| 1 | """ |
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| 2 | Unit tests for fitting module |
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| 3 | """ |
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| 4 | import unittest |
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| 5 | from sans.guitools.plottables import Theory1D |
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| 6 | from sans.guitools.plottables import Data1D |
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| 7 | |
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| 8 | import math |
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| 9 | class testFitModule(unittest.TestCase): |
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| 10 | """ test fitting """ |
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| 11 | def testLoader(self): |
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| 12 | """ |
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| 13 | test module Load |
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| 14 | """ |
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| 15 | from sans.fit.Loader import Load |
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| 16 | load= Load() |
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| 17 | |
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| 18 | load.set_filename("testdata_line.txt") |
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| 19 | self.assertEqual(load.get_filename(),"testdata_line.txt") |
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| 20 | load.set_values() |
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| 21 | x=[] |
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| 22 | y=[] |
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| 23 | dx=[] |
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| 24 | dy=[] |
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| 25 | |
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| 26 | x,y,dx,dy = load.get_values() |
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| 27 | |
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| 28 | # test that values have been loaded |
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| 29 | self.assertNotEqual(x, None) |
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| 30 | self.assertNotEqual(y, []) |
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| 31 | self.assertNotEqual(dy, None) |
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| 32 | self.assertEqual(len(x),len(y)) |
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| 33 | self.assertEqual(len(dy),len(y)) |
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| 34 | |
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| 35 | # test data the two plottables contained values loaded |
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| 36 | data1 = Theory1D(x=[], y=[], dy=None) |
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| 37 | data2 = Data1D(x=[], y=[],dx=None, dy=None) |
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| 38 | data1.name = "data1" |
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| 39 | data2.name = "data2" |
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| 40 | load.load_data(data1) |
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| 41 | load.load_data(data2) |
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| 42 | |
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| 43 | |
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| 44 | for i in range(len(x)): |
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| 45 | self.assertEqual(data2.x[i],x[i]) |
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| 46 | self.assertEqual(data1.y[i],y[i]) |
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| 47 | self.assertEqual(data2.y[i],y[i]) |
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| 48 | self.assertEqual(data1.dx[i],dx[i]) |
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| 49 | self.assertEqual(data2.dy[i],dy[i]) |
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| 50 | self.assertEqual(data1.x[i],data2.x[i]) |
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| 51 | self.assertEqual(data2.y[i],data2.y[i]) |
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| 52 | |
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| 53 | |
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| 54 | def testfit_1Data_1Model(self): |
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| 55 | """ test fitting for one data and one model park vs scipy""" |
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| 56 | #load data |
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| 57 | from sans.fit.Loader import Load |
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| 58 | load= Load() |
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| 59 | load.set_filename("testdata_line.txt") |
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| 60 | load.set_values() |
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| 61 | data1 = Data1D(x=[], y=[],dx=None, dy=None) |
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| 62 | load.load_data(data1) |
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| 63 | |
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| 64 | #Importing the Fit module |
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| 65 | from sans.fit.Fitting import Fit |
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| 66 | fitter= Fit('scipy') |
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| 67 | |
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| 68 | # Receives the type of model for the fitting |
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| 69 | from sans.guitools.LineModel import LineModel |
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| 70 | model1 = LineModel() |
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| 71 | model2 = LineModel() |
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| 72 | |
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| 73 | #Do the fit SCIPY |
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| 74 | fitter.set_data(data1,1) |
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| 75 | fitter.set_model(model1,"M1",1,{'A':2,'B':1}) |
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| 76 | |
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| 77 | chisqr1, out1, cov1=fitter.fit() |
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| 78 | """ testing SCIPy results""" |
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| 79 | self.assert_(math.fabs(out1[1]-2.5)/math.sqrt(cov1[1][1]) < 2) |
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| 80 | self.assert_(math.fabs(out1[0]-4.0)/math.sqrt(cov1[0][0]) < 2) |
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| 81 | self.assert_(chisqr1/len(data1.x) < 2) |
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| 82 | # PARK |
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| 83 | fitter= Fit('park') |
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| 84 | |
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| 85 | #Do the fit |
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| 86 | fitter.set_data(data1,1) |
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| 87 | fitter.set_model(model2,"M1",1,{'A':2,'B':1}) |
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| 88 | |
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| 89 | chisqr2, out2, cov2=fitter.fit(None,None) |
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| 90 | |
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| 91 | self.assert_(math.fabs(out2[1]-2.5)/math.sqrt(cov2[1][1]) < 2) |
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| 92 | self.assert_(math.fabs(out2[0]-4.0)/math.sqrt(cov2[0][0]) < 2) |
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| 93 | self.assert_(chisqr2/len(data1.x) < 2) |
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| 94 | print "scipy",chisqr1, out1, cov1 |
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| 95 | print "park",chisqr2, out2, cov2 |
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| 96 | self.assertAlmostEquals(out1[1], out2[1],0) |
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| 97 | self.assertAlmostEquals(out1[0], out2[0],0) |
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| 98 | self.assertAlmostEquals(cov1[0][0], cov2[0][0],1) |
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| 99 | self.assertAlmostEquals(cov1[1][1], cov2[1][1],1) |
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| 100 | self.assertAlmostEquals(chisqr1, chisqr2) |
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| 101 | |
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| 102 | |
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