/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkBitmapCache.h" #include "SkBitmapProvider.h" #include "SkImage.h" #include "SkResourceCache.h" #include "SkMipMap.h" #include "SkPixelRef.h" #include "SkRect.h" /** * Use this for bitmapcache and mipmapcache entries. */ uint64_t SkMakeResourceCacheSharedIDForBitmap(uint32_t bitmapGenID) { uint64_t sharedID = SkSetFourByteTag('b', 'm', 'a', 'p'); return (sharedID << 32) | bitmapGenID; } void SkNotifyBitmapGenIDIsStale(uint32_t bitmapGenID) { SkResourceCache::PostPurgeSharedID(SkMakeResourceCacheSharedIDForBitmap(bitmapGenID)); } /////////////////////////////////////////////////////////////////////////////////////////////////// SkBitmapCacheDesc SkBitmapCacheDesc::Make(uint32_t imageID, const SkIRect& subset) { SkASSERT(imageID); SkASSERT(subset.width() > 0 && subset.height() > 0); return { imageID, subset }; } SkBitmapCacheDesc SkBitmapCacheDesc::Make(const SkImage* image) { SkIRect bounds = SkIRect::MakeWH(image->width(), image->height()); return Make(image->uniqueID(), bounds); } namespace { static unsigned gBitmapKeyNamespaceLabel; struct BitmapKey : public SkResourceCache::Key { public: BitmapKey(const SkBitmapCacheDesc& desc) : fDesc(desc) { this->init(&gBitmapKeyNamespaceLabel, SkMakeResourceCacheSharedIDForBitmap(fDesc.fImageID), sizeof(fDesc)); } const SkBitmapCacheDesc fDesc; }; } ////////////////////// #include "SkDiscardableMemory.h" #include "SkNextID.h" void SkBitmapCache_setImmutableWithID(SkPixelRef* pr, uint32_t id) { pr->setImmutableWithID(id); } class SkBitmapCache::Rec : public SkResourceCache::Rec { public: Rec(const SkBitmapCacheDesc& desc, const SkImageInfo& info, size_t rowBytes, std::unique_ptr dm, void* block) : fKey(desc) , fDM(std::move(dm)) , fMalloc(block) , fInfo(info) , fRowBytes(rowBytes) { SkASSERT(!(fDM && fMalloc)); // can't have both // We need an ID to return with the bitmap/pixelref. We can't necessarily use the key/desc // ID - lazy images cache the same ID with multiple keys (in different color types). fPrUniqueID = SkNextID::ImageID(); } ~Rec() override { SkASSERT(0 == fExternalCounter); if (fDM && fDiscardableIsLocked) { SkASSERT(fDM->data()); fDM->unlock(); } sk_free(fMalloc); // may be null } const Key& getKey() const override { return fKey; } size_t bytesUsed() const override { return sizeof(fKey) + fInfo.computeByteSize(fRowBytes); } bool canBePurged() override { SkAutoMutexAcquire ama(fMutex); return fExternalCounter == 0; } void postAddInstall(void* payload) override { SkAssertResult(this->install(static_cast(payload))); } const char* getCategory() const override { return "bitmap"; } SkDiscardableMemory* diagnostic_only_getDiscardable() const override { return fDM.get(); } static void ReleaseProc(void* addr, void* ctx) { Rec* rec = static_cast(ctx); SkAutoMutexAcquire ama(rec->fMutex); SkASSERT(rec->fExternalCounter > 0); rec->fExternalCounter -= 1; if (rec->fDM) { SkASSERT(rec->fMalloc == nullptr); if (rec->fExternalCounter == 0) { rec->fDM->unlock(); rec->fDiscardableIsLocked = false; } } else { SkASSERT(rec->fMalloc != nullptr); } } bool install(SkBitmap* bitmap) { SkAutoMutexAcquire ama(fMutex); if (!fDM && !fMalloc) { return false; } if (fDM) { if (!fDiscardableIsLocked) { SkASSERT(fExternalCounter == 0); if (!fDM->lock()) { fDM.reset(nullptr); return false; } fDiscardableIsLocked = true; } SkASSERT(fDM->data()); } bitmap->installPixels(fInfo, fDM ? fDM->data() : fMalloc, fRowBytes, ReleaseProc, this); SkBitmapCache_setImmutableWithID(bitmap->pixelRef(), fPrUniqueID); fExternalCounter++; return true; } static bool Finder(const SkResourceCache::Rec& baseRec, void* contextBitmap) { Rec* rec = (Rec*)&baseRec; SkBitmap* result = (SkBitmap*)contextBitmap; return rec->install(result); } private: BitmapKey fKey; SkMutex fMutex; // either fDM or fMalloc can be non-null, but not both std::unique_ptr fDM; void* fMalloc; SkImageInfo fInfo; size_t fRowBytes; uint32_t fPrUniqueID; // This field counts the number of external pixelrefs we have created. // They notify us when they are destroyed so we can decrement this. int fExternalCounter = 0; bool fDiscardableIsLocked = true; }; void SkBitmapCache::PrivateDeleteRec(Rec* rec) { delete rec; } SkBitmapCache::RecPtr SkBitmapCache::Alloc(const SkBitmapCacheDesc& desc, const SkImageInfo& info, SkPixmap* pmap) { // Ensure that the info matches the subset (i.e. the subset is the entire image) SkASSERT(info.width() == desc.fSubset.width()); SkASSERT(info.height() == desc.fSubset.height()); const size_t rb = info.minRowBytes(); size_t size = info.computeByteSize(rb); if (SkImageInfo::ByteSizeOverflowed(size)) { return nullptr; } std::unique_ptr dm; void* block = nullptr; auto factory = SkResourceCache::GetDiscardableFactory(); if (factory) { dm.reset(factory(size)); } else { block = sk_malloc_canfail(size); } if (!dm && !block) { return nullptr; } *pmap = SkPixmap(info, dm ? dm->data() : block, rb); return RecPtr(new Rec(desc, info, rb, std::move(dm), block)); } void SkBitmapCache::Add(RecPtr rec, SkBitmap* bitmap) { SkResourceCache::Add(rec.release(), bitmap); } bool SkBitmapCache::Find(const SkBitmapCacheDesc& desc, SkBitmap* result) { desc.validate(); return SkResourceCache::Find(BitmapKey(desc), SkBitmapCache::Rec::Finder, result); } ////////////////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// #define CHECK_LOCAL(localCache, localName, globalName, ...) \ ((localCache) ? localCache->localName(__VA_ARGS__) : SkResourceCache::globalName(__VA_ARGS__)) namespace { static unsigned gMipMapKeyNamespaceLabel; struct MipMapKey : public SkResourceCache::Key { public: MipMapKey(const SkBitmapCacheDesc& desc) : fDesc(desc) { this->init(&gMipMapKeyNamespaceLabel, SkMakeResourceCacheSharedIDForBitmap(fDesc.fImageID), sizeof(fDesc)); } const SkBitmapCacheDesc fDesc; }; struct MipMapRec : public SkResourceCache::Rec { MipMapRec(const SkBitmapCacheDesc& desc, const SkMipMap* result) : fKey(desc) , fMipMap(result) { fMipMap->attachToCacheAndRef(); } ~MipMapRec() override { fMipMap->detachFromCacheAndUnref(); } const Key& getKey() const override { return fKey; } size_t bytesUsed() const override { return sizeof(fKey) + fMipMap->size(); } const char* getCategory() const override { return "mipmap"; } SkDiscardableMemory* diagnostic_only_getDiscardable() const override { return fMipMap->diagnostic_only_getDiscardable(); } static bool Finder(const SkResourceCache::Rec& baseRec, void* contextMip) { const MipMapRec& rec = static_cast(baseRec); const SkMipMap* mm = SkRef(rec.fMipMap); // the call to ref() above triggers a "lock" in the case of discardable memory, // which means we can now check for null (in case the lock failed). if (nullptr == mm->data()) { mm->unref(); // balance our call to ref() return false; } // the call must call unref() when they are done. *(const SkMipMap**)contextMip = mm; return true; } private: MipMapKey fKey; const SkMipMap* fMipMap; }; } const SkMipMap* SkMipMapCache::FindAndRef(const SkBitmapCacheDesc& desc, SkResourceCache* localCache) { MipMapKey key(desc); const SkMipMap* result; if (!CHECK_LOCAL(localCache, find, Find, key, MipMapRec::Finder, &result)) { result = nullptr; } return result; } static SkResourceCache::DiscardableFactory get_fact(SkResourceCache* localCache) { return localCache ? localCache->GetDiscardableFactory() : SkResourceCache::GetDiscardableFactory(); } const SkMipMap* SkMipMapCache::AddAndRef(const SkBitmapProvider& provider, SkResourceCache* localCache) { SkBitmap src; if (!provider.asBitmap(&src)) { return nullptr; } SkMipMap* mipmap = SkMipMap::Build(src, get_fact(localCache)); if (mipmap) { MipMapRec* rec = new MipMapRec(provider.makeCacheDesc(), mipmap); CHECK_LOCAL(localCache, add, Add, rec); provider.notifyAddedToCache(); } return mipmap; }