// // ******************************************************************** // * DISCLAIMER * // * * // * The following disclaimer summarizes all the specific disclaimers * // * of contributors to this software. The specific disclaimers,which * // * govern, are listed with their locations in: * // * http://cern.ch/geant4/license * // * * // * Neither the authors of this software system, nor their employing * // * institutes,nor the agencies providing financial support for this * // * work make any representation or warranty, express or implied, * // * regarding this software system or assume any liability for its * // * use. * // * * // * This code implementation is the intellectual property of the * // * GEANT4 collaboration. * // * By copying, distributing or modifying the Program (or any work * // * based on the Program) you indicate your acceptance of this * // * statement, and all its terms. * // ******************************************************************** // // // $Id: LEMuSRParticleChangeForMSC.cc,v 1.12 2004/12/02 06:38:05 kurasige Exp $ // GEANT4 tag $Name: geant4-07-01 $ // // // -------------------------------------------------------------- // GEANT 4 class implementation file // // // // ------------------------------------------------------------ // Implemented for the new scheme 23 Mar. 1998 H.Kurahige // Update for model variant of msc 16 Jan 2004 V.Ivanchenko // -------------------------------------------------------------- #include "LEMuSRParticleChangeForMSC.hh" #include "G4Track.hh" #include "G4Step.hh" #include "G4DynamicParticle.hh" #include "G4ExceptionSeverity.hh" LEMuSRParticleChangeForMSC::LEMuSRParticleChangeForMSC():G4VParticleChange() { Post_Update=false; #ifdef G4VERBOSE if (verboseLevel>2) { G4cout << "LEMuSRParticleChangeForMSC::LEMuSRParticleChangeForMSC() " << G4endl; } #endif } LEMuSRParticleChangeForMSC::~LEMuSRParticleChangeForMSC() { #ifdef G4VERBOSE if (verboseLevel>2) { G4cout << "LEMuSRParticleChangeForMSC::~LEMuSRParticleChangeForMSC() " << G4endl; } #endif } LEMuSRParticleChangeForMSC::LEMuSRParticleChangeForMSC( const LEMuSRParticleChangeForMSC &right): G4VParticleChange(right) { if (verboseLevel>1) { G4cout << "LEMuSRParticleChangeForMSC:: copy constructor is called " << G4endl; } theMomentumDirection = right.theMomentumDirection; thePosition = right.thePosition; } // assignment operator LEMuSRParticleChangeForMSC & LEMuSRParticleChangeForMSC::operator=( const LEMuSRParticleChangeForMSC &right) { if (verboseLevel>1) { G4cout << "LEMuSRParticleChangeForMSC:: assignment operator is called " << G4endl; } if (this != &right) { theListOfSecondaries = right.theListOfSecondaries; theSizeOftheListOfSecondaries = right.theSizeOftheListOfSecondaries; theNumberOfSecondaries = right.theNumberOfSecondaries; theStatusChange = right.theStatusChange; theLocalEnergyDeposit = right.theLocalEnergyDeposit; theSteppingControlFlag = right.theSteppingControlFlag; theTrueStepLength = right.theTrueStepLength; theMomentumDirection = right.theMomentumDirection; thePosition = right.thePosition; } return *this; } //---------------------------------------------------------------- // methods for updating G4Step // G4Step* LEMuSRParticleChangeForMSC::UpdateStepForAlongStep(G4Step* pStep) { // Update the G4Step specific attributes pStep->SetStepLength(theTrueStepLength); theStatusChange = pStep->GetTrack()->GetTrackStatus(); // DumpInfo(); return pStep; } G4Step* LEMuSRParticleChangeForMSC::UpdateStepForPostStep(G4Step* pStep) { G4StepPoint* pPostStepPoint = pStep->GetPostStepPoint(); /* G4cout << "POST STEP UPDATE DATA: " ; G4cout.precision(6); G4cout << " Energy [MeV] : " << std::setw(20) << G4cout << " Position - x (mm) : " << std::setw(20) << thePosition.x()/mm << G4endl; G4cout << " Position - y (mm) : " << std::setw(20) << thePosition.y()/mm << G4endl; G4cout << " Position - z (mm) : " << std::setw(20) << thePosition.z()/mm << G4endl; G4cout << " Momentum Direct - x : " << std::setw(20) << theMomentumDirection.x() << G4endl; G4cout << " Momentum Direct - y : " << std::setw(20) << theMomentumDirection.y() << G4endl; G4cout << " Momentum Direct - z : " << std::setw(20) << theMomentumDirection.z() << G4endl; */ // theStatusChange = pStep->GetTrack()->GetTrackStatus(); // A physics process always calculates the final state of the particle // update position pPostStepPoint->SetPosition( thePosition ); // update momentum direction // G4cout<<"Momentum to set: "<SetMomentumDirection(theMomentumDirection); return pStep; } //---------------------------------------------------------------- // methods for printing messages // void LEMuSRParticleChangeForMSC::DumpInfo() const { // use base-class DumpInfo G4VParticleChange::DumpInfo(); G4cout.precision(6); G4cout << " Energy [MeV] : " << std::setw(20) << G4cout << " Position - x (mm) : " << std::setw(20) << thePosition.x()/mm << G4endl; G4cout << " Position - y (mm) : " << std::setw(20) << thePosition.y()/mm << G4endl; G4cout << " Position - z (mm) : " << std::setw(20) << thePosition.z()/mm << G4endl; G4cout << " Momentum Direct - x : " << std::setw(20) << theMomentumDirection.x() << G4endl; G4cout << " Momentum Direct - y : " << std::setw(20) << theMomentumDirection.y() << G4endl; G4cout << " Momentum Direct - z : " << std::setw(20) << theMomentumDirection.z() << G4endl; } G4bool LEMuSRParticleChangeForMSC::CheckIt(const G4Track& aTrack) { G4bool itsOK = true; G4bool exitWithError = false; G4double accuracy; // check // MomentumDirection should be unit vector accuracy = std::abs(theMomentumDirection.mag2()-1.0); if (accuracy > accuracyForWarning) { #ifdef G4VERBOSE G4cout << " LEMuSRParticleChangeForMSC::CheckIt : "; G4cout << "the Momentum Change is not unit vector !!" << G4endl; G4cout << " Difference: " << accuracy << G4endl; #endif itsOK = false; if (accuracy > accuracyForException) exitWithError = true; } // dump out information of this particle change #ifdef G4VERBOSE if (!itsOK) { G4cout << " LEMuSRParticleChangeForMSC::CheckIt " <