Ejemplo n.º 1
0
    def __init__(self, axis, source_axis=None, parent=None):
        super(AxisBoundsChooser, self).__init__(parent=parent)
        if source_axis is not None:
            self.axis = source_axis
        else:
            self.axis = axis
        l = QtGui.QVBoxLayout()
        l.addWidget(header_label(axis.id))

        if source_axis is not None:
            minimum, maximum = (float(num)
                                for num in genutil.minmax(source_axis))
            bottom, top = (float(num) for num in genutil.minmax(axis))
            for i, v in enumerate(source_axis):
                if v == bottom:
                    bot_ind = i
                if v == top:
                    top_ind = i
            self.range = RangeWidget(axis_values(source_axis),
                                     bottom=bot_ind,
                                     top=top_ind)
        else:
            minimum, maximum = (float(num) for num in genutil.minmax(axis))
            self.range = RangeWidget(axis_values(axis))

        l.addWidget(self.range)
        self.setLayout(l)

        emitter = partial(self.boundsEdited.emit, self.axis)

        self.range.boundsEdited.connect(emitter)
Ejemplo n.º 2
0
    def __init__(self, axis, source_axis=None, parent=None):
        super(AxisBoundsChooser, self).__init__(parent=parent)
        if source_axis is not None:
            self.axis = source_axis
        else:
            self.axis = axis
        l = QtGui.QVBoxLayout()
        l.addWidget(header_label(axis.id))

        if source_axis is not None:
            minimum, maximum = (float(num) for num in genutil.minmax(source_axis))
            bottom, top = (float(num) for num in genutil.minmax(axis))
            for i, v in enumerate(source_axis):
                if v == bottom:
                    bot_ind = i
                if v == top:
                    top_ind = i
            self.range = RangeWidget(axis_values(source_axis), bottom=bot_ind, top=top_ind)
        else:
            minimum, maximum = (float(num) for num in genutil.minmax(axis))
            self.range = RangeWidget(axis_values(axis))

        l.addWidget(self.range)
        self.setLayout(l)

        emitter = partial(self.boundsEdited.emit, self.axis)

        self.range.boundsEdited.connect(emitter)
Ejemplo n.º 3
0
class AxisBoundsChooser(QtGui.QWidget):
    boundsEdited = QtCore.Signal(object)

    def __init__(self, axis, source_axis=None, parent=None):
        super(AxisBoundsChooser, self).__init__(parent=parent)
        if source_axis is not None:
            self.axis = source_axis
        else:
            self.axis = axis
        l = QtGui.QVBoxLayout()
        l.addWidget(header_label(axis.id))

        if source_axis is not None:
            minimum, maximum = (float(num)
                                for num in genutil.minmax(source_axis))
            bottom, top = (float(num) for num in genutil.minmax(axis))
            for i, v in enumerate(source_axis):
                if v == bottom:
                    bot_ind = i
                if v == top:
                    top_ind = i
            self.range = RangeWidget(axis_values(source_axis),
                                     bottom=bot_ind,
                                     top=top_ind)
        else:
            minimum, maximum = (float(num) for num in genutil.minmax(axis))
            self.range = RangeWidget(axis_values(axis))

        l.addWidget(self.range)
        self.setLayout(l)

        emitter = partial(self.boundsEdited.emit, self.axis)

        self.range.boundsEdited.connect(emitter)

    def getMinMax(self):
        indices = self.range.getBounds()
        values = [self.axis[index] for index in indices]
        return values

    def getBotTop(self):
        indices = self.range.getBounds()
        values = [self.axis[index] for index in indices]
        return values

    def setBotTop(self, bottom, top):
        # Round bottom and top to actual values
        min_lower_diff = None
        min_upper_diff = None
        lower_ind, upper_ind = None, None
        for ind, val in enumerate(self.axis):
            low_diff = abs(bottom - val)
            up_diff = abs(top - val)
            if min_lower_diff is None or min_lower_diff >= low_diff:
                lower_ind = ind
                min_lower_diff = low_diff
            if min_upper_diff is None or min_upper_diff >= up_diff:
                upper_ind = ind
                min_upper_diff = up_diff

        self.range.setBounds(lower_ind, upper_ind)

    def getSelector(self):
        lower, upper = self.range.getBounds()
        lower = selector_value(lower, self.axis)
        upper = selector_value(upper, self.axis)
        return self.axis.id, (lower, upper)
Ejemplo n.º 4
0
class AxisBoundsChooser(QtGui.QWidget):
    boundsEdited = QtCore.Signal(object)

    def __init__(self, axis, source_axis=None, parent=None):
        super(AxisBoundsChooser, self).__init__(parent=parent)
        if source_axis is not None:
            self.axis = source_axis
        else:
            self.axis = axis
        l = QtGui.QVBoxLayout()
        l.addWidget(header_label(axis.id))

        if source_axis is not None:
            minimum, maximum = (float(num) for num in genutil.minmax(source_axis))
            bottom, top = (float(num) for num in genutil.minmax(axis))
            for i, v in enumerate(source_axis):
                if v == bottom:
                    bot_ind = i
                if v == top:
                    top_ind = i
            self.range = RangeWidget(axis_values(source_axis), bottom=bot_ind, top=top_ind)
        else:
            minimum, maximum = (float(num) for num in genutil.minmax(axis))
            self.range = RangeWidget(axis_values(axis))

        l.addWidget(self.range)
        self.setLayout(l)

        emitter = partial(self.boundsEdited.emit, self.axis)

        self.range.boundsEdited.connect(emitter)

    def getMinMax(self):
        indices = self.range.getBounds()
        values = [self.axis[index] for index in indices]
        return values

    def getBotTop(self):
        indices = self.range.getBounds()
        values = [self.axis[index] for index in indices]
        return values

    def setBotTop(self, bottom, top):
        # Round bottom and top to actual values
        min_lower_diff = None
        min_upper_diff = None
        lower_ind, upper_ind = None, None
        for ind, val in enumerate(self.axis):
            low_diff = abs(bottom - val)
            up_diff = abs(top - val)
            if min_lower_diff is None or min_lower_diff >= low_diff:
                lower_ind = ind
                min_lower_diff = low_diff
            if min_upper_diff is None or min_upper_diff >= up_diff:
                upper_ind = ind
                min_upper_diff = up_diff

        self.range.setBounds(lower_ind, upper_ind)

    def getSelector(self):
        lower, upper = self.range.getBounds()
        lower = selector_value(lower, self.axis)
        upper = selector_value(upper, self.axis)
        return self.axis.id, (lower, upper)