/*----------------------------------------------------------------------
| AP4_TrakAtom::GetChunkOffsets
+---------------------------------------------------------------------*/
AP4_Result
AP4_TrakAtom::GetChunkOffsets(AP4_Array<AP4_UI64>& chunk_offsets)
{
AP4_Atom* atom;
if ((atom = FindChild("mdia/minf/stbl/stco"))) {
AP4_StcoAtom* stco = dynamic_cast<AP4_StcoAtom*>(atom);
if (stco == NULL) return AP4_ERROR_INTERNAL;
AP4_Cardinal stco_chunk_count = stco->GetChunkCount();
const AP4_UI32* stco_chunk_offsets = stco->GetChunkOffsets();
chunk_offsets.SetItemCount(stco_chunk_count);
for (unsigned int i=0; i<stco_chunk_count; i++) {
chunk_offsets[i] = stco_chunk_offsets[i];
}
return AP4_SUCCESS;
} else if ((atom = FindChild("mdia/minf/stbl/co64"))) {
AP4_Co64Atom* co64 = dynamic_cast<AP4_Co64Atom*>(atom);
if (co64 == NULL) return AP4_ERROR_INTERNAL;
AP4_Cardinal co64_chunk_count = co64->GetChunkCount();
const AP4_UI64* co64_chunk_offsets = co64->GetChunkOffsets();
chunk_offsets.SetItemCount(co64_chunk_count);
for (unsigned int i=0; i<co64_chunk_count; i++) {
chunk_offsets[i] = co64_chunk_offsets[i];
}
return AP4_SUCCESS;
} else {
return AP4_ERROR_INVALID_STATE;
}
}
/*----------------------------------------------------------------------
| AP4_Processor::MuxStream
+---------------------------------------------------------------------*/
AP4_Result
AP4_Processor::MuxStream(
AP4_Array<AP4_ByteStream *> &input,
AP4_ByteStream& output,
AP4_UI08 partitions,
AP4_AtomFactory& atom_factory)
{
AP4_Result result;
AP4_UI64 stream_offset = 0;
if (partitions & 1)
{
// read all atoms.
// keep all atoms except [mdat]
// keep a ref to [moov]
// put [moof] atoms in a separate list
AP4_AtomParent top_level;
AP4_Array<AP4_MoovAtom*> moov;
AP4_Size track_count(0);
for(AP4_Size streamid(0); streamid < input.ItemCount(); ++streamid)
{
for (AP4_Atom* atom = NULL; AP4_SUCCEEDED(atom_factory.CreateAtomFromStream(*input[streamid], atom)); input[streamid]->Tell(stream_offset))
{
if (atom->GetType() == AP4_ATOM_TYPE_MFRA) {
delete atom;
continue;
}
else if (atom->GetType() == AP4_ATOM_TYPE_SIDX) {
delete atom;
continue;
}
else if (atom->GetType() == AP4_ATOM_TYPE_SSIX) {
delete atom;
continue;
}
if (streamid == 0)
top_level.AddChild(atom);
else if (atom->GetType() != AP4_ATOM_TYPE_MOOV)
delete atom;
if (atom->GetType() == AP4_ATOM_TYPE_MOOV)
{
moov.Append(AP4_DYNAMIC_CAST(AP4_MoovAtom,atom));
break;
}
}
if (moov.ItemCount() == streamid)
return AP4_ERROR_INVALID_FORMAT;
while (AP4_SUCCEEDED(moov[streamid]->DeleteChild(AP4_ATOM_TYPE_PSSH, 0)));
// Remove tracks we cannot handle
for (AP4_List<AP4_TrakAtom>::Item *item(moov[streamid]->GetTrakAtoms().FirstItem()); item;)
if (!item->GetData()->FindChild("mdia/minf/stbl"))
moov[streamid]->GetTrakAtoms().Remove(item);
else
item = item->GetNext();
track_count += moov[streamid]->GetTrakAtoms().ItemCount();
}
// initialize the processor
if (AP4_FAILED(result = Initialize(top_level, *input[0])))
return result;
// process the tracks if we have a moov atom
m_TrackData.SetItemCount(track_count);
m_StreamData.SetItemCount(input.ItemCount());
//NormalizeTREX(mvex, 0, m_TrackCounts[0], m_TrackCounts[1]);
AP4_Cardinal internal_index(0);
AP4_ContainerAtom *mvex_base(0);
AP4_List<AP4_TrakAtom>::Item *item = NULL;
for (AP4_Size streamid(0); streamid < input.ItemCount(); ++streamid)
{
m_StreamData[streamid].trackStart = internal_index;
m_StreamData[streamid].stream = input[streamid];
if (streamid)
moov[0]->AddTrakAtoms(moov[streamid]->GetTrakAtoms(), item);
else
item = moov[streamid]->GetTrakAtoms().FirstItem();
for (; item; item = item->GetNext())
{
PERTRACK &track_data(m_TrackData[internal_index]);
track_data.original_id = item->GetData()->GetId();
item->GetData()->SetId(track_data.new_id = internal_index + 1);
if (AP4_MdhdAtom* mdhd = AP4_DYNAMIC_CAST(AP4_MdhdAtom, item->GetData()->FindChild("mdia/mdhd")))
track_data.timescale = mdhd->GetTimeScale();
else
track_data.timescale = 1;
AP4_ContainerAtom *mvex = AP4_DYNAMIC_CAST(AP4_ContainerAtom, moov[streamid]->GetChild(AP4_ATOM_TYPE_MVEX, 0));
if (!mvex)
return AP4_ERROR_INVALID_FORMAT;
if (!item->GetData()->GetDuration())
{
AP4_MehdAtom *mehd(AP4_DYNAMIC_CAST(AP4_MehdAtom, mvex->GetChild(AP4_ATOM_TYPE_MEHD, 0)));
item->GetData()->SetDuration(mehd? mehd->GetDuration():0);
}
AP4_TrexAtom *trex(NULL);
unsigned int index(0);
for (; !trex && (trex = AP4_DYNAMIC_CAST(AP4_TrexAtom, mvex->GetChild(AP4_ATOM_TYPE_TREX, index++)));)
if(trex->GetTrackId() != track_data.original_id)
trex = NULL;
if (!trex)
return AP4_ERROR_INVALID_FORMAT;
if (mvex_base)
{
trex = AP4_DYNAMIC_CAST(AP4_TrexAtom, trex->Clone());
mvex_base->AddChild(trex);
}
else
mvex_base = mvex;
trex->SetTrackId(track_data.new_id);
track_data.track_handler = CreateTrackHandler(item->GetData(), trex);
track_data.track_handler->ProcessTrack();
track_data.streamId = streamid;
++m_StreamData[streamid].trackCount;
++internal_index;
}
}
// We don't need the other moovs anymore.....
moov.SetItemCount(1);
AP4_MvhdAtom *mvhd(AP4_DYNAMIC_CAST(AP4_MvhdAtom, moov[0]->GetChild(AP4_ATOM_TYPE_MVHD, 0)));
if (!mvhd->GetDuration())
{
AP4_MehdAtom *mehd(AP4_DYNAMIC_CAST(AP4_MehdAtom, mvex_base->GetChild(AP4_ATOM_TYPE_MEHD, 0)));
mvhd->SetDuration(mehd ? mehd->GetDuration() : 0);
}
// finalize the processor
Finalize(top_level);
// calculate the size of all atoms combined
AP4_UI64 atoms_size = 0;
top_level.GetChildren().Apply(AP4_AtomSizeAdder(atoms_size));
// write all atoms
top_level.GetChildren().Apply(AP4_AtomListWriter(output));
m_MoovAtom = moov[0];
m_MoovAtom->Detach();
}
if (partitions & 2)
{
// process the fragments, if any
result = AP4_SUCCESS;
AP4_Array<AP4_UI64> moof_positions, mdat_positions;
moof_positions.SetItemCount(input.ItemCount());
mdat_positions.SetItemCount(input.ItemCount());
for (;;)
{
AP4_ContainerAtom *moof = NULL;
AP4_UI32 track_index(0);
#if 0
for (AP4_Cardinal streamid(0); streamid < input.ItemCount(); ++streamid)
{
AP4_Atom* atom = NULL;
if (AP4_SUCCEEDED(input[streamid]->Tell(stream_offset)) && AP4_SUCCEEDED(atom_factory.CreateAtomFromStream(*input[streamid], atom)))
{
if (atom->GetType() != AP4_ATOM_TYPE_MOOF)
return AP4_ERROR_INVALID_FORMAT;
moof_positions[streamid] = stream_offset;
mdat_positions[streamid] = stream_offset + atom->GetSize() + +AP4_ATOM_HEADER_SIZE;
if (moof)
{
int index(0);
for (; AP4_Atom* child = AP4_DYNAMIC_CAST(AP4_ContainerAtom, atom)->GetChild(AP4_ATOM_TYPE_TRAF, index++);)
moof->AddChild(child->Clone());
delete atom;
}
else
moof = AP4_DYNAMIC_CAST(AP4_ContainerAtom, atom);
NormalizeTRAF(AP4_DYNAMIC_CAST(AP4_ContainerAtom, moof), m_StreamData[streamid].trackStart,
m_StreamData[streamid].trackStart + m_StreamData[streamid].trackCount, track_index);
}
else
delete atom;
}
#else
double mindts(9999999999.0);
AP4_Cardinal nextStream(~0);
for (AP4_Cardinal track(0); track < m_TrackData.ItemCount(); ++track)
if ((double)m_TrackData[track].dts / m_TrackData[track].timescale < mindts)
{
mindts = (double)m_TrackData[track].dts / m_TrackData[track].timescale;
nextStream = m_TrackData[track].streamId;
}
AP4_Atom* atom = NULL;
if (AP4_SUCCEEDED(result = input[nextStream]->Tell(stream_offset)) && AP4_SUCCEEDED(result = atom_factory.CreateAtomFromStream(*input[nextStream], atom)))
{
if (atom->GetType() != AP4_ATOM_TYPE_MOOF)
return AP4_ERROR_INVALID_FORMAT;
} else if (atom)
return result;
moof_positions[nextStream] = stream_offset;
mdat_positions[nextStream] = stream_offset + atom->GetSize() + +AP4_ATOM_HEADER_SIZE;
moof = AP4_DYNAMIC_CAST(AP4_ContainerAtom, atom);
NormalizeTRAF(AP4_DYNAMIC_CAST(AP4_ContainerAtom, moof), m_StreamData[nextStream].trackStart,
m_StreamData[nextStream].trackStart + m_StreamData[nextStream].trackCount, track_index);
#endif
if (!moof)
break;
if (AP4_FAILED(result = ProcessFragment(moof, NULL, 0, output, moof_positions, mdat_positions)))
return result;
delete moof;
moof = NULL;
}
// cleanup
m_TrackData.Clear();
m_StreamData.Clear();
}
return AP4_SUCCESS;
}