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

 .. include:: contents.rst

 Introduction
 ============

 The Mesa project began as an open-source implementation of the
 `OpenGL <https://www.opengl.org/>`__ specification - a system for
 rendering interactive 3D graphics.

 Over the years the project has grown to implement more graphics APIs,
 including `OpenGL ES <https://www.khronos.org/opengles/>`__ (versions 1,
 2, 3), `OpenCL <https://www.khronos.org/opencl/>`__,
 `OpenMAX <https://www.khronos.org/openmax/>`__,
 `VDPAU <https://en.wikipedia.org/wiki/VDPAU>`__, `VA
 API <https://en.wikipedia.org/wiki/Video_Acceleration_API>`__,
 `XvMC <https://en.wikipedia.org/wiki/X-Video_Motion_Compensation>`__ and
 `Vulkan <https://www.khronos.org/vulkan/>`__.

 A variety of device drivers allows the Mesa libraries to be used in many
 different environments ranging from software emulation to complete
 hardware acceleration for modern GPUs.

 Mesa ties into several other open-source projects: the `Direct Rendering
 Infrastructure <https://dri.freedesktop.org/>`__ and
 `X.org <https://x.org>`__ to provide OpenGL support on Linux, FreeBSD
 and other operating systems.

 Project History
 ---------------

 The Mesa project was originally started by Brian Paul. Here's a short
 history of the project.

 August, 1993: I begin working on Mesa in my spare time. The project has
 no name at that point. I was simply interested in writing a simple 3D
 graphics library that used the then-new OpenGL API. I was partially
 inspired by the *VOGL* library which emulated a subset of IRIS GL. I had
 been programming with IRIS GL since 1991.

 November 1994: I contact SGI to ask permission to distribute my
 OpenGL-like graphics library on the internet. SGI was generally
 receptive to the idea and after negotiations with SGI's legal
 department, I get permission to release it.

 February 1995: Mesa 1.0 is released on the internet. I expected that a
 few people would be interested in it, but not thousands. I was soon
 receiving patches, new features and thank-you notes on a daily basis.
 That encouraged me to continue working on Mesa. The name Mesa just
 popped into my head one day. SGI had asked me not to use the terms
 *"Open"* or *"GL"* in the project name and I didn't want to make up a
 new acronym. Later, I heard of the Mesa programming language and the
 Mesa spreadsheet for NeXTStep.

 In the early days, OpenGL wasn't available on too many systems. It even
 took a while for SGI to support it across their product line. Mesa
 filled a big hole during that time. For a lot of people, Mesa was their
 first introduction to OpenGL. I think SGI recognized that Mesa actually
 helped to promote the OpenGL API, so they didn't feel threatened by the
 project.

 1995-1996: I continue working on Mesa both during my spare time and
 during my work hours at the Space Science and Engineering Center at the
 University of Wisconsin in Madison. My supervisor, Bill Hibbard, lets me
 do this because Mesa is now being using for the
 `Vis5D <https://www.ssec.wisc.edu/%7Ebillh/vis.html>`__ project.

 October 1996: Mesa 2.0 is released. It implements the OpenGL 1.1
 specification.

 March 1997: Mesa 2.2 is released. It supports the new 3dfx Voodoo
 graphics card via the Glide library. It's the first really popular
 hardware OpenGL implementation for Linux.

 September 1998: Mesa 3.0 is released. It's the first publicly-available
 implementation of the OpenGL 1.2 API.

 March 1999: I attend my first OpenGL ARB meeting. I contribute to the
 development of several official OpenGL extensions over the years.

 September 1999: I'm hired by Precision Insight, Inc. Mesa is a key
 component of 3D hardware acceleration in the new DRI project for
 XFree86. Drivers for 3dfx, 3dLabs, Intel, Matrox and ATI hardware soon
 follow.

 October 2001: Mesa 4.0 is released. It implements the OpenGL 1.3
 specification.

 November 2001: I cofounded Tungsten Graphics, Inc. with Keith Whitwell,
 Jens Owen, David Dawes and Frank LaMonica. Tungsten Graphics was
 acquired by VMware in December 2008.

 November 2002: Mesa 5.0 is released. It implements the OpenGL 1.4
 specification.

 January 2003: Mesa 6.0 is released. It implements the OpenGL 1.5
 specification as well as the GL_ARB_vertex_program and
 GL_ARB_fragment_program extensions.

 June 2007: Mesa 7.0 is released, implementing the OpenGL 2.1
 specification and OpenGL Shading Language.

 2008: Keith Whitwell and other Tungsten Graphics employees develop
 `Gallium <https://en.wikipedia.org/wiki/Gallium3D>`__ - a new GPU
 abstraction layer. The latest Mesa drivers are based on Gallium and
 other APIs such as OpenVG are implemented on top of Gallium.

 February 2012: Mesa 8.0 is released, implementing the OpenGL 3.0
 specification and version 1.30 of the OpenGL Shading Language.

 July 2016: Mesa 12.0 is released, including OpenGL 4.3 support and
 initial support for Vulkan for Intel GPUs. Plus, there's another Gallium
 software driver ("swr") based on LLVM and developed by Intel.

 Ongoing: Mesa is the OpenGL implementation for devices designed by
 Intel, AMD, NVIDIA, Qualcomm, Broadcom, Vivante, plus the VMware and
 VirGL virtual GPUs. There's also several software-based renderers:
 swrast (the legacy Mesa rasterizer), softpipe (a Gallium reference
 driver), llvmpipe (LLVM/JIT-based high-speed rasterizer) and swr
 (another LLVM-based driver).

 Work continues on the drivers and core Mesa to implement newer versions
 of the OpenGL, OpenGL ES and Vulkan specifications.

 Major Versions
 --------------

 This is a summary of the major versions of Mesa. Mesa's major version
 number has been incremented whenever a new version of the OpenGL
 specification is implemented.

 Version 12.x features
 ~~~~~~~~~~~~~~~~~~~~~

 Version 12.x of Mesa implements the OpenGL 4.3 API, but not all drivers
 support OpenGL 4.3.

 Initial support for Vulkan is also included.

 Version 11.x features
 ~~~~~~~~~~~~~~~~~~~~~

 Version 11.x of Mesa implements the OpenGL 4.1 API, but not all drivers
 support OpenGL 4.1.

 Version 10.x features
 ~~~~~~~~~~~~~~~~~~~~~

 Version 10.x of Mesa implements the OpenGL 3.3 API, but not all drivers
 support OpenGL 3.3.

 Version 9.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 9.x of Mesa implements the OpenGL 3.1 API. While the driver for
 Intel Sandy Bridge and Ivy Bridge is the only driver to support OpenGL
 3.1, many developers across the open-source community contributed
 features required for OpenGL 3.1. The primary features added since the
 Mesa 8.0 release are GL_ARB_texture_buffer_object and
 GL_ARB_uniform_buffer_object.

 Version 9.0 of Mesa also included the first release of the Clover state
 tracker for OpenCL.

 Version 8.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 8.x of Mesa implements the OpenGL 3.0 API. The developers at
 Intel deserve a lot of credit for implementing most of the OpenGL 3.0
 features in core Mesa, the GLSL compiler as well as the i965 driver.

 Version 7.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 7.x of Mesa implements the OpenGL 2.1 API. The main feature of
 OpenGL 2.x is the OpenGL Shading Language.

 Version 6.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 6.x of Mesa implements the OpenGL 1.5 API with the following
 extensions incorporated as standard features:

 -  GL_ARB_occlusion_query
 -  GL_ARB_vertex_buffer_object
 -  GL_EXT_shadow_funcs

 Also note that several OpenGL tokens were renamed in OpenGL 1.5 for the
 sake of consistency. The old tokens are still available.

 ::

    New Token                   Old Token
    ------------------------------------------------------------
    GL_FOG_COORD_SRC            GL_FOG_COORDINATE_SOURCE
    GL_FOG_COORD                GL_FOG_COORDINATE
    GL_CURRENT_FOG_COORD        GL_CURRENT_FOG_COORDINATE
    GL_FOG_COORD_ARRAY_TYPE     GL_FOG_COORDINATE_ARRAY_TYPE
    GL_FOG_COORD_ARRAY_STRIDE   GL_FOG_COORDINATE_ARRAY_STRIDE
    GL_FOG_COORD_ARRAY_POINTER  GL_FOG_COORDINATE_ARRAY_POINTER
    GL_FOG_COORD_ARRAY          GL_FOG_COORDINATE_ARRAY
    GL_SRC0_RGB                 GL_SOURCE0_RGB
    GL_SRC1_RGB                 GL_SOURCE1_RGB
    GL_SRC2_RGB                 GL_SOURCE2_RGB
    GL_SRC0_ALPHA               GL_SOURCE0_ALPHA
    GL_SRC1_ALPHA               GL_SOURCE1_ALPHA
    GL_SRC2_ALPHA               GL_SOURCE2_ALPHA

 See the `OpenGL
 specification <https://www.opengl.org/documentation/spec.html>`__ for
 more details.

 Version 5.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 5.x of Mesa implements the OpenGL 1.4 API with the following
 extensions incorporated as standard features:

 -  GL_ARB_depth_texture
 -  GL_ARB_shadow
 -  GL_ARB_texture_env_crossbar
 -  GL_ARB_texture_mirror_repeat
 -  GL_ARB_window_pos
 -  GL_EXT_blend_color
 -  GL_EXT_blend_func_separate
 -  GL_EXT_blend_logic_op
 -  GL_EXT_blend_minmax
 -  GL_EXT_blend_subtract
 -  GL_EXT_fog_coord
 -  GL_EXT_multi_draw_arrays
 -  GL_EXT_point_parameters
 -  GL_EXT_secondary_color
 -  GL_EXT_stencil_wrap
 -  GL_EXT_texture_lod_bias (plus, a per-texture LOD bias parameter)
 -  GL_SGIS_generate_mipmap

 Version 4.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 4.x of Mesa implements the OpenGL 1.3 API with the following
 extensions incorporated as standard features:

 -  GL_ARB_multisample
 -  GL_ARB_multitexture
 -  GL_ARB_texture_border_clamp
 -  GL_ARB_texture_compression
 -  GL_ARB_texture_cube_map
 -  GL_ARB_texture_env_add
 -  GL_ARB_texture_env_combine
 -  GL_ARB_texture_env_dot3
 -  GL_ARB_transpose_matrix

 Version 3.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 3.x of Mesa implements the OpenGL 1.2 API with the following
 features:

 -  BGR, BGRA and packed pixel formats
 -  New texture border clamp mode
 -  glDrawRangeElements()
 -  standard 3-D texturing
 -  advanced MIPMAP control
 -  separate specular color interpolation

 Version 2.x features
 ~~~~~~~~~~~~~~~~~~~~

 Version 2.x of Mesa implements the OpenGL 1.1 API with the following
 features.

 -  Texture mapping:

    -  glAreTexturesResident
    -  glBindTexture
    -  glCopyTexImage1D
    -  glCopyTexImage2D
    -  glCopyTexSubImage1D
    -  glCopyTexSubImage2D
    -  glDeleteTextures
    -  glGenTextures
    -  glIsTexture
    -  glPrioritizeTextures
    -  glTexSubImage1D
    -  glTexSubImage2D

 -  Vertex Arrays:

    -  glArrayElement
    -  glColorPointer
    -  glDrawElements
    -  glEdgeFlagPointer
    -  glIndexPointer
    -  glInterleavedArrays
    -  glNormalPointer
    -  glTexCoordPointer
    -  glVertexPointer

 -  Client state management:

    -  glDisableClientState
    -  glEnableClientState
    -  glPopClientAttrib
    -  glPushClientAttrib

 -  Misc:

    -  glGetPointer
    -  glIndexub
    -  glIndexubv
    -  glPolygonOffset
	.. include:: contents.rst

	Introduction
	============

	The Mesa project began as an open-source implementation of the
	`OpenGL <https://www.opengl.org/>`__ specification - a system for
	rendering interactive 3D graphics.

	Over the years the project has grown to implement more graphics APIs,
	including `OpenGL ES <https://www.khronos.org/opengles/>`__ (versions 1,
	2, 3), `OpenCL <https://www.khronos.org/opencl/>`__,
	`OpenMAX <https://www.khronos.org/openmax/>`__,
	`VDPAU <https://en.wikipedia.org/wiki/VDPAU>`__, `VA
	API <https://en.wikipedia.org/wiki/Video_Acceleration_API>`__,
	`XvMC <https://en.wikipedia.org/wiki/X-Video_Motion_Compensation>`__ and
	`Vulkan <https://www.khronos.org/vulkan/>`__.

	A variety of device drivers allows the Mesa libraries to be used in many
	different environments ranging from software emulation to complete
	hardware acceleration for modern GPUs.

	Mesa ties into several other open-source projects: the `Direct Rendering
	Infrastructure <https://dri.freedesktop.org/>`__ and
	`X.org <https://x.org>`__ to provide OpenGL support on Linux, FreeBSD
	and other operating systems.

	Project History
	---------------

	The Mesa project was originally started by Brian Paul. Here's a short
	history of the project.

	August, 1993: I begin working on Mesa in my spare time. The project has
	no name at that point. I was simply interested in writing a simple 3D
	graphics library that used the then-new OpenGL API. I was partially
	inspired by the VOGL library which emulated a subset of IRIS GL. I had
	been programming with IRIS GL since 1991.

	November 1994: I contact SGI to ask permission to distribute my
	OpenGL-like graphics library on the internet. SGI was generally
	receptive to the idea and after negotiations with SGI's legal
	department, I get permission to release it.

	February 1995: Mesa 1.0 is released on the internet. I expected that a
	few people would be interested in it, but not thousands. I was soon
	receiving patches, new features and thank-you notes on a daily basis.
	That encouraged me to continue working on Mesa. The name Mesa just
	popped into my head one day. SGI had asked me not to use the terms
	"Open" or "GL" in the project name and I didn't want to make up a
	new acronym. Later, I heard of the Mesa programming language and the
	Mesa spreadsheet for NeXTStep.

	In the early days, OpenGL wasn't available on too many systems. It even
	took a while for SGI to support it across their product line. Mesa
	filled a big hole during that time. For a lot of people, Mesa was their
	first introduction to OpenGL. I think SGI recognized that Mesa actually
	helped to promote the OpenGL API, so they didn't feel threatened by the
	project.

	1995-1996: I continue working on Mesa both during my spare time and
	during my work hours at the Space Science and Engineering Center at the
	University of Wisconsin in Madison. My supervisor, Bill Hibbard, lets me
	do this because Mesa is now being using for the
	`Vis5D <https://www.ssec.wisc.edu/%7Ebillh/vis.html>`__ project.

	October 1996: Mesa 2.0 is released. It implements the OpenGL 1.1
	specification.

	March 1997: Mesa 2.2 is released. It supports the new 3dfx Voodoo
	graphics card via the Glide library. It's the first really popular
	hardware OpenGL implementation for Linux.

	September 1998: Mesa 3.0 is released. It's the first publicly-available
	implementation of the OpenGL 1.2 API.

	March 1999: I attend my first OpenGL ARB meeting. I contribute to the
	development of several official OpenGL extensions over the years.

	September 1999: I'm hired by Precision Insight, Inc. Mesa is a key
	component of 3D hardware acceleration in the new DRI project for
	XFree86. Drivers for 3dfx, 3dLabs, Intel, Matrox and ATI hardware soon
	follow.

	October 2001: Mesa 4.0 is released. It implements the OpenGL 1.3
	specification.

	November 2001: I cofounded Tungsten Graphics, Inc. with Keith Whitwell,
	Jens Owen, David Dawes and Frank LaMonica. Tungsten Graphics was
	acquired by VMware in December 2008.

	November 2002: Mesa 5.0 is released. It implements the OpenGL 1.4
	specification.

	January 2003: Mesa 6.0 is released. It implements the OpenGL 1.5
	specification as well as the GL_ARB_vertex_program and
	GL_ARB_fragment_program extensions.

	June 2007: Mesa 7.0 is released, implementing the OpenGL 2.1
	specification and OpenGL Shading Language.

	2008: Keith Whitwell and other Tungsten Graphics employees develop
	`Gallium <https://en.wikipedia.org/wiki/Gallium3D>`__ - a new GPU
	abstraction layer. The latest Mesa drivers are based on Gallium and
	other APIs such as OpenVG are implemented on top of Gallium.

	February 2012: Mesa 8.0 is released, implementing the OpenGL 3.0
	specification and version 1.30 of the OpenGL Shading Language.

	July 2016: Mesa 12.0 is released, including OpenGL 4.3 support and
	initial support for Vulkan for Intel GPUs. Plus, there's another Gallium
	software driver ("swr") based on LLVM and developed by Intel.

	Ongoing: Mesa is the OpenGL implementation for devices designed by
	Intel, AMD, NVIDIA, Qualcomm, Broadcom, Vivante, plus the VMware and
	VirGL virtual GPUs. There's also several software-based renderers:
	swrast (the legacy Mesa rasterizer), softpipe (a Gallium reference
	driver), llvmpipe (LLVM/JIT-based high-speed rasterizer) and swr
	(another LLVM-based driver).

	Work continues on the drivers and core Mesa to implement newer versions
	of the OpenGL, OpenGL ES and Vulkan specifications.

	Major Versions
	--------------

	This is a summary of the major versions of Mesa. Mesa's major version
	number has been incremented whenever a new version of the OpenGL
	specification is implemented.

	Version 12.x features
	~~~~~~~~~~~~~~~~~~~~~

	Version 12.x of Mesa implements the OpenGL 4.3 API, but not all drivers
	support OpenGL 4.3.

	Initial support for Vulkan is also included.

	Version 11.x features
	~~~~~~~~~~~~~~~~~~~~~

	Version 11.x of Mesa implements the OpenGL 4.1 API, but not all drivers
	support OpenGL 4.1.

	Version 10.x features
	~~~~~~~~~~~~~~~~~~~~~

	Version 10.x of Mesa implements the OpenGL 3.3 API, but not all drivers
	support OpenGL 3.3.

	Version 9.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 9.x of Mesa implements the OpenGL 3.1 API. While the driver for
	Intel Sandy Bridge and Ivy Bridge is the only driver to support OpenGL
	3.1, many developers across the open-source community contributed
	features required for OpenGL 3.1. The primary features added since the
	Mesa 8.0 release are GL_ARB_texture_buffer_object and
	GL_ARB_uniform_buffer_object.

	Version 9.0 of Mesa also included the first release of the Clover state
	tracker for OpenCL.

	Version 8.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 8.x of Mesa implements the OpenGL 3.0 API. The developers at
	Intel deserve a lot of credit for implementing most of the OpenGL 3.0
	features in core Mesa, the GLSL compiler as well as the i965 driver.

	Version 7.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 7.x of Mesa implements the OpenGL 2.1 API. The main feature of
	OpenGL 2.x is the OpenGL Shading Language.

	Version 6.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 6.x of Mesa implements the OpenGL 1.5 API with the following
	extensions incorporated as standard features:

	- GL_ARB_occlusion_query
	- GL_ARB_vertex_buffer_object
	- GL_EXT_shadow_funcs

	Also note that several OpenGL tokens were renamed in OpenGL 1.5 for the
	sake of consistency. The old tokens are still available.

	::

	New Token Old Token
	------------------------------------------------------------
	GL_FOG_COORD_SRC GL_FOG_COORDINATE_SOURCE
	GL_FOG_COORD GL_FOG_COORDINATE
	GL_CURRENT_FOG_COORD GL_CURRENT_FOG_COORDINATE
	GL_FOG_COORD_ARRAY_TYPE GL_FOG_COORDINATE_ARRAY_TYPE
	GL_FOG_COORD_ARRAY_STRIDE GL_FOG_COORDINATE_ARRAY_STRIDE
	GL_FOG_COORD_ARRAY_POINTER GL_FOG_COORDINATE_ARRAY_POINTER
	GL_FOG_COORD_ARRAY GL_FOG_COORDINATE_ARRAY
	GL_SRC0_RGB GL_SOURCE0_RGB
	GL_SRC1_RGB GL_SOURCE1_RGB
	GL_SRC2_RGB GL_SOURCE2_RGB
	GL_SRC0_ALPHA GL_SOURCE0_ALPHA
	GL_SRC1_ALPHA GL_SOURCE1_ALPHA
	GL_SRC2_ALPHA GL_SOURCE2_ALPHA

	See the `OpenGL
	specification <https://www.opengl.org/documentation/spec.html>`__ for
	more details.

	Version 5.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 5.x of Mesa implements the OpenGL 1.4 API with the following
	extensions incorporated as standard features:

	- GL_ARB_depth_texture
	- GL_ARB_shadow
	- GL_ARB_texture_env_crossbar
	- GL_ARB_texture_mirror_repeat
	- GL_ARB_window_pos
	- GL_EXT_blend_color
	- GL_EXT_blend_func_separate
	- GL_EXT_blend_logic_op
	- GL_EXT_blend_minmax
	- GL_EXT_blend_subtract
	- GL_EXT_fog_coord
	- GL_EXT_multi_draw_arrays
	- GL_EXT_point_parameters
	- GL_EXT_secondary_color
	- GL_EXT_stencil_wrap
	- GL_EXT_texture_lod_bias (plus, a per-texture LOD bias parameter)
	- GL_SGIS_generate_mipmap

	Version 4.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 4.x of Mesa implements the OpenGL 1.3 API with the following
	extensions incorporated as standard features:

	- GL_ARB_multisample
	- GL_ARB_multitexture
	- GL_ARB_texture_border_clamp
	- GL_ARB_texture_compression
	- GL_ARB_texture_cube_map
	- GL_ARB_texture_env_add
	- GL_ARB_texture_env_combine
	- GL_ARB_texture_env_dot3
	- GL_ARB_transpose_matrix

	Version 3.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 3.x of Mesa implements the OpenGL 1.2 API with the following
	features:

	- BGR, BGRA and packed pixel formats
	- New texture border clamp mode
	- glDrawRangeElements()
	- standard 3-D texturing
	- advanced MIPMAP control
	- separate specular color interpolation

	Version 2.x features
	~~~~~~~~~~~~~~~~~~~~

	Version 2.x of Mesa implements the OpenGL 1.1 API with the following
	features.

	- Texture mapping:

	- glAreTexturesResident
	- glBindTexture
	- glCopyTexImage1D
	- glCopyTexImage2D
	- glCopyTexSubImage1D
	- glCopyTexSubImage2D
	- glDeleteTextures
	- glGenTextures
	- glIsTexture
	- glPrioritizeTextures
	- glTexSubImage1D
	- glTexSubImage2D

	- Vertex Arrays:

	- glArrayElement
	- glColorPointer
	- glDrawElements
	- glEdgeFlagPointer
	- glIndexPointer
	- glInterleavedArrays
	- glNormalPointer
	- glTexCoordPointer
	- glVertexPointer

	- Client state management:

	- glDisableClientState
	- glEnableClientState
	- glPopClientAttrib
	- glPushClientAttrib

	- Misc:

	- glGetPointer
	- glIndexub
	- glIndexubv
	- glPolygonOffset