/* * 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 "Test.h" #include "SkBitmapCache.h" #include "SkCanvas.h" #include "SkDiscardableMemoryPool.h" #include "SkGraphics.h" #include "SkMakeUnique.h" #include "SkMipMap.h" #include "SkPicture.h" #include "SkPictureRecorder.h" #include "SkResourceCache.h" #include "SkSurface.h" //////////////////////////////////////////////////////////////////////////////////////// enum LockedState { kNotLocked, kLocked, }; enum CachedState { kNotInCache, kInCache, }; static void check_data(skiatest::Reporter* reporter, const SkCachedData* data, int refcnt, CachedState cacheState, LockedState lockedState) { REPORTER_ASSERT(reporter, data->testing_only_getRefCnt() == refcnt); REPORTER_ASSERT(reporter, data->testing_only_isInCache() == (kInCache == cacheState)); bool isLocked = (data->data() != nullptr); REPORTER_ASSERT(reporter, isLocked == (lockedState == kLocked)); } static void test_mipmapcache(skiatest::Reporter* reporter, SkResourceCache* cache) { cache->purgeAll(); SkBitmap src; src.allocN32Pixels(5, 5); src.setImmutable(); const SkDestinationSurfaceColorMode colorMode = SkDestinationSurfaceColorMode::kLegacy; const SkMipMap* mipmap = SkMipMapCache::FindAndRef(SkBitmapCacheDesc::Make(src), colorMode, cache); REPORTER_ASSERT(reporter, nullptr == mipmap); mipmap = SkMipMapCache::AddAndRef(src, colorMode, cache); REPORTER_ASSERT(reporter, mipmap); { const SkMipMap* mm = SkMipMapCache::FindAndRef(SkBitmapCacheDesc::Make(src), colorMode, cache); REPORTER_ASSERT(reporter, mm); REPORTER_ASSERT(reporter, mm == mipmap); mm->unref(); } check_data(reporter, mipmap, 2, kInCache, kLocked); mipmap->unref(); // tricky, since technically after this I'm no longer an owner, but since the cache is // local, I know it won't get purged behind my back check_data(reporter, mipmap, 1, kInCache, kNotLocked); // find us again mipmap = SkMipMapCache::FindAndRef(SkBitmapCacheDesc::Make(src), colorMode, cache); check_data(reporter, mipmap, 2, kInCache, kLocked); cache->purgeAll(); check_data(reporter, mipmap, 1, kNotInCache, kLocked); mipmap->unref(); } static void test_mipmap_notify(skiatest::Reporter* reporter, SkResourceCache* cache) { const SkDestinationSurfaceColorMode colorMode = SkDestinationSurfaceColorMode::kLegacy; const int N = 3; SkBitmap src[N]; for (int i = 0; i < N; ++i) { src[i].allocN32Pixels(5, 5); src[i].setImmutable(); SkMipMapCache::AddAndRef(src[i], colorMode, cache)->unref(); } for (int i = 0; i < N; ++i) { const auto desc = SkBitmapCacheDesc::Make(src[i]); const SkMipMap* mipmap = SkMipMapCache::FindAndRef(desc, colorMode, cache); if (cache) { // if cache is null, we're working on the global cache, and other threads might purge // it, making this check fragile. REPORTER_ASSERT(reporter, mipmap); } SkSafeUnref(mipmap); src[i].reset(); // delete the underlying pixelref, which *should* remove us from the cache mipmap = SkMipMapCache::FindAndRef(desc, colorMode, cache); REPORTER_ASSERT(reporter, !mipmap); } } #include "SkDiscardableMemoryPool.h" static SkDiscardableMemoryPool* gPool = 0; static SkDiscardableMemory* pool_factory(size_t bytes) { SkASSERT(gPool); return gPool->create(bytes); } static void testBitmapCache_discarded_bitmap(skiatest::Reporter* reporter, SkResourceCache* cache, SkResourceCache::DiscardableFactory factory) { test_mipmapcache(reporter, cache); test_mipmap_notify(reporter, cache); } DEF_TEST(BitmapCache_discarded_bitmap, reporter) { const size_t byteLimit = 100 * 1024; { SkResourceCache cache(byteLimit); testBitmapCache_discarded_bitmap(reporter, &cache, nullptr); } { sk_sp pool(SkDiscardableMemoryPool::Create(byteLimit, nullptr)); gPool = pool.get(); SkResourceCache::DiscardableFactory factory = pool_factory; SkResourceCache cache(factory); testBitmapCache_discarded_bitmap(reporter, &cache, factory); } } static void test_discarded_image(skiatest::Reporter* reporter, const SkMatrix& transform, sk_sp (*buildImage)()) { auto surface(SkSurface::MakeRasterN32Premul(10, 10)); SkCanvas* canvas = surface->getCanvas(); // SkBitmapCache is global, so other threads could be evicting our bitmaps. Loop a few times // to mitigate this risk. const unsigned kRepeatCount = 42; for (unsigned i = 0; i < kRepeatCount; ++i) { SkAutoCanvasRestore acr(canvas, true); sk_sp image(buildImage()); // always use high quality to ensure caching when scaled SkPaint paint; paint.setFilterQuality(kHigh_SkFilterQuality); // draw the image (with a transform, to tickle different code paths) to ensure // any associated resources get cached canvas->concat(transform); canvas->drawImage(image, 0, 0, &paint); const auto desc = SkBitmapCacheDesc::Make(image.get()); // delete the image image.reset(nullptr); // all resources should have been purged SkBitmap result; REPORTER_ASSERT(reporter, !SkBitmapCache::Find(desc, &result)); } } // Verify that associated bitmap cache entries are purged on SkImage destruction. DEF_TEST(BitmapCache_discarded_image, reporter) { // Cache entries associated with SkImages fall into two categories: // // 1) generated image bitmaps (managed by the image cacherator) // 2) scaled/resampled bitmaps (cached when HQ filters are used) // // To exercise the first cache type, we use generated/picture-backed SkImages. // To exercise the latter, we draw scaled bitmap images using HQ filters. const SkMatrix xforms[] = { SkMatrix::MakeScale(1, 1), SkMatrix::MakeScale(1.7f, 0.5f), }; for (size_t i = 0; i < SK_ARRAY_COUNT(xforms); ++i) { test_discarded_image(reporter, xforms[i], []() { auto surface(SkSurface::MakeRasterN32Premul(10, 10)); surface->getCanvas()->clear(SK_ColorCYAN); return surface->makeImageSnapshot(); }); test_discarded_image(reporter, xforms[i], []() { SkPictureRecorder recorder; SkCanvas* canvas = recorder.beginRecording(10, 10); canvas->clear(SK_ColorCYAN); return SkImage::MakeFromPicture(recorder.finishRecordingAsPicture(), SkISize::Make(10, 10), nullptr, nullptr, SkImage::BitDepth::kU8, SkColorSpace::MakeSRGB()); }); } } /////////////////////////////////////////////////////////////////////////////////////////////////// static void* gTestNamespace; struct TestKey : SkResourceCache::Key { int32_t fData; TestKey(int sharedID, int32_t data) : fData(data) { this->init(&gTestNamespace, sharedID, sizeof(fData)); } }; struct TestRec : SkResourceCache::Rec { enum { kDidInstall = 1 << 0, }; TestKey fKey; int* fFlags; bool fCanBePurged; TestRec(int sharedID, int32_t data, int* flagPtr) : fKey(sharedID, data), fFlags(flagPtr) { fCanBePurged = false; } const Key& getKey() const override { return fKey; } size_t bytesUsed() const override { return 1024; /* just need a value */ } bool canBePurged() override { return fCanBePurged; } void postAddInstall(void*) override { *fFlags |= kDidInstall; } const char* getCategory() const override { return "test-category"; } }; static void test_duplicate_add(SkResourceCache* cache, skiatest::Reporter* reporter, bool purgable) { int sharedID = 1; int data = 0; int flags0 = 0, flags1 = 0; auto rec0 = skstd::make_unique(sharedID, data, &flags0); auto rec1 = skstd::make_unique(sharedID, data, &flags1); SkASSERT(rec0->getKey() == rec1->getKey()); TestRec* r0 = rec0.get(); // save the bare-pointer since we will release rec0 r0->fCanBePurged = purgable; REPORTER_ASSERT(reporter, !(flags0 & TestRec::kDidInstall)); REPORTER_ASSERT(reporter, !(flags1 & TestRec::kDidInstall)); cache->add(rec0.release(), nullptr); REPORTER_ASSERT(reporter, flags0 & TestRec::kDidInstall); REPORTER_ASSERT(reporter, !(flags1 & TestRec::kDidInstall)); flags0 = 0; // reset the flag cache->add(rec1.release(), nullptr); if (purgable) { // we purged rec0, and did install rec1 REPORTER_ASSERT(reporter, !(flags0 & TestRec::kDidInstall)); REPORTER_ASSERT(reporter, flags1 & TestRec::kDidInstall); } else { // we re-used rec0 and did not install rec1 REPORTER_ASSERT(reporter, flags0 & TestRec::kDidInstall); REPORTER_ASSERT(reporter, !(flags1 & TestRec::kDidInstall)); r0->fCanBePurged = true; // so we can cleanup the cache } } /* * Test behavior when the same key is added more than once. */ DEF_TEST(ResourceCache_purge, reporter) { for (bool purgable : { false, true }) { { SkResourceCache cache(1024 * 1024); test_duplicate_add(&cache, reporter, purgable); } { SkResourceCache cache(SkDiscardableMemory::Create); test_duplicate_add(&cache, reporter, purgable); } } }