankit Mar 14 '13 at 23:24

1 Answer 1

You've only got one integer for all of your threads. Specifically:

int num = i;

When you call

pthread_create( &thread_ID[id],NULL,thread_function,&(num))

Then the address of num is passed to the thread. Now in each created thread, you use this address as follows:

int *incoming = (int*)(arg);

So, *incoming is going to be a pointer to num from the main function. The thing is, it's going to be a pointer to the same num that every other thread is using. And you keep changing the value of num. As such, every thread is just going to be looking at the last value you set for it.

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Yes. Plus, it's not such a great idea to create and join threads over and over to perform such trivial work on a single value. Sounds like a good place to either partition the workload ahead of time (pass each thread a range of values to work on independently), or use a thread pool. The latter is definitely overkill for a problem this small. –  Randy Howard Mar 14 '13 at 23:12
I understand it's really not a good design, just wanna know what causes that. OK, now I totally understand, thanks guys! –  Yan Li Mar 15 '13 at 1:07
If this answer is correct, can you mark it as answered? –  wilsonmichaelpatrick Mar 15 '13 at 2:29

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