ref: 8b60b91ae4d6187e1784d43476e34c5cf056f6c8
dir: /SDL_Examples/include/lockstepthread.h/
/* Public Domain / CC0 3d Lock-Step Threading Implementation Written by Gek (DMHSW) in 2020 */ #ifndef LOCKSTEPTHREAD_H #define LOCKSTEPTHREAD_H #include <pthread.h> #include <stdio.h> typedef struct { pthread_mutex_t myMutex; pthread_barrier_t myBarrier; pthread_t myThread; int isThreadLive; int shouldKillThread; int state; void (*execute)(); } lsthread; void init_lsthread(lsthread* t); void start_lsthread(lsthread* t); void kill_lsthread(lsthread* t); void destroy_lsthread(lsthread* t); void lock(lsthread* t); void step(lsthread* t); void* lsthread_func(void* me_void); #ifdef LOCKSTEPTHREAD_IMPL //function declarations void init_lsthread(lsthread* t){ t->myMutex = (pthread_mutex_t)PTHREAD_MUTEX_INITIALIZER; pthread_barrier_init(&t->myBarrier, NULL, 2); t->isThreadLive = 0; t->shouldKillThread = 0; t->state = 0; t->execute = NULL; } void destroy_lsthread(lsthread* t){ pthread_mutex_destroy(&t->myMutex); pthread_barrier_destroy(&t->myBarrier); } void lock(lsthread* t){ if(t->state == 1)return;//if already locked, nono if(!t->isThreadLive)return; //puts("\nLocking! <lock>"); pthread_barrier_wait(&t->myBarrier); //puts("\nPast Wait!"); if(pthread_mutex_lock(&t->myMutex)) puts("\nError locking mutex."); t->state = 1; //puts("\nPast Lock </lock>"); } void step(lsthread* t){ if(t->state == -1)return; //if already stepping, nono if(!t->isThreadLive)return; //puts("\nStepping! <step>"); if(pthread_mutex_unlock(&(t->myMutex))) puts("\nError unlocking mutex"); //puts("\nDone Unlocking!"); pthread_barrier_wait(&t->myBarrier); t->state = -1; //puts("\nPast Wait </step>"); } void kill_lsthread(lsthread* t){ if(!t->isThreadLive)return; //puts("\nTime for the thread to die..."); if(t->state != 1){ lock(t); //puts("\nPast lock!"); } t->shouldKillThread = 1; step(t); //puts("\nPast step!"); pthread_join(t->myThread,NULL); //if(pthread_kill(t->myThread)){ // puts("\nError killing thread."); //} t->isThreadLive = 0; t->shouldKillThread = 0; } void* lsthread_func(void* me_void){ lsthread* me = (lsthread*) me_void; int ret = 0; if (!me)pthread_exit(NULL); if(!me->execute)pthread_exit(NULL); while (1) { //ret = pthread_cond_wait(&(me->myCond), &(me->myMutex)); pthread_barrier_wait(&me->myBarrier); //puts("\nTHREAD ACTIVATING..."); pthread_mutex_lock(&me->myMutex); //puts("\nTHREAD ACTIVATED"); //if(ret)pthread_exit(NULL); if (!(me->shouldKillThread) && me->execute) me->execute(); else if(me->shouldKillThread){ pthread_mutex_unlock(&me->myMutex); //puts("\nTHREAD DYING..."); //pthread_barrier_wait(&me->myBarrier); //puts("\nTHREAD DED!"); pthread_exit(NULL); } //puts("\nTHREAD DEACTIVATING..."); pthread_mutex_unlock(&me->myMutex); //puts("\nTHREAD DEACTIVATED"); pthread_barrier_wait(&me->myBarrier); //puts("\nTIME FOR A NEW CYCLE..."); } pthread_exit(NULL); } void start_lsthread(lsthread* t){ if(t->isThreadLive)return; t->isThreadLive = 1; t->shouldKillThread = 0; if(pthread_mutex_lock(&t->myMutex)) puts("\nError locking mutex."); t->state = 1; //LOCKED pthread_create( &t->myThread, NULL, lsthread_func, (void*)t ); } #endif //end of implementation #endif //end of header