tail head cat sleep
QR code linking to this page

Manual Pages  — THRD_CREATE

NAME

call_once, cnd_broadcast, cnd_destroy, cnd_init, cnd_signal, cnd_timedwait, cnd_wait, mtx_destroy, mtx_init, mtx_lock, mtx_timedlock, mtx_trylock, mtx_unlock, thrd_create, thrd_current, thrd_detach, thrd_equal, thrd_exit, thrd_join, thrd_sleep, thrd_yield, tss_create, tss_delete, tss_get, tss_set – C11 threads interface

CONTENTS

LIBRARY

libstdthreads

SYNOPSIS

#include <threads.h>

void
call_once(once_flag *flag, void (*func)(void));

int
cnd_broadcast(cnd_t *cond);

void
cnd_destroy(cnd_t *cond);

int
cnd_init(cnd_t *cond);

int
cnd_signal(cnd_t *cond);

int
cnd_timedwait(cnd_t * restrict cond, mtx_t * restrict mtx, const struct timespec * restrict ts);

int
cnd_wait(cnd_t *cond, mtx_t *mtx);

void
mtx_destroy(mtx_t *mtx);

int
mtx_init(mtx_t *mtx, int type);

int
mtx_lock(mtx_t *mtx);

int
mtx_timedlock(mtx_t * restrict mtx, const struct timespec * restrict ts);

int
mtx_trylock(mtx_t *mtx);

int
mtx_unlock(mtx_t *mtx);

int
thrd_create(thrd_t *thr, int (*func)(void *), void *arg);

thrd_t
thrd_current(void);

int
thrd_detach(thrd_t thr);

int
thrd_equal(thrd_t thr0, thrd_t thr1);

_Noreturn void
thrd_exit(int res);

int
thrd_join(thrd_t thr, int *res);

int
thrd_sleep(const struct timespec *duration, struct timespec *remaining);

void
thrd_yield(void);

int
tss_create(tss_t *key, void (*dtor)(void *));

void
tss_delete(tss_t key);

void *
tss_get(tss_t key);

int
tss_set(tss_t key, void *val);

DESCRIPTION

As of ISO/IEC , the C standard includes an API for writing multithreaded applications. Since POSIX.1 already includes a threading API that is used by virtually any multithreaded application, the interface provided by the C standard can be considered superfluous.

In this implementation, the threading interface is therefore implemented as a light-weight layer on top of existing interfaces. The functions to which these routines are mapped, are listed in the following table. Please refer to the documentation of the POSIX equivalent functions for more information.
Function POSIX equivalent
call_once()pthread_once(3)
cnd_broadcast()pthread_cond_broadcast(3)
cnd_destroy()pthread_cond_destroy(3)
cnd_init()pthread_cond_init(3)
cnd_signal()pthread_cond_signal(3)
cnd_timedwait()pthread_cond_timedwait(3)
cnd_wait()pthread_cond_wait(3)
mtx_destroy()pthread_mutex_destroy(3)
mtx_init()pthread_mutex_init(3)
mtx_lock()pthread_mutex_lock(3)
mtx_timedlock()pthread_mutex_timedlock(3)
mtx_trylock()pthread_mutex_trylock(3)
mtx_unlock()pthread_mutex_unlock(3)
thrd_create()pthread_create(3)
thrd_current()pthread_self(3)
thrd_detach()pthread_detach(3)
thrd_equal()pthread_equal(3)
thrd_exit()pthread_exit(3)
thrd_join()pthread_join(3)
thrd_sleep()nanosleep(2)
thrd_yield()pthread_yield(3)
tss_create()pthread_key_create(3)
tss_delete()pthread_key_delete(3)
tss_get()pthread_getspecific(3)
tss_set()pthread_setspecific(3)

DIFFERENCES WITH POSIX EQUIVALENTS

The thrd_exit() function returns an integer value to the thread calling thrd_join(), whereas the pthread_exit() function uses a pointer.

The mutex created by mtx_init() can be of type mtx_plain or mtx_timed to distinguish between a mutex that supports mtx_timedlock(). This type can be or'd with mtx_recursive to create a mutex that allows recursive acquisition. These properties are normally set using pthread_mutex_init()'s attr parameter.

RETURN VALUES

If successful, the cnd_broadcast(), cnd_init(), cnd_signal(), cnd_timedwait(), cnd_wait(), mtx_init(), mtx_lock(), mtx_timedlock(), mtx_trylock(), mtx_unlock(), thrd_create(), thrd_detach(), thrd_equal(), thrd_join(), thrd_sleep(), tss_create() and tss_set() functions return thrd_success. Otherwise an error code will be returned to indicate the error.

The thrd_current() function returns the thread ID of the calling thread.

The tss_get() function returns the thread-specific data value associated with the given key. If no thread-specific data value is associated with key, then the value NULL is returned.

ERRORS

The cnd_init() and thrd_create() functions will fail if:
thrd_nomem The system has insufficient memory.

The cnd_timedwait() and mtx_timedlock() functions will fail if:
thrd_timedout
  The system time has reached or exceeded the time specified in ts before the operation could be completed.

The mtx_trylock() function will fail if:
thrd_busy The mutex is already locked.

In all other cases, these functions may fail by returning general error code thrd_error.

SEE ALSO

nanosleep(2), pthread(3)

STANDARDS

These functions are expected to conform to ISO/IEC .

HISTORY

These functions appeared in FreeBSD 10.0 .

AUTHORS

Ed Schouten <Mt ed@FreeBSD.org>

THRD_CREATE (3) December 26, 2011

tail head cat sleep
QR code linking to this page


Please direct any comments about this manual page service to Ben Bullock. Privacy policy.

This philosophy, in the hands of amateurs, leads to inexplicably mind-numbing botches like the existence of two programs, “head” and “tail,” which print the first part or the last part of a file, depending. Even though their operations are duals of one another, “head” and “tail” are different programs, written by different authors, and take different options!
— The Unix Haters' handbook