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//
//
// $Id$
//
//
// Class G4SimpleLocator
//
// class description:
//
// Implementing the calculation of the intersection point with a boundary when
// PropagationInField is used. Derived from method LocateIntersectionPoint()
// from G4PropagatorInField, it is based on a linear method for finding the
// intersection point; the difference compared to G4MultiLevelLocator is that
// no 'depth' algorithm is used in case of slow progress for finding the
// intersection point.
// History:
// -------
// 27.10.08 - Tatiana Nikitina: Derived from LocateIntersectionPoint() from
// G4PropagatorInField class
// ---------------------------------------------------------------------------
#ifndef G4SIMPLELOCATOR_HH
#define G4SIMPLELOCATOR_HH
#include "G4VIntersectionLocator.hh"
class G4SimpleLocator : public G4VIntersectionLocator
{
public: // with description
G4SimpleLocator(G4Navigator *theNavigator);
// Constructor
~G4SimpleLocator();
// Default destructor
G4bool EstimateIntersectionPoint(
const G4FieldTrack& curveStartPointTangent, // A
const G4FieldTrack& curveEndPointTangent, // B
const G4ThreeVector& trialPoint, // E
G4FieldTrack& intersectPointTangent, // Output
G4bool& recalculatedEndPoint, // Out
G4double& fPreviousSafety, // In/Out
G4ThreeVector& fPreviousSftOrigin); // In/Out
// If such an intersection exists, this function calculates the
// intersection point of the true path of the particle with the surface
// of the current volume (or of one of its daughters).
// Should use lateral displacement as measure of convergence
};
#endif