models.hh @ c1c29b6

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Last change on this file since c1c29b6 was c1c29b6, checked in by Jae Cho <jhjcho@…>, 15 years ago
some corrections and removed polydispersity from inside of function and set dQ =0
Property mode set to `100644`
File size: 12.0 KB

Line
1	/**
2	This software was developed by the University of Tennessee as part of the
3	Distributed Data Analysis of Neutron Scattering Experiments (DANSE)
4	project funded by the US National Science Foundation.
5
6	If you use DANSE applications to do scientific research that leads to
7	publication, we ask that you acknowledge the use of the software with the
8	following sentence:
9
10	"This work benefited from DANSE software developed under NSF award DMR-0520547."
11
12	copyright 2008, University of Tennessee
13	*/
14	#ifndef MODEL_CLASS_H
15	#define MODEL_CLASS_H
16
17	#include <vector>
18	#include "parameters.hh"
19	extern "C" {
20	#include "cylinder.h"
21	#include "parallelepiped.h"
22	#include "lamellarPS.h"
23	#include "lamellar.h"
24	}
25
26	using namespace std;
27
28	class CylinderModel{
29	public:
30	// Model parameters
31	Parameter radius;
32	Parameter scale;
33	Parameter length;
34	Parameter contrast;
35	Parameter background;
36	Parameter cyl_theta;
37	Parameter cyl_phi;
38
39	// Constructor
40	CylinderModel();
41
42	// Operators to get I(Q)
43	double operator()(double q);
44	double operator()(double qx, double qy);
45	double evaluate_rphi(double q, double phi);
46	};
47
48	class ParallelepipedModel{
49	public:
50	// TODO: add 2D
51	// Model parameters
52	Parameter scale;
53	Parameter short_a;
54	Parameter short_b;
55	Parameter long_c;
56	Parameter contrast;
57	Parameter background;
58	Parameter parallel_theta;
59	Parameter parallel_phi;
60	Parameter parallel_psi;
61
62	// Constructor
63	ParallelepipedModel();
64
65	// Operators to get I(Q)
66	double operator()(double q);
67	double operator()(double qx, double qy);
68	double evaluate_rphi(double q, double phi);
69	};
70
71
72	class SphereModel{
73	public:
74	// Model parameters
75	Parameter radius;
76	Parameter scale;
77	Parameter contrast;
78	Parameter background;
79
80	// Constructor
81	SphereModel();
82
83	// Operators to get I(Q)
84	double operator()(double q);
85	double operator()(double qx, double qy);
86	double evaluate_rphi(double q, double phi);
87	};
88
89	class HardsphereStructure{
90	public:
91	// Model parameters
92	Parameter radius;
93	Parameter volfraction;
94
95	// Constructor
96	HardsphereStructure();
97
98	// Operators to get I(Q)
99	double operator()(double q);
100	double operator()(double qx, double qy);
101	double evaluate_rphi(double q, double phi);
102	};
103
104	class StickyHSStructure{
105	public:
106	// Model parameters
107	Parameter radius;
108	Parameter volfraction;
109	Parameter perturb;
110	Parameter stickiness;
111
112	// Constructor
113	StickyHSStructure();
114
115	// Operators to get I(Q)
116	double operator()(double q);
117	double operator()(double qx, double qy);
118	double evaluate_rphi(double q, double phi);
119	};
120
121	class SquareWellStructure{
122	public:
123	// Model parameters
124	Parameter radius;
125	Parameter volfraction;
126	Parameter welldepth;
127	Parameter wellwidth;
128
129	// Constructor
130	SquareWellStructure();
131
132	// Operators to get I(Q)
133	double operator()(double q);
134	double operator()(double qx, double qy);
135	double evaluate_rphi(double q, double phi);
136	};
137
138	class HayterMSAStructure{
139	public:
140	// Model parameters
141	Parameter radius;
142	Parameter charge;
143	Parameter volfraction;
144	Parameter temperature;
145	Parameter saltconc;
146	Parameter dielectconst;
147
148	// Constructor
149	HayterMSAStructure();
150
151	// Operators to get I(Q)
152	double operator()(double q);
153	double operator()(double qx, double qy);
154	double evaluate_rphi(double q, double phi);
155	};
156
157	class DiamEllipFunc{
158	public:
159	// Model parameters
160	Parameter radius_a;
161	Parameter radius_b;
162
163	// Constructor
164	DiamEllipFunc();
165
166	// Operators to get I(Q)
167	double operator()(double q);
168	double operator()(double qx, double qy);
169	double evaluate_rphi(double q, double phi);
170	};
171
172	class DiamCylFunc{
173	public:
174	// Model parameters
175	Parameter radius;
176	Parameter length;
177
178	// Constructor
179	DiamCylFunc();
180
181	// Operators to get I(Q)
182	double operator()(double q);
183	double operator()(double qx, double qy);
184	double evaluate_rphi(double q, double phi);
185	};
186
187	class CoreShellModel{
188	public:
189	// Model parameters
190	Parameter radius;
191	Parameter scale;
192	Parameter thickness;
193	Parameter core_sld;
194	Parameter shell_sld;
195	Parameter solvent_sld;
196	Parameter background;
197
198	// Constructor
199	CoreShellModel();
200
201	// Operators to get I(Q)
202	double operator()(double q);
203	double operator()(double qx, double qy);
204	double evaluate_rphi(double q, double phi);
205	};
206
207	class CoreShellCylinderModel{
208	public:
209	// Model parameters
210	Parameter radius;
211	Parameter scale;
212	Parameter thickness;
213	Parameter length;
214	Parameter core_sld;
215	Parameter shell_sld;
216	Parameter solvent_sld;
217	Parameter background;
218	Parameter axis_theta;
219	Parameter axis_phi;
220
221	// Constructor
222	CoreShellCylinderModel();
223
224	// Operators to get I(Q)
225	double operator()(double q);
226	double operator()(double qx, double qy);
227	double evaluate_rphi(double q, double phi);
228	};
229
230	class EllipsoidModel{
231	public:
232	// Model parameters
233	Parameter radius_a;
234	Parameter scale;
235	Parameter radius_b;
236	Parameter contrast;
237	Parameter background;
238	Parameter axis_theta;
239	Parameter axis_phi;
240
241	// Constructor
242	EllipsoidModel();
243
244	// Operators to get I(Q)
245	double operator()(double q);
246	double operator()(double qx, double qy);
247	double evaluate_rphi(double q, double phi);
248	};
249
250	class EllipticalCylinderModel{
251	public:
252	// Model parameters
253	Parameter r_minor;
254	Parameter scale;
255	Parameter r_ratio;
256	Parameter length;
257	Parameter contrast;
258	Parameter background;
259	Parameter cyl_theta;
260	Parameter cyl_phi;
261	Parameter cyl_psi;
262
263	// Constructor
264	EllipticalCylinderModel();
265
266	// Operators to get I(Q)
267	double operator()(double q);
268	double operator()(double qx, double qy);
269	double evaluate_rphi(double q, double phi);
270	};
271	class TriaxialEllipsoidModel{
272	public:
273	// Model parameters
274	Parameter scale;
275	Parameter semi_axisA;
276	Parameter semi_axisB;
277	Parameter semi_axisC;
278	Parameter contrast;
279	Parameter background;
280	Parameter axis_theta;
281	Parameter axis_phi;
282	Parameter axis_psi;
283
284	// Constructor
285	TriaxialEllipsoidModel();
286
287	// Operators to get I(Q)
288	double operator()(double q);
289	double operator()(double qx, double qy);
290	double evaluate_rphi(double q, double phi);
291	};
292
293	class FlexibleCylinderModel{
294	public:
295	// Model parameters
296	Parameter scale;
297	Parameter length;
298	Parameter kuhn_length;
299	Parameter radius;
300	Parameter contrast;
301	Parameter background;
302	Parameter axis_theta;
303	Parameter axis_phi;
304
305	// Constructor
306	FlexibleCylinderModel();
307
308	// Operators to get I(Q)
309	double operator()(double q);
310	double operator()(double qx, double qy);
311	double evaluate_rphi(double q, double phi);
312	};
313
314	class StackedDisksModel{
315	public:
316	// Model parameters
317	Parameter scale;
318	Parameter core_thick;
319	Parameter radius;
320	Parameter layer_thick;
321	Parameter core_sld;
322	Parameter layer_sld;
323	Parameter solvent_sld;
324	Parameter n_stacking;
325	Parameter sigma_d;
326	Parameter background;
327	Parameter axis_theta;
328	Parameter axis_phi;
329
330	// Constructor
331	StackedDisksModel();
332
333	// Operators to get I(Q)
334	double operator()(double q);
335	double operator()(double qx, double qy);
336	double evaluate_rphi(double q, double phi);
337	};
338
339	class LamellarModel{
340	public:
341	// Model parameters
342	Parameter scale;
343	Parameter bi_thick;
344	Parameter sld_bi;
345	Parameter sld_sol;
346	Parameter background;
347
348	// Constructor
349	LamellarModel();
350
351	// Operators to get I(Q)
352	double operator()(double q);
353	double operator()(double qx, double qy);
354	double evaluate_rphi(double q, double phi);
355
356	};
357
358	class LamellarFFHGModel{
359	public:
360	// Model parameters
361	Parameter scale;
362	Parameter t_length;
363	Parameter h_thickness;
364	Parameter sld_tail;
365	Parameter sld_head;
366	Parameter sld_solvent;
367	Parameter background;
368
369	// Constructor
370	LamellarFFHGModel();
371
372	// Operators to get I(Q)
373	double operator()(double q);
374	double operator()(double qx, double qy);
375	double evaluate_rphi(double q, double phi);
376
377	};
378
379
380
381	class LamellarPSModel{
382	public:
383	// Model parameters
384	Parameter scale;
385	Parameter spacing;
386	Parameter delta;
387	Parameter contrast;
388	Parameter n_plates;
389	Parameter caille;
390	Parameter background;
391
392	// Constructor
393	LamellarPSModel();
394
395	// Operators to get I(Q)
396	double operator()(double q);
397	double operator()(double qx, double qy);
398	double evaluate_rphi(double q, double phi);
399	};
400
401	class LamellarPSHGModel{
402	public:
403	// Model parameters
404	Parameter scale;
405	Parameter spacing;
406	Parameter deltaT;
407	Parameter deltaH;
408	Parameter sld_tail;
409	Parameter sld_head;
410	Parameter sld_solvent;
411	Parameter n_plates;
412	Parameter caille;
413	Parameter background;
414
415	// Constructor
416	LamellarPSHGModel();
417
418	// Operators to get I(Q)
419	double operator()(double q);
420	double operator()(double qx, double qy);
421	double evaluate_rphi(double q, double phi);
422	};
423
424	class CoreShellEllipsoidModel{
425	public:
426	// Model parameters
427	Parameter scale;
428	Parameter equat_core;
429	Parameter polar_core;
430	Parameter equat_shell;
431	Parameter polar_shell;
432	Parameter contrast;
433	Parameter sld_solvent;
434	Parameter background;
435	Parameter axis_theta;
436	Parameter axis_phi;
437
438	// Constructor
439	CoreShellEllipsoidModel();
440
441	// Operators to get I(Q)
442	double operator()(double q);
443	double operator()(double qx, double qy);
444	double evaluate_rphi(double q, double phi);
445	};
446
447	class OblateModel{
448	public:
449	// Model parameters
450	Parameter scale;
451	Parameter major_core;
452	Parameter minor_core;
453	Parameter major_shell;
454	Parameter minor_shell;
455	Parameter contrast;
456	Parameter sld_solvent;
457	Parameter background;
458	Parameter axis_theta;
459	Parameter axis_phi;
460
461	// Constructor
462	OblateModel();
463
464	// Operators to get I(Q)
465	double operator()(double q);
466	double operator()(double qx, double qy);
467	double evaluate_rphi(double q, double phi);
468	};
469	class ProlateModel{
470	public:
471	// Model parameters
472	Parameter scale;
473	Parameter major_core;
474	Parameter minor_core;
475	Parameter major_shell;
476	Parameter minor_shell;
477	Parameter contrast;
478	Parameter sld_solvent;
479	Parameter background;
480	Parameter axis_theta;
481	Parameter axis_phi;
482
483	// Constructor
484	ProlateModel();
485
486	// Operators to get I(Q)
487	double operator()(double q);
488	double operator()(double qx, double qy);
489	double evaluate_rphi(double q, double phi);
490	};
491	class HollowCylinderModel{
492	public:
493	// Model parameters
494	Parameter scale;
495	Parameter core_radius;
496	Parameter shell_radius;
497	Parameter length;
498	Parameter contrast;
499	Parameter background;
500	Parameter axis_theta;
501	Parameter axis_phi;
502
503	//Constructor
504	HollowCylinderModel();
505
506	//Operators to get I(Q)
507	double operator()(double q);
508	double operator()(double qx , double qy);
509	double evaluate_rphi(double q, double phi);
510	};
511
512	class MultiShellModel{
513	public:
514	// Model parameters
515	Parameter scale;
516	Parameter core_radius;
517	Parameter s_thickness;
518	Parameter w_thickness;
519	Parameter core_sld;
520	Parameter shell_sld;
521	Parameter n_pairs;
522	Parameter background;
523
524	//Constructor
525	MultiShellModel();
526
527	//Operators to get I(Q)
528	double operator()(double q);
529	double operator()(double qx , double qy);
530	double evaluate_rphi(double q, double phi);
531	};
532
533	class VesicleModel{
534	public:
535	// Model parameters
536	Parameter scale;
537	Parameter core_radius;
538	Parameter thickness;
539	Parameter core_sld;
540	Parameter shell_sld;
541	Parameter background;
542
543	//Constructor
544	VesicleModel();
545
546	//Operators to get I(Q)
547	double operator()(double q);
548	double operator()(double qx , double qy);
549	double evaluate_rphi(double q, double phi);
550	};
551
552	class BinaryHSModel{
553	public:
554	// Model parameters
555	Parameter l_radius;
556	Parameter s_radius;
557	Parameter vol_frac_ls;
558	Parameter vol_frac_ss;
559	Parameter ls_sld;
560	Parameter ss_sld;
561	Parameter solvent_sld;
562	Parameter background;
563
564	//Constructor
565	BinaryHSModel();
566
567	//Operators to get I(Q)
568	double operator()(double q);
569	double operator()(double qx , double qy);
570	double evaluate_rphi(double q, double phi);
571	};
572
573	class BinaryHSPSF11Model{
574	public:
575	// Model parameters
576	Parameter l_radius;
577	Parameter s_radius;
578	Parameter vol_frac_ls;
579	Parameter vol_frac_ss;
580	Parameter ls_sld;
581	Parameter ss_sld;
582	Parameter solvent_sld;
583	Parameter background;
584
585	//Constructor
586	BinaryHSPSF11Model();
587
588	//Operators to get I(Q)
589	double operator()(double q);
590	double operator()(double qx , double qy);
591	double evaluate_rphi(double q, double phi);
592	};
593
594	#endif

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