Geant4 Cross Reference |
1 // 1 // 2 // ******************************************* 2 // ******************************************************************** 3 // * License and Disclaimer 3 // * License and Disclaimer * 4 // * 4 // * * 5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of * 6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and * 7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file * 8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // 26 // 27 //-------------------------------------------- 27 //---------------------------------------------------------------------------- 28 // 28 // 29 // ClassName: G4OpticalParametersMessenger 29 // ClassName: G4OpticalParametersMessenger 30 // 30 // 31 // Author: P.Gumplinger 30.09.2009 // 31 // Author: P.Gumplinger 30.09.2009 // 32 // 32 // 33 // Modified: P.Gumplinger 29.09.2011 33 // Modified: P.Gumplinger 29.09.2011 34 // (based on code from I. Hrivnac 34 // (based on code from I. Hrivnacova) 35 // 35 // 36 //-------------------------------------------- 36 //---------------------------------------------------------------------------- 37 // 37 // 38 38 39 #include "G4OpticalParametersMessenger.hh" 39 #include "G4OpticalParametersMessenger.hh" 40 #include "G4OpticalParameters.hh" 40 #include "G4OpticalParameters.hh" 41 41 42 #include "G4UIcommand.hh" 42 #include "G4UIcommand.hh" 43 #include "G4UIdirectory.hh" 43 #include "G4UIdirectory.hh" 44 #include "G4UIcmdWithABool.hh" 44 #include "G4UIcmdWithABool.hh" 45 #include "G4UIcmdWithAString.hh" 45 #include "G4UIcmdWithAString.hh" 46 #include "G4UIcmdWithADouble.hh" 46 #include "G4UIcmdWithADouble.hh" 47 #include "G4UIcmdWithAnInteger.hh" 47 #include "G4UIcmdWithAnInteger.hh" 48 #include "G4UIcmdWithADoubleAndUnit.hh" 48 #include "G4UIcmdWithADoubleAndUnit.hh" 49 #include "G4UImanager.hh" 49 #include "G4UImanager.hh" 50 #include "G4UIparameter.hh" 50 #include "G4UIparameter.hh" 51 51 52 //....oooOO0OOooo........oooOO0OOooo........oo 52 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 53 53 54 G4OpticalParametersMessenger::G4OpticalParamet 54 G4OpticalParametersMessenger::G4OpticalParametersMessenger( 55 G4OpticalParameters* opticalParameters) 55 G4OpticalParameters* opticalParameters) 56 : params(opticalParameters) 56 : params(opticalParameters) 57 57 58 { 58 { 59 G4bool toBeBroadcasted = false; 59 G4bool toBeBroadcasted = false; 60 fDir = new G4UIdirectory("/process/optical/" 60 fDir = new G4UIdirectory("/process/optical/", toBeBroadcasted); 61 fDir->SetGuidance( 61 fDir->SetGuidance( 62 "Commands related to the optical physics s 62 "Commands related to the optical physics simulation engine."); 63 63 64 fCerenkovDir = 64 fCerenkovDir = 65 new G4UIdirectory("/process/optical/cerenk 65 new G4UIdirectory("/process/optical/cerenkov/", toBeBroadcasted); 66 fCerenkovDir->SetGuidance("Cerenkov process 66 fCerenkovDir->SetGuidance("Cerenkov process commands"); 67 fScintDir = 67 fScintDir = 68 new G4UIdirectory("/process/optical/scinti 68 new G4UIdirectory("/process/optical/scintillation/", toBeBroadcasted); 69 fScintDir->SetGuidance("Scintillation proces 69 fScintDir->SetGuidance("Scintillation process commands"); 70 fWlsDir = new G4UIdirectory("/process/optica 70 fWlsDir = new G4UIdirectory("/process/optical/wls/", toBeBroadcasted); 71 fWlsDir->SetGuidance("Wave length shifting p 71 fWlsDir->SetGuidance("Wave length shifting process commands"); 72 fWls2Dir = new G4UIdirectory("/process/optic 72 fWls2Dir = new G4UIdirectory("/process/optical/wls2/", toBeBroadcasted); 73 fWls2Dir->SetGuidance("Second Wave length sh 73 fWls2Dir->SetGuidance("Second Wave length shifting process commands"); 74 fBoundaryDir = 74 fBoundaryDir = 75 new G4UIdirectory("/process/optical/bounda 75 new G4UIdirectory("/process/optical/boundary/", toBeBroadcasted); 76 fBoundaryDir->SetGuidance("Boundary scatteri 76 fBoundaryDir->SetGuidance("Boundary scattering commands"); 77 fMieDir = new G4UIdirectory("/process/optica 77 fMieDir = new G4UIdirectory("/process/optical/mie/", toBeBroadcasted); 78 fMieDir->SetGuidance("Mie scattering process 78 fMieDir->SetGuidance("Mie scattering process commands"); 79 fAbsDir = new G4UIdirectory("/process/optica 79 fAbsDir = new G4UIdirectory("/process/optical/absorption/", toBeBroadcasted); 80 fAbsDir->SetGuidance("absorption process com 80 fAbsDir->SetGuidance("absorption process commands"); 81 fRaylDir = new G4UIdirectory("/process/optic 81 fRaylDir = new G4UIdirectory("/process/optical/rayleigh/", toBeBroadcasted); 82 fRaylDir->SetGuidance("Rayleigh scattering c 82 fRaylDir->SetGuidance("Rayleigh scattering commands"); 83 83 84 // general commands 84 // general commands 85 fActivateProcessCmd = 85 fActivateProcessCmd = 86 new G4UIcommand("/process/optical/processA 86 new G4UIcommand("/process/optical/processActivation", this); 87 fActivateProcessCmd->SetGuidance( 87 fActivateProcessCmd->SetGuidance( 88 "Activate/deactivate the specified optical 88 "Activate/deactivate the specified optical process"); 89 auto par = new G4UIparameter("proc_name", 's 89 auto par = new G4UIparameter("proc_name", 's', false); 90 G4String candidates; 90 G4String candidates; 91 for(G4int i = 0; i < kNoProcess; ++i) 91 for(G4int i = 0; i < kNoProcess; ++i) 92 { 92 { 93 candidates += G4OpticalProcessName(i); 93 candidates += G4OpticalProcessName(i); 94 candidates += G4String(" "); 94 candidates += G4String(" "); 95 } 95 } 96 par->SetParameterCandidates(candidates); 96 par->SetParameterCandidates(candidates); 97 par->SetGuidance("the process name"); 97 par->SetGuidance("the process name"); 98 fActivateProcessCmd->SetParameter(par); 98 fActivateProcessCmd->SetParameter(par); 99 par = new G4UIparameter("flag", 'b', true); 99 par = new G4UIparameter("flag", 'b', true); 100 par->SetDefaultValue(true); 100 par->SetDefaultValue(true); 101 par->SetGuidance("activation flag"); 101 par->SetGuidance("activation flag"); 102 fActivateProcessCmd->SetParameter(par); 102 fActivateProcessCmd->SetParameter(par); 103 fActivateProcessCmd->AvailableForStates(G4St 103 fActivateProcessCmd->AvailableForStates(G4State_PreInit); 104 104 105 fVerboseCmd = new G4UIcmdWithAnInteger("/pro 105 fVerboseCmd = new G4UIcmdWithAnInteger("/process/optical/verbose", this); 106 fVerboseCmd->SetGuidance("Set default verbos 106 fVerboseCmd->SetGuidance("Set default verbose level for optical processes"); 107 fVerboseCmd->SetParameterName("ver", true); 107 fVerboseCmd->SetParameterName("ver", true); 108 fVerboseCmd->SetDefaultValue(1); 108 fVerboseCmd->SetDefaultValue(1); 109 fVerboseCmd->SetRange("ver>=0"); 109 fVerboseCmd->SetRange("ver>=0"); 110 fVerboseCmd->AvailableForStates(G4State_PreI 110 fVerboseCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 111 111 112 fDumpCmd = new G4UIcommand("/process/optical 112 fDumpCmd = new G4UIcommand("/process/optical/printParameters", this); 113 fDumpCmd->SetGuidance("Print all optical par 113 fDumpCmd->SetGuidance("Print all optical parameters."); 114 114 115 // Cerenkov //////////////////// 115 // Cerenkov //////////////////// 116 fCerenkovMaxPhotonsCmd = 116 fCerenkovMaxPhotonsCmd = 117 new G4UIcmdWithAnInteger("/process/optical 117 new G4UIcmdWithAnInteger("/process/optical/cerenkov/setMaxPhotons", this); 118 fCerenkovMaxPhotonsCmd->SetGuidance("Set max 118 fCerenkovMaxPhotonsCmd->SetGuidance("Set maximum number of photons per step"); 119 fCerenkovMaxPhotonsCmd->SetParameterName("Ce 119 fCerenkovMaxPhotonsCmd->SetParameterName("CerenkovMaxPhotons", false); 120 fCerenkovMaxPhotonsCmd->SetRange("CerenkovMa 120 fCerenkovMaxPhotonsCmd->SetRange("CerenkovMaxPhotons>=0"); 121 fCerenkovMaxPhotonsCmd->AvailableForStates(G 121 fCerenkovMaxPhotonsCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 122 122 123 fCerenkovMaxBetaChangeCmd = 123 fCerenkovMaxBetaChangeCmd = 124 new G4UIcmdWithADouble("/process/optical/c 124 new G4UIcmdWithADouble("/process/optical/cerenkov/setMaxBetaChange", this); 125 fCerenkovMaxBetaChangeCmd->SetGuidance( 125 fCerenkovMaxBetaChangeCmd->SetGuidance( 126 "Set maximum change of beta of parent part 126 "Set maximum change of beta of parent particle per step (in percent)"); 127 fCerenkovMaxBetaChangeCmd->SetParameterName( 127 fCerenkovMaxBetaChangeCmd->SetParameterName("CerenkovMaxBetaChange", false); 128 fCerenkovMaxBetaChangeCmd->SetRange("Cerenko 128 fCerenkovMaxBetaChangeCmd->SetRange("CerenkovMaxBetaChange>=0"); 129 fCerenkovMaxBetaChangeCmd->AvailableForState 129 fCerenkovMaxBetaChangeCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 130 130 131 fCerenkovStackPhotonsCmd = 131 fCerenkovStackPhotonsCmd = 132 new G4UIcmdWithABool("/process/optical/cer 132 new G4UIcmdWithABool("/process/optical/cerenkov/setStackPhotons", this); 133 fCerenkovStackPhotonsCmd->SetGuidance( 133 fCerenkovStackPhotonsCmd->SetGuidance( 134 "Set whether or not to stack secondary Cer 134 "Set whether or not to stack secondary Cerenkov photons"); 135 fCerenkovStackPhotonsCmd->AvailableForStates 135 fCerenkovStackPhotonsCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 136 136 137 fCerenkovTrackSecondariesFirstCmd = new G4UI 137 fCerenkovTrackSecondariesFirstCmd = new G4UIcmdWithABool( 138 "/process/optical/cerenkov/setTrackSeconda 138 "/process/optical/cerenkov/setTrackSecondariesFirst", this); 139 fCerenkovTrackSecondariesFirstCmd->SetGuidan 139 fCerenkovTrackSecondariesFirstCmd->SetGuidance( 140 "Whether to track secondary Cerenkov photo 140 "Whether to track secondary Cerenkov photons before the primary."); 141 fCerenkovTrackSecondariesFirstCmd->Available 141 fCerenkovTrackSecondariesFirstCmd->AvailableForStates(G4State_PreInit, 142 142 G4State_Idle); 143 143 144 fCerenkovVerboseLevelCmd = 144 fCerenkovVerboseLevelCmd = 145 new G4UIcmdWithAnInteger("/process/optical 145 new G4UIcmdWithAnInteger("/process/optical/cerenkov/verbose", this); 146 fCerenkovVerboseLevelCmd->SetGuidance("Verbo 146 fCerenkovVerboseLevelCmd->SetGuidance("Verbose level for Cerenkov process."); 147 fCerenkovVerboseLevelCmd->SetParameterName(" 147 fCerenkovVerboseLevelCmd->SetParameterName("verbose", true); 148 fCerenkovVerboseLevelCmd->SetRange("verbose 148 fCerenkovVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 149 fCerenkovVerboseLevelCmd->SetDefaultValue(2) 149 fCerenkovVerboseLevelCmd->SetDefaultValue(2); 150 fCerenkovVerboseLevelCmd->AvailableForStates 150 fCerenkovVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 151 151 152 // Scintillation ////////////////////////// 152 // Scintillation ////////////////////////// 153 fScintByParticleTypeCmd = new G4UIcmdWithABo 153 fScintByParticleTypeCmd = new G4UIcmdWithABool( 154 "/process/optical/scintillation/setByParti 154 "/process/optical/scintillation/setByParticleType", this); 155 fScintByParticleTypeCmd->SetGuidance( 155 fScintByParticleTypeCmd->SetGuidance( 156 "Activate/Inactivate scintillation process 156 "Activate/Inactivate scintillation process by particle type"); 157 fScintByParticleTypeCmd->SetParameterName( 157 fScintByParticleTypeCmd->SetParameterName( 158 "ScintillationByParticleTypeActivation", f 158 "ScintillationByParticleTypeActivation", false); 159 fScintByParticleTypeCmd->AvailableForStates( 159 fScintByParticleTypeCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 160 160 161 fScintTrackInfoCmd = 161 fScintTrackInfoCmd = 162 new G4UIcmdWithABool("/process/optical/sci 162 new G4UIcmdWithABool("/process/optical/scintillation/setTrackInfo", this); 163 fScintTrackInfoCmd->SetGuidance( 163 fScintTrackInfoCmd->SetGuidance( 164 "Activate/Inactivate scintillation TrackIn 164 "Activate/Inactivate scintillation TrackInformation"); 165 fScintTrackInfoCmd->SetParameterName("Scinti 165 fScintTrackInfoCmd->SetParameterName("ScintillationTrackInfo", false); 166 fScintTrackInfoCmd->AvailableForStates(G4Sta 166 fScintTrackInfoCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 167 167 168 fScintFiniteRiseTimeCmd = new G4UIcmdWithABo 168 fScintFiniteRiseTimeCmd = new G4UIcmdWithABool( 169 "/process/optical/scintillation/setFiniteR 169 "/process/optical/scintillation/setFiniteRiseTime", this); 170 fScintFiniteRiseTimeCmd->SetGuidance( 170 fScintFiniteRiseTimeCmd->SetGuidance( 171 "Set option of a finite rise-time for G4Sc 171 "Set option of a finite rise-time for G4Scintillation"); 172 fScintFiniteRiseTimeCmd->SetGuidance( 172 fScintFiniteRiseTimeCmd->SetGuidance( 173 "If set, the G4Scintillation process expec 173 "If set, the G4Scintillation process expects the user to have set the"); 174 fScintFiniteRiseTimeCmd->SetGuidance( 174 fScintFiniteRiseTimeCmd->SetGuidance( 175 "constant material property SCINTILLATIONR 175 "constant material property SCINTILLATIONRISETIME{1,2,3}"); 176 fScintFiniteRiseTimeCmd->SetParameterName("F 176 fScintFiniteRiseTimeCmd->SetParameterName("FiniteRiseTime", false); 177 fScintFiniteRiseTimeCmd->AvailableForStates( 177 fScintFiniteRiseTimeCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 178 178 179 fScintStackPhotonsCmd = new G4UIcmdWithABool 179 fScintStackPhotonsCmd = new G4UIcmdWithABool( 180 "/process/optical/scintillation/setStackPh 180 "/process/optical/scintillation/setStackPhotons", this); 181 fScintStackPhotonsCmd->SetGuidance( 181 fScintStackPhotonsCmd->SetGuidance( 182 "Set whether or not to stack secondary Sci 182 "Set whether or not to stack secondary Scintillation photons"); 183 fScintStackPhotonsCmd->SetParameterName("Sci 183 fScintStackPhotonsCmd->SetParameterName("ScintillationStackPhotons", true); 184 fScintStackPhotonsCmd->SetDefaultValue(true) 184 fScintStackPhotonsCmd->SetDefaultValue(true); 185 fScintStackPhotonsCmd->AvailableForStates(G4 185 fScintStackPhotonsCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 186 186 187 fScintTrackSecondariesFirstCmd = new G4UIcmd 187 fScintTrackSecondariesFirstCmd = new G4UIcmdWithABool( 188 "/process/optical/scintillation/setTrackSe 188 "/process/optical/scintillation/setTrackSecondariesFirst", this); 189 fScintTrackSecondariesFirstCmd->SetGuidance( 189 fScintTrackSecondariesFirstCmd->SetGuidance( 190 "Whether to track scintillation secondarie 190 "Whether to track scintillation secondaries before primary."); 191 fScintTrackSecondariesFirstCmd->AvailableFor 191 fScintTrackSecondariesFirstCmd->AvailableForStates(G4State_PreInit, 192 192 G4State_Idle); 193 193 194 fScintVerboseLevelCmd = 194 fScintVerboseLevelCmd = 195 new G4UIcmdWithAnInteger("/process/optical 195 new G4UIcmdWithAnInteger("/process/optical/scintillation/verbose", this); 196 fScintVerboseLevelCmd->SetGuidance( 196 fScintVerboseLevelCmd->SetGuidance( 197 "Verbose level for scintillation process." 197 "Verbose level for scintillation process."); 198 fScintVerboseLevelCmd->SetParameterName("ver 198 fScintVerboseLevelCmd->SetParameterName("verbose", true); 199 fScintVerboseLevelCmd->SetRange("verbose >= 199 fScintVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 200 fScintVerboseLevelCmd->AvailableForStates(G4 200 fScintVerboseLevelCmd->AvailableForStates(G4State_Idle, G4State_PreInit); 201 201 202 // WLS ////////////////////////////////// 202 // WLS ////////////////////////////////// 203 fWLSTimeProfileCmd = 203 fWLSTimeProfileCmd = 204 new G4UIcmdWithAString("/process/optical/w 204 new G4UIcmdWithAString("/process/optical/wls/setTimeProfile", this); 205 fWLSTimeProfileCmd->SetGuidance( 205 fWLSTimeProfileCmd->SetGuidance( 206 "Set the WLS time profile (delta or expone 206 "Set the WLS time profile (delta or exponential)"); 207 fWLSTimeProfileCmd->SetParameterName("WLSTim 207 fWLSTimeProfileCmd->SetParameterName("WLSTimeProfile", false); 208 fWLSTimeProfileCmd->SetCandidates("delta exp 208 fWLSTimeProfileCmd->SetCandidates("delta exponential"); 209 fWLSTimeProfileCmd->AvailableForStates(G4Sta 209 fWLSTimeProfileCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 210 210 211 fWLSVerboseLevelCmd = 211 fWLSVerboseLevelCmd = 212 new G4UIcmdWithAnInteger("/process/optical 212 new G4UIcmdWithAnInteger("/process/optical/wls/verbose", this); 213 fWLSVerboseLevelCmd->SetGuidance("Verbose le 213 fWLSVerboseLevelCmd->SetGuidance("Verbose level for WLS process."); 214 fWLSVerboseLevelCmd->SetParameterName("verbo 214 fWLSVerboseLevelCmd->SetParameterName("verbose", true); 215 fWLSVerboseLevelCmd->SetRange("verbose >= 0 215 fWLSVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 216 fWLSVerboseLevelCmd->SetDefaultValue(1); 216 fWLSVerboseLevelCmd->SetDefaultValue(1); 217 fWLSVerboseLevelCmd->AvailableForStates(G4St 217 fWLSVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 218 218 219 // WLS2 ////////////////////////////////// 219 // WLS2 ////////////////////////////////// 220 fWLS2TimeProfileCmd = 220 fWLS2TimeProfileCmd = 221 new G4UIcmdWithAString("/process/optical/w 221 new G4UIcmdWithAString("/process/optical/wls2/setTimeProfile", this); 222 fWLS2TimeProfileCmd->SetGuidance( 222 fWLS2TimeProfileCmd->SetGuidance( 223 "Set the WLS2 time profile (delta or expon 223 "Set the WLS2 time profile (delta or exponential)"); 224 fWLS2TimeProfileCmd->SetParameterName("WLS2T 224 fWLS2TimeProfileCmd->SetParameterName("WLS2TimeProfile", false); 225 fWLS2TimeProfileCmd->SetCandidates("delta ex 225 fWLS2TimeProfileCmd->SetCandidates("delta exponential"); 226 fWLS2TimeProfileCmd->AvailableForStates(G4St 226 fWLS2TimeProfileCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 227 227 228 fWLS2VerboseLevelCmd = 228 fWLS2VerboseLevelCmd = 229 new G4UIcmdWithAnInteger("/process/optical 229 new G4UIcmdWithAnInteger("/process/optical/wls2/verbose", this); 230 fWLS2VerboseLevelCmd->SetGuidance("Verbose l 230 fWLS2VerboseLevelCmd->SetGuidance("Verbose level for WLS2 process."); 231 fWLS2VerboseLevelCmd->SetParameterName("verb 231 fWLS2VerboseLevelCmd->SetParameterName("verbose", true); 232 fWLS2VerboseLevelCmd->SetRange("verbose >= 0 232 fWLS2VerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 233 fWLS2VerboseLevelCmd->SetDefaultValue(1); 233 fWLS2VerboseLevelCmd->SetDefaultValue(1); 234 fWLS2VerboseLevelCmd->AvailableForStates(G4S 234 fWLS2VerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 235 235 236 // boundary //////////////////////////////// 236 // boundary ////////////////////////////////////// 237 fBoundaryInvokeSDCmd = 237 fBoundaryInvokeSDCmd = 238 new G4UIcmdWithABool("/process/optical/bou 238 new G4UIcmdWithABool("/process/optical/boundary/setInvokeSD", this); 239 fBoundaryInvokeSDCmd->SetGuidance( 239 fBoundaryInvokeSDCmd->SetGuidance( 240 "Set option for calling InvokeSD in G4OpBo 240 "Set option for calling InvokeSD in G4OpBoundaryProcess"); 241 fBoundaryInvokeSDCmd->SetParameterName("Invo 241 fBoundaryInvokeSDCmd->SetParameterName("InvokeSD", false); 242 fBoundaryInvokeSDCmd->AvailableForStates(G4S 242 fBoundaryInvokeSDCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 243 243 244 fBoundaryVerboseLevelCmd = 244 fBoundaryVerboseLevelCmd = 245 new G4UIcmdWithAnInteger("/process/optical 245 new G4UIcmdWithAnInteger("/process/optical/boundary/verbose", this); 246 fBoundaryVerboseLevelCmd->SetGuidance("Verbo 246 fBoundaryVerboseLevelCmd->SetGuidance("Verbose level for boundary process."); 247 fBoundaryVerboseLevelCmd->SetParameterName(" 247 fBoundaryVerboseLevelCmd->SetParameterName("verbose", true); 248 fBoundaryVerboseLevelCmd->SetRange("verbose 248 fBoundaryVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 249 fBoundaryVerboseLevelCmd->SetDefaultValue(1) 249 fBoundaryVerboseLevelCmd->SetDefaultValue(1); 250 fBoundaryVerboseLevelCmd->AvailableForStates 250 fBoundaryVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 251 251 252 // absorption ////////////////////////////// 252 // absorption ////////////////////////////////////// 253 fAbsorptionVerboseLevelCmd = 253 fAbsorptionVerboseLevelCmd = 254 new G4UIcmdWithAnInteger("/process/optical 254 new G4UIcmdWithAnInteger("/process/optical/absorption/verbose", this); 255 fAbsorptionVerboseLevelCmd->SetGuidance( 255 fAbsorptionVerboseLevelCmd->SetGuidance( 256 "Verbose level for absorption process."); 256 "Verbose level for absorption process."); 257 fAbsorptionVerboseLevelCmd->SetParameterName 257 fAbsorptionVerboseLevelCmd->SetParameterName("verbose", true); 258 fAbsorptionVerboseLevelCmd->SetRange("verbos 258 fAbsorptionVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 259 fAbsorptionVerboseLevelCmd->SetDefaultValue( 259 fAbsorptionVerboseLevelCmd->SetDefaultValue(1); 260 fAbsorptionVerboseLevelCmd->AvailableForStat 260 fAbsorptionVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 261 261 262 // rayleigh //////////////////////////////// 262 // rayleigh ////////////////////////////////////// 263 fRayleighVerboseLevelCmd = 263 fRayleighVerboseLevelCmd = 264 new G4UIcmdWithAnInteger("/process/optical 264 new G4UIcmdWithAnInteger("/process/optical/rayleigh/verbose", this); 265 fRayleighVerboseLevelCmd->SetGuidance("Verbo 265 fRayleighVerboseLevelCmd->SetGuidance("Verbose level for Rayleigh process."); 266 fRayleighVerboseLevelCmd->SetParameterName(" 266 fRayleighVerboseLevelCmd->SetParameterName("verbose", true); 267 fRayleighVerboseLevelCmd->SetRange("verbose 267 fRayleighVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 268 fRayleighVerboseLevelCmd->SetDefaultValue(1) 268 fRayleighVerboseLevelCmd->SetDefaultValue(1); 269 fRayleighVerboseLevelCmd->AvailableForStates 269 fRayleighVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 270 270 271 // mie ///////////////////////////////////// 271 // mie ////////////////////////////////////// 272 fMieVerboseLevelCmd = 272 fMieVerboseLevelCmd = 273 new G4UIcmdWithAnInteger("/process/optical 273 new G4UIcmdWithAnInteger("/process/optical/mie/verbose", this); 274 fMieVerboseLevelCmd->SetGuidance("Verbose le 274 fMieVerboseLevelCmd->SetGuidance("Verbose level for Mie process."); 275 fMieVerboseLevelCmd->SetParameterName("verbo 275 fMieVerboseLevelCmd->SetParameterName("verbose", true); 276 fMieVerboseLevelCmd->SetRange("verbose >= 0 276 fMieVerboseLevelCmd->SetRange("verbose >= 0 && verbose <= 2"); 277 fMieVerboseLevelCmd->SetDefaultValue(1); 277 fMieVerboseLevelCmd->SetDefaultValue(1); 278 fMieVerboseLevelCmd->AvailableForStates(G4St 278 fMieVerboseLevelCmd->AvailableForStates(G4State_PreInit, G4State_Idle); 279 } 279 } 280 280 281 G4OpticalParametersMessenger::~G4OpticalParame 281 G4OpticalParametersMessenger::~G4OpticalParametersMessenger() 282 { 282 { 283 delete fDir; 283 delete fDir; 284 delete fCerenkovDir; 284 delete fCerenkovDir; 285 delete fScintDir; 285 delete fScintDir; 286 delete fWlsDir; 286 delete fWlsDir; 287 delete fBoundaryDir; 287 delete fBoundaryDir; 288 delete fMieDir; 288 delete fMieDir; 289 delete fAbsDir; 289 delete fAbsDir; 290 delete fRaylDir; 290 delete fRaylDir; 291 delete fActivateProcessCmd; 291 delete fActivateProcessCmd; 292 delete fVerboseCmd; 292 delete fVerboseCmd; 293 delete fDumpCmd; 293 delete fDumpCmd; 294 delete fCerenkovMaxPhotonsCmd; 294 delete fCerenkovMaxPhotonsCmd; 295 delete fCerenkovMaxBetaChangeCmd; 295 delete fCerenkovMaxBetaChangeCmd; 296 delete fCerenkovStackPhotonsCmd; 296 delete fCerenkovStackPhotonsCmd; 297 delete fCerenkovTrackSecondariesFirstCmd; 297 delete fCerenkovTrackSecondariesFirstCmd; 298 delete fCerenkovVerboseLevelCmd; 298 delete fCerenkovVerboseLevelCmd; 299 delete fScintByParticleTypeCmd; 299 delete fScintByParticleTypeCmd; 300 delete fScintTrackInfoCmd; 300 delete fScintTrackInfoCmd; 301 delete fScintStackPhotonsCmd; 301 delete fScintStackPhotonsCmd; 302 delete fScintVerboseLevelCmd; 302 delete fScintVerboseLevelCmd; 303 delete fScintFiniteRiseTimeCmd; 303 delete fScintFiniteRiseTimeCmd; 304 delete fScintTrackSecondariesFirstCmd; 304 delete fScintTrackSecondariesFirstCmd; 305 delete fWLSTimeProfileCmd; 305 delete fWLSTimeProfileCmd; 306 delete fWLSVerboseLevelCmd; 306 delete fWLSVerboseLevelCmd; 307 delete fWLS2TimeProfileCmd; 307 delete fWLS2TimeProfileCmd; 308 delete fWLS2VerboseLevelCmd; 308 delete fWLS2VerboseLevelCmd; 309 delete fAbsorptionVerboseLevelCmd; 309 delete fAbsorptionVerboseLevelCmd; 310 delete fRayleighVerboseLevelCmd; 310 delete fRayleighVerboseLevelCmd; 311 delete fMieVerboseLevelCmd; 311 delete fMieVerboseLevelCmd; 312 delete fBoundaryVerboseLevelCmd; 312 delete fBoundaryVerboseLevelCmd; 313 delete fBoundaryInvokeSDCmd; 313 delete fBoundaryInvokeSDCmd; 314 } 314 } 315 315 316 void G4OpticalParametersMessenger::SetNewValue 316 void G4OpticalParametersMessenger::SetNewValue(G4UIcommand* command, 317 317 G4String newValue) 318 { 318 { 319 // physics needs to be rebuilt for all comma 319 // physics needs to be rebuilt for all commands 320 G4bool physicsModified = true; 320 G4bool physicsModified = true; 321 321 322 /// Apply command to the associated object. 322 /// Apply command to the associated object. 323 if(command == fActivateProcessCmd) 323 if(command == fActivateProcessCmd) 324 { 324 { 325 std::istringstream is(newValue.data()); 325 std::istringstream is(newValue.data()); 326 G4String pn; 326 G4String pn; 327 G4String flag; 327 G4String flag; 328 is >> pn >> flag; 328 is >> pn >> flag; 329 G4bool value = G4UIcommand::ConvertToBool( 329 G4bool value = G4UIcommand::ConvertToBool(flag); 330 params->SetProcessActivation(pn, value); 330 params->SetProcessActivation(pn, value); 331 } 331 } 332 else if(command == fVerboseCmd) 332 else if(command == fVerboseCmd) 333 { 333 { 334 params->SetVerboseLevel(fVerboseCmd->GetNe 334 params->SetVerboseLevel(fVerboseCmd->GetNewIntValue(newValue)); 335 } 335 } 336 else if(command == fDumpCmd) 336 else if(command == fDumpCmd) 337 { 337 { 338 params->Dump(); 338 params->Dump(); 339 } 339 } 340 else if(command == fCerenkovMaxPhotonsCmd) 340 else if(command == fCerenkovMaxPhotonsCmd) 341 { 341 { 342 params->SetCerenkovMaxPhotonsPerStep( 342 params->SetCerenkovMaxPhotonsPerStep( 343 fCerenkovMaxPhotonsCmd->GetNewIntValue(n 343 fCerenkovMaxPhotonsCmd->GetNewIntValue(newValue)); 344 G4cout << "Cerenkov max photons: " << para 344 G4cout << "Cerenkov max photons: " << params->GetCerenkovMaxPhotonsPerStep() 345 << G4endl; 345 << G4endl; 346 } 346 } 347 else if(command == fCerenkovMaxBetaChangeCmd 347 else if(command == fCerenkovMaxBetaChangeCmd) 348 { 348 { 349 params->SetCerenkovMaxBetaChange( 349 params->SetCerenkovMaxBetaChange( 350 fCerenkovMaxBetaChangeCmd->GetNewDoubleV 350 fCerenkovMaxBetaChangeCmd->GetNewDoubleValue(newValue)); 351 } 351 } 352 else if(command == fCerenkovStackPhotonsCmd) 352 else if(command == fCerenkovStackPhotonsCmd) 353 { 353 { 354 params->SetCerenkovStackPhotons( 354 params->SetCerenkovStackPhotons( 355 fCerenkovStackPhotonsCmd->GetNewBoolValu 355 fCerenkovStackPhotonsCmd->GetNewBoolValue(newValue)); 356 } 356 } 357 else if(command == fCerenkovTrackSecondaries 357 else if(command == fCerenkovTrackSecondariesFirstCmd) 358 { 358 { 359 params->SetCerenkovTrackSecondariesFirst( 359 params->SetCerenkovTrackSecondariesFirst( 360 fCerenkovTrackSecondariesFirstCmd->GetNe 360 fCerenkovTrackSecondariesFirstCmd->GetNewBoolValue(newValue)); 361 } 361 } 362 else if(command == fCerenkovVerboseLevelCmd) 362 else if(command == fCerenkovVerboseLevelCmd) 363 { 363 { 364 params->SetCerenkovVerboseLevel( 364 params->SetCerenkovVerboseLevel( 365 fCerenkovVerboseLevelCmd->GetNewIntValue 365 fCerenkovVerboseLevelCmd->GetNewIntValue(newValue)); 366 } 366 } 367 else if(command == fScintByParticleTypeCmd) 367 else if(command == fScintByParticleTypeCmd) 368 { 368 { 369 params->SetScintByParticleType( 369 params->SetScintByParticleType( 370 fScintByParticleTypeCmd->GetNewBoolValue 370 fScintByParticleTypeCmd->GetNewBoolValue(newValue)); 371 } 371 } 372 else if(command == fScintTrackInfoCmd) 372 else if(command == fScintTrackInfoCmd) 373 { 373 { 374 params->SetScintTrackInfo(fScintTrackInfoC 374 params->SetScintTrackInfo(fScintTrackInfoCmd->GetNewBoolValue(newValue)); 375 } 375 } 376 else if(command == fScintFiniteRiseTimeCmd) 376 else if(command == fScintFiniteRiseTimeCmd) 377 { 377 { 378 params->SetScintFiniteRiseTime( 378 params->SetScintFiniteRiseTime( 379 fScintFiniteRiseTimeCmd->GetNewBoolValue 379 fScintFiniteRiseTimeCmd->GetNewBoolValue(newValue)); 380 } 380 } 381 else if(command == fScintStackPhotonsCmd) 381 else if(command == fScintStackPhotonsCmd) 382 { 382 { 383 params->SetScintStackPhotons( 383 params->SetScintStackPhotons( 384 fScintStackPhotonsCmd->GetNewBoolValue(n 384 fScintStackPhotonsCmd->GetNewBoolValue(newValue)); 385 } 385 } 386 else if(command == fScintTrackSecondariesFir 386 else if(command == fScintTrackSecondariesFirstCmd) 387 { 387 { 388 params->SetScintTrackSecondariesFirst( 388 params->SetScintTrackSecondariesFirst( 389 fScintTrackSecondariesFirstCmd->GetNewBo 389 fScintTrackSecondariesFirstCmd->GetNewBoolValue(newValue)); 390 } 390 } 391 else if(command == fScintVerboseLevelCmd) 391 else if(command == fScintVerboseLevelCmd) 392 { 392 { 393 params->SetScintVerboseLevel( 393 params->SetScintVerboseLevel( 394 fScintVerboseLevelCmd->GetNewIntValue(ne 394 fScintVerboseLevelCmd->GetNewIntValue(newValue)); 395 } 395 } 396 else if(command == fWLSTimeProfileCmd) 396 else if(command == fWLSTimeProfileCmd) 397 { 397 { 398 params->SetWLSTimeProfile(newValue); 398 params->SetWLSTimeProfile(newValue); 399 } 399 } 400 else if(command == fWLSVerboseLevelCmd) 400 else if(command == fWLSVerboseLevelCmd) 401 { 401 { 402 params->SetWLSVerboseLevel(fWLSVerboseLeve 402 params->SetWLSVerboseLevel(fWLSVerboseLevelCmd->GetNewIntValue(newValue)); 403 } 403 } 404 else if(command == fWLS2TimeProfileCmd) 404 else if(command == fWLS2TimeProfileCmd) 405 { 405 { 406 params->SetWLS2TimeProfile(newValue); 406 params->SetWLS2TimeProfile(newValue); 407 } 407 } 408 else if(command == fWLS2VerboseLevelCmd) 408 else if(command == fWLS2VerboseLevelCmd) 409 { 409 { 410 params->SetWLS2VerboseLevel(fWLS2VerboseLe 410 params->SetWLS2VerboseLevel(fWLS2VerboseLevelCmd->GetNewIntValue(newValue)); 411 } 411 } 412 else if(command == fAbsorptionVerboseLevelCm 412 else if(command == fAbsorptionVerboseLevelCmd) 413 { 413 { 414 params->SetAbsorptionVerboseLevel( 414 params->SetAbsorptionVerboseLevel( 415 fAbsorptionVerboseLevelCmd->GetNewIntVal 415 fAbsorptionVerboseLevelCmd->GetNewIntValue(newValue)); 416 } 416 } 417 else if(command == fRayleighVerboseLevelCmd) 417 else if(command == fRayleighVerboseLevelCmd) 418 { 418 { 419 params->SetRayleighVerboseLevel( 419 params->SetRayleighVerboseLevel( 420 fRayleighVerboseLevelCmd->GetNewIntValue 420 fRayleighVerboseLevelCmd->GetNewIntValue(newValue)); 421 } 421 } 422 else if(command == fMieVerboseLevelCmd) 422 else if(command == fMieVerboseLevelCmd) 423 { 423 { 424 params->SetMieVerboseLevel(fMieVerboseLeve 424 params->SetMieVerboseLevel(fMieVerboseLevelCmd->GetNewIntValue(newValue)); 425 } 425 } 426 else if(command == fBoundaryVerboseLevelCmd) 426 else if(command == fBoundaryVerboseLevelCmd) 427 { 427 { 428 params->SetBoundaryVerboseLevel( 428 params->SetBoundaryVerboseLevel( 429 fBoundaryVerboseLevelCmd->GetNewIntValue 429 fBoundaryVerboseLevelCmd->GetNewIntValue(newValue)); 430 } 430 } 431 else if(command == fBoundaryInvokeSDCmd) 431 else if(command == fBoundaryInvokeSDCmd) 432 { 432 { 433 params->SetBoundaryInvokeSD( 433 params->SetBoundaryInvokeSD( 434 fBoundaryInvokeSDCmd->GetNewBoolValue(ne 434 fBoundaryInvokeSDCmd->GetNewBoolValue(newValue)); 435 } 435 } 436 if(physicsModified) 436 if(physicsModified) 437 { 437 { 438 G4UImanager::GetUIpointer()->ApplyCommand( 438 G4UImanager::GetUIpointer()->ApplyCommand("/run/physicsModified"); 439 } 439 } 440 } 440 } 441 441