// // ******************************************************************** // * License and Disclaimer * // * * // * The Geant4 software is copyright of the Copyright Holders of * // * the Geant4 Collaboration. It is provided under the terms and * // * conditions of the Geant4 Software License, included in the file * // * LICENSE and available at http://cern.ch/geant4/license . These * // * include a list of copyright holders. * // * * // * 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. Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // // $Id: G4OpticalSurface.cc,v 1.15 2009/11/20 00:57:51 gum Exp $ // GEANT4 tag $Name: geant4-09-03-cand-01 $ // // //////////////////////////////////////////////////////////////////////// // Optical Surface Class Implementation //////////////////////////////////////////////////////////////////////// // // File: G4OpticalSurface.cc // Description: An optical surface class for use in G4OpBoundaryProcess // Version: 2.0 // Created: 1997-06-26 // Author: Peter Gumplinger // mail: gum@triumf.ca // //////////////////////////////////////////////////////////////////////// #include "G4ios.hh" #include "globals.hh" #include "G4OpticalSurface.hh" ///////////////////////// // Class Implementation ///////////////////////// ////////////// // Operators ////////////// const G4OpticalSurface& G4OpticalSurface::operator=(const G4OpticalSurface& right) { if (this != &right) { theName = right.GetName(); theModel = right.theModel; theFinish = right.theFinish; theType = right.GetType(); sigma_alpha = right.sigma_alpha; polish = right.polish; theMaterialPropertiesTable = right.theMaterialPropertiesTable; AngularDistribution = right.AngularDistribution; } return *this; } ///////////////// // Constructors ///////////////// G4OpticalSurface::G4OpticalSurface(const G4String& name, G4OpticalSurfaceModel model, G4OpticalSurfaceFinish finish, G4SurfaceType type, G4double value) : G4SurfaceProperty(name,type), theModel(model), theFinish(finish), theMaterialPropertiesTable(0) { if (model == glisur ){ polish = value; sigma_alpha = 0.0; } else if ( model == unified ) { sigma_alpha = value; polish = 0.0; } else if ( model == LUT ) { sigma_alpha = value; polish = 0.0; } else { G4Exception("G4OpticalSurface::G4OpticalSurface ==> " "Constructor called with INVALID model."); } AngularDistribution = NULL; if (type == dielectric_LUT) { AngularDistribution = new float[incidentIndexMax*thetaIndexMax*phiIndexMax]; ReadFile(); } } G4OpticalSurface::~G4OpticalSurface() { if (AngularDistribution) delete AngularDistribution; } G4OpticalSurface::G4OpticalSurface(const G4OpticalSurface &right) : G4SurfaceProperty(right.GetName()) { *this = right; } G4int G4OpticalSurface::operator==(const G4OpticalSurface &right) const { return (this == (G4OpticalSurface *) &right); } G4int G4OpticalSurface::operator!=(const G4OpticalSurface &right) const { return (this != (G4OpticalSurface *) &right); } //////////// // Methods //////////// void G4OpticalSurface::DumpInfo() const { // Dump info for surface G4cout << " Surface type = " << G4int(theType) << G4endl << " Surface finish = " << G4int(theFinish) << G4endl << " Surface model = " << G4int(theModel) << G4endl; G4cout << G4endl; G4cout << " Surface parameter " << G4endl; G4cout << " ----------------- " << G4endl; if (theModel == glisur ){ G4cout << polish << G4endl; } else if (theModel == LUT ){ G4cout << sigma_alpha << G4endl; } else { G4cout << sigma_alpha << G4endl; } G4cout << G4endl; } void G4OpticalSurface::SetType(const G4SurfaceType& type) { theType = type; if (type == dielectric_LUT) { if (!AngularDistribution) AngularDistribution = new float[incidentIndexMax*thetaIndexMax*phiIndexMax]; ReadFile(); } } void G4OpticalSurface::SetFinish(const G4OpticalSurfaceFinish finish) { theFinish = finish; if (theType == dielectric_LUT) { if (!AngularDistribution) AngularDistribution = new float[incidentIndexMax*thetaIndexMax*phiIndexMax]; ReadFile(); } } void G4OpticalSurface::ReadFile() { G4String readFileName = " "; if (theFinish == polishedlumirrorglue) { readFileName = "PolishedLumirrorGlue.dat"; } else if (theFinish == polishedlumirrorair) { readFileName = "PolishedLumirror.dat"; } else if (theFinish == polishedteflonair) { readFileName = "PolishedTeflon.dat"; } else if (theFinish == polishedtioair) { readFileName = "PolishedTiO.dat"; } else if (theFinish == polishedtyvekair) { readFileName = "PolishedTyvek.dat"; } else if (theFinish == polishedvm2000glue) { readFileName = "PolishedVM2000Glue.dat"; } else if (theFinish == polishedvm2000air) { readFileName = "PolishedVM2000.dat"; } else if (theFinish == etchedlumirrorglue) { readFileName = "EtchedLumirrorGlue.dat"; } else if (theFinish == etchedlumirrorair) { readFileName = "EtchedLumirror.dat"; } else if (theFinish == etchedteflonair) { readFileName = "EtchedTeflon.dat"; } else if (theFinish == etchedtioair) { readFileName = "EtchedTiO.dat"; } else if (theFinish == etchedtyvekair) { readFileName = "EtchedTyvek.dat"; } else if (theFinish == etchedvm2000glue) { readFileName = "EtchedVM2000Glue.dat"; } else if (theFinish == etchedvm2000air) { readFileName = "EtchedVM2000.dat"; } else if (theFinish == groundlumirrorglue) { readFileName = "GroundLumirrorGlue.dat"; } else if (theFinish == groundlumirrorair) { readFileName = "GroundLumirror.dat"; } else if (theFinish == groundteflonair) { readFileName = "GroundTeflon.dat"; } else if (theFinish == groundtioair) { readFileName = "GroundTiO.dat"; } else if (theFinish == groundtyvekair) { readFileName = "GroundTyvek.dat"; } else if (theFinish == groundvm2000glue) { readFileName = "GroundVM2000Glue.dat"; } else if (theFinish == groundvm2000air) { readFileName = "GroundVM2000.dat"; } if (readFileName == " ") return; char* path = getenv("G4REALSURFACEDATA"); if (!path) { G4String excep = "G4OpBoundaryProcess - G4REALSURFACEDATA environment variable not set"; G4Exception(excep); } G4String pathString(path); readFileName = pathString + "/" + readFileName; // Open LUT with Material and Integer Angle FILE* readFileHandle; readFileHandle = fopen(readFileName,"r"); if (readFileHandle!=NULL) { for (int i=0;i