src/egl/main/README.txt - platform/external/mesa3d - Git at Google



 Notes about the EGL library:


 The EGL code here basically consists of two things:

 1. An EGL API dispatcher.  This directly routes all the eglFooBar() API
    calls into driver-specific functions.

 2. Fallbacks for EGL API functions.  A driver _could_ implement all the
    EGL API calls from scratch.  But in many cases, the fallbacks provided
    in libEGL (such as eglChooseConfig()) will do the job.


 Bootstrapping:

 When the apps calls eglInitialize() a device driver is selected and loaded
 (look for _eglAddDrivers() and _eglLoadModule() in egldriver.c).

 The built-in driver's entry point function is then called and given
 a freshly allocated and initialised _EGLDriver, with default fallback
 entrypoints set.

 As part of initialization, the dispatch table in _EGLDriver->API must be
 populated with all the EGL entrypoints. Some functions like
 driver->API.Initialize and driver->API.Terminate _must_ be implemented
 with driver-specific code (no default/fallback function is possible).


 Shortly after, the driver->API.Initialize() function is executed.  Any additional
 driver initialization that wasn't done in the driver entry point should be
 done at this point.  Typically, this will involve setting up visual configs, etc.


 Special Functions:

 Certain EGL functions _must_ be implemented by the driver.  This includes:

 eglCreateContext
 eglCreateWindowSurface
 eglCreatePixmapSurface
 eglCreatePBufferSurface
 eglMakeCurrent
 eglSwapBuffers

 Most of the EGLConfig-related functions can be implemented with the
 defaults/fallbacks.  Same thing for the eglGet/Query functions.


 Teardown:

 When eglTerminate() is called, the driver->API.Terminate() function is
 called.  The driver should clean up after itself.  eglTerminate() will
 then close/unload the driver (shared library).


 Subclassing:

 The internal libEGL data structures such as _EGLDisplay, _EGLContext,
 _EGLSurface, etc should be considered base classes from which drivers
 will derive subclasses.


	Notes about the EGL library:


	The EGL code here basically consists of two things:

	1. An EGL API dispatcher. This directly routes all the eglFooBar() API
	calls into driver-specific functions.

	2. Fallbacks for EGL API functions. A driver _could_ implement all the
	EGL API calls from scratch. But in many cases, the fallbacks provided
	in libEGL (such as eglChooseConfig()) will do the job.



	Bootstrapping:

	When the apps calls eglInitialize() a device driver is selected and loaded
	(look for _eglAddDrivers() and _eglLoadModule() in egldriver.c).

	The built-in driver's entry point function is then called and given
	a freshly allocated and initialised _EGLDriver, with default fallback
	entrypoints set.

	As part of initialization, the dispatch table in _EGLDriver->API must be
	populated with all the EGL entrypoints. Some functions like
	driver->API.Initialize and driver->API.Terminate _must_ be implemented
	with driver-specific code (no default/fallback function is possible).


	Shortly after, the driver->API.Initialize() function is executed. Any additional
	driver initialization that wasn't done in the driver entry point should be
	done at this point. Typically, this will involve setting up visual configs, etc.



	Special Functions:

	Certain EGL functions _must_ be implemented by the driver. This includes:

	eglCreateContext
	eglCreateWindowSurface
	eglCreatePixmapSurface
	eglCreatePBufferSurface
	eglMakeCurrent
	eglSwapBuffers

	Most of the EGLConfig-related functions can be implemented with the
	defaults/fallbacks. Same thing for the eglGet/Query functions.




	Teardown:

	When eglTerminate() is called, the driver->API.Terminate() function is
	called. The driver should clean up after itself. eglTerminate() will
	then close/unload the driver (shared library).




	Subclassing:

	The internal libEGL data structures such as _EGLDisplay, _EGLContext,
	_EGLSurface, etc should be considered base classes from which drivers
	will derive subclasses.