// $Id: RanecuEngine.h,v 1.6 2010/07/20 18:06:02 garren Exp $ // -*- C++ -*- // // ----------------------------------------------------------------------- // HEP Random // --- RanecuEngine --- // class header file // ----------------------------------------------------------------------- // This file is part of Geant4 (simulation toolkit for HEP). // // RANECU Random Engine - algorithm originally written in FORTRAN77 // as part of the MATHLIB HEP library. // The initialisation is carried out using a Multiplicative Congruential // generator using formula constants of L'Ecuyer as described in "F.James, // Comp. Phys. Comm. 60 (1990) 329-344". // Seeds are taken from a seed table given an index, the getSeed() method // returns the current index in the seed table, the getSeeds() method // returns a pointer to the couple of seeds stored in the local table of // seeds at the current index. // ======================================================================= // Gabriele Cosmo - Created: 2nd February 1996 // - Minor corrections: 31st October 1996 // - Added methods for engine status: 19th November 1996 // - setSeed() now has default dummy argument // set to zero: 11th July 1997 // - Added default index to setSeeds(): 16th Oct 1997 // J.Marraffino - Added stream operators and related constructor. // Added automatic seed selection from seed table and // engine counter: 16th Feb 1998 // Ken Smith - Added conversion operators: 6th Aug 1998 // Mark Fischler Methods for distrib. instance save/restore 12/8/04 // Mark Fischler methods for anonymous save/restore 12/27/04 // ======================================================================= #ifndef RanecuEngine_h #define RanecuEngine_h 1 #include "CLHEP/Random/defs.h" #include "CLHEP/Random/RandomEngine.h" namespace CLHEP { /** * @author * @ingroup random */ class RanecuEngine : public HepRandomEngine { public: RanecuEngine(std::istream& is); RanecuEngine(); RanecuEngine(int index); virtual ~RanecuEngine(); // Constructors and destructor. double flat(); // Returns a pseudo random number between 0 and 1 // (excluding the end points) void flatArray (const int size, double* vect); // Fills an array "vect" of specified size with flat random values. void setIndex (long index); // Sets the state of the algorithm according to "index", the position // in the local table of seeds. void setSeed (long index, int dum=0); // Resets the state of the algorithm according to "index", the position // in the static table of seeds stored in HepRandom. void setSeeds (const long* seeds, int index=-1); // Sets the state of the algorithm according to the array of seeds // "seeds" containing two seed values to be stored in the local table at // "index" position. void saveStatus( const char filename[] = "Ranecu.conf" ) const; // Saves on file Ranecu.conf the current engine status. void restoreStatus( const char filename[] = "Ranecu.conf" ); // Reads from file Ranecu.conf the last saved engine status // and restores it. void showStatus() const; // Dumps the engine status on the screen. operator unsigned int(); // 32-bit int flat, faster in this case virtual std::ostream & put (std::ostream & os) const; virtual std::istream & get (std::istream & is); static std::string beginTag ( ); virtual std::istream & getState ( std::istream & is ); std::string name() const; static std::string engineName() {return "RanecuEngine";} std::vector put () const; bool get (const std::vector & v); bool getState (const std::vector & v); protected: // Suggested L'ecuyer coefficients for portable 32 bits generators. static const int ecuyer_a = 40014; static const int ecuyer_b = 53668; static const int ecuyer_c = 12211; static const int ecuyer_d = 40692; static const int ecuyer_e = 52774; static const int ecuyer_f = 3791; static const int shift1 = 2147483563; static const int shift2 = 2147483399; static const unsigned int VECTOR_STATE_SIZE = 4; private: // private method used to mitigate the effects of using a lookup table void further_randomize (int seq, int col, int index, int modulus); // Members defining the current state of the generator. static const int maxSeq = 215; long table[215][2]; int seq; static int numEngines; }; } // namespace CLHEP #ifdef ENABLE_BACKWARDS_COMPATIBILITY // backwards compatibility will be enabled ONLY in CLHEP 1.9 using namespace CLHEP; #endif #endif