G4SimpleIntegration.hh

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// G4SimpleIntegration
//
// Class description:
//
// Class for realisation of simple numerical methodes for integration of
// functions with signature: double f(double). The methods based mainly on
// algorithms given in the book:
//   An introduction to NUMERICAL METHODS IN C++,
//   B.H. Flowers, Claredon Press, Oxford, 1995.
 
// Author: V.Grichine, 26.03.1997
// --------------------------------------------------------------------
#ifndef G4SIMPLEINTEGRATION_HH
#define G4SIMPLEINTEGRATION_HH 1
 
#include "G4Types.hh"
 
using function = G4double (*)(G4double);
 
class G4SimpleIntegration
{
 public:
  explicit G4SimpleIntegration(function pFunction);
 
  G4SimpleIntegration(function pFunction, G4double pTolerance);
 
  ~G4SimpleIntegration() = default;
 
  G4SimpleIntegration(const G4SimpleIntegration&) = delete;
  G4SimpleIntegration& operator=(const G4SimpleIntegration&) = delete;
  // Private copy constructor and assignment operator.
 
  // Simple integration methods:
  // Trapezoidal, MidPoint, Gauss and Simpson(double a,double b,int n)
  // - integrate function pointed by fFunction from a to b by n iterations,
  //   i.e. with Step (b-a)/n according to the correspondent method.
 
  G4double Trapezoidal(G4double xInitial, G4double xFinal,
                       G4int iterationNumber);
 
  G4double MidPoint(G4double xInitial, G4double xFinal, G4int iterationNumber);
 
  G4double Gauss(G4double xInitial, G4double xFinal, G4int iterationNumber);
 
  G4double Simpson(G4double xInitial, G4double xFinal, G4int iterationNumber);
 
  // Adaptive Gauss integration with accuracy ~ fTolerance
 
  G4double AdaptGaussIntegration(G4double xInitial, G4double xFinal);
  // Integrate function from a to be with accuracy <= fTolerance
 
 protected:
  G4double Gauss(G4double xInitial, G4double xFinal);
 
  void AdaptGauss(G4double xInitial, G4double xFinal, G4double& sum,
                  G4int& depth);
 
 private:
  function fFunction;              // pointer to the function to be integrated
  G4double fTolerance   = 0.0001;  // accuracy of integration
  const G4int fMaxDepth = 100;     // constant maximum iteration depth
};
 
#endif