//+build openbsd package unix import "core:c" pthread_t :: distinct rawptr pthread_attr_t :: distinct rawptr pthread_mutex_t :: distinct rawptr pthread_mutexattr_t :: distinct rawptr pthread_cond_t :: distinct rawptr pthread_condattr_t :: distinct rawptr pthread_rwlock_t :: distinct rawptr pthread_rwlockattr_t :: distinct rawptr pthread_barrier_t :: distinct rawptr pthread_barrierattr_t :: distinct rawptr pthread_spinlock_t :: distinct rawptr pthread_key_t :: distinct c.int pthread_once_t :: struct { state: c.int, mutex: pthread_mutex_t, } PTHREAD_MUTEX_ERRORCHECK :: 1 PTHREAD_MUTEX_RECURSIVE :: 2 PTHREAD_MUTEX_NORMAL :: 3 PTHREAD_MUTEX_STRICT_NP :: 4 PTHREAD_DETACHED :: 0x1 PTHREAD_SCOPE_SYSTEM :: 0x2 PTHREAD_INHERIT_SCHED :: 0x4 PTHREAD_NOFLOAT :: 0x8 PTHREAD_CREATE_DETACHED :: PTHREAD_DETACHED PTHREAD_CREATE_JOINABLE :: 0 PTHREAD_SCOPE_PROCESS :: 0 PTHREAD_EXPLICIT_SCHED :: 0 SCHED_FIFO :: 1 SCHED_OTHER :: 2 SCHED_RR :: 3 sched_param :: struct { sched_priority: c.int, } sem_t :: distinct rawptr PTHREAD_CANCEL_ENABLE :: 0 PTHREAD_CANCEL_DISABLE :: 1 PTHREAD_CANCEL_DEFERRED :: 0 PTHREAD_CANCEL_ASYNCHRONOUS :: 2 foreign import libc "system:c" @(default_calling_convention="c") foreign libc { sem_open :: proc(name: cstring, flags: c.int) -> ^sem_t --- sem_init :: proc(sem: ^sem_t, pshared: c.int, initial_value: c.uint) -> c.int --- sem_destroy :: proc(sem: ^sem_t) -> c.int --- sem_post :: proc(sem: ^sem_t) -> c.int --- sem_wait :: proc(sem: ^sem_t) -> c.int --- sem_trywait :: proc(sem: ^sem_t) -> c.int --- //sem_timedwait :: proc(sem: ^sem_t, timeout: time.TimeSpec) -> c.int --- // NOTE: unclear whether pthread_yield is well-supported on Linux systems, // see https://linux.die.net/man/3/pthread_yield pthread_yield :: proc() --- pthread_setcancelstate :: proc (state: c.int, old_state: ^c.int) -> c.int --- pthread_setcanceltype :: proc (type: c.int, old_type: ^c.int) -> c.int --- pthread_cancel :: proc (thread: pthread_t) -> c.int --- }