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  • linux多线程示例

     1 #include <stdio.h>
     2 #include <unistd.h>
     3 #include <stdlib.h>
     4 #include <pthread.h>
     5 
     6 typedef void* (*fun)(void*);
     7 
     8 fun fun1, fun2;
     9 
    10 pthread_mutex_t pmu = PTHREAD_MUTEX_INITIALIZER;
    11 pthread_cond_t cond;
    12 pthread_t pid1, pid2;
    13 int flag = 0;
    14 int gnum = 0;
    15 int gsub = 100;
    16 
    17 void *  func1(void * para)
    18 {
    19     int k = (int)para;
    20     printf("func1, ******
    ");
    21     while(gnum<=100)
    22     {   
    23         pthread_mutex_lock(&pmu);
    24         printf("gnum == %d", gnum);
    25         while(gnum==50)
    26         {   
    27             printf("suspend thread1 at gnum==50 !!! 
    ");
    28             pthread_cond_wait(&cond, &pmu);
    29             gnum++;
    30        }
    31         ++gnum;
    32         ++flag;
    33         ++k;
    34         //printf("flag = %d, k = %d
    ", flag, k);
    35         pthread_mutex_unlock(&pmu);
    36         printf("I am func1
    ");
    37     }
    38             pthread_exit((void*)0);
    39 
    40 }
    41 
    42 void * func2(void * para)
    43 {
    44     int f = (int)para;
    45     printf("f == %d
    ", f);
    46     printf("pthread2 start running !
    ");
    47     void * ret = NULL;
    48     while(gsub>=0)
    49     {
    50         pthread_mutex_lock(&pmu);
    51         gsub--;
    52         printf("gsub= %d ", gsub);
    53         if(gsub == 20)
    54         {
    55             printf("now gsnb ==20, and send signal
    ");
    56             pthread_cond_signal(&cond);
    57         }
    58         ++flag;
    59        ++f;
    60         printf("flag = %d, f = %d
    ", flag, f);
    61         pthread_mutex_unlock(&pmu);
    62         printf("I am func2 
    ");
    63     }
    64     //pthread_join(pid1, &ret);
    65     pthread_exit((void*)0);
    66 }
    67 
    68 int main()
    69 {
    70     int id = 0;
    71     void * ret = NULL;
    72     int key = 5;
    73 
    74     pthread_cond_init(&cond, NULL);  //属性设置NULL默认属性
    75     id = pthread_create(&pid1, NULL, func1, (void*)key);
    76     if(id != 0)
    77     {
    78         printf("pthread_create error !
    ");
    79         exit(0);
    80     }
    81 
    82     if(pthread_create(&pid2, NULL, func2, (void*)key))
    83     {
    84         printf("pthread_create error ! 
    ");
    85         exit(0);
    86     }
    87     pthread_join(pid2, &ret);      //等待pid2线程退出
    88     pthread_join(pid1, &ret);      //等待pid1线程退出

        //pthread_detach(pid1);        //主线程与pid1线程进行分离,一般用来实现异步返回
        //pthread_detach(pid2);
            //同上
    89 pthread_exit((void*)0); 90 }

    gcc test_thread.c -lpthread
    ./a.out

    线程池实例代码:

      1 #include <stdio.h>
      2 #include <stdlib.h>
      3 #include <unistd.h>
      4 #include <sys/types.h>
      5 #include <pthread.h>
      6 #include <assert.h>
      7 
      8 typedef struct worker
      9 {
     10     //回调函数,任务运行时会调用此函数,也可以声明为其他形式;
     11     void * (*process)(void *arg);   //该函数返回值是任意类型的;参数也是任意类型的;`
     12     void *arg;  //回调函数的参数;
     13     struct worker *next;
     14 }CThread_worker;
     15 
     16 //线程池结构
     17 typedef struct
     18 {
     19     pthread_mutex_t queue_lock;     //互斥量
     20     pthread_cond_t queue_ready;     //条件变量
     21 
     22     //链表结构, 线程池中所有等待任务
     23     CThread_worker *queue_head;
     24     
     25     //是否销毁线程池
     26     int shutdown;
     27     pthread_t *threadid;
     28     
     29     //线程池中允许的活动线程数目;
     30     //线程池中允许的活动线程数目;
     31     int max_thread_num;
     32     //当前等待队列的任务数目;
     33     int  cur_queue_size;
     34 
     35 }CThread_pool;
     36 
     37 int pool_add_worker(void * (*process)(void *arg), void *arg);
     38 void * thread_routine(void *arg);
     39 
     40 static CThread_pool *pool = NULL;
     41 void pool_init(int max_thread_num)
     42 {
     43     pool = (CThread_pool*)malloc(sizeof(CThread_pool));
     44 
     45 //初始化互斥量;
     46     pthread_mutex_init(&(pool->queue_lock), NULL);
     47 //初始化条件变量
     48     pthread_cond_init(&(pool->queue_ready), NULL);
     49 
     50     pool->queue_head = NULL;
     51     
     52 //最大线程数目
     53     pool->max_thread_num = max_thread_num;
     54 //当前线程数目
     55     pool->cur_queue_size = 0;
     56     
     57     pool->shutdown = 0;
     58     pool->threadid = (pthread_t*)malloc(max_thread_num * sizeof(pthread_t));
     59     int i = 0;
     60     for(i=0; i<max_thread_num;i++)
     61     {
     62         pthread_create(&(pool->threadid[i]), NULL, thread_routine, NULL);
     63     }
     64 }
     65 
     66 //向线程池中加入任务
     67 int pool_add_worker(void*(*process)(void *arg), void *arg)
     68 {
     69     //构建一个新任务
     70     CThread_worker *newworker = (CThread_worker *)malloc(sizeof(CThread_worker));
     71     newworker->process = process;
     72     newworker->arg = arg;
     73     //别忘了置空
     74     newworker->next = NULL;
     75 
     76 //加锁互斥量
     77     pthread_mutex_lock(&(pool->queue_lock));
     78     //将任务加入到等待队列中
     79     CThread_worker *member = pool->queue_head;
     80     if(member !=NULL)
     81     {
     82         while(member->next != NULL)
     83             member = member->next;
     84         member->next = newworker;
     85     }
     86     else
     87     {
     88         pool->queue_head = newworker;
     89     }
     90     
     91     assert(pool->queue_head != NULL);
     92     pool->cur_queue_size++;
     93     pthread_mutex_unlock(&(pool->queue_lock));
     94     
     95     //好了,等待队列中有任务了,唤醒一个等待线程;
     96     //     注意如果所有线程都在忙碌,这句没有任何作用
     97     pthread_cond_signal(&(pool->queue_ready));
     98     return 0;
     99 }
    100 
    101 /*销毁线程池,等待队列中的任务不会再被执行,
    102 *但是正在运行的线程会一直 把任务运行完后 再退出;
    103 */
    104 
    105 int pool_destroy()
    106 {
    107     if(pool->shutdown)
    108         return -1;   //防止两次调用
    109     pool->shutdown = 1;
    110     
    111     //唤醒所有等待线程,线程池要销毁了 
    112     pthread_cond_broadcast(&(pool->queue_ready));
    113     
    114     //阻塞等待线程退出, 否则就成僵尸了
    115     int i;
    116     for(i=0; i<pool->max_thread_num; i++)
    117     {
    118         pthread_join(pool->threadid[i], NULL);
    119     }
    120 
    121     free(pool->threadid);
    122 
    123     //销毁等待队列
    124     CThread_worker *head = NULL;
    125     while(pool->queue_head != NULL)
    126     {
    127         head=pool->queue_head;
    128         pool->queue_head = pool->queue_head->next;
    129         free(head);
    130     }
    131 
    132     //条件变量和互斥量也别忘了销毁
    133     pthread_mutex_destroy(&(pool->queue_lock));
    134     pthread_cond_destroy(&(pool->queue_ready));
    135 
    136     free(pool);
    137      /*销毁后指针置空是个好习惯*/
    138     pool = NULL;
    139     return 0;
    140 }
    141 
    142 void* thread_routine(void *arg)
    143 {
    144                    printf("start thread 0x%x
    ", pthread_self());
    145     while(1)
    146     {
    147         pthread_mutex_lock(&(pool->queue_lock));
    148 /*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
    149  *pthread_cond_wait是一个原子操作,等待前会解锁,唤醒后会加锁*/
    150         while(pool->cur_queue_size == 0 && !pool->shutdown)
    151         {
    152             printf("thread 0x%x is waiting 
    ", pthread_self());
    153             pthread_cond_wait(&(pool->queue_ready), &(pool->queue_lock));
    154         }
    155 
    156         //线程池要销毁了;
    157         if(pool->shutdown)
    158         {
    159             //遇到break,continue,return等跳转语句,千万不要忘记先解锁*/
    160             pthread_mutex_unlock(&(pool->queue_lock));
    161             printf("thread 0x %x will exit 
    ", pthread_self());
    162             pthread_exit(NULL);
    163         }
    164 
    165         printf("thread 0x %x is starting to work 
    ", pthread_self());
    166 
    167         //使用断言
    168         assert(pool->cur_queue_size!= 0);
    169         assert(pool->queue_head!= NULL);
    170 
    171         //等待队列长度减去1,并取出链表中的头元素
    172         pool->cur_queue_size--;
    173        CThread_worker *worker = pool->queue_head;
    174         pool->queue_head = worker->next;
    175         pthread_mutex_unlock(&(pool->queue_lock));
    176 
    177         //调用回调函数,执行任务
    178         (*(worker->process))(worker->arg);
    179         free(worker);
    180         worker = NULL;
    181     }
    182     //这一句正常情况下是不可达的
    183     pthread_exit(NULL);
    184 }
    185 
    186 //test code
    187 void *myprocess(void *arg)
    188 {
    189     printf("threadid is 0x%x, working on task %d
    ", pthread_self(), *(int*)arg);
    190     sleep(1);  //休息一秒,延长任务的执行时间
    191     return NULL;
    192 }
    193 
    194 int main(int argc, char** argv)
    195 {
    196     pool_init(3); /*线程池中最多三个活动线程*/
    197 
    198     //连续向线程池中放入10个任务;
    199     int *workingnum = (int*)malloc(sizeof(int)*10);
    200     int i;
    201     for(i=0; i< 10;i++)
    202     {
    203         workingnum[i] = i;
    204         pool_add_worker(myprocess, &workingnum[i]);
    205     }
    206 
    207     sleep(5);
    208 //销毁线程池;  
    209     pool_destroy();
    210     free(workingnum);
    211 
    212     return 0;
    213 }
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  • 原文地址:https://www.cnblogs.com/chris-cp/p/3701955.html
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