#include "SkPixelRef.h" #include "SkFlattenable.h" #include "SkThread.h" static SkMutex gPixelRefMutex; extern int32_t SkNextPixelRefGenerationID(); int32_t SkNextPixelRefGenerationID() { static int32_t gPixelRefGenerationID; // do a loop in case our global wraps around, as we never want to // return a 0 int32_t genID; do { genID = sk_atomic_inc(&gPixelRefGenerationID) + 1; } while (0 == genID); return genID; } SkPixelRef::SkPixelRef(SkMutex* mutex) { if (NULL == mutex) { mutex = &gPixelRefMutex; } fMutex = mutex; fPixels = NULL; fColorTable = NULL; // we do not track ownership of this fLockCount = 0; fGenerationID = 0; // signal to rebuild fIsImmutable = false; } SkPixelRef::SkPixelRef(SkFlattenableReadBuffer& buffer, SkMutex* mutex) { if (NULL == mutex) { mutex = &gPixelRefMutex; } fMutex = mutex; fPixels = NULL; fColorTable = NULL; // we do not track ownership of this fLockCount = 0; fGenerationID = 0; // signal to rebuild fIsImmutable = buffer.readBool(); } void SkPixelRef::flatten(SkFlattenableWriteBuffer& buffer) const { buffer.writeBool(fIsImmutable); } void SkPixelRef::lockPixels() { SkAutoMutexAcquire ac(*fMutex); if (1 == ++fLockCount) { fPixels = this->onLockPixels(&fColorTable); } } void SkPixelRef::unlockPixels() { SkAutoMutexAcquire ac(*fMutex); SkASSERT(fLockCount > 0); if (0 == --fLockCount) { this->onUnlockPixels(); fPixels = NULL; fColorTable = NULL; } } bool SkPixelRef::lockPixelsAreWritable() const { return this->onLockPixelsAreWritable(); } bool SkPixelRef::onLockPixelsAreWritable() const { return true; } uint32_t SkPixelRef::getGenerationID() const { if (0 == fGenerationID) { fGenerationID = SkNextPixelRefGenerationID(); } return fGenerationID; } void SkPixelRef::notifyPixelsChanged() { #ifdef SK_DEBUG if (fIsImmutable) { SkDebugf("========== notifyPixelsChanged called on immutable pixelref"); } #endif // this signals us to recompute this next time around fGenerationID = 0; } void SkPixelRef::setImmutable() { fIsImmutable = true; } bool SkPixelRef::readPixels(SkBitmap* dst, const SkIRect* subset) { return this->onReadPixels(dst, subset); } bool SkPixelRef::onReadPixels(SkBitmap* dst, const SkIRect* subset) { return false; } /////////////////////////////////////////////////////////////////////////////// #define MAX_PAIR_COUNT 16 struct Pair { const char* fName; SkPixelRef::Factory fFactory; }; static int gCount; static Pair gPairs[MAX_PAIR_COUNT]; void SkPixelRef::Register(const char name[], Factory factory) { SkASSERT(name); SkASSERT(factory); static bool gOnce; if (!gOnce) { gCount = 0; gOnce = true; } SkASSERT(gCount < MAX_PAIR_COUNT); gPairs[gCount].fName = name; gPairs[gCount].fFactory = factory; gCount += 1; } SkPixelRef::Factory SkPixelRef::NameToFactory(const char name[]) { const Pair* pairs = gPairs; for (int i = gCount - 1; i >= 0; --i) { if (strcmp(pairs[i].fName, name) == 0) { return pairs[i].fFactory; } } return NULL; } const char* SkPixelRef::FactoryToName(Factory fact) { const Pair* pairs = gPairs; for (int i = gCount - 1; i >= 0; --i) { if (pairs[i].fFactory == fact) { return pairs[i].fName; } } return NULL; } /////////////////////////////////////////////////////////////////////////////// #ifdef ANDROID void SkPixelRef::globalRef(void* data) { this->ref(); } void SkPixelRef::globalUnref() { this->unref(); } #endif