boost_1_45_0/libs/random/extra/haertel.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* haertel.hpp file
  *
  * Copyright Jens Maurer 2000, 2002
  * Distributed under the Boost Software License, Version 1.0. (See
  * accompanying file LICENSE_1_0.txt or copy at
  * http://www.boost.org/LICENSE_1_0.txt)
  *
  * $Id: haertel.hpp 60755 2010-03-22 00:45:06Z steven_watanabe $
  *
  * Revision history
  */

 /*
  * NOTE: This is not part of the official boost submission.  It exists
  * only as a collection of ideas.
  */

 #ifndef BOOST_RANDOM_HAERTEL_HPP
 #define BOOST_RANDOM_HAERTEL_HPP

 #include <boost/cstdint.hpp>
 #include <boost/random/linear_congruential.hpp>
 #include <boost/random/inversive_congruential.hpp>

 namespace boost {
 namespace random {

 // Wikramaratna 1989  ACORN
 template<class IntType, int k, IntType m, IntType val>
 class additive_congruential
 {
 public:
   typedef IntType result_type;
 #ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
   static const bool has_fixed_range = true;
   static const result_type min_value = 0;
   static const result_type max_value = m-1;
 #else
   enum {
     has_fixed_range = true,
     min_value = 0,
     max_value = m-1
   };
 #endif
   template<class InputIterator>
   explicit additive_congruential(InputIterator start) { seed(start); }
   template<class InputIterator>
   void seed(InputIterator start)
   {
     for(int i = 0; i <= k; ++i, ++start)
       values[i] = *start;
   }

   result_type operator()()
   {
     for(int i = 1; i <= k; ++i) {
       IntType tmp = values[i-1] + values[i];
       if(tmp >= m)
         tmp -= m;
       values[i] = tmp;
     }
     return values[k];
   }
   result_type validation() const { return val; }
 private:
   IntType values[k+1];
 };


 template<class IntType, int r, int s, IntType m, IntType val>
 class lagged_fibonacci_int
 {
 public:
   typedef IntType result_type;
 #ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
   static const bool has_fixed_range = true;
   static const result_type min_value = 0;
   static const result_type max_value = m-1;
 #else
   enum {
     has_fixed_range = true,
     min_value = 0,
     max_value = m-1
   };
 #endif
   explicit lagged_fibonacci_int(IntType start) { seed(start); }
   template<class Generator>
   explicit lagged_fibonacci_int(Generator & gen) { seed(gen); }
   void seed(IntType start)
   {
     linear_congruential<uint32_t, 299375077, 0, 0, 0> init;
     seed(init);
   }
   template<class Generator>
   void seed(Generator & gen)
   {
     assert(r > s);
     for(int i = 0; i < 607; ++i)
       values[i] = gen();
     current = 0;
     lag = r-s;
   }

   result_type operator()()
   {
     result_type tmp = values[current] + values[lag];
     if(tmp >= m)
       tmp -= m;
     values[current] = tmp;
     ++current;
     if(current >= r)
       current = 0;
     ++lag;
     if(lag >= r)
       lag = 0;
     return tmp;
   }
   result_type validation() const { return val; }
 private:
   result_type values[r];
   int current, lag;
 };

 } // namespace random
 } // namespace boost

 // distributions from Haertel's dissertation
 // (additional parameterizations of the basic templates)
 namespace Haertel {
   typedef boost::random::linear_congruential<boost::uint64_t, 45965, 453816691,
     (boost::uint64_t(1)<<31), 0> LCG_Af2;
   typedef boost::random::linear_congruential<boost::uint64_t, 211936855, 0,
     (boost::uint64_t(1)<<29)-3, 0> LCG_Die1;
   typedef boost::random::linear_congruential<boost::uint32_t, 2824527309u, 0,
     0, 0> LCG_Fis;
   typedef boost::random::linear_congruential<boost::uint64_t, 950706376u, 0,
     (boost::uint64_t(1)<<31)-1, 0> LCG_FM;
   typedef boost::random::linear_congruential<boost::int32_t, 51081, 0,
     2147483647, 0> LCG_Hae;
   typedef boost::random::linear_congruential<boost::uint32_t, 69069, 1,
     0, 0> LCG_VAX;
   typedef boost::random::inversive_congruential<boost::int64_t, 240318, 197,
     1000081, 0> NLG_Inv1;
   typedef boost::random::inversive_congruential<boost::int64_t, 15707262,
     13262967, (1<<24)-17, 0> NLG_Inv2;
   typedef boost::random::inversive_congruential<boost::int32_t, 1, 1,
     2147483647, 0> NLG_Inv4;
   typedef boost::random::inversive_congruential<boost::int32_t, 1, 2,
     1<<30, 0> NLG_Inv5;
   typedef boost::random::additive_congruential<boost::int32_t, 6,
     (1<<30)-35, 0> MRG_Acorn7;
   typedef boost::random::lagged_fibonacci_int<boost::uint32_t, 607, 273,
     0, 0> MRG_Fib2;
 } // namespace Haertel

 #endif
	/* haertel.hpp file
	*
	* Copyright Jens Maurer 2000, 2002
	* Distributed under the Boost Software License, Version 1.0. (See
	* accompanying file LICENSE_1_0.txt or copy at
	* http://www.boost.org/LICENSE_1_0.txt)
	*
	* $Id: haertel.hpp 60755 2010-03-22 00:45:06Z steven_watanabe $
	*
	* Revision history
	*/

	/*
	* NOTE: This is not part of the official boost submission. It exists
	* only as a collection of ideas.
	*/

	#ifndef BOOST_RANDOM_HAERTEL_HPP
	#define BOOST_RANDOM_HAERTEL_HPP

	#include <boost/cstdint.hpp>
	#include <boost/random/linear_congruential.hpp>
	#include <boost/random/inversive_congruential.hpp>

	namespace boost {
	namespace random {

	// Wikramaratna 1989 ACORN
	template<class IntType, int k, IntType m, IntType val>
	class additive_congruential
	{
	public:
	typedef IntType result_type;
	#ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
	static const bool has_fixed_range = true;
	static const result_type min_value = 0;
	static const result_type max_value = m-1;
	#else
	enum {
	has_fixed_range = true,
	min_value = 0,
	max_value = m-1
	};
	#endif
	template<class InputIterator>
	explicit additive_congruential(InputIterator start) { seed(start); }
	template<class InputIterator>
	void seed(InputIterator start)
	{
	for(int i = 0; i <= k; ++i, ++start)
	values[i] = *start;
	}

	result_type operator()()
	{
	for(int i = 1; i <= k; ++i) {
	IntType tmp = values[i-1] + values[i];
	if(tmp >= m)
	tmp -= m;
	values[i] = tmp;
	}
	return values[k];
	}
	result_type validation() const { return val; }
	private:
	IntType values[k+1];
	};


	template<class IntType, int r, int s, IntType m, IntType val>
	class lagged_fibonacci_int
	{
	public:
	typedef IntType result_type;
	#ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
	static const bool has_fixed_range = true;
	static const result_type min_value = 0;
	static const result_type max_value = m-1;
	#else
	enum {
	has_fixed_range = true,
	min_value = 0,
	max_value = m-1
	};
	#endif
	explicit lagged_fibonacci_int(IntType start) { seed(start); }
	template<class Generator>
	explicit lagged_fibonacci_int(Generator & gen) { seed(gen); }
	void seed(IntType start)
	{
	linear_congruential<uint32_t, 299375077, 0, 0, 0> init;
	seed(init);
	}
	template<class Generator>
	void seed(Generator & gen)
	{
	assert(r > s);
	for(int i = 0; i < 607; ++i)
	values[i] = gen();
	current = 0;
	lag = r-s;
	}

	result_type operator()()
	{
	result_type tmp = values[current] + values[lag];
	if(tmp >= m)
	tmp -= m;
	values[current] = tmp;
	++current;
	if(current >= r)
	current = 0;
	++lag;
	if(lag >= r)
	lag = 0;
	return tmp;
	}
	result_type validation() const { return val; }
	private:
	result_type values[r];
	int current, lag;
	};

	} // namespace random
	} // namespace boost

	// distributions from Haertel's dissertation
	// (additional parameterizations of the basic templates)
	namespace Haertel {
	typedef boost::random::linear_congruential<boost::uint64_t, 45965, 453816691,
	(boost::uint64_t(1)<<31), 0> LCG_Af2;
	typedef boost::random::linear_congruential<boost::uint64_t, 211936855, 0,
	(boost::uint64_t(1)<<29)-3, 0> LCG_Die1;
	typedef boost::random::linear_congruential<boost::uint32_t, 2824527309u, 0,
	0, 0> LCG_Fis;
	typedef boost::random::linear_congruential<boost::uint64_t, 950706376u, 0,
	(boost::uint64_t(1)<<31)-1, 0> LCG_FM;
	typedef boost::random::linear_congruential<boost::int32_t, 51081, 0,
	2147483647, 0> LCG_Hae;
	typedef boost::random::linear_congruential<boost::uint32_t, 69069, 1,
	0, 0> LCG_VAX;
	typedef boost::random::inversive_congruential<boost::int64_t, 240318, 197,
	1000081, 0> NLG_Inv1;
	typedef boost::random::inversive_congruential<boost::int64_t, 15707262,
	13262967, (1<<24)-17, 0> NLG_Inv2;
	typedef boost::random::inversive_congruential<boost::int32_t, 1, 1,
	2147483647, 0> NLG_Inv4;
	typedef boost::random::inversive_congruential<boost::int32_t, 1, 2,
	1<<30, 0> NLG_Inv5;
	typedef boost::random::additive_congruential<boost::int32_t, 6,
	(1<<30)-35, 0> MRG_Acorn7;
	typedef boost::random::lagged_fibonacci_int<boost::uint32_t, 607, 273,
	0, 0> MRG_Fib2;
	} // namespace Haertel

	#endif