# coding: utf-8 # /*########################################################################## # # Copyright (c) 2018 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. # # ###########################################################################*/ """A widget dedicated to display scatter plots It is based on a :class:`~silx.gui.plot.PlotWidget` with additional tools for scatter plots. """ __authors__ = ["T. Vincent"] __license__ = "MIT" __date__ = "14/06/2018" import logging import weakref import numpy from . import items from . import PlotWidget from . import tools from .tools.profile import ScatterProfileToolBar from .ColorBar import ColorBarWidget from .ScatterMaskToolsWidget import ScatterMaskToolsWidget from ..widgets.BoxLayoutDockWidget import BoxLayoutDockWidget from .. import qt, icons _logger = logging.getLogger(__name__) class ScatterView(qt.QMainWindow): """Main window with a PlotWidget and tools specific for scatter plots. :param parent: The parent of this widget :param backend: The backend to use for the plot (default: matplotlib). See :class:`~silx.gui.plot.PlotWidget` for the list of supported backend. :type backend: Union[str,~silx.gui.plot.backends.BackendBase.BackendBase] """ _SCATTER_LEGEND = ' ' """Legend used for the scatter item""" def __init__(self, parent=None, backend=None): super(ScatterView, self).__init__(parent=parent) if parent is not None: # behave as a widget self.setWindowFlags(qt.Qt.Widget) else: self.setWindowTitle('ScatterView') # Create plot widget plot = PlotWidget(parent=self, backend=backend) self._plot = weakref.ref(plot) # Add an empty scatter plot.addScatter(x=(), y=(), value=(), legend=self._SCATTER_LEGEND) # Create colorbar widget with white background self._colorbar = ColorBarWidget(parent=self, plot=plot) self._colorbar.setAutoFillBackground(True) palette = self._colorbar.palette() palette.setColor(qt.QPalette.Background, qt.Qt.white) palette.setColor(qt.QPalette.Window, qt.Qt.white) self._colorbar.setPalette(palette) # Create PositionInfo widget self.__lastPickingPos = None self.__pickingCache = None self._positionInfo = tools.PositionInfo( plot=plot, converters=(('X', lambda x, y: x), ('Y', lambda x, y: y), ('Data', lambda x, y: self._getScatterValue(x, y)), ('Index', lambda x, y: self._getScatterIndex(x, y)))) # Combine plot, position info and colorbar into central widget gridLayout = qt.QGridLayout() gridLayout.setSpacing(0) gridLayout.setContentsMargins(0, 0, 0, 0) gridLayout.addWidget(plot, 0, 0) gridLayout.addWidget(self._colorbar, 0, 1) gridLayout.addWidget(self._positionInfo, 1, 0, 1, -1) gridLayout.setRowStretch(0, 1) gridLayout.setColumnStretch(0, 1) centralWidget = qt.QWidget(self) centralWidget.setLayout(gridLayout) self.setCentralWidget(centralWidget) # Create mask tool dock widget self._maskToolsWidget = ScatterMaskToolsWidget(parent=self, plot=plot) self._maskDock = BoxLayoutDockWidget() self._maskDock.setWindowTitle('Scatter Mask') self._maskDock.setWidget(self._maskToolsWidget) self._maskDock.setVisible(False) self.addDockWidget(qt.Qt.BottomDockWidgetArea, self._maskDock) self._maskAction = self._maskDock.toggleViewAction() self._maskAction.setIcon(icons.getQIcon('image-mask')) self._maskAction.setToolTip("Display/hide mask tools") # Create toolbars self._interactiveModeToolBar = tools.InteractiveModeToolBar( parent=self, plot=plot) self._scatterToolBar = tools.ScatterToolBar( parent=self, plot=plot) self._scatterToolBar.addAction(self._maskAction) self._profileToolBar = ScatterProfileToolBar(parent=self, plot=plot) self._outputToolBar = tools.OutputToolBar(parent=self, plot=plot) # Activate shortcuts in PlotWindow widget: for toolbar in (self._interactiveModeToolBar, self._scatterToolBar, self._profileToolBar, self._outputToolBar): self.addToolBar(toolbar) for action in toolbar.actions(): self.addAction(action) def _pickScatterData(self, x, y): """Get data and index and value of top most scatter plot at position (x, y) :param float x: X position in plot coordinates :param float y: Y position in plot coordinates :return: The data index and value at that point or None """ pickingPos = x, y if self.__lastPickingPos != pickingPos: self.__pickingCache = None self.__lastPickingPos = pickingPos plot = self.getPlotWidget() if plot is not None: pixelPos = plot.dataToPixel(x, y) if pixelPos is not None: # Start from top-most item for item, indices in reversed(plot._pick(*pixelPos)): if isinstance(item, items.Scatter): # Get last index # with matplotlib it should be the top-most point dataIndex = indices[-1] self.__pickingCache = ( dataIndex, item.getValueData(copy=False)[dataIndex]) break return self.__pickingCache def _getScatterValue(self, x, y): """Get data value of top most scatter plot at position (x, y) :param float x: X position in plot coordinates :param float y: Y position in plot coordinates :return: The data value at that point or '-' """ picking = self._pickScatterData(x, y) return '-' if picking is None else picking[1] def _getScatterIndex(self, x, y): """Get data index of top most scatter plot at position (x, y) :param float x: X position in plot coordinates :param float y: Y position in plot coordinates :return: The data index at that point or '-' """ picking = self._pickScatterData(x, y) return '-' if picking is None else picking[0] _PICK_OFFSET = 3 # Offset in pixel used for picking def _mouseInPlotArea(self, x, y): """Clip mouse coordinates to plot area coordinates :param float x: X position in pixels :param float y: Y position in pixels :return: (x, y) in data coordinates """ plot = self.getPlotWidget() left, top, width, height = plot.getPlotBoundsInPixels() xPlot = numpy.clip(x, left, left + width - 1) yPlot = numpy.clip(y, top, top + height - 1) return xPlot, yPlot def getPlotWidget(self): """Returns the :class:`~silx.gui.plot.PlotWidget` this window is based on. :rtype: ~silx.gui.plot.PlotWidget """ return self._plot() def getPositionInfoWidget(self): """Returns the widget display mouse coordinates information. :rtype: ~silx.gui.plot.tools.PositionInfo """ return self._positionInfo def getMaskToolsWidget(self): """Returns the widget controlling mask drawing :rtype: ~silx.gui.plot.ScatterMaskToolsWidget """ return self._maskToolsWidget def getInteractiveModeToolBar(self): """Returns QToolBar controlling interactive mode. :rtype: ~silx.gui.plot.tools.InteractiveModeToolBar """ return self._interactiveModeToolBar def getScatterToolBar(self): """Returns QToolBar providing scatter plot tools. :rtype: ~silx.gui.plot.tools.ScatterToolBar """ return self._scatterToolBar def getScatterProfileToolBar(self): """Returns QToolBar providing scatter profile tools. :rtype: ~silx.gui.plot.tools.profile.ScatterProfileToolBar """ return self._profileToolBar def getOutputToolBar(self): """Returns QToolBar containing save, copy and print actions :rtype: ~silx.gui.plot.tools.OutputToolBar """ return self._outputToolBar def setColormap(self, colormap=None): """Set the colormap for the displayed scatter and the default plot colormap. :param ~silx.gui.colors.Colormap colormap: The description of the colormap. """ self.getScatterItem().setColormap(colormap) # Resilient to call to PlotWidget API (e.g., clear) self.getPlotWidget().setDefaultColormap(colormap) def getColormap(self): """Return the colormap object in use. :return: Colormap currently in use :rtype: ~silx.gui.colors.Colormap """ return self.getScatterItem().getColormap() # Control displayed scatter plot def setData(self, x, y, value, xerror=None, yerror=None, alpha=None, copy=True): """Set the data of the scatter plot. To reset the scatter plot, set x, y and value to None. :param Union[numpy.ndarray,None] x: X coordinates. :param Union[numpy.ndarray,None] y: Y coordinates. :param Union[numpy.ndarray,None] value: The data corresponding to the value of the data points. :param xerror: Values with the uncertainties on the x values. If it is an array, it can either be a 1D array of same length as the data or a 2D array with 2 rows of same length as the data: row 0 for positive errors, row 1 for negative errors. :type xerror: A float, or a numpy.ndarray of float32. :param yerror: Values with the uncertainties on the y values :type yerror: A float, or a numpy.ndarray of float32. See xerror. :param alpha: Values with the transparency (between 0 and 1) :type alpha: A float, or a numpy.ndarray of float32 :param bool copy: True make a copy of the data (default), False to use provided arrays. """ x = () if x is None else x y = () if y is None else y value = () if value is None else value self.getScatterItem().setData( x=x, y=y, value=value, xerror=xerror, yerror=yerror, alpha=alpha, copy=copy) def getData(self, *args, **kwargs): return self.getScatterItem().getData(*args, **kwargs) getData.__doc__ = items.Scatter.getData.__doc__ def getScatterItem(self): """Returns the plot item displaying the scatter data. This allows to set the style of the displayed scatter. :rtype: ~silx.gui.plot.items.Scatter """ plot = self.getPlotWidget() scatter = plot._getItem(kind='scatter', legend=self._SCATTER_LEGEND) if scatter is None: # Resilient to call to PlotWidget API (e.g., clear) plot.addScatter(x=(), y=(), value=(), legend=self._SCATTER_LEGEND) scatter = plot._getItem( kind='scatter', legend=self._SCATTER_LEGEND) return scatter # Convenient proxies def getXAxis(self, *args, **kwargs): return self.getPlotWidget().getXAxis(*args, **kwargs) getXAxis.__doc__ = PlotWidget.getXAxis.__doc__ def getYAxis(self, *args, **kwargs): return self.getPlotWidget().getYAxis(*args, **kwargs) getYAxis.__doc__ = PlotWidget.getYAxis.__doc__ def setGraphTitle(self, *args, **kwargs): return self.getPlotWidget().setGraphTitle(*args, **kwargs) setGraphTitle.__doc__ = PlotWidget.setGraphTitle.__doc__ def getGraphTitle(self, *args, **kwargs): return self.getPlotWidget().getGraphTitle(*args, **kwargs) getGraphTitle.__doc__ = PlotWidget.getGraphTitle.__doc__ def resetZoom(self, *args, **kwargs): return self.getPlotWidget().resetZoom(*args, **kwargs) resetZoom.__doc__ = PlotWidget.resetZoom.__doc__