src/mesa/tnl/NOTES - platform/external/mesa3d - Git at Google

 INTRODUCTION

 A generic, configurable software implementation of GL transformation &
 lighting.

 This module provides an implementation of the routines required by the
 'vtxfmt' mechanism of core mesa for tnl functionality in all
 combinations of compile and execute modes.

 Most current drivers use the tnl module exclusively to provide this
 functionality.


 STATE

 To create and destroy the module:

 	GLboolean _tnl_CreateContext( struct gl_context *ctx );
 	void _tnl_DestroyContext( struct gl_context *ctx );

 The module is not active by default, and must be installed by calling
 _tnl_Wakeup().  This function installs internal tnl functions into all
 the vtxfmt dispatch hooks, thus taking over the task of transformation
 and lighting entirely:

         void _tnl_wakeup_exec( struct gl_context *ctx );
 	void _tnl_wakeup_save_exec( struct gl_context *ctx );


 This module tracks state changes internally and maintains derived
 values based on the current state.  For this to work, the driver
 ensure the following funciton is called whenever the state changes and
 the swsetup module is 'awake':

 	void _tnl_InvalidateState( struct gl_context *ctx, GLuint new_state );

 There is no explicit call to put the tnl module to sleep.  Simply
 install other function pointers into all the vtxfmt dispatch slots,
 and (optionally) cease calling _tnl_InvalidateState().

 CUSTOMIZATION

 The module provides customizability through several mechanisms.  The
 most important is by allowing drivers to specify the pipeline through
 which vertex data is passed, including its eventual transfer to
 rasterization hardware (or software).

 The default pipeline is specified in t_pipeline.c, and is usually a
 starting point for driver pipelines.  Some drivers will remove a stage
 where hardware provides support for the implemented operation (for
 instance fog where per-pixel hardware fog is available),
 or add stages to shortcircuit latter operations (for
 example taking advantage of hardware support for strips and other
 higher-level primitives (for example the radeon driver).

 In addition, the following functions provide further tweaks:

 extern void
 _tnl_need_projected_coords( struct gl_context *ctx, GLboolean flag );

 	- Direct the default vertex transformation stage to
           produce/not produce projected clip coordinates.

 extern void
 _tnl_need_dlist_loopback( struct gl_context *ctx, GLboolean flag );

         - Direct the display list component of the tnl module to
           replay display lists as 'glVertex' type calls, rather than
           passing the display list data directly into the tnl pipeline
           mechanism.

 	  This allows display lists to be replayed by the tnl module
 	  even when the module is not strictly active.


 extern void
 _tnl_need_dlist_norm_lengths( struct gl_context *ctx, GLboolean flag );

 	- Direct the display list component to enable/disable caching
           1/length values for display list normals.  Doing so is
           ususally helpful when lighting is performed in software, but
           wasteful otherwise.


 DRIVER INTERFACE

 The module itself offers a minimal driver interface:

 	 void (*RunPipeline)( struct gl_context *ctx );

 Normally this is set to _tnl_RunPipeline(), however the driver can use
 this hook to wrap checks or other code around this call.

 In addition, the driver interface for the default render pipeline
 stage is housed in the tnl context struct (this could be cleaner).


 RENDER DRIVER INTERFACE

 See t_context.h for the definition and explanation of this.
	INTRODUCTION

	A generic, configurable software implementation of GL transformation &
	lighting.

	This module provides an implementation of the routines required by the
	'vtxfmt' mechanism of core mesa for tnl functionality in all
	combinations of compile and execute modes.

	Most current drivers use the tnl module exclusively to provide this
	functionality.


	STATE

	To create and destroy the module:

	GLboolean _tnl_CreateContext( struct gl_context *ctx );
	void _tnl_DestroyContext( struct gl_context *ctx );

	The module is not active by default, and must be installed by calling
	_tnl_Wakeup(). This function installs internal tnl functions into all
	the vtxfmt dispatch hooks, thus taking over the task of transformation
	and lighting entirely:

	void _tnl_wakeup_exec( struct gl_context *ctx );
	void _tnl_wakeup_save_exec( struct gl_context *ctx );


	This module tracks state changes internally and maintains derived
	values based on the current state. For this to work, the driver
	ensure the following funciton is called whenever the state changes and
	the swsetup module is 'awake':

	void _tnl_InvalidateState( struct gl_context *ctx, GLuint new_state );

	There is no explicit call to put the tnl module to sleep. Simply
	install other function pointers into all the vtxfmt dispatch slots,
	and (optionally) cease calling _tnl_InvalidateState().

	CUSTOMIZATION

	The module provides customizability through several mechanisms. The
	most important is by allowing drivers to specify the pipeline through
	which vertex data is passed, including its eventual transfer to
	rasterization hardware (or software).

	The default pipeline is specified in t_pipeline.c, and is usually a
	starting point for driver pipelines. Some drivers will remove a stage
	where hardware provides support for the implemented operation (for
	instance fog where per-pixel hardware fog is available),
	or add stages to shortcircuit latter operations (for
	example taking advantage of hardware support for strips and other
	higher-level primitives (for example the radeon driver).

	In addition, the following functions provide further tweaks:

	extern void
	_tnl_need_projected_coords( struct gl_context *ctx, GLboolean flag );

	- Direct the default vertex transformation stage to
	produce/not produce projected clip coordinates.

	extern void
	_tnl_need_dlist_loopback( struct gl_context *ctx, GLboolean flag );

	- Direct the display list component of the tnl module to
	replay display lists as 'glVertex' type calls, rather than
	passing the display list data directly into the tnl pipeline
	mechanism.

	This allows display lists to be replayed by the tnl module
	even when the module is not strictly active.


	extern void
	_tnl_need_dlist_norm_lengths( struct gl_context *ctx, GLboolean flag );

	- Direct the display list component to enable/disable caching
	1/length values for display list normals. Doing so is
	ususally helpful when lighting is performed in software, but
	wasteful otherwise.


	DRIVER INTERFACE

	The module itself offers a minimal driver interface:

	void (RunPipeline)( struct gl_context ctx );

	Normally this is set to _tnl_RunPipeline(), however the driver can use
	this hook to wrap checks or other code around this call.

	In addition, the driver interface for the default render pipeline
	stage is housed in the tnl context struct (this could be cleaner).


	RENDER DRIVER INTERFACE

	See t_context.h for the definition and explanation of this.