linux下锁/无锁性能比较

代码示例中三种类型：
        1.pthread_mutex_t,互斥锁
        2.__sync_add_and_fetch,GCC自带的原子锁
        3.nolock,无锁方式
           

代码如下:
/*************************************************************************
        > File Name: log_test.c
        > Author: perrynzhou
        > Mail: [email protected]
        > Created Time: Fri 13 Jan 2017 05:00:46 PM HKT
 ************************************************************************/

#include <stdio.h>
#include <stdint.h>
#include <pthread.h>
#include <stdbool.h>
#include <time.h>
#define MAX_THD_SIZE 2048
uint64_t max = ;
uint64_t sum = ;
pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER;
static void incrment_with_lock (int *data)
{
        uint64_t i = ;
        uint64_t count = max / MAX_THD_SIZE;
        for (; i < count; i++)
        {
                pthread_mutex_lock (&lock);
                (*data)++;
                pthread_mutex_unlock (&lock);
        }
}

static void incrment_with_nolock (int *data)
{
        uint64_t i = ;
        uint64_t count = max / MAX_THD_SIZE;
        for (; i < count; i++)
        {
                (*data)++;
        }
}

static void incrment_with_atomic (int *data)
{
        uint64_t i = ;
        uint64_t count = max / MAX_THD_SIZE;
        for (; i < count; i++)
        {
                __sync_add_and_fetch (data, );
        }
}

bool is_digit (const char *s)
{
        if (s == NULL)
        {
                return false;
        }
        while (*s != '\0')
        {
                if (isdigit (*(s++)) == )
                {
                        return false;
                }
        }
        return true;
}

int main (int argc, char *argv[])
{
        if (argc !=  || !is_digit (argv[]))
        {
                fprintf (stdout, "usage: %s number \n", argv[]);
                return ;
        }
        max = atoi (argv[]);
        clock_t start, end;
        start = clock ();
        pthread_t thd[MAX_THD_SIZE];
        uint32_t i = ;
#ifdef LOCK
        for (; i < MAX_THD_SIZE; i++)
        {
                pthread_create (&thd[i], NULL, (void *) &incrment_with_lock, (void *) &sum);
        }
        for (i = ; i < MAX_THD_SIZE; i++)
        {
                pthread_join (thd[i], NULL);
        }
        end = clock ();
        fprintf (stdout, "sum = %d,incremnt_with_lock run time :%f s\n", sum, (double) (end - start) / CLOCKS_PER_SEC);
#endif
#ifdef ATOMIC
        for (; i < MAX_THD_SIZE; i++)
        {
                pthread_create (&thd[i], NULL, (void *) &incrment_with_atomic, (void *) &sum);
        }
        for (i = ; i < MAX_THD_SIZE; i++)
        {
                pthread_join (thd[i], NULL);
        }
        end = clock ();
        fprintf (stdout, "sum = %d,incremnt_with_atomic run time :%f s\n", sum, (double) (end - start) / CLOCKS_PER_SEC);
#endif
#ifdef NOLOCK
        for (; i < MAX_THD_SIZE; i++)
        {
                pthread_create (&thd[i], NULL, (void *) &incrment_with_nolock, (void *) &sum);
        }
        for (i = ; i < MAX_THD_SIZE; i++)
        {
                pthread_join (thd[i], NULL);
        }
        end = clock ();
        fprintf (stdout, "sum = %d,incremnt_with_nolock run time :%f s\n", sum, (double) (end - start) / CLOCKS_PER_SEC);
#endif
        return ;
}
           

测试结果：

结果描述
    1.使用pthread_mutex_xxx类似的函数，针对多线程中操作一个变量，代价挺高，性能比较低。
    2.不加锁这总方式，数据或错乱，但是性能是最佳的。
    3.使用GCC原子锁,有一定的开销但是代价比使用pthread_mutex_xxx函数小。