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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 // G4MatScanMessenger implementation << 27 // 26 // 28 // Author: M.Asai, May 2006 << 27 // 29 // ------------------------------------------- << 28 // >> 29 // 30 30 31 #include "G4MatScanMessenger.hh" 31 #include "G4MatScanMessenger.hh" 32 32 33 #include "G4MaterialScanner.hh" << 34 #include "G4SystemOfUnits.hh" 33 #include "G4SystemOfUnits.hh" 35 #include "G4ThreeVector.hh" << 36 #include "G4Tokenizer.hh" << 37 #include "G4UIcmdWith3Vector.hh" << 38 #include "G4UIcmdWith3VectorAndUnit.hh" << 39 #include "G4UIcmdWithABool.hh" << 40 #include "G4UIcmdWithAString.hh" << 41 #include "G4UIcmdWithoutParameter.hh" << 42 #include "G4UIcmdWithAnInteger.hh" << 43 #include "G4UIcommand.hh" << 44 #include "G4UIdirectory.hh" 34 #include "G4UIdirectory.hh" >> 35 #include "G4UIcommand.hh" 45 #include "G4UIparameter.hh" 36 #include "G4UIparameter.hh" >> 37 #include "G4UIcmdWithoutParameter.hh" >> 38 #include "G4UIcmdWithABool.hh" >> 39 #include "G4UIcmdWith3VectorAndUnit.hh" >> 40 #include "G4UIcmdWith3Vector.hh" >> 41 #include "G4UIcmdWithAString.hh" >> 42 #include "G4MaterialScanner.hh" >> 43 #include "G4ThreeVector.hh" >> 44 #include "G4Tokenizer.hh" 46 45 47 // ------------------------------------------- << 48 G4MatScanMessenger::G4MatScanMessenger(G4Mater 46 G4MatScanMessenger::G4MatScanMessenger(G4MaterialScanner* p1) 49 { 47 { 50 theScanner = p1; 48 theScanner = p1; 51 G4UIparameter* par; 49 G4UIparameter* par; 52 msDirectory = new G4UIdirectory("/control/ma 50 msDirectory = new G4UIdirectory("/control/matScan/"); 53 msDirectory->SetGuidance("Material scanner c 51 msDirectory->SetGuidance("Material scanner commands."); 54 52 55 scanCmd = new G4UIcmdWithoutParameter("/cont << 53 scanCmd = new G4UIcmdWithoutParameter("/control/matScan/scan",this); 56 scanCmd->SetGuidance("Start material scannin 54 scanCmd->SetGuidance("Start material scanning."); 57 scanCmd->SetGuidance("Scanning range should 55 scanCmd->SetGuidance("Scanning range should be defined with"); 58 scanCmd->SetGuidance("/control/matScan/theta 56 scanCmd->SetGuidance("/control/matScan/theta and /control/matSca/phi commands."); 59 scanCmd->AvailableForStates(G4State_Idle); 57 scanCmd->AvailableForStates(G4State_Idle); 60 58 61 thetaCmd = new G4UIcommand("/control/matScan << 59 thetaCmd = new G4UIcommand("/control/matScan/theta",this); 62 thetaCmd->SetGuidance("Define theta range.") 60 thetaCmd->SetGuidance("Define theta range."); 63 thetaCmd->SetGuidance("Usage : /control/matS 61 thetaCmd->SetGuidance("Usage : /control/matScan/theta [nbin] [thetaMin] [thetaSpan] [unit]"); 64 thetaCmd->SetGuidance("Notation of angles :" 62 thetaCmd->SetGuidance("Notation of angles :"); 65 thetaCmd->SetGuidance(" theta --- +Z axis : 63 thetaCmd->SetGuidance(" theta --- +Z axis : +90 deg. / X-Y plane : 0 deg. / -Z axis : -90 deg."); 66 par = new G4UIparameter("nbin", 'i', false); << 64 par = new G4UIparameter("nbin",'i',false); 67 par->SetParameterRange("nbin>0"); 65 par->SetParameterRange("nbin>0"); 68 thetaCmd->SetParameter(par); 66 thetaCmd->SetParameter(par); 69 par = new G4UIparameter("thetaMin", 'd', fal << 67 par = new G4UIparameter("thetaMin",'d',false); 70 thetaCmd->SetParameter(par); 68 thetaCmd->SetParameter(par); 71 par = new G4UIparameter("thetaSpan", 'd', tr << 69 par = new G4UIparameter("thetaSpan",'d',true); 72 par->SetParameterRange("thetaSpan>=0."); 70 par->SetParameterRange("thetaSpan>=0."); 73 par->SetDefaultValue(0.); 71 par->SetDefaultValue(0.); 74 thetaCmd->SetParameter(par); 72 thetaCmd->SetParameter(par); 75 par = new G4UIparameter("unit", 'c', true); << 73 par = new G4UIparameter("unit",'c',true); 76 par->SetDefaultValue("deg"); 74 par->SetDefaultValue("deg"); 77 par->SetParameterCandidates(thetaCmd->UnitsL 75 par->SetParameterCandidates(thetaCmd->UnitsList(thetaCmd->CategoryOf("deg"))); 78 thetaCmd->SetParameter(par); 76 thetaCmd->SetParameter(par); 79 77 80 phiCmd = new G4UIcommand("/control/matScan/p << 78 phiCmd = new G4UIcommand("/control/matScan/phi",this); 81 phiCmd->SetGuidance("Define phi range."); 79 phiCmd->SetGuidance("Define phi range."); 82 phiCmd->SetGuidance("Usage : /control/matSca 80 phiCmd->SetGuidance("Usage : /control/matScan/phi [nbin] [phiMin] [phiSpan] [unit]"); 83 phiCmd->SetGuidance("Notation of angles :"); 81 phiCmd->SetGuidance("Notation of angles :"); 84 phiCmd->SetGuidance( << 82 phiCmd->SetGuidance(" phi --- +X axis : 0 deg. / +Y axis : 90 deg. / -X axis : 180 deg. / -Y axis : 270 deg."); 85 " phi --- +X axis : 0 deg. / +Y axis : 9 << 83 par = new G4UIparameter("nbin",'i',false); 86 "deg. / -Y axis : 270 deg."); << 87 par = new G4UIparameter("nbin", 'i', false); << 88 par->SetParameterRange("nbin>0"); 84 par->SetParameterRange("nbin>0"); 89 phiCmd->SetParameter(par); 85 phiCmd->SetParameter(par); 90 par = new G4UIparameter("phiMin", 'd', false << 86 par = new G4UIparameter("phiMin",'d',false); 91 phiCmd->SetParameter(par); 87 phiCmd->SetParameter(par); 92 par = new G4UIparameter("phiSpan", 'd', true << 88 par = new G4UIparameter("phiSpan",'d',true); 93 par->SetParameterRange("phiSpan>=0."); 89 par->SetParameterRange("phiSpan>=0."); 94 par->SetDefaultValue(0.); 90 par->SetDefaultValue(0.); 95 phiCmd->SetParameter(par); 91 phiCmd->SetParameter(par); 96 par = new G4UIparameter("unit", 'c', true); << 92 par = new G4UIparameter("unit",'c',true); 97 par->SetDefaultValue("deg"); 93 par->SetDefaultValue("deg"); 98 par->SetParameterCandidates(phiCmd->UnitsLis 94 par->SetParameterCandidates(phiCmd->UnitsList(phiCmd->CategoryOf("deg"))); 99 phiCmd->SetParameter(par); 95 phiCmd->SetParameter(par); 100 96 101 singleCmd = new G4UIcommand("/control/matSca << 97 singleCmd = new G4UIcommand("/control/matScan/singleMeasure",this); 102 singleCmd->SetGuidance("Measure thickness fo 98 singleCmd->SetGuidance("Measure thickness for one particular direction."); 103 singleCmd->SetGuidance("Notation of angles : 99 singleCmd->SetGuidance("Notation of angles :"); 104 singleCmd->SetGuidance(" theta --- +Z axis : 100 singleCmd->SetGuidance(" theta --- +Z axis : +90 deg. / X-Y plane : 0 deg. / -Z axis : -90 deg."); 105 singleCmd->SetGuidance( << 101 singleCmd->SetGuidance(" phi --- +X axis : 0 deg. / +Y axis : 90 deg. / -X axis : 180 deg. / -Y axis : 270 deg."); 106 " phi --- +X axis : 0 deg. / +Y axis : 9 << 107 "180 deg. / -Y axis : 270 deg."); << 108 singleCmd->AvailableForStates(G4State_Idle); 102 singleCmd->AvailableForStates(G4State_Idle); 109 par = new G4UIparameter("theta", 'd', false) << 103 par = new G4UIparameter("theta",'d',false); 110 singleCmd->SetParameter(par); 104 singleCmd->SetParameter(par); 111 par = new G4UIparameter("phi", 'd', false); << 105 par = new G4UIparameter("phi",'d',false); 112 singleCmd->SetParameter(par); 106 singleCmd->SetParameter(par); 113 par = new G4UIparameter("unit", 'c', true); << 107 par = new G4UIparameter("unit",'c',true); 114 par->SetDefaultValue("deg"); 108 par->SetDefaultValue("deg"); 115 par->SetParameterCandidates(singleCmd->Units 109 par->SetParameterCandidates(singleCmd->UnitsList(singleCmd->CategoryOf("deg"))); 116 singleCmd->SetParameter(par); 110 singleCmd->SetParameter(par); 117 111 118 single2Cmd = new G4UIcmdWith3Vector("/contro << 112 single2Cmd = new G4UIcmdWith3Vector("/control/matScan/singleTo",this); 119 single2Cmd->SetGuidance("Measure thickness f 113 single2Cmd->SetGuidance("Measure thickness for one direction defined by a unit vector."); 120 single2Cmd->SetParameterName("X", "Y", "Z", << 114 single2Cmd->SetParameterName("X","Y","Z",false); 121 115 122 eyePosCmd = new G4UIcmdWith3VectorAndUnit("/ << 116 eyePosCmd = new G4UIcmdWith3VectorAndUnit("/control/matScan/eyePosition",this); 123 eyePosCmd->SetGuidance("Define the eye posit 117 eyePosCmd->SetGuidance("Define the eye position."); 124 eyePosCmd->SetParameterName("X", "Y", "Z", t << 118 eyePosCmd->SetParameterName("X","Y","Z",true); 125 eyePosCmd->SetDefaultValue(G4ThreeVector(0., << 119 eyePosCmd->SetDefaultValue(G4ThreeVector(0.,0.,0.)); 126 eyePosCmd->SetDefaultUnit("m"); 120 eyePosCmd->SetDefaultUnit("m"); 127 121 128 regSenseCmd = new G4UIcmdWithABool("/control << 122 regSenseCmd = new G4UIcmdWithABool("/control/matScan/regionSensitive",this); 129 regSenseCmd->SetGuidance("Set region sensiti 123 regSenseCmd->SetGuidance("Set region sensitivity."); 130 regSenseCmd->SetGuidance("This command is au 124 regSenseCmd->SetGuidance("This command is automatically set to TRUE"); 131 regSenseCmd->SetGuidance(" if /control/matSc 125 regSenseCmd->SetGuidance(" if /control/matScan/region command is issued."); 132 regSenseCmd->SetParameterName("senseFlag", t << 126 regSenseCmd->SetParameterName("senseFlag",true); 133 regSenseCmd->SetDefaultValue(false); 127 regSenseCmd->SetDefaultValue(false); 134 128 135 regionCmd = new G4UIcmdWithAString("/control << 129 regionCmd = new G4UIcmdWithAString("/control/matScan/region",this); 136 regionCmd->SetGuidance("Define region name t 130 regionCmd->SetGuidance("Define region name to be scanned."); 137 regionCmd->SetGuidance("/control/matScan/reg 131 regionCmd->SetGuidance("/control/matScan/regionSensitive command is automatically"); 138 regionCmd->SetGuidance("set to TRUE with thi 132 regionCmd->SetGuidance("set to TRUE with this command."); 139 regionCmd->SetParameterName("region", true); << 133 regionCmd->SetParameterName("region",true); 140 regionCmd->SetDefaultValue("DefaultRegionFor 134 regionCmd->SetDefaultValue("DefaultRegionForTheWorld"); 141 << 142 verboseCmd = new G4UIcmdWithAnInteger("/cont << 143 verboseCmd->SetGuidance("Set verbose level o << 144 verboseCmd->SetGuidance("0: default, propert << 145 verboseCmd->SetGuidance("1: integrated prope << 146 verboseCmd->SetGuidance("2: detailed propert << 147 verboseCmd->SetParameterName("verbose_level" << 148 verboseCmd->SetDefaultValue(0); << 149 } 135 } 150 136 151 // ------------------------------------------- << 152 G4MatScanMessenger::~G4MatScanMessenger() 137 G4MatScanMessenger::~G4MatScanMessenger() 153 { 138 { 154 delete scanCmd; 139 delete scanCmd; 155 delete thetaCmd; 140 delete thetaCmd; 156 delete phiCmd; 141 delete phiCmd; 157 delete singleCmd; 142 delete singleCmd; 158 delete single2Cmd; 143 delete single2Cmd; 159 delete eyePosCmd; 144 delete eyePosCmd; 160 delete regSenseCmd; 145 delete regSenseCmd; 161 delete regionCmd; 146 delete regionCmd; 162 delete msDirectory; 147 delete msDirectory; 163 } 148 } 164 149 165 // ------------------------------------------- << 150 G4String G4MatScanMessenger::GetCurrentValue(G4UIcommand * command) 166 G4String G4MatScanMessenger::GetCurrentValue(G << 167 { 151 { 168 G4String currentValue; 152 G4String currentValue; 169 if (command == thetaCmd) { << 153 if(command==thetaCmd) 170 currentValue = thetaCmd->ConvertToString(t << 154 { 171 currentValue += " "; << 155 currentValue = thetaCmd->ConvertToString(theScanner->GetNTheta()); 172 currentValue += thetaCmd->ConvertToString( << 156 currentValue += " "; 173 currentValue += " "; << 157 currentValue += thetaCmd->ConvertToString((theScanner->GetThetaMin())/deg); 174 currentValue += thetaCmd->ConvertToString( << 158 currentValue += " "; 175 } << 159 currentValue += thetaCmd->ConvertToString((theScanner->GetThetaSpan())/deg); 176 else if (command == phiCmd) { << 177 currentValue = phiCmd->ConvertToString(the << 178 currentValue += " "; << 179 currentValue += phiCmd->ConvertToString((t << 180 currentValue += " "; << 181 currentValue += phiCmd->ConvertToString((t << 182 } << 183 else if (command == eyePosCmd) { << 184 currentValue = eyePosCmd->ConvertToString( << 185 } << 186 else if (command == regSenseCmd) { << 187 currentValue = regSenseCmd->ConvertToStrin << 188 } << 189 else if (command == regionCmd) { << 190 currentValue = theScanner->GetRegionName() << 191 } 160 } >> 161 else if(command==phiCmd) >> 162 { >> 163 currentValue = phiCmd->ConvertToString(theScanner->GetNPhi()); >> 164 currentValue += " "; >> 165 currentValue += phiCmd->ConvertToString((theScanner->GetPhiMin())/deg); >> 166 currentValue += " "; >> 167 currentValue += phiCmd->ConvertToString((theScanner->GetPhiSpan())/deg); >> 168 } >> 169 else if(command==eyePosCmd) >> 170 { currentValue = eyePosCmd->ConvertToString(theScanner->GetEyePosition(),"m"); } >> 171 else if(command==regSenseCmd) >> 172 { currentValue = regSenseCmd->ConvertToString(theScanner->GetRegionSensitive()); } >> 173 else if(command==regionCmd) >> 174 { currentValue = theScanner->GetRegionName(); } 192 return currentValue; 175 return currentValue; 193 } 176 } 194 177 195 // ------------------------------------------- << 178 void G4MatScanMessenger::SetNewValue(G4UIcommand * command,G4String newValue) 196 void G4MatScanMessenger::SetNewValue(G4UIcomma << 197 { 179 { 198 if (command == scanCmd) { << 180 if(command==scanCmd) 199 theScanner->Scan(); << 181 { theScanner->Scan(); } 200 } << 182 else if(command==thetaCmd) 201 else if (command == thetaCmd) { << 183 { 202 G4Tokenizer next(newValue); << 184 G4Tokenizer next( newValue ); 203 G4int nbin = StoI(next()); 185 G4int nbin = StoI(next()); 204 G4double thetaMin = StoD(next()); 186 G4double thetaMin = StoD(next()); 205 G4double thetaSpan = StoD(next()); 187 G4double thetaSpan = StoD(next()); 206 G4String unit = next(); 188 G4String unit = next(); 207 thetaMin *= thetaCmd->ValueOf(unit); 189 thetaMin *= thetaCmd->ValueOf(unit); 208 thetaSpan *= thetaCmd->ValueOf(unit); 190 thetaSpan *= thetaCmd->ValueOf(unit); 209 theScanner->SetNTheta(nbin); 191 theScanner->SetNTheta(nbin); 210 theScanner->SetThetaMin(thetaMin); 192 theScanner->SetThetaMin(thetaMin); 211 theScanner->SetThetaSpan(thetaSpan); 193 theScanner->SetThetaSpan(thetaSpan); 212 } 194 } 213 else if (command == phiCmd) { << 195 else if(command==phiCmd) 214 G4Tokenizer next(newValue); << 196 { >> 197 G4Tokenizer next( newValue ); 215 G4int nbin = StoI(next()); 198 G4int nbin = StoI(next()); 216 G4double phiMin = StoD(next()); 199 G4double phiMin = StoD(next()); 217 G4double phiSpan = StoD(next()); 200 G4double phiSpan = StoD(next()); 218 G4String unit = next(); 201 G4String unit = next(); 219 phiMin *= phiCmd->ValueOf(unit); 202 phiMin *= phiCmd->ValueOf(unit); 220 phiSpan *= phiCmd->ValueOf(unit); 203 phiSpan *= phiCmd->ValueOf(unit); 221 theScanner->SetNPhi(nbin); 204 theScanner->SetNPhi(nbin); 222 theScanner->SetPhiMin(phiMin); 205 theScanner->SetPhiMin(phiMin); 223 theScanner->SetPhiSpan(phiSpan); 206 theScanner->SetPhiSpan(phiSpan); 224 } 207 } 225 else if (command == eyePosCmd) { << 208 else if(command==eyePosCmd) 226 theScanner->SetEyePosition(eyePosCmd->GetN << 209 { theScanner->SetEyePosition(eyePosCmd->GetNew3VectorValue(newValue)); } 227 } << 210 else if(command==regSenseCmd) 228 else if (command == regSenseCmd) { << 211 { theScanner->SetRegionSensitive(regSenseCmd->GetNewBoolValue(newValue)); } 229 theScanner->SetRegionSensitive(regSenseCmd << 212 else if(command==regionCmd) 230 } << 213 { if(theScanner->SetRegionName(newValue)) theScanner->SetRegionSensitive(true); } 231 else if (command == regionCmd) { << 214 else if(command==singleCmd || command==single2Cmd) 232 if (theScanner->SetRegionName(newValue)) t << 233 } << 234 else if(command == verboseCmd) << 235 { 215 { 236 theScanner->SetVerbosity(StoI(newValue)); << 237 } << 238 else if (command == singleCmd || command == << 239 G4int ntheta = theScanner->GetNTheta(); 216 G4int ntheta = theScanner->GetNTheta(); 240 G4double thetaMin = theScanner->GetThetaMi 217 G4double thetaMin = theScanner->GetThetaMin(); 241 G4double thetaSpan = theScanner->GetThetaS 218 G4double thetaSpan = theScanner->GetThetaSpan(); 242 G4int nphi = theScanner->GetNPhi(); 219 G4int nphi = theScanner->GetNPhi(); 243 G4double phiMin = theScanner->GetPhiMin(); 220 G4double phiMin = theScanner->GetPhiMin(); 244 G4double phiSpan = theScanner->GetPhiSpan( 221 G4double phiSpan = theScanner->GetPhiSpan(); 245 222 246 G4double theta = 0.; 223 G4double theta = 0.; 247 G4double phi = 0.; 224 G4double phi = 0.; 248 if (command == singleCmd) { << 225 if(command==singleCmd) 249 G4Tokenizer next(newValue); << 226 { >> 227 G4Tokenizer next( newValue ); 250 theta = StoD(next()); 228 theta = StoD(next()); 251 phi = StoD(next()); 229 phi = StoD(next()); 252 G4String unit = next(); 230 G4String unit = next(); 253 theta *= singleCmd->ValueOf(unit); 231 theta *= singleCmd->ValueOf(unit); 254 phi *= singleCmd->ValueOf(unit); 232 phi *= singleCmd->ValueOf(unit); 255 } 233 } 256 else if (command == single2Cmd) { << 234 else if(command==single2Cmd) >> 235 { 257 G4ThreeVector v = single2Cmd->GetNew3Vec 236 G4ThreeVector v = single2Cmd->GetNew3VectorValue(newValue); 258 theta = 90. * deg - v.theta(); << 237 theta = 90.*deg - v.theta(); 259 phi = v.phi(); 238 phi = v.phi(); 260 } 239 } 261 theScanner->SetNTheta(1); 240 theScanner->SetNTheta(1); 262 theScanner->SetThetaMin(theta); 241 theScanner->SetThetaMin(theta); 263 theScanner->SetThetaSpan(0.); 242 theScanner->SetThetaSpan(0.); 264 theScanner->SetNPhi(1); 243 theScanner->SetNPhi(1); 265 theScanner->SetPhiMin(phi); 244 theScanner->SetPhiMin(phi); 266 theScanner->SetPhiSpan(0.); 245 theScanner->SetPhiSpan(0.); 267 theScanner->Scan(); 246 theScanner->Scan(); 268 247 269 theScanner->SetNTheta(ntheta); 248 theScanner->SetNTheta(ntheta); 270 theScanner->SetThetaMin(thetaMin); 249 theScanner->SetThetaMin(thetaMin); 271 theScanner->SetThetaSpan(thetaSpan); 250 theScanner->SetThetaSpan(thetaSpan); 272 theScanner->SetNPhi(nphi); 251 theScanner->SetNPhi(nphi); 273 theScanner->SetPhiMin(phiMin); 252 theScanner->SetPhiMin(phiMin); 274 theScanner->SetPhiSpan(phiSpan); 253 theScanner->SetPhiSpan(phiSpan); 275 } 254 } >> 255 276 } 256 } >> 257 >> 258 >> 259 >> 260 >> 261 277 262