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Does anyone know how to decode H.264 video frame in Java environment?

My network camera products support the RTP/RTSP Streaming.

The service standard RTP/RTSP from my network camera is served and it also supports “RTP/RTSP over HTTP”.

RTSP : TCP 554 RTP Start Port: UDP 5000

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5 Answers 5

Or use Xuggler. Works with RTP, RTMP, HTTP or other protocols, and can decode and encode H264 and most other codecs. And is actively maintained, free, and open-source (LGPL).

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3  
It appears Xuggler is no longer actively maintained. blog.xuggle.com –  Christopher Bruns May 30 '13 at 13:28
    
Its generally not a good idea to use an inactive project like Xuggler. I recommend finding something that is actively developed. –  Steven Glick Jan 29 at 15:59

You can use a pure Java library called JCodec ( http://jcodec.org ).
Decoding one H.264 frame is as easy as:

ByteBuffer bb = ... // Your frame data is stored in this buffer
H264Decoder decoder = new H264Decoder();
Picture out = Picture.create(1920, 1088, ColorSpace.YUV_420); // Allocate output frame of max size
Picture real = decoder.decodeFrame(bb, out.getData());
BufferedImage bi = JCodecUtil.toBufferedImage(real); // If you prefere AWT image

If you want to read a from from a container ( like MP4 ) you can use a handy helper class FrameGrab:

int frameNumber = 150;
BufferedImage frame = FrameGrab.getFrame(new File("filename.mp4"), frameNumber);
ImageIO.write(frame, "png", new File("frame_150.png"));

Finally, here's a full sophisticated sample:

private static void avc2png(String in, String out) throws IOException {
    SeekableByteChannel sink = null;
    SeekableByteChannel source = null;
    try {
        source = readableFileChannel(in);
        sink = writableFileChannel(out);

        MP4Demuxer demux = new MP4Demuxer(source);

        H264Decoder decoder = new H264Decoder();

        Transform transform = new Yuv420pToRgb(0, 0);

        MP4DemuxerTrack inTrack = demux.getVideoTrack();

        VideoSampleEntry ine = (VideoSampleEntry) inTrack.getSampleEntries()[0];
        Picture target1 = Picture.create((ine.getWidth() + 15) & ~0xf, (ine.getHeight() + 15) & ~0xf,
                ColorSpace.YUV420);
        Picture rgb = Picture.create(ine.getWidth(), ine.getHeight(), ColorSpace.RGB);
        ByteBuffer _out = ByteBuffer.allocate(ine.getWidth() * ine.getHeight() * 6);
        BufferedImage bi = new BufferedImage(ine.getWidth(), ine.getHeight(), BufferedImage.TYPE_3BYTE_BGR);
        AvcCBox avcC = Box.as(AvcCBox.class, Box.findFirst(ine, LeafBox.class, "avcC"));

        decoder.addSps(avcC.getSpsList());
        decoder.addPps(avcC.getPpsList());

        Packet inFrame;
        int totalFrames = (int) inTrack.getFrameCount();
        for (int i = 0; (inFrame = inTrack.getFrames(1)) != null; i++) {
            ByteBuffer data = inFrame.getData();

            Picture dec = decoder.decodeFrame(splitMOVPacket(data, avcC), target1.getData());
            transform.transform(dec, rgb);
            _out.clear();

            AWTUtil.toBufferedImage(rgb, bi);
            ImageIO.write(bi, "png", new File(format(out, i)));
            if (i % 100 == 0)
                System.out.println((i * 100 / totalFrames) + "%");
        }
    } finally {
        if (sink != null)
            sink.close();
        if (source != null)
            source.close();
    }
}
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Works too slow, one second for every getFrame(), which do the same decoding as you –  Dalvik Oct 30 '13 at 10:50

I just tried JCodec(http://jcodec.org). It is unacceptable slow.

  • Test Environment: CPU: Core i7 Q740 @1.73G, OS: Windows 7 64bit, Java 1.7.0_25 32bit
  • Test video: 1080p MPEG-4 video captured by Galaxy S3 mobile
  • Test Result: average frame extract time: 760ms per frame.
  • Test code:

    FrameGrab grab = new FrameGrab(new FileChannelWrapper(new RandomAccessFile("test.mp4", "r").getChannel()));

    long time = System.currentTimeMillis();

    for (int i = 0; i < 50; i++) { grab.getFrame(); }

    System.out.println("Time Used:" + (System.currentTimeMillis() - time));

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JavaCV which uses FFMpeg to grab frames is much faster! Takes almost 1ms/frame on my laptop. More details here: stackoverflow.com/a/22107132/398316 –  M2X Feb 28 at 22:45

Take a look at the Java Media Framework (JMF) - http://java.sun.com/javase/technologies/desktop/media/jmf/2.1.1/formats.html

I used it a while back and it was a bit immature, but they may have beefed it up since then.

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4  
JMF is abandoned, dead for years. So it would not be a good idea to rely on it for a long-term project. But if this is a one time thing, I agree JMF is a good solution. Although I believe JMF supports H263 only. –  Yuvi Masory Jan 30 '10 at 7:42
1  
Have a look at FMJ which has tried to pick up JMF. fmj-sf.net –  Thorbjørn Ravn Andersen Jan 30 '10 at 8:40
2  
If JMF is dead, what can be used as its replacement? –  daub815 Feb 1 '10 at 17:07
    
It looks like FMJ is also inactive. –  Steven Glick Jan 29 at 16:06

I think the best solution is using "JNI + ffmpeg". In my current project, I need to play several full screen videos at the same time in a java openGL game based on libgdx. I have tried almost all the free libs but none of them has acceptable performance. So finally I decided to write my own jni C codes to work with ffmpeg. Here is the final performance on my laptop:

  • Environment: CPU: Core i7 Q740 @1.73G, Video: nVidia GeForce GT 435M, OS: Windows 7 64bit, Java: Java7u60 64bit
  • Video: h264rgb / h264 encoded, no sound, resolution: 1366 * 768
  • Solution: Decode: JNI + ffmpeg v2.2.2, Upload to GPU: update openGL texture using lwjgl
  • Performance: Decoding speed: 700-800FPS, Texture Uploading: about 1ms per frame.

I only spent several days to complete the first version. But the first version's decoding speed was only about 120FPS, and uploading time was about 5ms per frame. After several months' optimization, I got this final performance and some additional features. Now I can play several HD videos at the same time without any slowness.

Most videos in my game have transparent background. This kind of transparent video is a mp4 file with 2 video streams, one stream stores h264rgb encoded rgb data, the other stream stores h264 encoded alpha data. So to play an alpha video, I need to decode 2 video streams and merge them together and then upload to GPU. As a result, I can play several transparent HD videos above an opaque HD video at the same time in my game.

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