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// $Id: Hurd288Engine.h,v 1.5 2010/06/16 17:24:53 garren Exp $
// -*- C++ -*-
//
// -----------------------------------------------------------------------
//                           HEP Random
//                     --- Hurd288Engine ---
//                       class header file
// -----------------------------------------------------------------------
// The starting point for the Hurd Random algorithm is the paper in
// IEEE Transactions on Computers c23, 2 Feb 1974. The algorithm is
// essentially a series of 32 interconnected b-bit registers. The basic
// property is that at each step, bit 1 becomes bit 0, bit 2 the new bit 1,
// bit b the new bit b-1. This is modified so that the new bit b0 is the old
// bit b1 XOR'd with some bit b-d from the previous bit register. The values
// of d can be chosen so as to generate a primitive polynomial, a maximal
// length sequence through all bit patterns except the zero pattern.
//
// This generator, Hurd288, use values based upon Table I of the afore-
// mentioned paper, such that we have 288 total bits, representing 32
// 9-bit registers (actually implemented as an array of 9 32-bit words)
// =======================================================================
//  07-23-98  KLS   Initial draft started
// Ken Smith      - Added conversion operators:  6th Aug 1998
// Mark Fischler  - methods for distrib. instacne save/restore 12/8/04    
// Mark Fischler  - methods for anonymous save/restore 12/27/04    
// =======================================================================

#ifndef Hurd288Engine_h
#define Hurd288Engine_h

#include "CLHEP/Random/defs.h"
#include "CLHEP/Random/RandomEngine.h"

namespace CLHEP {

/**
 * @author
 * @ingroup random
 */
class Hurd288Engine: public HepRandomEngine {
 
public:

  Hurd288Engine();
  Hurd288Engine( std::istream &is );
  Hurd288Engine( long seed );
  Hurd288Engine( int rowIndex, int colIndex );
  virtual ~Hurd288Engine();
  // Constructors and destructor.

  double flat();
  // Returns a pseudo random number between 0 and 1

  void flatArray( const int size, double* vect );
  // Fills the 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[] = "Hurd288Engine.conf" ) const;
  // Saves on named file the current engine status

  void restoreStatus( const char filename[] = "Hurd288Engine.conf" );
  // Reads from named file the last saved engine status
  // and restores it.

  void showStatus() const;
  // Dumps the 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 "Hurd288Engine";}

  std::vector<unsigned long> put () const;
  bool get (const std::vector<unsigned long> & v);
  bool getState (const std::vector<unsigned long> & v);

  static const unsigned int VECTOR_STATE_SIZE = 11;
  
private:
  static int numEngines;
  static int maxIndex;

  void advance();

  int wordIndex;
  unsigned int words[9];

}; // Hurd288Engine

}  // namespace CLHEP

#ifdef ENABLE_BACKWARDS_COMPATIBILITY
//  backwards compatibility will be enabled ONLY in CLHEP 1.9
using namespace CLHEP;
#endif

#endif // Hurd288Engine_h