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A generic parser and writer for all ISO 14496 based files (MP4, Quicktime, DCF, PDCF, ...)

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package com.googlecode.mp4parser.authoring.tracks;

import com.coremedia.iso.boxes.*;
import com.coremedia.iso.boxes.sampleentry.AudioSampleEntry;
import com.googlecode.mp4parser.DataSource;
import com.googlecode.mp4parser.authoring.AbstractTrack;
import com.googlecode.mp4parser.authoring.Sample;
import com.googlecode.mp4parser.authoring.TrackMetaData;
import com.googlecode.mp4parser.boxes.DTSSpecificBox;
import com.googlecode.mp4parser.boxes.mp4.objectdescriptors.BitReaderBuffer;

import java.io.EOFException;
import java.io.IOException;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.nio.channels.WritableByteChannel;
import java.util.*;


public class DTSTrackImpl extends AbstractTrack {
    TrackMetaData trackMetaData = new TrackMetaData();
    SampleDescriptionBox sampleDescriptionBox;

    int samplerate;
    int bitrate;
    int frameSize = 0;
    int sampleSize;
    int samplesPerFrame;
    int channelCount;
    private long[] sampleDurations;
    private int dataOffset = 0;
    DTSSpecificBox ddts = new DTSSpecificBox();

    private DataSource dataSource;
    private List samples;

    // Info from the headers
    boolean isVBR = false;
    boolean coreSubStreamPresent = false;
    boolean extensionSubStreamPresent = false;
    int numExtSubStreams = 0;
    int coreMaxSampleRate = 0;
    int coreBitRate = 0;
    int coreChannelMask = 0;
    int coreFramePayloadInBytes = 0;
    int extAvgBitrate = 0;
    int extPeakBitrate = 0;
    int extSmoothBuffSize = 0;
    int extFramePayloadInBytes = 0;

    int maxSampleRate = 0;
    int lbrCodingPresent = 0;
    int numFramesTotal = 0;
    int samplesPerFrameAtMaxFs = 0;
    int numSamplesOrigAudioAtMaxFs = 0;
    int channelMask = 0;
    int codecDelayAtMaxFs = 0;
    int bcCoreMaxSampleRate = 0;
    int bcCoreBitRate = 0;
    int bcCoreChannelMask = 0;
    int lsbTrimPercent = 0;

    String type = "none";
    private String lang = "eng";

    public DTSTrackImpl(DataSource dataSource, String lang) throws IOException {
        super(dataSource.toString());
        this.lang = lang;
        this.dataSource = dataSource;
        parse();
    }

    public DTSTrackImpl(DataSource dataSource) throws IOException {
        super(dataSource.toString());
        this.dataSource = dataSource;
        parse();
    }

    public void close() throws IOException {
        dataSource.close();
    }

    private void parse() throws IOException {
        if (!readVariables()) {
            throw new IOException();
        }

        sampleDescriptionBox = new SampleDescriptionBox();
        AudioSampleEntry audioSampleEntry = new AudioSampleEntry(type);
        audioSampleEntry.setChannelCount(channelCount);
        audioSampleEntry.setSampleRate(samplerate);
        audioSampleEntry.setDataReferenceIndex(1);
        audioSampleEntry.setSampleSize(16);


        audioSampleEntry.addBox(ddts);
        sampleDescriptionBox.addBox(audioSampleEntry);

        trackMetaData.setCreationTime(new Date());
        trackMetaData.setModificationTime(new Date());
        trackMetaData.setLanguage(lang);
        trackMetaData.setTimescale(samplerate); // Audio tracks always use samplerate as timescale


    }


    public List getSamples() {

        return samples;
    }

    public SampleDescriptionBox getSampleDescriptionBox() {
        return sampleDescriptionBox;
    }

    public long[] getSampleDurations() {
        return sampleDurations;
    }

    public List getCompositionTimeEntries() {
        return null;
    }

    public long[] getSyncSamples() {
        return null;
    }

    public List getSampleDependencies() {
        return null;
    }

    public TrackMetaData getTrackMetaData() {
        return trackMetaData;
    }

    public String getHandler() {
        return "soun";
    }

    private void parseDtshdhdr(int size, ByteBuffer bb) {
        int hdrVersion = bb.getInt();
        int timeCodeHigh = bb.get();
        int timeCode = bb.getInt();
        int timeCodeFrameRate = bb.get();
        int bitwStreamMetadata = bb.getShort();
        int numAudioPresentations = bb.get();
        numExtSubStreams = bb.get();

        if ((bitwStreamMetadata & 1) == 1) {
            isVBR = true;
        }
        if ((bitwStreamMetadata & 8) == 8) {
            coreSubStreamPresent = true;
        }
        if ((bitwStreamMetadata & 0x10) == 0x10) {
            extensionSubStreamPresent = true;
            numExtSubStreams++;
        } else {
            numExtSubStreams = 0;
        }
        int i = 14;
        while (i < size) {
            bb.get();
            i++;
        }
    }

    private boolean parseCoressmd(int size, ByteBuffer bb) {
        int cmsr_1 = bb.get();
        int cmsr_2 = bb.getShort();
        coreMaxSampleRate = (cmsr_1 << 16) | (cmsr_2 & 0xffff);
        coreBitRate = bb.getShort();
        coreChannelMask = bb.getShort();
        coreFramePayloadInBytes = bb.getInt();
        int i = 11;
        while (i < size) {
            bb.get();
            i++;
        }
        return true;
    }

    private boolean parseAuprhdr(int size, ByteBuffer bb) {
        int audioPresIndex = bb.get();  // Audio_Pres_Index
        int bitwAupresData = bb.getShort(); // Bitw_Aupres_Metadata
        int a = bb.get();
        int b = bb.getShort();
        maxSampleRate = (a << 16) | (b & 0xffff);
        numFramesTotal = bb.getInt();
        samplesPerFrameAtMaxFs = bb.getShort();
        a = bb.get();
        b = bb.getInt();
        numSamplesOrigAudioAtMaxFs = (a << 32) | (b & 0xffff);
        channelMask = bb.getShort();
        codecDelayAtMaxFs = bb.getShort();
        int c = 21;
        if ((bitwAupresData & 3) == 3) {
            a = bb.get();
            b = bb.getShort();
            bcCoreMaxSampleRate = (a << 16) | (b & 0xffff);
            bcCoreBitRate = bb.getShort();
            bcCoreChannelMask = bb.getShort();
            c += 7;
        }
        if ((bitwAupresData & 0x4) > 0) {
            lsbTrimPercent = bb.get();
            c++;
        }
        if ((bitwAupresData & 0x8) > 0) {
            lbrCodingPresent = 1;
        }
        while (c < size) {
            bb.get();
            c++;
        }

        return true;
    }

    /**
     * EXTSS_MD
     */
    private boolean parseExtssmd(int size, ByteBuffer bb) {
        int a = bb.get();
        int b = bb.getShort();
        extAvgBitrate = (a << 16) | (b & 0xffff);
        int i = 3;
        if (isVBR) {
            a = bb.get();
            b = bb.getShort();
            extPeakBitrate = (a << 16) | (b & 0xffff);
            extSmoothBuffSize = bb.getShort();
            i += 5;
        } else {
            extFramePayloadInBytes = bb.getInt();
            i += 4;
        }
        while (i < size) {
            bb.get();
            i++;
        }
        return true;
    }

    private boolean readVariables() throws IOException {
        ByteBuffer bb = dataSource.map(0, 25000);
        int testHeader1 = bb.getInt();
        int testHeader2 = bb.getInt();
        if (testHeader1 != 0x44545348 || (testHeader2 != 0x44484452)) { // ASCII: DTSHDHDR
            throw new IOException("data does not start with 'DTSHDHDR' as required for a DTS-HD file");
        }

        while ((testHeader1 != 0x5354524d || testHeader2 != 0x44415441) && bb.remaining() > 100) { // ASCII: STRMDATA
            int size = (int) bb.getLong();
            if (testHeader1 == 0x44545348 && testHeader2 == 0x44484452) { // ASCII: DTSHDHDR
                parseDtshdhdr(size, bb);
            } else if (testHeader1 == 0x434f5245 && testHeader2 == 0x53534d44) { // ASCII: CORESSMD
                if (!parseCoressmd(size, bb)) {
                    return false;
                }
            } else if (testHeader1 == 0x41555052 && testHeader2 == 0x2d484452) { // ASCII: AUPR-HDR
                if (!parseAuprhdr(size, bb)) {
                    return false;
                }
            } else if (testHeader1 == 0x45585453 && testHeader2 == 0x535f4d44) { // ASCII: EXTSS_MD
                if (!parseExtssmd(size, bb)) {
                    return false;
                }
            } else {
                for (int i = 0; i < size; i++) {
                    byte b = bb.get();
                }
            }
            testHeader1 = bb.getInt();
            testHeader2 = bb.getInt();
        }
        long dataSize = bb.getLong();
        dataOffset = bb.position();

        int amode = -1;
        int extAudioId = 0;
        int extAudio = 0;

        int corePresent = -1;
        int extPresent = -1;
        int extXch = 0;
        int extXXch = 0;
        int extX96k = 0;
        int extXbr = 0;
        int extLbr = 0;
        int extXll = 0;
        int extCore = 0;

        boolean done = false;


        while (!done) {
            int offset = bb.position();
            int sync = bb.getInt();
            if (sync == 0x7ffe8001) { // DTS_SYNCWORD_CORE
                if (corePresent == 1) {
                    done = true;
                } else {
                    corePresent = 1;
                    BitReaderBuffer brb = new BitReaderBuffer(bb);

                    int ftype = brb.readBits(1);
                    int shrt = brb.readBits(5);
                    int cpf = brb.readBits(1); // Should always be 0 - CRC is not present
                    if (ftype != 1 || shrt != 31 || cpf != 0)

                    { // Termination frames - first frame should not be the last...
                        return false;
                    }

                    int nblks = brb.readBits(7);
                    samplesPerFrame = 32 * (nblks + 1);
                    int fsize = brb.readBits(14);
                    frameSize += fsize + 1;
                    amode = brb.readBits(6); // Calc channel layout from this
                    int sfreq = brb.readBits(4);

                    samplerate = getSampleRate(sfreq);

                    int rate = brb.readBits(5);

                    bitrate = getBitRate(rate);

                    int fixedBit = brb.readBits(1);
                    if (fixedBit != 0)

                    {
                        return false;
                    }

                    int dynf = brb.readBits(1);
                    int timef = brb.readBits(1);
                    int auxf = brb.readBits(1);
                    int hdcd = brb.readBits(1);
                    extAudioId = brb.readBits(3);
                    extAudio = brb.readBits(1);
                    int aspf = brb.readBits(1);
                    int lff = brb.readBits(2);
                    int hflag = brb.readBits(1);
                    int hcrc = 0;
                    if (cpf == 1)

                    { // Present only if CPF=1.
                        hcrc = brb.readBits(16);
                    }

                    int filts = brb.readBits(1);
                    int vernum = brb.readBits(4);
                    int chist = brb.readBits(2);
                    int pcmr = brb.readBits(3);
                    switch (pcmr)

                    {
                        case 0:
                        case 1:
                            sampleSize = 16;
                            break;

                        case 2:
                        case 3:
                            sampleSize = 20;
                            break;

                        case 5:
                        case 6:
                            sampleSize = 24;
                            break;

                        default:
                            return false;
                    }

                    int sumf = brb.readBits(1);
                    int sums = brb.readBits(1);
                    int dialnorm = 0;
                    int dng = 0;
                    switch (vernum)

                    {
                        case 6:
                            dialnorm = brb.readBits(4);
                            dng = -(16 + dialnorm);
                            break;

                        case 7:
                            dialnorm = brb.readBits(4);
                            dng = -dialnorm;
                            break;

                        default:
                            brb.readBits(4);
                            break;
                    }
                    bb.position(offset + fsize + 1);
                }
            } else if (sync == 0x64582025) { // DTS_SYNCWORD_SUBSTREAM
                if (corePresent == -1) {
                    corePresent = 0;
                    samplesPerFrame = samplesPerFrameAtMaxFs;
                }
                extPresent = 1;
                BitReaderBuffer brb = new BitReaderBuffer(bb);
                int userDefinedBits = brb.readBits(8);
                int nExtSSIndex = brb.readBits(2);
                int headerSizeType = brb.readBits(1);
                int nuBits4Header = 12;
                int nuBits4ExSSFsize = 20;
                if (headerSizeType == 0) {
                    nuBits4Header = 8;
                    nuBits4ExSSFsize = 16;
                }
                int nuExtSSHeaderSize = brb.readBits(nuBits4Header) + 1;
                int nuExtSSFsize = brb.readBits(nuBits4ExSSFsize) + 1;
                bb.position(offset + nuExtSSHeaderSize);
                int extSync = bb.getInt();
                if (extSync == 0x5a5a5a5a) {
                    if (extXch == 1) {
                        done = true;
                    }
                    extXch = 1;
                } else if (extSync == 0x47004a03) {
                    if (extXXch == 1) {
                        done = true;
                    }
                    extXXch = 1;
                } else if (extSync == 0x1d95f262) {
                    if (extX96k == 1) {
                        done = true;
                    }
                    extX96k = 1;
                } else if (extSync == 0x655e315e) {
                    if (extXbr == 1) {
                        done = true;
                    }
                    extXbr = 1;
                } else if (extSync == 0x0a801921) {
                    if (extLbr == 1) {
                        done = true;
                    }
                    extLbr = 1;
                } else if (extSync == 0x41a29547) {
                    if (extXll == 1) {
                        done = true;
                    }
                    extXll = 1;
                } else if (extSync == 0x02b09261) {
                    if (extCore == 1) {
                        done = true;
                    }
                    extCore = 1;
                }
                if (!done) {
                    frameSize += nuExtSSFsize;
                }
                bb.position(offset + nuExtSSFsize);
            } else {
                throw new IOException("No DTS_SYNCWORD_* found at " + bb.position());
            }

        }
        int fd = -1;
        switch (samplesPerFrame)

        {
            case 512:
                fd = 0;
                break;

            case 1024:
                fd = 1;
                break;

            case 2048:
                fd = 2;
                break;

            case 4096:
                fd = 3;
                break;
        }

        if (fd == -1)

        {
            return false;
        }

        int coreLayout = 31;
        switch (amode)

        {
            case 0:
            case 2:
            case 4:
            case 5:
            case 6:
            case 7:
            case 8:
            case 9:
                coreLayout = amode;
        }

        int streamContruction = 0;
        if (corePresent == 0) {
            if (extXll == 1) {
                if (extCore == 0) {
                    streamContruction = 17;
                    type = "dtsl";
                } else {
                    streamContruction = 21;
                    type = "dtsh";
                }
            } else if (extLbr == 1) {
                streamContruction = 18;
                type = "dtse";
            } else if (extCore == 1) {
                type = "dtsh";
                if (extXXch == 0 && extXll == 0) {
                    streamContruction = 19;
                } else if (extXXch == 1 && extXll == 0) {
                    streamContruction = 20;
                } else if (extXXch == 0 && extXll == 1) {
                    streamContruction = 21;
                }
            }
            samplerate = maxSampleRate;
            sampleSize = 24; // Is this always true?
        } else {
            if (extPresent < 1) {
                if (extAudio > 0) {
                    switch (extAudioId) {
                        case 0:
                            streamContruction = 2;
                            type = "dtsc";
                            break;

                        case 2:
                            streamContruction = 4;
                            type = "dtsc";
                            break;

                        case 6:
                            streamContruction = 3;
                            type = "dtsh";
                            break;

                        default:
                            streamContruction = 0;
                            type = "dtsh";
                            break;
                    }
                } else {
                    streamContruction = 1;
                    type = "dtsc";
                }
            } else {
                type = "dtsh";
                if (extAudio == 0) {
                    if ((extCore == 0) && (extXXch == 1) && (extX96k == 0) && (extXbr == 0) && (extXll == 0) && (extLbr == 0)) {
                        streamContruction = 5;
                    } else if (extCore == 0 && extXXch == 0 && extX96k == 0 && extXbr == 1 && extXll == 0 && extLbr == 0) {
                        streamContruction = 6;
                    } else if (extCore == 0 && extXXch == 1 && extX96k == 0 && extXbr == 1 && extXll == 0 && extLbr == 0) {
                        streamContruction = 9;
                    } else if (extCore == 0 && extXXch == 0 && extX96k == 1 && extXbr == 0 && extXll == 0 && extLbr == 0) {
                        streamContruction = 10;
                    } else if (extCore == 0 && extXXch == 1 && extX96k == 1 && extXbr == 0 && extXll == 0 && extLbr == 0) {
                        streamContruction = 13;
                    } else if (extCore == 0 && extXXch == 0 && extX96k == 0 && extXbr == 0 && extXll == 1 && extLbr == 0) {
                        streamContruction = 14;
                    }
                } else {
                    if ((extAudioId == 0) && (extCore == 0) && (extXXch == 0) && (extX96k == 0) && (extXbr == 1) && (extXll == 0) && (extLbr == 0)) {
                        streamContruction = 7;
                    } else if ((extAudioId == 6) && (extCore == 0) && (extXXch == 0) && (extX96k == 0) && (extXbr == 1) && (extXll == 0) && (extLbr == 0)) {
                        streamContruction = 8;
                    } else if ((extAudioId == 0) && (extCore == 0) && (extXXch == 0) && (extX96k == 1) && (extXbr == 0) && (extXll == 0) && (extLbr == 0)) {
                        streamContruction = 11;
                    } else if ((extAudioId == 6) && (extCore == 0) && (extXXch == 0) && (extX96k == 1) && (extXbr == 0) && (extXll == 0) && (extLbr == 0)) {
                        streamContruction = 12;
                    } else if ((extAudioId == 0) && (extCore == 0) && (extXXch == 0) && (extX96k == 0) && (extXbr == 0) && (extXll == 1) && (extLbr == 0)) {
                        streamContruction = 15;
                    } else if ((extAudioId == 2) && (extCore == 0) && (extXXch == 0) && (extX96k == 0) && (extXbr == 0) && (extXll == 1) && (extLbr == 0)) {
                        streamContruction = 16;
                    }
                }
            }
        }
        ddts.setDTSSamplingFrequency(maxSampleRate);
        if (isVBR) {
            ddts.setMaxBitRate(1000 * (coreBitRate + extPeakBitrate));
        } else {
            ddts.setMaxBitRate(1000 * (coreBitRate + extAvgBitrate));
        }
        ddts.setAvgBitRate(1000 * (coreBitRate + extAvgBitrate));
        ddts.setPcmSampleDepth(sampleSize);
        ddts.setFrameDuration(fd);
        ddts.setStreamConstruction(streamContruction); // We still need to look at this...
        if ((coreChannelMask & 0x8) > 0 || (coreChannelMask & 0x1000) > 0) {
            ddts.setCoreLFEPresent(1);
        } else {
            ddts.setCoreLFEPresent(0);
        }
        ddts.setCoreLayout(coreLayout);
        ddts.setCoreSize(coreFramePayloadInBytes);
        ddts.setStereoDownmix(0);
        ddts.setRepresentationType(4); // This was set in the other files?
        ddts.setChannelLayout(channelMask);
        if (coreMaxSampleRate > 0 && extAvgBitrate > 0) {
            ddts.setMultiAssetFlag(1);
        } else {
            ddts.setMultiAssetFlag(0);
        }
        ddts.setLBRDurationMod(lbrCodingPresent);
        ddts.setReservedBoxPresent(0);

        channelCount = 0;
        for (int bit = 0; bit < 16; bit++) {
            if (((channelMask >> bit) & 1) == 1) {
                switch (bit) {
                    case 0:
                    case 3:
                    case 4:
                    case 7:
                    case 8:
                    case 12:
                    case 14:
                        channelCount++;
                        break;

                    default:
                        channelCount += 2;
                        break;
                }
            }
        }
        samples = generateSamples(dataSource, dataOffset, dataSize, corePresent);
        sampleDurations = new long[samples.size()];
        Arrays.fill(sampleDurations, samplesPerFrame );

        return true;
    }

    private List generateSamples(DataSource dataSource, int dataOffset, long dataSize, int corePresent) throws IOException {
        LookAhead la = new LookAhead(dataSource, dataOffset, dataSize , corePresent);
        ByteBuffer sample;
        List mySamples = new ArrayList();

        while ((sample = la.findNextStart()) != null) {
            final ByteBuffer finalSample = sample;
            mySamples.add(new Sample() {
                public void writeTo(WritableByteChannel channel) throws IOException {
                    channel.write((ByteBuffer) finalSample.rewind());
                }

                public long getSize() {
                    return finalSample.rewind().remaining();
                }

                public ByteBuffer asByteBuffer() {
                    return finalSample;
                }
            });
            //System.err.println(finalSample.remaining());
        }
        System.err.println("all samples found");
        return mySamples;
    }

    private int getBitRate(int rate) throws IOException {
        int bitrate;
        switch (rate)

        {
            case 0:
                bitrate = 32;
                break;

            case 1:
                bitrate = 56;
                break;

            case 2:
                bitrate = 64;
                break;

            case 3:
                bitrate = 96;
                break;

            case 4:
                bitrate = 112;
                break;

            case 5:
                bitrate = 128;
                break;

            case 6:
                bitrate = 192;
                break;

            case 7:
                bitrate = 224;
                break;

            case 8:
                bitrate = 256;
                break;

            case 9:
                bitrate = 320;
                break;

            case 10:
                bitrate = 384;
                break;

            case 11:
                bitrate = 448;
                break;

            case 12:
                bitrate = 512;
                break;

            case 13:
                bitrate = 576;
                break;

            case 14:
                bitrate = 640;
                break;

            case 15:
                bitrate = 768;
                break;

            case 16:
                bitrate = 960;
                break;

            case 17:
                bitrate = 1024;
                break;

            case 18:
                bitrate = 1152;
                break;

            case 19:
                bitrate = 1280;
                break;

            case 20:
                bitrate = 1344;
                break;

            case 21:
                bitrate = 1408;
                break;

            case 22:
                bitrate = 1411;
                break;

            case 23:
                bitrate = 1472;
                break;

            case 24:
                bitrate = 1536;
                break;

            case 25:
                bitrate = -1; // Open, some other bitrate....
                break;

            default:
                throw new IOException("Unknown bitrate value");

        }
        return bitrate;
    }

    private int getSampleRate(int sfreq) throws IOException {
        int samplerate;
        switch (sfreq)

        {
            case 1:
                samplerate = 8000;
                break;

            case 2:
                samplerate = 16000;
                break;

            case 3:
                samplerate = 32000;
                break;

            case 6:
                samplerate = 11025;
                break;

            case 7:
                samplerate = 22050;
                break;

            case 8:
                samplerate = 44100;
                break;

            case 11:
                samplerate = 12000;
                break;

            case 12:
                samplerate = 24000;
                break;

            case 13:
                samplerate = 48000;
                break;

            default: // No other base samplerates allowed
                throw new IOException("Unknown Sample Rate");

        }
        return samplerate;
    }



    private static final int BUFFER = 1024 * 1024 * 64;

    class LookAhead {
        private final int corePresent;
        long bufferStartPos;
        int inBufferPos = 0;
        DataSource dataSource;
        long dataEnd;
        ByteBuffer buffer;

        long start;

        LookAhead(DataSource dataSource, long bufferStartPos, long dataSize, int corePresent) throws IOException {
            this.dataSource = dataSource;
            this.bufferStartPos = bufferStartPos;
            this.dataEnd = dataSize + bufferStartPos;
            this.corePresent = corePresent;
            fillBuffer();
        }

        public ByteBuffer findNextStart() throws IOException {
            try {
                // If core DTS stream is present then sync word is 0x7FFE8001
                // otherwise 0x64582025
                while (corePresent==1?!this.nextFourEquals0x7FFE8001():!nextFourEquals0x64582025()) {
                    this.discardByte();
                }
                this.discardNext4AndMarkStart();

                while (corePresent==1?!this.nextFourEquals0x7FFE8001orEof():!nextFourEquals0x64582025orEof()) {
                    this.discardQWord();
                }
                return this.getSample();
            } catch (EOFException e) {
                return null;
            }
        }


        private void fillBuffer() throws IOException {
            System.err.println("Fill Buffer");
            buffer = dataSource.map(bufferStartPos, Math.min(dataEnd - bufferStartPos, BUFFER));
        }

        private boolean nextFourEquals0x64582025() throws IOException {
            return nextFourEquals((byte) 100, (byte) 88, (byte) 32, (byte) 37);
        }

        private boolean nextFourEquals0x7FFE8001() throws IOException {
            return nextFourEquals((byte) 127, (byte) -2, (byte) -128, (byte) 1);
        }

        private boolean nextFourEquals(byte a, byte b, byte c, byte d) throws IOException {
            if (buffer.limit() - inBufferPos >= 4) {
                return ((buffer.get(inBufferPos) ==  a &&
                        buffer.get(inBufferPos + 1) == b &&
                        buffer.get(inBufferPos + 2) == c &&
                        (buffer.get(inBufferPos + 3) == d)));
            }
            if (bufferStartPos + inBufferPos + 4 >= dataSource.size()) {
                throw new EOFException();
            }
            return false;
        }
        private boolean nextFourEquals0x64582025orEof() throws IOException {
            return nextFourEqualsOrEof((byte) 100, (byte) 88, (byte) 32, (byte) 37);
        }


        private boolean nextFourEquals0x7FFE8001orEof() throws IOException {
            return nextFourEqualsOrEof((byte) 127, (byte) -2, (byte) -128, (byte) 1);
        }
        private boolean nextFourEqualsOrEof(byte a, byte b, byte c, byte d) throws IOException {
            if (buffer.limit() - inBufferPos >= 4) {
                if (((bufferStartPos + inBufferPos) % (1024 * 1024)) == 0) {
                    System.err.println("" + ((bufferStartPos + inBufferPos) / 1024 / 1024));
                }
                return ((buffer.get(inBufferPos) ==  a /*0x7F */&&
                        buffer.get(inBufferPos + 1) == b/*0xfe*/ &&
                        buffer.get(inBufferPos + 2) == c /*0x80*/ &&
                        (buffer.get(inBufferPos + 3) == d)));
            } else {
                if (bufferStartPos + inBufferPos + 4 > dataEnd) {
                    return bufferStartPos + inBufferPos == dataEnd;
                } else {
                    bufferStartPos = start;
                    inBufferPos = 0;
                    fillBuffer();
                    return nextFourEquals0x7FFE8001();
                }
            }
        }


        private void discardByte() {
            inBufferPos += 1;
        }
        private void discardQWord() {
            inBufferPos += 4;
        }


        private void discardNext4AndMarkStart() {
            start = bufferStartPos + inBufferPos;
            inBufferPos += 4;
        }

        private ByteBuffer getSample() {
            if (start >= bufferStartPos) {
                buffer.position((int) (start - bufferStartPos));
                Buffer sample = buffer.slice();
                sample.limit((int) (inBufferPos - (start - bufferStartPos)));
                return (ByteBuffer) sample;
            } else {
                throw new RuntimeException("damn! NAL exceeds buffer");
                // this can only happen if NAL is bigger than the buffer
            }

        }
    }


}




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