source: sasview/sansmodels/prototypes/src/CDispCylinderModel.c @ 657490af

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Last change on this file since 657490af was 7df1a50, checked in by Jae Cho <jhjcho@…>, 13 years ago

moving a file

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1/** CDispCylinderModel
2 *
3 * C extension
4 *
5 * WARNING: THIS FILE WAS GENERATED BY WRAPPERGENERATOR.PY
6 *          DO NOT MODIFY THIS FILE, MODIFY disperse_cylinder.h
7 *          AND RE-RUN THE GENERATOR SCRIPT
8 *
9 * @author   M.Doucet / UTK
10 */
11 
12#include <Python.h>
13#include "structmember.h"
14#include <stdio.h>
15#include <stdlib.h>
16#include <math.h>
17#include <time.h>
18
19#include "disperse_cylinder.h"
20
21static double UNDEFINED = 1000010010.1234567;
22
23/// Error object for raised exceptions
24static PyObject * CDispCylinderModelError = NULL;
25
26
27// Class definition
28typedef struct {
29    PyObject_HEAD
30    /// Parameters
31    PyObject * params;
32    /// Log for unit testing
33    PyObject * log;
34    /// Model parameters
35        DispCylinderParameters model_pars;
36} CDispCylinderModel;
37
38
39static void
40CDispCylinderModel_dealloc(CDispCylinderModel* self)
41{
42    self->ob_type->tp_free((PyObject*)self);
43   
44
45}
46
47static PyObject *
48CDispCylinderModel_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
49{
50    CDispCylinderModel *self;
51   
52    self = (CDispCylinderModel *)type->tp_alloc(type, 0);
53   
54    return (PyObject *)self;
55}
56
57static int
58CDispCylinderModel_init(CDispCylinderModel *self, PyObject *args, PyObject *kwds)
59{
60    if (self != NULL) {
61       
62        // Create parameters
63        self->params = PyDict_New();
64       
65        // Initialize parameter dictionary
66        PyDict_SetItemString(self->params,"scale",Py_BuildValue("d",1.000000));
67        PyDict_SetItemString(self->params,"sigma_phi",Py_BuildValue("d",0.000000));
68        PyDict_SetItemString(self->params,"sigma_radius",Py_BuildValue("d",0.000000));
69        PyDict_SetItemString(self->params,"sigma_theta",Py_BuildValue("d",0.000000));
70        PyDict_SetItemString(self->params,"length",Py_BuildValue("d",400.000000));
71        PyDict_SetItemString(self->params,"cyl_theta",Py_BuildValue("d",1.570000));
72        PyDict_SetItemString(self->params,"background",Py_BuildValue("d",0.000000));
73        PyDict_SetItemString(self->params,"radius",Py_BuildValue("d",20.000000));
74        PyDict_SetItemString(self->params,"n_pts",Py_BuildValue("d",25.000000));
75        PyDict_SetItemString(self->params,"contrast",Py_BuildValue("d",0.000003));
76        PyDict_SetItemString(self->params,"cyl_phi",Py_BuildValue("d",0.000000));
77
78         
79        // Create empty log
80        self->log = PyDict_New();
81       
82       
83
84    }
85    return 0;
86}
87
88static PyMemberDef CDispCylinderModel_members[] = {
89    {"params", T_OBJECT, offsetof(CDispCylinderModel, params), 0,
90     "Parameters"},
91    {"log", T_OBJECT, offsetof(CDispCylinderModel, log), 0,
92     "Log"},
93    {NULL}  /* Sentinel */
94};
95
96/** Read double from PyObject
97    @param p PyObject
98    @return double
99*/
100double CDispCylinderModel_readDouble(PyObject *p) {
101    if (PyFloat_Check(p)==1) {
102        return (double)(((PyFloatObject *)(p))->ob_fval);
103    } else if (PyInt_Check(p)==1) {
104        return (double)(((PyIntObject *)(p))->ob_ival);
105    } else if (PyLong_Check(p)==1) {
106        return (double)PyLong_AsLong(p);
107    } else {
108        return 0.0;
109    }
110}
111
112
113/**
114 * Function to call to evaluate model
115 * @param args: input q or [q,phi]
116 * @return: function value
117 */
118static PyObject * run(CDispCylinderModel *self, PyObject *args) {
119        double q_value, phi_value;
120        PyObject* pars;
121        int npars;
122       
123        // Get parameters
124       
125        // Reader parameter dictionary
126    self->model_pars.scale = PyFloat_AsDouble( PyDict_GetItemString(self->params, "scale") );
127    self->model_pars.sigma_phi = PyFloat_AsDouble( PyDict_GetItemString(self->params, "sigma_phi") );
128    self->model_pars.sigma_radius = PyFloat_AsDouble( PyDict_GetItemString(self->params, "sigma_radius") );
129    self->model_pars.sigma_theta = PyFloat_AsDouble( PyDict_GetItemString(self->params, "sigma_theta") );
130    self->model_pars.length = PyFloat_AsDouble( PyDict_GetItemString(self->params, "length") );
131    self->model_pars.cyl_theta = PyFloat_AsDouble( PyDict_GetItemString(self->params, "cyl_theta") );
132    self->model_pars.background = PyFloat_AsDouble( PyDict_GetItemString(self->params, "background") );
133    self->model_pars.radius = PyFloat_AsDouble( PyDict_GetItemString(self->params, "radius") );
134    self->model_pars.n_pts = PyFloat_AsDouble( PyDict_GetItemString(self->params, "n_pts") );
135    self->model_pars.contrast = PyFloat_AsDouble( PyDict_GetItemString(self->params, "contrast") );
136    self->model_pars.cyl_phi = PyFloat_AsDouble( PyDict_GetItemString(self->params, "cyl_phi") );
137
138       
139        // Get input and determine whether we have to supply a 1D or 2D return value.
140        if ( !PyArg_ParseTuple(args,"O",&pars) ) {
141            PyErr_SetString(CDispCylinderModelError, 
142                "CDispCylinderModel.run expects a q value.");
143                return NULL;
144        }
145         
146        // Check params
147        if( PyList_Check(pars)==1) {
148               
149                // Length of list should be 2 for I(q,phi)
150            npars = PyList_GET_SIZE(pars); 
151            if(npars!=2) {
152                PyErr_SetString(CDispCylinderModelError, 
153                        "CDispCylinderModel.run expects a double or a list of dimension 2.");
154                return NULL;
155            }
156            // We have a vector q, get the q and phi values at which
157            // to evaluate I(q,phi)
158            q_value = CDispCylinderModel_readDouble(PyList_GET_ITEM(pars,0));
159            phi_value = CDispCylinderModel_readDouble(PyList_GET_ITEM(pars,1));
160            // Skip zero
161            if (q_value==0) {
162                return Py_BuildValue("d",0.0);
163            }
164                return Py_BuildValue("d",disperse_cylinder_analytical_2D(&(self->model_pars),q_value,phi_value));
165
166        } else {
167
168                // We have a scalar q, we will evaluate I(q)
169                q_value = CDispCylinderModel_readDouble(pars);         
170               
171                return Py_BuildValue("d",disperse_cylinder_analytical_1D(&(self->model_pars),q_value));
172        }       
173}
174
175static PyObject * reset(CDispCylinderModel *self, PyObject *args) {
176   
177
178    return Py_BuildValue("d",0.0);
179}
180
181
182static PyMethodDef CDispCylinderModel_methods[] = {
183    {"run",      (PyCFunction)run     , METH_VARARGS,
184      "Evaluate the model at a given Q"},
185    {"reset",    (PyCFunction)reset   , METH_VARARGS,
186      "Reset pair correlation"},
187    //{"numerical_1D",      (PyCFunction)numerical_1D     , METH_VARARGS,
188    //  "Evaluate the 1D model at a given Q"},
189   {NULL}
190};
191
192static PyTypeObject CDispCylinderModelType = {
193    PyObject_HEAD_INIT(NULL)
194    0,                         /*ob_size*/
195    "CDispCylinderModel",             /*tp_name*/
196    sizeof(CDispCylinderModel),             /*tp_basicsize*/
197    0,                         /*tp_itemsize*/
198    (destructor)CDispCylinderModel_dealloc, /*tp_dealloc*/
199    0,                         /*tp_print*/
200    0,                         /*tp_getattr*/
201    0,                         /*tp_setattr*/
202    0,                         /*tp_compare*/
203    0,                         /*tp_repr*/
204    0,                         /*tp_as_number*/
205    0,                         /*tp_as_sequence*/
206    0,                         /*tp_as_mapping*/
207    0,                         /*tp_hash */
208    0,                         /*tp_call*/
209    0,                         /*tp_str*/
210    0,                         /*tp_getattro*/
211    0,                         /*tp_setattro*/
212    0,                         /*tp_as_buffer*/
213    Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, /*tp_flags*/
214    "CDispCylinderModel objects",           /* tp_doc */
215    0,                         /* tp_traverse */
216    0,                         /* tp_clear */
217    0,                         /* tp_richcompare */
218    0,                         /* tp_weaklistoffset */
219    0,                         /* tp_iter */
220    0,                         /* tp_iternext */
221    CDispCylinderModel_methods,             /* tp_methods */
222    CDispCylinderModel_members,             /* tp_members */
223    0,                         /* tp_getset */
224    0,                         /* tp_base */
225    0,                         /* tp_dict */
226    0,                         /* tp_descr_get */
227    0,                         /* tp_descr_set */
228    0,                         /* tp_dictoffset */
229    (initproc)CDispCylinderModel_init,      /* tp_init */
230    0,                         /* tp_alloc */
231    CDispCylinderModel_new,                 /* tp_new */
232};
233
234
235static PyMethodDef module_methods[] = {
236    {NULL} 
237};
238
239/**
240 * Function used to add the model class to a module
241 * @param module: module to add the class to
242 */ 
243void addCDispCylinderModel(PyObject *module) {
244        PyObject *d;
245       
246    if (PyType_Ready(&CDispCylinderModelType) < 0)
247        return;
248
249    Py_INCREF(&CDispCylinderModelType);
250    PyModule_AddObject(module, "CDispCylinderModel", (PyObject *)&CDispCylinderModelType);
251   
252    d = PyModule_GetDict(module);
253    CDispCylinderModelError = PyErr_NewException("CDispCylinderModel.error", NULL, NULL);
254    PyDict_SetItemString(d, "CDispCylinderModelError", CDispCylinderModelError);
255}
256
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