1400 lines
60 KiB
Plaintext
1400 lines
60 KiB
Plaintext
// Copyright (c) 2015-2018 Khronos Group. This work is licensed under a
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// Creative Commons Attribution 4.0 International License; see
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// http://creativecommons.org/licenses/by/4.0/
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[[primsrast]]
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= Rasterization
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Rasterization is the process by which a primitive is converted to a
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two-dimensional image.
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Each point of this image contains associated data such as depth, color, or
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other attributes.
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Rasterizing a primitive begins by determining which squares of an integer
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grid in framebuffer coordinates are occupied by the primitive, and assigning
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one or more depth values to each such square.
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This process is described below for points, lines, and polygons.
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A grid square, including its [eq]#(x,y)# framebuffer coordinates, [eq]#z#
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(depth), and associated data added by fragment shaders, is called a
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fragment.
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A fragment is located by its upper left corner, which lies on integer grid
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coordinates.
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Rasterization operations also refer to a fragment's sample locations, which
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are offset by subpixel fractional values from its upper left corner.
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The rasterization rules for points, lines, and triangles involve testing
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whether each sample location is inside the primitive.
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Fragments need not actually be square, and rasterization rules are not
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affected by the aspect ratio of fragments.
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Display of non-square grids, however, will cause rasterized points and line
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segments to appear fatter in one direction than the other.
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We assume that fragments are square, since it simplifies antialiasing and
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texturing.
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After rasterization, fragments are processed by the <<fragops-early,early
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per-fragment tests>>, if enabled.
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Several factors affect rasterization, including the members of
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sname:VkPipelineRasterizationStateCreateInfo and
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sname:VkPipelineMultisampleStateCreateInfo.
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[open,refpage='VkPipelineRasterizationStateCreateInfo',desc='Structure specifying parameters of a newly created pipeline rasterization state',type='structs']
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--
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The sname:VkPipelineRasterizationStateCreateInfo structure is defined as:
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include::../api/structs/VkPipelineRasterizationStateCreateInfo.txt[]
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* pname:sType is the type of this structure.
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* pname:pNext is `NULL` or a pointer to an extension-specific structure.
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* pname:flags is reserved for future use.
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* pname:depthClampEnable controls whether to clamp the fragment's depth
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values instead of clipping primitives to the z planes of the frustum, as
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described in <<vertexpostproc-clipping,Primitive Clipping>>.
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* pname:rasterizerDiscardEnable controls whether primitives are discarded
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immediately before the rasterization stage.
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* pname:polygonMode is the triangle rendering mode.
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See elink:VkPolygonMode.
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* pname:cullMode is the triangle facing direction used for primitive
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culling.
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See elink:VkCullModeFlagBits.
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* pname:frontFace is a elink:VkFrontFace value specifying the front-facing
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triangle orientation to be used for culling.
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* pname:depthBiasEnable controls whether to bias fragment depth values.
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* pname:depthBiasConstantFactor is a scalar factor controlling the
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constant depth value added to each fragment.
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* pname:depthBiasClamp is the maximum (or minimum) depth bias of a
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fragment.
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* pname:depthBiasSlopeFactor is a scalar factor applied to a fragment's
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slope in depth bias calculations.
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* pname:lineWidth is the width of rasterized line segments.
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ifdef::VK_AMD_rasterization_order[]
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The application can: also add a
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sname:VkPipelineRasterizationStateRasterizationOrderAMD structure to the
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pname:pNext chain of a sname:VkPipelineRasterizationStateCreateInfo
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structure.
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This structure enables selecting the rasterization order to use when
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rendering with the corresponding graphics pipeline as described in
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<<primrast-order, Rasterization Order>>.
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endif::VK_AMD_rasterization_order[]
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.Valid Usage
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****
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* [[VUID-VkPipelineRasterizationStateCreateInfo-depthClampEnable-00782]]
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If the <<features-features-depthClamp,depth clamping>> feature is not
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enabled, pname:depthClampEnable must: be ename:VK_FALSE
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ifndef::VK_NV_fill_rectangle[]
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* [[VUID-VkPipelineRasterizationStateCreateInfo-polygonMode-01413]]
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If the <<features-features-fillModeNonSolid,non-solid fill modes>>
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feature is not enabled, pname:polygonMode must: be
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ename:VK_POLYGON_MODE_FILL
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endif::VK_NV_fill_rectangle[]
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ifdef::VK_NV_fill_rectangle[]
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* [[VUID-VkPipelineRasterizationStateCreateInfo-polygonMode-01507]]
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If the <<features-features-fillModeNonSolid,non-solid fill modes>>
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feature is not enabled, pname:polygonMode must: be
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ename:VK_POLYGON_MODE_FILL or ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV
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* [[VUID-VkPipelineRasterizationStateCreateInfo-polygonMode-01414]]
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If the `<<VK_NV_fill_rectangle>>` extension is not enabled,
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pname:polygonMode must: not be ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV
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endif::VK_NV_fill_rectangle[]
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****
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include::../validity/structs/VkPipelineRasterizationStateCreateInfo.txt[]
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--
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[open,refpage='VkPipelineRasterizationStateCreateFlags',desc='Reserved for future use',type='enums']
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--
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include::../api/flags/VkPipelineRasterizationStateCreateFlags.txt[]
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sname:VkPipelineRasterizationStateCreateFlags is a bitmask type for setting
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a mask, but is currently reserved for future use.
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--
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[open,refpage='VkPipelineMultisampleStateCreateInfo',desc='Structure specifying parameters of a newly created pipeline multisample state',type='structs']
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--
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The sname:VkPipelineMultisampleStateCreateInfo structure is defined as:
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include::../api/structs/VkPipelineMultisampleStateCreateInfo.txt[]
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* pname:sType is the type of this structure.
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* pname:pNext is `NULL` or a pointer to an extension-specific structure.
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* pname:flags is reserved for future use.
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* pname:rasterizationSamples is a elink:VkSampleCountFlagBits specifying
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the number of samples per pixel used in rasterization.
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* pname:sampleShadingEnable specifies that fragment shading executes
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per-sample if ename:VK_TRUE, or per-fragment if ename:VK_FALSE, as
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described in <<primsrast-sampleshading,Sample Shading>>.
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* pname:minSampleShading is the minimum fraction of sample shading, as
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described in <<primsrast-sampleshading,Sample Shading>>.
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* pname:pSampleMask is a bitmask of static coverage information that is
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ANDed with the coverage information generated during rasterization, as
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described in <<fragops-samplemask,Sample Mask>>.
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* pname:alphaToCoverageEnable controls whether a temporary coverage value
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is generated based on the alpha component of the fragment's first color
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output as specified in the <<fragops-covg,Multisample Coverage>>
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section.
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* pname:alphaToOneEnable controls whether the alpha component of the
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fragment's first color output is replaced with one as described in
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<<fragops-covg,Multisample Coverage>>.
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.Valid Usage
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****
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* [[VUID-VkPipelineMultisampleStateCreateInfo-sampleShadingEnable-00784]]
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If the <<features-features-sampleRateShading,sample rate shading>>
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feature is not enabled, pname:sampleShadingEnable must: be
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ename:VK_FALSE
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* [[VUID-VkPipelineMultisampleStateCreateInfo-alphaToOneEnable-00785]]
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If the <<features-features-alphaToOne,alpha to one>> feature is not
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enabled, pname:alphaToOneEnable must: be ename:VK_FALSE
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* [[VUID-VkPipelineMultisampleStateCreateInfo-minSampleShading-00786]]
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pname:minSampleShading must: be in the range [eq]#[0,1]#
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ifdef::VK_NV_framebuffer_mixed_samples[]
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* [[VUID-VkPipelineMultisampleStateCreateInfo-rasterizationSamples-01415]]
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If the subpass has any color attachments and pname:rasterizationSamples
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is greater than the number of color samples, then
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pname:sampleShadingEnable must: be ename:VK_FALSE
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endif::VK_NV_framebuffer_mixed_samples[]
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****
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include::../validity/structs/VkPipelineMultisampleStateCreateInfo.txt[]
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--
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[open,refpage='VkPipelineMultisampleStateCreateFlags',desc='Reserved for future use',type='enums']
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--
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include::../api/flags/VkPipelineMultisampleStateCreateFlags.txt[]
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sname:VkPipelineMultisampleStateCreateFlags is a bitmask type for setting a
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mask, but is currently reserved for future use.
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--
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Rasterization only produces fragments corresponding to pixels in the
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framebuffer.
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Fragments which would be produced by application of any of the primitive
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rasterization rules described below but which lie outside the framebuffer
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are not produced, nor are they processed by any later stage of the pipeline,
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including any of the early per-fragment tests described in
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<<fragops-early,Early Per-Fragment Tests>>.
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Surviving fragments are processed by fragment shaders.
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Fragment shaders determine associated data for fragments, and can: also
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modify or replace their assigned depth values.
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ifndef::VK_AMD_mixed_attachment_samples[]
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ifndef::VK_NV_framebuffer_mixed_samples[]
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If the subpass for which this pipeline is being created uses color and/or
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depth/stencil attachments, then pname:rasterizationSamples must: be the same
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as the sample count for those subpass attachments.
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endif::VK_NV_framebuffer_mixed_samples[]
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endif::VK_AMD_mixed_attachment_samples[]
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ifdef::VK_AMD_mixed_attachment_samples[]
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If the subpass for which this pipeline is being created uses color and/or
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depth/stencil attachments, then pname:rasterizationSamples must: be the same
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as the maximum of the sample counts of those subpass attachments.
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endif::VK_AMD_mixed_attachment_samples[]
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If the subpass for which this pipeline is being created does not use color
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or depth/stencil attachments, pname:rasterizationSamples must: follow the
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rules for a <<renderpass-noattachments, zero-attachment subpass>>.
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[[primsrast-discard]]
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== Discarding Primitives Before Rasterization
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Primitives are discarded before rasterization if the
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pname:rasterizerDiscardEnable member of
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slink:VkPipelineRasterizationStateCreateInfo is enabled.
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When enabled, primitives are discarded after they are processed by the last
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active shader stage in the pipeline before rasterization.
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[[primrast-order]]
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== Rasterization Order
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Within a subpass of a <<renderpass,render pass instance>>, for a given
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(x,y,layer,sample) sample location, the following operations are guaranteed
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to execute in _rasterization order_, for each separate primitive that
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includes that sample location:
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. <<fragops-scissor,Scissor test>>
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. <<fragops-samplemask,Sample mask generation>>
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. <<fragops-dbt,Depth bounds test>>
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. <<fragops-stencil, Stencil test, stencil op and stencil write>>
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. <<fragops-depth, Depth test and depth write>>
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. <<fragops-samplecount,Sample counting>> for
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<<queries-occlusion,occlusion queries>>
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ifdef::VK_NV_fragment_coverage_to_color[]
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. <<fragops-coverage-to-color,Fragment Coverage To Color>>
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endif::VK_NV_fragment_coverage_to_color[]
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. <<fragops-coverage-reduction,coverage reduction>>
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. <<framebuffer-blending, Blending>>, <<framebuffer-logicop, logic
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operations>>, and color writes
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Each of these operations is atomically executed for each primitive and
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sample location.
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Execution of these operations for each primitive in a subpass occurs in
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ifndef::VK_AMD_rasterization_order[]
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<<drawing-primitive-order, primitive order>>.
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endif::VK_AMD_rasterization_order[]
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ifdef::VK_AMD_rasterization_order[]
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an order determined by the application.
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[open,refpage='VkPipelineRasterizationStateRasterizationOrderAMD',desc='Structure defining rasterization order for a graphics pipeline',type='structs']
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--
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The rasterization order to use for a graphics pipeline is specified by
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adding a sname:VkPipelineRasterizationStateRasterizationOrderAMD structure
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to the pname:pNext chain of a slink:VkPipelineRasterizationStateCreateInfo
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structure.
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The sname:VkPipelineRasterizationStateRasterizationOrderAMD structure is
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defined as:
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include::../api/structs/VkPipelineRasterizationStateRasterizationOrderAMD.txt[]
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* pname:sType is the type of this structure.
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* pname:pNext is `NULL` or a pointer to an extension-specific structure.
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* pname:rasterizationOrder is a elink:VkRasterizationOrderAMD value
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specifying the primitive rasterization order to use.
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include::../validity/structs/VkPipelineRasterizationStateRasterizationOrderAMD.txt[]
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If the `<<VK_AMD_rasterization_order>>` device extension is not enabled or
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the application does not request a particular rasterization order through
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specifying a sname:VkPipelineRasterizationStateRasterizationOrderAMD
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structure then the rasterization order used by the graphics pipeline
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defaults to ename:VK_RASTERIZATION_ORDER_STRICT_AMD.
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--
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[open,refpage='VkRasterizationOrderAMD',desc='Specify rasterization order for a graphics pipeline',type='enums']
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--
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Possible values of
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slink:VkPipelineRasterizationStateRasterizationOrderAMD::pname:rasterizationOrder,
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specifying the primitive rasterization order, are:
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include::../api/enums/VkRasterizationOrderAMD.txt[]
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* ename:VK_RASTERIZATION_ORDER_STRICT_AMD specifies that operations for
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each primitive in a subpass must: occur in <<drawing-primitive-order,
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primitive order>>.
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* ename:VK_RASTERIZATION_ORDER_RELAXED_AMD specifies that operations for
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each primitive in a subpass may: not occur in <<drawing-primitive-order,
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primitive order>>.
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--
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endif::VK_AMD_rasterization_order[]
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[[primsrast-multisampling]]
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== Multisampling
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Multisampling is a mechanism to antialias all Vulkan primitives: points,
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lines, and polygons.
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The technique is to sample all primitives multiple times at each pixel.
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Each sample in each framebuffer attachment has storage for a color, depth,
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and/or stencil value, such that per-fragment operations apply to each sample
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independently.
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The color sample values can: be later _resolved_ to a single color (see
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<<copies-resolve,Resolving Multisample Images>> and the <<renderpass,Render
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Pass>> chapter for more details on how to resolve multisample images to
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non-multisample images).
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Vulkan defines rasterization rules for single-sample modes in a way that is
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equivalent to a multisample mode with a single sample in the center of each
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pixel.
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Each fragment includes a coverage value with pname:rasterizationSamples bits
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(see <<fragops-samplemask,Sample Mask>>).
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Each fragment includes pname:rasterizationSamples depth values and sets of
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associated data.
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An implementation may: choose to assign the same associated data to more
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than one sample.
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The location for evaluating such associated data may: be anywhere within the
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pixel including the pixel center or any of the sample locations.
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When pname:rasterizationSamples is ename:VK_SAMPLE_COUNT_1_BIT, the pixel
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center must: be used.
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The different associated data values need not all be evaluated at the same
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location.
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Each pixel fragment thus consists of integer x and y grid coordinates,
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pname:rasterizationSamples depth values and sets of associated data, and a
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coverage value with pname:rasterizationSamples bits.
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It is understood that each pixel has pname:rasterizationSamples locations
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associated with it.
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These locations are exact positions, rather than regions or areas, and each
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is referred to as a sample point.
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The sample points associated with a pixel must: be located inside or on the
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boundary of the unit square that is considered to bound the pixel.
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Furthermore, the relative locations of sample points may: be identical for
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each pixel in the framebuffer, or they may: differ.
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If the current pipeline includes a fragment shader with one or more
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variables in its interface decorated with code:Sample and code:Input, the
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data associated with those variables will be assigned independently for each
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sample.
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The values for each sample must: be evaluated at the location of the sample.
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The data associated with any other variables not decorated with code:Sample
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and code:Input need not be evaluated independently for each sample.
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If the pname:standardSampleLocations member of slink:VkPhysicalDeviceLimits
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is ename:VK_TRUE, then the sample counts ename:VK_SAMPLE_COUNT_1_BIT,
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ename:VK_SAMPLE_COUNT_2_BIT, ename:VK_SAMPLE_COUNT_4_BIT,
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ename:VK_SAMPLE_COUNT_8_BIT, and ename:VK_SAMPLE_COUNT_16_BIT have sample
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locations as listed in the following table, with the [eq]##i##th entry in
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the table corresponding to bit [eq]#i# in the sample masks.
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ename:VK_SAMPLE_COUNT_32_BIT and ename:VK_SAMPLE_COUNT_64_BIT do not have
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standard sample locations.
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Locations are defined relative to an origin in the upper left corner of the
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pixel.
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<<<
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.Standard sample locations
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[align="center"]
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|====
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|ename:VK_SAMPLE_COUNT_1_BIT|ename:VK_SAMPLE_COUNT_2_BIT|ename:VK_SAMPLE_COUNT_4_BIT|ename:VK_SAMPLE_COUNT_8_BIT|ename:VK_SAMPLE_COUNT_16_BIT
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[eq]#(0.5,0.5)#
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[eq]#(0.25,0.25)# +
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[eq]#(0.75,0.75)#
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[eq]#(0.375, 0.125)# +
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[eq]#(0.875, 0.375)# +
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[eq]#(0.125, 0.625)# +
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[eq]#(0.625, 0.875)#
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[eq]#(0.5625, 0.3125)# +
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[eq]#(0.4375, 0.6875)# +
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[eq]#(0.8125, 0.5625)# +
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[eq]#(0.3125, 0.1875)# +
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[eq]#(0.1875, 0.8125)# +
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[eq]#(0.0625, 0.4375)# +
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[eq]#(0.6875, 0.9375)# +
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[eq]#(0.9375, 0.0625)#
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[eq]#(0.5625, 0.5625)# +
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[eq]#(0.4375, 0.3125)# +
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[eq]#(0.3125, 0.625)# +
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[eq]#(0.75, 0.4375)# +
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[eq]#(0.1875, 0.375)# +
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[eq]#(0.625, 0.8125)# +
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[eq]#(0.8125, 0.6875)# +
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[eq]#(0.6875, 0.1875)# +
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[eq]#(0.375, 0.875)# +
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[eq]#(0.5, 0.0625)# +
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[eq]#(0.25, 0.125)# +
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[eq]#(0.125, 0.75)# +
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[eq]#(0.0, 0.5)# +
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[eq]#(0.9375, 0.25)# +
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[eq]#(0.875, 0.9375)# +
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[eq]#(0.0625, 0.0)#
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|====
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ifdef::VK_AMD_shader_fragment_mask[]
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Color images created with multiple samples per pixel use a compression
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technique where there are two arrays of data associated with each pixel.
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The first array contains one element per sample where each element stores an
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index to the second array defining the _fragment mask_ of the pixel.
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The second array contains one element per _color fragment_ and each element
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stores a unique color value in the format of the image.
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With this compression technique it's not always necessary to actually use
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unique storage locations for each color sample: when multiple samples share
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the same color value the fragment mask may: have two samples referring to
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the same color fragment.
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The number of color fragments is determined by the pname:samples member of
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the slink:VkImageCreateInfo structure used to create the image.
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The `<<VK_AMD_shader_fragment_mask>>` device extension provides shader
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instructions enabling the application to get direct access to the fragment
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mask and the individual color fragment values.
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[[vk-amd-shader-fragment-mask-diagram]]
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image::images/fragment_mask.png[align="center",title="Fragment Mask",{fullimagewidth},align="center"]
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|
|
endif::VK_AMD_shader_fragment_mask[]
|
|
|
|
ifdef::VK_EXT_sample_locations[]
|
|
|
|
[[primrast-samplelocations]]
|
|
== Custom Sample Locations
|
|
|
|
[open,refpage='VkPipelineSampleLocationsStateCreateInfoEXT',desc='Structure specifying sample locations for a pipeline',type='structs']
|
|
--
|
|
|
|
Applications can: also control the sample locations used for rasterization.
|
|
|
|
If the pname:pNext chain of the slink:VkPipelineMultisampleStateCreateInfo
|
|
structure specified at pipeline creation time includes an instance of the
|
|
sname:VkPipelineSampleLocationsStateCreateInfoEXT structure, then that
|
|
structure controls the sample locations used when rasterizing primitives
|
|
with the pipeline.
|
|
|
|
The sname:VkPipelineSampleLocationsStateCreateInfoEXT structure is defined
|
|
as:
|
|
|
|
include::../api/structs/VkPipelineSampleLocationsStateCreateInfoEXT.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:sampleLocationsEnable controls whether custom sample locations are
|
|
used.
|
|
If pname:sampleLocationsEnable is ename:VK_FALSE, the default sample
|
|
locations are used and the values specified in pname:sampleLocationsInfo
|
|
are ignored.
|
|
* pname:sampleLocationsInfo is the sample locations to use during
|
|
rasterization if pname:sampleLocationsEnable is ename:VK_TRUE and the
|
|
graphics pipeline isn't created with
|
|
ename:VK_DYNAMIC_STATE_SAMPLE_LOCATIONS_EXT.
|
|
|
|
include::../validity/structs/VkPipelineSampleLocationsStateCreateInfoEXT.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSampleLocationsInfoEXT',desc='Structure specifying a set of sample locations',type='structs']
|
|
--
|
|
|
|
The sname:VkSampleLocationsInfoEXT structure is defined as:
|
|
|
|
include::../api/structs/VkSampleLocationsInfoEXT.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:sampleLocationsPerPixel is a elink:VkSampleCountFlagBits
|
|
specifying the number of sample locations per pixel.
|
|
* pname:sampleLocationGridSize is the size of the sample location grid to
|
|
select custom sample locations for.
|
|
* pname:sampleLocationsCount is the number of sample locations in
|
|
pname:pSampleLocations.
|
|
* pname:pSampleLocations is an array of pname:sampleLocationsCount
|
|
slink:VkSampleLocationEXT structures.
|
|
|
|
This structure can: be used either to specify the sample locations to be
|
|
used for rendering or to specify the set of sample locations an image
|
|
subresource has been last rendered with for the purposes of layout
|
|
transitions of depth/stencil images created with
|
|
ename:VK_IMAGE_CREATE_SAMPLE_LOCATIONS_COMPATIBLE_DEPTH_BIT_EXT.
|
|
|
|
The sample locations in pname:pSampleLocations specify
|
|
pname:sampleLocationsPerPixel number of sample locations for each pixel in
|
|
the grid of the size specified in pname:sampleLocationGridSize.
|
|
The sample location for sample [eq]#i# at the pixel grid location
|
|
[eq]#(x,y)# is taken from [eq]#pname:pSampleLocations[(x + y *
|
|
pname:sampleLocationGridSize.width)
|
|
* pname:sampleLocationsPerPixel + i]#.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkSampleLocationsInfoEXT-sampleLocationsPerPixel-01526]]
|
|
pname:sampleLocationsPerPixel must: be a bit value that is set in
|
|
slink:VkPhysicalDeviceSampleLocationsPropertiesEXT::pname:sampleLocationSampleCounts
|
|
* [[VUID-VkSampleLocationsInfoEXT-sampleLocationsCount-01527]]
|
|
pname:sampleLocationsCount must: equal
|
|
[eq]#pname:sampleLocationsPerPixel {times}
|
|
pname:sampleLocationGridSize.width {times}
|
|
pname:sampleLocationGridSize.height#
|
|
****
|
|
|
|
include::../validity/structs/VkSampleLocationsInfoEXT.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSampleLocationEXT',desc='Structure specifying the coordinates of a sample location',type='structs']
|
|
--
|
|
|
|
The sname:VkSampleLocationEXT structure is defined as:
|
|
|
|
include::../api/structs/VkSampleLocationEXT.txt[]
|
|
|
|
* pname:x is the horizontal coordinate of the sample's location.
|
|
* pname:y is the vertical coordinate of the sample's location.
|
|
|
|
The domain space of the sample location coordinates has an upper-left origin
|
|
within the pixel in framebuffer space.
|
|
|
|
The values specified in a sname:VkSampleLocationEXT structure are always
|
|
clamped to the implementation-dependent sample location coordinate range
|
|
[eq]#[pname:sampleLocationCoordinateRange[0],pname:sampleLocationCoordinateRange[1]]#
|
|
that can: be queried by chaining the
|
|
slink:VkPhysicalDeviceSampleLocationsPropertiesEXT structure to the
|
|
pname:pNext chain of slink:VkPhysicalDeviceProperties2KHR.
|
|
|
|
include::../validity/structs/VkSampleLocationEXT.txt[]
|
|
--
|
|
|
|
[open,refpage='vkCmdSetSampleLocationsEXT',desc='Set the dynamic sample locations state',type='protos']
|
|
--
|
|
The custom sample locations used for rasterization when
|
|
sname:VkPipelineSampleLocationsStateCreateInfoEXT::pname:sampleLocationsEnable
|
|
is ename:VK_TRUE are specified by the
|
|
sname:VkPipelineSampleLocationsStateCreateInfoEXT::pname:sampleLocationsInfo
|
|
property of the currently bound graphics pipeline, if the pipeline was not
|
|
created with ename:VK_DYNAMIC_STATE_SAMPLE_LOCATIONS_EXT enabled.
|
|
|
|
Otherwise, the sample locations used for rasterization are set by calling
|
|
fname:vkCmdSetSampleLocationsEXT:
|
|
|
|
include::../api/protos/vkCmdSetSampleLocationsEXT.txt[]
|
|
|
|
* pname:commandBuffer is the command buffer into which the command will be
|
|
recorded.
|
|
* pname:pSampleLocationsInfo is the sample locations state to set.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-vkCmdSetSampleLocationsEXT-None-01528]]
|
|
The currently bound graphics pipeline must: have been created with the
|
|
ename:VK_DYNAMIC_STATE_SAMPLE_LOCATIONS_EXT dynamic state enabled
|
|
* [[VUID-vkCmdSetSampleLocationsEXT-sampleLocationsPerPixel-01529]]
|
|
The pname:sampleLocationsPerPixel member of pname:pSampleLocationsInfo
|
|
must: equal the pname:rasterizationSamples member of the
|
|
slink:VkPipelineMultisampleStateCreateInfo structure the currently bound
|
|
graphics pipeline has been created with
|
|
* [[VUID-vkCmdSetSampleLocationsEXT-variableSampleLocations-01530]]
|
|
If
|
|
slink:VkPhysicalDeviceSampleLocationsPropertiesEXT::pname:variableSampleLocations
|
|
is ename:VK_FALSE then the current render pass must: have been begun by
|
|
specifying a slink:VkRenderPassSampleLocationsBeginInfoEXT structure
|
|
whose pname:pPostSubpassSampleLocations member contains an element with
|
|
a pname:subpassIndex matching the current subpass index and the
|
|
pname:sampleLocationsInfo member of that element must: match the sample
|
|
locations state pointed to by pname:pSampleLocationsInfo
|
|
****
|
|
|
|
include::../validity/protos/vkCmdSetSampleLocationsEXT.txt[]
|
|
--
|
|
|
|
endif::VK_EXT_sample_locations[]
|
|
|
|
|
|
[[primsrast-sampleshading]]
|
|
== Sample Shading
|
|
|
|
Sample shading can: be used to specify a minimum number of unique samples to
|
|
process for each fragment.
|
|
Sample shading is controlled by the pname:sampleShadingEnable member of
|
|
slink:VkPipelineMultisampleStateCreateInfo.
|
|
If pname:sampleShadingEnable is ename:VK_FALSE, sample shading is considered
|
|
disabled and has no effect.
|
|
ifndef::VK_AMD_mixed_attachment_samples[]
|
|
Otherwise, an implementation must: provide a minimum of [eq]#max({lceil}
|
|
pname:minSampleShading {times} pname:rasterizationSamples {rceil}, 1)#
|
|
unique associated data for each fragment, where pname:minSampleShading is
|
|
the minimum fraction of sample shading and pname:rasterizationSamples is the
|
|
number of samples requested in slink:VkPipelineMultisampleStateCreateInfo.
|
|
endif::VK_AMD_mixed_attachment_samples[]
|
|
ifdef::VK_AMD_mixed_attachment_samples[]
|
|
Otherwise, an implementation must: provide a minimum of [eq]#max({lceil}
|
|
pname:minSampleShading {times} pname:samples {rceil}, 1)# unique associated
|
|
data for each fragment, where pname:minSampleShading is the minimum fraction
|
|
of sample shading and pname:samples is the number of samples of the color
|
|
attachments used in the subpass or the value of
|
|
slink:VkPipelineMultisampleStateCreateInfo::pname:rasterizationSamples if
|
|
the subpass does not use any color attachments.
|
|
endif::VK_AMD_mixed_attachment_samples[]
|
|
These are associated with the samples in an implementation-dependent manner.
|
|
When the sample shading fraction is 1.0, a separate set of associated data
|
|
are evaluated for each sample, and each set of values is evaluated at the
|
|
sample location.
|
|
|
|
|
|
[[primsrast-points]]
|
|
== Points
|
|
|
|
A point is drawn by generating a set of fragments in the shape of a square
|
|
centered around the vertex of the point.
|
|
Each vertex has an associated point size that controls the width/height of
|
|
that square.
|
|
The point size is taken from the (potentially clipped) shader built-in
|
|
code:PointSize written by:
|
|
|
|
* the geometry shader, if active;
|
|
* the tessellation evaluation shader, if active and no geometry shader is
|
|
active;
|
|
* the tessellation control shader, if active and no geometry or
|
|
tessellation evaluation shader is active; or
|
|
* the vertex shader, otherwise
|
|
|
|
and clamped to the implementation-dependent point size range
|
|
[eq]#[pname:pointSizeRange[0],pname:pointSizeRange[1]]#.
|
|
If the value written to code:PointSize is less than or equal to zero, or if
|
|
no value was written to code:PointSize, results are undefined.
|
|
|
|
Not all point sizes need be supported, but the size 1.0 must: be supported.
|
|
The range of supported sizes and the size of evenly-spaced gradations within
|
|
that range are implementation-dependent.
|
|
The range and gradations are obtained from the pname:pointSizeRange and
|
|
pname:pointSizeGranularity members of slink:VkPhysicalDeviceLimits.
|
|
If, for instance, the size range is from 0.1 to 2.0 and the gradation size
|
|
is 0.1, then the size 0.1, 0.2, ..., 1.9, 2.0 are supported.
|
|
Additional point sizes may: also be supported.
|
|
There is no requirement that these sizes be equally spaced.
|
|
If an unsupported size is requested, the nearest supported size is used
|
|
instead.
|
|
|
|
|
|
[[primsrast-points-basic]]
|
|
=== Basic Point Rasterization
|
|
|
|
Point rasterization produces a fragment for each framebuffer pixel with one
|
|
or more sample points that intersect a region centered at the point's
|
|
[eq]#(x~f~,y~f~)#.
|
|
This region is a square with side equal to the current point size.
|
|
Coverage bits that correspond to sample points that intersect the region are
|
|
1, other coverage bits are 0.
|
|
|
|
All fragments produced in rasterizing a point are assigned the same
|
|
associated data, which are those of the vertex corresponding to the point.
|
|
However, the fragment shader built-in code:PointCoord contains point sprite
|
|
texture coordinates.
|
|
The [eq]#s# and [eq]#t# point sprite texture coordinates vary from zero to
|
|
one across the point horizontally left-to-right and top-to-bottom,
|
|
respectively.
|
|
The following formulas are used to evaluate [eq]#s# and [eq]#t#:
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
s = {1 \over 2} + { \left( x_p - x_f \right) \over \text{size} }
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
t = {1 \over 2} + { \left( y_p - y_f \right) \over \text{size} }
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where size is the point's size, [eq]#(x~p~,y~p~)# is the location at which
|
|
the point sprite coordinates are evaluated - this may: be the framebuffer
|
|
coordinates of the pixel center (i.e. at the half-integer) or the location
|
|
of a sample, and [eq]#(x~f~,y~f~)# is the exact, unrounded framebuffer
|
|
coordinate of the vertex for the point.
|
|
When pname:rasterizationSamples is ename:VK_SAMPLE_COUNT_1_BIT, the pixel
|
|
center must: be used.
|
|
|
|
|
|
[[primsrast-lines]]
|
|
== Line Segments
|
|
|
|
A line is drawn by generating a set of fragments overlapping a rectangle
|
|
centered on the line segment.
|
|
Each line segment has an associated width that controls the width of that
|
|
rectangle.
|
|
|
|
[open,refpage='vkCmdSetLineWidth',desc='Set the dynamic line width state',type='protos']
|
|
--
|
|
|
|
The line width is specified by the
|
|
slink:VkPipelineRasterizationStateCreateInfo::pname:lineWidth property of
|
|
the currently active pipeline, if the pipeline was not created with
|
|
ename:VK_DYNAMIC_STATE_LINE_WIDTH enabled.
|
|
|
|
Otherwise, the line width is set by calling fname:vkCmdSetLineWidth:
|
|
|
|
include::../api/protos/vkCmdSetLineWidth.txt[]
|
|
|
|
* pname:commandBuffer is the command buffer into which the command will be
|
|
recorded.
|
|
* pname:lineWidth is the width of rasterized line segments.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-vkCmdSetLineWidth-None-00787]]
|
|
The currently bound graphics pipeline must: have been created with the
|
|
ename:VK_DYNAMIC_STATE_LINE_WIDTH dynamic state enabled
|
|
* [[VUID-vkCmdSetLineWidth-lineWidth-00788]]
|
|
If the <<features-features-wideLines,wide lines>> feature is not
|
|
enabled, pname:lineWidth must: be `1.0`
|
|
****
|
|
|
|
include::../validity/protos/vkCmdSetLineWidth.txt[]
|
|
--
|
|
|
|
Not all line widths need be supported for line segment rasterization, but
|
|
width 1.0 antialiased segments must: be provided.
|
|
The range and gradations are obtained from the pname:lineWidthRange and
|
|
pname:lineWidthGranularity members of slink:VkPhysicalDeviceLimits.
|
|
If, for instance, the size range is from 0.1 to 2.0 and the gradation size
|
|
is 0.1, then the size 0.1, 0.2, ..., 1.9, 2.0 are supported.
|
|
Additional line widths may: also be supported.
|
|
There is no requirement that these widths be equally spaced.
|
|
If an unsupported width is requested, the nearest supported width is used
|
|
instead.
|
|
|
|
|
|
[[primsrast-lines-basic]]
|
|
=== Basic Line Segment Rasterization
|
|
|
|
Rasterized line segments produce fragments which intersect a rectangle
|
|
centered on the line segment.
|
|
Two of the edges are parallel to the specified line segment; each is at a
|
|
distance of one-half the current width from that segment in directions
|
|
perpendicular to the direction of the line.
|
|
The other two edges pass through the line endpoints and are perpendicular to
|
|
the direction of the specified line segment.
|
|
Coverage bits that correspond to sample points that intersect the rectangle
|
|
are 1, other coverage bits are 0.
|
|
|
|
Next we specify how the data associated with each rasterized fragment are
|
|
obtained.
|
|
Let [eq]#**p**~r~ = (x~d~, y~d~)# be the framebuffer coordinates at which
|
|
associated data are evaluated.
|
|
This may: be the pixel center of a fragment or the location of a sample
|
|
within the fragment.
|
|
When pname:rasterizationSamples is ename:VK_SAMPLE_COUNT_1_BIT, the pixel
|
|
center must: be used.
|
|
Let [eq]#**p**~a~ = (x~a~, y~a~)# and [eq]#**p**~b~ = (x~b~,y~b~)# be
|
|
initial and final endpoints of the line segment, respectively.
|
|
Set
|
|
|
|
// Equation {linet:eq}
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
t = {{( \mathbf{p}_r - \mathbf{p}_a ) \cdot ( \mathbf{p}_b - \mathbf{p}_a )}
|
|
\over {\| \mathbf{p}_b - \mathbf{p}_a \|^2 }}
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
(Note that [eq]#t = 0# at [eq]#**p**_a# and [eq]#t = 1# at [eq]#**p**~b~#.
|
|
Also note that this calculation projects the vector from [eq]#**p**~a~# to
|
|
[eq]#**p**~r~# onto the line, and thus computes the normalized distance of
|
|
the fragment along the line.)
|
|
|
|
[[line_perspective_interpolation]]
|
|
The value of an associated datum [eq]#f# for the fragment, whether it be a
|
|
shader output or the clip [eq]#w# coordinate, must: be determined using
|
|
_perspective interpolation_:
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
f = {{ (1-t) {f_a / w_a} + t { f_b / w_b} } \over
|
|
{(1-t) / w_a + t / w_b }}
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where [eq]#f~a~# and [eq]#f~b~# are the data associated with the starting
|
|
and ending endpoints of the segment, respectively; [eq]#w~a~# and [eq]#w~b~#
|
|
are the clip [eq]#w# coordinates of the starting and ending endpoints of the
|
|
segments, respectively.
|
|
|
|
[[line_linear_interpolation]]
|
|
Depth values for lines must: be determined using _linear interpolation_:
|
|
|
|
:: [eq]#z = (1 - t) z~a~ {plus} t z~b~#
|
|
|
|
where [eq]#z~a~# and [eq]#z~b~# are the depth values of the starting and
|
|
ending endpoints of the segment, respectively.
|
|
|
|
The code:NoPerspective and code:Flat
|
|
<<shaders-interpolation-decorations,interpolation decorations>> can: be used
|
|
with fragment shader inputs to declare how they are interpolated.
|
|
When neither decoration is applied, <<line_perspective_interpolation,
|
|
perspective interpolation>> is performed as described above.
|
|
When the code:NoPerspective decoration is used, <<line_linear_interpolation,
|
|
linear interpolation>> is performed in the same fashion as for depth values,
|
|
as described above.
|
|
When the code:Flat decoration is used, no interpolation is performed, and
|
|
outputs are taken from the corresponding input value of the
|
|
<<vertexpostproc-flatshading,provoking vertex>> corresponding to that
|
|
primitive.
|
|
|
|
The above description documents the preferred method of line rasterization,
|
|
and must: be used when the implementation advertises the pname:strictLines
|
|
limit in slink:VkPhysicalDeviceLimits as ename:VK_TRUE.
|
|
|
|
When pname:strictLines is ename:VK_FALSE, the edges of the lines are
|
|
generated as a parallelogram surrounding the original line.
|
|
The major axis is chosen by noting the axis in which there is the greatest
|
|
distance between the line start and end points.
|
|
If the difference is equal in both directions then the X axis is chosen as
|
|
the major axis.
|
|
Edges 2 and 3 are aligned to the minor axis and are centered on the
|
|
endpoints of the line as in <<fig-non-strict-lines>>, and each is
|
|
pname:lineWidth long.
|
|
Edges 0 and 1 are parallel to the line and connect the endpoints of edges 2
|
|
and 3.
|
|
Coverage bits that correspond to sample points that intersect the
|
|
parallelogram are 1, other coverage bits are 0.
|
|
|
|
Samples that fall exactly on the edge of the parallelogram follow the
|
|
polygon rasterization rules.
|
|
|
|
Interpolation occurs as if the parallelogram was decomposed into two
|
|
triangles where each pair of vertices at each end of the line has identical
|
|
attributes.
|
|
|
|
[[fig-non-strict-lines]]
|
|
image::images/non_strict_lines.svg[align="center",title="Non strict lines",{fullimagewidth}]
|
|
|
|
|
|
[[primsrast-polygons]]
|
|
== Polygons
|
|
|
|
A polygon results from the decomposition of a triangle strip, triangle fan
|
|
or a series of independent triangles.
|
|
Like points and line segments, polygon rasterization is controlled by
|
|
several variables in the slink:VkPipelineRasterizationStateCreateInfo
|
|
structure.
|
|
|
|
|
|
[[primsrast-polygons-basic]]
|
|
=== Basic Polygon Rasterization
|
|
|
|
[open,refpage='VkFrontFace',desc='Interpret polygon front-facing orientation',type='enums']
|
|
--
|
|
|
|
The first step of polygon rasterization is to determine whether the triangle
|
|
is _back-facing_ or _front-facing_.
|
|
This determination is made based on the sign of the (clipped or unclipped)
|
|
polygon's area computed in framebuffer coordinates.
|
|
One way to compute this area is:
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
a = -{1 \over 2}\sum_{i=0}^{n-1}
|
|
x_f^i y_f^{i \oplus 1} -
|
|
x_f^{i \oplus 1} y_f^i
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where latexmath:[x_f^i] and latexmath:[y_f^i] are the [eq]#x# and [eq]#y#
|
|
framebuffer coordinates of the [eq]##i##th vertex of the [eq]#n#-vertex
|
|
polygon (vertices are numbered starting at zero for the purposes of this
|
|
computation) and [eq]#i {oplus} 1# is [eq]#(i {plus} 1) mod n#.
|
|
|
|
The interpretation of the sign of [eq]#a# is determined by the
|
|
slink:VkPipelineRasterizationStateCreateInfo::pname:frontFace property of
|
|
the currently active pipeline.
|
|
Possible values are:
|
|
|
|
include::../api/enums/VkFrontFace.txt[]
|
|
|
|
* ename:VK_FRONT_FACE_COUNTER_CLOCKWISE specifies that a triangle with
|
|
positive area is considered front-facing.
|
|
* ename:VK_FRONT_FACE_CLOCKWISE specifies that a triangle with negative
|
|
area is considered front-facing.
|
|
|
|
Any triangle which is not front-facing is back-facing, including zero-area
|
|
triangles.
|
|
|
|
--
|
|
|
|
[open,refpage='VkCullModeFlagBits',desc='Bitmask controlling triangle culling',type='enums']
|
|
--
|
|
|
|
Once the orientation of triangles is determined, they are culled according
|
|
to the slink:VkPipelineRasterizationStateCreateInfo::pname:cullMode property
|
|
of the currently active pipeline.
|
|
Possible values are:
|
|
|
|
include::../api/enums/VkCullModeFlagBits.txt[]
|
|
|
|
* ename:VK_CULL_MODE_NONE specifies that no triangles are discarded
|
|
* ename:VK_CULL_MODE_FRONT_BIT specifies that front-facing triangles are
|
|
discarded
|
|
* ename:VK_CULL_MODE_BACK_BIT specifies that back-facing triangles are
|
|
discarded
|
|
* ename:VK_CULL_MODE_FRONT_AND_BACK specifies that all triangles are
|
|
discarded.
|
|
|
|
Following culling, fragments are produced for any triangles which have not
|
|
been discarded.
|
|
|
|
--
|
|
|
|
[open,refpage='VkCullModeFlags',desc='Bitmask of VkCullModeFlagBits',type='enums']
|
|
--
|
|
include::../api/flags/VkCullModeFlags.txt[]
|
|
|
|
sname:VkCullModeFlags is a bitmask type for setting a mask of zero or more
|
|
slink:VkCullModeFlagBits.
|
|
--
|
|
|
|
The rule for determining which fragments are produced by polygon
|
|
rasterization is called _point sampling_.
|
|
The two-dimensional projection obtained by taking the x and y framebuffer
|
|
coordinates of the polygon's vertices is formed.
|
|
Fragments are produced for any pixels for which any sample points lie inside
|
|
of this polygon.
|
|
Coverage bits that correspond to sample points that satisfy the point
|
|
sampling criteria are 1, other coverage bits are 0.
|
|
Special treatment is given to a sample whose sample location lies on a
|
|
polygon edge.
|
|
In such a case, if two polygons lie on either side of a common edge (with
|
|
identical endpoints) on which a sample point lies, then exactly one of the
|
|
polygons must: result in a covered sample for that fragment during
|
|
rasterization.
|
|
As for the data associated with each fragment produced by rasterizing a
|
|
polygon, we begin by specifying how these values are produced for fragments
|
|
in a triangle.
|
|
Define _barycentric coordinates_ for a triangle.
|
|
Barycentric coordinates are a set of three numbers, [eq]#a#, [eq]#b#, and
|
|
[eq]#c#, each in the range [eq]#[0,1]#, with [eq]#a {plus} b {plus} c = 1#.
|
|
These coordinates uniquely specify any point [eq]#p# within the triangle or
|
|
on the triangle's boundary as
|
|
|
|
:: [eq]#p = a p~a~ {plus} b p~b~ {plus} c p~c~#
|
|
|
|
where [eq]#p~a~#, [eq]#p~b~#, and [eq]#p~c~# are the vertices of the
|
|
triangle.
|
|
[eq]#a#, [eq]#b#, and [eq]#c# are determined by:
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
a = {{\mathrm{A}(p p_b p_c)} \over {\mathrm{A}(p_a p_b p_c)}}, \quad
|
|
b = {{\mathrm{A}(p p_a p_c)} \over {\mathrm{A}(p_a p_b p_c)}}, \quad
|
|
c = {{\mathrm{A}(p p_a p_b)} \over {\mathrm{A}(p_a p_b p_c)}},
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where [eq]#A(lmn)# denotes the area in framebuffer coordinates of the
|
|
triangle with vertices [eq]#l#, [eq]#m#, and [eq]#n#.
|
|
|
|
Denote an associated datum at [eq]#p~a~#, [eq]#p~b~#, or [eq]#p~c~# as
|
|
[eq]#f~a~#, [eq]#f~b~#, or [eq]#f~c~#, respectively.
|
|
|
|
[[triangle_perspective_interpolation]]
|
|
The value of an associated datum [eq]#f# for a fragment produced by
|
|
rasterizing a triangle, whether it be a shader output or the clip [eq]#w#
|
|
coordinate, must: be determined using perspective interpolation:
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
f = { a {f_a / w_a} + b {f_b / w_b} + c {f_c / w_c} } \over
|
|
{ {a / w_a} + {b / w_b} + {c / w_c} }
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where [eq]#w~a~#, [eq]#w~b~#, and [eq]#w~c~# are the clip [eq]#w#
|
|
coordinates of [eq]#p~a~#, [eq]#p~b~#, and [eq]#p~c~#, respectively.
|
|
[eq]#a#, [eq]#b#, and [eq]#c# are the barycentric coordinates of the
|
|
location at which the data are produced - this must: be a pixel center or
|
|
the location of a sample.
|
|
When pname:rasterizationSamples is ename:VK_SAMPLE_COUNT_1_BIT, the pixel
|
|
center must: be used.
|
|
|
|
[[triangle_linear_interpolation]]
|
|
Depth values for triangles must: be determined using linear interpolation:
|
|
|
|
:: [eq]#z = a z~a~ {plus} b z~b~ {plus} c z~c~#
|
|
|
|
where [eq]#z~a~#, [eq]#z~b~#, and [eq]#z~c~# are the depth values of
|
|
[eq]#p~a~#, [eq]#p~b~#, and [eq]#p~c~#, respectively.
|
|
|
|
The code:NoPerspective and code:Flat
|
|
<<shaders-interpolation-decorations,interpolation decorations>> can: be used
|
|
with fragment shader inputs to declare how they are interpolated.
|
|
When neither decoration is applied, <<triangle_perspective_interpolation,
|
|
perspective interpolation>> is performed as described above.
|
|
When the code:NoPerspective decoration is used,
|
|
<<triangle_linear_interpolation, linear interpolation>> is performed in the
|
|
same fashion as for depth values, as described above.
|
|
When the code:Flat decoration is used, no interpolation is performed, and
|
|
outputs are taken from the corresponding input value of the
|
|
<<vertexpostproc-flatshading,provoking vertex>> corresponding to that
|
|
primitive.
|
|
|
|
ifdef::VK_AMD_shader_explicit_vertex_parameter[]
|
|
When the `<<VK_AMD_shader_explicit_vertex_parameter>>` device extension is
|
|
enabled the code:CustomInterpAMD <<shaders-interpolation-decorations,
|
|
interpolation decoration>> can: also be used with fragment shader inputs
|
|
which indicate that the decorated inputs can: only be accessed by the
|
|
extended instruction code:InterpolateAtVertexAMD and allows accessing the
|
|
value of the inputs for individual vertices of the primitive.
|
|
endif::VK_AMD_shader_explicit_vertex_parameter[]
|
|
|
|
For a polygon with more than three edges, such as are produced by clipping a
|
|
triangle, a convex combination of the values of the datum at the polygon's
|
|
vertices must: be used to obtain the value assigned to each fragment
|
|
produced by the rasterization algorithm.
|
|
That is, it must: be the case that at every fragment
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
f = \sum_{i=1}^{n} a_i f_i
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where [eq]#n# is the number of vertices in the polygon and [eq]#f~i~# is the
|
|
value of [eq]#f# at vertex [eq]#i#.
|
|
For each [eq]#i#, [eq]#0 {leq} a~i~ {leq} 1# and
|
|
latexmath:[\sum_{i=1}^{n}a_i = 1].
|
|
The values of [eq]#a~i~# may: differ from fragment to fragment, but at
|
|
vertex [eq]#i#, [eq]#a~i~ = 1# and [eq]#a~j~ = 0# for [eq]#j {neq} i#.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
One algorithm that achieves the required behavior is to triangulate a
|
|
polygon (without adding any vertices) and then treat each triangle
|
|
individually as already discussed.
|
|
A scan-line rasterizer that linearly interpolates data along each edge and
|
|
then linearly interpolates data across each horizontal span from edge to
|
|
edge also satisfies the restrictions (in this case, the numerator and
|
|
denominator of equation <<triangle_perspective_interpolation>> are iterated
|
|
independently and a division performed for each fragment).
|
|
====
|
|
|
|
|
|
[[primsrast-polygonmode]]
|
|
=== Polygon Mode
|
|
|
|
[open,refpage='VkPolygonMode',desc='Control polygon rasterization mode',type='enums']
|
|
--
|
|
|
|
Possible values of the
|
|
slink:VkPipelineRasterizationStateCreateInfo::pname:polygonMode property of
|
|
the currently active pipeline, specifying the method of rasterization for
|
|
polygons, are:
|
|
|
|
include::../api/enums/VkPolygonMode.txt[]
|
|
|
|
* ename:VK_POLYGON_MODE_POINT specifies that polygon vertices are drawn as
|
|
points.
|
|
* ename:VK_POLYGON_MODE_LINE specifies that polygon edges are drawn as
|
|
line segments.
|
|
* ename:VK_POLYGON_MODE_FILL specifies that polygons are rendered using
|
|
the polygon rasterization rules in this section.
|
|
ifdef::VK_NV_fill_rectangle[]
|
|
* ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV specifies that polygons are
|
|
rendered using polygon rasterization rules, modified to consider a
|
|
sample within the primitive if the sample location is inside the
|
|
axis-aligned bounding box of the triangle after projection.
|
|
Note that the barycentric weights used in attribute interpolation can:
|
|
extend outside the range [eq]#[0,1]# when these primitives are shaded.
|
|
Special treatment is given to a sample position on the boundary edge of
|
|
the bounding box.
|
|
In such a case, if two rectangles lie on either side of a common edge
|
|
(with identical endpoints) on which a sample position lies, then exactly
|
|
one of the triangles must: produce a fragment that covers that sample
|
|
during rasterization.
|
|
+
|
|
Polygons rendered in ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV mode may: be
|
|
clipped by the frustum or by user clip planes.
|
|
If clipping is applied, the triangle is culled rather than clipped.
|
|
+
|
|
Area calculation and facingness are determined for
|
|
ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV mode using the triangle's
|
|
vertices.
|
|
endif::VK_NV_fill_rectangle[]
|
|
|
|
These modes affect only the final rasterization of polygons: in particular,
|
|
a polygon's vertices are shaded and the polygon is clipped and possibly
|
|
culled before these modes are applied.
|
|
|
|
--
|
|
|
|
|
|
[[primsrast-depthbias]]
|
|
=== Depth Bias
|
|
|
|
[open,refpage='vkCmdSetDepthBias',desc='Set the depth bias dynamic state',type='protos']
|
|
--
|
|
|
|
The depth values of all fragments generated by the rasterization of a
|
|
polygon can: be offset by a single value that is computed for that polygon.
|
|
This behavior is controlled by the pname:depthBiasEnable,
|
|
pname:depthBiasConstantFactor, pname:depthBiasClamp, and
|
|
pname:depthBiasSlopeFactor members of
|
|
slink:VkPipelineRasterizationStateCreateInfo, or by the corresponding
|
|
parameters to the fname:vkCmdSetDepthBias command if depth bias state is
|
|
dynamic.
|
|
|
|
include::../api/protos/vkCmdSetDepthBias.txt[]
|
|
|
|
* pname:commandBuffer is the command buffer into which the command will be
|
|
recorded.
|
|
* pname:depthBiasConstantFactor is a scalar factor controlling the
|
|
constant depth value added to each fragment.
|
|
* pname:depthBiasClamp is the maximum (or minimum) depth bias of a
|
|
fragment.
|
|
* pname:depthBiasSlopeFactor is a scalar factor applied to a fragment's
|
|
slope in depth bias calculations.
|
|
|
|
If pname:depthBiasEnable is ename:VK_FALSE, no depth bias is applied and the
|
|
fragment's depth values are unchanged.
|
|
|
|
pname:depthBiasSlopeFactor scales the maximum depth slope of the polygon,
|
|
and pname:depthBiasConstantFactor scales an implementation-dependent
|
|
constant that relates to the usable resolution of the depth buffer.
|
|
The resulting values are summed to produce the depth bias value which is
|
|
then clamped to a minimum or maximum value specified by
|
|
pname:depthBiasClamp.
|
|
pname:depthBiasSlopeFactor, pname:depthBiasConstantFactor, and
|
|
pname:depthBiasClamp can: each be positive, negative, or zero.
|
|
|
|
The maximum depth slope [eq]#m# of a triangle is
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
m = \sqrt{ \left({{\partial z_f} \over {\partial x_f}}\right)^2
|
|
+ \left({{\partial z_f} \over {\partial y_f}}\right)^2}
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
where [eq]#(x~f~, y~f~, z~f~)# is a point on the triangle.
|
|
[eq]#m# may: be approximated as
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
m = \max\left( \left| { {\partial z_f} \over {\partial x_f} } \right|,
|
|
\left| { {\partial z_f} \over {\partial y_f} } \right|
|
|
\right).
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
The minimum resolvable difference [eq]#r# is an implementation-dependent
|
|
parameter that depends on the depth buffer representation.
|
|
It is the smallest difference in framebuffer coordinate [eq]#z# values that
|
|
is guaranteed to remain distinct throughout polygon rasterization and in the
|
|
depth buffer.
|
|
All pairs of fragments generated by the rasterization of two polygons with
|
|
otherwise identical vertices, but [eq]#pname:z~f~# values that differ by
|
|
$r$, will have distinct depth values.
|
|
|
|
For fixed-point depth buffer representations, [eq]#r# is constant throughout
|
|
the range of the entire depth buffer.
|
|
For floating-point depth buffers, there is no single minimum resolvable
|
|
difference.
|
|
In this case, the minimum resolvable difference for a given polygon is
|
|
dependent on the maximum exponent, [eq]#e#, in the range of [eq]#z# values
|
|
spanned by the primitive.
|
|
If [eq]#n# is the number of bits in the floating-point mantissa, the minimum
|
|
resolvable difference, [eq]#r#, for the given primitive is defined as
|
|
|
|
:: [eq]#r = 2^e-n^#
|
|
|
|
ifdef::VK_NV_fill_rectangle[]
|
|
If a triangle is rasterized using the
|
|
ename:VK_POLYGON_MODE_FILL_RECTANGLE_NV polygon mode, then this minimum
|
|
resolvable difference may: not be resolvable for samples outside of the
|
|
triangle, where the depth is extrapolated.
|
|
endif::VK_NV_fill_rectangle[]
|
|
|
|
|
|
If no depth buffer is present, [eq]#r# is undefined.
|
|
|
|
The bias value [eq]#o# for a polygon is
|
|
|
|
[latexmath]
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
o =
|
|
\begin{cases}
|
|
m \times depthBiasSlopeFactor +
|
|
r \times depthBiasConstantFactor & depthBiasClamp = 0\ or\ NaN \\
|
|
\min(m \times depthBiasSlopeFactor +
|
|
r \times depthBiasConstantFactor,
|
|
depthBiasClamp) & depthBiasClamp > 0 \\
|
|
\max(m \times depthBiasSlopeFactor +
|
|
r \times depthBiasConstantFactor,
|
|
depthBiasClamp) & depthBiasClamp < 0 \\
|
|
\end{cases}
|
|
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
|
|
|
|
[eq]#m# is computed as described above.
|
|
If the depth buffer uses a fixed-point representation, [eq]#m# is a function
|
|
of depth values in the range [eq]#[0,1]#, and [eq]#o# is applied to depth
|
|
values in the same range.
|
|
|
|
For fixed-point depth buffers, fragment depth values are always limited to
|
|
the range [eq]#[0,1]# by clamping after depth bias addition is performed.
|
|
Fragment depth values are clamped even when the depth buffer uses a
|
|
floating-point representation.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-vkCmdSetDepthBias-None-00789]]
|
|
The currently bound graphics pipeline must: have been created with the
|
|
ename:VK_DYNAMIC_STATE_DEPTH_BIAS dynamic state enabled
|
|
* [[VUID-vkCmdSetDepthBias-depthBiasClamp-00790]]
|
|
If the <<features-features-depthBiasClamp,depth bias clamping>> feature
|
|
is not enabled, pname:depthBiasClamp must: be `0.0`
|
|
****
|
|
|
|
include::../validity/protos/vkCmdSetDepthBias.txt[]
|
|
--
|
|
|
|
ifdef::VK_EXT_conservative_rasterization[]
|
|
[[primsrast-conservativeraster]]
|
|
=== Conservative Rasterization
|
|
|
|
[open,refpage='VkPipelineRasterizationConservativeStateCreateInfoEXT',desc='Structure specifying conservative raster state',type='structs']
|
|
--
|
|
|
|
Polygon rasterization can: be made conservative by setting
|
|
pname:conservativeRasterizationMode to
|
|
ename:VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT or
|
|
ename:VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT in
|
|
sname:VkPipelineRasterizationConservativeStateCreateInfoEXT.
|
|
The sname:VkPipelineRasterizationConservativeStateCreateInfoEXT state is set
|
|
by adding an instance of this structure to the pname:pNext chain of an
|
|
instance of the sname:VkPipelineRasterizationStateCreateInfo structure when
|
|
creating the graphics pipeline.
|
|
Enabling these modes also affects line and point rasterization if the
|
|
implementation sets
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:conservativePointAndLineRasterization
|
|
to pname:VK_TRUE.
|
|
|
|
sname:VkPipelineRasterizationConservativeStateCreateInfoEXT is defined as:
|
|
|
|
include::../api/structs/VkPipelineRasterizationConservativeStateCreateInfoEXT.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:flags is reserved for future use.
|
|
* pname:conservativeRasterizationMode is the conservative rasterization
|
|
mode to use.
|
|
* pname:extraPrimitiveOverestimationSize is the extra size in pixels to
|
|
increase the generating primitive during conservative rasterization at
|
|
each of its edges in `X` and `Y` equally in screen space beyond the base
|
|
overestimation specified in
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:primitiveOverestimationSize.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkPipelineRasterizationConservativeStateCreateInfoEXT-extraPrimitiveOverestimationSize-01769]]
|
|
pname:extraPrimitiveOverestimationSize must: be in the range of `0.0` to
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:maxExtraPrimitiveOverestimationSize
|
|
inclusive
|
|
****
|
|
|
|
include::../validity/structs/VkPipelineRasterizationConservativeStateCreateInfoEXT.txt[]
|
|
--
|
|
|
|
[open,refpage='VkPipelineRasterizationConservativeStateCreateFlagsEXT',desc='Reserved for future use',type='enums']
|
|
--
|
|
include::../api/flags/VkPipelineRasterizationConservativeStateCreateFlagsEXT.txt[]
|
|
|
|
sname:VkPipelineRasterizationConservativeStateCreateFlagsEXT is a bitmask
|
|
type for setting a mask, but is currently reserved for future use.
|
|
--
|
|
|
|
[open,refpage='VkConservativeRasterizationModeEXT',desc='Specify the conservative rasterization mode',type='enums']
|
|
--
|
|
|
|
Possible values of
|
|
slink:VkPipelineRasterizationConservativeStateCreateInfoEXT::pname:conservativeRasterizationMode,
|
|
specifying the conservative rasterization mode are:
|
|
|
|
include::../api/enums/VkConservativeRasterizationModeEXT.txt[]
|
|
|
|
* ename:VK_CONSERVATIVE_RASTERIZATION_MODE_DISABLED_EXT specifies that
|
|
conservative rasterization is disabled and rasterization proceeds as
|
|
normal.
|
|
* ename:VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT specifies that
|
|
conservative rasterization is enabled in overestimation mode.
|
|
* ename:VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT specifies
|
|
that conservative rasterization is enabled in underestimation mode.
|
|
|
|
--
|
|
|
|
When overestimate conservative rasterization is enabled, rather than
|
|
evaluating coverage at individual sample locations, a determination is made
|
|
of whether any portion of the pixel (including its edges and corners) is
|
|
covered by the primitive.
|
|
If any portion of the pixel is covered, then all bits of the coverage sample
|
|
mask for the fragment are enabled.
|
|
ifdef::VK_EXT_post_depth_coverage[]
|
|
If the implementation supports
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:conservativeRasterizationPostDepthCoverage
|
|
and the
|
|
<<shaders-fragment-earlytest-postdepthcoverage,code:PostDepthCoverage>>
|
|
execution mode is specified the code:SampleMask built-in input variable will
|
|
reflect the coverage after the early per-fragment depth and stencil tests
|
|
are applied.
|
|
endif::VK_EXT_post_depth_coverage[]
|
|
|
|
For the purposes of evaluating which pixels are covered by the primitive,
|
|
implementations can: increase the size of the primitive by up to
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:primitiveOverestimationSize
|
|
pixels at each of the primitive edges.
|
|
This may: increase the number of fragments generated by this primitive and
|
|
represents an overestimation of the pixel coverage.
|
|
|
|
This overestimation size can be increased further by setting the
|
|
pname:extraPrimitiveOverestimationSize value above `0.0` in steps of
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:extraPrimitiveOverestimationSizeGranularity
|
|
up to and including
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:extraPrimitiveOverestimationSize.
|
|
This will: further increase the number of fragments generated by this
|
|
primitive.
|
|
|
|
The actual precision of the overestimation size used for conservative
|
|
rasterization may: vary between implementations and produce results that
|
|
only approximate the pname:primitiveOverestimationSize and
|
|
pname:extraPrimitiveOverestimationSizeGranularity properties.
|
|
|
|
For triangles if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT
|
|
is enabled, fragments will be generated if the primitive area covers any
|
|
portion of the pixel, including its edges or corners.
|
|
The tie-breaking rule described in <<primsrast-polygons-basic, Basic Polygon
|
|
Rasterization>> does not apply during conservative rasterization and
|
|
coverage is set for all fragments generated from shared edges of polygons.
|
|
Degenerate triangles that evaluate to zero area after rasterization, even
|
|
for pixels that contain a vertex or edge of the zero-area polygon, will be
|
|
culled if
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:degenerateTrianglesRasterized
|
|
is ename:VK_FALSE or will generate fragments if
|
|
pname:degenerateTrianglesRasterized is ename:VK_TRUE.
|
|
The fragment input values for these degenerate triangles take their
|
|
attribute and depth values from the provoking vertex.
|
|
Degenerate triangles are considered backfacing and the application can:
|
|
enable backface culling if desired.
|
|
Triangles that are zero area before rasterization may: be culled regardless.
|
|
|
|
For lines if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT is
|
|
enabled, and the implementation sets
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:conservativePointAndLineRasterization
|
|
to ename:VK_TRUE, fragments will be generated if the line covers any portion
|
|
of the pixel, including its edges or corners.
|
|
Degenerate lines that evaluate to zero length after rasterization will be
|
|
culled if
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:degenerateLinesRasterized
|
|
is ename:VK_FALSE or will generate fragments if
|
|
pname:degenerateLinesRasterized is ename:VK_TRUE.
|
|
The fragments input values for these degenerate lines take their attribute
|
|
and depth values from the provoking vertex.
|
|
Lines that are zero length before rasterization may: be culled regardless.
|
|
|
|
For points if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT is
|
|
enabled, and the implementation sets
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:conservativePointAndLineRasterization
|
|
to ename:VK_TRUE, fragments will be generated if the point square covers any
|
|
portion of the pixel square, including its edges or corners.
|
|
|
|
When underestimate conservative rasterization is enabled, rather than
|
|
evaluating coverage at individual sample locations, a determination is made
|
|
of whether all of the pixel (including its edges and corners) is covered by
|
|
the primitive.
|
|
If the entire pixel is covered, then a fragment is generated with all bits
|
|
of its coverage sample mask enabled, otherwise the fragment is discarded
|
|
even if some portion of the pixel is covered.
|
|
ifdef::VK_EXT_post_depth_coverage[]
|
|
If the implementation supports
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:conservativeRasterizationPostDepthCoverage
|
|
and the
|
|
<<shaders-fragment-earlytest-postdepthcoverage,code:PostDepthCoverage>>
|
|
execution mode is specified the code:SampleMask built-in input variable will
|
|
reflect the coverage after the early per-fragment depth and stencil tests
|
|
are applied.
|
|
endif::VK_EXT_post_depth_coverage[]
|
|
|
|
For triangles, if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT
|
|
is enabled, fragments will only be generated if they are fully covered by
|
|
the generating primitive, including its edges and corners.
|
|
|
|
For lines, if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT is
|
|
enabled, fragments will be generated if the entire pixel, including its
|
|
edges and corners is covered by the line.
|
|
|
|
For points, if ename:VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT is
|
|
enabled, fragments will only be generated for pixel squares that are fully
|
|
covered by the point square.
|
|
|
|
For both overestimate and underestimate conservative rasterization modes a
|
|
pixel square that is fully covered by the generating primitive must: set
|
|
code:FullyCoveredEXT to pname:VK_TRUE if the implementation enables the
|
|
sname:VkPhysicalDeviceConservativeRasterizationPropertiesEXT::pname:fullyCoveredFragmentShaderInputVariable
|
|
feature.
|
|
|
|
endif::VK_EXT_conservative_rasterization[]
|