source: sasview/sansmodels/src/sans/models/c_extensions/parallelepiped.c @ c0a690c

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Last change on this file since c0a690c was 4628e31, checked in by Jae Cho <jhjcho@…>, 14 years ago

changed the unit of angles into degrees

  • Property mode set to 100644
File size: 4.7 KB
Line 
1/**
2 * Scattering model for a parallelepiped
3 * TODO: Add 2D analysis
4 */
5
6#include "parallelepiped.h"
7#include <math.h>
8#include "libCylinder.h"
9#include <stdio.h>
10#include <stdlib.h>
11
12
13/**
14 * Function to evaluate 1D scattering function
15 * @param pars: parameters of the parallelepiped
16 * @param q: q-value
17 * @return: function value
18 */
19double parallelepiped_analytical_1D(ParallelepipedParameters *pars, double q) {
20        double dp[7];
21
22        // Fill paramater array
23        dp[0] = pars->scale;
24        dp[1] = pars->short_a;
25        dp[2] = pars->short_b;
26        dp[3] = pars->long_c;
27        dp[4] = pars->sldPipe;
28        dp[5] = pars->sldSolv;
29        dp[6] = pars->background;
30
31        // Call library function to evaluate model
32        return Parallelepiped(dp, q);
33}
34
35
36double pkernel(double a, double b,double c, double ala, double alb, double alc){
37    // mu passed in is really mu*sqrt(1-sig^2)
38    double argA,argB,argC,tmp1,tmp2,tmp3;                       //local variables
39
40    //handle arg=0 separately, as sin(t)/t -> 1 as t->0
41    argA = a*ala/2.0;
42    argB = b*alb/2.0;
43    argC = c*alc/2.0;
44    if(argA==0.0) {
45                tmp1 = 1.0;
46        } else {
47                tmp1 = sin(argA)*sin(argA)/argA/argA;
48    }
49    if (argB==0.0) {
50                tmp2 = 1.0;
51        } else {
52                tmp2 = sin(argB)*sin(argB)/argB/argB;
53    }
54
55    if (argC==0.0) {
56                tmp3 = 1.0;
57        } else {
58                tmp3 = sin(argC)*sin(argC)/argC/argC;
59    }
60
61    return (tmp1*tmp2*tmp3);
62
63}//Function pkernel()
64
65
66
67
68/**
69 * Function to evaluate 2D scattering function
70 * @param pars: parameters of the parallelepiped
71 * @param q: q-value
72 * @return: function value
73 */
74double parallelepiped_analytical_2DXY(ParallelepipedParameters *pars, double qx, double qy) {
75        double q;
76        q = sqrt(qx*qx+qy*qy);
77    return parallelepiped_analytical_2D_scaled(pars, q, qx/q, qy/q);
78}
79
80
81/**
82 * Function to evaluate 2D scattering function
83 * @param pars: parameters of the Parallelepiped
84 * @param q: q-value
85 * @param phi: angle phi
86 * @return: function value
87 */
88double parallelepiped_analytical_2D(ParallelepipedParameters *pars, double q, double phi) {
89    return parallelepiped_analytical_2D_scaled(pars, q, cos(phi), sin(phi));
90}
91
92/**
93 * Function to evaluate 2D scattering function
94 * @param pars: parameters of the parallelepiped
95 * @param q: q-value
96 * @param q_x: q_x / q
97 * @param q_y: q_y / q
98 * @return: function value
99 */
100double parallelepiped_analytical_2D_scaled(ParallelepipedParameters *pars, double q, double q_x, double q_y) {
101        double cparallel_x, cparallel_y, cparallel_z, bparallel_x, bparallel_y, parallel_x, parallel_y, parallel_z;
102        double q_z;
103        double alpha, vol, cos_val_c, cos_val_b, cos_val_a, edgeA, edgeB, edgeC;
104
105        double answer;
106        double pi = 4.0*atan(1.0);
107
108        edgeA = pars->short_a;
109        edgeB = pars->short_b;
110        edgeC = pars->long_c;
111
112        //convert angle degree to radian
113        double theta = pars->parallel_theta * pi/180.0;
114        double phi = pars->parallel_phi * pi/180.0;
115        double psi = pars->parallel_psi * pi/180.0;
116
117    // parallelepiped c axis orientation
118    cparallel_x = sin(theta) * cos(phi);
119    cparallel_y = sin(theta) * sin(phi);
120    cparallel_z = cos(theta);
121
122    // q vector
123    q_z = 0.0;
124
125    // Compute the angle btw vector q and the
126    // axis of the parallelepiped
127    cos_val_c = cparallel_x*q_x + cparallel_y*q_y + cparallel_z*q_z;
128    alpha = acos(cos_val_c);
129
130    // parallelepiped a axis orientation
131    parallel_x = sin(psi);//cos(pars->parallel_theta) * sin(pars->parallel_phi)*sin(pars->parallel_psi);
132    parallel_y = cos(psi);//cos(pars->parallel_theta) * cos(pars->parallel_phi)*cos(pars->parallel_psi);
133
134    cos_val_a = parallel_x*q_x + parallel_y*q_y;
135
136
137
138    // parallelepiped b axis orientation
139    bparallel_x = sqrt(1.0-sin(theta)*cos(phi))*cos(psi);//cos(pars->parallel_theta) * cos(pars->parallel_phi)* cos(pars->parallel_psi);
140    bparallel_y = sqrt(1.0-sin(theta)*cos(phi))*sin(psi);//cos(pars->parallel_theta) * sin(pars->parallel_phi)* sin(pars->parallel_psi);
141    // axis of the parallelepiped
142    cos_val_b = sin(acos(cos_val_a)) ;
143
144
145
146    // The following test should always pass
147    if (fabs(cos_val_c)>1.0) {
148        printf("parallel_ana_2D: Unexpected error: cos(alpha)>1\n");
149        return 0;
150    }
151
152        // Call the IGOR library function to get the kernel
153        answer = pkernel( q*edgeA, q*edgeB, q*edgeC, sin(alpha)*cos_val_a,sin(alpha)*cos_val_b,cos_val_c);
154
155        // Multiply by contrast^2
156        answer *= (pars->sldPipe - pars->sldSolv) * (pars->sldPipe - pars->sldSolv);
157
158        //normalize by cylinder volume
159        //NOTE that for this (Fournet) definition of the integral, one must MULTIPLY by Vparallel
160    vol = edgeA* edgeB * edgeC;
161        answer *= vol;
162
163        //convert to [cm-1]
164        answer *= 1.0e8;
165
166        //Scale
167        answer *= pars->scale;
168
169        // add in the background
170        answer += pars->background;
171
172        return answer;
173}
174
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