test_fit_cylinder.py @ 51f14603

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 51f14603 was 5777106, checked in by Mathieu Doucet <doucetm@…>, 11 years ago
Moving things around. Will definitely not build.
Property mode set to `100644`
File size: 5.0 KB

Rev	Line
[ca6d914]	1	"""
	2	Unit tests for fitting module
[eb575b0]	3	@author G.alina
[ca6d914]	4	"""
	5	import unittest
[2eaaf1a]	6
[1e3169c]	7	from sans.fit.AbstractFitEngine import Model
[ca6d914]	8	import math
[822f97e]	9	from sans.fit.Fitting import Fit
	10	from DataLoader.loader import Loader
	11
[2eaaf1a]	12	class TestSingleFit(unittest.TestCase):
	13	""" test single fitting """
	14	def setUp(self):
	15	""" initialize data"""
[1e3169c]	16	self.data = Loader().load("cyl_400_20.txt")
[2eaaf1a]	17	# Create model that fitting engine understands
[ca6d914]	18	from sans.models.CylinderModel import CylinderModel
[fd6b789]	19	self.model = CylinderModel()
	20	self.model.setParam("scale", 1.0)
	21	self.model.setParam("radius",18)
	22	self.model.setParam("length", 397)
	23	self.model.setParam("contrast",3e-006 )
	24	self.model.setParam("background", 0.0)
	25	#select parameters to fit
[2eaaf1a]	26	self.pars1 =['length','radius','scale']
	27
	28	def _fit(self, name="scipy"):
	29	""" return fit result """
	30	fitter = Fit(name)
	31	fitter.set_data(self.data,1)
	32	fitter.set_model(self.model,1,self.pars1)
[8bbab51]	33	fitter.select_problem_for_fit(Uid=1,value=1)
[2eaaf1a]	34	return fitter.fit()
	35
	36
	37	def test_scipy(self):
	38	""" Simple cylinder model fit (scipy) """
	39
	40	result1 = self._fit("scipy")
[822f97e]	41
	42	self.assert_(result1)
	43	self.assertTrue(len(result1.pvec)>0 or len(result1.pvec)==0 )
	44	self.assertTrue(len(result1.stderr)> 0 or len(result1.stderr)==0)
	45
	46	self.assertTrue( math.fabs(result1.pvec[0]-400.0)/3.0 < result1.stderr[0] )
	47	self.assertTrue( math.fabs(result1.pvec[1]-20.0)/3.0 < result1.stderr[1] )
[2eaaf1a]	48	self.assertTrue( math.fabs(result1.pvec[2]-1.0)/3.0 < result1.stderr[2] )
[822f97e]	49	self.assertTrue( result1.fitness < 1.0 )
	50
[2eaaf1a]	51
[822f97e]	52	def test_park(self):
	53	""" Simple cylinder model fit (park) """
[2eaaf1a]	54	result1 = self._fit("park")
[822f97e]	55
[ca6d914]	56	self.assert_(result1)
	57	self.assertTrue(len(result1.pvec)>0 or len(result1.pvec)==0 )
	58	self.assertTrue(len(result1.stderr)> 0 or len(result1.stderr)==0)
[2eaaf1a]	59
[822f97e]	60	self.assertTrue( math.fabs(result1.pvec[0]-400.0)/3.0 < result1.stderr[0] )
	61	self.assertTrue( math.fabs(result1.pvec[1]-20.0)/3.0 < result1.stderr[1] )
[2eaaf1a]	62	self.assertTrue( math.fabs(result1.pvec[2]-1.0)/3.0 < result1.stderr[2] )
[822f97e]	63	self.assertTrue( result1.fitness < 1.0 )
	64
[2eaaf1a]	65
	66
	67	class TestSimultaneousFit(unittest.TestCase):
	68	""" test simultaneous fitting """
	69	def setUp(self):
	70	""" initialize data"""
[822f97e]	71
[1e3169c]	72	self.data1=Loader().load("cyl_400_20.txt")
	73	self.data2=Loader().load("cyl_400_40.txt")
[2eaaf1a]	74
[822f97e]	75	# Receives the type of model for the fitting
	76	from sans.models.CylinderModel import CylinderModel
	77	cyl1 = CylinderModel()
	78	cyl1.name = "C1"
[2eaaf1a]	79	self.model1 = Model(cyl1)
	80	self.model1.set(scale= 1.0)
	81	self.model1.set(radius=18)
	82	self.model1.set(length=396)
	83	self.model1.set(contrast=3e-006 )
	84	self.model1.set(background=0.0)
[822f97e]	85
	86	cyl2 = CylinderModel()
	87	cyl2.name = "C2"
[2eaaf1a]	88	self.model2 = Model(cyl2)
	89	self.model2.set(scale= 1.0)
	90	self.model2.set(radius=37)
	91	self.model2.set(length='C1.length')
	92	self.model2.set(contrast=3e-006 )
	93	self.model2.set(background=0.0)
	94
	95	def _fit(self, name="park"):
	96	""" return fit result """
	97	fitter = Fit(name)
	98	fitter.set_data(self.data1,1)
	99	fitter.set_model(self.model1, 1, ['length','radius','scale'])
	100
	101	fitter.set_data(self.data2,2)
	102	fitter.set_model(self.model2, 2, ['radius','scale'])
[8bbab51]	103	fitter.select_problem_for_fit(Uid=1,value=1)
	104	fitter.select_problem_for_fit(Uid=2,value=1)
[2eaaf1a]	105	return fitter.fit()
	106
	107
	108	def test_park2(self):
	109	""" Simultaneous cylinder model fit (park) """
[822f97e]	110
[2eaaf1a]	111	result1= self._fit('park')
[822f97e]	112	self.assert_(result1)
[2eaaf1a]	113	self.assertTrue(len(result1.pvec)>=0 )
	114	self.assertTrue(len(result1.stderr)>= 0)
	115
[822f97e]	116	for par in result1.parameters:
	117	if par.name=='C1.length':
	118	print par.name, par.value
	119	self.assertTrue( math.fabs(par.value-400.0)/3.0 < par.stderr )
	120	elif par.name=='C1.radius':
	121	print par.name, par.value
	122	self.assertTrue( math.fabs(par.value-20.0)/3.0 < par.stderr )
	123	elif par.name=='C2.radius':
	124	print par.name, par.value
	125	self.assertTrue( math.fabs(par.value-40.0)/3.0 < par.stderr )
	126	elif par.name=='C1.scale':
	127	print par.name, par.value
[2eaaf1a]	128	self.assertTrue( math.fabs(par.value-1.0)/3.0 < par.stderr )
[822f97e]	129	elif par.name=='C2.scale':
	130	print par.name, par.value
[2eaaf1a]	131	self.assertTrue( math.fabs(par.value-1.0)/3.0 < par.stderr )
[822f97e]	132
[2eaaf1a]	133
	134	if __name__ == '__main__':
	135	unittest.main()
[ca6d914]	136

Note: See TracBrowser for help on using the repository browser.

SasView

source: sasview/test/park_integration/test/test_fit_cylinder.py @ 51f14603

Download in other formats: