X-Git-Url: http://review.tizen.org/git/?p=platform%2Fcore%2Fuifw%2Fdali-toolkit.git;a=blobdiff_plain;f=dali-toolkit%2Finternal%2Fvisuals%2Fvisual-factory-cache.cpp;h=6b4bf10da17676e3da92a8e4b067a9d2ca308636;hp=b4fde0a814c4b71127f3ef375c3ca2b6ed4902b2;hb=35a7fe4e9b45558b58e365c637e704e2a51a5212;hpb=b8da2e53925b9abb9fa362560069e8ca4aa62f81 diff --git a/dali-toolkit/internal/visuals/visual-factory-cache.cpp b/dali-toolkit/internal/visuals/visual-factory-cache.cpp index b4fde0a..6b4bf10 100644 --- a/dali-toolkit/internal/visuals/visual-factory-cache.cpp +++ b/dali-toolkit/internal/visuals/visual-factory-cache.cpp @@ -1,5 +1,5 @@ /* - * Copyright (c) 2021 Samsung Electronics Co., Ltd. + * Copyright (c) 2022 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. @@ -22,10 +22,14 @@ #include // INTERNAL INCLUDES +#include +#include #include #include #include #include +#include +#include namespace Dali { @@ -33,17 +37,23 @@ namespace Toolkit { namespace Internal { +namespace +{ +const Vector4 FULL_TEXTURE_RECT(0.f, 0.f, 1.f, 1.f); +} + VisualFactoryCache::VisualFactoryCache(bool preMultiplyOnLoad) -: mSvgRasterizeThread(NULL), - mVectorAnimationManager(), - mBrokenImageUrl(""), - mPreMultiplyOnLoad(preMultiplyOnLoad) +: mSvgRasterizeManager(nullptr), + mVectorAnimationManager(nullptr), + mPreMultiplyOnLoad(preMultiplyOnLoad), + mBrokenImageInfoContainer(), + mDefaultBrokenImageUrl(""), + mUseDefaultBrokenImageOnly(true) { } VisualFactoryCache::~VisualFactoryCache() { - SvgRasterizeThread::TerminateThread(mSvgRasterizeThread); } Geometry VisualFactoryCache::GetGeometry(GeometryType type) @@ -104,7 +114,7 @@ ImageAtlasManagerPtr VisualFactoryCache::GetAtlasManager() if(!mAtlasManager) { mAtlasManager = new ImageAtlasManager(); - mAtlasManager->SetBrokenImage(mBrokenImageUrl); + mAtlasManager->SetBrokenImage(mDefaultBrokenImageUrl); } return mAtlasManager; @@ -120,14 +130,13 @@ NPatchLoader& VisualFactoryCache::GetNPatchLoader() return mNPatchLoader; } -SvgRasterizeThread* VisualFactoryCache::GetSVGRasterizationThread() +SvgRasterizeManager* VisualFactoryCache::GetSVGRasterizationManager() { - if(!mSvgRasterizeThread) + if(!mSvgRasterizeManager) { - mSvgRasterizeThread = new SvgRasterizeThread(); - mSvgRasterizeThread->Start(); + mSvgRasterizeManager = std::unique_ptr(new SvgRasterizeManager()); } - return mSvgRasterizeThread; + return mSvgRasterizeManager.get(); } VectorAnimationManager& VisualFactoryCache::GetVectorAnimationManager() @@ -207,20 +216,22 @@ Geometry VisualFactoryCache::CreateGridGeometry(Uint16Pair gridSize) return geometry; } -Texture VisualFactoryCache::GetBrokenVisualImage() +Texture VisualFactoryCache::GetBrokenVisualImage(uint32_t brokenIndex) { - if(!mBrokenImageTexture && mBrokenImageUrl.size()) + if(!(mBrokenImageInfoContainer[brokenIndex].texture)) { - PixelData data; - Devel::PixelBuffer pixelBuffer = LoadImageFromFile(mBrokenImageUrl); + PixelData pixelData; + Devel::PixelBuffer pixelBuffer = LoadImageFromFile(mBrokenImageInfoContainer[brokenIndex].url); if(pixelBuffer) { - data = Devel::PixelBuffer::Convert(pixelBuffer); // takes ownership of buffer - mBrokenImageTexture = Texture::New(Dali::TextureType::TEXTURE_2D, data.GetPixelFormat(), data.GetWidth(), data.GetHeight()); - mBrokenImageTexture.Upload(data); + pixelData = Devel::PixelBuffer::Convert(pixelBuffer); // takes ownership of buffer + mBrokenImageInfoContainer[brokenIndex].texture = Texture::New(Dali::TextureType::TEXTURE_2D, pixelData.GetPixelFormat(), pixelData.GetWidth(), pixelData.GetHeight()); + mBrokenImageInfoContainer[brokenIndex].texture.Upload(pixelData); + mBrokenImageInfoContainer[brokenIndex].width = pixelData.GetWidth(); + mBrokenImageInfoContainer[brokenIndex].height = pixelData.GetHeight(); } } - return mBrokenImageTexture; + return mBrokenImageInfoContainer[brokenIndex].texture; } void VisualFactoryCache::SetPreMultiplyOnLoad(bool preMultiply) @@ -233,16 +244,231 @@ bool VisualFactoryCache::GetPreMultiplyOnLoad() return mPreMultiplyOnLoad; } -void VisualFactoryCache::SetBrokenImageUrl(const std::string& brokenImageUrl) +void VisualFactoryCache::SetBrokenImageUrl(std::string& defaultBrokenUrl, const std::vector& brokenImageUrlList) { - mBrokenImageUrl = brokenImageUrl; + mUseDefaultBrokenImageOnly = false; + mBrokenImageInfoContainer.clear(); + mBrokenImageInfoContainer.assign(brokenImageUrlList.size(), BrokenImageInfo()); + for(unsigned int i = 0; i < brokenImageUrlList.size(); i++) + { + mBrokenImageInfoContainer[i].url = brokenImageUrlList[i]; + } - if(!mAtlasManager) + mDefaultBrokenImageUrl = defaultBrokenUrl; +} + +VisualUrl::Type VisualFactoryCache::GetBrokenImageVisualType(int index) +{ + return mBrokenImageInfoContainer[index].visualType; +} + +Geometry VisualFactoryCache::GetNPatchGeometry(int index) +{ + Geometry geometry; + const NPatchData* data; + if(mNPatchLoader.GetNPatchData(mBrokenImageInfoContainer[index].npatchId, data) && data->GetLoadingState() == NPatchData::LoadingState::LOAD_COMPLETE) { - mAtlasManager = new ImageAtlasManager(); + if(data->GetStretchPixelsX().Size() == 1 && data->GetStretchPixelsY().Size() == 1) + { + geometry = GetGeometry(VisualFactoryCache::NINE_PATCH_GEOMETRY); + if(!geometry) + { + geometry = NPatchHelper::CreateGridGeometry(Uint16Pair(3, 3)); + SaveGeometry(VisualFactoryCache::NINE_PATCH_GEOMETRY, geometry); + } + } + else if(data->GetStretchPixelsX().Size() > 0 || data->GetStretchPixelsY().Size() > 0) + { + Uint16Pair gridSize(2 * data->GetStretchPixelsX().Size() + 1, 2 * data->GetStretchPixelsY().Size() + 1); + geometry = NPatchHelper::CreateGridGeometry(gridSize); + } + } + else + { + // no N patch data so use default geometry + geometry = GetGeometry(VisualFactoryCache::NINE_PATCH_GEOMETRY); + if(!geometry) + { + geometry = NPatchHelper::CreateGridGeometry(Uint16Pair(3, 3)); + SaveGeometry(VisualFactoryCache::NINE_PATCH_GEOMETRY, geometry); + } + } + return geometry; +} + +Shader VisualFactoryCache::GetNPatchShader(int index) +{ + Shader shader; + const NPatchData* data; + // 0 is either no data (load failed?) or no stretch regions on image + // for both cases we use the default shader + NPatchUtility::StretchRanges::SizeType xStretchCount = 0; + NPatchUtility::StretchRanges::SizeType yStretchCount = 0; + + // ask loader for the regions + if(mNPatchLoader.GetNPatchData(mBrokenImageInfoContainer[index].npatchId, data)) + { + xStretchCount = data->GetStretchPixelsX().Count(); + yStretchCount = data->GetStretchPixelsY().Count(); + } + + if(DALI_LIKELY((xStretchCount == 0 && yStretchCount == 0) || (xStretchCount == 1 && yStretchCount == 1))) + { + shader = GetShader(VisualFactoryCache::NINE_PATCH_SHADER); + if(DALI_UNLIKELY(!shader)) + { + shader = Shader::New(SHADER_NPATCH_VISUAL_3X3_SHADER_VERT, SHADER_NPATCH_VISUAL_SHADER_FRAG); + + // Only cache vanilla 9 patch shaders + SaveShader(VisualFactoryCache::NINE_PATCH_SHADER, shader); + } + } + else if(xStretchCount > 0 || yStretchCount > 0) + { + std::stringstream vertexShader; + vertexShader << "#define FACTOR_SIZE_X " << xStretchCount + 2 << "\n" + << "#define FACTOR_SIZE_Y " << yStretchCount + 2 << "\n" + << SHADER_NPATCH_VISUAL_SHADER_VERT; + shader = Shader::New(vertexShader.str(), SHADER_NPATCH_VISUAL_SHADER_FRAG); + } + return shader; +} + +void VisualFactoryCache::ApplyTextureAndUniforms(Renderer& renderer, int index) +{ + const NPatchData* data; + TextureSet textureSet; + if(mNPatchLoader.GetNPatchData(mBrokenImageInfoContainer[index].npatchId, data) && data->GetLoadingState() == NPatchData::LoadingState::LOAD_COMPLETE) + { + textureSet = data->GetTextures(); + mBrokenImageInfoContainer[index].texture = textureSet.GetTexture(0); + NPatchHelper::ApplyTextureAndUniforms(renderer, data); + renderer.SetTextures(textureSet); + } +} + +void VisualFactoryCache::UpdateBrokenImageRenderer(Renderer& renderer, const Vector2& size, const bool& rendererIsImage) +{ + bool useDefaultBrokenImage = false; + if(mBrokenImageInfoContainer.size() == 0) + { + useDefaultBrokenImage = true; + } + + // Load Information for broken image + for(uint32_t index = 0; (index < mBrokenImageInfoContainer.size()) && !useDefaultBrokenImage; index++) + { + if(mBrokenImageInfoContainer[index].width == 0 && mBrokenImageInfoContainer[index].height == 0) + { + if(!mBrokenImageInfoContainer[index].url.empty()) + { + VisualUrl visualUrl(mBrokenImageInfoContainer[index].url); + mBrokenImageInfoContainer[index].visualType = visualUrl.GetType(); + if(mBrokenImageInfoContainer[index].visualType == VisualUrl::Type::N_PATCH) + { + const NPatchData* data; + Rect border; + mBrokenImageInfoContainer[index].npatchId = mNPatchLoader.Load(mTextureManager, NULL, mBrokenImageInfoContainer[index].url, border, mPreMultiplyOnLoad, true); + if(mNPatchLoader.GetNPatchData(mBrokenImageInfoContainer[index].npatchId, data) && data->GetLoadingState() == NPatchData::LoadingState::LOAD_COMPLETE) + { + mBrokenImageInfoContainer[index].width = data->GetCroppedWidth(); + mBrokenImageInfoContainer[index].height = data->GetCroppedHeight(); + } + else + { + DALI_LOG_ERROR("Can't update renderer for broken image. maybe image loading is failed [index:%d] [path:%s] \n", index, mBrokenImageInfoContainer[index].url.c_str()); + useDefaultBrokenImage = true; + } + } + else + { + if(!GetBrokenVisualImage(index)) + { + DALI_LOG_ERROR("Can't update renderer for broken image. maybe image loading is failed [index:%d] [path:%s] \n", index, mBrokenImageInfoContainer[index].url.c_str()); + useDefaultBrokenImage = true; + } + } + } + } + } + + if(!mUseDefaultBrokenImageOnly && useDefaultBrokenImage) + { + // Clear broken info + mBrokenImageInfoContainer.clear(); + + // assign for broken image + const int defaultBrokenIndex = 0; + mBrokenImageInfoContainer.assign(1, BrokenImageInfo()); + mBrokenImageInfoContainer[defaultBrokenIndex].url = mDefaultBrokenImageUrl; + VisualUrl visualUrl(mBrokenImageInfoContainer[defaultBrokenIndex].url); + mBrokenImageInfoContainer[defaultBrokenIndex].visualType = visualUrl.GetType(); + mUseDefaultBrokenImageOnly = true; + } + + // Set Texutre to renderer + int brokenIndex = GetProperBrokenImageIndex(size); + if(GetBrokenImageVisualType(brokenIndex) == VisualUrl::N_PATCH) + { + // Set geometry and shader for npatch + Geometry geometry = GetNPatchGeometry(brokenIndex); + Shader shader = GetNPatchShader(brokenIndex); + renderer.SetGeometry(geometry); + renderer.SetShader(shader); + ApplyTextureAndUniforms(renderer, brokenIndex); + } + else + { + // Create single image renderer only if rederer is not use normal ImageShader. i.e. npatch visual. + if(!rendererIsImage) + { + Geometry geometry = GetGeometry(QUAD_GEOMETRY); + Shader shader = GetShader(IMAGE_SHADER); + if(!shader) + { + std::string vertexShader = std::string(Dali::Shader::GetVertexShaderPrefix() + SHADER_IMAGE_VISUAL_SHADER_VERT.data()); + std::string fragmentShader = std::string(Dali::Shader::GetFragmentShaderPrefix() + SHADER_IMAGE_VISUAL_SHADER_FRAG.data()); + shader = Shader::New(vertexShader, fragmentShader); + shader.RegisterProperty(PIXEL_AREA_UNIFORM_NAME, FULL_TEXTURE_RECT); + SaveShader(IMAGE_SHADER, shader); + } + renderer.SetGeometry(geometry); + renderer.SetShader(shader); + } + Texture brokenImage = GetBrokenVisualImage(brokenIndex); + TextureSet textureSet = TextureSet::New(); + textureSet.SetTexture(0u, brokenImage); + renderer.SetTextures(textureSet); + } +} + +int32_t VisualFactoryCache::GetProperBrokenImageIndex(const Vector2& size) +{ + // Sets the default broken type + int32_t returnIndex = 0; + if((size.width == 0 || size.height == 0) || mUseDefaultBrokenImageOnly) + { + // To do : Need to add observer about size + return returnIndex; + } + + // Find the proper value if we know the size of the image + for(int32_t index = static_cast(mBrokenImageInfoContainer.size()) - 1; index >= 0; index--) + { + // Skip if the value is not set + if(mBrokenImageInfoContainer[index].width == 0 || mBrokenImageInfoContainer[index].height == 0) + { + continue; + } + + if(mBrokenImageInfoContainer[index].width < size.width && mBrokenImageInfoContainer[index].height < size.height) + { + returnIndex = index; + break; + } } - mAtlasManager->SetBrokenImage(mBrokenImageUrl); + return returnIndex; } } // namespace Internal