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RandomNumberDistribution_Encapsulation.cpp@ 52575c

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Last change on this file since 52575c was 0aa122, checked in by Frederik Heber <heber@…>, 13 years ago
Updated all source files's copyright note to current year 2012.
Property mode set to `100644`
File size: 10.2 KB

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1	/*
2	* Project: MoleCuilder
3	* Description: creates and alters molecular systems
4	* Copyright (C) 2010-2012 University of Bonn. All rights reserved.
5	* Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6	*/
7
8	/*
9	* \file RandomNumberDistribution_Encapsulation_impl.hpp
10	*
11	* Herein we place specializations of specific functions for specific distributions.
12	*
13	* Created on: Jan 5, 2011
14	* Author: heber
15	*/
16
17	// include config.h
18	#ifdef HAVE_CONFIG_H
19	#include <config.h>
20	#endif
21
22	#include "CodePatterns/MemDebug.hpp"
23
24	#include <limits>
25
26	#include "RandomNumberDistribution_Encapsulation.hpp"
27
28	/* ========= manipulatedclone() ================ */
29
30	template <>
31	RandomNumberDistribution_Encapsulation< boost::uniform_smallint<> >::
32	RandomNumberDistribution_Encapsulation (const RandomNumberDistribution_Parameters&_params) :
33	distribution_type(_params.min, _params.max)
34	{}
35
36	template <>
37	RandomNumberDistribution_Encapsulation< boost::uniform_int<> >::
38	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
39	distribution_type(_params.min, _params.max)
40	{}
41
42	template <>
43	RandomNumberDistribution_Encapsulation< boost::uniform_real<> >::
44	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
45	distribution_type(_params.min, _params.max)
46	{}
47
48	template <>
49	RandomNumberDistribution_Encapsulation< boost::bernoulli_distribution<> >::
50	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
51	distribution_type(_params.p)
52	{}
53
54	template <>
55	RandomNumberDistribution_Encapsulation< boost::binomial_distribution<> >::
56	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
57	distribution_type((int)_params.t, _params.p)
58	{}
59
60	template <>
61	RandomNumberDistribution_Encapsulation< boost::cauchy_distribution<> >::
62	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
63	distribution_type(_params.median, _params.sigma)
64	{}
65
66	template <>
67	RandomNumberDistribution_Encapsulation< boost::gamma_distribution<> >::
68	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
69	distribution_type(_params.alpha)
70	{}
71
72	template <>
73	RandomNumberDistribution_Encapsulation< boost::poisson_distribution<> >::
74	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
75	distribution_type(_params.mean)
76	{}
77
78	template <>
79	RandomNumberDistribution_Encapsulation< boost::geometric_distribution<> >::
80	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
81	distribution_type(_params.p)
82	{}
83
84	template <>
85	RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::
86	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
87	distribution_type(_params.a, _params.b, _params.c)
88	{}
89
90	template <>
91	RandomNumberDistribution_Encapsulation< boost::exponential_distribution<> >::
92	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
93	distribution_type(_params.lambda)
94	{}
95
96	template <>
97	RandomNumberDistribution_Encapsulation< boost::normal_distribution<> >::
98	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
99	distribution_type(_params.mean, _params.sigma)
100	{}
101
102	template <>
103	RandomNumberDistribution_Encapsulation< boost::lognormal_distribution<> >::
104	RandomNumberDistribution_Encapsulation(const RandomNumberDistribution_Parameters&_params) :
105	distribution_type(_params.mean, _params.sigma)
106	{}
107
108	/* =============== min() ======================= */
109
110	template <>
111	double RandomNumberDistribution_Encapsulation< boost::uniform_smallint<> >::min() const
112	{
113	return distribution_type.min();
114	}
115
116	template <>
117	double RandomNumberDistribution_Encapsulation< boost::uniform_int<> >::min() const
118	{
119	return distribution_type.min();
120	}
121
122	template <>
123	double RandomNumberDistribution_Encapsulation< boost::uniform_01<> >::min() const
124	{
125	return distribution_type.min();
126	}
127
128	template <>
129	double RandomNumberDistribution_Encapsulation< boost::uniform_real<> >::min() const
130	{
131	return distribution_type.min();
132	}
133
134	template <>
135	double RandomNumberDistribution_Encapsulation< boost::bernoulli_distribution<> >::min() const
136	{
137	return 0.;
138	}
139
140	template <>
141	double RandomNumberDistribution_Encapsulation< boost::binomial_distribution<> >::min() const
142	{
143	return 0.;
144	}
145
146	template <>
147	double RandomNumberDistribution_Encapsulation< boost::cauchy_distribution<> >::min() const
148	{
149	return std::numeric_limits<double>::min();
150	}
151
152	template <>
153	double RandomNumberDistribution_Encapsulation< boost::gamma_distribution<> >::min() const
154	{
155	return 0.;
156	}
157
158	template <>
159	double RandomNumberDistribution_Encapsulation< boost::poisson_distribution<> >::min() const
160	{
161	return 0.;
162	}
163
164	template <>
165	double RandomNumberDistribution_Encapsulation< boost::geometric_distribution<> >::min() const
166	{
167	return 0.;
168	}
169
170	template <>
171	double RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::min() const
172	{
173	return distribution_type.a();
174	}
175
176	template <>
177	double RandomNumberDistribution_Encapsulation< boost::exponential_distribution<> >::min() const
178	{
179	return 0.;
180	}
181
182	template <>
183	double RandomNumberDistribution_Encapsulation< boost::normal_distribution<> >::min() const
184	{
185	return std::numeric_limits<double>::min();
186	}
187
188	template <>
189	double RandomNumberDistribution_Encapsulation< boost::lognormal_distribution<> >::min() const
190	{
191	return 0.;
192	}
193
194	/* =============== max() ======================= */
195
196	template <>
197	double RandomNumberDistribution_Encapsulation< boost::uniform_smallint<> >::max() const
198	{
199	return distribution_type.max();
200	}
201
202	template <>
203	double RandomNumberDistribution_Encapsulation< boost::uniform_int<> >::max() const
204	{
205	return distribution_type.max();
206	}
207
208	template <>
209	double RandomNumberDistribution_Encapsulation< boost::uniform_01<> >::max() const
210	{
211	return distribution_type.max();
212	}
213
214	template <>
215	double RandomNumberDistribution_Encapsulation< boost::uniform_real<> >::max() const
216	{
217	return distribution_type.max();
218	}
219
220	template <>
221	double RandomNumberDistribution_Encapsulation< boost::bernoulli_distribution<> >::max() const
222	{
223	return 1.;
224	}
225
226	template <>
227	double RandomNumberDistribution_Encapsulation< boost::binomial_distribution<> >::max() const
228	{
229	return distribution_type.t();
230	}
231
232	template <>
233	double RandomNumberDistribution_Encapsulation< boost::cauchy_distribution<> >::max() const
234	{
235	return std::numeric_limits<double>::max();
236	}
237
238	template <>
239	double RandomNumberDistribution_Encapsulation< boost::gamma_distribution<> >::max() const
240	{
241	return std::numeric_limits<double>::max();
242	}
243
244	template <>
245	double RandomNumberDistribution_Encapsulation< boost::poisson_distribution<> >::max() const
246	{
247	return std::numeric_limits<double>::max();
248	}
249
250	template <>
251	double RandomNumberDistribution_Encapsulation< boost::geometric_distribution<> >::max() const
252	{
253	return std::numeric_limits<double>::max();
254	}
255
256	template <>
257	double RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::max() const
258	{
259	return distribution_type.c();
260	}
261
262	template <>
263	double RandomNumberDistribution_Encapsulation< boost::exponential_distribution<> >::max() const
264	{
265	return std::numeric_limits<double>::max();
266	}
267
268	template <>
269	double RandomNumberDistribution_Encapsulation< boost::normal_distribution<> >::max() const
270	{
271	return std::numeric_limits<double>::max();
272	}
273
274	template <>
275	double RandomNumberDistribution_Encapsulation< boost::lognormal_distribution<> >::max() const
276	{
277	return std::numeric_limits<double>::max();
278	}
279
280	/* =============== p() ======================= */
281
282	template <>
283	double RandomNumberDistribution_Encapsulation< boost::bernoulli_distribution<> >::p() const
284	{
285	return distribution_type.p();
286	}
287
288	template <>
289	double RandomNumberDistribution_Encapsulation< boost::binomial_distribution<> >::p() const
290	{
291	return distribution_type.p();
292	}
293
294	template <>
295	double RandomNumberDistribution_Encapsulation< boost::geometric_distribution<> >::p() const
296	{
297	return distribution_type.p();
298	}
299
300
301	/* =============== t() ======================= */
302
303	template <>
304	double RandomNumberDistribution_Encapsulation< boost::binomial_distribution<> >::t() const
305	{
306	return distribution_type.t();
307	}
308
309	/* =============== median() ======================= */
310
311	template <>
312	double RandomNumberDistribution_Encapsulation< boost::cauchy_distribution<> >::median() const
313	{
314	return distribution_type.median();
315	}
316
317	/* =============== sigma() ======================= */
318
319	template <>
320	double RandomNumberDistribution_Encapsulation< boost::cauchy_distribution<> >::sigma() const
321	{
322	return distribution_type.sigma();
323	}
324
325	template <>
326	double RandomNumberDistribution_Encapsulation< boost::normal_distribution<> >::sigma() const
327	{
328	return distribution_type.sigma();
329	}
330
331	template <>
332	double RandomNumberDistribution_Encapsulation< boost::lognormal_distribution<> >::sigma() const
333	{
334	return distribution_type.sigma();
335	}
336
337	/* =============== alpha() ======================= */
338
339	template <>
340	double RandomNumberDistribution_Encapsulation< boost::gamma_distribution<> >::alpha() const
341	{
342	return distribution_type.alpha();
343	}
344
345
346	/* =============== mean() ======================= */
347
348	template <>
349	double RandomNumberDistribution_Encapsulation< boost::poisson_distribution<> >::mean() const
350	{
351	return distribution_type.mean();
352	}
353
354	template <>
355	double RandomNumberDistribution_Encapsulation< boost::normal_distribution<> >::mean() const
356	{
357	return distribution_type.mean();
358	}
359
360	template <>
361	double RandomNumberDistribution_Encapsulation< boost::lognormal_distribution<> >::mean() const
362	{
363	return distribution_type.mean();
364	}
365
366	/* =============== a() ======================= */
367
368	template <>
369	double RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::a() const
370	{
371	return distribution_type.a();
372	}
373
374
375	/* =============== b() ======================= */
376
377	template <>
378	double RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::b() const
379	{
380	return distribution_type.b();
381	}
382
383
384	/* =============== c() ======================= */
385
386	template <>
387	double RandomNumberDistribution_Encapsulation< boost::triangle_distribution<> >::c() const
388	{
389	return distribution_type.c();
390	}
391
392
393	/* =============== lambda() ======================= */
394
395	template <>
396	double RandomNumberDistribution_Encapsulation< boost::exponential_distribution<> >::lambda() const
397	{
398	return distribution_type.lambda();
399	}
400
401

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