Java 类com.google.android.exoplayer2.video.AvcConfig 实例源码

@Override
protected void parsePayload(ParsableByteArray data, long timeUs) throws ParserException {
  int packetType = data.readUnsignedByte();
  int compositionTimeMs = data.readUnsignedInt24();
  timeUs += compositionTimeMs * 1000L;
  // Parse avc sequence header in case this was not done before.
  if (packetType == AVC_PACKET_TYPE_SEQUENCE_HEADER && !hasOutputFormat) {
    ParsableByteArray videoSequence = new ParsableByteArray(new byte[data.bytesLeft()]);
    data.readBytes(videoSequence.data, 0, data.bytesLeft());
    AvcConfig avcConfig = AvcConfig.parse(videoSequence);
    nalUnitLengthFieldLength = avcConfig.nalUnitLengthFieldLength;
    // Construct and output the format.
    Format format = Format.createVideoSampleFormat(null, MimeTypes.VIDEO_H264, null,
        Format.NO_VALUE, Format.NO_VALUE, avcConfig.width, avcConfig.height, Format.NO_VALUE,
        avcConfig.initializationData, Format.NO_VALUE, avcConfig.pixelWidthAspectRatio, null);
    output.format(format);
    hasOutputFormat = true;
  } else if (packetType == AVC_PACKET_TYPE_AVC_NALU && hasOutputFormat) {
    // TODO: Deduplicate with Mp4Extractor.
    // Zero the top three bytes of the array that we'll use to decode nal unit lengths, in case
    // they're only 1 or 2 bytes long.
    byte[] nalLengthData = nalLength.data;
    nalLengthData[0] = 0;
    nalLengthData[1] = 0;
    nalLengthData[2] = 0;
    int nalUnitLengthFieldLengthDiff = 4 - nalUnitLengthFieldLength;
    // NAL units are length delimited, but the decoder requires start code delimited units.
    // Loop until we've written the sample to the track output, replacing length delimiters with
    // start codes as we encounter them.
    int bytesWritten = 0;
    int bytesToWrite;
    while (data.bytesLeft() > 0) {
      // Read the NAL length so that we know where we find the next one.
      data.readBytes(nalLength.data, nalUnitLengthFieldLengthDiff, nalUnitLengthFieldLength);
      nalLength.setPosition(0);
      bytesToWrite = nalLength.readUnsignedIntToInt();

      // Write a start code for the current NAL unit.
      nalStartCode.setPosition(0);
      output.sampleData(nalStartCode, 4);
      bytesWritten += 4;

      // Write the payload of the NAL unit.
      output.sampleData(data, bytesToWrite);
      bytesWritten += bytesToWrite;
    }
    output.sampleMetadata(timeUs, frameType == VIDEO_FRAME_KEYFRAME ? C.BUFFER_FLAG_KEY_FRAME : 0,
        bytesWritten, 0, null);
  }
}

@Override
protected void parsePayload(ParsableByteArray data, long timeUs) throws ParserException {
  int packetType = data.readUnsignedByte();
  int compositionTimeMs = data.readUnsignedInt24();
  timeUs += compositionTimeMs * 1000L;
  // Parse avc sequence header in case this was not done before.
  if (packetType == AVC_PACKET_TYPE_SEQUENCE_HEADER && !hasOutputFormat) {
    ParsableByteArray videoSequence = new ParsableByteArray(new byte[data.bytesLeft()]);
    data.readBytes(videoSequence.data, 0, data.bytesLeft());
    AvcConfig avcConfig = AvcConfig.parse(videoSequence);
    nalUnitLengthFieldLength = avcConfig.nalUnitLengthFieldLength;
    // Construct and output the format.
    Format format = Format.createVideoSampleFormat(null, MimeTypes.VIDEO_H264, null,
        Format.NO_VALUE, Format.NO_VALUE, avcConfig.width, avcConfig.height, Format.NO_VALUE,
        avcConfig.initializationData, Format.NO_VALUE, avcConfig.pixelWidthAspectRatio, null);
    output.format(format);
    hasOutputFormat = true;
  } else if (packetType == AVC_PACKET_TYPE_AVC_NALU) {
    // TODO: Deduplicate with Mp4Extractor.
    // Zero the top three bytes of the array that we'll use to decode nal unit lengths, in case
    // they're only 1 or 2 bytes long.
    byte[] nalLengthData = nalLength.data;
    nalLengthData[0] = 0;
    nalLengthData[1] = 0;
    nalLengthData[2] = 0;
    int nalUnitLengthFieldLengthDiff = 4 - nalUnitLengthFieldLength;
    // NAL units are length delimited, but the decoder requires start code delimited units.
    // Loop until we've written the sample to the track output, replacing length delimiters with
    // start codes as we encounter them.
    int bytesWritten = 0;
    int bytesToWrite;
    while (data.bytesLeft() > 0) {
      // Read the NAL length so that we know where we find the next one.
      data.readBytes(nalLength.data, nalUnitLengthFieldLengthDiff, nalUnitLengthFieldLength);
      nalLength.setPosition(0);
      bytesToWrite = nalLength.readUnsignedIntToInt();

      // Write a start code for the current NAL unit.
      nalStartCode.setPosition(0);
      output.sampleData(nalStartCode, 4);
      bytesWritten += 4;

      // Write the payload of the NAL unit.
      output.sampleData(data, bytesToWrite);
      bytesWritten += bytesToWrite;
    }
    output.sampleMetadata(timeUs, frameType == VIDEO_FRAME_KEYFRAME ? C.BUFFER_FLAG_KEY_FRAME : 0,
        bytesWritten, 0, null);
  }
}

@Override
protected void parsePayload(ParsableByteArray data, long timeUs) throws ParserException {
  int packetType = data.readUnsignedByte();
  int compositionTimeMs = data.readUnsignedInt24();
  timeUs += compositionTimeMs * 1000L;
  // Parse avc sequence header in case this was not done before.
  if (packetType == AVC_PACKET_TYPE_SEQUENCE_HEADER && !hasOutputFormat) {
    ParsableByteArray videoSequence = new ParsableByteArray(new byte[data.bytesLeft()]);
    data.readBytes(videoSequence.data, 0, data.bytesLeft());
    AvcConfig avcConfig = AvcConfig.parse(videoSequence);
    nalUnitLengthFieldLength = avcConfig.nalUnitLengthFieldLength;
    // Construct and output the format.
    Format format = Format.createVideoSampleFormat(null, MimeTypes.VIDEO_H264, null,
        Format.NO_VALUE, Format.NO_VALUE, avcConfig.width, avcConfig.height, Format.NO_VALUE,
        avcConfig.initializationData, Format.NO_VALUE, avcConfig.pixelWidthAspectRatio, null);
    output.format(format);
    hasOutputFormat = true;
  } else if (packetType == AVC_PACKET_TYPE_AVC_NALU) {
    // TODO: Deduplicate with Mp4Extractor.
    // Zero the top three bytes of the array that we'll use to decode nal unit lengths, in case
    // they're only 1 or 2 bytes long.
    byte[] nalLengthData = nalLength.data;
    nalLengthData[0] = 0;
    nalLengthData[1] = 0;
    nalLengthData[2] = 0;
    int nalUnitLengthFieldLengthDiff = 4 - nalUnitLengthFieldLength;
    // NAL units are length delimited, but the decoder requires start code delimited units.
    // Loop until we've written the sample to the track output, replacing length delimiters with
    // start codes as we encounter them.
    int bytesWritten = 0;
    int bytesToWrite;
    while (data.bytesLeft() > 0) {
      // Read the NAL length so that we know where we find the next one.
      data.readBytes(nalLength.data, nalUnitLengthFieldLengthDiff, nalUnitLengthFieldLength);
      nalLength.setPosition(0);
      bytesToWrite = nalLength.readUnsignedIntToInt();

      // Write a start code for the current NAL unit.
      nalStartCode.setPosition(0);
      output.sampleData(nalStartCode, 4);
      bytesWritten += 4;

      // Write the payload of the NAL unit.
      output.sampleData(data, bytesToWrite);
      bytesWritten += bytesToWrite;
    }
    output.sampleMetadata(timeUs, frameType == VIDEO_FRAME_KEYFRAME ? C.BUFFER_FLAG_KEY_FRAME : 0,
        bytesWritten, 0, null);
  }
}

@Override
protected void parsePayload(ParsableByteArray data, long timeUs) throws ParserException {
  int packetType = data.readUnsignedByte();
  int compositionTimeMs = data.readInt24();

  timeUs += compositionTimeMs * 1000L;
  // Parse avc sequence header in case this was not done before.
  if (packetType == AVC_PACKET_TYPE_SEQUENCE_HEADER && !hasOutputFormat) {
    ParsableByteArray videoSequence = new ParsableByteArray(new byte[data.bytesLeft()]);
    data.readBytes(videoSequence.data, 0, data.bytesLeft());
    AvcConfig avcConfig = AvcConfig.parse(videoSequence);
    nalUnitLengthFieldLength = avcConfig.nalUnitLengthFieldLength;
    // Construct and output the format.
    Format format = Format.createVideoSampleFormat(null, MimeTypes.VIDEO_H264, null,
        Format.NO_VALUE, Format.NO_VALUE, avcConfig.width, avcConfig.height, Format.NO_VALUE,
        avcConfig.initializationData, Format.NO_VALUE, avcConfig.pixelWidthAspectRatio, null);
    output.format(format);
    hasOutputFormat = true;
  } else if (packetType == AVC_PACKET_TYPE_AVC_NALU && hasOutputFormat) {
    // TODO: Deduplicate with Mp4Extractor.
    // Zero the top three bytes of the array that we'll use to decode nal unit lengths, in case
    // they're only 1 or 2 bytes long.
    byte[] nalLengthData = nalLength.data;
    nalLengthData[0] = 0;
    nalLengthData[1] = 0;
    nalLengthData[2] = 0;
    int nalUnitLengthFieldLengthDiff = 4 - nalUnitLengthFieldLength;
    // NAL units are length delimited, but the decoder requires start code delimited units.
    // Loop until we've written the sample to the track output, replacing length delimiters with
    // start codes as we encounter them.
    int bytesWritten = 0;
    int bytesToWrite;
    while (data.bytesLeft() > 0) {
      // Read the NAL length so that we know where we find the next one.
      data.readBytes(nalLength.data, nalUnitLengthFieldLengthDiff, nalUnitLengthFieldLength);
      nalLength.setPosition(0);
      bytesToWrite = nalLength.readUnsignedIntToInt();

      // Write a start code for the current NAL unit.
      nalStartCode.setPosition(0);
      output.sampleData(nalStartCode, 4);
      bytesWritten += 4;

      // Write the payload of the NAL unit.
      output.sampleData(data, bytesToWrite);
      bytesWritten += bytesToWrite;
    }
    output.sampleMetadata(timeUs, frameType == VIDEO_FRAME_KEYFRAME ? C.BUFFER_FLAG_KEY_FRAME : 0,
        bytesWritten, 0, null);
  }
}