uPDFParser/include/uPDFObject.h

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/*
Copyright 2021 Grégory Soutadé
This file is part of uPDFParser.
uPDFParser is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
uPDFParser is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with uPDFParser. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _UPDFOBJECT_HPP_
#define _UPDFOBJECT_HPP_
#include "uPDFTypes.h"
namespace uPDFParser
{
/**
* @brief PDF Object
*/
class Object
{
public:
Object():
_objectId(0), _generationNumber(0),
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_offset(0), _isNew(false), indirectOffset(0),
_used(true)
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{}
/**
* @brief Object constructor
*
* @param objectId Object ID
* @param generationNumber Object generation number
* @param offset Offset of object in current PDF file
* @param isNew false if object has been read from file,
* true if it has been created or updated
* @param indirectOffset Object is indirect
*/
Object(int objectId, int generationNumber, uint64_t offset, bool isNew=false,
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off_t indirectOffset=0, bool used=true):
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_objectId(objectId), _generationNumber(generationNumber),
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_offset(offset), _isNew(isNew), indirectOffset(indirectOffset),
_used(true)
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{}
~Object()
{
std::vector<DataType*>::iterator it;
for(it=_data.begin(); it!=_data.end(); it++)
delete *it;
}
Object(const Object& other)
{
_objectId = other._objectId;
_generationNumber = other._generationNumber;
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_offset = other._offset;
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indirectOffset = other.indirectOffset;
_isNew = true;
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_used = other._used;
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std::vector<DataType*>::const_iterator it;
for(it=other._data.begin(); it!=other._data.end(); it++)
_data.push_back((*it)->clone());
const std::map<std::string, DataType*> _dict = ((Dictionary)other._dictionary).value();
std::map<std::string, DataType*>& _myDict = _dictionary.value();
std::map<std::string, DataType*>::const_iterator it2;
for(it2=_dict.begin(); it2!=_dict.end(); it2++)
_myDict[it2->first] = it2->second->clone();
}
/**
* @brief Clone current object (call copy constructor)
*/
Object* clone() { return new Object(*this); }
/**
* @brief Return internal dictionary
*/
Dictionary& dictionary() {return _dictionary;}
/**
* @brief Return vector of data contained into object
*/
std::vector<DataType*>& data() {return _data;}
/**
* @brief Object string representation
*/
std::string str();
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/**
* @brief Object offset
*/
off_t offset() {return _offset;}
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/**
* @brief Set object as indirect if offset != 0 or not indirect if offset == 0
*/
void setIndirectOffset(off_t offset) {indirectOffset = offset;}
/**
* @brief is object indirect (indirectOffset != 0)
*/
bool isIndirect() {return indirectOffset != 0;}
/**
* @brief Get dictionary value
*/
DataType*& operator[](const std::string& key) { return _dictionary.value()[key]; }
/**
* @brief Check for key in object's dictionary
*/
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bool hasKey(const std::string& key) { return _dictionary.hasKey(key); }
/**
* @brief Remove a key in object's dictionary
* No error if the key doesn't exists
* Value is freed during this operation
*/
void deleteKey(const std::string& key) { _dictionary.deleteKey(key); }
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/**
* @brief is object new (or not updated) ?
*/
bool isNew() { return _isNew; }
/**
* @brief Mark object as updated
*/
void update(void) { _isNew = true; }
/**
* @brief Return object's id
*/
int objectId() { return _objectId; }
/**
* @brief Return object's generation number
*/
int generationNumber() { return _generationNumber; }
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/**
* @brief Return object status used ('n') or free ('f')
*/
bool used() {return _used;}
/**
* @brief Update used flag
*/
void setUsed(bool used) {_used = used;}
bool operator == (const Object& other)
{
return _objectId == other._objectId &&
_generationNumber == other._generationNumber;
}
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private:
int _objectId;
int _generationNumber;
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off_t _offset;
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bool _isNew;
off_t indirectOffset;
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bool _used;
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Dictionary _dictionary;
std::vector<DataType*> _data;
};
}
#endif