LinearFitTest.py @ 8d39961

Last change on this file since 8d39961 was 464cd07, checked in by Piotr Rozyczko <rozyczko@…>, 7 years ago
Use singleton QApplication in unit tests to avoid issues on Ubuntu. SASVIEW-485
Property mode set to `100644`
File size: 5.6 KB

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1	import sys
2	import unittest
3	import numpy
4
5	from PyQt4 import QtGui
6	from mock import MagicMock
7
8	# set up import paths
9	import path_prepare
10
11	from sas.qtgui.Plotting.PlotterData import Data1D
12	import sas.qtgui.Plotting.Plotter as Plotter
13
14	# Local
15	from sas.qtgui.Plotting.LinearFit import LinearFit
16
17	if not QtGui.QApplication.instance():
18	app = QtGui.QApplication(sys.argv)
19
20	class LinearFitTest(unittest.TestCase):
21	'''Test the LinearFit'''
22	def setUp(self):
23	'''Create the LinearFit'''
24	self.data = Data1D(x=[1.0, 2.0, 3.0],
25	y=[10.0, 11.0, 12.0],
26	dx=[0.1, 0.2, 0.3],
27	dy=[0.1, 0.2, 0.3])
28	plotter = Plotter.Plotter(None, quickplot=True)
29	self.widget = LinearFit(parent=plotter, data=self.data, xlabel="log10(x^2)", ylabel="log10(y)")
30
31	def tearDown(self):
32	'''Destroy the GUI'''
33	self.widget.close()
34	self.widget = None
35
36	def testDefaults(self):
37	'''Test the GUI in its default state'''
38	self.assertIsInstance(self.widget, QtGui.QDialog)
39	self.assertEqual(self.widget.windowTitle(), "Linear Fit")
40	self.assertEqual(self.widget.txtA.text(), "1")
41	self.assertEqual(self.widget.txtB.text(), "1")
42	self.assertEqual(self.widget.txtAerr.text(), "0")
43	self.assertEqual(self.widget.txtBerr.text(), "0")
44
45	self.assertEqual(self.widget.lblRange.text(), "Fit range of log10(x^2)")
46
47	def testFit(self):
48	'''Test the fitting wrapper '''
49	# Catch the update signal
50	self.widget.parent.emit = MagicMock()
51
52	# Set some initial values
53	self.widget.txtRangeMin.setText("1.0")
54	self.widget.txtRangeMax.setText("3.0")
55	self.widget.txtFitRangeMin.setText("1.0")
56	self.widget.txtFitRangeMax.setText("3.0")
57	# Run the fitting
58	self.widget.fit(None)
59	return_values = self.widget.parent.emit.call_args[0][1]
60	# Compare
61	self.assertItemsEqual(return_values[0], [1.0, 3.0])
62	self.assertAlmostEqual(return_values[1][0], 10.004054329, 6)
63	self.assertAlmostEqual(return_values[1][1], 12.030439848, 6)
64
65	# Set the log scale
66	self.widget.x_is_log = True
67	self.widget.fit(None)
68	return_values = self.widget.parent.emit.call_args[0][1]
69	# Compare
70	self.assertItemsEqual(return_values[0], [1.0, 3.0])
71	self.assertAlmostEqual(return_values[1][0], 9.987732937, 6)
72	self.assertAlmostEqual(return_values[1][1], 11.84365082, 6)
73
74	def testOrigData(self):
75	''' Assure the un-logged data is returned'''
76	# log(x), log(y)
77	self.widget.xminFit, self.widget.xmaxFit = self.widget.range()
78	orig_x = [ 1., 2., 3.]
79	orig_y = [1.0, 1.0413926851582251, 1.0791812460476249]
80	orig_dy = [0.01, 0.018181818181818184, 0.024999999999999998]
81	x, y, dy = self.widget.origData()
82
83	self.assertItemsEqual(x, orig_x)
84	self.assertEqual(y[0], orig_y[0])
85	self.assertAlmostEqual(y[1], orig_y[1], 8)
86	self.assertAlmostEqual(y[2], orig_y[2], 8)
87	self.assertEqual(dy[0], orig_dy[0])
88	self.assertAlmostEqual(dy[1], orig_dy[1], 8)
89	self.assertAlmostEqual(dy[2], orig_dy[2], 8)
90
91	# x, y
92	self.widget.x_is_log = False
93	self.widget.y_is_log = False
94	self.widget.xminFit, self.widget.xmaxFit = self.widget.range()
95	orig_x = [ 1., 2., 3.]
96	orig_y = [10., 11., 12.]
97	orig_dy = [0.1, 0.2, 0.3]
98	x, y, dy = self.widget.origData()
99
100	self.assertItemsEqual(x, orig_x)
101	self.assertItemsEqual(y, orig_y)
102	self.assertItemsEqual(dy, orig_dy)
103
104	# x, log(y)
105	self.widget.x_is_log = False
106	self.widget.y_is_log = True
107	self.widget.xminFit, self.widget.xmaxFit = self.widget.range()
108	orig_x = [ 1., 2., 3.]
109	orig_y = [1.0, 1.0413926851582251, 1.0791812460476249]
110	orig_dy = [0.01, 0.018181818181818184, 0.024999999999999998]
111	x, y, dy = self.widget.origData()
112
113	self.assertItemsEqual(x, orig_x)
114	self.assertEqual(y[0], orig_y[0])
115	self.assertAlmostEqual(y[1], orig_y[1], 8)
116	self.assertAlmostEqual(y[2], orig_y[2], 8)
117	self.assertEqual(dy[0], orig_dy[0])
118	self.assertAlmostEqual(dy[1], orig_dy[1], 8)
119	self.assertAlmostEqual(dy[2], orig_dy[2], 8)
120
121	def testCheckFitValues(self):
122	'''Assure fit values are correct'''
123	# Good values
124	self.assertTrue(self.widget.checkFitValues(self.widget.txtFitRangeMin))
125	# Colors platform dependent
126	#self.assertEqual(self.widget.txtFitRangeMin.palette().color(10).name(), "#f0f0f0")
127	# Bad values
128	self.widget.x_is_log = True
129	self.widget.txtFitRangeMin.setText("-1.0")
130	self.assertFalse(self.widget.checkFitValues(self.widget.txtFitRangeMin))
131
132
133	def testFloatInvTransform(self):
134	'''Test the helper method for providing conversion function'''
135	self.widget.xLabel="x"
136	self.assertEqual(self.widget.floatInvTransform(5.0), 5.0)
137	self.widget.xLabel="x^(2)"
138	self.assertEqual(self.widget.floatInvTransform(25.0), 5.0)
139	self.widget.xLabel="x^(4)"
140	self.assertEqual(self.widget.floatInvTransform(81.0), 3.0)
141	self.widget.xLabel="log10(x)"
142	self.assertEqual(self.widget.floatInvTransform(2.0), 100.0)
143	self.widget.xLabel="ln(x)"
144	self.assertEqual(self.widget.floatInvTransform(1.0), numpy.exp(1))
145	self.widget.xLabel="log10(x^(4))"
146	self.assertEqual(self.widget.floatInvTransform(4.0), 10.0)
147
148	if __name__ == "__main__":
149	unittest.main()

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SasView

source: sasview/src/sas/qtgui/Plotting/UnitTesting/LinearFitTest.py @ 8d39961

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