/*
* Copyright 2012 Sebastian Annies, Hamburg
*
* Licensed under the Apache License, Version 2.0 (the License);
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.googlecode.mp4parser.authoring.builder;
import com.coremedia.iso.BoxParser;
import com.coremedia.iso.IsoFile;
import com.coremedia.iso.IsoTypeWriter;
import com.coremedia.iso.boxes.Box;
import com.coremedia.iso.boxes.CompositionTimeToSample;
import com.coremedia.iso.boxes.ContainerBox;
import com.coremedia.iso.boxes.DataEntryUrlBox;
import com.coremedia.iso.boxes.DataInformationBox;
import com.coremedia.iso.boxes.DataReferenceBox;
import com.coremedia.iso.boxes.FileTypeBox;
import com.coremedia.iso.boxes.HandlerBox;
import com.coremedia.iso.boxes.MediaBox;
import com.coremedia.iso.boxes.MediaHeaderBox;
import com.coremedia.iso.boxes.MediaInformationBox;
import com.coremedia.iso.boxes.MovieBox;
import com.coremedia.iso.boxes.MovieHeaderBox;
import com.coremedia.iso.boxes.SampleDependencyTypeBox;
import com.coremedia.iso.boxes.SampleSizeBox;
import com.coremedia.iso.boxes.SampleTableBox;
import com.coremedia.iso.boxes.SampleToChunkBox;
import com.coremedia.iso.boxes.StaticChunkOffsetBox;
import com.coremedia.iso.boxes.SyncSampleBox;
import com.coremedia.iso.boxes.TimeToSampleBox;
import com.coremedia.iso.boxes.TrackBox;
import com.coremedia.iso.boxes.TrackHeaderBox;
import com.googlecode.mp4parser.authoring.DateHelper;
import com.googlecode.mp4parser.authoring.Movie;
import com.googlecode.mp4parser.authoring.Track;
import com.googlecode.mp4parser.util.Path;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.MappedByteBuffer;
import java.nio.channels.ReadableByteChannel;
import java.nio.channels.WritableByteChannel;
import java.util.ArrayList;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;
import static com.googlecode.mp4parser.util.CastUtils.l2i;
/**
* Creates a plain MP4 file from a video. Plain as plain can be.
*/
public class DefaultMp4Builder implements Mp4Builder {
public int STEPSIZE = 64;
Set<StaticChunkOffsetBox> chunkOffsetBoxes = new HashSet<StaticChunkOffsetBox>();
private static Logger LOG = Logger.getLogger(DefaultMp4Builder.class.getName());
HashMap<Track, List<ByteBuffer>> track2Sample = new HashMap<Track, List<ByteBuffer>>();
HashMap<Track, long[]> track2SampleSizes = new HashMap<Track, long[]>();
private FragmentIntersectionFinder intersectionFinder = new TwoSecondIntersectionFinder();
public void setIntersectionFinder(FragmentIntersectionFinder intersectionFinder) {
this.intersectionFinder = intersectionFinder;
}
/**
* {@inheritDoc}
*/
public IsoFile build(Movie movie) {
LOG.fine("Creating movie " + movie);
for (Track track : movie.getTracks()) {
// getting the samples may be a time consuming activity
List<ByteBuffer> samples = track.getSamples();
putSamples(track, samples);
long[] sizes = new long[samples.size()];
for (int i = 0; i < sizes.length; i++) {
ByteBuffer b = samples.get(i);
sizes[i] = b.limit() - b.position();
}
track2SampleSizes.put(track, sizes);
}
IsoFile isoFile = new IsoFile();
// ouch that is ugly but I don't know how to do it else
List<String> minorBrands = new LinkedList<String>();
minorBrands.add("isom");
minorBrands.add("iso2");
minorBrands.add("avc1");
isoFile.addBox(new FileTypeBox("isom", 0, minorBrands));
Map<Track, int[]> chunks = new HashMap<Track, int[]>();
for (Track track : movie.getTracks()) {
chunks.put(track, getChunkSizes(track, movie));
}
isoFile.addBox(createMovieBox(movie, chunks));
List<Box> stszs = Path.getPaths(isoFile, "/moov/trak/mdia/minf/stbl/stsz");
long contentSize = 0;
for (Box stsz : stszs) {
contentSize += sum(((SampleSizeBox) stsz).getSampleSizes());
}
InterleaveChunkMdat mdat = new InterleaveChunkMdat(movie, chunks, contentSize);
isoFile.addBox(mdat);
/*
dataOffset is where the first sample starts. In this special mdat the samples always start
at offset 16 so that we can use the same offset for large boxes and small boxes
*/
long dataOffset = mdat.getDataOffset();
for (StaticChunkOffsetBox chunkOffsetBox : chunkOffsetBoxes) {
long[] offsets = chunkOffsetBox.getChunkOffsets();
for (int i = 0; i < offsets.length; i++) {
offsets[i] += dataOffset;
}
}
return isoFile;
}
public FragmentIntersectionFinder getFragmentIntersectionFinder() {
throw new UnsupportedOperationException("No fragment intersection finder in default MP4 builder!");
}
protected List<ByteBuffer> putSamples(Track track, List<ByteBuffer> samples) {
return track2Sample.put(track, samples);
}
private MovieBox createMovieBox(Movie movie, Map<Track, int[]> chunks) {
MovieBox movieBox = new MovieBox();
MovieHeaderBox mvhd = new MovieHeaderBox();
mvhd.setCreationTime(DateHelper.convert(new Date()));
mvhd.setModificationTime(DateHelper.convert(new Date()));
long movieTimeScale = getTimescale(movie);
long duration = 0;
for (Track track : movie.getTracks()) {
long tracksDuration = getDuration(track) * movieTimeScale / track.getTrackMetaData().getTimescale();
if (tracksDuration > duration) {
duration = tracksDuration;
}
}
mvhd.setDuration(duration);
mvhd.setTimescale(movieTimeScale);
// find the next available trackId
long nextTrackId = 0;
for (Track track : movie.getTracks()) {
nextTrackId = nextTrackId < track.getTrackMetaData().getTrackId() ? track.getTrackMetaData().getTrackId() : nextTrackId;
}
mvhd.setNextTrackId(++nextTrackId);
if (mvhd.getCreationTime() >= 1l << 32 ||
mvhd.getModificationTime() >= 1l << 32 ||
mvhd.getDuration() >= 1l << 32) {
mvhd.setVersion(1);
}
movieBox.addBox(mvhd);
for (Track track : movie.getTracks()) {
movieBox.addBox(createTrackBox(track, movie, chunks));
}
// metadata here
Box udta = createUdta(movie);
if (udta != null) {
movieBox.addBox(udta);
}
return movieBox;
}
/**
* Override to create a user data box that may contain metadata.
*
* @return a 'udta' box or <code>null</code> if none provided
*/
protected Box createUdta(Movie movie) {
return null;
}
private TrackBox createTrackBox(Track track, Movie movie, Map<Track, int[]> chunks) {
TrackBox trackBox = new TrackBox();
TrackHeaderBox tkhd = new TrackHeaderBox();
int flags = 0;
if (track.isEnabled()) {
flags += 1;
}
if (track.isInMovie()) {
flags += 2;
}
if (track.isInPreview()) {
flags += 4;
}
if (track.isInPoster()) {
flags += 8;
}
tkhd.setFlags(flags);
tkhd.setAlternateGroup(track.getTrackMetaData().getGroup());
tkhd.setCreationTime(DateHelper.convert(track.getTrackMetaData().getCreationTime()));
// We need to take edit list box into account in trackheader duration
// but as long as I don't support edit list boxes it is sufficient to
// just translate media duration to movie timescale
tkhd.setDuration(getDuration(track) * getTimescale(movie) / track.getTrackMetaData().getTimescale());
tkhd.setHeight(track.getTrackMetaData().getHeight());
tkhd.setWidth(track.getTrackMetaData().getWidth());
tkhd.setLayer(track.getTrackMetaData().getLayer());
tkhd.setModificationTime(DateHelper.convert(new Date()));
tkhd.setTrackId(track.getTrackMetaData().getTrackId());
tkhd.setVolume(track.getTrackMetaData().getVolume());
if (tkhd.getCreationTime() >= 1l << 32 ||
tkhd.getModificationTime() >= 1l << 32 ||
tkhd.getDuration() >= 1l << 32) {
tkhd.setVersion(1);
}
trackBox.addBox(tkhd);
/*
EditBox edit = new EditBox();
EditListBox editListBox = new EditListBox();
editListBox.setEntries(Collections.singletonList(
new EditListBox.Entry(editListBox, (long) (track.getTrackMetaData().getStartTime() * getTimescale(movie)), -1, 1)));
edit.addBox(editListBox);
trackBox.addBox(edit);
*/
MediaBox mdia = new MediaBox();
trackBox.addBox(mdia);
MediaHeaderBox mdhd = new MediaHeaderBox();
mdhd.setCreationTime(DateHelper.convert(track.getTrackMetaData().getCreationTime()));
mdhd.setDuration(getDuration(track));
mdhd.setTimescale(track.getTrackMetaData().getTimescale());
mdhd.setLanguage(track.getTrackMetaData().getLanguage());
mdia.addBox(mdhd);
HandlerBox hdlr = new HandlerBox();
mdia.addBox(hdlr);
hdlr.setHandlerType(track.getHandler());
MediaInformationBox minf = new MediaInformationBox();
minf.addBox(track.getMediaHeaderBox());
// dinf: all these three boxes tell us is that the actual
// data is in the current file and not somewhere external
DataInformationBox dinf = new DataInformationBox();
DataReferenceBox dref = new DataReferenceBox();
dinf.addBox(dref);
DataEntryUrlBox url = new DataEntryUrlBox();
url.setFlags(1);
dref.addBox(url);
minf.addBox(dinf);
//
SampleTableBox stbl = new SampleTableBox();
stbl.addBox(track.getSampleDescriptionBox());
List<TimeToSampleBox.Entry> decodingTimeToSampleEntries = track.getDecodingTimeEntries();
if (decodingTimeToSampleEntries != null && !track.getDecodingTimeEntries().isEmpty()) {
TimeToSampleBox stts = new TimeToSampleBox();
stts.setEntries(track.getDecodingTimeEntries());
stbl.addBox(stts);
}
List<CompositionTimeToSample.Entry> compositionTimeToSampleEntries = track.getCompositionTimeEntries();
if (compositionTimeToSampleEntries != null && !compositionTimeToSampleEntries.isEmpty()) {
CompositionTimeToSample ctts = new CompositionTimeToSample();
ctts.setEntries(compositionTimeToSampleEntries);
stbl.addBox(ctts);
}
long[] syncSamples = track.getSyncSamples();
if (syncSamples != null && syncSamples.length > 0) {
SyncSampleBox stss = new SyncSampleBox();
stss.setSampleNumber(syncSamples);
stbl.addBox(stss);
}
if (track.getSampleDependencies() != null && !track.getSampleDependencies().isEmpty()) {
SampleDependencyTypeBox sdtp = new SampleDependencyTypeBox();
sdtp.setEntries(track.getSampleDependencies());
stbl.addBox(sdtp);
}
int[] tracksChunkSizes = chunks.get(track);
SampleToChunkBox stsc = new SampleToChunkBox();
stsc.setEntries(new LinkedList<SampleToChunkBox.Entry>());
long lastChunkSize = Integer.MIN_VALUE; // to be sure the first chunks hasn't got the same size
for (int i = 0; i < tracksChunkSizes.length; i++) {
// The sample description index references the sample description box
// that describes the samples of this chunk. My Tracks cannot have more
// than one sample description box. Therefore 1 is always right
// the first chunk has the number '1'
if (lastChunkSize != tracksChunkSizes[i]) {
stsc.getEntries().add(new SampleToChunkBox.Entry(i + 1, tracksChunkSizes[i], 1));
lastChunkSize = tracksChunkSizes[i];
}
}
stbl.addBox(stsc);
SampleSizeBox stsz = new SampleSizeBox();
stsz.setSampleSizes(track2SampleSizes.get(track));
stbl.addBox(stsz);
// The ChunkOffsetBox we create here is just a stub
// since we haven't created the whole structure we can't tell where the
// first chunk starts (mdat box). So I just let the chunk offset
// start at zero and I will add the mdat offset later.
StaticChunkOffsetBox stco = new StaticChunkOffsetBox();
this.chunkOffsetBoxes.add(stco);
long offset = 0;
long[] chunkOffset = new long[tracksChunkSizes.length];
// all tracks have the same number of chunks
if (LOG.isLoggable(Level.FINE)) {
LOG.fine("Calculating chunk offsets for track_" + track.getTrackMetaData().getTrackId());
}
for (int i = 0; i < tracksChunkSizes.length; i++) {
// The filelayout will be:
// chunk_1_track_1,... ,chunk_1_track_n, chunk_2_track_1,... ,chunk_2_track_n, ... , chunk_m_track_1,... ,chunk_m_track_n
// calculating the offsets
if (LOG.isLoggable(Level.FINER)) {
LOG.finer("Calculating chunk offsets for track_" + track.getTrackMetaData().getTrackId() + " chunk " + i);
}
for (Track current : movie.getTracks()) {
if (LOG.isLoggable(Level.FINEST)) {
LOG.finest("Adding offsets of track_" + current.getTrackMetaData().getTrackId());
}
int[] chunkSizes = chunks.get(current);
long firstSampleOfChunk = 0;
for (int j = 0; j < i; j++) {
firstSampleOfChunk += chunkSizes[j];
}
if (current == track) {
chunkOffset[i] = offset;
}
for (int j = l2i(firstSampleOfChunk); j < firstSampleOfChunk + chunkSizes[i]; j++) {
offset += track2SampleSizes.get(current)[j];
}
}
}
stco.setChunkOffsets(chunkOffset);
stbl.addBox(stco);
minf.addBox(stbl);
mdia.addBox(minf);
return trackBox;
}
private class InterleaveChunkMdat implements Box {
List<Track> tracks;
List<List<ByteBuffer>> chunkList = new ArrayList<List<ByteBuffer>>();
ContainerBox parent;
long contentSize;
public ContainerBox getParent() {
return parent;
}
public void setParent(ContainerBox parent) {
this.parent = parent;
}
public void parse(ReadableByteChannel readableByteChannel, ByteBuffer header, long contentSize, BoxParser boxParser) throws IOException {
}
private InterleaveChunkMdat(Movie movie, Map<Track, int[]> chunks, long contentSize) {
this.contentSize = contentSize;
this.tracks = movie.getTracks();
for (int i = 0; i < chunks.values().iterator().next().length; i++) {
for (Track track : tracks) {
int[] chunkSizes = chunks.get(track);
long firstSampleOfChunk = 0;
for (int j = 0; j < i; j++) {
firstSampleOfChunk += chunkSizes[j];
}
List<ByteBuffer> chunk = DefaultMp4Builder.this.track2Sample.get(track).subList(l2i(firstSampleOfChunk), l2i(firstSampleOfChunk + chunkSizes[i]));
chunkList.add(chunk);
}
}
}
public long getDataOffset() {
Box b = this;
long offset = 16;
while (b.getParent() != null) {
for (Box box : b.getParent().getBoxes()) {
if (b == box) {
break;
}
offset += box.getSize();
}
b = b.getParent();
}
return offset;
}
public String getType() {
return "mdat";
}
public long getSize() {
return 16 + contentSize;
}
private boolean isSmallBox(long contentSize) {
return (contentSize + 8) < 4294967296L;
}
public void getBox(WritableByteChannel writableByteChannel) throws IOException {
ByteBuffer bb = ByteBuffer.allocate(16);
long size = getSize();
if (isSmallBox(size)) {
IsoTypeWriter.writeUInt32(bb, size);
} else {
IsoTypeWriter.writeUInt32(bb, 1);
}
bb.put(IsoFile.fourCCtoBytes("mdat"));
if (isSmallBox(size)) {
bb.put(new byte[8]);
} else {
IsoTypeWriter.writeUInt64(bb, size);
}
bb.rewind();
writableByteChannel.write(bb);
for (List<ByteBuffer> samples : chunkList) {
samples = unifyAdjacentBuffers(samples);
for (ByteBuffer sample : samples) {
writableByteChannel.write(sample);
}
}
}
}
/**
* Gets the chunk sizes for the given track.
*
* @param track
* @param movie
* @return
*/
int[] getChunkSizes(Track track, Movie movie) {
long[] referenceChunkStarts = intersectionFinder.sampleNumbers(track, movie);
int[] chunkSizes = new int[referenceChunkStarts.length];
for (int i = 0; i < referenceChunkStarts.length; i++) {
long start = referenceChunkStarts[i] - 1;
long end;
if (referenceChunkStarts.length == i + 1) {
end = track.getSamples().size();
} else {
end = referenceChunkStarts[i + 1] - 1;
}
chunkSizes[i] = l2i(end - start);
// The Stretch makes sure that there are as much audio and video chunks!
}
assert DefaultMp4Builder.this.track2Sample.get(track).size() == sum(chunkSizes) : "The number of samples and the sum of all chunk lengths must be equal";
return chunkSizes;
}
private static long sum(int[] ls) {
long rc = 0;
for (long l : ls) {
rc += l;
}
return rc;
}
private static long sum(long[] ls) {
long rc = 0;
for (long l : ls) {
rc += l;
}
return rc;
}
protected static long getDuration(Track track) {
long duration = 0;
for (TimeToSampleBox.Entry entry : track.getDecodingTimeEntries()) {
duration += entry.getCount() * entry.getDelta();
}
return duration;
}
public long getTimescale(Movie movie) {
long timescale = movie.getTracks().iterator().next().getTrackMetaData().getTimescale();
for (Track track : movie.getTracks()) {
timescale = gcd(track.getTrackMetaData().getTimescale(), timescale);
}
return timescale;
}
public static long gcd(long a, long b) {
if (b == 0) {
return a;
}
return gcd(b, a % b);
}
public List<ByteBuffer> unifyAdjacentBuffers(List<ByteBuffer> samples) {
ArrayList<ByteBuffer> nuSamples = new ArrayList<ByteBuffer>(samples.size());
samples = new ArrayList<ByteBuffer>(samples);
for (ByteBuffer buffer : samples) {
int lastIndex = nuSamples.size() - 1;
if (lastIndex >= 0 && buffer.hasArray() && nuSamples.get(lastIndex).hasArray() && buffer.array() == nuSamples.get(lastIndex).array() &&
nuSamples.get(lastIndex).arrayOffset() + nuSamples.get(lastIndex).limit() == buffer.arrayOffset()) {
ByteBuffer oldBuffer = nuSamples.remove(lastIndex);
ByteBuffer nu = ByteBuffer.wrap(buffer.array(), oldBuffer.arrayOffset(), oldBuffer.limit() + buffer.limit()).slice();
// We need to slice here since wrap([], offset, length) just sets position and not the arrayOffset.
nuSamples.add(nu);
} else if (lastIndex >= 0 &&
buffer instanceof MappedByteBuffer && nuSamples.get(lastIndex) instanceof MappedByteBuffer &&
nuSamples.get(lastIndex).limit() == nuSamples.get(lastIndex).capacity() - buffer.capacity()) {
// This can go wrong - but will it?
ByteBuffer oldBuffer = nuSamples.get(lastIndex);
oldBuffer.limit(buffer.limit() + oldBuffer.limit());
} else {
nuSamples.add(buffer);
}
}
return nuSamples;
}
}
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