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<?xml version="1.0" encoding="UTF-8" ?>
<?xml-stylesheet type="text/xsl" href="tasks.xsl"?>
<tasks name="OpenGL 3.2 Implementation Checklist">
  <category name="Miscellaneous">
    <task name="NewUniTokens" specref="GL 3.2 2.11.4" mesa="done">
      New tokens for use by GetActiveUniform() and
      GetActiveUniformsiv()

      Table 2.10 adds the following tokens:

      SAMPLER_BUFFER, INT_SAMPLER_BUFFER,
      INT_SAMPLER_2D_RECT, UNSIGNED_INT_SAMPLER_BUFFER, and
      UNSIGNED_INT_SAMPLER_2D_RECT
    </task>
    <task name="NamedBlockNoModify" specref="GL 3.2 2.11.4" piglit="no">
      Uniforms in a named uniform block may <b>not</b> be modified using the
      Uniform* commands.  (Previously the spec said they may be
      modified, however this was likely a typographical error).
    </task>
    <task name="NoRestartVertexID" specref="GL 3.2 2.8.1">
      Though is not explicitly stated, it appears that primitive restart
      should *not* restart the gl_VertexID index.
    </task>
    <task name="UndefinedMapRead" specref="GL 3.2 2.8.3">
      An undetected attempt to read data from a mapped buffer object has
      undefined results, and may result in GL interruption or
      termination.
    </task>
    <task name="SkipDetectingMaps" specref="GL 3.2 2.8.3">
      Most, but not all GL commands will detect attempts to read data
      from a mapped buffer object.  (Previously all commands did so.)
    </task>
    <task name="StencilDataType" specref="GL 3.2 3.7.2" piglit="no">
      For type FLOAT_32_UNSIGNED_INT_24_8_REV, "data" must be evenly
      divisible by 4.
    </task>
    <task name="NoCombinedTexChecks" specref="GL 3.2 3.8" piglit="no">
      Commands such as TexParameter(), TexImage(), BindTexture(), and
      queries of all such state no longercheck the texture image unit
      number against MAX_COMBINED_TEXTURE_IMAGE_UNITS.
    </task>
    <task name="NoColorClamping" specref="GL 3.2 3.9.2" piglit="N/A">
      Verbiage related to fragment color clamping is removed.

      There's nothing to test here.
    </task>
    <task name="SRGBEnables" specref="GL 3.2 4.1.8" piglit="no">
      SRGB conversion is no longer switched off by disabling
      FRAMEBUFFER_SRGB.  It now happens whenever
      FRAMEBUFFER_ATTACHMENT_COLOR_ENCODING is SRGB.
    </task>
    <task name="DrawBufErrors" specref="GL 3.2 4.2.1" piglit="done">
      Passing the constants FRONT, BACK, LEFT, RIGHT, or FRONT_AND_BACK
      to DrawBuffers() results in INVALID_ENUM.  (Previously, it
      resulted in INVALID_OPERATION).
    </task>
    <task name="ClearNothing" specref="GL 3.2 4.2.3" piglit="done" mesa="done">
      Clear() may now be passed a bitfield of zero, causing no buffers
      to be cleared.
    </task>
    <task name="BlitConversions" specref="GL 3.2 4.3.2" piglit="no">
      Blit operations: format conversion rules are cleaned up so that
      the only conversion that is possible is between floating and fixed
      point (the 3.1 spec seems buggy, so this is likely a clarification
      rather than a deliberate change in functionality).
    </task>
    <task name="FBCompleteErrors" specref="GL 3.2 4.4.4" piglit="no">
      Rendering commands and commands that read the framebuffer will
      generate INVALID_FRAMEBUFFER_OPERATION if called while the
      framebuffer is not framebuffer complete, *even* if no fragments
      are read/written to the framebuffer (for example,
      RASTERIZER_DISCARD does not prevent
      INVALID_FRAMEBUFFER_OPERATION).  (This is likely a clarification
      rather than an explicit change in functionality).
    </task>
    <task name="OOBTexQueries" specref="GL 3.2 6.1.2" piglit="no">
      Texture state queries no longer result in INVALID_OPERATION error
      if the value of ACTIVE_TEXTURE is greater than or equal to
      MAX_COMBINED_TEXTURE_IMAGE_UNITS.
    </task>
    <task name="MaxVarying60" specref="GL 3.2 6.2" piglit="done" mesa="done">
      In implementation dependent aggregate shader limits (table 6.44),
      MAX_VARYING_COMPONENTS is reduced from 64 to 60.
    </task>
    <task name="MinVersion" specref="GL 3.2 6.2" piglit="done" mesa="done">
      In implementation dependent version and extension support (table
      6.40), MAJOR_VERSION now has a minimum value of 3 (presumably it's
      just an oversight that this wasn't included in OpenGL 3.1).
    </task>
    <task name="UBSState" specref="GL 3.2 6.2" piglit="done">
      In program object state (table 6.30), UNIFORM_BUFFER_START and
      UNIFORM_BUFFER_SIZE are added.
    </task>
    <task name="VAASType" specref="GL 3.2 6.2" piglit="no">
      In vertex array object state (table 6.4), VERTEX_ATTRIB_ARRAY_SIZE
      now has type "16 * xZ5" (previously was "16 * xZ")
    </task>
    <task name="DropPolyShading" specref="GL 3.2 B">
      The requirement that "polygon shading is completed before polygon
      mode is interpreted" is dropped.
    </task>
    <task name="ShareRBs" specref="GL 3.2 D" piglit="no">
      Renderbuffer objects are added to the list of objects that can be
      shared between contexts.
    </task>
    <task name="DeleteBind" specref="GL 3.2 D.1.1" piglit="no">
      When a buffer, texture, or renderbuffer object is deleted, bind
      points in other contexts are not affected.
    </task>
    <task name="NameDeletion" specref="GL 3.2 D.1.2" piglit="no">
      Names remain valid until the underlying object can be deleted
      because it is no longer in use.  However, names are immediately
      marked unused at the time of deletion, so they may be returned by
      future Gen* commands even if the name is still in use (this
      appears to be a clarification, not a change in behaviour).
    </task>
    <task name="NoWideLines" specref="GL 3.2 E.2.1" piglit="no">
      Wide lines are deprecated
    </task>
    <task name="UnusedOutputs" specref="GLSL 1.50 4.3.6" piglit="done" mesa="done">
      Only the output variables that are read by the subsequent pipeline
      stage need to be written; it is allowed to have superfluous
      declarations of output variables.
    </task>
    <task name="LayoutScope" specref="GLSL 1.50 4.3.8" piglit="done" mesa="done">
      Layout declarations can only be made at global scope.
    </task>
    <task name="LayoutVars" specref="GLSL 1.50 4.3.8" piglit="done" mesa="done">
      Layout qualifiers can appear with an individual variable declared
      with an interface qualifier (i.e. a single "in", "out", or
      "uniform" variable outside of any interface block).
    </task>
    <task name="LayoutOrder" specref="GLSL 1.50 4.3.8" piglit="done" mesa="done">
      Order is not important within a layout-qualifier-id-list (with
      certain exceptions).
    </task>
    <task name="LayoutIdent" specref="GLSL 1.50 4.3.8" piglit="no">
      The tokens in a layout-qualifier-id-list are identifiers, not
      keywords.
    </task>
    <task name="LayoutNoCase" specref="GLSL 1.50 4.3.8" piglit="done" mesa="no">
      The tokens in a layout-qualifier-id-list are not case-sensitive
      (with certain exceptions).
    </task>
    <task name="LayoutVSNoInput" specref="GLSL 1.50 4.3.8.1" piglit="done" mesa="no">
      Vertex shaders have no input layout qualifiers.
    </task>
    <task name="LayoutFSNoOutput" specref="GLSL 1.50 4.3.8.2" piglit="done" mesa="no">
      Fragment shaders cannot have output layout qualifiers.
    </task>
    <task name="LayoutVSNoOutput" specref="GLSL 1.50 4.3.8.2" piglit="done" mesa="no">
      Vertex shaders cannot have output layout qualifiers.
    </task>
    <task name="SwitchOnlyCases" specref="GLSL 1.50 6.2" piglit="done" mesa="done">
      No statements are allowed in a switch statement before the first
      case statement.
    </task>
    <task name="ClipVertAndDistError" specref="GLSL 1.50 7.1.1" piglit="no">
      It is now an error for the set of shaders forming a program to
      statically read or write both gl_ClipVertex and gl_ClipDistance
      (previously, it was only an error for a *shader*, not the set of
      shaders forming a program, and it was only an error to statically
      *write* to both, not to read).
    </task>
    <task name="CombinedTexIncrease" specref="GLSL 1.50 7.4" piglit="done">
      The minimum value allowed for gl_MaxCombinedTextureImageUnits has
      been increased from 16 to 48.
    </task>
    <task name="CombinedVarying" specref="GLSL 1.50 7.4" piglit="done" mesa="done">
      The minimum value allowed for gl_MaxVaryingFloats and
      gl_MaxVaryingComponents has been reduced from 64 to 60.
    </task>
    <task name="MinTexUnits" specref="GLSL 1.50 7.5" piglit="done" mesa="done">
      The minimum value allowed for gl_MaxTextureUnits has been reduced
      from 16 to 2.
    </task>
    <task name="MaxTexCoords" specref="GLSL 1.50 7.5" piglit="done" mesa="done">
      gl_MaxTextureCoords (min: 8) is added.
    </task>
    <task name="DeprecateMaxTexUnits" specref="GLSL 1.50 7.5" piglit="done" mesa="done">
      gl_MaxTextureUnits is now only available in the compatibility
      profile (previously it was always available).
    </task>
    <task name="DeprecateFF" specref="GLSL 1.50 7.6" piglit="no">
      In the compatibility profile, the GL can provide fixed
      functionality behavior for any programmable pipeline stage.  This
      is not allowed in the core profile.
    </task>
    <task name="Determinant" specref="GLSL 1.50 8.5" piglit="done" mesa="done">
      The function determinant() is added.
    </task>
    <task name="InvariantEverywhere" specref="GLSL 1.50 9" piglit="no">
      Rule "INVARIANT IDENTIFIER" for "single_declaration" is no longer
      vertex only.
    </task>
  </category>
  <category name="texture borders">
    <task name="NoBorders1" specref="GL 3.2 2.11.7" piglit="no">
      Texture border size ("bs") is replaced with 0 in the texel fetch
      equations.
    </task>
    <task name="NoBorders2" specref="GL 3.2 3.8.3" piglit="no">
      Reference to TEXTURE_BORDER is dropped from the list of
      requirements in order to guarantee that a call to
      CompressedTexSubImage1D, CompressedTexSubImage2D,
      CompressedTexSubImage3D will not result in an INVALID_OPERATION
      error.
    </task>
    <task name="NoBorders3" specref="GL 3.2 3.8.3" piglit="no">
      Reference to border/TEXTURE_BORDER is dropped from the list of
      values which must match in order to guarantee that a call to
      CompressedTexImage1D, CompressedTexImage2D, or
      CompressedTexImage3D will not result in an INVALID_OPERATION
      error.
    </task>
    <task name="NoBorder4" specref="GL 3.2 6.1.3">
      TEXTURE_BORDER queries are removed.
    </task>
  </category>
  <category name="GL_ARB_draw_elements_base_vertex">
    <task name="BaseVertex1" specref="GL 3.2 2.8.1" piglit="no">
      When a *BaseVertex drawing command is used, the primitive restart
      comparison occurs before the basevertex offset is added.
    </task>
    <task name="BaseVertex2" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      DrawElementsBaseVertex() is added.
    </task>
    <task name="BaseVertex3" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      DrawElementsInstancedBaseVertex() is added.
    </task>
    <task name="BaseVertex4" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      DrawRangeElementsBaseVertex() is added.
    </task>
    <task name="BaseVertex5" specref="GL 3.2 2.8.2" piglit="done">
      For DrawRangeElementsBaseVertex, index values are compared to
      start and end values prior to adding basevertex.
    </task>
    <task name="BaseVertex6" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      MultiDrawElementsBaseVertex() is added.
    </task>
    <task name="BaseVertex7" specref="GL 3.2 2.8.2">
      When the *BaseVertex drawing commands are used with an indices
      buffer having &lt;32-bit width, the addition of a basevertex
      should occur as though upconverted to 32-bit.
    </task>
    <task name="BaseVertex8" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      When the *BaseVertex drawing commands are used, basevertex is
      implicitly added to each index in the indices buffer.
    </task>
    <task name="BaseVertex9" specref="GL 3.2 2.8.2" piglit="done" mesa="done">
      When the *BaseVertex drawing commands are used, the operation is
      undefined if adding the offset would cause a negative index.
    </task>
  </category>
  <category name="GL_ARB_fragment_coord_conventions">
    <task name="FCC1" specref="GL 3.2 3.9.2" piglit="done" mesa="done">
      The specification of gl_FragCoord is expanded to account for
      pixel-center and origin conventions.
    </task>
    <task name="FCC2" specref="GLSL 1.50 4.3.8.1" piglit="done">
      All redeclarations of gl_FragCoord must use the same set of
      qualifiers.
    </task>
    <task name="FCC3" specref="GLSL 1.50 4.3.8.1" piglit="done">
      Fragment shaders can have an input layout only for redeclaring
      gl_FragCoord.
    </task>
    <task name="FCC4" specref="GLSL 1.50 4.3.8.1" piglit="done">
      If gl_FragCoord is redeclared in any fragment shader compilation
      unit, it must be redeclared in all fragment shader compilation
      units that have a static use of gl_FragCoord.
    </task>
    <task name="FCC5" specref="GLSL 1.50 4.3.8.1" piglit="done">
      Redeclaring gl_FragCoord does not affect rasterization,
      transformation, or any other part of the OpenGL pipeline or
      language features.
    </task>
    <task name="FCC6" specref="GLSL 1.50 4.3.8.1" piglit="done">
      Redeclaring gl_FragCoord in any shader other than a fragment
      shader is illegal.
    </task>
    <task name="FCC7" specref="GLSL 1.50 4.3.8.1" piglit="done">
      The layout qualifier identifiers for gl_FragCoord are
      "origin_upper_left" and "pixel_center_integer".
    </task>
    <task name="FCC8" specref="GLSL 1.50 4.3.8.1" piglit="done">
      Within a fragment shader compilation unit, the first redeclartion
      of gl_FragCoord (if any) must appear before the first use of
      gl_FragCoord.
    </task>
    <task name="FCC9" specref="GLSL 1.50 4.3.8.1" piglit="done">
      gl_FragCoord may be redeclared as "layout(origin_upper_left) in
      vec4 gl_FragCoord;", causing (0.5, 0.5) to be used for the upper
      left pixel of the window.
    </task>
    <task name="FCC10" specref="GLSL 1.50 4.3.8.1" piglit="done">
      gl_FragCoord may be redeclared as "layout(origin_upper_left,
      pixel_center_integer) in vec4 gl_FragCoord;", causing (0.0, 0.0)
      to be used for the upper left pixel of the window.
    </task>
    <task name="FCC11" specref="GLSL 1.50 4.3.8.1" piglit="done">
      gl_FragCoord may be redeclared as "layout(pixel_center_integer) in
      vec4 gl_FragCoord;", causing (0.0, 0.0) to be used for the lower
      left pixel of the window.
    </task>
    <task name="FCC12" specref="GLSL 1.50 4.3.8.1" piglit="done">
      gl_FragCoord may be redeclared in a way that changes nothing
      (i.e. "in vec4 gl_FragCoord;"), causing (0.5, 0.5) to be used for
      the lower left pixel of the window.
    </task>
  </category>
  <category name="GL_ARB_geometry_shader4">
    <task name="GS1" specref="GL 3.2 2.11.2" piglit="done" mesa="done">
      Linking will now fail if a geometry shader fails to specify input
      primitive type, output primitive type, or maximum output vertex
      count.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-must-specify-*.shader_test.
    </task>
    <task name="GS2" specref="GL 3.2 2.11.2" piglit="done" mesa="done">
      Linking will now fail if input primitive type, output primitive
      type, or maximum output vertex count is specified differently in
      multiple geometry shader objects.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-different-*.shader_test
      and
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-conflicting-input-layouts.shader_test.
    </task>
    <task name="GS3" specref="GL 3.2 2.11.2" piglit="done" mesa="done">
      Linking will now fail if there is a geometry shader but no vertex
      shader.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-without-vs.shader_test.
    </task>
    <task name="GS4" specref="GL 3.2 2.11.4" piglit="ML">
      GetActiveUniformBlockiv() now accepts a pname of
      UNIFORM_BLOCK_REFERENCED_BY_GEOMETRY_SHADER.
    </task>
    <task name="GS5" specref="GL 3.2 2.11.4" piglit="done">
      GetIntegerv() now accepts MAX_GEOMETRY_UNIFORM_BLOCKS.

      Tested by piglit/tests/spec/gl-3.2/minmax.c
    </task>
    <task name="GS6" specref="GL 3.2 2.11.6" piglit="no">
      MAX_VARYING_COMPONENTS now only applies when linking a program
      containing only a vertex and fragment shader.
    </task>
    <task name="GS7" specref="GL 3.2 2.11.6" piglit="no">
      The maximum number of components of varying and special variables
      that can be written by the vertex shader is
      MAX_VERTEX_OUTPUT_COMPONENTS.
    </task>
    <task name="GS8" specref="GL 3.2 2.11.6" piglit="done">
      When a geometry shader is active, transform feedback records
      geometry shader outputs.

      Tested by
      piglit/tests/spec/ext_transform_feedback/geometry-shaders-basic.c
    </task>
    <task name="GS9" specref="GL 3.2 2.11.7" piglit="no" mesa="done">
      Geometry shaders handle incomplete textures in the same way as
      vertex shaders.
    </task>
    <task name="GS10" specref="GL 3.2 2.11.7" piglit="done" mesa="done">
      If a geometry shader is active, vertices processed by the vertex
      shader are passed to the geometry shader.

      Tested by
      piglit/tests/spec/ext_transform_feedback/geometry-shaders-basic.c
    </task>
    <task name="GS11" specref="GL 3.2 2.11.7" piglit="no" mesa="done">
      Shader-only texturing is now available to geometry shaders.
    </task>
    <task name="GS12" specref="GL 3.2 2.11.7" piglit="done">
      The constant MAX_GEOMETRY_TEXTURE_UNITS is added.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS14" specref="GL 3.2 2.12" piglit="done">
      The geometry shader pipeline stage is after primitive assembly,
      prior to transform feedback.

      Tested by
      piglit/tests/spec/ext_transform_feedback/geometry-shaders-basic.c
    </task>
    <task name="GS15" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      Geometry shaders with input type "lines" may only be used with the
      GL_LINES, GL_LINE_STRIP, and GL_LINE_LOOP primitive types.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS16" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      Geometry shaders with input type "lines_adjacency" may only be
      used with the GL_LINES_ADJACENCY and GL_LINE_STRIP_ADJACENCY
      primitive types.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS17" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      Geometry shaders with input type "points" may only be used with
      the GL_POINTS primitive type.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS18" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      Geometry shaders with input type "triangles" may only be used with
      the GL_TRIANGLES, GL_TRIANGLE_STRIP, and GL_TRIANGLE_FAN primitive
      types.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS19" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      Geometry shaders with input type "triangles_adjacency" may only be
      used with the GL_TRIANGLES_ADJACENCY and
      GL_TRIANGLE_STRIP_ADJACENCY primitive types.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS20" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      It is a link error if multiple geometry shader objects specify
      different input primitive types.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-conflicting-input-layouts.shader_test
    </task>
    <task name="GS21" specref="GL 3.2 2.12.1" piglit="done" mesa="done">
      It is a link error if no geometry shader object specifies an input
      primitive type.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-no-input-layout-declared.shader_test
    </task>
    <task name="GS23" specref="GL 3.2 2.12.1" piglit="done">
      The input primitive type may be queried using
      GetProgramiv(GEOMETRY_INPUT_TYPE).

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS24" specref="GL 3.2 2.12.2" mesa="done" piglit="done">
      If the number of vertices emitted by the geometry shader is not
      sufficient to produce a single primitive, nothing is drawn.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/gs-emits-too-few-verts.c
    </task>
    <task name="GS27" specref="GL 3.2 2.12.2" piglit="done">
      The maximum number of output vertices can be queried using
      GetProgramiv(GEOMETRY_VERTICES_OUT).

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS28" specref="GL 3.2 2.12.2" piglit="done">
      The output primitve type can be queried using
      GetProgramiv(GEOMETRY_OUTPUT_TYPE)

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS29" specref="GL 3.2 2.12.3" piglit="done">
      MAX_GEOMETRY_UNIFORM_COMPONENTS is added.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS30" specref="GL 3.2 2.12.4" mesa="done">
      For triangles drawn in point or line mode, gl_PrimitiveIDIn is
      incremented only once per triangle, even though multiple
      points/lines may eventually be drawn.
    </task>
    <task name="GS31" specref="GL 3.2 2.12.4">
      GEOMTERY_VERTICES_OUT may not exceed MAX_GEOMETRY_OUTPUT_VERTICES.
    </task>
    <task name="GS32" specref="GL 3.2 2.12.4" piglit="done" mesa="done">
      If a drawing operation is performed while a geometry shader is
      active, and the primitive mode is incompatible with the geometry
      shader's input primitive type, INVALID_OPERATION will result and
      nothing will be drawn.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS33" specref="GL 3.2 2.12.4" piglit="N/A" mesa="done">
      If a geometry shader outputs more than its declared maximum number
      of output vertices, then the emitted vertices *may* have no
      effect.

      Not necessary to test since it is undefined whether the emitted
      vertex have any effect.
    </task>
    <task name="GS34" specref="GL 3.2 2.12.4" piglit="done">
      MAX_GEOMETRY_INPUT_COMPONENTS is added.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS35" specref="GL 3.2 2.12.4" piglit="done">
      MAX_GEOMETRY_OUTPUT_COMPONENTS is added.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS36" specref="GL 3.2 2.12.4" piglit="done" mesa="on branch">
      Restarting a primitive topology using the primitive restart index
      has no effect on the primitive ID counter.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-restart.c
    </task>
    <task name="GS37" specref="GL 3.2 2.12.4">
      The product of the total number of vertices and the sum of all
      components of all active varying variables may not exceed
      MAX_GEOMETRY_TOTAL_OUTPUT_COMPONENTS.
    </task>
    <task name="GS38" specref="GL 3.2 2.12.4" mesa="done">
      Writing to gl_Position from either the vertex or geometry shader
      is optional.
    </task>
    <task name="GS39" specref="GL 3.2 2.12.4">
      gl_in[] receives values from built-in output variables written by
      the vertex shader.
    </task>
    <task name="GS40" specref="GL 3.2 2.16" mesa="done">
      For the purpose of error checking the primitiveMode parameter of
      BeginTransformFeedback(), if a geometry shader is present, its
      output primitive type is used instead of the mode parameter passed
      to drawing commands.
    </task>
    <task name="GS41" specref="GL 3.2 2.16" piglit="done">
      Transform feedback occurs after geometry shading.

      Tested by
      piglit/tests/spec/ext_transform_feedback/geometry-shaders-basic.c
    </task>
    <task name="GS42" specref="GL 3.2 2.17" piglit="done" mesa="done">
      If a geometry shader is active, PRIMITIVES_GENERATED counts the
      number of primitives it emits.

      Tested by
      piglit/tests/spec/ext_transform_feedback/geometry-shaders-basic.c
    </task>
    <task name="GS43" specref="GL 3.2 2.18" mesa="done">
      Table 2.12 describes the behaviour of the provoking vertex for all
      primitive types, including the new "adjacency" types.
    </task>
    <task name="GS44" specref="GL 3.2 2.4" piglit="done" mesa="done">
      Geometry shading is added to the pipeline.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS45" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      "Line Strips with Adjacency" is added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS46" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      "Lines with Adjacency" is added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS47" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      "Triangle Strips with Adjacency" is added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS48" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      "Triangles with Adjacency" is added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS49" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Line Strips with Adjacency" mode, if the number of vertices is
      less than 4, all vertices are ignored.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS50" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Line Strips with Adjacency" mode, if there is no geometry
      shader, adjacent vertices are ignored.
    </task>
    <task name="GS51" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Line Strips with Adjacency" mode, line segments are drawn
      between vertex i+2 and i+3 (i counts from 0 to n-1, vertices count
      from 1 to n+3).

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS52" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Lines with Adjacency" mode, if the number of vertices is 4n+k
      and k != 0, the final k vertices are ignored.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS53" specref="GL 3.2 2.6.1" piglit="done">
      In "Lines with Adjacency" mode, if there is no geometry shader,
      adjacent vertices are ignored.
    </task>
    <task name="GS54" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Lines with Adjacency" mode, line segments are drawn between
      vertex 4*i+2 and 4*i+3 (i counts from 0 to n-1, vertices count
      from 1 to 4n+k).

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS55" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangle Strips with Adjacency" mode, if the number of
      vertices is 2(n+2)+k and k == 1, the final vertex is ignored.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS56" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangle Strips with Adjacency" mode, if there is no geometry
      shader, adjacent vertices are ignored.
    </task>
    <task name="GS57" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangle Strips with Adjacency" mode, n triangles are drawn
      when there are 2(n+2)+k vertices (the exact set of triangles drawn
      is specified in table 2.4).

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS58" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangles with Adjacency" mode, if the number of vertices is
      6n+k and k != 0, the final k verties are ignored.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS59" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangles with Adjacency" mode, if there is no geometry
      shader, adjacent vertices are ignored.
    </task>
    <task name="GS60" specref="GL 3.2 2.6.1" piglit="done" mesa="done">
      In "Triangles with Adjacency" mode, triangles are drawn using
      vertex 6*i+1, 6*i+3, and 6*i+5 (i counts from 0 to n-1, vertices
      count from 1 to 6n+k).

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-types.c
    </task>
    <task name="GS61" specref="GL 3.2 3.4" piglit="N/A">
      VERTEX_PROGRAM_POINT_SIZE has been changed to PROGRAM_POINT_SIZE.

      Piglit N/A because the enum value is the same.
    </task>
    <task name="GS62" specref="GL 3.2 3.9.2" piglit="done" mesa="done">
      If a geometry shader is active, gl_PrimitiveID contains the value
      emitted by the geometry shader for the provoking vertex.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-out.shader_test
    </task>
    <task name="GS63" specref="GL 3.2 3.9.2" piglit="done">
      MAX_FRAGMENT_INPUT_COMPONENTS is added.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS64" specref="GL 3.2 6.1.10" piglit="done">
      GetProgramiv() generates an INVALID_OPERATION error if it is
      passed GEOMETRY_VERTICES_OUT, GEOMETRY_INPUT_TYPE, or
      GEOMETRY_OUTPUT_TYPE for a program which has not been linked
      successfully or which does not contain a geometry shader.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS65" specref="GL 3.2 6.1.10" piglit="done">
      GetProgramiv() may now be passed GEOMETRY_INPUT_TYPE.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS66" specref="GL 3.2 6.1.10" piglit="done">
      GetProgramiv() may now be passed GEOMETRY_OUTPUT_TYPE.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS67" specref="GL 3.2 6.1.10" piglit="done">
      GetProgramiv() may now be passed GEOMETRY_VERTICES_OUT.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS68" specref="GL 3.2 6.1.10" piglit="done">
      GetShaderiv() may now return GEOMETRY_SHADER if pname is
      SHADER_TYPE.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/getshaderiv-may-return-GS.c
    </task>
    <task name="GS69" specref="GL 3.2 6.2" piglit="done">
      Implementation dependent geometry shader limits (table 6.42) is
      new.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS70" specref="GL 3.2 6.2">
      In implementation dependent aggregate shader limits (table 6.44),
      MAX_COMBINED_GEOMETRY_UNIFORM_COMPONENTS is added.
    </task>
    <task name="GS71" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent aggregate shader limits (table 6.44),
      MAX_COMBINED_TEXTURE_IMAGE_UNITS has increased from 32 to 48.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS72" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent aggregate shader limits (table 6.44),
      MAX_COMBINED_UNIFORM_BLOCKS has increased from 24 to 36.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS73" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent aggregate shader limits (table 6.44),
      MAX_UNIFORM_BUFFER_BINDINGS has increased from 24 to 36.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS74" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent fragment processing limits (table
      6.43), MAX_FRAGMENT_INPUT_COMPONENTS is new.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS75" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent vertex shader limits (table 6.41),
      MAX_VERTEX_OUTPUT_COMPONENTS is new.

      Tested by piglit/tests/spec/gl-3.2/minmax.c.
    </task>
    <task name="GS76" specref="GL 3.2 6.2" piglit="done">
      In program object state (table 6.29), GEOMETRY_VERTICES_OUT,
      GEOMETRY_INPUT_TYPE, and GEOMETRY_OUTPUT_TYPE are added.

      Tested by
      tests/spec/glsl-1.50/execution/geometry/query-gs-prim-types.c
    </task>
    <task name="GS78" specref="GL 3.2 6.2" pigilt="N/A">
      In program object state (table 6.32), VERTEX_PROGRAM_POINT_SIZE
      changes to PROGRAM_POINT_SIZE.

      Piglit N/A because the enum value is the same.
    </task>
    <task name="GS79" specref="GL 3.2 6.2" mesa="done">
      In shader object state (table 6.25), SHADER_TYPE is now Z3
      (previously was Z2).
    </task>
    <task name="GS80" specref="GL 3.2 6.2">
      In texture environment and generation (table 6.17), ACTIVE_TEXTURE
      is now Z48* (previously was Z32*).
    </task>
    <task name="GS81" specref="GL 3.2 6.2">
      In textures (table 6.13-6.14), TEXTURE_BINDING_xD,
      TEXTURE_BINDING_1D_ARRAY, TEXTURE_BINDING_2D_ARRAY,
      TEXTURE_BINDING_RECTANGLE, TEXTURE_BINDING_BUFFER, and
      TEXTURE_BINDING_CUBE_MAP are now replicated by 48 instead of 32.
    </task>
    <task name="GS82" specref="GL 3.2 6.2" piglit="done" mesa="done">
      Note: MAX_FRAGMENT_INPUT_COMPONENTS is 128 (double the old value
      of MAX_VARYING_COMPONENTS).

      Tested by piglit/tests/spec/gl-3.2/minmax.c
    </task>
    <task name="GS83" specref="GL 3.2 6.2" piglit="done" mesa="done">
      Note: MAX_GEOMETRY_OUTPUT_COMPONENTS is 128 (double the old value
      of MAX_VARYING_COMPONENTS).

      Tested by piglit/tests/spec/gl-3.2/minmax.c
    </task>
    <task name="GS84" specref="GL 3.2 E.2.1">
      MAX_VARYING_COMPONENTS and MAX_VARYING_FLOATS are deprecated
    </task>
    <task name="GS85" specref="GLSL 1.50 2" piglit="done" mesa="done">
      Geometry shaders are added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS86" specref="GLSL 1.50 2.1" mesa="done">
      Vertex shaders no longer need to compute the homogeneous position
      of the incoming vertex.
    </task>
    <task name="GS87" specref="GLSL 1.50 4.3" mesa="done">
      The qualifiers "smooth", "flat", and "noperspective" are no longer
      limited just to vertex shader outs and fragment shader ins.

      They can appear on geometry shader ins and geometry shader outs.
    </task>
    <task name="GS88" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      Each geometry shader input (or input block) needs to be declared
      as an array.

      Tested by
      piglit/tests/spec/glsl-1.50/compiler/gs-input-nonarray*.geom
    </task>
    <task name="GS89" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      Each geometry shader input array can optionally have a size
      declared.

      Tested by:
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-length-after-other-size-blocks.geom
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-length-after-other-size.geom
    </task>
    <task name="GS90" specref="GLSL 1.50 4.3.4" mesa="done">
      For the vertex/geometry interface, if the vertex output is an
      array, it must appear in an output block (2D arrays are not
      supported).
    </task>
    <task name="GS91" specref="GLSL 1.50 4.3.4" mesa="done">
      For the vertex/geometry interface, variables of the same name must
      match in type and qualification (except that geometry variable
      must be an array, and vertex variable must not).
    </task>
    <task name="GS92" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      Geometry shader inputs receive values from vertex outputs.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS93" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      If a geometry shader input array does not have a size provided,
      the array size will be set by the input layout declaration(s)
      establishing the type of input primitive.

      Tested by
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-*.geom
    </task>
    <task name="GS94" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      If a geometry shader input array has a size provided, it must be
      consistent with the input layout declaration(s) establishing the
      type of input primitive.

      Tested by
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-*.geom
    </task>
    <task name="GS95" specref="GLSL 1.50 4.3.4" piglit="N/A" mesa="done">
      If a program contains vertex and fragment shaders but no geometry
      shader, then there is a vertex/fragment interface (as in GLSL
      1.40).

      Not necessary to test since this is what happens prior to GLSL
      1.50.
    </task>
    <task name="GS96" specref="GLSL 1.50 4.3.4" mesa="done" piglit="done">
      Integral fragment shader inputs must be qualified with "flat".

      Tested by
      spec/glsl-1.30/compiler/interpolation-qualifiers/nonflat-int.frag
      and related.
    </task>
    <task name="GS97" specref="GLSL 1.50 4.3.6" mesa="done" piglit="done">
      Integral vertex shader outputs need no longer be qualified with
      "flat".

      Tested by
      spec/glsl-1.30/compiler/interpolation-qualifiers/vs-flat-int-05.vert
      and related.
    </task>
    <task name="GS98" specref="GLSL 1.50 4.3.8" mesa="done" piglit="done">
      Layout qualifiers can appear with just an interface qualifier
      ("in", "out", or "uniform").

      Implicitly tested by the piglit tests that exercise the
      individual layout qualifiers.
    </task>
    <task name="GS99" specref="GLSL 1.50 4.3.8.1" piglit="done" mesa="done">
      All geometry shader input unsized array declarations will be sized
      by an *earlier* input layout qualifier (when present) according
      to: points=1, lines=2, lines_adjacency=4, triangles=3,
      triangles_adjacency=6.

      Tested by
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-*.geom
    </task>
    <task name="GS100" specref="GLSL 1.50 4.3.8.1" piglit="done"
          mesa="done">
      All input layouts specified in geometry shader compilation units
      must declare the same layout.

      Tested by:
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-layout-consistent-with-prev-layout.geom
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-layout-inconsistent-with-prev-layout.geom
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-conflicting-input-layouts.shader_test
    </task>
    <task name="GS101" specref="GLSL 1.50 4.3.8.1" piglit="done"
          mesa="done">
      At least one compilation unit in a geometry shader must declare an
      input layout.

      Tested by
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-no-input-layout-declared.shader_test
    </task>
    <task name="GS102" specref="GLSL 1.50 4.3.8.1" piglit="all but gl_in">
      For geometry shader inputs declared without an array size
      (including gl_in), a layout must be declared before any array use
      requiring the size be known (e.g. use of the length() method).

      Partially tested by:
      piglit/tests/spec/glsl-1.50/compiler/gs-input-sizing-*.geom

      Tests for gl_in still need to be written.
    </task>
    <task name="GS103" specref="GLSL 1.50 4.3.8.1">
      Geometry shaders allow input layout qualifiers *only* on the
      interface qualifier "in" (i.e. "layout(...) in;").
    </task>
    <task name="GS104" specref="GLSL 1.50 4.3.8.1" piglit="done"
          mesa="done">
      If a geometry shader input is declared with an array size, it must
      match the length implied by the geometry shader input layout.

      Tested by tests/spec/glsl-1.50/compiler/gs-input-sizing-*.geom
    </task>
    <task name="GS105" specref="GLSL 1.50 4.3.8.1" piglit="done"
          mesa="done">
      It is a link-time error if not all geometry shader input sizes
      match (including both declared array sizes and the length implied
      by the geometry shader input layout).

      Tested by:
      piglit/tests/spec/glsl-1.50/execution/gs-input-sizing-layout-consistent-with-static-usage.shader_test
      piglit/tests/spec/glsl-1.50/execution/gs-input-sizing-layout-larger-than-static-usage.shader_test
      piglit/tests/spec/glsl-1.50/linker/gs-input-sizing-layout-*.shader_test
    </task>
    <task name="GS106" specref="GLSL 1.50 4.3.8.1" piglit="done"
          mesa="done">
      Not all geometry shader compilation units need to declare an input
      layout.

      Tested by
      tests/spec/glsl-1.50/linker/gs-input-sizing-layout-*.shader_test
    </task>
    <task name="GS107" specref="GLSL 1.50 4.3.8.1">
      Only one layout qualifier identifier may appear for geometry
      shader inputs.
    </task>
    <task name="GS108" specref="GLSL 1.50 4.3.8.1">
      The intrinsically declared geometry shader input array gl_in[]
      will be sized by any input layout declaration.
    </task>
    <task name="GS109" specref="GLSL 1.50 4.3.8.1" mesa="done"
          piglit="done">
      The layout qualifier identifiers for geometry shader inputs are
      "points", "lines", "lines_adjacency", "triangles", and
      "triangles_adjacency".

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/gs-mismatch-prim-type.c
    </task>
    <task name="GS110" specref="GLSL 1.50 4.3.8.2" mesa="done">
      All geometry shader output layout declarations in a program must
      declare the same layout and the same value for max_vertices.
    </task>
    <task name="GS111" specref="GLSL 1.50 4.3.8.2">
      Geometry shaders can have output layout qualifiers *only* on the
      interface qualifier "out" (i.e. "layout(...) out;").
    </task>
    <task name="GS112" specref="GLSL 1.50 4.3.8.2">
      If one declaration declares both primitive type and max_vertices,
      order is irrelevant.
    </task>
    <task name="GS113" specref="GLSL 1.50 4.3.8.2">
      It is an error if max_vertices is declared to be a value greater
      than gl_MaxGeometryOutputVertices.
    </task>
    <task name="GS114" specref="GLSL 1.50 4.3.8.2" piglit="done">
      Not all geometry shader compilation units need to declare an
      output layout declaration.

      Implicitly covered by tests
      piglit/tests/spec/glsl-1.50/execution/gs-input-sizing-*.
    </task>
    <task name="GS115" specref="GLSL 1.50 4.3.8.2">
      One declaration can declare either a primitive type (points,
      line_strip, or triangle_strip), or max_vertices, or both.
    </task>
    <task name="GS116" specref="GLSL 1.50 4.3.8.2" piglit="done"
          mesa="done">
      The geometry shader output layout qualifier "max_vertices =
      &lt;integer-constant&gt;" is used to declare the maximum number of
      vertices the shader will ever emit in a single execution.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS117" specref="GLSL 1.50 4.3.8.2" mesa="done">
      The geometry shader output layout qualifiers of "points",
      "line_strip", or "triangle_strip" are used to declare the
      primitive type used for geometry shader output.
    </task>
    <task name="GS119" specref="GLSL 1.50 4.3.9.1" piglit="N/A" mesa="N/A">
      The variables gl_FrontColor, gl_BackColor, gl_FrontSecondaryColor,
      and gl_BackSecondaryColor can now be redeclared in geometry
      shaders (previously they were only allowed to be redeclared in
      vertex shaders).

      Not necessary to test since this only affects compatibility
      profiles.
    </task>
    <task name="GS120" specref="GLSL 1.50 4.5.3" mesa="done">
      The default precision qualifiers that were previously predeclared
      for vertex shaders now apply to geometry shaders as well.
    </task>
    <task name="GS121" specref="GLSL 1.50 4.5.4" mesa="done">
      The built-in macro GL_FRAGMENT_PRECISION_HIGH, which was
      previously defined to 1 in vertex and fragment shaders, is now
      available in geometry shaders as well.
    </task>
    <task name="GS122" specref="GLSL 1.50 7.1" piglit="done" mesa="done">
      Fragment shaders will select the value of gl_PrimitiveID that is
      written by the geometry shader for the provoking vertex.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-out.shader_test
    </task>
    <task name="GS123" specref="GLSL 1.50 7.1" piglit="done" mesa="done">
      Geometry shaders also contain the special input variable "in int
      gl_PrimitiveIDIn", which is filled with the number of primitives
      processed by the geometry shader since the current set of
      rendering primitives was started.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-in.shader_test
    </task>
    <task name="GS124" specref="GLSL 1.50 7.1" piglit="done" mesa="done">
      Geometry shaders also contain the special output variable "out int
      gl_PrimitiveID", which is communicated to fragment shaders.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-out.shader_test
    </task>
    <task name="GS125" specref="GLSL 1.50 7.1" piglit="N/A" mesa="done">
      If a geometry shader fails to write to gl_PrimitiveID, the value
      of gl_PrimitiveID within the fragment shader is undefined.

      Not necessary to test since the value is undefined.
    </task>
    <task name="GS126" specref="GLSL 1.50 7.1" piglit="N/A" mesa="done">
      If the geometry shader does not write gl_Position before its first
      call to EmitVertex(), or between calls to EmitVertex(), its value
      is undefined.

      Not necessary to test since the value is undefined.
    </task>
    <task name="GS127" specref="GLSL 1.50 7.1" piglit="N/A" mesa="done">
      If the vertex shader does not write gl_Position, its value is
      undefined.

      Not necessary to test since the value is undefined.
    </task>
    <task name="GS128" specref="GLSL 1.50 7.1">
      The gl_PerVertex interface block also appears as a geometry shader
      input interface block, having block-name gl_PerVertex,
      instance_name gl_in, and an implicit array size.
    </task>
    <task name="GS129" specref="GLSL 1.50 7.1">
      The gl_PerVertex interface block also appears as a geometry shader
      output interface block, declared identically to the gl_PerVertex
      vertex shader output interface block.
    </task>
    <task name="GS130" specref="GLSL 1.50 7.1.1" piglit="N/A">
      gl_ClipVertex is also added to the gl_PerVertex output and input
      interface blocks in the geometry shader.

      Not necessary to test since this only affects compatibility
      profiles.
    </task>
    <task name="GS131" specref="GLSL 1.50 7.2" piglit="done" mesa="done">
      If a geometry shader is present, the value in gl_PrimitiveID comes
      from the geometry shader's gl_PrimitiveID output.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-out.shader_test
    </task>
    <task name="GS132" specref="GLSL 1.50 7.2">
      If no geometry shader is present, the value in gl_PrimitiveID is
      the number of primitives processed by the vertex shader since the
      current set of rendering primitives was started.
    </task>
    <task name="GS133" specref="GLSL 1.50 7.2" piglit="done" mesa="done">
      The built-in input variable "in int gl_PrimitiveID" is added.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/primitive-id-out.shader_test
    </task>
    <task name="GS134" specref="GLSL 1.50 7.2">
      gl_ClipDistance must be sized either implicitly or explicitly to
      the same size in all shaders (previously the size needed to match
      between vertex and fragment shaders).
    </task>
    <task name="GS135" specref="GLSL 1.50 7.4" piglit="done" mesa="done">
      The built-in constants in this section are also provided to
      geometry shaders (previously they were available only to vertex
      and fragment shaders).

      Tested by piglit/tests/spec/glsl-1.50/compiler/constants.geom
    </task>
    <task name="GS136" specref="GLSL 1.50 7.4">
      gl_MaxFragmentInputComponents (min: 128) is added.
    </task>
    <task name="GS137" specref="GLSL 1.50 7.4">
      gl_MaxGeometryInputComponents (min: 64) is added.
    </task>
    <task name="GS138" specref="GLSL 1.50 7.4">
      gl_MaxGeometryOutputComponents (min: 128) is added.
    </task>
    <task name="GS139" specref="GLSL 1.50 7.4">
      gl_MaxGeometryOutputVertices (min: 256) is added.
    </task>
    <task name="GS140" specref="GLSL 1.50 7.4">
      gl_MaxGeometryTextureInputUnits (min: 16) is added.
    </task>
    <task name="GS141" specref="GLSL 1.50 7.4">
      gl_MaxGeometryTotalOutputComponents (min: 1024) is added.
    </task>
    <task name="GS142" specref="GLSL 1.50 7.4">
      gl_MaxGeometryUniformComponents (min: 1024) is added.
    </task>
    <task name="GS143" specref="GLSL 1.50 7.4">
      gl_MaxGeometryVaryingComponents (min: 64) is added.
    </task>
    <task name="GS144" specref="GLSL 1.50 7.4">
      gl_MaxVertexOutputComponents (min: 64) is added.
    </task>
    <task name="GS145" specref="GLSL 1.50 7.6" piglit="N/A">
      These variables are also added to the gl_PerVertex output and
      input interface blocks in the geometry shader (in the
      compatibility profile only).

      Not necessary to test since this only affects compatibility
      profiles.
    </task>
    <task name="GS146" specref="GLSL 1.50 8.10" piglit="done" mesa="done">
      EmitVertex() is added.  This emits the current values of output
      variables to the current output primitive.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS147" specref="GLSL 1.50 8.10" piglit="done" mesa="done">
      EndPrimitive() is added.  This completes the current output
      primitive and starts a new one, without emitting any vertices.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry/end-primitive.c
    </task>
    <task name="GS148" specref="GLSL 1.50 8.10" mesa="done">
      EndPrimitive() is optional when the output layout is "points".
    </task>
    <task name="GS149" specref="GLSL 1.50 8.10" piglit="N/A" mesa="done">
      If a geometry shader calls EmitVertex() more times than it has
      declared with max_vertices, the results are undefined.

      Not necessary to test since the results are undefined.
    </task>
    <task name="GS150" specref="GLSL 1.50 8.10" piglit="done" mesa="done">
      It is not necessary to call EndPrimitive() if the geometry shader
      writes only a single primitive.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS151" specref="GLSL 1.50 8.10" piglit="N/A" mesa="done">
      On return from EmitVertex(), the values of output variables are
      undefined.

      Not necessary to test since the values are undefined.
    </task>
    <task name="GS152" specref="GLSL 1.50 8.10" piglit="done" mesa="done">
      When a geometry shader terminates, the current output primitive is
      automatically completed.

      Tested by
      piglit/tests/spec/glsl-1.50/execution/geometry-basic.shader_test
    </task>
    <task name="GS153" specref="GLSL 1.50 8.7" mesa="done">
      Texture lookup functions are now available to geometry shaders.
    </task>
    <task name="GS154" specref="GLSL 1.50 8.9" mesa="done">
      Noise functions are now available to geometry shaders.
    </task>
    <task name="GS155" specref="GLSL 1.50 9" piglit="N/A">
      "layout_list" is renamed to "layout_qualifier_id_list", and rules
      are reworked so that it is a list of comma-separated
      layout_qualifier_id's instead of a list of comma-separated
      IDENTIFIER's.
    </task>
    <task name="GS156" specref="GLSL 1.50 9" piglit="N/A">
      "layout_qualifier_id" has two rules: IDENTIFIER (to match previous
      behvaiour), and IDENTIFIER EQUAL INTCONSTANT.
    </task>
    <task name="GS157" specref="GLSL 1.50 9" piglit="N/A">
      New rule for "struct_declarator": IDENTIFIER LEFT_BRACKET
      RIGHT_BRACKET.
    </task>
  </category>
  <category name="GLSL 1.50 misc">
    <task name="Need140And150" specref="GL 3.2 1.6.1">
      Implementations are now required to support both GLSL versions
      1.40 and 1.50 (previously only version 1.30 was required).
    </task>
    <task name="VersionMacro" specref="GLSL 1.50 3" piglit="done" mesa="done">
      __VERSION__ should substitute 150.
    </task>
    <task name="Link140And150" specref="GLSL 1.50 3.3">
      GLSL 1.40 and GLSL 1.50 shaders may be linked together.
    </task>
  </category>
  <category name="interface blocks">
    <task name="IB1" specref="GLSL 1.50 4.3.6" piglit="done" mesa="done">
      It is permissible for an input and an output to have the same name
      provided that one of them is nested inside an interface block with
      an instance name.
    </task>
    <task name="IB2" specref="GLSL 1.50 4.3.6" piglit="done" mesa="done">
      Outputs can also appear in interface blocks.
    </task>
    <task name="IB3" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      "Attribute" and "varying" qualifiers may not be used in interface
      blocks.
    </task>
    <task name="IB4" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      A block-name is allowed to have different definitions in different
      interfaces (e.g. same block name used as both an input and an
      output block, I think)
    </task>
    <task name="IB5" specref="GLSL 1.50 4.3.7" piglit="ML" mesa="done">
      All input and output block arrays except geometry shader inputs
      must specify an array size.
    </task>
    <task name="IB6" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      An output block of one pipeline stage will be matched to an input
      block with the same block-name (block-name is the name that
      appears before the "{" that opens the interface block).
    </task>
    <task name="IB7" specref="GLSL 1.50 4.3.7" mesa="done" piglit="done">
      Arrays of built-in types or structures can be used within an
      interface block.
    </task>
    <task name="IB8" specref="GLSL 1.50 4.3.7" mesa="no" piglit="done">
      Block names may not be used at global scope for anythin other than
      as a block name.

      Tested by
      tests/spec/glsl-1.50/compiler/interface-blocks-name-reused-globally.vert
    </task>
    <task name="IB9" specref="GLSL 1.50 4.3.7" mesa="done" piglit="done">
      Built-in types can be used within an interface block.
    </task>
    <task name="IB10" specref="GLSL 1.50 4.3.7" piglit="no">
      For blocks declared as arrays, the array index must be included
      when accessing a member of a specific block, and must be omitted
      when querying a characteristic such as the offset of the member
      within the block.
    </task>
    <task name="IB11" specref="GLSL 1.50 4.3.7" piglit="no">
      For interface blocks that are declared as arrays, in order to
      match, their array sizes must match (exception: between VS and GS,
      rules are different).
    </task>
    <task name="IB12" specref="GLSL 1.50 4.3.7" piglit="no">
      For uniform blocks, the application uses the block name to
      identify the block.
    </task>
    <task name="IB13" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      If an interface block has an instance-name, names inside the block
      are in a scope with their own name space, accessed with "." (like
      structures).
    </task>
    <task name="IB14" specref="GLSL 1.50 4.3.7" piglit="no">
      If an interface block has an instance-name, then members of the
      block are accessed from the OpenGL API by the *block-name*,
      followed by ".", followed by the name of the member.
    </task>
    <task name="IB15" specref="GLSL 1.50 4.3.7" piglit="no">
      If an interface block has no instance-name (the optional name that
      appears after the "}") the names inside the block are scoped at
      the global level for purposes of access from within the shader.
    </task>
    <task name="IB16" specref="GLSL 1.50 4.3.7" piglit="no">
      If an interface block has no instance-name, then members of the
      block are accessed from the OpenGL API by their bare name.
    </task>
    <task name="IB17" specref="GLSL 1.50 4.3.7" mesa="done" piglit="done">
      In order for interface blocks to match, their contents must be in
      identical order.
    </task>
    <task name="IB18" specref="GLSL 1.50 4.3.7" mesa="done" piglit="done">
      In order for interface blocks to match, their contents must
      contain identical types, names, and member-wise layout
      qualification.
    </task>
    <task name="IB19" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Indices used to index a uniform block array must be integral
      constant expressions.
    </task>
    <task name="IB20" specref="GLSL 1.50 4.3.7" piglit="done">
      Input variables may only appear in input blocks.
    </task>
    <task name="IB21" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Input, output, and uniform variable declarations can be grouped
      into named interface blocks.
    </task>
    <task name="IB22" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Interface blocks can have an optional instance name (used to refer
      to them within the shader).
    </task>
    <task name="IB23" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Interpolation and storage qualifiers may appear within an
      interface block.
    </task>
    <task name="IB24" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      It is illegal to have an input block in a vertex shader.
    </task>
    <task name="IB25" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      It is illegal to have an output block in a fragment shader.
    </task>
    <task name="IB26" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Output blocks in one stage are matched up to input blocks in the
      subsequent stage.
    </task>
    <task name="IB27" specref="GLSL 1.50 4.3.7" piglit="done">
      Output variables may only appear in output blocks.
    </task>
    <task name="IB28" specref="GLSL 1.50 4.3.7" mesa="done" piglit="done">
      Previously declared structures can be used within an interface
      block.
    </task>
    <task name="IB29" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Repeating the "in", "out", or "uniform" interface qualifier for a
      member within a block is optional.
    </task>
    <task name="IB30" specref="GLSL 1.50 4.3.7" piglit="done">
      Structure definitions cannot be nested inside an interface block.
    </task>
    <task name="IB31" specref="GLSL 1.50 4.3.7" piglit="done">
      Uniform block array declarations must specify an array size.
    </task>
    <task name="IB32" specref="GLSL 1.50 4.3.7" piglit="done" mesa="done">
      Uniform variables may only appear in uniform blocks.
    </task>
    <task name="IB33" specref="GLSL 1.50 4.3.7">
      Within interface blocks, initializers are not allowed.
    </task>
    <task name="IB34" specref="GLSL 1.50 4.3.7">
      Within interface blocks, sampler types are not allowed.
    </task>
    <task name="IB35" specref="GLSL 1.50 4.3.8" piglit="done">
      Layout qualifiers can appear as part of an interface block
      definition.
    </task>
    <task name="IB36" specref="GLSL 1.50 4.3.8" piglit="done">
      Layout qualifiers can appear as part of an interface block member.
    </task>
    <task name="IB37" specref="GLSL 1.50 4.3.9.1" piglit="no">
      Input or output instance names on blocks are not used when
      redeclaring built-in variables.  So for example, when
      gl_FrontColor is redeclared as an input to the geometry shader, it
      is redeclared as e.g. "flat in vec4 gl_FrontColor".  No "gl_in[]"
      is used.
    </task>
    <task name="IB38" specref="GLSL 1.50 7.1" piglit="no">
      The output variables gl_Position, gl_PointSize, and
      gl_ClipDistance are now considered to be nested within an
      interface block having block-name gl_PerVertex and no
      instance-name.
    </task>
    <task name="IB39" specref="GLSL 1.50 7.1.1" piglit="no">
      The vertex shader output variable gl_ClipVertex is now considered
      to be nested within the gl_PerVertex output interface block.
    </task>
    <task name="IB40" specref="GLSL 1.50 7.6" piglit="no">
      Redeclaration of gl_TexCoord is done at global scope, not in an
      interface block.
    </task>
    <task name="IB41" specref="GLSL 1.50 7.6" piglit="done" mesa="done">
      The variables gl_FrontColor, gl_BackColor, gl_FrontSecondaryColor,
      gl_BackSecondaryColor, gl_TexCoord[], and gl_FogFragCoord are now
      considered to be nested within the gl_PerVertex output interface
      block (in the compatibility profile only).
    </task>
    <task name="IB42" specref="GLSL 1.50 9" piglit="done" mesa="done">
      New rule for "declaration": type_qualifier IDENTIFIER LEFT_BRACE
      struct_declaration_list RIGHT_BRACE IDENTIFIER LEFT_BRACKET
      RIGHT_BRACKET SEMICOLON
    </task>
    <task name="IB43" specref="GLSL 1.50 9" piglit="done" mesa="done">
      New rule for "declaration": type_qualifier IDENTIFIER LEFT_BRACE
      struct_declaration_list RIGHT_BRACE IDENTIFIER LEFT_BRACKET
      constant_expression RIGHT_BRACKET SEMICOLON
    </task>
    <task name="IB44" specref="GLSL 1.50 9" piglit="done" mesa="done">
      New rule for "declaration": type_qualifier IDENTIFIER LEFT_BRACE
      struct_declaration_list RIGHT_BRACE IDENTIFIER SEMICOLON
    </task>
  </category>
  <category name="layered rendering">
    <task name="Layer1" specref="GL 3.2 2.12.4" piglit="N/A">
      Layered rendering requires the use of framebuffer objects.
    </task>
    <task name="Layer2" specref="GL 3.2 2.12.4" piglit="no">
      Through layered rendering, geometry shaders may render primitives
      to arbitrary layers of a cube-map texture, 3D texture, or 1D or 2D
      texture array.
    </task>
    <task name="Layer3" specref="GL 3.2 4.3.2" piglit="done">
      Blit operations: If both read and draw framebuffers are layered,
      the blit operation is still performed only on layer zero.

      Tested by piglit/tests/spec/gl-3.2/layered-rendering/blit.c
    </task>
    <task name="Layer4" specref="GL 3.2 4.3.2" piglit="done">
      Blit operations: If the draw framebuffer is layered, pixel values
      are written to layer zero.

      Tested by piglit/tests/spec/gl-3.2/layered-rendering/blit.c
    </task>
    <task name="Layer5" specref="GL 3.2 4.3.2" piglit="done">
      Blit operations: If the read framebuffer is layered, pixel values
      are read from layer zero.

      Tested by piglit/tests/spec/gl-3.2/layered-rendering/blit.c
    </task>
    <task name="Layer6" specref="GL 3.2 4.4.1" piglit="no">
      If the number of layers of each attachment are not all identical,
      rendering will be limited to the smallest number of layers of any
      attachment.
    </task>
    <task name="Layer7" specref="GL 3.2 4.4.2" piglit="no">
      FRAMEBUFFER_ATTACHMENT_LAYERED is set to TRUE if
      FramebufferTexture is called and texture is the name of a
      three-dimensional, cube map, two-dimensional multisample array, or
      one- or two-dimensional array texture.  Otherwise it is set to
      FALSE.
    </task>
    <task name="Layer8" specref="GL 3.2 4.4.2" piglit="done">
      FramebufferTexture() generates INVALID_OPERATION for buffer
      textures.

      Tested by
      piglit/tests/spec/gl-3.2/layered-rendering/framebuffertexture-buffer-textures.c
    </task>
    <task name="Layer9" specref="GL 3.2 4.4.2" piglit="no">
      FramebufferTexture() is added.
    </task>
    <task name="Layer10" specref="GL 3.2 4.4.2">
      If FramebufferTexture() is supplied a three-dimensional texture,
      cube map texture, one- or two-dimensional array texture, or
      two-dimensional multisample array texture, the entire texture
      level is attached as a layered framebuffer attachment.
    </task>
    <task name="Layer11" specref="GL 3.2 4.4.2">
      If a texture of zero is passed to any FramebufferTexture*
      function, additional parameters (level, textarget, and/or layer)
      are ignored, and state values are set to their default values.
    </task>
    <task name="Layer12" specref="GL 3.2 4.4.2">
      The set of framebuffer-attachable images is clarified.  I *think*
      the only thing that's new is the ability to attach an entire level
      of a three-dimensional texture, cube map texture, or one- or
      two-dimensional array texture, creating a layered attachment
      point.
    </task>
    <task name="Layer13" specref="GL 3.2 4.4.4">
      If any framebuffer attachment is layered, all popelated color
      attachments must be from textures of the same target
      (FRAMEBUFFER_INCOMPLETE_LAYER_TARGETS).
    </task>
    <task name="Layer14" specref="GL 3.2 4.4.4">
      If any framebuffer attachment is layered, all popuated attachments
      must be layered (FRAMEBUFFER_INCOMPLETE_LAYER_TARGETS).
    </task>
    <task name="Layer15" specref="GL 3.2 4.4.7">
      A framebuffer is layered if it is complete and all of its
      populated attachments are layered.
    </task>
    <task name="Layer16" specref="GL 3.2 4.4.7">
      A layer number written by a geometry shader has no effect if the
      framebuffer is not layered.
    </task>
    <task name="Layer17" specref="GL 3.2 4.4.7">
      Clear() clears all layers.
    </task>
    <task name="Layer18" specref="GL 3.2 4.4.7">
      ClearBuffer() clears all layers.
    </task>
    <task name="Layer19" specref="GL 3.2 4.4.7" piglit="done">
      Commands such as ReadPixels() always read from layer zero.

      Tested by
      piglit/tests/spec/gl-3.2/layered-rendering/readpixels.c
    </task>
    <task name="Layer20" specref="GL 3.2 4.4.7" piglit="N/A">
      If a layer number is out of range (negative or greater than the
      number of layers of any attachment), the effect is undefined.
    </task>
    <task name="Layer21" specref="GL 3.2 4.4.7">
      If there is a geometry shader and it statically assigns to
      gl_Layer, then all fragments are assigned a layer based on this
      value.
    </task>
    <task name="Layer22" specref="GL 3.2 4.4.7">
      Table 4.12 establishes a mapping between layer number and cube map
      face.
    </task>
    <task name="Layer23" specref="GL 3.2 4.4.7">
      The layer number selects an image for use by stencil test, depth
      buffer test, blending, and color buffer writes.
    </task>
    <task name="Layer24" specref="GL 3.2 4.4.7" piglit="N/A">
      The vertex used to determine the layer is
      implementation-dependent.
    </task>
    <task name="Layer25" specref="GL 3.2 4.4.7">
      When the current geometry shader does not statically assign a
      value to gl_Layer, all fragments are assigned a layer of zero.
    </task>
    <task name="Layer26" specref="GL 3.2 4.4.7">
      When there is no geometry shader, all fragments are assigned layer
      of zero.
    </task>
    <task name="Layer27" specref="GL 3.2 6.1.11">
      GetFramebufferAttachmentParameteriv() may now be passed
      FRAMEBUFFER_ATTACHMENT_LAYERED.
    </task>
    <task name="Layer28" specref="GL 3.2 6.2">
      In framebuffer (table 6.23), FRAMEBUFFER_ATTACHMENT_LAYERED is
      added.
    </task>
    <task name="Layer29" specref="GLSL 1.50 7.1">
      Geometry shaders also contain the special output variable "out int
      gl_Layer".
    </task>
    <task name="Layer30" specref="GLSL 1.50 7.1">
      If a geometry shader statically assigns a value to gl_Layer in
      some execution paths but not others, then layered rendering mode
      is still enabled, and gl_Layer is undefined in those execution
      paths where no value was assigned.
    </task>
    <task name="Layer31" specref="GLSL 1.50 7.1" piglit="done">
      If a geometry shader statically assigns a value to gl_Layer,
      layered rendering mode is enabled.

      Tested by other piglit tests.
    </task>
    <task name="Layer32" specref="GLSL 1.50 7.1" piglit="done">
      The geometry shader output gl_Layer is used to select a layer of a
      multi-layer framebuffer attachment.

      Tested by other piglit tests.
    </task>
    <task name="Layer33" specref="GLSL 1.50 7.1" piglit="N/A">
      The value of gl_Layer which is used for rendering comes from one
      of the vertices of the primitive being shaded; which vertex it
      comes from is undefined.
    </task>
  </category>
  <category name="GL_ARB_provoking_vertex">
    <task name="PV1" specref="GL 3.2 2.11.7" piglit="N/A">
      Flatshading is added to the list of operations applied to vertices
      processed by the vertex shader.
    </task>
    <task name="PV2" specref="GL 3.2 2.16" piglit="done" mesa="done">
      Transform feedback occurs before flatshading.
    </task>
    <task name="PV3" specref="GL 3.2 2.18" piglit="N/A">
      Flatshading selects the varying output corresponding to the
      provoking vertex of the primitive.
    </task>
    <task name="PV4" specref="GL 3.2 2.18" piglit="done" mesa="done">
      The initial value of the provoking vertex mode is
      LAST_VERTEX_CONVENTION.
    </task>
    <task name="PV5" specref="GL 3.2 2.18" piglit="done" mesa="done">
      The provoking vertex is controlled by the ProvokingVertex()
      command.
    </task>
    <task name="PV6" specref="GL 3.2 6.2">
      In coloring (table 6.9), PROVOKING_VERTEX is added.
    </task>
    <task name="PV7" specref="GL 3.2 6.2" piglit="done">
      In implementation dependent values (table 6.45),
      QUADS_FOLLOW_PROVOKING_VERTEX_CONVENTION is new.

      Note that the spec refers to QUADS_FOLLOW_PROVOKING_VERTEX
      (without the "_CONVENTION") but that's a spec bug.  See
      https://cvs.khronos.org/bugzilla/show_bug.cgi?id=8432.
    </task>
  </category>
  <category name="structured varyings">
    <task name="FSStructIn" specref="GLSL 1.50 4.3.4" piglit="done" mesa="done">
      Fragment shader inputs may be structures.
    </task>
    <task name="VSGSStructOut" specref="GLSL 1.50 4.3.6" piglit="done">
      Vertex and geometry shader outputs may be structures.
    </task>
  </category>
  <category name="GL_ARB_sync">
    <task name="Sync1" specref="GL 3.2 2.4" mesa="done" piglit="done">
      The "GL Data Types" table is expanded to include "sync".
    </task>
    <task name="Sync2" specref="GL 3.2 5.2" mesa="done">
      DeleteSync() deletes sync objects.
    </task>
    <task name="Sync3" specref="GL 3.2 5.2" mesa="done">
      DeleteSync() does not block on a sync object that is not yet
      SIGNALED.
    </task>
    <task name="Sync4" specref="GL 3.2 5.2" mesa="done">
      DeleteSync() generates INVALID_VALUE if the supplied sync
      parameter is neither zero nor the name of a sync object.
    </task>
    <task name="Sync5" specref="GL 3.2 5.2">
      DeleteSync() may be called on a sync object that currently has
      ClientWaitSync() or WaitSync() commands blocking on it.
    </task>
    <task name="Sync6" specref="GL 3.2 5.2" mesa="done">
      DeleteSync() siglently ignores sync values of zero.
    </task>
    <task name="Sync7" specref="GL 3.2 5.2" mesa="done" piglit="done">
      FenceSync() creates a new fence sync object, inserts a fence
      command in the GL command stream, and associates it with the sync
      object.
    </task>
    <task name="Sync8" specref="GL 3.2 5.2">
      Sync objects are initially UNSIGNALED.
    </task>
    <task name="Sync9" specref="GL 3.2 5.2" mesa="done">
      Sync objects have a SYNC_CONDITION property which is the condition
      passed to FenceSync().
    </task>
    <task name="Sync10" specref="GL 3.2 5.2" mesa="done">
      Sync objects have a SYNC_FLAGS property which is the flags value
      passed to FenceSync().
    </task>
    <task name="Sync11" specref="GL 3.2 5.2">
      Sync objects have a SYNC_STATUS property with two possible states:
      SIGNALED and UNSIGNALED.
    </task>
    <task name="Sync12" specref="GL 3.2 5.2" mesa="done">
      Sync objects have an OBJECT_TYPE property which is always
      SYNC_FENCE.
    </task>
    <task name="Sync13" specref="GL 3.2 5.2" mesa="done">
      The only condition allowed by FenceSync is
      SYNC_GPU_COMMANDS_COMPLETE (otherwise an INVALID_ENUM error is
      generated).
    </task>
    <task name="Sync14" specref="GL 3.2 5.2" mesa="done">
      The only flags value allowed by FenceSync is 0 (otherwise an
      INVALID_VALUE error is generated).
    </task>
    <task name="Sync15" specref="GL 3.2 5.2">
      When all proceeding commands from the same command stream have
      been fully realized on both the client and the server, the sync
      object becomes signaled.
    </task>
    <task name="Sync16" specref="GL 3.2 5.2.1">
      A single sync object can be blocked in multiple GL contexts.
    </task>
    <task name="Sync17" specref="GL 3.2 5.2.1">
      A single sync object can block both client and server.
    </task>
    <task name="Sync18" specref="GL 3.2 5.2.1">
      ClientWaitSync() blocks waiting until a sync object is signaled,
      or a timeout expires.
    </task>
    <task name="Sync19" specref="GL 3.2 5.2.1">
      ClientWaitSync() generates INVALID_VALUE if flags contains any
      bits other than SYNC_FLUSH_COMMANDS_BIT.
    </task>
    <task name="Sync20" specref="GL 3.2 5.2.1">
      ClientWaitSync() generates INVALID_VALUE if sync is not the name
      of a sync object.
    </task>
    <task name="Sync21" specref="GL 3.2 5.2.1">
      ClientWaitSync() returns ALREADY_SIGNALED if sync was already
      signaled.
    </task>
    <task name="Sync22" specref="GL 3.2 5.2.1">
      ClientWaitSync() returns CONDITION_SATISFIED if sync became
      signaled while the ClientWaitSync() call was in effect.
    </task>
    <task name="Sync23" specref="GL 3.2 5.2.1">
      ClientWaitSync() returns TIMEOUT_EXPIRED if timeout occurred
      before sync was signaled.
    </task>
    <task name="Sync24" specref="GL 3.2 5.2.1">
      ClientWaitSync() returns WAIT_FAILED without blocking if there is
      an error (and also generates a GL error).
    </task>
    <task name="Sync25" specref="GL 3.2 5.2.1">
      ClientWaitSync() will return ALREADY_SIGNALED on an
      already-signaled sync object even if timeout was zero.
    </task>
    <task name="Sync26" specref="GL 3.2 5.2.1">
      If an error occurs, WaitSync() does not block.
    </task>
    <task name="Sync27" specref="GL 3.2 5.2.1">
      If timeout is zero, ClientWaitSync() tests the current state of
      sync.
    </task>
    <task name="Sync28" specref="GL 3.2 5.2.1">
      The GL command stream may contain multiple WaitSync() commands on
      the same sync object.  When sync object becomes signaled, any
      queued WaitSync() commands for the same object become no-ops.
    </task>
    <task name="Sync30" specref="GL 3.2 5.2.1">
      Timeout may be larger than requested due to
      implementation-dependent timeout accuracy restrictions.
    </task>
    <task name="Sync31" specref="GL 3.2 5.2.1">
      WaitSync() generates INVALID_VALUE if sync is not the name of a
      sync object.
    </task>
    <task name="Sync32" specref="GL 3.2 5.2.1">
      WaitSync() may only be passed a flags value of 0 (INVALID_VALUE is
      generated otherwise).
    </task>
    <task name="Sync33" specref="GL 3.2 5.2.1">
      WaitSync() may only be passed a timeout value of TIMEOUT_IGNORED
      (INVALID_VALUE is generated otherwise).
    </task>
    <task name="Sync34" specref="GL 3.2 5.2.1">
      WaitSync() returns immediately, but causes the GL server to block
      until sync is signaled.
    </task>
    <task name="Sync35" specref="GL 3.2 5.2.1">
      WaitSync() will wait no longer than MAX_SERVER_WAIT_TIMEOUT.
    </task>
    <task name="Sync36" specref="GL 3.2 5.2.2">
      If SYNC_FLUSH_COMMANDS_BIT was not passed to ClientWaitSync(),
      then ClientWaitSync() may hang forever.
    </task>
    <task name="Sync37" specref="GL 3.2 5.2.2">
      If SYNC_FLUSH_COMMANDS_BIT was passed to ClientWaitSync(), then it
      performs the equivalent of glFlush() before blocking on the sync
      object.
    </task>
    <task name="Sync38" specref="GL 3.2 5.2.2">
      If a sync object is marked for deletion while client or server is
      blocking on it, deletion is deferred until nothing is blocking on
      it.
    </task>
    <task name="Sync39" specref="GL 3.2 5.2.2">
      SYNC_FLUSH_COMMANDS_BIT will not help when waiting for a fence
      command issued in another context's command stream.
    </task>
    <task name="Sync40" specref="GL 3.2 6.1.7" mesa="done">
      If GetSynciv() is passed an invalid pname, INVALID_ENUM is
      generated.
    </task>
    <task name="Sync41" specref="GL 3.2 6.1.7" mesa="done">
      If sync is not the name of a sync object GetSynciv() generates
      INVALID_VALUE.
    </task>
    <task name="Sync42" specref="GL 3.2 6.1.7">
      IsSync() returns true if sync is the name of a sync object.
    </task>
    <task name="Sync43" specref="GL 3.2 6.1.7">
      Properties of a sync object may be queried with GetSynciv().
    </task>
    <task name="Sync44" specref="GL 3.2 6.1.7">
      Sync object names immediately become invalid after calling
      DeleteSync(), even if the underlying sync object is still
      associated with a fence command or blocking a *WaitSync command.
    </task>
    <task name="Sync45" specref="GL 3.2 6.2" mesa="done">
      In implementation dependent values (table 6.45),
      MAX_SERVER_WAIT_TIMEOUT is new.
    </task>
    <task name="Sync46" specref="GL 3.2 6.2">
      Sync (table 6.35) is new.
    </task>
    <task name="Sync47" specref="GL 3.2 D">
      Sync objects are added to the list of objects that can be shared
      between contexts.
    </task>
    <task name="Sync48" specref="GL 3.2 D.2">
      Multiple GL clients and/or servers can be blocked on a single sync
      object.
    </task>
    <task name="Sync49" specref="GL 3.2 D.2">
      When multiple GL clients and/or servers are blocked on a single
      sync object, the order in which blocks are released is
      implementation-dependent.
    </task>
    <task name="Sync50" specref="GL 3.2 D.3.1">
      In addition to Finish(), FenceSync() may be used to determine when
      completion of a command has occurred.
    </task>
  </category>
  <category name="GL_ARB_texture_multisample">
    <task name="TMS1" specref="GL 3.2 2.11.4">
      Table 2.10 adds new tokens for use by GetActiveUniform() and
      GetActiveUniformsiv(): SAMPLER_2D_MULTISAMPLE,
      SAMPLER_2D_MULTISAMPLE_ARRAY, INT_SAMPLER_2D_MULTISAMPLE,
      INT_SAMPLER_2D_MULTISAMPLE_ARRAY,
      UNSIGNED_INT_SAMPLER_2D_MULTISAMPLE, and
      UNSIGNED_INT_SAMPLER_2D_MULTISAMPLE_ARRAY.
    </task>
    <task name="TMS2" specref="GL 3.2 2.11.7" mesa="done">
      Multisample texel fetches are added.
    </task>
    <task name="TMS3" specref="GL 3.2 2.11.7" mesa="done">
      Multisample texel fetches have no LOD parameter.
    </task>
    <task name="TMS4" specref="GL 3.2 2.11.7">
      Multisample texel fetches may only be performed on multisample
      texture samplers.
    </task>
    <task name="TMS5" specref="GL 3.2 2.11.7" mesa="done">
      Multisample textures support only NEAREST filtering.
    </task>
    <task name="TMS6" specref="GL 3.2 3.3.1">
      Sample locations can now be queried with GetMultisamplefv().
    </task>
    <task name="TMS7" specref="GL 3.2 3.8" mesa="done">
      Two-dimensional multisample and two-dimensional multisample array
      textures are added.
    </task>
    <task name="TMS8" specref="GL 3.2 3.8.12">
      For rectangular and multisample textures, levelbase is always
      zero.
    </task>
    <task name="TMS9" specref="GL 3.2 3.8.13">
      Multisample textures contain a boolean indicating whether
      identical sample locations and the same number of samples will be
      used for all texels in the image.
    </task>
    <task name="TMS10" specref="GL 3.2 3.8.13">
      Multisample textures contain an integer identifying the number of
      samples in each texel.
    </task>
    <task name="TMS11" specref="GL 3.2 3.8.4" mesa="done" piglit="done">
      Command TexImage2DMultisample() is added.

      Tested by
      piglit/tests/spec/arb_texture_multisample/teximage-2d-multisample.c.
    </task>
    <task name="TMS12" specref="GL 3.2 3.8.4" mesa="done" piglit="done">
      Command TexImage3DMultisample() is added.

      Tested by
      piglit/tests/spec/arb_texture_multisample/teximage-3d-multisample.c.
    </task>
    <task name="TMS13" specref="GL 3.2 3.8.4" mesa="done" piglit="done">
      For TexImage2DMultisample(), target must be TEXTURE_2D_MULTISAMPLE
      or PROXY_TEXTURE_2D_MULTISAMPLE.

      Tested by
      piglit/tests/spec/arb_texture_multisample/teximage-2d-multisample.c.
    </task>
    <task name="TMS14" specref="GL 3.2 3.8.4" mesa="done" piglit="done">
      For TexImage3DMultisample(), target must be
      TeXTURE_2D_MULTISAMPLE_ARRAY or
      PROXY_TEXTURE_2D_MULTISAMPLE_ARRAY.

      Tested by
      piglit/tests/spec/arb_texture_multisample/teximage-3d-multisample.c.
    </task>
    <task name="TMS15" specref="GL 3.2 3.8.4">
      If fixedsamplelocations=TRUE is provided to
      TexImage2DMultisample() or TexImage3DMultisample(), then the
      sample locations will depend on neither coordinate,
      internalformat, nor image size.
    </task>
    <task name="TMS16" specref="GL 3.2 3.8.4" mesa="done">
      MAX_COLOR_TEXTURE_SAMPLES is added.
    </task>
    <task name="TMS17" specref="GL 3.2 3.8.4" mesa="done">
      MAX_DEPTH_TEXTURE_SAMPLES is added.
    </task>
    <task name="TMS18" specref="GL 3.2 3.8.4" mesa="done">
      MAX_INTEGER_SAMPLES is added.
    </task>
    <task name="TMS19" specref="GL 3.2 4.1.3">
      If SAMPLE_MASK is enabled, the fragment coverage is ANDed with
      SAMPLE_MASK_VALUE.
    </task>
    <task name="TMS20" specref="GL 3.2 4.1.3">
      MAX_SAMPLE_MASK_WORDS specifies how many 32-bit masks
      SAMPLE_MASK_VALUE is separated into.
    </task>
    <task name="TMS21" specref="GL 3.2 4.1.3">
      SAMPLE_MASK and SAMPLE_MASK_VALUE are added.
    </task>
    <task name="TMS22" specref="GL 3.2 4.1.3">
      SAMPLE_MASK_VALUE is queried using
      GetIntegeri_v(SAMPLE_MASK_VALUE) with index set to maskNumber.
    </task>
    <task name="TMS23" specref="GL 3.2 4.1.3">
      SAMPLE_MASK_VALUE is separated into n 32-bit masks (to handle the
      possibility of &gt;32x multisampling).
    </task>
    <task name="TMS24" specref="GL 3.2 4.1.3">
      SAMPLE_MASK_VALUE is specified using SampleMaski().
    </task>
    <task name="TMS25" specref="GL 3.2 4.4.2">
      FramebufferTexture2D may be used to bind one layer of a
      TEXTURE_2D_MULTISAMPLE texture.
    </task>
    <task name="TMS26" specref="GL 3.2 4.4.2">
      FramebufferTextureLayer may now be used on a two-dimensional
      multisample array.
    </task>
    <task name="TMS27" specref="GL 3.2 4.4.2">
      MAX_INTEGER_SAMPLES is added to allow the implementation to signal
      the degree to which multisample integer renderbuffers are
      supported.
    </task>
    <task name="TMS28" specref="GL 3.2 4.4.2">
      When calling FramebufferTexture* commands with
      TEXTURE_2D_MULTISAMPLE or TEXTURE_2D_MULTISAMPLE_ARRAY, level must
      be zero.
    </task>
    <task name="TMS29" specref="GL 3.2 4.4.4">
      FRAMEBUFFER_INCOMPLETE_MULTISAMPLE now checks
      TEXTURE_FIXED_SAMPLE_LOCATIONS.
    </task>
    <task name="TMS30" specref="GL 3.2 4.4.4">
      FRAMEBUFFER_INCOMPLETE_MULTISAMPLE now checks both
      RENDERBUFFER_SAMPLES and TEXTURE_SAMPLES.
    </task>
    <task name="TMS31" specref="GL 3.2 4.4.4" piglit="done" mesa="done">
      Renderbuffers effectively have a TEXTURE_FIXED_SAMPLE_LOCATIONS
      value of TRUE for purposes of checking framebuffer completeness.
    </task>
    <task name="TMS32" specref="GL 3.2 6.1.3">
      GetTexLevelParameter{if}v() may now be used with
      TEXTURE_2D_MULTISAMPLE, TEXTURE_2D_MULTISAMPLE_ARRAY,
      PROXY_TEXTURE_2D_MULTISAMPLE, or
      PROXY_TEXTURE_2D_MULTISAMPLE_ARRAY.
    </task>
    <task name="TMS33" specref="GL 3.2 6.2">
      In framebuffer dependent values (table 6.46), SAMPLE_POSITION is
      new.
    </task>
    <task name="TMS34" specref="GL 3.2 6.2">
      In implementation dependent values (table 6.45),
      MAX_SAMPLE_MASK_WORDS, MAX_COLOR_TEXTURE_SAMPLES,
      MAX_DEPTH_TEXTURE_SAMPLES, and MAX_INTEGER_SAMPLES are new.
    </task>
    <task name="TMS35" specref="GL 3.2 6.2">
      In multisampling (table 6.11), SAMPLE_MASK and SAMPLE_MASK_VALUE
      are added.
    </task>
    <task name="TMS36" specref="GL 3.2 6.2">
      In textures (table 6.14), TEXTURE_BINDING_2D_MULTISAMPLE and
      TEXTURE_BINDING_2D_MULTISAMPLE_ARRAY are added.
    </task>
    <task name="TMS37" specref="GL 3.2 6.2">
      In textures (table 6.16), TEXTURE_SAMPLES and
      TEXTURE_FIXED_SAMPLE_LOCATIONS are added.
    </task>
    <task name="TMS38" specref="GLSL 1.50 3.6" mesa="done">
      The following keywords are added: sampler2DMS, isampler2DMS,
      usampler2DMS, sampler2DMSArray, isampler2DMSArray,
      usampler2DMSArray
    </task>
    <task name="TMS39" specref="GLSL 1.50 4.1" mesa="done">
      The following basic data types are added: sampler2DMS,
      sampler2DMSArray, isampler2DMS, isampler2DMSArray, usampler2DMS,
      usampler2DMSArray
    </task>
    <task name="TMS40" specref="GLSL 1.50 8.7" mesa="done">
      gvec4 texelFetch(gsampler2DMS sampler, ivec2 P, int sample) is
      added.
    </task>
    <task name="TMS41" specref="GLSL 1.50 8.7" mesa="done">
      gvec4 texelFetch(gsampler2DMSArray sampler, ivec3 P, int sample)
      is added.
    </task>
    <task name="TMS42" specref="GLSL 1.50 8.7" mesa="done">
      ivec2 textureSize(gsampler2DMS sampler) is added.
    </task>
    <task name="TMS43" specref="GLSL 1.50 8.7" mesa="done">
      ivec2 textureSize(gsampler2DMSArray sampler) is added.
    </task>
    <task name="TMS44" specref="GLSL 1.50 9" mesa="done">
      New rules for "type_specifier_nonarray": SAMPLER2DMS,
      ISAMPLER2DMS, USAMPLER2DMS, SAMPLER2DMSArray, ISAMPLER2DMSArray,
      and USAMPLER2DMSArray.
    </task>
    <task name="TMS45" specref="GLSL 1.50 9" mesa="done">
      The following tokens are added: SAMPLER2DMS, ISAMPLER2DMS,
      USAMPLER2DMS, SAMPLER2DMSArray, ISAMPLER2DMSArray,
      USAMPLER2DMSArray.
    </task>
  </category>
</tasks>