1*e4b17023SJohn Marino // random number generation -*- C++ -*-
2*e4b17023SJohn Marino
3*e4b17023SJohn Marino // Copyright (C) 2009, 2010 Free Software Foundation, Inc.
4*e4b17023SJohn Marino //
5*e4b17023SJohn Marino // This file is part of the GNU ISO C++ Library. This library is free
6*e4b17023SJohn Marino // software; you can redistribute it and/or modify it under the
7*e4b17023SJohn Marino // terms of the GNU General Public License as published by the
8*e4b17023SJohn Marino // Free Software Foundation; either version 3, or (at your option)
9*e4b17023SJohn Marino // any later version.
10*e4b17023SJohn Marino
11*e4b17023SJohn Marino // This library is distributed in the hope that it will be useful,
12*e4b17023SJohn Marino // but WITHOUT ANY WARRANTY; without even the implied warranty of
13*e4b17023SJohn Marino // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14*e4b17023SJohn Marino // GNU General Public License for more details.
15*e4b17023SJohn Marino
16*e4b17023SJohn Marino // Under Section 7 of GPL version 3, you are granted additional
17*e4b17023SJohn Marino // permissions described in the GCC Runtime Library Exception, version
18*e4b17023SJohn Marino // 3.1, as published by the Free Software Foundation.
19*e4b17023SJohn Marino
20*e4b17023SJohn Marino // You should have received a copy of the GNU General Public License and
21*e4b17023SJohn Marino // a copy of the GCC Runtime Library Exception along with this program;
22*e4b17023SJohn Marino // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
23*e4b17023SJohn Marino // <http://www.gnu.org/licenses/>.
24*e4b17023SJohn Marino
25*e4b17023SJohn Marino /**
26*e4b17023SJohn Marino * @file tr1/random.h
27*e4b17023SJohn Marino * This is an internal header file, included by other library headers.
28*e4b17023SJohn Marino * Do not attempt to use it directly. @headername{tr1/random}
29*e4b17023SJohn Marino */
30*e4b17023SJohn Marino
31*e4b17023SJohn Marino #ifndef _GLIBCXX_TR1_RANDOM_H
32*e4b17023SJohn Marino #define _GLIBCXX_TR1_RANDOM_H 1
33*e4b17023SJohn Marino
34*e4b17023SJohn Marino #pragma GCC system_header
35*e4b17023SJohn Marino
_GLIBCXX_VISIBILITY(default)36*e4b17023SJohn Marino namespace std _GLIBCXX_VISIBILITY(default)
37*e4b17023SJohn Marino {
38*e4b17023SJohn Marino namespace tr1
39*e4b17023SJohn Marino {
40*e4b17023SJohn Marino // [5.1] Random number generation
41*e4b17023SJohn Marino
42*e4b17023SJohn Marino /**
43*e4b17023SJohn Marino * @addtogroup tr1_random Random Number Generation
44*e4b17023SJohn Marino * A facility for generating random numbers on selected distributions.
45*e4b17023SJohn Marino * @{
46*e4b17023SJohn Marino */
47*e4b17023SJohn Marino
48*e4b17023SJohn Marino /*
49*e4b17023SJohn Marino * Implementation-space details.
50*e4b17023SJohn Marino */
51*e4b17023SJohn Marino namespace __detail
52*e4b17023SJohn Marino {
53*e4b17023SJohn Marino _GLIBCXX_BEGIN_NAMESPACE_VERSION
54*e4b17023SJohn Marino
55*e4b17023SJohn Marino template<typename _UIntType, int __w,
56*e4b17023SJohn Marino bool = __w < std::numeric_limits<_UIntType>::digits>
57*e4b17023SJohn Marino struct _Shift
58*e4b17023SJohn Marino { static const _UIntType __value = 0; };
59*e4b17023SJohn Marino
60*e4b17023SJohn Marino template<typename _UIntType, int __w>
61*e4b17023SJohn Marino struct _Shift<_UIntType, __w, true>
62*e4b17023SJohn Marino { static const _UIntType __value = _UIntType(1) << __w; };
63*e4b17023SJohn Marino
64*e4b17023SJohn Marino template<typename _Tp, _Tp __a, _Tp __c, _Tp __m, bool>
65*e4b17023SJohn Marino struct _Mod;
66*e4b17023SJohn Marino
67*e4b17023SJohn Marino // Dispatch based on modulus value to prevent divide-by-zero compile-time
68*e4b17023SJohn Marino // errors when m == 0.
69*e4b17023SJohn Marino template<typename _Tp, _Tp __a, _Tp __c, _Tp __m>
70*e4b17023SJohn Marino inline _Tp
71*e4b17023SJohn Marino __mod(_Tp __x)
72*e4b17023SJohn Marino { return _Mod<_Tp, __a, __c, __m, __m == 0>::__calc(__x); }
73*e4b17023SJohn Marino
74*e4b17023SJohn Marino typedef __gnu_cxx::__conditional_type<(sizeof(unsigned) == 4),
75*e4b17023SJohn Marino unsigned, unsigned long>::__type _UInt32Type;
76*e4b17023SJohn Marino
77*e4b17023SJohn Marino /*
78*e4b17023SJohn Marino * An adaptor class for converting the output of any Generator into
79*e4b17023SJohn Marino * the input for a specific Distribution.
80*e4b17023SJohn Marino */
81*e4b17023SJohn Marino template<typename _Engine, typename _Distribution>
82*e4b17023SJohn Marino struct _Adaptor
83*e4b17023SJohn Marino {
84*e4b17023SJohn Marino typedef typename remove_reference<_Engine>::type _BEngine;
85*e4b17023SJohn Marino typedef typename _BEngine::result_type _Engine_result_type;
86*e4b17023SJohn Marino typedef typename _Distribution::input_type result_type;
87*e4b17023SJohn Marino
88*e4b17023SJohn Marino public:
89*e4b17023SJohn Marino _Adaptor(const _Engine& __g)
90*e4b17023SJohn Marino : _M_g(__g) { }
91*e4b17023SJohn Marino
92*e4b17023SJohn Marino result_type
93*e4b17023SJohn Marino min() const
94*e4b17023SJohn Marino {
95*e4b17023SJohn Marino result_type __return_value;
96*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
97*e4b17023SJohn Marino && is_integral<result_type>::value)
98*e4b17023SJohn Marino __return_value = _M_g.min();
99*e4b17023SJohn Marino else
100*e4b17023SJohn Marino __return_value = result_type(0);
101*e4b17023SJohn Marino return __return_value;
102*e4b17023SJohn Marino }
103*e4b17023SJohn Marino
104*e4b17023SJohn Marino result_type
105*e4b17023SJohn Marino max() const
106*e4b17023SJohn Marino {
107*e4b17023SJohn Marino result_type __return_value;
108*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
109*e4b17023SJohn Marino && is_integral<result_type>::value)
110*e4b17023SJohn Marino __return_value = _M_g.max();
111*e4b17023SJohn Marino else if (!is_integral<result_type>::value)
112*e4b17023SJohn Marino __return_value = result_type(1);
113*e4b17023SJohn Marino else
114*e4b17023SJohn Marino __return_value = std::numeric_limits<result_type>::max() - 1;
115*e4b17023SJohn Marino return __return_value;
116*e4b17023SJohn Marino }
117*e4b17023SJohn Marino
118*e4b17023SJohn Marino /*
119*e4b17023SJohn Marino * Converts a value generated by the adapted random number generator
120*e4b17023SJohn Marino * into a value in the input domain for the dependent random number
121*e4b17023SJohn Marino * distribution.
122*e4b17023SJohn Marino *
123*e4b17023SJohn Marino * Because the type traits are compile time constants only the
124*e4b17023SJohn Marino * appropriate clause of the if statements will actually be emitted
125*e4b17023SJohn Marino * by the compiler.
126*e4b17023SJohn Marino */
127*e4b17023SJohn Marino result_type
128*e4b17023SJohn Marino operator()()
129*e4b17023SJohn Marino {
130*e4b17023SJohn Marino result_type __return_value;
131*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
132*e4b17023SJohn Marino && is_integral<result_type>::value)
133*e4b17023SJohn Marino __return_value = _M_g();
134*e4b17023SJohn Marino else if (!is_integral<_Engine_result_type>::value
135*e4b17023SJohn Marino && !is_integral<result_type>::value)
136*e4b17023SJohn Marino __return_value = result_type(_M_g() - _M_g.min())
137*e4b17023SJohn Marino / result_type(_M_g.max() - _M_g.min());
138*e4b17023SJohn Marino else if (is_integral<_Engine_result_type>::value
139*e4b17023SJohn Marino && !is_integral<result_type>::value)
140*e4b17023SJohn Marino __return_value = result_type(_M_g() - _M_g.min())
141*e4b17023SJohn Marino / result_type(_M_g.max() - _M_g.min() + result_type(1));
142*e4b17023SJohn Marino else
143*e4b17023SJohn Marino __return_value = (((_M_g() - _M_g.min())
144*e4b17023SJohn Marino / (_M_g.max() - _M_g.min()))
145*e4b17023SJohn Marino * std::numeric_limits<result_type>::max());
146*e4b17023SJohn Marino return __return_value;
147*e4b17023SJohn Marino }
148*e4b17023SJohn Marino
149*e4b17023SJohn Marino private:
150*e4b17023SJohn Marino _Engine _M_g;
151*e4b17023SJohn Marino };
152*e4b17023SJohn Marino
153*e4b17023SJohn Marino // Specialization for _Engine*.
154*e4b17023SJohn Marino template<typename _Engine, typename _Distribution>
155*e4b17023SJohn Marino struct _Adaptor<_Engine*, _Distribution>
156*e4b17023SJohn Marino {
157*e4b17023SJohn Marino typedef typename _Engine::result_type _Engine_result_type;
158*e4b17023SJohn Marino typedef typename _Distribution::input_type result_type;
159*e4b17023SJohn Marino
160*e4b17023SJohn Marino public:
161*e4b17023SJohn Marino _Adaptor(_Engine* __g)
162*e4b17023SJohn Marino : _M_g(__g) { }
163*e4b17023SJohn Marino
164*e4b17023SJohn Marino result_type
165*e4b17023SJohn Marino min() const
166*e4b17023SJohn Marino {
167*e4b17023SJohn Marino result_type __return_value;
168*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
169*e4b17023SJohn Marino && is_integral<result_type>::value)
170*e4b17023SJohn Marino __return_value = _M_g->min();
171*e4b17023SJohn Marino else
172*e4b17023SJohn Marino __return_value = result_type(0);
173*e4b17023SJohn Marino return __return_value;
174*e4b17023SJohn Marino }
175*e4b17023SJohn Marino
176*e4b17023SJohn Marino result_type
177*e4b17023SJohn Marino max() const
178*e4b17023SJohn Marino {
179*e4b17023SJohn Marino result_type __return_value;
180*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
181*e4b17023SJohn Marino && is_integral<result_type>::value)
182*e4b17023SJohn Marino __return_value = _M_g->max();
183*e4b17023SJohn Marino else if (!is_integral<result_type>::value)
184*e4b17023SJohn Marino __return_value = result_type(1);
185*e4b17023SJohn Marino else
186*e4b17023SJohn Marino __return_value = std::numeric_limits<result_type>::max() - 1;
187*e4b17023SJohn Marino return __return_value;
188*e4b17023SJohn Marino }
189*e4b17023SJohn Marino
190*e4b17023SJohn Marino result_type
191*e4b17023SJohn Marino operator()()
192*e4b17023SJohn Marino {
193*e4b17023SJohn Marino result_type __return_value;
194*e4b17023SJohn Marino if (is_integral<_Engine_result_type>::value
195*e4b17023SJohn Marino && is_integral<result_type>::value)
196*e4b17023SJohn Marino __return_value = (*_M_g)();
197*e4b17023SJohn Marino else if (!is_integral<_Engine_result_type>::value
198*e4b17023SJohn Marino && !is_integral<result_type>::value)
199*e4b17023SJohn Marino __return_value = result_type((*_M_g)() - _M_g->min())
200*e4b17023SJohn Marino / result_type(_M_g->max() - _M_g->min());
201*e4b17023SJohn Marino else if (is_integral<_Engine_result_type>::value
202*e4b17023SJohn Marino && !is_integral<result_type>::value)
203*e4b17023SJohn Marino __return_value = result_type((*_M_g)() - _M_g->min())
204*e4b17023SJohn Marino / result_type(_M_g->max() - _M_g->min() + result_type(1));
205*e4b17023SJohn Marino else
206*e4b17023SJohn Marino __return_value = ((((*_M_g)() - _M_g->min())
207*e4b17023SJohn Marino / (_M_g->max() - _M_g->min()))
208*e4b17023SJohn Marino * std::numeric_limits<result_type>::max());
209*e4b17023SJohn Marino return __return_value;
210*e4b17023SJohn Marino }
211*e4b17023SJohn Marino
212*e4b17023SJohn Marino private:
213*e4b17023SJohn Marino _Engine* _M_g;
214*e4b17023SJohn Marino };
215*e4b17023SJohn Marino
216*e4b17023SJohn Marino _GLIBCXX_END_NAMESPACE_VERSION
217*e4b17023SJohn Marino } // namespace __detail
218*e4b17023SJohn Marino
219*e4b17023SJohn Marino _GLIBCXX_BEGIN_NAMESPACE_VERSION
220*e4b17023SJohn Marino
221*e4b17023SJohn Marino /**
222*e4b17023SJohn Marino * Produces random numbers on a given distribution function using a
223*e4b17023SJohn Marino * non-uniform random number generation engine.
224*e4b17023SJohn Marino *
225*e4b17023SJohn Marino * @todo the engine_value_type needs to be studied more carefully.
226*e4b17023SJohn Marino */
227*e4b17023SJohn Marino template<typename _Engine, typename _Dist>
228*e4b17023SJohn Marino class variate_generator
229*e4b17023SJohn Marino {
230*e4b17023SJohn Marino // Concept requirements.
231*e4b17023SJohn Marino __glibcxx_class_requires(_Engine, _CopyConstructibleConcept)
232*e4b17023SJohn Marino // __glibcxx_class_requires(_Engine, _EngineConcept)
233*e4b17023SJohn Marino // __glibcxx_class_requires(_Dist, _EngineConcept)
234*e4b17023SJohn Marino
235*e4b17023SJohn Marino public:
236*e4b17023SJohn Marino typedef _Engine engine_type;
237*e4b17023SJohn Marino typedef __detail::_Adaptor<_Engine, _Dist> engine_value_type;
238*e4b17023SJohn Marino typedef _Dist distribution_type;
239*e4b17023SJohn Marino typedef typename _Dist::result_type result_type;
240*e4b17023SJohn Marino
241*e4b17023SJohn Marino // tr1:5.1.1 table 5.1 requirement
242*e4b17023SJohn Marino typedef typename __gnu_cxx::__enable_if<
243*e4b17023SJohn Marino is_arithmetic<result_type>::value, result_type>::__type _IsValidType;
244*e4b17023SJohn Marino
245*e4b17023SJohn Marino /**
246*e4b17023SJohn Marino * Constructs a variate generator with the uniform random number
247*e4b17023SJohn Marino * generator @p __eng for the random distribution @p __dist.
248*e4b17023SJohn Marino *
249*e4b17023SJohn Marino * @throws Any exceptions which may thrown by the copy constructors of
250*e4b17023SJohn Marino * the @p _Engine or @p _Dist objects.
251*e4b17023SJohn Marino */
252*e4b17023SJohn Marino variate_generator(engine_type __eng, distribution_type __dist)
253*e4b17023SJohn Marino : _M_engine(__eng), _M_dist(__dist) { }
254*e4b17023SJohn Marino
255*e4b17023SJohn Marino /**
256*e4b17023SJohn Marino * Gets the next generated value on the distribution.
257*e4b17023SJohn Marino */
258*e4b17023SJohn Marino result_type
259*e4b17023SJohn Marino operator()()
260*e4b17023SJohn Marino { return _M_dist(_M_engine); }
261*e4b17023SJohn Marino
262*e4b17023SJohn Marino /**
263*e4b17023SJohn Marino * WTF?
264*e4b17023SJohn Marino */
265*e4b17023SJohn Marino template<typename _Tp>
266*e4b17023SJohn Marino result_type
267*e4b17023SJohn Marino operator()(_Tp __value)
268*e4b17023SJohn Marino { return _M_dist(_M_engine, __value); }
269*e4b17023SJohn Marino
270*e4b17023SJohn Marino /**
271*e4b17023SJohn Marino * Gets a reference to the underlying uniform random number generator
272*e4b17023SJohn Marino * object.
273*e4b17023SJohn Marino */
274*e4b17023SJohn Marino engine_value_type&
275*e4b17023SJohn Marino engine()
276*e4b17023SJohn Marino { return _M_engine; }
277*e4b17023SJohn Marino
278*e4b17023SJohn Marino /**
279*e4b17023SJohn Marino * Gets a const reference to the underlying uniform random number
280*e4b17023SJohn Marino * generator object.
281*e4b17023SJohn Marino */
282*e4b17023SJohn Marino const engine_value_type&
283*e4b17023SJohn Marino engine() const
284*e4b17023SJohn Marino { return _M_engine; }
285*e4b17023SJohn Marino
286*e4b17023SJohn Marino /**
287*e4b17023SJohn Marino * Gets a reference to the underlying random distribution.
288*e4b17023SJohn Marino */
289*e4b17023SJohn Marino distribution_type&
290*e4b17023SJohn Marino distribution()
291*e4b17023SJohn Marino { return _M_dist; }
292*e4b17023SJohn Marino
293*e4b17023SJohn Marino /**
294*e4b17023SJohn Marino * Gets a const reference to the underlying random distribution.
295*e4b17023SJohn Marino */
296*e4b17023SJohn Marino const distribution_type&
297*e4b17023SJohn Marino distribution() const
298*e4b17023SJohn Marino { return _M_dist; }
299*e4b17023SJohn Marino
300*e4b17023SJohn Marino /**
301*e4b17023SJohn Marino * Gets the closed lower bound of the distribution interval.
302*e4b17023SJohn Marino */
303*e4b17023SJohn Marino result_type
304*e4b17023SJohn Marino min() const
305*e4b17023SJohn Marino { return this->distribution().min(); }
306*e4b17023SJohn Marino
307*e4b17023SJohn Marino /**
308*e4b17023SJohn Marino * Gets the closed upper bound of the distribution interval.
309*e4b17023SJohn Marino */
310*e4b17023SJohn Marino result_type
311*e4b17023SJohn Marino max() const
312*e4b17023SJohn Marino { return this->distribution().max(); }
313*e4b17023SJohn Marino
314*e4b17023SJohn Marino private:
315*e4b17023SJohn Marino engine_value_type _M_engine;
316*e4b17023SJohn Marino distribution_type _M_dist;
317*e4b17023SJohn Marino };
318*e4b17023SJohn Marino
319*e4b17023SJohn Marino
320*e4b17023SJohn Marino /**
321*e4b17023SJohn Marino * @addtogroup tr1_random_generators Random Number Generators
322*e4b17023SJohn Marino * @ingroup tr1_random
323*e4b17023SJohn Marino *
324*e4b17023SJohn Marino * These classes define objects which provide random or pseudorandom
325*e4b17023SJohn Marino * numbers, either from a discrete or a continuous interval. The
326*e4b17023SJohn Marino * random number generator supplied as a part of this library are
327*e4b17023SJohn Marino * all uniform random number generators which provide a sequence of
328*e4b17023SJohn Marino * random number uniformly distributed over their range.
329*e4b17023SJohn Marino *
330*e4b17023SJohn Marino * A number generator is a function object with an operator() that
331*e4b17023SJohn Marino * takes zero arguments and returns a number.
332*e4b17023SJohn Marino *
333*e4b17023SJohn Marino * A compliant random number generator must satisfy the following
334*e4b17023SJohn Marino * requirements. <table border=1 cellpadding=10 cellspacing=0>
335*e4b17023SJohn Marino * <caption align=top>Random Number Generator Requirements</caption>
336*e4b17023SJohn Marino * <tr><td>To be documented.</td></tr> </table>
337*e4b17023SJohn Marino *
338*e4b17023SJohn Marino * @{
339*e4b17023SJohn Marino */
340*e4b17023SJohn Marino
341*e4b17023SJohn Marino /**
342*e4b17023SJohn Marino * @brief A model of a linear congruential random number generator.
343*e4b17023SJohn Marino *
344*e4b17023SJohn Marino * A random number generator that produces pseudorandom numbers using the
345*e4b17023SJohn Marino * linear function @f$x_{i+1}\leftarrow(ax_{i} + c) \bmod m @f$.
346*e4b17023SJohn Marino *
347*e4b17023SJohn Marino * The template parameter @p _UIntType must be an unsigned integral type
348*e4b17023SJohn Marino * large enough to store values up to (__m-1). If the template parameter
349*e4b17023SJohn Marino * @p __m is 0, the modulus @p __m used is
350*e4b17023SJohn Marino * std::numeric_limits<_UIntType>::max() plus 1. Otherwise, the template
351*e4b17023SJohn Marino * parameters @p __a and @p __c must be less than @p __m.
352*e4b17023SJohn Marino *
353*e4b17023SJohn Marino * The size of the state is @f$ 1 @f$.
354*e4b17023SJohn Marino */
355*e4b17023SJohn Marino template<class _UIntType, _UIntType __a, _UIntType __c, _UIntType __m>
356*e4b17023SJohn Marino class linear_congruential
357*e4b17023SJohn Marino {
358*e4b17023SJohn Marino __glibcxx_class_requires(_UIntType, _UnsignedIntegerConcept)
359*e4b17023SJohn Marino // __glibcpp_class_requires(__a < __m && __c < __m)
360*e4b17023SJohn Marino
361*e4b17023SJohn Marino public:
362*e4b17023SJohn Marino /** The type of the generated random value. */
363*e4b17023SJohn Marino typedef _UIntType result_type;
364*e4b17023SJohn Marino
365*e4b17023SJohn Marino /** The multiplier. */
366*e4b17023SJohn Marino static const _UIntType multiplier = __a;
367*e4b17023SJohn Marino /** An increment. */
368*e4b17023SJohn Marino static const _UIntType increment = __c;
369*e4b17023SJohn Marino /** The modulus. */
370*e4b17023SJohn Marino static const _UIntType modulus = __m;
371*e4b17023SJohn Marino
372*e4b17023SJohn Marino /**
373*e4b17023SJohn Marino * Constructs a %linear_congruential random number generator engine with
374*e4b17023SJohn Marino * seed @p __s. The default seed value is 1.
375*e4b17023SJohn Marino *
376*e4b17023SJohn Marino * @param __s The initial seed value.
377*e4b17023SJohn Marino */
378*e4b17023SJohn Marino explicit
379*e4b17023SJohn Marino linear_congruential(unsigned long __x0 = 1)
380*e4b17023SJohn Marino { this->seed(__x0); }
381*e4b17023SJohn Marino
382*e4b17023SJohn Marino /**
383*e4b17023SJohn Marino * Constructs a %linear_congruential random number generator engine
384*e4b17023SJohn Marino * seeded from the generator function @p __g.
385*e4b17023SJohn Marino *
386*e4b17023SJohn Marino * @param __g The seed generator function.
387*e4b17023SJohn Marino */
388*e4b17023SJohn Marino template<class _Gen>
389*e4b17023SJohn Marino linear_congruential(_Gen& __g)
390*e4b17023SJohn Marino { this->seed(__g); }
391*e4b17023SJohn Marino
392*e4b17023SJohn Marino /**
393*e4b17023SJohn Marino * Reseeds the %linear_congruential random number generator engine
394*e4b17023SJohn Marino * sequence to the seed @g __s.
395*e4b17023SJohn Marino *
396*e4b17023SJohn Marino * @param __s The new seed.
397*e4b17023SJohn Marino */
398*e4b17023SJohn Marino void
399*e4b17023SJohn Marino seed(unsigned long __s = 1);
400*e4b17023SJohn Marino
401*e4b17023SJohn Marino /**
402*e4b17023SJohn Marino * Reseeds the %linear_congruential random number generator engine
403*e4b17023SJohn Marino * sequence using values from the generator function @p __g.
404*e4b17023SJohn Marino *
405*e4b17023SJohn Marino * @param __g the seed generator function.
406*e4b17023SJohn Marino */
407*e4b17023SJohn Marino template<class _Gen>
408*e4b17023SJohn Marino void
409*e4b17023SJohn Marino seed(_Gen& __g)
410*e4b17023SJohn Marino { seed(__g, typename is_fundamental<_Gen>::type()); }
411*e4b17023SJohn Marino
412*e4b17023SJohn Marino /**
413*e4b17023SJohn Marino * Gets the smallest possible value in the output range.
414*e4b17023SJohn Marino *
415*e4b17023SJohn Marino * The minimum depends on the @p __c parameter: if it is zero, the
416*e4b17023SJohn Marino * minimum generated must be > 0, otherwise 0 is allowed.
417*e4b17023SJohn Marino */
418*e4b17023SJohn Marino result_type
419*e4b17023SJohn Marino min() const
420*e4b17023SJohn Marino { return (__detail::__mod<_UIntType, 1, 0, __m>(__c) == 0) ? 1 : 0; }
421*e4b17023SJohn Marino
422*e4b17023SJohn Marino /**
423*e4b17023SJohn Marino * Gets the largest possible value in the output range.
424*e4b17023SJohn Marino */
425*e4b17023SJohn Marino result_type
426*e4b17023SJohn Marino max() const
427*e4b17023SJohn Marino { return __m - 1; }
428*e4b17023SJohn Marino
429*e4b17023SJohn Marino /**
430*e4b17023SJohn Marino * Gets the next random number in the sequence.
431*e4b17023SJohn Marino */
432*e4b17023SJohn Marino result_type
433*e4b17023SJohn Marino operator()();
434*e4b17023SJohn Marino
435*e4b17023SJohn Marino /**
436*e4b17023SJohn Marino * Compares two linear congruential random number generator
437*e4b17023SJohn Marino * objects of the same type for equality.
438*e4b17023SJohn Marino *
439*e4b17023SJohn Marino * @param __lhs A linear congruential random number generator object.
440*e4b17023SJohn Marino * @param __rhs Another linear congruential random number generator obj.
441*e4b17023SJohn Marino *
442*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
443*e4b17023SJohn Marino */
444*e4b17023SJohn Marino friend bool
445*e4b17023SJohn Marino operator==(const linear_congruential& __lhs,
446*e4b17023SJohn Marino const linear_congruential& __rhs)
447*e4b17023SJohn Marino { return __lhs._M_x == __rhs._M_x; }
448*e4b17023SJohn Marino
449*e4b17023SJohn Marino /**
450*e4b17023SJohn Marino * Compares two linear congruential random number generator
451*e4b17023SJohn Marino * objects of the same type for inequality.
452*e4b17023SJohn Marino *
453*e4b17023SJohn Marino * @param __lhs A linear congruential random number generator object.
454*e4b17023SJohn Marino * @param __rhs Another linear congruential random number generator obj.
455*e4b17023SJohn Marino *
456*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
457*e4b17023SJohn Marino */
458*e4b17023SJohn Marino friend bool
459*e4b17023SJohn Marino operator!=(const linear_congruential& __lhs,
460*e4b17023SJohn Marino const linear_congruential& __rhs)
461*e4b17023SJohn Marino { return !(__lhs == __rhs); }
462*e4b17023SJohn Marino
463*e4b17023SJohn Marino /**
464*e4b17023SJohn Marino * Writes the textual representation of the state x(i) of x to @p __os.
465*e4b17023SJohn Marino *
466*e4b17023SJohn Marino * @param __os The output stream.
467*e4b17023SJohn Marino * @param __lcr A % linear_congruential random number generator.
468*e4b17023SJohn Marino * @returns __os.
469*e4b17023SJohn Marino */
470*e4b17023SJohn Marino template<class _UIntType1, _UIntType1 __a1, _UIntType1 __c1,
471*e4b17023SJohn Marino _UIntType1 __m1,
472*e4b17023SJohn Marino typename _CharT, typename _Traits>
473*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
474*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
475*e4b17023SJohn Marino const linear_congruential<_UIntType1, __a1, __c1,
476*e4b17023SJohn Marino __m1>& __lcr);
477*e4b17023SJohn Marino
478*e4b17023SJohn Marino /**
479*e4b17023SJohn Marino * Sets the state of the engine by reading its textual
480*e4b17023SJohn Marino * representation from @p __is.
481*e4b17023SJohn Marino *
482*e4b17023SJohn Marino * The textual representation must have been previously written using an
483*e4b17023SJohn Marino * output stream whose imbued locale and whose type's template
484*e4b17023SJohn Marino * specialization arguments _CharT and _Traits were the same as those of
485*e4b17023SJohn Marino * @p __is.
486*e4b17023SJohn Marino *
487*e4b17023SJohn Marino * @param __is The input stream.
488*e4b17023SJohn Marino * @param __lcr A % linear_congruential random number generator.
489*e4b17023SJohn Marino * @returns __is.
490*e4b17023SJohn Marino */
491*e4b17023SJohn Marino template<class _UIntType1, _UIntType1 __a1, _UIntType1 __c1,
492*e4b17023SJohn Marino _UIntType1 __m1,
493*e4b17023SJohn Marino typename _CharT, typename _Traits>
494*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
495*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
496*e4b17023SJohn Marino linear_congruential<_UIntType1, __a1, __c1, __m1>& __lcr);
497*e4b17023SJohn Marino
498*e4b17023SJohn Marino private:
499*e4b17023SJohn Marino template<class _Gen>
500*e4b17023SJohn Marino void
501*e4b17023SJohn Marino seed(_Gen& __g, true_type)
502*e4b17023SJohn Marino { return seed(static_cast<unsigned long>(__g)); }
503*e4b17023SJohn Marino
504*e4b17023SJohn Marino template<class _Gen>
505*e4b17023SJohn Marino void
506*e4b17023SJohn Marino seed(_Gen& __g, false_type);
507*e4b17023SJohn Marino
508*e4b17023SJohn Marino _UIntType _M_x;
509*e4b17023SJohn Marino };
510*e4b17023SJohn Marino
511*e4b17023SJohn Marino /**
512*e4b17023SJohn Marino * The classic Minimum Standard rand0 of Lewis, Goodman, and Miller.
513*e4b17023SJohn Marino */
514*e4b17023SJohn Marino typedef linear_congruential<unsigned long, 16807, 0, 2147483647> minstd_rand0;
515*e4b17023SJohn Marino
516*e4b17023SJohn Marino /**
517*e4b17023SJohn Marino * An alternative LCR (Lehmer Generator function) .
518*e4b17023SJohn Marino */
519*e4b17023SJohn Marino typedef linear_congruential<unsigned long, 48271, 0, 2147483647> minstd_rand;
520*e4b17023SJohn Marino
521*e4b17023SJohn Marino
522*e4b17023SJohn Marino /**
523*e4b17023SJohn Marino * A generalized feedback shift register discrete random number generator.
524*e4b17023SJohn Marino *
525*e4b17023SJohn Marino * This algorithm avoids multiplication and division and is designed to be
526*e4b17023SJohn Marino * friendly to a pipelined architecture. If the parameters are chosen
527*e4b17023SJohn Marino * correctly, this generator will produce numbers with a very long period and
528*e4b17023SJohn Marino * fairly good apparent entropy, although still not cryptographically strong.
529*e4b17023SJohn Marino *
530*e4b17023SJohn Marino * The best way to use this generator is with the predefined mt19937 class.
531*e4b17023SJohn Marino *
532*e4b17023SJohn Marino * This algorithm was originally invented by Makoto Matsumoto and
533*e4b17023SJohn Marino * Takuji Nishimura.
534*e4b17023SJohn Marino *
535*e4b17023SJohn Marino * @var word_size The number of bits in each element of the state vector.
536*e4b17023SJohn Marino * @var state_size The degree of recursion.
537*e4b17023SJohn Marino * @var shift_size The period parameter.
538*e4b17023SJohn Marino * @var mask_bits The separation point bit index.
539*e4b17023SJohn Marino * @var parameter_a The last row of the twist matrix.
540*e4b17023SJohn Marino * @var output_u The first right-shift tempering matrix parameter.
541*e4b17023SJohn Marino * @var output_s The first left-shift tempering matrix parameter.
542*e4b17023SJohn Marino * @var output_b The first left-shift tempering matrix mask.
543*e4b17023SJohn Marino * @var output_t The second left-shift tempering matrix parameter.
544*e4b17023SJohn Marino * @var output_c The second left-shift tempering matrix mask.
545*e4b17023SJohn Marino * @var output_l The second right-shift tempering matrix parameter.
546*e4b17023SJohn Marino */
547*e4b17023SJohn Marino template<class _UIntType, int __w, int __n, int __m, int __r,
548*e4b17023SJohn Marino _UIntType __a, int __u, int __s, _UIntType __b, int __t,
549*e4b17023SJohn Marino _UIntType __c, int __l>
550*e4b17023SJohn Marino class mersenne_twister
551*e4b17023SJohn Marino {
552*e4b17023SJohn Marino __glibcxx_class_requires(_UIntType, _UnsignedIntegerConcept)
553*e4b17023SJohn Marino
554*e4b17023SJohn Marino public:
555*e4b17023SJohn Marino // types
556*e4b17023SJohn Marino typedef _UIntType result_type;
557*e4b17023SJohn Marino
558*e4b17023SJohn Marino // parameter values
559*e4b17023SJohn Marino static const int word_size = __w;
560*e4b17023SJohn Marino static const int state_size = __n;
561*e4b17023SJohn Marino static const int shift_size = __m;
562*e4b17023SJohn Marino static const int mask_bits = __r;
563*e4b17023SJohn Marino static const _UIntType parameter_a = __a;
564*e4b17023SJohn Marino static const int output_u = __u;
565*e4b17023SJohn Marino static const int output_s = __s;
566*e4b17023SJohn Marino static const _UIntType output_b = __b;
567*e4b17023SJohn Marino static const int output_t = __t;
568*e4b17023SJohn Marino static const _UIntType output_c = __c;
569*e4b17023SJohn Marino static const int output_l = __l;
570*e4b17023SJohn Marino
571*e4b17023SJohn Marino // constructors and member function
572*e4b17023SJohn Marino mersenne_twister()
573*e4b17023SJohn Marino { seed(); }
574*e4b17023SJohn Marino
575*e4b17023SJohn Marino explicit
576*e4b17023SJohn Marino mersenne_twister(unsigned long __value)
577*e4b17023SJohn Marino { seed(__value); }
578*e4b17023SJohn Marino
579*e4b17023SJohn Marino template<class _Gen>
580*e4b17023SJohn Marino mersenne_twister(_Gen& __g)
581*e4b17023SJohn Marino { seed(__g); }
582*e4b17023SJohn Marino
583*e4b17023SJohn Marino void
584*e4b17023SJohn Marino seed()
585*e4b17023SJohn Marino { seed(5489UL); }
586*e4b17023SJohn Marino
587*e4b17023SJohn Marino void
588*e4b17023SJohn Marino seed(unsigned long __value);
589*e4b17023SJohn Marino
590*e4b17023SJohn Marino template<class _Gen>
591*e4b17023SJohn Marino void
592*e4b17023SJohn Marino seed(_Gen& __g)
593*e4b17023SJohn Marino { seed(__g, typename is_fundamental<_Gen>::type()); }
594*e4b17023SJohn Marino
595*e4b17023SJohn Marino result_type
596*e4b17023SJohn Marino min() const
597*e4b17023SJohn Marino { return 0; };
598*e4b17023SJohn Marino
599*e4b17023SJohn Marino result_type
600*e4b17023SJohn Marino max() const
601*e4b17023SJohn Marino { return __detail::_Shift<_UIntType, __w>::__value - 1; }
602*e4b17023SJohn Marino
603*e4b17023SJohn Marino result_type
604*e4b17023SJohn Marino operator()();
605*e4b17023SJohn Marino
606*e4b17023SJohn Marino /**
607*e4b17023SJohn Marino * Compares two % mersenne_twister random number generator objects of
608*e4b17023SJohn Marino * the same type for equality.
609*e4b17023SJohn Marino *
610*e4b17023SJohn Marino * @param __lhs A % mersenne_twister random number generator object.
611*e4b17023SJohn Marino * @param __rhs Another % mersenne_twister random number generator
612*e4b17023SJohn Marino * object.
613*e4b17023SJohn Marino *
614*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
615*e4b17023SJohn Marino */
616*e4b17023SJohn Marino friend bool
617*e4b17023SJohn Marino operator==(const mersenne_twister& __lhs,
618*e4b17023SJohn Marino const mersenne_twister& __rhs)
619*e4b17023SJohn Marino { return std::equal(__lhs._M_x, __lhs._M_x + state_size, __rhs._M_x); }
620*e4b17023SJohn Marino
621*e4b17023SJohn Marino /**
622*e4b17023SJohn Marino * Compares two % mersenne_twister random number generator objects of
623*e4b17023SJohn Marino * the same type for inequality.
624*e4b17023SJohn Marino *
625*e4b17023SJohn Marino * @param __lhs A % mersenne_twister random number generator object.
626*e4b17023SJohn Marino * @param __rhs Another % mersenne_twister random number generator
627*e4b17023SJohn Marino * object.
628*e4b17023SJohn Marino *
629*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
630*e4b17023SJohn Marino */
631*e4b17023SJohn Marino friend bool
632*e4b17023SJohn Marino operator!=(const mersenne_twister& __lhs,
633*e4b17023SJohn Marino const mersenne_twister& __rhs)
634*e4b17023SJohn Marino { return !(__lhs == __rhs); }
635*e4b17023SJohn Marino
636*e4b17023SJohn Marino /**
637*e4b17023SJohn Marino * Inserts the current state of a % mersenne_twister random number
638*e4b17023SJohn Marino * generator engine @p __x into the output stream @p __os.
639*e4b17023SJohn Marino *
640*e4b17023SJohn Marino * @param __os An output stream.
641*e4b17023SJohn Marino * @param __x A % mersenne_twister random number generator engine.
642*e4b17023SJohn Marino *
643*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
644*e4b17023SJohn Marino * an error state.
645*e4b17023SJohn Marino */
646*e4b17023SJohn Marino template<class _UIntType1, int __w1, int __n1, int __m1, int __r1,
647*e4b17023SJohn Marino _UIntType1 __a1, int __u1, int __s1, _UIntType1 __b1, int __t1,
648*e4b17023SJohn Marino _UIntType1 __c1, int __l1,
649*e4b17023SJohn Marino typename _CharT, typename _Traits>
650*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
651*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
652*e4b17023SJohn Marino const mersenne_twister<_UIntType1, __w1, __n1, __m1, __r1,
653*e4b17023SJohn Marino __a1, __u1, __s1, __b1, __t1, __c1, __l1>& __x);
654*e4b17023SJohn Marino
655*e4b17023SJohn Marino /**
656*e4b17023SJohn Marino * Extracts the current state of a % mersenne_twister random number
657*e4b17023SJohn Marino * generator engine @p __x from the input stream @p __is.
658*e4b17023SJohn Marino *
659*e4b17023SJohn Marino * @param __is An input stream.
660*e4b17023SJohn Marino * @param __x A % mersenne_twister random number generator engine.
661*e4b17023SJohn Marino *
662*e4b17023SJohn Marino * @returns The input stream with the state of @p __x extracted or in
663*e4b17023SJohn Marino * an error state.
664*e4b17023SJohn Marino */
665*e4b17023SJohn Marino template<class _UIntType1, int __w1, int __n1, int __m1, int __r1,
666*e4b17023SJohn Marino _UIntType1 __a1, int __u1, int __s1, _UIntType1 __b1, int __t1,
667*e4b17023SJohn Marino _UIntType1 __c1, int __l1,
668*e4b17023SJohn Marino typename _CharT, typename _Traits>
669*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
670*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
671*e4b17023SJohn Marino mersenne_twister<_UIntType1, __w1, __n1, __m1, __r1,
672*e4b17023SJohn Marino __a1, __u1, __s1, __b1, __t1, __c1, __l1>& __x);
673*e4b17023SJohn Marino
674*e4b17023SJohn Marino private:
675*e4b17023SJohn Marino template<class _Gen>
676*e4b17023SJohn Marino void
677*e4b17023SJohn Marino seed(_Gen& __g, true_type)
678*e4b17023SJohn Marino { return seed(static_cast<unsigned long>(__g)); }
679*e4b17023SJohn Marino
680*e4b17023SJohn Marino template<class _Gen>
681*e4b17023SJohn Marino void
682*e4b17023SJohn Marino seed(_Gen& __g, false_type);
683*e4b17023SJohn Marino
684*e4b17023SJohn Marino _UIntType _M_x[state_size];
685*e4b17023SJohn Marino int _M_p;
686*e4b17023SJohn Marino };
687*e4b17023SJohn Marino
688*e4b17023SJohn Marino /**
689*e4b17023SJohn Marino * The classic Mersenne Twister.
690*e4b17023SJohn Marino *
691*e4b17023SJohn Marino * Reference:
692*e4b17023SJohn Marino * M. Matsumoto and T. Nishimura, Mersenne Twister: A 623-Dimensionally
693*e4b17023SJohn Marino * Equidistributed Uniform Pseudo-Random Number Generator, ACM Transactions
694*e4b17023SJohn Marino * on Modeling and Computer Simulation, Vol. 8, No. 1, January 1998, pp 3-30.
695*e4b17023SJohn Marino */
696*e4b17023SJohn Marino typedef mersenne_twister<
697*e4b17023SJohn Marino unsigned long, 32, 624, 397, 31,
698*e4b17023SJohn Marino 0x9908b0dful, 11, 7,
699*e4b17023SJohn Marino 0x9d2c5680ul, 15,
700*e4b17023SJohn Marino 0xefc60000ul, 18
701*e4b17023SJohn Marino > mt19937;
702*e4b17023SJohn Marino
703*e4b17023SJohn Marino
704*e4b17023SJohn Marino /**
705*e4b17023SJohn Marino * @brief The Marsaglia-Zaman generator.
706*e4b17023SJohn Marino *
707*e4b17023SJohn Marino * This is a model of a Generalized Fibonacci discrete random number
708*e4b17023SJohn Marino * generator, sometimes referred to as the SWC generator.
709*e4b17023SJohn Marino *
710*e4b17023SJohn Marino * A discrete random number generator that produces pseudorandom
711*e4b17023SJohn Marino * numbers using @f$x_{i}\leftarrow(x_{i - s} - x_{i - r} -
712*e4b17023SJohn Marino * carry_{i-1}) \bmod m @f$.
713*e4b17023SJohn Marino *
714*e4b17023SJohn Marino * The size of the state is @f$ r @f$
715*e4b17023SJohn Marino * and the maximum period of the generator is @f$ m^r - m^s -1 @f$.
716*e4b17023SJohn Marino *
717*e4b17023SJohn Marino * N1688[4.13] says <em>the template parameter _IntType shall denote
718*e4b17023SJohn Marino * an integral type large enough to store values up to m</em>.
719*e4b17023SJohn Marino *
720*e4b17023SJohn Marino * @var _M_x The state of the generator. This is a ring buffer.
721*e4b17023SJohn Marino * @var _M_carry The carry.
722*e4b17023SJohn Marino * @var _M_p Current index of x(i - r).
723*e4b17023SJohn Marino */
724*e4b17023SJohn Marino template<typename _IntType, _IntType __m, int __s, int __r>
725*e4b17023SJohn Marino class subtract_with_carry
726*e4b17023SJohn Marino {
727*e4b17023SJohn Marino __glibcxx_class_requires(_IntType, _IntegerConcept)
728*e4b17023SJohn Marino
729*e4b17023SJohn Marino public:
730*e4b17023SJohn Marino /** The type of the generated random value. */
731*e4b17023SJohn Marino typedef _IntType result_type;
732*e4b17023SJohn Marino
733*e4b17023SJohn Marino // parameter values
734*e4b17023SJohn Marino static const _IntType modulus = __m;
735*e4b17023SJohn Marino static const int long_lag = __r;
736*e4b17023SJohn Marino static const int short_lag = __s;
737*e4b17023SJohn Marino
738*e4b17023SJohn Marino /**
739*e4b17023SJohn Marino * Constructs a default-initialized % subtract_with_carry random number
740*e4b17023SJohn Marino * generator.
741*e4b17023SJohn Marino */
742*e4b17023SJohn Marino subtract_with_carry()
743*e4b17023SJohn Marino { this->seed(); }
744*e4b17023SJohn Marino
745*e4b17023SJohn Marino /**
746*e4b17023SJohn Marino * Constructs an explicitly seeded % subtract_with_carry random number
747*e4b17023SJohn Marino * generator.
748*e4b17023SJohn Marino */
749*e4b17023SJohn Marino explicit
750*e4b17023SJohn Marino subtract_with_carry(unsigned long __value)
751*e4b17023SJohn Marino { this->seed(__value); }
752*e4b17023SJohn Marino
753*e4b17023SJohn Marino /**
754*e4b17023SJohn Marino * Constructs a %subtract_with_carry random number generator engine
755*e4b17023SJohn Marino * seeded from the generator function @p __g.
756*e4b17023SJohn Marino *
757*e4b17023SJohn Marino * @param __g The seed generator function.
758*e4b17023SJohn Marino */
759*e4b17023SJohn Marino template<class _Gen>
760*e4b17023SJohn Marino subtract_with_carry(_Gen& __g)
761*e4b17023SJohn Marino { this->seed(__g); }
762*e4b17023SJohn Marino
763*e4b17023SJohn Marino /**
764*e4b17023SJohn Marino * Seeds the initial state @f$ x_0 @f$ of the random number generator.
765*e4b17023SJohn Marino *
766*e4b17023SJohn Marino * N1688[4.19] modifies this as follows. If @p __value == 0,
767*e4b17023SJohn Marino * sets value to 19780503. In any case, with a linear
768*e4b17023SJohn Marino * congruential generator lcg(i) having parameters @f$ m_{lcg} =
769*e4b17023SJohn Marino * 2147483563, a_{lcg} = 40014, c_{lcg} = 0, and lcg(0) = value
770*e4b17023SJohn Marino * @f$, sets @f$ x_{-r} \dots x_{-1} @f$ to @f$ lcg(1) \bmod m
771*e4b17023SJohn Marino * \dots lcg(r) \bmod m @f$ respectively. If @f$ x_{-1} = 0 @f$
772*e4b17023SJohn Marino * set carry to 1, otherwise sets carry to 0.
773*e4b17023SJohn Marino */
774*e4b17023SJohn Marino void
775*e4b17023SJohn Marino seed(unsigned long __value = 19780503);
776*e4b17023SJohn Marino
777*e4b17023SJohn Marino /**
778*e4b17023SJohn Marino * Seeds the initial state @f$ x_0 @f$ of the % subtract_with_carry
779*e4b17023SJohn Marino * random number generator.
780*e4b17023SJohn Marino */
781*e4b17023SJohn Marino template<class _Gen>
782*e4b17023SJohn Marino void
783*e4b17023SJohn Marino seed(_Gen& __g)
784*e4b17023SJohn Marino { seed(__g, typename is_fundamental<_Gen>::type()); }
785*e4b17023SJohn Marino
786*e4b17023SJohn Marino /**
787*e4b17023SJohn Marino * Gets the inclusive minimum value of the range of random integers
788*e4b17023SJohn Marino * returned by this generator.
789*e4b17023SJohn Marino */
790*e4b17023SJohn Marino result_type
791*e4b17023SJohn Marino min() const
792*e4b17023SJohn Marino { return 0; }
793*e4b17023SJohn Marino
794*e4b17023SJohn Marino /**
795*e4b17023SJohn Marino * Gets the inclusive maximum value of the range of random integers
796*e4b17023SJohn Marino * returned by this generator.
797*e4b17023SJohn Marino */
798*e4b17023SJohn Marino result_type
799*e4b17023SJohn Marino max() const
800*e4b17023SJohn Marino { return this->modulus - 1; }
801*e4b17023SJohn Marino
802*e4b17023SJohn Marino /**
803*e4b17023SJohn Marino * Gets the next random number in the sequence.
804*e4b17023SJohn Marino */
805*e4b17023SJohn Marino result_type
806*e4b17023SJohn Marino operator()();
807*e4b17023SJohn Marino
808*e4b17023SJohn Marino /**
809*e4b17023SJohn Marino * Compares two % subtract_with_carry random number generator objects of
810*e4b17023SJohn Marino * the same type for equality.
811*e4b17023SJohn Marino *
812*e4b17023SJohn Marino * @param __lhs A % subtract_with_carry random number generator object.
813*e4b17023SJohn Marino * @param __rhs Another % subtract_with_carry random number generator
814*e4b17023SJohn Marino * object.
815*e4b17023SJohn Marino *
816*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
817*e4b17023SJohn Marino */
818*e4b17023SJohn Marino friend bool
819*e4b17023SJohn Marino operator==(const subtract_with_carry& __lhs,
820*e4b17023SJohn Marino const subtract_with_carry& __rhs)
821*e4b17023SJohn Marino { return std::equal(__lhs._M_x, __lhs._M_x + long_lag, __rhs._M_x); }
822*e4b17023SJohn Marino
823*e4b17023SJohn Marino /**
824*e4b17023SJohn Marino * Compares two % subtract_with_carry random number generator objects of
825*e4b17023SJohn Marino * the same type for inequality.
826*e4b17023SJohn Marino *
827*e4b17023SJohn Marino * @param __lhs A % subtract_with_carry random number generator object.
828*e4b17023SJohn Marino * @param __rhs Another % subtract_with_carry random number generator
829*e4b17023SJohn Marino * object.
830*e4b17023SJohn Marino *
831*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
832*e4b17023SJohn Marino */
833*e4b17023SJohn Marino friend bool
834*e4b17023SJohn Marino operator!=(const subtract_with_carry& __lhs,
835*e4b17023SJohn Marino const subtract_with_carry& __rhs)
836*e4b17023SJohn Marino { return !(__lhs == __rhs); }
837*e4b17023SJohn Marino
838*e4b17023SJohn Marino /**
839*e4b17023SJohn Marino * Inserts the current state of a % subtract_with_carry random number
840*e4b17023SJohn Marino * generator engine @p __x into the output stream @p __os.
841*e4b17023SJohn Marino *
842*e4b17023SJohn Marino * @param __os An output stream.
843*e4b17023SJohn Marino * @param __x A % subtract_with_carry random number generator engine.
844*e4b17023SJohn Marino *
845*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
846*e4b17023SJohn Marino * an error state.
847*e4b17023SJohn Marino */
848*e4b17023SJohn Marino template<typename _IntType1, _IntType1 __m1, int __s1, int __r1,
849*e4b17023SJohn Marino typename _CharT, typename _Traits>
850*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
851*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
852*e4b17023SJohn Marino const subtract_with_carry<_IntType1, __m1, __s1,
853*e4b17023SJohn Marino __r1>& __x);
854*e4b17023SJohn Marino
855*e4b17023SJohn Marino /**
856*e4b17023SJohn Marino * Extracts the current state of a % subtract_with_carry random number
857*e4b17023SJohn Marino * generator engine @p __x from the input stream @p __is.
858*e4b17023SJohn Marino *
859*e4b17023SJohn Marino * @param __is An input stream.
860*e4b17023SJohn Marino * @param __x A % subtract_with_carry random number generator engine.
861*e4b17023SJohn Marino *
862*e4b17023SJohn Marino * @returns The input stream with the state of @p __x extracted or in
863*e4b17023SJohn Marino * an error state.
864*e4b17023SJohn Marino */
865*e4b17023SJohn Marino template<typename _IntType1, _IntType1 __m1, int __s1, int __r1,
866*e4b17023SJohn Marino typename _CharT, typename _Traits>
867*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
868*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
869*e4b17023SJohn Marino subtract_with_carry<_IntType1, __m1, __s1, __r1>& __x);
870*e4b17023SJohn Marino
871*e4b17023SJohn Marino private:
872*e4b17023SJohn Marino template<class _Gen>
873*e4b17023SJohn Marino void
874*e4b17023SJohn Marino seed(_Gen& __g, true_type)
875*e4b17023SJohn Marino { return seed(static_cast<unsigned long>(__g)); }
876*e4b17023SJohn Marino
877*e4b17023SJohn Marino template<class _Gen>
878*e4b17023SJohn Marino void
879*e4b17023SJohn Marino seed(_Gen& __g, false_type);
880*e4b17023SJohn Marino
881*e4b17023SJohn Marino typedef typename __gnu_cxx::__add_unsigned<_IntType>::__type _UIntType;
882*e4b17023SJohn Marino
883*e4b17023SJohn Marino _UIntType _M_x[long_lag];
884*e4b17023SJohn Marino _UIntType _M_carry;
885*e4b17023SJohn Marino int _M_p;
886*e4b17023SJohn Marino };
887*e4b17023SJohn Marino
888*e4b17023SJohn Marino
889*e4b17023SJohn Marino /**
890*e4b17023SJohn Marino * @brief The Marsaglia-Zaman generator (floats version).
891*e4b17023SJohn Marino *
892*e4b17023SJohn Marino * @var _M_x The state of the generator. This is a ring buffer.
893*e4b17023SJohn Marino * @var _M_carry The carry.
894*e4b17023SJohn Marino * @var _M_p Current index of x(i - r).
895*e4b17023SJohn Marino * @var _M_npows Precomputed negative powers of 2.
896*e4b17023SJohn Marino */
897*e4b17023SJohn Marino template<typename _RealType, int __w, int __s, int __r>
898*e4b17023SJohn Marino class subtract_with_carry_01
899*e4b17023SJohn Marino {
900*e4b17023SJohn Marino public:
901*e4b17023SJohn Marino /** The type of the generated random value. */
902*e4b17023SJohn Marino typedef _RealType result_type;
903*e4b17023SJohn Marino
904*e4b17023SJohn Marino // parameter values
905*e4b17023SJohn Marino static const int word_size = __w;
906*e4b17023SJohn Marino static const int long_lag = __r;
907*e4b17023SJohn Marino static const int short_lag = __s;
908*e4b17023SJohn Marino
909*e4b17023SJohn Marino /**
910*e4b17023SJohn Marino * Constructs a default-initialized % subtract_with_carry_01 random
911*e4b17023SJohn Marino * number generator.
912*e4b17023SJohn Marino */
913*e4b17023SJohn Marino subtract_with_carry_01()
914*e4b17023SJohn Marino {
915*e4b17023SJohn Marino this->seed();
916*e4b17023SJohn Marino _M_initialize_npows();
917*e4b17023SJohn Marino }
918*e4b17023SJohn Marino
919*e4b17023SJohn Marino /**
920*e4b17023SJohn Marino * Constructs an explicitly seeded % subtract_with_carry_01 random number
921*e4b17023SJohn Marino * generator.
922*e4b17023SJohn Marino */
923*e4b17023SJohn Marino explicit
924*e4b17023SJohn Marino subtract_with_carry_01(unsigned long __value)
925*e4b17023SJohn Marino {
926*e4b17023SJohn Marino this->seed(__value);
927*e4b17023SJohn Marino _M_initialize_npows();
928*e4b17023SJohn Marino }
929*e4b17023SJohn Marino
930*e4b17023SJohn Marino /**
931*e4b17023SJohn Marino * Constructs a % subtract_with_carry_01 random number generator engine
932*e4b17023SJohn Marino * seeded from the generator function @p __g.
933*e4b17023SJohn Marino *
934*e4b17023SJohn Marino * @param __g The seed generator function.
935*e4b17023SJohn Marino */
936*e4b17023SJohn Marino template<class _Gen>
937*e4b17023SJohn Marino subtract_with_carry_01(_Gen& __g)
938*e4b17023SJohn Marino {
939*e4b17023SJohn Marino this->seed(__g);
940*e4b17023SJohn Marino _M_initialize_npows();
941*e4b17023SJohn Marino }
942*e4b17023SJohn Marino
943*e4b17023SJohn Marino /**
944*e4b17023SJohn Marino * Seeds the initial state @f$ x_0 @f$ of the random number generator.
945*e4b17023SJohn Marino */
946*e4b17023SJohn Marino void
947*e4b17023SJohn Marino seed(unsigned long __value = 19780503);
948*e4b17023SJohn Marino
949*e4b17023SJohn Marino /**
950*e4b17023SJohn Marino * Seeds the initial state @f$ x_0 @f$ of the % subtract_with_carry_01
951*e4b17023SJohn Marino * random number generator.
952*e4b17023SJohn Marino */
953*e4b17023SJohn Marino template<class _Gen>
954*e4b17023SJohn Marino void
955*e4b17023SJohn Marino seed(_Gen& __g)
956*e4b17023SJohn Marino { seed(__g, typename is_fundamental<_Gen>::type()); }
957*e4b17023SJohn Marino
958*e4b17023SJohn Marino /**
959*e4b17023SJohn Marino * Gets the minimum value of the range of random floats
960*e4b17023SJohn Marino * returned by this generator.
961*e4b17023SJohn Marino */
962*e4b17023SJohn Marino result_type
963*e4b17023SJohn Marino min() const
964*e4b17023SJohn Marino { return 0.0; }
965*e4b17023SJohn Marino
966*e4b17023SJohn Marino /**
967*e4b17023SJohn Marino * Gets the maximum value of the range of random floats
968*e4b17023SJohn Marino * returned by this generator.
969*e4b17023SJohn Marino */
970*e4b17023SJohn Marino result_type
971*e4b17023SJohn Marino max() const
972*e4b17023SJohn Marino { return 1.0; }
973*e4b17023SJohn Marino
974*e4b17023SJohn Marino /**
975*e4b17023SJohn Marino * Gets the next random number in the sequence.
976*e4b17023SJohn Marino */
977*e4b17023SJohn Marino result_type
978*e4b17023SJohn Marino operator()();
979*e4b17023SJohn Marino
980*e4b17023SJohn Marino /**
981*e4b17023SJohn Marino * Compares two % subtract_with_carry_01 random number generator objects
982*e4b17023SJohn Marino * of the same type for equality.
983*e4b17023SJohn Marino *
984*e4b17023SJohn Marino * @param __lhs A % subtract_with_carry_01 random number
985*e4b17023SJohn Marino * generator object.
986*e4b17023SJohn Marino * @param __rhs Another % subtract_with_carry_01 random number generator
987*e4b17023SJohn Marino * object.
988*e4b17023SJohn Marino *
989*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
990*e4b17023SJohn Marino */
991*e4b17023SJohn Marino friend bool
992*e4b17023SJohn Marino operator==(const subtract_with_carry_01& __lhs,
993*e4b17023SJohn Marino const subtract_with_carry_01& __rhs)
994*e4b17023SJohn Marino {
995*e4b17023SJohn Marino for (int __i = 0; __i < long_lag; ++__i)
996*e4b17023SJohn Marino if (!std::equal(__lhs._M_x[__i], __lhs._M_x[__i] + __n,
997*e4b17023SJohn Marino __rhs._M_x[__i]))
998*e4b17023SJohn Marino return false;
999*e4b17023SJohn Marino return true;
1000*e4b17023SJohn Marino }
1001*e4b17023SJohn Marino
1002*e4b17023SJohn Marino /**
1003*e4b17023SJohn Marino * Compares two % subtract_with_carry_01 random number generator objects
1004*e4b17023SJohn Marino * of the same type for inequality.
1005*e4b17023SJohn Marino *
1006*e4b17023SJohn Marino * @param __lhs A % subtract_with_carry_01 random number
1007*e4b17023SJohn Marino * generator object.
1008*e4b17023SJohn Marino *
1009*e4b17023SJohn Marino * @param __rhs Another % subtract_with_carry_01 random number generator
1010*e4b17023SJohn Marino * object.
1011*e4b17023SJohn Marino *
1012*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
1013*e4b17023SJohn Marino */
1014*e4b17023SJohn Marino friend bool
1015*e4b17023SJohn Marino operator!=(const subtract_with_carry_01& __lhs,
1016*e4b17023SJohn Marino const subtract_with_carry_01& __rhs)
1017*e4b17023SJohn Marino { return !(__lhs == __rhs); }
1018*e4b17023SJohn Marino
1019*e4b17023SJohn Marino /**
1020*e4b17023SJohn Marino * Inserts the current state of a % subtract_with_carry_01 random number
1021*e4b17023SJohn Marino * generator engine @p __x into the output stream @p __os.
1022*e4b17023SJohn Marino *
1023*e4b17023SJohn Marino * @param __os An output stream.
1024*e4b17023SJohn Marino * @param __x A % subtract_with_carry_01 random number generator engine.
1025*e4b17023SJohn Marino *
1026*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1027*e4b17023SJohn Marino * an error state.
1028*e4b17023SJohn Marino */
1029*e4b17023SJohn Marino template<typename _RealType1, int __w1, int __s1, int __r1,
1030*e4b17023SJohn Marino typename _CharT, typename _Traits>
1031*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1032*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1033*e4b17023SJohn Marino const subtract_with_carry_01<_RealType1, __w1, __s1,
1034*e4b17023SJohn Marino __r1>& __x);
1035*e4b17023SJohn Marino
1036*e4b17023SJohn Marino /**
1037*e4b17023SJohn Marino * Extracts the current state of a % subtract_with_carry_01 random number
1038*e4b17023SJohn Marino * generator engine @p __x from the input stream @p __is.
1039*e4b17023SJohn Marino *
1040*e4b17023SJohn Marino * @param __is An input stream.
1041*e4b17023SJohn Marino * @param __x A % subtract_with_carry_01 random number generator engine.
1042*e4b17023SJohn Marino *
1043*e4b17023SJohn Marino * @returns The input stream with the state of @p __x extracted or in
1044*e4b17023SJohn Marino * an error state.
1045*e4b17023SJohn Marino */
1046*e4b17023SJohn Marino template<typename _RealType1, int __w1, int __s1, int __r1,
1047*e4b17023SJohn Marino typename _CharT, typename _Traits>
1048*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1049*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1050*e4b17023SJohn Marino subtract_with_carry_01<_RealType1, __w1, __s1, __r1>& __x);
1051*e4b17023SJohn Marino
1052*e4b17023SJohn Marino private:
1053*e4b17023SJohn Marino template<class _Gen>
1054*e4b17023SJohn Marino void
1055*e4b17023SJohn Marino seed(_Gen& __g, true_type)
1056*e4b17023SJohn Marino { return seed(static_cast<unsigned long>(__g)); }
1057*e4b17023SJohn Marino
1058*e4b17023SJohn Marino template<class _Gen>
1059*e4b17023SJohn Marino void
1060*e4b17023SJohn Marino seed(_Gen& __g, false_type);
1061*e4b17023SJohn Marino
1062*e4b17023SJohn Marino void
1063*e4b17023SJohn Marino _M_initialize_npows();
1064*e4b17023SJohn Marino
1065*e4b17023SJohn Marino static const int __n = (__w + 31) / 32;
1066*e4b17023SJohn Marino
1067*e4b17023SJohn Marino typedef __detail::_UInt32Type _UInt32Type;
1068*e4b17023SJohn Marino _UInt32Type _M_x[long_lag][__n];
1069*e4b17023SJohn Marino _RealType _M_npows[__n];
1070*e4b17023SJohn Marino _UInt32Type _M_carry;
1071*e4b17023SJohn Marino int _M_p;
1072*e4b17023SJohn Marino };
1073*e4b17023SJohn Marino
1074*e4b17023SJohn Marino typedef subtract_with_carry_01<float, 24, 10, 24> ranlux_base_01;
1075*e4b17023SJohn Marino
1076*e4b17023SJohn Marino // _GLIBCXX_RESOLVE_LIB_DEFECTS
1077*e4b17023SJohn Marino // 508. Bad parameters for ranlux64_base_01.
1078*e4b17023SJohn Marino typedef subtract_with_carry_01<double, 48, 5, 12> ranlux64_base_01;
1079*e4b17023SJohn Marino
1080*e4b17023SJohn Marino
1081*e4b17023SJohn Marino /**
1082*e4b17023SJohn Marino * Produces random numbers from some base engine by discarding blocks of
1083*e4b17023SJohn Marino * data.
1084*e4b17023SJohn Marino *
1085*e4b17023SJohn Marino * 0 <= @p __r <= @p __p
1086*e4b17023SJohn Marino */
1087*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator, int __p, int __r>
1088*e4b17023SJohn Marino class discard_block
1089*e4b17023SJohn Marino {
1090*e4b17023SJohn Marino // __glibcxx_class_requires(typename base_type::result_type,
1091*e4b17023SJohn Marino // ArithmeticTypeConcept)
1092*e4b17023SJohn Marino
1093*e4b17023SJohn Marino public:
1094*e4b17023SJohn Marino /** The type of the underlying generator engine. */
1095*e4b17023SJohn Marino typedef _UniformRandomNumberGenerator base_type;
1096*e4b17023SJohn Marino /** The type of the generated random value. */
1097*e4b17023SJohn Marino typedef typename base_type::result_type result_type;
1098*e4b17023SJohn Marino
1099*e4b17023SJohn Marino // parameter values
1100*e4b17023SJohn Marino static const int block_size = __p;
1101*e4b17023SJohn Marino static const int used_block = __r;
1102*e4b17023SJohn Marino
1103*e4b17023SJohn Marino /**
1104*e4b17023SJohn Marino * Constructs a default %discard_block engine.
1105*e4b17023SJohn Marino *
1106*e4b17023SJohn Marino * The underlying engine is default constructed as well.
1107*e4b17023SJohn Marino */
1108*e4b17023SJohn Marino discard_block()
1109*e4b17023SJohn Marino : _M_n(0) { }
1110*e4b17023SJohn Marino
1111*e4b17023SJohn Marino /**
1112*e4b17023SJohn Marino * Copy constructs a %discard_block engine.
1113*e4b17023SJohn Marino *
1114*e4b17023SJohn Marino * Copies an existing base class random number generator.
1115*e4b17023SJohn Marino * @param rng An existing (base class) engine object.
1116*e4b17023SJohn Marino */
1117*e4b17023SJohn Marino explicit
1118*e4b17023SJohn Marino discard_block(const base_type& __rng)
1119*e4b17023SJohn Marino : _M_b(__rng), _M_n(0) { }
1120*e4b17023SJohn Marino
1121*e4b17023SJohn Marino /**
1122*e4b17023SJohn Marino * Seed constructs a %discard_block engine.
1123*e4b17023SJohn Marino *
1124*e4b17023SJohn Marino * Constructs the underlying generator engine seeded with @p __s.
1125*e4b17023SJohn Marino * @param __s A seed value for the base class engine.
1126*e4b17023SJohn Marino */
1127*e4b17023SJohn Marino explicit
1128*e4b17023SJohn Marino discard_block(unsigned long __s)
1129*e4b17023SJohn Marino : _M_b(__s), _M_n(0) { }
1130*e4b17023SJohn Marino
1131*e4b17023SJohn Marino /**
1132*e4b17023SJohn Marino * Generator construct a %discard_block engine.
1133*e4b17023SJohn Marino *
1134*e4b17023SJohn Marino * @param __g A seed generator function.
1135*e4b17023SJohn Marino */
1136*e4b17023SJohn Marino template<class _Gen>
1137*e4b17023SJohn Marino discard_block(_Gen& __g)
1138*e4b17023SJohn Marino : _M_b(__g), _M_n(0) { }
1139*e4b17023SJohn Marino
1140*e4b17023SJohn Marino /**
1141*e4b17023SJohn Marino * Reseeds the %discard_block object with the default seed for the
1142*e4b17023SJohn Marino * underlying base class generator engine.
1143*e4b17023SJohn Marino */
1144*e4b17023SJohn Marino void seed()
1145*e4b17023SJohn Marino {
1146*e4b17023SJohn Marino _M_b.seed();
1147*e4b17023SJohn Marino _M_n = 0;
1148*e4b17023SJohn Marino }
1149*e4b17023SJohn Marino
1150*e4b17023SJohn Marino /**
1151*e4b17023SJohn Marino * Reseeds the %discard_block object with the given seed generator
1152*e4b17023SJohn Marino * function.
1153*e4b17023SJohn Marino * @param __g A seed generator function.
1154*e4b17023SJohn Marino */
1155*e4b17023SJohn Marino template<class _Gen>
1156*e4b17023SJohn Marino void seed(_Gen& __g)
1157*e4b17023SJohn Marino {
1158*e4b17023SJohn Marino _M_b.seed(__g);
1159*e4b17023SJohn Marino _M_n = 0;
1160*e4b17023SJohn Marino }
1161*e4b17023SJohn Marino
1162*e4b17023SJohn Marino /**
1163*e4b17023SJohn Marino * Gets a const reference to the underlying generator engine object.
1164*e4b17023SJohn Marino */
1165*e4b17023SJohn Marino const base_type&
1166*e4b17023SJohn Marino base() const
1167*e4b17023SJohn Marino { return _M_b; }
1168*e4b17023SJohn Marino
1169*e4b17023SJohn Marino /**
1170*e4b17023SJohn Marino * Gets the minimum value in the generated random number range.
1171*e4b17023SJohn Marino */
1172*e4b17023SJohn Marino result_type
1173*e4b17023SJohn Marino min() const
1174*e4b17023SJohn Marino { return _M_b.min(); }
1175*e4b17023SJohn Marino
1176*e4b17023SJohn Marino /**
1177*e4b17023SJohn Marino * Gets the maximum value in the generated random number range.
1178*e4b17023SJohn Marino */
1179*e4b17023SJohn Marino result_type
1180*e4b17023SJohn Marino max() const
1181*e4b17023SJohn Marino { return _M_b.max(); }
1182*e4b17023SJohn Marino
1183*e4b17023SJohn Marino /**
1184*e4b17023SJohn Marino * Gets the next value in the generated random number sequence.
1185*e4b17023SJohn Marino */
1186*e4b17023SJohn Marino result_type
1187*e4b17023SJohn Marino operator()();
1188*e4b17023SJohn Marino
1189*e4b17023SJohn Marino /**
1190*e4b17023SJohn Marino * Compares two %discard_block random number generator objects of
1191*e4b17023SJohn Marino * the same type for equality.
1192*e4b17023SJohn Marino *
1193*e4b17023SJohn Marino * @param __lhs A %discard_block random number generator object.
1194*e4b17023SJohn Marino * @param __rhs Another %discard_block random number generator
1195*e4b17023SJohn Marino * object.
1196*e4b17023SJohn Marino *
1197*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
1198*e4b17023SJohn Marino */
1199*e4b17023SJohn Marino friend bool
1200*e4b17023SJohn Marino operator==(const discard_block& __lhs, const discard_block& __rhs)
1201*e4b17023SJohn Marino { return (__lhs._M_b == __rhs._M_b) && (__lhs._M_n == __rhs._M_n); }
1202*e4b17023SJohn Marino
1203*e4b17023SJohn Marino /**
1204*e4b17023SJohn Marino * Compares two %discard_block random number generator objects of
1205*e4b17023SJohn Marino * the same type for inequality.
1206*e4b17023SJohn Marino *
1207*e4b17023SJohn Marino * @param __lhs A %discard_block random number generator object.
1208*e4b17023SJohn Marino * @param __rhs Another %discard_block random number generator
1209*e4b17023SJohn Marino * object.
1210*e4b17023SJohn Marino *
1211*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
1212*e4b17023SJohn Marino */
1213*e4b17023SJohn Marino friend bool
1214*e4b17023SJohn Marino operator!=(const discard_block& __lhs, const discard_block& __rhs)
1215*e4b17023SJohn Marino { return !(__lhs == __rhs); }
1216*e4b17023SJohn Marino
1217*e4b17023SJohn Marino /**
1218*e4b17023SJohn Marino * Inserts the current state of a %discard_block random number
1219*e4b17023SJohn Marino * generator engine @p __x into the output stream @p __os.
1220*e4b17023SJohn Marino *
1221*e4b17023SJohn Marino * @param __os An output stream.
1222*e4b17023SJohn Marino * @param __x A %discard_block random number generator engine.
1223*e4b17023SJohn Marino *
1224*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1225*e4b17023SJohn Marino * an error state.
1226*e4b17023SJohn Marino */
1227*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator1, int __p1, int __r1,
1228*e4b17023SJohn Marino typename _CharT, typename _Traits>
1229*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1230*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1231*e4b17023SJohn Marino const discard_block<_UniformRandomNumberGenerator1,
1232*e4b17023SJohn Marino __p1, __r1>& __x);
1233*e4b17023SJohn Marino
1234*e4b17023SJohn Marino /**
1235*e4b17023SJohn Marino * Extracts the current state of a % subtract_with_carry random number
1236*e4b17023SJohn Marino * generator engine @p __x from the input stream @p __is.
1237*e4b17023SJohn Marino *
1238*e4b17023SJohn Marino * @param __is An input stream.
1239*e4b17023SJohn Marino * @param __x A %discard_block random number generator engine.
1240*e4b17023SJohn Marino *
1241*e4b17023SJohn Marino * @returns The input stream with the state of @p __x extracted or in
1242*e4b17023SJohn Marino * an error state.
1243*e4b17023SJohn Marino */
1244*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator1, int __p1, int __r1,
1245*e4b17023SJohn Marino typename _CharT, typename _Traits>
1246*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1247*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1248*e4b17023SJohn Marino discard_block<_UniformRandomNumberGenerator1,
1249*e4b17023SJohn Marino __p1, __r1>& __x);
1250*e4b17023SJohn Marino
1251*e4b17023SJohn Marino private:
1252*e4b17023SJohn Marino base_type _M_b;
1253*e4b17023SJohn Marino int _M_n;
1254*e4b17023SJohn Marino };
1255*e4b17023SJohn Marino
1256*e4b17023SJohn Marino
1257*e4b17023SJohn Marino /**
1258*e4b17023SJohn Marino * James's luxury-level-3 integer adaptation of Luescher's generator.
1259*e4b17023SJohn Marino */
1260*e4b17023SJohn Marino typedef discard_block<
1261*e4b17023SJohn Marino subtract_with_carry<unsigned long, (1UL << 24), 10, 24>,
1262*e4b17023SJohn Marino 223,
1263*e4b17023SJohn Marino 24
1264*e4b17023SJohn Marino > ranlux3;
1265*e4b17023SJohn Marino
1266*e4b17023SJohn Marino /**
1267*e4b17023SJohn Marino * James's luxury-level-4 integer adaptation of Luescher's generator.
1268*e4b17023SJohn Marino */
1269*e4b17023SJohn Marino typedef discard_block<
1270*e4b17023SJohn Marino subtract_with_carry<unsigned long, (1UL << 24), 10, 24>,
1271*e4b17023SJohn Marino 389,
1272*e4b17023SJohn Marino 24
1273*e4b17023SJohn Marino > ranlux4;
1274*e4b17023SJohn Marino
1275*e4b17023SJohn Marino typedef discard_block<
1276*e4b17023SJohn Marino subtract_with_carry_01<float, 24, 10, 24>,
1277*e4b17023SJohn Marino 223,
1278*e4b17023SJohn Marino 24
1279*e4b17023SJohn Marino > ranlux3_01;
1280*e4b17023SJohn Marino
1281*e4b17023SJohn Marino typedef discard_block<
1282*e4b17023SJohn Marino subtract_with_carry_01<float, 24, 10, 24>,
1283*e4b17023SJohn Marino 389,
1284*e4b17023SJohn Marino 24
1285*e4b17023SJohn Marino > ranlux4_01;
1286*e4b17023SJohn Marino
1287*e4b17023SJohn Marino
1288*e4b17023SJohn Marino /**
1289*e4b17023SJohn Marino * A random number generator adaptor class that combines two random number
1290*e4b17023SJohn Marino * generator engines into a single output sequence.
1291*e4b17023SJohn Marino */
1292*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator1, int __s1,
1293*e4b17023SJohn Marino class _UniformRandomNumberGenerator2, int __s2>
1294*e4b17023SJohn Marino class xor_combine
1295*e4b17023SJohn Marino {
1296*e4b17023SJohn Marino // __glibcxx_class_requires(typename _UniformRandomNumberGenerator1::
1297*e4b17023SJohn Marino // result_type, ArithmeticTypeConcept)
1298*e4b17023SJohn Marino // __glibcxx_class_requires(typename _UniformRandomNumberGenerator2::
1299*e4b17023SJohn Marino // result_type, ArithmeticTypeConcept)
1300*e4b17023SJohn Marino
1301*e4b17023SJohn Marino public:
1302*e4b17023SJohn Marino /** The type of the first underlying generator engine. */
1303*e4b17023SJohn Marino typedef _UniformRandomNumberGenerator1 base1_type;
1304*e4b17023SJohn Marino /** The type of the second underlying generator engine. */
1305*e4b17023SJohn Marino typedef _UniformRandomNumberGenerator2 base2_type;
1306*e4b17023SJohn Marino
1307*e4b17023SJohn Marino private:
1308*e4b17023SJohn Marino typedef typename base1_type::result_type _Result_type1;
1309*e4b17023SJohn Marino typedef typename base2_type::result_type _Result_type2;
1310*e4b17023SJohn Marino
1311*e4b17023SJohn Marino public:
1312*e4b17023SJohn Marino /** The type of the generated random value. */
1313*e4b17023SJohn Marino typedef typename __gnu_cxx::__conditional_type<(sizeof(_Result_type1)
1314*e4b17023SJohn Marino > sizeof(_Result_type2)),
1315*e4b17023SJohn Marino _Result_type1, _Result_type2>::__type result_type;
1316*e4b17023SJohn Marino
1317*e4b17023SJohn Marino // parameter values
1318*e4b17023SJohn Marino static const int shift1 = __s1;
1319*e4b17023SJohn Marino static const int shift2 = __s2;
1320*e4b17023SJohn Marino
1321*e4b17023SJohn Marino // constructors and member function
1322*e4b17023SJohn Marino xor_combine()
1323*e4b17023SJohn Marino : _M_b1(), _M_b2()
1324*e4b17023SJohn Marino { _M_initialize_max(); }
1325*e4b17023SJohn Marino
1326*e4b17023SJohn Marino xor_combine(const base1_type& __rng1, const base2_type& __rng2)
1327*e4b17023SJohn Marino : _M_b1(__rng1), _M_b2(__rng2)
1328*e4b17023SJohn Marino { _M_initialize_max(); }
1329*e4b17023SJohn Marino
1330*e4b17023SJohn Marino xor_combine(unsigned long __s)
1331*e4b17023SJohn Marino : _M_b1(__s), _M_b2(__s + 1)
1332*e4b17023SJohn Marino { _M_initialize_max(); }
1333*e4b17023SJohn Marino
1334*e4b17023SJohn Marino template<class _Gen>
1335*e4b17023SJohn Marino xor_combine(_Gen& __g)
1336*e4b17023SJohn Marino : _M_b1(__g), _M_b2(__g)
1337*e4b17023SJohn Marino { _M_initialize_max(); }
1338*e4b17023SJohn Marino
1339*e4b17023SJohn Marino void
1340*e4b17023SJohn Marino seed()
1341*e4b17023SJohn Marino {
1342*e4b17023SJohn Marino _M_b1.seed();
1343*e4b17023SJohn Marino _M_b2.seed();
1344*e4b17023SJohn Marino }
1345*e4b17023SJohn Marino
1346*e4b17023SJohn Marino template<class _Gen>
1347*e4b17023SJohn Marino void
1348*e4b17023SJohn Marino seed(_Gen& __g)
1349*e4b17023SJohn Marino {
1350*e4b17023SJohn Marino _M_b1.seed(__g);
1351*e4b17023SJohn Marino _M_b2.seed(__g);
1352*e4b17023SJohn Marino }
1353*e4b17023SJohn Marino
1354*e4b17023SJohn Marino const base1_type&
1355*e4b17023SJohn Marino base1() const
1356*e4b17023SJohn Marino { return _M_b1; }
1357*e4b17023SJohn Marino
1358*e4b17023SJohn Marino const base2_type&
1359*e4b17023SJohn Marino base2() const
1360*e4b17023SJohn Marino { return _M_b2; }
1361*e4b17023SJohn Marino
1362*e4b17023SJohn Marino result_type
1363*e4b17023SJohn Marino min() const
1364*e4b17023SJohn Marino { return 0; }
1365*e4b17023SJohn Marino
1366*e4b17023SJohn Marino result_type
1367*e4b17023SJohn Marino max() const
1368*e4b17023SJohn Marino { return _M_max; }
1369*e4b17023SJohn Marino
1370*e4b17023SJohn Marino /**
1371*e4b17023SJohn Marino * Gets the next random number in the sequence.
1372*e4b17023SJohn Marino */
1373*e4b17023SJohn Marino // NB: Not exactly the TR1 formula, per N2079 instead.
1374*e4b17023SJohn Marino result_type
1375*e4b17023SJohn Marino operator()()
1376*e4b17023SJohn Marino {
1377*e4b17023SJohn Marino return ((result_type(_M_b1() - _M_b1.min()) << shift1)
1378*e4b17023SJohn Marino ^ (result_type(_M_b2() - _M_b2.min()) << shift2));
1379*e4b17023SJohn Marino }
1380*e4b17023SJohn Marino
1381*e4b17023SJohn Marino /**
1382*e4b17023SJohn Marino * Compares two %xor_combine random number generator objects of
1383*e4b17023SJohn Marino * the same type for equality.
1384*e4b17023SJohn Marino *
1385*e4b17023SJohn Marino * @param __lhs A %xor_combine random number generator object.
1386*e4b17023SJohn Marino * @param __rhs Another %xor_combine random number generator
1387*e4b17023SJohn Marino * object.
1388*e4b17023SJohn Marino *
1389*e4b17023SJohn Marino * @returns true if the two objects are equal, false otherwise.
1390*e4b17023SJohn Marino */
1391*e4b17023SJohn Marino friend bool
1392*e4b17023SJohn Marino operator==(const xor_combine& __lhs, const xor_combine& __rhs)
1393*e4b17023SJohn Marino {
1394*e4b17023SJohn Marino return (__lhs.base1() == __rhs.base1())
1395*e4b17023SJohn Marino && (__lhs.base2() == __rhs.base2());
1396*e4b17023SJohn Marino }
1397*e4b17023SJohn Marino
1398*e4b17023SJohn Marino /**
1399*e4b17023SJohn Marino * Compares two %xor_combine random number generator objects of
1400*e4b17023SJohn Marino * the same type for inequality.
1401*e4b17023SJohn Marino *
1402*e4b17023SJohn Marino * @param __lhs A %xor_combine random number generator object.
1403*e4b17023SJohn Marino * @param __rhs Another %xor_combine random number generator
1404*e4b17023SJohn Marino * object.
1405*e4b17023SJohn Marino *
1406*e4b17023SJohn Marino * @returns true if the two objects are not equal, false otherwise.
1407*e4b17023SJohn Marino */
1408*e4b17023SJohn Marino friend bool
1409*e4b17023SJohn Marino operator!=(const xor_combine& __lhs, const xor_combine& __rhs)
1410*e4b17023SJohn Marino { return !(__lhs == __rhs); }
1411*e4b17023SJohn Marino
1412*e4b17023SJohn Marino /**
1413*e4b17023SJohn Marino * Inserts the current state of a %xor_combine random number
1414*e4b17023SJohn Marino * generator engine @p __x into the output stream @p __os.
1415*e4b17023SJohn Marino *
1416*e4b17023SJohn Marino * @param __os An output stream.
1417*e4b17023SJohn Marino * @param __x A %xor_combine random number generator engine.
1418*e4b17023SJohn Marino *
1419*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1420*e4b17023SJohn Marino * an error state.
1421*e4b17023SJohn Marino */
1422*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator11, int __s11,
1423*e4b17023SJohn Marino class _UniformRandomNumberGenerator21, int __s21,
1424*e4b17023SJohn Marino typename _CharT, typename _Traits>
1425*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1426*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1427*e4b17023SJohn Marino const xor_combine<_UniformRandomNumberGenerator11, __s11,
1428*e4b17023SJohn Marino _UniformRandomNumberGenerator21, __s21>& __x);
1429*e4b17023SJohn Marino
1430*e4b17023SJohn Marino /**
1431*e4b17023SJohn Marino * Extracts the current state of a %xor_combine random number
1432*e4b17023SJohn Marino * generator engine @p __x from the input stream @p __is.
1433*e4b17023SJohn Marino *
1434*e4b17023SJohn Marino * @param __is An input stream.
1435*e4b17023SJohn Marino * @param __x A %xor_combine random number generator engine.
1436*e4b17023SJohn Marino *
1437*e4b17023SJohn Marino * @returns The input stream with the state of @p __x extracted or in
1438*e4b17023SJohn Marino * an error state.
1439*e4b17023SJohn Marino */
1440*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator11, int __s11,
1441*e4b17023SJohn Marino class _UniformRandomNumberGenerator21, int __s21,
1442*e4b17023SJohn Marino typename _CharT, typename _Traits>
1443*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1444*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1445*e4b17023SJohn Marino xor_combine<_UniformRandomNumberGenerator11, __s11,
1446*e4b17023SJohn Marino _UniformRandomNumberGenerator21, __s21>& __x);
1447*e4b17023SJohn Marino
1448*e4b17023SJohn Marino private:
1449*e4b17023SJohn Marino void
1450*e4b17023SJohn Marino _M_initialize_max();
1451*e4b17023SJohn Marino
1452*e4b17023SJohn Marino result_type
1453*e4b17023SJohn Marino _M_initialize_max_aux(result_type, result_type, int);
1454*e4b17023SJohn Marino
1455*e4b17023SJohn Marino base1_type _M_b1;
1456*e4b17023SJohn Marino base2_type _M_b2;
1457*e4b17023SJohn Marino result_type _M_max;
1458*e4b17023SJohn Marino };
1459*e4b17023SJohn Marino
1460*e4b17023SJohn Marino
1461*e4b17023SJohn Marino /**
1462*e4b17023SJohn Marino * A standard interface to a platform-specific non-deterministic
1463*e4b17023SJohn Marino * random number generator (if any are available).
1464*e4b17023SJohn Marino */
1465*e4b17023SJohn Marino class random_device
1466*e4b17023SJohn Marino {
1467*e4b17023SJohn Marino public:
1468*e4b17023SJohn Marino // types
1469*e4b17023SJohn Marino typedef unsigned int result_type;
1470*e4b17023SJohn Marino
1471*e4b17023SJohn Marino // constructors, destructors and member functions
1472*e4b17023SJohn Marino
1473*e4b17023SJohn Marino #ifdef _GLIBCXX_USE_RANDOM_TR1
1474*e4b17023SJohn Marino
1475*e4b17023SJohn Marino explicit
1476*e4b17023SJohn Marino random_device(const std::string& __token = "/dev/urandom")
1477*e4b17023SJohn Marino {
1478*e4b17023SJohn Marino if ((__token != "/dev/urandom" && __token != "/dev/random")
1479*e4b17023SJohn Marino || !(_M_file = std::fopen(__token.c_str(), "rb")))
1480*e4b17023SJohn Marino std::__throw_runtime_error(__N("random_device::"
1481*e4b17023SJohn Marino "random_device(const std::string&)"));
1482*e4b17023SJohn Marino }
1483*e4b17023SJohn Marino
1484*e4b17023SJohn Marino ~random_device()
1485*e4b17023SJohn Marino { std::fclose(_M_file); }
1486*e4b17023SJohn Marino
1487*e4b17023SJohn Marino #else
1488*e4b17023SJohn Marino
1489*e4b17023SJohn Marino explicit
1490*e4b17023SJohn Marino random_device(const std::string& __token = "mt19937")
1491*e4b17023SJohn Marino : _M_mt(_M_strtoul(__token)) { }
1492*e4b17023SJohn Marino
1493*e4b17023SJohn Marino private:
1494*e4b17023SJohn Marino static unsigned long
1495*e4b17023SJohn Marino _M_strtoul(const std::string& __str)
1496*e4b17023SJohn Marino {
1497*e4b17023SJohn Marino unsigned long __ret = 5489UL;
1498*e4b17023SJohn Marino if (__str != "mt19937")
1499*e4b17023SJohn Marino {
1500*e4b17023SJohn Marino const char* __nptr = __str.c_str();
1501*e4b17023SJohn Marino char* __endptr;
1502*e4b17023SJohn Marino __ret = std::strtoul(__nptr, &__endptr, 0);
1503*e4b17023SJohn Marino if (*__nptr == '\0' || *__endptr != '\0')
1504*e4b17023SJohn Marino std::__throw_runtime_error(__N("random_device::_M_strtoul"
1505*e4b17023SJohn Marino "(const std::string&)"));
1506*e4b17023SJohn Marino }
1507*e4b17023SJohn Marino return __ret;
1508*e4b17023SJohn Marino }
1509*e4b17023SJohn Marino
1510*e4b17023SJohn Marino public:
1511*e4b17023SJohn Marino
1512*e4b17023SJohn Marino #endif
1513*e4b17023SJohn Marino
1514*e4b17023SJohn Marino result_type
1515*e4b17023SJohn Marino min() const
1516*e4b17023SJohn Marino { return std::numeric_limits<result_type>::min(); }
1517*e4b17023SJohn Marino
1518*e4b17023SJohn Marino result_type
1519*e4b17023SJohn Marino max() const
1520*e4b17023SJohn Marino { return std::numeric_limits<result_type>::max(); }
1521*e4b17023SJohn Marino
1522*e4b17023SJohn Marino double
1523*e4b17023SJohn Marino entropy() const
1524*e4b17023SJohn Marino { return 0.0; }
1525*e4b17023SJohn Marino
1526*e4b17023SJohn Marino result_type
1527*e4b17023SJohn Marino operator()()
1528*e4b17023SJohn Marino {
1529*e4b17023SJohn Marino #ifdef _GLIBCXX_USE_RANDOM_TR1
1530*e4b17023SJohn Marino result_type __ret;
1531*e4b17023SJohn Marino std::fread(reinterpret_cast<void*>(&__ret), sizeof(result_type),
1532*e4b17023SJohn Marino 1, _M_file);
1533*e4b17023SJohn Marino return __ret;
1534*e4b17023SJohn Marino #else
1535*e4b17023SJohn Marino return _M_mt();
1536*e4b17023SJohn Marino #endif
1537*e4b17023SJohn Marino }
1538*e4b17023SJohn Marino
1539*e4b17023SJohn Marino private:
1540*e4b17023SJohn Marino random_device(const random_device&);
1541*e4b17023SJohn Marino void operator=(const random_device&);
1542*e4b17023SJohn Marino
1543*e4b17023SJohn Marino #ifdef _GLIBCXX_USE_RANDOM_TR1
1544*e4b17023SJohn Marino FILE* _M_file;
1545*e4b17023SJohn Marino #else
1546*e4b17023SJohn Marino mt19937 _M_mt;
1547*e4b17023SJohn Marino #endif
1548*e4b17023SJohn Marino };
1549*e4b17023SJohn Marino
1550*e4b17023SJohn Marino /* @} */ // group tr1_random_generators
1551*e4b17023SJohn Marino
1552*e4b17023SJohn Marino /**
1553*e4b17023SJohn Marino * @addtogroup tr1_random_distributions Random Number Distributions
1554*e4b17023SJohn Marino * @ingroup tr1_random
1555*e4b17023SJohn Marino * @{
1556*e4b17023SJohn Marino */
1557*e4b17023SJohn Marino
1558*e4b17023SJohn Marino /**
1559*e4b17023SJohn Marino * @addtogroup tr1_random_distributions_discrete Discrete Distributions
1560*e4b17023SJohn Marino * @ingroup tr1_random_distributions
1561*e4b17023SJohn Marino * @{
1562*e4b17023SJohn Marino */
1563*e4b17023SJohn Marino
1564*e4b17023SJohn Marino /**
1565*e4b17023SJohn Marino * @brief Uniform discrete distribution for random numbers.
1566*e4b17023SJohn Marino * A discrete random distribution on the range @f$[min, max]@f$ with equal
1567*e4b17023SJohn Marino * probability throughout the range.
1568*e4b17023SJohn Marino */
1569*e4b17023SJohn Marino template<typename _IntType = int>
1570*e4b17023SJohn Marino class uniform_int
1571*e4b17023SJohn Marino {
1572*e4b17023SJohn Marino __glibcxx_class_requires(_IntType, _IntegerConcept)
1573*e4b17023SJohn Marino
1574*e4b17023SJohn Marino public:
1575*e4b17023SJohn Marino /** The type of the parameters of the distribution. */
1576*e4b17023SJohn Marino typedef _IntType input_type;
1577*e4b17023SJohn Marino /** The type of the range of the distribution. */
1578*e4b17023SJohn Marino typedef _IntType result_type;
1579*e4b17023SJohn Marino
1580*e4b17023SJohn Marino public:
1581*e4b17023SJohn Marino /**
1582*e4b17023SJohn Marino * Constructs a uniform distribution object.
1583*e4b17023SJohn Marino */
1584*e4b17023SJohn Marino explicit
1585*e4b17023SJohn Marino uniform_int(_IntType __min = 0, _IntType __max = 9)
1586*e4b17023SJohn Marino : _M_min(__min), _M_max(__max)
1587*e4b17023SJohn Marino {
1588*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_min <= _M_max);
1589*e4b17023SJohn Marino }
1590*e4b17023SJohn Marino
1591*e4b17023SJohn Marino /**
1592*e4b17023SJohn Marino * Gets the inclusive lower bound of the distribution range.
1593*e4b17023SJohn Marino */
1594*e4b17023SJohn Marino result_type
1595*e4b17023SJohn Marino min() const
1596*e4b17023SJohn Marino { return _M_min; }
1597*e4b17023SJohn Marino
1598*e4b17023SJohn Marino /**
1599*e4b17023SJohn Marino * Gets the inclusive upper bound of the distribution range.
1600*e4b17023SJohn Marino */
1601*e4b17023SJohn Marino result_type
1602*e4b17023SJohn Marino max() const
1603*e4b17023SJohn Marino { return _M_max; }
1604*e4b17023SJohn Marino
1605*e4b17023SJohn Marino /**
1606*e4b17023SJohn Marino * Resets the distribution state.
1607*e4b17023SJohn Marino *
1608*e4b17023SJohn Marino * Does nothing for the uniform integer distribution.
1609*e4b17023SJohn Marino */
1610*e4b17023SJohn Marino void
1611*e4b17023SJohn Marino reset() { }
1612*e4b17023SJohn Marino
1613*e4b17023SJohn Marino /**
1614*e4b17023SJohn Marino * Gets a uniformly distributed random number in the range
1615*e4b17023SJohn Marino * @f$(min, max)@f$.
1616*e4b17023SJohn Marino */
1617*e4b17023SJohn Marino template<typename _UniformRandomNumberGenerator>
1618*e4b17023SJohn Marino result_type
1619*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng)
1620*e4b17023SJohn Marino {
1621*e4b17023SJohn Marino typedef typename _UniformRandomNumberGenerator::result_type
1622*e4b17023SJohn Marino _UResult_type;
1623*e4b17023SJohn Marino return _M_call(__urng, _M_min, _M_max,
1624*e4b17023SJohn Marino typename is_integral<_UResult_type>::type());
1625*e4b17023SJohn Marino }
1626*e4b17023SJohn Marino
1627*e4b17023SJohn Marino /**
1628*e4b17023SJohn Marino * Gets a uniform random number in the range @f$[0, n)@f$.
1629*e4b17023SJohn Marino *
1630*e4b17023SJohn Marino * This function is aimed at use with std::random_shuffle.
1631*e4b17023SJohn Marino */
1632*e4b17023SJohn Marino template<typename _UniformRandomNumberGenerator>
1633*e4b17023SJohn Marino result_type
1634*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng, result_type __n)
1635*e4b17023SJohn Marino {
1636*e4b17023SJohn Marino typedef typename _UniformRandomNumberGenerator::result_type
1637*e4b17023SJohn Marino _UResult_type;
1638*e4b17023SJohn Marino return _M_call(__urng, 0, __n - 1,
1639*e4b17023SJohn Marino typename is_integral<_UResult_type>::type());
1640*e4b17023SJohn Marino }
1641*e4b17023SJohn Marino
1642*e4b17023SJohn Marino /**
1643*e4b17023SJohn Marino * Inserts a %uniform_int random number distribution @p __x into the
1644*e4b17023SJohn Marino * output stream @p os.
1645*e4b17023SJohn Marino *
1646*e4b17023SJohn Marino * @param __os An output stream.
1647*e4b17023SJohn Marino * @param __x A %uniform_int random number distribution.
1648*e4b17023SJohn Marino *
1649*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1650*e4b17023SJohn Marino * an error state.
1651*e4b17023SJohn Marino */
1652*e4b17023SJohn Marino template<typename _IntType1, typename _CharT, typename _Traits>
1653*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1654*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1655*e4b17023SJohn Marino const uniform_int<_IntType1>& __x);
1656*e4b17023SJohn Marino
1657*e4b17023SJohn Marino /**
1658*e4b17023SJohn Marino * Extracts a %uniform_int random number distribution
1659*e4b17023SJohn Marino * @p __x from the input stream @p __is.
1660*e4b17023SJohn Marino *
1661*e4b17023SJohn Marino * @param __is An input stream.
1662*e4b17023SJohn Marino * @param __x A %uniform_int random number generator engine.
1663*e4b17023SJohn Marino *
1664*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
1665*e4b17023SJohn Marino */
1666*e4b17023SJohn Marino template<typename _IntType1, typename _CharT, typename _Traits>
1667*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1668*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1669*e4b17023SJohn Marino uniform_int<_IntType1>& __x);
1670*e4b17023SJohn Marino
1671*e4b17023SJohn Marino private:
1672*e4b17023SJohn Marino template<typename _UniformRandomNumberGenerator>
1673*e4b17023SJohn Marino result_type
1674*e4b17023SJohn Marino _M_call(_UniformRandomNumberGenerator& __urng,
1675*e4b17023SJohn Marino result_type __min, result_type __max, true_type);
1676*e4b17023SJohn Marino
1677*e4b17023SJohn Marino template<typename _UniformRandomNumberGenerator>
1678*e4b17023SJohn Marino result_type
1679*e4b17023SJohn Marino _M_call(_UniformRandomNumberGenerator& __urng,
1680*e4b17023SJohn Marino result_type __min, result_type __max, false_type)
1681*e4b17023SJohn Marino {
1682*e4b17023SJohn Marino return result_type((__urng() - __urng.min())
1683*e4b17023SJohn Marino / (__urng.max() - __urng.min())
1684*e4b17023SJohn Marino * (__max - __min + 1)) + __min;
1685*e4b17023SJohn Marino }
1686*e4b17023SJohn Marino
1687*e4b17023SJohn Marino _IntType _M_min;
1688*e4b17023SJohn Marino _IntType _M_max;
1689*e4b17023SJohn Marino };
1690*e4b17023SJohn Marino
1691*e4b17023SJohn Marino
1692*e4b17023SJohn Marino /**
1693*e4b17023SJohn Marino * @brief A Bernoulli random number distribution.
1694*e4b17023SJohn Marino *
1695*e4b17023SJohn Marino * Generates a sequence of true and false values with likelihood @f$ p @f$
1696*e4b17023SJohn Marino * that true will come up and @f$ (1 - p) @f$ that false will appear.
1697*e4b17023SJohn Marino */
1698*e4b17023SJohn Marino class bernoulli_distribution
1699*e4b17023SJohn Marino {
1700*e4b17023SJohn Marino public:
1701*e4b17023SJohn Marino typedef int input_type;
1702*e4b17023SJohn Marino typedef bool result_type;
1703*e4b17023SJohn Marino
1704*e4b17023SJohn Marino public:
1705*e4b17023SJohn Marino /**
1706*e4b17023SJohn Marino * Constructs a Bernoulli distribution with likelihood @p p.
1707*e4b17023SJohn Marino *
1708*e4b17023SJohn Marino * @param __p [IN] The likelihood of a true result being returned. Must
1709*e4b17023SJohn Marino * be in the interval @f$ [0, 1] @f$.
1710*e4b17023SJohn Marino */
1711*e4b17023SJohn Marino explicit
1712*e4b17023SJohn Marino bernoulli_distribution(double __p = 0.5)
1713*e4b17023SJohn Marino : _M_p(__p)
1714*e4b17023SJohn Marino {
1715*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT((_M_p >= 0.0) && (_M_p <= 1.0));
1716*e4b17023SJohn Marino }
1717*e4b17023SJohn Marino
1718*e4b17023SJohn Marino /**
1719*e4b17023SJohn Marino * Gets the @p p parameter of the distribution.
1720*e4b17023SJohn Marino */
1721*e4b17023SJohn Marino double
1722*e4b17023SJohn Marino p() const
1723*e4b17023SJohn Marino { return _M_p; }
1724*e4b17023SJohn Marino
1725*e4b17023SJohn Marino /**
1726*e4b17023SJohn Marino * Resets the distribution state.
1727*e4b17023SJohn Marino *
1728*e4b17023SJohn Marino * Does nothing for a Bernoulli distribution.
1729*e4b17023SJohn Marino */
1730*e4b17023SJohn Marino void
1731*e4b17023SJohn Marino reset() { }
1732*e4b17023SJohn Marino
1733*e4b17023SJohn Marino /**
1734*e4b17023SJohn Marino * Gets the next value in the Bernoullian sequence.
1735*e4b17023SJohn Marino */
1736*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
1737*e4b17023SJohn Marino result_type
1738*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng)
1739*e4b17023SJohn Marino {
1740*e4b17023SJohn Marino if ((__urng() - __urng.min()) < _M_p * (__urng.max() - __urng.min()))
1741*e4b17023SJohn Marino return true;
1742*e4b17023SJohn Marino return false;
1743*e4b17023SJohn Marino }
1744*e4b17023SJohn Marino
1745*e4b17023SJohn Marino /**
1746*e4b17023SJohn Marino * Inserts a %bernoulli_distribution random number distribution
1747*e4b17023SJohn Marino * @p __x into the output stream @p __os.
1748*e4b17023SJohn Marino *
1749*e4b17023SJohn Marino * @param __os An output stream.
1750*e4b17023SJohn Marino * @param __x A %bernoulli_distribution random number distribution.
1751*e4b17023SJohn Marino *
1752*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1753*e4b17023SJohn Marino * an error state.
1754*e4b17023SJohn Marino */
1755*e4b17023SJohn Marino template<typename _CharT, typename _Traits>
1756*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1757*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1758*e4b17023SJohn Marino const bernoulli_distribution& __x);
1759*e4b17023SJohn Marino
1760*e4b17023SJohn Marino /**
1761*e4b17023SJohn Marino * Extracts a %bernoulli_distribution random number distribution
1762*e4b17023SJohn Marino * @p __x from the input stream @p __is.
1763*e4b17023SJohn Marino *
1764*e4b17023SJohn Marino * @param __is An input stream.
1765*e4b17023SJohn Marino * @param __x A %bernoulli_distribution random number generator engine.
1766*e4b17023SJohn Marino *
1767*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
1768*e4b17023SJohn Marino */
1769*e4b17023SJohn Marino template<typename _CharT, typename _Traits>
1770*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1771*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1772*e4b17023SJohn Marino bernoulli_distribution& __x)
1773*e4b17023SJohn Marino { return __is >> __x._M_p; }
1774*e4b17023SJohn Marino
1775*e4b17023SJohn Marino private:
1776*e4b17023SJohn Marino double _M_p;
1777*e4b17023SJohn Marino };
1778*e4b17023SJohn Marino
1779*e4b17023SJohn Marino
1780*e4b17023SJohn Marino /**
1781*e4b17023SJohn Marino * @brief A discrete geometric random number distribution.
1782*e4b17023SJohn Marino *
1783*e4b17023SJohn Marino * The formula for the geometric probability mass function is
1784*e4b17023SJohn Marino * @f$ p(i) = (1 - p)p^{i-1} @f$ where @f$ p @f$ is the parameter of the
1785*e4b17023SJohn Marino * distribution.
1786*e4b17023SJohn Marino */
1787*e4b17023SJohn Marino template<typename _IntType = int, typename _RealType = double>
1788*e4b17023SJohn Marino class geometric_distribution
1789*e4b17023SJohn Marino {
1790*e4b17023SJohn Marino public:
1791*e4b17023SJohn Marino // types
1792*e4b17023SJohn Marino typedef _RealType input_type;
1793*e4b17023SJohn Marino typedef _IntType result_type;
1794*e4b17023SJohn Marino
1795*e4b17023SJohn Marino // constructors and member function
1796*e4b17023SJohn Marino explicit
1797*e4b17023SJohn Marino geometric_distribution(const _RealType& __p = _RealType(0.5))
1798*e4b17023SJohn Marino : _M_p(__p)
1799*e4b17023SJohn Marino {
1800*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT((_M_p > 0.0) && (_M_p < 1.0));
1801*e4b17023SJohn Marino _M_initialize();
1802*e4b17023SJohn Marino }
1803*e4b17023SJohn Marino
1804*e4b17023SJohn Marino /**
1805*e4b17023SJohn Marino * Gets the distribution parameter @p p.
1806*e4b17023SJohn Marino */
1807*e4b17023SJohn Marino _RealType
1808*e4b17023SJohn Marino p() const
1809*e4b17023SJohn Marino { return _M_p; }
1810*e4b17023SJohn Marino
1811*e4b17023SJohn Marino void
1812*e4b17023SJohn Marino reset() { }
1813*e4b17023SJohn Marino
1814*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
1815*e4b17023SJohn Marino result_type
1816*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng);
1817*e4b17023SJohn Marino
1818*e4b17023SJohn Marino /**
1819*e4b17023SJohn Marino * Inserts a %geometric_distribution random number distribution
1820*e4b17023SJohn Marino * @p __x into the output stream @p __os.
1821*e4b17023SJohn Marino *
1822*e4b17023SJohn Marino * @param __os An output stream.
1823*e4b17023SJohn Marino * @param __x A %geometric_distribution random number distribution.
1824*e4b17023SJohn Marino *
1825*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1826*e4b17023SJohn Marino * an error state.
1827*e4b17023SJohn Marino */
1828*e4b17023SJohn Marino template<typename _IntType1, typename _RealType1,
1829*e4b17023SJohn Marino typename _CharT, typename _Traits>
1830*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1831*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1832*e4b17023SJohn Marino const geometric_distribution<_IntType1, _RealType1>& __x);
1833*e4b17023SJohn Marino
1834*e4b17023SJohn Marino /**
1835*e4b17023SJohn Marino * Extracts a %geometric_distribution random number distribution
1836*e4b17023SJohn Marino * @p __x from the input stream @p __is.
1837*e4b17023SJohn Marino *
1838*e4b17023SJohn Marino * @param __is An input stream.
1839*e4b17023SJohn Marino * @param __x A %geometric_distribution random number generator engine.
1840*e4b17023SJohn Marino *
1841*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
1842*e4b17023SJohn Marino */
1843*e4b17023SJohn Marino template<typename _CharT, typename _Traits>
1844*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1845*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1846*e4b17023SJohn Marino geometric_distribution& __x)
1847*e4b17023SJohn Marino {
1848*e4b17023SJohn Marino __is >> __x._M_p;
1849*e4b17023SJohn Marino __x._M_initialize();
1850*e4b17023SJohn Marino return __is;
1851*e4b17023SJohn Marino }
1852*e4b17023SJohn Marino
1853*e4b17023SJohn Marino private:
1854*e4b17023SJohn Marino void
1855*e4b17023SJohn Marino _M_initialize()
1856*e4b17023SJohn Marino { _M_log_p = std::log(_M_p); }
1857*e4b17023SJohn Marino
1858*e4b17023SJohn Marino _RealType _M_p;
1859*e4b17023SJohn Marino _RealType _M_log_p;
1860*e4b17023SJohn Marino };
1861*e4b17023SJohn Marino
1862*e4b17023SJohn Marino
1863*e4b17023SJohn Marino template<typename _RealType>
1864*e4b17023SJohn Marino class normal_distribution;
1865*e4b17023SJohn Marino
1866*e4b17023SJohn Marino /**
1867*e4b17023SJohn Marino * @brief A discrete Poisson random number distribution.
1868*e4b17023SJohn Marino *
1869*e4b17023SJohn Marino * The formula for the Poisson probability mass function is
1870*e4b17023SJohn Marino * @f$ p(i) = \frac{mean^i}{i!} e^{-mean} @f$ where @f$ mean @f$ is the
1871*e4b17023SJohn Marino * parameter of the distribution.
1872*e4b17023SJohn Marino */
1873*e4b17023SJohn Marino template<typename _IntType = int, typename _RealType = double>
1874*e4b17023SJohn Marino class poisson_distribution
1875*e4b17023SJohn Marino {
1876*e4b17023SJohn Marino public:
1877*e4b17023SJohn Marino // types
1878*e4b17023SJohn Marino typedef _RealType input_type;
1879*e4b17023SJohn Marino typedef _IntType result_type;
1880*e4b17023SJohn Marino
1881*e4b17023SJohn Marino // constructors and member function
1882*e4b17023SJohn Marino explicit
1883*e4b17023SJohn Marino poisson_distribution(const _RealType& __mean = _RealType(1))
1884*e4b17023SJohn Marino : _M_mean(__mean), _M_nd()
1885*e4b17023SJohn Marino {
1886*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_mean > 0.0);
1887*e4b17023SJohn Marino _M_initialize();
1888*e4b17023SJohn Marino }
1889*e4b17023SJohn Marino
1890*e4b17023SJohn Marino /**
1891*e4b17023SJohn Marino * Gets the distribution parameter @p mean.
1892*e4b17023SJohn Marino */
1893*e4b17023SJohn Marino _RealType
1894*e4b17023SJohn Marino mean() const
1895*e4b17023SJohn Marino { return _M_mean; }
1896*e4b17023SJohn Marino
1897*e4b17023SJohn Marino void
1898*e4b17023SJohn Marino reset()
1899*e4b17023SJohn Marino { _M_nd.reset(); }
1900*e4b17023SJohn Marino
1901*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
1902*e4b17023SJohn Marino result_type
1903*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng);
1904*e4b17023SJohn Marino
1905*e4b17023SJohn Marino /**
1906*e4b17023SJohn Marino * Inserts a %poisson_distribution random number distribution
1907*e4b17023SJohn Marino * @p __x into the output stream @p __os.
1908*e4b17023SJohn Marino *
1909*e4b17023SJohn Marino * @param __os An output stream.
1910*e4b17023SJohn Marino * @param __x A %poisson_distribution random number distribution.
1911*e4b17023SJohn Marino *
1912*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
1913*e4b17023SJohn Marino * an error state.
1914*e4b17023SJohn Marino */
1915*e4b17023SJohn Marino template<typename _IntType1, typename _RealType1,
1916*e4b17023SJohn Marino typename _CharT, typename _Traits>
1917*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
1918*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
1919*e4b17023SJohn Marino const poisson_distribution<_IntType1, _RealType1>& __x);
1920*e4b17023SJohn Marino
1921*e4b17023SJohn Marino /**
1922*e4b17023SJohn Marino * Extracts a %poisson_distribution random number distribution
1923*e4b17023SJohn Marino * @p __x from the input stream @p __is.
1924*e4b17023SJohn Marino *
1925*e4b17023SJohn Marino * @param __is An input stream.
1926*e4b17023SJohn Marino * @param __x A %poisson_distribution random number generator engine.
1927*e4b17023SJohn Marino *
1928*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
1929*e4b17023SJohn Marino */
1930*e4b17023SJohn Marino template<typename _IntType1, typename _RealType1,
1931*e4b17023SJohn Marino typename _CharT, typename _Traits>
1932*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
1933*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
1934*e4b17023SJohn Marino poisson_distribution<_IntType1, _RealType1>& __x);
1935*e4b17023SJohn Marino
1936*e4b17023SJohn Marino private:
1937*e4b17023SJohn Marino void
1938*e4b17023SJohn Marino _M_initialize();
1939*e4b17023SJohn Marino
1940*e4b17023SJohn Marino // NB: Unused when _GLIBCXX_USE_C99_MATH_TR1 is undefined.
1941*e4b17023SJohn Marino normal_distribution<_RealType> _M_nd;
1942*e4b17023SJohn Marino
1943*e4b17023SJohn Marino _RealType _M_mean;
1944*e4b17023SJohn Marino
1945*e4b17023SJohn Marino // Hosts either log(mean) or the threshold of the simple method.
1946*e4b17023SJohn Marino _RealType _M_lm_thr;
1947*e4b17023SJohn Marino #if _GLIBCXX_USE_C99_MATH_TR1
1948*e4b17023SJohn Marino _RealType _M_lfm, _M_sm, _M_d, _M_scx, _M_1cx, _M_c2b, _M_cb;
1949*e4b17023SJohn Marino #endif
1950*e4b17023SJohn Marino };
1951*e4b17023SJohn Marino
1952*e4b17023SJohn Marino
1953*e4b17023SJohn Marino /**
1954*e4b17023SJohn Marino * @brief A discrete binomial random number distribution.
1955*e4b17023SJohn Marino *
1956*e4b17023SJohn Marino * The formula for the binomial probability mass function is
1957*e4b17023SJohn Marino * @f$ p(i) = \binom{n}{i} p^i (1 - p)^{t - i} @f$ where @f$ t @f$
1958*e4b17023SJohn Marino * and @f$ p @f$ are the parameters of the distribution.
1959*e4b17023SJohn Marino */
1960*e4b17023SJohn Marino template<typename _IntType = int, typename _RealType = double>
1961*e4b17023SJohn Marino class binomial_distribution
1962*e4b17023SJohn Marino {
1963*e4b17023SJohn Marino public:
1964*e4b17023SJohn Marino // types
1965*e4b17023SJohn Marino typedef _RealType input_type;
1966*e4b17023SJohn Marino typedef _IntType result_type;
1967*e4b17023SJohn Marino
1968*e4b17023SJohn Marino // constructors and member function
1969*e4b17023SJohn Marino explicit
1970*e4b17023SJohn Marino binomial_distribution(_IntType __t = 1,
1971*e4b17023SJohn Marino const _RealType& __p = _RealType(0.5))
1972*e4b17023SJohn Marino : _M_t(__t), _M_p(__p), _M_nd()
1973*e4b17023SJohn Marino {
1974*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT((_M_t >= 0) && (_M_p >= 0.0) && (_M_p <= 1.0));
1975*e4b17023SJohn Marino _M_initialize();
1976*e4b17023SJohn Marino }
1977*e4b17023SJohn Marino
1978*e4b17023SJohn Marino /**
1979*e4b17023SJohn Marino * Gets the distribution @p t parameter.
1980*e4b17023SJohn Marino */
1981*e4b17023SJohn Marino _IntType
1982*e4b17023SJohn Marino t() const
1983*e4b17023SJohn Marino { return _M_t; }
1984*e4b17023SJohn Marino
1985*e4b17023SJohn Marino /**
1986*e4b17023SJohn Marino * Gets the distribution @p p parameter.
1987*e4b17023SJohn Marino */
1988*e4b17023SJohn Marino _RealType
1989*e4b17023SJohn Marino p() const
1990*e4b17023SJohn Marino { return _M_p; }
1991*e4b17023SJohn Marino
1992*e4b17023SJohn Marino void
1993*e4b17023SJohn Marino reset()
1994*e4b17023SJohn Marino { _M_nd.reset(); }
1995*e4b17023SJohn Marino
1996*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
1997*e4b17023SJohn Marino result_type
1998*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng);
1999*e4b17023SJohn Marino
2000*e4b17023SJohn Marino /**
2001*e4b17023SJohn Marino * Inserts a %binomial_distribution random number distribution
2002*e4b17023SJohn Marino * @p __x into the output stream @p __os.
2003*e4b17023SJohn Marino *
2004*e4b17023SJohn Marino * @param __os An output stream.
2005*e4b17023SJohn Marino * @param __x A %binomial_distribution random number distribution.
2006*e4b17023SJohn Marino *
2007*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
2008*e4b17023SJohn Marino * an error state.
2009*e4b17023SJohn Marino */
2010*e4b17023SJohn Marino template<typename _IntType1, typename _RealType1,
2011*e4b17023SJohn Marino typename _CharT, typename _Traits>
2012*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
2013*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
2014*e4b17023SJohn Marino const binomial_distribution<_IntType1, _RealType1>& __x);
2015*e4b17023SJohn Marino
2016*e4b17023SJohn Marino /**
2017*e4b17023SJohn Marino * Extracts a %binomial_distribution random number distribution
2018*e4b17023SJohn Marino * @p __x from the input stream @p __is.
2019*e4b17023SJohn Marino *
2020*e4b17023SJohn Marino * @param __is An input stream.
2021*e4b17023SJohn Marino * @param __x A %binomial_distribution random number generator engine.
2022*e4b17023SJohn Marino *
2023*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
2024*e4b17023SJohn Marino */
2025*e4b17023SJohn Marino template<typename _IntType1, typename _RealType1,
2026*e4b17023SJohn Marino typename _CharT, typename _Traits>
2027*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
2028*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
2029*e4b17023SJohn Marino binomial_distribution<_IntType1, _RealType1>& __x);
2030*e4b17023SJohn Marino
2031*e4b17023SJohn Marino private:
2032*e4b17023SJohn Marino void
2033*e4b17023SJohn Marino _M_initialize();
2034*e4b17023SJohn Marino
2035*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
2036*e4b17023SJohn Marino result_type
2037*e4b17023SJohn Marino _M_waiting(_UniformRandomNumberGenerator& __urng, _IntType __t);
2038*e4b17023SJohn Marino
2039*e4b17023SJohn Marino // NB: Unused when _GLIBCXX_USE_C99_MATH_TR1 is undefined.
2040*e4b17023SJohn Marino normal_distribution<_RealType> _M_nd;
2041*e4b17023SJohn Marino
2042*e4b17023SJohn Marino _RealType _M_q;
2043*e4b17023SJohn Marino #if _GLIBCXX_USE_C99_MATH_TR1
2044*e4b17023SJohn Marino _RealType _M_d1, _M_d2, _M_s1, _M_s2, _M_c,
2045*e4b17023SJohn Marino _M_a1, _M_a123, _M_s, _M_lf, _M_lp1p;
2046*e4b17023SJohn Marino #endif
2047*e4b17023SJohn Marino _RealType _M_p;
2048*e4b17023SJohn Marino _IntType _M_t;
2049*e4b17023SJohn Marino
2050*e4b17023SJohn Marino bool _M_easy;
2051*e4b17023SJohn Marino };
2052*e4b17023SJohn Marino
2053*e4b17023SJohn Marino /* @} */ // group tr1_random_distributions_discrete
2054*e4b17023SJohn Marino
2055*e4b17023SJohn Marino /**
2056*e4b17023SJohn Marino * @addtogroup tr1_random_distributions_continuous Continuous Distributions
2057*e4b17023SJohn Marino * @ingroup tr1_random_distributions
2058*e4b17023SJohn Marino * @{
2059*e4b17023SJohn Marino */
2060*e4b17023SJohn Marino
2061*e4b17023SJohn Marino /**
2062*e4b17023SJohn Marino * @brief Uniform continuous distribution for random numbers.
2063*e4b17023SJohn Marino *
2064*e4b17023SJohn Marino * A continuous random distribution on the range [min, max) with equal
2065*e4b17023SJohn Marino * probability throughout the range. The URNG should be real-valued and
2066*e4b17023SJohn Marino * deliver number in the range [0, 1).
2067*e4b17023SJohn Marino */
2068*e4b17023SJohn Marino template<typename _RealType = double>
2069*e4b17023SJohn Marino class uniform_real
2070*e4b17023SJohn Marino {
2071*e4b17023SJohn Marino public:
2072*e4b17023SJohn Marino // types
2073*e4b17023SJohn Marino typedef _RealType input_type;
2074*e4b17023SJohn Marino typedef _RealType result_type;
2075*e4b17023SJohn Marino
2076*e4b17023SJohn Marino public:
2077*e4b17023SJohn Marino /**
2078*e4b17023SJohn Marino * Constructs a uniform_real object.
2079*e4b17023SJohn Marino *
2080*e4b17023SJohn Marino * @param __min [IN] The lower bound of the distribution.
2081*e4b17023SJohn Marino * @param __max [IN] The upper bound of the distribution.
2082*e4b17023SJohn Marino */
2083*e4b17023SJohn Marino explicit
2084*e4b17023SJohn Marino uniform_real(_RealType __min = _RealType(0),
2085*e4b17023SJohn Marino _RealType __max = _RealType(1))
2086*e4b17023SJohn Marino : _M_min(__min), _M_max(__max)
2087*e4b17023SJohn Marino {
2088*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_min <= _M_max);
2089*e4b17023SJohn Marino }
2090*e4b17023SJohn Marino
2091*e4b17023SJohn Marino result_type
2092*e4b17023SJohn Marino min() const
2093*e4b17023SJohn Marino { return _M_min; }
2094*e4b17023SJohn Marino
2095*e4b17023SJohn Marino result_type
2096*e4b17023SJohn Marino max() const
2097*e4b17023SJohn Marino { return _M_max; }
2098*e4b17023SJohn Marino
2099*e4b17023SJohn Marino void
2100*e4b17023SJohn Marino reset() { }
2101*e4b17023SJohn Marino
2102*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
2103*e4b17023SJohn Marino result_type
2104*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng)
2105*e4b17023SJohn Marino { return (__urng() * (_M_max - _M_min)) + _M_min; }
2106*e4b17023SJohn Marino
2107*e4b17023SJohn Marino /**
2108*e4b17023SJohn Marino * Inserts a %uniform_real random number distribution @p __x into the
2109*e4b17023SJohn Marino * output stream @p __os.
2110*e4b17023SJohn Marino *
2111*e4b17023SJohn Marino * @param __os An output stream.
2112*e4b17023SJohn Marino * @param __x A %uniform_real random number distribution.
2113*e4b17023SJohn Marino *
2114*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
2115*e4b17023SJohn Marino * an error state.
2116*e4b17023SJohn Marino */
2117*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2118*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
2119*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
2120*e4b17023SJohn Marino const uniform_real<_RealType1>& __x);
2121*e4b17023SJohn Marino
2122*e4b17023SJohn Marino /**
2123*e4b17023SJohn Marino * Extracts a %uniform_real random number distribution
2124*e4b17023SJohn Marino * @p __x from the input stream @p __is.
2125*e4b17023SJohn Marino *
2126*e4b17023SJohn Marino * @param __is An input stream.
2127*e4b17023SJohn Marino * @param __x A %uniform_real random number generator engine.
2128*e4b17023SJohn Marino *
2129*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
2130*e4b17023SJohn Marino */
2131*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2132*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
2133*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
2134*e4b17023SJohn Marino uniform_real<_RealType1>& __x);
2135*e4b17023SJohn Marino
2136*e4b17023SJohn Marino private:
2137*e4b17023SJohn Marino _RealType _M_min;
2138*e4b17023SJohn Marino _RealType _M_max;
2139*e4b17023SJohn Marino };
2140*e4b17023SJohn Marino
2141*e4b17023SJohn Marino
2142*e4b17023SJohn Marino /**
2143*e4b17023SJohn Marino * @brief An exponential continuous distribution for random numbers.
2144*e4b17023SJohn Marino *
2145*e4b17023SJohn Marino * The formula for the exponential probability mass function is
2146*e4b17023SJohn Marino * @f$ p(x) = \lambda e^{-\lambda x} @f$.
2147*e4b17023SJohn Marino *
2148*e4b17023SJohn Marino * <table border=1 cellpadding=10 cellspacing=0>
2149*e4b17023SJohn Marino * <caption align=top>Distribution Statistics</caption>
2150*e4b17023SJohn Marino * <tr><td>Mean</td><td>@f$ \frac{1}{\lambda} @f$</td></tr>
2151*e4b17023SJohn Marino * <tr><td>Median</td><td>@f$ \frac{\ln 2}{\lambda} @f$</td></tr>
2152*e4b17023SJohn Marino * <tr><td>Mode</td><td>@f$ zero @f$</td></tr>
2153*e4b17023SJohn Marino * <tr><td>Range</td><td>@f$[0, \infty]@f$</td></tr>
2154*e4b17023SJohn Marino * <tr><td>Standard Deviation</td><td>@f$ \frac{1}{\lambda} @f$</td></tr>
2155*e4b17023SJohn Marino * </table>
2156*e4b17023SJohn Marino */
2157*e4b17023SJohn Marino template<typename _RealType = double>
2158*e4b17023SJohn Marino class exponential_distribution
2159*e4b17023SJohn Marino {
2160*e4b17023SJohn Marino public:
2161*e4b17023SJohn Marino // types
2162*e4b17023SJohn Marino typedef _RealType input_type;
2163*e4b17023SJohn Marino typedef _RealType result_type;
2164*e4b17023SJohn Marino
2165*e4b17023SJohn Marino public:
2166*e4b17023SJohn Marino /**
2167*e4b17023SJohn Marino * Constructs an exponential distribution with inverse scale parameter
2168*e4b17023SJohn Marino * @f$ \lambda @f$.
2169*e4b17023SJohn Marino */
2170*e4b17023SJohn Marino explicit
2171*e4b17023SJohn Marino exponential_distribution(const result_type& __lambda = result_type(1))
2172*e4b17023SJohn Marino : _M_lambda(__lambda)
2173*e4b17023SJohn Marino {
2174*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_lambda > 0);
2175*e4b17023SJohn Marino }
2176*e4b17023SJohn Marino
2177*e4b17023SJohn Marino /**
2178*e4b17023SJohn Marino * Gets the inverse scale parameter of the distribution.
2179*e4b17023SJohn Marino */
2180*e4b17023SJohn Marino _RealType
2181*e4b17023SJohn Marino lambda() const
2182*e4b17023SJohn Marino { return _M_lambda; }
2183*e4b17023SJohn Marino
2184*e4b17023SJohn Marino /**
2185*e4b17023SJohn Marino * Resets the distribution.
2186*e4b17023SJohn Marino *
2187*e4b17023SJohn Marino * Has no effect on exponential distributions.
2188*e4b17023SJohn Marino */
2189*e4b17023SJohn Marino void
2190*e4b17023SJohn Marino reset() { }
2191*e4b17023SJohn Marino
2192*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
2193*e4b17023SJohn Marino result_type
2194*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng)
2195*e4b17023SJohn Marino { return -std::log(__urng()) / _M_lambda; }
2196*e4b17023SJohn Marino
2197*e4b17023SJohn Marino /**
2198*e4b17023SJohn Marino * Inserts a %exponential_distribution random number distribution
2199*e4b17023SJohn Marino * @p __x into the output stream @p __os.
2200*e4b17023SJohn Marino *
2201*e4b17023SJohn Marino * @param __os An output stream.
2202*e4b17023SJohn Marino * @param __x A %exponential_distribution random number distribution.
2203*e4b17023SJohn Marino *
2204*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
2205*e4b17023SJohn Marino * an error state.
2206*e4b17023SJohn Marino */
2207*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2208*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
2209*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
2210*e4b17023SJohn Marino const exponential_distribution<_RealType1>& __x);
2211*e4b17023SJohn Marino
2212*e4b17023SJohn Marino /**
2213*e4b17023SJohn Marino * Extracts a %exponential_distribution random number distribution
2214*e4b17023SJohn Marino * @p __x from the input stream @p __is.
2215*e4b17023SJohn Marino *
2216*e4b17023SJohn Marino * @param __is An input stream.
2217*e4b17023SJohn Marino * @param __x A %exponential_distribution random number
2218*e4b17023SJohn Marino * generator engine.
2219*e4b17023SJohn Marino *
2220*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
2221*e4b17023SJohn Marino */
2222*e4b17023SJohn Marino template<typename _CharT, typename _Traits>
2223*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
2224*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
2225*e4b17023SJohn Marino exponential_distribution& __x)
2226*e4b17023SJohn Marino { return __is >> __x._M_lambda; }
2227*e4b17023SJohn Marino
2228*e4b17023SJohn Marino private:
2229*e4b17023SJohn Marino result_type _M_lambda;
2230*e4b17023SJohn Marino };
2231*e4b17023SJohn Marino
2232*e4b17023SJohn Marino
2233*e4b17023SJohn Marino /**
2234*e4b17023SJohn Marino * @brief A normal continuous distribution for random numbers.
2235*e4b17023SJohn Marino *
2236*e4b17023SJohn Marino * The formula for the normal probability mass function is
2237*e4b17023SJohn Marino * @f$ p(x) = \frac{1}{\sigma \sqrt{2 \pi}}
2238*e4b17023SJohn Marino * e^{- \frac{{x - mean}^ {2}}{2 \sigma ^ {2}} } @f$.
2239*e4b17023SJohn Marino */
2240*e4b17023SJohn Marino template<typename _RealType = double>
2241*e4b17023SJohn Marino class normal_distribution
2242*e4b17023SJohn Marino {
2243*e4b17023SJohn Marino public:
2244*e4b17023SJohn Marino // types
2245*e4b17023SJohn Marino typedef _RealType input_type;
2246*e4b17023SJohn Marino typedef _RealType result_type;
2247*e4b17023SJohn Marino
2248*e4b17023SJohn Marino public:
2249*e4b17023SJohn Marino /**
2250*e4b17023SJohn Marino * Constructs a normal distribution with parameters @f$ mean @f$ and
2251*e4b17023SJohn Marino * @f$ \sigma @f$.
2252*e4b17023SJohn Marino */
2253*e4b17023SJohn Marino explicit
2254*e4b17023SJohn Marino normal_distribution(const result_type& __mean = result_type(0),
2255*e4b17023SJohn Marino const result_type& __sigma = result_type(1))
2256*e4b17023SJohn Marino : _M_mean(__mean), _M_sigma(__sigma), _M_saved_available(false)
2257*e4b17023SJohn Marino {
2258*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_sigma > 0);
2259*e4b17023SJohn Marino }
2260*e4b17023SJohn Marino
2261*e4b17023SJohn Marino /**
2262*e4b17023SJohn Marino * Gets the mean of the distribution.
2263*e4b17023SJohn Marino */
2264*e4b17023SJohn Marino _RealType
2265*e4b17023SJohn Marino mean() const
2266*e4b17023SJohn Marino { return _M_mean; }
2267*e4b17023SJohn Marino
2268*e4b17023SJohn Marino /**
2269*e4b17023SJohn Marino * Gets the @f$ \sigma @f$ of the distribution.
2270*e4b17023SJohn Marino */
2271*e4b17023SJohn Marino _RealType
2272*e4b17023SJohn Marino sigma() const
2273*e4b17023SJohn Marino { return _M_sigma; }
2274*e4b17023SJohn Marino
2275*e4b17023SJohn Marino /**
2276*e4b17023SJohn Marino * Resets the distribution.
2277*e4b17023SJohn Marino */
2278*e4b17023SJohn Marino void
2279*e4b17023SJohn Marino reset()
2280*e4b17023SJohn Marino { _M_saved_available = false; }
2281*e4b17023SJohn Marino
2282*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
2283*e4b17023SJohn Marino result_type
2284*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng);
2285*e4b17023SJohn Marino
2286*e4b17023SJohn Marino /**
2287*e4b17023SJohn Marino * Inserts a %normal_distribution random number distribution
2288*e4b17023SJohn Marino * @p __x into the output stream @p __os.
2289*e4b17023SJohn Marino *
2290*e4b17023SJohn Marino * @param __os An output stream.
2291*e4b17023SJohn Marino * @param __x A %normal_distribution random number distribution.
2292*e4b17023SJohn Marino *
2293*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
2294*e4b17023SJohn Marino * an error state.
2295*e4b17023SJohn Marino */
2296*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2297*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
2298*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
2299*e4b17023SJohn Marino const normal_distribution<_RealType1>& __x);
2300*e4b17023SJohn Marino
2301*e4b17023SJohn Marino /**
2302*e4b17023SJohn Marino * Extracts a %normal_distribution random number distribution
2303*e4b17023SJohn Marino * @p __x from the input stream @p __is.
2304*e4b17023SJohn Marino *
2305*e4b17023SJohn Marino * @param __is An input stream.
2306*e4b17023SJohn Marino * @param __x A %normal_distribution random number generator engine.
2307*e4b17023SJohn Marino *
2308*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
2309*e4b17023SJohn Marino */
2310*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2311*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
2312*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
2313*e4b17023SJohn Marino normal_distribution<_RealType1>& __x);
2314*e4b17023SJohn Marino
2315*e4b17023SJohn Marino private:
2316*e4b17023SJohn Marino result_type _M_mean;
2317*e4b17023SJohn Marino result_type _M_sigma;
2318*e4b17023SJohn Marino result_type _M_saved;
2319*e4b17023SJohn Marino bool _M_saved_available;
2320*e4b17023SJohn Marino };
2321*e4b17023SJohn Marino
2322*e4b17023SJohn Marino
2323*e4b17023SJohn Marino /**
2324*e4b17023SJohn Marino * @brief A gamma continuous distribution for random numbers.
2325*e4b17023SJohn Marino *
2326*e4b17023SJohn Marino * The formula for the gamma probability mass function is
2327*e4b17023SJohn Marino * @f$ p(x) = \frac{1}{\Gamma(\alpha)} x^{\alpha - 1} e^{-x} @f$.
2328*e4b17023SJohn Marino */
2329*e4b17023SJohn Marino template<typename _RealType = double>
2330*e4b17023SJohn Marino class gamma_distribution
2331*e4b17023SJohn Marino {
2332*e4b17023SJohn Marino public:
2333*e4b17023SJohn Marino // types
2334*e4b17023SJohn Marino typedef _RealType input_type;
2335*e4b17023SJohn Marino typedef _RealType result_type;
2336*e4b17023SJohn Marino
2337*e4b17023SJohn Marino public:
2338*e4b17023SJohn Marino /**
2339*e4b17023SJohn Marino * Constructs a gamma distribution with parameters @f$ \alpha @f$.
2340*e4b17023SJohn Marino */
2341*e4b17023SJohn Marino explicit
2342*e4b17023SJohn Marino gamma_distribution(const result_type& __alpha_val = result_type(1))
2343*e4b17023SJohn Marino : _M_alpha(__alpha_val)
2344*e4b17023SJohn Marino {
2345*e4b17023SJohn Marino _GLIBCXX_DEBUG_ASSERT(_M_alpha > 0);
2346*e4b17023SJohn Marino _M_initialize();
2347*e4b17023SJohn Marino }
2348*e4b17023SJohn Marino
2349*e4b17023SJohn Marino /**
2350*e4b17023SJohn Marino * Gets the @f$ \alpha @f$ of the distribution.
2351*e4b17023SJohn Marino */
2352*e4b17023SJohn Marino _RealType
2353*e4b17023SJohn Marino alpha() const
2354*e4b17023SJohn Marino { return _M_alpha; }
2355*e4b17023SJohn Marino
2356*e4b17023SJohn Marino /**
2357*e4b17023SJohn Marino * Resets the distribution.
2358*e4b17023SJohn Marino */
2359*e4b17023SJohn Marino void
2360*e4b17023SJohn Marino reset() { }
2361*e4b17023SJohn Marino
2362*e4b17023SJohn Marino template<class _UniformRandomNumberGenerator>
2363*e4b17023SJohn Marino result_type
2364*e4b17023SJohn Marino operator()(_UniformRandomNumberGenerator& __urng);
2365*e4b17023SJohn Marino
2366*e4b17023SJohn Marino /**
2367*e4b17023SJohn Marino * Inserts a %gamma_distribution random number distribution
2368*e4b17023SJohn Marino * @p __x into the output stream @p __os.
2369*e4b17023SJohn Marino *
2370*e4b17023SJohn Marino * @param __os An output stream.
2371*e4b17023SJohn Marino * @param __x A %gamma_distribution random number distribution.
2372*e4b17023SJohn Marino *
2373*e4b17023SJohn Marino * @returns The output stream with the state of @p __x inserted or in
2374*e4b17023SJohn Marino * an error state.
2375*e4b17023SJohn Marino */
2376*e4b17023SJohn Marino template<typename _RealType1, typename _CharT, typename _Traits>
2377*e4b17023SJohn Marino friend std::basic_ostream<_CharT, _Traits>&
2378*e4b17023SJohn Marino operator<<(std::basic_ostream<_CharT, _Traits>& __os,
2379*e4b17023SJohn Marino const gamma_distribution<_RealType1>& __x);
2380*e4b17023SJohn Marino
2381*e4b17023SJohn Marino /**
2382*e4b17023SJohn Marino * Extracts a %gamma_distribution random number distribution
2383*e4b17023SJohn Marino * @p __x from the input stream @p __is.
2384*e4b17023SJohn Marino *
2385*e4b17023SJohn Marino * @param __is An input stream.
2386*e4b17023SJohn Marino * @param __x A %gamma_distribution random number generator engine.
2387*e4b17023SJohn Marino *
2388*e4b17023SJohn Marino * @returns The input stream with @p __x extracted or in an error state.
2389*e4b17023SJohn Marino */
2390*e4b17023SJohn Marino template<typename _CharT, typename _Traits>
2391*e4b17023SJohn Marino friend std::basic_istream<_CharT, _Traits>&
2392*e4b17023SJohn Marino operator>>(std::basic_istream<_CharT, _Traits>& __is,
2393*e4b17023SJohn Marino gamma_distribution& __x)
2394*e4b17023SJohn Marino {
2395*e4b17023SJohn Marino __is >> __x._M_alpha;
2396*e4b17023SJohn Marino __x._M_initialize();
2397*e4b17023SJohn Marino return __is;
2398*e4b17023SJohn Marino }
2399*e4b17023SJohn Marino
2400*e4b17023SJohn Marino private:
2401*e4b17023SJohn Marino void
2402*e4b17023SJohn Marino _M_initialize();
2403*e4b17023SJohn Marino
2404*e4b17023SJohn Marino result_type _M_alpha;
2405*e4b17023SJohn Marino
2406*e4b17023SJohn Marino // Hosts either lambda of GB or d of modified Vaduva's.
2407*e4b17023SJohn Marino result_type _M_l_d;
2408*e4b17023SJohn Marino };
2409*e4b17023SJohn Marino
2410*e4b17023SJohn Marino /* @} */ // group tr1_random_distributions_continuous
2411*e4b17023SJohn Marino /* @} */ // group tr1_random_distributions
2412*e4b17023SJohn Marino /* @} */ // group tr1_random
2413*e4b17023SJohn Marino _GLIBCXX_END_NAMESPACE_VERSION
2414*e4b17023SJohn Marino }
2415*e4b17023SJohn Marino }
2416*e4b17023SJohn Marino
2417*e4b17023SJohn Marino #endif // _GLIBCXX_TR1_RANDOM_H
2418