Upstream timestamps from the decoder are also in microseconds,
so using microseconds here is consistent with that.
PiperOrigin-RevId: 468659099
(cherry picked from commit 4e7f9c575d)
Adds a method to FrameProcessor.Listener to be called when an
output frame is available and a method releaseOutputFrame in
FrameProcessor allowing the caller to trigger release of the
oldest available output frame at a given timestamp. Late frames
or frames with unset release times are dropped in the
FinalMatrixTransformationProcessorWrapper.
More than one output frame can become available before they are
released if the penultimate GlTextureProcessor is capable of producing
multiple output frames. Processing continues while waiting for
releaseOutputFrame to be called. Frame release tasks are prioritized
over other tasks.
PiperOrigin-RevId: 468473072
(cherry picked from commit 2c063546a1)
createSupportedTransformationRequest is more accurate than
createFallbackTransformationRequest, as a TransformationRequest will be returned
regardless of whether any fallback is applied.
PiperOrigin-RevId: 466641277
(cherry picked from commit 70972bbab0)
Previously, this feature interpreted SDR signals as HDR when called. Now, only HDR
streams are interpreted as HDR, so the javadoc should be updated. Not yet removing
this method, as there are still some loose ends to finish up (ex. PQ support, e2e
tests).
PiperOrigin-RevId: 466425738
(cherry picked from commit 2d2926b8c0)
While HDR is most closely tied to the color transfer (ex.
COLOR_TRANSFER_SDR is the only one explicitly mentioning dynamic
range), technically color spaces may be associated with HDR as well,
like BT.2020 commonly being used for HDR rather than BT.709 for SDR.
Therefore, it's more specific to mention just that the transfer is HDR.
PiperOrigin-RevId: 466316960
(cherry picked from commit 7075f78eb2)
This allows the GlEffectsFrameProcessor to later handle HLG and PQ
differently, or limited and full color range differently.
No functional change intended in this CL.
PiperOrigin-RevId: 466070764
(cherry picked from commit e444eaa5b7)
In the case where this check fails, the downstream frame processor chain won't be able to handle the incoming (SDR) data anyway as we've already set it up for HDR.
PiperOrigin-RevId: 465584814
(cherry picked from commit 0e99d28a79)
`requestCalculateSsim` more clearly represents the intention of the caller.
Also rephrase the javadoc to simplify it and make it more precise.
PiperOrigin-RevId: 465575578
(cherry picked from commit d90d7d3078)
Format.NO_VALUE is a placeholder value for an invalid @C.ColorTransfer, used
for example when the decoder doesn't support this transfer function.
When encountering this invalid value, interpret this as COLOR_TRANSFER_SDR.
Confirmed locally that an exception is thrown when transcoding on p4head, and no exception is thrown when transcoding with this CL.
PiperOrigin-RevId: 464135080
(cherry picked from commit 1a22bcf1e5)
This will allow effects preview in ExoPlayer to use the
Effect and FrameProcessor interface (and the interfaces
they depend on) without depending on transformer or the
future effects module.
PiperOrigin-RevId: 464060047
(cherry picked from commit 06d41c2775)
* Sets KEY_HDR_STATIC_INFO from MediaFormat in the DefaultCodec.
* Adds checks in mediaparser to ensure color space, range, and transfer are valid
values.
PiperOrigin-RevId: 463921325
(cherry picked from commit 44c42fef2a)
TransformationException error codes were previously tied to OpenGL
but other FrameProcessor implementations are possible. So this CL
renames the error codes.
Also, remove GL_INIT_FAILED error code, as FrameProcessor
implemenations may initialize resources on a background thread
after the factory method returns, so it's not obvious how to
distinguish between initialization failures and processing failures.
PiperOrigin-RevId: 463704902
(cherry picked from commit bac323d346)
Both are used in the public FrameProcessor interface, so they
should be public too.
PiperOrigin-RevId: 463454859
(cherry picked from commit 40e96d1534)
Just a misc nit, since I found the name a bit confusing, and figured
findEncoderWithClosestSupportedFormat might be more descriptive.
PiperOrigin-RevId: 463433646
(cherry picked from commit 324fc5d7e8)
Extract a FrameProcessor.Factory interface from GlEffectsFrameProcessor
and allow it to be customized using a setter on Transformer.Builder.
PiperOrigin-RevId: 463433438
(cherry picked from commit ecbe9a502c)
Size requires API 21. Using Pair instead will allow effects to be
used from API 18 during previewing once they are moved out of
transformer.
PiperOrigin-RevId: 463206474
(cherry picked from commit b994f8bfa0)
This is needed for applying effects to a playlist.
The effects are applied based on the presentation time of the
frame in its corresponding media item and the offset is added
back before encoding.
Each time the offset changes, end of input stream is signalled
to the texture processors. This is needed because the texture
processors can expect monotonically increasing timestamp within
the same input stream but when the offset changes, the timstamps
jump back to 0.
PiperOrigin-RevId: 462714966
(cherry picked from commit 46ab06b816)
It's always safe to ignore the result of these methods, because the
caller already has a reference to the returned value.
PiperOrigin-RevId: 462388947
(cherry picked from commit 21cab6124d)
This allows us to use BT.2020 RGB linear for intermediate shaders, which also
allows us to re-enable PeriodicVignetteProcessor, which should work properly in
linear color-spaces.
Manually tested by adding a GlEffectsWrapper, and confirming that HLG HDR editing still looks correct.
PiperOrigin-RevId: 462265821
(cherry picked from commit 1ecf1eb7bf)
Otherwise, invalid ColorInfo instances generated using faulty
MediaFormat#getInteger values could cause exceptions.
Confirmed that b/239435670 reproduces without this CL, and does not reproduce
with this CL.
PiperOrigin-RevId: 461862191
(cherry picked from commit 5533ad1713)
* Introduced `useHdr` for `GlEffect#toGlTextureProcessor`, so
`TextureProcessor` implementations can decide how to handle HDR.
* Creating FP16 color textures for HDR input.
Tested via manual testing, adding a no-op GlEffectWrapper to the transformation to
force use of intermediate textures, adding a linear ramp to the fragment shader,
and trying to ascertain that there's a real reduction in posterization when
switching from 4-bit to 8-bit unsigned bytes, and again from 8-bit unsigned bytes
to 16-bit floating point.
PiperOrigin-RevId: 461613117
(cherry picked from commit f67c1a73f4)
This may happen when a containers' color transfer incorrectly does not match
the video's color transfer.
An example of a file with such a mismatch is the current Transformer demo HDR10
sample file.
Manually tested by confirming that no errors are emitted for SDR and HLG sample
files, and that errors are emitted for our incorrect HDR10 sample file.
PiperOrigin-RevId: 461583532
(cherry picked from commit fd046bd2f6)
- Update profile selection logic to pick an HDR-compatible profile when doing HDR editing on H.264/AVC videos.
- Handle doing the capabilities check for all MIME types that support HDR (not just H.265/HEVC).
- Fix a bug where we would pass an HDR input color format to the encoder when using tone-mapping.
- Tweak how `EncoderWrapper` works so decisions at made at construction time.
Manually tested cases:
- Transformation of an SDR video.
- Transformation of an HDR video to AVC (which triggers fallback/tone-mapping on a device that doesn't support HDR editing for AVC).
- Transformation of an HDR video with HDR editing.
PiperOrigin-RevId: 461572973
(cherry picked from commit 0db07c6791)
Also remove VideoEncoderSettings.colorProfile as there are no
concrete use cases for customizing this and it clashes with picking
the color format automatically based on SDR vs. HDR.
PiperOrigin-RevId: 460746987
(cherry picked from commit db78a87fdc)
Pass the color info and HDR static metadata when configuring the decoder
using MediaFormatUtil.maybeSetColorInfo.
PiperOrigin-RevId: 460424985
(cherry picked from commit 46cd92ac1d)
This extension is needed for editing HDR input with OpenGL, as the
ExternalTextureProcessor samples raw YUV values from the
external texture for HDR and converts them to RGB itself rather than
relying on the OpenGL driver to do this automatically as for SDR.
PiperOrigin-RevId: 460424154
(cherry picked from commit 413016f7ef)
This saves an intermediate texture copy step for use-cases
where matrix transformations are the first or only effects
in the chain.
PiperOrigin-RevId: 460239403
(cherry picked from commit 0615922cb6)
- Added setter to disable this feature.
- Added accompanying tests.
- Plan to run tests on the same set of settings on H265.
PiperOrigin-RevId: 460238673
(cherry picked from commit 6e12600099)
The SDR constant also specified a color space and range, in addition to
C.COLOR_TRANSFER_SDR. However, it turns out that SDR videos may use different color
space and range values, so following prior ExoPlayer conventions to have `null`
mean "generic SDR" is preferable here.
PiperOrigin-RevId: 459296746
(cherry picked from commit 4230ea94e9)
If the input is HDR (HLG), check encoder capabilities for HDR support
and request tone-mapping to SDR during decoder configuration otherwise.
Capabilities are only checked for API 31 and above, as HDR editing is
not supported before.
As the encoder capabilities check needs to happen before selecting the
encoder to use (as this may depend on the resolution output by the
effects chain), the EncoderWrapper checks all candidate encoders
for the MIME type for HDR capabilities and only requests fallback to
SDR if none of them support it.
When the actual encoder is selected, the wrapper checks that it matches
one of the encoders is checked capabilities for.
PiperOrigin-RevId: 458511599
(cherry picked from commit 474e2f2c77)
Configure the GL shaders and encoder to take in HDR metadata.
This mostly just consists of passing the Format.colorInfo through
the VideoTranscodingSamplePipeline down to the encoder, rather than passing
the PQ-ness down to the GL step.
Due to b/237674316, this will remove HDR10+ support temporarily to introduce
support for HLG10.
Manually tested to confirm that HLG10 operations that don't affect color display
correctly after this CL with "HDR editing" in the demo checked, and continue to display incorrectly (as before this CL) without the option unchecked.
PiperOrigin-RevId: 458490810
(cherry picked from commit 53db305612)
We used "ALL_COOECS" previously, and it is not necessary because "ALL_CODECS"
additionally the codecs that support tunneling/secure decoding, which there
is no use case in Transformer.
PiperOrigin-RevId: 458470278
(cherry picked from commit 8f89eba59c)
Although MediaCodec claims supporting float frame rate, encoder init failed on
API21 Nexus 5. Since it's just a performance hint to the codec, it's OK to
generalize it to other API versions.
PiperOrigin-RevId: 458434650
(cherry picked from commit 821ab26702)
The GlEffectsFrameProcessor that will be part of the effects module
uses the DebugViewProvider. So it does not make sense for it
to be an inner interface of Transformer.
PiperOrigin-RevId: 458014932
(cherry picked from commit f41e6796ce)
The FinalMatrixTransformationProcessorWrapper ensures that the
surface is only replaced when it is not being rendered to and vice
versa.
PiperOrigin-RevId: 458007639
(cherry picked from commit e5527a8add)
The outputHeight in the TransformationRequest is the height of
the frame as it would be displayed (i.e., after applying any
rotation specified in the format). So pass-through should only
be used if the requested outputHeight matches the input
format's height after applying the rotation.
PiperOrigin-RevId: 457934867
(cherry picked from commit c74cf1f1aa)
This will be useful for downgrading to a lower resolution during
a slow preview and for processing slide-shows once sequential
multi-asset editing is supported.
PiperOrigin-RevId: 457017255
(cherry picked from commit a230d59f1b)
videoEncoderFormatUnsupported_completesWithError() has recently
been flaky on API 31 emulators on presubmit because a different
exception than the expected exception is thrown.
This disables it on those emulators to reduce testing noise
until the underlying problem is investigated and resolved.
PiperOrigin-RevId: 456765512
(cherry picked from commit d9c63c1e87)
This change is just renaming. There is no functional change intended.
The FrameProcessor interface will be created in a follow-up.
PiperOrigin-RevId: 456741628
(cherry picked from commit 216fefd669)
After this change GlEffects can use any GlTextureProcessor not just
SingleFrameGlTextureProcessor.
MediaPipeProcessor now implements GlTextureProcessor directly which
allows it to reuse MediaPipe's output texture for its output texture
and avoids an extra copy shader step.
PiperOrigin-RevId: 456530718
(cherry picked from commit e25bf81195)
After this change, FrameProcessorChain chains any GlTextureProcessors
instead of only SingleFrameGlTextureProcessors.
The GlTextureProcessors are chained in a bidirectional manner using
ChainingGlTextureProcessorListener to feed input and output related
events forward and release events backwards.
PiperOrigin-RevId: 456478414
(cherry picked from commit 3a96691654)
In follow-ups the FrameProcessorChain will set an instance of this
listener for each GlTextureProcessor to chain it with its previous
and next GlTextureProcesssor.
PiperOrigin-RevId: 455628942
(cherry picked from commit c92e18ec58)
The wrapper
* catches exceptions for each task and notifies the
listener (this will be used more in follow-ups when processFrame
is split into lots of listeners and callbacks),
* removes finished tasks from the queue and signals any exceptions
that occurred to the listener each time a new task is executed.
PiperOrigin-RevId: 455345184
(cherry picked from commit bf9fa12411)
This change adds a SurfaceProvider interface which is necessary to
allow for texture processors whose output size becomes available
asynchronously in follow-ups.
VTSP's implementation of this interface wraps the encoder and provides
its input surface together with the output frame width, height, and
orientation as used for encoder configuration.
The FrameProcessorChain converts the output frames to the provided
orientation and resolution using a ScaleToFitTransformation and
Presentation replacing EncoderCompatibilityTransformation.
PiperOrigin-RevId: 455112598
(cherry picked from commit d20f684986)
Based on
https://developer.android.com/reference/android/media/MediaCodec#using-an-output-surface,
frame dropping behaviour depends on the target SDK version.
After this change transformer will only use
MediaFormat#KEY_ALLOW_FRAME_DROP if both the target and system SDK
version are at least 29 and default to its pre 29 behaviour where each
decoder output frame must be processed before a new one is rendered
to prevent frame dropping otherwise.
Also remove deprecated Transformer.Builder constructor without a
context and the context setter.
PiperOrigin-RevId: 453971097
(cherry picked from commit 3f718b0d10)
Transformer always enabled glAssertionsEnabled, so there should
be no functional change.
ExoPlayer previously disabled glAssertionsEnabled, so GlUtil logged
GlExceptions instead of throwing them. The GlExceptions are now
caught and logged by the callers so that there should also be no
functional change overall.
This change also replaces EGLSurfaceTexture#GlException with
GlUtil#GlException.
PiperOrigin-RevId: 453963741
(cherry picked from commit dc668f2b59)
This removes the prior restriction of needing to remember not to crop and set aspect ratio in the same Presentation.Builder, and makes each class a bit more targeted.
This is partially made feasible by the past work to merge consecutive
MatrixTransformations into a single MatrixTransformationFrameProcessor, which
ensures that there's no loss in quality between successive MatrixTransformations.
PiperOrigin-RevId: 453660582
(cherry picked from commit b33dc5e57b)
SingleFrameGlTextureProcessor is now an abstract class containing a
default implementation of the more flexible GlTextureProcessor interface
while still exposing the same simple abstract methods for single frame
processing it previously did.
FrameProcessorChain and GlEffect will be changed to use
GlTextureProcessor in follow-ups.
PiperOrigin-RevId: 453633000
(cherry picked from commit 0b37d860d1)
Implementations of this interface will be able to drop or add frames,
change timestamps, accept multiple input frames before producing
output, and process frames on their own background thread.
A default implementation of this interface will be added to SingleFrameGlTextureProcessor in a follow-up.
PiperOrigin-RevId: 453159835
(cherry picked from commit 023d19c8c5)
This internal listener avoids wrapping the TransformationExceptions
in PlaybackExceptions that are handled via the Player.Listener and
is also used for FrameProcessingExceptions which already avoided
the PlaybackException layer previously.
This listener will also be useful in follow-ups for encoder-related
TransformationExceptions that are thrown in the SurfaceProvider that
will be called on the GL thread.
PiperOrigin-RevId: 452074575
(cherry picked from commit 960422e36f)
Once the more advanced GlTextureProcessor interface exists,
it will be possible to change the output size of a GlTextureProcessor
between frames. To keep the re-configuration based on the frame sizes
minimal, things indepedent of the frame size, such as the GlProgram,
can be initialized in the constructor.
PiperOrigin-RevId: 451997584
(cherry picked from commit 54d44d38b6)
ExoPlayer applies a large time offset to buffers so that, if the input has negative timestamps, generally buffers seen by the decoders should have positive timestamps. Modify how the offset is handled in `Transformer` so that decoders and encoders generally see positive timestamps, by leaving the offset on samples when reading them in the base renderer (remove the code that removed the offset), and then removing the offset when muxing. Also update the frame processor chain and slow motion flattening code to retain the existing behavior after this change (these both need original media presentation timestamps)
Tested via existing end-to-end tests and manually verified that the overlay frame processor shows the expected original media timestamps.
Aside: we don't need the same logic as ExoPlayer to track stream offsets across the decoder yet, because we don't try to handle stream changes during playback in single asset editing. (There is an edge case of multi-period DASH that may not work but I doubt anyone will use that as input to `Transformer` before we change the code to handle multi-asset properly.) In future we should try to refactor interaction with the decoder to use the same code for Transformer and ExoPlayer.
PiperOrigin-RevId: 451846055
Most devices won't support 8k decoding, so they'll skip this test entirely.
As the video is quite short, this test shouldn't be any longer than the nearby,
long-running 4k60 test.
PiperOrigin-RevId: 451423368
SSIM calculation requires the input and output dimensions to be identical.
For devices that can't encode the input dimensions, skip SSIM calculations and
log the cause. Only apply this on tests where the encoder may not support the
input file dimensions.
PiperOrigin-RevId: 451364904
Decode-only video frames (needed when the frame at / first frame after the
clipping start is not a key frame) need to be decoded but not passed to
the frame processor chain or encoder.
The clipping start offset needs to be removed from the frame timestamps
in the passthrough and video pipelines.
There are no changes needed for this in the audio pipeline, as it doesn't
use the input timestamps -- it uses its own timestamps derived from the
buffer sizes instead.
Also add demo option to try this out.
#minor-release
PiperOrigin-RevId: 451353609
Also update names of implementations to match design doc.
In follow-ups, SingleFrameGlTextureProcessor will become
an abstract implementation of a new GlTextureProcessor
interface.
Texture processor makes sense as it processes OpenGL textures.
The term frame processor will be used for something else in
follow-ups.
PiperOrigin-RevId: 451142085
There is a problem with the ImageReader formats used by the
SSIM helper that only occurs for Nexus 5 API 21, so as a workaround
we can skip the SSIM calculation on Nexus 5 API 21.
This skips just the SSIM calculation (by setting the value to
1.0 instead and logging). The tests still run when SSIM is skipped
so that we can detect other failures.
PiperOrigin-RevId: 450903183
