source: trunk/source/physics_lists/builders/src/G4OpticalPhysicsMessenger.cc@ 1246

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#include "G4OpticalPhysicsMessenger.hh"
#include "G4OpticalPhysics.hh"

#include "G4UIcommand.hh"
#include "G4UIdirectory.hh"

#include "G4UIcommand.hh"
#include "G4UIdirectory.hh"
#include "G4UIcmdWithABool.hh"
#include "G4UIcmdWithAString.hh"
#include "G4UIcmdWithADouble.hh"
#include "G4UIcmdWithAnInteger.hh"
#include "G4UIcmdWithADoubleAndUnit.hh"

#include "G4ParticleTable.hh"
#include "G4ProcessVector.hh"
#include "G4ProcessManager.hh"
#include "G4ParticleDefinition.hh"

//_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
G4OpticalPhysicsMessenger::G4OpticalPhysicsMessenger(
                                            G4OpticalPhysics* opticalPhysics)
  : G4UImessenger(),
    fOpticalPhysics(opticalPhysics),
    fSelectedProcess(0),
    fSelectOpProcessCmd(0),
    fSetOpProcessActivationCmd(0),
    fSetOpProcessVerboseCmd(0),
    fSetCerenkovMaxPhotonsCmd(0),
    fSetCerenkovMaxBetaChangeCmd(0),
    fSetScintillationYieldFactorCmd(0),
    fSetOpticalSurfaceModelCmd(0),
    fSetWLSTimeProfileCmd(0),
    fSetTrackSecondariesFirstCmd(0)
{
/// Standard constructor

  fDir = new G4UIdirectory("/optics_engine/");
  fDir->SetGuidance("Commands related to the optical physics simulation engine.");
  
  fSelectOpProcessCmd
   = new G4UIcmdWithAString("/optics_engine/selectOpProcess", this);
  fSelectOpProcessCmd
   ->SetGuidance("Select optical process for applying verbose/activation/trackfirst commands");
  fSelectOpProcessCmd->SetParameterName("OpProcess", false);
  fSelectOpProcessCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetOpProcessActivationCmd
   = new G4UIcmdWithABool("/optics_engine/setOpProcessActivation", this);
  fSetOpProcessActivationCmd->SetGuidance("Activate/Inactivate selected optical process");
  fSetOpProcessActivationCmd->SetParameterName("OpProcessActivation", false);
  fSetOpProcessActivationCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetOpProcessVerboseCmd 
    = new G4UIcmdWithAnInteger("/optics_engine/setOpProcessVerbose", this);  
  fSetOpProcessVerboseCmd->SetGuidance("Set verbosity level for selected optical process");
  fSetOpProcessVerboseCmd->SetParameterName("OpProcessVerbose", false);
  fSetOpProcessVerboseCmd->SetRange("OpProcessVerbose>=0");
  fSetOpProcessVerboseCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc); 

  fSetCerenkovMaxPhotonsCmd 
    = new G4UIcmdWithAnInteger("/optics_engine/setCerenkovMaxPhotons", this);  
  fSetCerenkovMaxPhotonsCmd->SetGuidance("Set maximum number of photons per step");
  fSetCerenkovMaxPhotonsCmd->SetParameterName("CerenkovMaxPhotons", false);
  fSetCerenkovMaxPhotonsCmd->SetRange("CerenkovMaxPhotons>=0");
  fSetCerenkovMaxPhotonsCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);  

  fSetCerenkovMaxBetaChangeCmd 
    = new G4UIcmdWithADouble("/optics_engine/setCerenkovMaxBetaChange", this);  
  fSetCerenkovMaxBetaChangeCmd
    ->SetGuidance("Set maximum change of beta of parent particle per step");
  fSetCerenkovMaxBetaChangeCmd->SetParameterName("CerenkovMaxBetaChange", false);
  fSetCerenkovMaxBetaChangeCmd->SetRange("CerenkovMaxBetaChange>=0");
  fSetCerenkovMaxBetaChangeCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetScintillationYieldFactorCmd 
    = new G4UIcmdWithADouble("/optics_engine/setScintillationYieldFactor", this);  
  fSetScintillationYieldFactorCmd->SetGuidance("Set scintillation yield factor");
  fSetScintillationYieldFactorCmd->SetParameterName("ScintillationYieldFactor", false);
  fSetScintillationYieldFactorCmd->SetRange("ScintillationYieldFactor>=0");
  fSetScintillationYieldFactorCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetOpticalSurfaceModelCmd 
    = new G4UIcmdWithAString("/optics_engine/setOpticalSurfaceModel", this);  
  fSetOpticalSurfaceModelCmd
    ->SetGuidance("Set optical surface model (glisur or unified)");
  fSetOpticalSurfaceModelCmd->SetParameterName("OpticalSurfaceModel", false);
  fSetOpticalSurfaceModelCmd->SetCandidates("glisur unified");
  fSetOpticalSurfaceModelCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetWLSTimeProfileCmd
    = new G4UIcmdWithAString("/optics_engine/setWLSTimeProfile", this);
  fSetWLSTimeProfileCmd
    ->SetGuidance("Set the WLS time profile (delta or exponential)");
  fSetWLSTimeProfileCmd->SetParameterName("WLSTimeProfile", false);
  fSetWLSTimeProfileCmd->SetCandidates("delta exponential");
  fSetWLSTimeProfileCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);

  fSetTrackSecondariesFirstCmd 
    = new G4UIcmdWithABool("/optics_engine/setTrackSecondariesFirst", this);  
  fSetTrackSecondariesFirstCmd
    ->SetGuidance("Set option to track secondaries before finishing their parent track");
  fSetTrackSecondariesFirstCmd->SetParameterName("TrackSecondariesFirst", false);
  fSetTrackSecondariesFirstCmd->AvailableForStates(G4State_Idle,G4State_GeomClosed,G4State_EventProc);
}

//_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
G4OpticalPhysicsMessenger::~G4OpticalPhysicsMessenger()
{
/// Destructor
  delete fDir;
  delete fSelectOpProcessCmd; 
  delete fSetOpProcessActivationCmd; 
  delete fSetOpProcessVerboseCmd;
  delete fSetCerenkovMaxPhotonsCmd;
  delete fSetCerenkovMaxBetaChangeCmd;
  delete fSetScintillationYieldFactorCmd;
  delete fSetOpticalSurfaceModelCmd;
  delete fSetWLSTimeProfileCmd;
  delete fSetTrackSecondariesFirstCmd;
}

//_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_-_
void G4OpticalPhysicsMessenger::SetNewValue(G4UIcommand* command, G4String newValue)
{
/// Apply command to the associated object.

  if (command == fSelectOpProcessCmd) {
    if      ( newValue == "Cerenkov" )      fSelectedProcess = fOpticalPhysics->
                                            GetCerenkovProcess();
    else if ( newValue == "Scintillation" ) fSelectedProcess = fOpticalPhysics->
                                            GetScintillationProcess();
    else if ( newValue == "OpAbsorption" )  fSelectedProcess = fOpticalPhysics->
                                            GetOpAbsorptionProcess();
    else if ( newValue == "OpRayleigh" )    fSelectedProcess = fOpticalPhysics->
                                            GetOpRayleighProcess();
    else if ( newValue == "OpBoundary" )    fSelectedProcess = fOpticalPhysics->
                                            GetOpBoundaryProcess();
    else if ( newValue == "OpWLS" )         fSelectedProcess = fOpticalPhysics->
                                            GetOpWLSProcess();
  }
  else if (command == fSetOpProcessActivationCmd) {
    G4ParticleTable* theParticleTable = G4ParticleTable::GetParticleTable();
    G4ParticleTable::G4PTblDicIterator* theParticleIterator = 
                                             theParticleTable->GetIterator();
    if ( fSelectedProcess ) {
       theParticleIterator->reset();
       while( (*theParticleIterator)() ) {
         G4ParticleDefinition* particle = theParticleIterator->value();
         G4ProcessManager* processManager = particle->GetProcessManager();
         G4ProcessVector* processVector = processManager->GetProcessList();

         // activate or inactivate processes according to
         for (G4int i=0; i<processVector->length(); i++) {
             if ( (*processVector)[i] != fSelectedProcess ) continue;
             G4cout << "Setting process activation: "
                    << fSelectedProcess->GetProcessName() << "  "
                    << fSetOpProcessActivationCmd->GetNewBoolValue(newValue)
                    << G4endl;
             processManager->SetProcessActivation(fSelectedProcess,
                       fSetOpProcessActivationCmd->GetNewBoolValue(newValue));
         }
       }
    }
  }  
  else if (command == fSetOpProcessVerboseCmd) {
    if ( fSelectedProcess )
    fSelectedProcess->SetVerboseLevel
                           (fSetOpProcessVerboseCmd->GetNewIntValue(newValue));
  }
  else if (command == fSetCerenkovMaxPhotonsCmd) {
    fOpticalPhysics
      ->SetMaxNumPhotonsPerStep(
          fSetCerenkovMaxPhotonsCmd->GetNewIntValue(newValue));
  }  
  else if (command == fSetCerenkovMaxBetaChangeCmd) {
    fOpticalPhysics
      ->SetMaxBetaChangePerStep(
          fSetCerenkovMaxBetaChangeCmd->GetNewDoubleValue(newValue));
  }
  else if (command == fSetScintillationYieldFactorCmd) {
    fOpticalPhysics
      ->SetScintillationYieldFactor(
          fSetScintillationYieldFactorCmd->GetNewDoubleValue(newValue));
  }  
  else if (command == fSetOpticalSurfaceModelCmd) {
    if ( newValue == "glisur" ) {
      fOpticalPhysics
        ->SetOpticalSurfaceModel(glisur);
    }    
    if ( newValue == "unified" ) {
      fOpticalPhysics
        ->SetOpticalSurfaceModel(unified);
    } 
  }
  else if (command == fSetWLSTimeProfileCmd) {
    if ( newValue == "delta" ) {
      fOpticalPhysics
        ->SetWLSTimeProfile("delta");     }
    if ( newValue == "exponential" ) {
      fOpticalPhysics
        ->SetWLSTimeProfile("exponential");
    }
  } 
  else if (command == fSetTrackSecondariesFirstCmd) {
    if ( fSelectedProcess ) {
       G4Scintillation* scintillation =
                     static_cast<G4Scintillation*>(fSelectedProcess);
       if (scintillation) scintillation ->
          SetTrackSecondariesFirst(
                      fSetTrackSecondariesFirstCmd->GetNewBoolValue(newValue));
       G4Cerenkov* cerenkov =
                   static_cast<G4Cerenkov*>(fSelectedProcess);
       if (cerenkov) cerenkov ->
          SetTrackSecondariesFirst(
                      fSetTrackSecondariesFirstCmd->GetNewBoolValue(newValue));
    }
  }
}