ref: 8b72935bacb2455e8d1ba97b50aef775b5b1424f
dir: /common/mp4v2/atom_avcC.cpp/
/* * The contents of this file are subject to the Mozilla Public * License Version 1.1 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or * implied. See the License for the specific language governing * rights and limitations under the License. * * The Original Code is MPEG4IP. * * The Initial Developer of the Original Code is Cisco Systems Inc. * Portions created by Cisco Systems Inc. are * Copyright (C) Cisco Systems Inc. 2004. All Rights Reserved. * * Contributor(s): * Bill May wmay@cisco.com */ #include "mp4common.h" /* * SizeTableProperty is a special version of the MP4TableProperty - * the BytesProperty will need to set the value before it can read * from the file */ class SizeTableProperty : public MP4TableProperty { public: SizeTableProperty(const char *name, MP4IntegerProperty *pCountProperty) : MP4TableProperty(name, pCountProperty) {}; protected: void ReadEntry(MP4File *pFile, u_int32_t index) { // Each table has a size, followed by the length field // first, read the length m_pProperties[0]->Read(pFile, index); MP4IntegerProperty *pIntProp = (MP4IntegerProperty *)m_pProperties[0]; // set the size in the bytes property MP4BytesProperty *pBytesProp = (MP4BytesProperty *)m_pProperties[1]; pBytesProp->SetValueSize(pIntProp->GetValue(index), index); // And read the bytes m_pProperties[1]->Read(pFile, index); }; }; MP4AvcCAtom::MP4AvcCAtom() : MP4Atom("avcC") { MP4BitfieldProperty *pCount; MP4TableProperty *pTable; AddProperty( new MP4Integer8Property("configurationVersion")); /* 0 */ AddProperty( new MP4Integer8Property("AVCProfileIndication")); /* 1 */ AddProperty( new MP4Integer8Property("profile_compatibility")); /* 2 */ AddProperty( new MP4Integer8Property("AVCLevelIndication")); /* 3 */ AddProperty( new MP4BitfieldProperty("reserved", 6)); /* 4 */ AddProperty( new MP4BitfieldProperty("lengthSizeMinusOne", 2)); /* 5 */ AddProperty( new MP4BitfieldProperty("reserved1", 3)); /* 6 */ pCount = new MP4BitfieldProperty("numOfSequenceParameterSets", 5); AddProperty(pCount); /* 7 */ pTable = new SizeTableProperty("sequenceEntries", pCount); AddProperty(pTable); /* 8 */ pTable->AddProperty(new MP4Integer16Property("sequenceParameterSetLength")); pTable->AddProperty(new MP4BytesProperty("sequenceParameterSetNALUnit")); MP4Integer8Property *pCount2 = new MP4Integer8Property("numOfPictureParameterSets"); AddProperty(pCount2); /* 9 */ pTable = new SizeTableProperty("pictureEntries", pCount2); AddProperty(pTable); /* 10 */ pTable->AddProperty(new MP4Integer16Property("pictureParameterSetLength")); pTable->AddProperty(new MP4BytesProperty("pictureParameterSetNALUnit")); } void MP4AvcCAtom::Generate() { MP4Atom::Generate(); ((MP4Integer8Property*)m_pProperties[0])->SetValue(1); m_pProperties[4]->SetReadOnly(false); ((MP4BitfieldProperty*)m_pProperties[4])->SetValue(0x3f); m_pProperties[4]->SetReadOnly(true); m_pProperties[6]->SetReadOnly(false); ((MP4BitfieldProperty*)m_pProperties[6])->SetValue(0x7); m_pProperties[6]->SetReadOnly(true); #if 0 // property reserved4 has non-zero fixed values static u_int8_t reserved4[4] = { 0x00, 0x18, 0xFF, 0xFF, }; m_pProperties[7]->SetReadOnly(false); ((MP4BytesProperty*)m_pProperties[7])-> SetValue(reserved4, sizeof(reserved4)); m_pProperties[7]->SetReadOnly(true); #endif } // // Clone - clone my properties to destination atom // // this method simplifies duplicating avcC atom properties from // source to destination file using a single API rather than // having to copy each property. This API encapsulates the object // so the application layer need not concern with each property // thereby isolating any future changes to atom properties. // // ---------------------------------------- // property description // ---------------------------------------- // // 0 configurationVersion // 1 AVCProfileIndication // 2 profile_compatibility // 3 AVCLevelIndication // 4 reserved // 5 lengthSizeMinusOne // 6 reserved // 7 number of SPS // 8 SPS entries // 9 number of PPS // 10 PPS entries // // void MP4AvcCAtom::Clone(MP4AvcCAtom *dstAtom) { MP4Property *dstProperty; MP4TableProperty *pTable; u_int16_t i16; u_int64_t i32; u_int64_t i64; u_int8_t *tmp; // source pointer Property I16 MP4Integer16Property *spPI16; // source pointer Property Bytes MP4BytesProperty *spPB; // dest pointer Property I16 MP4Integer16Property *dpPI16; // dest pointer Property Bytes MP4BytesProperty *dpPB; // start with defaults and reserved fields dstAtom->Generate(); // 0, 4, 6 are now generated from defaults // leaving 1, 2, 3, 5, 7, 8, 9, 10 to export dstProperty=dstAtom->GetProperty(1); ((MP4Integer8Property *)dstProperty)->SetValue( ((MP4Integer8Property *)m_pProperties[1])->GetValue()); dstProperty=dstAtom->GetProperty(2); ((MP4Integer8Property *)dstProperty)->SetValue( ((MP4Integer8Property *)m_pProperties[2])->GetValue()); dstProperty=dstAtom->GetProperty(3); ((MP4Integer8Property *)dstProperty)->SetValue( ((MP4Integer8Property *)m_pProperties[3])->GetValue()); dstProperty=dstAtom->GetProperty(5); ((MP4BitfieldProperty *)dstProperty)->SetValue( ((MP4BitfieldProperty *)m_pProperties[5])->GetValue()); // // 7 and 8 are related SPS (one set of sequence parameters) // // first the count bitfield // dstProperty=dstAtom->GetProperty(7); dstProperty->SetReadOnly(false); ((MP4BitfieldProperty *)dstProperty)->SetValue( ((MP4BitfieldProperty *)m_pProperties[7])->GetValue()); dstProperty->SetReadOnly(true); // next export SPS Length and NAL bytes */ // first source pointers pTable = (MP4TableProperty *) m_pProperties[8]; spPI16 = (MP4Integer16Property *)pTable->GetProperty(0); spPB = (MP4BytesProperty *)pTable->GetProperty(1); // now dest pointers dstProperty=dstAtom->GetProperty(8); pTable = (MP4TableProperty *) dstProperty; dpPI16 = (MP4Integer16Property *)pTable->GetProperty(0); dpPB = (MP4BytesProperty *)pTable->GetProperty(1); // sps length i16 = spPI16->GetValue(); i64 = i16; // FIXME - this leaves m_maxNumElements =2 // but src atom m_maxNumElements is 1 dpPI16->InsertValue(i64, 0); // export byte array i32 = i16; // copy bytes to local buffer tmp = (u_int8_t *)MP4Malloc(i32); ASSERT(tmp != NULL); spPB->CopyValue(tmp, 0); // set element count dpPB->SetCount(1); // copy bytes dpPB->SetValue(tmp, i32, 0); MP4Free((void *)tmp); // // 9 and 10 are related PPS (one set of picture parameters) // // first the integer8 count // dstProperty=dstAtom->GetProperty(9); dstProperty->SetReadOnly(false); ((MP4Integer8Property *)dstProperty)->SetValue( ((MP4Integer8Property *)m_pProperties[9])->GetValue()); dstProperty->SetReadOnly(true); // next export PPS Length and NAL bytes */ // first source pointers pTable = (MP4TableProperty *) m_pProperties[10]; spPI16 = (MP4Integer16Property *)pTable->GetProperty(0); spPB = (MP4BytesProperty *)pTable->GetProperty(1); // now dest pointers dstProperty=dstAtom->GetProperty(10); pTable = (MP4TableProperty *) dstProperty; dpPI16 = (MP4Integer16Property *)pTable->GetProperty(0); dpPB = (MP4BytesProperty *)pTable->GetProperty(1); // pps length i16 = spPI16->GetValue(); i64 = i16; dpPI16->InsertValue(i64, 0); // export byte array i32 = i16; // copy bytes to local buffer tmp = (u_int8_t *)MP4Malloc(i32); ASSERT(tmp != NULL); spPB->CopyValue(tmp, 0); // set element count dpPB->SetCount(1); // copy bytes dpPB->SetValue(tmp, i32, 0); MP4Free((void *)tmp); }