extensions/OML/WGL_OML_sync_control.txt - external/github.com/KhronosGroup/OpenGL-Registry - Git at Google

 Name

     OML_sync_control

 Name Strings

     WGL_OML_sync_control

 Contact

     Randi Rost, 3Dlabs (rost 'at' 3dlabs.com)

 Status

     Complete. Approved by the Khronos SIG on July 19, 2001.

 Version

     Last Modified Date: 07/23/2001   Revision: 17.0

 Number

     242

 Dependencies

     The extension is written against the OpenGL 1.2.1 Specification
     although it should work on any previous OpenGL specification.

     WGL_ARB_extensions_string is required.

 Overview

     This extension provides the control necessary to ensure
     synchronization between events on the graphics card (such as
     vertical retrace) and other parts of the system. It provides support
     for applications with real-time rendering requirements by providing
     precise synchronization between graphics and streaming video or
     audio.

     This extension incorporates the use of three counters that provide
     the necessary synchronization. The Unadjusted System Time (or UST)
     is a 64-bit monotonically increasing counter that is available
     throughout the system. UST is not a resource that is controlled
     by OpenGL, so it is not defined further as part of this extension.
     The graphics Media Stream Counter (or graphics MSC) is a counter
     that is unique to the graphics subsystem and increments for each
     vertical retrace that occurs. The Swap Buffer Counter (SBC) is a
     per-window value that is incremented each time a swap buffer
     action is performed on the window.

     The use of these three counters allows the application to
     synchronize graphics rendering to vertical retraces and/or swap
     buffer actions, and to synchronize other activities in the system
     (such as streaming video or audio) to vertical retraces and/or
     swap buffer actions.

     Functions are provided to allow an application to detect when an
     MSC or SBC has reached a certain value. This function will block
     until the specified value has been reached. Applications that want
     to continue other processing while waiting are expected to call
     these blocking functions from a thread that is separate from the
     main processing thread(s) of the application.

     This extension carefully defines the observable order in which
     things occur in order to allow implementations to perform
     optimizations and avoid artifacts such as tearing, while at the
     same time providing a framework for consistent behavior from the
     point of view of an application.

 Issues

     None.

 IP Status

     No known issues.

 New Procedures and Functions

     BOOL wglGetSyncValuesOML(HDC hdc, INT64 *ust, INT64 *msc, INT64 *sbc)

     BOOL wglGetMscRateOML(HDC hdc, INT32 *numerator, INT32 *denominator)

     INT64 wglSwapBuffersMscOML(HDC hdc, INT64 target_msc, INT64 divisor,
 			       INT64 remainder)

     INT64 wglSwapLayerBuffersMscOML(HDC hdc, INT fuPlanes, INT64 target_msc,
 				    INT64 divisor, INT64 remainder)

     BOOL wglWaitForMscOML(HDC hdc, INT64 target_msc, INT64 divisor,
 			  INT64 remainder, INT64 *ust, INT64 *msc,
 			  INT64 *sbc)

     BOOL wglWaitForSbcOML(HDC hdc, INT64 target_sbc, INT64 *ust, INT64 *msc,
 			  INT64 *sbc)

 New Tokens

     None

 Additions to Chapter 2 of the OpenGL 1.2.1 Specification (OpenGL Operation)

     None

 Additions to Chapter 3 of the OpenGL 1.2.1 Specification (Rasterization)

     None

 Additions to Chapter 4 of the OpenGL 1.2.1 Specification (Per-Fragment
 Operations and the Framebuffer)

     None

 Additions to Chapter 5 of the OpenGL 1.2.1 Specification (Special Functions)

     None

 Additions to Chapter 6 of the OpenGL 1.2.1 Specification (State and
 State Requests)

     None

 Additions to the WGL Specification

     wglGetSyncValuesOML returns the current UST/MSC/SBC triple. A UST
     timestamp is obtained each time the graphics MSC is incremented.
     If this value does not reflect the value of the UST at the time the
     first scan line of the display begins passing through the video
     output port, it will be adjusted by the graphics driver to do so
     prior to being returned by any of the functions defined by this
     extension.

     This UST timestamp, together with the current graphics MSC and the
     current SBC, comprise the current UST/MSC/SBC triple. The UST,
     graphics MSC, and SBC values are not part of the render context
     state. These values cannot be pushed or popped. The graphics MSC
     value is initialized to 0 when the graphics device is initialized.
     The SBC is per-window state and is initialized to 0 when the window
     is initialized.

     The SBC value is incremented by the graphics driver at the completion
     of each buffer swap (e.g., the pixel copy has been completed or the
     hardware register that swaps memory banks has been written). For pixel
     formats that do not contain a back buffer, the SBC will always be
     returned as 0.

     The graphics MSC value is incremented once for each screen refresh.
     For a non-interlaced display, this means that the graphics MSC value
     is incremented for each frame. For an interlaced display, it means
     that it will be incremented for each field. For a multi-monitor
     system, the monitor used to determine MSC is the one Windows
     associates with <hdc> (i.e., the primary monitor).

     wglGetMscRateOML returns the rate at which the MSC will be incremented
     for the display associated with <hdc>. The rate is expressed in Hertz
     as <numerator> / <denominator>. If the MSC rate in Hertz is an
     integer, then <denominator> will be 1 and <numerator> will be
     the MSC rate.

     wglSwapBuffersMscOML has the same functionality as SwapBuffers,
     except for the following. The swap indicated by a call to
     wglSwapBuffersMscOML does not perform an implicit glFlush. The
     indicated swap will not occur until all prior rendering commands
     affecting the buffer have been completed. Once prior rendering
     commands have been completed, if the current MSC is less than
     <target_msc>, the buffer swap will occur when the MSC value becomes
     equal to <target_msc>. Once prior rendering commands have completed,
     if the current MSC is greater than or equal to <target_msc>, the
     buffer swap will occur the next time the MSC value is incremented
     to a value such that MSC % <divisor> = <remainder>. If <divisor> = 0,
     the swap will occur when MSC becomes greater than or equal to
     <target_msc>.

     Once wglSwapBuffersMscOML has been called, subsequent OpenGL commands
     can be issued immediately.	If the thread's current context is made
     current to another drawable, or if the thread makes another context
     current on another drawable, rendering can proceed immediately.

     If there are multiple outstanding swaps for the same window, at most
     one such swap can be satisfied per increment of MSC.  The order of
     satisfying outstanding swaps of a window must be the order they were
     issued. Each window that has an outstanding swap satisfied by the same
     current MSC should have one swap done.

     If a thread issues a wglSwapBuffersMscOML call on a window, then
     issues OpenGL commands while still current to this window (which now
     has a pending wglSwapBuffersMscOML call), the commands will be executed
     in the order they were received, subject to implementation resource
     constraints.  Furthermore, subsequent commands that would affect
     the back buffer will only affect the new back buffer (that is, the
     back buffer after the swap completes). Such commands do not affect
     the current front buffer.

     If the graphics driver utilizes an extra thread to perform the wait,
     it is expected that this thread will have a high priority so that
     the swap will occur at the earliest possible moment once all the
     conditions for swapping have been satisfied.

     wglSwapLayerBuffersMscOML works identically to wglSwapBuffersMscOML,
     except that the specified layers of a window are swapped when the
     buffer swap occurs, as defined in wglSwapLayerBuffers. The <planes>
     parameter has the same definition as it has in the
     wglSwapLayerBuffers function, and it indicates whether to swap
     buffers for the overlay, underlay, or main planes of the window.

     Both wglSwapBuffersMscOML and wglSwapLayerBuffersMscOML return the
     value that will correspond to the value of the SBC when the buffer
     swap actually occurs (in other words, the return value will be the
     current value of the SBC + the number of pending buffer swaps + 1).
     Both functions will return a value of -1 if the function failed
     because of errors detected in the input parameters. Both functions
     are no-ops if the current pixel format for <hdc> does not include
     a back buffer.

     wglWaitForMscOML can be used to cause the calling thread to wait
     until a specific graphics MSC value has been reached. If the current
     MSC is less than the <target_msc> parameter for wglWaitForMscOML,
     wglWaitForMscOML will block until the MSC value becomes equal to
     <target_msc> and then will return the current values for UST, MSC,
     and SBC. Otherwise, the function will block until the MSC value is
     incremented to a value such that MSC % <divisor> = <remainder> and
     then will return the current values for UST, MSC, and SBC. If
     <divisor> = 0, then the wait will return as soon as MSC >= <target_msc>.

     wglWaitForSbcOML can be used to cause the calling thread to wait
     until a specific SBC value has been reached. This function will block
     until the SBC value for <hdc> becomes equal to <target_sbc> and then
     will return the current values for UST, MSC, and SBC. If the SBC
     value is already greater than or equal to <target_sbc>, the function
     will return immediately with the current values for UST, MSC, and
     SBC. If <target_sbc> = 0, the function will block until all previous
     swaps requested with wglSwapBuffersMscOML or wglSwapLayerBuffersMscOML
     for that window have completed.  It will then return the current values
     for UST, MSC, and SBC.

     When wglSwapBuffersMscOML or wglSwapLayerBuffersMscOML has been
     called to cause a swap at a particular MSC, an application process
     would observe the following order of execution for that MSC:

 	1. The window for which a wglSwapBuffersMscOML call has been
 	   issued has been completely scanned out to the display for
 	   the previous MSC
 	2. The swap buffer action for that window begins
 	3. All the swap buffer actions for all the windows for the
 	   application process are completed
 	4. SBC and MSC values are atomically incremented
 	5. Any calls to wglWaitForMscOML or wglWaitForSbcOML that
 	   are satisfied by the new values for SBC and graphics
 	   MSC are released

     The functions wglGetSyncValuesOML, wglGetMscRateOML, wglWaitForMscOML,
     and wglWaitForSbcOML will each return TRUE if the function completed
     successfully, FALSE otherwise.

 Dependencies on WGL_ARB_extensions_string

     Because there is no way to extend wgl, these calls are defined in
     the ICD and can be called by obtaining the address with
     wglGetProcAddress. Because this is not a GL extension, it is not
     included in the GL_EXTENSIONS string. If this extension is supported
     by the implementation, its name will be returned in the extension
     string returned by wglGetExtensionString.

 Errors

     To get extended error information, call GetLastError. Each of the
     functions defined by this extension may generate the following error:

     ERROR_DC_NOT_FOUND		 The <hDC> parameter was not valid.

     The following error will be generated for the functions
     wglSwapBuffersMscOML, wglSwapLayerBuffersMscOML, and
     wglWaitForMscOML, if <divisor> is less than zero, or if <remainder>
     is less than zero, or if <remainder> is greater than or equal to
     a non-zero <divisor>, or if <target_msc> is less than zero; and
     for the function wglWaitForSbcOML if <target_sbc> is less than zero:

     ERROR_INVALID_DATA		 A parameter is incorrect.

 New State

     Get Value		Get Command	   Type     Initial Value
     ---------		-----------	   ----     -------------
       [UST]	     wglGetSyncValuesOML     Z	     unspecified
       [MSC]	     wglGetSyncValuesOML     Z		  0
       [SBC]	     wglGetSyncValuesOML     Z		  0

 New Implementation Dependent State

     None
	Name

	OML_sync_control

	Name Strings

	WGL_OML_sync_control

	Contact

	Randi Rost, 3Dlabs (rost 'at' 3dlabs.com)

	Status

	Complete. Approved by the Khronos SIG on July 19, 2001.

	Version

	Last Modified Date: 07/23/2001 Revision: 17.0

	Number

	242

	Dependencies

	The extension is written against the OpenGL 1.2.1 Specification
	although it should work on any previous OpenGL specification.

	WGL_ARB_extensions_string is required.

	Overview

	This extension provides the control necessary to ensure
	synchronization between events on the graphics card (such as
	vertical retrace) and other parts of the system. It provides support
	for applications with real-time rendering requirements by providing
	precise synchronization between graphics and streaming video or
	audio.

	This extension incorporates the use of three counters that provide
	the necessary synchronization. The Unadjusted System Time (or UST)
	is a 64-bit monotonically increasing counter that is available
	throughout the system. UST is not a resource that is controlled
	by OpenGL, so it is not defined further as part of this extension.
	The graphics Media Stream Counter (or graphics MSC) is a counter
	that is unique to the graphics subsystem and increments for each
	vertical retrace that occurs. The Swap Buffer Counter (SBC) is a
	per-window value that is incremented each time a swap buffer
	action is performed on the window.

	The use of these three counters allows the application to
	synchronize graphics rendering to vertical retraces and/or swap
	buffer actions, and to synchronize other activities in the system
	(such as streaming video or audio) to vertical retraces and/or
	swap buffer actions.

	Functions are provided to allow an application to detect when an
	MSC or SBC has reached a certain value. This function will block
	until the specified value has been reached. Applications that want
	to continue other processing while waiting are expected to call
	these blocking functions from a thread that is separate from the
	main processing thread(s) of the application.

	This extension carefully defines the observable order in which
	things occur in order to allow implementations to perform
	optimizations and avoid artifacts such as tearing, while at the
	same time providing a framework for consistent behavior from the
	point of view of an application.

	Issues

	None.

	IP Status

	No known issues.

	New Procedures and Functions

	BOOL wglGetSyncValuesOML(HDC hdc, INT64 ust, INT64 msc, INT64 *sbc)

	BOOL wglGetMscRateOML(HDC hdc, INT32 numerator, INT32 denominator)

	INT64 wglSwapBuffersMscOML(HDC hdc, INT64 target_msc, INT64 divisor,
	INT64 remainder)

	INT64 wglSwapLayerBuffersMscOML(HDC hdc, INT fuPlanes, INT64 target_msc,
	INT64 divisor, INT64 remainder)

	BOOL wglWaitForMscOML(HDC hdc, INT64 target_msc, INT64 divisor,
	INT64 remainder, INT64 ust, INT64 msc,
	INT64 *sbc)

	BOOL wglWaitForSbcOML(HDC hdc, INT64 target_sbc, INT64 ust, INT64 msc,
	INT64 *sbc)

	New Tokens

	None

	Additions to Chapter 2 of the OpenGL 1.2.1 Specification (OpenGL Operation)

	None

	Additions to Chapter 3 of the OpenGL 1.2.1 Specification (Rasterization)

	None

	Additions to Chapter 4 of the OpenGL 1.2.1 Specification (Per-Fragment
	Operations and the Framebuffer)

	None

	Additions to Chapter 5 of the OpenGL 1.2.1 Specification (Special Functions)

	None

	Additions to Chapter 6 of the OpenGL 1.2.1 Specification (State and
	State Requests)

	None

	Additions to the WGL Specification

	wglGetSyncValuesOML returns the current UST/MSC/SBC triple. A UST
	timestamp is obtained each time the graphics MSC is incremented.
	If this value does not reflect the value of the UST at the time the
	first scan line of the display begins passing through the video
	output port, it will be adjusted by the graphics driver to do so
	prior to being returned by any of the functions defined by this
	extension.

	This UST timestamp, together with the current graphics MSC and the
	current SBC, comprise the current UST/MSC/SBC triple. The UST,
	graphics MSC, and SBC values are not part of the render context
	state. These values cannot be pushed or popped. The graphics MSC
	value is initialized to 0 when the graphics device is initialized.
	The SBC is per-window state and is initialized to 0 when the window
	is initialized.

	The SBC value is incremented by the graphics driver at the completion
	of each buffer swap (e.g., the pixel copy has been completed or the
	hardware register that swaps memory banks has been written). For pixel
	formats that do not contain a back buffer, the SBC will always be
	returned as 0.

	The graphics MSC value is incremented once for each screen refresh.
	For a non-interlaced display, this means that the graphics MSC value
	is incremented for each frame. For an interlaced display, it means
	that it will be incremented for each field. For a multi-monitor
	system, the monitor used to determine MSC is the one Windows
	associates with <hdc> (i.e., the primary monitor).

	wglGetMscRateOML returns the rate at which the MSC will be incremented
	for the display associated with <hdc>. The rate is expressed in Hertz
	as <numerator> / <denominator>. If the MSC rate in Hertz is an
	integer, then <denominator> will be 1 and <numerator> will be
	the MSC rate.

	wglSwapBuffersMscOML has the same functionality as SwapBuffers,
	except for the following. The swap indicated by a call to
	wglSwapBuffersMscOML does not perform an implicit glFlush. The
	indicated swap will not occur until all prior rendering commands
	affecting the buffer have been completed. Once prior rendering
	commands have been completed, if the current MSC is less than
	<target_msc>, the buffer swap will occur when the MSC value becomes
	equal to <target_msc>. Once prior rendering commands have completed,
	if the current MSC is greater than or equal to <target_msc>, the
	buffer swap will occur the next time the MSC value is incremented
	to a value such that MSC % <divisor> = <remainder>. If <divisor> = 0,
	the swap will occur when MSC becomes greater than or equal to
	<target_msc>.

	Once wglSwapBuffersMscOML has been called, subsequent OpenGL commands
	can be issued immediately. If the thread's current context is made
	current to another drawable, or if the thread makes another context
	current on another drawable, rendering can proceed immediately.

	If there are multiple outstanding swaps for the same window, at most
	one such swap can be satisfied per increment of MSC. The order of
	satisfying outstanding swaps of a window must be the order they were
	issued. Each window that has an outstanding swap satisfied by the same
	current MSC should have one swap done.

	If a thread issues a wglSwapBuffersMscOML call on a window, then
	issues OpenGL commands while still current to this window (which now
	has a pending wglSwapBuffersMscOML call), the commands will be executed
	in the order they were received, subject to implementation resource
	constraints. Furthermore, subsequent commands that would affect
	the back buffer will only affect the new back buffer (that is, the
	back buffer after the swap completes). Such commands do not affect
	the current front buffer.

	If the graphics driver utilizes an extra thread to perform the wait,
	it is expected that this thread will have a high priority so that
	the swap will occur at the earliest possible moment once all the
	conditions for swapping have been satisfied.

	wglSwapLayerBuffersMscOML works identically to wglSwapBuffersMscOML,
	except that the specified layers of a window are swapped when the
	buffer swap occurs, as defined in wglSwapLayerBuffers. The <planes>
	parameter has the same definition as it has in the
	wglSwapLayerBuffers function, and it indicates whether to swap
	buffers for the overlay, underlay, or main planes of the window.

	Both wglSwapBuffersMscOML and wglSwapLayerBuffersMscOML return the
	value that will correspond to the value of the SBC when the buffer
	swap actually occurs (in other words, the return value will be the
	current value of the SBC + the number of pending buffer swaps + 1).
	Both functions will return a value of -1 if the function failed
	because of errors detected in the input parameters. Both functions
	are no-ops if the current pixel format for <hdc> does not include
	a back buffer.

	wglWaitForMscOML can be used to cause the calling thread to wait
	until a specific graphics MSC value has been reached. If the current
	MSC is less than the <target_msc> parameter for wglWaitForMscOML,
	wglWaitForMscOML will block until the MSC value becomes equal to
	<target_msc> and then will return the current values for UST, MSC,
	and SBC. Otherwise, the function will block until the MSC value is
	incremented to a value such that MSC % <divisor> = <remainder> and
	then will return the current values for UST, MSC, and SBC. If
	<divisor> = 0, then the wait will return as soon as MSC >= <target_msc>.

	wglWaitForSbcOML can be used to cause the calling thread to wait
	until a specific SBC value has been reached. This function will block
	until the SBC value for <hdc> becomes equal to <target_sbc> and then
	will return the current values for UST, MSC, and SBC. If the SBC
	value is already greater than or equal to <target_sbc>, the function
	will return immediately with the current values for UST, MSC, and
	SBC. If <target_sbc> = 0, the function will block until all previous
	swaps requested with wglSwapBuffersMscOML or wglSwapLayerBuffersMscOML
	for that window have completed. It will then return the current values
	for UST, MSC, and SBC.

	When wglSwapBuffersMscOML or wglSwapLayerBuffersMscOML has been
	called to cause a swap at a particular MSC, an application process
	would observe the following order of execution for that MSC:

	1. The window for which a wglSwapBuffersMscOML call has been
	issued has been completely scanned out to the display for
	the previous MSC
	2. The swap buffer action for that window begins
	3. All the swap buffer actions for all the windows for the
	application process are completed
	4. SBC and MSC values are atomically incremented
	5. Any calls to wglWaitForMscOML or wglWaitForSbcOML that
	are satisfied by the new values for SBC and graphics
	MSC are released

	The functions wglGetSyncValuesOML, wglGetMscRateOML, wglWaitForMscOML,
	and wglWaitForSbcOML will each return TRUE if the function completed
	successfully, FALSE otherwise.

	Dependencies on WGL_ARB_extensions_string

	Because there is no way to extend wgl, these calls are defined in
	the ICD and can be called by obtaining the address with
	wglGetProcAddress. Because this is not a GL extension, it is not
	included in the GL_EXTENSIONS string. If this extension is supported
	by the implementation, its name will be returned in the extension
	string returned by wglGetExtensionString.

	Errors

	To get extended error information, call GetLastError. Each of the
	functions defined by this extension may generate the following error:

	ERROR_DC_NOT_FOUND The <hDC> parameter was not valid.

	The following error will be generated for the functions
	wglSwapBuffersMscOML, wglSwapLayerBuffersMscOML, and
	wglWaitForMscOML, if <divisor> is less than zero, or if <remainder>
	is less than zero, or if <remainder> is greater than or equal to
	a non-zero <divisor>, or if <target_msc> is less than zero; and
	for the function wglWaitForSbcOML if <target_sbc> is less than zero:

	ERROR_INVALID_DATA A parameter is incorrect.

	New State

	Get Value Get Command Type Initial Value
	--------- ----------- ---- -------------
	[UST] wglGetSyncValuesOML Z unspecified
	[MSC] wglGetSyncValuesOML Z 0
	[SBC] wglGetSyncValuesOML Z 0

	New Implementation Dependent State

	None