/usr/include/vtk-7.1/vtkmetaio/metaObject.h is in libvtk7-dev 7.1.1+dfsg1-2.
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The actual contents of the file can be viewed below.
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MetaIO
Copyright 2000-2010 Insight Software Consortium
Distributed under the OSI-approved BSD License (the "License");
see accompanying file Copyright.txt for details.
This software is distributed WITHOUT ANY WARRANTY; without even the
implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the License for more information.
============================================================================*/
#include "metaTypes.h"
#ifndef ITKMetaIO_METAOBJECT_H
#define ITKMetaIO_METAOBJECT_H
#include "metaUtils.h"
#include "metaEvent.h"
#ifdef _MSC_VER
#pragma warning ( disable: 4251 )
#endif
#if (METAIO_USE_NAMESPACE)
namespace METAIO_NAMESPACE {
#endif
class METAIO_EXPORT MetaObject
{
////
//
// PROTECTED
//
////
protected:
typedef METAIO_STL::vector<MET_FieldRecordType *> FieldsContainerType;
METAIO_STREAM::ifstream * m_ReadStream;
METAIO_STREAM::ofstream * m_WriteStream;
FieldsContainerType m_Fields;
FieldsContainerType m_UserDefinedWriteFields;
FieldsContainerType m_UserDefinedReadFields;
FieldsContainerType m_AdditionalReadFields;
char m_FileName[255];
char m_Comment[255]; // "Comment = " ""
char m_ObjectTypeName[255]; // "ObjectType = " defined by suffix
char m_ObjectSubTypeName[255]; // "ObjectSubType = " defined by suffix
int m_NDims; // "NDims = " required
double m_Offset[10]; // "Offset = " 0,0,0
double m_TransformMatrix[100]; // "TransformMatrix = " 1,0,0,0,1,0,0,0,1
double m_CenterOfRotation[10]; // "CenterOfRotation = " 0 0 0
MET_OrientationEnumType m_AnatomicalOrientation[10];
MET_DistanceUnitsEnumType m_DistanceUnits; // "DistanceUnits = mm"
float m_ElementSpacing[10]; // "ElementSpacing = " 0,0,0
float m_Color[4]; // "Color = " 1.0, 0.0, 0.0, 1.0
char m_AcquisitionDate[255]; // "AcquisitionDate = " "2007.03.21"
int m_ID; // "ID = " 0
int m_ParentID; // "ParentID = " -1
char m_Name[255]; // "Name = " ""
bool m_BinaryData; // "BinaryData = " False
bool m_BinaryDataByteOrderMSB;
METAIO_STL::streamoff m_CompressedDataSize;
// Used internally to set if the dataSize should be written
bool m_WriteCompressedDataSize;
bool m_CompressedData;
virtual void M_Destroy(void);
virtual void M_SetupReadFields(void);
virtual void M_SetupWriteFields(void);
virtual bool M_Read(void);
virtual bool M_Write(void);
virtual void M_PrepareNewReadStream();
MetaEvent* m_Event;
//MET_FieldRecordType * M_GetFieldRecord(const char * _fieldName);
//int M_GetFieldRecordNumber(const char * _fieldName);
unsigned int m_DoublePrecision;
/////
//
// PUBLIC
//
////
public:
////
// Constructors & Destructor
////
MetaObject(void);
MetaObject(const char * _fileName);
MetaObject(unsigned int dim);
virtual ~MetaObject(void);
void FileName(const char *_fileName);
const char * FileName(void) const;
virtual void CopyInfo(const MetaObject * _object);
bool Read(const char * _fileName=NULL);
bool ReadStream(int _nDims, METAIO_STREAM::ifstream * _stream);
bool Write(const char * _fileName=NULL);
virtual bool Append(const char *_headName=NULL);
////
//
// Common fields
//
////
// PrintMetaInfo()
// Writes image parameters to stdout
virtual void PrintInfo(void) const;
// Comment(...)
// Optional Field
// Arbitrary string
const char * Comment(void) const;
void Comment(const char * _comment);
const char * ObjectTypeName(void) const;
void ObjectTypeName(const char * _objectTypeName);
const char * ObjectSubTypeName(void) const;
void ObjectSubTypeName(const char * _objectSubTypeName);
// NDims()
// REQUIRED Field
// Number of dimensions to the image
int NDims(void) const;
// Offset(...)
// Optional Field
// Physical location (in millimeters and wrt machine coordinate
// system or the patient) of the first element in the image
const double * Offset(void) const;
double Offset(int _i) const;
void Offset(const double * _position);
void Offset(int _i, double _value);
const double * Position(void) const;
double Position(int _i) const;
void Position(const double * _position);
void Position(int _i, double _value);
const double * Origin(void) const;
double Origin(int _i) const;
void Origin(const double * _position);
void Origin(int _i, double _value);
// TransformMatrix(...)
// Optional Field
// Physical orientation of the object as an NDims x NDims matrix
const double * TransformMatrix(void) const;
double TransformMatrix(int _i, int _j) const;
void TransformMatrix(const double * _orientation);
void TransformMatrix(int _i, int _j, double _value);
const double * Rotation(void) const;
double Rotation(int _i, int _j) const;
void Rotation(const double * _orientation);
void Rotation(int _i, int _j, double _value);
const double * Orientation(void) const;
double Orientation(int _i, int _j) const;
void Orientation(const double * _orientation);
void Orientation(int _i, int _j, double _value);
//
//
//
const double * CenterOfRotation(void) const;
double CenterOfRotation(int _i) const;
void CenterOfRotation(const double * _position);
void CenterOfRotation(int _i, double _value);
//
//
//
const char * DistanceUnitsName(void) const;
MET_DistanceUnitsEnumType DistanceUnits(void) const;
void DistanceUnits(MET_DistanceUnitsEnumType _distanceUnits);
void DistanceUnits(const char * _distanceUnits);
const char * AnatomicalOrientationAcronym(void) const;
const MET_OrientationEnumType * AnatomicalOrientation(void) const;
MET_OrientationEnumType AnatomicalOrientation(int _dim) const;
void AnatomicalOrientation(const char *_ao);
void AnatomicalOrientation(const MET_OrientationEnumType *_ao);
void AnatomicalOrientation(int _dim, MET_OrientationEnumType _ao);
void AnatomicalOrientation(int _dim, char ao);
// ElementSpacing(...)
// Optional Field
// Physical Spacing (in same units as position)
const float * ElementSpacing(void) const;
float ElementSpacing(int _i) const;
void ElementSpacing(const float * _elementSpacing);
void ElementSpacing(int _i, float _value);
// Name(...)
// Optional Field
// Name of the current metaObject
void Name(const char *_name);
const char * Name(void) const;
// Color(...)
// Optional Field
// Color of the current metaObject
const float * Color(void) const;
void Color(float _r, float _g, float _b, float _a);
void Color(const float * _color);
// ID(...)
// Optional Field
// ID number of the current metaObject
void ID(int _id);
int ID(void) const;
// ParentID(...)
// Optional Field
// ID number of the parent metaObject
void ParentID(int _parentId);
int ParentID(void) const;
// AcquisitionDate(...)
// Optional Field
// YYYY.MM.DD is the recommended format
void AcquisitionDate(const char * _acquisitionDate);
const char * AcquisitionDate(void) const;
// BinaryData(...)
// Optional Field
// Data is binary or not
void BinaryData(bool _binaryData);
bool BinaryData(void) const;
void BinaryDataByteOrderMSB(bool _binaryDataByteOrderMSB);
bool BinaryDataByteOrderMSB(void) const;
void CompressedData(bool _compressedData);
bool CompressedData(void) const;
virtual void Clear(void);
void ClearFields(void);
void ClearAdditionalFields(void);
bool InitializeEssential(int _nDims);
//
//
// User's field definitions
bool AddUserField(const char* _fieldName, MET_ValueEnumType _type,
int _length=0, bool _required=true,
int _dependsOn=-1);
// find a field record in a field vector
MET_FieldRecordType *FindFieldRecord(FieldsContainerType &container,
const char *fieldName)
{
FieldsContainerType::iterator it;
for(it = container.begin();
it != container.end();
it++)
{
if(strcmp((*it)->name,fieldName) == 0)
{
return (*it);
}
}
return 0;
}
// Add a user's field
template <class T>
bool AddUserField(const char* _fieldName, MET_ValueEnumType _type,
int _length, T *_v, bool _required=true,
int _dependsOn=-1 )
{
// don't add the same field twice. In the unlikely event
// a field of the same name gets added more than once,
// over-write the existing FieldRecord
bool duplicate(true);
MET_FieldRecordType* mFw =
this->FindFieldRecord(m_UserDefinedWriteFields,
_fieldName);
if(mFw == 0)
{
duplicate = false;
mFw = new MET_FieldRecordType;
}
MET_InitWriteField(mFw, _fieldName, _type, _length, _v);
if(!duplicate)
{
m_UserDefinedWriteFields.push_back(mFw);
}
duplicate = true;
MET_FieldRecordType* mFr =
this->FindFieldRecord(m_UserDefinedReadFields,
_fieldName);
if(mFr == 0)
{
duplicate = false;
mFr = new MET_FieldRecordType;
}
MET_InitReadField(mFr,_fieldName, _type, _required, _dependsOn,
_length);
if(!duplicate)
{
m_UserDefinedReadFields.push_back(mFr);
}
return true;
}
// Clear UserFields
void ClearUserFields();
// Get the user field
void* GetUserField(const char* _name);
int GetNumberOfAdditionalReadFields();
char * GetAdditionalReadFieldName( int i );
char * GetAdditionalReadFieldValue( int i );
int GetAdditionalReadFieldValueLength( int i );
//
void SetEvent(MetaEvent* event) {m_Event = event;}
// Set the double precision for writing
void SetDoublePrecision(unsigned int precision)
{
m_DoublePrecision = precision;
}
unsigned int GetDoublePrecision()
{
return m_DoublePrecision;
}
};
#if (METAIO_USE_NAMESPACE)
};
#endif
#endif
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