kc3-lang/angle/src/libANGLE/renderer/vulkan/TextureVk.cpp
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Hash : 08146a27
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Date : 2019-05-17T10:40:44
Remove non-source sources from binary targets No behavior changes. BUG=chromium:964411 Change-Id: I843757e65f110882c01514fe6bf4aed28e07dd21 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/1617011 Commit-Queue: Jamie Madill <jmadill@chromium.org> Reviewed-by: Jamie Madill <jmadill@chromium.org>
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src/libANGLE/renderer/vulkan/TextureVk.cpp
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// // Copyright 2016 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // TextureVk.cpp: // Implements the class methods for TextureVk. // #include "libANGLE/renderer/vulkan/TextureVk.h" #include "common/debug.h" #include "image_util/generatemip.inc" #include "libANGLE/Config.h" #include "libANGLE/Context.h" #include "libANGLE/Image.h" #include "libANGLE/MemoryObject.h" #include "libANGLE/Surface.h" #include "libANGLE/renderer/vulkan/ContextVk.h" #include "libANGLE/renderer/vulkan/FramebufferVk.h" #include "libANGLE/renderer/vulkan/ImageVk.h" #include "libANGLE/renderer/vulkan/MemoryObjectVk.h" #include "libANGLE/renderer/vulkan/RendererVk.h" #include "libANGLE/renderer/vulkan/SurfaceVk.h" #include "libANGLE/renderer/vulkan/vk_format_utils.h" #include "third_party/trace_event/trace_event.h" namespace rx { namespace { constexpr VkImageUsageFlags kDrawStagingImageFlags = VK_IMAGE_USAGE_TRANSFER_SRC_BIT | VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT; constexpr VkImageUsageFlags kTransferStagingImageFlags = VK_IMAGE_USAGE_TRANSFER_SRC_BIT | VK_IMAGE_USAGE_TRANSFER_DST_BIT; constexpr VkFormatFeatureFlags kBlitFeatureFlags = VK_FORMAT_FEATURE_BLIT_SRC_BIT | VK_FORMAT_FEATURE_BLIT_DST_BIT; bool CanCopyWithTransfer(RendererVk *renderer, const vk::Format &srcFormat, const vk::Format &destFormat) { // NOTE(syoussefi): technically, you can transfer between formats as long as they have the same // size and are compatible, but for now, let's just support same-format copies with transfer. return srcFormat.internalFormat == destFormat.internalFormat && renderer->hasImageFormatFeatureBits(srcFormat.vkImageFormat, VK_FORMAT_FEATURE_TRANSFER_SRC_BIT) && renderer->hasImageFormatFeatureBits(destFormat.vkImageFormat, VK_FORMAT_FEATURE_TRANSFER_DST_BIT); } bool CanCopyWithDraw(RendererVk *renderer, const vk::Format &srcFormat, const vk::Format &destFormat) { return renderer->hasImageFormatFeatureBits(srcFormat.vkImageFormat, VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT) && renderer->hasImageFormatFeatureBits(destFormat.vkImageFormat, VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT); } bool ForceCpuPathForCopy(RendererVk *renderer, vk::ImageHelper *image) { return image->getLayerCount() > 1 && renderer->getFeatures().forceCpuPathForCubeMapCopy.enabled; } gl::TextureType Get2DTextureType(uint32_t layerCount, GLint samples) { if (layerCount > 1) { if (samples > 1) { return gl::TextureType::_2DMultisampleArray; } else { return gl::TextureType::_2DArray; } } else { if (samples > 1) { return gl::TextureType::_2DMultisample; } else { return gl::TextureType::_2D; } } } } // anonymous namespace angle::Result TextureVk::generateMipmapLevelsWithCPU(ContextVk *contextVk, const angle::Format &sourceFormat, GLuint layer, GLuint firstMipLevel, GLuint maxMipLevel, const size_t sourceWidth, const size_t sourceHeight, const size_t sourceRowPitch, uint8_t *sourceData) { size_t previousLevelWidth = sourceWidth; size_t previousLevelHeight = sourceHeight; uint8_t *previousLevelData = sourceData; size_t previousLevelRowPitch = sourceRowPitch; for (GLuint currentMipLevel = firstMipLevel; currentMipLevel <= maxMipLevel; currentMipLevel++) { // Compute next level width and height. size_t mipWidth = std::max<size_t>(1, previousLevelWidth >> 1); size_t mipHeight = std::max<size_t>(1, previousLevelHeight >> 1); // With the width and height of the next mip, we can allocate the next buffer we need. uint8_t *destData = nullptr; size_t destRowPitch = mipWidth * sourceFormat.pixelBytes; size_t mipAllocationSize = destRowPitch * mipHeight; gl::Extents mipLevelExtents(static_cast<int>(mipWidth), static_cast<int>(mipHeight), 1); ANGLE_TRY(mImage->stageSubresourceUpdateAndGetData( contextVk, mipAllocationSize, gl::ImageIndex::MakeFromType(mState.getType(), currentMipLevel, layer), mipLevelExtents, gl::Offset(), &destData)); // Generate the mipmap into that new buffer sourceFormat.mipGenerationFunction(previousLevelWidth, previousLevelHeight, 1, previousLevelData, previousLevelRowPitch, 0, destData, destRowPitch, 0); // Swap for the next iteration previousLevelWidth = mipWidth; previousLevelHeight = mipHeight; previousLevelData = destData; previousLevelRowPitch = destRowPitch; } return angle::Result::Continue; } // TextureVk implementation. TextureVk::TextureVk(const gl::TextureState &state, RendererVk *renderer) : TextureImpl(state), mOwnsImage(false), mImage(nullptr) {} TextureVk::~TextureVk() = default; void TextureVk::onDestroy(const gl::Context *context) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); releaseAndDeleteImage(context, renderer); renderer->releaseObject(renderer->getCurrentQueueSerial(), &mSampler); } angle::Result TextureVk::setImage(const gl::Context *context, const gl::ImageIndex &index, GLenum internalFormat, const gl::Extents &size, GLenum format, GLenum type, const gl::PixelUnpackState &unpack, const uint8_t *pixels) { const gl::InternalFormat &formatInfo = gl::GetInternalFormatInfo(internalFormat, type); return setImageImpl(context, index, formatInfo, size, type, unpack, pixels); } angle::Result TextureVk::setSubImage(const gl::Context *context, const gl::ImageIndex &index, const gl::Box &area, GLenum format, GLenum type, const gl::PixelUnpackState &unpack, gl::Buffer *unpackBuffer, const uint8_t *pixels) { const gl::InternalFormat &formatInfo = gl::GetInternalFormatInfo(format, type); ContextVk *contextVk = vk::GetImpl(context); const gl::ImageDesc &levelDesc = mState.getImageDesc(index); const vk::Format &vkFormat = contextVk->getRenderer()->getFormat(levelDesc.format.info->sizedInternalFormat); return setSubImageImpl(context, index, area, formatInfo, type, unpack, pixels, vkFormat); } angle::Result TextureVk::setCompressedImage(const gl::Context *context, const gl::ImageIndex &index, GLenum internalFormat, const gl::Extents &size, const gl::PixelUnpackState &unpack, size_t imageSize, const uint8_t *pixels) { const gl::InternalFormat &formatInfo = gl::GetSizedInternalFormatInfo(internalFormat); return setImageImpl(context, index, formatInfo, size, GL_UNSIGNED_BYTE, unpack, pixels); } angle::Result TextureVk::setCompressedSubImage(const gl::Context *context, const gl::ImageIndex &index, const gl::Box &area, GLenum format, const gl::PixelUnpackState &unpack, size_t imageSize, const uint8_t *pixels) { const gl::InternalFormat &formatInfo = gl::GetInternalFormatInfo(format, GL_UNSIGNED_BYTE); ContextVk *contextVk = vk::GetImpl(context); const gl::ImageDesc &levelDesc = mState.getImageDesc(index); const vk::Format &vkFormat = contextVk->getRenderer()->getFormat(levelDesc.format.info->sizedInternalFormat); return setSubImageImpl(context, index, area, formatInfo, GL_UNSIGNED_BYTE, unpack, pixels, vkFormat); } angle::Result TextureVk::setImageImpl(const gl::Context *context, const gl::ImageIndex &index, const gl::InternalFormat &formatInfo, const gl::Extents &size, GLenum type, const gl::PixelUnpackState &unpack, const uint8_t *pixels) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); const vk::Format &vkFormat = renderer->getFormat(formatInfo.sizedInternalFormat); ANGLE_TRY(redefineImage(context, index, vkFormat, size)); // Early-out on empty textures, don't create a zero-sized storage. if (size.empty()) { return angle::Result::Continue; } return setSubImageImpl(context, index, gl::Box(0, 0, 0, size.width, size.height, size.depth), formatInfo, type, unpack, pixels, vkFormat); } angle::Result TextureVk::setSubImageImpl(const gl::Context *context, const gl::ImageIndex &index, const gl::Box &area, const gl::InternalFormat &formatInfo, GLenum type, const gl::PixelUnpackState &unpack, const uint8_t *pixels, const vk::Format &vkFormat) { ContextVk *contextVk = vk::GetImpl(context); if (pixels) { ANGLE_TRY(mImage->stageSubresourceUpdate( contextVk, getNativeImageIndex(index), gl::Extents(area.width, area.height, area.depth), gl::Offset(area.x, area.y, area.z), formatInfo, unpack, type, pixels, vkFormat)); // Create a new graph node to store image initialization commands. mImage->finishCurrentCommands(contextVk->getRenderer()); } return angle::Result::Continue; } angle::Result TextureVk::copyImage(const gl::Context *context, const gl::ImageIndex &index, const gl::Rectangle &sourceArea, GLenum internalFormat, gl::Framebuffer *source) { RendererVk *renderer = vk::GetImpl(context)->getRenderer(); gl::Extents newImageSize(sourceArea.width, sourceArea.height, 1); const gl::InternalFormat &internalFormatInfo = gl::GetInternalFormatInfo(internalFormat, GL_UNSIGNED_BYTE); const vk::Format &vkFormat = renderer->getFormat(internalFormatInfo.sizedInternalFormat); ANGLE_TRY(redefineImage(context, index, vkFormat, newImageSize)); return copySubImageImpl(context, index, gl::Offset(0, 0, 0), sourceArea, internalFormatInfo, source); } angle::Result TextureVk::copySubImage(const gl::Context *context, const gl::ImageIndex &index, const gl::Offset &destOffset, const gl::Rectangle &sourceArea, gl::Framebuffer *source) { const gl::InternalFormat ¤tFormat = *mState.getImageDesc(index).format.info; return copySubImageImpl(context, index, destOffset, sourceArea, currentFormat, source); } angle::Result TextureVk::copyTexture(const gl::Context *context, const gl::ImageIndex &index, GLenum internalFormat, GLenum type, size_t sourceLevel, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, const gl::Texture *source) { RendererVk *renderer = vk::GetImpl(context)->getRenderer(); TextureVk *sourceVk = vk::GetImpl(source); const gl::ImageDesc &sourceImageDesc = sourceVk->mState.getImageDesc(NonCubeTextureTypeToTarget(source->getType()), sourceLevel); gl::Rectangle sourceArea(0, 0, sourceImageDesc.size.width, sourceImageDesc.size.height); const gl::InternalFormat &destFormatInfo = gl::GetInternalFormatInfo(internalFormat, type); const vk::Format &destVkFormat = renderer->getFormat(destFormatInfo.sizedInternalFormat); ANGLE_TRY(redefineImage(context, index, destVkFormat, sourceImageDesc.size)); return copySubTextureImpl(vk::GetImpl(context), index, gl::kOffsetZero, destFormatInfo, sourceLevel, sourceArea, unpackFlipY, unpackPremultiplyAlpha, unpackUnmultiplyAlpha, sourceVk); } angle::Result TextureVk::copySubTexture(const gl::Context *context, const gl::ImageIndex &index, const gl::Offset &destOffset, size_t sourceLevel, const gl::Box &sourceBox, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, const gl::Texture *source) { gl::TextureTarget target = index.getTarget(); size_t level = static_cast<size_t>(index.getLevelIndex()); const gl::InternalFormat &destFormatInfo = *mState.getImageDesc(target, level).format.info; return copySubTextureImpl(vk::GetImpl(context), index, destOffset, destFormatInfo, sourceLevel, sourceBox.toRect(), unpackFlipY, unpackPremultiplyAlpha, unpackUnmultiplyAlpha, vk::GetImpl(source)); } angle::Result TextureVk::copyCompressedTexture(const gl::Context *context, const gl::Texture *source) { ContextVk *contextVk = vk::GetImpl(context); TextureVk *sourceVk = vk::GetImpl(source); gl::TextureTarget sourceTarget = NonCubeTextureTypeToTarget(source->getType()); constexpr GLint sourceLevel = 0; constexpr GLint destLevel = 0; const gl::InternalFormat &internalFormat = *source->getFormat(sourceTarget, sourceLevel).info; const vk::Format &vkFormat = contextVk->getRenderer()->getFormat(internalFormat.sizedInternalFormat); const gl::Extents size(static_cast<int>(source->getWidth(sourceTarget, sourceLevel)), static_cast<int>(source->getHeight(sourceTarget, sourceLevel)), 1); const gl::ImageIndex destIndex = gl::ImageIndex::MakeFromTarget(sourceTarget, destLevel); ANGLE_TRY(redefineImage(context, destIndex, vkFormat, size)); ANGLE_TRY(sourceVk->ensureImageInitialized(contextVk)); return copySubImageImplWithTransfer(contextVk, destIndex, gl::Offset(0, 0, 0), vkFormat, sourceLevel, gl::Rectangle(0, 0, size.width, size.height), &sourceVk->getImage()); } angle::Result TextureVk::copySubImageImpl(const gl::Context *context, const gl::ImageIndex &index, const gl::Offset &destOffset, const gl::Rectangle &sourceArea, const gl::InternalFormat &internalFormat, gl::Framebuffer *source) { gl::Extents fbSize = source->getReadColorbuffer()->getSize(); gl::Rectangle clippedSourceArea; if (!ClipRectangle(sourceArea, gl::Rectangle(0, 0, fbSize.width, fbSize.height), &clippedSourceArea)) { return angle::Result::Continue; } ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); FramebufferVk *framebufferVk = vk::GetImpl(source); const gl::ImageIndex offsetImageIndex = getNativeImageIndex(index); // If negative offsets are given, clippedSourceArea ensures we don't read from those offsets. // However, that changes the sourceOffset->destOffset mapping. Here, destOffset is shifted by // the same amount as clipped to correct the error. // // TODO(syoussefi): a bug here is that we need to clip the extents to make sure the copy // region does not overflow the image size. For example, if an FBO of size 16x16 is used as // source and glCopyTexImage2D(..., -8, -8, 16, 16, ...) is used, then we will be copying to // the region expanding from (8, 8) through (23, 23), while the image is only 16x16. // http://anglebug.com/3355 const gl::Offset modifiedDestOffset(destOffset.x + clippedSourceArea.x - sourceArea.x, destOffset.y + clippedSourceArea.y - sourceArea.y, 0); RenderTargetVk *colorReadRT = framebufferVk->getColorReadRenderTarget(); ANGLE_TRY(colorReadRT->ensureImageInitialized(contextVk)); const vk::Format &srcFormat = colorReadRT->getImageFormat(); const vk::Format &destFormat = renderer->getFormat(internalFormat.sizedInternalFormat); bool isViewportFlipY = contextVk->isViewportFlipEnabledForDrawFBO(); // If it's possible to perform the copy with a transfer, that's the best option. if (!isViewportFlipY && CanCopyWithTransfer(renderer, srcFormat, destFormat)) { return copySubImageImplWithTransfer(contextVk, offsetImageIndex, modifiedDestOffset, destFormat, 0, clippedSourceArea, &colorReadRT->getImage()); } bool forceCpuPath = ForceCpuPathForCopy(renderer, mImage); // If it's possible to perform the copy with a draw call, do that. if (CanCopyWithDraw(renderer, srcFormat, destFormat) && !forceCpuPath) { // Layer count can only be 1 as the source is a framebuffer. ASSERT(offsetImageIndex.getLayerCount() == 1); return copySubImageImplWithDraw(contextVk, offsetImageIndex, modifiedDestOffset, destFormat, 0, colorReadRT->getLayerIndex(), clippedSourceArea, isViewportFlipY, false, false, false, &colorReadRT->getImage(), colorReadRT->getReadImageView()); } // Do a CPU readback that does the conversion, and then stage the change to the pixel buffer. ANGLE_TRY(mImage->stageSubresourceUpdateFromFramebuffer( context, offsetImageIndex, clippedSourceArea, modifiedDestOffset, gl::Extents(clippedSourceArea.width, clippedSourceArea.height, 1), internalFormat, framebufferVk)); mImage->finishCurrentCommands(renderer); framebufferVk->getFramebuffer()->addReadDependency(mImage); return angle::Result::Continue; } angle::Result TextureVk::copySubTextureImpl(ContextVk *contextVk, const gl::ImageIndex &index, const gl::Offset &destOffset, const gl::InternalFormat &destFormat, size_t sourceLevel, const gl::Rectangle &sourceArea, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, TextureVk *source) { RendererVk *renderer = contextVk->getRenderer(); ANGLE_TRY(source->ensureImageInitialized(contextVk)); const vk::Format &sourceVkFormat = source->getImage().getFormat(); const vk::Format &destVkFormat = renderer->getFormat(destFormat.sizedInternalFormat); const gl::ImageIndex offsetImageIndex = getNativeImageIndex(index); // If it's possible to perform the copy with a transfer, that's the best option. if (!unpackFlipY && !unpackPremultiplyAlpha && !unpackUnmultiplyAlpha && CanCopyWithTransfer(renderer, sourceVkFormat, destVkFormat)) { return copySubImageImplWithTransfer(contextVk, offsetImageIndex, destOffset, destVkFormat, sourceLevel, sourceArea, &source->getImage()); } bool forceCpuPath = ForceCpuPathForCopy(renderer, mImage); // If it's possible to perform the copy with a draw call, do that. if (CanCopyWithDraw(renderer, sourceVkFormat, destVkFormat) && !forceCpuPath) { return copySubImageImplWithDraw(contextVk, offsetImageIndex, destOffset, destVkFormat, sourceLevel, 0, sourceArea, false, unpackFlipY, unpackPremultiplyAlpha, unpackUnmultiplyAlpha, &source->getImage(), &source->getReadImageView()); } if (sourceLevel != 0) { WARN() << "glCopyTextureCHROMIUM with sourceLevel != 0 not implemented."; return angle::Result::Stop; } // Read back the requested region of the source texture uint8_t *sourceData = nullptr; ANGLE_TRY(source->copyImageDataToBuffer(contextVk, sourceLevel, 1, sourceArea, &sourceData)); const angle::Format &sourceTextureFormat = sourceVkFormat.imageFormat(); const angle::Format &destTextureFormat = destVkFormat.imageFormat(); size_t destinationAllocationSize = sourceArea.width * sourceArea.height * destTextureFormat.pixelBytes; // Allocate memory in the destination texture for the copy/conversion uint8_t *destData = nullptr; ANGLE_TRY(mImage->stageSubresourceUpdateAndGetData( contextVk, destinationAllocationSize, offsetImageIndex, gl::Extents(sourceArea.width, sourceArea.height, 1), destOffset, &destData)); // Source and dest data is tightly packed GLuint sourceDataRowPitch = sourceArea.width * sourceTextureFormat.pixelBytes; GLuint destDataRowPitch = sourceArea.width * destTextureFormat.pixelBytes; rx::PixelReadFunction pixelReadFunction = sourceTextureFormat.pixelReadFunction; rx::PixelWriteFunction pixelWriteFunction = destTextureFormat.pixelWriteFunction; // Fix up the read/write functions for the sake of luminance/alpha that are emulated with // formats whose channels don't correspond to the original format (alpha is emulated with red, // and luminance/alpha is emulated with red/green). if (sourceVkFormat.angleFormat().isLUMA()) { pixelReadFunction = sourceVkFormat.angleFormat().pixelReadFunction; } if (destVkFormat.angleFormat().isLUMA()) { pixelWriteFunction = destVkFormat.angleFormat().pixelWriteFunction; } CopyImageCHROMIUM(sourceData, sourceDataRowPitch, sourceTextureFormat.pixelBytes, 0, pixelReadFunction, destData, destDataRowPitch, destTextureFormat.pixelBytes, 0, pixelWriteFunction, destFormat.format, destFormat.componentType, sourceArea.width, sourceArea.height, 1, unpackFlipY, unpackPremultiplyAlpha, unpackUnmultiplyAlpha); // Create a new graph node to store image initialization commands. mImage->finishCurrentCommands(contextVk->getRenderer()); return angle::Result::Continue; } angle::Result TextureVk::copySubImageImplWithTransfer(ContextVk *contextVk, const gl::ImageIndex &index, const gl::Offset &destOffset, const vk::Format &destFormat, size_t sourceLevel, const gl::Rectangle &sourceArea, vk::ImageHelper *srcImage) { RendererVk *renderer = contextVk->getRenderer(); uint32_t level = index.getLevelIndex(); uint32_t baseLayer = index.hasLayer() ? index.getLayerIndex() : 0; uint32_t layerCount = index.getLayerCount(); gl::Offset srcOffset = {sourceArea.x, sourceArea.y, 0}; gl::Extents extents = {sourceArea.width, sourceArea.height, 1}; // Change source layout if necessary if (srcImage->isLayoutChangeNecessary(vk::ImageLayout::TransferSrc)) { vk::CommandBuffer *srcLayoutChange; ANGLE_TRY(srcImage->recordCommands(contextVk, &srcLayoutChange)); srcImage->changeLayout(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::TransferSrc, srcLayoutChange); } VkImageSubresourceLayers srcSubresource = {}; srcSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT; srcSubresource.mipLevel = sourceLevel; srcSubresource.baseArrayLayer = 0; srcSubresource.layerCount = layerCount; // If destination is valid, copy the source directly into it. if (mImage->valid()) { // Make sure any updates to the image are already flushed. ANGLE_TRY(ensureImageInitialized(contextVk)); vk::CommandBuffer *commandBuffer; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); // Change the image layout before the transfer mImage->changeLayout(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::TransferDst, commandBuffer); // Source's layout change should happen before the copy srcImage->addReadDependency(mImage); VkImageSubresourceLayers destSubresource = srcSubresource; destSubresource.mipLevel = level; destSubresource.baseArrayLayer = baseLayer; vk::ImageHelper::Copy(srcImage, mImage, srcOffset, destOffset, extents, srcSubresource, destSubresource, commandBuffer); } else { std::unique_ptr<vk::ImageHelper> stagingImage; // Create a temporary image to stage the copy stagingImage = std::make_unique<vk::ImageHelper>(); ANGLE_TRY(stagingImage->init2DStaging(contextVk, renderer->getMemoryProperties(), gl::Extents(sourceArea.width, sourceArea.height, 1), destFormat, kTransferStagingImageFlags, layerCount)); vk::CommandBuffer *commandBuffer; ANGLE_TRY(stagingImage->recordCommands(contextVk, &commandBuffer)); // Change the image layout before the transfer stagingImage->changeLayout(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::TransferDst, commandBuffer); // Source's layout change should happen before the copy srcImage->addReadDependency(stagingImage.get()); VkImageSubresourceLayers destSubresource = srcSubresource; destSubresource.mipLevel = 0; vk::ImageHelper::Copy(srcImage, stagingImage.get(), srcOffset, gl::Offset(), extents, srcSubresource, destSubresource, commandBuffer); // Stage the copy for when the image storage is actually created. mImage->stageSubresourceUpdateFromImage(stagingImage.release(), index, destOffset, extents); } return angle::Result::Continue; } angle::Result TextureVk::copySubImageImplWithDraw(ContextVk *contextVk, const gl::ImageIndex &index, const gl::Offset &destOffset, const vk::Format &destFormat, size_t sourceLevel, size_t sourceLayer, const gl::Rectangle &sourceArea, bool isSrcFlipY, bool unpackFlipY, bool unpackPremultiplyAlpha, bool unpackUnmultiplyAlpha, vk::ImageHelper *srcImage, const vk::ImageView *srcView) { RendererVk *renderer = contextVk->getRenderer(); UtilsVk &utilsVk = renderer->getUtils(); Serial currentQueueSerial = renderer->getCurrentQueueSerial(); UtilsVk::CopyImageParameters params; params.srcOffset[0] = sourceArea.x; params.srcOffset[1] = sourceArea.y; params.srcExtents[0] = sourceArea.width; params.srcExtents[1] = sourceArea.height; params.destOffset[0] = destOffset.x; params.destOffset[1] = destOffset.y; params.srcMip = sourceLevel; params.srcHeight = srcImage->getExtents().height; params.srcPremultiplyAlpha = unpackPremultiplyAlpha && !unpackUnmultiplyAlpha; params.srcUnmultiplyAlpha = unpackUnmultiplyAlpha && !unpackPremultiplyAlpha; params.srcFlipY = isSrcFlipY; params.destFlipY = unpackFlipY; uint32_t level = index.getLevelIndex(); uint32_t baseLayer = index.hasLayer() ? index.getLayerIndex() : 0; uint32_t layerCount = index.getLayerCount(); // If the source image is a cube map, the view is of VK_IMAGE_VIEW_TYPE_CUBE type. However, // GLSL's texelFetch cannot take a textureCube. We need to create a 2D_ARRAY type view to be // able to perform the copy. // // Note(syoussefi): Array textures are not yet supported in Vulkan. Once they are, the if below // should be changed to detect cube maps only. vk::ImageView cubeAs2DArrayView; if (srcImage->getLayerCount() % 6 == 0) { // TODO(syoussefi): If the cube map is LUMA, we need swizzle. http://anglebug.com/2911 // This can't happen when copying from framebuffers, so only source of concern would be // copy[Sub]Texture copying from a LUMA cube map. ASSERT(!srcImage->getFormat().imageFormat().isLUMA()); gl::TextureType arrayTextureType = Get2DTextureType(srcImage->getLayerCount(), srcImage->getSamples()); ANGLE_TRY(srcImage->initImageView(contextVk, arrayTextureType, VK_IMAGE_ASPECT_COLOR_BIT, gl::SwizzleState(), &cubeAs2DArrayView, 0, srcImage->getLevelCount())); srcView = &cubeAs2DArrayView; } else { // Source layer is otherwise baked into the view sourceLayer = 0; } // If destination is valid, copy the source directly into it. if (mImage->valid()) { // Make sure any updates to the image are already flushed. ANGLE_TRY(ensureImageInitialized(contextVk)); for (uint32_t layerIndex = 0; layerIndex < layerCount; ++layerIndex) { params.srcLayer = sourceLayer + layerIndex; vk::ImageView *destView; ANGLE_TRY( getLayerLevelDrawImageView(contextVk, baseLayer + layerIndex, level, &destView)); ANGLE_TRY(utilsVk.copyImage(contextVk, mImage, destView, srcImage, srcView, params)); } } else { std::unique_ptr<vk::ImageHelper> stagingImage; GLint samples = srcImage->getSamples(); gl::TextureType stagingTextureType = Get2DTextureType(layerCount, samples); // Create a temporary image to stage the copy stagingImage = std::make_unique<vk::ImageHelper>(); ANGLE_TRY(stagingImage->init2DStaging(contextVk, renderer->getMemoryProperties(), gl::Extents(sourceArea.width, sourceArea.height, 1), destFormat, kDrawStagingImageFlags, layerCount)); params.destOffset[0] = 0; params.destOffset[1] = 0; for (uint32_t layerIndex = 0; layerIndex < layerCount; ++layerIndex) { params.srcLayer = sourceLayer + layerIndex; // Create a temporary view for this layer. vk::ImageView stagingView; ANGLE_TRY(stagingImage->initLayerImageView( contextVk, stagingTextureType, VK_IMAGE_ASPECT_COLOR_BIT, gl::SwizzleState(), &stagingView, 0, 1, layerIndex, 1)); ANGLE_TRY(utilsVk.copyImage(contextVk, stagingImage.get(), &stagingView, srcImage, srcView, params)); // Queue the resource for cleanup as soon as the copy above is finished. There's no // need to keep it around. renderer->releaseObject(currentQueueSerial, &stagingView); } // Stage the copy for when the image storage is actually created. mImage->stageSubresourceUpdateFromImage( stagingImage.release(), index, destOffset, gl::Extents(sourceArea.width, sourceArea.height, 1)); } if (cubeAs2DArrayView.valid()) { renderer->releaseObject(currentQueueSerial, &cubeAs2DArrayView); } return angle::Result::Continue; } angle::Result TextureVk::setStorage(const gl::Context *context, gl::TextureType type, size_t levels, GLenum internalFormat, const gl::Extents &size) { ContextVk *contextVk = GetAs<ContextVk>(context->getImplementation()); RendererVk *renderer = contextVk->getRenderer(); if (!mOwnsImage) { releaseAndDeleteImage(context, renderer); } const vk::Format &format = renderer->getFormat(internalFormat); ANGLE_TRY(ensureImageAllocated(renderer, format)); vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); if (mImage->valid()) { releaseImage(renderer); } ANGLE_TRY(initImage(contextVk, format, size, static_cast<uint32_t>(levels), commandBuffer)); return angle::Result::Continue; } angle::Result TextureVk::setStorageExternalMemory(const gl::Context *context, gl::TextureType type, size_t levels, GLenum internalFormat, const gl::Extents &size, gl::MemoryObject *memoryObject, GLuint64 offset) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); MemoryObjectVk *memoryObjectVk = vk::GetImpl(memoryObject); releaseAndDeleteImage(context, renderer); const vk::Format &format = renderer->getFormat(internalFormat); setImageHelper(renderer, new vk::ImageHelper(), mState.getType(), format, 0, 0, true); ANGLE_TRY( memoryObjectVk->createImage(context, type, levels, internalFormat, size, offset, mImage)); ANGLE_TRY(initImageViews(contextVk, format, levels)); // TODO(spang): This needs to be reworked when semaphores are added. // http://anglebug.com/3289 uint32_t rendererQueueFamilyIndex = renderer->getQueueFamilyIndex(); if (mImage->isQueueChangeNeccesary(rendererQueueFamilyIndex)) { vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); mImage->changeLayoutAndQueue(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::FragmentShaderReadOnly, rendererQueueFamilyIndex, commandBuffer); } return angle::Result::Continue; } angle::Result TextureVk::setEGLImageTarget(const gl::Context *context, gl::TextureType type, egl::Image *image) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); releaseAndDeleteImage(context, renderer); const vk::Format &format = renderer->getFormat(image->getFormat().info->sizedInternalFormat); ImageVk *imageVk = vk::GetImpl(image); setImageHelper(renderer, imageVk->getImage(), imageVk->getImageTextureType(), format, imageVk->getImageLevel(), imageVk->getImageLayer(), false); ANGLE_TRY(initImageViews(contextVk, format, 1)); // Transfer the image to this queue if needed uint32_t rendererQueueFamilyIndex = renderer->getQueueFamilyIndex(); if (mImage->isQueueChangeNeccesary(rendererQueueFamilyIndex)) { vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); mImage->changeLayoutAndQueue(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::FragmentShaderReadOnly, rendererQueueFamilyIndex, commandBuffer); } return angle::Result::Continue; } angle::Result TextureVk::setImageExternal(const gl::Context *context, gl::TextureType type, egl::Stream *stream, const egl::Stream::GLTextureDescription &desc) { ANGLE_VK_UNREACHABLE(vk::GetImpl(context)); return angle::Result::Stop; } gl::ImageIndex TextureVk::getNativeImageIndex(const gl::ImageIndex &inputImageIndex) const { // The input index can be a specific layer (for cube maps, 2d arrays, etc) or mImageLayerOffset // can be non-zero but both of these cannot be true at the same time. EGL images can source // from a cube map or 3D texture but can only be a 2D destination. ASSERT(!(inputImageIndex.hasLayer() && mImageLayerOffset > 0)); // handle the special-case where image index can represent a whole level of a texture GLint resultImageLayer = inputImageIndex.getLayerIndex(); if (inputImageIndex.getType() != mImageNativeType) { ASSERT(!inputImageIndex.hasLayer()); resultImageLayer = mImageLayerOffset; } return gl::ImageIndex::MakeFromType(mImageNativeType, getNativeImageLevel(inputImageIndex.getLevelIndex()), resultImageLayer, inputImageIndex.getLayerCount()); } uint32_t TextureVk::getNativeImageLevel(uint32_t frontendLevel) const { return mImageLevelOffset + frontendLevel; } uint32_t TextureVk::getNativeImageLayer(uint32_t frontendLayer) const { return mImageLayerOffset + frontendLayer; } void TextureVk::releaseAndDeleteImage(const gl::Context *context, RendererVk *renderer) { if (mImage) { releaseImage(renderer); releaseStagingBuffer(renderer); SafeDelete(mImage); } } angle::Result TextureVk::ensureImageAllocated(RendererVk *renderer, const vk::Format &format) { if (mImage == nullptr) { setImageHelper(renderer, new vk::ImageHelper(), mState.getType(), format, 0, 0, true); } else { updateImageHelper(renderer, format); } return angle::Result::Continue; } void TextureVk::setImageHelper(RendererVk *renderer, vk::ImageHelper *imageHelper, gl::TextureType imageType, const vk::Format &format, uint32_t imageLevelOffset, uint32_t imageLayerOffset, bool selfOwned) { ASSERT(mImage == nullptr); mOwnsImage = selfOwned; mImageNativeType = imageType; mImageLevelOffset = imageLevelOffset; mImageLayerOffset = imageLayerOffset; mImage = imageHelper; mImage->initStagingBuffer(renderer, format); mRenderTarget.init(mImage, &mDrawBaseLevelImageView, getNativeImageLevel(0), getNativeImageLayer(0), this); // Force re-creation of cube map render targets next time they are needed mCubeMapRenderTargets.clear(); } void TextureVk::updateImageHelper(RendererVk *renderer, const vk::Format &format) { ASSERT(mImage != nullptr); mImage->initStagingBuffer(renderer, format); } angle::Result TextureVk::redefineImage(const gl::Context *context, const gl::ImageIndex &index, const vk::Format &format, const gl::Extents &size) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); if (!mOwnsImage) { releaseAndDeleteImage(context, renderer); } if (mImage != nullptr) { // If there is any staged changes for this index, we can remove them since we're going to // override them with this call. mImage->removeStagedUpdates(renderer, index); if (mImage->valid()) { // Calculate the expected size for the index we are defining. If the size is different // from the given size, or the format is different, we are redefining the image so we // must release it. if (mImage->getFormat() != format || size != mImage->getSize(index)) { releaseImage(renderer); } } } if (!size.empty()) { ANGLE_TRY(ensureImageAllocated(renderer, format)); } return angle::Result::Continue; } angle::Result TextureVk::copyImageDataToBuffer(ContextVk *contextVk, size_t sourceLevel, uint32_t layerCount, const gl::Rectangle &sourceArea, uint8_t **outDataPtr) { TRACE_EVENT0("gpu.angle", "TextureVk::copyImageDataToBuffer"); // Make sure the source is initialized and it's images are flushed. ANGLE_TRY(ensureImageInitialized(contextVk)); const angle::Format &imageFormat = getImage().getFormat().imageFormat(); size_t sourceCopyAllocationSize = sourceArea.width * sourceArea.height * imageFormat.pixelBytes * layerCount; vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); // Requirement of the copyImageToBuffer, the source image must be in SRC_OPTIMAL layout. mImage->changeLayout(VK_IMAGE_ASPECT_COLOR_BIT, vk::ImageLayout::TransferSrc, commandBuffer); // Allocate enough memory to copy the sourceArea region of the source texture into its pixel // buffer. VkBuffer copyBufferHandle = VK_NULL_HANDLE; VkDeviceSize sourceCopyOffset = 0; ANGLE_TRY(mImage->allocateStagingMemory(contextVk, sourceCopyAllocationSize, outDataPtr, ©BufferHandle, &sourceCopyOffset, nullptr)); VkBufferImageCopy region = {}; region.bufferOffset = sourceCopyOffset; region.bufferRowLength = 0; region.bufferImageHeight = 0; region.imageExtent.width = sourceArea.width; region.imageExtent.height = sourceArea.height; region.imageExtent.depth = 1; region.imageOffset.x = sourceArea.x; region.imageOffset.y = sourceArea.y; region.imageOffset.z = 0; region.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT; region.imageSubresource.baseArrayLayer = 0; region.imageSubresource.layerCount = layerCount; region.imageSubresource.mipLevel = static_cast<uint32_t>(sourceLevel); commandBuffer->copyImageToBuffer(mImage->getImage(), mImage->getCurrentLayout(), copyBufferHandle, 1, ®ion); // Explicitly finish. If new use cases arise where we don't want to block we can change this. ANGLE_TRY(contextVk->finishImpl()); return angle::Result::Continue; } angle::Result TextureVk::generateMipmapsWithCPU(const gl::Context *context) { ContextVk *contextVk = vk::GetImpl(context); const gl::Extents baseLevelExtents = mImage->getExtents(); uint32_t imageLayerCount = mImage->getLayerCount(); uint8_t *imageData = nullptr; gl::Rectangle imageArea(0, 0, baseLevelExtents.width, baseLevelExtents.height); ANGLE_TRY(copyImageDataToBuffer(contextVk, mState.getEffectiveBaseLevel(), imageLayerCount, imageArea, &imageData)); const angle::Format &angleFormat = mImage->getFormat().imageFormat(); GLuint sourceRowPitch = baseLevelExtents.width * angleFormat.pixelBytes; size_t baseLevelAllocationSize = sourceRowPitch * baseLevelExtents.height; // We now have the base level available to be manipulated in the imageData pointer. Generate all // the missing mipmaps with the slow path. For each layer, use the copied data to generate all // the mips. for (GLuint layer = 0; layer < imageLayerCount; layer++) { size_t bufferOffset = layer * baseLevelAllocationSize; ANGLE_TRY(generateMipmapLevelsWithCPU( contextVk, angleFormat, layer, mState.getEffectiveBaseLevel() + 1, mState.getMipmapMaxLevel(), baseLevelExtents.width, baseLevelExtents.height, sourceRowPitch, imageData + bufferOffset)); } vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); return mImage->flushStagedUpdates(contextVk, getNativeImageLevel(0), mImage->getLevelCount(), getNativeImageLayer(0), mImage->getLayerCount(), commandBuffer); } angle::Result TextureVk::generateMipmap(const gl::Context *context) { ContextVk *contextVk = vk::GetImpl(context); // Some data is pending, or the image has not been defined at all yet if (!mImage->valid()) { // Let's initialize the image so we can generate the next levels. if (mImage->hasStagedUpdates()) { ANGLE_TRY(ensureImageInitialized(contextVk)); ASSERT(mImage->valid()); } else { // There is nothing to generate if there is nothing uploaded so far. return angle::Result::Continue; } } RendererVk *renderer = contextVk->getRenderer(); // Check if the image supports blit. If it does, we can do the mipmap generation on the gpu // only. if (renderer->hasImageFormatFeatureBits(mImage->getFormat().vkImageFormat, kBlitFeatureFlags)) { ANGLE_TRY(ensureImageInitialized(contextVk)); ANGLE_TRY(mImage->generateMipmapsWithBlit(contextVk, mState.getMipmapMaxLevel())); } else { ANGLE_TRY(generateMipmapsWithCPU(context)); } // We're changing this textureVk content, make sure we let the graph know. mImage->finishCurrentCommands(renderer); return angle::Result::Continue; } angle::Result TextureVk::setBaseLevel(const gl::Context *context, GLuint baseLevel) { ANGLE_VK_UNREACHABLE(vk::GetImpl(context)); return angle::Result::Stop; } angle::Result TextureVk::bindTexImage(const gl::Context *context, egl::Surface *surface) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); releaseAndDeleteImage(context, renderer); const vk::Format &format = renderer->getFormat(surface->getConfig()->renderTargetFormat); // eglBindTexImage can only be called with pbuffer (offscreen) surfaces OffscreenSurfaceVk *offscreenSurface = GetImplAs<OffscreenSurfaceVk>(surface); setImageHelper(renderer, offscreenSurface->getColorAttachmentImage(), mState.getType(), format, surface->getMipmapLevel(), 0, false); return initImageViews(contextVk, format, 1); } angle::Result TextureVk::releaseTexImage(const gl::Context *context) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); releaseImage(renderer); return angle::Result::Continue; } angle::Result TextureVk::getAttachmentRenderTarget(const gl::Context *context, GLenum binding, const gl::ImageIndex &imageIndex, FramebufferAttachmentRenderTarget **rtOut) { // Non-zero mip level attachments are an ES 3.0 feature. ASSERT(imageIndex.getLevelIndex() == 0); ContextVk *contextVk = vk::GetImpl(context); ANGLE_TRY(ensureImageInitialized(contextVk)); switch (imageIndex.getType()) { case gl::TextureType::_2D: *rtOut = &mRenderTarget; break; case gl::TextureType::CubeMap: ANGLE_TRY(initCubeMapRenderTargets(contextVk)); *rtOut = &mCubeMapRenderTargets[imageIndex.cubeMapFaceIndex()]; break; default: UNREACHABLE(); } return angle::Result::Continue; } angle::Result TextureVk::ensureImageInitialized(ContextVk *contextVk) { const gl::ImageDesc &baseLevelDesc = mState.getBaseLevelDesc(); const gl::Extents &baseLevelExtents = baseLevelDesc.size; const uint32_t levelCount = getLevelCount(); const vk::Format &format = contextVk->getRenderer()->getFormat(baseLevelDesc.format.info->sizedInternalFormat); return ensureImageInitializedImpl(contextVk, baseLevelExtents, levelCount, format); } angle::Result TextureVk::ensureImageInitializedImpl(ContextVk *contextVk, const gl::Extents &baseLevelExtents, uint32_t levelCount, const vk::Format &format) { if (mImage->valid() && !mImage->hasStagedUpdates()) { return angle::Result::Continue; } vk::CommandBuffer *commandBuffer = nullptr; ANGLE_TRY(mImage->recordCommands(contextVk, &commandBuffer)); if (!mImage->valid()) { ANGLE_TRY(initImage(contextVk, format, baseLevelExtents, levelCount, commandBuffer)); } return mImage->flushStagedUpdates(contextVk, getNativeImageLevel(0), mImage->getLevelCount(), getNativeImageLayer(0), mImage->getLayerCount(), commandBuffer); } angle::Result TextureVk::initCubeMapRenderTargets(ContextVk *contextVk) { // Lazy init. Check if already initialized. if (!mCubeMapRenderTargets.empty()) return angle::Result::Continue; mCubeMapRenderTargets.resize(gl::kCubeFaceCount); for (size_t cubeMapFaceIndex = 0; cubeMapFaceIndex < gl::kCubeFaceCount; ++cubeMapFaceIndex) { vk::ImageView *imageView; ANGLE_TRY(getLayerLevelDrawImageView(contextVk, cubeMapFaceIndex, 0, &imageView)); mCubeMapRenderTargets[cubeMapFaceIndex].init(mImage, imageView, getNativeImageLevel(0), getNativeImageLayer(cubeMapFaceIndex), this); } return angle::Result::Continue; } angle::Result TextureVk::syncState(const gl::Context *context, const gl::Texture::DirtyBits &dirtyBits) { if (dirtyBits.none() && mSampler.valid()) { return angle::Result::Continue; } ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); if (mSampler.valid()) { renderer->releaseObject(renderer->getCurrentQueueSerial(), &mSampler); } const gl::Extensions &extensions = renderer->getNativeExtensions(); const gl::SamplerState &samplerState = mState.getSamplerState(); float maxAnisotropy = samplerState.getMaxAnisotropy(); bool anisotropyEnable = extensions.textureFilterAnisotropic && maxAnisotropy > 1.0f; // Create a simple sampler. Force basic parameter settings. VkSamplerCreateInfo samplerInfo = {}; samplerInfo.sType = VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO; samplerInfo.flags = 0; samplerInfo.magFilter = gl_vk::GetFilter(samplerState.getMagFilter()); samplerInfo.minFilter = gl_vk::GetFilter(samplerState.getMinFilter()); samplerInfo.mipmapMode = gl_vk::GetSamplerMipmapMode(samplerState.getMinFilter()); samplerInfo.addressModeU = gl_vk::GetSamplerAddressMode(samplerState.getWrapS()); samplerInfo.addressModeV = gl_vk::GetSamplerAddressMode(samplerState.getWrapT()); samplerInfo.addressModeW = gl_vk::GetSamplerAddressMode(samplerState.getWrapR()); samplerInfo.mipLodBias = 0.0f; samplerInfo.anisotropyEnable = anisotropyEnable; samplerInfo.maxAnisotropy = maxAnisotropy; samplerInfo.compareEnable = VK_FALSE; samplerInfo.compareOp = VK_COMPARE_OP_ALWAYS; samplerInfo.minLod = samplerState.getMinLod(); samplerInfo.maxLod = samplerState.getMaxLod(); samplerInfo.borderColor = VK_BORDER_COLOR_INT_TRANSPARENT_BLACK; samplerInfo.unnormalizedCoordinates = VK_FALSE; ANGLE_VK_TRY(contextVk, mSampler.init(contextVk->getDevice(), samplerInfo)); return angle::Result::Continue; } angle::Result TextureVk::setStorageMultisample(const gl::Context *context, gl::TextureType type, GLsizei samples, GLint internalformat, const gl::Extents &size, bool fixedSampleLocations) { ANGLE_VK_UNREACHABLE(vk::GetImpl(context)); return angle::Result::Stop; } angle::Result TextureVk::initializeContents(const gl::Context *context, const gl::ImageIndex &imageIndex) { const gl::ImageDesc &desc = mState.getImageDesc(imageIndex); const vk::Format &format = vk::GetImpl(context)->getRenderer()->getFormat(desc.format.info->sizedInternalFormat); mImage->stageSubresourceRobustClear(imageIndex, format.angleFormat()); return angle::Result::Continue; } void TextureVk::releaseOwnershipOfImage(const gl::Context *context) { ContextVk *contextVk = vk::GetImpl(context); RendererVk *renderer = contextVk->getRenderer(); mOwnsImage = false; releaseAndDeleteImage(context, renderer); } const vk::ImageView &TextureVk::getReadImageView() const { ASSERT(mImage->valid()); const GLenum minFilter = mState.getSamplerState().getMinFilter(); if (minFilter == GL_LINEAR || minFilter == GL_NEAREST) { return mReadBaseLevelImageView; } return mReadMipmapImageView; } angle::Result TextureVk::getLayerLevelDrawImageView(vk::Context *context, size_t layer, size_t level, vk::ImageView **imageViewOut) { ASSERT(mImage->valid()); ASSERT(!mImage->getFormat().imageFormat().isBlock); // Lazily allocate the storage for image views if (mLayerLevelDrawImageViews.empty()) { mLayerLevelDrawImageViews.resize(mImage->getLayerCount()); } ASSERT(mLayerLevelDrawImageViews.size() > layer); if (mLayerLevelDrawImageViews[layer].empty()) { mLayerLevelDrawImageViews[layer].resize(mImage->getLevelCount()); } ASSERT(mLayerLevelDrawImageViews[layer].size() > level); *imageViewOut = &mLayerLevelDrawImageViews[layer][level]; if ((*imageViewOut)->valid()) { return angle::Result::Continue; } // Lazily allocate the image view itself. // Note that these views are specifically made to be used as color attachments, and therefore // don't have swizzle. return mImage->initLayerImageView(context, mState.getType(), mImage->getAspectFlags(), gl::SwizzleState(), *imageViewOut, getNativeImageLevel(level), 1, getNativeImageLayer(layer), 1); } const vk::Sampler &TextureVk::getSampler() const { ASSERT(mSampler.valid()); return mSampler; } angle::Result TextureVk::initImage(ContextVk *contextVk, const vk::Format &format, const gl::Extents &extents, const uint32_t levelCount, vk::CommandBuffer *commandBuffer) { RendererVk *renderer = contextVk->getRenderer(); VkImageUsageFlags imageUsageFlags = VK_IMAGE_USAGE_TRANSFER_DST_BIT | VK_IMAGE_USAGE_TRANSFER_SRC_BIT | VK_IMAGE_USAGE_SAMPLED_BIT; if (renderer->hasImageFormatFeatureBits(format.vkImageFormat, VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT)) { imageUsageFlags |= VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT; } else if (renderer->hasImageFormatFeatureBits(format.vkImageFormat, VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT)) { imageUsageFlags |= VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT; } ANGLE_TRY(mImage->init(contextVk, mState.getType(), extents, format, 1, imageUsageFlags, levelCount, mState.getType() == gl::TextureType::CubeMap ? gl::kCubeFaceCount : 1)); const VkMemoryPropertyFlags flags = VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT; ANGLE_TRY(mImage->initMemory(contextVk, renderer->getMemoryProperties(), flags)); ANGLE_TRY(initImageViews(contextVk, format, levelCount)); // If the image has an emulated channel, always clear it. These channels will be masked out in // future writes, and shouldn't contain uninitialized values. if (format.hasEmulatedImageChannels()) { uint32_t levelCount = mImage->getLevelCount(); uint32_t layerCount = mImage->getLayerCount(); for (uint32_t level = 0; level < levelCount; ++level) { gl::ImageIndex index = gl::ImageIndex::Make2DArrayRange(level, 0, layerCount); mImage->stageSubresourceEmulatedClear(index, format.angleFormat()); } } return angle::Result::Continue; } angle::Result TextureVk::initImageViews(ContextVk *contextVk, const vk::Format &format, uint32_t levelCount) { ASSERT(mImage != nullptr); gl::SwizzleState mappedSwizzle; MapSwizzleState(format, mState.getSwizzleState(), &mappedSwizzle); // TODO: Support non-zero base level for ES 3.0 by passing it to getNativeImageLevel. // http://anglebug.com/3148 uint32_t baseLevel = getNativeImageLevel(0); uint32_t baseLayer = getNativeImageLayer(0); uint32_t layerCount = mState.getType() == gl::TextureType::CubeMap ? gl::kCubeFaceCount : 1; VkImageAspectFlags aspectFlags = vk::GetFormatAspectFlags(format.angleFormat()); // If we are reading a depth buffer, select only the depth component/aspect if (aspectFlags & VK_IMAGE_ASPECT_DEPTH_BIT) { aspectFlags = VK_IMAGE_ASPECT_DEPTH_BIT; } ANGLE_TRY(mImage->initLayerImageView(contextVk, mState.getType(), aspectFlags, mappedSwizzle, &mReadMipmapImageView, baseLevel, levelCount, baseLayer, layerCount)); ANGLE_TRY(mImage->initLayerImageView(contextVk, mState.getType(), aspectFlags, mappedSwizzle, &mReadBaseLevelImageView, baseLevel, 1, baseLayer, layerCount)); if (!format.imageFormat().isBlock) { ANGLE_TRY(mImage->initLayerImageView(contextVk, mState.getType(), aspectFlags, gl::SwizzleState(), &mDrawBaseLevelImageView, baseLevel, 1, baseLayer, layerCount)); } return angle::Result::Continue; } void TextureVk::releaseImage(RendererVk *renderer) { if (mImage) { if (mOwnsImage) { mImage->releaseImage(renderer); } else { mImage = nullptr; } } Serial currentSerial = renderer->getCurrentQueueSerial(); renderer->releaseObject(currentSerial, &mDrawBaseLevelImageView); renderer->releaseObject(currentSerial, &mReadBaseLevelImageView); renderer->releaseObject(currentSerial, &mReadMipmapImageView); for (auto &layerViews : mLayerLevelDrawImageViews) { for (vk::ImageView &imageView : layerViews) { if (imageView.valid()) { renderer->releaseObject(currentSerial, &imageView); } } } mLayerLevelDrawImageViews.clear(); mCubeMapRenderTargets.clear(); } void TextureVk::releaseStagingBuffer(RendererVk *renderer) { if (mImage) { mImage->releaseStagingBuffer(renderer); } } uint32_t TextureVk::getLevelCount() const { ASSERT(mState.getEffectiveBaseLevel() == 0); // getMipmapMaxLevel will be 0 here if mipmaps are not used, so the levelCount is always +1. return mState.getMipmapMaxLevel() + 1; } } // namespace rx