import pylab import numpy from PyQt5 import QtCore from PyQt5 import QtGui from PyQt5 import QtWidgets, QtPrintSupport # TODO: Replace the qt4agg calls below with qt5 equivalent. # Requires some code modifications. # https://www.boxcontrol.net/embedding-matplotlib-plot-on-pyqt5-gui.html # # matplotlib.use("Qt5Agg") from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas from matplotlib.backends.backend_qt5agg import NavigationToolbar2QT as NavigationToolbar import matplotlib.pyplot as plt DEFAULT_CMAP = pylab.cm.jet from sas.qtgui.Plotting.Binder import BindArtist from sas.qtgui.Plotting.PlotterData import Data1D from sas.qtgui.Plotting.PlotterData import Data2D from sas.qtgui.Plotting.ScaleProperties import ScaleProperties from sas.qtgui.Plotting.WindowTitle import WindowTitle import sas.qtgui.Utilities.GuiUtils as GuiUtils import sas.qtgui.Plotting.PlotHelper as PlotHelper import sas.qtgui.Plotting.PlotUtilities as PlotUtilities class PlotterBase(QtWidgets.QWidget): def __init__(self, parent=None, manager=None, quickplot=False): super(PlotterBase, self).__init__(parent) # Required for the communicator self.manager = manager self.quickplot = quickplot #plt.style.use('ggplot') plt.style.use('seaborn-darkgrid') # a figure instance to plot on self.figure = plt.figure() # Define canvas for the figure to be placed on self.canvas = FigureCanvas(self.figure) # ... and the toolbar with all the default MPL buttons self.toolbar = NavigationToolbar(self.canvas, self) # Simple window for data display self.txt_widget = QtWidgets.QTextEdit(None) # Set the layout and place the canvas widget in it. layout = QtWidgets.QVBoxLayout() # FIXME setMargin -> setContentsMargins in qt5 with 4 args #layout.setContentsMargins(0) layout.addWidget(self.canvas) # 1D plotter defaults self.current_plot = 111 self._data = [] # Original 1D/2D object self._xscale = 'log' self._yscale = 'log' self.qx_data = [] self.qy_data = [] self.color = 0 self.symbol = 0 self.grid_on = False self.scale = 'linear' self.x_label = "log10(x)" self.y_label = "log10(y)" # Mouse click related self._scale_xlo = None self._scale_xhi = None self._scale_ylo = None self._scale_yhi = None self.x_click = None self.y_click = None self.event_pos = None self.leftdown = False self.gotLegend = 0 # Annotations self.selectedText = None self.textList = [] # Pre-define the Scale properties dialog self.properties = ScaleProperties(self, init_scale_x=self.x_label, init_scale_y=self.y_label) # default color map self.cmap = DEFAULT_CMAP # Add the axes object -> subplot # TODO: self.ax will have to be tracked and exposed # to enable subplot specific operations self.ax = self.figure.add_subplot(self.current_plot) # Remove this, DAMMIT self.axes = [self.ax] # Set the background color to white self.canvas.figure.set_facecolor('#FFFFFF') # Canvas event handlers self.canvas.mpl_connect('button_release_event', self.onMplMouseUp) self.canvas.mpl_connect('button_press_event', self.onMplMouseDown) self.canvas.mpl_connect('motion_notify_event', self.onMplMouseMotion) self.canvas.mpl_connect('pick_event', self.onMplPick) self.canvas.mpl_connect('scroll_event', self.onMplWheel) self.contextMenu = QtWidgets.QMenu(self) if not quickplot: # Add the toolbar layout.addWidget(self.toolbar) # Notify PlotHelper about the new plot self.upatePlotHelper() self.setLayout(layout) @property def data(self): """ data getter """ return self._data @data.setter def data(self, data=None): """ Pure virtual data setter """ raise NotImplementedError("Data setter must be implemented in derived class.") def title(self, title=""): """ title setter """ self._title = title # Set the object name to satisfy the Squish object picker self.canvas.setObjectName(title) @property def xLabel(self, xlabel=""): """ x-label setter """ return self.x_label @xLabel.setter def xLabel(self, xlabel=""): """ x-label setter """ self.x_label = r'$%s$'% xlabel if xlabel else "" @property def yLabel(self, ylabel=""): """ y-label setter """ return self.y_label @yLabel.setter def yLabel(self, ylabel=""): """ y-label setter """ self.y_label = r'$%s$'% ylabel if ylabel else "" @property def yscale(self): """ Y-axis scale getter """ return self._yscale @yscale.setter def yscale(self, scale='linear'): """ Y-axis scale setter """ self.ax.set_yscale(scale, nonposy='clip') self._yscale = scale @property def xscale(self): """ X-axis scale getter """ return self._xscale @xscale.setter def xscale(self, scale='linear'): """ X-axis scale setter """ self.ax.set_xscale(scale) self._xscale = scale def upatePlotHelper(self): """ Notify the plot helper about the new plot """ # Notify the helper PlotHelper.addPlot(self) # Notify the listeners about a new graph self.manager.communicator.activeGraphsSignal.emit(PlotHelper.currentPlots()) def defaultContextMenu(self): """ Content of the dialog-universal context menu: Save, Print and Copy """ # Actions self.contextMenu.clear() self.actionSaveImage = self.contextMenu.addAction("Save Image") self.actionPrintImage = self.contextMenu.addAction("Print Image") self.actionCopyToClipboard = self.contextMenu.addAction("Copy to Clipboard") self.contextMenu.addSeparator() # Define the callbacks self.actionSaveImage.triggered.connect(self.onImageSave) self.actionPrintImage.triggered.connect(self.onImagePrint) self.actionCopyToClipboard.triggered.connect(self.onClipboardCopy) def createContextMenu(self): """ Define common context menu and associated actions for the MPL widget """ raise NotImplementedError("Context menu method must be implemented in derived class.") def createContextMenuQuick(self): """ Define context menu and associated actions for the quickplot MPL widget """ raise NotImplementedError("Context menu method must be implemented in derived class.") def contextMenuEvent(self, event): """ Display the context menu """ if not self.quickplot: self.createContextMenu() else: self.createContextMenuQuick() event_pos = event.pos() self.contextMenu.exec_(self.canvas.mapToGlobal(event_pos)) def onMplMouseUp(self, event): """ Mouse button up callback """ pass def onMplMouseDown(self, event): """ Mouse button down callback """ pass def onMplMouseMotion(self, event): """ Mouse motion callback """ pass def onMplPick(self, event): """ Mouse pick callback """ pass def onMplWheel(self, event): """ Mouse wheel scroll callback """ pass def clean(self): """ Redraw the graph """ self.figure.delaxes(self.ax) self.ax = self.figure.add_subplot(self.current_plot) def plot(self, marker=None, linestyle=None): """ PURE VIRTUAL Plot the content of self._data """ raise NotImplementedError("Plot method must be implemented in derived class.") def closeEvent(self, event): """ Overwrite the close event adding helper notification """ # Please remove me from your database. PlotHelper.deletePlot(PlotHelper.idOfPlot(self)) # Notify the listeners self.manager.communicator.activeGraphsSignal.emit(PlotHelper.currentPlots()) event.accept() def onImageSave(self): """ Use the internal MPL method for saving to file """ self.toolbar.save_figure() def onImagePrint(self): """ Display printer dialog and print the MPL widget area """ # Define the printer printer = QtPrintSupport.QPrinter() # Display the print dialog dialog = QtPrintSupport.QPrintDialog(printer) dialog.setModal(True) dialog.setWindowTitle("Print") if dialog.exec_() != QtWidgets.QDialog.Accepted: return painter = QtGui.QPainter(printer) # Grab the widget screenshot pmap = QtGui.QPixmap(self.size()) self.render(pmap) # Create a label with pixmap drawn printLabel = QtWidgets.QLabel() printLabel.setPixmap(pmap) # Print the label printLabel.render(painter) painter.end() def onClipboardCopy(self): """ Copy MPL widget area to buffer """ bmp = QtWidgets.QApplication.clipboard() pixmap = QtGui.QPixmap(self.canvas.size()) self.canvas.render(pixmap) bmp.setPixmap(pixmap) def onGridToggle(self): """ Add/remove grid lines from MPL plot """ self.grid_on = (not self.grid_on) self.ax.grid(self.grid_on) self.canvas.draw_idle() def onWindowsTitle(self): """ Show a dialog allowing chart title customisation """ current_title = self.windowTitle() titleWidget = WindowTitle(self, new_title=current_title) result = titleWidget.exec_() if result != QtWidgets.QDialog.Accepted: return title = titleWidget.title() self.setWindowTitle(title) # Notify the listeners about a new graph title self.manager.communicator.activeGraphName.emit((current_title, title)) def offset_graph(self): """ Zoom and offset the graph to the last known settings """ for ax in self.axes: if self._scale_xhi is not None and self._scale_xlo is not None: ax.set_xlim(self._scale_xlo, self._scale_xhi) if self._scale_yhi is not None and self._scale_ylo is not None: ax.set_ylim(self._scale_ylo, self._scale_yhi) def onDataInfo(self, plot_data): """ Displays data info text window for the selected plot """ if isinstance(plot_data, Data1D): text_to_show = GuiUtils.retrieveData1d(plot_data) else: text_to_show = GuiUtils.retrieveData2d(plot_data) # Hardcoded sizes to enable full width rendering with default font self.txt_widget.resize(420,600) self.txt_widget.setReadOnly(True) self.txt_widget.setWindowFlags(QtCore.Qt.Window) self.txt_widget.setWindowIcon(QtGui.QIcon(":/res/ball.ico")) self.txt_widget.setWindowTitle("Data Info: %s" % plot_data.filename) self.txt_widget.insertPlainText(text_to_show) self.txt_widget.show() # Move the slider all the way up, if present vertical_scroll_bar = self.txt_widget.verticalScrollBar() vertical_scroll_bar.triggerAction(QtWidgets.QScrollBar.SliderToMinimum) def onSavePoints(self, plot_data): """ Saves plot data to a file """ if isinstance(plot_data, Data1D): GuiUtils.saveData1D(plot_data) else: GuiUtils.saveData2D(plot_data)