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source: tags/3.3.2/HeuristicLab.ExtLibs/HeuristicLab.ALGLIB/2.5.0/ALGLIB-2.5.0/correlationtests.cs @ 13398

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Last change on this file since 13398 was 3839, checked in by mkommend, 14 years ago
implemented first version of LR (ticket #1012)
File size: 22.2 KB

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1	/*************************************************************************
2	Copyright (c) 2007, Sergey Bochkanov (ALGLIB project).
3
4	>>> SOURCE LICENSE >>>
5	This program is free software; you can redistribute it and/or modify
6	it under the terms of the GNU General Public License as published by
7	the Free Software Foundation (www.fsf.org); either version 2 of the
8	License, or (at your option) any later version.
9
10	This program is distributed in the hope that it will be useful,
11	but WITHOUT ANY WARRANTY; without even the implied warranty of
12	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13	GNU General Public License for more details.
14
15	A copy of the GNU General Public License is available at
16	http://www.fsf.org/licensing/licenses
17
18	>>> END OF LICENSE >>>
19	*************************************************************************/
20
21	using System;
22
23	namespace alglib
24	{
25	public class correlationtests
26	{
27	/*************************************************************************
28	Pearson's correlation coefficient significance test
29
30	This test checks hypotheses about whether X and Y are samples of two
31	continuous distributions having zero correlation or whether their
32	correlation is non-zero.
33
34	The following tests are performed:
35	* two-tailed test (null hypothesis - X and Y have zero correlation)
36	* left-tailed test (null hypothesis - the correlation coefficient is
37	greater than or equal to 0)
38	* right-tailed test (null hypothesis - the correlation coefficient is
39	less than or equal to 0).
40
41	Requirements:
42	* the number of elements in each sample is not less than 5
43	* normality of distributions of X and Y.
44
45	Input parameters:
46	R - Pearson's correlation coefficient for X and Y
47	N - number of elements in samples, N>=5.
48
49	Output parameters:
50	BothTails - p-value for two-tailed test.
51	If BothTails is less than the given significance level
52	the null hypothesis is rejected.
53	LeftTail - p-value for left-tailed test.
54	If LeftTail is less than the given significance level,
55	the null hypothesis is rejected.
56	RightTail - p-value for right-tailed test.
57	If RightTail is less than the given significance level
58	the null hypothesis is rejected.
59
60	-- ALGLIB --
61	Copyright 09.04.2007 by Bochkanov Sergey
62	*************************************************************************/
63	public static void pearsoncorrelationsignificance(double r,
64	int n,
65	ref double bothtails,
66	ref double lefttail,
67	ref double righttail)
68	{
69	double t = 0;
70	double p = 0;
71
72
73	//
74	// Some special cases
75	//
76	if( (double)(r)>=(double)(1) )
77	{
78	bothtails = 0.0;
79	lefttail = 1.0;
80	righttail = 0.0;
81	return;
82	}
83	if( (double)(r)<=(double)(-1) )
84	{
85	bothtails = 0.0;
86	lefttail = 0.0;
87	righttail = 1.0;
88	return;
89	}
90	if( n<5 )
91	{
92	bothtails = 1.0;
93	lefttail = 1.0;
94	righttail = 1.0;
95	return;
96	}
97
98	//
99	// General case
100	//
101	t = r*Math.Sqrt((n-2)/(1-AP.Math.Sqr(r)));
102	p = studenttdistr.studenttdistribution(n-2, t);
103	bothtails = 2*Math.Min(p, 1-p);
104	lefttail = p;
105	righttail = 1-p;
106	}
107
108
109	/*************************************************************************
110	Spearman's rank correlation coefficient significance test
111
112	This test checks hypotheses about whether X and Y are samples of two
113	continuous distributions having zero correlation or whether their
114	correlation is non-zero.
115
116	The following tests are performed:
117	* two-tailed test (null hypothesis - X and Y have zero correlation)
118	* left-tailed test (null hypothesis - the correlation coefficient is
119	greater than or equal to 0)
120	* right-tailed test (null hypothesis - the correlation coefficient is
121	less than or equal to 0).
122
123	Requirements:
124	* the number of elements in each sample is not less than 5.
125
126	The test is non-parametric and doesn't require distributions X and Y to be
127	normal.
128
129	Input parameters:
130	R - Spearman's rank correlation coefficient for X and Y
131	N - number of elements in samples, N>=5.
132
133	Output parameters:
134	BothTails - p-value for two-tailed test.
135	If BothTails is less than the given significance level
136	the null hypothesis is rejected.
137	LeftTail - p-value for left-tailed test.
138	If LeftTail is less than the given significance level,
139	the null hypothesis is rejected.
140	RightTail - p-value for right-tailed test.
141	If RightTail is less than the given significance level
142	the null hypothesis is rejected.
143
144	-- ALGLIB --
145	Copyright 09.04.2007 by Bochkanov Sergey
146	*************************************************************************/
147	public static void spearmanrankcorrelationsignificance(double r,
148	int n,
149	ref double bothtails,
150	ref double lefttail,
151	ref double righttail)
152	{
153	double t = 0;
154	double p = 0;
155
156
157	//
158	// Special case
159	//
160	if( n<5 )
161	{
162	bothtails = 1.0;
163	lefttail = 1.0;
164	righttail = 1.0;
165	return;
166	}
167
168	//
169	// General case
170	//
171	if( (double)(r)>=(double)(1) )
172	{
173	t = 1.0E10;
174	}
175	else
176	{
177	if( (double)(r)<=(double)(-1) )
178	{
179	t = -1.0E10;
180	}
181	else
182	{
183	t = r*Math.Sqrt((n-2)/(1-AP.Math.Sqr(r)));
184	}
185	}
186	if( (double)(t)<(double)(0) )
187	{
188	p = spearmantail(t, n);
189	bothtails = 2*p;
190	lefttail = p;
191	righttail = 1-p;
192	}
193	else
194	{
195	p = spearmantail(-t, n);
196	bothtails = 2*p;
197	lefttail = 1-p;
198	righttail = p;
199	}
200	}
201
202
203	/*************************************************************************
204	Tail(S, 5)
205	*************************************************************************/
206	private static double spearmantail5(double s)
207	{
208	double result = 0;
209
210	if( (double)(s)<(double)(0.000e+00) )
211	{
212	result = studenttdistr.studenttdistribution(3, -s);
213	return result;
214	}
215	if( (double)(s)>=(double)(3.580e+00) )
216	{
217	result = 8.304e-03;
218	return result;
219	}
220	if( (double)(s)>=(double)(2.322e+00) )
221	{
222	result = 4.163e-02;
223	return result;
224	}
225	if( (double)(s)>=(double)(1.704e+00) )
226	{
227	result = 6.641e-02;
228	return result;
229	}
230	if( (double)(s)>=(double)(1.303e+00) )
231	{
232	result = 1.164e-01;
233	return result;
234	}
235	if( (double)(s)>=(double)(1.003e+00) )
236	{
237	result = 1.748e-01;
238	return result;
239	}
240	if( (double)(s)>=(double)(7.584e-01) )
241	{
242	result = 2.249e-01;
243	return result;
244	}
245	if( (double)(s)>=(double)(5.468e-01) )
246	{
247	result = 2.581e-01;
248	return result;
249	}
250	if( (double)(s)>=(double)(3.555e-01) )
251	{
252	result = 3.413e-01;
253	return result;
254	}
255	if( (double)(s)>=(double)(1.759e-01) )
256	{
257	result = 3.911e-01;
258	return result;
259	}
260	if( (double)(s)>=(double)(1.741e-03) )
261	{
262	result = 4.747e-01;
263	return result;
264	}
265	if( (double)(s)>=(double)(0.000e+00) )
266	{
267	result = 5.248e-01;
268	return result;
269	}
270	result = 0;
271	return result;
272	}
273
274
275	/*************************************************************************
276	Tail(S, 6)
277	*************************************************************************/
278	private static double spearmantail6(double s)
279	{
280	double result = 0;
281
282	if( (double)(s)<(double)(1.001e+00) )
283	{
284	result = studenttdistr.studenttdistribution(4, -s);
285	return result;
286	}
287	if( (double)(s)>=(double)(5.663e+00) )
288	{
289	result = 1.366e-03;
290	return result;
291	}
292	if( (double)(s)>=(double)(3.834e+00) )
293	{
294	result = 8.350e-03;
295	return result;
296	}
297	if( (double)(s)>=(double)(2.968e+00) )
298	{
299	result = 1.668e-02;
300	return result;
301	}
302	if( (double)(s)>=(double)(2.430e+00) )
303	{
304	result = 2.921e-02;
305	return result;
306	}
307	if( (double)(s)>=(double)(2.045e+00) )
308	{
309	result = 5.144e-02;
310	return result;
311	}
312	if( (double)(s)>=(double)(1.747e+00) )
313	{
314	result = 6.797e-02;
315	return result;
316	}
317	if( (double)(s)>=(double)(1.502e+00) )
318	{
319	result = 8.752e-02;
320	return result;
321	}
322	if( (double)(s)>=(double)(1.295e+00) )
323	{
324	result = 1.210e-01;
325	return result;
326	}
327	if( (double)(s)>=(double)(1.113e+00) )
328	{
329	result = 1.487e-01;
330	return result;
331	}
332	if( (double)(s)>=(double)(1.001e+00) )
333	{
334	result = 1.780e-01;
335	return result;
336	}
337	result = 0;
338	return result;
339	}
340
341
342	/*************************************************************************
343	Tail(S, 7)
344	*************************************************************************/
345	private static double spearmantail7(double s)
346	{
347	double result = 0;
348
349	if( (double)(s)<(double)(1.001e+00) )
350	{
351	result = studenttdistr.studenttdistribution(5, -s);
352	return result;
353	}
354	if( (double)(s)>=(double)(8.159e+00) )
355	{
356	result = 2.081e-04;
357	return result;
358	}
359	if( (double)(s)>=(double)(5.620e+00) )
360	{
361	result = 1.393e-03;
362	return result;
363	}
364	if( (double)(s)>=(double)(4.445e+00) )
365	{
366	result = 3.398e-03;
367	return result;
368	}
369	if( (double)(s)>=(double)(3.728e+00) )
370	{
371	result = 6.187e-03;
372	return result;
373	}
374	if( (double)(s)>=(double)(3.226e+00) )
375	{
376	result = 1.200e-02;
377	return result;
378	}
379	if( (double)(s)>=(double)(2.844e+00) )
380	{
381	result = 1.712e-02;
382	return result;
383	}
384	if( (double)(s)>=(double)(2.539e+00) )
385	{
386	result = 2.408e-02;
387	return result;
388	}
389	if( (double)(s)>=(double)(2.285e+00) )
390	{
391	result = 3.320e-02;
392	return result;
393	}
394	if( (double)(s)>=(double)(2.068e+00) )
395	{
396	result = 4.406e-02;
397	return result;
398	}
399	if( (double)(s)>=(double)(1.879e+00) )
400	{
401	result = 5.478e-02;
402	return result;
403	}
404	if( (double)(s)>=(double)(1.710e+00) )
405	{
406	result = 6.946e-02;
407	return result;
408	}
409	if( (double)(s)>=(double)(1.559e+00) )
410	{
411	result = 8.331e-02;
412	return result;
413	}
414	if( (double)(s)>=(double)(1.420e+00) )
415	{
416	result = 1.001e-01;
417	return result;
418	}
419	if( (double)(s)>=(double)(1.292e+00) )
420	{
421	result = 1.180e-01;
422	return result;
423	}
424	if( (double)(s)>=(double)(1.173e+00) )
425	{
426	result = 1.335e-01;
427	return result;
428	}
429	if( (double)(s)>=(double)(1.062e+00) )
430	{
431	result = 1.513e-01;
432	return result;
433	}
434	if( (double)(s)>=(double)(1.001e+00) )
435	{
436	result = 1.770e-01;
437	return result;
438	}
439	result = 0;
440	return result;
441	}
442
443
444	/*************************************************************************
445	Tail(S, 8)
446	*************************************************************************/
447	private static double spearmantail8(double s)
448	{
449	double result = 0;
450
451	if( (double)(s)<(double)(2.001e+00) )
452	{
453	result = studenttdistr.studenttdistribution(6, -s);
454	return result;
455	}
456	if( (double)(s)>=(double)(1.103e+01) )
457	{
458	result = 2.194e-05;
459	return result;
460	}
461	if( (double)(s)>=(double)(7.685e+00) )
462	{
463	result = 2.008e-04;
464	return result;
465	}
466	if( (double)(s)>=(double)(6.143e+00) )
467	{
468	result = 5.686e-04;
469	return result;
470	}
471	if( (double)(s)>=(double)(5.213e+00) )
472	{
473	result = 1.138e-03;
474	return result;
475	}
476	if( (double)(s)>=(double)(4.567e+00) )
477	{
478	result = 2.310e-03;
479	return result;
480	}
481	if( (double)(s)>=(double)(4.081e+00) )
482	{
483	result = 3.634e-03;
484	return result;
485	}
486	if( (double)(s)>=(double)(3.697e+00) )
487	{
488	result = 5.369e-03;
489	return result;
490	}
491	if( (double)(s)>=(double)(3.381e+00) )
492	{
493	result = 7.708e-03;
494	return result;
495	}
496	if( (double)(s)>=(double)(3.114e+00) )
497	{
498	result = 1.087e-02;
499	return result;
500	}
501	if( (double)(s)>=(double)(2.884e+00) )
502	{
503	result = 1.397e-02;
504	return result;
505	}
506	if( (double)(s)>=(double)(2.682e+00) )
507	{
508	result = 1.838e-02;
509	return result;
510	}
511	if( (double)(s)>=(double)(2.502e+00) )
512	{
513	result = 2.288e-02;
514	return result;
515	}
516	if( (double)(s)>=(double)(2.340e+00) )
517	{
518	result = 2.883e-02;
519	return result;
520	}
521	if( (double)(s)>=(double)(2.192e+00) )
522	{
523	result = 3.469e-02;
524	return result;
525	}
526	if( (double)(s)>=(double)(2.057e+00) )
527	{
528	result = 4.144e-02;
529	return result;
530	}
531	if( (double)(s)>=(double)(2.001e+00) )
532	{
533	result = 4.804e-02;
534	return result;
535	}
536	result = 0;
537	return result;
538	}
539
540
541	/*************************************************************************
542	Tail(S, 9)
543	*************************************************************************/
544	private static double spearmantail9(double s)
545	{
546	double result = 0;
547
548	if( (double)(s)<(double)(2.001e+00) )
549	{
550	result = studenttdistr.studenttdistribution(7, -s);
551	return result;
552	}
553	if( (double)(s)>=(double)(9.989e+00) )
554	{
555	result = 2.306e-05;
556	return result;
557	}
558	if( (double)(s)>=(double)(8.069e+00) )
559	{
560	result = 8.167e-05;
561	return result;
562	}
563	if( (double)(s)>=(double)(6.890e+00) )
564	{
565	result = 1.744e-04;
566	return result;
567	}
568	if( (double)(s)>=(double)(6.077e+00) )
569	{
570	result = 3.625e-04;
571	return result;
572	}
573	if( (double)(s)>=(double)(5.469e+00) )
574	{
575	result = 6.450e-04;
576	return result;
577	}
578	if( (double)(s)>=(double)(4.991e+00) )
579	{
580	result = 1.001e-03;
581	return result;
582	}
583	if( (double)(s)>=(double)(4.600e+00) )
584	{
585	result = 1.514e-03;
586	return result;
587	}
588	if( (double)(s)>=(double)(4.272e+00) )
589	{
590	result = 2.213e-03;
591	return result;
592	}
593	if( (double)(s)>=(double)(3.991e+00) )
594	{
595	result = 2.990e-03;
596	return result;
597	}
598	if( (double)(s)>=(double)(3.746e+00) )
599	{
600	result = 4.101e-03;
601	return result;
602	}
603	if( (double)(s)>=(double)(3.530e+00) )
604	{
605	result = 5.355e-03;
606	return result;
607	}
608	if( (double)(s)>=(double)(3.336e+00) )
609	{
610	result = 6.887e-03;
611	return result;
612	}
613	if( (double)(s)>=(double)(3.161e+00) )
614	{
615	result = 8.598e-03;
616	return result;
617	}
618	if( (double)(s)>=(double)(3.002e+00) )
619	{
620	result = 1.065e-02;
621	return result;
622	}
623	if( (double)(s)>=(double)(2.855e+00) )
624	{
625	result = 1.268e-02;
626	return result;
627	}
628	if( (double)(s)>=(double)(2.720e+00) )
629	{
630	result = 1.552e-02;
631	return result;
632	}
633	if( (double)(s)>=(double)(2.595e+00) )
634	{
635	result = 1.836e-02;
636	return result;
637	}
638	if( (double)(s)>=(double)(2.477e+00) )
639	{
640	result = 2.158e-02;
641	return result;
642	}
643	if( (double)(s)>=(double)(2.368e+00) )
644	{
645	result = 2.512e-02;
646	return result;
647	}
648	if( (double)(s)>=(double)(2.264e+00) )
649	{
650	result = 2.942e-02;
651	return result;
652	}
653	if( (double)(s)>=(double)(2.166e+00) )
654	{
655	result = 3.325e-02;
656	return result;
657	}
658	if( (double)(s)>=(double)(2.073e+00) )
659	{
660	result = 3.800e-02;
661	return result;
662	}
663	if( (double)(s)>=(double)(2.001e+00) )
664	{
665	result = 4.285e-02;
666	return result;
667	}
668	result = 0;
669	return result;
670	}
671
672
673	/*************************************************************************
674	Tail(T,N), accepts T<0
675	*************************************************************************/
676	private static double spearmantail(double t,
677	int n)
678	{
679	double result = 0;
680
681	if( n==5 )
682	{
683	result = spearmantail5(-t);
684	return result;
685	}
686	if( n==6 )
687	{
688	result = spearmantail6(-t);
689	return result;
690	}
691	if( n==7 )
692	{
693	result = spearmantail7(-t);
694	return result;
695	}
696	if( n==8 )
697	{
698	result = spearmantail8(-t);
699	return result;
700	}
701	if( n==9 )
702	{
703	result = spearmantail9(-t);
704	return result;
705	}
706	result = studenttdistr.studenttdistribution(n-2, t);
707	return result;
708	}
709	}
710	}

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