/*
-Copyright (c) 2004-2013, John Hurst
+Copyright (c) 2004-2016, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
#include "AS_DCP_internal.h"
#include <iostream>
#include <iomanip>
+#include <algorithm>
using namespace ASDCP::JP2K;
using Kumu::GenRandomValue;
static std::string JP2K_S_PACKAGE_LABEL = "File Package: SMPTE 429-10 frame wrapping of stereoscopic JPEG 2000 codestreams";
static std::string PICT_DEF_LABEL = "Picture Track";
-int s_exp_lookup[16] = { 0, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024,2048, 4096, 8192, 16384, 32768 };
+static int s_exp_lookup[16] = { 0, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024,2048, 4096, 8192, 16384, 32768 };
//
std::ostream&
strm << " SPqcd: " << Kumu::bin2hex(PDesc.QuantizationDefault.SPqcd, PDesc.QuantizationDefault.SPqcdLength, tmp_buf, MaxDefaults*2)
<< std::endl;
+ if (PDesc.Profile.N != 0) {
+ strm << "Profile:" << std::endl;
+
+ for (ui16_t i = 0; i < PDesc.Profile.N; i++) {
+ strm << " Pprf(" << (i + 1) << "): "
+ << std::hex << std::showbase << PDesc.Profile.Pprf[i] << std::dec << std::noshowbase
+ << std::endl;
+ }
+ }
+
+ if (PDesc.CorrespondingProfile.N != 0) {
+ strm << "Corresponding Profile:" << std::endl;
+
+ for (ui16_t i = 0; i < PDesc.CorrespondingProfile.N; i++) {
+
+ strm << " Pcpf(" << (i + 1) << "): "
+ << std::hex << std::showbase << PDesc.CorrespondingProfile.Pcpf[i] << std::dec << std::noshowbase
+ << std::endl;
+ }
+ }
+
+ if (PDesc.ExtendedCapabilities.N != JP2K::NoExtendedCapabilitiesSignaled && PDesc.ExtendedCapabilities.Pcap != 0) {
+
+ strm << "Extended Capabilities:" << std::endl;
+
+
+ strm << " Pcap:" << PDesc.ExtendedCapabilities.Pcap << std::endl;
+
+ for (i32_t b = 0, i = 0; b < JP2K::MaxCapabilities; b++) {
+
+ if ((PDesc.ExtendedCapabilities.Pcap >> b) & 0x1) {
+
+ strm << " Ccap(" << (JP2K::MaxCapabilities - b) << "): " <<
+ std::hex << std::showbase << PDesc.ExtendedCapabilities.Ccap[i++] << std::dec << std::noshowbase
+ << std::endl;
+
+ }
+ }
+ }
+
return strm;
}
);
}
- fprintf(stream, " Scod: %hd\n", PDesc.CodingStyleDefault.Scod);
- fprintf(stream, " ProgressionOrder: %hd\n", PDesc.CodingStyleDefault.SGcod.ProgressionOrder);
+ fprintf(stream, " Scod: %hhu\n", PDesc.CodingStyleDefault.Scod);
+ fprintf(stream, " ProgressionOrder: %hhu\n", PDesc.CodingStyleDefault.SGcod.ProgressionOrder);
fprintf(stream, " NumberOfLayers: %hd\n",
KM_i16_BE(Kumu::cp2i<ui16_t>(PDesc.CodingStyleDefault.SGcod.NumberOfLayers)));
- fprintf(stream, " MultiCompTransform: %hd\n", PDesc.CodingStyleDefault.SGcod.MultiCompTransform);
- fprintf(stream, "DecompositionLevels: %hd\n", PDesc.CodingStyleDefault.SPcod.DecompositionLevels);
- fprintf(stream, " CodeblockWidth: %hd\n", PDesc.CodingStyleDefault.SPcod.CodeblockWidth);
- fprintf(stream, " CodeblockHeight: %hd\n", PDesc.CodingStyleDefault.SPcod.CodeblockHeight);
- fprintf(stream, " CodeblockStyle: %hd\n", PDesc.CodingStyleDefault.SPcod.CodeblockStyle);
- fprintf(stream, " Transformation: %hd\n", PDesc.CodingStyleDefault.SPcod.Transformation);
+ fprintf(stream, " MultiCompTransform: %hhu\n", PDesc.CodingStyleDefault.SGcod.MultiCompTransform);
+ fprintf(stream, "DecompositionLevels: %hhu\n", PDesc.CodingStyleDefault.SPcod.DecompositionLevels);
+ fprintf(stream, " CodeblockWidth: %hhu\n", PDesc.CodingStyleDefault.SPcod.CodeblockWidth);
+ fprintf(stream, " CodeblockHeight: %hhu\n", PDesc.CodingStyleDefault.SPcod.CodeblockHeight);
+ fprintf(stream, " CodeblockStyle: %hhu\n", PDesc.CodingStyleDefault.SPcod.CodeblockStyle);
+ fprintf(stream, " Transformation: %hhu\n", PDesc.CodingStyleDefault.SPcod.Transformation);
ui32_t precinct_set_size = 0;
for ( i = 0; PDesc.CodingStyleDefault.SPcod.PrecinctSize[i] != 0 && i < MaxPrecincts; ++i )
precinct_set_size++;
- fprintf(stream, " Precincts: %hd\n", precinct_set_size);
+ fprintf(stream, " Precincts: %u\n", precinct_set_size);
fprintf(stream, "precinct dimensions:\n");
for ( i = 0; i < precinct_set_size && i < MaxPrecincts; i++ )
s_exp_lookup[(PDesc.CodingStyleDefault.SPcod.PrecinctSize[i]>>4)&0x0f]
);
- fprintf(stream, " Sqcd: %hd\n", PDesc.QuantizationDefault.Sqcd);
+ fprintf(stream, " Sqcd: %hhu\n", PDesc.QuantizationDefault.Sqcd);
char tmp_buf[MaxDefaults*2];
fprintf(stream, " SPqcd: %s\n",
Kumu::bin2hex(PDesc.QuantizationDefault.SPqcd, PDesc.QuantizationDefault.SPqcdLength,
tmp_buf, MaxDefaults*2)
);
+
+
+ if (PDesc.Profile.N != 0) {
+ fprintf(stream, " Profile:\n");
+
+ for (ui16_t i = 0; i < PDesc.Profile.N; i++) {
+
+ fprintf(stream, " Pprf(%d): %hx\n", i + 1, PDesc.Profile.Pprf[i]);
+
+ }
+ }
+
+ if (PDesc.CorrespondingProfile.N != 0) {
+ fprintf(stream, "Corresponding Profile:\n");
+
+ for (ui16_t i = 0; i < PDesc.CorrespondingProfile.N; i++) {
+ fprintf(stream, " Pcpf(%d): %hx\n", i + 1, PDesc.CorrespondingProfile.Pcpf[i]);
+
+ }
+ }
+
+ if (PDesc.ExtendedCapabilities.N != JP2K::NoExtendedCapabilitiesSignaled) {
+
+ fprintf(stream, "Extended Capabilities: %x\n", PDesc.ExtendedCapabilities.Pcap);
+
+ for (i32_t b = 0, i = 0; b < JP2K::MaxCapabilities && i < PDesc.ExtendedCapabilities.N; b++) {
+
+ if ((PDesc.ExtendedCapabilities.Pcap >> (JP2K::MaxCapabilities - b - 1)) & 0x1) {
+
+ fprintf(stream, " Ccap(%d): %hx\n", b + 1, PDesc.ExtendedCapabilities.Ccap[i++]);
+
+ }
+ }
+
+ }
+
}
EssenceSubDescriptor.QuantizationDefault.get().Length(qdflt_size);
EssenceSubDescriptor.QuantizationDefault.set_has_value();
+ // Profile
+
+ if (PDesc.Profile.N == 0) {
+ EssenceSubDescriptor.J2KProfile.set_has_value(false);
+ } else {
+ EssenceSubDescriptor.J2KProfile.get().resize(PDesc.Profile.N);
+
+ std::copy(PDesc.Profile.Pprf,
+ PDesc.Profile.Pprf + PDesc.Profile.N,
+ EssenceSubDescriptor.J2KProfile.get().begin());
+
+ EssenceSubDescriptor.J2KProfile.set_has_value();
+ }
+
+ // Corresponding profile
+
+ if (PDesc.CorrespondingProfile.N == 0) {
+
+ EssenceSubDescriptor.J2KCorrespondingProfile.set_has_value(false);
+
+ } else {
+ EssenceSubDescriptor.J2KCorrespondingProfile.get().resize(PDesc.CorrespondingProfile.N);
+
+ std::copy(PDesc.CorrespondingProfile.Pcpf,
+ PDesc.CorrespondingProfile.Pcpf + PDesc.CorrespondingProfile.N,
+ EssenceSubDescriptor.J2KCorrespondingProfile.get().begin());
+
+ EssenceSubDescriptor.J2KCorrespondingProfile.set_has_value();
+ }
+
+ // Extended capabilities
+
+ if (PDesc.ExtendedCapabilities.N == JP2K::NoExtendedCapabilitiesSignaled) {
+
+ /* No extended capabilities are signaled */
+
+ EssenceSubDescriptor.J2KExtendedCapabilities.set_has_value(false);
+
+ } else {
+
+ EssenceSubDescriptor.J2KExtendedCapabilities.get().Pcap = PDesc.ExtendedCapabilities.Pcap;
+
+ EssenceSubDescriptor.J2KExtendedCapabilities.get().Ccap.resize(PDesc.ExtendedCapabilities.N);
+
+ std::copy(PDesc.ExtendedCapabilities.Ccap,
+ PDesc.ExtendedCapabilities.Ccap + PDesc.ExtendedCapabilities.N,
+ EssenceSubDescriptor.J2KExtendedCapabilities.get().Ccap.begin());
+
+ EssenceSubDescriptor.J2KExtendedCapabilities.set_has_value(true);
+
+ }
+
return RESULT_OK;
}
}
else
{
- DefaultLogSink().Error("Unexpected PictureComponentSizing size: %u, should be 17\n", tmp_size);
+ DefaultLogSink().Warn("Unexpected PictureComponentSizing size: %u, should be 17.\n", tmp_size);
}
// CodingStyleDefault
EssenceSubDescriptor.QuantizationDefault.const_get().Length());
PDesc.QuantizationDefault.SPqcdLength = EssenceSubDescriptor.QuantizationDefault.const_get().Length() - 1;
+
+ // Profile
+
+ std::fill(PDesc.Profile.Pprf, PDesc.Profile.Pprf + JP2K::MaxPRFN, 0);
+
+ if (EssenceSubDescriptor.J2KProfile.empty() ||
+ EssenceSubDescriptor.J2KProfile.const_get().size() == 0) {
+
+ PDesc.Profile.N = 0;
+
+ } else {
+
+ PDesc.Profile.N = EssenceSubDescriptor.J2KProfile.const_get().size();
+
+ std::copy(EssenceSubDescriptor.J2KProfile.const_get().begin(),
+ EssenceSubDescriptor.J2KProfile.const_get().end(),
+ PDesc.Profile.Pprf);
+
+ }
+
+ // Corresponding profile
+
+ std::fill(PDesc.CorrespondingProfile.Pcpf, PDesc.CorrespondingProfile.Pcpf + JP2K::MaxCPFN, 0);
+
+ if (EssenceSubDescriptor.J2KCorrespondingProfile.empty() ||
+ EssenceSubDescriptor.J2KCorrespondingProfile.const_get().size() == 0) {
+
+ PDesc.CorrespondingProfile.N = 0;
+
+ }
+ else {
+
+ PDesc.CorrespondingProfile.N = EssenceSubDescriptor.J2KCorrespondingProfile.const_get().size();
+
+ std::copy(EssenceSubDescriptor.J2KCorrespondingProfile.const_get().begin(),
+ EssenceSubDescriptor.J2KCorrespondingProfile.const_get().end(),
+ PDesc.CorrespondingProfile.Pcpf);
+
+ }
+
+ // Extended capabilities
+
+ std::fill(PDesc.ExtendedCapabilities.Ccap, PDesc.ExtendedCapabilities.Ccap + JP2K::MaxCapabilities, 0);
+
+ if (EssenceSubDescriptor.J2KExtendedCapabilities.empty()) {
+
+ PDesc.ExtendedCapabilities.Pcap = 0;
+ PDesc.ExtendedCapabilities.N = JP2K::NoExtendedCapabilitiesSignaled;
+
+ }
+ else {
+
+ PDesc.ExtendedCapabilities.Pcap = EssenceSubDescriptor.J2KExtendedCapabilities.const_get().Pcap;
+ PDesc.ExtendedCapabilities.N = EssenceSubDescriptor.J2KExtendedCapabilities.const_get().Ccap.size();
+
+ std::copy(EssenceSubDescriptor.J2KExtendedCapabilities.const_get().Ccap.begin(),
+ EssenceSubDescriptor.J2KExtendedCapabilities.const_get().Ccap.end(),
+ PDesc.ExtendedCapabilities.Ccap);
+
+ }
+
return RESULT_OK;
}
DefaultLogSink().Warn("EditRate and SampleRate do not match (%.03f, %.03f).\n",
m_EditRate.Quotient(), m_SampleRate.Quotient());
- if ( m_EditRate == EditRate_24 && m_SampleRate == EditRate_48 ||
- m_EditRate == EditRate_25 && m_SampleRate == EditRate_50 ||
- m_EditRate == EditRate_30 && m_SampleRate == EditRate_60 ||
- m_EditRate == EditRate_48 && m_SampleRate == EditRate_96 ||
- m_EditRate == EditRate_50 && m_SampleRate == EditRate_100 ||
- m_EditRate == EditRate_60 && m_SampleRate == EditRate_120 )
+ if ( ( m_EditRate == EditRate_24 && m_SampleRate == EditRate_48 )
+ || ( m_EditRate == EditRate_25 && m_SampleRate == EditRate_50 )
+ || ( m_EditRate == EditRate_30 && m_SampleRate == EditRate_60 )
+ || ( m_EditRate == EditRate_48 && m_SampleRate == EditRate_96 )
+ || ( m_EditRate == EditRate_50 && m_SampleRate == EditRate_100 )
+ || ( m_EditRate == EditRate_60 && m_SampleRate == EditRate_120 )
+ || ( m_EditRate == EditRate_96 && m_SampleRate == EditRate_192 )
+ || ( m_EditRate == EditRate_100 && m_SampleRate == EditRate_200 )
+ || ( m_EditRate == EditRate_120 && m_SampleRate == EditRate_240 ) )
{
DefaultLogSink().Debug("File may contain JPEG Interop stereoscopic images.\n");
return RESULT_SFORMAT;
return RESULT_FORMAT;
}
}
+ else if ( m_EditRate == EditRate_96 )
+ {
+ if ( m_SampleRate != EditRate_192 )
+ {
+ DefaultLogSink().Error("EditRate and SampleRate not correct for 96/192 stereoscopic essence.\n");
+ return RESULT_FORMAT;
+ }
+ }
+ else if ( m_EditRate == EditRate_100 )
+ {
+ if ( m_SampleRate != EditRate_200 )
+ {
+ DefaultLogSink().Error("EditRate and SampleRate not correct for 100/200 stereoscopic essence.\n");
+ return RESULT_FORMAT;
+ }
+ }
+ else if ( m_EditRate == EditRate_120 )
+ {
+ if ( m_SampleRate != EditRate_240 )
+ {
+ DefaultLogSink().Error("EditRate and SampleRate not correct for 120/240 stereoscopic essence.\n");
+ return RESULT_FORMAT;
+ }
+ }
else
{
DefaultLogSink().Error("EditRate not correct for stereoscopic essence: %d/%d.\n",
if ( ASDCP_SUCCESS(result) )
{
- result = WriteASDCPHeader(label, UL(m_Dict->ul(MDD_JPEG_2000WrappingFrame)),
+ result = WriteASDCPHeader(label, UL(m_Dict->ul(MDD_MXFGCFUFrameWrappedPictureElement)),
PICT_DEF_LABEL, UL(m_EssenceUL), UL(m_Dict->ul(MDD_PictureDataDef)),
LocalEditRate, derive_timecode_rate_from_edit_rate(m_PDesc.EditRate));
}
ui64_t StreamOffset = m_StreamOffset;
if ( ASDCP_SUCCESS(result) )
- result = WriteEKLVPacket(FrameBuf, m_EssenceUL, Ctx, HMAC);
+ result = WriteEKLVPacket(FrameBuf, m_EssenceUL, MXF_BER_LENGTH, Ctx, HMAC);
if ( ASDCP_SUCCESS(result) && add_index )
{
else if ( PDesc.EditRate == ASDCP::EditRate_60 )
TmpPDesc.EditRate = ASDCP::EditRate_120;
+ else if ( PDesc.EditRate == ASDCP::EditRate_96 )
+ TmpPDesc.EditRate = ASDCP::EditRate_192;
+
+ else if ( PDesc.EditRate == ASDCP::EditRate_100 )
+ TmpPDesc.EditRate = ASDCP::EditRate_200;
+
+ else if ( PDesc.EditRate == ASDCP::EditRate_120 )
+ TmpPDesc.EditRate = ASDCP::EditRate_240;
+
result = m_Writer->SetSourceStream(TmpPDesc, JP2K_S_PACKAGE_LABEL, PDesc.EditRate);
}