# coding: utf-8 # /*########################################################################## # # Copyright (c) 2016-2020 European Synchrotron Radiation Facility # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # # ###########################################################################*/ """Basic tests for PlotWindow""" __authors__ = ["T. Vincent"] __license__ = "MIT" __date__ = "27/06/2017" import unittest import numpy from silx.gui.utils.testutils import TestCaseQt, getQToolButtonFromAction from silx.test.utils import test_options from silx.gui import qt from silx.gui.plot import PlotWindow from silx.gui.colors import Colormap class TestPlotWindow(TestCaseQt): """Base class for tests of PlotWindow.""" def setUp(self): super(TestPlotWindow, self).setUp() self.plot = PlotWindow() self.plot.show() self.qWaitForWindowExposed(self.plot) def tearDown(self): self.plot.setAttribute(qt.Qt.WA_DeleteOnClose) self.plot.close() del self.plot super(TestPlotWindow, self).tearDown() def testActions(self): """Test the actions QToolButtons""" self.plot.setLimits(1, 100, 1, 100) checkList = [ # QAction, Plot state getter (self.plot.xAxisAutoScaleAction, self.plot.getXAxis().isAutoScale), (self.plot.yAxisAutoScaleAction, self.plot.getYAxis().isAutoScale), (self.plot.xAxisLogarithmicAction, self.plot.getXAxis()._isLogarithmic), (self.plot.yAxisLogarithmicAction, self.plot.getYAxis()._isLogarithmic), (self.plot.gridAction, self.plot.getGraphGrid), ] for action, getter in checkList: self.mouseMove(self.plot) initialState = getter() toolButton = getQToolButtonFromAction(action) self.assertIsNot(toolButton, None) self.mouseClick(toolButton, qt.Qt.LeftButton) self.assertNotEqual(getter(), initialState, msg='"%s" state not changed' % action.text()) self.mouseClick(toolButton, qt.Qt.LeftButton) self.assertEqual(getter(), initialState, msg='"%s" state not changed' % action.text()) # Trigger a zoom reset self.mouseMove(self.plot) resetZoomAction = self.plot.resetZoomAction toolButton = getQToolButtonFromAction(resetZoomAction) self.assertIsNot(toolButton, None) self.mouseClick(toolButton, qt.Qt.LeftButton) def testDockWidgets(self): """Test add/remove dock widgets""" dock1 = qt.QDockWidget('Test 1') dock1.setWidget(qt.QLabel('Test 1')) self.plot.addTabbedDockWidget(dock1) self.qapp.processEvents() self.plot.removeDockWidget(dock1) self.qapp.processEvents() dock2 = qt.QDockWidget('Test 2') dock2.setWidget(qt.QLabel('Test 2')) self.plot.addTabbedDockWidget(dock2) self.qapp.processEvents() if qt.BINDING != 'PySide2': # Weird bug with PySide2 later upon gc.collect() when getting the layout self.assertNotEqual(self.plot.layout().indexOf(dock2), -1, "dock2 not properly displayed") def testToolAspectRatio(self): self.plot.toolBar() self.plot.keepDataAspectRatioButton.keepDataAspectRatio() self.assertTrue(self.plot.isKeepDataAspectRatio()) self.plot.keepDataAspectRatioButton.dontKeepDataAspectRatio() self.assertFalse(self.plot.isKeepDataAspectRatio()) def testToolYAxisOrigin(self): self.plot.toolBar() self.plot.yAxisInvertedButton.setYAxisUpward() self.assertFalse(self.plot.getYAxis().isInverted()) self.plot.yAxisInvertedButton.setYAxisDownward() self.assertTrue(self.plot.getYAxis().isInverted()) def testColormapAutoscaleCache(self): # Test that the min/max cache is not computed twice old = Colormap._computeAutoscaleRange self._count = 0 def _computeAutoscaleRange(colormap, data): self._count = self._count + 1 return 10, 20 Colormap._computeAutoscaleRange = _computeAutoscaleRange try: colormap = Colormap(name='red') self.plot.setVisible(True) # Add an image data = numpy.arange(8**2).reshape(8, 8) self.plot.addImage(data, legend="foo", colormap=colormap) self.plot.setActiveImage("foo") # Use the colorbar self.plot.getColorBarWidget().setVisible(True) self.qWait(50) # Remove and add again the same item image = self.plot.getImage("foo") self.plot.removeImage("foo") self.plot.addItem(image) self.qWait(50) finally: Colormap._computeAutoscaleRange = old self.assertEqual(self._count, 1) del self._count @unittest.skipUnless(test_options.WITH_GL_TEST, test_options.WITH_QT_TEST_REASON) def testSwitchBackend(self): """Test switching an empty plot""" self.plot.resetZoom() xlimits = self.plot.getXAxis().getLimits() ylimits = self.plot.getYAxis().getLimits() isKeepAspectRatio = self.plot.isKeepDataAspectRatio() for backend in ('gl', 'mpl'): with self.subTest(): self.plot.setBackend(backend) self.plot.replot() self.assertEqual(self.plot.getXAxis().getLimits(), xlimits) self.assertEqual(self.plot.getYAxis().getLimits(), ylimits) self.assertEqual( self.plot.isKeepDataAspectRatio(), isKeepAspectRatio) def suite(): test_suite = unittest.TestSuite() test_suite.addTest( unittest.defaultTestLoader.loadTestsFromTestCase(TestPlotWindow)) return test_suite if __name__ == '__main__': unittest.main(defaultTest='suite')