docs/OLD/MESA_sprite_point.spec - platform/external/mesa3d - Git at Google

 Name

     MESA_sprite_point

 Name Strings

     GL_MESA_sprite_point

 Contact

     Brian Paul, VA Linux Systems Inc. (brianp 'at' valinux.com)

 Status

     Obsolete - see GL_ARB_point_sprite.

 Version


 Number

     ???

 Dependencies

     GL_EXT_point_parameters effects the definition of this extension
     GL_ARB_multitexture effects the definition of this extension

 Overview

     This extension modifies the way in which points are rendered,
     specifically when they're textured.  When SPRITE_POINT_MESA is enabled
     a point is rendered as if it were a quadrilateral with unique texture
     coordinates at each vertex.  This extension effectively turns points
     into sprites which may be rendered more easily and quickly than using
     conventional textured quadrilaterals.

     When using point size > 1 or attenuated points this extension is an
     effective way to render many small sprite images for particle systems
     or other effects.

 Issues:

     1. How are the texture coordinates computed?

        The lower-left corner has texture coordinate (0,0,r,q).
        The lower-right, (1,0,r,q).  The upper-right, (1,1,r,q).
        The upper-left, (0,1,r,q).

     2. What about texgen and texture matrices?

        Texgen and the texture matrix have no effect on the point's s and t
        texture coordinates.  The r and q coordinates may have been computed
        by texgen or the texture matrix.  Note that with a 3D texture and/or
        texgen that the r coordinate could be used to select a slice in the
        3D texture.

     3. What about point smoothing?

        When point smoothing is enabled, a triangle fan could be rendered
        to approximate a circular point.  This could be problematic to
        define and implement so POINT_SMOOTH is ignored when drawing sprite
        points.

        Smoothed points can be approximated by using an appropriate texture
        images, alpha testing and blending.

        POLYGON_SMOOTH does effect the rendering of the quadrilateral, however.

     4. What about sprite rotation?

        There is none.  Sprite points are always rendered as window-aligned
        squares.  One could define rotated texture images if desired.  A 3D
        texture and appropriate texture r coordinates could be used to
        effectively specify image rotation per point.

     5. What about POLYGON_MODE?

        POLYGON_MODE does not effect the rasterization of the quadrilateral.

     6. What about POLYGON_CULL?

        TBD.  Polygon culling is normally specified and implemented in the
        transformation stage of OpenGL.  However, some rasterization hardware
        implements it later during triangle setup.

        Polygon culling wouldn't be useful for sprite points since the
        quadrilaterals are always defined in counter-clockwise order in
        window space.  For that reason, polygon culling should probably be
        ignored.

     7. Should sprite points be alpha-attenuated if their size is below the
        point parameter's threshold size?

     8. Should there be an advertisized maximum sprite point size?

        No.  Since we're rendering the point as a quadrilateral there's no
        need to limit the size.


 New Procedures and Functions

     None.

 New Tokens

     Accepted by the <pname> parameter of Enable, Disable, IsEnabled,
     GetIntegerv, GetBooleanv, GetFloatv and GetDoublev:

 	SPRITE_POINT_MESA		0x????
         MAX_SPRITE_POINT_SIZE_MESA      0x????   (need this?)

 Additions to Chapter 2 of the 1.1 Specification (OpenGL Operation)

     None

 Additions to Chapter 3 of the 1.1 Specification (Rasterization)

     Section ???.

     When SPRITE_POINT_MESA is enabled points are rasterized as screen-
     aligned quadrilaterals.  If the four vertices of the quadrilateral
     are labeled A, B, C, and D, starting at the lower-left corner and moving
     counter-clockwise around the quadrilateral, then the vertex and
     texture coordinates are computed as follows:

       vertex   window coordinate       texture coordinate
         A      (x-r, y-r, z, w)          (0, 0, r, q)
         B      (x+r, y-r, z, w)          (1, 0, r, q)
         C      (x+r, y+r, z, w)          (1, 1, r, q)
         D      (x-r, y+r, z, w)          (0, 1, r, q)

     where x, y, z, w are the point's window coordinates, r and q are the
     point's 3rd and 4th texture coordinates  and r is half the point's
     size.  The other vertex attributes (such as the color and fog coordinate)
     are simply duplicated from the original point vertex.

     Point size may either be specified with PointSize or computed
     according to the EXT_point_parameters extension.

     The new texture coordinates are not effected by texgen or the texture
     matrix.  Note, however, that the texture r and q coordinates are passed
     unchanged and may have been computed with texgen and/or the texture
     matrix.

     If multiple texture units are present the same texture coordinate is
     used for all texture units.

     The point is then rendered as if it were a quadrilateral using the
     normal point sampling rules.  POLYGON_MODE does not effect the
     rasterization of the quadrilateral but POLYGON_SMOOTH does.

     POINT_SMOOTH has no effect when SPRITE_POINT_MESA is enabled.

 Additions to Chapter 4 of the 1.1 Specification (Per-Fragment Operations
 and the Frame Buffer)

     None.

 Additions to Chapter 5 of the 1.1 Specification (Special Functions)

     None

 Additions to Chapter 6 of the 1.1 Specification (State and State Requests)

     None

 Additions to the GLX Specification

     None

 GLX Protocol

     TBD

 Errors

     None

 New State

     Add boolean variable SPRITE_POINT_MESA to the point attribute group.

 Revision History

     Version 1.0 - 4 Dec 2000
         Original draft.
	Name

	MESA_sprite_point

	Name Strings

	GL_MESA_sprite_point

	Contact

	Brian Paul, VA Linux Systems Inc. (brianp 'at' valinux.com)

	Status

	Obsolete - see GL_ARB_point_sprite.

	Version


	Number

	???

	Dependencies

	GL_EXT_point_parameters effects the definition of this extension
	GL_ARB_multitexture effects the definition of this extension

	Overview

	This extension modifies the way in which points are rendered,
	specifically when they're textured. When SPRITE_POINT_MESA is enabled
	a point is rendered as if it were a quadrilateral with unique texture
	coordinates at each vertex. This extension effectively turns points
	into sprites which may be rendered more easily and quickly than using
	conventional textured quadrilaterals.

	When using point size > 1 or attenuated points this extension is an
	effective way to render many small sprite images for particle systems
	or other effects.

	Issues:

	1. How are the texture coordinates computed?

	The lower-left corner has texture coordinate (0,0,r,q).
	The lower-right, (1,0,r,q). The upper-right, (1,1,r,q).
	The upper-left, (0,1,r,q).

	2. What about texgen and texture matrices?

	Texgen and the texture matrix have no effect on the point's s and t
	texture coordinates. The r and q coordinates may have been computed
	by texgen or the texture matrix. Note that with a 3D texture and/or
	texgen that the r coordinate could be used to select a slice in the
	3D texture.

	3. What about point smoothing?

	When point smoothing is enabled, a triangle fan could be rendered
	to approximate a circular point. This could be problematic to
	define and implement so POINT_SMOOTH is ignored when drawing sprite
	points.

	Smoothed points can be approximated by using an appropriate texture
	images, alpha testing and blending.

	POLYGON_SMOOTH does effect the rendering of the quadrilateral, however.

	4. What about sprite rotation?

	There is none. Sprite points are always rendered as window-aligned
	squares. One could define rotated texture images if desired. A 3D
	texture and appropriate texture r coordinates could be used to
	effectively specify image rotation per point.

	5. What about POLYGON_MODE?

	POLYGON_MODE does not effect the rasterization of the quadrilateral.

	6. What about POLYGON_CULL?

	TBD. Polygon culling is normally specified and implemented in the
	transformation stage of OpenGL. However, some rasterization hardware
	implements it later during triangle setup.

	Polygon culling wouldn't be useful for sprite points since the
	quadrilaterals are always defined in counter-clockwise order in
	window space. For that reason, polygon culling should probably be
	ignored.

	7. Should sprite points be alpha-attenuated if their size is below the
	point parameter's threshold size?

	8. Should there be an advertisized maximum sprite point size?

	No. Since we're rendering the point as a quadrilateral there's no
	need to limit the size.


	New Procedures and Functions

	None.

	New Tokens

	Accepted by the <pname> parameter of Enable, Disable, IsEnabled,
	GetIntegerv, GetBooleanv, GetFloatv and GetDoublev:

	SPRITE_POINT_MESA 0x????
	MAX_SPRITE_POINT_SIZE_MESA 0x???? (need this?)

	Additions to Chapter 2 of the 1.1 Specification (OpenGL Operation)

	None

	Additions to Chapter 3 of the 1.1 Specification (Rasterization)

	Section ???.

	When SPRITE_POINT_MESA is enabled points are rasterized as screen-
	aligned quadrilaterals. If the four vertices of the quadrilateral
	are labeled A, B, C, and D, starting at the lower-left corner and moving
	counter-clockwise around the quadrilateral, then the vertex and
	texture coordinates are computed as follows:

	vertex window coordinate texture coordinate
	A (x-r, y-r, z, w) (0, 0, r, q)
	B (x+r, y-r, z, w) (1, 0, r, q)
	C (x+r, y+r, z, w) (1, 1, r, q)
	D (x-r, y+r, z, w) (0, 1, r, q)

	where x, y, z, w are the point's window coordinates, r and q are the
	point's 3rd and 4th texture coordinates and r is half the point's
	size. The other vertex attributes (such as the color and fog coordinate)
	are simply duplicated from the original point vertex.

	Point size may either be specified with PointSize or computed
	according to the EXT_point_parameters extension.

	The new texture coordinates are not effected by texgen or the texture
	matrix. Note, however, that the texture r and q coordinates are passed
	unchanged and may have been computed with texgen and/or the texture
	matrix.

	If multiple texture units are present the same texture coordinate is
	used for all texture units.

	The point is then rendered as if it were a quadrilateral using the
	normal point sampling rules. POLYGON_MODE does not effect the
	rasterization of the quadrilateral but POLYGON_SMOOTH does.

	POINT_SMOOTH has no effect when SPRITE_POINT_MESA is enabled.

	Additions to Chapter 4 of the 1.1 Specification (Per-Fragment Operations
	and the Frame Buffer)

	None.

	Additions to Chapter 5 of the 1.1 Specification (Special Functions)

	None

	Additions to Chapter 6 of the 1.1 Specification (State and State Requests)

	None

	Additions to the GLX Specification

	None

	GLX Protocol

	TBD

	Errors

	None

	New State

	Add boolean variable SPRITE_POINT_MESA to the point attribute group.

	Revision History

	Version 1.0 - 4 Dec 2000
	Original draft.