source: sasview/sansmodels/src/sans/models/c_models/refl.cpp @ 44fa116

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Last change on this file since 44fa116 was aae7a8d, checked in by Jae Cho <jhjcho@…>, 14 years ago

added constraint on leastsq/Scipy

  • Property mode set to 100644
File size: 4.1 KB
Line 
1
2#include <math.h>
3#include "models.hh"
4#include "parameters.hh"
5#include <stdio.h>
6using namespace std;
7
8extern "C" {
9        #include "refl.h"
10}
11
12ReflModel :: ReflModel() {
13        n_layers = Parameter(1.0);
14        scale = Parameter(1.0);
15        thick_inter0 = Parameter(1.0);
16        func_inter0 = Parameter(0);
17        sld_bottom0 = Parameter(2.07e-06);
18        sld_medium = Parameter(1.0e-06);
19    background = Parameter(0.0);
20
21
22    sld_flat1 = Parameter(3.0e-06);
23    sld_flat2 = Parameter(3.5e-06);
24    sld_flat3 = Parameter(4.0e-06);
25    sld_flat4 = Parameter(3.5e-06);
26    sld_flat5 = Parameter(4.0e-06);
27    sld_flat6 = Parameter(3.5e-06);
28    sld_flat7 = Parameter(4.0e-06);
29    sld_flat8 = Parameter(3.5e-06);
30    sld_flat9 = Parameter(4.0e-06);
31    sld_flat10 = Parameter(3.5e-06);
32
33
34    thick_inter1 = Parameter(1);
35    thick_inter2 = Parameter(1);
36    thick_inter3 = Parameter(1);
37    thick_inter4 = Parameter(1);
38    thick_inter5 = Parameter(1);
39    thick_inter6 = Parameter(1);
40    thick_inter7 = Parameter(1);
41    thick_inter8 = Parameter(1);
42    thick_inter9 = Parameter(1);
43    thick_inter10 = Parameter(1);
44
45
46    thick_flat1 = Parameter(15);
47    thick_flat2 = Parameter(100);
48    thick_flat3 = Parameter(100);
49    thick_flat4 = Parameter(100);
50    thick_flat5 = Parameter(100);
51    thick_flat6 = Parameter(100);
52    thick_flat7 = Parameter(100);
53    thick_flat8 = Parameter(100);
54    thick_flat9 = Parameter(100);
55    thick_flat10 = Parameter(100);
56
57
58    func_inter1 = Parameter(0);
59    func_inter2 = Parameter(0);
60    func_inter3 = Parameter(0);
61    func_inter4 = Parameter(0);
62    func_inter5 = Parameter(0);
63    func_inter6 = Parameter(0);
64    func_inter7 = Parameter(0);
65    func_inter8 = Parameter(0);
66    func_inter9 = Parameter(0);
67    func_inter10 = Parameter(0);
68
69}
70
71/**
72 * Function to evaluate 1D NR function
73 * @param q: q-value
74 * @return: function value
75 */
76double ReflModel :: operator()(double q) {
77        double dp[47];
78        // Fill parameter array for IGOR library
79        // Add the background after averaging
80        dp[0] = n_layers();
81        dp[1] = scale();
82        dp[2] = thick_inter0();
83        dp[3] = func_inter0();
84        dp[4] = sld_bottom0();
85        dp[5] = sld_medium();
86        dp[6] = background();
87
88        dp[7] = sld_flat1();
89        dp[8] = sld_flat2();
90        dp[9] = sld_flat3();
91        dp[10] = sld_flat4();
92        dp[11] = sld_flat5();
93        dp[12] = sld_flat6();
94        dp[13] = sld_flat7();
95        dp[14] = sld_flat8();
96        dp[15] = sld_flat9();
97        dp[16] = sld_flat10();
98
99        dp[17] = thick_inter1();
100        dp[18] = thick_inter2();
101        dp[19] = thick_inter3();
102        dp[20] = thick_inter4();
103        dp[21] = thick_inter5();
104        dp[22] = thick_inter6();
105        dp[23] = thick_inter7();
106        dp[24] = thick_inter8();
107        dp[25] = thick_inter9();
108        dp[26] = thick_inter10();
109
110        dp[27] = thick_flat1();
111        dp[28] = thick_flat2();
112        dp[29] = thick_flat3();
113        dp[30] = thick_flat4();
114        dp[31] = thick_flat5();
115        dp[32] = thick_flat6();
116        dp[33] = thick_flat7();
117        dp[34] = thick_flat8();
118        dp[35] = thick_flat9();
119        dp[36] = thick_flat10();
120
121        dp[37] = func_inter1();
122        dp[38] = func_inter2();
123        dp[39] = func_inter3();
124        dp[40] = func_inter4();
125        dp[41] = func_inter5();
126        dp[42] = func_inter6();
127        dp[43] = func_inter7();
128        dp[44] = func_inter8();
129        dp[45] = func_inter9();
130        dp[46] = func_inter10();
131
132        // Get the dispersion points for the radius
133        //vector<WeightPoint> weights_thick;
134        //thick_inter0.get_weights(weights_thick_inter0);
135
136
137        return re_kernel(dp,q);
138}
139
140/**
141 * Function to evaluate 2D NR function
142 * @param q_x: value of Q along x
143 * @param q_y: value of Q along y
144 * @return: function value
145 */
146double ReflModel :: operator()(double qx, double qy) {
147        // For 2D set qy as q, ignoring qx.
148        double q = qy;//sqrt(qx*qx + qy*qy);
149        if (q < 0.0){
150                return 0.0;
151        }
152        return (*this).operator()(q);
153}
154
155/**
156 * Function to evaluate 2D NR function
157 * @param pars: parameters of the sphere
158 * @param q: q-value
159 * @param phi: angle phi
160 * @return: function value
161 */
162double ReflModel :: evaluate_rphi(double q, double phi) {
163        return (*this).operator()(q);
164}
165
166/**
167 * Function to calculate effective radius
168 * @return: effective radius value
169 */
170double ReflModel :: calculate_ER() {
171        //NOT implemented yet!!!
172}
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