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// =================================================================================================
// ADOBE SYSTEMS INCORPORATED
// Copyright 2010 Adobe Systems Incorporated
// All Rights Reserved
//
// NOTICE: Adobe permits you to use, modify, and distribute this file in accordance with the terms
// of the Adobe license agreement accompanying it.
// =================================================================================================
#include "public/include/XMP_Environment.h" // ! XMP_Environment.h must be the first included header.
#include "public/include/XMP_Const.h"
#include "XMPFiles/source/FileHandlers/AIFF_Handler.hpp"
#include "XMPFiles/source/FormatSupport/AIFF/AIFFBehavior.h"
#include "XMPFiles/source/FormatSupport/AIFF/AIFFReconcile.h"
#include "XMPFiles/source/NativeMetadataSupport/MetadataSet.h"
#include "source/XIO.hpp"
using namespace IFF_RIFF;
// =================================================================================================
/// \file AIFF_Handler.cpp
/// \brief File format handler for AIFF.
// =================================================================================================
// =================================================================================================
// AIFF_MetaHandlerCTor
// ====================
XMPFileHandler * AIFF_MetaHandlerCTor ( XMPFiles * parent )
{
return new AIFF_MetaHandler ( parent );
}
// =================================================================================================
// AIFF_CheckFormat
// ===============
//
// Checks if the given file is a valid AIFF or AIFC file.
// The first 12 bytes are checked. The first 4 must be "FORM"
// Bytes 8 to 12 must be "AIFF" or "AIFC"
bool AIFF_CheckFormat ( XMP_FileFormat format,
XMP_StringPtr filePath,
XMP_IO* file,
XMPFiles* parent )
{
// Reset file pointer position
file ->Rewind();
XMP_Uns8 chunkID[12];
XMP_Int32 got = file->Read ( chunkID, 12 );
// Reset file pointer position
file ->Rewind();
// Need to have at least ID, size and Type of first chunk
if ( got < 12 )
{
return false;
}
const BigEndian& endian = BigEndian::getInstance();
if ( endian.getUns32(chunkID) != kChunk_FORM )
{
return false;
}
XMP_Uns32 type = AIFF_MetaHandler::whatAIFFFormat( &chunkID[8] );
if ( type == kType_AIFF || type == kType_AIFC )
{
return true;
}
return false;
} // AIFF_CheckFormat
// =================================================================================================
// AIFF_MetaHandler::whatAIFFFormat
// ===============
XMP_Uns32 AIFF_MetaHandler::whatAIFFFormat( XMP_Uns8* buffer )
{
XMP_Uns32 type = 0;
const BigEndian& endian = BigEndian::getInstance();
if( buffer != 0 )
{
if( endian.getUns32( buffer ) == kType_AIFF )
{
type = kType_AIFF;
}
else if( endian.getUns32( buffer ) == kType_AIFC )
{
type = kType_AIFC;
}
}
return type;
} // whatAIFFFormat
// Static inits
// ChunkIdentifier
// FORM:AIFF/APPL:XMP
const ChunkIdentifier AIFF_MetaHandler::kAIFFXMP[2] = { { kChunk_FORM, kType_AIFF }, { kChunk_APPL, kType_XMP } };
// FORM:AIFC/APPL:XMP
const ChunkIdentifier AIFF_MetaHandler::kAIFCXMP[2] = { { kChunk_FORM, kType_AIFC }, { kChunk_APPL, kType_XMP } };
// FORM:AIFF/NAME
const ChunkIdentifier AIFF_MetaHandler::kAIFFName[2] = { { kChunk_FORM, kType_AIFF }, { kChunk_NAME, kType_NONE } };
// FORM:AIFC/NAME
const ChunkIdentifier AIFF_MetaHandler::kAIFCName[2] = { { kChunk_FORM, kType_AIFC }, { kChunk_NAME, kType_NONE } };
// FORM:AIFF/AUTH
const ChunkIdentifier AIFF_MetaHandler::kAIFFAuth[2] = { { kChunk_FORM, kType_AIFF }, { kChunk_AUTH, kType_NONE } };
// FORM:AIFC/AUTH
const ChunkIdentifier AIFF_MetaHandler::kAIFCAuth[2] = { { kChunk_FORM, kType_AIFC }, { kChunk_AUTH, kType_NONE } };
// FORM:AIFF/(c)
const ChunkIdentifier AIFF_MetaHandler::kAIFFCpr[2] = { { kChunk_FORM, kType_AIFF }, { kChunk_CPR, kType_NONE } };
// FORM:AIFC/(c)
const ChunkIdentifier AIFF_MetaHandler::kAIFCCpr[2] = { { kChunk_FORM, kType_AIFC }, { kChunk_CPR, kType_NONE } };
// FORM:AIFF/ANNO
const ChunkIdentifier AIFF_MetaHandler::kAIFFAnno[2] = { { kChunk_FORM, kType_AIFF }, { kChunk_ANNO, kType_NONE } };
// FORM:AIFC/ANNO
const ChunkIdentifier AIFF_MetaHandler::kAIFCAnno[2] = { { kChunk_FORM, kType_AIFC }, { kChunk_ANNO, kType_NONE } };
// =================================================================================================
// AIFF_MetaHandler::AIFF_MetaHandler
// ================================
AIFF_MetaHandler::AIFF_MetaHandler ( XMPFiles * _parent )
: mChunkController(NULL), mChunkBehavior(NULL),
mAiffMeta(), mXMPChunk(NULL),
mNameChunk(NULL), mAuthChunk(NULL),
mCprChunk(NULL), mAnnoChunk(NULL)
{
this->parent = _parent;
this->handlerFlags = kAIFF_HandlerFlags;
this->stdCharForm = kXMP_Char8Bit;
this->mChunkBehavior = new AIFFBehavior();
this->mChunkController = new ChunkController( mChunkBehavior, true );
} // AIFF_MetaHandler::AIFF_MetaHandler
// =================================================================================================
// AIFF_MetaHandler::~AIFF_MetaHandler
// =================================
AIFF_MetaHandler::~AIFF_MetaHandler()
{
if( mChunkController != NULL )
{
delete mChunkController;
}
if( mChunkBehavior != NULL )
{
delete mChunkBehavior;
}
} // AIFF_MetaHandler::~AIFF_MetaHandler
// =================================================================================================
// AIFF_MetaHandler::CacheFileData
// ==============================
void AIFF_MetaHandler::CacheFileData()
{
// Need to determine the file type, need the first 12 bytes of the file
// Reset file pointer position
this->parent->ioRef ->Rewind();
XMP_Uns8 buffer[12];
XMP_Int32 got = this->parent->ioRef->Read ( buffer, 12 );
XMP_Assert( got == 12 );
XMP_Uns32 type = AIFF_MetaHandler::whatAIFFFormat( &buffer[8] );
XMP_Assert( type == kType_AIFF || type == kType_AIFC );
// Reset file pointer position
this->parent->ioRef ->Rewind();
// Add the relevant chunk paths for the determined AIFF format
if( type == kType_AIFF )
{
mAIFFXMPChunkPath.append( kAIFFXMP, SizeOfCIArray(kAIFFXMP) );
mAIFFNameChunkPath.append( kAIFFName, SizeOfCIArray(kAIFFName) );
mAIFFAuthChunkPath.append( kAIFFAuth, SizeOfCIArray(kAIFFAuth) );
mAIFFCprChunkPath.append( kAIFFCpr, SizeOfCIArray(kAIFFCpr) );
mAIFFAnnoChunkPath.append( kAIFFAnno, SizeOfCIArray(kAIFFAnno) );
}
else // kType_AIFC
{
mAIFFXMPChunkPath.append( kAIFCXMP, SizeOfCIArray(kAIFCXMP) );
mAIFFNameChunkPath.append( kAIFCName, SizeOfCIArray(kAIFCName) );
mAIFFAuthChunkPath.append( kAIFCAuth, SizeOfCIArray(kAIFCAuth) );
mAIFFCprChunkPath.append( kAIFCCpr, SizeOfCIArray(kAIFCCpr) );
mAIFFAnnoChunkPath.append( kAIFCAnno, SizeOfCIArray(kAIFCAnno) );
}
mChunkController->addChunkPath( mAIFFXMPChunkPath );
mChunkController->addChunkPath( mAIFFNameChunkPath );
mChunkController->addChunkPath( mAIFFAuthChunkPath );
mChunkController->addChunkPath( mAIFFCprChunkPath );
mChunkController->addChunkPath( mAIFFAnnoChunkPath );
// Parse the given file
// Throws exception if the file cannot be parsed
mChunkController->parseFile( this->parent->ioRef, &this->parent->openFlags );
// Check if the file contains XMP (last one if there are multiple chunks)
mXMPChunk = mChunkController->getChunk( mAIFFXMPChunkPath, true );
// Retrieve XMP packet info
if( mXMPChunk != NULL )
{
// subtract the type size that is contained in the XMP data chunk
this->packetInfo.length = static_cast<XMP_Int32>(mXMPChunk->getSize() - 4);
this->packetInfo.charForm = kXMP_Char8Bit;
this->packetInfo.writeable = true;
// Get actual the XMP packet without the 4byte type
this->xmpPacket.assign ( mXMPChunk->getString( this->packetInfo.length, 4 ) );
// set state
this->containsXMP = true;
}
} // AIFF_MetaHandler::CacheFileData
// =================================================================================================
// AIFF_MetaHandler::ProcessXMP
// ============================
void AIFF_MetaHandler::ProcessXMP()
{
// Must be done only once
if ( this->processedXMP )
{
return;
}
// Set the status at start, in case something goes wrong in this method
this->processedXMP = true;
// Parse the XMP
if ( ! this->xmpPacket.empty() ) {
XMP_Assert ( this->containsXMP );
FillPacketInfo ( this->xmpPacket, &this->packetInfo );
this->xmpObj.ParseFromBuffer ( this->xmpPacket.c_str(), (XMP_StringLen)this->xmpPacket.size() );
this->containsXMP = true;
}
// Then import native properties
MetadataSet metaSet;
AIFFReconcile recon;
// Fill the AIFF metadata object with values
// Get NAME (title) legacy chunk
mNameChunk = mChunkController->getChunk( mAIFFNameChunkPath, true );
if( mNameChunk != NULL )
{
mAiffMeta.setValue<std::string>( AIFFMetadata::kName, mNameChunk->getString() );
}
// Get AUTH (author) legacy chunk
mAuthChunk = mChunkController->getChunk( mAIFFAuthChunkPath, true );
if( mAuthChunk != NULL )
{
mAiffMeta.setValue<std::string>( AIFFMetadata::kAuthor, mAuthChunk->getString() );
}
// Get CPR (Copyright) legacy chunk
mCprChunk = mChunkController->getChunk( mAIFFCprChunkPath, true );
if( mCprChunk != NULL )
{
mAiffMeta.setValue<std::string>( AIFFMetadata::kCopyright, mCprChunk->getString() );
}
// Get ANNO (annotation) legacy chunk(s)
// Get the list of Annotation chunks and pick the last one not being empty
const std::vector<IChunkData*> &annoChunks = mChunkController->getChunks( mAIFFAnnoChunkPath );
mAnnoChunk = selectLastNonEmptyAnnoChunk( annoChunks );
if( mAnnoChunk != NULL )
{
mAiffMeta.setValue<std::string>( AIFFMetadata::kAnnotation, mAnnoChunk->getString() );
}
// Only interested in AIFF metadata
metaSet.append( &mAiffMeta );
// Do the import
if( recon.importToXMP( this->xmpObj, metaSet ) )
{
// Remember if anything has changed
this->containsXMP = true;
}
} // AIFF_MetaHandler::ProcessXMP
IChunkData* AIFF_MetaHandler::selectLastNonEmptyAnnoChunk( const std::vector<IChunkData*> &annoChunks )
{
IChunkData* annoChunk = NULL;
for ( std::vector<IChunkData*>::const_reverse_iterator iter = annoChunks.rbegin(); iter != annoChunks.rend(); iter++ )
{
if( ! (*iter)->getString().empty() && (*iter)->getString()[0] != '\0' )
{
annoChunk = *iter;
break;
}
}
return annoChunk;
} // selectFirstNonEmptyAnnoChunk
// =================================================================================================
// AIFF_MetaHandler::UpdateFile
// ===========================
void AIFF_MetaHandler::UpdateFile ( bool doSafeUpdate )
{
if ( ! this->needsUpdate ) { // If needsUpdate is set then at least the XMP changed.
return;
}
if ( doSafeUpdate )
{
XMP_Throw ( "AIFF_MetaHandler::UpdateFile: Safe update not supported", kXMPErr_Unavailable );
}
//update/create XMP chunk
if( this->containsXMP )
{
this->xmpObj.SerializeToBuffer ( &(this->xmpPacket) );
if( mXMPChunk != NULL )
{
mXMPChunk->setData( reinterpret_cast<const XMP_Uns8 *>(this->xmpPacket.c_str()), this->xmpPacket.length(), true );
}
else // create XMP chunk
{
mXMPChunk = mChunkController->createChunk( kChunk_APPL, kType_XMP );
mXMPChunk->setData( reinterpret_cast<const XMP_Uns8 *>(this->xmpPacket.c_str()), this->xmpPacket.length(), true );
mChunkController->insertChunk( mXMPChunk );
}
}
// XMP Packet is never completely removed from the file.
// Export XMP to legacy chunks. Create/delete them if necessary
MetadataSet metaSet;
AIFFReconcile recon;
metaSet.append( &mAiffMeta );
// If anything changes, update/create/delete the legacy chunks
if( recon.exportFromXMP( metaSet, this->xmpObj ) )
{
updateLegacyChunk( &mNameChunk, kChunk_NAME, AIFFMetadata::kName );
updateLegacyChunk( &mAuthChunk, kChunk_AUTH, AIFFMetadata::kAuthor );
updateLegacyChunk( &mCprChunk, kChunk_CPR, AIFFMetadata::kCopyright );
updateLegacyChunk( &mAnnoChunk, kChunk_ANNO, AIFFMetadata::kAnnotation );
}
XMP_ProgressTracker* progressTracker=this->parent->progressTracker;
// local progess tracking required because for Handlers incapable of
// kXMPFiles_CanRewrite XMPFiles call this Update method after making
// a copy of the orignal file
bool localProgressTracking=false;
if ( progressTracker != 0 )
{
if ( ! progressTracker->WorkInProgress() )
{
localProgressTracking = true;
progressTracker->BeginWork ();
}
}
//write tree back to file
mChunkController->writeFile( this->parent->ioRef ,progressTracker);
if ( localProgressTracking && progressTracker != 0 ) progressTracker->WorkComplete();
this->needsUpdate = false; // Make sure this is only called once.
} // AIFF_MetaHandler::UpdateFile
void AIFF_MetaHandler::updateLegacyChunk( IChunkData **chunk, XMP_Uns32 chunkID, XMP_Uns32 legacyId )
{
// If there is a legacy value, update/create the appropriate chunk
if( mAiffMeta.valueExists( legacyId ) )
{
std::string chunkValue;
std::string legacyValue = mAiffMeta.getValue<std::string>( legacyId );
// If the length is < 4 we need to fill up the value with \0 to a size of 4
// This ensures that the overall size of text chunks is 12 bytes so that they can be
// converted to free chunks if necessary
if( legacyValue.length() < 4 )
{
char buffer[4];
memset( buffer, 0, 4 );
memcpy( buffer, legacyValue.c_str(), legacyValue.length() );
chunkValue.assign( buffer, 4 );
}
else // take the value as is
{
chunkValue = legacyValue;
}
if( *chunk != NULL )
{
(*chunk)->setData( reinterpret_cast<const XMP_Uns8 *>(chunkValue.c_str()), chunkValue.length() );
}
else
{
*chunk = mChunkController->createChunk( chunkID, kType_NONE );
(*chunk)->setData( reinterpret_cast<const XMP_Uns8 *>(chunkValue.c_str()), chunkValue.length() );
mChunkController->insertChunk( *chunk );
}
}
else //delete chunk if existing
{
mChunkController->removeChunk ( *chunk );
}
} // updateLegacyChunk
// =================================================================================================
// AIFF_MetaHandler::WriteTempFile
// ===============================
void AIFF_MetaHandler::WriteTempFile ( XMP_IO* tempRef )
{
XMP_Throw ( "AIFF_MetaHandler::WriteTempFile is not Implemented!", kXMPErr_Unimplemented );
} // AIFF_MetaHandler::WriteTempFile
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