docs/shading.rst - platform/external/mesa3d - Git at Google

 Shading Language
 ================

 This page describes the features and status of Mesa's support for the
 `OpenGL Shading Language <https://opengl.org/documentation/glsl/>`__.

 .. _envvars:

 Environment Variables
 ---------------------

 The **MESA_GLSL** environment variable can be set to a comma-separated
 list of keywords to control some aspects of the GLSL compiler and shader
 execution. These are generally used for debugging.

 -  **dump** - print GLSL shader code to stdout at link time
 -  **log** - log all GLSL shaders to files. The filenames will be
    "shader_X.vert" or "shader_X.frag" where X the shader ID.
 -  **cache_info** - print debug information about shader cache
 -  **cache_fb** - force cached shaders to be ignored and do a full
    recompile via the fallback path
 -  **uniform** - print message to stdout when glUniform is called
 -  **nopvert** - force vertex shaders to be a simple shader that just
    transforms the vertex position with ftransform() and passes through
    the color and texcoord[0] attributes.
 -  **nopfrag** - force fragment shader to be a simple shader that passes
    through the color attribute.
 -  **useprog** - log glUseProgram calls to stderr
 -  **errors** - GLSL compilation and link errors will be reported to
    stderr.

 Example: export MESA_GLSL=dump,nopt

 .. _replacement:

 Experimenting with Shader Replacements
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 Shaders can be dumped and replaced on runtime for debugging purposes.
 This feature is not currently supported by SCons build. This is
 controlled via following environment variables:

 -  **MESA_SHADER_DUMP_PATH** - path where shader sources are dumped
 -  **MESA_SHADER_READ_PATH** - path where replacement shaders are read

 Note, path set must exist before running for dumping or replacing to
 work. When both are set, these paths should be different so the dumped
 shaders do not clobber the replacement shaders. Also, the filenames of
 the replacement shaders should match the filenames of the corresponding
 dumped shaders.

 .. _capture:

 Capturing Shaders
 ~~~~~~~~~~~~~~~~~

 Setting **MESA_SHADER_CAPTURE_PATH** to a directory will cause the
 compiler to write ``.shader_test`` files for use with
 `shader-db <https://gitlab.freedesktop.org/mesa/shader-db>`__, a tool
 which compiler developers can use to gather statistics about shaders
 (instructions, cycles, memory accesses, and so on).

 Notably, this captures linked GLSL shaders - with all stages together -
 as well as ARB programs.

 GLSL Version
 ------------

 The GLSL compiler currently supports version 3.30 of the shading
 language.

 Several GLSL extensions are also supported:

 -  GL_ARB_draw_buffers
 -  GL_ARB_fragment_coord_conventions
 -  GL_ARB_shader_bit_encoding

 Unsupported Features
 --------------------

 XXX update this section

 The following features of the shading language are not yet fully
 supported in Mesa:

 -  Linking of multiple shaders does not always work. Currently, linking
    is implemented through shader concatenation and re-compiling. This
    doesn't always work because of some #pragma and preprocessor issues.
 -  The gl_Color and gl_SecondaryColor varying vars are interpolated
    without perspective correction

 All other major features of the shading language should function.

 Implementation Notes
 --------------------

 -  Shading language programs are compiled into low-level programs very
    similar to those of GL_ARB_vertex/fragment_program.
 -  All vector types (vec2, vec3, vec4, bvec2, etc) currently occupy full
    float[4] registers.
 -  Float constants and variables are packed so that up to four floats
    can occupy one program parameter/register.
 -  All function calls are inlined.
 -  Shaders which use too many registers will not compile.
 -  The quality of generated code is pretty good, register usage is fair.
 -  Shader error detection and reporting of errors (InfoLog) is not very
    good yet.
 -  The ftransform() function doesn't necessarily match the results of
    fixed-function transformation.

 These issues will be addressed/resolved in the future.

 Programming Hints
 -----------------

 -  Use the built-in library functions whenever possible. For example,
    instead of writing this:

    ::

       float x = 1.0 / sqrt(y);

    Write this:

    ::

       float x = inversesqrt(y);

 Stand-alone GLSL Compiler
 -------------------------

 The stand-alone GLSL compiler program can be used to compile GLSL
 shaders into low-level GPU code.

 This tool is useful for:

 -  Inspecting GPU code to gain insight into compilation
 -  Generating initial GPU code for subsequent hand-tuning
 -  Debugging the GLSL compiler itself

 After building Mesa, the compiler can be found at
 src/compiler/glsl/glsl_compiler

 Here's an example of using the compiler to compile a vertex shader and
 emit GL_ARB_vertex_program-style instructions:

 ::

        src/compiler/glsl/glsl_compiler --version XXX --dump-ast myshader.vert

 Options include

 -  **--dump-ast** - dump GPU code
 -  **--dump-hir** - dump high-level IR code
 -  **--dump-lir** - dump low-level IR code
 -  **--dump-builder** - dump GLSL IR code
 -  **--link** - link shaders
 -  **--just-log** - display only shader / linker info if exist, without
    any header or separator
 -  **--version** - [Mandatory] define the GLSL version to use

 Compiler Implementation
 -----------------------

 The source code for Mesa's shading language compiler is in the
 ``src/compiler/glsl/`` directory.

 XXX provide some info about the compiler....

 The final vertex and fragment programs may be interpreted in software
 (see prog_execute.c) or translated into a specific hardware architecture
 (see drivers/dri/i915/i915_fragprog.c for example).

 Compiler Validation
 -------------------

 Developers working on the GLSL compiler should test frequently to avoid
 regressions.

 The `Piglit <https://piglit.freedesktop.org/>`__ project has many GLSL
 tests.

 The Mesa demos repository also has some good GLSL tests.
	Shading Language
	================

	This page describes the features and status of Mesa's support for the
	`OpenGL Shading Language <https://opengl.org/documentation/glsl/>`__.

	.. _envvars:

	Environment Variables
	---------------------

	The MESA_GLSL environment variable can be set to a comma-separated
	list of keywords to control some aspects of the GLSL compiler and shader
	execution. These are generally used for debugging.

	- dump - print GLSL shader code to stdout at link time
	- log - log all GLSL shaders to files. The filenames will be
	"shader_X.vert" or "shader_X.frag" where X the shader ID.
	- cache_info - print debug information about shader cache
	- cache_fb - force cached shaders to be ignored and do a full
	recompile via the fallback path
	- uniform - print message to stdout when glUniform is called
	- nopvert - force vertex shaders to be a simple shader that just
	transforms the vertex position with ftransform() and passes through
	the color and texcoord[0] attributes.
	- nopfrag - force fragment shader to be a simple shader that passes
	through the color attribute.
	- useprog - log glUseProgram calls to stderr
	- errors - GLSL compilation and link errors will be reported to
	stderr.

	Example: export MESA_GLSL=dump,nopt

	.. _replacement:

	Experimenting with Shader Replacements
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	Shaders can be dumped and replaced on runtime for debugging purposes.
	This feature is not currently supported by SCons build. This is
	controlled via following environment variables:

	- MESA_SHADER_DUMP_PATH - path where shader sources are dumped
	- MESA_SHADER_READ_PATH - path where replacement shaders are read

	Note, path set must exist before running for dumping or replacing to
	work. When both are set, these paths should be different so the dumped
	shaders do not clobber the replacement shaders. Also, the filenames of
	the replacement shaders should match the filenames of the corresponding
	dumped shaders.

	.. _capture:

	Capturing Shaders
	~~~~~~~~~~~~~~~~~

	Setting MESA_SHADER_CAPTURE_PATH to a directory will cause the
	compiler to write ``.shader_test`` files for use with
	`shader-db <https://gitlab.freedesktop.org/mesa/shader-db>`__, a tool
	which compiler developers can use to gather statistics about shaders
	(instructions, cycles, memory accesses, and so on).

	Notably, this captures linked GLSL shaders - with all stages together -
	as well as ARB programs.

	GLSL Version
	------------

	The GLSL compiler currently supports version 3.30 of the shading
	language.

	Several GLSL extensions are also supported:

	- GL_ARB_draw_buffers
	- GL_ARB_fragment_coord_conventions
	- GL_ARB_shader_bit_encoding

	Unsupported Features
	--------------------

	XXX update this section

	The following features of the shading language are not yet fully
	supported in Mesa:

	- Linking of multiple shaders does not always work. Currently, linking
	is implemented through shader concatenation and re-compiling. This
	doesn't always work because of some #pragma and preprocessor issues.
	- The gl_Color and gl_SecondaryColor varying vars are interpolated
	without perspective correction

	All other major features of the shading language should function.

	Implementation Notes
	--------------------

	- Shading language programs are compiled into low-level programs very
	similar to those of GL_ARB_vertex/fragment_program.
	- All vector types (vec2, vec3, vec4, bvec2, etc) currently occupy full
	float[4] registers.
	- Float constants and variables are packed so that up to four floats
	can occupy one program parameter/register.
	- All function calls are inlined.
	- Shaders which use too many registers will not compile.
	- The quality of generated code is pretty good, register usage is fair.
	- Shader error detection and reporting of errors (InfoLog) is not very
	good yet.
	- The ftransform() function doesn't necessarily match the results of
	fixed-function transformation.

	These issues will be addressed/resolved in the future.

	Programming Hints
	-----------------

	- Use the built-in library functions whenever possible. For example,
	instead of writing this:

	::

	float x = 1.0 / sqrt(y);

	Write this:

	::

	float x = inversesqrt(y);

	Stand-alone GLSL Compiler
	-------------------------

	The stand-alone GLSL compiler program can be used to compile GLSL
	shaders into low-level GPU code.

	This tool is useful for:

	- Inspecting GPU code to gain insight into compilation
	- Generating initial GPU code for subsequent hand-tuning
	- Debugging the GLSL compiler itself

	After building Mesa, the compiler can be found at
	src/compiler/glsl/glsl_compiler

	Here's an example of using the compiler to compile a vertex shader and
	emit GL_ARB_vertex_program-style instructions:

	::

	src/compiler/glsl/glsl_compiler --version XXX --dump-ast myshader.vert

	Options include

	- --dump-ast - dump GPU code
	- --dump-hir - dump high-level IR code
	- --dump-lir - dump low-level IR code
	- --dump-builder - dump GLSL IR code
	- --link - link shaders
	- --just-log - display only shader / linker info if exist, without
	any header or separator
	- --version - [Mandatory] define the GLSL version to use

	Compiler Implementation
	-----------------------

	The source code for Mesa's shading language compiler is in the
	``src/compiler/glsl/`` directory.

	XXX provide some info about the compiler....

	The final vertex and fragment programs may be interpreted in software
	(see prog_execute.c) or translated into a specific hardware architecture
	(see drivers/dri/i915/i915_fragprog.c for example).

	Compiler Validation
	-------------------

	Developers working on the GLSL compiler should test frequently to avoid
	regressions.

	The `Piglit <https://piglit.freedesktop.org/>`__ project has many GLSL
	tests.

	The Mesa demos repository also has some good GLSL tests.