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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.
//
// RenderbufferVk.cpp:
// Implements the class methods for RenderbufferVk.
//
#include "libANGLE/renderer/vulkan/RenderbufferVk.h"
#include "libANGLE/Context.h"
#include "libANGLE/Image.h"
#include "libANGLE/renderer/vulkan/ContextVk.h"
#include "libANGLE/renderer/vulkan/ImageVk.h"
#include "libANGLE/renderer/vulkan/RendererVk.h"
namespace rx
{
namespace
{
angle::SubjectIndex kRenderbufferImageSubjectIndex = 0;
} // namespace
RenderbufferVk::RenderbufferVk(const gl::RenderbufferState &state)
: RenderbufferImpl(state),
mOwnsImage(false),
mImage(nullptr),
mImageObserverBinding(this, kRenderbufferImageSubjectIndex)
{}
RenderbufferVk::~RenderbufferVk() {}
void RenderbufferVk::onDestroy(const gl::Context *context)
{
ContextVk *contextVk = vk::GetImpl(context);
releaseAndDeleteImage(contextVk);
}
angle::Result RenderbufferVk::setStorageImpl(const gl::Context *context,
size_t samples,
GLenum internalformat,
size_t width,
size_t height)
{
ContextVk *contextVk = vk::GetImpl(context);
RendererVk *renderer = contextVk->getRenderer();
const vk::Format &vkFormat = renderer->getFormat(internalformat);
if (!mOwnsImage)
{
releaseAndDeleteImage(contextVk);
}
if (mImage != nullptr && mImage->valid())
{
// Check against the state if we need to recreate the storage.
if (internalformat != mState.getFormat().info->internalFormat ||
static_cast<GLsizei>(width) != mState.getWidth() ||
static_cast<GLsizei>(height) != mState.getHeight())
{
releaseImage(contextVk);
}
}
// TODO(syoussefi): if glRenderbufferStorageMultisampleEXT, need to create the image as
// single-sampled and have a multisampled image for intermediate results. Currently, tests
// seem to only use this for depth/stencil buffers and don't attempt to read from it. This
// needs to be fixed and tests added. http://anglebug.com/4836
if ((mImage == nullptr || !mImage->valid()) && (width != 0 && height != 0))
{
if (mImage == nullptr)
{
mImage = new vk::ImageHelper();
mOwnsImage = true;
mImageObserverBinding.bind(mImage);
mImageViews.init(renderer);
}
const angle::Format &textureFormat = vkFormat.actualImageFormat();
bool isDepthOrStencilFormat = textureFormat.depthBits > 0 || textureFormat.stencilBits > 0;
const VkImageUsageFlags usage =
VK_IMAGE_USAGE_TRANSFER_DST_BIT | VK_IMAGE_USAGE_TRANSFER_SRC_BIT |
VK_IMAGE_USAGE_SAMPLED_BIT |
(textureFormat.redBits > 0 ? VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT : 0) |
(isDepthOrStencilFormat ? VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT : 0);
VkExtent3D extents = {static_cast<uint32_t>(width), static_cast<uint32_t>(height), 1u};
ANGLE_TRY(mImage->init(contextVk, gl::TextureType::_2D, extents, vkFormat,
static_cast<uint32_t>(samples), usage, 0, 0, 1, 1));
VkMemoryPropertyFlags flags = VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT;
ANGLE_TRY(mImage->initMemory(contextVk, renderer->getMemoryProperties(), flags));
mRenderTarget.init(mImage, &mImageViews, nullptr, nullptr, 0, 0, false);
}
return angle::Result::Continue;
}
angle::Result RenderbufferVk::setStorage(const gl::Context *context,
GLenum internalformat,
size_t width,
size_t height)
{
return setStorageImpl(context, 1, internalformat, width, height);
}
angle::Result RenderbufferVk::setStorageMultisample(const gl::Context *context,
size_t samples,
GLenum internalformat,
size_t width,
size_t height)
{
return setStorageImpl(context, samples, internalformat, width, height);
}
angle::Result RenderbufferVk::setStorageEGLImageTarget(const gl::Context *context,
egl::Image *image)
{
ContextVk *contextVk = vk::GetImpl(context);
RendererVk *renderer = contextVk->getRenderer();
releaseAndDeleteImage(contextVk);
ImageVk *imageVk = vk::GetImpl(image);
mImage = imageVk->getImage();
mOwnsImage = false;
mImageObserverBinding.bind(mImage);
mImageViews.init(renderer);
const vk::Format &vkFormat = renderer->getFormat(image->getFormat().info->sizedInternalFormat);
const angle::Format &textureFormat = vkFormat.actualImageFormat();
VkImageAspectFlags aspect = vk::GetFormatAspectFlags(textureFormat);
// Transfer the image to this queue if needed
uint32_t rendererQueueFamilyIndex = contextVk->getRenderer()->getQueueFamilyIndex();
if (mImage->isQueueChangeNeccesary(rendererQueueFamilyIndex))
{
vk::CommandBuffer &commandBuffer = contextVk->getOutsideRenderPassCommandBuffer();
mImage->changeLayoutAndQueue(aspect, vk::ImageLayout::ColorAttachment,
rendererQueueFamilyIndex, &commandBuffer);
}
gl::TextureType viewType = imageVk->getImageTextureType();
if (imageVk->getImageTextureType() == gl::TextureType::CubeMap)
{
viewType = vk::Get2DTextureType(imageVk->getImage()->getLayerCount(),
imageVk->getImage()->getSamples());
}
mRenderTarget.init(mImage, &mImageViews, nullptr, nullptr, imageVk->getImageLevel(),
imageVk->getImageLayer(), false);
return angle::Result::Continue;
}
angle::Result RenderbufferVk::getAttachmentRenderTarget(const gl::Context *context,
GLenum binding,
const gl::ImageIndex &imageIndex,
GLsizei samples,
FramebufferAttachmentRenderTarget **rtOut)
{
ASSERT(mImage && mImage->valid());
*rtOut = &mRenderTarget;
return angle::Result::Continue;
}
angle::Result RenderbufferVk::initializeContents(const gl::Context *context,
const gl::ImageIndex &imageIndex)
{
// Note: stageSubresourceRobustClear only uses the intended format to count channels.
mImage->stageRobustResourceClear(imageIndex);
return mImage->flushAllStagedUpdates(vk::GetImpl(context));
}
void RenderbufferVk::releaseOwnershipOfImage(const gl::Context *context)
{
ContextVk *contextVk = vk::GetImpl(context);
mOwnsImage = false;
releaseAndDeleteImage(contextVk);
}
void RenderbufferVk::releaseAndDeleteImage(ContextVk *contextVk)
{
releaseImage(contextVk);
SafeDelete(mImage);
mImageObserverBinding.bind(nullptr);
}
void RenderbufferVk::releaseImage(ContextVk *contextVk)
{
RendererVk *renderer = contextVk->getRenderer();
if (mImage && mOwnsImage)
{
mImage->releaseImage(renderer);
mImage->releaseStagingBuffer(renderer);
}
else
{
mImage = nullptr;
mImageObserverBinding.bind(nullptr);
}
mImageViews.release(renderer);
}
const gl::InternalFormat &RenderbufferVk::getImplementationSizedFormat() const
{
GLenum internalFormat = mImage->getFormat().actualImageFormat().glInternalFormat;
return gl::GetSizedInternalFormatInfo(internalFormat);
}
GLenum RenderbufferVk::getColorReadFormat(const gl::Context *context)
{
const gl::InternalFormat &sizedFormat = getImplementationSizedFormat();
return sizedFormat.format;
}
GLenum RenderbufferVk::getColorReadType(const gl::Context *context)
{
const gl::InternalFormat &sizedFormat = getImplementationSizedFormat();
return sizedFormat.type;
}
angle::Result RenderbufferVk::getRenderbufferImage(const gl::Context *context,
const gl::PixelPackState &packState,
gl::Buffer *packBuffer,
GLenum format,
GLenum type,
void *pixels)
{
// Storage not defined.
if (!mImage || !mImage->valid())
return angle::Result::Continue;
ContextVk *contextVk = vk::GetImpl(context);
ANGLE_TRY(mImage->flushAllStagedUpdates(contextVk));
gl::MaybeOverrideLuminance(format, type, getColorReadFormat(context),
getColorReadType(context));
return mImage->readPixelsForGetImage(contextVk, packState, packBuffer, 0, 0, format, type,
pixels);
}
void RenderbufferVk::onSubjectStateChange(angle::SubjectIndex index, angle::SubjectMessage message)
{
ASSERT(index == kRenderbufferImageSubjectIndex &&
message == angle::SubjectMessage::SubjectChanged);
// Forward the notification to the parent class that the staging buffer changed.
onStateChange(angle::SubjectMessage::SubjectChanged);
}
} // namespace rx
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