def main(): os.chdir(os.path.dirname(sys.argv[0])) app = QApplication(sys.argv) QApplication.setQuitOnLastWindowClosed(False) settings = Settings('facelock') aboutDialog = AboutDialog() settingsDialog = SettingsDialog(settings) ConfigurationChecker(settingsDialog).fixConfiguration() cameraProbe = CameraProbe() faceRecognitionBuilder=FaceRecognitionBuilder()\ .withSettings(settings)\ .withCameraProperties(cameraProbe.getFps(), cameraProbe.getWidth(), cameraProbe.getHeight()) trayIconGUI = SystemTrayGUIBuilder().\ withSettings(settings).\ withAboutDialog(aboutDialog).\ withSettingsDialog(settingsDialog).\ withFaceRecognitionBuilder(faceRecognitionBuilder).\ build() trayIconGUI.show() app.exec_()
def __handle_button(self, identifier): dialog = None # FIXME: ignore identifiers that will not be handled if identifier == 'action_create_environment': self.__ascii_to_fds() return elif identifier == 'action_import_environment': self.__import_environment() return elif identifier == 'action_import_fuel_map': self.__import_fuel_map() return elif identifier == 'action_import_dem': self.__import_dem() return elif identifier == 'action_export_fuel_map': self.__export_fuel_map() elif identifier == 'action_export_dem': self.__export_dem() return elif identifier == 'action_run_sim': self.__run_simulation() elif identifier == 'action_view_sim': # We do not care about return value of QMessageBox self.__view_simulation() return elif identifier == 'action_user_setting': dialog = UserSettingsForm() elif identifier == 'action_select_output_files': dialog = SelectOutputFileTypesForm() self._output_file_types = dialog.get_file_types() return # Dialog will run itself, so we can return. elif identifier == 'action_about': dialog = AboutDialog() else: print('UNRECOGNIZED IDENTIFIER:', identifier) return if dialog is not None: dialog.setAttribute(QtCore.Qt.WA_DeleteOnClose ) # Ensure resources are freed when dlg closes dialog.exec_() # Executes dialog
def __init__(self, client, tray): xml = gtk.glade.XML(Paths.glade, 'popup') Signals.autoconnect(self, xml) self.__about = AboutDialog(client) self.__client = client self.__master = xml.get_widget('menu-master') self.__notifier = MasterNotifier(self.__client, self.__master.set_active) self.__tray = tray self.__widget = xml.get_widget('popup')
def __init__(self, parent = None): QMainWindow.__init__(self, parent) self.setupUi(self) self.console = QDialog() self.te = QTextEdit(self.console) self.te.setReadOnly(True) vl = QVBoxLayout() vl.addWidget(self.te) self.console.setLayout(vl) # Set status Offline self.statusBox.setCurrentIndex(5) self.statusEdit.hide() # Set connect self.connect(self.statusBox, SIGNAL("currentIndexChanged(int)"), self.changeStatus) self.connect(self.statusEdit, SIGNAL("returnPressed()"), self.changeStatus) # Set BuddyList self.BuddyList = BuddyList(self) self.vboxlayout.insertWidget(0, self.BuddyList) self.connect(self.BuddyList, SIGNAL("rename"), self.addBuddy) # Connection connection = ConnectionDialog(self) self.connect(self.actionConnection, SIGNAL("triggered()"), connection, SLOT("exec()")) self.connect(self.actionDeconnection, SIGNAL("triggered()"), self.disconnect) self.connect(connection, SIGNAL("configured()"), self.connection) # Contacts self.connect(self.actionAdd_a_buddy, SIGNAL("triggered()"), self.addBuddy) self.connect(self.actionAdd_a_group, SIGNAL("triggered()"), self.addGroup) # View self.connect(self.actionAway_buddies, SIGNAL("toogled()"), self.setAway) self.connect(self.actionOffline_buddies, SIGNAL("toogled()"), self.setOffline) self.connect(self.actionAway_buddies, SIGNAL("triggered()"), self.setAway) self.connect(self.actionOffline_buddies, SIGNAL("triggered()"), self.setOffline) # Tools self.connect(self.actionConsole, SIGNAL("triggered()"), self.swapConsole) # About Dialog about = AboutDialog(self) self.connect(self.actionAbout, SIGNAL("triggered()"), about, SLOT("exec()")) self.connect(self.actionAboutQt, SIGNAL("triggered()"), QApplication.instance(), SLOT("aboutQt()")) # Quit Signal connection self.connect(self.actionQuit, SIGNAL("triggered()"), self.quit)
def onClick(self, sender): if (sender == self.signOutLink): Window.alert( "If this were implemented, you would be signed out now.") elif (sender == self.aboutLink): # When the 'About' item is selected, show the AboutDialog. # Note that showing a dialog box does not block -- execution continues # normally, and the dialog fires an event when it is closed. dlg = AboutDialog() # Position it roughly in the middle of the screen. left = (Window.getClientWidth() - 512) / 2 top = (Window.getClientHeight() - 256) / 2 Logger("TopPanel", "left: %d" % left) Logger("TopPanel", "top: %d" % top) dlg.setPopupPosition(left, top) dlg.show()
def doClickEvent(self, index, tag): if self.is_loading == True: # block click event if loading data in process return if tag.find('check#') != -1: print('index: %s label: %s' % (index, tag)) print(self.check[index].get()) else: if tag is 'Open': self.filename = filedialog.askopenfilename( initialdir="/", title=self.openfdialog_filter, filetypes=(("Supported Files (*.py)", "*.py"), ("All Files", "*.*"))) print(self.filename) elif tag.find('Server') != -1: s = ServerDialog(self.parent, title=tag) elif tag is 'SaveAs': self.filename = filedialog.asksaveasfilename( initialdir="/", title=self.savefdialog_filter, filetypes=(("Supported Files (*.py)", "*.py"), ("All Files", "*.*"))) elif tag is 'Recipients': r = RecipientDialog(self.parent, title="Email Addresses ") elif tag is 'New': c = ConfigCrawlDialog(self.parent, title="New Crawl") self.init_settings() self.init_workspaces() elif tag.find('Preferences') != -1: o = OptionsDialog(self.parent, title=tag) elif tag.find('About') != -1: a = AboutDialog(self.parent, title=tag) elif tag.find('Dispatchers') != -1: self.settings.SetSettings( 'selected_table', 'dispatchers') # set an action button that in dialog d = DispatcherDialog(self.parent, title=tag) elif tag.find('Companies') != -1: self.settings.SetSettings( 'selected_table', 'companies') # set an action button that in dialog d = DispatcherDialog(self.parent, title=tag) elif tag.find('Refresh') != -1: self.init_workspaces() self.start_dataThread() elif tag.find('All') != -1: res = messagebox.askquestion( 'Load All Crawled Data', 'This may take a few time.\nAre you sure you want to load all crawled data from WFM?' ) if res == 'yes': self.set_WFMTable(TABLE_ALLDATA) self.start_dataThread() elif tag.find('Status') != -1: self.settings.SetSettings( 'selected_table', 'status') # set an action button that in dialog d = DispatcherDialog(self.parent, title=tag) elif tag.find('Exit') != -1: self.onExit() elif tag.find('StartCrawl') != -1: if self.kill_ie.get() == 1: self.process.kill_process('iexplore.exe') self.crawlDialog = CrawlerDialog(self.parent) # init GUI #self.crawler = Crawler(self.crawlDialog) #init Controller #self.crawler.startCrawler() else: print('doClickEvent index: %s label: %s' % (index, tag))
def initUI(self): self.clusteringParameters = ClusteringParameters(self) self.dimRedParameters = DimensionalityReductionParameters(self) self.classifierParameters = ClassifierParameters(self) self.regressionParameters = RegressionParameters(self) self.densityEstimationParameters = DensityEstimationParameters(self) self.probabilityDensityViewer = ProbabilityDensityViewer(self) self.licenseDialog = LicenseDialog(self) self.aboutDialog = AboutDialog(self, self.licenseDialog) self.infoDialog = InfoDialog(self) self.operationStack = OperationStack(self) self.createSamplesDockWidget = CreateSamplesProperties(self) self.addDockWidget(QtCore.Qt.BottomDockWidgetArea, self.createSamplesDockWidget) self.statusbar = QtWidgets.QStatusBar() self.setStatusBar(self.statusbar) self.featurespace = FeatureSpace(self, self.statusbar, self.createSamplesDockWidget) self.setCentralWidget(self.featurespace) self.classifier = None self.regressor = None self.densityEstimator = None featureSpaceNewAction = QtWidgets.QAction('&New', self) featureSpaceNewAction.setShortcut('Ctrl+N') featureSpaceNewAction.setStatusTip('Create empty feature space') featureSpaceNewAction.triggered.connect(self.newFeatureSpace) featureSpaceOpenAction = QtWidgets.QAction('&Open...', self) featureSpaceOpenAction.setShortcut('Ctrl+O') featureSpaceOpenAction.setStatusTip('Load a feature space') featureSpaceOpenAction.triggered.connect(self.openFeatureSpace) featureSpaceSaveAction = QtWidgets.QAction('&Save', self) featureSpaceSaveAction.setShortcut('Ctrl+S') featureSpaceSaveAction.setStatusTip('Save the feature space') featureSpaceSaveAction.triggered.connect(self.saveFeatureSpace) featureSpaceSaveAsAction = QtWidgets.QAction('Save &as...', self) featureSpaceSaveAsAction.setStatusTip( 'Save the feature space to a new file') featureSpaceSaveAsAction.triggered.connect(self.saveAsFeatureSpace) featureSpaceImportAction = QtWidgets.QAction('&Import samples...', self) featureSpaceImportAction.setStatusTip( 'Read feature vectors from an ASCII file') featureSpaceImportAction.triggered.connect(self.importFeatureSpace) featureSpaceExportAction = QtWidgets.QAction('&Export samples...', self) featureSpaceExportAction.setStatusTip( 'Write the feature vectors to an ASCII file') featureSpaceExportAction.triggered.connect(self.exportFeatureSpace) featureSpaceSaveImageAction = QtWidgets.QAction( 'Export as image...', self) featureSpaceSaveImageAction.setStatusTip( 'Export the feature space as image') featureSpaceSaveImageAction.triggered.connect( self.exportFeatureSpaceAsImage) self.__featureSpaceHideSamplesAction = QtWidgets.QAction( 'Hide samples', self) self.__featureSpaceHideSamplesAction.setStatusTip('Hide all samples') self.__featureSpaceHideSamplesAction.setShortcut('F8') self.__featureSpaceHideSamplesAction.triggered.connect( self.hideSamples) self.__featureSpaceHideSamplesAction.setCheckable(True) self.__featureSpaceHideSamplesAction.setChecked(False) exitAction = QtWidgets.QAction('&Quit', self) exitAction.setShortcut(QtCore.Qt.CTRL + QtCore.Qt.Key_Q) exitAction.setStatusTip('Exit the Python Classification Toolbox') exitAction.triggered.connect(self.close) menubar = self.menuBar() menubar.setNativeMenuBar(False) featureSpaceMenu = menubar.addMenu('&Feature Space') featureSpaceMenu.addAction(featureSpaceNewAction) featureSpaceMenu.addAction(featureSpaceOpenAction) featureSpaceMenu.addAction(featureSpaceSaveAction) featureSpaceMenu.addAction(featureSpaceSaveAsAction) featureSpaceMenu.addSeparator() featureSpaceMenu.addAction(featureSpaceImportAction) featureSpaceMenu.addAction(featureSpaceExportAction) featureSpaceMenu.addAction(featureSpaceSaveImageAction) featureSpaceMenu.addSeparator() featureSpaceMenu.addAction(self.__featureSpaceHideSamplesAction) featureSpaceMenu.addSeparator() featureSpaceMenu.addAction(exitAction) clusteringKMeansAction = QtWidgets.QAction('k-Means Clustering...', self) clusteringKMeansAction.setStatusTip('k-Means Clustering') clusteringKMeansAction.triggered.connect( lambda: self.clusterWithParameters(Clustering.kMeans)) clusteringGMMAction = QtWidgets.QAction('Gaussian Mixture Model...', self) clusteringGMMAction.setStatusTip('Gaussian Mixture Model') clusteringGMMAction.triggered.connect( lambda: self.clusterWithParameters(Clustering.GMM)) clusteringParametersAction = QtWidgets.QAction('Parameters...', self) clusteringParametersAction.setStatusTip( 'Edit the parameters of the clustering algorithms') clusteringParametersAction.triggered.connect( self.editClusteringParameters) clusteringMenu = menubar.addMenu('C&lustering') clusteringMenu.addAction(clusteringKMeansAction) clusteringMenu.addAction(clusteringGMMAction) clusteringMenu.addSeparator() clusteringMenu.addAction(clusteringParametersAction) dimRedPCAAction = QtWidgets.QAction('Principal Component Analysis...', self) dimRedPCAAction.setStatusTip('Principal Component Analysis (PCA)') dimRedPCAAction.triggered.connect( lambda: self.reduceDimensionalityWithParameters( DimensionalityReduction.PCA)) dimRedMenu = menubar.addMenu('&Dimensionality Reduction') dimRedMenu.addAction(dimRedPCAAction) classificationLogRegAction = QtWidgets.QAction( 'Linear Logistic Regression...', self) classificationLogRegAction.setStatusTip( 'Linear Logistic Regression classifier') classificationLogRegAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.LogReg)) classificationNormAction = QtWidgets.QAction('Norm classifier...', self) classificationNormAction.setStatusTip( 'Classification based on the distance to the class centers') classificationNormAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.Norm)) classificationNaiveBayesAction = QtWidgets.QAction('Naive Bayes', self) classificationNaiveBayesAction.setStatusTip('Naive Bayes classifier') classificationNaiveBayesAction.triggered.connect( lambda: self.classify(Classifier.NaiveBayes)) classificationGaussianAction = QtWidgets.QAction( 'Gaussian classifier', self) classificationGaussianAction.setStatusTip('Gaussian classifier') classificationGaussianAction.triggered.connect( lambda: self.classify(Classifier.Gauss)) classificationGMMAction = QtWidgets.QAction('GMM classifier...', self) classificationGMMAction.setStatusTip( 'Gaussian Mixture Model classifier') classificationGMMAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.GMM)) classificationKNNAction = QtWidgets.QAction('kNN...', self) classificationKNNAction.setStatusTip('k Nearest Neighbor classifier') classificationKNNAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.kNN)) classificationLinRegAction = QtWidgets.QAction('Linear Regression...', self) classificationLinRegAction.setStatusTip('Linear Regression classifier') classificationLinRegAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.LinReg)) classificationPerceptronAction = QtWidgets.QAction( 'Rosenblatt\'s Perceptron...', self) classificationPerceptronAction.setStatusTip('Rosenblatt\'s Perceptron') classificationPerceptronAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.Perceptron)) classificationMLPAction = QtWidgets.QAction('Multilayer Perceptron...', self) classificationMLPAction.setStatusTip('Multilayer Perceptron') classificationMLPAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.MLP)) try: # requires sklearn >= 0.18.dev0 neural_network.MLPClassifier() except: classificationMLPAction.setEnabled(False) classificationSVMAction = QtWidgets.QAction('SVM...', self) classificationSVMAction.setStatusTip('Support Vector Machine') classificationSVMAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.SVM)) classificationDecisionTreeAction = QtWidgets.QAction( 'Decision Tree...', self) classificationDecisionTreeAction.setStatusTip( 'Decision Tree classifier') classificationDecisionTreeAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.DecisionTree)) classificationRandomForestAction = QtWidgets.QAction( 'Random Forest...', self) classificationRandomForestAction.setStatusTip( 'Random Forest classifier') classificationRandomForestAction.triggered.connect( lambda: self.classifyWithParameters(Classifier.RandomForest)) classificationParametersAction = QtWidgets.QAction( 'Parameters...', self) classificationParametersAction.setStatusTip( 'Edit the parameters of the classification algorithms') classificationParametersAction.triggered.connect( self.editClassificationParameters) classificationNoneAction = QtWidgets.QAction('None', self) classificationNoneAction.setStatusTip('Delete classification results') classificationNoneAction.triggered.connect(self.unsetClassifier) classificationMenu = menubar.addMenu('&Classification') classificationMenu.addAction(classificationLogRegAction) classificationMenu.addAction(classificationNormAction) classificationMenu.addAction(classificationNaiveBayesAction) classificationMenu.addAction(classificationGaussianAction) classificationMenu.addAction(classificationGMMAction) classificationMenu.addAction(classificationKNNAction) classificationMenu.addAction(classificationLinRegAction) classificationMenu.addAction(classificationPerceptronAction) classificationMenu.addAction(classificationMLPAction) classificationMenu.addAction(classificationSVMAction) classificationMenu.addAction(classificationDecisionTreeAction) classificationMenu.addAction(classificationRandomForestAction) classificationMenu.addSeparator() classificationMenu.addAction(classificationParametersAction) classificationMenu.addAction(classificationNoneAction) regressionLinRegAction = QtWidgets.QAction('Linear Regression...', self) regressionLinRegAction.setStatusTip('Linear Regression') regressionLinRegAction.triggered.connect( lambda: self.regressionWithParameters(Regression.LinearRegression)) regressionSVRAction = QtWidgets.QAction('Support Vector Regression...', self) regressionSVRAction.setStatusTip('Support Vector Regression (SVR)') regressionSVRAction.triggered.connect( lambda: self.regressionWithParameters(Regression.SVR)) regressionRegressionTreeAction = QtWidgets.QAction( 'Regression Tree...', self) regressionRegressionTreeAction.setStatusTip('Regression Tree') regressionRegressionTreeAction.triggered.connect( lambda: self.regressionWithParameters(Regression.RegressionTree)) regressionRegressionForestAction = QtWidgets.QAction( 'Regression Forest...', self) regressionRegressionForestAction.setStatusTip('Regression Forest') regressionRegressionForestAction.triggered.connect( lambda: self.regressionWithParameters(Regression.RegressionForest)) regressionParametersAction = QtWidgets.QAction('Parameters...', self) regressionParametersAction.setStatusTip( 'Edit the parameters of the regression algorithms') regressionParametersAction.triggered.connect( self.editRegressionParameters) regressionNoneAction = QtWidgets.QAction('None', self) regressionNoneAction.setStatusTip('Delete regression result') regressionNoneAction.triggered.connect(self.unsetRegressor) regressionMenu = menubar.addMenu('&Regression') regressionMenu.addAction(regressionLinRegAction) regressionMenu.addAction(regressionSVRAction) regressionMenu.addAction(regressionRegressionTreeAction) regressionMenu.addAction(regressionRegressionForestAction) regressionMenu.addSeparator() regressionMenu.addAction(regressionParametersAction) regressionMenu.addAction(regressionNoneAction) densityEstimationHistogramAction = QtWidgets.QAction( 'Histogram...', self) densityEstimationHistogramAction.setStatusTip('Histogram estimation') densityEstimationHistogramAction.triggered.connect( lambda: self.densityEstimationWithParameters(DensityEstimation. Histogram)) densityEstimationSphereAction = QtWidgets.QAction( 'Sphere Density Estimation...', self) densityEstimationSphereAction.setStatusTip('Sphere Density Estimation') densityEstimationSphereAction.triggered.connect( lambda: self.densityEstimationWithParameters( DensityEstimation.SphereDensityEstimation)) densityEstimationKernelAction = QtWidgets.QAction( 'Kernel Density Estimation...', self) densityEstimationKernelAction.setStatusTip('Kernel Density Estimation') densityEstimationKernelAction.triggered.connect( lambda: self.densityEstimationWithParameters( DensityEstimation.KernelDensityEstimation)) densityEstimationParametersAction = QtWidgets.QAction( 'Parameters...', self) densityEstimationParametersAction.setStatusTip( 'Edit the parameters of the density estimation algorithms') densityEstimationParametersAction.triggered.connect( self.editDensityEstimationParameters) densityEstimationNoneAction = QtWidgets.QAction('None', self) densityEstimationNoneAction.setStatusTip( 'Delete density estimation result') densityEstimationNoneAction.triggered.connect( self.unsetDensityEstimation) densityEstimationMenu = menubar.addMenu('Density &Estimation') densityEstimationMenu.addAction(densityEstimationHistogramAction) densityEstimationMenu.addAction(densityEstimationSphereAction) densityEstimationMenu.addAction(densityEstimationKernelAction) densityEstimationMenu.addSeparator() densityEstimationMenu.addAction(densityEstimationParametersAction) densityEstimationMenu.addAction(densityEstimationNoneAction) aboutAction = QtWidgets.QAction('About...', self) aboutAction.setStatusTip('About this software') aboutAction.triggered.connect(self.aboutDialog.exec_) licenseAction = QtWidgets.QAction('License...', self) licenseAction.setStatusTip('GNU General Public License') licenseAction.triggered.connect(self.licenseDialog.showLicense) infoAction = QtWidgets.QAction('Info...', self) infoAction.setStatusTip('Information about the Python distribution') infoAction.triggered.connect(self.infoDialog.exec_) helpMenu = menubar.addMenu('&Help') helpMenu.addAction(aboutAction) helpMenu.addAction(licenseAction) helpMenu.addAction(infoAction) # exitAction = QtGui.QAction(QtGui.QIcon('./img/exit.png'), 'Exit', self) # exitAction.setShortcut('Ctrl+Q') # exitAction.triggered.connect(QtGui.qApp.quit) # coordinateSystemAction = QtGui.QAction(QtGui.QIcon('./img/coord.png'), 'Move coordinate system', self) # coordinateSystemAction.triggered.connect(self.onMoveCoordinateSystem) # gaussCreateAction = QtGui.QAction(QtGui.QIcon('./img/create_gauss.png'), 'Create Gaussians', self) # gaussCreateAction.triggered.connect(self.onCreateGaussians) # gaussModifyAction = QtGui.QAction(QtGui.QIcon('./img/modify_gauss.png'), 'Modify Gaussians', self) # gaussModifyAction.triggered.connect(self.onModifyGaussians) self.moveCoordinateSystemButton = QtWidgets.QToolButton() self.moveCoordinateSystemButton.setIcon( QtGui.QIcon(resource_path('./img/coord.png'))) self.moveCoordinateSystemButton.setStatusTip( 'Move the coordinate system by dragging the mouse or zoom in or out using the mouse scroll wheel' ) self.moveCoordinateSystemButton.setCheckable(True) self.moveCoordinateSystemButton.setChecked(True) self.moveCoordinateSystemButton.clicked.connect( self.onMoveCoordinateSystem) self.createGaussButton = QtWidgets.QToolButton() self.createGaussButton.setIcon( QtGui.QIcon(resource_path('./img/create_gauss.png'))) self.createGaussButton.setStatusTip( 'Create samples drawn from a new Gaussian pdf by spanning the bounding box of the covariance matrix' ) self.createGaussButton.setCheckable(True) self.createGaussButton.clicked.connect(self.onCreateGaussians) self.modifyGaussButton = QtWidgets.QToolButton() self.modifyGaussButton.setIcon( QtGui.QIcon(resource_path('./img/modify_gauss.png'))) self.modifyGaussButton.setStatusTip( 'Modify existing Gaussian pdfs by left of right clicking on the center' ) self.modifyGaussButton.setCheckable(True) self.modifyGaussButton.clicked.connect(self.onModifyGaussians) self.createSamplesButton = QtWidgets.QToolButton() self.createSamplesButton.setIcon( QtGui.QIcon(resource_path('./img/samples.png'))) self.createSamplesButton.setStatusTip( 'Create and modify individual samples by spanning a rectangle that contains one or more samples' ) self.createSamplesButton.setCheckable(True) self.createSamplesButton.clicked.connect(self.onCreateSamples) self.toolbar = QtWidgets.QToolBar(self) self.toolbar.setIconSize(QtCore.QSize(48, 48)) self.addToolBar(QtCore.Qt.RightToolBarArea, self.toolbar) # self.toolbar.setToolButtonStyle(QtCore.Qt.ToolButtonTextBesideIcon) # self.toolbar.addAction(coordinateSystemAction) # self.toolbar.addAction(gaussCreateAction) # self.toolbar.addAction(gaussModifyAction) self.toolbar.addWidget(self.moveCoordinateSystemButton) self.toolbar.addWidget(self.createGaussButton) self.toolbar.addWidget(self.modifyGaussButton) self.toolbar.addWidget(self.createSamplesButton) QtGui.QShortcut(QtGui.QKeySequence("Ctrl+Z"), self, self.undo) QtGui.QShortcut(QtGui.QKeySequence("Ctrl+R"), self, self.redo) self.printLicenseMessage()
def on_about_clicked(self): about_dialog = AboutDialog() about_dialog.exec_()
def about(self): dialog = AboutDialog(self.AppContext.get_resource('About.txt'), version=self.version) dialog.exec_()
def show_about(): logging.info("Show About dialog") about_dialog = AboutDialog(about_dialog_glade, SAFE_EYES_VERSION) about_dialog.show()
def __init__(self): super(self.__class__, self).__init__() self.setupUi(self) self.scale_spacing = 0.1 # in meters self.viewDataType = "thickness" self.scans2dLoaded = False self.scans3dLoaded = False self.refSelectionMode = False self.toolMode = -1 self.setToolMode(ToolModes.MoveMode) self.reportTool = -1 self.setReportTool(ReportTools.L) self.statusBarMessage = "" self.statusLabel = QtGui.QLabel() self.statusLabel.setText(self.statusBarMessage) self.statusbar.addWidget(self.statusLabel) self.optionsDialog = OptionsDialog() self.evaluationDialog = EvaluationDialog() self.scanManager = ScanManager(self.scanViewer, self.graphicsView, self.graphicsView_2) self.generate3dDialog = Generate3dDialog() self.reportDialog = ReportDialog() self.testDialog = TestDialog() self.autoDetectDialog = AutoDetectDialog(self.optionsDialog) self.savePictureDialog = SavePictureDialog() self.aboutDialog = AboutDialog() self.connect(self.autoDetectDialog, SIGNAL('showElement(PyQt_PyObject)'), self.loadElement) self.reportDialog.connect(self.autoDetectDialog, SIGNAL('reportElement(PyQt_PyObject)'), self.reportDialog.setCurrentElement) self.toolBar.actionTriggered.connect(self.processAction) self.menubar.triggered.connect(self.processAction) self.connect(self.pushButton_thickness, SIGNAL('clicked()'), self.thicknessButtonClicked) self.connect(self.pushButton_distance, SIGNAL('clicked()'), self.distanceButtonClicked) self.connect(self.pushButton_3d, SIGNAL('clicked()'), self.openGenerete3dDialog) self.connect(self.pushButton_go, SIGNAL('clicked()'), self.loadScan) self.connect(self.optionsDialog, SIGNAL("accepted()"), self.optionsAccepted) self.optionsDialog.connect(self.evaluationDialog, SIGNAL('changeTreshold(PyQt_PyObject)'), self.optionsDialog.setTreshold) self.connect(self.scanViewer, SIGNAL('mousePositionChanged(PyQt_PyObject)'), self.mousePositionChanged) self.connect(self.scanViewer, SIGNAL('areaSelected(PyQt_PyObject)'), self.areaSelected) self.connect(self.scanViewer, SIGNAL('tempDragModeActivated()'), self.tempDragModeEnable) self.connect(self.scanViewer, SIGNAL('tempDragModeDeactivated()'), self.tempDragModeDisable) self.connect(self.scanViewer, SIGNAL('mouseClicked(PyQt_PyObject)'), self.reportElement) self.scanManager.connect(self.scanViewer, SIGNAL('changeScale()'), self.scanManager.changeScale) self.connect(self.scanManager, SIGNAL('scans2dLoaded()'), self.setScans2dLoaded) self.connect(self.scanManager, SIGNAL('scans3dLoaded()'), self.setScans3dLoaded) self.connect(self.evaluationDialog, SIGNAL('changeParams(PyQt_PyObject)'), self.openOptions) self.connect(self.evaluationDialog, SIGNAL('activateRefSelection()'), self.activateRefSelectionMode) self.connect(self.evaluationDialog, SIGNAL('deactivateRefSelection()'), self.deactivateRefSelectionMode) self.connect(self.evaluationDialog, SIGNAL('corrosionReportSignal(PyQt_PyObject)'), self.addCorrosionReport) self.connect(self.generate3dDialog, SIGNAL('generate3d(PyQt_PyObject)'), self.generate3d) self.verticalSlider.valueChanged.connect(self.rearrangeScan) self.scanViewer.horizontalScrollBar().sliderReleased.connect( self.scanManager.checkIfScanLimitsReached) self.scanManager.connect(self.scanViewer, SIGNAL('checkIfScanLimitsReached()'), self.scanManager.checkIfScanLimitsReached) self.graphicsView.setBackgroundColor([255, 255, 255, 255]) self.thicknessButtonClicked()
def slot_About(self): w = AboutDialog(self) w.show()
def aboutSlot(self): AboutDialog().exec()
def showAboutDialog(self, e): aboutDialog = AboutDialog(self) aboutDialog.show()
def aboutdialog(self): aboutdialogWindow = AboutDialog() aboutdialogWindow.show() aboutdialogWindow.exec_()
def openAboutDialog(self): ad = AboutDialog(self) ad.exec_()
def about_dlg(self): # TODO: add version info/changelist to about dialog aboutdlg = AboutDialog(root, title="About")
def OnMenuHelp(self, event): dlg = AboutDialog(self, "About") dlg.CenterOnScreen() dlg.ShowModal() dlg.Destroy()
def OnAbout(self, event): from AboutDialog import AboutDialog aboutdlg = AboutDialog(None, _L["about_title"]) aboutdlg.ShowModal()
def on_about(self): """ 点击关于软件,弹出关于界面\n :return: """ self.about_dlg = AboutDialog(True)
def OnAbout(self, event): dialog = AboutDialog(self) dialog.ShowModal()
def webViewBridgeSlot_about(self): aboutDialog = AboutDialog() aboutDialog.exec_()