/* Simple DirectMedia Layer Copyright (C) 1997-2024 Sam Lantinga This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #include "SDL_internal.h" // An implementation of semaphores using mutexes and condition variables #include "SDL_systhread_c.h" #ifdef SDL_THREADS_DISABLED SDL_Semaphore *SDL_CreateSemaphore(Uint32 initial_value) { SDL_SetError("SDL not built with thread support"); return NULL; } void SDL_DestroySemaphore(SDL_Semaphore *sem) { } bool SDL_WaitSemaphoreTimeoutNS(SDL_Semaphore *sem, Sint64 timeoutNS) { return true; } Uint32 SDL_GetSemaphoreValue(SDL_Semaphore *sem) { return 0; } void SDL_SignalSemaphore(SDL_Semaphore *sem) { return; } #else struct SDL_Semaphore { Uint32 count; Uint32 waiters_count; SDL_Mutex *count_lock; SDL_Condition *count_nonzero; }; SDL_Semaphore *SDL_CreateSemaphore(Uint32 initial_value) { SDL_Semaphore *sem; sem = (SDL_Semaphore *)SDL_malloc(sizeof(*sem)); if (!sem) { return NULL; } sem->count = initial_value; sem->waiters_count = 0; sem->count_lock = SDL_CreateMutex(); sem->count_nonzero = SDL_CreateCondition(); if (!sem->count_lock || !sem->count_nonzero) { SDL_DestroySemaphore(sem); return NULL; } return sem; } /* WARNING: You cannot call this function when another thread is using the semaphore. */ void SDL_DestroySemaphore(SDL_Semaphore *sem) { if (sem) { sem->count = 0xFFFFFFFF; while (sem->waiters_count > 0) { SDL_SignalCondition(sem->count_nonzero); SDL_Delay(10); } SDL_DestroyCondition(sem->count_nonzero); if (sem->count_lock) { SDL_LockMutex(sem->count_lock); SDL_UnlockMutex(sem->count_lock); SDL_DestroyMutex(sem->count_lock); } SDL_free(sem); } } bool SDL_WaitSemaphoreTimeoutNS(SDL_Semaphore *sem, Sint64 timeoutNS) { bool result = false; if (!sem) { return true; } if (timeoutNS == 0) { SDL_LockMutex(sem->count_lock); if (sem->count > 0) { --sem->count; result = true; } SDL_UnlockMutex(sem->count_lock); } else if (timeoutNS < 0) { SDL_LockMutex(sem->count_lock); ++sem->waiters_count; while (sem->count == 0) { SDL_WaitConditionTimeoutNS(sem->count_nonzero, sem->count_lock, -1); } --sem->waiters_count; --sem->count; result = true; SDL_UnlockMutex(sem->count_lock); } else { Uint64 stop_time = SDL_GetTicksNS() + timeoutNS; SDL_LockMutex(sem->count_lock); ++sem->waiters_count; while (sem->count == 0) { Sint64 waitNS = (Sint64)(stop_time - SDL_GetTicksNS()); if (waitNS > 0) { SDL_WaitConditionTimeoutNS(sem->count_nonzero, sem->count_lock, waitNS); } else { break; } } --sem->waiters_count; if (sem->count > 0) { --sem->count; result = true; } SDL_UnlockMutex(sem->count_lock); } return result; } Uint32 SDL_GetSemaphoreValue(SDL_Semaphore *sem) { Uint32 value; value = 0; if (sem) { SDL_LockMutex(sem->count_lock); value = sem->count; SDL_UnlockMutex(sem->count_lock); } return value; } void SDL_SignalSemaphore(SDL_Semaphore *sem) { if (!sem) { return; } SDL_LockMutex(sem->count_lock); if (sem->waiters_count > 0) { SDL_SignalCondition(sem->count_nonzero); } ++sem->count; SDL_UnlockMutex(sem->count_lock); } #endif // SDL_THREADS_DISABLED