Vulkan-Docs/doc/specs/vulkan/chapters/textures.txt

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// Copyright (c) 2015-2016 The Khronos Group Inc.
// Copyright notice at https://www.khronos.org/registry/speccopyright.html
[[textures]]
= Image Operations
== Image Operations Overview
Image Operations are steps performed by SPIR-V image instructions, where
those instructions which take an code:OpTypeImage (representing a
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sname:VkImageView) or code:OpTypeSampledImage (representing a
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(sname:VkImageView, sname:VkSampler) pair) and texel coordinates as
operands, and return a value based on one or more neighboring texture
elements (_texels_) in the image.
[NOTE]
.Note
==================
Texel is a term which is a combination of the words texture and element.
Early interactive computer graphics supported texture operations on
textures, a small subset of the image operations on images described here.
The discrete samples remain essentially equivalent, however, so we retain
the historical term texel to refer to them.
==================
SPIR-V Image Instructions include the following functionality:
* code:OpImageSample* and code:OpImageSparseSample* read one or more
neighboring texels of the image, and <<textures-texel-filtering,filter>>
the texel values based on the state of the sampler.
** Instructions with code:ImplicitLod in the name
<<textures-level-of-detail-operation,determine>> the level of detail
used in the sampling operation based on the coordinates used in
neighboring fragments.
** Instructions with code:ExplicitLod in the name
<<textures-level-of-detail-operation,determine>> the level of detail
used in the sampling operation based on additional coordinates.
** Instructions with code:Proj in the name apply homogeneous
<<textures-projection,projection>> to the coordinates.
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* code:OpImageFetch and code:OpImageSparseFetch return a single texel of
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the image. No sampler is used.
* code:OpImage*code:Gather and code:OpImageSparse*code:Gather read
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neighboring texels and <<textures-gather,return a single component>> of
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each.
* code:OpImageRead (and code:OpImageSparseRead) and code:OpImageWrite read
and write, respectively, a texel in the image. No sampler is used.
* Instructions with code:Dref in the name apply
<<textures-depth-compare-operation,depth comparison>> on the texel
values.
* Instructions with code:Sparse in the name additionally return a
<<textures-sparse-residency,sparse residency>> code.
=== Texel Coordinate Systems
Images are addressed by _texel coordinates_. There are three _texel
coordinate systems_:
* normalized texel coordinates (coordinates ranging from 0 to 1 span the
image),
* unnormalized texel coordinates (floating point coordinates ranging from
0 to width/height/depth span the image), and
* integer texel coordinates (integer coordinates ranging from 0 to
width-1/height-1/depth-1 address the texels within the image).
SPIR-V code:OpImageFetch, code:OpImageSparseFetch, code:OpImageRead,
code:OpImageSparseRead, and code:OpImageWrite instructions use integer texel
coordinates. Other image instructions can: use either normalized or
unnormalized texel coordinates (selected by the
pname:unnormalizedCoordinates state of the sampler used in the instruction),
but there are <<samplers-unnormalizedCoordinates,limitations>> on what
operations, image state, and sampler state is supported. Normalized
coordinates are logically <<textures-normalized-to-unnormalized,converted>>
to unnormalized as part of image operations, and
<<textures-normalized-operations,certain steps>> are only performed on
normalized coordinates. The array layer coordinate is always treated as
unnormalized even when other coordinates are normalized.
Normalized texel coordinates are referred to as latexmath:[$(s,t,r,q,a)$],
with the coordinates having the following meanings:
* s: Coordinate in the first dimension of an image.
* t: Coordinate in the second dimension of an image.
* r: Coordinate in the third dimension of an image.
** (s,t,r) are interpreted as a direction vector for Cube images.
* q: Fourth coordinate, for homogeneous (projective) coordinates.
* a: Coordinate for array layer.
The coordinates are extracted from the SPIR-V operand based on the
dimensionality of the image variable and type of instruction. For code:Proj
instructions, the components are in order (s, [t,] [r,] q) with t and r
being conditionally present based on the code:Dim of the image. For
non-code:Proj instructions, the coordinates are (s [,t] [,r] [,a]), with t
and r being conditionally present based on the code:Dim of the image and a
being conditionally present based on the code:Arrayed property of the image.
Projective image instructions are not supported on code:Arrayed images.
Unnormalized texel coordinates are referred to as latexmath:[$(u,v,w,a)$],
with the coordinates having the following meanings:
* u: Coordinate in the first dimension of an image.
* v: Coordinate in the second dimension of an image.
* w: Coordinate in the third dimension of an image.
* a: Coordinate for array layer.
Only the u and v coordinates are directly extracted from the SPIR-V operand,
because only 1D and 2D (non-code:Arrayed) dimensionalities support
unnormalized coordinates. The components are in order (u [,v]), with v being
conditionally present when the dimensionality is 2D. When normalized
coordinates are converted to unnormalized coordinates, all four coordinates
are used.
Integer texel coordinates are referred to as latexmath:[$(i,j,k,l,n)$], and
the first four in that order have the same meanings as unnormalized texel
coordinates. They are extracted from the SPIR-V operand in order (i, [,j],
[,k], [,l]), with j and k conditionally present based on the code:Dim of the
image, and l conditionally present based on the code:Arrayed property of the
image. n is the sample index and is taken from the code:Sample image
operand.
For all coordinate types, unused coordinates are assigned a value of zero.
[[textures-texel-coordinate-systems-diagrams]]
image::images/vulkantexture0.png[Title="Texel Coordinate Systems", align="left", scaledwidth="80%"]
The Texel Coordinate Systems - For the example shown of an 8x4 texel two dimensional image.
* Normalized texel coordinates:
** The s coordinate goes from 0.0 to 1.0, left to right.
** The t coordinate goes from 0.0 to 1.0, top to bottom.
* Unnormalized texel coordinates:
** The u coordinate goes from -1.0 to 9.0, left to right. The u coordinate
within the range 0.0 to 8.0 is within the image, otherwise it is within
the border.
** The v coordinate goes from -1.0 to 5.0, top to bottom. The v coordinate
within the range 0.0 to 4.0 is within the image, otherwise it is within
the border.
* Integer texel coordinates:
** The i coordinate goes from -1 to 8, left to right. The i coordinate
within the range 0 to 7 addresses texels within the image, otherwise it
addresses a border texel.
** The j coordinate goes from -1 to 5, top to bottom. The j coordinate
within the range 0 to 3 addresses texels within the image, otherwise it
addresses a border texel.
* Also shown for linear filtering:
** Given the unnormalized coordinates (u,v), the four texels selected are
i0j0, i1j0, i0j1 and i1j1.
** The weights latexmath:[$\alpha$] and latexmath:[$\beta$].
** Given the offset latexmath:[$\Delta_{i}$] and latexmath:[$\Delta_{j}$],
the four texels selected by the offset are i0j0', i1j0', i0j1' and
i1j1'.
image::images/vulkantexture1.png[Title="Texel Coordinate Systems", align="left", scaledwidth="80%"]
The Texel Coordinate Systems - For the example shown of an 8x4 texel two
dimensional image.
* Texel coordinates as above. Also shown for nearest filtering:
** Given the unnormalized coordinates (u,v), the texel selected is ij.
** Given the offset latexmath:[$\Delta_{i}$] and latexmath:[$\Delta_{j}$],
the texel selected by the offset is ij'.
== Conversion Formulas
ifdef::editing-notes[]
[NOTE]
.editing-note
==================
(Bill) These Conversion Formulas will likely move to Section 2.7 Fixed-Point
Data Conversions (RGB to sRGB and sRGB to RGB) and section 2.6 Numeric
Representation and Computation (RGB to Shared Exponent and Shared Exponent
to RGB)
==================
endif::editing-notes[]
[[textures-RGB-sexp]]
=== RGB to Shared Exponent Conversion
An RGB color latexmath:[$(red, green, blue)$] is transformed to a shared
exponent color latexmath:[$(red_{shared}, green_{shared}, blue_{shared},
exp_{shared})$] as follows:
First, the components latexmath:[$(red, green, blue)$] are clamped to
latexmath:[$(red_{clamped}, green_{clamped}, blue_{clamped})$] as:
[latexmath]
+++++++++++++++++++
\begin{align*}
red_{clamped} & = \max(0,min(sharedexp_{max},red)) \\
green_{clamped} & = \max(0,min(sharedexp_{max},green)) \\
blue_{clamped} & = \max(0,min(sharedexp_{max},blue))
\end{align*}
+++++++++++++++++++
Where:
[latexmath]
+++++++++++++++++++
\begin{align*}
N & = 9 & \textrm{number of mantissa bits per component} \\
B & = 15 & \textrm{exponent bias} \\
E_{max} & = 31 & \textrm{maximum possible biased exponent value} \\
sharedexp_{max} & = \frac{(2^N-1)}{2^N} \times 2^{(E_{max}-B)}
\end{align*}
+++++++++++++++++++
[NOTE]
.Note
==================
latexmath:[$NaN$], if supported, is handled as in IEEE 754-2008 minNum() and
maxNum(). That is the result is a latexmath:[$NaN$] is mapped to zero.
==================
The largest clamped component, latexmath:[$max_{clamped}$] is determined:
[latexmath]
+++++++++++++++++++
\begin{align*}
max_{clamped} = \max(red_{clamped},green_{clamped},blue_{clamped})
\end{align*}
+++++++++++++++++++
A preliminary shared exponent latexmath:[$exp'$] is computed:
[latexmath]
+++++++++++++++++++
\begin{align*}
Change log for March 4, 2016 Vulkan 1.0.5 spec update: * Bump API patch number to 5 for this update. Github Issues: * Correctly describe slink:VkPhysicalDeviceProperties pname:deviceName member as a string, not a pointer to a string. Also one typo fix for "hetereogeneous" (public issue 4). * Replace maynot: macro with may: not, and "may: or maynot:" with "may:" (public issue 4). * Clarify that redundantly setting the state of a fence or event has no effect (public issue 4). * Minor fixes to ref pages to track descriptions of memory bits that changed in the core spec. Fix name of a member in the description of sname:sname:VkPipelineMultisampleStateCreateInfo (public issues 8, 13). * Remove redundant validity statement for sname:VkGraphicsPipelineCreateInfo::pname:stageCount (public issue 14). * Fix typos in chapters 7-9 (public issue 14). * Clarify the example demonstrating the behavior of code:OpMemoryBarrier in the &lt;&lt;shaders-execution-memory-ordering,shader memory acces ordering>> section (public issue 16). * Specify that freeing mapped memory implicitly unmaps the memory in the description of flink:vkFreeMemory (public issue 17). * Forbid allocation callbacks from calling into the API in the &lt;&lt;memory-allocation,memory allocation>> section (public issue 20). * Add missing validity rules about size being greater than 0 and offset being less than size of object. Fix flink:VkMappedMemoryRange's misinterpretation of offset (public issues 27, 31). * Add validity rule disallowing overlapping source/destination descriptors in flink:VkCopyDescriptorSet (public issue 32). * Clarify that array and matrix stride has to be a multiple of the base alignment of the array or matrix in the &lt;&lt;interfaces-resources-layout,Offset and Stride Assignment>> section (public issue 38). * Correct parenthesis floor nesting error in equation for &lt;&lt;textures-RGB-sexp,RGB to shared exponent conversion>>. Clarify case of when exp' is forced to 0, avoiding log2(0) undefined problem (public issue 40). * Remove redundant statement from the code:FragDepth description in the &lt;&lt;interfaces-builtin-variables,Built-In Variables>> section (public issue 47). * Define the clamping of the &lt;&lt;textures-level-of-detail-operation,bias added to the scale factor>> by linking to the slink:VkPhysicalDevice feature pname:maxSamplerLodBias (public issue 64). * Fix typo "optimal linear resources" and clarify the set of resources &lt;&lt;features-limits-bufferImageGranularity,the pname:bufferImageGranularity resource>> applies to (public issue 67). * Replace 'descriptor accessed by a pipeline' language for sname:VkDescriptorSetAllocateInfo with more precise phrasing about binding a descriptor set before a command that invokes work using that set (public issue 69). * tstripadj.svg contained an Inkscape tag which caused Firefox and IE 11 to fail to render it, and was illegal SVG. Generating Plain SVG from the Inkscape SVG source fixes this (public issue 70). * Fix validity for sname:VkVertexInputBindingDescription and sname:VkVertexInputAttributeDescription numbers (public issue 72). Internal Issues: * Clarify the meaning of ename:VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT in elink:VkFormatFeatureFlagBits with respect to depth compare (internal issue 107). * Added a note explaining that ename:VK_QUEUE_TRANSFER_BIT may or may not be reported for a queue family that already supports ename:VK_QUEUE_GRAPHICS_BIT or ename:VK_QUEUE_COMPUTE_BIT as the former is a strict subset of the latter ones (internal issue 116). * Add validity language for sname:VkDescriptorSetAllocateInfo about exceeding the descriptor pool capacity (internal issue 140). * Add ename:VK_INCOMPLETE success code for flink:vkEnumeratePhysicalDevices query (internal issue 163). Other Commits: * Add the VK_NV_glsl_shader extension definitions to the API. * Update GL_KHR_vulkan_glsl with 1) origin_upper_left as default 2) specialization array constant semantics. * Corrected/updated Data Format Specification date.
2016-03-03 13:06:18 +00:00
exp' =
\begin{cases}
\left \lfloor \log_2(max_{clamped}) \right \rfloor + (B+1)
& \textrm{for } max_{clamped} > 2^{-(B+1)} \\
0
& \textrm{for } max_{clamped} \leq 2^{-(B+1)}
\end{cases}
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\end{align*}
+++++++++++++++++++
The shared exponent latexmath:[$exp_{shared}$] is computed:
[latexmath]
+++++++++++++++++++
\begin{align*}
max_{shared} =
\left \lfloor
\frac{max_{clamped}}{2^{(exp'-B-N)}}+\frac{1}{2}
\right \rfloor
\end{align*}
+++++++++++++++++++
[latexmath]
+++++++++++++++++++
\begin{align*}
exp_{shared} =
\begin{cases}
exp' & \textrm{for } 0 \leq max_{shared} < 2^N \\
exp'+1 & \textrm{for } max_{shared} = 2^N
\end{cases}
\end{align*}
+++++++++++++++++++
Finally, three integer values in the range latexmath:[$0$] to
latexmath:[$2^N$] are computed:
[latexmath]
+++++++++++++++++++
\begin{align*}
red_{shared} & =
\left \lfloor
\frac{red_{clamped}}{2^{(exp_{shared}-B-N)}}+ \frac{1}{2}
\right \rfloor \\
green_{shared} & =
\left \lfloor
\frac{green_{clamped}}{2^{(exp_{shared}-B-N)}}+ \frac{1}{2}
\right \rfloor \\
blue_{shared} & =
\left \lfloor
\frac{blue_{clamped}}{2^{(exp_{shared}-B-N)}}+ \frac{1}{2}
\right \rfloor
\end{align*}
+++++++++++++++++++
[[textures-sexp-RGB]]
=== Shared Exponent to RGB
A shared exponent color latexmath:[$(red_{shared}, green_{shared},
blue_{shared}, exp_{shared})$] is transformed to an RGB color
latexmath:[$(red, green, blue)$] as follows:
[latexmath]
+++++++++++++++++++
\begin{align*}
red & = red_{shared}\times 2^{(exp_{shared}-B-N)} \\
green & = green_{shared}\times 2^{(exp_{shared}-B-N)} \\
blue & = blue_{shared}\times 2^{(exp_{shared}-B-N)} \\
\end{align*}
+++++++++++++++++++
Where:
[latexmath]
+++++++++++++++++++
\begin{align*}
N & = 9 & \textrm{number of mantissa bits per component} \\
B & = 15 & \textrm{exponent bias}
\end{align*}
+++++++++++++++++++
== Texel Input Operations
_Texel input instructions_ are SPIR-V image instructions that read from an
image. _Texel input operations_ are a set of steps that are performed on
state, coordinates, and texel values while processing a texel input
instruction, and which are common to some or all texel input instructions.
They include the following steps, which are performed in the listed order:
* <<textures-input-validation,Validation operations>>
** <<textures-operation-validation,Instruction/Sampler/Image validation>>
** <<textures-integer-coordinate-validation,Coordinate validation>>
** <<textures-sparse-validation,Sparse validation>>
* <<textures-format-conversion,Format conversion>>
* <<textures-texel-replacement,Texel replacement>>
* <<textures-depth-compare-operation,Depth comparison>>
* <<textures-conversion-to-rgba,Conversion to RGBA>>
* <<textures-component-swizzle,Component swizzle>>
For texel input instructions involving multiple texels (for sampling or
gathering), these steps are applied for each texel that is used in the
instruction. Depending on the type of image instruction, other steps are
conditionally performed between these steps or involving multiple coordinate
or texel values.
[[textures-input-validation]]
=== Texel Input Validation Operations
_Texel input validation operations_ inspect instruction/image/sampler state
or coordinates, and in certain circumstances cause the texel value to be
replaced or become undefined. There are a series of validations that the
texel undergoes.
[[textures-operation-validation]]
==== Instruction/Sampler/Image Validation
There are a number of cases where a SPIR-V instruction can: mismatch with
the sampler, the image, or both. There are a number of cases where the
sampler can: mismatch with the image. In such cases the value of the texel
returned is undefined.
These cases include:
* The sampler pname:borderColor is an integer type and the image
pname:format is not one of the elink:VkFormat integer types or a stencil
aspect of a depth/stencil format.
* The sampler pname:borderColor is a float type and the image pname:format
is not one of the elink:VkFormat float types or a depth aspect of a
depth/stencil format.
* The sampler pname:borderColor is one of the opaque black colors
(ename:VK_BORDER_COLOR_FLOAT_OPAQUE_BLACK or
ename:VK_BORDER_COLOR_INT_OPAQUE_BLACK) and the image
elink:VkComponentSwizzle for any of the slink:VkComponentMapping
components is not ename:VK_COMPONENT_SWIZZLE_IDENTITY.
* If the instruction is code:OpImageRead or code:OpImageSparseRead and the
pname:shaderStorageImageReadWithoutFormat feature is not enabled, or the
instruction is code:OpImageWrite and the
pname:shaderStorageImageWriteWithoutFormat feature is not enabled, then
Change log for April 22, 2016 Vulkan 1.0.11 spec update: * Bump API patch number and header version number to 11 for this update. Github Issues: * Clarify the WSI extension language by switching from the fuzzier "ownership" language to more-consistent "acquire" language (public issue 117). * Clarify that memory barriers apply to all commands in the dependency chains in the flink:vkGetRenderAreaGranularity command and the <<synchronization-execution-and-memory-dependencies,Execution And Memory Dependencies>> section (public issue 132). * Clarify that a queue family is a set of queues in the <<fundamentals-execmodel,Execution Model>> section (public issue 166). * Removed requirement from valid usage language that VkPresentInfoKHR::waitSemaphoreCount must be greater than 0 (public issue 171). * Fix broken internal links, describe structures consistently, use consistent style for SPIR-V codewords, and tag normative terms that were missing asciidoc tags (public issue 183 and ancillary markup/normative language fixes). * Fix typos for slink:VkPhysicalDeviceLimits member names in slink:VkImageCreateInfo validity language (public issue 184). Internal Issues: * Document that the requested patch version number specified as part of slink:VkApplicationInfo::pname:apiVersion is ignored when creating an instance (internal issue 176). * Clarify handling of extension structs in the <<fundamentals-validusageValid Usage>> section (internal issue 254). * Update required slink:VkImageFormatProperties::pname:maxMipLevels to be limited to the maximum allowed mipmap pyramid size corresponding to the actual maximum supported size for the format (internal issue 256). * Modify the <<features-extentperimagetype,Allowed Extent Values Based On Image Type>> section so the allowed maximum extent is the maximum image dimension supported for each dimension of the type of texture being queried (internal issue 257). * Clarify in the <<spirvenv-module-validation,Validation Rules within a Module>> section that at least one of the code:LocalSize execution mode or code:WorkgroupSize decoration is required for each compute shader entry point in a shader module (internal issue 279). * Add validity rules for formats in flink:vkCmdClearColorImage and flink:vkCmdClearDepthStencilImage (internal issue 283). * Clarify that slink:VkImageFormatProperties::pname:maxResourceSize is an upper bound, and that it may not be possible to create an image anywhere near that size (internal issue 284). Other Commits: * Fix various minor markup errors reported by validation scripts. * Change copyright from Khronos Free Use License to Apache 2.0 license on relevant script/XML/header files. This does not affect the specification source copyright.
2016-04-21 08:08:38 +00:00
the SPIR-V Image Format must: be <<spirvenv-image-formats,compatible>>
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with the image view's pname:format.
* The sampler pname:unnormalizedCoordinates is ename:VK_TRUE and any of
the <<samplers-unnormalizedCoordinates,limitations of unnormalized
coordinates>> are violated.
* The SPIR-V instruction is one of the code:OpImage*code:Dref*
instructions and the sampler pname:compareEnable is ename:VK_FALSE
* The SPIR-V instruction is not one of the code:OpImage*code:Dref*
instructions and the sampler pname:compareEnable is ename:VK_TRUE
* The SPIR-V instruction is one of the code:OpImage*code:Dref*
instructions and the image pname:format is not one of the depth/stencil
formats with a depth component, or the image aspect is not
ename:VK_IMAGE_ASPECT_DEPTH_BIT.
* The SPIR-V instruction's image variable's properties are not compatible
with the image view:
** Rules for pname:viewType:
*** ename:VK_IMAGE_VIEW_TYPE_1D must: have code:Dim = 1D, code:Arrayed =
0, code:MS = 0.
*** ename:VK_IMAGE_VIEW_TYPE_2D must: have code:Dim = 2D, code:Arrayed = 0.
*** ename:VK_IMAGE_VIEW_TYPE_3D must: have code:Dim = 3D, code:Arrayed =
0, code:MS = 0.
*** ename:VK_IMAGE_VIEW_TYPE_CUBE must: have code:Dim = Cube, code:Arrayed
= 0, code:MS = 0.
*** ename:VK_IMAGE_VIEW_TYPE_1D_ARRAY must: have code:Dim = 1D,
code:Arrayed = 1, code:MS = 0.
*** ename:VK_IMAGE_VIEW_TYPE_2D_ARRAY must: have code:Dim = 2D,
code:Arrayed = 1.
*** ename:VK_IMAGE_VIEW_TYPE_CUBE_ARRAY must: have code:Dim = Cube,
code:Arrayed = 1, code:MS = 0.
** If the image's pname:samples is not equal to
ename:VK_SAMPLE_COUNT_1_BIT, the instruction must: have code:MS = 1.
[[textures-integer-coordinate-validation]]
==== Integer Texel Coordinate Validation
Integer texel coordinates are validated against the size of the image level,
and the number of layers and number of samples in the image. For SPIR-V
instructions that use integer texel coordinates, this is performed directly
on the integer coordinates. For instructions that use normalized or
unnormalized texel coordinates, this is performed on the coordinates that
result after <<textures-unnormalized-to-integer,conversion>> to integer
texel coordinates.
2016-02-21 20:15:29 +00:00
If the integer texel coordinates satisfy any of the conditions
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[latexmath]
+++++++++++++++++++
\begin{align*}
i & < 0 & i \geq w_{s} \\
j & < 0 & j \geq h_{s} \\
k & < 0 & k \geq d_{s} \\
l & < 0 & l \geq layers \\
n & < 0 & n \geq samples
\end{align*}
+++++++++++++++++++
where:
[latexmath]
+++++++++++++++++++
\begin{align*}
& w_{s} & = \textrm{width of the image level} \\
& h_{s} & = \textrm{height of the image level} \\
& d_{s} & = \textrm{depth of the image level} \\
& layers & = \textrm{number of layers in the image} \\
& samples & = \textrm{number of samples per texel in the image}
\end{align*}
+++++++++++++++++++
then the texel fails integer texel coordinate validation.
There are four cases to consider:
* Valid Texel Coordinates
** If the texel coordinates pass validation (that is, the coordinates lie
within the image),
+
then the texel value comes from the value in image memory.
* Border Texel
** If the texel coordinates fail validation, and
** If the read is the result of an image sample instruction or image gather
instruction, and
** If the image is not a cube image,
+
then the texel is a border texel and
<<textures-texel-replacement,texel replacement>> is performed.
* Invalid Texel
** If the texel coordinates fail validation, and
** If the read is the result of an image fetch instruction, image read
instruction, or atomic instruction,
+
then the texel is an invalid texel and <<textures-texel-replacement,texel
replacement>> is performed.
* Cube Map Edge or Corner
** Otherwise the texel coordinates lie on the borders along the edges and
corners of a cube map image, and
<<textures-cubemapedge,Cube map edge handling>> is performed.
[[textures-cubemapedge]]
==== Cube Map Edge Handling
If the texel coordinates lie on the borders along the edges and corners of a
cube map image, the following steps are performed. Note that this only
occurs when using ename:VK_FILTER_LINEAR filtering within a miplevel, since
ename:VK_FILTER_NEAREST is treated as using
ename:VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE.
* Cube Map Edge Texel
** If the texel lies along the border in either only latexmath:[$i$] or only
latexmath:[$j$]
+
then the texel lies along an edge, so the coordinates latexmath:[$(i,j)$]
and the array layer latexmath:[$l$] are transformed to select the adjacent
texel from the appropriate neighboring face.
* Cube Map Corner Texel
** If the texel lies along the border in both latexmath:[$i$] and
latexmath:[$j$]
+
then the texel lies at the corner and there is no unique neighboring face
from which to read that texel. The texel should: be replaced by the average
of the three values of the adjacent texels in each incident face. However,
implementations may: replace the cube map corner texel by other methods,
subject to the constraint that if the three available samples have the same
value, the replacement texel also has that value.
[[textures-sparse-validation]]
==== Sparse Validation
If the texel reads from an unbound region of a sparse image, the texel is a
_sparse unbound texel_, and processing continues with
<<textures-texel-replacement,texel replacement>>.
[[textures-format-conversion]]
=== Format Conversion
Texels undergo a format conversion from the elink:VkFormat of the image view
to a vector of either floating point or signed or unsigned integer
components, with the number of components based on the number of components
present in the format.
* Color formats have one, two, three, or four components, according to the
format.
* Depth/stencil formats are one component. The depth or stencil component
is selected by the pname:aspectMask of the image view.
Each component is converted based on its type and size (as defined in the
<<features-formats-definition,Format Definition>> section for each
elink:VkFormat), using the appropriate equations in
<<fundamentals-fp16,16-Bit Floating-Point Numbers>>,
<<fundamentals-fp11,Unsigned 11-Bit Floating-Point Numbers>>,
<<fundamentals-fp10,Unsigned 10-Bit Floating-Point Numbers>>,
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<<fundamentals-fixedconv,Fixed-Point Data Conversion>>, and
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<<textures-sexp-RGB,Shared Exponent to RGB>>.
If the image format is sRGB, the color components are first converted as if
they are UNORM, and then sRGB to linear conversion is applied to the R, G,
Change log for March 10, 2016 Vulkan 1.0.6 spec update: * Bump API patch number and header version number to 6 for this update. Github Issues: * Define 'invocation group' for compute and graphics shaders. Cleanup definition and use of 'workgroup', and add glossary entries (public issue 1). * Various minor editorial fixes (public issue 33). * Clarify locations for block members in the &lt;&lt;interfaces-iointerfaces-locations,Location Assignment>> section (public issue 45). * Editorial fixes for &lt;&lt;commandbuffer-allocation,Command Buffer Allocation>> section (public issues 54, 59). * Clarify behavior of depth test in the &lt;&lt;fragops-depth,Depth Test&gt;&gt; section (public issues 80, 81). * Remove discussion of return codes from flink:vkGetPhysicalDeviceSparseImageFormatProperties and flink:vkGetImageSparseMemoryRequirements, which don't return values (public issue 82). * Allow flink:vkCmdDrawIndirect and flink:vkCmdDrawIndexedIndirect pname:drawCount of 0, as well as 1, when the multiDrawIndirect feature is not supported (public issue 88). * Remove confusing wording in the &lt;&lt;features-limits,Limits>> section describing the slink:VkPhysicalDeviceLimits pname:minTexelBufferOffsetAlignment, pname:minUniformBufferOffsetAlignment, and pname:minStorageBufferOffsetAlignment members as both minimums and maximums (public issue 91). * Clarified that only the RGB components should be affected in places where sRGB is referred to in the spec, such as ASTC formats. Minor re-wording to avoid "color space" when actively incorrect, now that we refer to the Data Format Spec which actually makes a distinction between color space and transfer function (public issue 94). * Treat pname:pPropertyCount == 0 consistently in flink:vkEnumerateInstanceLayerProperties and flink:vkEnumerateDeviceLayerProperties (public issue 99) * Cleanup minor editorial issues in chapters 14-17 (public issue 100). * Clarify definition of flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties (public issue 101). * Define the flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties pname:pLayerName parameter to be a pointer to a null-terminated UTF-8 string (public issue 101). * Rearrange "Missing information" references in mandatory format tables (public issue 101). * Clarify that the enumerated extensions returned by flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties will only include extensions provided by the platform or extensions implemented in implicitly enabled layers (public issue 101). * Miscellaneous editorial fixes. Include the Vulkan spec patch number in the PDF title. Fix label on &lt;&lt;fig-non-strict-lines,Non strict lines>> diagram. Use more easily distinguished symbols in tables in the &lt;&lt;features-required-format-support,Required Format Support>> section. Don't require FQDNs used as layer names be encoded in lower case if not possible, in the &lt;&lt;extensions-naming-conventions, Extension and Layer Naming Conventions>> section (public issues 101, 119, 121). Internal Issues: * Fixed excessive spacing in tables in XHTML (internal issue 18). * Clarify that ename:VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT applies to secondary command buffers. Previously spec only referred to the members of pname:pCommandBuffers being affected by this bit. Added a separate slink:VkSubmitInfo Valid Usage restriction specifying that ename:VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT also applies to any secondary command buffers that are recorded into the primary command buffers in pname:pCommandBuffers (internal issue 106). * Clarify that slink:VkDeviceCreateInfo::pname:pEnabledFeatures can be NULL (internal issue 117). * Remove "the value of" where it is redundant (e.g. speaking of an API parameter, struct member, or SPIR-V variable, but not when speaking of color components) (internal issue 175). * Forced patch version to always be 0 in the header. Add a "VK_API_VERSION_<major>_<minor>" macro for people to use to do the right thing. Add a VK_HEADER_VERSION which captures the header release number independent of the spec patch number (internal issue 176). * Correct description of slink:VkPipelineShaderStageCreateInfo::pname:pName to "a pointer to a null-terminated UTF-8 string" (internal issue #197). Other Commits: * Updated DataFormat spec reference to the new date for revision 5 of that spec. * Fixed KEEP option (to retain LaTeX intermediate files) in the Makefile to be included when edited there, as well as set on the command line. * Reserve and add "VK_IMG_filter_cubic" to the registry, and implement script functionality to add and remove validity from existing functions. Includes schema and readme changes. * Update GL_KHR_vulkan_glsl so push_constants do not have descriptor sets.
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and B components as described in the ``KHR_DF_TRANSFER_SRGB'' section of the
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Khronos Data Format Specification. The A component, if present, is
unchanged.
If the image view format is block-compressed, then the texel value is first
decoded, then converted based on the type and number of components defined
by the compressed format.
[[textures-texel-replacement]]
=== Texel Replacement
A texel is replaced if it is one (and only one) of:
* a border texel, or
* an invalid texel, or
* a sparse unbound texel.
Border texels are replaced with a value based on the image format and the
pname:borderColor of the sampler. The border color is:
[[textures-border-replacement-color]]
.Border Color latexmath:[$B$]
[options="header",cols="60%,40%"]
|====
| Sampler pname:borderColor | Corresponding Border Color
| ename:VK_BORDER_COLOR_FLOAT_TRANSPARENT_BLACK | latexmath:[$B = (0.0, 0.0, 0.0, 0.0)$]
| ename:VK_BORDER_COLOR_FLOAT_OPAQUE_BLACK | latexmath:[$B = (0.0, 0.0, 0.0, 1.0)$]
| ename:VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE | latexmath:[$B = (1.0, 1.0, 1.0, 1.0)$]
| ename:VK_BORDER_COLOR_INT_TRANSPARENT_BLACK | latexmath:[$B = (0, 0, 0, 0)$]
| ename:VK_BORDER_COLOR_INT_OPAQUE_BLACK | latexmath:[$B = (0, 0, 0, 1)$]
| ename:VK_BORDER_COLOR_INT_OPAQUE_WHITE | latexmath:[$B = (1, 1, 1, 1)$]
|====
This is substituted for the texel value by replacing the number of components
in the image format
[[textures-border-replacement-table]]
.Border Texel Components After Replacement
[width="80%",options="header"]
|====
| Texel Aspect or Format | Component Assignment
| Depth aspect | latexmath:[$D = (B_{r})$]
| Stencil aspect | latexmath:[$S = (B_{r})$]
| One component color format | latexmath:[$C_{r} = (B_{r})$]
| Two component color format | latexmath:[$C_{rg} = (B_{r},B_{g})$]
| Three component color format| latexmath:[$C_{rgb} = (B_{r},B_{g},B_{b})$]
| Four component color format | latexmath:[$C_{rgba} = (B_{r},B_{g},B_{b},B_{a})$]
|====
If the read operation is from a buffer resource, and the
pname:robustBufferAccess feature is enabled, an invalid texel is replaced as
described <<features-features-robustBufferAccess,here>>.
If the pname:robustBufferAccess feature is not enabled, the value of an
invalid texel is undefined.
ifdef::editing-notes[]
[NOTE]
.editing-note
==================
(Bill) This is not currently catching this significant case.
For opImageFetch, which fetches from an *image* not a buffer, the
result is defined if pname:robustBufferAccess is enabled.
==================
endif::editing-notes[]
If the sname:VkPhysicalDeviceSparseProperties property
pname:residencyNonResidentStrict is true, a sparse unbound texel is replaced
Change log for March 25, 2016 Vulkan 1.0.7 spec update: * Bump API patch number and header version number to 7 for this update. Github Issues: * Fix slink:VkSpecializationMapEntry example to avoid C/C++ strict aliasing issues (public issue 14). * Clarify the meaning of "matching" in flink:vkCmdBindDescriptorSets validity language (public issue 33). * Add stub reference pages so xrefs to not-yet-written pages don't generate 404 errors. However, the actual content of these pages still needs to be filled in as time allows (public issue 44, but does not close that issue out). * Remove incorrect validity statement for flink:vkGetImageSparseMemoryRequirements (public issue 85). * Reword the <<features-limits-bufferImageGranularity,bufferImageGranularity>> feature in terms of "aliasing", and clarify that it applies to bindings in the same memory object (public issue 90). * Clarify the relationship of the slink:VkPhysicalDeviceLimits pname:maxViewportDimensions and pname:viewportBoundsRange limits (public issue 92). * Specify sparse unbound texture replacement in the <<textures-texel-replacement,Texel Replacement>> section independently of robust buffer access language (public issue 100). * Add the <<fundamentals-architecture-model,Architecture Model>> section to explain architecture constraints Vulkan has chosen to accept in order to enable portable and performant code (public issue 122). * State that an object must not be destroyed until *all* (not *any*) uses of that object have completed (public issue 123). * Minor editorial cleanup (public issues 129, 134, 146, 148). * Add validity language for layer and extension names to slink:VkDeviceCreateInfo matching that used for slink:VkInstanceCreateInfo (public issue 130). * Clean up terminology for the case when the bits set in one bitmask are a subset of the bits set in another bitmask (public issue 138). * Document that input attachments are UniformConstant not Input, in the <<interfaces-inputattachment,Fragment Input Attachment Interface>> section (public glslang bug 169). Internal Issues: * Add max enum values to "flag bits" enums (internal issue #136). * Clarify language around the various uses of the term "block" in the <<appendix-compressedtex-bc,Block Compressed Image Formats>> section (internal issue #202). * Removed "expand" dependency from <enums> groups in vk.xml and added auto-generation code in the scripts to infer it instead, to ensure consistency. This caused renaming of sname:VkColorSpaceKHR and sname:VkPresentModeKHR etext:BEGIN_RANGE (etc.) tokens, but those tokens are metadata, not part of the API, and the Vulkan WG is OK with this change. This change adds ranges to two additional enums that were missing them due to not defining the "expand" attribute (internal issue 217). * Tweak makefile to generate ref page nroff (.3) files in the right output directory, working around an a2x limitation (internal issue 223). Other Commits: * Add validity requirements for flink:vkCmdCopyQueryPoolResults pname:dstBuffer parameter. * Fix ref page build to generate .3 targets in the right output directory.
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with 0 or 0.0 values for integer and floating-point components of the image
format, respectively.
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If pname:residencyNonResidentStrict is false, the read must: be safe, but
the value of the sparse unbound texel is undefined.
[[textures-depth-compare-operation]]
=== Depth Compare Operation
Change log for April 1, 2016 Vulkan 1.0.8 spec update: * Bump API patch number and header version number to 8 for this update. Github Issues: * Specify in the validity language for flink:vkBeginCommandBuffer that pname:commandBuffer mustnot: currently be pending execution (public issue 96). * Describe depth comparison using the correct temporary variable names in the <<textures-depth-compare-operation,Depth Compare Operation>> section (public issue 100). * Clarify the order of descriptor update operations in the flink:vkUpdateDescriptorSets command (public issue 115). * Specify in the VK_KHR_swapchain extension that flink:vkAcquireNextImageKHR's pname:semaphore and pname:fence parameters cannot both be sname:VK_NULL_HANDLE (partly addresses, but does not fully close, public issue 117 / internal issue 246). * Change reference to the "lifetime" of a Vulkan command to "duration", and define the "duration" term (public issue 135). * Added valid usage language for slink:VkImageLayout to require both pname:height and pname:depth to be 1 for 1D images and pname:depth to be 1 for 2D images (public issue 137). * Fix SPIR-V example code in the <<descriptorsets-inputattachment,Input Attachment>> section to properly decorate the code:InputAttachmentIndex (public issue 139). * Fix reference to nonexistent pname:imageInfo in the description of flink:VkWriteDescriptorSet to refer to pname:pImageInfo (public issue 140). Internal Issues: * Link to the fixed-function vertex chapter from the drawing chapter (internal issue #110) * Fix typo in slink:VkImageCreateInfo validity language: ptext:maxExtent.sampleCounts -> pname:sampleCounts (internal issue 249). * Explain why the non-core token etext:VK_IMAGE_LAYOUT_PRESENT_SRC_KHR is used in the example in the <<synchronization-semaphores,Semaphores>> section (internal issue 251). * Attempt to clarify in the VK_KHR_android_surface extension's <<platformQuerySupport_android,Android Platform Support>> section that there is no Android-specific WSI query, and why (internal issue 252). Other Commits: * Add missing language about ename:VK_INCOMPLETE being returned from array queries when the passed array is too short, in the VK_KHR_display, VK_KHR_swapchain, and VK_KHR_surface extensions.
2016-04-01 10:04:38 +00:00
If the image view has a depth/stencil format, the depth component is
selected by the pname:aspectMask, and the operation is a code:Dref
instruction, a depth comparison is performed. The value of the
result latexmath:[$D$] is latexmath:[$1.0$] if the result of the
compare operation is latexmath:[$true$], and latexmath:[$0.0$]
otherwise. The compare operation is selected by the pname:compareOp
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member of the sampler.
[latexmath]
+++++++++++++++++++
\begin{align*}
Change log for April 1, 2016 Vulkan 1.0.8 spec update: * Bump API patch number and header version number to 8 for this update. Github Issues: * Specify in the validity language for flink:vkBeginCommandBuffer that pname:commandBuffer mustnot: currently be pending execution (public issue 96). * Describe depth comparison using the correct temporary variable names in the <<textures-depth-compare-operation,Depth Compare Operation>> section (public issue 100). * Clarify the order of descriptor update operations in the flink:vkUpdateDescriptorSets command (public issue 115). * Specify in the VK_KHR_swapchain extension that flink:vkAcquireNextImageKHR's pname:semaphore and pname:fence parameters cannot both be sname:VK_NULL_HANDLE (partly addresses, but does not fully close, public issue 117 / internal issue 246). * Change reference to the "lifetime" of a Vulkan command to "duration", and define the "duration" term (public issue 135). * Added valid usage language for slink:VkImageLayout to require both pname:height and pname:depth to be 1 for 1D images and pname:depth to be 1 for 2D images (public issue 137). * Fix SPIR-V example code in the <<descriptorsets-inputattachment,Input Attachment>> section to properly decorate the code:InputAttachmentIndex (public issue 139). * Fix reference to nonexistent pname:imageInfo in the description of flink:VkWriteDescriptorSet to refer to pname:pImageInfo (public issue 140). Internal Issues: * Link to the fixed-function vertex chapter from the drawing chapter (internal issue #110) * Fix typo in slink:VkImageCreateInfo validity language: ptext:maxExtent.sampleCounts -> pname:sampleCounts (internal issue 249). * Explain why the non-core token etext:VK_IMAGE_LAYOUT_PRESENT_SRC_KHR is used in the example in the <<synchronization-semaphores,Semaphores>> section (internal issue 251). * Attempt to clarify in the VK_KHR_android_surface extension's <<platformQuerySupport_android,Android Platform Support>> section that there is no Android-specific WSI query, and why (internal issue 252). Other Commits: * Add missing language about ename:VK_INCOMPLETE being returned from array queries when the passed array is too short, in the VK_KHR_display, VK_KHR_swapchain, and VK_KHR_surface extensions.
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D & = 1.0 &
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\begin{cases}
Change log for April 1, 2016 Vulkan 1.0.8 spec update: * Bump API patch number and header version number to 8 for this update. Github Issues: * Specify in the validity language for flink:vkBeginCommandBuffer that pname:commandBuffer mustnot: currently be pending execution (public issue 96). * Describe depth comparison using the correct temporary variable names in the <<textures-depth-compare-operation,Depth Compare Operation>> section (public issue 100). * Clarify the order of descriptor update operations in the flink:vkUpdateDescriptorSets command (public issue 115). * Specify in the VK_KHR_swapchain extension that flink:vkAcquireNextImageKHR's pname:semaphore and pname:fence parameters cannot both be sname:VK_NULL_HANDLE (partly addresses, but does not fully close, public issue 117 / internal issue 246). * Change reference to the "lifetime" of a Vulkan command to "duration", and define the "duration" term (public issue 135). * Added valid usage language for slink:VkImageLayout to require both pname:height and pname:depth to be 1 for 1D images and pname:depth to be 1 for 2D images (public issue 137). * Fix SPIR-V example code in the <<descriptorsets-inputattachment,Input Attachment>> section to properly decorate the code:InputAttachmentIndex (public issue 139). * Fix reference to nonexistent pname:imageInfo in the description of flink:VkWriteDescriptorSet to refer to pname:pImageInfo (public issue 140). Internal Issues: * Link to the fixed-function vertex chapter from the drawing chapter (internal issue #110) * Fix typo in slink:VkImageCreateInfo validity language: ptext:maxExtent.sampleCounts -> pname:sampleCounts (internal issue 249). * Explain why the non-core token etext:VK_IMAGE_LAYOUT_PRESENT_SRC_KHR is used in the example in the <<synchronization-semaphores,Semaphores>> section (internal issue 251). * Attempt to clarify in the VK_KHR_android_surface extension's <<platformQuerySupport_android,Android Platform Support>> section that there is no Android-specific WSI query, and why (internal issue 252). Other Commits: * Add missing language about ename:VK_INCOMPLETE being returned from array queries when the passed array is too short, in the VK_KHR_display, VK_KHR_swapchain, and VK_KHR_surface extensions.
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D_{ref} \leq D & \textrm{for LEQUAL} \\
D_{ref} \geq D & \textrm{for GEQUAL} \\
D_{ref} < D & \textrm{for LESS} \\
D_{ref} > D & \textrm{for GREATER} \\
D_{ref} = D & \textrm{for EQUAL} \\
D_{ref} \neq D & \textrm{for NOTEQUAL} \\
true & \textrm{for ALWAYS} \\
false & \textrm{for NEVER}
\end{cases} \\
D & = 0.0 & \textrm{otherwise}
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\end{align*}
+++++++++++++++++++
Change log for April 1, 2016 Vulkan 1.0.8 spec update: * Bump API patch number and header version number to 8 for this update. Github Issues: * Specify in the validity language for flink:vkBeginCommandBuffer that pname:commandBuffer mustnot: currently be pending execution (public issue 96). * Describe depth comparison using the correct temporary variable names in the <<textures-depth-compare-operation,Depth Compare Operation>> section (public issue 100). * Clarify the order of descriptor update operations in the flink:vkUpdateDescriptorSets command (public issue 115). * Specify in the VK_KHR_swapchain extension that flink:vkAcquireNextImageKHR's pname:semaphore and pname:fence parameters cannot both be sname:VK_NULL_HANDLE (partly addresses, but does not fully close, public issue 117 / internal issue 246). * Change reference to the "lifetime" of a Vulkan command to "duration", and define the "duration" term (public issue 135). * Added valid usage language for slink:VkImageLayout to require both pname:height and pname:depth to be 1 for 1D images and pname:depth to be 1 for 2D images (public issue 137). * Fix SPIR-V example code in the <<descriptorsets-inputattachment,Input Attachment>> section to properly decorate the code:InputAttachmentIndex (public issue 139). * Fix reference to nonexistent pname:imageInfo in the description of flink:VkWriteDescriptorSet to refer to pname:pImageInfo (public issue 140). Internal Issues: * Link to the fixed-function vertex chapter from the drawing chapter (internal issue #110) * Fix typo in slink:VkImageCreateInfo validity language: ptext:maxExtent.sampleCounts -> pname:sampleCounts (internal issue 249). * Explain why the non-core token etext:VK_IMAGE_LAYOUT_PRESENT_SRC_KHR is used in the example in the <<synchronization-semaphores,Semaphores>> section (internal issue 251). * Attempt to clarify in the VK_KHR_android_surface extension's <<platformQuerySupport_android,Android Platform Support>> section that there is no Android-specific WSI query, and why (internal issue 252). Other Commits: * Add missing language about ename:VK_INCOMPLETE being returned from array queries when the passed array is too short, in the VK_KHR_display, VK_KHR_swapchain, and VK_KHR_surface extensions.
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where, in the depth comparison:
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[latexmath]
+++++++++++++++++++
\begin{align*}
& D_{ref} = shaderOp.D_{ref} & \textrm{(from optional SPIR-V operand)} \\
Change log for April 1, 2016 Vulkan 1.0.8 spec update: * Bump API patch number and header version number to 8 for this update. Github Issues: * Specify in the validity language for flink:vkBeginCommandBuffer that pname:commandBuffer mustnot: currently be pending execution (public issue 96). * Describe depth comparison using the correct temporary variable names in the <<textures-depth-compare-operation,Depth Compare Operation>> section (public issue 100). * Clarify the order of descriptor update operations in the flink:vkUpdateDescriptorSets command (public issue 115). * Specify in the VK_KHR_swapchain extension that flink:vkAcquireNextImageKHR's pname:semaphore and pname:fence parameters cannot both be sname:VK_NULL_HANDLE (partly addresses, but does not fully close, public issue 117 / internal issue 246). * Change reference to the "lifetime" of a Vulkan command to "duration", and define the "duration" term (public issue 135). * Added valid usage language for slink:VkImageLayout to require both pname:height and pname:depth to be 1 for 1D images and pname:depth to be 1 for 2D images (public issue 137). * Fix SPIR-V example code in the <<descriptorsets-inputattachment,Input Attachment>> section to properly decorate the code:InputAttachmentIndex (public issue 139). * Fix reference to nonexistent pname:imageInfo in the description of flink:VkWriteDescriptorSet to refer to pname:pImageInfo (public issue 140). Internal Issues: * Link to the fixed-function vertex chapter from the drawing chapter (internal issue #110) * Fix typo in slink:VkImageCreateInfo validity language: ptext:maxExtent.sampleCounts -> pname:sampleCounts (internal issue 249). * Explain why the non-core token etext:VK_IMAGE_LAYOUT_PRESENT_SRC_KHR is used in the example in the <<synchronization-semaphores,Semaphores>> section (internal issue 251). * Attempt to clarify in the VK_KHR_android_surface extension's <<platformQuerySupport_android,Android Platform Support>> section that there is no Android-specific WSI query, and why (internal issue 252). Other Commits: * Add missing language about ename:VK_INCOMPLETE being returned from array queries when the passed array is too short, in the VK_KHR_display, VK_KHR_swapchain, and VK_KHR_surface extensions.
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& D & \textrm{texel depth value}
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\end{align*}
+++++++++++++++++++
[[textures-conversion-to-rgba]]
=== Conversion to RGBA
The texel is expanded from one, two, or three to four components based on
the image base color:
Change log for March 10, 2016 Vulkan 1.0.6 spec update: * Bump API patch number and header version number to 6 for this update. Github Issues: * Define 'invocation group' for compute and graphics shaders. Cleanup definition and use of 'workgroup', and add glossary entries (public issue 1). * Various minor editorial fixes (public issue 33). * Clarify locations for block members in the &lt;&lt;interfaces-iointerfaces-locations,Location Assignment>> section (public issue 45). * Editorial fixes for &lt;&lt;commandbuffer-allocation,Command Buffer Allocation>> section (public issues 54, 59). * Clarify behavior of depth test in the &lt;&lt;fragops-depth,Depth Test&gt;&gt; section (public issues 80, 81). * Remove discussion of return codes from flink:vkGetPhysicalDeviceSparseImageFormatProperties and flink:vkGetImageSparseMemoryRequirements, which don't return values (public issue 82). * Allow flink:vkCmdDrawIndirect and flink:vkCmdDrawIndexedIndirect pname:drawCount of 0, as well as 1, when the multiDrawIndirect feature is not supported (public issue 88). * Remove confusing wording in the &lt;&lt;features-limits,Limits>> section describing the slink:VkPhysicalDeviceLimits pname:minTexelBufferOffsetAlignment, pname:minUniformBufferOffsetAlignment, and pname:minStorageBufferOffsetAlignment members as both minimums and maximums (public issue 91). * Clarified that only the RGB components should be affected in places where sRGB is referred to in the spec, such as ASTC formats. Minor re-wording to avoid "color space" when actively incorrect, now that we refer to the Data Format Spec which actually makes a distinction between color space and transfer function (public issue 94). * Treat pname:pPropertyCount == 0 consistently in flink:vkEnumerateInstanceLayerProperties and flink:vkEnumerateDeviceLayerProperties (public issue 99) * Cleanup minor editorial issues in chapters 14-17 (public issue 100). * Clarify definition of flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties (public issue 101). * Define the flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties pname:pLayerName parameter to be a pointer to a null-terminated UTF-8 string (public issue 101). * Rearrange "Missing information" references in mandatory format tables (public issue 101). * Clarify that the enumerated extensions returned by flink:vkEnumerateInstanceExtensionProperties and flink:vkEnumerateDeviceExtensionProperties will only include extensions provided by the platform or extensions implemented in implicitly enabled layers (public issue 101). * Miscellaneous editorial fixes. Include the Vulkan spec patch number in the PDF title. Fix label on &lt;&lt;fig-non-strict-lines,Non strict lines>> diagram. Use more easily distinguished symbols in tables in the &lt;&lt;features-required-format-support,Required Format Support>> section. Don't require FQDNs used as layer names be encoded in lower case if not possible, in the &lt;&lt;extensions-naming-conventions, Extension and Layer Naming Conventions>> section (public issues 101, 119, 121). Internal Issues: * Fixed excessive spacing in tables in XHTML (internal issue 18). * Clarify that ename:VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT applies to secondary command buffers. Previously spec only referred to the members of pname:pCommandBuffers being affected by this bit. Added a separate slink:VkSubmitInfo Valid Usage restriction specifying that ename:VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT also applies to any secondary command buffers that are recorded into the primary command buffers in pname:pCommandBuffers (internal issue 106). * Clarify that slink:VkDeviceCreateInfo::pname:pEnabledFeatures can be NULL (internal issue 117). * Remove "the value of" where it is redundant (e.g. speaking of an API parameter, struct member, or SPIR-V variable, but not when speaking of color components) (internal issue 175). * Forced patch version to always be 0 in the header. Add a "VK_API_VERSION_<major>_<minor>" macro for people to use to do the right thing. Add a VK_HEADER_VERSION which captures the header release number independent of the spec patch number (internal issue 176). * Correct description of slink:VkPipelineShaderStageCreateInfo::pname:pName to "a pointer to a null-terminated UTF-8 string" (internal issue #197). Other Commits: * Updated DataFormat spec reference to the new date for revision 5 of that spec. * Fixed KEEP option (to retain LaTeX intermediate files) in the Makefile to be included when edited there, as well as set on the command line. * Reserve and add "VK_IMG_filter_cubic" to the registry, and implement script functionality to add and remove validity from existing functions. Includes schema and readme changes. * Update GL_KHR_vulkan_glsl so push_constants do not have descriptor sets.
2016-03-11 01:33:02 +00:00
[[textures-texel-color-rgba-conversion-table]]
.Texel Color After Conversion To RGBA
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[options="header"]
|====
| Texel Aspect or Format | RGBA Color
| Depth aspect | latexmath:[$C_{rgba} = (D,0,0,one)$]
| Stencil aspect | latexmath:[$C_{rgba} = (S,0,0,one)$]
| One component color format | latexmath:[$C_{rgba} = (C_{r},0,0,one)$]
| Two component color format | latexmath:[$C_{rgba} = (C_{rg},0,one)$]
| Three component color format| latexmath:[$C_{rgba} = (C_{rgb},one)$]
| Four component color format | latexmath:[$C_{rgba} = C_{rgba}$]
|====
where latexmath:[$one = 1.0f$] for floating-point formats and depth aspects,
and latexmath:[$one = 1$] for integer formats and stencil aspects.
[[textures-component-swizzle]]
=== Component Swizzle
All texel input instructions apply a _swizzle_ based on the
elink:VkComponentSwizzle enums in the pname:components member of the
slink:VkImageViewCreateInfo structure for the image being read. The swizzle
can: rearrange the components of the texel, or substitute zero and one for
any components. It is defined as follows for the R component, and operates
similarly for the other components.
[latexmath]
+++++++++++++++++++
\begin{align*}
C'_{rgba}[R] & =
\begin{cases}
C_{rgba}[R] & \textrm{for RED swizzle} \\
C_{rgba}[G] & \textrm{for GREEN swizzle} \\
C_{rgba}[B] & \textrm{for BLUE swizzle} \\
C_{rgba}[A] & \textrm{for ALPHA swizzle} \\
0 & \textrm{for ZERO swizzle} \\
one & \textrm{for ONE swizzle} \\
C_{rgba}[R] & \textrm{for IDENTITY swizzle}
\end{cases}
\end{align*}
+++++++++++++++++++
where:
[latexmath]
+++++++++++++++++++
\begin{align*}
C_{rgba}[R] & \textrm{is the RED component} \\
C_{rgba}[G] & \textrm{is the GREEN component} \\
C_{rgba}[B] & \textrm{is the BLUE component} \\
C_{rgba}[A] & \textrm{is the ALPHA component} \\
one & = 1.0\textrm{f} & \textrm{for floating point components} \\
one & = 1 & \textrm{for integer components}
\end{align*}
+++++++++++++++++++
For each component this is applied to, the
ename:VK_COMPONENT_SWIZZLE_IDENTITY swizzle selects the corresponding
component from latexmath:[$C_{rgba}$].
If the border color is one of the etext:VK_BORDER_COLOR_*_OPAQUE_BLACK enums
and the elink:VkComponentSwizzle is not ename:VK_COMPONENT_SWIZZLE_IDENTITY
for all components (or the
<<resources-image-views-identity-mappings,equivalent identity mapping>>),
the value of the texel after swizzle is undefined.
[[textures-sparse-residency]]
=== Sparse Residency
Change log for April 22, 2016 Vulkan 1.0.11 spec update: * Bump API patch number and header version number to 11 for this update. Github Issues: * Clarify the WSI extension language by switching from the fuzzier "ownership" language to more-consistent "acquire" language (public issue 117). * Clarify that memory barriers apply to all commands in the dependency chains in the flink:vkGetRenderAreaGranularity command and the <<synchronization-execution-and-memory-dependencies,Execution And Memory Dependencies>> section (public issue 132). * Clarify that a queue family is a set of queues in the <<fundamentals-execmodel,Execution Model>> section (public issue 166). * Removed requirement from valid usage language that VkPresentInfoKHR::waitSemaphoreCount must be greater than 0 (public issue 171). * Fix broken internal links, describe structures consistently, use consistent style for SPIR-V codewords, and tag normative terms that were missing asciidoc tags (public issue 183 and ancillary markup/normative language fixes). * Fix typos for slink:VkPhysicalDeviceLimits member names in slink:VkImageCreateInfo validity language (public issue 184). Internal Issues: * Document that the requested patch version number specified as part of slink:VkApplicationInfo::pname:apiVersion is ignored when creating an instance (internal issue 176). * Clarify handling of extension structs in the <<fundamentals-validusageValid Usage>> section (internal issue 254). * Update required slink:VkImageFormatProperties::pname:maxMipLevels to be limited to the maximum allowed mipmap pyramid size corresponding to the actual maximum supported size for the format (internal issue 256). * Modify the <<features-extentperimagetype,Allowed Extent Values Based On Image Type>> section so the allowed maximum extent is the maximum image dimension supported for each dimension of the type of texture being queried (internal issue 257). * Clarify in the <<spirvenv-module-validation,Validation Rules within a Module>> section that at least one of the code:LocalSize execution mode or code:WorkgroupSize decoration is required for each compute shader entry point in a shader module (internal issue 279). * Add validity rules for formats in flink:vkCmdClearColorImage and flink:vkCmdClearDepthStencilImage (internal issue 283). * Clarify that slink:VkImageFormatProperties::pname:maxResourceSize is an upper bound, and that it may not be possible to create an image anywhere near that size (internal issue 284). Other Commits: * Fix various minor markup errors reported by validation scripts. * Change copyright from Khronos Free Use License to Apache 2.0 license on relevant script/XML/header files. This does not affect the specification source copyright.
2016-04-21 08:08:38 +00:00
code:OpImageSparse* instructions return a structure which includes a
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_residency code_ indicating whether any texels accessed by the instruction
are sparse unbound texels. This code can: be interpreted by the
code:OpImageSparseTexelsResident instruction which converts the residency
code to a boolean value.
== Texel Output Operations
_Texel output instructions_ are SPIR-V image instructions that write to an
image. _Texel output operations_ are a set of steps that are performed on
state, coordinates, and texel values while processing a texel output
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instruction, and which are common to some or all texel output instructions.
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They include the following steps, which are performed in the listed order:
* <<textures-output-validation,Validation operations>>
** <<textures-format-validation,Format validation>>
** <<textures-output-coordinate-validation,Coordinate validation>>
** <<textures-output-sparse-validation,Sparse validation>>
* <<textures-output-format-conversion,Texel output format conversion>>
[[textures-output-validation]]
=== Texel Output Validation Operations
_Texel output validation operations_ inspect instruction/image state or
coordinates, and in certain circumstances cause the write to have no effect.
There are a series of validations that the texel undergoes.
[[textures-format-validation]]
==== Texel Format Validation
Change log for April 22, 2016 Vulkan 1.0.11 spec update: * Bump API patch number and header version number to 11 for this update. Github Issues: * Clarify the WSI extension language by switching from the fuzzier "ownership" language to more-consistent "acquire" language (public issue 117). * Clarify that memory barriers apply to all commands in the dependency chains in the flink:vkGetRenderAreaGranularity command and the <<synchronization-execution-and-memory-dependencies,Execution And Memory Dependencies>> section (public issue 132). * Clarify that a queue family is a set of queues in the <<fundamentals-execmodel,Execution Model>> section (public issue 166). * Removed requirement from valid usage language that VkPresentInfoKHR::waitSemaphoreCount must be greater than 0 (public issue 171). * Fix broken internal links, describe structures consistently, use consistent style for SPIR-V codewords, and tag normative terms that were missing asciidoc tags (public issue 183 and ancillary markup/normative language fixes). * Fix typos for slink:VkPhysicalDeviceLimits member names in slink:VkImageCreateInfo validity language (public issue 184). Internal Issues: * Document that the requested patch version number specified as part of slink:VkApplicationInfo::pname:apiVersion is ignored when creating an instance (internal issue 176). * Clarify handling of extension structs in the <<fundamentals-validusageValid Usage>> section (internal issue 254). * Update required slink:VkImageFormatProperties::pname:maxMipLevels to be limited to the maximum allowed mipmap pyramid size corresponding to the actual maximum supported size for the format (internal issue 256). * Modify the <<features-extentperimagetype,Allowed Extent Values Based On Image Type>> section so the allowed maximum extent is the maximum image dimension supported for each dimension of the type of texture being queried (internal issue 257). * Clarify in the <<spirvenv-module-validation,Validation Rules within a Module>> section that at least one of the code:LocalSize execution mode or code:WorkgroupSize decoration is required for each compute shader entry point in a shader module (internal issue 279). * Add validity rules for formats in flink:vkCmdClearColorImage and flink:vkCmdClearDepthStencilImage (internal issue 283). * Clarify that slink:VkImageFormatProperties::pname:maxResourceSize is an upper bound, and that it may not be possible to create an image anywhere near that size (internal issue 284). Other Commits: * Fix various minor markup errors reported by validation scripts. * Change copyright from Khronos Free Use License to Apache 2.0 license on relevant script/XML/header files. This does not affect the specification source copyright.
2016-04-21 08:08:38 +00:00
If the image format of the code:OpTypeImage is not compatible with the
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sname:VkImageView's pname:format, the effect of the write on the image
view's memory is undefined, but the write mustnot: access memory outside of
the image view.
[[textures-output-coordinate-validation]]
=== Integer Texel Coordinate Validation
The integer texel coordinates are validated according to the same rules as
for texel input
<<textures-integer-coordinate-validation,coordinate validation>>.
If the texel fails integer texel coordinate validation, then the write has
no effect.
[[textures-output-sparse-validation]]
=== Sparse Texel Operation
If the texel attempts to write to an unbound region of a sparse image, the
texel is a sparse unbound texel. In such a case, if the
sname:VkPhysicalDeviceSparseProperties property
pname:residencyNonResidentStrict is ename:VK_TRUE, the sparse unbound texel
write has no effect. If pname:residencyNonResidentStrict is ename:VK_FALSE,
the effect of the write is undefined but must: be safe. In addition, the
write may: have a side effect that is visible to other image instructions,
but mustnot: be written to any device memory allocation.
[[textures-output-format-conversion]]
=== Texel Output Format Conversion
Texels undergo a format conversion from the floating point, signed, or
unsigned integer type of the texel data to the elink:VkFormat of the image
view. Any unused components are ignored.
Each component is converted based on its type and size (as defined in the
<<features-formats-definition,Format Definition>> section for each
elink:VkFormat), using the appropriate equations in
<<fundamentals-fp16,16-Bit Floating-Point Numbers>> and
Change log for April 22, 2016 Vulkan 1.0.11 spec update: * Bump API patch number and header version number to 11 for this update. Github Issues: * Clarify the WSI extension language by switching from the fuzzier "ownership" language to more-consistent "acquire" language (public issue 117). * Clarify that memory barriers apply to all commands in the dependency chains in the flink:vkGetRenderAreaGranularity command and the <<synchronization-execution-and-memory-dependencies,Execution And Memory Dependencies>> section (public issue 132). * Clarify that a queue family is a set of queues in the <<fundamentals-execmodel,Execution Model>> section (public issue 166). * Removed requirement from valid usage language that VkPresentInfoKHR::waitSemaphoreCount must be greater than 0 (public issue 171). * Fix broken internal links, describe structures consistently, use consistent style for SPIR-V codewords, and tag normative terms that were missing asciidoc tags (public issue 183 and ancillary markup/normative language fixes). * Fix typos for slink:VkPhysicalDeviceLimits member names in slink:VkImageCreateInfo validity language (public issue 184). Internal Issues: * Document that the requested patch version number specified as part of slink:VkApplicationInfo::pname:apiVersion is ignored when creating an instance (internal issue 176). * Clarify handling of extension structs in the <<fundamentals-validusageValid Usage>> section (internal issue 254). * Update required slink:VkImageFormatProperties::pname:maxMipLevels to be limited to the maximum allowed mipmap pyramid size corresponding to the actual maximum supported size for the format (internal issue 256). * Modify the <<features-extentperimagetype,Allowed Extent Values Based On Image Type>> section so the allowed maximum extent is the maximum image dimension supported for each dimension of the type of texture being queried (internal issue 257). * Clarify in the <<spirvenv-module-validation,Validation Rules within a Module>> section that at least one of the code:LocalSize execution mode or code:WorkgroupSize decoration is required for each compute shader entry point in a shader module (internal issue 279). * Add validity rules for formats in flink:vkCmdClearColorImage and flink:vkCmdClearDepthStencilImage (internal issue 283). * Clarify that slink:VkImageFormatProperties::pname:maxResourceSize is an upper bound, and that it may not be possible to create an image anywhere near that size (internal issue 284). Other Commits: * Fix various minor markup errors reported by validation scripts. * Change copyright from Khronos Free Use License to Apache 2.0 license on relevant script/XML/header files. This does not affect the specification source copyright.
2016-04-21 08:08:38 +00:00
<<fundamentals-fixedconv,Fixed-Point Data Conversion>>.
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== Derivative Operations
SPIR-V derivative instructions include code:OpDPdx, code:OpDPdy,
code:OpDPdxFine, code:OpDPdyFine, code:OpDPdxCoarse, and code:OpDPdyCoarse.
Derivative instructions are only available in a fragment shader.
image::images/vulkantexture2.png[Title="Implicit derivatives",align="left", scaledwidth="50%"]
Derivatives are computed as if there is a 2x2 neighborhood of fragments for
each fragment shader invocation. These neighboring fragments are used to
compute derivatives with the assumption that the values of P in the
neighborhood are piecewise linear. It is further assumed that the values of
P in the neighborhood are locally continuous, therefore derivatives in
non-uniform control flow are undefined.
[latexmath]
+++++++++++++++++++
\begin{align*}
dPdx_{i_1,j_0} & = dPdx_{i_0,j_0} & = P_{i_1,j_0} - P_{i_0,j_0} \\
dPdx_{i_1,j_1} & = dPdx_{i_0,j_1} & = P_{i_1,j_1} - P_{i_0,j_1} \\
\\
dPdy_{i_0,j_1} & = dPdy_{i_0,j_0} & = P_{i_0,j_1} - P_{i_0,j_0} \\
dPdy_{i_1,j_1} & = dPdy_{i_1,j_0} & = P_{i_1,j_1} - P_{i_1,j_0}
\end{align*}
+++++++++++++++++++
The code:Fine derivative instructions must: return the values above, for a
group of fragments in a 2x2 neighborhood. Coarse derivatives may: return
only two values. In this case, the values should: be:
[latexmath]
+++++++++++++++++++
\begin{align*}
dPdx & =
\begin{cases}
dPdx_{i_0,j_0} & \textrm{preferred}\\
dPdx_{i_0,j_1}
\end{cases} \\
dPdy & =
\begin{cases}
dPdy_{i_0,j_0} & \textrm{preferred}\\
dPdy_{i_1,j_0}
\end{cases}
\end{align*}
+++++++++++++++++++
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code:OpDPdx and code:OpDPdy must: return the same result as either
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code:OpDPdxFine or code:OpDPdxCoarse and either code:OpDPdyFine or
code:OpDPdyCoarse, respectively. Implementations must: make the same choice
of either coarse or fine for both code:OpDPdx and code:OpDPdy, and
implementations should: make the choice that is more efficient to compute.
[[textures-normalized-operations]]
== Normalized Texel Coordinate Operations
If the image sampler instruction provides normalized texel coordinates, some
of the following operations are performed.
[[textures-projection]]
=== Projection Operation
For code:Proj image operations, the normalized texel coordinates
latexmath:[$(s,t,r,q,a)$] and (if present) the latexmath:[$D_{ref}$]
coordinate are transformed as follows:
[latexmath]
+++++++++++++++++++
\begin{align*}
s & = \frac{s}{q}, & \textrm{for 1D, 2D, or 3D image} \\
\\
t & = \frac{t}{q}, & \textrm{for 2D or 3D image} \\
\\
r & = \frac{r}{q}, & \textrm{for 3D image} \\
\\
D_{ref} & = \frac{D_{ref}}{q}, & \textrm{if provided}
\end{align*}
+++++++++++++++++++
=== Derivative Image Operations
Derivatives are used for level-of-detail selection. These derivatives are
either implicit (in an code:ImplicitLod image instruction in a fragment
shader) or explicit (provided explicitly by shader to the image instruction
in any shader).
For implicit derivatives image instructions, the derivatives of texel
coordinates are calculated in the same manner as derivative operations
above. That is:
[latexmath]
+++++++++++++++++++
\begin{align*}
\partial{s}/\partial{x} & = dPdx(s), & \partial{s}/\partial{y} & = dPdy(s), & \textrm{for 1D, 2D, Cube, or 3D image} \\
\partial{t}/\partial{x} & = dPdx(t), & \partial{t}/\partial{y} & = dPdy(t), & \textrm{for 2D, Cube, or 3D image} \\
\partial{u}/\partial{x} & = dPdx(u), & \partial{u}/\partial{y} & = dPdy(u), & \textrm{for Cube or 3D image}
\end{align*}
+++++++++++++++++++
Partial derivatives not defined above for certain image dimensionalities are
set to zero.
For explicit level-of-detail image instructions, if the optional: SPIR-V
operand latexmath:[$Grad$] is provided, then the operand values are used for
the derivatives. The number of components present in each derivative for a
given image dimensionality matches the number of partial derivatives
computed above.
If the optional: SPIR-V operand latexmath:[$Lod$] is provided, then
derivatives are set to zero, the cube map derivative transformation is
skipped, and the scale factor operation is skipped. Instead, the floating
point scalar coordinate is directly assigned to latexmath:[$\lambda_{base}$]
as described in <<textures-level-of-detail-operation,Level-of-Detail
Operation>>.
=== Cube Map Face Selection and Transformations
For cube map image instructions, the latexmath:[$(s,t,r)$] coordinates are
treated as a direction vector latexmath:[$(r_{x},r_{y},r_{z})$]. The
direction vector is used to select a cube map face. The direction vector is
transformed to a per-face texel coordinate system
latexmath:[$(s_{face},t_{face})$]. The direction vector is also used to
transform the derivatives to per-face derivatives.
=== Cube Map Face Selection
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The direction vector selects one of the cube map's faces based on the
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largest magnitude coordinate direction (the major axis direction). Since two
or more coordinates can: have identical magnitude, the implementation must:
have rules to disambiguate this situation.
The rules should: have as the first rule that latexmath:[$r_{z}$] wins over
latexmath:[$r_{y}$] and latexmath:[$r_{x}$], and the second rule that
latexmath:[$r_{y}$] wins over latexmath:[$r_{x}$]. An implementation may:
choose other rules, but the rules must: be deterministic and depend only on
latexmath:[$(r_{x},r_{y},r_{z})$].
The layer number (corresponding to a cube map face), the coordinate
selections for latexmath:[$s_{c}$], latexmath:[$t_{c}$],
latexmath:[$r_{c}$], and the selection of derivatives, are determined by the
major axis direction as specified in the following two tables.
.Cube map face and coordinate selection
[width="75%",frame="all",options="header"]
|======================
|Major Axis Direction|Layer Number|Cube Map Face|latexmath:[$s_{c}$]|latexmath:[$t_{c}$]|latexmath:[$r_{c}$]
|latexmath:[$+r_{x}$]|latexmath:[$0$]|latexmath:[$Positive X$]|latexmath:[$-r_{z}$]|latexmath:[$-r_{y}$]|latexmath:[$r_{x}$]
|latexmath:[$-r_{x}$]|latexmath:[$1$]|latexmath:[$Negative X$]|latexmath:[$+r_{z}$]|latexmath:[$-r_{y}$]|latexmath:[$r_{x}$]
|latexmath:[$+r_{y}$]|latexmath:[$2$]|latexmath:[$Positive Y$]|latexmath:[$+r_{x}$]|latexmath:[$+r_{z}$]|latexmath:[$r_{y}$]
|latexmath:[$-r_{y}$]|latexmath:[$3$]|latexmath:[$Negative Y$]|latexmath:[$+r_{x}$]|latexmath:[$-r_{z}$]|latexmath:[$r_{y}$]
|latexmath:[$+r_{z}$]|latexmath:[$4$]|latexmath:[$Positive Z$]|latexmath:[$+r_{x}$]|latexmath:[$-r_{y}$]|latexmath:[$r_{z}$]
|latexmath:[$-r_{z}$]|latexmath:[$5$]|latexmath:[$Negative Z$]|latexmath:[$-r_{x}$]|latexmath:[$-r_{y}$]|latexmath:[$r_{z}$]
|======================
.Cube map derivative selection
[width="75%",frame="all",options="header"]
|======================
|Major Axis Direction|latexmath:[$\partial{s_{c}}/\partial{x}$]|latexmath:[$\partial{s_{c}}/\partial{y}$]|latexmath:[$\partial{t_{c}}/\partial{x}$]|latexmath:[$\partial{t_{c}}/\partial{y}$]|latexmath:[$\partial{r_{c}}/\partial{x}$]|latexmath:[$\partial{r_{c}}/\partial{y}$]
|latexmath:[$+r_{x}$]
|latexmath:[$-\partial{r_{z}}/\partial{x}$]|latexmath:[$-\partial{r_{z}}/\partial{y}$]
|latexmath:[$-\partial{r_{y}}/\partial{x}$]|latexmath:[$-\partial{r_{y}}/\partial{y}$]
|latexmath:[$+\partial{r_{x}}/\partial{x}$]|latexmath:[$+\partial{r_{x}}/\partial{y}$]
|latexmath:[$-r_{x}$]
|latexmath:[$+\partial{r_{z}}/\partial{x}$]|latexmath:[$+\partial{r_{z}}/\partial{y}$]
|latexmath:[$-\partial{r_{y}}/\partial{x}$]|latexmath:[$-\partial{r_{y}}/\partial{y}$]
|latexmath:[$-\partial{r_{x}}/\partial{x}$]|latexmath:[$-\partial{r_{x}}/\partial{y}$]
|latexmath:[$+r_{y}$]
|latexmath:[$+\partial{r_{x}}/\partial{x}$]|latexmath:[$+\partial{r_{x}}/\partial{y}$]
|latexmath:[$+\partial{r_{z}}/\partial{x}$]|latexmath:[$+\partial{r_{z}}/\partial{y}$]
|latexmath:[$+\partial{r_{y}}/\partial{x}$]|latexmath:[$+\partial{r_{y}}/\partial{y}$]
|latexmath:[$-r_{y}$]
|latexmath:[$+\partial{r_{x}}/\partial{x}$]|latexmath:[$+\partial{r_{x}}/\partial{y}$]
|latexmath:[$-\partial{r_{z}}/\partial{x}$]|latexmath:[$-\partial{r_{z}}/\partial{y}$]
|latexmath:[$-\partial{r_{y}}/\partial{x}$]|latexmath:[$-\partial{r_{y}}/\partial{y}$]
|latexmath:[$+r_{z}$]
|latexmath:[$+\partial{r_{x}}/\partial{x}$]|latexmath:[$+\partial{r_{x}}/\partial{y}$]
|latexmath:[$-\partial{r_{y}}/\partial{x}$]|latexmath:[$-\partial{r_{y}}/\partial{y}$]
|latexmath:[$+\partial{r_{z}}/\partial{x}$]|latexmath:[$+\partial{r_{z}}/\partial{y}$]
|latexmath:[$-r_{z}$]
|latexmath:[$-\partial{r_{x}}/\partial{x}$]|latexmath:[$-\partial{r_{x}}/\partial{y}$]
|latexmath:[$-\partial{r_{y}}/\partial{x}$]|latexmath:[$-\partial{r_{y}}/\partial{y}$]
|latexmath:[$-\partial{r_{z}}/\partial{x}$]|latexmath:[$-\partial{r_{z}}/\partial{y}$]
|======================
=== Cube Map Coordinate Transformation
[latexmath]
++++++++++++++++++++++++
\begin{align*}
s_{face} & =
\frac{1}{2} \times \frac{s_c}{|r_c|} + \frac{1}{2} \\
t_{face} & =
\frac{1}{2} \times \frac{t_c}{|r_c|} + \frac{1}{2} \\
\end{align*}
++++++++++++++++++++++++
=== Cube Map Derivative Transformation
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\frac{\partial{s_{face}}}{\partial{x}} &=
\frac{\partial}{\partial{x}} \left ( \frac{1}{2} \times \frac{s_{c}}{|r_{c}|}
+ \frac{1}{2}\right ) \\
\frac{\partial{s_{face}}}{\partial{x}} &=
\frac{1}{2} \times \frac{\partial}{\partial{x}}
\left ( \frac{s_{c}}{|r_{c}|} \right ) \\
\frac{\partial{s_{face}}}{\partial{x}} &=
\frac{1}{2} \times
\left (
\frac{
|r_{c}| \times \partial{s_c}/\partial{x}
-s_c \times {\partial{r_{c}}}/{\partial{x}}}
{\left ( r_{c} \right )^2}
\right )
\end{align*}
++++++++++++++++++++++++
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\frac{\partial{s_{face}}}{\partial{y}} &=
\frac{1}{2} \times
\left (
\frac{
|r_{c}| \times \partial{s_c}/\partial{y}
-s_c \times {\partial{r_{c}}}/{\partial{y}}}
{\left ( r_{c} \right )^2}
\right )\\
\frac{\partial{t_{face}}}{\partial{x}} &=
\frac{1}{2} \times
\left (
\frac{
|r_{c}| \times \partial{t_c}/\partial{x}
-t_c \times {\partial{r_{c}}}/{\partial{x}}}
{\left ( r_{c} \right )^2}
\right ) \\
\frac{\partial{t_{face}}}{\partial{y}} &=
\frac{1}{2} \times
\left (
\frac{
|r_{c}| \times \partial{t_c}/\partial{y}
-t_c \times {\partial{r_{c}}}/{\partial{y}}}
{\left ( r_{c} \right )^2}
\right )
\end{align*}
++++++++++++++++++++++++
ifdef::editing-notes[]
[NOTE]
.editing-note
==================
(Bill) Note that we never revisited ARB_texture_cubemap after we introduced
dependent texture fetches (ARB_fragment_program and ARB_fragment_shader).
The derivatives of latexmath:[$s_{face}$] and latexmath:[$t_{face}$] are
only valid for non-dependent texture fetches (pre OpenGL 2.0).
==================
endif::editing-notes[]
=== Scale Factor Operation, Level-of-Detail Operation and Image Level(s) Selection
Level-of-detail selection can: be either explicit (provided explicitly by
the image instruction) or implicit (determined from a scale factor
calculated from the derivatives).
[[textures-scale-factor]]
==== Scale Factor Operation
The magnitude of the derivatives are calculated by:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
m_{ux} & = \left | \partial s / \partial x \right | \times w_{base} \\
m_{vx} & = \left | \partial t / \partial x \right | \times h_{base} \\
m_{wx} & = \left | \partial r / \partial x \right | \times d_{base} \\
\\
m_{uy} & = \left | \partial s / \partial y \right | \times w_{base} \\
m_{vy} & = \left | \partial t / \partial y \right | \times h_{base} \\
m_{wy} & = \left | \partial r / \partial y \right | \times d_{base}
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\partial t / \partial x & = \partial t / \partial y = 0 & \textrm{(for 1D image)} \\
\partial r / \partial x & = \partial r / \partial y = 0 & \textrm{(for 1D, 2D or Cube image)} \\
\\
w_{base} & = image.w \\
h_{base} & = image.h \\
d_{base} & = image.d \\
& \textrm{of the } baseMipLevel & \textrm{(from image descriptor)}
\end{align*}
++++++++++++++++++++++++
The _scale factors_ latexmath:[$(\rho_{x}, \rho{y})$] should: be calculated
by:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\rho_{x} & = \sqrt{ m_{ux} ^{2} + m_{vx} ^{2} + m_{wx} ^{2} } \\
\rho_{y} & = \sqrt{ m_{uy} ^{2} + m_{vy} ^{2} + m_{wy} ^{2} }
\end{align*}
++++++++++++++++++++++++
The ideal functions latexmath:[$\rho_{x}$] and latexmath:[$\rho_{y}$] may:
be approximated with functions latexmath:[$f_x$] and latexmath:[$f_y$],
subject to the following constraints:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
& f_x \textrm{ is continuous and monotonically increasing in each of }
m_{ux},
m_{vx}, \textrm{ and }
m_{wx} \\
& f_y \textrm{ is continuous and monotonically increasing in each of }
m_{uy},
m_{vy}, \textrm{ and }
m_{wy}
\end{align*}
\begin{align*}
\max \left (
\left | m_{ux} \right | ,
\left | m_{vx} \right | ,
\left | m_{wx} \right |
\right ) \leq
& f_x \leq
\left | m_{ux} \right | +
\left | m_{vx} \right | +
\left | m_{wx} \right | \\
\max \left (
\left | m_{uy} \right | ,
\left | m_{vy} \right | ,
\left | m_{wy} \right |
\right ) \leq
& f_y \leq
\left | m_{uy} \right | +
\left | m_{vy} \right | +
\left | m_{wy} \right |
\end{align*}
++++++++++++++++++++++++
ifdef::editing-notes[]
[NOTE]
.editing-note
==================
(Bill) For reviewers only - anticipating questions.
We only support implicit derivatives for normalized texel coordinates.
So we are documenting the derivatives in s,t,r (normalized texel
coordinates) rather than u,v,w (unnormalized texel coordinates) as in OpenGL
and OpenGL ES specifications. (I know, u,v,w is the way it has been
documented since OpenGL V1.0.)
Also there's no reason to have conditional application of
latexmath:[$w_{base} , h_{base} , d_{base}$] for rectangle textures either,
since they don't support implicit derivatives.
==================
endif::editing-notes[]
The minimum and maximum scale factors latexmath:[$(\rho_{min},\rho_{max})$]
are determined by:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\rho_{max} & = \max( \rho_{x} , \rho_{y} ) \\
\rho_{min} & = \min( \rho_{x} , \rho_{y} )
\end{align*}
++++++++++++++++++++++++
The sampling rate is determined by:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
N & = \min \left (\left \lceil \frac{\rho_{max}}{\rho_{min}} \right \rceil ,max_{Aniso} \right )
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
sampler.max_{Aniso} & = maxAnisotropy & \textrm{(from sampler descriptor)} \\
limits.max_{Aniso} & = maxSamplerAnisotropy & \textrm{(from physical device limits)} \\
max_{Aniso} & = \min \left ( sampler.max_{Aniso}, limits.max_{Aniso} \right )
\end{align*}
++++++++++++++++++++++++
If latexmath:[$\rho_{max} = \rho_{min} = 0$], then all the partial
derivatives are zero, the fragment's footprint in texel space is a point,
and latexmath:[$N$] should: be treated as 1. If
latexmath:[$\rho_{max} \neq 0 \textrm{ and } \rho_{min} = 0$] then all
partial derivatives along one axis are zero, the fragment's footprint in
texel space is a line segment, and latexmath:[$N$] should: be treated as
latexmath:[$max_{Aniso}$]. However, anytime the footprint is small in texel
space the implementation may: use a smaller value of latexmath:[$N$], even
when latexmath:[$\rho_{min}$] is zero or close to zero.
An implementation may: round latexmath:[$N$] up to the nearest supported
sampling rate.
If latexmath:[$N=1$], sampling is isotropic. If latexmath:[$N>1$], sampling
Change log for April 15, 2016 Vulkan 1.0.10 spec update: * Bump API patch number and header version number to 10 for this update. Github Issues: * Slightly tweak the <<memory-allocation,Host Memory>> allocator language so that an application wrapping the standard C alloc/free/realloc functions is still correct - the previous language was too strong with regards to freeing memory. Also made certain scenarios clearer - an implementation may now continue without error if an allocation failed and it is able to continue correctly (public issue 21). * Require that etext:VK_*_CREATE_SPARSE_BINDING_BIT is set when the corresponding etext:VK_*_CREATE_SPARSE_RESIDENCY_BIT is used, in the <<sparsememory-miptail,Mip Tail Regions>> section and related commands flink:vkCreateBuffer and flink:vkCreateImage (public issue 84). * Update the <<features,Features, Limits, and Formats>> chapter to clarify interactions between optional features and dynamic state for the pname:depthBiasClamp and pname:wideLines features (public issue 89). * Describe the code:WorkgroupSize builtin in the <<interfaces-builtin-variables,Built-In Variables>> section, and update the <<compute-shaders,Compute Shaders>> section to further clarify how to set the number of workgroups to execute in a compute shader (public issue 145). * Use the term *image subresource* everywhere instead of *subresource*, except for the special case of *host-accessible subresource*, which may be either an image subresource or buffer range (public issue 120) * Add a note to the <<features,Features, Limits, and Formats>> section about extensibility of structures (Public issue 165). * Fix return code flink:vkAcquireNextImageKHR when the timeout parameter is 0 to ename:VK_NOT_READY instead of ename:VK_TIMEOUT (public issue 170). * Fix typo in slink:VkLayerProperties::pname:apiVersion field (public issue 172). Internal Issues: * Fix a few minor internally-detected typos. * Minor formatting tweaks to pseudocode in the <<resources,Resource Creation>> chapter (internal issue 179). * Fix typo in the definition of point sampling for elink:VkCullModeFlagBits (internal issue 268).
2016-04-14 08:58:49 +00:00
is anisotropic.
2016-02-16 09:53:44 +00:00
[[textures-level-of-detail-operation]]
==== Level-of-Detail Operation
The _level-of-detail_ parameter latexmath:[$\lambda$] is computed as
follows:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\lambda_{base}(x,y) & =
\begin{cases}
shaderOp.Lod & \textrm{(from optional SPIR-V operand)} \\
\log_2 \left ( \frac{\rho_{max}}{N} \right ) & \textrm{otherwise}
\end{cases} \\
Change log for March 4, 2016 Vulkan 1.0.5 spec update: * Bump API patch number to 5 for this update. Github Issues: * Correctly describe slink:VkPhysicalDeviceProperties pname:deviceName member as a string, not a pointer to a string. Also one typo fix for "hetereogeneous" (public issue 4). * Replace maynot: macro with may: not, and "may: or maynot:" with "may:" (public issue 4). * Clarify that redundantly setting the state of a fence or event has no effect (public issue 4). * Minor fixes to ref pages to track descriptions of memory bits that changed in the core spec. Fix name of a member in the description of sname:sname:VkPipelineMultisampleStateCreateInfo (public issues 8, 13). * Remove redundant validity statement for sname:VkGraphicsPipelineCreateInfo::pname:stageCount (public issue 14). * Fix typos in chapters 7-9 (public issue 14). * Clarify the example demonstrating the behavior of code:OpMemoryBarrier in the &lt;&lt;shaders-execution-memory-ordering,shader memory acces ordering>> section (public issue 16). * Specify that freeing mapped memory implicitly unmaps the memory in the description of flink:vkFreeMemory (public issue 17). * Forbid allocation callbacks from calling into the API in the &lt;&lt;memory-allocation,memory allocation>> section (public issue 20). * Add missing validity rules about size being greater than 0 and offset being less than size of object. Fix flink:VkMappedMemoryRange's misinterpretation of offset (public issues 27, 31). * Add validity rule disallowing overlapping source/destination descriptors in flink:VkCopyDescriptorSet (public issue 32). * Clarify that array and matrix stride has to be a multiple of the base alignment of the array or matrix in the &lt;&lt;interfaces-resources-layout,Offset and Stride Assignment>> section (public issue 38). * Correct parenthesis floor nesting error in equation for &lt;&lt;textures-RGB-sexp,RGB to shared exponent conversion>>. Clarify case of when exp' is forced to 0, avoiding log2(0) undefined problem (public issue 40). * Remove redundant statement from the code:FragDepth description in the &lt;&lt;interfaces-builtin-variables,Built-In Variables>> section (public issue 47). * Define the clamping of the &lt;&lt;textures-level-of-detail-operation,bias added to the scale factor>> by linking to the slink:VkPhysicalDevice feature pname:maxSamplerLodBias (public issue 64). * Fix typo "optimal linear resources" and clarify the set of resources &lt;&lt;features-limits-bufferImageGranularity,the pname:bufferImageGranularity resource>> applies to (public issue 67). * Replace 'descriptor accessed by a pipeline' language for sname:VkDescriptorSetAllocateInfo with more precise phrasing about binding a descriptor set before a command that invokes work using that set (public issue 69). * tstripadj.svg contained an Inkscape tag which caused Firefox and IE 11 to fail to render it, and was illegal SVG. Generating Plain SVG from the Inkscape SVG source fixes this (public issue 70). * Fix validity for sname:VkVertexInputBindingDescription and sname:VkVertexInputAttributeDescription numbers (public issue 72). Internal Issues: * Clarify the meaning of ename:VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT in elink:VkFormatFeatureFlagBits with respect to depth compare (internal issue 107). * Added a note explaining that ename:VK_QUEUE_TRANSFER_BIT may or may not be reported for a queue family that already supports ename:VK_QUEUE_GRAPHICS_BIT or ename:VK_QUEUE_COMPUTE_BIT as the former is a strict subset of the latter ones (internal issue 116). * Add validity language for sname:VkDescriptorSetAllocateInfo about exceeding the descriptor pool capacity (internal issue 140). * Add ename:VK_INCOMPLETE success code for flink:vkEnumeratePhysicalDevices query (internal issue 163). Other Commits: * Add the VK_NV_glsl_shader extension definitions to the API. * Update GL_KHR_vulkan_glsl with 1) origin_upper_left as default 2) specialization array constant semantics. * Corrected/updated Data Format Specification date.
2016-03-03 13:06:18 +00:00
\lambda'(x,y) & = \lambda_{base} + \operatorname{clamp}(sampler.bias + shaderOp.bias,-maxSamplerLodBias,maxSamplerLodBias) \\
2016-02-16 09:53:44 +00:00
\lambda & =
\begin{cases}
lod_{max}, & \lambda' > lod_{max} \\
\lambda', & lod_{min} \leq \lambda' \leq lod_{max} \\
lod_{min}, & \lambda' < lod_{min} \\
undefined, & lod_{min} > lod_{max} \\
\end{cases}
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
sampler.bias & = mipLodBias & \textrm{(from sampler descriptor)} \\
shaderOp.bias & =
\begin{cases}
Bias & \textrm{(from optional SPIR-V operand)} \\
0 & \textrm{otherwise}
\end{cases} \\
sampler.lod_{min} & = minLod & \textrm{(from sampler descriptor)} \\
shaderOp.lod_{min} & =
\begin{cases}
MinLod & \textrm{(from optional SPIR-V operand)} \\
0 & \textrm{otherwise}
\end{cases} \\
\\
lod_{min} & = \max(sampler.lod_{min}, shaderOp.lod_{min}) \\
lod_{max} & = maxLod & \textrm{(from sampler descriptor)}
\end{align*}
++++++++++++++++++++++++
Change log for March 4, 2016 Vulkan 1.0.5 spec update: * Bump API patch number to 5 for this update. Github Issues: * Correctly describe slink:VkPhysicalDeviceProperties pname:deviceName member as a string, not a pointer to a string. Also one typo fix for "hetereogeneous" (public issue 4). * Replace maynot: macro with may: not, and "may: or maynot:" with "may:" (public issue 4). * Clarify that redundantly setting the state of a fence or event has no effect (public issue 4). * Minor fixes to ref pages to track descriptions of memory bits that changed in the core spec. Fix name of a member in the description of sname:sname:VkPipelineMultisampleStateCreateInfo (public issues 8, 13). * Remove redundant validity statement for sname:VkGraphicsPipelineCreateInfo::pname:stageCount (public issue 14). * Fix typos in chapters 7-9 (public issue 14). * Clarify the example demonstrating the behavior of code:OpMemoryBarrier in the &lt;&lt;shaders-execution-memory-ordering,shader memory acces ordering>> section (public issue 16). * Specify that freeing mapped memory implicitly unmaps the memory in the description of flink:vkFreeMemory (public issue 17). * Forbid allocation callbacks from calling into the API in the &lt;&lt;memory-allocation,memory allocation>> section (public issue 20). * Add missing validity rules about size being greater than 0 and offset being less than size of object. Fix flink:VkMappedMemoryRange's misinterpretation of offset (public issues 27, 31). * Add validity rule disallowing overlapping source/destination descriptors in flink:VkCopyDescriptorSet (public issue 32). * Clarify that array and matrix stride has to be a multiple of the base alignment of the array or matrix in the &lt;&lt;interfaces-resources-layout,Offset and Stride Assignment>> section (public issue 38). * Correct parenthesis floor nesting error in equation for &lt;&lt;textures-RGB-sexp,RGB to shared exponent conversion>>. Clarify case of when exp' is forced to 0, avoiding log2(0) undefined problem (public issue 40). * Remove redundant statement from the code:FragDepth description in the &lt;&lt;interfaces-builtin-variables,Built-In Variables>> section (public issue 47). * Define the clamping of the &lt;&lt;textures-level-of-detail-operation,bias added to the scale factor>> by linking to the slink:VkPhysicalDevice feature pname:maxSamplerLodBias (public issue 64). * Fix typo "optimal linear resources" and clarify the set of resources &lt;&lt;features-limits-bufferImageGranularity,the pname:bufferImageGranularity resource>> applies to (public issue 67). * Replace 'descriptor accessed by a pipeline' language for sname:VkDescriptorSetAllocateInfo with more precise phrasing about binding a descriptor set before a command that invokes work using that set (public issue 69). * tstripadj.svg contained an Inkscape tag which caused Firefox and IE 11 to fail to render it, and was illegal SVG. Generating Plain SVG from the Inkscape SVG source fixes this (public issue 70). * Fix validity for sname:VkVertexInputBindingDescription and sname:VkVertexInputAttributeDescription numbers (public issue 72). Internal Issues: * Clarify the meaning of ename:VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT in elink:VkFormatFeatureFlagBits with respect to depth compare (internal issue 107). * Added a note explaining that ename:VK_QUEUE_TRANSFER_BIT may or may not be reported for a queue family that already supports ename:VK_QUEUE_GRAPHICS_BIT or ename:VK_QUEUE_COMPUTE_BIT as the former is a strict subset of the latter ones (internal issue 116). * Add validity language for sname:VkDescriptorSetAllocateInfo about exceeding the descriptor pool capacity (internal issue 140). * Add ename:VK_INCOMPLETE success code for flink:vkEnumeratePhysicalDevices query (internal issue 163). Other Commits: * Add the VK_NV_glsl_shader extension definitions to the API. * Update GL_KHR_vulkan_glsl with 1) origin_upper_left as default 2) specialization array constant semantics. * Corrected/updated Data Format Specification date.
2016-03-03 13:06:18 +00:00
and latexmath:[$maxSamplerLodBias$] is the value of the
slink:VkPhysicalDeviceLimits feature
<<features-limits-maxSamplerLodBias,pname:maxSamplerLodBias>>.
2016-02-16 09:53:44 +00:00
==== Image Level(s) Selection
The image level(s) latexmath:[$d, d_{hi},\textrm{ and }d_{lo}$] which texels
are read from are selected based on the level-of-detail parameter, as
follows. If the sampler's pname:mipmapMode is
ename:VK_SAMPLER_MIPMAP_MODE_NEAREST, then level d is used:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
d =
\begin{cases}
level_{base}, & \lambda \leq \frac{1}{2} \\
nearest(\lambda), & \lambda > \frac{1}{2},
level_{base} + \lambda \leq
q + \frac{1}{2} \\
q, & \lambda > \frac{1}{2}, level_{base} + \lambda > q + \frac{1}{2}
\end{cases}
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
nearest(\lambda) & =
\begin{cases}
\left \lceil level_{base}+\lambda + \frac{1}{2}\right \rceil - 1, &
\textrm{preferred} \\
\left \lfloor level_{base}+\lambda + \frac{1}{2}\right \rfloor, &
\textrm{alternative}
\end{cases}
\end{align*}
++++++++++++++++++++++++
and where q is the pname:levelCount from the pname:subresourceRange of the
image view.
If the sampler's pname:mipmapMode is ename:VK_SAMPLER_MIPMAP_MODE_LINEAR,
two neighboring levels are selected:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
d_{hi} & =
\begin{cases}
q, & level_{base} + \lambda \geq q \\
\left \lfloor level_{base}+\lambda \right \rfloor, & \textrm{otherwise}
\end{cases} \\
d_{lo} & =
\begin{cases}
q, & level_{base} + \lambda \geq q \\
d_{hi}+1, & \textrm{otherwise}
\end{cases}
\end{align*}
++++++++++++++++++++++++
latexmath:[$\delta$] is the fractional value used for linear filtering
between levels.
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\delta & = \operatorname{frac}(\lambda)
\end{align*}
++++++++++++++++++++++++
[[textures-normalized-to-unnormalized]]
=== (s,t,r,q,a) to (u,v,w,a) Transformation
The normalized texel coordinates are scaled by the image level dimensions
and the array layer is selected. This transformation is performed once for
each level (latexmath:[$d\textrm{ or }d_{hi}\textrm{ and }d_{lo}$]) used in
<<textures-texel-filtering,filtering>>.
[latexmath]
++++++++++++++++++++++++
\begin{align*}
u(x,y) & = s(x,y) \times width_{level} \\
v(x,y) & =
\begin{cases}
0 & \textrm{for 1D images} \\
t(x,y) \times height_{level} & \textrm{otherwise}
\end{cases} \\
w(x,y) & =
\begin{cases}
0 & \textrm{for 2D or Cube images} \\
r(x,y) \times depth_{level} & \textrm{otherwise}
\end{cases} \\
\\
a(x,y) & =
\begin{cases}
a(x,y) & \textrm{for array images} \\
0 & \textrm{otherwise}
\end{cases}
\end{align*}
++++++++++++++++++++++++
Operations then proceed to Unnormalized Texel Coordinate Operations.
== Unnormalized Texel Coordinate Operations
[[textures-unnormalized-to-integer]]
=== (u,v,w,a) to (i,j,k,l,n) Transformation And Array Layer Selection
The unnormalized texel coordinates are transformed to integer texel
coordinates relative to the selected mipmap level.
The layer index l is computed as:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
l & = \operatorname{clamp}( \operatorname{RNE}(a), 0, layerCount - 1 ) + baseArrayLayer
\end{align*}
++++++++++++++++++++++++
Change log for April 15, 2016 Vulkan 1.0.10 spec update: * Bump API patch number and header version number to 10 for this update. Github Issues: * Slightly tweak the <<memory-allocation,Host Memory>> allocator language so that an application wrapping the standard C alloc/free/realloc functions is still correct - the previous language was too strong with regards to freeing memory. Also made certain scenarios clearer - an implementation may now continue without error if an allocation failed and it is able to continue correctly (public issue 21). * Require that etext:VK_*_CREATE_SPARSE_BINDING_BIT is set when the corresponding etext:VK_*_CREATE_SPARSE_RESIDENCY_BIT is used, in the <<sparsememory-miptail,Mip Tail Regions>> section and related commands flink:vkCreateBuffer and flink:vkCreateImage (public issue 84). * Update the <<features,Features, Limits, and Formats>> chapter to clarify interactions between optional features and dynamic state for the pname:depthBiasClamp and pname:wideLines features (public issue 89). * Describe the code:WorkgroupSize builtin in the <<interfaces-builtin-variables,Built-In Variables>> section, and update the <<compute-shaders,Compute Shaders>> section to further clarify how to set the number of workgroups to execute in a compute shader (public issue 145). * Use the term *image subresource* everywhere instead of *subresource*, except for the special case of *host-accessible subresource*, which may be either an image subresource or buffer range (public issue 120) * Add a note to the <<features,Features, Limits, and Formats>> section about extensibility of structures (Public issue 165). * Fix return code flink:vkAcquireNextImageKHR when the timeout parameter is 0 to ename:VK_NOT_READY instead of ename:VK_TIMEOUT (public issue 170). * Fix typo in slink:VkLayerProperties::pname:apiVersion field (public issue 172). Internal Issues: * Fix a few minor internally-detected typos. * Minor formatting tweaks to pseudocode in the <<resources,Resource Creation>> chapter (internal issue 179). * Fix typo in the definition of point sampling for elink:VkCullModeFlagBits (internal issue 268).
2016-04-14 08:58:49 +00:00
where pname:layerCount is the number of layers in the image subresource
range of the image view, pname:baseArrayLayer is the first layer from the
subresource range, and where:
2016-02-16 09:53:44 +00:00
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\operatorname{RNE}(a) & =
\begin{cases}
\operatorname{roundTiesToEven}(a) & \textrm{preferred, from IEEE Std 754-2008 Floating-Point Arithmetic} \\
\left \lfloor a + \frac{1}{2} \right \rfloor & \textrm{alternative}
\end{cases}
\end{align*}
++++++++++++++++++++++++
The sample index n is assigned the value zero.
Nearest filtering (ename:VK_FILTER_NEAREST) computes the integer texel
coordinates that the unnormalized coordinates lie within:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
i & = \left \lfloor u \right \rfloor \\
j & = \left \lfloor v \right \rfloor \\
k & = \left \lfloor w \right \rfloor
\end{align*}
++++++++++++++++++++++++
Linear filtering (ename:VK_FILTER_LINEAR) computes a set of neighboring
coordinates which bound the unnormalized coordinates. The integer texel
coordinates are combinations of
latexmath:[$i_0\textrm{ or }i_1,j_0\textrm{ or }j_1,k_0\textrm{ or }k_1$],
as well as weights latexmath:[$\alpha, \beta, and \gamma$].
[latexmath]
++++++++++++++++++++++++
\begin{align*}
i_{0} & = \left \lfloor u - \frac{1}{2} \right \rfloor & i_{1} & = i_{0} + 1 \\
j_{0} & = \left \lfloor v - \frac{1}{2} \right \rfloor & j_{1} & = j_{0} + 1 \\
k_{0} & = \left \lfloor w - \frac{1}{2} \right \rfloor & k_{1} & = k_{0} + 1 \\
\\
\alpha & = \operatorname{frac} \left ( u - \frac{1}{2} \right ) \\
\beta & = \operatorname{frac} \left ( v - \frac{1}{2} \right ) \\
\gamma & = \operatorname{frac} \left ( w - \frac{1}{2} \right )
\end{align*}
++++++++++++++++++++++++
If the image instruction includes a latexmath:[$ConstOffset$] operand, the
constant offsets latexmath:[$(\Delta_{i},\Delta_{j},\Delta_{k})$] are added
to latexmath:[$(i,j,k)$] components of the integer texel coordinates.
== Image Sample Operations
[[textures-wrapping-operation]]
=== Wrapping Operation
code:Cube images ignore the wrap modes specified in the sampler. Instead, if
ename:VK_FILTER_NEAREST is used within a miplevel then
ename:VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE is used, and if
ename:VK_FILTER_LINEAR is used within a miplevel then sampling at the edges
is performed as described earlier in the
<<textures-cubemapedge,Cube map edge handling>> section.
The first integer texel coordinate i is transformed based on the
pname:addressModeU parameter of the sampler.
[latexmath]
++++++++++++++++++++++++
\begin{align*}
i &=
\begin{cases}
i \operatorname{mod} size & \textrm{for repeat} \\
(size-1) - \operatorname{mirror}((i \operatorname{mod} (2 \times size)) - size) & \textrm{for mirrored repeat} \\
\operatorname{clamp}(i,0,size-1) & \textrm{for clamp to edge} \\
\operatorname{clamp}(i,-1,size) & \textrm{for clamp to border} \\
\operatorname{clamp}(\operatorname{mirror}(i),0,size-1) & \textrm{for mirror clamp to edge}
\end{cases}
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
&\operatorname{mirror}(n) =
\begin{cases}
n & \textrm{for }n \geq 0 \\
-(1+n) &\textrm{otherwise} \\
\end{cases}
\end{align*}
++++++++++++++++++++++++
latexmath:[$j$] (for 2D and Cube image) and latexmath:[$k$] (for 3D image)
are similarly transformed based on the pname:addressModeV and
pname:addressModeW parameters of the sampler, respectively.
[[textures-gather]]
=== Texel Gathering
SPIR-V instructions with code:Gather in the name return a vector derived
Change log for March 25, 2016 Vulkan 1.0.7 spec update: * Bump API patch number and header version number to 7 for this update. Github Issues: * Fix slink:VkSpecializationMapEntry example to avoid C/C++ strict aliasing issues (public issue 14). * Clarify the meaning of "matching" in flink:vkCmdBindDescriptorSets validity language (public issue 33). * Add stub reference pages so xrefs to not-yet-written pages don't generate 404 errors. However, the actual content of these pages still needs to be filled in as time allows (public issue 44, but does not close that issue out). * Remove incorrect validity statement for flink:vkGetImageSparseMemoryRequirements (public issue 85). * Reword the <<features-limits-bufferImageGranularity,bufferImageGranularity>> feature in terms of "aliasing", and clarify that it applies to bindings in the same memory object (public issue 90). * Clarify the relationship of the slink:VkPhysicalDeviceLimits pname:maxViewportDimensions and pname:viewportBoundsRange limits (public issue 92). * Specify sparse unbound texture replacement in the <<textures-texel-replacement,Texel Replacement>> section independently of robust buffer access language (public issue 100). * Add the <<fundamentals-architecture-model,Architecture Model>> section to explain architecture constraints Vulkan has chosen to accept in order to enable portable and performant code (public issue 122). * State that an object must not be destroyed until *all* (not *any*) uses of that object have completed (public issue 123). * Minor editorial cleanup (public issues 129, 134, 146, 148). * Add validity language for layer and extension names to slink:VkDeviceCreateInfo matching that used for slink:VkInstanceCreateInfo (public issue 130). * Clean up terminology for the case when the bits set in one bitmask are a subset of the bits set in another bitmask (public issue 138). * Document that input attachments are UniformConstant not Input, in the <<interfaces-inputattachment,Fragment Input Attachment Interface>> section (public glslang bug 169). Internal Issues: * Add max enum values to "flag bits" enums (internal issue #136). * Clarify language around the various uses of the term "block" in the <<appendix-compressedtex-bc,Block Compressed Image Formats>> section (internal issue #202). * Removed "expand" dependency from <enums> groups in vk.xml and added auto-generation code in the scripts to infer it instead, to ensure consistency. This caused renaming of sname:VkColorSpaceKHR and sname:VkPresentModeKHR etext:BEGIN_RANGE (etc.) tokens, but those tokens are metadata, not part of the API, and the Vulkan WG is OK with this change. This change adds ranges to two additional enums that were missing them due to not defining the "expand" attribute (internal issue 217). * Tweak makefile to generate ref page nroff (.3) files in the right output directory, working around an a2x limitation (internal issue 223). Other Commits: * Add validity requirements for flink:vkCmdCopyQueryPoolResults pname:dstBuffer parameter. * Fix ref page build to generate .3 targets in the right output directory.
2016-03-25 09:25:04 +00:00
from a 2x2 rectangular region of texels in the base level of the image view.
The rules for the etext:LINEAR minification filter are applied to identify the
four selected texels. Each texel is then converted to an RGBA value according
to <<textures-conversion-to-rgba,conversion to RGBA>> and then
2016-02-16 09:53:44 +00:00
<<textures-component-swizzle,swizzled>>. A four-component vector is then
assembled by taking the component indicated by the code:Component value in
the instruction from the swizzled color value of the four texels:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau[R] &= \tau_{i0j1}[level_{base}][comp] \\
\tau[G] &= \tau_{i1j1}[level_{base}][comp] \\
\tau[B] &= \tau_{i1j0}[level_{base}][comp] \\
\tau[A] &= \tau_{i0j0}[level_{base}][comp]
\end{align*}
++++++++++++++++++++++++
where:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau[level_{base}][comp] &=
\begin{cases}
\tau[level_{base}][R], &\textrm{for } comp = 0 \\
\tau[level_{base}][G], &\textrm{for } comp = 1 \\
\tau[level_{base}][B], &\textrm{for } comp = 2 \\
\tau[level_{base}][A], &\textrm{for } comp = 3
\end{cases}\\
comp &\textrm{ from SPIR-V operand Component}
\end{align*}
++++++++++++++++++++++++
[[textures-texel-filtering]]
=== Texel Filtering
If latexmath:[$\lambda$] is less than or equal to zero, the texture is said
to be _magnified_, and the filter mode within a mip level is selected by the
pname:magFilter in the sampler. If latexmath:[$\lambda$] is greater than
zero, the texture is said to be _minified_, and the filter mode within a mip
level is selected by the pname:minFilter in the sampler.
Within a miplevel, etext:NEAREST filtering selects a single value using the
latexmath:[$(i,j,k)$] texel coordinates, with all texels taken from layer l.
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau[level] &=
\begin{cases}
\tau_{ijk}[level], &\textrm{for 3D image} \\
\tau_{ij}[level], &\textrm{for 2D or Cube image} \\
\tau_{i}[level], &\textrm{for 1D image}
\end{cases}
\end{align*}
++++++++++++++++++++++++
Within a miplevel, etext:LINEAR filtering computes a weighted average of 8
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(for 3D), 4 (for 2D or Cube), or 2 (for 1D) texel values, using the weights
2016-02-16 09:53:44 +00:00
computed earlier:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau_{3D}[level] & = (1-\alpha)(1-\beta)(1-\gamma)\tau_{i0j0k0}[level] \\
& \, + (\alpha)(1-\beta)(1-\gamma)\tau_{i1j0k0}[level] \\
& \, + (1-\alpha)(\beta)(1-\gamma)\tau_{i0j1k0}[level] \\
& \, + (\alpha)(\beta)(1-\gamma)\tau_{i1j1k0}[level] \\
& \, + (1-\alpha)(1-\beta)(\gamma)\tau_{i0j0k1}[level] \\
& \, + (\alpha)(1-\beta)(\gamma)\tau_{i1j0k1}[level] \\
& \, + (1-\alpha)(\beta)(\gamma)\tau_{i0j1k1}[level] \\
& \, + (\alpha)(\beta)(\gamma)\tau_{i1j1k1}[level]
\end{align*}
++++++++++++++++++++++++
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau_{2D}[level] & = (1-\alpha)(1-\beta)\tau_{i0j0}[level] \\
& \, + (\alpha)(1-\beta)\tau_{i1j0}[level] \\
& \, + (1-\alpha)(\beta)\tau_{i0j1}[level] \\
& \, + (\alpha)(\beta)\tau_{i1j1}[level]
\end{align*}
++++++++++++++++++++++++
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau_{1D}[level] & = (1-\alpha)\tau_{i0}[level] \\
& \, + (\alpha)\tau_{i1}[level]
\end{align*}
++++++++++++++++++++++++
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau[level] &=
\begin{cases}
\tau_{3D}[level], &\textrm{for 3D image} \\
\tau_{2D}[level], &\textrm{for 2D or Cube image} \\
\tau_{1D}[level], &\textrm{for 1D image}
\end{cases}
\end{align*}
++++++++++++++++++++++++
Finally, mipmap filtering either selects a value from one miplevel or
computes a weighted average between neighboring miplevels:
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau &=
\begin{cases}
\tau[d], &\textrm{for mipmode BASE or NEAREST} \\
(1-\delta)\tau[d_{hi}]+\delta\tau[d_{lo}], &\textrm{for mipmode LINEAR}
\end{cases}
\end{align*}
++++++++++++++++++++++++
[[textures-texel-anisotropic-filtering]]
=== Texel Anisotropic Filtering
Anisotropic filtering is enabled by the pname:anisotropyEnable in the
sampler. When enabled, the image filtering scheme accounts for a degree of
anisotropy.
The particular scheme for anisotropic texture filtering is implementation
dependent. Implementations should: consider the pname:magFilter,
pname:minFilter and pname:mipmapMode of the sampler to control the specifics
of the anisotropic filtering scheme used. In addition, implementations
should: consider pname:minLod and pname:maxLod of the sampler.
The following describes one particular approach to implementing anisotropic
filtering for the 2D Image case, implementations may: choose other methods:
Given a pname:magFilter, pname:minFilter of etext:LINEAR and a
pname:mipmapMode of etext:NEAREST,
Instead of a single isotropic sample, N isotropic samples are be sampled
within the image footprint of the image level d to approximate an
anisotropic filter. The sum latexmath:[$\tau_{2Daniso}$] is defined using
the single isotropic latexmath:[$\tau_{2D}$](u,v) at level d.
[latexmath]
++++++++++++++++++++++++
\begin{align*}
\tau_{2Daniso} & =
\frac{1}{N}\sum_{i=1}^{N}
{\tau_{2D}\left (
u \left ( x - \frac{1}{2} + \frac{i}{N+1} , y \right ),
\left ( v \left (x-\frac{1}{2}+\frac{i}{N+1} \right ), y
\right )
\right )},
&\textrm{when } \rho_{x} > \rho_{y} \\
\tau_{2Daniso} &=
\frac{1}{N}\sum_{i=1}^{N}
{\tau_{2D}\left (
u \left ( x, y - \frac{1}{2} + \frac{i}{N+1} \right ),
\left ( v \left (x,y-\frac{1}{2}+\frac{i}{N+1} \right )
\right )
\right )},
&\textrm{when } \rho_{y} \geq \rho_{x}
\end{align*}
++++++++++++++++++++++++
ifdef::editing-notes[]
[NOTE]
.editing-note
==================
(Bill) EXT_texture_filter_anisotropic has not been updated since 2000,
except for ES extension number (2007) and a minor speeling (sic) correction
(2014), neither of which are functional changes. It is showing its age.
In particular, there's an open issue about 3D textures.
There are no interactions with ARB_texture_cube_map (approved 1999, promoted
to core OpenGL 1.3 in 2001), let alone interactions with
ARB_seamless_cube_map (approved and promoted to core OpenGL 3.2 in 2009).
There are no interactions with texture offsets or texture gather.
==================
endif::editing-notes[]
[[textures-instructions]]
== Image Operation Steps
Each step described in this chapter is performed by a subset of the image
instructions:
* Texel Input Validation Operations, Format Conversion, Texel
Replacement, Conversion to RGBA, and Component
Swizzle: Performed by all instructions except code:OpImageWrite.
* Depth Comparison: Performed by code:OpImage*code:Dref instructions.
* All Texel output operations: Performed by code:OpImageWrite.
* Projection: Performed by all code:OpImage*code:Proj instructions.
* Derivative Image Operations, Cube Map Operations, Scale Factor
Operation, Level-of-Detail Operation and Image Level(s) Selection, and
Texel Anisotropic Filtering:
Performed by all code:OpImageSample* and code:OpImageSparseSample*
instructions.
* (s,t,r,q,a) to (u,v,w,a) Transformation, Wrapping, and (u,v,w,a) to
(i,j,k,l,n) Transformation And Array Layer Selection: Performed by all
code:OpImageSample, code:OpImageSparseSample, and
code:OpImage*code:Gather instructions.
* Texel Gathering: Performed by code:OpImage*code:Gather instructions.
* Texel Filtering: Performed by all code:OpImageSample* and
code:OpImageSparseSample* instructions.
* Sparse Residency: Performed by all code:OpImageSparse* instructions.