def updateContents(self, inputPorts): """ Get the vcs canvas, setup the cell's layout, and plot """ spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() spreadsheetWindow.setUpdatesEnabled(False) # Set the canvas self.canvas = inputPorts[0] if self.canvas is None: self.canvas = vcs.init() self.canvas.clear() # Place the mainwindow that the plot will be displayed in, into this # cell widget's layout self.window = VCSQtManager.window(self.windowIndex) layout = QtGui.QVBoxLayout() layout.addWidget(self.window) self.setLayout(layout) # Plot if len(inputPorts) > 2: args = inputPorts[1] kwargs = inputPorts[2] self.canvas.plot(*args, **kwargs) spreadsheetWindow.setUpdatesEnabled(True)
def __init__(self, name, server, serverPort, x, y, width, height ): """__init__() -> None initializes the client class""" QtCore.QObject.__init__(self) self.timer = QtCore.QTimer(self) self.timer.setSingleShot(True) self.timer.setInterval(1000) self.timer.start() self.socket = QTcpSocket() self.current_pipeline = None self.current_config_function = None self.server = server # os.environ.get( 'DV3D_HW_SERVER_NAME', server ) self.serverPort = int(serverPort) self.buffer = "" self.pipelineQueue = [] current_pipeline = None self.deviceName = name self.currentTab = None self.mainWindow = None print " Init VisClient, server=%s, serverPort=%s, name=%s " % ( str(self.server), str(self.serverPort), str(name) ) self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow( False ) self.spreadsheetWindow.setWindowFlags( self.spreadsheetWindow.windowFlags() | QtCore.Qt.WindowStaysOnTopHint | QtCore.Qt.Window ) # self.spreadsheetWindow.setWindowFlags( self.spreadsheetWindow.windowFlags() | QtCore.Qt.Window ) self.spreadsheetWindow.activateWindow() self.spreadsheetWindow.showMaximized() self.dimensions = ( x, y, width, height ) self.connectSignals()
def updateContents(self, inputPorts): """ Get the vcs canvas, setup the cell's layout, and plot """ spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() spreadsheetWindow.setUpdatesEnabled(False) # Set the canvas self.canvas = inputPorts[0] if self.canvas is None: self.canvas = vcs.init() self.canvas.clear() # Place the mainwindow that the plot will be displayed in, into this # cell widget's layout self.window = VCSQtManager.window(self.windowIndex) layout = QtGui.QVBoxLayout() layout.addWidget(self.window) self.setLayout(layout) # Plot if len(inputPorts) > 2: args = inputPorts[1] kwargs = inputPorts[2] self.canvas.plot(*args, **kwargs) spreadsheetWindow.setUpdatesEnabled(True)
def maximizeSpreadsheet(): from packages.spreadsheet.spreadsheet_controller import spreadsheetController spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() # spreadsheetWindow.show() # spreadsheetWindow.activateWindow() # spreadsheetWindow.raise_() tabControllerStack = spreadsheetWindow.tabControllerStack spreadsheetWindow.stackedCentralWidget.removeWidget ( tabControllerStack ) tabControllerStack.showMaximized()
def getSheetTabWidget(sheet_index=-1): from packages.spreadsheet.spreadsheet_controller import spreadsheetController spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() if sheet_index == -1: try: sheet_index = spreadsheetWindow.get_current_tab_controller().currentIndex() except: return None return spreadsheetWindow.get_current_tab_controller().tabWidgets[sheet_index]
def __init__(self, parent=None): super(Workspace, self).__init__(parent) self.root=parent.root self.viewToItem = {} self.numProjects = 1 self.setupUi(self) self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow( show=False) self.connectSignals() self.currentProject = None self.current_controller = None
def compute(self): """ compute() -> None Dispatch SVG file into the spreadshet for display """ if self.hasInputFromPort("File"): window = spreadsheetController.findSpreadsheetWindow() file_to_display = self.getInputFromPort("File") fileValue = window.file_pool.make_local_copy(file_to_display.name) else: fileValue = None self.display(SVGCellWidget, (fileValue,))
def __init__(self, parent=None): super(Workspace, self).__init__(parent) self.root = parent.root self.viewToItem = {} self.numProjects = 1 self.setupUi(self) self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow( show=False) self.connectSignals() self.currentProject = None self.current_controller = None
def getSheetTabWidget(sheet_index=-1): from packages.spreadsheet.spreadsheet_controller import spreadsheetController spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() if sheet_index == -1: try: sheet_index = spreadsheetWindow.get_current_tab_controller( ).currentIndex() except: return None return spreadsheetWindow.get_current_tab_controller( ).tabWidgets[sheet_index]
def compute(self): """ compute() -> None Dispatch the display event to the spreadsheet with images and labels """ if self.hasInputFromPort("File"): window = spreadsheetController.findSpreadsheetWindow() file_to_display = self.getInputFromPort("File") fileValue = window.file_pool.make_local_copy(file_to_display.name) else: fileValue = None self.cellWidget = self.displayAndWait(ImageViewerCellWidget, (fileValue, ))
def compute(self): """ compute() -> None Dispatch the display event to the spreadsheet with images and labels """ if self.hasInputFromPort("File"): window = spreadsheetController.findSpreadsheetWindow() file_to_display = self.getInputFromPort("File") fileValue = window.file_pool.make_local_copy(file_to_display.name) else: fileValue = None self.cellWidget = self.displayAndWait(ImageViewerCellWidget, (fileValue, ))
def updateContents(self, inputPorts): """ Get the vcs canvas, setup the cell's layout, and plot """ spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() spreadsheetWindow.setUpdatesEnabled(False) # Set the canvas if inputPorts[0] is not None: self.canvas = inputPorts[0] if self.canvas is None: try: self.createCanvas() except ModuleError, e: spreadsheetWindow.setUpdatesEnabled(True) raise e
def updateContents(self, inputPorts): """ Get the vcs canvas, setup the cell's layout, and plot """ spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() spreadsheetWindow.setUpdatesEnabled(False) # Set the canvas if inputPorts[0] is not None: self.canvas = inputPorts[0] if self.canvas is None: try: self.createCanvas() except ModuleError, e: spreadsheetWindow.setUpdatesEnabled(True) raise e
def compute(self): """ compute() -> None Dispatch the display event to the spreadsheet with images and labels """ if self.hasInputFromPort("ModelWorkspace"): window = spreadsheetController.findSpreadsheetWindow() model_workspace = self.getInputFromPort("ModelWorkspace").name model_dir_full = os.path.normcase( os.path.split(model_workspace)[0]) model_dir = os.path.split(model_dir_full)[1] model_name = model_dir[:model_dir.index('output')] # prob_map_path = os.path.join(model_dir_full, model_name + '_prob_map.jpeg') # prob_map = window.file_pool.make_local_copy(prob_map_path) auc_graph_path = os.path.join(model_dir_full, model_name + '_auc_plot.jpg') auc_graph = window.file_pool.make_local_copy(auc_graph_path) text_output_path = os.path.join(model_dir_full, model_name + '_output.txt') text_output = window.file_pool.make_local_copy(text_output_path) response_path = os.path.join(model_dir_full, model_name + '_response_curves.pdf') response_curves = window.file_pool.make_local_copy(response_path) model_label = model_dir.capitalize().replace('output', 'Output') if self.hasInputFromPort("row"): if not self.location: self.location = CellLocation() self.location.row = self.getInputFromPort('row') - 1 if self.hasInputFromPort("column"): if not self.location: self.location = CellLocation() self.location.col = self.getInputFromPort('column') - 1 else: fileValue = None self.cellWidget = self.displayAndWait( SAHMOutputViewerCellWidget, (auc_graph, text_output, response_curves, model_label))
def compute(self): """ compute() -> None Dispatch the display event to the spreadsheet with images and labels """ if self.hasInputFromPort("ModelWorkspace"): window = spreadsheetController.findSpreadsheetWindow() model_workspace = self.getInputFromPort("ModelWorkspace").name model_dir_full = os.path.normcase(os.path.split(model_workspace)[0]) model_dir = os.path.split(model_dir_full)[1] model_name = model_dir[:model_dir.index('output')] # prob_map_path = os.path.join(model_dir_full, model_name + '_prob_map.jpeg') # prob_map = window.file_pool.make_local_copy(prob_map_path) auc_graph_path = os.path.join(model_dir_full, model_name + '_auc_plot.jpg') auc_graph = window.file_pool.make_local_copy(auc_graph_path) text_output_path = os.path.join(model_dir_full, model_name + '_output.txt') text_output = window.file_pool.make_local_copy(text_output_path) response_path = os.path.join(model_dir_full, model_name + '_response_curves.pdf') response_curves = window.file_pool.make_local_copy(response_path) model_label = model_dir.capitalize().replace('output', 'Output') if self.hasInputFromPort("row"): if not self.location: self.location = CellLocation() self.location.row = self.getInputFromPort('row') - 1 if self.hasInputFromPort("column"): if not self.location: self.location = CellLocation() self.location.col = self.getInputFromPort('column') - 1 else: fileValue = None self.cellWidget = self.displayAndWait(SAHMOutputViewerCellWidget, (auc_graph, text_output, response_curves, model_label))
def compute(self): args = [] if not self.hasInputFromPort('dataset'): raise ModuleError(self, "'dataset' is mandatory.") if not self.hasInputFromPort('plot'): raise ModuleError(self, "'plot' is mandatory.") dataset = self.getInputFromPort('dataset') plotType = self.getInputFromPort('plot') axes = self.forceGetInputFromPort('axes') inCanvas = self.forceGetInputFromPort('canvas') if axes!=None: try: kwargs = eval(axes) except: raise ModuleError(self, "Invalid 'axes' specification", axes) dataset = dataset(**kwargs) outCanvas = None if inCanvas!=None: inCanvas.plot(dataset, 'ASD', plotType) outCanvas = inCanvas else: ev = DisplayCellEvent() ev.vistrail = {'locator': None, 'version': -1, 'actions': []} ev.cellType = QCDATWidget ev.inputPorts = (dataset, 'ASD', plotType) QtCore.QCoreApplication.processEvents() spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() cdatWidget = spreadsheetWindow.displayCellEvent(ev) if cdatWidget!=None: outCanvas = cdatWidget.canvas self.setResult('dataset', dataset) self.setResult('canvas', outCanvas)
def compute(self): args = [] if not self.hasInputFromPort('dataset'): raise ModuleError(self, "'dataset' is mandatory.") if not self.hasInputFromPort('plot'): raise ModuleError(self, "'plot' is mandatory.") dataset = self.getInputFromPort('dataset') plotType = self.getInputFromPort('plot') axes = self.forceGetInputFromPort('axes') inCanvas = self.forceGetInputFromPort('canvas') if axes != None: try: kwargs = eval(axes) except: raise ModuleError(self, "Invalid 'axes' specification", axes) dataset = dataset(**kwargs) outCanvas = None if inCanvas != None: inCanvas.plot(dataset, 'ASD', plotType) outCanvas = inCanvas else: ev = DisplayCellEvent() ev.vistrail = {'locator': None, 'version': -1, 'actions': []} ev.cellType = QCDATWidget ev.inputPorts = (dataset, 'ASD', plotType) QtCore.QCoreApplication.processEvents() spreadsheetWindow = spreadsheetController.findSpreadsheetWindow() cdatWidget = spreadsheetWindow.displayCellEvent(ev) if cdatWidget != None: outCanvas = cdatWidget.canvas self.setResult('dataset', dataset) self.setResult('canvas', outCanvas)
def __init__(self, name, server, serverPort, x, y, width, height): """__init__() -> None initializes the client class""" QtCore.QObject.__init__(self) self.timer = QtCore.QTimer(self) self.timer.setSingleShot(True) self.timer.setInterval(1000) self.timer.start() self.socket = QTcpSocket() self.current_pipeline = None self.current_config_function = None self.server = server # os.environ.get( 'DV3D_HW_SERVER_NAME', server ) self.serverPort = int(serverPort) self.buffer = "" self.pipelineQueue = [] current_pipeline = None self.deviceName = name self.currentTab = None self.mainWindow = None print " Init VisClient, server=%s, serverPort=%s, name=%s " % (str( self.server), str(self.serverPort), str(name)) self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow( False) self.spreadsheetWindow.setWindowFlags( self.spreadsheetWindow.windowFlags() | QtCore.Qt.WindowStaysOnTopHint | QtCore.Qt.Window) # self.spreadsheetWindow.setWindowFlags( self.spreadsheetWindow.windowFlags() | QtCore.Qt.Window ) self.spreadsheetWindow.activateWindow() self.spreadsheetWindow.showMaximized() self.dimensions = (x, y, width, height) self.connectSignals()
def embedSpreadsheet(self): self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow(show=False) self.setCentralWidget(self.spreadsheetWindow) self.spreadsheetWindow.setVisible(True)
def embedSpreadsheet(self): self.spreadsheetWindow = spreadsheetController.findSpreadsheetWindow( show=False) self.setCentralWidget(self.spreadsheetWindow) self.spreadsheetWindow.setVisible(True)
def compute(self): """ compute() -> None Dispatch the display event to the spreadsheet with images and labels """ if self.hasInputFromPort("ModelWorkspace") and \ utils.checkIfModelFinished(self.getInputFromPort("ModelWorkspace").name): window = spreadsheetController.findSpreadsheetWindow() model_workspace = self.getInputFromPort("ModelWorkspace").name model_dir_full = os.path.normcase(model_workspace) model_dir = os.path.split(model_dir_full)[1] model_name = model_dir[:model_dir.index('_')] auc_graph_path = self.findFile(model_dir_full, '_modelEvalPlot.jpg')#os.path.join(model_dir_full, model_name + '_modelEvalPlot.jpg') if os.path.exists(auc_graph_path): auc_graph = window.file_pool.make_local_copy(auc_graph_path) text_output_path = self.findFile(model_dir_full, '_output.txt')#os.path.join(model_dir_full, model_name + '_output.txt') if os.path.exists(text_output_path): text_output = window.file_pool.make_local_copy(text_output_path) response_directory = os.path.join(model_dir_full,'responseCurves') if os.path.exists(response_directory): responseCurveFiles = os.listdir(response_directory) response_curves = [] for response_curve in responseCurveFiles: if response_curve != "Thumbs.db": #Windows grief response_curves.append(os.path.join(response_directory, response_curve)) else: response_curves = [] calibration_graph_path = self.findFile(model_dir_full, '_CalibrationPlot.jpg')#os.path.join(model_dir_full, model_name + '_CalibrationPlot.jpg') if os.path.exists(calibration_graph_path): calibration_graph = window.file_pool.make_local_copy(calibration_graph_path) confusion_graph_path = self.findFile(model_dir_full, '.confusion.matrix.jpg')#os.path.join(model_dir_full, model_name + '.confusion.matrix.jpg') if os.path.exists(confusion_graph_path): confusion_graph = window.file_pool.make_local_copy(confusion_graph_path) residuals_graph_path = self.findFile(model_dir_full, '.resid.plot.jpg')#os.path.join(model_dir_full, model_name + '.resid.plot.jpg') if os.path.exists(residuals_graph_path): residuals_graph = window.file_pool.make_local_copy(residuals_graph_path) variable_imp_path = self.findFile(model_dir_full, '_variable.importance.jpg')#os.path.join(model_dir_full, model_name + '_variable.importance.jpg') if os.path.exists(variable_imp_path): variable_graph = window.file_pool.make_local_copy(variable_imp_path) model_label = model_dir.capitalize().replace('output', 'Output') if self.hasInputFromPort("row"): if not self.location: self.location = CellLocation() self.location.row = self.getInputFromPort('row') - 1 if self.hasInputFromPort("column"): if not self.location: self.location = CellLocation() self.location.col = self.getInputFromPort('column') - 1 if self.hasInputFromPort('InitialModelOutputDisplay'): initial_display = self.getInputFromPort('InitialModelOutputDisplay') else: initial_display = 'AUC' self.cellWidget = self.displayAndWait(SAHMOutputViewerCellWidget, (auc_graph, text_output, response_curves, calibration_graph, confusion_graph, residuals_graph, variable_graph, model_label, initial_display)) else: fileValue = None