// // ******************************************************************** // * 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: G4ErrorCylSurfaceTarget.cc,v 1.4 2007/06/20 12:50:48 arce Exp $ // GEANT4 tag $Name: geant4-09-03 $ // // // -------------------------------------------------------------------- // GEANT 4 class implementation file // -------------------------------------------------------------------- #include "G4ErrorCylSurfaceTarget.hh" #include "G4GeometryTolerance.hh" #ifdef G4VERBOSE #include "G4ErrorPropagatorData.hh" //for verbosity checking #endif #include "geomdefs.hh" #include "G4Plane3D.hh" //--------------------------------------------------------------------- G4ErrorCylSurfaceTarget:: G4ErrorCylSurfaceTarget( const G4double& radius, const G4ThreeVector& trans, const G4RotationMatrix& rotm ) : fradius(radius) { theType = G4ErrorTarget_CylindricalSurface; ftransform = G4AffineTransform( rotm.inverse(), -trans ); #ifdef G4VERBOSE if(G4ErrorPropagatorData::verbose() >= 2 ) { Dump( " $$$ creating G4ErrorCylSurfaceTarget "); } #endif } //--------------------------------------------------------------------- G4ErrorCylSurfaceTarget:: G4ErrorCylSurfaceTarget( const G4double& radius, const G4AffineTransform& trans ) : fradius(radius), ftransform(trans.Inverse()) { theType = G4ErrorTarget_CylindricalSurface; #ifdef G4VERBOSE if(G4ErrorPropagatorData::verbose() >= 2 ) { Dump( " $$$ creating G4ErrorCylSurfaceTarget "); } #endif } //--------------------------------------------------------------------- G4ErrorCylSurfaceTarget::~G4ErrorCylSurfaceTarget() { } //--------------------------------------------------------------------- G4double G4ErrorCylSurfaceTarget:: GetDistanceFromPoint( const G4ThreeVector& point, const G4ThreeVector& dir ) const { if( dir.mag() == 0. ) { G4Exception("G4ErrorCylSurfaceTarget::GetDistanceFromPoint()", "InvalidSetup", FatalException, "Direction is zero !"); } //----- Get intersection point G4ThreeVector localPoint = ftransform.TransformPoint( point ); G4ThreeVector localDir = ftransform.TransformAxis( dir ); G4ThreeVector inters = IntersectLocal(localPoint, localDir); G4double dist = (localPoint-inters).mag(); #ifdef G4VERBOSE if(G4ErrorPropagatorData::verbose() >= 3 ) { G4cout << " G4ErrorCylSurfaceTarget::GetDistanceFromPoint():" << G4endl << " Global point " << point << " dir " << dir << G4endl << " Intersection " << inters << G4endl << " Distance " << dist << G4endl; Dump( " CylSurface: " ); } #endif return dist; } //--------------------------------------------------------------------- G4double G4ErrorCylSurfaceTarget:: GetDistanceFromPoint( const G4ThreeVector& point ) const { G4ThreeVector localPoint = ftransform.TransformPoint( point ); #ifdef G4VERBOSE if(G4ErrorPropagatorData::verbose() >= 3 ) { G4cout << " G4ErrorCylSurfaceTarget::GetDistanceFromPoint:" << G4endl << " Global point " << point << G4endl << " Distance " << fradius - localPoint.perp() << G4endl; Dump( " CylSurface: " ); } #endif return fradius - localPoint.perp(); } //--------------------------------------------------------------------- G4ThreeVector G4ErrorCylSurfaceTarget:: IntersectLocal( const G4ThreeVector& localPoint, const G4ThreeVector& localDir ) const { G4double eqa = localDir.x()*localDir.x()+localDir.y()*localDir.y(); G4double eqb = 2*(localPoint.x()*localDir.x()+localPoint.y()*localDir.y()); G4double eqc = -fradius*fradius+localPoint.x()*localPoint.x() +localPoint.y()*localPoint.y(); G4int inside = (localPoint.perp() > fradius) ? -1 : 1; G4double lambda; if( eqa*inside > 0. ) { lambda = (-eqb + std::sqrt(eqb*eqb-4*eqa*eqc) ) / (2.*eqa); } else if( eqa*inside < 0. ) { lambda = (-eqb - std::sqrt(eqb*eqb-4*eqa*eqc) ) / (2.*eqa); } else { if( eqb != 0. ) { lambda = -eqc/eqb; } else { G4cerr << "WARNING - G4ErrorCylSurfaceTarget::IntersectLocal()" << G4endl << " Point: " << localPoint << ", direction: " << localDir << G4endl; Dump( " CylSurface: " ); G4Exception("G4ErrorCylSurfaceTarget::IntersectLocal()", "IllegalCondition", JustWarning, "Intersection not possible !"); lambda = kInfinity; } } G4ThreeVector inters = localPoint + lambda*localDir/localDir.mag(); #ifdef G4VERBOSE if(G4ErrorPropagatorData::verbose() >= 4 ) { G4cout << " G4ErrorCylSurfaceTarget::IntersectLocal " << inters << " " << inters.perp() << " localPoint " << localPoint << " localDir " << localDir << G4endl; } #endif return inters; } //--------------------------------------------------------------------- G4Plane3D G4ErrorCylSurfaceTarget:: GetTangentPlane( const G4ThreeVector& point ) const { G4ThreeVector localPoint = ftransform.TransformPoint( point ); // check that point is at cylinder surface // if( std::fabs( localPoint.perp() - fradius ) > 1000.*G4GeometryTolerance::GetInstance()->GetSurfaceTolerance() ) { G4cerr << "WARNING - G4ErrorCylSurfaceTarget::GetTangentPlane()" << G4endl << " Point: " << point << ", local: " << localPoint << G4endl << " is not at surface, but far away by: " << localPoint.perp() - fradius << " !" << G4endl; G4Exception("G4ErrorCylSurfaceTarget::GetTangentPlane()", "IllegalCondition", JustWarning, "Local point not at surface !"); } G4Normal3D normal = localPoint - ftransform.NetTranslation(); return G4Plane3D( normal, point ); } //--------------------------------------------------------------------- void G4ErrorCylSurfaceTarget::Dump( const G4String& msg ) const { G4cout << msg << " radius " << fradius << " centre " << ftransform.NetTranslation() << " rotation " << ftransform.NetRotation() << G4endl; }