#include "mp4_generic.h" #include "defines.h" namespace MP4 { MFHD::MFHD() { memcpy(data + 4, "mfhd", 4); setInt32(0, 0); } void MFHD::setSequenceNumber(uint32_t newSequenceNumber) { setInt32(newSequenceNumber, 4); } uint32_t MFHD::getSequenceNumber() { return getInt32(4); } std::string MFHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[mfhd] Movie Fragment Header (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "SequenceNumber " << getSequenceNumber() << std::endl; return r.str(); } MOOF::MOOF() { memcpy(data + 4, "moof", 4); } TRAF::TRAF() { memcpy(data + 4, "traf", 4); } uint32_t TRAF::getContentCount() { int res = 0; unsigned int tempLoc = 0; while (tempLoc < boxedSize() - 8) { res++; tempLoc += getBoxLen(tempLoc); } return res; } void TRAF::setContent(Box & newContent, uint32_t no) { int tempLoc = 0; unsigned int contentCount = getContentCount(); for (unsigned int i = 0; i < no; i++) { if (i < contentCount) { tempLoc += getBoxLen(tempLoc); } else { if (!reserve(tempLoc, 0, (no - contentCount) * 8)) { return; }; memset(data + tempLoc, 0, (no - contentCount) * 8); tempLoc += (no - contentCount) * 8; break; } } setBox(newContent, tempLoc); } Box & TRAF::getContent(uint32_t no) { static Box ret = Box((char *)"\000\000\000\010erro", false); if (no > getContentCount()) { return ret; } unsigned int i = 0; int tempLoc = 0; while (i < no) { tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string TRAF::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[traf] Track Fragment Box (" << boxedSize() << ")" << std::endl; int contentCount = getContentCount(); for (int i = 0; i < contentCount; i++) { Box curBox = Box(getContent(i).asBox(), false); r << curBox.toPrettyString(indent + 1); } return r.str(); } TRUN::TRUN() { memcpy(data + 4, "trun", 4); } void TRUN::setFlags(uint32_t newFlags) { setInt24(newFlags, 1); } uint32_t TRUN::getFlags() { return getInt24(1); } void TRUN::setDataOffset(uint32_t newOffset) { if (getFlags() & trundataOffset) { setInt32(newOffset, 8); } } uint32_t TRUN::getDataOffset() { if (getFlags() & trundataOffset) { return getInt32(8); } else { return 0; } } void TRUN::setFirstSampleFlags(uint32_t newSampleFlags) { if (!(getFlags() & trunfirstSampleFlags)) { return; } if (getFlags() & trundataOffset) { setInt32(newSampleFlags, 12); } else { setInt32(newSampleFlags, 8); } } uint32_t TRUN::getFirstSampleFlags() { if (!(getFlags() & trunfirstSampleFlags)) { return 0; } if (getFlags() & trundataOffset) { return getInt32(12); } else { return getInt32(8); } } uint32_t TRUN::getSampleInformationCount() { return getInt32(4); } void TRUN::setSampleInformation(trunSampleInformation newSample, uint32_t no) { uint32_t flags = getFlags(); uint32_t sampInfoSize = 0; if (flags & trunsampleDuration) { sampInfoSize += 4; } if (flags & trunsampleSize) { sampInfoSize += 4; } if (flags & trunsampleFlags) { sampInfoSize += 4; } if (flags & trunsampleOffsets) { sampInfoSize += 4; } uint32_t offset = 8; if (flags & trundataOffset) { offset += 4; } if (flags & trunfirstSampleFlags) { offset += 4; } uint32_t innerOffset = 0; if (flags & trunsampleDuration) { setInt32(newSample.sampleDuration, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleSize) { setInt32(newSample.sampleSize, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleFlags) { setInt32(newSample.sampleFlags, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleOffsets) { setInt32(newSample.sampleOffset, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (getSampleInformationCount() < no + 1) { setInt32(no + 1, 4); } } trunSampleInformation TRUN::getSampleInformation(uint32_t no) { trunSampleInformation ret; ret.sampleDuration = 0; ret.sampleSize = 0; ret.sampleFlags = 0; ret.sampleOffset = 0; if (getSampleInformationCount() < no + 1) { return ret; } uint32_t flags = getFlags(); uint32_t sampInfoSize = 0; if (flags & trunsampleDuration) { sampInfoSize += 4; } if (flags & trunsampleSize) { sampInfoSize += 4; } if (flags & trunsampleFlags) { sampInfoSize += 4; } if (flags & trunsampleOffsets) { sampInfoSize += 4; } uint32_t offset = 8; if (flags & trundataOffset) { offset += 4; } if (flags & trunfirstSampleFlags) { offset += 4; } uint32_t innerOffset = 0; if (flags & trunsampleDuration) { ret.sampleDuration = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleSize) { ret.sampleSize = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleFlags) { ret.sampleFlags = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleOffsets) { ret.sampleOffset = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } return ret; } std::string TRUN::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[trun] Track Fragment Run (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getInt8(0) << std::endl; uint32_t flags = getFlags(); r << std::string(indent + 1, ' ') << "Flags"; if (flags & trundataOffset) { r << " dataOffset"; } if (flags & trunfirstSampleFlags) { r << " firstSampleFlags"; } if (flags & trunsampleDuration) { r << " sampleDuration"; } if (flags & trunsampleSize) { r << " sampleSize"; } if (flags & trunsampleFlags) { r << " sampleFlags"; } if (flags & trunsampleOffsets) { r << " sampleOffsets"; } r << std::endl; if (flags & trundataOffset) { r << std::string(indent + 1, ' ') << "Data Offset " << getDataOffset() << std::endl; } if (flags & trundataOffset) { r << std::string(indent + 1, ' ') << "Sample Flags" << prettySampleFlags(getFirstSampleFlags()) << std::endl; } r << std::string(indent + 1, ' ') << "SampleInformation (" << getSampleInformationCount() << "):" << std::endl; for (unsigned int i = 0; i < getSampleInformationCount(); ++i) { r << std::string(indent + 2, ' ') << "[" << i << "] "; trunSampleInformation samp = getSampleInformation(i); if (flags & trunsampleDuration) { r << "Duration=" << samp.sampleDuration << " "; } if (flags & trunsampleSize) { r << "Size=" << samp.sampleSize << " "; } if (flags & trunsampleFlags) { r << "Flags=" << prettySampleFlags(samp.sampleFlags) << " "; } if (flags & trunsampleOffsets) { r << "Offset=" << samp.sampleOffset << " "; } r << std::endl; } return r.str(); } std::string prettySampleFlags(uint32_t flag) { std::stringstream r; if (flag & noIPicture) { r << " noIPicture"; } if (flag & isIPicture) { r << " isIPicture"; } if (flag & noDisposable) { r << " noDisposable"; } if (flag & isDisposable) { r << " isDisposable"; } if (flag & isRedundant) { r << " isRedundant"; } if (flag & noRedundant) { r << " noRedundant"; } if (flag & noKeySample) { r << " noKeySample"; } else { r << " isKeySample"; } return r.str(); } TFHD::TFHD() { memcpy(data + 4, "tfhd", 4); } void TFHD::setFlags(uint32_t newFlags) { setInt24(newFlags, 1); } uint32_t TFHD::getFlags() { return getInt24(1); } void TFHD::setTrackID(uint32_t newID) { setInt32(newID, 4); } uint32_t TFHD::getTrackID() { return getInt32(4); } void TFHD::setBaseDataOffset(uint64_t newOffset) { if (getFlags() & tfhdBaseOffset) { setInt64(newOffset, 8); } } uint64_t TFHD::getBaseDataOffset() { if (getFlags() & tfhdBaseOffset) { return getInt64(8); } else { return 0; } } void TFHD::setSampleDescriptionIndex(uint32_t newIndex) { if (!(getFlags() & tfhdSampleDesc)) { return; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } setInt32(newIndex, offset); } uint32_t TFHD::getSampleDescriptionIndex() { if (!(getFlags() & tfhdSampleDesc)) { return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } return getInt32(offset); } void TFHD::setDefaultSampleDuration(uint32_t newDuration) { if (!(getFlags() & tfhdSampleDura)) { return; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } setInt32(newDuration, offset); } uint32_t TFHD::getDefaultSampleDuration() { if (!(getFlags() & tfhdSampleDura)) { return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } return getInt32(offset); } void TFHD::setDefaultSampleSize(uint32_t newSize) { if (!(getFlags() & tfhdSampleSize)) { return; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } if (getFlags() & tfhdSampleDura) { offset += 4; } setInt32(newSize, offset); } uint32_t TFHD::getDefaultSampleSize() { if (!(getFlags() & tfhdSampleSize)) { return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } if (getFlags() & tfhdSampleDura) { offset += 4; } return getInt32(offset); } void TFHD::setDefaultSampleFlags(uint32_t newFlags) { if (!(getFlags() & tfhdSampleFlag)) { return; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } if (getFlags() & tfhdSampleDura) { offset += 4; } if (getFlags() & tfhdSampleSize) { offset += 4; } setInt32(newFlags, offset); } uint32_t TFHD::getDefaultSampleFlags() { if (!(getFlags() & tfhdSampleFlag)) { return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset) { offset += 8; } if (getFlags() & tfhdSampleDesc) { offset += 4; } if (getFlags() & tfhdSampleDura) { offset += 4; } if (getFlags() & tfhdSampleSize) { offset += 4; } return getInt32(offset); } std::string TFHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[tfhd] Track Fragment Header (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getInt8(0) << std::endl; uint32_t flags = getFlags(); r << std::string(indent + 1, ' ') << "Flags"; if (flags & tfhdBaseOffset) { r << " BaseOffset"; } if (flags & tfhdSampleDesc) { r << " SampleDesc"; } if (flags & tfhdSampleDura) { r << " SampleDura"; } if (flags & tfhdSampleSize) { r << " SampleSize"; } if (flags & tfhdSampleFlag) { r << " SampleFlag"; } if (flags & tfhdNoDuration) { r << " NoDuration"; } r << std::endl; r << std::string(indent + 1, ' ') << "TrackID " << getTrackID() << std::endl; if (flags & tfhdBaseOffset) { r << std::string(indent + 1, ' ') << "Base Offset " << getBaseDataOffset() << std::endl; } if (flags & tfhdSampleDesc) { r << std::string(indent + 1, ' ') << "Sample Description Index " << getSampleDescriptionIndex() << std::endl; } if (flags & tfhdSampleDura) { r << std::string(indent + 1, ' ') << "Default Sample Duration " << getDefaultSampleDuration() << std::endl; } if (flags & tfhdSampleSize) { r << std::string(indent + 1, ' ') << "Default Same Size " << getDefaultSampleSize() << std::endl; } if (flags & tfhdSampleFlag) { r << std::string(indent + 1, ' ') << "Default Sample Flags " << prettySampleFlags(getDefaultSampleFlags()) << std::endl; } return r.str(); } AVCC::AVCC() { memcpy(data + 4, "avcC", 4); setInt8(0xFF, 4); //reserved + 4-bytes NAL length } void AVCC::setVersion(uint32_t newVersion) { setInt8(newVersion, 0); } uint32_t AVCC::getVersion() { return getInt8(0); } void AVCC::setProfile(uint32_t newProfile) { setInt8(newProfile, 1); } uint32_t AVCC::getProfile() { return getInt8(1); } void AVCC::setCompatibleProfiles(uint32_t newCompatibleProfiles) { setInt8(newCompatibleProfiles, 2); } uint32_t AVCC::getCompatibleProfiles() { return getInt8(2); } void AVCC::setLevel(uint32_t newLevel) { setInt8(newLevel, 3); } uint32_t AVCC::getLevel() { return getInt8(3); } void AVCC::setSPSNumber(uint32_t newSPSNumber) { setInt8(newSPSNumber, 5); } uint32_t AVCC::getSPSNumber() { return getInt8(5); } void AVCC::setSPS(std::string newSPS) { setInt16(newSPS.size(), 6); for (unsigned int i = 0; i < newSPS.size(); i++) { setInt8(newSPS[i], 8 + i); } //not null-terminated } uint32_t AVCC::getSPSLen() { return getInt16(6); } char * AVCC::getSPS() { return payload() + 8; } void AVCC::setPPSNumber(uint32_t newPPSNumber) { int offset = 8 + getSPSLen(); setInt8(newPPSNumber, offset); } uint32_t AVCC::getPPSNumber() { int offset = 8 + getSPSLen(); return getInt8(offset); } void AVCC::setPPS(std::string newPPS) { int offset = 8 + getSPSLen() + 1; setInt16(newPPS.size(), offset); for (unsigned int i = 0; i < newPPS.size(); i++) { setInt8(newPPS[i], offset + 2 + i); } //not null-terminated } uint32_t AVCC::getPPSLen() { int offset = 8 + getSPSLen() + 1; return getInt16(offset); } char * AVCC::getPPS() { int offset = 8 + getSPSLen() + 3; return payload() + offset; } std::string AVCC::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[avcC] H.264 Init Data (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version: " << getVersion() << std::endl; r << std::string(indent + 1, ' ') << "Profile: " << getProfile() << std::endl; r << std::string(indent + 1, ' ') << "Compatible Profiles: " << getCompatibleProfiles() << std::endl; r << std::string(indent + 1, ' ') << "Level: " << getLevel() << std::endl; r << std::string(indent + 1, ' ') << "SPS Number: " << getSPSNumber() << std::endl; r << std::string(indent + 2, ' ') << getSPSLen() << " of SPS data" << std::endl; r << std::string(indent + 1, ' ') << "PPS Number: " << getPPSNumber() << std::endl; r << std::string(indent + 2, ' ') << getPPSLen() << " of PPS data" << std::endl; return r.str(); } std::string AVCC::asAnnexB() { std::stringstream r; r << (char)0x00 << (char)0x00 << (char)0x00 << (char)0x01; r.write(getSPS(), getSPSLen()); r << (char)0x00 << (char)0x00 << (char)0x00 << (char)0x01; r.write(getPPS(), getPPSLen()); return r.str(); } void AVCC::setPayload(std::string newPayload) { if (!reserve(0, payloadSize(), newPayload.size())) { DEBUG_MSG(DLVL_ERROR, "Cannot allocate enough memory for payload"); return; } memcpy((char *)payload(), (char *)newPayload.c_str(), newPayload.size()); } HVCC::HVCC() { memcpy(data + 4, "hvcC", 4); } void HVCC::setConfigurationVersion(char newVersion) { setInt8(newVersion, 0); } char HVCC::getConfigurationVersion() { return getInt8(0); } void HVCC::setGeneralProfileSpace(char newGeneral) { setInt8(((newGeneral << 6) & 0xC0) | (getInt8(1) & 0x3F), 1); } char HVCC::getGeneralProfileSpace(){ return ((getInt8(1) >> 6) & 0x03); } void HVCC::setGeneralTierFlag(char newGeneral){ setInt8(((newGeneral << 5) & 0x20) | (getInt8(1) & 0xDF), 1); } char HVCC::getGeneralTierFlag(){ return ((getInt8(1) >> 5) & 0x01); } void HVCC::setGeneralProfileIdc(char newGeneral){ setInt8((newGeneral & 0x1F) | (getInt8(1) & 0xE0), 1); } char HVCC::getGeneralProfileIdc(){ return getInt8(1) & 0x1F; } void HVCC::setGeneralProfileCompatibilityFlags(unsigned long newGeneral){ setInt32(newGeneral, 2); } unsigned long HVCC::getGeneralProfileCompatibilityFlags(){ return getInt32(2); } void HVCC::setGeneralConstraintIndicatorFlags(unsigned long long newGeneral){ setInt32((newGeneral >> 16) & 0x0000FFFF,6); setInt16(newGeneral & 0xFFFFFF, 10); } unsigned long long HVCC::getGeneralConstraintIndicatorFlags(){ unsigned long long result = getInt32(6); result <<= 16; return result | getInt16(10); } void HVCC::setGeneralLevelIdc(char newGeneral){ setInt8(newGeneral, 12); } char HVCC::getGeneralLevelIdc(){ return getInt8(12); } void HVCC::setMinSpatialSegmentationIdc(short newIdc){ setInt16(newIdc | 0xF000, 13); } short HVCC::getMinSpatialSegmentationIdc(){ return getInt16(13) & 0x0FFF; } void HVCC::setParallelismType(char newType){ setInt8(newType | 0xFC, 15); } char HVCC::getParallelismType(){ return getInt8(15) & 0x03; } void HVCC::setChromaFormat(char newFormat){ setInt8(newFormat | 0xFC, 16); } char HVCC::getChromaFormat(){ return getInt8(16) & 0x03; } void HVCC::setBitDepthLumaMinus8(char newBitDepthLumaMinus8){ setInt8(newBitDepthLumaMinus8 | 0xF8, 17); } char HVCC::getBitDepthLumaMinus8(){ return getInt8(17) & 0x07; } void HVCC::setBitDepthChromaMinus8(char newBitDepthChromaMinus8){ setInt8(newBitDepthChromaMinus8 | 0xF8, 18); } char HVCC::getBitDepthChromaMinus8(){ return getInt8(18) & 0x07; } void setAverageFramerate(short newFramerate); short HVCC::getAverageFramerate(){ return getInt16(19); } void setConstantFramerate(char newFramerate); char HVCC::getConstantFramerate(){ return (getInt8(21) >> 6) & 0x03; } void setNumberOfTemporalLayers(char newNumber); char HVCC::getNumberOfTemporalLayers(){ return (getInt8(21) >> 3) & 0x07; } void setTemporalIdNested(char newNested); char HVCC::getTemporalIdNested(){ return (getInt8(21) >> 2) & 0x01; } void setLengthSizeMinus1(char newLengthSizeMinus1); char HVCC::getLengthSizeMinus1(){ return getInt8(21) & 0x03; } std::deque HVCC::getArrays(){ std::deque r; char arrayCount = getInt8(22); int offset = 23; for(int i = 0; i < arrayCount; i++){ HVCCArrayEntry entry; entry.arrayCompleteness = ((getInt8(offset) >> 7) & 0x01); entry.nalUnitType = (getInt8(offset) & 0x3F); offset++; short naluCount = getInt16(offset); offset += 2; for (int j = 0; j < naluCount; j++){ short naluSize = getInt16(offset); offset += 2; std::string nalu; for (int k = 0; k < naluSize; k++){ nalu += (char)getInt8(offset++); } entry.nalUnits.push_back(nalu); } r.push_back(entry); } return r; } std::string HVCC::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[hvcC] H.265 Init Data (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Configuration Version: " << (int)getConfigurationVersion() << std::endl; r << std::string(indent + 1, ' ') << "General Profile Space: " << (int)getGeneralProfileSpace() << std::endl; r << std::string(indent + 1, ' ') << "General Tier Flag: " << (int)getGeneralTierFlag() << std::endl; r << std::string(indent + 1, ' ') << "General Profile IDC: " << (int)getGeneralProfileIdc() << std::endl; r << std::string(indent + 1, ' ') << "General Profile Compatibility Flags: 0x" << std::hex << std::setw(8) << std::setfill('0') << getGeneralProfileCompatibilityFlags() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "General Constraint Indicator Flags: 0x" << std::hex << std::setw(12) << std::setfill('0') << getGeneralConstraintIndicatorFlags() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "General Level IDC: " << (int)getGeneralLevelIdc() << std::endl; r << std::string(indent + 1, ' ') << "Minimum Spatial Segmentation IDC: " << (int)getMinSpatialSegmentationIdc() << std::endl; r << std::string(indent + 1, ' ') << "Parallelism Type: " << (int)getParallelismType() << std::endl; r << std::string(indent + 1, ' ') << "Chroma Format: " << (int)getChromaFormat() << std::endl; r << std::string(indent + 1, ' ') << "Bit Depth Luma - 8: " << (int)getBitDepthLumaMinus8() << std::endl; r << std::string(indent + 1, ' ') << "Average Framerate: " << (int)getAverageFramerate() << std::endl; r << std::string(indent + 1, ' ') << "Constant Framerate: " << (int)getConstantFramerate() << std::endl; r << std::string(indent + 1, ' ') << "Number of Temporal Layers: " << (int)getNumberOfTemporalLayers() << std::endl; r << std::string(indent + 1, ' ') << "Temporal ID Nested: " << (int)getTemporalIdNested() << std::endl; r << std::string(indent + 1, ' ') << "Length Size - 1: " << (int)getLengthSizeMinus1() << std::endl; r << std::string(indent + 1, ' ') << "Arrays:" << std::endl; std::deque arrays = getArrays(); for (unsigned int i = 0; i < arrays.size(); i++){ r << std::string(indent + 2, ' ') << "Array with type " << (int)arrays[i].nalUnitType << std::endl; for (unsigned int j = 0; j < arrays[i].nalUnits.size(); j++){ r << std::string(indent + 3, ' ') << "Nal unit of " << arrays[i].nalUnits[j].size() << " bytes" << std::endl; } } return r.str(); } void HVCC::setPayload(std::string newPayload) { if (!reserve(0, payloadSize(), newPayload.size())) { DEBUG_MSG(DLVL_ERROR, "Cannot allocate enough memory for payload"); return; } memcpy((char *)payload(), (char *)newPayload.c_str(), newPayload.size()); } std::string HVCC::asAnnexB() { std::deque arrays = getArrays(); std::stringstream r; for (unsigned int i = 0; i < arrays.size(); i++){ for (unsigned int j = 0; j < arrays[i].nalUnits.size(); j++){ r << (char)0x00 << (char)0x00 << (char)0x00 << (char)0x01 << arrays[i].nalUnits[j]; } } return r.str(); } Descriptor::Descriptor(){ data = (char*)malloc(2); data[0] = 0; data[1] = 0; size = 2; master = true; } Descriptor::Descriptor(const char* p, const long unsigned s, const bool m){ master = m; if (m){ Descriptor(); Descriptor tmp = Descriptor(p, s, false); resize(tmp.getDataSize()); memcpy(data, p, s); }else{ data = (char*)p; size = s; } } char Descriptor::getTag(){ return data[0]; } void Descriptor::setTag(char t){ data[0] = t; } unsigned long Descriptor::getDataSize(){ unsigned int i = 1; unsigned long s = 0; for (i = 1; i< size-1; i++){ s <<= 7; s |= data[i] & 0x7f; if ((data[i] & 0x80) != 0x80){ break; } } return s; } unsigned long Descriptor::getFullSize(){ unsigned long tmp = getDataSize(); unsigned long r = tmp+2; if (tmp > 0x7F){ ++r; } if (tmp > 0x3FFF){ ++r; } if (tmp > 0x1FFFFF){ ++r; } return r; } void Descriptor::resize(unsigned long t){ if (!master){return;} unsigned long realLen = t+2; if (t > 0x7F){ ++realLen; } if (t > 0x3FFF){ ++realLen; } if (t > 0x1FFFFF){ ++realLen; } if (size < realLen){ char* tmpData = (char*)realloc(data,realLen); if (tmpData){ size = realLen; data = tmpData; unsigned long offset = realLen-t; char continueBit = 0; while (realLen){ data[--offset] = (0x7f & realLen) | continueBit; continueBit = 0x80; realLen >>= 7; } }else{ return; } } } char* Descriptor::getData(){ unsigned int i = 1; for (i = 1; i< size-1; i++){ if ((data[i] & 0x80) != 0x80){ break; } } return data + i + 1; } std::string Descriptor::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[" << (int)data[0] << "] Unimplemented descriptor (" << getDataSize() << ")" << std::endl; return r.str(); } ESDescriptor::ESDescriptor (const char* p, const unsigned long l, const bool m) : Descriptor(p,l,m){ } DCDescriptor ESDescriptor::getDecoderConfig(){ char * p = getData(); char * max_p = p + getDataSize(); bool dep = (p[2] & 0x80); bool url = (p[2] & 0x40); bool ocr = (p[2] & 0x20); p += 3; if (dep){p += 2;} if (url){p += (1+p[0]);} if (ocr){p += 2;} return DCDescriptor(p, max_p-p); } std::string ESDescriptor::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[" << (int)data[0] << "] ES Descriptor (" << getDataSize() << ")" << std::endl; char * p = getData(); char * max_p = p + getDataSize(); r << std::string(indent+1, ' ') << "ES ID: " << (unsigned int)(((unsigned int)p[0] << 8) | (unsigned int)p[1]) << std::endl; bool dep = (p[2] & 0x80);//check pagina 28 ISO 1449-1 2001 bool url = (p[2] & 0x40); bool ocr = (p[2] & 0x20); //6 & 86 r << std::string(indent+1, ' ') << "Priority: " << int(p[2] & 0x1f) << std::endl; p += 3; if (dep){ r << std::string(indent+1, ' ') << "Depends on ES ID: " << (unsigned int)(((unsigned int)p[0] << 8) | (unsigned int)p[1]) << std::endl; p += 2; } if (url){ r << std::string(indent+1, ' ') << "URL: " << std::string(p+1, (unsigned int)p[0]) << std::endl; p += (1+p[0]); } if (ocr){ r << std::string(indent+1, ' ') << "Timebase derived from ES ID: " << (unsigned int)(((unsigned int)p[0] << 8) | (unsigned int)p[1]) << std::endl; p += 2; } while (p < max_p){ switch (p[0]){ case 0x4: { DCDescriptor d(p, max_p - p); r << d.toPrettyString(indent+1); p += d.getFullSize(); } default: { Descriptor d(p, max_p - p); r << d.toPrettyString(indent+1); p += d.getFullSize(); } } } return r.str(); } DCDescriptor::DCDescriptor (const char* p, const unsigned long l, const bool m) : Descriptor(p,l,m){ } DSDescriptor DCDescriptor::getSpecific(){ char * p = getData(); char * max_p = p + getDataSize(); p += 13; if (p[0] == 0x05){ return DSDescriptor(p, max_p-p); }else{ FAIL_MSG("Expected DSDescriptor (5), but found %d!", (int)p[0]); return DSDescriptor(0,0); } } bool DCDescriptor::isAAC(){ return (getData()[0] == 0x40); } std::string DCDescriptor::getCodec(){ switch(getData()[0]){ case 0x40: return "AAC"; break; case 0x69: case 0x6B: return "MP3"; break; default: return "UNKNOWN"; } } std::string DCDescriptor::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[" << (int)data[0] << "] DecoderConfig Descriptor (" << getDataSize() << ")" << std::endl; char * p = getData(); char * max_p = p + getDataSize(); int objType = p[0]; r << std::string(indent+1, ' ') << "Object type: "; switch (objType){ case 0x40: r << "AAC (0x40)"; break; case 0x69: r << "MP3 (0x69)"; break; default: r << "Unknown (" << objType << ")"; break; } r << std::endl; int streamType = (p[1] >> 2) & 0x3F; r << std::string(indent+1, ' ') << "Stream type: "; switch (streamType){ case 0x4: r << "Video (4)"; break; case 0x5: r << "Audio (5)"; break; default: r << "Unknown (" << streamType << ")"; break; } r << std::endl; if (p[1] & 0x2){ r << std::string(indent+1, ' ') << "Upstream" << std::endl; } r << std::string(indent+1, ' ') << "Buffer size: " << (int)(((int)p[2] << 16) | ((int)p[3] << 8) | ((int)p[4])) << std::endl; r << std::string(indent+1, ' ') << "Max bps: " << (unsigned int)(((unsigned int)p[5] << 24) | ((int)p[6] << 16) | ((int)p[7] << 8) | (int)p[8]) << std::endl; r << std::string(indent+1, ' ') << "Avg bps: " << (unsigned int)(((unsigned int)p[9] << 24) | ((int)p[10] << 16) | ((int)p[11] << 8) | (int)p[12]) << std::endl; p += 13; while (p < max_p){ switch (p[0]){ case 0x5: { DSDescriptor d(p, max_p - p); r << d.toPrettyString(indent+1); p += d.getFullSize(); } default: { Descriptor d(p, max_p - p); r << d.toPrettyString(indent+1); p += d.getFullSize(); } } } return r.str(); } DSDescriptor::DSDescriptor (const char* p, const unsigned long l, const bool m) : Descriptor(p,l,m){ } std::string DSDescriptor::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[" << (int)data[0] << "] Decoder Specific Info (" << getDataSize() << ")" << std::endl; char * p = getData(); char * max_p = p + getDataSize(); r << std::string(indent+1, ' ') << "Data: "; while (p < max_p) { r << std::hex << std::setw(2) << std::setfill('0') << (int)p[0] << std::dec; ++p; } r << std::endl; return r.str(); } std::string DSDescriptor::toString(){ if (!data){ return ""; } return std::string(getData(), getDataSize()); } ESDS::ESDS() { memcpy(data + 4, "esds", 4); } ESDS::ESDS(std::string init) { ///\todo Do this better, in a non-hardcoded way. memcpy(data + 4, "esds", 4); reserve(payloadOffset, 0, init.size() ? init.size()+28 : 26); unsigned int i = 12; data[i++] = 3;//ES_DescrTag data[i++] = init.size() ? init.size()+23 : 21;//size data[i++] = 0;//es_id data[i++] = 2;//es_id data[i++] = 0;//priority data[i++] = 4;//DecoderConfigDescrTag data[i++] = init.size() ? init.size()+15 : 13;//size if (init.size()){ data[i++] = 0x40;//objType AAC }else{ data[i++] = 0x69;//objType MP3 } data[i++] = 0x15;//streamType audio (5<<2 + 1) data[i++] = 0;//buffer size data[i++] = 0;//buffer size data[i++] = 0;//buffer size data[i++] = 0;//maxbps data[i++] = 0;//maxbps data[i++] = 0;//maxbps data[i++] = 0;//maxbps data[i++] = 0;//avgbps data[i++] = 0;//avgbps data[i++] = 0;//avgbps data[i++] = 0;//avgbps if (init.size()){ data[i++] = 0x5;//DecSpecificInfoTag data[i++] = init.size(); memcpy(data+i, init.data(), init.size()); i += init.size(); } data[i++] = 6;//SLConfigDescriptor data[i++] = 1;//size data[i++] = 2;//predefined, reserved for use in MP4 files } bool ESDS::isAAC(){ return getESDescriptor().getDecoderConfig().isAAC(); } std::string ESDS::getCodec(){ return getESDescriptor().getDecoderConfig().getCodec(); } std::string ESDS::getInitData(){ return getESDescriptor().getDecoderConfig().getSpecific().toString(); } ESDescriptor ESDS::getESDescriptor(){ return ESDescriptor(data+12,boxedSize()-12); } std::string ESDS::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[esds] ES Descriptor Box (" << boxedSize() << ")" << std::endl; r << getESDescriptor().toPrettyString(indent+1); return r.str(); } DAC3::DAC3(unsigned int rate, unsigned int channels){ memcpy(data + 4, "dac3", 4); setInt24(0,0); setBitStreamIdentification(8);///\todo This is right now a default value. check the docs, this is a weird property setBitStreamMode(0);//main, mixed audio setAudioConfigMode(2); switch (rate) { case 48000: setSampleRateCode(0); break; case 44100: setSampleRateCode(1); break; case 32000: setSampleRateCode(2); break; default: setSampleRateCode(3); break; } if (channels > 4) { setLowFrequencyEffectsChannelOn(1); } else { setLowFrequencyEffectsChannelOn(0); } setFrameSizeCode(20);//should be OK, but test this. } char DAC3::getSampleRateCode(){ return getInt8(0) >> 6; } void DAC3::setSampleRateCode(char newVal){ setInt8(((newVal << 6) & 0xC0) | (getInt8(0) & 0x3F), 0); } char DAC3::getBitStreamIdentification(){ return (getInt8(0) >> 1) & 0x1F; } void DAC3::setBitStreamIdentification(char newVal){ setInt8(((newVal << 1) & 0x3E) | (getInt8(0) & 0xC1), 0); } char DAC3::getBitStreamMode(){ return (getInt16(0) >> 6) & 0x7; } void DAC3::setBitStreamMode(char newVal){ setInt16(((newVal & 0x7) << 6) | (getInt16(0) & 0xFE3F), 0); } char DAC3::getAudioConfigMode(){ return (getInt8(1) >> 3) & 0x7; } void DAC3::setAudioConfigMode(char newVal){ setInt8(((newVal & 0x7) << 3) | (getInt8(1) & 0x38),1); } bool DAC3::getLowFrequencyEffectsChannelOn(){ return (getInt8(1) >> 2) & 0x1; } void DAC3::setLowFrequencyEffectsChannelOn(bool newVal){ setInt8(((unsigned int)(newVal & 0x1) << 2) | (getInt8(1) & 0x4),1); } char DAC3::getFrameSizeCode(){ return ((getInt8(1) & 0x3) << 4) | ((getInt8(2) & 0xF0) >> 4); } void DAC3::setFrameSizeCode(char newVal){ setInt16(((newVal & 0x3F) << 4) | (getInt16(1) & 0x03F0),1); } std::string DAC3::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[dac3] D-AC3 box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "FSCOD: " << (int)getSampleRateCode() << std::endl; r << std::string(indent + 1, ' ') << "BSID: " << (int)getBitStreamIdentification() << std::endl; r << std::string(indent + 1, ' ') << "BSMOD: " << (int)getBitStreamMode() << std::endl; r << std::string(indent + 1, ' ') << "ACMOD: " << (int)getAudioConfigMode() << std::endl; r << std::string(indent + 1, ' ') << "LFEON: " << (int)getLowFrequencyEffectsChannelOn() << std::endl; r << std::string(indent + 1, ' ') << "FrameSizeCode: " << (int)getFrameSizeCode() << std::endl; return r.str(); } FTYP::FTYP(bool fillDefaults){ memcpy(data + 4, "ftyp", 4); if (fillDefaults){ setMajorBrand("isom"); setMinorVersion("\000\000\002\000"); setCompatibleBrands("isom",0); setCompatibleBrands("iso2",1); setCompatibleBrands("avc1",2); setCompatibleBrands("mp41",3); setCompatibleBrands("Mist",4); } } void FTYP::setMajorBrand(const char * newMajorBrand){ if (payloadOffset + 3 >= boxedSize()){ if ( !reserve(payloadOffset, 0, 4)){ return; } } memcpy(data + payloadOffset, newMajorBrand, 4); } std::string FTYP::getMajorBrand() { return std::string(data + payloadOffset, 4); } void FTYP::setMinorVersion(const char * newMinorVersion) { if (payloadOffset + 7 >= boxedSize()) { if (!reserve(payloadOffset + 4, 0, 4)) { return; } } memset(data + payloadOffset + 4, 0, 4); memcpy(data + payloadOffset + 4, newMinorVersion, 4); } std::string FTYP::getMinorVersion(){ static char zero[4] = {0,0,0,0}; if (memcmp(zero, data+payloadOffset+4, 4) == 0){ return ""; } return std::string(data+payloadOffset+4, 4); } size_t FTYP::getCompatibleBrandsCount() { return (payloadSize() - 8) / 4; } void FTYP::setCompatibleBrands(const char * newCompatibleBrand, size_t index) { if (payloadOffset + 8 + index * 4 + 3 >= boxedSize()) { if (!reserve(payloadOffset + 8 + index * 4, 0, 4)) { return; } } memcpy(data + payloadOffset + 8 + index * 4, newCompatibleBrand, 4); } std::string FTYP::getCompatibleBrands(size_t index) { if (index >= getCompatibleBrandsCount()) { return ""; } return std::string(data + payloadOffset + 8 + (index * 4), 4); } std::string FTYP::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[ftyp] File Type (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "MajorBrand: " << getMajorBrand() << std::endl; r << std::string(indent + 1, ' ') << "MinorVersion: " << getMinorVersion() << std::endl; r << std::string(indent + 1, ' ') << "CompatibleBrands (" << getCompatibleBrandsCount() << "):" << std::endl; for (unsigned int i = 0; i < getCompatibleBrandsCount(); i++) { r << std::string(indent + 2, ' ') << "[" << i << "] CompatibleBrand: " << getCompatibleBrands(i) << std::endl; } return r.str(); } STYP::STYP(bool fillDefaults) : FTYP(fillDefaults) { memcpy(data + 4, "styp", 4); } std::string STYP::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[styp] Fragment Type (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "MajorBrand: " << getMajorBrand() << std::endl; r << std::string(indent + 1, ' ') << "MinorVersion: " << getMinorVersion() << std::endl; r << std::string(indent + 1, ' ') << "CompatibleBrands (" << getCompatibleBrandsCount() << "):" << std::endl; for (unsigned int i = 0; i < getCompatibleBrandsCount(); i++){ r << std::string(indent + 2, ' ') << "[" << i << "] CompatibleBrand: " << getCompatibleBrands(i) << std::endl; } return r.str(); } MOOV::MOOV() { memcpy(data + 4, "moov", 4); } MVEX::MVEX() { memcpy(data + 4, "mvex", 4); } TREX::TREX(unsigned int trackId){ memcpy(data + 4, "trex", 4); setTrackID(trackId); setDefaultSampleDescriptionIndex(1); setDefaultSampleDuration(0); setDefaultSampleSize(0); setDefaultSampleFlags(0); } void TREX::setTrackID(uint32_t newTrackID){ setInt32(newTrackID, 4); } uint32_t TREX::getTrackID(){ return getInt32(4); } void TREX::setDefaultSampleDescriptionIndex(uint32_t newDefaultSampleDescriptionIndex){ setInt32(newDefaultSampleDescriptionIndex,8); } uint32_t TREX::getDefaultSampleDescriptionIndex(){ return getInt32(8); } void TREX::setDefaultSampleDuration(uint32_t newDefaultSampleDuration){ setInt32(newDefaultSampleDuration,12); } uint32_t TREX::getDefaultSampleDuration(){ return getInt32(12); } void TREX::setDefaultSampleSize(uint32_t newDefaultSampleSize){ setInt32(newDefaultSampleSize,16); } uint32_t TREX::getDefaultSampleSize(){ return getInt32(16); } void TREX::setDefaultSampleFlags(uint32_t newDefaultSampleFlags){ setInt32(newDefaultSampleFlags,20); } uint32_t TREX::getDefaultSampleFlags(){ return getInt32(20); } std::string TREX::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[trex] Track Extends (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleDescriptionIndex : " << getDefaultSampleDescriptionIndex() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleDuration : " << getDefaultSampleDuration() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleSize : " << getDefaultSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleFlags : " << getDefaultSampleFlags() << std::endl; return r.str(); } TRAK::TRAK() { memcpy(data + 4, "trak", 4); } MDIA::MDIA() { memcpy(data + 4, "mdia", 4); } MINF::MINF() { memcpy(data + 4, "minf", 4); } DINF::DINF() { memcpy(data + 4, "dinf", 4); } MFRA::MFRA() { memcpy(data + 4, "mfra", 4); } MFRO::MFRO() { memcpy(data + 4, "mfro", 4); } void MFRO::setSize(uint32_t newSize) { setInt32(newSize, 0); } uint32_t MFRO::getSize() { return getInt32(0); } std::string MFRO::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[mfro] Movie Fragment Random Access Offset (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Size: " << getSize() << std::endl; return r.str(); } HDLR::HDLR(std::string & type, std::string name) { memcpy(data + 4, "hdlr", 4); //reserve an entire box, except for the string part at the end if (!reserve(0, 8, 32)) { return;//on fail, cancel all the things } memset(data + payloadOffset, 0, 24); //set all bytes (32 - 8) to zeroes if (type == "video") { setHandlerType("vide"); } if (type == "audio") { setHandlerType("soun"); } setName(name); } void HDLR::setHandlerType(const char * newHandlerType) { memcpy(data + payloadOffset + 8, newHandlerType, 4); } std::string HDLR::getHandlerType() { return std::string(data + payloadOffset + 8, 4); } void HDLR::setName(std::string newName) { setString(newName, 24); } std::string HDLR::getName() { return getString(24); } std::string HDLR::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[hdlr] Handler Reference (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Handler Type: " << getHandlerType() << std::endl; r << std::string(indent + 1, ' ') << "Name: " << getName() << std::endl; return r.str(); } //Note: next 4 headers inherit from fullBox, start at byte 4. VMHD::VMHD() { memcpy(data + 4, "vmhd", 4); setGraphicsMode(0); setOpColor(0, 0); setOpColor(0, 1); setOpColor(0, 2); } void VMHD::setGraphicsMode(uint16_t newGraphicsMode) { setInt16(newGraphicsMode, 4); } uint16_t VMHD::getGraphicsMode() { return getInt16(4); } uint32_t VMHD::getOpColorCount() { return 3; } void VMHD::setOpColor(uint16_t newOpColor, size_t index) { if (index < 3) { setInt16(newOpColor, 6 + (2 * index)); } } uint16_t VMHD::getOpColor(size_t index) { if (index < 3) { return getInt16(6 + (index * 2)); } else { return 0; } } std::string VMHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[vmhd] Video Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "GraphicsMode: " << getGraphicsMode() << std::endl; for (unsigned int i = 0; i < getOpColorCount(); i++) { r << std::string(indent + 1, ' ') << "OpColor[" << i << "]: " << getOpColor(i) << std::endl; } return r.str(); } SMHD::SMHD() { memcpy(data + 4, "smhd", 4); setBalance(0); setInt16(0, 6); } void SMHD::setBalance(int16_t newBalance) { setInt16(newBalance, 4); } int16_t SMHD::getBalance() { return getInt16(4); } std::string SMHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[smhd] Sound Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "Balance: " << getBalance() << std::endl; return r.str(); } HMHD::HMHD() { memcpy(data + 4, "hmhd", 4); } void HMHD::setMaxPDUSize(uint16_t newMaxPDUSize) { setInt16(newMaxPDUSize, 4); } uint16_t HMHD::getMaxPDUSize() { return getInt16(4); } void HMHD::setAvgPDUSize(uint16_t newAvgPDUSize) { setInt16(newAvgPDUSize, 6); } uint16_t HMHD::getAvgPDUSize() { return getInt16(6); } void HMHD::setMaxBitRate(uint32_t newMaxBitRate) { setInt32(newMaxBitRate, 8); } uint32_t HMHD::getMaxBitRate() { return getInt32(8); } void HMHD::setAvgBitRate(uint32_t newAvgBitRate) { setInt32(newAvgBitRate, 12); } uint32_t HMHD::getAvgBitRate() { return getInt32(12); } std::string HMHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[hmhd] Hint Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "maxPDUSize: " << getMaxPDUSize() << std::endl; r << std::string(indent + 1, ' ') << "avgPDUSize: " << getAvgPDUSize() << std::endl; r << std::string(indent + 1, ' ') << "maxBitRate: " << getMaxBitRate() << std::endl; r << std::string(indent + 1, ' ') << "avgBitRate: " << getAvgBitRate() << std::endl; return r.str(); } NMHD::NMHD() { memcpy(data + 4, "nmhd", 4); } std::string NMHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[nmhd] Null Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); return r.str(); } MEHD::MEHD() { memcpy(data + 4, "mehd", 4); } void MEHD::setFragmentDuration(uint64_t newFragmentDuration) { if (getVersion() == 0) { setInt32(newFragmentDuration, 4); } else { setInt64(newFragmentDuration, 4); } } uint64_t MEHD::getFragmentDuration() { if (getVersion() == 0) { return getInt32(4); } else { return getInt64(4); } } std::string MEHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[mehd] Movie Extends Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "FragmentDuration: " << getFragmentDuration() << std::endl; return r.str(); } STBL::STBL() { memcpy(data + 4, "stbl", 4); } URL::URL() { memcpy(data + 4, "url ", 4); } void URL::setLocation(std::string newLocation) { setString(newLocation, 4); } std::string URL::getLocation() { return std::string(getString(4), getStringLen(4)); } std::string URL::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[url ] URL Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "Location: " << getLocation() << std::endl; return r.str(); } URN::URN() { memcpy(data + 4, "urn ", 4); } void URN::setName(std::string newName) { setString(newName, 4); } std::string URN::getName() { return std::string(getString(4), getStringLen(4)); } void URN::setLocation(std::string newLocation) { setString(newLocation, 4 + getStringLen(4) + 1); } std::string URN::getLocation() { int loc = 4 + getStringLen(4) + 1; return std::string(getString(loc), getStringLen(loc)); } std::string URN::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[urn ] URN Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "Name: " << getName() << std::endl; r << std::string(indent + 1, ' ') << "Location: " << getLocation() << std::endl; return r.str(); } DREF::DREF() { memcpy(data + 4, "dref", 4); setVersion(0); setFlags(0); setInt32(0, 4); URL urlBox; urlBox.setFlags(1); setDataEntry(urlBox, 0); } uint32_t DREF::getEntryCount() { return getInt32(4); } void DREF::setDataEntry(fullBox & newDataEntry, size_t index) { unsigned int i; uint32_t offset = 8; //start of boxes for (i = 0; i < getEntryCount() && i < index; i++) { offset += getBoxLen(offset); } if (index + 1 > getEntryCount()) { int amount = index + 1 - getEntryCount(); if (!reserve(payloadOffset + offset, 0, amount * 8)) { return; } for (int j = 0; j < amount; ++j) { memcpy(data + payloadOffset + offset + j * 8, "\000\000\000\010erro", 8); } setInt32(index + 1, 4); offset += (index - i) * 8; } setBox(newDataEntry, offset); } Box & DREF::getDataEntry(size_t index) { uint32_t offset = 8; if (index > getEntryCount()) { static Box res; return (Box &)res; } for (unsigned int i = 0; i < index; i++) { offset += getBoxLen(offset); } return (Box &)getBox(offset); } std::string DREF::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[dref] Data Reference Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (unsigned int i = 0; i < getEntryCount(); i++) { r << getDataEntry(i).toPrettyString(indent + 1); } return r.str(); } MVHD::MVHD(long long unsigned int duration) { memcpy(data + 4, "mvhd", 4); //reserve an entire version 0 box if (!reserve(0, 9, 108)) { return;//on fail, cancel all the things } memset(data + payloadOffset, 0, 100); //set all bytes (108 - 8) to zeroes setTimeScale(1000);//we always use milliseconds setDuration(duration);//in ms setRate(0x00010000);//playback rate 1.0X setVolume(0x0100);//volume 1.0X setMatrix(0x00010000, 0); setMatrix(0x00010000, 4); setMatrix(0x40000000, 8); setTrackID(0xFFFFFFFF);//empty track numbers is unknown } void MVHD::setCreationTime(uint64_t newCreationTime) { if (getVersion() == 0) { setInt32((uint32_t) newCreationTime, 4); } else { setInt64(newCreationTime, 4); } } uint64_t MVHD::getCreationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(4); } else { return getInt64(4); } } void MVHD::setModificationTime(uint64_t newModificationTime) { if (getVersion() == 0) { setInt32((uint32_t) newModificationTime, 8); } else { setInt64(newModificationTime, 12); } } uint64_t MVHD::getModificationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(8); } else { return getInt64(12); } } void MVHD::setTimeScale(uint32_t newTimeScale) { if (getVersion() == 0) { setInt32((uint32_t) newTimeScale, 12); } else { setInt32(newTimeScale, 20); } } uint32_t MVHD::getTimeScale() { if (getVersion() == 0) { return getInt32(12); } else { return getInt32(20); } } void MVHD::setDuration(uint64_t newDuration) { if (getVersion() == 0) { setInt32((uint32_t) newDuration, 16); } else { setInt64(newDuration, 24); } } uint64_t MVHD::getDuration() { if (getVersion() == 0) { return (uint64_t)getInt32(16); } else { return getInt64(24); } } void MVHD::setRate(uint32_t newRate) { if (getVersion() == 0) { setInt32(newRate, 20); } else { setInt32(newRate, 32); } } uint32_t MVHD::getRate() { if (getVersion() == 0) { return getInt32(20); } else { return getInt32(32); } } void MVHD::setVolume(uint16_t newVolume) { if (getVersion() == 0) { setInt16(newVolume, 24); } else { setInt16(newVolume, 36); } } uint16_t MVHD::getVolume() { if (getVersion() == 0) { return getInt16(24); } else { return getInt16(36); } } //10 bytes reserved in between uint32_t MVHD::getMatrixCount() { return 9; } void MVHD::setMatrix(int32_t newMatrix, size_t index) { int offset = 0; if (getVersion() == 0) { offset = 24 + 2 + 10; } else { offset = 36 + 2 + 10; } setInt32(newMatrix, offset + index * 4); } int32_t MVHD::getMatrix(size_t index) { int offset = 0; if (getVersion() == 0){ offset = 36; }else{ offset = 48; } return getInt32(offset + index * 4); } //24 bytes of pre-defined in between void MVHD::setTrackID(uint32_t newTrackID){ if (getVersion() == 0){ setInt32(newTrackID, 96); }else{ setInt32(newTrackID, 108); } } uint32_t MVHD::getTrackID(){ if (getVersion() == 0){ return getInt32(96); }else{ return getInt32(108); } } std::string MVHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[mvhd] Movie Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TimeScale: " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Rate: " << getRate() << std::endl; r << std::string(indent + 1, ' ') << "Volume: " << getVolume() << std::endl; r << std::string(indent + 1, ' ') << "Matrix: "; for (unsigned int i = 0; i < getMatrixCount(); i++) { r << getMatrix(i); if (i != getMatrixCount() - 1) { r << ", "; } } r << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; return r.str(); } TFRA::TFRA() { memcpy(data + 4, "dref", 4); } //note, fullbox starts at byte 4 void TFRA::setTrackID(uint32_t newTrackID) { setInt32(newTrackID, 4); } uint32_t TFRA::getTrackID() { return getInt32(4); } void TFRA::setLengthSizeOfTrafNum(char newVal) { char part = getInt8(11); setInt8(((newVal & 0x03) << 4) + (part & 0xCF), 11); } char TFRA::getLengthSizeOfTrafNum() { return (getInt8(11) >> 4) & 0x03; } void TFRA::setLengthSizeOfTrunNum(char newVal) { char part = getInt8(11); setInt8(((newVal & 0x03) << 2) + (part & 0xF3), 11); } char TFRA::getLengthSizeOfTrunNum() { return (getInt8(11) >> 2) & 0x03; } void TFRA::setLengthSizeOfSampleNum(char newVal) { char part = getInt8(11); setInt8(((newVal & 0x03)) + (part & 0xFC), 11); } char TFRA::getLengthSizeOfSampleNum() { return (getInt8(11)) & 0x03; } void TFRA::setNumberOfEntry(uint32_t newNumberOfEntry) { setInt32(newNumberOfEntry, 12); } uint32_t TFRA::getNumberOfEntry() { return getInt32(12); } uint32_t TFRA::getTFRAEntrySize() { int EntrySize = (getVersion() == 1 ? 16 : 8); EntrySize += getLengthSizeOfTrafNum() + 1; EntrySize += getLengthSizeOfTrunNum() + 1; EntrySize += getLengthSizeOfSampleNum() + 1; return EntrySize; } void TFRA::setTFRAEntry(TFRAEntry newTFRAEntry, uint32_t no) { if (no + 1 > getNumberOfEntry()) { //if a new entry is issued uint32_t offset = 16 + getTFRAEntrySize() * getNumberOfEntry();//start of filler in bytes uint32_t fillsize = (no + 1 - getNumberOfEntry()) * getTFRAEntrySize(); //filler in bytes if (!reserve(offset, 0, fillsize)) {//filling space return; } setNumberOfEntry(no + 1); } uint32_t loc = 16 + no * getTFRAEntrySize(); if (getVersion() == 1) { setInt64(newTFRAEntry.time, loc); setInt64(newTFRAEntry.moofOffset, loc + 8); loc += 16; } else { setInt32(newTFRAEntry.time, loc); setInt32(newTFRAEntry.moofOffset, loc + 4); loc += 8; } switch (getLengthSizeOfTrafNum()) { case 0: setInt8(newTFRAEntry.trafNumber, loc); break; case 1: setInt16(newTFRAEntry.trafNumber, loc); break; case 2: setInt24(newTFRAEntry.trafNumber, loc); break; case 3: setInt32(newTFRAEntry.trafNumber, loc); break; } loc += getLengthSizeOfTrafNum() + 1; switch (getLengthSizeOfTrunNum()) { case 0: setInt8(newTFRAEntry.trunNumber, loc); break; case 1: setInt16(newTFRAEntry.trunNumber, loc); break; case 2: setInt24(newTFRAEntry.trunNumber, loc); break; case 3: setInt32(newTFRAEntry.trunNumber, loc); break; } loc += getLengthSizeOfTrunNum() + 1; switch (getLengthSizeOfSampleNum()) { case 0: setInt8(newTFRAEntry.sampleNumber, loc); break; case 1: setInt16(newTFRAEntry.sampleNumber, loc); break; case 2: setInt24(newTFRAEntry.sampleNumber, loc); break; case 3: setInt32(newTFRAEntry.sampleNumber, loc); break; } } TFRAEntry & TFRA::getTFRAEntry(uint32_t no) { static TFRAEntry retval; if (no >= getNumberOfEntry()) { static TFRAEntry inval; return inval; } uint32_t loc = 16 + no * getTFRAEntrySize(); if (getVersion() == 1) { retval.time = getInt64(loc); retval.moofOffset = getInt64(loc + 8); loc += 16; } else { retval.time = getInt32(loc); retval.moofOffset = getInt32(loc + 4); loc += 8; } switch (getLengthSizeOfTrafNum()) { case 0: retval.trafNumber = getInt8(loc); break; case 1: retval.trafNumber = getInt16(loc); break; case 2: retval.trafNumber = getInt24(loc); break; case 3: retval.trafNumber = getInt32(loc); break; } loc += getLengthSizeOfTrafNum() + 1; switch (getLengthSizeOfTrunNum()) { case 0: retval.trunNumber = getInt8(loc); break; case 1: retval.trunNumber = getInt16(loc); break; case 2: retval.trunNumber = getInt24(loc); break; case 3: retval.trunNumber = getInt32(loc); break; } loc += getLengthSizeOfTrunNum() + 1; switch (getLengthSizeOfSampleNum()) { case 0: retval.sampleNumber = getInt8(loc); break; case 1: retval.sampleNumber = getInt16(loc); break; case 2: retval.sampleNumber = getInt24(loc); break; case 3: retval.sampleNumber = getInt32(loc); break; } return retval; } std::string TFRA::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[tfra] Track Fragment Random Access Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfTrafNum: " << (int)getLengthSizeOfTrafNum() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfTrunNum: " << (int)getLengthSizeOfTrunNum() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfSampleNum: " << (int)getLengthSizeOfSampleNum() << std::endl; r << std::string(indent + 1, ' ') << "NumberOfEntry: " << getNumberOfEntry() << std::endl; for (unsigned int i = 0; i < getNumberOfEntry(); i++) { static TFRAEntry temp; temp = getTFRAEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i << "]:" << std::endl; r << std::string(indent + 2, ' ') << "Time: " << temp.time << std::endl; r << std::string(indent + 2, ' ') << "MoofOffset: " << temp.moofOffset << std::endl; r << std::string(indent + 2, ' ') << "TrafNumber: " << temp.trafNumber << std::endl; r << std::string(indent + 2, ' ') << "TrunNumber: " << temp.trunNumber << std::endl; r << std::string(indent + 2, ' ') << "SampleNumber: " << temp.sampleNumber << std::endl; } return r.str(); } TKHD::TKHD(uint32_t trackId, uint64_t duration, uint32_t width, uint32_t height) { initialize(); setTrackID(trackId); setDuration(duration); setWidth(width << 16); setHeight(height << 16); } TKHD::TKHD(DTSC::Track & track, bool fragmented) { initialize(); setTrackID(track.trackID); setDuration(-1); if (!fragmented) { setDuration(track.lastms - track.firstms); } if (track.type == "video") { setWidth(track.width << 16); setHeight(track.height << 16); } } void TKHD::initialize(){ memcpy(data + 4, "tkhd", 4); //reserve an entire version 0 box if (!reserve(0, 9, 92)) { return;//on fail, cancel all the things } memset(data + payloadOffset, 0, 84); //set all bytes (92 - 8) to zeroes setFlags(3);//ENABLED | IN_MOVIE setMatrix(0x00010000, 0); setMatrix(0x00010000, 4); setMatrix(0x40000000, 8); setVolume(0x0100); } void TKHD::setCreationTime(uint64_t newCreationTime) { if (getVersion() == 0) { setInt32((uint32_t) newCreationTime, 4); } else { setInt64(newCreationTime, 4); } } uint64_t TKHD::getCreationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(4); } else { return getInt64(4); } } void TKHD::setModificationTime(uint64_t newModificationTime) { if (getVersion() == 0) { setInt32((uint32_t) newModificationTime, 8); } else { setInt64(newModificationTime, 12); } } uint64_t TKHD::getModificationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(8); } else { return getInt64(12); } } void TKHD::setTrackID(uint32_t newTrackID) { if (getVersion() == 0) { setInt32(newTrackID, 12); } else { setInt32(newTrackID, 20); } } uint32_t TKHD::getTrackID() { if (getVersion() == 0) { return getInt32(12); } else { return getInt32(20); } } //note 4 bytes reserved in between void TKHD::setDuration(uint64_t newDuration) { if (getVersion() == 0) { setInt32(newDuration, 20); } else { setInt64(newDuration, 28); } } uint64_t TKHD::getDuration() { if (getVersion() == 0) { return (uint64_t)getInt32(20); } else { return getInt64(28); } } //8 bytes reserved in between void TKHD::setLayer(uint16_t newLayer) { if (getVersion() == 0) { setInt16(newLayer, 32); } else { setInt16(newLayer, 44); } } uint16_t TKHD::getLayer() { if (getVersion() == 0) { return getInt16(32); } else { return getInt16(44); } } void TKHD::setAlternateGroup(uint16_t newAlternateGroup) { if (getVersion() == 0) { setInt16(newAlternateGroup, 34); } else { setInt16(newAlternateGroup, 46); } } uint16_t TKHD::getAlternateGroup() { if (getVersion() == 0) { return getInt16(34); } else { return getInt16(46); } } void TKHD::setVolume(uint16_t newVolume) { if (getVersion() == 0) { setInt16(newVolume, 36); } else { setInt16(newVolume, 48); } } uint16_t TKHD::getVolume() { if (getVersion() == 0) { return getInt16(36); } else { return getInt16(48); } } //2 bytes reserved in between uint32_t TKHD::getMatrixCount() { return 9; } void TKHD::setMatrix(int32_t newMatrix, size_t index) { int offset = 0; if (getVersion() == 0) { offset = 40; } else { offset = 52; } setInt32(newMatrix, offset + index * 4); } int32_t TKHD::getMatrix(size_t index) { int offset = 0; if (getVersion() == 0) { offset = 40; } else { offset = 52; } return getInt32(offset + index * 4); } void TKHD::setWidth(uint32_t newWidth) { if (getVersion() == 0) { setInt32(newWidth, 76); } else { setInt32(newWidth, 88); } } uint32_t TKHD::getWidth() { if (getVersion() == 0) { return getInt32(76); } else { return getInt32(88); } } void TKHD::setHeight(uint32_t newHeight) { if (getVersion() == 0) { setInt32(newHeight, 80); } else { setInt32(newHeight, 92); } } uint32_t TKHD::getHeight() { if (getVersion() == 0) { return getInt32(80); } else { return getInt32(92); } } std::string TKHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[tkhd] Track Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Layer: " << getLayer() << std::endl; r << std::string(indent + 1, ' ') << "AlternateGroup: " << getAlternateGroup() << std::endl; r << std::string(indent + 1, ' ') << "Volume: " << getVolume() << std::endl; r << std::string(indent + 1, ' ') << "Matrix: "; for (unsigned int i = 0; i < getMatrixCount(); i++) { r << getMatrix(i); if (i != getMatrixCount() - 1) { r << ", "; } } r << std::endl; r << std::string(indent + 1, ' ') << "Width: " << (getWidth() >> 16) << "." << (getWidth() & 0xFFFF) << std::endl; r << std::string(indent + 1, ' ') << "Height: " << (getHeight() >> 16) << "." << (getHeight() & 0xFFFF) << std::endl; return r.str(); } MDHD::MDHD(uint64_t duration) { memcpy(data + 4, "mdhd", 4); //reserve an entire version 0 box if (!reserve(0, 9, 32)) { return;//on fail, cancel all the things } memset(data + payloadOffset, 0, 24); //set all bytes (32 - 8) to zeroes setTimeScale(1000); setDuration(duration); } void MDHD::setCreationTime(uint64_t newCreationTime) { if (getVersion() == 0) { setInt32((uint32_t) newCreationTime, 4); } else { setInt64(newCreationTime, 4); } } uint64_t MDHD::getCreationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(4); } else { return getInt64(4); } } void MDHD::setModificationTime(uint64_t newModificationTime) { if (getVersion() == 0) { setInt32((uint32_t) newModificationTime, 8); } else { setInt64(newModificationTime, 12); } } uint64_t MDHD::getModificationTime() { if (getVersion() == 0) { return (uint64_t)getInt32(8); } else { return getInt64(12); } } void MDHD::setTimeScale(uint32_t newTimeScale) { if (getVersion() == 0) { setInt32((uint32_t) newTimeScale, 12); } else { setInt32(newTimeScale, 20); } } uint32_t MDHD::getTimeScale() { if (getVersion() == 0) { return getInt32(12); } else { return getInt32(20); } } void MDHD::setDuration(uint64_t newDuration) { if (getVersion() == 0) { setInt32((uint32_t) newDuration, 16); } else { setInt64(newDuration, 24); } } uint64_t MDHD::getDuration() { if (getVersion() == 0) { return (uint64_t)getInt32(16); } else { return getInt64(24); } } void MDHD::setLanguage(uint16_t newLanguage) { if (getVersion() == 0) { setInt16(newLanguage & 0x7F, 20); } else { setInt16(newLanguage & 0x7F, 32); } } uint16_t MDHD::getLanguage() { if (getVersion() == 0) { return getInt16(20) & 0x7F; } else { return getInt16(32) & 0x7F; } } std::string MDHD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[mdhd] Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TimeScale: " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Language: 0x" << std::hex << getLanguage() << std::dec << std::endl; return r.str(); } STTS::STTS(char v, uint32_t f) { memcpy(data + 4, "stts", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STTS::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t STTS::getEntryCount() { return getInt32(4); } void STTS::setSTTSEntry(STTSEntry newSTTSEntry, uint32_t no) { if (no + 1 > getEntryCount()) { setEntryCount(no + 1); for (unsigned int i = getEntryCount(); i < no; i++) { setInt64(0, 8 + (i * 8));//filling up undefined entries of 64 bits } } setInt32(newSTTSEntry.sampleCount, 8 + no * 8); setInt32(newSTTSEntry.sampleDelta, 8 + (no * 8) + 4); } STTSEntry STTS::getSTTSEntry(uint32_t no) { static STTSEntry retval; if (no >= getEntryCount()) { static STTSEntry inval; return inval; } retval.sampleCount = getInt32(8 + (no * 8)); retval.sampleDelta = getInt32(8 + (no * 8) + 4); return retval; } std::string STTS::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stts] Sample Table Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (unsigned int i = 0; i < getEntryCount(); i++) { static STTSEntry temp; temp = getSTTSEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i << "]:" << std::endl; r << std::string(indent + 2, ' ') << "SampleCount: " << temp.sampleCount << std::endl; r << std::string(indent + 2, ' ') << "SampleDelta: " << temp.sampleDelta << std::endl; } return r.str(); } CTTS::CTTS() { memcpy(data + 4, "ctts", 4); } void CTTS::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t CTTS::getEntryCount() { return getInt32(4); } void CTTS::setCTTSEntry(CTTSEntry newCTTSEntry, uint32_t no) { if (no + 1 > getEntryCount()) { for (unsigned int i = getEntryCount(); i < no; i++) { setInt64(0, 8 + (i * 8));//filling up undefined entries of 64 bits } setEntryCount(no + 1); } setInt32(newCTTSEntry.sampleCount, 8 + no * 8); setInt32(newCTTSEntry.sampleOffset, 8 + (no * 8) + 4); } CTTSEntry CTTS::getCTTSEntry(uint32_t no) { static CTTSEntry retval; if (no >= getEntryCount()) { static CTTSEntry inval; return inval; } retval.sampleCount = getInt32(8 + (no * 8)); retval.sampleOffset = getInt32(8 + (no * 8) + 4); return retval; } std::string CTTS::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[ctts] Composition Time To Sample Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (unsigned int i = 0; i < getEntryCount(); i++) { static CTTSEntry temp; temp = getCTTSEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i << "]:" << std::endl; r << std::string(indent + 2, ' ') << "SampleCount: " << temp.sampleCount << std::endl; r << std::string(indent + 2, ' ') << "SampleOffset: " << temp.sampleOffset << std::endl; } return r.str(); } STSCEntry::STSCEntry(unsigned int _first, unsigned int _count, unsigned int _index){ firstChunk = _first; samplesPerChunk = _count; sampleDescriptionIndex = _index; } STSC::STSC(char v, uint32_t f) { memcpy(data + 4, "stsc", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSC::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t STSC::getEntryCount() { return getInt32(4); } void STSC::setSTSCEntry(STSCEntry newSTSCEntry, uint32_t no) { if (no + 1 > getEntryCount()) { setEntryCount(no + 1); for (unsigned int i = getEntryCount(); i < no; i++) { setInt64(0, 8 + (i * 12));//filling up undefined entries of 64 bits setInt32(0, 8 + (i * 12) + 8); } } setInt32(newSTSCEntry.firstChunk, 8 + no * 12); setInt32(newSTSCEntry.samplesPerChunk, 8 + (no * 12) + 4); setInt32(newSTSCEntry.sampleDescriptionIndex, 8 + (no * 12) + 8); } STSCEntry STSC::getSTSCEntry(uint32_t no) { static STSCEntry retval; if (no >= getEntryCount()) { static STSCEntry inval; return inval; } retval.firstChunk = getInt32(8 + (no * 12)); retval.samplesPerChunk = getInt32(8 + (no * 12) + 4); retval.sampleDescriptionIndex = getInt32(8 + (no * 12) + 8); return retval; } std::string STSC::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stsc] Sample To Chunk Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (unsigned int i = 0; i < getEntryCount(); i++) { static STSCEntry temp; temp = getSTSCEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i << "]: Chunks " << temp.firstChunk << " onward contain " << temp.samplesPerChunk << " samples, description " << temp.sampleDescriptionIndex << std::endl; } return r.str(); } STCO::STCO(char v, uint32_t f) { memcpy(data + 4, "stco", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STCO::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t STCO::getEntryCount() { return getInt32(4); } void STCO::setChunkOffset(uint32_t newChunkOffset, uint32_t no) { setInt32(newChunkOffset, 8 + no * 4); uint32_t entryCount = getEntryCount(); //if entrycount is lower than new entry count, update it and fill any skipped entries with zeroes. if (no + 1 > entryCount) { setEntryCount(no + 1); //fill undefined entries, if any (there's only undefined entries if we skipped an entry) if (no > entryCount){ memset(data+payloadOffset+8+entryCount*4, 0, 4*(no-entryCount)); } } } uint32_t STCO::getChunkOffset(uint32_t no) { if (no >= getEntryCount()) { return 0; } return getInt32(8 + no * 4); } std::string STCO::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stco] Chunk Offset Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; r << std::string(indent + 1, ' ') << "Offsets: "; for (unsigned long i = 0; i < getEntryCount(); i++) { r << getChunkOffset(i); if (i != getEntryCount() - 1){ r << ", "; } } r << std::endl; return r.str(); } CO64::CO64(char v, uint32_t f) { memcpy(data + 4, "co64", 4); setVersion(v); setFlags(f); setEntryCount(0); } void CO64::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t CO64::getEntryCount() { return getInt32(4); } void CO64::setChunkOffset(uint64_t newChunkOffset, uint32_t no) { setInt64(newChunkOffset, 8 + no * 8); uint32_t entryCount = getEntryCount(); //if entrycount is lower than new entry count, update it and fill any skipped entries with zeroes. if (no + 1 > entryCount) { setEntryCount(no + 1); //fill undefined entries, if any (there's only undefined entries if we skipped an entry) if (no > entryCount){ memset(data+payloadOffset+8+entryCount*8, 0, 8*(no-entryCount)); } } } uint64_t CO64::getChunkOffset(uint32_t no) { if (no >= getEntryCount()) { return 0; } return getInt64(8 + no * 8); } std::string CO64::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[co64] 64-bits Chunk Offset Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; r << std::string(indent + 1, ' ') << "Offsets: "; for (unsigned long i = 0; i < getEntryCount(); i++) { r << getChunkOffset(i); if (i != getEntryCount() - 1){ r << ", "; } } r << std::endl; return r.str(); } STSZ::STSZ(char v, uint32_t f) { memcpy(data + 4, "stsz", 4); setVersion(v); setFlags(f); setSampleCount(0); } void STSZ::setSampleSize(uint32_t newSampleSize) { setInt32(newSampleSize, 4); } uint32_t STSZ::getSampleSize() { return getInt32(4); } void STSZ::setSampleCount(uint32_t newSampleCount) { setInt32(newSampleCount, 8); } uint32_t STSZ::getSampleCount() { return getInt32(8); } void STSZ::setEntrySize(uint32_t newEntrySize, uint32_t no) { if (no + 1 > getSampleCount()) { setSampleCount(no + 1); for (unsigned int i = getSampleCount(); i < no; i++) { setInt32(0, 12 + i * 4);//filling undefined entries } } setInt32(newEntrySize, 12 + no * 4); } uint32_t STSZ::getEntrySize(uint32_t no) { if (no >= getSampleCount()) { return 0; } long unsigned int retVal = getInt32(12 + no * 4); if (retVal == 0){ return getSampleSize(); }else{ return retVal; } } std::string STSZ::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stsz] Sample Size Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "Global Sample Size: " << getSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "Sample Count: " << getSampleCount() << std::endl; r << std::string(indent + 1, ' ') << "Sample sizes: "; for (unsigned long i = 0; i < getSampleCount(); i++) { r << getEntrySize(i); if (i != getSampleCount() - 1){ r << ", "; } } r << std::endl; return r.str(); } SampleEntry::SampleEntry() { memcpy(data + 4, "erro", 4); } void SampleEntry::setDataReferenceIndex(uint16_t newDataReferenceIndex) { setInt16(newDataReferenceIndex, 6); } uint16_t SampleEntry::getDataReferenceIndex() { return getInt16(6); } std::string SampleEntry::toPrettySampleString(uint32_t indent) { std::stringstream r; r << std::string(indent + 1, ' ') << "DataReferenceIndex: " << getDataReferenceIndex() << std::endl; return r.str(); } CLAP::CLAP() { memcpy(data + 4, "clap", 4); setHorizOffN(0); setHorizOffD(0); setVertOffN(0); setVertOffD(0); } void CLAP::setCleanApertureWidthN(uint32_t newVal) { setInt32(newVal, 0); } uint32_t CLAP::getCleanApertureWidthN() { return getInt32(0); } void CLAP::setCleanApertureWidthD(uint32_t newVal) { setInt32(newVal, 4); } uint32_t CLAP::getCleanApertureWidthD() { return getInt32(4); } void CLAP::setCleanApertureHeightN(uint32_t newVal) { setInt32(newVal, 8); } uint32_t CLAP::getCleanApertureHeightN() { return getInt32(8); } void CLAP::setCleanApertureHeightD(uint32_t newVal) { setInt32(newVal, 12); } uint32_t CLAP::getCleanApertureHeightD() { return getInt32(12); } void CLAP::setHorizOffN(uint32_t newVal) { setInt32(newVal, 16); } uint32_t CLAP::getHorizOffN() { return getInt32(16); } void CLAP::setHorizOffD(uint32_t newVal) { setInt32(newVal, 20); } uint32_t CLAP::getHorizOffD() { return getInt32(20); } void CLAP::setVertOffN(uint32_t newVal) { setInt32(newVal, 24); } uint32_t CLAP::getVertOffN() { return getInt32(24); } void CLAP::setVertOffD(uint32_t newVal) { setInt32(newVal, 28); } uint32_t CLAP::getVertOffD() { return getInt32(32); } std::string CLAP::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[clap] Clean Aperture Box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureWidthN: " << getCleanApertureWidthN() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureWidthD: " << getCleanApertureWidthD() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureHeightN: " << getCleanApertureHeightN() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureHeightD: " << getCleanApertureHeightD() << std::endl; r << std::string(indent + 1, ' ') << "HorizOffN: " << getHorizOffN() << std::endl; r << std::string(indent + 1, ' ') << "HorizOffD: " << getHorizOffD() << std::endl; r << std::string(indent + 1, ' ') << "VertOffN: " << getVertOffN() << std::endl; r << std::string(indent + 1, ' ') << "VertOffD: " << getVertOffD() << std::endl; return r.str(); } PASP::PASP() { memcpy(data + 4, "pasp", 4); setHSpacing(1); setVSpacing(1); } void PASP::setHSpacing(uint32_t newVal) { setInt32(newVal, 0); } uint32_t PASP::getHSpacing() { return getInt32(0); } void PASP::setVSpacing(uint32_t newVal) { setInt32(newVal, 4); } uint32_t PASP::getVSpacing() { return getInt32(4); } std::string PASP::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[pasp] Pixel Aspect Ratio Box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "HSpacing: " << getHSpacing() << std::endl; r << std::string(indent + 1, ' ') << "VSpacing: " << getVSpacing() << std::endl; return r.str(); } VisualSampleEntry::VisualSampleEntry() { initialize(); } VisualSampleEntry::VisualSampleEntry(DTSC::Track & track){ initialize(); setDataReferenceIndex(1); setWidth(track.width); setHeight(track.height); if (track.codec == "H264") { setCodec("avc1"); MP4::AVCC avccBox; avccBox.setPayload(track.init); setCLAP(avccBox); } MP4::PASP paspBox; setPASP(paspBox); } void VisualSampleEntry::initialize(){ memcpy(data + 4, "erro", 4); setHorizResolution(0x00480000); setVertResolution(0x00480000); setFrameCount(1); setCompressorName(""); setDepth(0x0018); } void VisualSampleEntry::setCodec(const char * newCodec) { memcpy(data + 4, newCodec, 4); } void VisualSampleEntry::setWidth(uint16_t newWidth) { setInt16(newWidth, 24); } uint16_t VisualSampleEntry::getWidth() { return getInt16(24); } void VisualSampleEntry::setHeight(uint16_t newHeight) { setInt16(newHeight, 26); } uint16_t VisualSampleEntry::getHeight() { return getInt16(26); } void VisualSampleEntry::setHorizResolution(uint32_t newHorizResolution) { setInt32(newHorizResolution, 28); } uint32_t VisualSampleEntry::getHorizResolution() { return getInt32(28); } void VisualSampleEntry::setVertResolution(uint32_t newVertResolution) { setInt32(newVertResolution, 32); } uint32_t VisualSampleEntry::getVertResolution() { return getInt32(32); } void VisualSampleEntry::setFrameCount(uint16_t newFrameCount) { setInt16(newFrameCount, 40); } uint16_t VisualSampleEntry::getFrameCount() { return getInt16(40); } void VisualSampleEntry::setCompressorName(std::string newCompressorName) { if (newCompressorName.size() > 32){ newCompressorName.resize(32, ' '); } setString(newCompressorName, 42); } std::string VisualSampleEntry::getCompressorName() { return getString(42); } void VisualSampleEntry::setDepth(uint16_t newDepth) { setInt16(newDepth, 74); } uint16_t VisualSampleEntry::getDepth() { return getInt16(74); } void VisualSampleEntry::setCLAP(Box & clap) { setBox(clap, 78); } Box & VisualSampleEntry::getCLAP() { static Box ret = Box((char *)"\000\000\000\010erro", false); if (payloadSize() < 84) { //if the EntryBox is not big enough to hold a CLAP/PASP return ret; } ret = getBox(78); return ret; } void VisualSampleEntry::setPASP(Box & pasp) { int writePlace = 78; Box tmpBox = getBox(78); if (tmpBox.getType () != "erro"){ writePlace = 78 + getBoxLen(78); } setBox(pasp, writePlace); } Box & VisualSampleEntry::getPASP() { static Box ret = Box((char *)"\000\000\000\010erro", false); if (payloadSize() < 84) { //if the EntryBox is not big enough to hold a CLAP/PASP return ret; } if (payloadSize() < 78 + getBoxLen(78) + 8) { return ret; } else { return getBox(78 + getBoxLen(78)); } } std::string VisualSampleEntry::toPrettyVisualString(uint32_t indent, std::string name) { std::stringstream r; r << std::string(indent, ' ') << name << " (" << boxedSize() << ")" << std::endl; r << toPrettySampleString(indent); r << std::string(indent + 1, ' ') << "Width: " << getWidth() << std::endl; r << std::string(indent + 1, ' ') << "Height: " << getHeight() << std::endl; r << std::string(indent + 1, ' ') << "HorizResolution: " << getHorizResolution() << std::endl; r << std::string(indent + 1, ' ') << "VertResolution: " << getVertResolution() << std::endl; r << std::string(indent + 1, ' ') << "FrameCount: " << getFrameCount() << std::endl; r << std::string(indent + 1, ' ') << "CompressorName: " << getCompressorName() << std::endl; r << std::string(indent + 1, ' ') << "Depth: " << getDepth() << std::endl; if (!getCLAP().isType("erro")) { r << getCLAP().toPrettyString(indent + 1); } if (!getPASP().isType("erro")) { r << getPASP().toPrettyString(indent + 1); } return r.str(); } AudioSampleEntry::AudioSampleEntry() { initialize(); } AudioSampleEntry::AudioSampleEntry(DTSC::Track & track) { initialize(); if (track.codec == "AAC" || track.codec == "MP3") { setCodec("mp4a"); } if (track.codec == "AC3") { setCodec("ac-3"); } setDataReferenceIndex(1); setSampleRate(track.rate); setChannelCount(track.channels); setSampleSize(track.size); if (track.codec == "AC3") { MP4::DAC3 dac3Box(track.rate, track.channels); setCodecBox(dac3Box); } else { //other codecs use the ESDS box MP4::ESDS esdsBox(track.init); setCodecBox(esdsBox); } } void AudioSampleEntry::initialize() { memcpy(data + 4, "erro", 4); setChannelCount(2); setSampleSize(16); setSampleRate(44100); } uint16_t AudioSampleEntry::toAACInit() { uint16_t result = 0; result |= (2 & 0x1F) << 11; result |= (getSampleRate() & 0x0F) << 7; result |= (getChannelCount() & 0x0F) << 3; return result; } void AudioSampleEntry::setCodec(const char * newCodec) { memcpy(data + 4, newCodec, 4); } void AudioSampleEntry::setChannelCount(uint16_t newChannelCount) { setInt16(newChannelCount, 16); } uint16_t AudioSampleEntry::getChannelCount() { return getInt16(16); } void AudioSampleEntry::setSampleSize(uint16_t newSampleSize) { setInt16(newSampleSize, 18); } uint16_t AudioSampleEntry::getSampleSize() { return getInt16(18); } void AudioSampleEntry::setPreDefined(uint16_t newPreDefined) { setInt16(newPreDefined, 20); } uint16_t AudioSampleEntry::getPreDefined() { return getInt16(20); } void AudioSampleEntry::setSampleRate(uint32_t newSampleRate) { setInt32(newSampleRate << 16, 24); } uint32_t AudioSampleEntry::getSampleRate() { return getInt32(24) >> 16; } void AudioSampleEntry::setCodecBox(Box & newBox) { setBox(newBox, 28); } Box & AudioSampleEntry::getCodecBox() { return getBox(28); } /*LTS-START*/ Box & AudioSampleEntry::getSINFBox() { static Box ret = Box(getBox(28 + getBoxLen(28)).asBox(), false); return ret; } /*LTS-END*/ std::string AudioSampleEntry::toPrettyAudioString(uint32_t indent, std::string name) { std::stringstream r; r << std::string(indent, ' ') << name << " (" << boxedSize() << ")" << std::endl; r << toPrettySampleString(indent); r << std::string(indent + 1, ' ') << "ChannelCount: " << getChannelCount() << std::endl; r << std::string(indent + 1, ' ') << "SampleSize: " << getSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "PreDefined: " << getPreDefined() << std::endl; r << std::string(indent + 1, ' ') << "SampleRate: " << getSampleRate() << std::endl; r << getCodecBox().toPrettyString(indent + 1) << std::endl; /*LTS-START*/ if (isType("enca")) { r << getSINFBox().toPrettyString(indent + 1); } /*LTS-END*/ return r.str(); } MP4A::MP4A() { memcpy(data + 4, "mp4a", 4); } std::string MP4A::toPrettyString(uint32_t indent) { return toPrettyAudioString(indent, "[mp4a] MPEG-4 Audio"); } AAC::AAC() { memcpy(data + 4, "aac ", 4); } std::string AAC::toPrettyString(uint32_t indent) { return toPrettyAudioString(indent, "[aac ] Advanced Audio Codec"); } HEV1::HEV1() { memcpy(data + 4, "hev1", 4); } std::string HEV1::toPrettyString(uint32_t indent) { return toPrettyVisualString(indent, "[hev1] High Efficiency Video Codec 1"); } AVC1::AVC1() { memcpy(data + 4, "avc1", 4); } std::string AVC1::toPrettyString(uint32_t indent) { return toPrettyVisualString(indent, "[avc1] Advanced Video Codec 1"); } H264::H264() { memcpy(data + 4, "h264", 4); } std::string H264::toPrettyString(uint32_t indent) { return toPrettyVisualString(indent, "[h264] H.264/MPEG-4 AVC"); } FIEL::FIEL(){ memcpy(data + 4, "fiel", 4); } void FIEL::setTotal(char newTotal){ setInt8(newTotal, 0); } char FIEL::getTotal(){ return getInt8(0); } void FIEL::setOrder(char newOrder){ setInt8(newOrder, 1); } char FIEL::getOrder(){ return getInt8(1); } std::string FIEL::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[fiel] Video Field Order Box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Total: " << (int)getTotal() << std::endl; r << std::string(indent + 1, ' ') << "Order: " << (int)getOrder() << std::endl; return r.str(); } STSD::STSD(char v, uint32_t f) { memcpy(data + 4, "stsd", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSD::setEntryCount(uint32_t newEntryCount) { setInt32(newEntryCount, 4); } uint32_t STSD::getEntryCount() { return getInt32(4); } void STSD::setEntry(Box & newContent, uint32_t no) { int tempLoc = 8; unsigned int entryCount = getEntryCount(); for (unsigned int i = 0; i < no; i++) { if (i < entryCount) { tempLoc += getBoxLen(tempLoc); } else { if (!reserve(tempLoc, 0, (no - entryCount) * 8)) { return; } memset(data + tempLoc, 0, (no - entryCount) * 8); tempLoc += (no - entryCount) * 8; break; } } setBox(newContent, tempLoc); if (getEntryCount() < no + 1) { setEntryCount(no + 1); } } Box & STSD::getEntry(uint32_t no) { static Box ret = Box((char *)"\000\000\000\010erro", false); if (no > getEntryCount()) { return ret; } unsigned int i = 0; int tempLoc = 8; while (i < no) { tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string STSD::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stsd] Sample Description Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntrySize: " << getEntryCount() << std::endl; for (unsigned int i = 0; i < getEntryCount(); i++) { Box curBox = Box(getEntry(i).asBox(), false); r << curBox.toPrettyString(indent + 1); } return r.str(); } GMHD::GMHD() { memcpy(data + 4, "gmhd", 4); } TREF::TREF() { memcpy(data + 4, "tref", 4); } EDTS::EDTS() { memcpy(data + 4, "edts", 4); } UDTA::UDTA() { memcpy(data + 4, "udta", 4); } STSS::STSS(char v, uint32_t f) { memcpy(data + 4, "stss", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSS::setEntryCount(uint32_t newVal) { setInt32(newVal, 4); } uint32_t STSS::getEntryCount() { return getInt32(4); } void STSS::setSampleNumber(uint32_t newVal, uint32_t index) { if (index >= getEntryCount()) { setEntryCount(index + 1); } setInt32(newVal, 8 + (index * 4)); } uint32_t STSS::getSampleNumber(uint32_t index) { if (index >= getEntryCount()) { return 0; } return getInt32(8 + (index * 4)); } std::string STSS::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[stss] Sync Sample Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; r << std::string(indent + 1, ' ') << "Keyframe sample indexes: "; for (unsigned long i = 0; i < getEntryCount(); i++) { r << getSampleNumber(i); if (i != getEntryCount() - 1){ r << ", "; } } r << std::endl; return r.str(); } META::META() { memcpy(data + 4, "meta", 4); } std::string META::toPrettyString(uint32_t indent) { return toPrettyCFBString(indent, "[meta] Meta Box"); } ELST::ELST() { memcpy(data + 4, "elst", 4); } void ELST::setCount(uint32_t newVal){ setInt32(newVal, 4); } uint32_t ELST::getCount(){ return getInt32(4); } void ELST::setSegmentDuration(uint64_t newVal) { if (getVersion() == 1) { setInt64(newVal, 8); } else { setInt32(newVal, 8); } } uint64_t ELST::getSegmentDuration() { if (getVersion() == 1) { return getInt64(8); } else { return getInt32(8); } } void ELST::setMediaTime(uint64_t newVal) { if (getVersion() == 1) { setInt64(newVal, 16); } else { setInt32(newVal, 12); } } uint64_t ELST::getMediaTime() { if (getVersion() == 1) { return getInt64(16); } else { return getInt32(12); } } void ELST::setMediaRateInteger(uint16_t newVal) { if (getVersion() == 1) { setInt16(newVal, 24); } else { setInt16(newVal, 16); } } uint16_t ELST::getMediaRateInteger() { if (getVersion() == 1) { return getInt16(24); } else { return getInt16(16); } } void ELST::setMediaRateFraction(uint16_t newVal) { if (getVersion() == 1) { setInt16(newVal, 26); } else { setInt16(newVal, 18); } } uint16_t ELST::getMediaRateFraction() { if (getVersion() == 1) { return getInt16(26); } else { return getInt16(18); } } std::string ELST::toPrettyString(uint32_t indent) { std::stringstream r; r << std::string(indent, ' ') << "[elst] Edit List Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "Count: " << getCount() << std::endl; r << std::string(indent + 1, ' ') << "SegmentDuration: " << getSegmentDuration() << std::endl; r << std::string(indent + 1, ' ') << "MediaTime: " << getMediaTime() << std::endl; r << std::string(indent + 1, ' ') << "MediaRateInteger: " << getMediaRateInteger() << std::endl; r << std::string(indent + 1, ' ') << "MediaRateFraction: " << getMediaRateFraction() << std::endl; return r.str(); } }