// $Id: DualRand.h,v 1.5 2010/06/16 17:24:53 garren Exp $ // -*- C++ -*- // // ----------------------------------------------------------------------- // Hep Random // --- DualRand --- // class header file // ----------------------------------------------------------------------- // // Canopy random number generator DualRand // Re-written as C++ routine for 32-bit ints MF 1/26/98 // // Exclusive or of a feedback shift register and integer congruence // random number generator. The feedback shift register uses offsets // 127 and 97. The integer congruence generator uses a different // multiplier for each stream. The multipliers are chosen to give // full period and maximum "potency" for modulo 2^32. The period of // the combined random number generator is 2^159 - 2^32, and the // sequences are different for each stream (not just started in a // different place). // // ======================================================================= // Canopy random number generator DualRand. // Doug Toussaint 5/25/88 // Optimized by GMH 7/26/88 // Optimized by GMH 7/26/88 // Repaired by GMH 12/1/88 to update modular congruence state // Put into ranlib by GMH 6/23/89 // Re-written as C++ routine for 32-bit ints MF 1/26/98 // Re-written for CLHEP package KLS 6/04/98 // Removed pow() from flat method for speed KLS 7/21/98 // 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 // Mark Fischler - methods for vector save/restore 3/7/05 // ======================================================================= #ifndef DualRand_h #define DualRand_h #include "CLHEP/Random/defs.h" #include "CLHEP/Random/RandomEngine.h" namespace CLHEP { /** * @author * @ingroup random */ class DualRand: public HepRandomEngine { public: DualRand(); DualRand(long seed); DualRand(std::istream & is); DualRand(int rowIndex, int colIndex); virtual ~DualRand(); // let the compiler generate the copy constructors //DualRand(const DualRand & p); //DualRand & operator=(const DualRand & p); 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 setSeed(long seed, int); // Sets the state of the algorithm according to seed. void setSeeds(const long * seeds, int); // Sets the state of the algorithm according to the zero-terminated // array of seeds. void saveStatus( const char filename[] = "DualRand.conf") const; // Saves on named file the current engine status. void restoreStatus( const char filename[] = "DualRand.conf" ); // Reads from named file the last saved engine status and restores it. void showStatus() const; // Dumps the current engine status on the screen. operator float(); // flat value, without worrying about filling bits operator unsigned int(); // 32-bit flat value, quickest of all 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 "DualRand";} std::vector put () const; bool get (const std::vector & v); bool getState (const std::vector & v); static const unsigned int VECTOR_STATE_SIZE = 9; private: static int numEngines; // This generator is composed of two others combined: class Tausworthe { public: Tausworthe(); Tausworthe(unsigned int seed); operator unsigned int(); void put(std::ostream & os) const; void put(std::vector & v) const; void get(std::istream & is); bool get(std::vector::const_iterator & iv); private: int wordIndex; unsigned int words[4]; }; // Tausworthe class IntegerCong { public: IntegerCong(); IntegerCong(unsigned int seed, int streamNumber); operator unsigned int(); void put(std::ostream & os) const; void put(std::vector & v) const; void get(std::istream & is); bool get(std::vector::const_iterator & iv); private: unsigned int state, multiplier, addend; }; // IntegerCong Tausworthe tausworthe; IntegerCong integerCong; }; // DualRand } // namespace CLHEP #ifdef ENABLE_BACKWARDS_COMPATIBILITY // backwards compatibility will be enabled ONLY in CLHEP 1.9 using namespace CLHEP; #endif #endif // DualRand_h