I am developing an App where I decode a video and replace certain frames and re-encode using MediaMuxer and MediaCodec. The App works if I do not replace any frames (except for 1080p videos as I explain below), but when I do, the frames after the replaced ones are pixelated and the video is choppy.

Also, when I try my app with 1920x1080 videos, I get a strange output, where the video is not showing anything, until I scroll to the beginning of the video, then the video starts showing up (but with the same problem mentioned before of pixalation after the edit.

Here is how I configure my encoder:

Video_format.setInteger(MediaFormat.KEY_I_FRAME_INTERVAL, interval);
Video_format.setInteger(MediaFormat.KEY_BIT_RATE, bitRate);
Video_format.setInteger(MediaFormat.KEY_FRAME_RATE, frameRate);
Video_format.setInteger(MediaFormat.KEY_MAX_INPUT_SIZE, 0);
int color_format=MediaCodecInfo.CodecCapabilities.COLOR_FormatYUV420SemiPlanar;
Video_format.setInteger(MediaFormat.KEY_COLOR_FORMAT, color_format);

encoder.configure(Video_format, null, null, MediaCodec.CONFIGURE_FLAG_ENCODE);

So to sum up, I have two problems:

1- Pixelated frames and choppy video after modified frames.

2- Corrupted 1920x1080 videos unless I scroll to the beginning.

Edit

Here is a sample 1080p video unedited, which gives a green screen when I play on VLC and plays incorrectly on the phone unless I scroll to start and now strangely working normally on YouTube, except for a green frame at the start

Here is a sample 720p video edited with also a green frame at the start and clear pixelation and lag after the edit

Here is the code I use to decode an re-encode:

do{
  Bitmap b1;

  if(edited_frames.containsKey(extractor.getSampleTime()))
    b1=BitmapFactory.decodeFile(edited_frames.get(extractor.getSampleTime()));
  else
    b1=decode(extractor.getSampleTime(),Preview_width,Preview_Height);

  if(b1==null) continue;

  Bitmap b_scal=Bitmap.createScaledBitmap(b1, Preview_width, Preview_Height, false);
  if(b_scal==null) continue;
  encode(b_scal, encoder, muxer, videoTrackIndex);
  lastTime=extractor.getSampleTime();
}while(extractor.advance());

The decode method:

private Bitmap decode(final long time,final int width,final int height){
  MediaFormat newFormat = codec.getOutputFormat();
  Bitmap b = null;
  final int TIMEOUT_USEC = 10000;
  ByteBuffer[] decoderInputBuffers = codec.getInputBuffers();
  MediaCodec.BufferInfo info = new MediaCodec.BufferInfo();

  boolean outputDone = false;
  boolean inputDone = false;
  while (!outputDone) {
    if (!inputDone) {
      int inputBufIndex = codec.dequeueInputBuffer(TIMEOUT_USEC);
      if (inputBufIndex >= 0) {
        ByteBuffer inputBuf = decoderInputBuffers[inputBufIndex];

        int chunkSize = extractor.readSampleData(inputBuf, 0);
        if (chunkSize < 0) {
          codec.queueInputBuffer(inputBufIndex, 0, 0, 0L, MediaCodec.BUFFER_FLAG_END_OF_STREAM);
          inputDone = true;
        } else {
          long presentationTimeUs = extractor.getSampleTime();
          codec.queueInputBuffer(inputBufIndex, 0, chunkSize, presentationTimeUs, 0 );
        }
        inputBuf.clear();
        decoderInputBuffers[inputBufIndex].clear();
      } else {
      }
    }
    ByteBuffer[] outputBuffers;
    if (!outputDone) {
      int decoderStatus = codec.dequeueOutputBuffer(info, TIMEOUT_USEC);
      if (decoderStatus == MediaCodec.INFO_TRY_AGAIN_LATER) {
      } else if (decoderStatus == MediaCodec.INFO_OUTPUT_BUFFERS_CHANGED) {
        outputBuffers = codec.getOutputBuffers();
      } else if (decoderStatus == MediaCodec.INFO_OUTPUT_FORMAT_CHANGED) {
        newFormat = codec.getOutputFormat();
      } else if (decoderStatus < 0) {
      } else { 
        if ((info.flags & MediaCodec.BUFFER_FLAG_END_OF_STREAM) != 0) {
          outputDone = true;
        }

        boolean doRender = (info.size != 0);

        codec.releaseOutputBuffer(decoderStatus, false);
        if (doRender) {
          outputBuffers = codec.getOutputBuffers();
          ByteBuffer buffer = outputBuffers[decoderStatus];
          buffer = outputBuffers[decoderStatus];

          outputDone = true;

          byte[] outData = new byte[info.size];
          buffer.get(outData);
          buffer.clear();
          outputBuffers[decoderStatus].clear();
          try {
            int colr_format=-1;
            if(newFormat!=null && newFormat.getInteger(MediaFormat.KEY_COLOR_FORMAT)==21){
              colr_format=ImageFormat.NV21;
            }else if(newFormat!=null && newFormat.getInteger(MediaFormat.KEY_COLOR_FORMAT)!=21){            
              Toast.makeText(getApplicationContext(), "Unknown color format "+format.getInteger(MediaFormat.KEY_COLOR_FORMAT), Toast.LENGTH_LONG).show();
              finish();
              return null;
            }

            int[] arrrr=new int[format.getInteger(MediaFormat.KEY_WIDTH)* format.getInteger(MediaFormat.KEY_HEIGHT)];
            YUV_NV21_TO_RGB(arrrr, outData, format.getInteger(MediaFormat.KEY_WIDTH), format.getInteger(MediaFormat.KEY_HEIGHT));

            lastPresentationTimeUs = info.presentationTimeUs;

            b = Bitmap.createBitmap(arrrr, format.getInteger(MediaFormat.KEY_WIDTH), format.getInteger(MediaFormat.KEY_HEIGHT), Bitmap.Config.ARGB_8888);
          } catch (Exception e) {
            e.printStackTrace();
          }
        }
      }
    }
  }
  return b;
}

And here is the encode method:

private void encode(Bitmap b, MediaCodec encoder, MediaMuxer muxer, int track_indx){
  MediaCodec.BufferInfo enc_info = new MediaCodec.BufferInfo();
  boolean enc_outputDone = false;
  boolean enc_inputDone = false;

  final int TIMEOUT_USEC = 10000;

  ByteBuffer[] encoderInputBuffers = encoder.getInputBuffers();
  ByteBuffer[] enc_outputBuffers = encoder.getOutputBuffers();

  while (!enc_outputDone) {
    if (!enc_inputDone) {
      int inputBufIndex = encoder.dequeueInputBuffer(TIMEOUT_USEC);
      if (inputBufIndex >= 0) {
        ByteBuffer inputBuf = encoderInputBuffers[inputBufIndex];
        int chunkSize = 0;

        if(b==null){
        }else{
          int mWidth = b.getWidth();
          int mHeight = b.getHeight();

          byte [] yuv = new byte[mWidth*mHeight*3/2];
          int [] argb = new int[mWidth * mHeight];

          b.getPixels(argb, 0, mWidth, 0, 0, mWidth, mHeight);
          encodeYUV420SP(yuv, argb, mWidth, mHeight);

          b.recycle();
          b=null;
          inputBuf.put(yuv);
          chunkSize = yuv.length;
        }

        if (chunkSize < 0) {
          encoder.queueInputBuffer(inputBufIndex, 0, 0, 0L,
                            MediaCodec.BUFFER_FLAG_END_OF_STREAM);
        } else {
          long presentationTimeUs = extractor.getSampleTime();
          Log.i("Encode","Encode Time: "+presentationTimeUs);
          encoder.queueInputBuffer(inputBufIndex, 0, chunkSize, presentationTimeUs, 0);
          inputBuf.clear();

          encoderInputBuffers[inputBufIndex].clear();
          enc_inputDone=true;
        }
      }
    }
    if (!enc_outputDone) {
      int enc_decoderStatus = encoder.dequeueOutputBuffer(enc_info, TIMEOUT_USEC);
      if (enc_decoderStatus == MediaCodec.INFO_TRY_AGAIN_LATER) {
      } else if (enc_decoderStatus == MediaCodec.INFO_OUTPUT_BUFFERS_CHANGED) {
        enc_outputBuffers = encoder.getOutputBuffers();
      } else if (enc_decoderStatus == MediaCodec.INFO_OUTPUT_FORMAT_CHANGED) {
        MediaFormat newFormat = encoder.getOutputFormat();
      } else if (enc_decoderStatus < 0) {
      } else { 
        if ((enc_info.flags & MediaCodec.BUFFER_FLAG_END_OF_STREAM) != 0) {
          enc_outputDone = true;
      }

      boolean enc_doRender = (enc_info.size != 0);
      encoder.releaseOutputBuffer(enc_decoderStatus, false);
      if (enc_doRender) {
        enc_outputDone = true;
        ByteBuffer enc_buffer = enc_outputBuffers[enc_decoderStatus];

        try {
          muxer.writeSampleData(track_indx, enc_buffer, enc_info);
        } catch (Exception e) {
          e.printStackTrace();
        }
        enc_buffer.clear();
        enc_outputBuffers[enc_decoderStatus].clear();
      }
    }
  }
}
  • Can you add debug prints in all code flow paths (with microsecond precision timestamps) in the decode() method and post output here? I have a feeling like decode() is taking too much time to process frames and you are getting more than one error scenarios here which are not properly handled. – La Machine Sep 8 '15 at 7:42
  • Can you clarify please? I am getting presentationTimeUs from extractor.getSampleTime(); not from system time, so what is the impact of decode() processing time? – Mohamed_AbdAllah Sep 8 '15 at 11:22
  • I can't give an answer to you right now. But the green screen is that the first frame is whole empty like YUV buffer is full of 0 so it displayed green. You should check the output of the first frame(green frame) to find out why an empty buffer emit. – Alan Sep 10 '15 at 3:33
  • For a working example, see DecodeEditEncode on bigflake (bigflake.com/mediacodec/#DecodeEditEncodeTest). It requires API 18 (which you need anyway for MediaMuxer), but operating with Surfaces increases performance significantly and avoids device-specific YUV format issues. On the down side, you need to use a bit of OpenGL ES. – fadden Sep 16 '15 at 5:57

The pixelation is most likely due to wrong frame timestamps, so make sure your frames' timestamps increase monotonically and are the same when you pass them to MediaCodec and MediaMuxer. In this specific case, you only need to replace the data for the frame you're going to replace, leaving its timestamp as it was in the original stream.

Make sure you're converting the bitmap to the YUV color space and you're using a correct pixel format. Android stores bitmaps in RGBA with 4 bytes per pixel, you need to convert this to YUV with Y value for each pixel and U and V values for a block of 2x2, then lay them out in separate planes in the byte array that goes into the codec.

Also, some time ago I made an example app that resizes videos using MediaCodec, it may help you as well: https://github.com/grishka/android-video-transcoder

  • I have tried feeding the timestamps manually (by dividing the video time by the number of frames and incrementing it by this step for each frame) and I get the same result. I also do convert the bitmap to YUV before feeding it to the Encoder. – Mohamed_AbdAllah Oct 4 '15 at 10:55
  • Remember, these timestamps are in microseconds (1/1000th of a millisecond). You may be using wrong units. – Grishka Oct 4 '15 at 17:06

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