269 lines
13 KiB
Plaintext
269 lines
13 KiB
Plaintext
// Copyright (c) 2016-2018 Google Inc. This work is licensed under a
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// Creative Commons Attribution 4.0 International License; see
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// http://creativecommons.org/licenses/by/4.0/
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== Display Timing Queries
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Traditional game and real-time-animation applications frequently use
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ename:VK_PRESENT_MODE_FIFO_KHR so that presentable images are updated during
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the vertical blanking period of a given refresh cycle (RC) of the
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presentation engine's display.
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This avoids the visual anomaly known as tearing.
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However, synchronizing the presentation of images with the RC does not
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prevent all forms of visual anomalies.
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Stuttering occurs when the geometry for each presentable image isn't
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accurately positioned for when that image will be displayed.
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The geometry may appear to move too little some RCs, and too much for
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others.
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Sometimes the animation appears to freeze, when the same image is used for
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more than one RC.
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In order to minimize stuttering, an application needs to correctly position
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their geometry for when the presentable image will be displayed to the user.
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To accomplish this, applications need various timing information about the
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presentation engine's display.
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They need to know when presentable images were actually presented, and when
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they could have been presented.
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Applications also need to tell the presentation engine to display an image
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no sooner than a given time.
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This can allow the application's animation to look smooth to the user, with
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no stuttering.
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The `VK_GOOGLE_display_timing` extension allows an application to satisfy
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these needs.
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The presentation engine's display typically refreshes the pixels that are
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displayed to the user on a periodic basis.
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The period may be fixed or variable.
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In many cases, the presentation engine is associated with fixed refresh rate
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(FRR) display technology, with a fixed refresh rate (RR, e.g. 60Hz).
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In some cases, the presentation engine is associated with variable refresh
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rate (VRR) display technology, where each refresh cycle (RC) can vary in
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length.
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This extension treats VRR displays as if they are FRR.
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[open,refpage='vkGetRefreshCycleDurationGOOGLE',desc='Obtain the RC duration of the PE\'s display',type='protos']
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--
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To query the duration of a refresh cycle (RC) for the presentation engine's
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display, call:
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include::../../api/protos/vkGetRefreshCycleDurationGOOGLE.txt[]
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* pname:device is the device associated with pname:swapchain.
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* pname:swapchain is the swapchain to obtain the refresh duration for.
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* pname:pDisplayTimingProperties is a pointer to an instance of the
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sname:VkRefreshCycleDurationGOOGLE structure.
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include::../../validity/protos/vkGetRefreshCycleDurationGOOGLE.txt[]
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--
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[open,refpage='VkRefreshCycleDurationGOOGLE',desc='Structure containing the RC duration of a display',type='structs']
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--
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The sname:VkRefreshCycleDurationGOOGLE structure is defined as:
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include::../../api/structs/VkRefreshCycleDurationGOOGLE.txt[]
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* pname:refreshDuration is the number of nanoseconds from the start of one
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refresh cycle to the next.
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include::../../validity/structs/VkRefreshCycleDurationGOOGLE.txt[]
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--
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[NOTE]
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.Note
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====
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The rate at which an application renders and presents new images is known as
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the image present rate (IPR, aka frame rate).
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The inverse of IPR, or the duration between each image present, is the image
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present duration (IPD).
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In order to provide a smooth, stutter-free animation, an application will
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want its IPD to be a multiple of pname:refreshDuration.
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For example, if a display has a 60Hz refresh rate, pname:refreshDuration
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will be a value in nanoseconds that is approximately equal to 16.67ms.
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In such a case, an application will want an IPD of 16.67ms (1X multiplier of
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pname:refreshDuration), or 33.33ms (2X multiplier of pname:refreshDuration),
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or 50.0ms (3X multiplier of pname:refreshDuration), etc.
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In order to determine a target IPD for a display (i.e. a multiple of
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pname:refreshDuration), an application needs to determine when its images
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are actually displayed.
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Let's say that an application has an initial target IPD of 16.67ms (1X
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multiplier of pname:refreshDuration).
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It will therefore position the geometry of a new image 16.67ms later than
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the previous image.
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Let's say that this application is running on slower hardware, so that it
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actually takes 20ms to render each new image.
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This will create visual anomalies, because the images won't be displayed to
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the user every 16.67ms, nor every 20ms.
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In this case, it is better for the application to adjust its target IPD to
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33.33ms (i.e. a 2X multiplier of pname:refreshDuration), and tell the
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presentation engine to not present images any sooner than every 33.33ms.
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This will allow the geometry to be correctly positioned for each presentable
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image.
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Adjustments to an application's IPD may be needed because different views of
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an application's geometry can take different amounts of time to render.
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For example, looking at the sky may take less time to render than looking at
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multiple, complex items in a room.
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In general, it is good to not frequently change IPD, as that can cause
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visual anomalies.
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Adjustments to a larger IPD because of late images should happen quickly,
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but adjustments to a smaller IPD should only happen if the
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pname:actualPresentTime and pname:earliestPresentTime members of the
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slink:VkPastPresentationTimingGOOGLE structure are consistently different,
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and if pname:presentMargin is consistently large, over multiple images.
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====
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[open,refpage='vkGetPastPresentationTimingGOOGLE',desc='Obtain timing of a previously-presented image',type='protos']
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--
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The implementation will maintain a limited amount of history of timing
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information about previous presents.
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Because of the asynchronous nature of the presentation engine, the timing
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information for a given flink:vkQueuePresentKHR command will become
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available some time later.
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These time values can be asynchronously queried, and will be returned if
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available.
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All time values are in nanoseconds, relative to a monotonically-increasing
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clock (e.g. `CLOCK_MONOTONIC` (see clock_gettime(2)) on Android and Linux).
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To asynchronously query the presentation engine, for newly-available timing
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information about one or more previous presents to a given swapchain, call:
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include::../../api/protos/vkGetPastPresentationTimingGOOGLE.txt[]
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* pname:device is the device associated with pname:swapchain.
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* pname:swapchain is the swapchain to obtain presentation timing
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information duration for.
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* pname:pPresentationTimingCount is a pointer to an integer related to the
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number of sname:VkPastPresentationTimingGOOGLE structures to query, as
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described below.
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* pname:pPresentationTimings is either `NULL` or a pointer to an an array
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of sname:VkPastPresentationTimingGOOGLE structures.
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If pname:pPresentationTimings is `NULL`, then the number of newly-available
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timing records for the given pname:swapchain is returned in
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pname:pPresentationTimingCount.
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Otherwise, pname:pPresentationTimingCount must: point to a variable set by
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the user to the number of elements in the pname:pPresentationTimings array,
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and on return the variable is overwritten with the number of structures
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actually written to pname:pPresentationTimings.
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If the value of pname:pPresentationTimingCount is less than the number of
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newly-available timing records, at most pname:pPresentationTimingCount
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structures will be written.
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If pname:pPresentationTimingCount is smaller than the number of
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newly-available timing records for the given pname:swapchain,
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ename:VK_INCOMPLETE will be returned instead of ename:VK_SUCCESS to indicate
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that not all the available values were returned.
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include::../../validity/protos/vkGetPastPresentationTimingGOOGLE.txt[]
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--
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[open,refpage='VkPastPresentationTimingGOOGLE',desc='Structure containing timing information about a previously-presented image',type='structs']
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--
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The sname:VkPastPresentationTimingGOOGLE structure is defined as:
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include::../../api/structs/VkPastPresentationTimingGOOGLE.txt[]
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* pname:presentID is an application-provided value that was given to a
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previous fname:vkQueuePresentKHR command via
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slink:VkPresentTimeGOOGLE::pname:presentID (see below).
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It can: be used to uniquely identify a previous present with the
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flink:vkQueuePresentKHR command.
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* pname:desiredPresentTime is an application-provided value that was given
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to a previous flink:vkQueuePresentKHR command via
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slink:VkPresentTimeGOOGLE::pname:desiredPresentTime.
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If non-zero, it was used by the application to indicate that an image
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not be presented any sooner than pname:desiredPresentTime.
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* pname:actualPresentTime is the time when the image of the
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pname:swapchain was actually displayed.
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* pname:earliestPresentTime is the time when the image of the
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pname:swapchain could have been displayed.
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This may: differ from pname:actualPresentTime if the application
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requested that the image be presented no sooner than
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slink:VkPresentTimeGOOGLE::pname:desiredPresentTime.
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* pname:presentMargin is an indication of how early the
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fname:vkQueuePresentKHR command was processed compared to how soon it
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needed to be processed, and still be presented at
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pname:earliestPresentTime.
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The results for a given pname:swapchain and pname:presentID are only
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returned once from fname:vkGetPastPresentationTimingGOOGLE.
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The application can: use the fname:VkPastPresentationTimingGOOGLE values to
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occasionally adjust its timing.
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For example, if pname:actualPresentTime is later than expected (e.g. one
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pname:refreshDuration late), the application may increase its target IPD to
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a higher multiple of pname:refreshDuration (e.g. decrease its frame rate
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from 60Hz to 30Hz).
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If pname:actualPresentTime and pname:earliestPresentTime are consistently
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different, and if pname:presentMargin is consistently large enough, the
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application may decrease its target IPD to a smaller multiple of
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pname:refreshDuration (e.g. increase its frame rate from 30Hz to 60Hz).
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If pname:actualPresentTime and pname:earliestPresentTime are same, and if
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pname:presentMargin is consistently high, the application may delay the
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start of its input-render-present loop in order to decrease the latency
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between user input and the corresponding present (always leaving some margin
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in case a new image takes longer to render than the previous image).
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An application that desires its target IPD to always be the same as
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pname:refreshDuration, can also adjust features until
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pname:actualPresentTime is never late and pname:presentMargin is
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satisfactory.
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--
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The full `VK_GOOGLE_display_timing` extension semantics are described for
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swapchains created with ename:VK_PRESENT_MODE_FIFO_KHR.
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For example, non-zero values of
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sname:VkPresentTimeGOOGLE::pname:desiredPresentTime must: be honored, and
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fname:vkGetPastPresentationTimingGOOGLE should: return a
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sname:VkPastPresentationTimingGOOGLE structure with valid values for all
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images presented with fname:vkQueuePresentKHR.
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The semantics for other present modes are as follows:
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* ename:VK_PRESENT_MODE_IMMEDIATE_KHR.
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The presentation engine may: ignore non-zero values of
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sname:VkPresentTimeGOOGLE::pname:desiredPresentTime in favor of
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presenting immediately.
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The value of
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sname:VkPastPresentationTimingGOOGLE::pname:earliestPresentTime must: be
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the same as
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sname:VkPastPresentationTimingGOOGLE::pname:actualPresentTime, which
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should: be when the presentation engine displayed the image.
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* ename:VK_PRESENT_MODE_MAILBOX_KHR.
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The intention of using this present mode with this extension is to
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handle cases where an image is presented late, and the next image is
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presented soon enough to replace it at the next vertical blanking
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period.
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For images that are displayed to the user, the value of
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sname:VkPastPresentationTimingGOOGLE::pname:actualPresentTime must: be
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when the image was displayed.
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For images that are not displayed to the user,
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fname:vkGetPastPresentationTimingGOOGLE may: not return a
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sname:VkPastPresentationTimingGOOGLE structure, or it may: return return
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a sname:VkPastPresentationTimingGOOGLE structure with the value of zero
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for both sname:VkPastPresentationTimingGOOGLE::pname:actualPresentTime
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and sname:VkPastPresentationTimingGOOGLE::pname:earliestPresentTime.
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It is possible that an application can: submit images with
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sname:VkPresentTimeGOOGLE::pname:desiredPresentTime values such that new
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images may: not be displayed.
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For example, if sname:VkPresentTimeGOOGLE::pname:desiredPresentTime is
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far enough in the future that an image is not presented before
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fname:vkQueuePresentKHR is called to present another image, the first
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image will not be displayed to the user.
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If the application continues to do that, the presentation may: not
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display new images.
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* ename:VK_PRESENT_MODE_FIFO_RELAXED_KHR.
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For images that are presented in time to be displayed at the next
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vertical blanking period, the semantics are identical as for
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ename:VK_PRESENT_MODE_FIFO_RELAXED_KHR.
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For images that are presented late, and are displayed after the start of
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the vertical blanking period (i.e. with tearing), the values of
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sname:VkPastPresentationTimingGOOGLE may: be treated as if the image was
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displayed at the start of the vertical blanking period, or may: be
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treated the same as for ename:VK_PRESENT_MODE_IMMEDIATE_KHR.
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