[libcamera-devel] [RFC PATCH 2/2] android: jpeg: Add a basic NV12 image thumbnailer

[Hirokazu Honda]

Hi, Laurent.

On Tue, Oct 27, 2020 at 10:04 AM Laurent Pinchart
<laurent.pinchart at ideasonboard.com> wrote:
>
> Hi Hiro-san,
>
> On Mon, Oct 26, 2020 at 04:29:20PM +0900, Hirokazu Honda wrote:
> > On Fri, Oct 23, 2020 at 5:39 PM Kieran Bingham wrote:
> > > On 23/10/2020 04:59, Laurent Pinchart wrote:
> > > > On Fri, Oct 23, 2020 at 09:37:09AM +0900, Hirokazu Honda wrote:
> > > >> On Thu, Oct 22, 2020 at 11:00 PM Laurent Pinchart wrote:
> > > >>> On Thu, Oct 22, 2020 at 08:42:01PM +0900, Hirokazu Honda wrote:
> > > >>>> Hi Umang,
> > > >>>> Thanks for the work. I couldn't have time to review these today and
> > > >>>> will review tomorrow.
> > > >>>> In my understanding, the thumbnail class is basically to scale frames
> > > >>>> to the given destination.
> > > >>>> Can we generalize it as PostProcessor interface so that we will be
> > > >>>> able to make use of it for down-scaling regardless of whether jpeg
> > > >>>> encoding is required.
> > > >>>> It will be necessary when Android HAL adaptation layer has to output
> > > >>>> multiple different NV12 streams while the native camera can produce a
> > > >>>> single NV12 stream simultaneously.
> > > >>>
> > > >>> One point to consider is that the thumbnailer is a down-scaler using a
> > > >>> nearest-neighbour algorithm. It's good enough for thumbnails, but will
> > > >>> lead to awful quality when scaling streams. For that, I think we need a
> > > >>> better scaler implementation, and we could then replace the thumbnailer
> > > >>> class with it.
> > > >>
> > > >> We can select nearest-neighbor and bilinear algorithms in
> > > >> libyuv::NV12Scale with the filtering mode argument[1].
> > > >> We may want to specify the scale algorithm on a class construction.
> > > >> I would use libyuv here for better performance and less buggy (+ less
> > > >> lines to be reviewed).
> > > >> What do you'all think?
> > > >
> > > > We have considered libyuv early on, and I think it's an interesting
> > > > option moving forward. The reason we have decided to go for a minimal
> > > > scaler implementation to create JPEG thumbnails is to avoid adding an
> > > > external dependency that isn't packaged by distributions. This allows us
> > > > to finalize JPEG thumbnail support without delay, and decide on the
> > > > longer term solution separately.
> > > >
> > > > It would be very nice if Google could work with distributions to package
> > > > libyuv. I'd like to avoid including a copy of libyuv in libcamera.
> > >
> > > Lack of packaging is a big factor here. If it's not available we can't
> > > use it ;-)
> >
> > Thanks. That is fair enough.
> >
> > > However I looked into this briefly yesterday, - we could use a meson
> > > wrap. But I don't know how that will affect us distributing packages, as
> > > then we also have to distribute libyuv.
> > >
> > > Or perhaps the meson wrap would link statically.
> >
> > Can we download libyuv somewhere in libcamera, e.g. //third_party,
> > during meson config if it is necessary?
> > The code under //third_party is ignored by .gitignore, i.e., is not a
> > part of libcamera tree.
> > We may want to maintain a commit hash to be checked out in the libcamera tree.
>
> As Kieran mentioned, we could use a meson wrap, and link statically to
> libyuv. If we rely on a particular commit of libyuv then I think we
> could as well copy the source code in the libcamera repository, to avoid
> depending on an internet connection at meson config time. I'm however
> not sure what issues we would encounter on the way. libyuv is integrated
> with the Chromium code base, but looking, for instance, at the buildroot
> package, it seems fairly easy to compile it standalone. We may need to
> add support for the meson build system though.
>
> As a conclusion, I think we'll need to figure out how we can use libyuv,
> but not as a prerequisite for the JPEG thumbnail work. The best option
> would be if Google maintained libyuv as a standalone library and worked
> on getting it packaged in distributions :-)
>

I understood. I am ok in this way now to not block this work.
Sorry Uman for flooding in the thread.
I will take a look the code today.

Best Regards,
-Hiro
> > > > One last comment to provide all the design background. We have also
> > > > considered creating a format conversion library in libcamera, to gather
> > > > code from various projects that exist out there. There's format
> > > > conversion in libv4l2, in raw2rgbpnm, in projects such as ffmpeg, and of
> > > > course in libyuv. I would be great if that could be consolidated and
> > > > packaged, but that's a big task in itself.
> > >
> > > And that's the bigger picture. This should be consolidated. And that
> > > consolidated library should support more than yuv ;-)
> > >
> > > Given it would be a software format convertor, and scaler, and ideally
> > > with hardware acceleration support where possible, I think that quickly
> > > becomes libisp - and the feature creep will ... creep in ;-)
> > >
> > > >> [1] https://chromium.googlesource.com/libyuv/libyuv/+/refs/heads/master/include/libyuv/scale.h#148
> > > >>
> > > >>>> On Wed, Oct 21, 2020 at 8:09 PM Kieran Bingham wrote:
> > > >>>>> On 21/10/2020 12:03, Umang Jain wrote:
> > > >>>>>> On 10/21/20 4:25 PM, Kieran Bingham wrote:
> > > >>>>>>> On 21/10/2020 11:51, Umang Jain wrote:
> > > >>>>>>>> On 10/21/20 2:49 PM, Kieran Bingham wrote:
> > > >>>>>>>>> On 21/10/2020 09:08, Umang Jain wrote:
> > > >>>>>>>>>> Add a basic image thumbnailer for NV12 frames being captured.
> > > >>>>>>>>>> It shall generate a thumbnail image to be embedded as a part of
> > > >>>>>>>>>> EXIF metadata of the frame. The output of the thumbnail will still
> > > >>>>>>>>>> be NV12.
> > > >>>>>>>>>>
> > > >>>>>>>>>> Signed-off-by: Umang Jain <email at uajain.com>
> > > >>>>>>>>>> ---
> > > >>>>>>>>>>    src/android/jpeg/post_processor_jpeg.cpp |  39 +++++++++
> > > >>>>>>>>>>    src/android/jpeg/post_processor_jpeg.h   |   3 +
> > > >>>>>>>>>>    src/android/jpeg/thumbnailer.cpp         | 100 +++++++++++++++++++++++
> > > >>>>>>>>>>    src/android/jpeg/thumbnailer.h           |  40 +++++++++
> > > >>>>>>>>>>    src/android/meson.build                  |   1 +
> > > >>>>>>>>>>    5 files changed, 183 insertions(+)
> > > >>>>>>>>>>    create mode 100644 src/android/jpeg/thumbnailer.cpp
> > > >>>>>>>>>>    create mode 100644 src/android/jpeg/thumbnailer.h
> > > >>>>>>>>>>
> > > >>>>>>>>>> diff --git a/src/android/jpeg/post_processor_jpeg.cpp
> > > >>>>>>>>>> b/src/android/jpeg/post_processor_jpeg.cpp
> > > >>>>>>>>>> index 9d452b7..f5f1f78 100644
> > > >>>>>>>>>> --- a/src/android/jpeg/post_processor_jpeg.cpp
> > > >>>>>>>>>> +++ b/src/android/jpeg/post_processor_jpeg.cpp
> > > >>>>>>>>>> @@ -11,6 +11,7 @@
> > > >>>>>>>>>>    #include "../camera_metadata.h"
> > > >>>>>>>>>>    #include "encoder_libjpeg.h"
> > > >>>>>>>>>>    #include "exif.h"
> > > >>>>>>>>>> +#include "thumbnailer.h"
> > > >>>>>>>>>>      #include <libcamera/formats.h>
> > > >>>>>>>>>>    @@ -44,6 +45,32 @@ int PostProcessorJpeg::configure(const StreamConfiguration &inCfg,
> > > >>>>>>>>>>        return encoder_->configure(inCfg);
> > > >>>>>>>>>>    }
> > > >>>>>>>>>>    +void PostProcessorJpeg::generateThumbnail(const libcamera::Span<uint8_t> &source,
> > > >>>>>>>>>> +                      std::vector<unsigned char> &thumbnail)
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +    libcamera::Span<uint8_t> destination;
> > > >>>>>>>>>> +    Thumbnailer thumbnailer;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    thumbnailer.configure(streamSize_, formats::NV12);
> > > >>>>>>>>>> +    libcamera::Size targetSize = thumbnailer.computeThumbnailSize();
> > > >>>>>>>>>> +    thumbnailer.scaleBuffer(source, thumbnail);
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    if (thumbnail.data()) {
> > > >>>>>>>>>> +        StreamConfiguration thumbnailCfg;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +        std::unique_ptr<EncoderLibJpeg> encoder =
> > > >>>>>>>>>> +                std::make_unique<EncoderLibJpeg>();
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +        thumbnailCfg.pixelFormat = formats::NV12;
> > > >>>>>>>>>> +        thumbnailCfg.size = targetSize;
> > > >>>>>>>>>> +        encoder->configure(thumbnailCfg);
> > > >>>>>>>>>
> > > >>>>>>>>> thumbnail.capacity() might be quite low here.
> > > >>>>>>>>> We need to make sure the vector is big enough at this point, you might
> > > >>>>>>>>> need to do something like:
> > > >>>>>>>>>
> > > >>>>>>>>>      thumbnail.resize(targetSize.width * targetSize.height * 4);
> > > >>>>>>>>
> > > >>>>>>>> I am not sure I follow. This is compressing the thumbnail part right? So
> > > >>>>>>>> thumbnail is the "source" for the encoder here (Please refer to
> > > >>>>>>>> ->encode() below) and why would we resize the source(i.e. 'thumbnail')?
> > > >>>>>>>
> > > >>>>>>> Ugh, sorry - tired eyes indeed. Yes, please ignore those comments.
> > > >>>>>>>
> > > >>>>>>>>> Really we should obtain that size from the encoder. I thought we had a
> > > >>>>>>>>> helper to do that already, but it seems we don't.
> > > >>>>>>>>> We could/should add Encoder::maxOutput(); which would ask the encoder
> > > >>>>>>>>> "For your given configuration, what is the maximum number of bytes you
> > > >>>>>>>>> might output".
> > > >>>>>>>>>
> > > >>>>>>>>> Then of course we'd do:
> > > >>>>>>>>>      thumbnail.resize(encoder.maxOutput());
> > > >>>>>>>>>
> > > >>>>>>>>>
> > > >>>>>>>>>> +        int jpeg_size = encoder->encode({ thumbnail.data(), thumbnail.capacity() },
> > > >>>>>>>>>> +                destination, { });
> > > >>>>>>>>
> > > >>>>>>>> As said above, thumbnail is the source here. The compressed thumbnail
> > > >>>>>>>> output is carried in destination. And, destination is a local span<>
> > > >>>>>>>> here. Does it makes sense?
> > > >>>>>>>
> > > >>>>>>> Yes, I had mixed up source and destination I'm sorry.
> > > >>>>>>>
> > > >>>>>>> So who/where is allocating the destination?
> > > >>>>>>
> > > >>>>>> Ah, that's a good question and I think I just found a bug. I currently
> > > >>>>>> pass on a locally allocated Span<> 'destination' to the encoder. But
> > > >>>>>> there is no explicit allocation here. I think I need to point / create
> > > >>>>>> the Span with the output size / bytes and then pass to the encode().
> > > >>>>>
> > > >>>>> :-) Ok - then please apply all of my earlier comments to that part
> > > >>>>> instead. ;-)
> > > >>>>>
> > > >>>>> We certainly need somewhere to store the compressed image, to be able to
> > > >>>>> pass it into the exif  :-D
> > > >>>>>
> > > >>>>>>>>>> +        LOG(JPEG, Info) << "Thumbnail compress returned "
> > > >>>>>>>>>> +                << jpeg_size << " bytes";
> > > >>>>>>>>>
> > > >>>>>>>>> And I presume we could then do an:
> > > >>>>>>>>>          thumbnail.resize(jpeg_size);
> > > >>>>>>>>>
> > > >>>>>>>>> here to update the thumbnail with the correct size. I'd be weary of the
> > > >>>>>>>>> resize operations doing lots of re-allocations though, so perhaps we
> > > >>>>>>>>> want to minimize that. But lets get to something that works first
> > > >>>>>>>>> before worrying about optimising.
> > > >>>>>>>>>
> > > >>>>>>>>>> +    }
> > > >>>>>>>>>> +}
> > > >>>>>>>>>> +
> > > >>>>>>>>>>    int PostProcessorJpeg::process(const libcamera::FrameBuffer *source,
> > > >>>>>>>>>>                       const libcamera::Span<uint8_t> &destination,
> > > >>>>>>>>>>                       CameraMetadata *metadata)
> > > >>>>>>>>>> @@ -73,6 +100,18 @@ int PostProcessorJpeg::process(const
> > > >>>>>>>>>> libcamera::FrameBuffer *source,
> > > >>>>>>>>>>            return jpeg_size;
> > > >>>>>>>>>>        }
> > > >>>>>>>>>>    +    std::vector<unsigned char> thumbnail;
> > > >>>>>>>>>
> > > >>>>>>>>> You need to resize this somewhere.
> > > >>>>>>>>> Edit: Now seen a better place above ;-)
> > > >>>>>>>>
> > > >>>>>>>> The thumbnail vector just gets resized in Thumbnailer::scaleBuffer(). :)
> > > >>>>>>>> We just pass in to the thumbnailer, while keeping its ownership in
> > > >>>>>>>> PostProcessorJpeg.
> > > >>>>>>>>
> > > >>>>>>>>>> +    generateThumbnail(destination, thumbnail);
> > > >>>>>>>>>> +    /*
> > > >>>>>>>>>> +     * \todo: Write the compressed thumbnail to a file for inspection.
> > > >>>>>>>>>> +     * (I) Check if we can still write the thumbnail to EXIF here.
> > > >>>>>>>>>> +     *     If not, we might need to move the thumbnailer logic to encoder.
> > > >>>>>>>>>> +     *     And if we do that, first we need to make sure we get can
> > > >>>>>>>>>> +     *     compressed data written to destination first before calling
> > > >>>>>>>>>> +     *     jpeg_finish_compress operation somehow. Thumbnailing will
> > > >>>>>>>>>> +     *     only occur if we have compressed data available first.
> > > >>>>>>>>>> +     */
> > > >>>>>>>>>> +
> > > >>>>>>>>>>        /*
> > > >>>>>>>>>>         * Fill in the JPEG blob header.
> > > >>>>>>>>>>         *
> > > >>>>>>>>>> diff --git a/src/android/jpeg/post_processor_jpeg.h
> > > >>>>>>>>>> b/src/android/jpeg/post_processor_jpeg.h
> > > >>>>>>>>>> index 62c8650..05601ee 100644
> > > >>>>>>>>>> --- a/src/android/jpeg/post_processor_jpeg.h
> > > >>>>>>>>>> +++ b/src/android/jpeg/post_processor_jpeg.h
> > > >>>>>>>>>> @@ -28,6 +28,9 @@ public:
> > > >>>>>>>>>>                CameraMetadata *metadata) override;
> > > >>>>>>>>>>      private:
> > > >>>>>>>>>> +    void generateThumbnail(const libcamera::Span<uint8_t> &source,
> > > >>>>>>>>>> +                   std::vector<unsigned char> &thumbnail);
> > > >>>>>>>>>> +
> > > >>>>>>>>>>        CameraDevice *cameraDevice_;
> > > >>>>>>>>>>        std::unique_ptr<Encoder> encoder_;
> > > >>>>>>>>>>        libcamera::Size streamSize_;
> > > >>>>>>>>>> diff --git a/src/android/jpeg/thumbnailer.cpp
> > > >>>>>>>>>> b/src/android/jpeg/thumbnailer.cpp
> > > >>>>>>>>>> new file mode 100644
> > > >>>>>>>>>> index 0000000..3163576
> > > >>>>>>>>>> --- /dev/null
> > > >>>>>>>>>> +++ b/src/android/jpeg/thumbnailer.cpp
> > > >>>>>>>>>> @@ -0,0 +1,100 @@
> > > >>>>>>>>>> +/* SPDX-License-Identifier: GPL-2.0-or-later */
> > > >>>>>>>>>> +/*
> > > >>>>>>>>>> + * Copyright (C) 2020, Google Inc.
> > > >>>>>>>>>> + *
> > > >>>>>>>>>> + * thumbnailer.cpp - Basic image thumbnailer from NV12
> > > >>>>>>>>>> + */
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#include "thumbnailer.h"
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#include <libcamera/formats.h>
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#include "libcamera/internal/file.h"
> > > >>>>>>>>>> +#include "libcamera/internal/log.h"
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +using namespace libcamera;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +LOG_DEFINE_CATEGORY(Thumbnailer)
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +Thumbnailer::Thumbnailer()
> > > >>>>>>>>>> +    : validConfiguration_(false)
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +}
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +void Thumbnailer::configure(const Size &sourceSize, PixelFormat pixelFormat)
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +    sourceSize_ = sourceSize;
> > > >>>>>>>>>> +    pixelFormat_ = pixelFormat;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    if (pixelFormat_ != formats::NV12) {
> > > >>>>>>>>>> +        LOG (Thumbnailer, Error) << "Failed to configure: Pixel Format "
> > > >>>>>>>>>> +                    << pixelFormat_.toString() << " unsupported.";
> > > >>>>>>>>>> +        return;
> > > >>>>>>>>>> +    }
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    validConfiguration_ = true;
> > > >>>>>>>>>> +}
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +/*
> > > >>>>>>>>>> + * The Exif specification recommends the width of the thumbnail to be a
> > > >>>>>>>>>> + * mutiple of 16 (section 4.8.1). Hence, compute the corresponding height
> > > >>>>>>>>>> + * keeping the aspect ratio same as of the source.
> > > >>>>>>>>>> + */
> > > >>>>>>>>>> +Size Thumbnailer::computeThumbnailSize()
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +    unsigned int targetHeight;
> > > >>>>>>>>>> +    unsigned int targetWidth = 160;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    targetHeight = targetWidth * sourceSize_.height / sourceSize_.width;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    if (targetHeight & 1)
> > > >>>>>>>>>> +        targetHeight++;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    return Size(targetWidth, targetHeight);
> > > >>>>>>>>>> +}
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +void
> > > >>>>>>>>>> +Thumbnailer::scaleBuffer(const libcamera::Span<uint8_t> &source,
> > > >>>>>>>>>> +             std::vector<unsigned char> &destination)
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +    if (!validConfiguration_) {
> > > >>>>>>>>>> +        LOG(Thumbnailer, Error) << "config is unconfigured or invalid.";
> > > >>>>>>>>>> +        return;
> > > >>>>>>>>>> +    }
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    targetSize_ = computeThumbnailSize();
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    const unsigned int sw = sourceSize_.width;
> > > >>>>>>>>>> +    const unsigned int sh = sourceSize_.height;
> > > >>>>>>>>>> +    const unsigned int tw = targetSize_.width;
> > > >>>>>>>>>> +    const unsigned int th = targetSize_.height;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    /* Image scaling block implementing nearest-neighbour algorithm. */
> > > >>>>>>>>>> +    unsigned char *src = static_cast<unsigned char *>(source.data());
> > > >>>>>>>>>> +    unsigned char *src_c = src + sh * sw;
> > > >>>>>>>>>> +    unsigned char *src_cb, *src_cr;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    size_t dstSize = (th * tw) + ((th/2) * tw);
> > > >>>>>>>>>> +    destination.reserve(dstSize);
> > > >>>>>>>>>> +    unsigned char *dst = destination.data();
> > > >>>>>>>>>> +    unsigned char *dst_c = dst + th * tw;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    for (unsigned int y = 0; y < th; y+=2) {
> > > >>>>>>>>>> +        unsigned int sourceY = (sh*y + th/2) / th;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +        src_cb = src_c + (sourceY/2) * sw + 0;
> > > >>>>>>>>>> +        src_cr = src_c + (sourceY/2) * sw + 1;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +        for (unsigned int x = 0; x < tw; x+=2) {
> > > >>>>>>>>>> +            unsigned int sourceX = (sw*x + tw/2) / tw;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +            dst[y     * tw + x]     = src[sw * sourceY     + sourceX];
> > > >>>>>>>>>> +            dst[(y+1) * tw + x]     = src[sw * (sourceY+1) + sourceX];
> > > >>>>>>>>>> +            dst[y     * tw + (x+1)] = src[sw * sourceY     + (sourceX+1)];
> > > >>>>>>>>>> +            dst[(y+1) * tw + (x+1)] = src[sw * (sourceY+1) + (sourceX+1)];
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +            dst_c[(y/2) * tw + x + 0] = src_cb[(sourceX/2) * 2];
> > > >>>>>>>>>> +            dst_c[(y/2) * tw + x + 1] = src_cr[(sourceX/2) * 2];
> > > >>>>>>>>>> +        }
> > > >>>>>>>>>> +    }
> > > >>>>>>>>>> +}
> > > >>>>>>>>>> diff --git a/src/android/jpeg/thumbnailer.h
> > > >>>>>>>>>> b/src/android/jpeg/thumbnailer.h
> > > >>>>>>>>>> new file mode 100644
> > > >>>>>>>>>> index 0000000..bab9855
> > > >>>>>>>>>> --- /dev/null
> > > >>>>>>>>>> +++ b/src/android/jpeg/thumbnailer.h
> > > >>>>>>>>>> @@ -0,0 +1,40 @@
> > > >>>>>>>>>> +/* SPDX-License-Identifier: GPL-2.0-or-later */
> > > >>>>>>>>>> +/*
> > > >>>>>>>>>> + * Copyright (C) 2020, Google Inc.
> > > >>>>>>>>>> + *
> > > >>>>>>>>>> + * thumbnailer.h - Basic image thumbnailer from NV12
> > > >>>>>>>>>> + */
> > > >>>>>>>>>> +#ifndef __ANDROID_JPEG_THUMBNAILER_H__
> > > >>>>>>>>>> +#define __ANDROID_JPEG_THUMBNAILER_H__
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#include <libcamera/geometry.h>
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#include "libcamera/internal/buffer.h"
> > > >>>>>>>>>> +#include "libcamera/internal/formats.h"
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +class Thumbnailer
> > > >>>>>>>>>> +{
> > > >>>>>>>>>> +public:
> > > >>>>>>>>>> +    Thumbnailer();
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    void configure(const libcamera::Size &sourceSize,
> > > >>>>>>>>>> +               libcamera::PixelFormat pixelFormat);
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    /*
> > > >>>>>>>>>> +     * \todo: Discuss if we can return targetSize_ via configure() or
> > > >>>>>>>>>> +     * scaleBuffer(). We need targetSize_ to re-encode the scaled
> > > >>>>>>>>>> buffer
> > > >>>>>>>>>> +     * via encoder in PostProcssorJpeg::writeThumbnail().
> > > >>>>>>>>>> +     */
> > > >>>>>>>>>> +    libcamera::Size computeThumbnailSize();
> > > >>>>>>>>>> +    void scaleBuffer(const libcamera::Span<uint8_t> &source,
> > > >>>>>>>>>> +             std::vector<unsigned char> &dest);
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +private:
> > > >>>>>>>>>> +    libcamera::PixelFormat pixelFormat_;
> > > >>>>>>>>>> +    libcamera::Size sourceSize_;
> > > >>>>>>>>>> +    libcamera::Size targetSize_;
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +    bool validConfiguration_;
> > > >>>>>>>>>> +};
> > > >>>>>>>>>> +
> > > >>>>>>>>>> +#endif /* __ANDROID_JPEG_THUMBNAILER_H__ */
> > > >>>>>>>>>> diff --git a/src/android/meson.build b/src/android/meson.build
> > > >>>>>>>>>> index 5a01bea..3905e2f 100644
> > > >>>>>>>>>> --- a/src/android/meson.build
> > > >>>>>>>>>> +++ b/src/android/meson.build
> > > >>>>>>>>>> @@ -25,6 +25,7 @@ android_hal_sources = files([
> > > >>>>>>>>>>        'jpeg/encoder_libjpeg.cpp',
> > > >>>>>>>>>>        'jpeg/exif.cpp',
> > > >>>>>>>>>>        'jpeg/post_processor_jpeg.cpp',
> > > >>>>>>>>>> +    'jpeg/thumbnailer.cpp',
> > > >>>>>>>>>>    ])
> > > >>>>>>>>>>      android_camera_metadata_sources = files([
> > > >>>>>>>>>>
>
> --
> Regards,
>
> Laurent Pinchart