X-Git-Url: http://review.tizen.org/git/?a=blobdiff_plain;f=automated-tests%2Fsrc%2Fdali-toolkit-internal%2Futc-Dali-TextureManager.cpp;h=bd3d5ed2125b2045c0b427a43041ade5df7e9ec5;hb=refs%2Fchanges%2F73%2F292873%2F2;hp=c80d1b53181b45ece0aa9e0a1a8598a3fc407acf;hpb=23637864bea71fcf6ce78c2a194b3cc203ccd9f9;p=platform%2Fcore%2Fuifw%2Fdali-toolkit.git diff --git a/automated-tests/src/dali-toolkit-internal/utc-Dali-TextureManager.cpp b/automated-tests/src/dali-toolkit-internal/utc-Dali-TextureManager.cpp index c80d1b5..bd3d5ed 100644 --- a/automated-tests/src/dali-toolkit-internal/utc-Dali-TextureManager.cpp +++ b/automated-tests/src/dali-toolkit-internal/utc-Dali-TextureManager.cpp @@ -1,5 +1,5 @@ /* - * Copyright (c) 2022 Samsung Electronics Co., Ltd. + * Copyright (c) 2023 Samsung Electronics Co., Ltd. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -28,6 +28,8 @@ #include #include #include ///< For VisualFactory's member TextureManager. +#include +#include #include #include @@ -56,6 +58,8 @@ namespace { const char* TEST_IMAGE_FILE_NAME = TEST_RESOURCE_DIR "/gallery-small-1.jpg"; const char* TEST_IMAGE_2_FILE_NAME = TEST_RESOURCE_DIR "/icon-delete.png"; +const char* TEST_IMAGE_3_FILE_NAME = TEST_RESOURCE_DIR "/icon-edit.png"; +const char* TEST_IMAGE_4_FILE_NAME = TEST_RESOURCE_DIR "/application-icon-20.png"; const char* TEST_MASK_FILE_NAME = TEST_RESOURCE_DIR "/mask.png"; class TestObserver : public Dali::Toolkit::TextureUploadObserver @@ -122,7 +126,7 @@ public: mTextureSet = textureInformation.textureSet; // Remove during LoadComplete - mTextureManagerPtr->Remove(textureInformation.textureId, nullptr); + mTextureManagerPtr->RequestRemove(textureInformation.textureId, nullptr); // ...And generate string which using texture id. mGeneratedExternalUrl = mTextureManagerPtr->AddExternalTexture(mTextureSet); @@ -135,6 +139,55 @@ protected: TextureManager* mTextureManagerPtr; // Keep the pointer of texture manager. }; +class TestObserverWithCustomFunction : public TestObserver +{ +public: + TestObserverWithCustomFunction() + : TestObserver(), + mSignals{}, + mData{nullptr}, + mKeepSignal{false} + { + } + + virtual void LoadComplete(bool loadSuccess, TextureInformation textureInformation) override + { + if(textureInformation.returnType == TextureUploadObserver::ReturnType::TEXTURE) + { + mCompleteType = CompleteType::UPLOAD_COMPLETE; + } + else + { + mCompleteType = CompleteType::LOAD_COMPLETE; + } + mLoaded = loadSuccess; + mObserverCalled = true; + mTextureSet = textureInformation.textureSet; + + // Execute signals. + for(size_t i = 0; i < mSignals.size(); i++) + { + mSignals[i](mData); + } + + // Clear signals. + if(!mKeepSignal) + { + mSignals.clear(); + } + } + + void ConnectFunction(std::function signal) + { + mSignals.push_back(signal); + } + +public: + std::vector> mSignals; + void* mData; + bool mKeepSignal; +}; + } // namespace int UtcTextureManagerRequestLoad(void) @@ -384,6 +437,152 @@ int UtcTextureManagerEncodedImageBuffer(void) END_TEST; } +int UtcTextureManagerExternalTexture(void) +{ + ToolkitTestApplication application; + tet_infoline("UtcTextureManagerExternalTexture check TextureManager using external texture works well"); + + auto visualFactory = Toolkit::VisualFactory::Get(); + auto& textureManager = GetImplementation(visualFactory).GetTextureManager(); // Use VisualFactory's texture manager + + TestObserver observer1; + TestObserver observer2; + + auto textureId1(TextureManager::INVALID_TEXTURE_ID); + auto textureId2(TextureManager::INVALID_TEXTURE_ID); + std::string maskname(TEST_MASK_FILE_NAME); + TextureManager::MaskingDataPointer maskInfo = nullptr; + maskInfo.reset(new TextureManager::MaskingData()); + maskInfo->mAlphaMaskUrl = maskname; + maskInfo->mAlphaMaskId = TextureManager::INVALID_TEXTURE_ID; + maskInfo->mCropToMask = true; + maskInfo->mContentScaleFactor = 1.0f; + Vector4 atlasRect(0.f, 0.f, 1.f, 1.f); + Dali::ImageDimensions atlasRectSize(0, 0); + bool synchronousLoading(false); + bool atlasingStatus(false); + bool loadingStatus(false); + auto preMultiply = TextureManager::MultiplyOnLoad::LOAD_WITHOUT_MULTIPLY; + ImageAtlasManagerPtr atlasManager = nullptr; + Toolkit::AtlasUploadObserver* atlasUploadObserver = nullptr; + + uint32_t width(64); + uint32_t height(64); + uint32_t bufferSize = width * height * Pixel::GetBytesPerPixel(Pixel::RGBA8888); + + uint8_t* buffer = reinterpret_cast(malloc(bufferSize)); + PixelData pixelData = PixelData::New(buffer, bufferSize, width, height, Pixel::RGBA8888, PixelData::FREE); + + DALI_TEST_CHECK(pixelData); + + Dali::Toolkit::ImageUrl imageUrl = Dali::Toolkit::Image::GenerateUrl(pixelData, true); + std::string url = imageUrl.GetUrl(); + + TextureSet texture1 = textureManager.LoadTexture( + url, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo, + synchronousLoading, + textureId1, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer1, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + TextureSet texture2 = textureManager.LoadTexture( + url, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo, + synchronousLoading, + textureId2, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer2, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + DALI_TEST_EQUALS(observer1.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, false, TEST_LOCATION); + + application.SendNotification(); + application.Render(); + + DALI_TEST_EQUALS(Test::WaitForEventThreadTrigger(1), true, TEST_LOCATION); + + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mCompleteType, TestObserver::CompleteType::UPLOAD_COMPLETE, TEST_LOCATION); + + DALI_TEST_EQUALS(observer2.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mCompleteType, TestObserver::CompleteType::UPLOAD_COMPLETE, TEST_LOCATION); + + DALI_TEST_EQUALS(textureId1 == textureId2, true, TEST_LOCATION); + + texture1 = textureManager.LoadTexture( + url, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo, + synchronousLoading, + textureId1, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer1, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + texture2 = textureManager.LoadTexture( + url, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo, + synchronousLoading, + textureId2, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer2, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + application.SendNotification(); + application.Render(); + + DALI_TEST_EQUALS(textureId1 == textureId2, true, TEST_LOCATION); + DALI_TEST_EQUALS(texture1 != texture2, true, TEST_LOCATION); + + END_TEST; +} + int UtcTextureManagerEncodedImageBufferReferenceCount(void) { ToolkitTestApplication application; @@ -743,7 +942,7 @@ int UtcTextureManagerUseInvalidMaskAndMaskLoadedLater(void) application.SendNotification(); application.Render(); - // CAPTION : HARD-CODING for coverage. If you are a good boy, Do not follow this code. + // CAPTION : HARD-CODING for coverage. { Dali::Devel::PixelBuffer pixelBuffer = textureManager.LoadPixelBuffer( filename, @@ -760,8 +959,8 @@ int UtcTextureManagerUseInvalidMaskAndMaskLoadedLater(void) textureManager.AsyncLoadComplete(textureId, pixelBuffers); std::vector maskBuffers; textureManager.AsyncLoadComplete(maskInfo->mAlphaMaskId, maskBuffers); - textureManager.Remove(maskInfo->mAlphaMaskId, nullptr); - textureManager.Remove(textureId, &observer); + textureManager.RequestRemove(maskInfo->mAlphaMaskId, nullptr); + textureManager.RequestRemove(textureId, &observer); } application.SendNotification(); @@ -1181,7 +1380,7 @@ int UtcTextureManagerRemoveDuringApplyMasking(void) DALI_TEST_EQUALS(observer1.mObserverCalled, false, TEST_LOCATION); // Remove current textureId1. and request new texture again. - textureManager.Remove(textureId1, &observer1); + textureManager.RequestRemove(textureId1, &observer1); auto textureId2 = textureManager.RequestLoad( filename, ImageDimensions(), @@ -1208,7 +1407,7 @@ int UtcTextureManagerRemoveDuringApplyMasking(void) { std::vector pixelBuffers; textureManager.AsyncLoadComplete(textureId2, pixelBuffers); - textureManager.Remove(textureId2, &observer2); + textureManager.RequestRemove(textureId2, &observer2); } DALI_TEST_EQUALS(observer2.mLoaded, false, TEST_LOCATION); ///< Note that we call AsyncLoadComplete hardly with empty pixelbuffer. @@ -1321,8 +1520,15 @@ int UtcTextureManagerMaskCacheTest(void) try { // Remove textureId1 first, and then remove textureId2. Check whether segfault occured. - textureManager.Remove(textureId1, &observer1); - textureManager.Remove(textureId2, &observer2); + textureManager.RequestRemove(textureId1, &observer1); + + application.SendNotification(); + application.Render(); + + textureManager.RequestRemove(textureId2, &observer2); + + application.SendNotification(); + application.Render(); TestObserver observer3; maskInfo.reset(new TextureManager::MaskingData()); @@ -1376,3 +1582,588 @@ int UtcTextureManagerMaskCacheTest(void) END_TEST; } + +int UtcTextureManagerRemoveDuringGPUMasking(void) +{ + ToolkitTestApplication application; + tet_infoline("UtcTextureManagerRemoveDuringGPUMasking"); + tet_infoline("Request 3 different GPU masking image."); + tet_infoline("Control to mask image load last. and then, check execute result."); + + TextureManager textureManager; // Create new texture manager + + TestObserverWithCustomFunction observer1; + TestObserverWithCustomFunction observer2; + TestObserverWithCustomFunction* observer3 = new TestObserverWithCustomFunction(); // Deleted in observer1 loaded signal + TestObserver observer4; + + std::string filename1(TEST_IMAGE_FILE_NAME); + std::string filename2(TEST_IMAGE_2_FILE_NAME); + std::string filename3(TEST_IMAGE_3_FILE_NAME); + std::string filename4(TEST_IMAGE_4_FILE_NAME); + + auto textureId1(TextureManager::INVALID_TEXTURE_ID); + auto textureId2(TextureManager::INVALID_TEXTURE_ID); + auto textureId3(TextureManager::INVALID_TEXTURE_ID); + auto textureId4(TextureManager::INVALID_TEXTURE_ID); + + std::string maskname(TEST_MASK_FILE_NAME); + TextureManager::MaskingDataPointer maskInfo[3] = {nullptr, nullptr, nullptr}; + for(int i = 0; i < 3; i++) + { + maskInfo[i].reset(new TextureManager::MaskingData()); + maskInfo[i]->mAlphaMaskUrl = maskname; + maskInfo[i]->mAlphaMaskId = TextureManager::INVALID_TEXTURE_ID; + maskInfo[i]->mCropToMask = true; + maskInfo[i]->mPreappliedMasking = false; // To make GPU masking + maskInfo[i]->mContentScaleFactor = 1.0f; + } + Vector4 atlasRect(0.f, 0.f, 1.f, 1.f); + Dali::ImageDimensions atlasRectSize(0, 0); + bool synchronousLoading(false); + bool atlasingStatus(false); + bool loadingStatus(false); + auto preMultiply = TextureManager::MultiplyOnLoad::LOAD_WITHOUT_MULTIPLY; + ImageAtlasManagerPtr atlasManager = nullptr; + Toolkit::AtlasUploadObserver* atlasUploadObserver = nullptr; + + // Request image 1, 2, 3 with GPU masking + textureManager.LoadTexture( + filename1, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo[0], + synchronousLoading, + textureId1, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer1, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + textureManager.LoadTexture( + filename2, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo[1], + synchronousLoading, + textureId2, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + &observer2, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + textureManager.LoadTexture( + filename3, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + maskInfo[2], + synchronousLoading, + textureId3, + atlasRect, + atlasRectSize, + atlasingStatus, + loadingStatus, + observer3, + atlasUploadObserver, + atlasManager, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + DALI_TEST_EQUALS(observer1.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3->mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3->mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mObserverCalled, false, TEST_LOCATION); + + // Check we use cached mask image + DALI_TEST_CHECK(maskInfo[0]->mAlphaMaskId != TextureManager::INVALID_TEXTURE_ID); + DALI_TEST_EQUALS(maskInfo[0]->mAlphaMaskId, maskInfo[1]->mAlphaMaskId, TEST_LOCATION); + DALI_TEST_EQUALS(maskInfo[0]->mAlphaMaskId, maskInfo[2]->mAlphaMaskId, TEST_LOCATION); + + // Connect observer1 custom function + struct CustomData1 + { + TextureManager* textureManagerPtr{nullptr}; + TextureManager::TextureId removeTextureId{TextureManager::INVALID_TEXTURE_ID}; + TestObserver* removeTextureObserver{nullptr}; + }; + CustomData1 data1; + data1.textureManagerPtr = &textureManager; + data1.removeTextureId = textureId3; + data1.removeTextureObserver = observer3; + + observer1.mData = &data1; + observer1.ConnectFunction( + [](void* data) { + DALI_TEST_CHECK(data); + CustomData1 data1 = *(CustomData1*)data; + + DALI_TEST_CHECK(data1.textureManagerPtr); + DALI_TEST_CHECK(data1.removeTextureId != TextureManager::INVALID_TEXTURE_ID); + DALI_TEST_CHECK(data1.removeTextureObserver); + + // Remove textureId3. + data1.textureManagerPtr->RequestRemove(data1.removeTextureId, data1.removeTextureObserver); + + // Destroy observer3 + delete data1.removeTextureObserver; + }); + + // Connect observer2 custom function + struct CustomData2 + { + TextureManager* textureManagerPtr{nullptr}; + std::string addTextureUrl{}; + TextureManager::TextureId* addTextureIdPtr{nullptr}; + TestObserver* addTextureObserver{nullptr}; + }; + CustomData2 data2; + data2.textureManagerPtr = &textureManager; + data2.addTextureUrl = filename4; + data2.addTextureIdPtr = &textureId4; + data2.addTextureObserver = &observer4; + + observer2.mData = &data2; + observer2.ConnectFunction( + [](void* data) { + DALI_TEST_CHECK(data); + CustomData2 data2 = *(CustomData2*)data; + + DALI_TEST_CHECK(data2.textureManagerPtr); + DALI_TEST_CHECK(!data2.addTextureUrl.empty()); + DALI_TEST_CHECK(data2.addTextureIdPtr); + DALI_TEST_CHECK(data2.addTextureObserver); + + auto preMultiply = TextureManager::MultiplyOnLoad::LOAD_WITHOUT_MULTIPLY; + + // Load textureId4 + (*data2.addTextureIdPtr) = data2.textureManagerPtr->RequestLoad( + data2.addTextureUrl, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + data2.addTextureObserver, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + }); + + // Connect observer3 custom function + struct CustomData3 + { + TestObserver* self{nullptr}; + bool* observerLoadedPtr{nullptr}; + bool* observerCalleddPtr{nullptr}; + }; + CustomData3 data3; + bool observer3Loaded = false; + bool observer3Called = false; + data3.self = observer3; + data3.observerLoadedPtr = &observer3Loaded; + data3.observerCalleddPtr = &observer3Called; + + observer3->mData = &data3; + observer3->ConnectFunction( + [](void* data) { + DALI_TEST_CHECK(data); + CustomData3 data3 = *(CustomData3*)data; + + DALI_TEST_CHECK(data3.self); + DALI_TEST_CHECK(data3.observerLoadedPtr); + DALI_TEST_CHECK(data3.observerCalleddPtr); + + *data3.observerLoadedPtr = data3.self->mLoaded; + *data3.observerCalleddPtr = data3.self->mObserverCalled; + }); + + application.SendNotification(); + application.Render(); + + tet_printf("Id info - mask : {%d}, 1 : {%d}, 2 : {%d}, 3 : {%d}, 4 : {%d}\n", static_cast(maskInfo[0]->mAlphaMaskId), static_cast(textureId1), static_cast(textureId2), static_cast(textureId3), static_cast(textureId4)); + + // CAPTION : HARD-CODING. + { + // Complete async load 1, 2, 3. + std::vector pixelBuffers; + + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId1, pixelBuffers); + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId2, pixelBuffers); + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId3, pixelBuffers); + + // Ensure textureId3 remove request processed. + + DALI_TEST_EQUALS(observer1.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mObserverCalled, false, TEST_LOCATION); + + // Complete mask load. + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::L8)); + textureManager.AsyncLoadComplete(maskInfo[0]->mAlphaMaskId, pixelBuffers); + + tet_printf("Id info after observer notify - mask : {%d}, 1 : {%d}, 2 : {%d}, 3 : {%d}, 4 : {%d}\n", static_cast(maskInfo[0]->mAlphaMaskId), static_cast(textureId1), static_cast(textureId2), static_cast(textureId3), static_cast(textureId4)); + + // Check observer 1 and 2 called, but 3 and 4 not called. + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mObserverCalled, false, TEST_LOCATION); + + // Check textureId4 + DALI_TEST_CHECK(textureId4 != TextureManager::INVALID_TEXTURE_ID); + + // Complete 4. + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId4, pixelBuffers); + + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer4.mObserverCalled, true, TEST_LOCATION); + } + + END_TEST; +} + +int UtcTextureManagerDestroyObserverDuringObserve(void) +{ + ToolkitTestApplication application; + tet_infoline("UtcTextureManagerDestroyObserverDuringObserve"); + tet_infoline("Request 3 different image."); + tet_infoline("Complete textureId1. After observer1 loaded done,"); + tet_infoline(" - Remove and destroy observer2"); + tet_infoline(" - Re-generate observer2 which has same address pointer with before."); + tet_infoline(" - Remove and Reqeust third file by observer3"); + tet_infoline("Complete textureId2. and check old observer2 not emmited, and newly observer2 works."); + tet_infoline("Complete textureId3. and check observer3 comes"); + + TextureManager textureManager; // Create new texture manager + + TestObserverWithCustomFunction observer1; + TestObserverWithCustomFunction* observer2 = new TestObserverWithCustomFunction(); // Deleted in observer1 loaded signal. + TestObserver observer3; + + std::string filename1(TEST_IMAGE_FILE_NAME); + std::string filename2(TEST_IMAGE_2_FILE_NAME); + std::string filename3(TEST_IMAGE_3_FILE_NAME); + std::string filename4(TEST_IMAGE_4_FILE_NAME); + + auto textureId1(TextureManager::INVALID_TEXTURE_ID); + auto textureId2(TextureManager::INVALID_TEXTURE_ID); + auto textureId3(TextureManager::INVALID_TEXTURE_ID); + auto textureId4(TextureManager::INVALID_TEXTURE_ID); + + // Dummy reference value + auto preMultiply = TextureManager::MultiplyOnLoad::LOAD_WITHOUT_MULTIPLY; + + // Request image 1, 2, 3. + textureId1 = textureManager.RequestLoad( + filename1, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + &observer1, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + textureId2 = textureManager.RequestLoad( + filename2, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + observer2, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + textureId3 = textureManager.RequestLoad( + filename3, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + &observer3, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + struct CustomData1 + { + TextureManager* textureManagerPtr{nullptr}; + TextureManager::TextureId removeTextureId{TextureManager::INVALID_TEXTURE_ID}; + TestObserverWithCustomFunction** removeTextureObserver{nullptr}; + std::string resendFilename{}; + TextureManager::TextureId resendTextureId{TextureManager::INVALID_TEXTURE_ID}; + TestObserver* resendTextureObserver{nullptr}; + std::string newlyFilename{}; + TextureManager::TextureId* newlyTextureIdPtr{nullptr}; + }; + struct CustomData2 + { + TextureManager* textureManagerPtr{nullptr}; + TestObserver* self{nullptr}; + bool* observerLoadedPtr{nullptr}; + bool* observerCalledPtr{nullptr}; + }; + + bool observer2Loaded = false; + bool observer2Called = false; + bool newObserver2Loaded = false; + bool newObserver2Called = false; + CustomData2 newData2; // Used on observer1 function + + // Connect observer1 custom function + CustomData1 data1; + data1.textureManagerPtr = &textureManager; + data1.removeTextureId = textureId2; + data1.removeTextureObserver = &observer2; + data1.resendFilename = filename3; + data1.resendTextureId = textureId3; + data1.resendTextureObserver = &observer3; + data1.newlyFilename = filename2; // Same as observer2 filename + data1.newlyTextureIdPtr = &textureId4; + + observer1.mData = &data1; + observer1.ConnectFunction( + [&](void* data) { + DALI_TEST_CHECK(data); + CustomData1 data1 = *(CustomData1*)data; + + DALI_TEST_CHECK(data1.textureManagerPtr); + DALI_TEST_CHECK(data1.removeTextureId != TextureManager::INVALID_TEXTURE_ID); + DALI_TEST_CHECK(data1.removeTextureObserver); + DALI_TEST_CHECK(*data1.removeTextureObserver); + DALI_TEST_CHECK(!data1.resendFilename.empty()); + DALI_TEST_CHECK(data1.resendTextureId != TextureManager::INVALID_TEXTURE_ID); + DALI_TEST_CHECK(data1.resendTextureObserver); + DALI_TEST_CHECK(!data1.newlyFilename.empty()); + DALI_TEST_CHECK(data1.newlyTextureIdPtr); + DALI_TEST_CHECK(*data1.newlyTextureIdPtr == TextureManager::INVALID_TEXTURE_ID); + + // Remove textureId2. + data1.textureManagerPtr->RequestRemove(data1.removeTextureId, *data1.removeTextureObserver); + + auto removedObserver = *data1.removeTextureObserver; + + // Destroy observer2. + delete removedObserver; + + // Create new observer. Make we use same pointer if we can. + uint32_t maxTryCount = 100u; + uint32_t tryCount = 0u; + + while(tryCount < maxTryCount) + { + *data1.removeTextureObserver = new TestObserverWithCustomFunction(); + if(removedObserver == *data1.removeTextureObserver) break; + ++tryCount; + delete *data1.removeTextureObserver; + } + + tet_printf("TryCount[%u] / Old observer2 : %p, newly observer2 : %p\n", tryCount, removedObserver, *data1.removeTextureObserver); + + // Connect new observer2 custom function + newData2.textureManagerPtr = &textureManager; + newData2.self = (*data1.removeTextureObserver); + newData2.observerLoadedPtr = &newObserver2Loaded; + newData2.observerCalledPtr = &newObserver2Called; + + (*data1.removeTextureObserver)->mData = &newData2; + (*data1.removeTextureObserver)->ConnectFunction([](void* data) { + DALI_TEST_CHECK(data); + CustomData2 data2 = *(CustomData2*)data; + + tet_printf("New created observer running\n"); + + DALI_TEST_CHECK(data2.self); + DALI_TEST_CHECK(data2.observerLoadedPtr); + DALI_TEST_CHECK(data2.observerCalledPtr); + + *data2.observerLoadedPtr = data2.self->mLoaded; + *data2.observerCalledPtr = data2.self->mObserverCalled; + }); + + // Dummy reference value + auto preMultiply = TextureManager::MultiplyOnLoad::LOAD_WITHOUT_MULTIPLY; + + // Resend textureId3 + data1.textureManagerPtr->RequestRemove(data1.resendTextureId, data1.resendTextureObserver); + + TextureManager::TextureId tempId; + tempId = data1.textureManagerPtr->RequestLoad( + data1.resendFilename, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + data1.resendTextureObserver, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + DALI_TEST_CHECK(tempId == data1.resendTextureId); + + // Request new task + + tempId = data1.textureManagerPtr->RequestLoad( + data1.newlyFilename, + ImageDimensions(), + FittingMode::SCALE_TO_FILL, + SamplingMode::BOX_THEN_LINEAR, + TextureManager::UseAtlas::NO_ATLAS, + *data1.removeTextureObserver, + true, + TextureManager::ReloadPolicy::CACHED, + preMultiply); + + DALI_TEST_CHECK(tempId != TextureManager::INVALID_TEXTURE_ID); + *data1.newlyTextureIdPtr = tempId; + }); + + // Connect observer2 custom function + CustomData2 data2; + data2.textureManagerPtr = &textureManager; + data2.self = observer2; + data2.observerLoadedPtr = &observer2Loaded; + data2.observerCalledPtr = &observer2Called; + + observer2->mData = &data2; + observer2->ConnectFunction( + [](void* data) { + DALI_TEST_CHECK(data); + CustomData2 data2 = *(CustomData2*)data; + + tet_printf("Old created observer running. Something error occured!\n"); + + DALI_TEST_CHECK(data2.self); + DALI_TEST_CHECK(data2.observerLoadedPtr); + DALI_TEST_CHECK(data2.observerCalledPtr); + + *data2.observerLoadedPtr = data2.self->mLoaded; + *data2.observerCalledPtr = data2.self->mObserverCalled; + }); + + application.SendNotification(); + application.Render(); + + tet_printf("Id info - 1 : {%d}, 2 : {%d}, 3 : {%d}, 4 : {%d}\n", static_cast(textureId1), static_cast(textureId2), static_cast(textureId3), static_cast(textureId4)); + + DALI_TEST_EQUALS(observer1.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mObserverCalled, false, TEST_LOCATION); + + DALI_TEST_CHECK(textureId4 == TextureManager::INVALID_TEXTURE_ID); + + // CAPTION : HARD-CODING. + // Run codes without exception. + try + { + tet_printf("Complete async load 1 first.\n"); + std::vector pixelBuffers; + + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId1, pixelBuffers); + + tet_printf("Now observer2 deleted, observer3 resended, observer2 re-created.\n"); + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mLoaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mObserverCalled, false, TEST_LOCATION); + + tet_printf("Id info - 1 : {%d}, 2 : {%d}, 3 : {%d}, 4 : {%d}\n", static_cast(textureId1), static_cast(textureId2), static_cast(textureId3), static_cast(textureId4)); + + DALI_TEST_CHECK(textureId4 == textureId2); + + // Remove processor excute. + application.SendNotification(); + application.Render(); + + tet_printf("Complete async load 2. Let we check old version observer2 ignored and newly observer2 loaded.\n"); + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId2, pixelBuffers); + + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Loaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Called, true, TEST_LOCATION); + // We don't check observer3 not loaded case because SendNotification can process AsyncTask. + //DALI_TEST_EQUALS(observer3.mLoaded, false, TEST_LOCATION); + //DALI_TEST_EQUALS(observer3.mObserverCalled, false, TEST_LOCATION); + + tet_printf("Complete async load 3.\n"); + pixelBuffers.clear(); + pixelBuffers.push_back(Devel::PixelBuffer::New(1, 1, Pixel::Format::RGB888)); + textureManager.AsyncLoadComplete(textureId3, pixelBuffers); + + DALI_TEST_EQUALS(observer1.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer1.mObserverCalled, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Loaded, false, TEST_LOCATION); + DALI_TEST_EQUALS(observer2Called, false, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Loaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(newObserver2Called, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mLoaded, true, TEST_LOCATION); + DALI_TEST_EQUALS(observer3.mObserverCalled, true, TEST_LOCATION); + } + catch(...) + { + DALI_TEST_CHECK(false); + } + + END_TEST; +} \ No newline at end of file