Mercurial > sdl-ios-xcode
view test/testatomic.c @ 5284:96a22141cf86 tip
Changed output directory of Universal libSDL.a for iOS to respect build configurations. Template generator was updated to reflect these changes as well.
author | Eric Wing <ewing . public |-at-| gmail . com> |
---|---|
date | Sat, 12 Feb 2011 21:52:30 -0800 |
parents | 02b860cbc7ce |
children |
line wrap: on
line source
#include <stdio.h> #include "SDL.h" #include "SDL_atomic.h" #include "SDL_assert.h" #include "SDL_cpuinfo.h" /* Absolutely basic tests just to see if we get the expected value after calling each function. */ static char * tf(SDL_bool tf) { static char *t = "TRUE"; static char *f = "FALSE"; if (tf) { return t; } return f; } static void RunBasicTest() { int value; SDL_SpinLock lock = 0; SDL_atomic_t v; SDL_bool tfret = SDL_FALSE; printf("\nspin lock---------------------------------------\n\n"); SDL_AtomicLock(&lock); printf("AtomicLock lock=%d\n", lock); SDL_AtomicUnlock(&lock); printf("AtomicUnlock lock=%d\n", lock); printf("\natomic -----------------------------------------\n\n"); SDL_AtomicSet(&v, 0); tfret = SDL_AtomicSet(&v, 10) == 0; printf("AtomicSet(10) tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); tfret = SDL_AtomicAdd(&v, 10) == 10; printf("AtomicAdd(10) tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); SDL_AtomicSet(&v, 0); SDL_AtomicIncRef(&v); tfret = (SDL_AtomicGet(&v) == 1); printf("AtomicIncRef() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); SDL_AtomicIncRef(&v); tfret = (SDL_AtomicGet(&v) == 2); printf("AtomicIncRef() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); tfret = (SDL_AtomicDecRef(&v) == SDL_FALSE); printf("AtomicDecRef() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); tfret = (SDL_AtomicDecRef(&v) == SDL_TRUE); printf("AtomicDecRef() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); SDL_AtomicSet(&v, 10); tfret = (SDL_AtomicCAS(&v, 0, 20) == SDL_FALSE); printf("AtomicCAS() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); value = SDL_AtomicGet(&v); tfret = (SDL_AtomicCAS(&v, value, 20) == SDL_TRUE); printf("AtomicCAS() tfret=%s val=%d\n", tf(tfret), SDL_AtomicGet(&v)); } /**************************************************************************/ /* Atomic operation test * Adapted with permission from code by Michael Davidsaver at: * http://bazaar.launchpad.net/~mdavidsaver/epics-base/atomic/revision/12105#src/libCom/test/epicsAtomicTest.c * Original copyright 2010 Brookhaven Science Associates as operator of Brookhaven National Lab * http://www.aps.anl.gov/epics/license/open.php */ /* Tests semantics of atomic operations. Also a stress test * to see if they are really atomic. * * Serveral threads adding to the same variable. * at the end the value is compared with the expected * and with a non-atomic counter. */ /* Number of concurrent incrementers */ #define NThreads 2 #define CountInc 100 #define VALBITS (sizeof(atomicValue)*8) #define atomicValue int #define CountTo ((atomicValue)((unsigned int)(1<<(VALBITS-1))-1)) #define NInter (CountTo/CountInc/NThreads) #define Expect (CountTo-NInter*CountInc*NThreads) SDL_COMPILE_TIME_ASSERT(size, CountTo>0); /* check for rollover */ static SDL_atomic_t good = { 42 }; static atomicValue bad = 42; static SDL_atomic_t threadsRunning; static SDL_sem *threadDone; static int adder(void* junk) { unsigned long N=NInter; printf("Thread subtracting %d %lu times\n",CountInc,N); while (N--) { SDL_AtomicAdd(&good, -CountInc); bad-=CountInc; } SDL_AtomicAdd(&threadsRunning, -1); SDL_SemPost(threadDone); return 0; } static void runAdder(void) { Uint32 start, end; int T=NThreads; start = SDL_GetTicks(); threadDone = SDL_CreateSemaphore(0); SDL_AtomicSet(&threadsRunning, NThreads); while (T--) SDL_CreateThread(adder, NULL); while (SDL_AtomicGet(&threadsRunning) > 0) SDL_SemWait(threadDone); SDL_DestroySemaphore(threadDone); end = SDL_GetTicks(); printf("Finished in %f sec\n", (end - start) / 1000.f); } static void RunEpicTest() { int b; atomicValue v; printf("\nepic test---------------------------------------\n\n"); printf("Size asserted to be >= 32-bit\n"); SDL_assert(sizeof(atomicValue)>=4); printf("Check static initializer\n"); v=SDL_AtomicGet(&good); SDL_assert(v==42); SDL_assert(bad==42); printf("Test negative values\n"); SDL_AtomicSet(&good, -5); v=SDL_AtomicGet(&good); SDL_assert(v==-5); printf("Verify maximum value\n"); SDL_AtomicSet(&good, CountTo); v=SDL_AtomicGet(&good); SDL_assert(v==CountTo); printf("Test compare and exchange\n"); b=SDL_AtomicCAS(&good, 500, 43); SDL_assert(!b); /* no swap since CountTo!=500 */ v=SDL_AtomicGet(&good); SDL_assert(v==CountTo); /* ensure no swap */ b=SDL_AtomicCAS(&good, CountTo, 44); SDL_assert(!!b); /* will swap */ v=SDL_AtomicGet(&good); SDL_assert(v==44); printf("Test Add\n"); v=SDL_AtomicAdd(&good, 1); SDL_assert(v==44); v=SDL_AtomicGet(&good); SDL_assert(v==45); v=SDL_AtomicAdd(&good, 10); SDL_assert(v==45); v=SDL_AtomicGet(&good); SDL_assert(v==55); printf("Test Add (Negative values)\n"); v=SDL_AtomicAdd(&good, -20); SDL_assert(v==55); v=SDL_AtomicGet(&good); SDL_assert(v==35); v=SDL_AtomicAdd(&good, -50); /* crossing zero down */ SDL_assert(v==35); v=SDL_AtomicGet(&good); SDL_assert(v==-15); v=SDL_AtomicAdd(&good, 30); /* crossing zero up */ SDL_assert(v==-15); v=SDL_AtomicGet(&good); SDL_assert(v==15); printf("Reset before count down test\n"); SDL_AtomicSet(&good, CountTo); v=SDL_AtomicGet(&good); SDL_assert(v==CountTo); bad=CountTo; SDL_assert(bad==CountTo); printf("Counting down from %d, Expect %d remaining\n",CountTo,Expect); runAdder(); v=SDL_AtomicGet(&good); printf("Atomic %d Non-Atomic %d\n",v,bad); SDL_assert(v==Expect); SDL_assert(bad!=Expect); } /* End atomic operation test */ /**************************************************************************/ /**************************************************************************/ /* Lock-free FIFO test */ /* This is useful to test the impact of another thread locking the queue entirely for heavy-weight manipulation. */ #define TEST_SPINLOCK_FIFO #define NUM_READERS 4 #define NUM_WRITERS 4 #define EVENTS_PER_WRITER 1000000 /* The number of entries must be a power of 2 */ #define MAX_ENTRIES 256 #define WRAP_MASK (MAX_ENTRIES-1) typedef struct { SDL_atomic_t sequence; SDL_Event event; } SDL_EventQueueEntry; typedef struct { SDL_EventQueueEntry entries[MAX_ENTRIES]; char cache_pad1[SDL_CACHELINE_SIZE-((sizeof(SDL_EventQueueEntry)*MAX_ENTRIES)%SDL_CACHELINE_SIZE)]; SDL_atomic_t enqueue_pos; char cache_pad2[SDL_CACHELINE_SIZE-sizeof(SDL_atomic_t)]; SDL_atomic_t dequeue_pos; char cache_pad3[SDL_CACHELINE_SIZE-sizeof(SDL_atomic_t)]; #ifdef TEST_SPINLOCK_FIFO SDL_SpinLock lock; SDL_atomic_t rwcount; SDL_atomic_t watcher; char cache_pad4[SDL_CACHELINE_SIZE-sizeof(SDL_SpinLock)-2*sizeof(SDL_atomic_t)]; #endif volatile SDL_bool active; /* Only needed for the mutex test */ SDL_mutex *mutex; } SDL_EventQueue; static void InitEventQueue(SDL_EventQueue *queue) { int i; for (i = 0; i < MAX_ENTRIES; ++i) { SDL_AtomicSet(&queue->entries[i].sequence, i); } SDL_AtomicSet(&queue->enqueue_pos, 0); SDL_AtomicSet(&queue->dequeue_pos, 0); #ifdef TEST_SPINLOCK_FIFO queue->lock = 0; SDL_AtomicSet(&queue->rwcount, 0); #endif queue->active = SDL_TRUE; } static SDL_bool EnqueueEvent_LockFree(SDL_EventQueue *queue, const SDL_Event *event) { SDL_EventQueueEntry *entry; unsigned queue_pos; unsigned entry_seq; int delta; SDL_bool status; #ifdef TEST_SPINLOCK_FIFO /* This is a gate so an external thread can lock the queue */ SDL_AtomicLock(&queue->lock); SDL_assert(SDL_AtomicGet(&queue->watcher) == 0); SDL_AtomicIncRef(&queue->rwcount); SDL_AtomicUnlock(&queue->lock); #endif queue_pos = (unsigned)SDL_AtomicGet(&queue->enqueue_pos); for ( ; ; ) { entry = &queue->entries[queue_pos & WRAP_MASK]; entry_seq = (unsigned)SDL_AtomicGet(&entry->sequence); delta = (int)(entry_seq - queue_pos); if (delta == 0) { /* The entry and the queue position match, try to increment the queue position */ if (SDL_AtomicCAS(&queue->enqueue_pos, (int)queue_pos, (int)(queue_pos+1))) { /* We own the object, fill it! */ entry->event = *event; SDL_AtomicSet(&entry->sequence, (int)(queue_pos + 1)); status = SDL_TRUE; break; } } else if (delta < 0) { /* We ran into an old queue entry, which means it still needs to be dequeued */ status = SDL_FALSE; break; } else { /* We ran into a new queue entry, get the new queue position */ queue_pos = (unsigned)SDL_AtomicGet(&queue->enqueue_pos); } } #ifdef TEST_SPINLOCK_FIFO SDL_AtomicDecRef(&queue->rwcount); #endif return status; } static SDL_bool DequeueEvent_LockFree(SDL_EventQueue *queue, SDL_Event *event) { SDL_EventQueueEntry *entry; unsigned queue_pos; unsigned entry_seq; int delta; SDL_bool status; #ifdef TEST_SPINLOCK_FIFO /* This is a gate so an external thread can lock the queue */ SDL_AtomicLock(&queue->lock); SDL_assert(SDL_AtomicGet(&queue->watcher) == 0); SDL_AtomicIncRef(&queue->rwcount); SDL_AtomicUnlock(&queue->lock); #endif queue_pos = (unsigned)SDL_AtomicGet(&queue->dequeue_pos); for ( ; ; ) { entry = &queue->entries[queue_pos & WRAP_MASK]; entry_seq = (unsigned)SDL_AtomicGet(&entry->sequence); delta = (int)(entry_seq - (queue_pos + 1)); if (delta == 0) { /* The entry and the queue position match, try to increment the queue position */ if (SDL_AtomicCAS(&queue->dequeue_pos, (int)queue_pos, (int)(queue_pos+1))) { /* We own the object, fill it! */ *event = entry->event; SDL_AtomicSet(&entry->sequence, (int)(queue_pos+MAX_ENTRIES)); status = SDL_TRUE; break; } } else if (delta < 0) { /* We ran into an old queue entry, which means we've hit empty */ status = SDL_FALSE; break; } else { /* We ran into a new queue entry, get the new queue position */ queue_pos = (unsigned)SDL_AtomicGet(&queue->dequeue_pos); } } #ifdef TEST_SPINLOCK_FIFO SDL_AtomicDecRef(&queue->rwcount); #endif return status; } static SDL_bool EnqueueEvent_Mutex(SDL_EventQueue *queue, const SDL_Event *event) { SDL_EventQueueEntry *entry; unsigned queue_pos; unsigned entry_seq; int delta; SDL_bool status = SDL_FALSE; SDL_mutexP(queue->mutex); queue_pos = (unsigned)queue->enqueue_pos.value; entry = &queue->entries[queue_pos & WRAP_MASK]; entry_seq = (unsigned)entry->sequence.value; delta = (int)(entry_seq - queue_pos); if (delta == 0) { ++queue->enqueue_pos.value; /* We own the object, fill it! */ entry->event = *event; entry->sequence.value = (int)(queue_pos + 1); status = SDL_TRUE; } else if (delta < 0) { /* We ran into an old queue entry, which means it still needs to be dequeued */ } else { printf("ERROR: mutex failed!\n"); } SDL_mutexV(queue->mutex); return status; } static SDL_bool DequeueEvent_Mutex(SDL_EventQueue *queue, SDL_Event *event) { SDL_EventQueueEntry *entry; unsigned queue_pos; unsigned entry_seq; int delta; SDL_bool status = SDL_FALSE; SDL_mutexP(queue->mutex); queue_pos = (unsigned)queue->dequeue_pos.value; entry = &queue->entries[queue_pos & WRAP_MASK]; entry_seq = (unsigned)entry->sequence.value; delta = (int)(entry_seq - (queue_pos + 1)); if (delta == 0) { ++queue->dequeue_pos.value; /* We own the object, fill it! */ *event = entry->event; entry->sequence.value = (int)(queue_pos + MAX_ENTRIES); status = SDL_TRUE; } else if (delta < 0) { /* We ran into an old queue entry, which means we've hit empty */ } else { printf("ERROR: mutex failed!\n"); } SDL_mutexV(queue->mutex); return status; } static SDL_sem *writersDone; static SDL_sem *readersDone; static SDL_atomic_t writersRunning; static SDL_atomic_t readersRunning; typedef struct { SDL_EventQueue *queue; int index; char padding1[SDL_CACHELINE_SIZE-(sizeof(SDL_EventQueue*)+sizeof(int))%SDL_CACHELINE_SIZE]; int waits; SDL_bool lock_free; char padding2[SDL_CACHELINE_SIZE-sizeof(int)-sizeof(SDL_bool)]; } WriterData; typedef struct { SDL_EventQueue *queue; int counters[NUM_WRITERS]; int waits; SDL_bool lock_free; char padding[SDL_CACHELINE_SIZE-(sizeof(SDL_EventQueue*)+sizeof(int)*NUM_WRITERS+sizeof(int)+sizeof(SDL_bool))%SDL_CACHELINE_SIZE]; } ReaderData; static int FIFO_Writer(void* _data) { WriterData *data = (WriterData *)_data; SDL_EventQueue *queue = data->queue; int index = data->index; int i; SDL_Event event; event.type = SDL_USEREVENT; event.user.windowID = 0; event.user.code = 0; event.user.data1 = data; event.user.data2 = NULL; if (data->lock_free) { for (i = 0; i < EVENTS_PER_WRITER; ++i) { event.user.code = i; while (!EnqueueEvent_LockFree(queue, &event)) { ++data->waits; SDL_Delay(0); } } } else { for (i = 0; i < EVENTS_PER_WRITER; ++i) { event.user.code = i; while (!EnqueueEvent_Mutex(queue, &event)) { ++data->waits; SDL_Delay(0); } } } SDL_AtomicAdd(&writersRunning, -1); SDL_SemPost(writersDone); return 0; } static int FIFO_Reader(void* _data) { ReaderData *data = (ReaderData *)_data; SDL_EventQueue *queue = data->queue; SDL_Event event; if (data->lock_free) { for ( ; ; ) { if (DequeueEvent_LockFree(queue, &event)) { WriterData *writer = (WriterData*)event.user.data1; ++data->counters[writer->index]; } else if (queue->active) { ++data->waits; SDL_Delay(0); } else { /* We drained the queue, we're done! */ break; } } } else { for ( ; ; ) { if (DequeueEvent_Mutex(queue, &event)) { WriterData *writer = (WriterData*)event.user.data1; ++data->counters[writer->index]; } else if (queue->active) { ++data->waits; SDL_Delay(0); } else { /* We drained the queue, we're done! */ break; } } } SDL_AtomicAdd(&readersRunning, -1); SDL_SemPost(readersDone); return 0; } #ifdef TEST_SPINLOCK_FIFO /* This thread periodically locks the queue for no particular reason */ static int FIFO_Watcher(void* _data) { SDL_EventQueue *queue = (SDL_EventQueue *)_data; while (queue->active) { SDL_AtomicLock(&queue->lock); SDL_AtomicIncRef(&queue->watcher); while (SDL_AtomicGet(&queue->rwcount) > 0) { SDL_Delay(0); } /* Do queue manipulation here... */ SDL_AtomicDecRef(&queue->watcher); SDL_AtomicUnlock(&queue->lock); /* Wait a bit... */ SDL_Delay(1); } return 0; } #endif /* TEST_SPINLOCK_FIFO */ static void RunFIFOTest(SDL_bool lock_free) { SDL_EventQueue queue; WriterData writerData[NUM_WRITERS]; ReaderData readerData[NUM_READERS]; Uint32 start, end; int i, j; int grand_total; printf("\nFIFO test---------------------------------------\n\n"); printf("Mode: %s\n", lock_free ? "LockFree" : "Mutex"); readersDone = SDL_CreateSemaphore(0); writersDone = SDL_CreateSemaphore(0); SDL_memset(&queue, 0xff, sizeof(queue)); InitEventQueue(&queue); if (!lock_free) { queue.mutex = SDL_CreateMutex(); } start = SDL_GetTicks(); #ifdef TEST_SPINLOCK_FIFO /* Start a monitoring thread */ if (lock_free) { SDL_CreateThread(FIFO_Watcher, &queue); } #endif /* Start the readers first */ printf("Starting %d readers\n", NUM_READERS); SDL_zero(readerData); SDL_AtomicSet(&readersRunning, NUM_READERS); for (i = 0; i < NUM_READERS; ++i) { readerData[i].queue = &queue; readerData[i].lock_free = lock_free; SDL_CreateThread(FIFO_Reader, &readerData[i]); } /* Start up the writers */ printf("Starting %d writers\n", NUM_WRITERS); SDL_zero(writerData); SDL_AtomicSet(&writersRunning, NUM_WRITERS); for (i = 0; i < NUM_WRITERS; ++i) { writerData[i].queue = &queue; writerData[i].index = i; writerData[i].lock_free = lock_free; SDL_CreateThread(FIFO_Writer, &writerData[i]); } /* Wait for the writers */ while (SDL_AtomicGet(&writersRunning) > 0) { SDL_SemWait(writersDone); } /* Shut down the queue so readers exit */ queue.active = SDL_FALSE; /* Wait for the readers */ while (SDL_AtomicGet(&readersRunning) > 0) { SDL_SemWait(readersDone); } end = SDL_GetTicks(); SDL_DestroySemaphore(readersDone); SDL_DestroySemaphore(writersDone); if (!lock_free) { SDL_DestroyMutex(queue.mutex); } printf("Finished in %f sec\n", (end - start) / 1000.f); printf("\n"); for (i = 0; i < NUM_WRITERS; ++i) { printf("Writer %d wrote %d events, had %d waits\n", i, EVENTS_PER_WRITER, writerData[i].waits); } printf("Writers wrote %d total events\n", NUM_WRITERS*EVENTS_PER_WRITER); /* Print a breakdown of which readers read messages from which writer */ printf("\n"); grand_total = 0; for (i = 0; i < NUM_READERS; ++i) { int total = 0; for (j = 0; j < NUM_WRITERS; ++j) { total += readerData[i].counters[j]; } grand_total += total; printf("Reader %d read %d events, had %d waits\n", i, total, readerData[i].waits); printf(" { "); for (j = 0; j < NUM_WRITERS; ++j) { if (j > 0) { printf(", "); } printf("%d", readerData[i].counters[j]); } printf(" }\n"); } printf("Readers read %d total events\n", grand_total); } /* End FIFO test */ /**************************************************************************/ int main(int argc, char *argv[]) { RunBasicTest(); RunEpicTest(); /* This test is really slow, so don't run it by default */ #if 0 RunFIFOTest(SDL_FALSE); #endif RunFIFOTest(SDL_TRUE); return 0; } /* vi: set ts=4 sw=4 expandtab: */