Exemplo n.º 1
0
 def createWidget(self, parent):
     from silx.gui.plot.ComplexImageView import ComplexImageView
     widget = ComplexImageView(parent=parent)
     widget.getPlot().getIntensityHistogramAction().setVisible(True)
     widget.getPlot().setKeepDataAspectRatio(True)
     widget.getXAxis().setLabel('X')
     widget.getYAxis().setLabel('Y')
     return widget
Exemplo n.º 2
0
    def __init__(self, parent=None, colormap=None):
        """

        :param parent: Parent QWidget
        """
        super(ArrayComplexImagePlot, self).__init__(parent)

        self.__signals = None
        self.__signals_names = None
        self.__x_axis = None
        self.__x_axis_name = None
        self.__y_axis = None
        self.__y_axis_name = None

        self._plot = ComplexImageView(self)
        if colormap is not None:
            for mode in (ComplexImageView.ComplexMode.ABSOLUTE,
                         ComplexImageView.ComplexMode.SQUARE_AMPLITUDE,
                         ComplexImageView.ComplexMode.REAL,
                         ComplexImageView.ComplexMode.IMAGINARY):
                self._plot.setColormap(colormap, mode)

        self._plot.getPlot().getIntensityHistogramAction().setVisible(True)
        self._plot.setKeepDataAspectRatio(True)
        maskToolWidget = self._plot.getPlot().getMaskToolsDockWidget().widget()
        maskToolWidget.setItemMaskUpdated(True)

        # not closable
        self._selector = NumpyAxesSelector(self)
        self._selector.setNamedAxesSelectorVisibility(False)
        self._selector.selectionChanged.connect(self._updateImage)

        self._auxSigSlider = HorizontalSliderWithBrowser(parent=self)
        self._auxSigSlider.setMinimum(0)
        self._auxSigSlider.setValue(0)
        self._auxSigSlider.valueChanged[int].connect(self._sliderIdxChanged)
        self._auxSigSlider.setToolTip("Select auxiliary signals")

        layout = qt.QVBoxLayout()
        layout.addWidget(self._plot)
        layout.addWidget(self._selector)
        layout.addWidget(self._auxSigSlider)

        self.setLayout(layout)
Exemplo n.º 3
0
class ArrayComplexImagePlot(qt.QWidget):
    """
    Widget for plotting an image of complex from a multi-dimensional signal array
    and two 1D axes array.

    The signal array can have an arbitrary number of dimensions, the only
    limitation being that the last two dimensions must have the same length as
    the axes arrays.

    Sliders are provided to select indices on the first (n - 2) dimensions of
    the signal array, and the plot is updated to show the image corresponding
    to the selection.

    If one or both of the axes does not have regularly spaced values, the
    the image is plotted as a coloured scatter plot.
    """
    def __init__(self, parent=None, colormap=None):
        """

        :param parent: Parent QWidget
        """
        super(ArrayComplexImagePlot, self).__init__(parent)

        self.__signals = None
        self.__signals_names = None
        self.__x_axis = None
        self.__x_axis_name = None
        self.__y_axis = None
        self.__y_axis_name = None

        self._plot = ComplexImageView(self)
        if colormap is not None:
            for mode in (ComplexImageView.ComplexMode.ABSOLUTE,
                         ComplexImageView.ComplexMode.SQUARE_AMPLITUDE,
                         ComplexImageView.ComplexMode.REAL,
                         ComplexImageView.ComplexMode.IMAGINARY):
                self._plot.setColormap(colormap, mode)

        self._plot.getPlot().getIntensityHistogramAction().setVisible(True)
        self._plot.setKeepDataAspectRatio(True)

        # not closable
        self._selector = NumpyAxesSelector(self)
        self._selector.setNamedAxesSelectorVisibility(False)
        self._selector.selectionChanged.connect(self._updateImage)

        self._auxSigSlider = HorizontalSliderWithBrowser(parent=self)
        self._auxSigSlider.setMinimum(0)
        self._auxSigSlider.setValue(0)
        self._auxSigSlider.valueChanged[int].connect(self._sliderIdxChanged)
        self._auxSigSlider.setToolTip("Select auxiliary signals")

        layout = qt.QVBoxLayout()
        layout.addWidget(self._plot)
        layout.addWidget(self._selector)
        layout.addWidget(self._auxSigSlider)

        self.setLayout(layout)

    def _sliderIdxChanged(self, value):
        self._updateImage()

    def getPlot(self):
        """Returns the plot used for the display

        :rtype: PlotWidget
        """
        return self._plot.getPlot()

    def setImageData(self,
                     signals,
                     x_axis=None,
                     y_axis=None,
                     signals_names=None,
                     xlabel=None,
                     ylabel=None,
                     title=None):
        """

        :param signals: list of n-D datasets, whose last 2 dimensions are used as the
            image's values, or list of 3D datasets interpreted as RGBA image.
        :param x_axis: 1-D dataset used as the image's x coordinates. If
            provided, its lengths must be equal to the length of the last
            dimension of ``signal``.
        :param y_axis: 1-D dataset used as the image's y. If provided,
            its lengths must be equal to the length of the 2nd to last
            dimension of ``signal``.
        :param signals_names: Names for each image, used as subtitle and legend.
        :param xlabel: Label for X axis
        :param ylabel: Label for Y axis
        :param title: Graph title
        """
        self._selector.selectionChanged.disconnect(self._updateImage)
        self._auxSigSlider.valueChanged.disconnect(self._sliderIdxChanged)

        self.__signals = signals
        self.__signals_names = signals_names
        self.__x_axis = x_axis
        self.__x_axis_name = xlabel
        self.__y_axis = y_axis
        self.__y_axis_name = ylabel
        self.__title = title

        self._selector.clear()
        self._selector.setAxisNames(["Y", "X"])
        self._selector.setData(signals[0])

        if len(signals[0].shape) <= 2:
            self._selector.hide()
        else:
            self._selector.show()

        self._auxSigSlider.setMaximum(len(signals) - 1)
        if len(signals) > 1:
            self._auxSigSlider.show()
        else:
            self._auxSigSlider.hide()
        self._auxSigSlider.setValue(0)

        self._updateImage()
        self._plot.getPlot().resetZoom()

        self._selector.selectionChanged.connect(self._updateImage)
        self._auxSigSlider.valueChanged.connect(self._sliderIdxChanged)

    def _updateImage(self):
        selection = self._selector.selection()
        auxSigIdx = self._auxSigSlider.value()

        images = [img[selection] for img in self.__signals]
        image = images[auxSigIdx]

        x_axis = self.__x_axis
        y_axis = self.__y_axis

        if x_axis is None and y_axis is None:
            xcalib = NoCalibration()
            ycalib = NoCalibration()
        else:
            if x_axis is None:
                # no calibration
                x_axis = numpy.arange(image.shape[1])
            elif numpy.isscalar(x_axis) or len(x_axis) == 1:
                # constant axis
                x_axis = x_axis * numpy.ones((image.shape[1], ))
            elif len(x_axis) == 2:
                # linear calibration
                x_axis = x_axis[0] * numpy.arange(image.shape[1]) + x_axis[1]

            if y_axis is None:
                y_axis = numpy.arange(image.shape[0])
            elif numpy.isscalar(y_axis) or len(y_axis) == 1:
                y_axis = y_axis * numpy.ones((image.shape[0], ))
            elif len(y_axis) == 2:
                y_axis = y_axis[0] * numpy.arange(image.shape[0]) + y_axis[1]

            xcalib = ArrayCalibration(x_axis)
            ycalib = ArrayCalibration(y_axis)

        self._plot.setData(image)
        if xcalib.is_affine():
            xorigin, xscale = xcalib(0), xcalib.get_slope()
        else:
            _logger.warning("Unsupported complex image X axis calibration")
            xorigin, xscale = 0., 1.

        if ycalib.is_affine():
            yorigin, yscale = ycalib(0), ycalib.get_slope()
        else:
            _logger.warning("Unsupported complex image Y axis calibration")
            yorigin, yscale = 0., 1.

        self._plot.setOrigin((xorigin, yorigin))
        self._plot.setScale((xscale, yscale))

        if self.__title:
            title = self.__title
            if len(self.__signals_names) > 1:
                # Append dataset name only when there is many datasets
                title += '\n' + self.__signals_names[auxSigIdx]
        else:
            title = self.__signals_names[auxSigIdx]
        self._plot.setGraphTitle(title)
        self._plot.getXAxis().setLabel(self.__x_axis_name)
        self._plot.getYAxis().setLabel(self.__y_axis_name)

    def clear(self):
        old = self._selector.blockSignals(True)
        self._selector.clear()
        self._selector.blockSignals(old)
        self._plot.setData(None)
Exemplo n.º 4
0
 def createWidget(self, parent):
     from silx.gui.plot.ComplexImageView import ComplexImageView
     widget = ComplexImageView(parent=parent)
     widget.setColormap(self.defaultColormap(),
                        mode=ComplexImageView.Mode.ABSOLUTE)
     widget.setColormap(self.defaultColormap(),
                        mode=ComplexImageView.Mode.SQUARE_AMPLITUDE)
     widget.setColormap(self.defaultColormap(),
                        mode=ComplexImageView.Mode.REAL)
     widget.setColormap(self.defaultColormap(),
                        mode=ComplexImageView.Mode.IMAGINARY)
     widget.getPlot().getColormapAction().setColorDialog(
         self.defaultColorDialog())
     widget.getPlot().getIntensityHistogramAction().setVisible(True)
     widget.getPlot().setKeepDataAspectRatio(True)
     widget.getXAxis().setLabel('X')
     widget.getYAxis().setLabel('Y')
     return widget
Exemplo n.º 5
0
 def createWidget(self, parent):
     from silx.gui.plot.ComplexImageView import ComplexImageView
     widget = ComplexImageView(parent=parent)
     widget.setColormap(self.defaultColormap(), mode=ComplexImageView.Mode.ABSOLUTE)
     widget.setColormap(self.defaultColormap(), mode=ComplexImageView.Mode.SQUARE_AMPLITUDE)
     widget.setColormap(self.defaultColormap(), mode=ComplexImageView.Mode.REAL)
     widget.setColormap(self.defaultColormap(), mode=ComplexImageView.Mode.IMAGINARY)
     widget.getPlot().getColormapAction().setColorDialog(self.defaultColorDialog())
     widget.getPlot().getIntensityHistogramAction().setVisible(True)
     widget.getPlot().setKeepDataAspectRatio(True)
     widget.getXAxis().setLabel('X')
     widget.getYAxis().setLabel('Y')
     return widget