invertor.c @ 43c0a8e

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload

Last change on this file since 43c0a8e was 43c0a8e, checked in by Mathieu Doucet <doucetm@…>, 16 years ago
Add a couple of figures of merit
Property mode set to `100644`
File size: 5.1 KB

Line
1	#include <math.h>
2	#include "invertor.h"
3	#include <memory.h>
4	#include <stdio.h>
5	#include <stdlib.h>
6
7	double pi = 3.1416;
8
9	/**
10	* Deallocate memory
11	*/
12	void invertor_dealloc(Invertor_params *pars) {
13	free(pars->x);
14	free(pars->y);
15	free(pars->err);
16	}
17
18	void invertor_init(Invertor_params *pars) {
19	pars->d_max = 180;
20	pars->q_min = -1.0;
21	pars->q_max = -1.0;
22	}
23
24
25	/**
26	* P(r) of a sphere, for test purposes
27	*
28	* @param R: radius of the sphere
29	* @param r: distance, in the same units as the radius
30	* @return: P(r)
31	*/
32	double pr_sphere(double R, double r) {
33	if (r <= 2.0*R) {
34	return 12.0* pow(0.5r/R, 2.0) pow(1.0-0.5r/R, 2.0) ( 2.0 + 0.5*r/R );
35	} else {
36	return 0.0;
37	}
38	}
39
40	/**
41	* Orthogonal functions:
42	* B(r) = 2r sin(pi*nr/d)
43	*
44	*/
45	double ortho(double d_max, int n, double r) {
46	return 2.0rsin(pinr/d_max);
47	}
48
49	/**
50	* Fourier transform of the nth orthogonal function
51	*
52	*/
53	double ortho_transformed(double d_max, int n, double q) {
54	return 8.0pow(pi, 2.0)/q d_max * n * pow(-1.0, n+1)
55	sin(qd_max) / ( pow(pin, 2.0) - pow(qd_max, 2.0) );
56	}
57
58	/**
59	* First derivative in of the orthogonal function dB(r)/dr
60	*
61	*/
62	double ortho_derived(double d_max, int n, double r) {
63	return 2.0sin(pinr/d_max) + 2.0rcos(pin*r/d_max);
64	}
65
66	/**
67	* Scattering intensity calculated from the expansion.
68	*/
69	double iq(double *pars, double d_max, int n_c, double q) {
70	double sum = 0.0;
71	int i;
72	for (i=0; i<n_c; i++) {
73	sum += pars[i] * ortho_transformed(d_max, i+1, q);
74	}
75	return sum;
76	}
77
78	/**
79	* P(r) calculated from the expansion.
80	*/
81	double pr(double *pars, double d_max, int n_c, double r) {
82	double sum = 0.0;
83	int i;
84	for (i=0; i<n_c; i++) {
85	sum += pars[i] * ortho(d_max, i+1, r);
86	}
87	return sum;
88	}
89
90	/**
91	* P(r) calculated from the expansion, with errors
92	*/
93	void pr_err(double pars, double err, double d_max, int n_c,
94	double r, double pr_value, double pr_value_err) {
95	double sum = 0.0;
96	double sum_err = 0.0;
97	double func_value;
98	int i;
99	for (i=0; i<n_c; i++) {
100	func_value = ortho(d_max, i+1, r);
101	sum += pars[i] * func_value;
102	//sum_err += err[i]err[i]func_value*func_value;
103	sum_err += err[in_c+i]func_value*func_value;
104	}
105	*pr_value = sum;
106	if (sum_err>0) {
107	*pr_value_err = sqrt(sum_err);
108	} else {
109	*pr_value_err = sum;
110	}
111	}
112
113	/**
114	* dP(r)/dr calculated from the expansion.
115	*/
116	double dprdr(double *pars, double d_max, int n_c, double r) {
117	double sum = 0.0;
118	int i;
119	for (i=0; i<n_c; i++) {
120	sum += pars[i] * 2.0(sin(pi(i+1)r/d_max) + pi(i+1)r/d_max cos(pi(i+1)r/d_max));
121	}
122	return sum;
123	}
124
125	/**
126	* regularization term calculated from the expansion.
127	*/
128	double reg_term(double *pars, double d_max, int n_c, int nslice) {
129	double sum = 0.0;
130	double r;
131	double deriv;
132	int i;
133	for (i=0; i<nslice; i++) {
134	r = d_max/(1.0nslice)i;
135	deriv = dprdr(pars, d_max, n_c, r);
136	sum += deriv*deriv;
137	}
138	return sum/(1.0nslice)d_max;
139	}
140
141	/**
142	* regularization term calculated from the expansion.
143	*/
144	double int_p2(double *pars, double d_max, int n_c, int nslice) {
145	double sum = 0.0;
146	double r;
147	double value;
148	int i;
149	for (i=0; i<nslice; i++) {
150	r = d_max/(1.0nslice)i;
151	value = pr(pars, d_max, n_c, r);
152	sum += value*value;
153	}
154	return sum/(1.0nslice)d_max;
155	}
156
157	/**
158	* Get the number of P(r) peaks.
159	*/
160	int npeaks(double *pars, double d_max, int n_c, int nslice) {
161	double r;
162	double value;
163	int i;
164	double previous = 0.0;
165	double slope = 0.0;
166	int count = 0;
167	for (i=0; i<nslice; i++) {
168	r = d_max/(1.0nslice)i;
169	value = pr(pars, d_max, n_c, r);
170	if (previous<=value){
171	//if (slope<0) count += 1;
172	slope = 1;
173	} else {
174	//printf("slope -1");
175	if (slope>0) count += 1;
176	slope = -1;
177	}
178	previous = value;
179	}
180	return count;
181	}
182
183	/**
184	* Get the fraction of the integral of P(r) over the whole range
185	* of r that is above zero.
186	* A valid P(r) is define as being positive for all r.
187	*/
188	double positive_integral(double *pars, double d_max, int n_c, int nslice) {
189	double r;
190	double value;
191	int i;
192	double sum_pos = 0.0;
193	double sum = 0.0;
194
195	for (i=0; i<nslice; i++) {
196	r = d_max/(1.0nslice)i;
197	value = pr(pars, d_max, n_c, r);
198	if (value>0.0) sum_pos += value;
199	sum += value;
200	}
201	return sum_pos/sum;
202	}
203
204	/**
205	* Get the fraction of the integral of P(r) over the whole range
206	* of r that is at least one sigma above zero.
207	*/
208	double positive_errors(double pars, double err, double d_max, int n_c, int nslice) {
209	double r;
210	double value;
211	int i;
212	double sum_pos = 0.0;
213	double sum = 0.0;
214	double pr_val;
215	double pr_val_err;
216
217	for (i=0; i<nslice; i++) {
218	r = d_max/(1.0nslice)i;
219	pr_err(pars, err, d_max, n_c, r, &pr_val, &pr_val_err);
220	if (pr_val>pr_val_err) sum_pos += pr_val;
221	sum += pr_val;
222
223
224	}
225	return sum_pos/sum;
226	}

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source: sasview/pr_inversion/c_extensions/invertor.c @ 43c0a8e

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