testpark.py @ 6aaf444

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload

Last change on this file since 6aaf444 was 4dd63eb, checked in by Gervaise Alina <gervyh@…>, 16 years ago
change on set_model
Property mode set to `100644`
File size: 3.9 KB

Line
1	"""
2	Unit tests for fitting module
3	"""
4	import unittest
5	from sans.guitools.plottables import Theory1D
6	from sans.guitools.plottables import Data1D
7	from sans.fit.ScipyFitting import Parameter
8	import math
9	class testFitModule(unittest.TestCase):
10
11	def test2models2dataonconstraint(self):
12	""" test fitting for two set of data and one model"""
13	from sans.fit.Loader import Load
14	load= Load()
15	#Load the first data
16	load.set_filename("testdata1.txt")
17	load.set_values()
18	data1 = Data1D(x=[], y=[],dx=None, dy=None)
19	load.load_data(data1)
20
21	#Load the second data
22	load.set_filename("testdata2.txt")
23	load.set_values()
24	data2 = Data1D(x=[], y=[],dx=None, dy=None)
25	load.load_data(data2)
26
27	#Load the third data
28	load.set_filename("testdata_line.txt")
29	load.set_values()
30	data3 = Data1D(x=[], y=[],dx=None, dy=None)
31	load.load_data(data3)
32
33	#Importing the Fit module
34	from sans.fit.Fitting import Fit
35	fitter= Fit('park')
36	# Receives the type of model for the fitting
37	from sans.guitools.LineModel import LineModel
38	model1 = LineModel()
39	model2 = LineModel()
40
41	#Do the fit
42	fitter.set_model(model1,"M1",1, {'A':2.5,'B':4})
43	fitter.set_data(data1,1)
44
45	fitter.set_model(model2,"M2",2, {'A':2,'B':3})
46	fitter.set_data(data2,2)
47
48	chisqr1, out1, cov1= fitter.fit()
49
50	self.assert_(math.fabs(out1[1]-2.5)/math.sqrt(cov1[1][1]) < 2)
51	print math.fabs(out1[0]-4.0)/math.sqrt(cov1[0][0])
52	#self.assert_(math.fabs(out1[0]-4.0)/math.sqrt(cov1[0][0]) < 2)
53	self.assert_(math.fabs(out1[3]-2.5)/math.sqrt(cov1[3][3]) < 2)
54	self.assert_(math.fabs(out1[2]-4.0)/math.sqrt(cov1[2][2]) < 2)
55	print chisqr1/len(data1.x)
56	#self.assert_(chisqr1/len(data1.x) < 2)
57	print chisqr1/len(data2.x)
58	#self.assert_(chisqr2/len(data2.x) < 2)
59
60
61	fitter.set_data(data3,1)
62	chisqr2, out2, cov2= fitter.fit(None,None)
63	self.assert_(math.fabs(out2[1]-2.5)/math.sqrt(cov2[1][1]) < 2)
64	print math.fabs(out2[0]-4.0)/math.sqrt(cov2[0][0])
65	#self.assert_(math.fabs(out1[0]-4.0)/math.sqrt(cov1[0][0]) < 2)
66	self.assert_(math.fabs(out2[3]-2.5)/math.sqrt(cov2[3][3]) < 2)
67	self.assert_(math.fabs(out2[2]-4.0)/math.sqrt(cov2[2][2]) < 2)
68	print chisqr2/len(data1.x)
69	#self.assert_(chisqr1/len(data1.x) < 2)
70	print chisqr2/len(data2.x)
71	#self.assert_(chisqr2/len(data2.x) < 2)
72
73	fitter.remove_Fit_Problem(2)
74
75	chisqr3, out3, cov3= fitter.fit()
76	#print "park",chisqr3, out3, cov3
77	self.assert_(math.fabs(out1[1]-2.5)/math.sqrt(cov1[1][1]) < 2)
78	print math.fabs(out1[0]-4.0)
79	#self.assert_(math.fabs(out1[0]-4.0)/math.sqrt(cov1[0][0]) < 2)
80	print chisqr1/len(data1.x)
81	#self.assert_(chisqr1/len(data1.x) < 2)
82	#self.assert_(chisqr1/len(data2.x) < 2)
83	#failing at 7 place
84	self.assertAlmostEquals(out3[1],out1[1])
85	self.assertAlmostEquals(out3[0],out1[0])
86	self.assertAlmostEquals(cov3[1][1],cov1[1][1])
87	self.assertAlmostEquals(cov3[0][0],cov1[0][0])
88
89	self.assertAlmostEquals(out2[1],out1[1])
90	self.assertAlmostEquals(out2[0],out1[0])
91	self.assertAlmostEquals(cov2[1][1],cov1[1][1])
92	self.assertAlmostEquals(cov2[0][0],cov1[0][0])
93
94	self.assertAlmostEquals(out2[1],out3[1])
95	self.assertAlmostEquals(out2[0],out3[0])
96	self.assertAlmostEquals(cov2[1][1],cov3[1][1])
97	self.assertAlmostEquals(cov2[0][0],cov3[0][0])
98	print chisqr1,chisqr2,chisqr3
99	#self.assertAlmostEquals(chisqr1,chisqr2)

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source: sasview/park_integration/test/testpark.py @ 6aaf444

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