#include #include #include "quakedef.h" #include "thread.h" int Thread_Init(void) { #ifdef THREADDISABLE Con_Printf("Threading disabled in this build\n"); #endif return 0; } void Thread_Shutdown(void) { } qbool Thread_HasThreads(void) { #ifdef THREADDISABLE return false; #else return true; #endif } void *_Thread_CreateMutex(const char *filename, int fileline) { void *mutex = SDL_CreateMutex(); #ifdef THREADDEBUG Sys_PrintfToTerminal("%p mutex create %s:%i\n" , mutex, filename, fileline); #endif return mutex; } void _Thread_DestroyMutex(void *mutex, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p mutex destroy %s:%i\n", mutex, filename, fileline); #endif SDL_DestroyMutex((SDL_mutex *)mutex); } int _Thread_LockMutex(void *mutex, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p mutex lock %s:%i\n" , mutex, filename, fileline); #endif return SDL_LockMutex((SDL_mutex *)mutex); } int _Thread_UnlockMutex(void *mutex, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p mutex unlock %s:%i\n" , mutex, filename, fileline); #endif return SDL_UnlockMutex((SDL_mutex *)mutex); } void *_Thread_CreateCond(const char *filename, int fileline) { void *cond = (void *)SDL_CreateCond(); #ifdef THREADDEBUG Sys_PrintfToTerminal("%p cond create %s:%i\n" , cond, filename, fileline); #endif return cond; } void _Thread_DestroyCond(void *cond, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p cond destroy %s:%i\n" , cond, filename, fileline); #endif SDL_DestroyCond((SDL_cond *)cond); } int _Thread_CondSignal(void *cond, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p cond signal %s:%i\n" , cond, filename, fileline); #endif return SDL_CondSignal((SDL_cond *)cond); } int _Thread_CondBroadcast(void *cond, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p cond broadcast %s:%i\n" , cond, filename, fileline); #endif return SDL_CondBroadcast((SDL_cond *)cond); } int _Thread_CondWait(void *cond, void *mutex, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p cond wait %s:%i\n" , cond, filename, fileline); #endif return SDL_CondWait((SDL_cond *)cond, (SDL_mutex *)mutex); } void *_Thread_CreateThread(int (*fn)(void *), void *data, const char *filename, int fileline) { void *thread = (void *)SDL_CreateThread(fn, filename, data); #ifdef THREADDEBUG Sys_PrintfToTerminal("%p thread create %s:%i\n" , thread, filename, fileline); #endif return thread; } int _Thread_WaitThread(void *thread, int retval, const char *filename, int fileline) { int status = retval; #ifdef THREADDEBUG Sys_PrintfToTerminal("%p thread wait %s:%i\n" , thread, filename, fileline); #endif SDL_WaitThread((SDL_Thread *)thread, &status); return status; } // standard barrier implementation using conds and mutexes // see: http://www.howforge.com/implementing-barrier-in-pthreads typedef struct { unsigned int needed; unsigned int called; void *mutex; void *cond; } barrier_t; void *_Thread_CreateBarrier(unsigned int count, const char *filename, int fileline) { volatile barrier_t *b = (volatile barrier_t *) Z_Malloc(sizeof(barrier_t)); #ifdef THREADDEBUG Sys_PrintfToTerminal("%p barrier create(%d) %s:%i\n", b, count, filename, fileline); #endif b->needed = count; b->called = 0; b->mutex = Thread_CreateMutex(); b->cond = Thread_CreateCond(); return (void *) b; } void _Thread_DestroyBarrier(void *barrier, const char *filename, int fileline) { volatile barrier_t *b = (volatile barrier_t *) barrier; #ifdef THREADDEBUG Sys_PrintfToTerminal("%p barrier destroy %s:%i\n", b, filename, fileline); #endif Thread_DestroyMutex(b->mutex); Thread_DestroyCond(b->cond); } void _Thread_WaitBarrier(void *barrier, const char *filename, int fileline) { volatile barrier_t *b = (volatile barrier_t *) barrier; #ifdef THREADDEBUG Sys_PrintfToTerminal("%p barrier wait %s:%i\n", b, filename, fileline); #endif Thread_LockMutex(b->mutex); b->called++; if (b->called == b->needed) { b->called = 0; Thread_CondBroadcast(b->cond); } else { do { Thread_CondWait(b->cond, b->mutex); } while(b->called); } Thread_UnlockMutex(b->mutex); } int _Thread_AtomicGet(Thread_Atomic *a, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic get at %s:%i\n", a, filename, fileline); #endif return SDL_AtomicGet((SDL_atomic_t *)a); } int _Thread_AtomicSet(Thread_Atomic *a, int v, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic set %v at %s:%i\n", a, v, filename, fileline); #endif return SDL_AtomicSet((SDL_atomic_t *)a, v); } int _Thread_AtomicAdd(Thread_Atomic *a, int v, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic add %v at %s:%i\n", a, v, filename, fileline); #endif return SDL_AtomicAdd((SDL_atomic_t *)a, v); } void _Thread_AtomicIncRef(Thread_Atomic *a, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic incref %s:%i\n", a, filename, fileline); #endif SDL_AtomicIncRef((SDL_atomic_t *)a); } qbool _Thread_AtomicDecRef(Thread_Atomic *a, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic decref %s:%i\n", a, filename, fileline); #endif return SDL_AtomicDecRef((SDL_atomic_t *)a) != SDL_FALSE; } qbool _Thread_AtomicTryLock(Thread_SpinLock *lock, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic try lock %s:%i\n", lock, filename, fileline); #endif return SDL_AtomicTryLock(lock) != SDL_FALSE; } void _Thread_AtomicLock(Thread_SpinLock *lock, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic lock %s:%i\n", lock, filename, fileline); #endif SDL_AtomicLock(lock); } void _Thread_AtomicUnlock(Thread_SpinLock *lock, const char *filename, int fileline) { #ifdef THREADDEBUG Sys_PrintfToTerminal("%p atomic unlock %s:%i\n", lock, filename, fileline); #endif SDL_AtomicUnlock(lock); }