DicomBeamControlPoint Class Reference

#include <DicomBeamControlPoint.hh>

Public Member Functions
	DicomBeamControlPoint (DRTControlPointSequence::Item cpItem, DicomBeamControlPoint *point0)
	~DicomBeamControlPoint ()
void	SetIndex (Sint32 dat)
Sint32	GetIndex () const
void	SetNominalBeamEnergy (Float64 dat)
Float64	GetNominalBeamEnergy () const
void	SetGantryAngle (Float64 dat)
void	SetGantryRotationDirection (OFString dat)
void	SetBeamLimitingDeviceAngle (Float64 dat)
void	SetBeamLimitingDeviceRotationDirection (OFString dat)
void	SetPatientSupportAngle (Float64 dat)
void	SetPatientSupportRotationDirection (OFString dat)
void	SetTableTopEccentricAngle (Float64 dat)
void	SetTableTopEccentricRotationDirection (OFString dat)
void	SetIsocenterPosition (G4ThreeVector dat)
void	SetSourceToSurfaceDistance (Float64 dat)
void	SetCumulativeMetersetWeight (Float64 dat)
void	SetMetersetWeight (Float64 dat)
void	SetGantryPitchAngle (Float32 dat)
void	SetSurfaceEntryPoint (Float64 dat)
void	SetTableTopEccentricAxisDistance (Float64 dat)
void	SetTableTopLateralPosition (Float64 dat)
void	SetTableTopLongitudinalPosition (Float64 dat)
void	SetTableTopPitchAngle (Float32 dat)
void	SetTableTopPitchRotationDirection (OFString dat)
void	SetTableTopRollAngle (Float32 dat)
void	SetTableTopRollRotationDirection (OFString dat)
void	SetTableTopVerticalPosition (Float64 dat)
OFString	GetGantryRotationDirection () const
Float64	GetBeamLimitingDeviceAngle () const
OFString	GetBeamLimitingDeviceRotationDirection () const
Float64	GetPatientSupportAngle () const
OFString	GetPatientSupportRotationDirection () const
Float64	GetTableTopEccentricAngle () const
OFString	GetTableTopEccentricRotationDirection () const
G4ThreeVector	GetIsocenterPosition () const
Float64	GetSourceToSurfaceDistance () const
Float64	GetCumulativeMetersetWeight () const
Float64	GetMetersetWeight () const
Float32	GetGantryPitchAngle () const
Float64	GetSurfaceEntryPoint () const
Float64	GetTableTopEccentricAxisDistance () const
Float64	GetTableTopLateralPosition () const
Float64	GetTableTopLongitudinalPosition () const
Float32	GetTableTopPitchAngle () const
OFString	GetTableTopPitchRotationDirection () const
Float32	GetTableTopRollAngle () const
OFString	GetTableTopRollRotationDirection () const
Float64	GetTableTopVerticalPosition () const
void	AddDevice (DicomBeamDevicePos *dbd)
void	DumpToFile (std::ofstream &out)
void	Print (std::ostream &out)

Detailed Description

Definition at line 36 of file DicomBeamControlPoint.hh.

Constructor & Destructor Documentation

DicomBeamControlPoint::DicomBeamControlPoint	(	DRTControlPointSequence::Item	cpItem,
		DicomBeamControlPoint *	point0
	)

Definition at line 33 of file DicomBeamControlPoint.cc.

{
  OFString fstr;
  Sint32 fint;
  Float64 ffloat;
  Float32 ffloat32;
  OFVector<Float64> fvfloat;
  
  cpItem.getControlPointIndex(fint);
  G4cout << "  @ DicomBeamControlPoint: " << fint << G4endl;
  G4cout << "   " << " ControlPointIndex " << fint << G4endl;
  SetIndex( fint );
  if( cpItem.getNominalBeamEnergy(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetNominalBeamEnergy();
  }
  G4cout << "   " << " NominalBeamEnergy " << ffloat << G4endl;
  SetNominalBeamEnergy(ffloat);
  cpItem.getDoseRateSet(ffloat); // != EC_Normal ) {
  G4cout << "   " << " DoseRateSet " << ffloat << G4endl;
  
  DRTBeamLimitingDevicePositionSequence beamLDPS = cpItem.getBeamLimitingDevicePositionSequence();
  G4cout << "  @ NUMBER OF BeamLimitingDevicePositionSequence " << beamLDPS.getNumberOfItems()
         << G4endl;
  beamLDPS.gotoFirstItem();
  for( size_t i3 = 0; i3 < beamLDPS.getNumberOfItems(); i3++ ) {
    DRTBeamLimitingDevicePositionSequence::Item bldpsItem = beamLDPS.getCurrentItem();
    DicomBeamDevicePos* dbd = new DicomBeamDevicePos(bldpsItem);
    AddDevice(dbd);
 
    beamLDPS.gotoNextItem();
  }
  
  cpItem.getGantryAngle(ffloat);
  G4cout << "   " << " GantryAngle " << ffloat << G4endl;

  cpItem.getGantryRotationDirection(fstr); //**
  G4cout << "   " << " GantryRotationDirection " << fstr << G4endl;
  if( fstr == "CC" ) { // counter-clockwise
    SetGantryAngle(-ffloat);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetGantryAngle(ffloat);
  }
  if( cpItem.getBeamLimitingDeviceAngle(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetBeamLimitingDeviceAngle();
  }
  G4cout << "   " << " BeamLimitingDeviceAngle " << ffloat << G4endl;

  if( cpItem.getBeamLimitingDeviceRotationDirection(fstr) != EC_Normal ) {
    if( point0 ) fstr = point0->GetBeamLimitingDeviceRotationDirection();
  }
  if( fstr == "CC" ) { // counter-clockwise
    SetBeamLimitingDeviceAngle(-ffloat);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetBeamLimitingDeviceAngle(ffloat);
  }   
  G4cout << "   " << " BeamLimitingDeviceRotationDirection " << fstr << G4endl;
  SetBeamLimitingDeviceRotationDirection(fstr);

  if( cpItem.getPatientSupportAngle(ffloat) != EC_Normal ) {
    if( point0 ) fstr = point0->GetPatientSupportAngle();
  }
  G4cout << "   " << " PatientSupportAngle " << ffloat << G4endl;

  if( cpItem.getPatientSupportRotationDirection(fstr) != EC_Normal ) {
    if( point0 ) fstr = point0->GetPatientSupportRotationDirection();
  }
  G4cout << "   " << " PatientSupportRotationDirection " << fstr << G4endl;
  SetPatientSupportRotationDirection(fstr);
  if( fstr == "CC" ) { // counter-clockwise
    SetPatientSupportAngle(-ffloat);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetPatientSupportAngle(ffloat);
  }

  if( cpItem.getTableTopEccentricAngle(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetTableTopEccentricAngle();
  }
  G4cout << "   " << " TableTopEccentricAngle " << ffloat << G4endl;

  if( cpItem.getTableTopEccentricRotationDirection(fstr) != EC_Normal ) {
    if( point0 ) fstr = point0->GetTableTopEccentricRotationDirection();
  }
  if( fstr == "CC" ) { // counter-clockwise
    SetTableTopEccentricAngle(-ffloat);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetTableTopEccentricAngle(ffloat);
  }
  G4cout << "   " << " TableTopEccentricRotationDirection " << fstr << G4endl;
  SetTableTopEccentricRotationDirection(fstr);

  G4ThreeVector isoCenter;
  if( cpItem.getIsocenterPosition(fvfloat) != EC_Normal ) {
    if( point0 ) isoCenter = point0->GetIsocenterPosition();
  } else {
    isoCenter = G4ThreeVector(fvfloat[0],fvfloat[1],fvfloat[2]);
  }
  G4cout << "   " << " IsocenterPosition " << isoCenter << G4endl;
  SetIsocenterPosition(isoCenter);

  if( cpItem.getSourceToSurfaceDistance(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetSourceToSurfaceDistance();
  }
  G4cout << "   " << " SourceToSurfaceDistance " << ffloat << G4endl;
  SetSourceToSurfaceDistance(ffloat);

  cpItem.getCumulativeMetersetWeight(ffloat);
  G4cout << "   " << " CumulativeMetersetWeight " << ffloat << G4endl;
  SetCumulativeMetersetWeight(ffloat);
  
  if( cpItem.getGantryPitchAngle(ffloat32) != EC_Normal ) {
    if( point0 ) ffloat32 = point0->GetGantryPitchAngle();
  }
  G4cout << "   " << " GantryPitchAngle " << ffloat32 << G4endl;
  SetGantryPitchAngle(ffloat32);

  if( cpItem.getSurfaceEntryPoint(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetSurfaceEntryPoint();
  }
  G4cout << "   " << " SurfaceEntryPoint " << ffloat << G4endl;
  SetSurfaceEntryPoint(ffloat);

  if( cpItem.getTableTopEccentricAxisDistance(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetTableTopEccentricAxisDistance();
  }
  G4cout << "   " << " TableTopEccentricAxisDistance " << ffloat << G4endl;
  SetTableTopEccentricAxisDistance(ffloat);

  if( cpItem.getTableTopLateralPosition(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetTableTopLateralPosition();
  }
  G4cout << "   " << " TableTopLateralPosition " << ffloat << G4endl;
  SetTableTopLateralPosition(ffloat);

  if( cpItem.getTableTopLongitudinalPosition(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetTableTopLongitudinalPosition();
  }
  G4cout << "   " << " TableTopLongitudinalPosition " << ffloat << G4endl;
  SetTableTopLongitudinalPosition(ffloat);

  if( cpItem.getTableTopPitchAngle(ffloat32) != EC_Normal ) {
    if( point0 ) ffloat32 = point0->GetTableTopPitchAngle();
  }
  G4cout << "   " << " TableTopPitchAngle " << ffloat32 << G4endl;

  if( cpItem.getTableTopPitchRotationDirection(fstr) != EC_Normal ) {
    if( point0 ) fstr = point0->GetTableTopPitchRotationDirection();
  }
  if( fstr == "CC" ) { // counter-clockwise
    SetTableTopPitchAngle(-ffloat32);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetTableTopPitchAngle(ffloat32);
  }
  G4cout << "   " << " TableTopPitchRotationDirection " << fstr << G4endl;
  SetTableTopPitchRotationDirection(fstr);

  if( cpItem.getTableTopRollAngle(ffloat32) != EC_Normal ) {
    if( point0 ) ffloat32 = point0->GetTableTopRollAngle();
  }
  G4cout << "   " << " TableTopRollAngle " << ffloat32 << G4endl;

  if( cpItem.getTableTopRollRotationDirection(fstr) != EC_Normal ) {
    if( point0 ) fstr = point0->GetTableTopRollRotationDirection();
  }
  if( fstr == "CC" ) { // counter-clockwise
    SetTableTopRollAngle(-ffloat32);
  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
    SetTableTopRollAngle(ffloat32);
  }
  G4cout << "   " << " TableTopRollRotationDirection " << fstr << G4endl;
  SetTableTopRollRotationDirection(fstr);

  if( cpItem.getTableTopVerticalPosition(ffloat) != EC_Normal ) {
    if( point0 ) ffloat = point0->GetTableTopVerticalPosition();
  }
  G4cout << "   " << " TableTopVerticalPosition " << ffloat << G4endl;
  SetTableTopVerticalPosition(ffloat);
  
  // --- get DICOM sequence attributes ---
  //t        DRTWedgePositionSequence &getWedgePositionSequence()
  //t        const DRTWedgePositionSequence &getWedgePositionSequence() const
}

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DicomBeamControlPoint::~DicomBeamControlPoint ( )

inline

Definition at line 40 of file DicomBeamControlPoint.hh.

{};

Member Function Documentation

void DicomBeamControlPoint::AddDevice ( DicomBeamDevicePos *  dbd )

inline

Definition at line 185 of file DicomBeamControlPoint.hh.

                                         {
    theDevices.push_back(dbd);
  }

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void DicomBeamControlPoint::DumpToFile

(

std::ofstream &

out

)

Definition at line 223 of file DicomBeamControlPoint.cc.

{
  fout << ":P ControlPointIndex " << theIndex << G4endl;
  fout << ":P NominalBeamEnergy " << theNominalBeamEnergy << G4endl;
  fout << ":P IsocenterPositionX " << theIsocenterPosition.x() << G4endl;
  fout << ":P IsocenterPositionY " << theIsocenterPosition.y() << G4endl;
  fout << ":P IsocenterPositionZ " << theIsocenterPosition.z() << G4endl;

  //  std::string iistr = std::to_string(theControlPointIndex);
  fout << ":P SourceToSurfaceDistance " << theSourceToSurfaceDistance << G4endl;
  fout << ":P GantryAngle " << theGantryAngle << G4endl;
  fout << ":P BeamLimitingDeviceAngle " << theBeamLimitingDeviceAngle << G4endl;
  fout << ":P PatientSupportAngle " << thePatientSupportAngle << G4endl;
  fout << ":P TableTopEccentricAngle " << theTableTopEccentricAngle << G4endl;
  fout << ":P SourceToSurfaceDistance " << theSourceToSurfaceDistance<< G4endl;
  fout << ":P MetersetWeight " << theMetersetWeight<< G4endl;
  fout << ":P GantryPitchAngle " << theGantryPitchAngle << G4endl;
  fout << ":P SurfaceEntryPoint " << theSurfaceEntryPoint << G4endl;
  fout << ":P TableTopEccentricAxisDistance " << theTableTopEccentricAxisDistance << G4endl;
  fout << ":P TableTopLateralPosition " << theTableTopLateralPosition << G4endl;
  fout << ":P TableTopLongitudinalPosition " << theTableTopLongitudinalPosition<< G4endl; 
  fout << ":P TableTopPitchAngle " << theTableTopPitchAngle << G4endl;
  fout << ":P TableTopRollAngle " << theTableTopRollAngle << G4endl;
  fout << ":P TableTopVerticalPosition " << theTableTopVerticalPosition << G4endl;

  for( size_t ii = 0; ii < theDevices.size(); ii++ ){
    theDevices[ii]->DumpToFile(fout);
  }
  
}

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Float64 DicomBeamControlPoint::GetBeamLimitingDeviceAngle ( ) const

inline

Definition at line 124 of file DicomBeamControlPoint.hh.

                                             { 
    return theBeamLimitingDeviceAngle;
  }

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OFString DicomBeamControlPoint::GetBeamLimitingDeviceRotationDirection ( ) const

inline

Definition at line 127 of file DicomBeamControlPoint.hh.

                                                          {
    return theBeamLimitingDeviceRotationDirection;
  }

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Float64 DicomBeamControlPoint::GetCumulativeMetersetWeight ( ) const

inline

Definition at line 148 of file DicomBeamControlPoint.hh.

                                              {
    return theCumulativeMetersetWeight;
  }   

Float32 DicomBeamControlPoint::GetGantryPitchAngle ( ) const

inline

Definition at line 154 of file DicomBeamControlPoint.hh.

                                      {
    return theGantryPitchAngle;
  }

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OFString DicomBeamControlPoint::GetGantryRotationDirection ( ) const

inline

Definition at line 121 of file DicomBeamControlPoint.hh.

                                              {
    return theGantryRotationDirection;
  }

Sint32 DicomBeamControlPoint::GetIndex ( ) const

inline

Definition at line 46 of file DicomBeamControlPoint.hh.

                          {
    return theIndex;
  }

G4ThreeVector DicomBeamControlPoint::GetIsocenterPosition ( ) const

inline

Definition at line 142 of file DicomBeamControlPoint.hh.

                                             {
    return theIsocenterPosition;
  }

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Float64 DicomBeamControlPoint::GetMetersetWeight ( ) const

inline

Definition at line 151 of file DicomBeamControlPoint.hh.

                                    {
    return theMetersetWeight;
  }   

Float64 DicomBeamControlPoint::GetNominalBeamEnergy ( ) const

inline

Definition at line 52 of file DicomBeamControlPoint.hh.

                                       {
    return theNominalBeamEnergy;
  }

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Float64 DicomBeamControlPoint::GetPatientSupportAngle ( ) const

inline

Definition at line 130 of file DicomBeamControlPoint.hh.

                                         {
    return thePatientSupportAngle;
  }

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OFString DicomBeamControlPoint::GetPatientSupportRotationDirection ( ) const

inline

Definition at line 133 of file DicomBeamControlPoint.hh.

                                                      {
    return thePatientSupportRotationDirection;
  }

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Float64 DicomBeamControlPoint::GetSourceToSurfaceDistance ( ) const

inline

Definition at line 145 of file DicomBeamControlPoint.hh.

                                             {
    return theSourceToSurfaceDistance;
  }

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Float64 DicomBeamControlPoint::GetSurfaceEntryPoint ( ) const

inline

Definition at line 157 of file DicomBeamControlPoint.hh.

                                       {
    return theSurfaceEntryPoint;
  }

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Float64 DicomBeamControlPoint::GetTableTopEccentricAngle ( ) const

inline

Definition at line 136 of file DicomBeamControlPoint.hh.

                                            {
    return theTableTopEccentricAngle;
  }

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Float64 DicomBeamControlPoint::GetTableTopEccentricAxisDistance ( ) const

inline

Definition at line 160 of file DicomBeamControlPoint.hh.

                                                   {
    return theTableTopEccentricAxisDistance;
  }

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OFString DicomBeamControlPoint::GetTableTopEccentricRotationDirection ( ) const

inline

Definition at line 139 of file DicomBeamControlPoint.hh.

                                                         {
    return theTableTopEccentricRotationDirection;
  }

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Float64 DicomBeamControlPoint::GetTableTopLateralPosition ( ) const

inline

Definition at line 163 of file DicomBeamControlPoint.hh.

                                             {
    return theTableTopLateralPosition;
  }

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Float64 DicomBeamControlPoint::GetTableTopLongitudinalPosition ( ) const

inline

Definition at line 166 of file DicomBeamControlPoint.hh.

                                                  {
    return theTableTopLongitudinalPosition;
  }

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Float32 DicomBeamControlPoint::GetTableTopPitchAngle ( ) const

inline

Definition at line 169 of file DicomBeamControlPoint.hh.

                                        {
    return theTableTopPitchAngle;
  }

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OFString DicomBeamControlPoint::GetTableTopPitchRotationDirection ( ) const

inline

Definition at line 172 of file DicomBeamControlPoint.hh.

                                                     {
    return theTableTopPitchRotationDirection;
  }

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Float32 DicomBeamControlPoint::GetTableTopRollAngle ( ) const

inline

Definition at line 175 of file DicomBeamControlPoint.hh.

                                       {
    return theTableTopRollAngle;
  }

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OFString DicomBeamControlPoint::GetTableTopRollRotationDirection ( ) const

inline

Definition at line 178 of file DicomBeamControlPoint.hh.

                                                    {
    return theTableTopRollRotationDirection;
  }

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Float64 DicomBeamControlPoint::GetTableTopVerticalPosition ( ) const

inline

Definition at line 181 of file DicomBeamControlPoint.hh.

                                              {
    return theTableTopVerticalPosition;
  }  

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void DicomBeamControlPoint::Print

(

std::ostream &

out

)

Definition at line 217 of file DicomBeamControlPoint.cc.

{

}

void DicomBeamControlPoint::SetBeamLimitingDeviceAngle ( Float64  dat )

inline

Definition at line 61 of file DicomBeamControlPoint.hh.

                                              {
    theBeamLimitingDeviceAngle = dat;
  }

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void DicomBeamControlPoint::SetBeamLimitingDeviceRotationDirection ( OFString  dat )

inline

Definition at line 64 of file DicomBeamControlPoint.hh.

                                                           {
    theBeamLimitingDeviceRotationDirection = dat;
  }

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void DicomBeamControlPoint::SetCumulativeMetersetWeight ( Float64  dat )

inline

Definition at line 85 of file DicomBeamControlPoint.hh.

                                               {
    theCumulativeMetersetWeight = dat;
  }

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void DicomBeamControlPoint::SetGantryAngle ( Float64  dat )

inline

Definition at line 55 of file DicomBeamControlPoint.hh.

                                  {
    theGantryAngle = dat;
  }

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void DicomBeamControlPoint::SetGantryPitchAngle ( Float32  dat )

inline

Definition at line 91 of file DicomBeamControlPoint.hh.

                                       {
    theGantryPitchAngle = dat;
  }

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void DicomBeamControlPoint::SetGantryRotationDirection ( OFString  dat )

inline

Definition at line 58 of file DicomBeamControlPoint.hh.

                                               {
    theGantryRotationDirection = dat;
  }

void DicomBeamControlPoint::SetIndex ( Sint32  dat )

inline

Definition at line 43 of file DicomBeamControlPoint.hh.

                              {
    theIndex = dat;
  }

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void DicomBeamControlPoint::SetIsocenterPosition ( G4ThreeVector  dat )

inline

Definition at line 79 of file DicomBeamControlPoint.hh.

                                              {
    theIsocenterPosition = dat;
  }

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void DicomBeamControlPoint::SetMetersetWeight ( Float64  dat )

inline

Definition at line 88 of file DicomBeamControlPoint.hh.

                                     {
    theMetersetWeight = dat;
  }

void DicomBeamControlPoint::SetNominalBeamEnergy ( Float64  dat )

inline

Definition at line 49 of file DicomBeamControlPoint.hh.

                                        {
    theNominalBeamEnergy = dat;
  }

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void DicomBeamControlPoint::SetPatientSupportAngle ( Float64  dat )

inline

Definition at line 67 of file DicomBeamControlPoint.hh.

                                          {
    thePatientSupportAngle = dat;
  }

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void DicomBeamControlPoint::SetPatientSupportRotationDirection ( OFString  dat )

inline

Definition at line 70 of file DicomBeamControlPoint.hh.

                                                       {
    thePatientSupportRotationDirection = dat;
  }

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void DicomBeamControlPoint::SetSourceToSurfaceDistance ( Float64  dat )

inline

Definition at line 82 of file DicomBeamControlPoint.hh.

                                              {
    theSourceToSurfaceDistance = dat;
  }

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void DicomBeamControlPoint::SetSurfaceEntryPoint ( Float64  dat )

inline

Definition at line 94 of file DicomBeamControlPoint.hh.

                                        {
    theSurfaceEntryPoint = dat;
  }

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void DicomBeamControlPoint::SetTableTopEccentricAngle ( Float64  dat )

inline

Definition at line 73 of file DicomBeamControlPoint.hh.

                                             {
    theTableTopEccentricAngle = dat;
  }

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void DicomBeamControlPoint::SetTableTopEccentricAxisDistance ( Float64  dat )

inline

Definition at line 97 of file DicomBeamControlPoint.hh.

                                                    {
    theTableTopEccentricAxisDistance = dat;
  }

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void DicomBeamControlPoint::SetTableTopEccentricRotationDirection ( OFString  dat )

inline

Definition at line 76 of file DicomBeamControlPoint.hh.

                                                          {
    theTableTopEccentricRotationDirection = dat;
  }

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void DicomBeamControlPoint::SetTableTopLateralPosition ( Float64  dat )

inline

Definition at line 100 of file DicomBeamControlPoint.hh.

                                              {
    theTableTopLateralPosition = dat;
  }

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void DicomBeamControlPoint::SetTableTopLongitudinalPosition ( Float64  dat )

inline

Definition at line 103 of file DicomBeamControlPoint.hh.

                                                   {
    theTableTopLongitudinalPosition = dat;
  }

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void DicomBeamControlPoint::SetTableTopPitchAngle ( Float32  dat )

inline

Definition at line 106 of file DicomBeamControlPoint.hh.

                                         {
    theTableTopPitchAngle = dat;
  }

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void DicomBeamControlPoint::SetTableTopPitchRotationDirection ( OFString  dat )

inline

Definition at line 109 of file DicomBeamControlPoint.hh.

                                                      {
    theTableTopPitchRotationDirection = dat;
  }

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void DicomBeamControlPoint::SetTableTopRollAngle ( Float32  dat )

inline

Definition at line 112 of file DicomBeamControlPoint.hh.

                                        {
    theTableTopRollAngle = dat;
  }

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void DicomBeamControlPoint::SetTableTopRollRotationDirection ( OFString  dat )

inline

Definition at line 115 of file DicomBeamControlPoint.hh.

                                                     {
    theTableTopRollRotationDirection = dat;
  }

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void DicomBeamControlPoint::SetTableTopVerticalPosition ( Float64  dat )

inline

Definition at line 118 of file DicomBeamControlPoint.hh.

                                               {
    theTableTopVerticalPosition = dat;
  }

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---

The documentation for this class was generated from the following files:

• source/geant4.10.03.p03/examples/extended/medical/DICOM/dicomReader/include/DicomBeamControlPoint.hh
• source/geant4.10.03.p03/examples/extended/medical/DICOM/dicomReader/src/DicomBeamControlPoint.cc