EXPORT int
stpool_add_routine(stpool_t *pool,
const char *name, void (*task_run)(struct sttask *ptask),
void (*task_err_handler)(struct sttask *ptask, long reasons),
void *task_arg, struct schattr *attr)
{
int e;
ctask_t *ptask;
/**
* We try to get a task object from the cache,
* (@__stpool_cache_put should be called later to recycle it)
*/
ptask = __stpool_cache_get(pool);
if (!ptask)
return POOL_ERR_NOMEM;
__stpool_task_INIT(ptask, name, task_run, task_err_handler, task_arg);
if (attr)
stpool_task_setschattr(TASK_CAST_UP(ptask), attr);
/**
* Pay the task object back to cache if we fail
* to add it into the pool's pending queue
*/
if ((e = __stpool_task_set_p(ptask, pool)) ||
(e = stpool_task_queue(TASK_CAST_UP(ptask)))) {
__stpool_cache_put(pool, ptask);
e = __stpool_liberror(e);
}
return e;
}
void fast_task_run2(struct sttask *ptsk)
{
msleep(30);
/**
* Reschedule the task again
*/
stpool_task_queue(ptsk);
}
void time_consuming_task_run(struct sttask *ptsk)
{
msleep((int)ptsk->task_arg);
/**
* Reschedule the task again
*/
stpool_task_queue(ptsk);
}
/**
* (log library) depends (task pool library)
* libmsglog.lib <-------------libstpool.lib
*/
void task_run(struct sttask *ptask)
{
printf("\n\nRun %s\n", ptask->task_name);
msleep(1000);
/** Reschedule the task */
stpool_task_queue(ptask);
}
void task_reschedule(struct sttask *ptsk) {
int e;
/** TO DO */
printf("%s ...:%d\n", ptsk->task_name, *(int *)ptsk->task_arg);
/** We sleep for a while to slow down the test */
if (stpool_task_get_userflags(ptsk)) {
msleep(1500);
/** Reschedule the task */
if ((e = stpool_task_queue(ptsk)))
printf("***Err: queue(%d)\n", e);
}
}
int main()
{
stpool_t *pool;
int i, error, c = 0;
struct schattr attr = {0, 1, ep_SCHE_TOP};
struct sttask *ptsk;
long eCAPs = eCAP_F_DYNAMIC|eCAP_F_SUSPEND|eCAP_F_THROTTLE|eCAP_F_ROUTINE|
eCAP_F_DISABLEQ|eCAP_F_PRIORITY|eCAP_F_WAIT_ALL;
/** NO buffer */
setbuf(stdout, 0);
/** Create a pool */
pool = stpool_create("mypool", /** pool name */
eCAPs, /** neccessary capabilites */
20, /** limited threads number*/
0, /** number of threads reserved to waiting for tasks*/
0, /** do not suspend the pool */
1 /** priority queue num */
);
if (!pool)
abort();
/** Print the status of the pool */
printf("@stpool_create(20, 0, 0, 10)\n%s\n", stpool_stat_print(pool));
/*------------------------------------------------------------/
/--------------------Test @stpool_adjust(_abs)----------------/
/------------------------------------------------------------*/
printf("\nPress any key to test the @stpool_adjust(300, 4) ....\n");
getchar();
stpool_adjust_abs(pool, 300, 4);
printf("@stpool_adjust_abs(pool, 300, 4)\n%s\n", stpool_stat_print(pool));
/** We call @stpool_adjust to recover the pool env */
printf("\nPress any key to test the @stpool_adjust(-280, -4) ....\n");
getchar();
stpool_adjust(pool, -280, -4);
printf("@stpool_adjust(pool, -280, -4)\n%s\n", stpool_stat_print(pool));
/*------------------------------------------------------------------/
/----------------Test rescheduling task----------------------------/
/------------------------------------------------------------------*/
printf("\nPress any key to test rescheduling task. <then press key to stop testing.>\n");
getchar();
/** We creat a customed task to do the test */
ptsk = stpool_task_new(NULL, "test-reschedule", task_reschedule, NULL, &c);
/** Attach the destinational pool */
error = stpool_task_set_p(ptsk, pool);
if (error)
printf("***Err: %d(%s). (try eCAP_F_CUSTOM_TASK)\n", error, stpool_strerror(error));
else {
stpool_task_set_userflags(ptsk, 0x1);
stpool_task_queue(ptsk);
getchar();
/** Set the flag to notify the task to exit the rescheduling test */
stpool_task_set_userflags(ptsk, 0);
stpool_task_wait(ptsk, -1);
}
stpool_task_delete(ptsk);
/*-------------------------------------------------------------------/
/--------------------Test the throttle------------------------------/
/-------------------------------------------------------------------*/
printf("\nPress any key to test the throttle ....\n");
getchar();
/** Turn the throttle on */
stpool_throttle_enable(pool, 1);
error = stpool_add_routine(pool, "test-throttle", task_run, task_err_handler, &c, NULL);
if (error)
printf("***Err: @stpool_add_task: %d\n", error);
/** Turn the throttle off */
stpool_throttle_enable(pool, 0);
/*-------------------------------------------------------------------/
/------------------Test the priority--------------------------------/
/-------------------------------------------------------------------*/
printf("\nPress any key to test the priority ....\n");
getchar();
stpool_suspend(pool, 0);
/**
* Add a task with zero priority, and the task will be pushed into the
* lowest priority queue.
*/
stpool_add_routine(pool, "zero-priority", task_run, task_err_handler, &c, NULL);
/**
* task("non-zero-priority") will be scheduled prior to the task("zero-priority")
* since it has a higher priority.
*/
stpool_add_routine(pool, "non-zero-priority", task_run, task_err_handler, &c, &attr);
/** Wake up the pool to schedule the tasks */
stpool_resume(pool);
/** Wait for all tasks' being done completely */
stpool_wait_all(pool, -1);
/*------------------------------------------------------------------/
/---------------Test running amount of tasks-----------------------/
/------------------------------------------------------------------*/
printf("\nPress any key to add tasks ... <then can press any key to remove them.>\n");
getchar();
/**
* We can suspend the pool firstly, and then resume the pool after delivering our
* tasks into the pool, It'll be more effecient to do it like that if there are
* a large amount of tasks that will be added into the pool.
*/
for (i=0; i<8000; i++)
stpool_add_routine(pool, "task_run", task_run, task_err_handler, &c, NULL);
/*----------------------------------------------------------------/
/-------------Test stoping all tasks fastly----------------------/
/----------------------------------------------------------------*/
printf("\nPress any key to test stoping all tasks fastly.\n");
getchar();
stpool_throttle_enable(pool, 1);
stpool_remove_all(pool, 1);
/** Wait for all tasks' being done */
stpool_wait_all(pool, -1);
printf("---------------------------tasks have been finished.\n");
/*---------------------------------------------------------------/
/-------------Release the pool-----------------------------------/
/---------------------------------------------------------------*/
printf("Press any key to release the pool...\n");
getchar();
/** Release the pool */
printf("%s\n", stpool_stat_print(pool));
stpool_release(pool);
printf("Press any key to exit ...\n");
getchar();
return 0;
}
