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
When using a MatrixTransformationFrameProcessor per transformation
matrix, each frame processor's shader applies the matrix to the
vertices and clips the result to the NDC range when drawing the
output frame.
This change combines consecutive MatrixTransformations into a single
MatrixTransformationFrameProcessor by multiplying the individual
matrices while updating and clipping the visible polygon after
each matrix and mapping the resulting visible polygon back to the
input space so that its vertices and the combined transformation
matrix can be used in the shader.
PiperOrigin-RevId: 448521068
This listener replaces
FrameProcessorChain#getAndRethrowBackgroundExceptions.
The listener uses a new exception type FrameProcessingException
separate from TransformationException as the frame processing
components will be made reusable outside of transformer soon.
PiperOrigin-RevId: 447455746
ScaleToFitFrameProcessor, PresentationFrameProcessor,
and EncoderCompatibilityFrameProcessor now each implement
MatrixTransformation instead of wrapping
MatrixTransformationFrameProcessor.
PiperOrigin-RevId: 446480286
This change splits AdvancedFrameProcessor into 4 files:
- MatrixTransformationFrameProcessor for the GlFrameProcessor
implementation
- MatrixTransformation and GlMatrixTransformation for the GlEffect
specification
- MatrixUtils for the static matrix helpers
PiperOrigin-RevId: 446236384
To ensure frame processor operations operate on square pixels,
make the frame taller or wider for non-square input pixels.
In addition to automated tests, this was tested by changing the
inputFormat.pixelWidthHeightRatio in the TransformerVideoRenderer.
PiperOrigin-RevId: 444553517
This allows the actual bitmap to be saved, even if output
dimensions are different than expected. Otherwise, differing
output dimensions would throw an exception, preventing the bitmap
from being saved.
PiperOrigin-RevId: 444512210
This test should run on all devices from API 21 (the media uses Baseline
profile level 3.0 H.264) to give us coverage of the full pipeline (forcing
re-encoding) and SSIM calculation on all devices.
PiperOrigin-RevId: 443650002
Some devices under report their resolution support, like 2144 for 2160 in
H265, 1072 for 1080 in H264. This CL only takes care of these two cases,
- reporting 1920x1080 is supported when the device reports 1920x1072, and
- reporting 3840x2160 is supported when the device reports 3840x2144
PiperOrigin-RevId: 443095042
* Group what's now many related test PNGs by moving them to their own directory.
* Move bitmap references to files where they're used, as each bitmap is only
used once each, except the original bitmap.
PiperOrigin-RevId: 441485489
What a minimal implementation should include is now explained in the
interface javadoc while the method name reflects what the method does.
PiperOrigin-RevId: 441432059
The stream with the mp3 track is added because
- We only encode to AAC
- We only encode when the source track is not AAC
Now that we have a way to force encoding, we no longer need the mp3 track.
The test asset is kept for later parameterized testing.
PiperOrigin-RevId: 440876080
The MIME type was set to H265 to force transcoding. Now that we have an encoder
factory that forces encoding, switching back to H264 ensures the quality test
is conducted on more devices (those don't support H265 can be tested now).
However, H265 should be part of the quality test after we have proper mechanism
to skip test based on device capability.
PiperOrigin-RevId: 440132471
We don't currently have enough understanding of the correlation between a
specific SSIM score and video quality. Dropping to .90 to make most tests pass.
Especially when there's no discernible difference from the videos with .9 and
.95 SSIM.
PiperOrigin-RevId: 440047551
The encoder surface is no longer needed for the OpenGL setup and frame
processor initialization, as a placeholder surface is used instead. So
all of the setup can now be done in the factory method.
PiperOrigin-RevId: 438844450
This requires an additional nanos to micros conversion because
the SurfaceTexture uses nanos. But as the timestamps from the
MediaCodec decoder (propagated in DefaultCodec#releaseOutputBuffer) are
in microseconds no precision is lost here.
Also add test that checks output video duration.
PiperOrigin-RevId: 438010490
MAXIMUM_AVERAGE_PIXEL_ABSOLUTE_DIFFERENCE was copied from a test
class, but BitmapTestUtil isn't a test. So the javadoc needs
rewording to reflect that.
PiperOrigin-RevId: 438001833
* The AdvancedFrameProcessor calls use() in updateProgramAndDraw().
* The AdvancedFrameProcessor has the same input and output dimensions.
PiperOrigin-RevId: 437231350
Configuring the frame sizes between frame processors is now the
FrameProcessorChain's rather than the caller's responsibility.
The caller can getOutputSize() and override it for encoder fallback
in configure().
PiperOrigin-RevId: 437048436
The factory method is replaced by a public constructor and
configure() method which configures the input/output surfaces
and handles the OpenGL setup.
This is a prerequisite for removing the responsibility of the
caller to configureSizes() before creating the chain in a follow-up.
PiperOrigin-RevId: 437028882
This allows us to bypass many device-specific issues, that only occur when
decoding directly to an encoder surface, without OpenGL. This also allows us
to maintain fewer code branches, which require additional testing to verify
correctness.
PiperOrigin-RevId: 437003138
Allow apps to modify how frames are presented, via modifying resolution.
A follow-up CL will provide aspect ratio, cropping, etc.
PiperOrigin-RevId: 436963312
SEF is similar to frame editing, where the input and output videos are
not intended to match, so SSIM will not provide a reliable value. To
check SSIM correctly in future, we would need to provide
golden/expected video files to compare output against.
PiperOrigin-RevId: 436707240
The FrameProcessorChain manages a List<GlFrameProcessor>.
FrameProcessorChainDataProcessingTest now tests chaining ScaleToFit-
and AdvancedFrameProcessors.
PiperOrigin-RevId: 436468037
This currently causes the test to fail on Pixel 6 Pro running a recent S build
SQ1D.220205.004.
There is no need to test audio transcoding while we are measuring video
quality.
PiperOrigin-RevId: 435635314
ExternalCopyFrameProcessor's output dimensions match the input
size not the output size. So the intermediate texture size
should match the input size.
Also rename configureOutputDimensions to configureOutputSize.
PiperOrigin-RevId: 435058789
Use android.util.Size, whose naming is much easier to understand than Pair<Integer, Integer>, in both FrameProcessor and EncoderUtil.
PiperOrigin-RevId: 434813986
* Move auto-adjustments for transformation matrices from the
VideoTranscodingSamplePipeline constructor to the new
ScaleToFitFrameProcessor.
* Add GlFrameProcessor#getOutputDimensions() to allow for GlFrameProcessors with
different input and output dimensions. This is a prerequisite for
Presentation.
* Tested with unit tests (and manually just in case).
* A follow up CL will implement change the FrameProcessor input to be scale and
rotate values as requested by the user. This was kept out of this CL to
reduce CL review size. Presentation will also be implemented in a follow up
CL.
PiperOrigin-RevId: 434774854
If an OpenGL call blocks because the encoder's input surface is full,
this will now block the background thread while the main thread can
continue querying encoder output and free up encoder capacity until
it accepts more input unblocking the background thread.
PiperOrigin-RevId: 433283287
This will allow for easier customisation of the additional tasks
performed by the test runner, such as calculating metrics like SSIM.
PiperOrigin-RevId: 432434850
This test tests the same cases as the FrameEditorDataProcessingTest
as currently the main FrameEditor functionality is to apply a
transformation matrix using a TransformationFrameProcessor.
PiperOrigin-RevId: 431642066
We use SSIM to measure the transcoding quality between. SSIM is a widely used
tool that compares the luma channel between two images, and generates a score
from 0 to 1 that indicates "how similar" the two images are.
In `SsimHelper`, we decode the two videos, extract matching frames and
calculates the mean SSIM (SSIM averaged all matching frames) for both videos.
Matching frames are referred to as "comparisonFrame" in the CL, which is
selected based on the frame number and a user-set comparison interval.
For instance, if the interval is 7, then every seventh frames are compared.
We use MediaCodec/MediaExtractor to decode the video, and use ImageReader to
extract the decoded frame.
The SSIM calculation logic is a inspired by and modified from the CTS
[MSSIMMatcher](https://cs.android.com/android/platform/superproject/+/master:cts/tests/tests/uirendering/src/android/uirendering/cts/bitmapcomparers/MSSIMComparer.java;l=1?q=mssimcom)
that has some errors and extra features we don't need (like handling RGB
images).
Adds TranscodeQualityTest to ensure high quality transcoding.
PiperOrigin-RevId: 430951206
All (later customizable) GlFrameProcessors after the
ExternalCopyFrameProcessor receive their input from a normal OpenGL
texture not an external texture, so they won't need to worry about
the textureTransformMatrix.
PiperOrigin-RevId: 430165652
