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[dxvk] Refactor meta blits

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This commit is contained in:
Philip Rebohle 2024-09-28 19:19:23 +02:00 committed by Philip Rebohle
parent 58dab7e8c6
commit 67d1285b08
6 changed files with 221 additions and 315 deletions
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37
src/d3d9/d3d9_device.cpp
View File

@ -1330,20 +1330,37 @@ namespace dxvk {
srcImage = resolveSrc;
}
DxvkImageViewKey dstViewInfo;
dstViewInfo.viewType = VK_IMAGE_VIEW_TYPE_2D_ARRAY;
dstViewInfo.usage = VK_IMAGE_USAGE_TRANSFER_DST_BIT;
dstViewInfo.format = dstImage->info().format;
dstViewInfo.aspects = blitInfo.dstSubresource.aspectMask;
dstViewInfo.mipIndex = blitInfo.dstSubresource.mipLevel;
dstViewInfo.mipCount = 1;
dstViewInfo.layerIndex = blitInfo.dstSubresource.baseArrayLayer;
dstViewInfo.layerCount = blitInfo.dstSubresource.layerCount;
dstViewInfo.packedSwizzle = DxvkImageViewKey::packSwizzle(dstTextureInfo->GetMapping().Swizzle);
DxvkImageViewKey srcViewInfo;
srcViewInfo.viewType = VK_IMAGE_VIEW_TYPE_2D_ARRAY;
srcViewInfo.usage = VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
srcViewInfo.format = srcImage->info().format;
srcViewInfo.aspects = blitInfo.srcSubresource.aspectMask;
srcViewInfo.mipIndex = blitInfo.srcSubresource.mipLevel;
srcViewInfo.mipCount = 1;
srcViewInfo.layerIndex = blitInfo.srcSubresource.baseArrayLayer;
srcViewInfo.layerCount = blitInfo.srcSubresource.layerCount;
srcViewInfo.packedSwizzle = DxvkImageViewKey::packSwizzle(srcTextureInfo->GetMapping().Swizzle);
EmitCs([
cDstImage = dstImage,
cDstMap = dstTextureInfo->GetMapping().Swizzle,
cSrcImage = srcImage,
cSrcMap = srcTextureInfo->GetMapping().Swizzle,
cDstView = dstImage->createView(dstViewInfo),
cSrcView = srcImage->createView(srcViewInfo),
cBlitInfo = blitInfo,
cFilter = stretch ? DecodeFilter(Filter) : VK_FILTER_NEAREST
] (DxvkContext* ctx) {
ctx->blitImage(
cDstImage,
cDstMap,
cSrcImage,
cSrcMap,
cBlitInfo,
ctx->blitImageView(
cDstView, cBlitInfo.dstOffsets,
cSrcView, cBlitInfo.srcOffsets,
cFilter);
});
}

36
src/d3d9/d3d9_swapchain.cpp
View File

@ -414,17 +414,37 @@ namespace dxvk {
}
#endif
DxvkImageViewKey dstViewInfo;
dstViewInfo.viewType = VK_IMAGE_VIEW_TYPE_2D_ARRAY;
dstViewInfo.usage = VK_IMAGE_USAGE_TRANSFER_DST_BIT;
dstViewInfo.format = blittedSrc->info().format;
dstViewInfo.aspects = blitInfo.dstSubresource.aspectMask;
dstViewInfo.mipIndex = blitInfo.dstSubresource.mipLevel;
dstViewInfo.mipCount = 1;
dstViewInfo.layerIndex = blitInfo.dstSubresource.baseArrayLayer;
dstViewInfo.layerCount = blitInfo.dstSubresource.layerCount;
dstViewInfo.packedSwizzle = DxvkImageViewKey::packSwizzle(dstTexInfo->GetMapping().Swizzle);
DxvkImageViewKey srcViewInfo;
srcViewInfo.viewType = VK_IMAGE_VIEW_TYPE_2D_ARRAY;
srcViewInfo.usage = VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
srcViewInfo.format = srcImage->info().format;
srcViewInfo.aspects = blitInfo.srcSubresource.aspectMask;
srcViewInfo.mipIndex = blitInfo.srcSubresource.mipLevel;
srcViewInfo.mipCount = 1;
srcViewInfo.layerIndex = blitInfo.srcSubresource.baseArrayLayer;
srcViewInfo.layerCount = blitInfo.srcSubresource.layerCount;
srcViewInfo.packedSwizzle = DxvkImageViewKey::packSwizzle(srcTexInfo->GetMapping().Swizzle);
m_parent->EmitCs([
cDstImage = blittedSrc,
cDstMap = dstTexInfo->GetMapping().Swizzle,
cSrcImage = srcImage,
cSrcMap = srcTexInfo->GetMapping().Swizzle,
cDstView = blittedSrc->createView(dstViewInfo),
cSrcView = srcImage->createView(srcViewInfo),
cBlitInfo = blitInfo
] (DxvkContext* ctx) {
ctx->blitImage(
cDstImage, cDstMap,
cSrcImage, cSrcMap,
cBlitInfo, VK_FILTER_NEAREST);
ctx->blitImageView(
cDstView, cBlitInfo.dstOffsets,
cSrcView, cBlitInfo.srcOffsets,
VK_FILTER_NEAREST);
});
srcImage = std::move(blittedSrc);

279
src/dxvk/dxvk_context.cpp
View File

@ -124,37 +124,47 @@ namespace dxvk {
}
void DxvkContext::blitImage(
const Rc<DxvkImage>& dstImage,
const VkComponentMapping& dstMapping,
const Rc<DxvkImage>& srcImage,
const VkComponentMapping& srcMapping,
const VkImageBlit& region,
void DxvkContext::blitImageView(
const Rc<DxvkImageView>& dstView,
const VkOffset3D* dstOffsets,
const Rc<DxvkImageView>& srcView,
const VkOffset3D* srcOffsets,
VkFilter filter) {
this->spillRenderPass(true);
this->prepareImage(dstImage, vk::makeSubresourceRange(region.dstSubresource));
this->prepareImage(srcImage, vk::makeSubresourceRange(region.srcSubresource));
this->prepareImage(dstView->image(), dstView->imageSubresources());
this->prepareImage(srcView->image(), srcView->imageSubresources());
auto mapping = util::resolveSrcComponentMapping(dstMapping, srcMapping);
auto mapping = util::resolveSrcComponentMapping(
dstView->info().unpackSwizzle(),
srcView->info().unpackSwizzle());
bool canUseFb = (srcImage->info().usage & VK_IMAGE_USAGE_SAMPLED_BIT)
&& (dstImage->info().usage & VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT)
&& ((dstImage->info().flags & VK_IMAGE_CREATE_2D_ARRAY_COMPATIBLE_BIT)
|| (dstImage->info().type != VK_IMAGE_TYPE_3D));
bool useFb = dstImage->info().sampleCount != VK_SAMPLE_COUNT_1_BIT
bool useFb = dstView->image()->info().sampleCount != VK_SAMPLE_COUNT_1_BIT
|| dstView->image()->info().format != dstView->info().format
|| srcView->image()->info().format != srcView->info().format
|| !util::isIdentityMapping(mapping);
// Use render pass path if we already have the correct usage flags anyway
useFb |= (dstView->info().usage & (VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT | VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT))
&& (srcView->info().usage & (VK_IMAGE_USAGE_SAMPLED_BIT));
if (!useFb) {
this->blitImageHw(
dstImage, srcImage,
region, filter);
} else if (canUseFb) {
this->blitImageFb(
dstImage, srcImage,
region, mapping, filter);
// Otherwise, verify that the vkCmdBlit path is supported for the given formats
auto dstFeatures = m_device->adapter()->getFormatFeatures(dstView->info().format);
auto srcFeatures = m_device->adapter()->getFormatFeatures(srcView->info().format);
auto dstBits = dstView->image()->info().tiling == VK_IMAGE_TILING_OPTIMAL ? dstFeatures.optimal : dstFeatures.linear;
auto srcBits = srcView->image()->info().tiling == VK_IMAGE_TILING_OPTIMAL ? srcFeatures.optimal : srcFeatures.linear;
useFb |= !(dstBits & VK_FORMAT_FEATURE_2_BLIT_DST_BIT)
|| !(srcBits & VK_FORMAT_FEATURE_2_BLIT_SRC_BIT);
}
if (useFb) {
this->blitImageFb(dstView, dstOffsets,
srcView, srcOffsets, filter);
} else {
Logger::err("DxvkContext: Unsupported blit operation");
this->blitImageHw(dstView, dstOffsets,
srcView, srcOffsets, filter);
}
}
@ -3045,45 +3055,55 @@ namespace dxvk {
void DxvkContext::blitImageFb(
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const VkComponentMapping& mapping,
Rc<DxvkImageView> dstView,
const VkOffset3D* dstOffsets,
Rc<DxvkImageView> srcView,
const VkOffset3D* srcOffsets,
VkFilter filter) {
this->invalidateState();
auto dstSubresourceRange = vk::makeSubresourceRange(region.dstSubresource);
auto srcSubresourceRange = vk::makeSubresourceRange(region.srcSubresource);
bool srcIsDepthStencil = srcView->info().aspects & (VK_IMAGE_ASPECT_DEPTH_BIT | VK_IMAGE_ASPECT_STENCIL_BIT);
bool dstIsDepthStencil = dstView->info().aspects & (VK_IMAGE_ASPECT_DEPTH_BIT | VK_IMAGE_ASPECT_STENCIL_BIT);
if (m_execBarriers.isImageDirty(dstImage, dstSubresourceRange, DxvkAccess::Write)
|| m_execBarriers.isImageDirty(srcImage, srcSubresourceRange, DxvkAccess::Write))
dstView = ensureImageViewCompatibility(dstView, dstIsDepthStencil
? VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT
: VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT);
srcView = ensureImageViewCompatibility(srcView, VK_IMAGE_USAGE_SAMPLED_BIT);
if (!dstView || !srcView) {
Logger::err(str::format("DxvkContext: blitImageFb: Resources not supported"));
return;
}
if (m_execBarriers.isImageDirty(dstView->image(), dstView->imageSubresources(), DxvkAccess::Write)
|| m_execBarriers.isImageDirty(srcView->image(), srcView->imageSubresources(), DxvkAccess::Write))
m_execBarriers.recordCommands(m_cmd);
bool srcIsDepthStencil = region.srcSubresource.aspectMask & (VK_IMAGE_ASPECT_DEPTH_BIT | VK_IMAGE_ASPECT_STENCIL_BIT);
VkImageLayout srcLayout = srcImage->pickLayout(srcIsDepthStencil
VkImageLayout srcLayout = srcView->image()->pickLayout(srcIsDepthStencil
? VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL
: VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL);
VkImageLayout dstLayout = dstImage->pickLayout(
VkImageLayout dstLayout = dstView->image()->pickLayout(
VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL);
if (dstImage->info().layout != dstLayout) {
if (dstView->image()->info().layout != dstLayout) {
m_execAcquires.accessImage(
dstImage, dstSubresourceRange,
dstImage->info().layout,
dstImage->info().stages, 0,
dstView->image(),
dstView->imageSubresources(),
dstView->image()->info().layout,
dstView->image()->info().stages, 0,
dstLayout,
VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT,
VK_ACCESS_COLOR_ATTACHMENT_READ_BIT |
VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT);
}
if (srcImage->info().layout != srcLayout) {
if (srcView->image()->info().layout != srcLayout) {
m_execAcquires.accessImage(
srcImage, srcSubresourceRange,
srcImage->info().layout,
srcImage->info().stages, 0,
srcView->image(),
srcView->imageSubresources(),
srcView->image()->info().layout,
srcView->image()->info().stages, 0,
srcLayout,
VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT,
VK_ACCESS_SHADER_READ_BIT);
@ -3093,37 +3113,34 @@ namespace dxvk {
// Sort out image offsets so that dstOffset[0] points
// to the top-left corner of the target area
VkOffset3D srcOffsets[2] = { region.srcOffsets[0], region.srcOffsets[1] };
VkOffset3D dstOffsets[2] = { region.dstOffsets[0], region.dstOffsets[1] };
std::array<VkOffset3D, 2> srcOffsetsAdjusted = { srcOffsets[0], srcOffsets[1] };
std::array<VkOffset3D, 2> dstOffsetsAdjusted = { dstOffsets[0], dstOffsets[1] };
if (dstOffsets[0].x > dstOffsets[1].x) {
std::swap(dstOffsets[0].x, dstOffsets[1].x);
std::swap(srcOffsets[0].x, srcOffsets[1].x);
if (dstOffsetsAdjusted[0].x > dstOffsetsAdjusted[1].x) {
std::swap(dstOffsetsAdjusted[0].x, dstOffsetsAdjusted[1].x);
std::swap(srcOffsetsAdjusted[0].x, srcOffsetsAdjusted[1].x);
}
if (dstOffsets[0].y > dstOffsets[1].y) {
std::swap(dstOffsets[0].y, dstOffsets[1].y);
std::swap(srcOffsets[0].y, srcOffsets[1].y);
if (dstOffsetsAdjusted[0].y > dstOffsetsAdjusted[1].y) {
std::swap(dstOffsetsAdjusted[0].y, dstOffsetsAdjusted[1].y);
std::swap(srcOffsetsAdjusted[0].y, srcOffsetsAdjusted[1].y);
}
if (dstOffsets[0].z > dstOffsets[1].z) {
std::swap(dstOffsets[0].z, dstOffsets[1].z);
std::swap(srcOffsets[0].z, srcOffsets[1].z);
if (dstOffsetsAdjusted[0].z > dstOffsetsAdjusted[1].z) {
std::swap(dstOffsetsAdjusted[0].z, dstOffsetsAdjusted[1].z);
std::swap(srcOffsetsAdjusted[0].z, srcOffsetsAdjusted[1].z);
}
VkExtent3D dstExtent = {
uint32_t(dstOffsets[1].x - dstOffsets[0].x),
uint32_t(dstOffsets[1].y - dstOffsets[0].y),
uint32_t(dstOffsets[1].z - dstOffsets[0].z) };
uint32_t(dstOffsetsAdjusted[1].x - dstOffsetsAdjusted[0].x),
uint32_t(dstOffsetsAdjusted[1].y - dstOffsetsAdjusted[0].y),
uint32_t(dstOffsetsAdjusted[1].z - dstOffsetsAdjusted[0].z) };
// Begin render pass
Rc<DxvkMetaBlitRenderPass> pass = new DxvkMetaBlitRenderPass(
m_device, dstImage, srcImage, region, mapping);
VkExtent3D imageExtent = dstImage->mipLevelExtent(region.dstSubresource.mipLevel);
VkExtent3D imageExtent = dstView->mipLevelExtent(0);
VkRenderingAttachmentInfo attachmentInfo = { VK_STRUCTURE_TYPE_RENDERING_ATTACHMENT_INFO };
attachmentInfo.imageView = pass->getDstView();
attachmentInfo.imageView = dstView->handle();
attachmentInfo.imageLayout = dstLayout;
attachmentInfo.loadOp = VK_ATTACHMENT_LOAD_OP_LOAD;
attachmentInfo.storeOp = VK_ATTACHMENT_STORE_OP_STORE;
@ -3132,7 +3149,7 @@ namespace dxvk {
renderingInfo.renderArea = VkRect2D {
VkOffset2D { 0, 0 },
VkExtent2D { imageExtent.width, imageExtent.height } };
renderingInfo.layerCount = pass->framebufferLayerCount();
renderingInfo.layerCount = dstView->info().layerCount;
renderingInfo.colorAttachmentCount = 1;
renderingInfo.pColorAttachments = &attachmentInfo;
@ -3140,22 +3157,23 @@ namespace dxvk {
// Bind pipeline
DxvkMetaBlitPipeline pipeInfo = m_common->metaBlit().getPipeline(
pass->viewType(), dstImage->info().format, dstImage->info().sampleCount);
dstView->info().viewType, dstView->info().format,
dstView->image()->info().sampleCount);
m_cmd->cmdBindPipeline(VK_PIPELINE_BIND_POINT_GRAPHICS, pipeInfo.pipeHandle);
// Set up viewport
VkViewport viewport;
viewport.x = float(dstOffsets[0].x);
viewport.y = float(dstOffsets[0].y);
viewport.width = float(dstExtent.width);
viewport.height = float(dstExtent.height);
viewport.minDepth = 0.0f;
viewport.maxDepth = 1.0f;
viewport.x = float(dstOffsetsAdjusted[0].x);
viewport.y = float(dstOffsetsAdjusted[0].y);
viewport.width = float(dstExtent.width);
viewport.height = float(dstExtent.height);
viewport.minDepth = 0.0f;
viewport.maxDepth = 1.0f;
VkRect2D scissor;
scissor.offset = { dstOffsets[0].x, dstOffsets[0].y };
scissor.extent = { dstExtent.width, dstExtent.height };
scissor.offset = { dstOffsetsAdjusted[0].x, dstOffsetsAdjusted[0].y };
scissor.extent = { dstExtent.width, dstExtent.height };
m_cmd->cmdSetViewport(1, &viewport);
m_cmd->cmdSetScissor(1, &scissor);
@ -3163,7 +3181,7 @@ namespace dxvk {
// Bind source image view
VkDescriptorImageInfo descriptorImage;
descriptorImage.sampler = m_common->metaBlit().getSampler(filter);
descriptorImage.imageView = pass->getSrcView();
descriptorImage.imageView = srcView->handle();
descriptorImage.imageLayout = srcLayout;
VkWriteDescriptorSet descriptorWrite = { VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET };
@ -3179,18 +3197,18 @@ namespace dxvk {
pipeInfo.pipeLayout, descriptorWrite.dstSet, 0, nullptr);
// Compute shader parameters for the operation
VkExtent3D srcExtent = srcImage->mipLevelExtent(region.srcSubresource.mipLevel);
VkExtent3D srcExtent = srcView->mipLevelExtent(0);
DxvkMetaBlitPushConstants pushConstants = { };
pushConstants.srcCoord0 = {
float(srcOffsets[0].x) / float(srcExtent.width),
float(srcOffsets[0].y) / float(srcExtent.height),
float(srcOffsets[0].z) / float(srcExtent.depth) };
pushConstants.srcCoord1 = {
float(srcOffsets[1].x) / float(srcExtent.width),
float(srcOffsets[1].y) / float(srcExtent.height),
float(srcOffsets[1].z) / float(srcExtent.depth) };
pushConstants.layerCount = pass->framebufferLayerCount();
pushConstants.srcCoord0 = {
float(srcOffsetsAdjusted[0].x) / float(srcExtent.width),
float(srcOffsetsAdjusted[0].y) / float(srcExtent.height),
float(srcOffsetsAdjusted[0].z) / float(srcExtent.depth) };
pushConstants.srcCoord1 = {
float(srcOffsetsAdjusted[1].x) / float(srcExtent.width),
float(srcOffsetsAdjusted[1].y) / float(srcExtent.height),
float(srcOffsetsAdjusted[1].z) / float(srcExtent.depth) };
pushConstants.layerCount = dstView->info().layerCount;
m_cmd->cmdPushConstants(
pipeInfo.pipeLayout,
@ -3202,60 +3220,59 @@ namespace dxvk {
m_cmd->cmdEndRendering();
// Add barriers and track image objects
m_execBarriers.accessImage(dstImage,
vk::makeSubresourceRange(region.dstSubresource),
dstLayout,
m_execBarriers.accessImage(
dstView->image(),
dstView->imageSubresources(), dstLayout,
VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT,
VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT,
dstImage->info().layout,
dstImage->info().stages,
dstImage->info().access);
dstView->image()->info().layout,
dstView->image()->info().stages,
dstView->image()->info().access);
m_execBarriers.accessImage(srcImage,
vk::makeSubresourceRange(region.srcSubresource),
srcLayout,
m_execBarriers.accessImage(
srcView->image(),
srcView->imageSubresources(), srcLayout,
VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT,
VK_ACCESS_SHADER_READ_BIT,
srcImage->info().layout,
srcImage->info().stages,
srcImage->info().access);
srcView->image()->info().layout,
srcView->image()->info().stages,
srcView->image()->info().access);
m_cmd->trackResource<DxvkAccess::Write>(dstImage);
m_cmd->trackResource<DxvkAccess::Read>(srcImage);
m_cmd->trackResource<DxvkAccess::None>(pass);
m_cmd->trackResource<DxvkAccess::Write>(dstView->image());
m_cmd->trackResource<DxvkAccess::Read>(srcView->image());
}
void DxvkContext::blitImageHw(
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const Rc<DxvkImageView>& dstView,
const VkOffset3D* dstOffsets,
const Rc<DxvkImageView>& srcView,
const VkOffset3D* srcOffsets,
VkFilter filter) {
auto dstSubresourceRange = vk::makeSubresourceRange(region.dstSubresource);
auto srcSubresourceRange = vk::makeSubresourceRange(region.srcSubresource);
if (m_execBarriers.isImageDirty(dstImage, dstSubresourceRange, DxvkAccess::Write)
|| m_execBarriers.isImageDirty(srcImage, srcSubresourceRange, DxvkAccess::Write))
if (m_execBarriers.isImageDirty(dstView->image(), dstView->imageSubresources(), DxvkAccess::Write)
|| m_execBarriers.isImageDirty(srcView->image(), srcView->imageSubresources(), DxvkAccess::Write))
m_execBarriers.recordCommands(m_cmd);
// Prepare the two images for transfer ops if necessary
auto dstLayout = dstImage->pickLayout(VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL);
auto srcLayout = srcImage->pickLayout(VK_IMAGE_LAYOUT_TRANSFER_SRC_OPTIMAL);
auto dstLayout = dstView->pickLayout(VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL);
auto srcLayout = srcView->pickLayout(VK_IMAGE_LAYOUT_TRANSFER_SRC_OPTIMAL);
if (dstImage->info().layout != dstLayout) {
if (dstView->image()->info().layout != dstLayout) {
m_execAcquires.accessImage(
dstImage, dstSubresourceRange,
dstImage->info().layout,
dstView->image(),
dstView->imageSubresources(),
dstView->image()->info().layout,
VK_PIPELINE_STAGE_TRANSFER_BIT, 0,
dstLayout,
VK_PIPELINE_STAGE_TRANSFER_BIT,
VK_ACCESS_TRANSFER_WRITE_BIT);
}
if (srcImage->info().layout != srcLayout) {
if (srcView->image()->info().layout != srcLayout) {
m_execAcquires.accessImage(
srcImage, srcSubresourceRange,
srcImage->info().layout,
srcView->image(),
srcView->imageSubresources(),
srcView->image()->info().layout,
VK_PIPELINE_STAGE_TRANSFER_BIT, 0,
srcLayout,
VK_PIPELINE_STAGE_TRANSFER_BIT,
@ -3266,18 +3283,18 @@ namespace dxvk {
// Perform the blit operation
VkImageBlit2 blitRegion = { VK_STRUCTURE_TYPE_IMAGE_BLIT_2 };
blitRegion.srcSubresource = region.srcSubresource;
blitRegion.dstSubresource = region.dstSubresource;
blitRegion.srcSubresource = vk::pickSubresourceLayers(srcView->imageSubresources(), 0);
blitRegion.dstSubresource = vk::pickSubresourceLayers(dstView->imageSubresources(), 0);
for (uint32_t i = 0; i < 2; i++) {
blitRegion.srcOffsets[i] = region.srcOffsets[i];
blitRegion.dstOffsets[i] = region.dstOffsets[i];
blitRegion.srcOffsets[i] = srcOffsets[i];
blitRegion.dstOffsets[i] = dstOffsets[i];
}
VkBlitImageInfo2 blitInfo = { VK_STRUCTURE_TYPE_BLIT_IMAGE_INFO_2 };
blitInfo.srcImage = srcImage->handle();
blitInfo.srcImage = srcView->image()->handle();
blitInfo.srcImageLayout = srcLayout;
blitInfo.dstImage = dstImage->handle();
blitInfo.dstImage = dstView->image()->handle();
blitInfo.dstImageLayout = dstLayout;
blitInfo.regionCount = 1;
blitInfo.pRegions = &blitRegion;
@ -3286,23 +3303,25 @@ namespace dxvk {
m_cmd->cmdBlitImage(&blitInfo);
m_execBarriers.accessImage(
dstImage, dstSubresourceRange, dstLayout,
dstView->image(),
dstView->imageSubresources(), dstLayout,
VK_PIPELINE_STAGE_TRANSFER_BIT,
VK_ACCESS_TRANSFER_WRITE_BIT,
dstImage->info().layout,
dstImage->info().stages,
dstImage->info().access);
dstView->image()->info().layout,
dstView->image()->info().stages,
dstView->image()->info().access);
m_execBarriers.accessImage(
srcImage, srcSubresourceRange, srcLayout,
srcView->image(),
srcView->imageSubresources(), srcLayout,
VK_PIPELINE_STAGE_TRANSFER_BIT,
VK_ACCESS_TRANSFER_READ_BIT,
srcImage->info().layout,
srcImage->info().stages,
srcImage->info().access);
srcView->image()->info().layout,
srcView->image()->info().stages,
srcView->image()->info().access);
m_cmd->trackResource<DxvkAccess::Write>(dstImage);
m_cmd->trackResource<DxvkAccess::Read>(srcImage);
m_cmd->trackResource<DxvkAccess::Write>(dstView->image());
m_cmd->trackResource<DxvkAccess::Read>(srcView->image());
}

35
src/dxvk/dxvk_context.h
View File

@ -383,19 +383,17 @@ namespace dxvk {
/**
* \brief Blits an image
*
* \param [in] dstImage Destination image
* \param [in] dstMapping Destination swizzle
* \param [in] srcImage Source image
* \param [in] srcMapping Source swizzle
* \param [in] region Blit region
* \param [in] dstView Destination image view
* \param [in] srcView Source image view
* \param [in] dstOffsets Two pixel coordinates in the destination image
* \param [in] srcOffsets Two pixel coordinates in the source image
* \param [in] filter Texture filter
*/
void blitImage(
const Rc<DxvkImage>& dstImage,
const VkComponentMapping& dstMapping,
const Rc<DxvkImage>& srcImage,
const VkComponentMapping& srcMapping,
const VkImageBlit& region,
void blitImageView(
const Rc<DxvkImageView>& dstView,
const VkOffset3D* dstOffsets,
const Rc<DxvkImageView>& srcView,
const VkOffset3D* srcOffsets,
VkFilter filter);
/**
@ -1462,16 +1460,17 @@ namespace dxvk {
std::array<DxvkComputePipeline*, 256> m_cpLookupCache = { };
void blitImageFb(
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const VkComponentMapping& mapping,
Rc<DxvkImageView> dstView,
const VkOffset3D* dstOffsets,
Rc<DxvkImageView> srcView,
const VkOffset3D* srcOffsets,
VkFilter filter);
void blitImageHw(
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const Rc<DxvkImageView>& dstView,
const VkOffset3D* dstOffsets,
const Rc<DxvkImageView>& srcView,
const VkOffset3D* srcOffsets,
VkFilter filter);
template<bool ToImage>

105
src/dxvk/dxvk_meta_blit.cpp
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@ -11,111 +11,6 @@
namespace dxvk {
DxvkMetaBlitRenderPass::DxvkMetaBlitRenderPass(
const Rc<DxvkDevice>& device,
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const VkComponentMapping& mapping)
: m_vkd (device->vkd()),
m_dstImage (dstImage),
m_srcImage (srcImage),
m_region (region),
m_dstView (createDstView()),
m_srcView (createSrcView(mapping)) {
}
DxvkMetaBlitRenderPass::~DxvkMetaBlitRenderPass() {
m_vkd->vkDestroyImageView(m_vkd->device(), m_dstView, nullptr);
m_vkd->vkDestroyImageView(m_vkd->device(), m_srcView, nullptr);
}
VkImageViewType DxvkMetaBlitRenderPass::viewType() const {
static const std::array<VkImageViewType, 3> viewTypes = {{
VK_IMAGE_VIEW_TYPE_1D_ARRAY,
VK_IMAGE_VIEW_TYPE_2D_ARRAY,
VK_IMAGE_VIEW_TYPE_3D,
}};
return viewTypes.at(uint32_t(m_srcImage->info().type));
}
uint32_t DxvkMetaBlitRenderPass::framebufferLayerIndex() const {
uint32_t result = m_region.dstSubresource.baseArrayLayer;
if (m_dstImage->info().type == VK_IMAGE_TYPE_3D)
result = std::min(m_region.dstOffsets[0].z, m_region.dstOffsets[1].z);
return result;
}
uint32_t DxvkMetaBlitRenderPass::framebufferLayerCount() const {
uint32_t result = m_region.dstSubresource.layerCount;
if (m_dstImage->info().type == VK_IMAGE_TYPE_3D) {
uint32_t minZ = std::min(m_region.dstOffsets[0].z, m_region.dstOffsets[1].z);
uint32_t maxZ = std::max(m_region.dstOffsets[0].z, m_region.dstOffsets[1].z);
result = maxZ - minZ;
}
return result;
}
VkImageView DxvkMetaBlitRenderPass::createDstView() {
std::array<VkImageViewType, 3> viewTypes = {{
VK_IMAGE_VIEW_TYPE_1D_ARRAY,
VK_IMAGE_VIEW_TYPE_2D_ARRAY,
VK_IMAGE_VIEW_TYPE_2D_ARRAY,
}};
VkImageViewUsageCreateInfo usageInfo = { VK_STRUCTURE_TYPE_IMAGE_VIEW_USAGE_CREATE_INFO };
usageInfo.usage = VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT;
VkImageViewCreateInfo info = { VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO, &usageInfo };
info.image = m_dstImage->handle();
info.viewType = viewTypes.at(uint32_t(m_dstImage->info().type));
info.format = m_dstImage->info().format;
info.components = VkComponentMapping();
info.subresourceRange = vk::makeSubresourceRange(m_region.dstSubresource);
if (m_dstImage->info().type) {
info.subresourceRange.baseArrayLayer = framebufferLayerIndex();
info.subresourceRange.layerCount = framebufferLayerCount();
}
VkImageView result;
if (m_vkd->vkCreateImageView(m_vkd->device(), &info, nullptr, &result) != VK_SUCCESS)
throw DxvkError("DxvkMetaBlitRenderPass: Failed to create image view");
return result;
}
VkImageView DxvkMetaBlitRenderPass::createSrcView(const VkComponentMapping& mapping) {
VkImageViewUsageCreateInfo usageInfo = { VK_STRUCTURE_TYPE_IMAGE_VIEW_USAGE_CREATE_INFO };
usageInfo.usage = VK_IMAGE_USAGE_SAMPLED_BIT;
VkImageViewCreateInfo info = { VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO, &usageInfo };
info.image = m_srcImage->handle();
info.viewType = this->viewType();
info.format = m_srcImage->info().format;
info.components = mapping;
info.subresourceRange = vk::makeSubresourceRange(m_region.srcSubresource);
VkImageView result;
if (m_vkd->vkCreateImageView(m_vkd->device(), &info, nullptr, &result) != VK_SUCCESS)
throw DxvkError("DxvkMetaBlitRenderPass: Failed to create image view");
return result;
}
DxvkMetaBlitObjects::DxvkMetaBlitObjects(const DxvkDevice* device)
: m_vkd (device->vkd()),
m_samplerCopy (createSampler(VK_FILTER_NEAREST)),

44
src/dxvk/dxvk_meta_blit.h
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@ -87,50 +87,6 @@ namespace dxvk {
};
/**
* \brief Blit render pass
*
* Stores image view, render pass and framebuffer
* objects for a blit operation, as well as some
* metadata.
*/
class DxvkMetaBlitRenderPass : public DxvkResource {
public:
DxvkMetaBlitRenderPass(
const Rc<DxvkDevice>& device,
const Rc<DxvkImage>& dstImage,
const Rc<DxvkImage>& srcImage,
const VkImageBlit& region,
const VkComponentMapping& mapping);
~DxvkMetaBlitRenderPass();
VkImageViewType viewType() const;
uint32_t framebufferLayerIndex() const;
uint32_t framebufferLayerCount() const;
VkImageView getDstView() const { return m_dstView; }
VkImageView getSrcView() const { return m_srcView; }
private:
Rc<vk::DeviceFn> m_vkd;
Rc<DxvkImage> m_dstImage;
Rc<DxvkImage> m_srcImage;
VkImageBlit m_region;
VkImageView m_dstView;
VkImageView m_srcView;
VkImageView createDstView();
VkImageView createSrcView(const VkComponentMapping& mapping);
};
/**
* \brief Blitter objects
*