/usr/include/gdcm-2.4/gdcmDataElement.h is in libgdcm2-dev 2.4.4-3+deb8u1.
This file is owned by root:root, with mode 0o644.
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Program: GDCM (Grassroots DICOM). A DICOM library
Copyright (c) 2006-2011 Mathieu Malaterre
All rights reserved.
See Copyright.txt or http://gdcm.sourceforge.net/Copyright.html for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
#ifndef GDCMDATAELEMENT_H
#define GDCMDATAELEMENT_H
#include "gdcmTag.h"
#include "gdcmVL.h"
#include "gdcmVR.h"
#include "gdcmByteValue.h"
#include "gdcmSmartPointer.h"
#include <set>
namespace gdcm
{
// Data Element
// Contains multiple fields:
// -> Tag
// -> Optional VR (Explicit Transfer Syntax)
// -> ValueLength
// -> Value
// TODO: This class SHOULD be pure virtual. I don't want a user
// to shoot himself in the foot.
class SequenceOfItems;
class SequenceOfFragments;
/**
* \brief Class to represent a Data Element
* either Implicit or Explicit
*
* \details
* DATA ELEMENT:
* A unit of information as defined by a single entry in the data dictionary.
* An encoded Information Object Definition (IOD) Attribute that is composed
* of, at a minimum, three fields: a Data Element Tag, a Value Length, and a
* Value Field. For some specific Transfer Syntaxes, a Data Element also
* contains a VR Field where the Value Representation of that Data Element is
* specified explicitly.
*
* Design:
* \li A DataElement in GDCM always store VL (Value Length) on a 32 bits integer even when VL is 16 bits
* \li A DataElement always store the VR even for Implicit TS, in which case VR is defaulted to VR::INVALID
* \li For Item start/end (See 0xfffe tags), Value is NULL
*
* \see ExplicitDataElement ImplicitDataElement
*/
class GDCM_EXPORT DataElement
{
public:
DataElement(const Tag& t = Tag(0), const VL& vl = 0, const VR &vr = VR::INVALID):TagField(t),ValueLengthField(vl),VRField(vr),ValueField(0) {}
//DataElement( Attribute const &att );
friend std::ostream& operator<<(std::ostream &_os, const DataElement &_val);
/// Get Tag
const Tag& GetTag() const { return TagField; }
Tag& GetTag() { return TagField; }
/// Set Tag
/// Use with cautious (need to match Part 6)
void SetTag(const Tag &t) { TagField = t; }
/// Get VL
const VL& GetVL() const { return ValueLengthField; }
VL& GetVL() { return ValueLengthField; }
/// Set VL
/// Use with cautious (need to match Part 6), advanced user only
/// \see SetByteValue
void SetVL(const VL &vl) { ValueLengthField = vl; }
void SetVLToUndefined();
/// Get VR
/// do not set VR::SQ on bytevalue data element
VR const &GetVR() const { return VRField; }
/// Set VR
/// Use with cautious (need to match Part 6), advanced user only
/// \pre vr is a VR::VRALL (not a dual one such as OB_OW)
void SetVR(VR const &vr) {
if( vr.IsVRFile() )
VRField = vr;
}
/// Set/Get Value (bytes array, SQ of items, SQ of fragments):
Value const &GetValue() const { return *ValueField; }
Value &GetValue() { return *ValueField; }
/// \warning you need to set the ValueLengthField explicitely
void SetValue(Value const & vl) {
//assert( ValueField == 0 );
ValueField = vl;
ValueLengthField = vl.GetLength();
}
/// Check if Data Element is empty
bool IsEmpty() const { return ValueField == 0 || (GetByteValue() && GetByteValue()->IsEmpty()); }
/// Make Data Element empty (no Value)
void Empty() { ValueField = 0; ValueLengthField = 0; }
/// Clear Data Element (make Value empty and invalidate Tag & VR)
void Clear()
{
TagField = 0;
VRField = VR::INVALID;
ValueField = 0;
ValueLengthField = 0;
}
// Helper:
/// Set the byte value
/// \warning user need to read DICOM standard for an understanding of:
/// * even padding
/// * \0 vs space padding
/// By default even padding is achieved using \0 regardless of the of VR
void SetByteValue(const char *array, VL length)
{
ByteValue *bv = new ByteValue(array,length);
SetValue( *bv );
}
/// Return the Value of DataElement as a ByteValue (if possible)
/// \warning: You need to check for NULL return value
const ByteValue* GetByteValue() const {
// Get the raw pointer from the gdcm::SmartPointer
const ByteValue *bv = dynamic_cast<const ByteValue*>(ValueField.GetPointer());
return bv; // Will return NULL if not ByteValue
}
/// Interpret the Value stored in the DataElement. This is more robust (but also more
/// expensive) to call this function rather than the simpliest form: GetSequenceOfItems()
/// It also return NULL when the Value is NOT of type SequenceOfItems
/// \warning in case GetSequenceOfItems() succeed the function return this value, otherwise
/// it creates a new SequenceOfItems, you should handle that in your case, for instance:
/// SmartPointer<SequenceOfItems> sqi = de.GetValueAsSQ();
SmartPointer<SequenceOfItems> GetValueAsSQ() const;
/// Return the Value of DataElement as a Sequence Of Fragments (if possible)
/// \warning: You need to check for NULL return value
const SequenceOfFragments* GetSequenceOfFragments() const;
SequenceOfFragments* GetSequenceOfFragments();
/// return if Value Length if of undefined length
bool IsUndefinedLength() const {
return ValueLengthField.IsUndefined();
}
DataElement(const DataElement &_val)
{
if( this != &_val)
{
*this = _val;
}
}
bool operator<(const DataElement &de) const
{
return GetTag() < de.GetTag();
}
DataElement &operator=(const DataElement &de)
{
TagField = de.TagField;
ValueLengthField = de.ValueLengthField;
VRField = de.VRField;
ValueField = de.ValueField; // Pointer copy
return *this;
}
bool operator==(const DataElement &de) const
{
bool b = TagField == de.TagField
&& ValueLengthField == de.ValueLengthField
&& VRField == de.VRField;
if( !ValueField && !de.ValueField )
{
return b;
}
if( ValueField && de.ValueField )
{
return b && (*ValueField == *de.ValueField);
}
// ValueField != de.ValueField
return false;
}
// The following fonctionalities are dependant on:
// # The Transfer Syntax: Explicit or Implicit
// # The Byte encoding: Little Endian / Big Endian
/*
* The following was inspired by a C++ idiom: Curiously Recurring Template Pattern
* Ref: http://en.wikipedia.org/wiki/Curiously_Recurring_Template_Pattern
* The typename TDE is typically a derived class *without* any data
* while TSwap is a simple template parameter to achieve byteswapping (and allow factorization of
* highly identical code)
*/
template <typename TDE>
VL GetLength() const {
return static_cast<const TDE*>(this)->GetLength();
}
template <typename TDE, typename TSwap>
std::istream &Read(std::istream &is) {
return static_cast<TDE*>(this)->template Read<TSwap>(is);
}
template <typename TDE, typename TSwap>
std::istream &ReadOrSkip(std::istream &is, std::set<Tag> const &skiptags) {
(void)skiptags;
return static_cast<TDE*>(this)->template Read<TSwap>(is);
}
template <typename TDE, typename TSwap>
std::istream &ReadPreValue(std::istream &is, std::set<Tag> const &skiptags) {
(void)skiptags;
return static_cast<TDE*>(this)->template ReadPreValue<TSwap>(is);
}
template <typename TDE, typename TSwap>
std::istream &ReadValue(std::istream &is, std::set<Tag> const &skiptags) {
(void)skiptags;
return static_cast<TDE*>(this)->template ReadValue<TSwap>(is);
}
template <typename TDE, typename TSwap>
std::istream &ReadValueWithLength(std::istream &is, VL & length, std::set<Tag> const &skiptags) {
(void)skiptags;
return static_cast<TDE*>(this)->template ReadValueWithLength<TSwap>(is, length);
}
template <typename TDE, typename TSwap>
std::istream &ReadWithLength(std::istream &is, VL &length) {
return static_cast<TDE*>(this)->template ReadWithLength<TSwap>(is,length);
}
template <typename TDE, typename TSwap>
const std::ostream &Write(std::ostream &os) const {
return static_cast<const TDE*>(this)->template Write<TSwap>(os);
}
protected:
Tag TagField;
// This is the value read from the file, might be different from the length of Value Field
VL ValueLengthField; // Can be 0xFFFFFFFF
// Value Representation
VR VRField;
typedef SmartPointer<Value> ValuePtr;
ValuePtr ValueField;
void SetValueFieldLength( VL vl, bool readvalues );
};
//-----------------------------------------------------------------------------
inline std::ostream& operator<<(std::ostream &os, const DataElement &val)
{
os << val.TagField;
os << "\t" << val.VRField;
os << "\t" << val.ValueLengthField;
if( val.ValueField )
{
val.ValueField->Print( os << "\t" );
}
return os;
}
inline bool operator!=(const DataElement& lhs, const DataElement& rhs)
{
return ! ( lhs == rhs );
}
} // end namespace gdcm
#endif //GDCMDATAELEMENT_H
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