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简单线程池的实现

时间:2019-09-01 23:59:22      阅读:179      评论:0      收藏:0      [点我收藏+]

标签:res   ESS   没有   eww   roc   回调   休息   bre   void   

#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <pthread.h>
#include <assert.h>
 
/*
*线程池里所有运行和等待的任务都是一个CThread_worker
*由于所有任务都在链表里,所以是一个链表结构
*/
typedef struct worker
{
    /*回调函数,任务运行时会调用此函数,注意也可声明成其它形式*/
    void *(*process) (void *arg);
    void *arg;/*回调函数的参数*/
    struct worker *next;
 
} CThread_worker;
 
 
 
/*线程池结构*/
typedef struct
{
    pthread_mutex_t queue_lock;
    pthread_cond_t queue_ready;
 
    /*链表结构,线程池中所有等待任务*/
    CThread_worker *queue_head;
 
    /*是否销毁线程池*/
    int shutdown;
    pthread_t *threadid;
    /*线程池中允许的活动线程数目*/
    int max_thread_num;
    /*当前等待队列的任务数目*/
    int cur_queue_size;
 
} CThread_pool;
 
 
 
int pool_add_worker (void *(*process) (void *arg), void *arg);
void *thread_routine (void *arg);
 
 
//share resource
static CThread_pool *pool = NULL;
void
pool_init (int max_thread_num)
{
    pool = (CThread_pool *) malloc (sizeof (CThread_pool));
 
    pthread_mutex_init (&(pool->queue_lock), NULL);
    pthread_cond_init (&(pool->queue_ready), NULL);
 
    pool->queue_head = NULL;
 
    pool->max_thread_num = max_thread_num;
    pool->cur_queue_size = 0;
 
    pool->shutdown = 0;
 
    pool->threadid = (pthread_t *) malloc (max_thread_num * sizeof (pthread_t));
    int i = 0;
    for (i = 0; i < max_thread_num; i++)
    { 
        pthread_create (&(pool->threadid[i]), NULL, thread_routine,NULL);
    }
}
 
 
 
/*向线程池中加入任务*/
int
pool_add_worker (void *(*process) (void *arg), void *arg)
{
    /*构造一个新任务*/
    CThread_worker *newworker = (CThread_worker *) malloc (sizeof (CThread_worker));
    newworker->process = process;
    newworker->arg = arg;
    newworker->next = NULL;/*别忘置空*/
 
    pthread_mutex_lock (&(pool->queue_lock));
    /*将任务加入到等待队列中*/
    CThread_worker *member = pool->queue_head;
    if (member != NULL)
    {
        while (member->next != NULL)
            member = member->next;
        member->next = newworker;
    }
    else
    {
        pool->queue_head = newworker;
    }
 
    assert (pool->queue_head != NULL);
 
    pool->cur_queue_size++;
    pthread_mutex_unlock (&(pool->queue_lock));
    /*好了,等待队列中有任务了,唤醒一个等待线程;
    注意如果所有线程都在忙碌,这句没有任何作用*/
    pthread_cond_signal (&(pool->queue_ready));
    return 0;
}
 
 
 
/*销毁线程池,等待队列中的任务不会再被执行,但是正在运行的线程会一直
把任务运行完后再退出*/
int
pool_destroy ()
{
    if (pool->shutdown)
        return -1;/*防止两次调用*/
    pool->shutdown = 1;
 
    /*唤醒所有等待线程,线程池要销毁了*/
    pthread_cond_broadcast (&(pool->queue_ready));
 
    /*阻塞等待线程退出,否则就成僵尸了*/
    int i;
    for (i = 0; i < pool->max_thread_num; i++)
        pthread_join (pool->threadid[i], NULL);
    free (pool->threadid);
 
    /*销毁等待队列*/
    CThread_worker *head = NULL;
    while (pool->queue_head != NULL)
    {
        head = pool->queue_head;
        pool->queue_head = pool->queue_head->next;
        free (head);
    }
    /*条件变量和互斥量也别忘了销毁*/
    pthread_mutex_destroy(&(pool->queue_lock));
    pthread_cond_destroy(&(pool->queue_ready));
    
    free (pool);
    /*销毁后指针置空是个好习惯*/
    pool=NULL;
    return 0;
}
 
 
 
void *
thread_routine (void *arg)
{
    printf ("starting thread 0x%x\n", pthread_self ());
    while (1)
    {
        pthread_mutex_lock (&(pool->queue_lock));
        /*如果等待队列为0并且不销毁线程池,则处于阻塞状态; 注意
        pthread_cond_wait是一个原子操作,等待前会解锁,唤醒后会加锁*/
        while (pool->cur_queue_size == 0 && !pool->shutdown)
        {
            printf ("thread 0x%x is waiting\n", pthread_self ());
            pthread_cond_wait (&(pool->queue_ready), &(pool->queue_lock));
        }
 
        /*线程池要销毁了*/
        if (pool->shutdown)
        {
            /*遇到break,continue,return等跳转语句,千万不要忘记先解锁*/
            pthread_mutex_unlock (&(pool->queue_lock));
            printf ("thread 0x%x will exit\n", pthread_self ());
            pthread_exit (NULL);
        }
 
        printf ("thread 0x%x is starting to work\n", pthread_self ());
 
        /*assert是调试的好帮手*/
        assert (pool->cur_queue_size != 0);
        assert (pool->queue_head != NULL);
        
        /*等待队列长度减去1,并取出链表中的头元素*/
        pool->cur_queue_size--;
        CThread_worker *worker = pool->queue_head;
        pool->queue_head = worker->next;
        pthread_mutex_unlock (&(pool->queue_lock));
 
        /*调用回调函数,执行任务*/
        (*(worker->process)) (worker->arg);
        free (worker);
        worker = NULL;
    }
    /*这一句应该是不可达的*/
    pthread_exit (NULL);
}
 
//    下面是测试代码
 
void *
myprocess (void *arg)
{
    printf ("threadid is 0x%x, working on task %d\n", pthread_self (),*(int *) arg);
    sleep (1);/*休息一秒,延长任务的执行时间*/
    return NULL;
}
 
int
main (int argc, char **argv)
{
    pool_init (3);/*线程池中最多三个活动线程*/
    
    /*连续向池中投入10个任务*/
    int *workingnum = (int *) malloc (sizeof (int) * 10);
    int i;
    for (i = 0; i < 10; i++)
    {
        workingnum[i] = i;
        pool_add_worker (myprocess, &workingnum[i]);
    }
    /*等待所有任务完成*/
    sleep (5);
    /*销毁线程池*/
    pool_destroy ();
 
    free (workingnum);
    return 0;
}

  

将上述所有代码放入threadpool.c文件中,
在Linux输入编译命令
gcc -o threadpool threadpool.c -lpthread

简单线程池的实现

标签:res   ESS   没有   eww   roc   回调   休息   bre   void   

原文地址:https://www.cnblogs.com/yangjiquan/p/11444169.html

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