403 lines
18 KiB
Plaintext
403 lines
18 KiB
Plaintext
// Copyright (c) 2015-2016 The Khronos Group Inc.
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// Copyright notice at https://www.khronos.org/registry/speccopyright.html
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[[vertexpostproc]]
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= Fixed-Function Vertex Post-Processing
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After programmable vertex processing, the following fixed-function
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operations are applied to vertices of the resulting primitives:
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* Flatshading (see <<vertexpostproc-flatshading,Flatshading>>).
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* Primitive clipping, including client-defined half-spaces (see
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<<vertexpostproc-clipping,Primitive Clipping>>).
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* Shader output attribute clipping (see
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<<vertexpostproc-clipping-shader-outputs,Clipping Shader Outputs>>).
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* Perspective division on clip coordinates (see
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<<vertexpostproc-coord-transform,Coordinate Transformations>>).
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* Viewport mapping, including depth range scaling (see
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<<vertexpostproc-viewport,Controlling the Viewport>>).
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* Front face determination for polygon primitives (see
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<<primsrast-triangles-basic,Basic Triangle Rasterization>>).
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ifdef::editing-notes[]
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[NOTE]
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.editing-note
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====
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TODO:Odd that this one link to a different chapter is in this list.
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====
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endif::editing-notes[]
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Next, rasterization is performed on primitives as described in chapter
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<<primsrast,Rasterization>>.
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[[vertexpostproc-flatshading]]
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== Flatshading
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_Flatshading_ a vertex output attribute means to assign all vertices of the
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primitive the same value for that output.
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The output values assigned are those of the _provoking vertex_ of the
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primitive. The provoking vertex depends on the primitive topology, and is
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generally the ``first'' vertex of the primitive. For primitives not
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processed by tessellation or geometry shaders, the provoking vertex is
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selected from the input vertices according to the following table.
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<<<
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.Provoking vertex selection
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[align="center",cols="75%,25%"]
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|========================================
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|Primitive type of primitive latexmath:[$i$] | Provoking vertex number
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|ename:VK_PRIMITIVE_TOPOLOGY_POINT_LIST | latexmath:[$i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_LINE_LIST | latexmath:[$2 i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_LINE_STRIP | latexmath:[$i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST | latexmath:[$3 i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP | latexmath:[$i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_FAN | latexmath:[$i + 1$]
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|ename:VK_PRIMITIVE_TOPOLOGY_LINE_LIST_WITH_ADJACENCY | latexmath:[$4 i + 1$]
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|ename:VK_PRIMITIVE_TOPOLOGY_LINE_STRIP_WITH_ADJACENCY | latexmath:[$i + 1$]
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|ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST_WITH_ADJACENCY | latexmath:[$6 i$]
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|ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP_WITH_ADJACENCY | latexmath:[$2 i$]
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|========================================
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ifdef::editing-notes[]
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[NOTE]
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.editing-note
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====
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TODO: Add full caption:
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Provoking vertex selection. The output values used for flatshading the i^th^
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primitive generated by drawing commands with the indicated primitive type
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are derived from the corresponding values of the vertex whose index is shown
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in the table. Primitives and vertices are numbered starting from zero.
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====
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endif::editing-notes[]
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Flatshading is applied to those vertex attributes that
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<<interfaces-iointerfaces-matching,match>> fragment input attributes
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which are decorated as code:Flat.
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If a geometry shader is active, the output primitive topology is either
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points, line strips, or triangle strips, and the selection of the provoking
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vertex behaves according to the corresponding row of the table. If a
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tessellation evaluation shader is active and a geometry shader is not
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active, the provoking vertex is undefined but must: be one of the vertices
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of the primitive.
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[[vertexpostproc-clipping]]
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== Primitive Clipping
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Primitives are culled against the _cull volume_ and then clipped to the
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_clip volume_. In clip coordinates, the _view volume_ is defined by:
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latexmath:[$
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\begin{array}{c}
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-w_c \leq x_c \leq w_c \\
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-w_c \leq y_c \leq w_c \\
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0 \leq z_c \leq w_c \\
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\end{array}
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$]
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This view volume can: be further restricted by as many as
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sname:VkPhysicalDeviceLimits::pname:maxClipDistances client-defined
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half-spaces.
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The cull volume is the intersection of up to
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sname:VkPhysicalDeviceLimits::pname:maxCullDistances client-defined
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half-spaces (if no client-defined cull half-spaces are enabled, culling
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against the cull volume is skipped).
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A shader must: write a single cull distance for each enabled cull half-space
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to elements of the code:CullDistance array. If the cull distance for any
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enabled cull half-space is negative for all of the vertices of the primitive
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under consideration, the primitive is discarded. Otherwise the primitive is
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clipped against the clip volume as defined below.
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The clip volume is the intersection of up to
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sname:VkPhysicalDeviceLimits::pname:maxClipDistances client-defined
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half-spaces with the view volume (if no client-defined clip half-spaces are
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enabled, the clip volume is the view volume).
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A shader must: write a single clip distance for each enabled clip
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half-space to elements of the code:ClipDistance array. Clip half-space
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latexmath:[$i$] is then given by the set of points satisfying the inequality
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latexmath:[$c_i(P) \geq 0$]
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where latexmath:[$c_i(P)$] is the clip distance latexmath:[$i$] at
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point latexmath:[$P$]. For point primitives, latexmath:[$c_i(P)$] is simply
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the clip distance for the vertex in question. For line and triangle
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primitives, per-vertex clip distances are interpolated using a weighted
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mean, with weights derived according to the algorithms described in sections
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<<primsrast-lines-basic,Basic Line Segment Rasterization>> and
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<<primsrast-polygons-basic,Basic Polygon Rasterization>>, using the
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perspective interpolation equations.
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The number of client-defined clip and cull half-spaces that are enabled is
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determined by the explicit size of the built-in arrays code:ClipDistance and
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code:CullDistance, respectively, declared as an output in the interface of
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the entry point of the final shader stage before clipping.
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Depth clamping is enabled or disabled via the pname:depthClampEnable enable
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of the sname:VkPipelineRasterizationStateCreateInfo structure. If depth
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clamping is enabled, the plane equation
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latexmath:[$0 \leq z_c \leq w_c$]
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(see the clip volume definition above) is ignored by view
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volume clipping (effectively, there is no near or far plane clipping).
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If the primitive under consideration is a point, then clipping passes it
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unchanged if it lies within the clip volume; otherwise, it is discarded.
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If the primitive is a line segment, then clipping does nothing to it if it
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lies entirely within the clip volume, and discards it if it lies entirely
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outside the volume.
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If part of the line segment lies in the volume and part lies outside, then
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the line segment is clipped and new vertex coordinates are computed for one
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or both vertices. A clipped line segment endpoint lies on both the original
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line segment and the boundary of the clip volume.
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This clipping produces a value, latexmath:[$0 \leq t \leq 1$], for each
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clipped vertex. If the coordinates of a clipped vertex are
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latexmath:[${\textbf P}$] and the original vertices' coordinates are
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latexmath:[${\textbf P}_1$] and latexmath:[${\textbf P}_2$], then
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latexmath:[$t$] is given by
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latexmath:[${\textbf P} = t{\textbf P}_1 + (1-t){\textbf P}_2.$]
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latexmath:[$t$] is used to clip vertex output attributes as
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described in <<vertexpostproc-clipping-shader-outputs,Clipping Shader
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Outputs>>.
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If the primitive is a polygon, it passes unchanged if every one of its edges
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lie entirely inside the clip volume, and it is discarded if every one of its
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edges lie entirely outside the clip volume. If the edges of the polygon
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intersect the boundary of the clip volume, the intersecting edges are
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reconnected by new edges that lie along the boundary of the clip volume -
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in some cases requiring the introduction of new vertices into a polygon.
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If a polygon intersects an edge of the clip volume's boundary, the clipped
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polygon must: include a point on this boundary edge.
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Primitives rendered with user-defined half-spaces must: satisfy a
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complementarity criterion. Suppose a series of primitives is drawn where
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each vertex latexmath:[$i$] has a single specified clip distance
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latexmath:[$d_i$] (or a number of similarly specified clip distances, if
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multiple half-spaces are enabled). Next, suppose that the same series of
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primitives are drawn again with each such clip distance replaced by
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latexmath:[$-d_i$] (and the graphics pipeline is otherwise the same). In
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this case, primitives mustnot: be missing any pixels, and pixels mustnot: be
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drawn twice in regions where those primitives are cut by the clip planes.
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[[vertexpostproc-clipping-shader-outputs]]
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== Clipping Shader Outputs
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Next, vertex output attributes are clipped. The output values associated
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with a vertex that lies within the clip volume are unaffected by clipping.
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If a primitive is clipped, however, the output values assigned to vertices
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produced by clipping are clipped.
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Let the output values assigned to the two vertices latexmath:[${\textbf
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P}_1$] and latexmath:[${\textbf P}_2$] of an unclipped edge be
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latexmath:[${\textbf c}_1$] and latexmath:[${\textbf c}_2$]. The value of
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latexmath:[$t$] (see <<vertexpostproc-clipping,Primitive Clipping>>) for a
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clipped point latexmath:[${\textbf P}$] is used to obtain the output value
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associated with latexmath:[${\textbf P}$] as
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latexmath:[${\textbf c} = t {\textbf c}_1 + (1-t){\textbf c}_2. $]
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(Multiplying an output value by a scalar means multiplying each of _x_, _y_,
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_z_, and _w_ by the scalar.)
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Since this computation is performed in clip space before division by
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latexmath:[$w_c$], clipped output values are perspective-correct.
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Polygon clipping creates a clipped vertex along an edge of the clip
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volume's boundary. This situation is handled by noting that polygon clipping
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proceeds by clipping against one half-space at a time. Output value clipping
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is done in the same way, so that clipped points always occur at the
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intersection of polygon edges (possibly already clipped) with the clip
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volume's boundary.
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For vertex output attributes whose matching fragment input attributes are
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decorated with code:NoPerspective, the value
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of latexmath:[$t$] used to obtain the output value associated with
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latexmath:[${\textbf P}$] will be adjusted to produce results that vary
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linearly in framebuffer space.
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Output attributes of integer or unsigned integer type must: always be
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flatshaded. Flatshaded attributes are constant over the primitive being
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rasterized (see <<primsrast-lines-basic,Basic Line Segment Rasterization>>
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and <<primsrast-polygons-basic,Basic Polygon Rasterization>>), and no
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interpolation is performed. The output value latexmath:[${\textbf c}$] is
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taken from either latexmath:[${\textbf c}_1$] or latexmath:[${\textbf
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c}_2$], since flatshading has already occurred and the two values are
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identical.
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[[vertexpostproc-coord-transform]]
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== Coordinate Transformations
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_Clip coordinates_ for a vertex result from shader execution, which yields a
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vertex coordinate code:Position.
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Perspective division on clip coordinates yields _normalized device
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coordinates_, followed by a _viewport_ transformation (see
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<<vertexpostproc-viewport,Controlling the Viewport>>) to convert these
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coordinates into _framebuffer coordinates_.
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If a vertex in clip coordinates has a position given by
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latexmath:[$\left(\begin{array}{c} x_c \\ y_c \\ z_c \\ w_c \end{array}\right)$]
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then the vertex's normalized device coordinates are
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latexmath:[$
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\left(\begin{array}{c} x_d \\ y_d \\ z_d \end{array}\right) =
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\left(\begin{array}{c} \frac{x_c}{w_c} \\ \frac{y_c}{w_c} \\ \frac{z_c}{w_c} \end{array}\right)
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$]
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[[vertexpostproc-viewport]]
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== Controlling the Viewport
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The viewport transformation is determined by the selected viewport's width
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and height in pixels, latexmath:[$p_x$] and latexmath:[$p_y$], respectively,
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and its center latexmath:[$(o_x, o_y)$] (also in pixels), as well as its
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depth range min and max determining a depth range scale value
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latexmath:[$p_z$] and a depth range bias value latexmath:[$o_z$] (defined
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below). The vertex's framebuffer coordinates,
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latexmath:[$\left(\begin{array}{c} x_f \\ y_f \\ z_f \end{array}\right),$]
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are given by
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latexmath:[$
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\left(\begin{array}{c} x_f \\ y_f \\ z_f \end{array}\right) =
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\left(\begin{array}{c}
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\frac{ p_x }{ 2 } x_d + o_x \\
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\frac{ p_y }{ 2 } y_d + o_y \\
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p_z \times z_d + o_z
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\end{array}\right).
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$]
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Multiple viewports are available, numbered zero up to
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sname:VkPhysicalDeviceLimits::pname:maxViewports minus one. The number of
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viewports used by a pipeline is controlled by the pname:viewportCount member
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of the sname:VkPipelineViewportStateCreateInfo structure used in pipeline
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creation:
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include::../structs/VkPipelineViewportStateCreateInfo.txt[]
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The members of the sname:VkPipelineViewportStateCreateInfo structure are as
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follows:
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* pname:sType is the type of this structure.
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* pname:pNext is `NULL` or a pointer to an extension-specific structure.
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* pname:flags is reserved for future use.
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* pname:viewportCount is the number of viewports used by the pipeline.
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* pname:pViewports is a pointer to an array of slink:VkViewport structs,
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defining the viewport transforms. If the viewport state is dynamic, this
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member is ignored.
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* pname:scissorCount is the number of <<fragops-scissor,scissors>> and
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must: match the number of viewports.
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* pname:pScissors is a pointer to an array of sname:VkRect2D structs which
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define the rectangular bounds of the scissor for the corresponding
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viewport. If the scissor state is dynamic, this member is ignored.
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include::../validity/structs/VkPipelineViewportStateCreateInfo.txt[]
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If a geometry shader is active and has an output variable decorated with
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code:ViewportIndex, the viewport transformation uses the viewport
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corresponding to the value assigned to code:ViewportIndex taken from an
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implementation-dependent vertex of each primitive. If
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code:ViewportIndex is outside the range zero to
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pname:viewportCount minus one for a primitive, or if the geometry shader did
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not assign a value to code:ViewportIndex for all vertices of a primitive due
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to flow control, the results of the viewport transformation of the vertices
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of such primitives are undefined. If no geometry shader is active, or if the
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geometry shader does not have an output decorated with code:ViewportIndex,
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the viewport numbered zero is used by the viewport transformation.
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A single vertex can: be used in more than one individual primitive, in
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primitives such as ename:VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP. In this case,
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the viewport transformation is applied separately for each primitive.
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If the bound pipeline state object was not created with the
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ename:VK_DYNAMIC_STATE_VIEWPORT dynamic state enabled, viewport
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transformation parameters are specified using the pname:pViewports
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member of sname:VkPipelineViewportStateCreateInfo in the pipeline state
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object. If the pipeline state object was created with the
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ename:VK_DYNAMIC_STATE_VIEWPORT dynamic state enabled, the viewport
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transformation parameters are dynamically set and changed with the command:
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include::../protos/vkCmdSetViewport.txt[]
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* pname:commandBuffer is the command buffer into which the command will be
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recorded.
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* pname:firstViewport is the index of the first viewport whose parameters
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are updated by the command.
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* pname:viewportCount is the number of viewports whose parameters are
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updated by the command.
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* pname:pViewports is a pointer to an array of slink:VkViewport structures
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specifying viewport parameters.
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The viewport parameters taken from element latexmath:[$i$] of
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pname:pViewports replace the current state for the viewport index
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latexmath:[$\mathit{firstViewport}+i$], for latexmath:[$i$] in
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latexmath:[$[0, viewportCount)$].
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include::../validity/protos/vkCmdSetViewport.txt[]
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Either of these methods of setting the viewport transformation parameters
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use the sname:VkViewport struct:
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include::../structs/VkViewport.txt[]
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* pname:x and pname:y are the viewport's upper left corner
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latexmath:[$(x,y)$].
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* pname:width and pname:height are the viewport's width and height,
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respectively.
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* pname:minDepth and pname:maxDepth are the depth range for the viewport.
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It is valid for pname:minDepth to be greater than or equal to
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pname:maxDepth.
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include::../validity/structs/VkViewport.txt[]
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The framebuffer depth coordinate latexmath:[$z_f$] may: be represented using
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either a fixed-point or floating-point representation. However, a
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floating-point representation must: be used if the depth/stencil attachment
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has a floating-point depth component. If an latexmath:[$m$]-bit fixed-point
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representation is used, we assume that it represents each value
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latexmath:[$\frac{k}{2^m - 1}$], where latexmath:[$k \in \{ 0,1, \ldots,
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2^m-1 \}$], as latexmath:[$k$] (e.g. 1.0 is represented in binary as a
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string of all ones).
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The viewport parameters shown in the above equations are found from these
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values as
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[latexmath]
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++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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\begin{align*}
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o_x & = x + \frac{width}{2} \\
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o_y & = y + \frac{height}{2} \\
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o_z & = minDepth \\
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p_x & = width \\
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p_y & = height \\
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p_z & = maxDepth - minDepth.
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\end{align*}
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++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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The width and height of the <<features-limits-maxViewportDimensions,
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implementation-dependent maximum viewport dimensions>> must: be greater
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than or equal to the width and height of the largest image which can: be
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created and attached to a framebuffer.
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The floating-point viewport bounds are represented with an
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<<features-limits-viewportSubPixelBits,implementation-dependent precision>>.
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