source: sasview/sansmodels/src/sans/models/test/utest_modelmultiplication_cyl.py @ 138c139

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Last change on this file since 138c139 was b22748b, checked in by Jae Cho <jhjcho@…>, 16 years ago

changed notation of units

  • Property mode set to 100644
File size: 5.2 KB
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[24276b6]1"""
2    Unit tests for specific models
3    @author: Gervaise Alina / UTK
4"""
5
6import unittest, numpy,math
7
8from sans.models.MultiplicationModel import MultiplicationModel
9from sans.models.SphereModel import SphereModel
10from sans.models.SquareWellStructure import SquareWellStructure
11     
12class TestDisperser(unittest.TestCase):
13    """ Unit tests for sphere model * SquareWellStructure"""
14    model1= SphereModel()
15    model2= SquareWellStructure()
16    model3= MultiplicationModel(model1, model2)
17    details={}
18    details['scale'] = ['', None, None]
[b22748b]19    #details['radius'] = ['[A]', None, None]#Non ASCII charater
20    #details['contrast'] = ['[1/A^2]', None, None] #Non ASCII charater
21    details['background'] = ['[1/cm]', None, None]
[24276b6]22    details['volfraction'] = ['', None, None]
[b22748b]23    details['welldepth'] = ['[kT]', None, None]
[24276b6]24    details['wellwidth'] = ['', None, None]
25   
26    ## fittable parameters
27    fixed=[]
28    fixed=['radius.width']
[309ccaf]29   
[24276b6]30    #Radius of two models should not be equal..
31    def test_multplication_radius(self):
[309ccaf]32        "" "test multiplication model"""
[24276b6]33        from sans.models.MultiplicationModel import MultiplicationModel
34        from sans.models.CylinderModel import CylinderModel
35        from sans.models.HardsphereStructure import HardsphereStructure
36        model1 = CylinderModel()
[309ccaf]37        model1.setParam("radius", 20)
38        model1.setParam("length", 400)
[24276b6]39        model2 = HardsphereStructure()
40        model  =  MultiplicationModel(model1,model2 )
[309ccaf]41        model.setParam("radius", 20)
42        self.assertEqual(model.getParam("radius"), 20)
[24276b6]43        #self.assertEqual(model.model1.getParam("radius"),3)
44        from sans.models.DiamCylFunc import DiamCylFunc
45        model4= DiamCylFunc()
46        radius= model4.run(0.0)
[b22748b]47        self.assertEqual(model.model2.getParam("radius"),73.340133152616076)
[309ccaf]48       
49    def test_multplication_radius1(self):
50        "" "test multiplication model"""
51        from sans.models.MultiplicationModel import MultiplicationModel
52        from sans.models.EllipsoidModel import EllipsoidModel
53        from sans.models.HardsphereStructure import HardsphereStructure
54        model1 = EllipsoidModel()
55        model1.setParam("radius_a", 20)
56        model1.setParam("radius_b", 400)
57        model2 = HardsphereStructure()
58        model  =  MultiplicationModel(model1,model2 )
59        model.setParam("radius_a", 20)
60        self.assertEqual(model.getParam("radius_a"), 20)
61        #self.assertEqual(model.model1.getParam("radius"),3)
62        from sans.models.DiamEllipFunc import DiamEllipFunc
63        model4= DiamEllipFunc()
64        radius= model4.run(0.0)
65        self.assertEqual(model.model2.getParam("radius"),270.74504487588121)
[24276b6]66   
67    def test_multiplication(self):
68        """ test multiplication model"""
69        from sans.models.MultiplicationModel import MultiplicationModel
70        from sans.models.SphereModel import SphereModel
71        from sans.models.NoStructure import NoStructure
72        model1  =  MultiplicationModel(SphereModel(),NoStructure())
73        model2 = SphereModel()
74        x= 2
75        a = model1.run(x)
76       
77        b=  model2.run(x)
78        self.assertEqual(a, b)
79        model2.setParam("scale", 10)
80        c=  model2.run(x)
81        self.assertEqual(c, 10*b)
82        model1.setParam("scale", 10)
83        d=  model1.run(x)
84        self.assertEqual(d, 10*a)
85        self.assertEqual(model1.getParam("scale"), 10)
86       
87       
88    def testMultiplicationModel(self):
89        """ Test Multiplication  sphere with SquareWellStructure"""
90        ## test details dictionary
[b22748b]91        #self.assertEqual(self.model3.details, self.details)
[24276b6]92       
93        ## test parameters list
94        list3= self.model3.getParamList()
95        for item in self.model1.getParamList():
96            self.assert_(item in list3)
97        for item in self.model2.getParamList():
98            self.assert_(item in list3)
99           
100        ## test set value for parameters and get paramaters
101        self.model3.setParam("scale", 15)
102        self.assertEqual(self.model3.getParam("scale"), 15)
103        self.model3.setParam("radius", 20)
104        self.assertEqual(self.model3.getParam("radius"), 20)
105        self.model3.setParam("radius.width", 15)
106        self.assertEqual(self.model3.getParam("radius.width"), 15)
107       
108        ## Dispersity
109        list3= self.model3.getDispParamList()
110        self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width'])
111       
112        from sans.models.dispersion_models import ArrayDispersion
113        disp_th = ArrayDispersion()
114       
115        values_th = numpy.zeros(100)
116        weights   = numpy.zeros(100)
117        for i in range(100):
118            values_th[i]=(math.pi/99.0*i)
119            weights[i]=(1.0)
120   
121        disp_th.set_weights(values_th, weights)
122       
123        self.model3.set_dispersion('radius', disp_th)
124       
125        val_1d = self.model3.run(math.sqrt(0.0002))
126        val_2d = self.model3.runXY([0.01,0.01]) 
127       
128        self.assertTrue(math.fabs(val_1d-val_2d)/val_1d < 0.02)
129        model4= self.model3.clone()
130        self.assertEqual(model4.getParam("radius"), 20)
131       
132if __name__ == '__main__':
133    unittest.main()
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