test: epoc32/include/stdapis/boost/random/lagged_fibonacci.hpp@2fe1408b6811 (annotated)

williamr@2	1	/* boost random/lagged_fibonacci.hpp header file
williamr@2	2	*
williamr@2	3	* Copyright Jens Maurer 2000-2001
williamr@2	4	* Distributed under the Boost Software License, Version 1.0. (See
williamr@2	5	* accompanying file LICENSE_1_0.txt or copy at
williamr@2	6	* http://www.boost.org/LICENSE_1_0.txt)
williamr@2	7	*
williamr@2	8	* See http://www.boost.org for most recent version including documentation.
williamr@2	9	*
williamr@2	10	* $Id: lagged_fibonacci.hpp,v 1.28 2005/05/21 15:57:00 dgregor Exp $
williamr@2	11	*
williamr@2	12	* Revision history
williamr@2	13	* 2001-02-18 moved to individual header files
williamr@2	14	*/
williamr@2	15
williamr@2	16	#ifndef BOOST_RANDOM_LAGGED_FIBONACCI_HPP
williamr@2	17	#define BOOST_RANDOM_LAGGED_FIBONACCI_HPP
williamr@2	18
williamr@2	19	#include <cmath>
williamr@2	20	#include <iostream>
williamr@2	21	#include <algorithm> // std::max
williamr@2	22	#include <iterator>
williamr@2	23	#include <cmath> // std::pow
williamr@2	24	#include <boost/config.hpp>
williamr@2	25	#include <boost/limits.hpp>
williamr@2	26	#include <boost/cstdint.hpp>
williamr@2	27	#include <boost/detail/workaround.hpp>
williamr@2	28	#include <boost/random/linear_congruential.hpp>
williamr@2	29	#include <boost/random/uniform_01.hpp>
williamr@2	30	#include <boost/random/detail/pass_through_engine.hpp>
williamr@2	31
williamr@2	32	namespace boost {
williamr@2	33	namespace random {
williamr@2	34
williamr@2	35	#if BOOST_WORKAROUND(_MSC_FULL_VER, BOOST_TESTED_AT(13102292)) && BOOST_MSVC > 1300
williamr@2	36	# define BOOST_RANDOM_EXTRACT_LF
williamr@2	37	#endif
williamr@2	38
williamr@2	39	#if defined(__APPLE_CC__) && defined(__GNUC__) && (__GNUC__ == 3) && (__GNUC_MINOR__ <= 3)
williamr@2	40	# define BOOST_RANDOM_EXTRACT_LF
williamr@2	41	#endif
williamr@2	42
williamr@2	43	# ifdef BOOST_RANDOM_EXTRACT_LF
williamr@2	44	namespace detail
williamr@2	45	{
williamr@2	46	template<class IStream, class F, class RealType>
williamr@2	47	IStream&
williamr@2	48	extract_lagged_fibonacci_01(
williamr@2	49	IStream& is
williamr@2	50	, F const& f
williamr@2	51	, unsigned int& i
williamr@2	52	, RealType* x
williamr@2	53	, RealType modulus)
williamr@2	54	{
williamr@2	55	is >> i >> std::ws;
williamr@2	56	for(unsigned int i = 0; i < f.long_lag; ++i)
williamr@2	57	{
williamr@2	58	RealType value;
williamr@2	59	is >> value >> std::ws;
williamr@2	60	x[i] = value / modulus;
williamr@2	61	}
williamr@2	62	return is;
williamr@2	63	}
williamr@2	64
williamr@2	65	template<class IStream, class F, class UIntType>
williamr@2	66	IStream&
williamr@2	67	extract_lagged_fibonacci(
williamr@2	68	IStream& is
williamr@2	69	, F const& f
williamr@2	70	, unsigned int& i
williamr@2	71	, UIntType* x)
williamr@2	72	{
williamr@2	73	is >> i >> std::ws;
williamr@2	74	for(unsigned int i = 0; i < f.long_lag; ++i)
williamr@2	75	is >> x[i] >> std::ws;
williamr@2	76	return is;
williamr@2	77	}
williamr@2	78	}
williamr@2	79	# endif
williamr@2	80
williamr@2	81	template<class UIntType, int w, unsigned int p, unsigned int q,
williamr@2	82	UIntType val = 0>
williamr@2	83	class lagged_fibonacci
williamr@2	84	{
williamr@2	85	public:
williamr@2	86	typedef UIntType result_type;
williamr@2	87	BOOST_STATIC_CONSTANT(bool, has_fixed_range = false);
williamr@2	88	BOOST_STATIC_CONSTANT(int, word_size = w);
williamr@2	89	BOOST_STATIC_CONSTANT(unsigned int, long_lag = p);
williamr@2	90	BOOST_STATIC_CONSTANT(unsigned int, short_lag = q);
williamr@2	91
williamr@2	92	result_type min BOOST_PREVENT_MACRO_SUBSTITUTION () const { return 0; }
williamr@2	93	result_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const { return wordmask; }
williamr@2	94
williamr@2	95	lagged_fibonacci() { init_wordmask(); seed(); }
williamr@2	96	explicit lagged_fibonacci(uint32_t value) { init_wordmask(); seed(value); }
williamr@2	97	template<class It> lagged_fibonacci(It& first, It last)
williamr@2	98	{ init_wordmask(); seed(first, last); }
williamr@2	99	// compiler-generated copy ctor and assignment operator are fine
williamr@2	100
williamr@2	101	private:
williamr@2	102	void init_wordmask()
williamr@2	103	{
williamr@2	104	wordmask = 0;
williamr@2	105	for(int i = 0; i < w; ++i)
williamr@2	106	wordmask \|= (1u << i);
williamr@2	107	}
williamr@2	108
williamr@2	109	public:
williamr@2	110	void seed(uint32_t value = 331u)
williamr@2	111	{
williamr@2	112	minstd_rand0 gen(value);
williamr@2	113	for(unsigned int j = 0; j < long_lag; ++j)
williamr@2	114	x[j] = gen() & wordmask;
williamr@2	115	i = long_lag;
williamr@2	116	}
williamr@2	117
williamr@2	118	template<class It>
williamr@2	119	void seed(It& first, It last)
williamr@2	120	{
williamr@2	121	// word size could be smaller than the seed values
williamr@2	122	unsigned int j;
williamr@2	123	for(j = 0; j < long_lag && first != last; ++j, ++first)
williamr@2	124	x[j] = *first & wordmask;
williamr@2	125	i = long_lag;
williamr@2	126	if(first == last && j < long_lag)
williamr@2	127	throw std::invalid_argument("lagged_fibonacci::seed");
williamr@2	128	}
williamr@2	129
williamr@2	130	result_type operator()()
williamr@2	131	{
williamr@2	132	if(i >= long_lag)
williamr@2	133	fill();
williamr@2	134	return x[i++];
williamr@2	135	}
williamr@2	136
williamr@2	137	static bool validation(result_type x)
williamr@2	138	{
williamr@2	139	return x == val;
williamr@2	140	}
williamr@2	141
williamr@2	142	#ifndef BOOST_NO_OPERATORS_IN_NAMESPACE
williamr@2	143
williamr@2	144	#ifndef BOOST_NO_MEMBER_TEMPLATE_FRIENDS
williamr@2	145	template<class CharT, class Traits>
williamr@2	146	friend std::basic_ostream<CharT,Traits>&
williamr@2	147	operator<<(std::basic_ostream<CharT,Traits>& os, const lagged_fibonacci& f)
williamr@2	148	{
williamr@2	149	os << f.i << " ";
williamr@2	150	for(unsigned int i = 0; i < f.long_lag; ++i)
williamr@2	151	os << f.x[i] << " ";
williamr@2	152	return os;
williamr@2	153	}
williamr@2	154
williamr@2	155	template<class CharT, class Traits>
williamr@2	156	friend std::basic_istream<CharT, Traits>&
williamr@2	157	operator>>(std::basic_istream<CharT, Traits>& is, lagged_fibonacci& f)
williamr@2	158	{
williamr@2	159	# ifdef BOOST_RANDOM_EXTRACT_LF
williamr@2	160	return detail::extract_lagged_fibonacci(is, f, f.i, f.x);
williamr@2	161	# else
williamr@2	162	is >> f.i >> std::ws;
williamr@2	163	for(unsigned int i = 0; i < f.long_lag; ++i)
williamr@2	164	is >> f.x[i] >> std::ws;
williamr@2	165	return is;
williamr@2	166	# endif
williamr@2	167	}
williamr@2	168	#endif
williamr@2	169
williamr@2	170	friend bool operator==(const lagged_fibonacci& x, const lagged_fibonacci& y)
williamr@2	171	{ return x.i == y.i && std::equal(x.x, x.x+long_lag, y.x); }
williamr@2	172	friend bool operator!=(const lagged_fibonacci& x,
williamr@2	173	const lagged_fibonacci& y)
williamr@2	174	{ return !(x == y); }
williamr@2	175	#else
williamr@2	176	// Use a member function; Streamable concept not supported.
williamr@2	177	bool operator==(const lagged_fibonacci& rhs) const
williamr@2	178	{ return i == rhs.i && std::equal(x, x+long_lag, rhs.x); }
williamr@2	179	bool operator!=(const lagged_fibonacci& rhs) const
williamr@2	180	{ return !(*this == rhs); }
williamr@2	181	#endif
williamr@2	182
williamr@2	183	private:
williamr@2	184	void fill();
williamr@2	185	UIntType wordmask;
williamr@2	186	unsigned int i;
williamr@2	187	UIntType x[long_lag];
williamr@2	188	};
williamr@2	189
williamr@2	190	#ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
williamr@2	191	// A definition is required even for integral static constants
williamr@2	192	template<class UIntType, int w, unsigned int p, unsigned int q, UIntType val>
williamr@2	193	const bool lagged_fibonacci<UIntType, w, p, q, val>::has_fixed_range;
williamr@2	194	template<class UIntType, int w, unsigned int p, unsigned int q, UIntType val>
williamr@2	195	const unsigned int lagged_fibonacci<UIntType, w, p, q, val>::long_lag;
williamr@2	196	template<class UIntType, int w, unsigned int p, unsigned int q, UIntType val>
williamr@2	197	const unsigned int lagged_fibonacci<UIntType, w, p, q, val>::short_lag;
williamr@2	198	#endif
williamr@2	199
williamr@2	200	template<class UIntType, int w, unsigned int p, unsigned int q, UIntType val>
williamr@2	201	void lagged_fibonacci<UIntType, w, p, q, val>::fill()
williamr@2	202	{
williamr@2	203	// two loops to avoid costly modulo operations
williamr@2	204	{ // extra scope for MSVC brokenness w.r.t. for scope
williamr@2	205	for(unsigned int j = 0; j < short_lag; ++j)
williamr@2	206	x[j] = (x[j] + x[j+(long_lag-short_lag)]) & wordmask;
williamr@2	207	}
williamr@2	208	for(unsigned int j = short_lag; j < long_lag; ++j)
williamr@2	209	x[j] = (x[j] + x[j-short_lag]) & wordmask;
williamr@2	210	i = 0;
williamr@2	211	}
williamr@2	212
williamr@2	213
williamr@2	214
williamr@2	215	// lagged Fibonacci generator for the range [0..1)
williamr@2	216	// contributed by Matthias Troyer
williamr@2	217	// for p=55, q=24 originally by G. J. Mitchell and D. P. Moore 1958
williamr@2	218
williamr@2	219	template<class T, unsigned int p, unsigned int q>
williamr@2	220	struct fibonacci_validation
williamr@2	221	{
williamr@2	222	BOOST_STATIC_CONSTANT(bool, is_specialized = false);
williamr@2	223	static T value() { return 0; }
williamr@2	224	static T tolerance() { return 0; }
williamr@2	225	};
williamr@2	226
williamr@2	227	#ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
williamr@2	228	// A definition is required even for integral static constants
williamr@2	229	template<class T, unsigned int p, unsigned int q>
williamr@2	230	const bool fibonacci_validation<T, p, q>::is_specialized;
williamr@2	231	#endif
williamr@2	232
williamr@2	233	#define BOOST_RANDOM_FIBONACCI_VAL(T,P,Q,V,E) \
williamr@2	234	template<> \
williamr@2	235	struct fibonacci_validation<T, P, Q> \
williamr@2	236	{ \
williamr@2	237	BOOST_STATIC_CONSTANT(bool, is_specialized = true); \
williamr@2	238	static T value() { return V; } \
williamr@2	239	static T tolerance() \
williamr@2	240	{ return (std::max)(E, static_cast<T>(5*std::numeric_limits<T>::epsilon())); } \
williamr@2	241	};
williamr@2	242	// (The extra static_cast<T> in the std::max call above is actually
williamr@2	243	// unnecessary except for HP aCC 1.30, which claims that
williamr@2	244	// numeric_limits<double>::epsilon() doesn't actually return a double.)
williamr@2	245
williamr@2	246	BOOST_RANDOM_FIBONACCI_VAL(double, 607, 273, 0.4293817707235914, 1e-14)
williamr@2	247	BOOST_RANDOM_FIBONACCI_VAL(double, 1279, 418, 0.9421630240437659, 1e-14)
williamr@2	248	BOOST_RANDOM_FIBONACCI_VAL(double, 2281, 1252, 0.1768114046909004, 1e-14)
williamr@2	249	BOOST_RANDOM_FIBONACCI_VAL(double, 3217, 576, 0.1956232694868209, 1e-14)
williamr@2	250	BOOST_RANDOM_FIBONACCI_VAL(double, 4423, 2098, 0.9499762202147172, 1e-14)
williamr@2	251	BOOST_RANDOM_FIBONACCI_VAL(double, 9689, 5502, 0.05737836943695162, 1e-14)
williamr@2	252	BOOST_RANDOM_FIBONACCI_VAL(double, 19937, 9842, 0.5076528587449834, 1e-14)
williamr@2	253	BOOST_RANDOM_FIBONACCI_VAL(double, 23209, 13470, 0.5414473810619185, 1e-14)
williamr@2	254	BOOST_RANDOM_FIBONACCI_VAL(double, 44497,21034, 0.254135073399297, 1e-14)
williamr@2	255
williamr@2	256	#undef BOOST_RANDOM_FIBONACCI_VAL
williamr@2	257
williamr@2	258	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	259	class lagged_fibonacci_01
williamr@2	260	{
williamr@2	261	public:
williamr@2	262	typedef RealType result_type;
williamr@2	263	BOOST_STATIC_CONSTANT(bool, has_fixed_range = false);
williamr@2	264	BOOST_STATIC_CONSTANT(int, word_size = w);
williamr@2	265	BOOST_STATIC_CONSTANT(unsigned int, long_lag = p);
williamr@2	266	BOOST_STATIC_CONSTANT(unsigned int, short_lag = q);
williamr@2	267
williamr@2	268	lagged_fibonacci_01() { init_modulus(); seed(); }
williamr@2	269	explicit lagged_fibonacci_01(uint32_t value) { init_modulus(); seed(value); }
williamr@2	270	template<class Generator>
williamr@2	271	explicit lagged_fibonacci_01(Generator & gen) { init_modulus(); seed(gen); }
williamr@2	272	template<class It> lagged_fibonacci_01(It& first, It last)
williamr@2	273	{ init_modulus(); seed(first, last); }
williamr@2	274	// compiler-generated copy ctor and assignment operator are fine
williamr@2	275
williamr@2	276	private:
williamr@2	277	void init_modulus()
williamr@2	278	{
williamr@2	279	#ifndef BOOST_NO_STDC_NAMESPACE
williamr@2	280	// allow for Koenig lookup
williamr@2	281	using std::pow;
williamr@2	282	#endif
williamr@2	283	_modulus = pow(RealType(2), word_size);
williamr@2	284	}
williamr@2	285
williamr@2	286	public:
williamr@2	287	void seed(uint32_t value = 331u)
williamr@2	288	{
williamr@2	289	minstd_rand0 intgen(value);
williamr@2	290	seed(intgen);
williamr@2	291	}
williamr@2	292
williamr@2	293	// For GCC, moving this function out-of-line prevents inlining, which may
williamr@2	294	// reduce overall object code size. However, MSVC does not grok
williamr@2	295	// out-of-line template member functions.
williamr@2	296	template<class Generator>
williamr@2	297	void seed(Generator & gen)
williamr@2	298	{
williamr@2	299	// use pass-by-reference, but wrap argument in pass_through_engine
williamr@2	300	typedef detail::pass_through_engine<Generator&> ref_gen;
williamr@2	301	uniform_01<ref_gen, RealType> gen01 =
williamr@2	302	uniform_01<ref_gen, RealType>(ref_gen(gen));
williamr@2	303	// I could have used std::generate_n, but it takes "gen" by value
williamr@2	304	for(unsigned int j = 0; j < long_lag; ++j)
williamr@2	305	x[j] = gen01();
williamr@2	306	i = long_lag;
williamr@2	307	}
williamr@2	308
williamr@2	309	template<class It>
williamr@2	310	void seed(It& first, It last)
williamr@2	311	{
williamr@2	312	#ifndef BOOST_NO_STDC_NAMESPACE
williamr@2	313	// allow for Koenig lookup
williamr@2	314	using std::fmod;
williamr@2	315	using std::pow;
williamr@2	316	#endif
williamr@2	317	unsigned long mask = ~((~0u) << (w%32)); // now lowest w bits set
williamr@2	318	RealType two32 = pow(RealType(2), 32);
williamr@2	319	unsigned int j;
williamr@2	320	for(j = 0; j < long_lag && first != last; ++j, ++first) {
williamr@2	321	x[j] = RealType(0);
williamr@2	322	for(int i = 0; i < w/32 && first != last; ++i, ++first)
williamr@2	323	x[j] += *first / pow(two32,i+1);
williamr@2	324	if(first != last && mask != 0)
williamr@2	325	x[j] += fmod((*first & mask) / _modulus, RealType(1));
williamr@2	326	}
williamr@2	327	i = long_lag;
williamr@2	328	if(first == last && j < long_lag)
williamr@2	329	throw std::invalid_argument("lagged_fibonacci_01::seed");
williamr@2	330	}
williamr@2	331
williamr@2	332	result_type min BOOST_PREVENT_MACRO_SUBSTITUTION () const { return result_type(0); }
williamr@2	333	result_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const { return result_type(1); }
williamr@2	334
williamr@2	335	result_type operator()()
williamr@2	336	{
williamr@2	337	if(i >= long_lag)
williamr@2	338	fill();
williamr@2	339	return x[i++];
williamr@2	340	}
williamr@2	341
williamr@2	342	static bool validation(result_type x)
williamr@2	343	{
williamr@2	344	result_type v = fibonacci_validation<result_type, p, q>::value();
williamr@2	345	result_type epsilon = fibonacci_validation<result_type, p, q>::tolerance();
williamr@2	346	// std::abs is a source of trouble: sometimes, it's not overloaded
williamr@2	347	// for double, plus the usual namespace std noncompliance -> avoid it
williamr@2	348	// using std::abs;
williamr@2	349	// return abs(x - v) < 5 * epsilon
williamr@2	350	return x > v - epsilon && x < v + epsilon;
williamr@2	351	}
williamr@2	352
williamr@2	353	#ifndef BOOST_NO_OPERATORS_IN_NAMESPACE
williamr@2	354
williamr@2	355	#ifndef BOOST_NO_MEMBER_TEMPLATE_FRIENDS
williamr@2	356	template<class CharT, class Traits>
williamr@2	357	friend std::basic_ostream<CharT,Traits>&
williamr@2	358	operator<<(std::basic_ostream<CharT,Traits>& os, const lagged_fibonacci_01&f)
williamr@2	359	{
williamr@2	360	#ifndef BOOST_NO_STDC_NAMESPACE
williamr@2	361	// allow for Koenig lookup
williamr@2	362	using std::pow;
williamr@2	363	#endif
williamr@2	364	os << f.i << " ";
williamr@2	365	std::ios_base::fmtflags oldflags = os.flags(os.dec \| os.fixed \| os.left);
williamr@2	366	for(unsigned int i = 0; i < f.long_lag; ++i)
williamr@2	367	os << f.x[i] * f._modulus << " ";
williamr@2	368	os.flags(oldflags);
williamr@2	369	return os;
williamr@2	370	}
williamr@2	371
williamr@2	372	template<class CharT, class Traits>
williamr@2	373	friend std::basic_istream<CharT, Traits>&
williamr@2	374	operator>>(std::basic_istream<CharT, Traits>& is, lagged_fibonacci_01& f)
williamr@2	375	{
williamr@2	376	# ifdef BOOST_RANDOM_EXTRACT_LF
williamr@2	377	return detail::extract_lagged_fibonacci_01(is, f, f.i, f.x, f._modulus);
williamr@2	378	# else
williamr@2	379	is >> f.i >> std::ws;
williamr@2	380	for(unsigned int i = 0; i < f.long_lag; ++i) {
williamr@2	381	typename lagged_fibonacci_01::result_type value;
williamr@2	382	is >> value >> std::ws;
williamr@2	383	f.x[i] = value / f._modulus;
williamr@2	384	}
williamr@2	385	return is;
williamr@2	386	# endif
williamr@2	387	}
williamr@2	388	#endif
williamr@2	389
williamr@2	390	friend bool operator==(const lagged_fibonacci_01& x,
williamr@2	391	const lagged_fibonacci_01& y)
williamr@2	392	{ return x.i == y.i && std::equal(x.x, x.x+long_lag, y.x); }
williamr@2	393	friend bool operator!=(const lagged_fibonacci_01& x,
williamr@2	394	const lagged_fibonacci_01& y)
williamr@2	395	{ return !(x == y); }
williamr@2	396	#else
williamr@2	397	// Use a member function; Streamable concept not supported.
williamr@2	398	bool operator==(const lagged_fibonacci_01& rhs) const
williamr@2	399	{ return i == rhs.i && std::equal(x, x+long_lag, rhs.x); }
williamr@2	400	bool operator!=(const lagged_fibonacci_01& rhs) const
williamr@2	401	{ return !(*this == rhs); }
williamr@2	402	#endif
williamr@2	403
williamr@2	404	private:
williamr@2	405	void fill();
williamr@2	406	unsigned int i;
williamr@2	407	RealType x[long_lag];
williamr@2	408	RealType _modulus;
williamr@2	409	};
williamr@2	410
williamr@2	411	#ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION
williamr@2	412	// A definition is required even for integral static constants
williamr@2	413	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	414	const bool lagged_fibonacci_01<RealType, w, p, q>::has_fixed_range;
williamr@2	415	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	416	const unsigned int lagged_fibonacci_01<RealType, w, p, q>::long_lag;
williamr@2	417	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	418	const unsigned int lagged_fibonacci_01<RealType, w, p, q>::short_lag;
williamr@2	419	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	420	const int lagged_fibonacci_01<RealType,w,p,q>::word_size;
williamr@2	421
williamr@2	422	#endif
williamr@2	423
williamr@2	424	template<class RealType, int w, unsigned int p, unsigned int q>
williamr@2	425	void lagged_fibonacci_01<RealType, w, p, q>::fill()
williamr@2	426	{
williamr@2	427	// two loops to avoid costly modulo operations
williamr@2	428	{ // extra scope for MSVC brokenness w.r.t. for scope
williamr@2	429	for(unsigned int j = 0; j < short_lag; ++j) {
williamr@2	430	RealType t = x[j] + x[j+(long_lag-short_lag)];
williamr@2	431	if(t >= RealType(1))
williamr@2	432	t -= RealType(1);
williamr@2	433	x[j] = t;
williamr@2	434	}
williamr@2	435	}
williamr@2	436	for(unsigned int j = short_lag; j < long_lag; ++j) {
williamr@2	437	RealType t = x[j] + x[j-short_lag];
williamr@2	438	if(t >= RealType(1))
williamr@2	439	t -= RealType(1);
williamr@2	440	x[j] = t;
williamr@2	441	}
williamr@2	442	i = 0;
williamr@2	443	}
williamr@2	444
williamr@2	445	} // namespace random
williamr@2	446
williamr@2	447	typedef random::lagged_fibonacci_01<double, 48, 607, 273> lagged_fibonacci607;
williamr@2	448	typedef random::lagged_fibonacci_01<double, 48, 1279, 418> lagged_fibonacci1279;
williamr@2	449	typedef random::lagged_fibonacci_01<double, 48, 2281, 1252> lagged_fibonacci2281;
williamr@2	450	typedef random::lagged_fibonacci_01<double, 48, 3217, 576> lagged_fibonacci3217;
williamr@2	451	typedef random::lagged_fibonacci_01<double, 48, 4423, 2098> lagged_fibonacci4423;
williamr@2	452	typedef random::lagged_fibonacci_01<double, 48, 9689, 5502> lagged_fibonacci9689;
williamr@2	453	typedef random::lagged_fibonacci_01<double, 48, 19937, 9842> lagged_fibonacci19937;
williamr@2	454	typedef random::lagged_fibonacci_01<double, 48, 23209, 13470> lagged_fibonacci23209;
williamr@2	455	typedef random::lagged_fibonacci_01<double, 48, 44497, 21034> lagged_fibonacci44497;
williamr@2	456
williamr@2	457
williamr@2	458	// It is possible to partially specialize uniform_01<> on lagged_fibonacci_01<>
williamr@2	459	// to help the compiler generate efficient code. For GCC, this seems useless,
williamr@2	460	// because GCC optimizes (x-0)/(1-0) to (x-0). This is good enough for now.
williamr@2	461
williamr@2	462	} // namespace boost
williamr@2	463
williamr@2	464	#endif // BOOST_RANDOM_LAGGED_FIBONACCI_HPP

author	William Roberts <williamr@symbian.org>
	Tue, 16 Mar 2010 16:12:26 +0000
branch	Symbian2
changeset 2	2fe1408b6811
permissions	-rw-r--r--