Geant4  10.03.p03
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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.

35 {
36  OFString fstr;
37  Sint32 fint;
38  Float64 ffloat;
39  Float32 ffloat32;
40  OFVector<Float64> fvfloat;
41 
42  cpItem.getControlPointIndex(fint);
43  G4cout << " @ DicomBeamControlPoint: " << fint << G4endl;
44  G4cout << " " << " ControlPointIndex " << fint << G4endl;
45  SetIndex( fint );
46  if( cpItem.getNominalBeamEnergy(ffloat) != EC_Normal ) {
47  if( point0 ) ffloat = point0->GetNominalBeamEnergy();
48  }
49  G4cout << " " << " NominalBeamEnergy " << ffloat << G4endl;
50  SetNominalBeamEnergy(ffloat);
51  cpItem.getDoseRateSet(ffloat); // != EC_Normal ) {
52  G4cout << " " << " DoseRateSet " << ffloat << G4endl;
53 
54  DRTBeamLimitingDevicePositionSequence beamLDPS = cpItem.getBeamLimitingDevicePositionSequence();
55  G4cout << " @ NUMBER OF BeamLimitingDevicePositionSequence " << beamLDPS.getNumberOfItems()
56  << G4endl;
57  beamLDPS.gotoFirstItem();
58  for( size_t i3 = 0; i3 < beamLDPS.getNumberOfItems(); i3++ ) {
59  DRTBeamLimitingDevicePositionSequence::Item bldpsItem = beamLDPS.getCurrentItem();
60  DicomBeamDevicePos* dbd = new DicomBeamDevicePos(bldpsItem);
61  AddDevice(dbd);
62 
63  beamLDPS.gotoNextItem();
64  }
65 
66  cpItem.getGantryAngle(ffloat);
67  G4cout << " " << " GantryAngle " << ffloat << G4endl;
68 
69  cpItem.getGantryRotationDirection(fstr); //**
70  G4cout << " " << " GantryRotationDirection " << fstr << G4endl;
71  if( fstr == "CC" ) { // counter-clockwise
72  SetGantryAngle(-ffloat);
73  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
74  SetGantryAngle(ffloat);
75  }
76  if( cpItem.getBeamLimitingDeviceAngle(ffloat) != EC_Normal ) {
77  if( point0 ) ffloat = point0->GetBeamLimitingDeviceAngle();
78  }
79  G4cout << " " << " BeamLimitingDeviceAngle " << ffloat << G4endl;
80 
81  if( cpItem.getBeamLimitingDeviceRotationDirection(fstr) != EC_Normal ) {
82  if( point0 ) fstr = point0->GetBeamLimitingDeviceRotationDirection();
83  }
84  if( fstr == "CC" ) { // counter-clockwise
86  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
88  }
89  G4cout << " " << " BeamLimitingDeviceRotationDirection " << fstr << G4endl;
91 
92  if( cpItem.getPatientSupportAngle(ffloat) != EC_Normal ) {
93  if( point0 ) fstr = point0->GetPatientSupportAngle();
94  }
95  G4cout << " " << " PatientSupportAngle " << ffloat << G4endl;
96 
97  if( cpItem.getPatientSupportRotationDirection(fstr) != EC_Normal ) {
98  if( point0 ) fstr = point0->GetPatientSupportRotationDirection();
99  }
100  G4cout << " " << " PatientSupportRotationDirection " << fstr << G4endl;
102  if( fstr == "CC" ) { // counter-clockwise
103  SetPatientSupportAngle(-ffloat);
104  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
105  SetPatientSupportAngle(ffloat);
106  }
107 
108  if( cpItem.getTableTopEccentricAngle(ffloat) != EC_Normal ) {
109  if( point0 ) ffloat = point0->GetTableTopEccentricAngle();
110  }
111  G4cout << " " << " TableTopEccentricAngle " << ffloat << G4endl;
112 
113  if( cpItem.getTableTopEccentricRotationDirection(fstr) != EC_Normal ) {
114  if( point0 ) fstr = point0->GetTableTopEccentricRotationDirection();
115  }
116  if( fstr == "CC" ) { // counter-clockwise
117  SetTableTopEccentricAngle(-ffloat);
118  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
120  }
121  G4cout << " " << " TableTopEccentricRotationDirection " << fstr << G4endl;
123 
124  G4ThreeVector isoCenter;
125  if( cpItem.getIsocenterPosition(fvfloat) != EC_Normal ) {
126  if( point0 ) isoCenter = point0->GetIsocenterPosition();
127  } else {
128  isoCenter = G4ThreeVector(fvfloat[0],fvfloat[1],fvfloat[2]);
129  }
130  G4cout << " " << " IsocenterPosition " << isoCenter << G4endl;
131  SetIsocenterPosition(isoCenter);
132 
133  if( cpItem.getSourceToSurfaceDistance(ffloat) != EC_Normal ) {
134  if( point0 ) ffloat = point0->GetSourceToSurfaceDistance();
135  }
136  G4cout << " " << " SourceToSurfaceDistance " << ffloat << G4endl;
138 
139  cpItem.getCumulativeMetersetWeight(ffloat);
140  G4cout << " " << " CumulativeMetersetWeight " << ffloat << G4endl;
142 
143  if( cpItem.getGantryPitchAngle(ffloat32) != EC_Normal ) {
144  if( point0 ) ffloat32 = point0->GetGantryPitchAngle();
145  }
146  G4cout << " " << " GantryPitchAngle " << ffloat32 << G4endl;
147  SetGantryPitchAngle(ffloat32);
148 
149  if( cpItem.getSurfaceEntryPoint(ffloat) != EC_Normal ) {
150  if( point0 ) ffloat = point0->GetSurfaceEntryPoint();
151  }
152  G4cout << " " << " SurfaceEntryPoint " << ffloat << G4endl;
153  SetSurfaceEntryPoint(ffloat);
154 
155  if( cpItem.getTableTopEccentricAxisDistance(ffloat) != EC_Normal ) {
156  if( point0 ) ffloat = point0->GetTableTopEccentricAxisDistance();
157  }
158  G4cout << " " << " TableTopEccentricAxisDistance " << ffloat << G4endl;
160 
161  if( cpItem.getTableTopLateralPosition(ffloat) != EC_Normal ) {
162  if( point0 ) ffloat = point0->GetTableTopLateralPosition();
163  }
164  G4cout << " " << " TableTopLateralPosition " << ffloat << G4endl;
166 
167  if( cpItem.getTableTopLongitudinalPosition(ffloat) != EC_Normal ) {
168  if( point0 ) ffloat = point0->GetTableTopLongitudinalPosition();
169  }
170  G4cout << " " << " TableTopLongitudinalPosition " << ffloat << G4endl;
172 
173  if( cpItem.getTableTopPitchAngle(ffloat32) != EC_Normal ) {
174  if( point0 ) ffloat32 = point0->GetTableTopPitchAngle();
175  }
176  G4cout << " " << " TableTopPitchAngle " << ffloat32 << G4endl;
177 
178  if( cpItem.getTableTopPitchRotationDirection(fstr) != EC_Normal ) {
179  if( point0 ) fstr = point0->GetTableTopPitchRotationDirection();
180  }
181  if( fstr == "CC" ) { // counter-clockwise
182  SetTableTopPitchAngle(-ffloat32);
183  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
184  SetTableTopPitchAngle(ffloat32);
185  }
186  G4cout << " " << " TableTopPitchRotationDirection " << fstr << G4endl;
188 
189  if( cpItem.getTableTopRollAngle(ffloat32) != EC_Normal ) {
190  if( point0 ) ffloat32 = point0->GetTableTopRollAngle();
191  }
192  G4cout << " " << " TableTopRollAngle " << ffloat32 << G4endl;
193 
194  if( cpItem.getTableTopRollRotationDirection(fstr) != EC_Normal ) {
195  if( point0 ) fstr = point0->GetTableTopRollRotationDirection();
196  }
197  if( fstr == "CC" ) { // counter-clockwise
198  SetTableTopRollAngle(-ffloat32);
199  } else if( fstr == "CW" || fstr == "NONE" || fstr == "") { // clockwise
200  SetTableTopRollAngle(ffloat32);
201  }
202  G4cout << " " << " TableTopRollRotationDirection " << fstr << G4endl;
204 
205  if( cpItem.getTableTopVerticalPosition(ffloat) != EC_Normal ) {
206  if( point0 ) ffloat = point0->GetTableTopVerticalPosition();
207  }
208  G4cout << " " << " TableTopVerticalPosition " << ffloat << G4endl;
210 
211  // --- get DICOM sequence attributes ---
212  //t DRTWedgePositionSequence &getWedgePositionSequence()
213  //t const DRTWedgePositionSequence &getWedgePositionSequence() const
214 }
Float64 GetTableTopLongitudinalPosition() const
OFString GetBeamLimitingDeviceRotationDirection() const
void SetTableTopLateralPosition(Float64 dat)
CLHEP::Hep3Vector G4ThreeVector
Float64 GetBeamLimitingDeviceAngle() const
Float64 GetSourceToSurfaceDistance() const
void SetSurfaceEntryPoint(Float64 dat)
void SetTableTopRollRotationDirection(OFString dat)
OFString GetTableTopEccentricRotationDirection() const
void SetGantryPitchAngle(Float32 dat)
Float64 GetNominalBeamEnergy() const
Float32 GetTableTopRollAngle() const
void SetTableTopPitchAngle(Float32 dat)
G4ThreeVector GetIsocenterPosition() const
G4GLOB_DLL std::ostream G4cout
Float32 GetGantryPitchAngle() const
void SetTableTopVerticalPosition(Float64 dat)
void SetBeamLimitingDeviceRotationDirection(OFString dat)
void SetGantryAngle(Float64 dat)
Float64 GetTableTopEccentricAxisDistance() const
void SetPatientSupportAngle(Float64 dat)
void SetCumulativeMetersetWeight(Float64 dat)
void SetTableTopEccentricRotationDirection(OFString dat)
Float64 GetTableTopVerticalPosition() const
void SetTableTopRollAngle(Float32 dat)
void SetTableTopPitchRotationDirection(OFString dat)
Float64 GetTableTopLateralPosition() const
OFString GetPatientSupportRotationDirection() const
void SetTableTopLongitudinalPosition(Float64 dat)
Float64 GetTableTopEccentricAngle() const
OFString GetTableTopRollRotationDirection() const
void SetPatientSupportRotationDirection(OFString dat)
#define G4endl
Definition: G4ios.hh:61
void SetTableTopEccentricAngle(Float64 dat)
void SetSourceToSurfaceDistance(Float64 dat)
OFString GetTableTopPitchRotationDirection() const
Float32 GetTableTopPitchAngle() const
void AddDevice(DicomBeamDevicePos *dbd)
void SetTableTopEccentricAxisDistance(Float64 dat)
Float64 GetSurfaceEntryPoint() const
void SetBeamLimitingDeviceAngle(Float64 dat)
void SetNominalBeamEnergy(Float64 dat)
void SetIsocenterPosition(G4ThreeVector dat)
Float64 GetPatientSupportAngle() const

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DicomBeamControlPoint::~DicomBeamControlPoint ( )
inline

Definition at line 40 of file DicomBeamControlPoint.hh.

40 {};

Member Function Documentation

void DicomBeamControlPoint::AddDevice ( DicomBeamDevicePos dbd)
inline

Definition at line 185 of file DicomBeamControlPoint.hh.

185  {
186  theDevices.push_back(dbd);
187  }

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void DicomBeamControlPoint::DumpToFile ( std::ofstream &  out)

Definition at line 223 of file DicomBeamControlPoint.cc.

224 {
225  fout << ":P ControlPointIndex " << theIndex << G4endl;
226  fout << ":P NominalBeamEnergy " << theNominalBeamEnergy << G4endl;
227  fout << ":P IsocenterPositionX " << theIsocenterPosition.x() << G4endl;
228  fout << ":P IsocenterPositionY " << theIsocenterPosition.y() << G4endl;
229  fout << ":P IsocenterPositionZ " << theIsocenterPosition.z() << G4endl;
230 
231  // std::string iistr = std::to_string(theControlPointIndex);
232  fout << ":P SourceToSurfaceDistance " << theSourceToSurfaceDistance << G4endl;
233  fout << ":P GantryAngle " << theGantryAngle << G4endl;
234  fout << ":P BeamLimitingDeviceAngle " << theBeamLimitingDeviceAngle << G4endl;
235  fout << ":P PatientSupportAngle " << thePatientSupportAngle << G4endl;
236  fout << ":P TableTopEccentricAngle " << theTableTopEccentricAngle << G4endl;
237  fout << ":P SourceToSurfaceDistance " << theSourceToSurfaceDistance<< G4endl;
238  fout << ":P MetersetWeight " << theMetersetWeight<< G4endl;
239  fout << ":P GantryPitchAngle " << theGantryPitchAngle << G4endl;
240  fout << ":P SurfaceEntryPoint " << theSurfaceEntryPoint << G4endl;
241  fout << ":P TableTopEccentricAxisDistance " << theTableTopEccentricAxisDistance << G4endl;
242  fout << ":P TableTopLateralPosition " << theTableTopLateralPosition << G4endl;
243  fout << ":P TableTopLongitudinalPosition " << theTableTopLongitudinalPosition<< G4endl;
244  fout << ":P TableTopPitchAngle " << theTableTopPitchAngle << G4endl;
245  fout << ":P TableTopRollAngle " << theTableTopRollAngle << G4endl;
246  fout << ":P TableTopVerticalPosition " << theTableTopVerticalPosition << G4endl;
247 
248  for( size_t ii = 0; ii < theDevices.size(); ii++ ){
249  theDevices[ii]->DumpToFile(fout);
250  }
251 
252 }
double x() const
double z() const
double y() const
#define G4endl
Definition: G4ios.hh:61

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Float64 DicomBeamControlPoint::GetBeamLimitingDeviceAngle ( ) const
inline

Definition at line 124 of file DicomBeamControlPoint.hh.

124  {
125  return theBeamLimitingDeviceAngle;
126  }

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OFString DicomBeamControlPoint::GetBeamLimitingDeviceRotationDirection ( ) const
inline

Definition at line 127 of file DicomBeamControlPoint.hh.

127  {
128  return theBeamLimitingDeviceRotationDirection;
129  }

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Float64 DicomBeamControlPoint::GetCumulativeMetersetWeight ( ) const
inline

Definition at line 148 of file DicomBeamControlPoint.hh.

148  {
149  return theCumulativeMetersetWeight;
150  }
Float32 DicomBeamControlPoint::GetGantryPitchAngle ( ) const
inline

Definition at line 154 of file DicomBeamControlPoint.hh.

154  {
155  return theGantryPitchAngle;
156  }

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OFString DicomBeamControlPoint::GetGantryRotationDirection ( ) const
inline

Definition at line 121 of file DicomBeamControlPoint.hh.

121  {
122  return theGantryRotationDirection;
123  }
Sint32 DicomBeamControlPoint::GetIndex ( ) const
inline

Definition at line 46 of file DicomBeamControlPoint.hh.

46  {
47  return theIndex;
48  }
G4ThreeVector DicomBeamControlPoint::GetIsocenterPosition ( ) const
inline

Definition at line 142 of file DicomBeamControlPoint.hh.

142  {
143  return theIsocenterPosition;
144  }

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Float64 DicomBeamControlPoint::GetMetersetWeight ( ) const
inline

Definition at line 151 of file DicomBeamControlPoint.hh.

151  {
152  return theMetersetWeight;
153  }
Float64 DicomBeamControlPoint::GetNominalBeamEnergy ( ) const
inline

Definition at line 52 of file DicomBeamControlPoint.hh.

52  {
53  return theNominalBeamEnergy;
54  }

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Float64 DicomBeamControlPoint::GetPatientSupportAngle ( ) const
inline

Definition at line 130 of file DicomBeamControlPoint.hh.

130  {
131  return thePatientSupportAngle;
132  }

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OFString DicomBeamControlPoint::GetPatientSupportRotationDirection ( ) const
inline

Definition at line 133 of file DicomBeamControlPoint.hh.

133  {
134  return thePatientSupportRotationDirection;
135  }

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Float64 DicomBeamControlPoint::GetSourceToSurfaceDistance ( ) const
inline

Definition at line 145 of file DicomBeamControlPoint.hh.

145  {
146  return theSourceToSurfaceDistance;
147  }

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Float64 DicomBeamControlPoint::GetSurfaceEntryPoint ( ) const
inline

Definition at line 157 of file DicomBeamControlPoint.hh.

157  {
158  return theSurfaceEntryPoint;
159  }

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Float64 DicomBeamControlPoint::GetTableTopEccentricAngle ( ) const
inline

Definition at line 136 of file DicomBeamControlPoint.hh.

136  {
137  return theTableTopEccentricAngle;
138  }

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Float64 DicomBeamControlPoint::GetTableTopEccentricAxisDistance ( ) const
inline

Definition at line 160 of file DicomBeamControlPoint.hh.

160  {
161  return theTableTopEccentricAxisDistance;
162  }

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OFString DicomBeamControlPoint::GetTableTopEccentricRotationDirection ( ) const
inline

Definition at line 139 of file DicomBeamControlPoint.hh.

139  {
140  return theTableTopEccentricRotationDirection;
141  }

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Float64 DicomBeamControlPoint::GetTableTopLateralPosition ( ) const
inline

Definition at line 163 of file DicomBeamControlPoint.hh.

163  {
164  return theTableTopLateralPosition;
165  }

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Float64 DicomBeamControlPoint::GetTableTopLongitudinalPosition ( ) const
inline

Definition at line 166 of file DicomBeamControlPoint.hh.

166  {
167  return theTableTopLongitudinalPosition;
168  }

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Float32 DicomBeamControlPoint::GetTableTopPitchAngle ( ) const
inline

Definition at line 169 of file DicomBeamControlPoint.hh.

169  {
170  return theTableTopPitchAngle;
171  }

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OFString DicomBeamControlPoint::GetTableTopPitchRotationDirection ( ) const
inline

Definition at line 172 of file DicomBeamControlPoint.hh.

172  {
173  return theTableTopPitchRotationDirection;
174  }

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Float32 DicomBeamControlPoint::GetTableTopRollAngle ( ) const
inline

Definition at line 175 of file DicomBeamControlPoint.hh.

175  {
176  return theTableTopRollAngle;
177  }

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OFString DicomBeamControlPoint::GetTableTopRollRotationDirection ( ) const
inline

Definition at line 178 of file DicomBeamControlPoint.hh.

178  {
179  return theTableTopRollRotationDirection;
180  }

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Float64 DicomBeamControlPoint::GetTableTopVerticalPosition ( ) const
inline

Definition at line 181 of file DicomBeamControlPoint.hh.

181  {
182  return theTableTopVerticalPosition;
183  }

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void DicomBeamControlPoint::Print ( std::ostream &  out)

Definition at line 217 of file DicomBeamControlPoint.cc.

218 {
219 
220 }
void DicomBeamControlPoint::SetBeamLimitingDeviceAngle ( Float64  dat)
inline

Definition at line 61 of file DicomBeamControlPoint.hh.

61  {
62  theBeamLimitingDeviceAngle = dat;
63  }

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void DicomBeamControlPoint::SetBeamLimitingDeviceRotationDirection ( OFString  dat)
inline

Definition at line 64 of file DicomBeamControlPoint.hh.

64  {
65  theBeamLimitingDeviceRotationDirection = dat;
66  }

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void DicomBeamControlPoint::SetCumulativeMetersetWeight ( Float64  dat)
inline

Definition at line 85 of file DicomBeamControlPoint.hh.

85  {
86  theCumulativeMetersetWeight = dat;
87  }

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void DicomBeamControlPoint::SetGantryAngle ( Float64  dat)
inline

Definition at line 55 of file DicomBeamControlPoint.hh.

55  {
56  theGantryAngle = dat;
57  }

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void DicomBeamControlPoint::SetGantryPitchAngle ( Float32  dat)
inline

Definition at line 91 of file DicomBeamControlPoint.hh.

91  {
92  theGantryPitchAngle = dat;
93  }

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void DicomBeamControlPoint::SetGantryRotationDirection ( OFString  dat)
inline

Definition at line 58 of file DicomBeamControlPoint.hh.

58  {
59  theGantryRotationDirection = dat;
60  }
void DicomBeamControlPoint::SetIndex ( Sint32  dat)
inline

Definition at line 43 of file DicomBeamControlPoint.hh.

43  {
44  theIndex = dat;
45  }

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void DicomBeamControlPoint::SetIsocenterPosition ( G4ThreeVector  dat)
inline

Definition at line 79 of file DicomBeamControlPoint.hh.

79  {
80  theIsocenterPosition = dat;
81  }

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void DicomBeamControlPoint::SetMetersetWeight ( Float64  dat)
inline

Definition at line 88 of file DicomBeamControlPoint.hh.

88  {
89  theMetersetWeight = dat;
90  }
void DicomBeamControlPoint::SetNominalBeamEnergy ( Float64  dat)
inline

Definition at line 49 of file DicomBeamControlPoint.hh.

49  {
50  theNominalBeamEnergy = dat;
51  }

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void DicomBeamControlPoint::SetPatientSupportAngle ( Float64  dat)
inline

Definition at line 67 of file DicomBeamControlPoint.hh.

67  {
68  thePatientSupportAngle = dat;
69  }

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void DicomBeamControlPoint::SetPatientSupportRotationDirection ( OFString  dat)
inline

Definition at line 70 of file DicomBeamControlPoint.hh.

70  {
71  thePatientSupportRotationDirection = dat;
72  }

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void DicomBeamControlPoint::SetSourceToSurfaceDistance ( Float64  dat)
inline

Definition at line 82 of file DicomBeamControlPoint.hh.

82  {
83  theSourceToSurfaceDistance = dat;
84  }

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void DicomBeamControlPoint::SetSurfaceEntryPoint ( Float64  dat)
inline

Definition at line 94 of file DicomBeamControlPoint.hh.

94  {
95  theSurfaceEntryPoint = dat;
96  }

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void DicomBeamControlPoint::SetTableTopEccentricAngle ( Float64  dat)
inline

Definition at line 73 of file DicomBeamControlPoint.hh.

73  {
74  theTableTopEccentricAngle = dat;
75  }

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void DicomBeamControlPoint::SetTableTopEccentricAxisDistance ( Float64  dat)
inline

Definition at line 97 of file DicomBeamControlPoint.hh.

97  {
98  theTableTopEccentricAxisDistance = dat;
99  }

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void DicomBeamControlPoint::SetTableTopEccentricRotationDirection ( OFString  dat)
inline

Definition at line 76 of file DicomBeamControlPoint.hh.

76  {
77  theTableTopEccentricRotationDirection = dat;
78  }

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void DicomBeamControlPoint::SetTableTopLateralPosition ( Float64  dat)
inline

Definition at line 100 of file DicomBeamControlPoint.hh.

100  {
101  theTableTopLateralPosition = dat;
102  }

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void DicomBeamControlPoint::SetTableTopLongitudinalPosition ( Float64  dat)
inline

Definition at line 103 of file DicomBeamControlPoint.hh.

103  {
104  theTableTopLongitudinalPosition = dat;
105  }

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void DicomBeamControlPoint::SetTableTopPitchAngle ( Float32  dat)
inline

Definition at line 106 of file DicomBeamControlPoint.hh.

106  {
107  theTableTopPitchAngle = dat;
108  }

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void DicomBeamControlPoint::SetTableTopPitchRotationDirection ( OFString  dat)
inline

Definition at line 109 of file DicomBeamControlPoint.hh.

109  {
110  theTableTopPitchRotationDirection = dat;
111  }

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void DicomBeamControlPoint::SetTableTopRollAngle ( Float32  dat)
inline

Definition at line 112 of file DicomBeamControlPoint.hh.

112  {
113  theTableTopRollAngle = dat;
114  }

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void DicomBeamControlPoint::SetTableTopRollRotationDirection ( OFString  dat)
inline

Definition at line 115 of file DicomBeamControlPoint.hh.

115  {
116  theTableTopRollRotationDirection = dat;
117  }

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void DicomBeamControlPoint::SetTableTopVerticalPosition ( Float64  dat)
inline

Definition at line 118 of file DicomBeamControlPoint.hh.

118  {
119  theTableTopVerticalPosition = dat;
120  }

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