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 | from sans.fit.AbstractFitEngine import Data, Model |
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8 | import math |
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9 | from sans.fit.Fitting import Fit |
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10 | from DataLoader.loader import Loader |
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11 | |
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12 | class testFitModule(unittest.TestCase): |
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13 | """ test fitting """ |
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14 | def test_park(self): |
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15 | """ Simple cylinder model fit (park) """ |
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16 | |
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17 | out=Loader().load("cyl_400_20.txt") |
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18 | data1 = Data1D(x=out.x, y=out.y, dx=out.dx, dy=out.y) |
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19 | |
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20 | fitter = Fit('park') |
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21 | # Receives the type of model for the fitting |
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22 | from sans.models.CylinderModel import CylinderModel |
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23 | model1 = CylinderModel() |
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24 | model1.setParam('contrast', 1) |
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25 | data = Data(sans_data=data1) |
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26 | model = Model(model1) |
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27 | |
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28 | pars1 =['length','radius','scale'] |
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29 | fitter.set_data(data,1) |
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30 | model.set( scale=1e-10 ) |
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31 | fitter.set_model(model,1,pars1) |
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32 | fitter.select_problem_for_fit(Uid=1,value=1) |
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33 | result1 = fitter.fit() |
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34 | |
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35 | self.assert_(result1) |
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36 | self.assertTrue(len(result1.pvec)>0 or len(result1.pvec)==0 ) |
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37 | self.assertTrue(len(result1.stderr)> 0 or len(result1.stderr)==0) |
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38 | |
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39 | #print result1.pvec[0]-400.0, result1.pvec[0] |
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40 | #print math.fabs(result1.pvec[0]-400.0)/3.0 |
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41 | self.assertTrue( math.fabs(result1.pvec[0]-400.0)/3.0 < result1.stderr[0] ) |
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42 | self.assertTrue( math.fabs(result1.pvec[1]-20.0)/3.0 < result1.stderr[1] ) |
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43 | self.assertTrue( math.fabs(result1.pvec[2]-9.0e-12)/3.0 < result1.stderr[2] ) |
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44 | self.assertTrue( result1.fitness < 1.0 ) |
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45 | |
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