utest_modelmultiplication.py @ ec38f27

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Last change on this file since ec38f27 was ec38f27, checked in by Jae Cho <jhjcho@…>, 15 years ago
used setUp and extend test to all S(Q) for cylinderModel, sphereModel,and ellipsoidmodel
Property mode set to `100644`
File size: 25.5 KB

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1	"""
2	Unit tests for specific models
3	@author: Gervaise Alina / UTK
4	"""
5	#This test replaces the older utests for multiplicationModel. Aug. 31, 2009. JC
6	import unittest, numpy,math
7	### P*S with sphere model
8	class TestsphereSuareW(unittest.TestCase):
9	"""
10	Unit tests for SphereModel(Q) * SquareWellStructure(Q)
11	"""
12	def setUp(self):
13	from sans.models.SphereModel import SphereModel
14	from sans.models.SquareWellStructure import SquareWellStructure
15	from sans.models.DiamCylFunc import DiamCylFunc
16	from sans.models.MultiplicationModel import MultiplicationModel
17
18	self.model = SphereModel()
19	self.model2 = SquareWellStructure()
20	self.model3 = MultiplicationModel(self.model, self.model2)
21	self.modelD = DiamCylFunc()
22
23	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
24	def test_multplication_radius(self):
25	"""
26	test multiplication model (check the effective radius & the output
27	of the multiplication)
28	"""
29	self.model.setParam("radius", 60)
30	modelDrun = 60
31	self.model2.setParam("volfraction", 0.2)
32	self.model2.setParam("effect_radius", modelDrun )
33
34	#Compare new method with old method
35	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
36
37	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
38	self.assertEqual(self.model.calculate_ER(), modelDrun)
39
40
41	def testMultiplicationParam(self):
42	""" Test Multiplication (check the setparameters and the run & runXY w/ array dispersion)"""
43	## test details dictionary
44
45	## test parameters list
46	list3= self.model3.getParamList()
47
48	for item in self.model.getParamList():
49	self.assert_(item in list3)
50	for item in self.model2.getParamList():
51	#model3 parameters should not include effect_radius*
52	if not 'effect_radius' in item:
53	self.assert_(item in list3)
54
55	## test set value for parameters and get paramaters
56	self.model3.setParam("scale", 15)
57	self.assertEqual(self.model3.getParam("scale"), 15)
58	self.model3.setParam("radius", 20)
59	self.assertEqual(self.model3.getParam("radius"), 20)
60	self.model3.setParam("radius.width", 15)
61	self.assertEqual(self.model3.getParam("radius.width"), 15)
62
63	## Dispersity
64	list3= self.model3.getDispParamList()
65	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width'])
66
67	from sans.models.dispersion_models import ArrayDispersion
68	disp_th = ArrayDispersion()
69
70	values_th = numpy.zeros(100)
71	weights = numpy.zeros(100)
72	for i in range(100):
73	values_th[i]=(math.pi/99.0*i)
74	weights[i]=(1.0)
75
76	disp_th.set_weights(values_th, weights)
77
78	self.model3.set_dispersion('radius', disp_th)
79
80	val_1d = self.model3.run(math.sqrt(0.0002))
81	val_2d = self.model3.runXY([0.01,0.01])
82
83	self.assertTrue(math.fabs(val_1d-val_2d)/val_1d < 0.02)
84	model4= self.model3.clone()
85	self.assertEqual(model4.getParam("radius"), 20)
86
87	class TestsphereHardS(unittest.TestCase):
88	"""
89	Unit tests for SphereModel(Q) * HardsphereStructure(Q)
90	"""
91	def setUp(self):
92	from sans.models.SphereModel import SphereModel
93	from sans.models.HardsphereStructure import HardsphereStructure
94	from sans.models.DiamCylFunc import DiamCylFunc
95	from sans.models.MultiplicationModel import MultiplicationModel
96
97	self.model = SphereModel()
98	self.model2 = HardsphereStructure()
99	self.model3 = MultiplicationModel(self.model, self.model2)
100	self.modelD = DiamCylFunc()
101
102	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
103	def test_multplication_radius(self):
104	"""
105	test multiplication model (check the effective radius & the output
106	of the multiplication)
107	"""
108	self.model.setParam("radius", 60)
109	modelDrun = 60
110	self.model2.setParam("volfraction", 0.2)
111	self.model2.setParam("effect_radius", modelDrun )
112
113	#Compare new method with old method
114	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
115
116	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
117	self.assertEqual(self.model.calculate_ER(), modelDrun)
118
119
120	def testMultiplicationParam(self):
121	""" Test Multiplication (check the parameters)"""
122	## test details dictionary
123
124	## test parameters list
125	list3= self.model3.getParamList()
126
127	for item in self.model.getParamList():
128	self.assert_(item in list3)
129	for item in self.model2.getParamList():
130	#model3 parameters should not include effect_radius*
131	if not 'effect_radius' in item:
132	self.assert_(item in list3)
133
134	## test set value for parameters and get paramaters
135	self.model3.setParam("scale", 15)
136	self.assertEqual(self.model3.getParam("scale"), 15)
137	self.model3.setParam("radius", 20)
138	self.assertEqual(self.model3.getParam("radius"), 20)
139	self.model3.setParam("radius.width", 15)
140	self.assertEqual(self.model3.getParam("radius.width"), 15)
141
142	## Dispersity
143	list3= self.model3.getDispParamList()
144	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width'])
145
146	from sans.models.dispersion_models import ArrayDispersion
147	disp_th = ArrayDispersion()
148
149	values_th = numpy.zeros(100)
150	weights = numpy.zeros(100)
151	for i in range(100):
152	values_th[i]=(math.pi/99.0*i)
153	weights[i]=(1.0)
154
155	disp_th.set_weights(values_th, weights)
156
157	self.model3.set_dispersion('radius', disp_th)
158
159	val_1d = self.model3.run(math.sqrt(0.0002))
160	val_2d = self.model3.runXY([0.01,0.01])
161
162	self.assertTrue(math.fabs(val_1d-val_2d)/val_1d < 0.02)
163	model4= self.model3.clone()
164	self.assertEqual(model4.getParam("radius"), 20)
165	class TestsphereSHS(unittest.TestCase):
166	"""
167	Unit tests for SphereModel(Q) * StickyHSStructure(Q)
168	"""
169	def setUp(self):
170	from sans.models.SphereModel import SphereModel
171	from sans.models.StickyHSStructure import StickyHSStructure
172	from sans.models.DiamCylFunc import DiamCylFunc
173	from sans.models.MultiplicationModel import MultiplicationModel
174
175	self.model = SphereModel()
176	self.model2 = StickyHSStructure()
177	self.model3 = MultiplicationModel(self.model, self.model2)
178	self.modelD = DiamCylFunc()
179
180	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
181	def test_multplication_radius(self):
182	"""
183	test multiplication model (check the effective radius & the output
184	of the multiplication)
185	"""
186	self.model.setParam("radius", 60)
187	modelDrun = 60
188	self.model2.setParam("volfraction", 0.2)
189	self.model2.setParam("effect_radius", modelDrun )
190
191	#Compare new method with old method
192	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
193
194	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
195	self.assertEqual(self.model.calculate_ER(), modelDrun)
196
197
198	def testMultiplicationParam(self):
199	""" Test Multiplication (check the parameters)"""
200	## test details dictionary
201
202	## test parameters list
203	list3= self.model3.getParamList()
204
205	for item in self.model.getParamList():
206	self.assert_(item in list3)
207	for item in self.model2.getParamList():
208	#model3 parameters should not include effect_radius*
209	if not 'effect_radius' in item:
210	self.assert_(item in list3)
211
212	## test set value for parameters and get paramaters
213	self.model3.setParam("scale", 15)
214	self.assertEqual(self.model3.getParam("scale"), 15)
215	self.model3.setParam("radius", 20)
216	self.assertEqual(self.model3.getParam("radius"), 20)
217	self.model3.setParam("radius.width", 15)
218	self.assertEqual(self.model3.getParam("radius.width"), 15)
219
220	## Dispersity
221	list3= self.model3.getDispParamList()
222	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width'])
223
224	from sans.models.dispersion_models import ArrayDispersion
225	disp_th = ArrayDispersion()
226
227	values_th = numpy.zeros(100)
228	weights = numpy.zeros(100)
229	for i in range(100):
230	values_th[i]=(math.pi/99.0*i)
231	weights[i]=(1.0)
232
233	disp_th.set_weights(values_th, weights)
234
235	self.model3.set_dispersion('radius', disp_th)
236
237	val_1d = self.model3.run(math.sqrt(0.0002))
238	val_2d = self.model3.runXY([0.01,0.01])
239
240	self.assertTrue(math.fabs(val_1d-val_2d)/val_1d < 0.02)
241	model4= self.model3.clone()
242	self.assertEqual(model4.getParam("radius"), 20)
243
244	class TestsphereHayterM(unittest.TestCase):
245	"""
246	Unit tests for SphereModel(Q) * HayterMSAStructure(Q)
247	"""
248	def setUp(self):
249	from sans.models.SphereModel import SphereModel
250	from sans.models.HayterMSAStructure import HayterMSAStructure
251	from sans.models.DiamCylFunc import DiamCylFunc
252	from sans.models.MultiplicationModel import MultiplicationModel
253
254	self.model = SphereModel()
255	self.model2 = HayterMSAStructure()
256	self.model3 = MultiplicationModel(self.model, self.model2)
257	self.modelD = DiamCylFunc()
258
259	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
260	def test_multplication_radius(self):
261	"""
262	test multiplication model (check the effective radius & the output
263	of the multiplication)
264	"""
265	self.model.setParam("radius", 60)
266	modelDrun = 60
267	self.model2.setParam("volfraction", 0.2)
268	self.model2.setParam("effect_radius", modelDrun )
269
270	#Compare new method with old method
271	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
272
273	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
274	self.assertEqual(self.model.calculate_ER(), modelDrun)
275
276
277	def testMultiplicationParam(self):
278	""" Test Multiplication (check the parameters)"""
279	## test details dictionary
280
281	## test parameters list
282	list3= self.model3.getParamList()
283
284	for item in self.model.getParamList():
285	self.assert_(item in list3)
286	for item in self.model2.getParamList():
287	#model3 parameters should not include effect_radius*
288	if not 'effect_radius' in item:
289	self.assert_(item in list3)
290
291	## test set value for parameters and get paramaters
292	self.model3.setParam("scale", 15)
293	self.assertEqual(self.model3.getParam("scale"), 15)
294	self.model3.setParam("radius", 20)
295	self.assertEqual(self.model3.getParam("radius"), 20)
296	self.model3.setParam("radius.width", 15)
297	self.assertEqual(self.model3.getParam("radius.width"), 15)
298
299	## Dispersity
300	list3= self.model3.getDispParamList()
301	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width'])
302
303	from sans.models.dispersion_models import ArrayDispersion
304	disp_th = ArrayDispersion()
305
306	values_th = numpy.zeros(100)
307	weights = numpy.zeros(100)
308	for i in range(100):
309	values_th[i]=(math.pi/99.0*i)
310	weights[i]=(1.0)
311
312	disp_th.set_weights(values_th, weights)
313
314	self.model3.set_dispersion('radius', disp_th)
315
316	val_1d = self.model3.run(math.sqrt(0.0002))
317	val_2d = self.model3.runXY([0.01,0.01])
318
319	self.assertTrue(math.fabs(val_1d-val_2d)/val_1d < 0.02)
320
321	model4= self.model3.clone()
322	self.assertEqual(model4.getParam("radius"), 20)
323
324	### P*S with cylinder model
325	class TestcylinderSuareW(unittest.TestCase):
326	"""
327	Unit tests for CylinderModel(Q) * SquareWellStructure(Q)
328	"""
329	def setUp(self):
330	from sans.models.CylinderModel import CylinderModel
331	from sans.models.SquareWellStructure import SquareWellStructure
332	from sans.models.DiamCylFunc import DiamCylFunc
333	from sans.models.MultiplicationModel import MultiplicationModel
334
335	self.model = CylinderModel()
336	self.model2 = SquareWellStructure()
337	self.model3 = MultiplicationModel(self.model, self.model2)
338	self.modelD = DiamCylFunc()
339
340	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
341	def test_multplication_radius(self):
342	"""
343	test multiplication model (check the effective radius & the output
344	of the multiplication)
345	"""
346	self.model.setParam("radius", 60)
347	self.modelD.setParam("radius", 60)
348	modelDrun = self.modelD.run(0.1)/2
349	self.model2.setParam("volfraction", 0.2)
350	self.model2.setParam("effect_radius", modelDrun)
351
352	#Compare new method with old method
353	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
354
355	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
356	self.assertEqual(self.model.calculate_ER(), modelDrun)
357
358
359	def testMultiplicationParam(self):
360	""" Test Multiplication (check the setparameters and the run & runXY w/ array dispersion)"""
361	## test details dictionary
362
363	## test parameters list
364	list3= self.model3.getParamList()
365
366	for item in self.model.getParamList():
367	self.assert_(item in list3)
368	for item in self.model2.getParamList():
369	#model3 parameters should not include effect_radius*
370	if not 'effect_radius' in item:
371	self.assert_(item in list3)
372
373	## test set value for parameters and get paramaters
374	self.model3.setParam("scale", 15)
375	self.assertEqual(self.model3.getParam("scale"), 15)
376	self.model3.setParam("radius", 20)
377	self.assertEqual(self.model3.getParam("radius"), 20)
378	self.model3.setParam("radius.width", 15)
379	self.assertEqual(self.model3.getParam("radius.width"), 15)
380
381	## Dispersity
382	list3= self.model3.getDispParamList()
383	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width', 'length.npts', \
384	'length.nsigmas', 'length.width', 'cyl_theta.npts', 'cyl_theta.nsigmas', 'cyl_theta.width',\
385	'cyl_phi.npts', 'cyl_phi.nsigmas', 'cyl_phi.width'])
386
387	from sans.models.dispersion_models import ArrayDispersion
388	disp_th = ArrayDispersion()
389
390	values_th = numpy.zeros(100)
391	weights = numpy.zeros(100)
392	for i in range(100):
393	values_th[i]=(math.pi/99.0*i)
394	weights[i]=(1.0)
395
396	disp_th.set_weights(values_th, weights)
397
398	self.model3.set_dispersion('radius', disp_th)
399
400	model4= self.model3.clone()
401	self.assertEqual(model4.getParam("radius"), 20)
402
403	class TestcylinderHardS(unittest.TestCase):
404	"""
405	Unit tests for CylinderModel(Q) * HardsphereStructure(Q)
406	"""
407	def setUp(self):
408	from sans.models.CylinderModel import CylinderModel
409	from sans.models.HardsphereStructure import HardsphereStructure
410	from sans.models.DiamCylFunc import DiamCylFunc
411	from sans.models.MultiplicationModel import MultiplicationModel
412
413	self.model = CylinderModel()
414	self.model2 = HardsphereStructure()
415	self.model3 = MultiplicationModel(self.model, self.model2)
416	self.modelD = DiamCylFunc()
417
418	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
419	def test_multplication_radius(self):
420	"""
421	test multiplication model (check the effective radius & the output
422	of the multiplication)
423	"""
424	self.model.setParam("radius", 60)
425	self.modelD.setParam("radius", 60)
426	modelDrun = self.modelD.run(0.1)/2
427	self.model2.setParam("volfraction", 0.2)
428	self.model2.setParam("effect_radius", modelDrun )
429
430	#Compare new method with old method
431	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
432
433	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
434	self.assertEqual(self.model.calculate_ER(), modelDrun)
435
436
437	def testMultiplicationParam(self):
438	""" Test Multiplication """
439	## test details dictionary
440
441	## test parameters list
442	list3= self.model3.getParamList()
443
444	for item in self.model.getParamList():
445	self.assert_(item in list3)
446	for item in self.model2.getParamList():
447	#model3 parameters should not include effect_radius*
448	if not 'effect_radius' in item:
449	self.assert_(item in list3)
450
451	## test set value for parameters and get paramaters
452	self.model3.setParam("scale", 15)
453	self.assertEqual(self.model3.getParam("scale"), 15)
454	self.model3.setParam("radius", 20)
455	self.assertEqual(self.model3.getParam("radius"), 20)
456	self.model3.setParam("radius.width", 15)
457	self.assertEqual(self.model3.getParam("radius.width"), 15)
458
459	## Dispersity
460	list3= self.model3.getDispParamList()
461	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width', 'length.npts', \
462	'length.nsigmas', 'length.width', 'cyl_theta.npts', 'cyl_theta.nsigmas', 'cyl_theta.width',\
463	'cyl_phi.npts', 'cyl_phi.nsigmas', 'cyl_phi.width'])
464
465	from sans.models.dispersion_models import ArrayDispersion
466	disp_th = ArrayDispersion()
467
468	values_th = numpy.zeros(100)
469	weights = numpy.zeros(100)
470	for i in range(100):
471	values_th[i]=(math.pi/99.0*i)
472	weights[i]=(1.0)
473
474	disp_th.set_weights(values_th, weights)
475
476	self.model3.set_dispersion('radius', disp_th)
477
478
479	model4= self.model3.clone()
480	self.assertEqual(model4.getParam("radius"), 20)
481	class TestcylinderSHS(unittest.TestCase):
482	"""
483	Unit tests for SphereModel(Q) * StickyHSStructure(Q)
484	"""
485	def setUp(self):
486	from sans.models.CylinderModel import CylinderModel
487	from sans.models.StickyHSStructure import StickyHSStructure
488	from sans.models.DiamCylFunc import DiamCylFunc
489	from sans.models.MultiplicationModel import MultiplicationModel
490
491	self.model = CylinderModel()
492	self.model2 = StickyHSStructure()
493	self.model3 = MultiplicationModel(self.model, self.model2)
494	self.modelD = DiamCylFunc()
495
496	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
497	def test_multplication_radius(self):
498	"""
499	test multiplication model (check the effective radius & the output
500	of the multiplication)
501	"""
502	self.model.setParam("radius", 60)
503	self.modelD.setParam("radius", 60)
504	modelDrun = self.modelD.run(0.1)/2
505	self.model2.setParam("volfraction", 0.2)
506	self.model2.setParam("effect_radius", modelDrun )
507
508	#Compare new method with old method
509	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
510
511	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
512	self.assertEqual(self.model.calculate_ER(), modelDrun)
513
514
515	def testMultiplicationParam(self):
516	""" Test Multiplication (check the parameters)"""
517	## test details dictionary
518
519	## test parameters list
520	list3= self.model3.getParamList()
521
522	for item in self.model.getParamList():
523	self.assert_(item in list3)
524	for item in self.model2.getParamList():
525	#model3 parameters should not include effect_radius*
526	if not 'effect_radius' in item:
527	self.assert_(item in list3)
528
529	## test set value for parameters and get paramaters
530	self.model3.setParam("scale", 15)
531	self.assertEqual(self.model3.getParam("scale"), 15)
532	self.model3.setParam("radius", 20)
533	self.assertEqual(self.model3.getParam("radius"), 20)
534	self.model3.setParam("radius.width", 15)
535	self.assertEqual(self.model3.getParam("radius.width"), 15)
536
537	## Dispersity
538	list3= self.model3.getDispParamList()
539	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width', 'length.npts', \
540	'length.nsigmas', 'length.width', 'cyl_theta.npts', 'cyl_theta.nsigmas', 'cyl_theta.width',\
541	'cyl_phi.npts', 'cyl_phi.nsigmas', 'cyl_phi.width'])
542
543	from sans.models.dispersion_models import ArrayDispersion
544	disp_th = ArrayDispersion()
545
546	values_th = numpy.zeros(100)
547	weights = numpy.zeros(100)
548	for i in range(100):
549	values_th[i]=(math.pi/99.0*i)
550	weights[i]=(1.0)
551
552	disp_th.set_weights(values_th, weights)
553
554	self.model3.set_dispersion('radius', disp_th)
555
556	model4= self.model3.clone()
557	self.assertEqual(model4.getParam("radius"), 20)
558
559	class TestcylinderHayterM(unittest.TestCase):
560	"""
561	Unit tests for SphereModel(Q) * HayterMSAStructure(Q)
562	"""
563	def setUp(self):
564	from sans.models.CylinderModel import CylinderModel
565	from sans.models.HayterMSAStructure import HayterMSAStructure
566	from sans.models.DiamCylFunc import DiamCylFunc
567	from sans.models.MultiplicationModel import MultiplicationModel
568
569	self.model = CylinderModel()
570	self.model2 = HayterMSAStructure()
571	self.model3 = MultiplicationModel(self.model, self.model2)
572	self.modelD = DiamCylFunc()
573
574	#Radius of model1.calculate_ER should be equal to the output/2 of DiamFunctions
575	def test_multplication_radius(self):
576	"""
577	test multiplication model (check the effective radius & the output
578	of the multiplication)
579	"""
580	self.model.setParam("radius", 60)
581	self.modelD.setParam("radius", 60)
582	modelDrun = self.modelD.run(0.1)/2
583	self.model2.setParam("volfraction", 0.2)
584	self.model2.setParam("effect_radius", modelDrun )
585
586	#Compare new method with old method
587	self.assertEqual(self.model3.run(0.1), self.model.run(0.1)*self.model2.run(0.1))
588
589	#Compare radius from two different calculations. Note: modelD.run(0.0) is DIAMETER
590	self.assertEqual(self.model.calculate_ER(), modelDrun)
591
592
593	def testMultiplicationParam(self):
594	""" Test Multiplication (check the parameters)"""
595	## test details dictionary
596
597	## test parameters list
598	list3= self.model3.getParamList()
599
600	for item in self.model.getParamList():
601	self.assert_(item in list3)
602	for item in self.model2.getParamList():
603	#model3 parameters should not include effect_radius*
604	if not 'effect_radius' in item:
605	self.assert_(item in list3)
606
607	## test set value for parameters and get paramaters
608	self.model3.setParam("scale", 15)
609	self.assertEqual(self.model3.getParam("scale"), 15)
610	self.model3.setParam("radius", 20)
611	self.assertEqual(self.model3.getParam("radius"), 20)
612	self.model3.setParam("radius.width", 15)
613	self.assertEqual(self.model3.getParam("radius.width"), 15)
614
615	## Dispersity
616	list3= self.model3.getDispParamList()
617	self.assertEqual(list3, ['radius.npts', 'radius.nsigmas', 'radius.width', 'length.npts', \
618	'length.nsigmas', 'length.width', 'cyl_theta.npts', 'cyl_theta.nsigmas', 'cyl_theta.width',\
619	'cyl_phi.npts', 'cyl_phi.nsigmas', 'cyl_phi.width'])
620
621	from sans.models.dispersion_models import ArrayDispersion
622	disp_th = ArrayDispersion()
623
624	values_th = numpy.zeros(100)
625	weights = numpy.zeros(100)
626	for i in range(100):
627	values_th[i]=(math.pi/99.0*i)
628	weights[i]=(1.0)
629
630	disp_th.set_weights(values_th, weights)
631
632	self.model3.set_dispersion('radius', disp_th)
633
634	model4= self.model3.clone()
635	self.assertEqual(model4.getParam("radius"), 20)
636
637
638	if __name__ == '__main__':
639	unittest.main()

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SasView

source: sasview/sansmodels/src/sans/models/test/utest_modelmultiplication.py @ ec38f27

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