import sys import unittest import webbrowser from PyQt5 import QtCore from PyQt5 import QtGui, QtWidgets from unittest.mock import MagicMock # set up import paths import sas.qtgui.path_prepare # SV imports from sas.sascalc.dataloader.loader import Loader from sas.qtgui.MainWindow.DataManager import DataManager from sas.qtgui.Plotting.PlotterData import Data1D from sas.qtgui.Plotting.PlotterData import Data2D # Tested module from sas.qtgui.Utilities.GuiUtils import * if not QtWidgets.QApplication.instance(): app = QtWidgets.QApplication(sys.argv) class GuiUtilsTest(unittest.TestCase): '''Test the GUI Utilities methods''' def setUp(self): '''Empty''' pass def tearDown(self): '''Empty''' pass def testDefaults(self): """ Test all the global constants defined in the file. """ # Should probably test the constants in the file, # but this will done after trimming down GuiUtils # and retaining only necessary variables. pass def testGetAppDir(self): """ """ pass def testGetUserDirectory(self): """ Simple test of user directory getter """ home_dir = os.path.expanduser("~") self.assertIn(home_dir, get_user_directory()) def testCommunicate(self): """ Test the container class with signal definitions """ com = Communicate() # All defined signals list_of_signals = [ 'fileReadSignal', 'fileDataReceivedSignal', 'statusBarUpdateSignal', 'updatePerspectiveWithDataSignal', 'updateModelFromPerspectiveSignal', 'plotRequestedSignal', 'progressBarUpdateSignal', 'activeGraphName', 'sendDataToPanelSignal', 'updateModelFromDataOperationPanelSignal' ] # Assure all signals are defined. for signal in list_of_signals: self.assertIn(signal, dir(com)) def testupdateModelItem(self): """ Test the generic QModelItem update method """ test_item = QtGui.QStandardItem() test_list = ['aa', 4, True, ] name = "Black Sabbath" # update the item updateModelItem(test_item, test_list, name) # Make sure test_item got all data added self.assertEqual(test_item.child(0).text(), name) list_from_item = test_item.child(0).data() self.assertIsInstance(list_from_item, list) self.assertEqual(list_from_item[0], test_list[0]) self.assertEqual(list_from_item[1], test_list[1]) self.assertEqual(list_from_item[2], test_list[2]) def testupdateModelItemWithPlot(self): """ Test the QModelItem checkbox update method """ # test_item = QtGui.QStandardItem() # test_list = ['aa','11'] # update_data = test_list # name = "Black Sabbath" # # update the item # updateModelItemWithPlot(test_item, update_data, name) test_item = QtGui.QStandardItem() update_data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0]) name = "Black Sabbath" update_data.id = '[0]data0' update_data.name = 'data0' # update the item updateModelItemWithPlot(test_item, update_data, name) # Make sure test_item got all data added self.assertEqual(test_item.child(0).text(), name) self.assertTrue(test_item.child(0).isCheckable()) data_from_item = test_item.child(0).child(0).data() self.assertIsInstance(data_from_item, Data1D) self.assertSequenceEqual(list(data_from_item.x), [1.0, 2.0, 3.0]) self.assertSequenceEqual(list(data_from_item.y), [10.0, 11.0, 12.0]) self.assertEqual(test_item.rowCount(), 1) # add another dataset (different from the first one) update_data1 = Data1D(x=[1.1, 2.1, 3.1], y=[10.1, 11.1, 12.1]) update_data1.id = '[0]data1' update_data1.name = 'data1' name1 = "Black Sabbath1" # update the item and check number of rows updateModelItemWithPlot(test_item, update_data1, name1) self.assertEqual(test_item.rowCount(), 2) # add another dataset (with the same name as the first one) # check that number of rows was not changed but data have been updated update_data2 = Data1D(x=[4.0, 5.0, 6.0], y=[13.0, 14.0, 15.0]) update_data2.id = '[1]data0' update_data2.name = 'data0' name2 = "Black Sabbath2" updateModelItemWithPlot(test_item, update_data2, name2) self.assertEqual(test_item.rowCount(), 2) data_from_item = test_item.child(0).child(0).data() self.assertSequenceEqual(list(data_from_item.x), [4.0, 5.0, 6.0]) self.assertSequenceEqual(list(data_from_item.y), [13.0, 14.0, 15.0]) def testPlotsFromCheckedItems(self): """ Test addition of a plottable to the model """ # Mockup data test_list0 = "FRIDAY" test_list1 = "SATURDAY" test_list2 = "MONDAY" # Main item ("file") checkbox_model = QtGui.QStandardItemModel() checkbox_item = QtGui.QStandardItem(True) checkbox_item.setCheckable(True) checkbox_item.setCheckState(QtCore.Qt.Checked) test_item0 = QtGui.QStandardItem() test_item0.setData(test_list0) # Checked item 1 test_item1 = QtGui.QStandardItem(True) test_item1.setCheckable(True) test_item1.setCheckState(QtCore.Qt.Checked) object_item = QtGui.QStandardItem() object_item.setData(test_list1) test_item1.setChild(0, object_item) checkbox_item.setChild(0, test_item0) checkbox_item.appendRow(test_item1) # Unchecked item 2 test_item2 = QtGui.QStandardItem(True) test_item2.setCheckable(True) test_item2.setCheckState(QtCore.Qt.Unchecked) object_item = QtGui.QStandardItem() object_item.setData(test_list2) test_item2.setChild(0, object_item) checkbox_item.appendRow(test_item2) checkbox_model.appendRow(checkbox_item) # Pull out the "plottable" documents plot_list = plotsFromCheckedItems(checkbox_model) # Make sure only the checked data is present # FRIDAY IN self.assertIn(test_list0, plot_list[1]) # SATURDAY IN self.assertIn(test_list1, plot_list[0]) # MONDAY NOT IN self.assertNotIn(test_list2, plot_list[0]) self.assertNotIn(test_list2, plot_list[1]) def testInfoFromData(self): """ Test Info element extraction from a plottable object """ loader = Loader() manager = DataManager() # get Data1D p_file="cyl_400_20.txt" output_object = loader.load(p_file) new_data = manager.create_gui_data(output_object[0], p_file) # Extract Info elements into a model item item = infoFromData(new_data) # Test the item and its children self.assertIsInstance(item, QtGui.QStandardItem) self.assertEqual(item.rowCount(), 5) self.assertEqual(item.text(), "Info") self.assertIn(p_file, item.child(0).text()) self.assertIn("Run", item.child(1).text()) self.assertIn("Data1D", item.child(2).text()) self.assertIn(p_file, item.child(3).text()) self.assertIn("Process",item.child(4).text()) def testOpenLink(self): """ Opening a link in the external browser """ good_url1 = r"http://test.test.com" good_url2 = r"mailto:test@mail.com" good_url3 = r"https://127.0.0.1" bad_url1 = "" bad_url2 = QtGui.QStandardItem() bad_url3 = r"poop;//**I.am.a.!bad@url" webbrowser.open = MagicMock() openLink(good_url1) openLink(good_url2) openLink(good_url3) self.assertEqual(webbrowser.open.call_count, 3) with self.assertRaises(AttributeError): openLink(bad_url1) with self.assertRaises(AttributeError): openLink(bad_url2) with self.assertRaises(AttributeError): openLink(bad_url3) def testRetrieveData1d(self): """ """ with self.assertRaises(AttributeError): retrieveData1d("BOOP") #data = Data1D() #with self.assertRaises(ValueError): # retrieveData1d(data) data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0]) text = retrieveData1d(data) self.assertIn("Temperature:", text) self.assertIn("Beam_size:", text) self.assertIn("X_min = 1.0: X_max = 3.0", text) self.assertIn("3.0 \t12.0 \t0.0 \t0.0", text) def testRetrieveData2d(self): """ """ with self.assertRaises(AttributeError): retrieveData2d("BOOP") data = Data2D(image=[1.0, 2.0, 3.0], err_image=[0.01, 0.02, 0.03], qx_data=[0.1, 0.2, 0.3], qy_data=[0.1, 0.2, 0.3]) text = retrieveData2d(data) self.assertIn("Type: Data2D", text) self.assertIn("I_min = 1.0", text) self.assertIn("I_max = 3.0", text) self.assertIn("2 \t0.3 \t0.3 \t3.0 \t0.03 \t0.0 \t0.0", text) def testOnTXTSave(self): """ Test the file writer for saving 1d/2d data """ path = "test123" if os.path.isfile(path): os.remove(path) # Broken data data = Data1D(x=[1.0, 2.0, 3.0], y=[]) # Expect a raise with self.assertRaises(IndexError): onTXTSave(data, path) # Good data - no dX/dY data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0]) onTXTSave(data, path) self.assertTrue(os.path.isfile(path)) with open(path,'r') as out: data_read = out.read() self.assertEqual(" \n1 10\n2 11\n3 12\n", data_read) if os.path.isfile(path): os.remove(path) # Good data - with dX/dY data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0], dx=[0.1, 0.2, 0.3], dy=[0.1, 0.2, 0.3]) onTXTSave(data, path) with open(path,'r') as out: data_read = out.read() self.assertIn(" \n", data_read) self.assertIn("1 10 0.1 0.1\n", data_read) self.assertIn("2 11 0.2 0.2\n", data_read) self.assertIn("3 12 0.3 0.3\n", data_read) if os.path.isfile(path): os.remove(path) def testSaveData1D(self): """ Test the 1D file save method """ data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0], dx=[0.1, 0.2, 0.3], dy=[0.1, 0.2, 0.3]) # Test the .txt format file_name = "test123_out.txt" QtWidgets.QFileDialog.getSaveFileName = MagicMock(return_value=(file_name,'')) data.filename = "test123.txt" saveData1D(data) self.assertTrue(os.path.isfile(file_name)) os.remove(file_name) # Test the .xml format file_name = "test123_out.xml" QtWidgets.QFileDialog.getSaveFileName = MagicMock(return_value=(file_name,'')) data.filename = "test123.xml" saveData1D(data) self.assertTrue(os.path.isfile(file_name)) os.remove(file_name) # Test the wrong format file_name = "test123_out.mp3" QtWidgets.QFileDialog.getSaveFileName = MagicMock(return_value=(file_name,'')) data.filename = "test123.mp3" saveData1D(data) self.assertFalse(os.path.isfile(file_name)) def testSaveData2D(self): """ Test the 1D file save method """ data = Data2D(image=[1.0, 2.0, 3.0], err_image=[0.01, 0.02, 0.03], qx_data=[0.1, 0.2, 0.3], qy_data=[0.1, 0.2, 0.3]) # Test the .txt format file_name = "test123_out.dat" QtWidgets.QFileDialog.getSaveFileName = MagicMock(return_value=(file_name,'')) data.filename = "test123.dat" saveData2D(data) self.assertTrue(os.path.isfile(file_name)) os.remove(file_name) # Test the wrong format file_name = "test123_out.mp3" QtWidgets.QFileDialog.getSaveFileName = MagicMock(return_value=(file_name,'')) data.filename = "test123.mp3" saveData2D(data) self.assertFalse(os.path.isfile(file_name)) def testXYTransform(self): """ Assure the unit/legend transformation is correct""" data = Data1D(x=[1.0, 2.0, 3.0], y=[10.0, 11.0, 12.0], dx=[0.1, 0.2, 0.3], dy=[0.1, 0.2, 0.3]) xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="y") self.assertEqual(xLabel, "()") self.assertEqual(xscale, "linear") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x^(2)", yLabel="1/y") self.assertEqual(xLabel, "^{2}(()^{2})") self.assertEqual(yLabel, "1/(()^{-1})") self.assertEqual(xscale, "linear") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x^(4)", yLabel="ln(y)") self.assertEqual(xLabel, "^{4}(()^{4})") self.assertEqual(yLabel, "\\ln{()}()") self.assertEqual(xscale, "linear") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="ln(x)", yLabel="y^(2)") self.assertEqual(xLabel, "\\ln{()}()") self.assertEqual(yLabel, "^{2}(()^{2})") self.assertEqual(xscale, "linear") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="log10(x)", yLabel="y*x^(2)") self.assertEqual(xLabel, "()") self.assertEqual(yLabel, " \\ \\ ^{2}(()^{2})") self.assertEqual(xscale, "log") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="log10(x^(4))", yLabel="y*x^(4)") self.assertEqual(xLabel, "^{4}(()^{4})") self.assertEqual(yLabel, " \\ \\ ^{4}(()^{16})") self.assertEqual(xscale, "log") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="1/sqrt(y)") self.assertEqual(yLabel, "1/\\sqrt{}(()^{-0.5})") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="log10(y)") self.assertEqual(yLabel, "()") self.assertEqual(yscale, "log") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="ln(y*x)") self.assertEqual(yLabel, "\\ln{( \\ \\ )}()") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="ln(y*x^(2))") self.assertEqual(yLabel, "\\ln ( \\ \\ ^{2})(()^{2})") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="ln(y*x^(4))") self.assertEqual(yLabel, "\\ln ( \\ \\ ^{4})(()^{4})") self.assertEqual(yscale, "linear") xLabel, yLabel, xscale, yscale = xyTransform(data, xLabel="x", yLabel="log10(y*x^(4))") self.assertEqual(yLabel, " \\ \\ ^{4}(()^{4})") self.assertEqual(yscale, "log") def testParseName(self): '''test parse out a string from the beinning of a string''' # good input value = "_test" self.assertEqual(parseName(value, '_'), 'test') value = "____test____" self.assertEqual(parseName(value, '_'), '___test____') self.assertEqual(parseName(value, '___'), '_test____') self.assertEqual(parseName(value, 'test'), '____test____') # bad input with self.assertRaises(TypeError): parseName(value, None) with self.assertRaises(TypeError): parseName(None, '_') value = [] with self.assertRaises(TypeError): parseName(value, '_') value = 1.44 with self.assertRaises(TypeError): parseName(value, 'p') value = 100 with self.assertRaises(TypeError): parseName(value, 'p') def testToDouble(self): '''test homemade string-> double converter''' #good values value = "1" self.assertEqual(toDouble(value), 1.0) value = "1.2" # has to be AlmostEqual due to numerical rounding self.assertAlmostEqual(toDouble(value), 1.2, 6) value = "2,1" self.assertAlmostEqual(toDouble(value), 2.1, 6) # bad values value = None with self.assertRaises(TypeError): toDouble(value) value = "MyDouble" with self.assertRaises(TypeError): toDouble(value) value = [1,2.2] with self.assertRaises(TypeError): toDouble(value) class DoubleValidatorTest(unittest.TestCase): """ Test the validator for floats """ def setUp(self): '''Create the validator''' self.validator = DoubleValidator() def tearDown(self): '''Destroy the validator''' self.validator = None def testValidateGood(self): """Test a valid float """ QtCore.QLocale.setDefault(QtCore.QLocale('en_US')) float_good = "170" self.assertEqual(self.validator.validate(float_good, 1)[0], QtGui.QValidator.Acceptable) float_good = "170.11" ## investigate: a double returns Invalid here! ##self.assertEqual(self.validator.validate(float_good, 1)[0], QtGui.QValidator.Acceptable) float_good = "17e2" self.assertEqual(self.validator.validate(float_good, 1)[0], QtGui.QValidator.Acceptable) def testValidateBad(self): """Test a bad float """ float_bad = None self.assertEqual(self.validator.validate(float_bad, 1)[0], QtGui.QValidator.Intermediate) float_bad = [1] with self.assertRaises(TypeError): self.validator.validate(float_bad, 1) float_bad = "1,3" self.assertEqual(self.validator.validate(float_bad, 1)[0], QtGui.QValidator.Invalid) def notestFixup(self): """Fixup of a float""" float_to_fixup = "1,3" self.validator.fixup(float_to_fixup) self.assertEqual(float_to_fixup, "13") class FormulaValidatorTest(unittest.TestCase): """ Test the formula validator """ def setUp(self): '''Create the validator''' self.validator = FormulaValidator() def tearDown(self): '''Destroy the validator''' self.validator = None def testValidateGood(self): """Test a valid Formula """ formula_good = "H24O12C4C6N2Pu" self.assertEqual(self.validator.validate(formula_good, 1)[0], QtGui.QValidator.Acceptable) formula_good = "(H2O)0.5(D2O)0.5" self.assertEqual(self.validator.validate(formula_good, 1)[0], QtGui.QValidator.Acceptable) def testValidateBad(self): """Test an invalid Formula """ formula_bad = "H24 %%%O12C4C6N2Pu" self.assertRaises(self.validator.validate(formula_bad, 1)[0]) self.assertEqual(self.validator.validate(formula_bad, 1)[0], QtGui.QValidator.Intermediate) formula_bad = [1] self.assertEqual(self.validator.validate(formula_bad, 1)[0], QtGui.QValidator.Intermediate) class HashableStandardItemTest(unittest.TestCase): """ Test the reimplementation of QStandardItem """ def setUp(self): '''Create the validator''' self.item = HashableStandardItem() def tearDown(self): '''Destroy the validator''' self.item = None def testHash(self): '''assure the item returns hash''' self.assertEqual(self.item.__hash__(), 0) def testIndexing(self): '''test that we can use HashableSI as an index''' dictionary = {} dictionary[self.item] = "wow!" self.assertEqual(dictionary[self.item], "wow!") def testClone(self): '''let's see if we can clone the item''' item_clone = self.item.clone() self.assertEqual(item_clone.__hash__(), 0) if __name__ == "__main__": unittest.main()