コード例 #1
0
ファイル: DataDemo.py プロジェクト: petebachant/python-qwt
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)

        self.setCanvasBackground(Qt.white)
        self.alignScales()

        # Initialize data
        self.x = np.arange(0.0, 100.1, 0.5)
        self.y = np.zeros(len(self.x), np.float)
        self.z = np.zeros(len(self.x), np.float)

        self.setTitle("A Moving QwtPlot Demonstration")
        self.insertLegend(QwtLegend(), QwtPlot.BottomLegend)

        self.curveR = QwtPlotCurve("Data Moving Right")
        self.curveR.attach(self)
        self.curveL = QwtPlotCurve("Data Moving Left")
        self.curveL.attach(self)

        self.curveL.setSymbol(QwtSymbol(QwtSymbol.Ellipse, QBrush(), QPen(Qt.yellow), QSize(7, 7)))

        self.curveR.setPen(QPen(Qt.red))
        self.curveL.setPen(QPen(Qt.blue))

        mY = QwtPlotMarker()
        mY.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mY.setLineStyle(QwtPlotMarker.HLine)
        mY.setYValue(0.0)
        mY.attach(self)

        self.setAxisTitle(QwtPlot.xBottom, "Time (seconds)")
        self.setAxisTitle(QwtPlot.yLeft, "Values")

        self.startTimer(50)
        self.phase = 0.0
コード例 #2
0
ファイル: ReallySimpleDemo.py プロジェクト: gyenney/Tools
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)
        self.setTitle('ReallySimpleDemo.py')
        self.insertLegend(QwtLegend(), QwtPlot.RightLegend)
        self.setAxisTitle(QwtPlot.xBottom, 'x -->')
        self.setAxisTitle(QwtPlot.yLeft, 'y -->')
        self.enableAxis(self.xBottom)

        # insert a few curves
        cSin = QwtPlotCurve('y = sin(x)')
        cSin.setPen(QPen(Qt.red))
        cSin.attach(self)
        cCos = QwtPlotCurve('y = cos(x)')
        cCos.setPen(QPen(Qt.blue))
        cCos.attach(self)
        
        # make a Numeric array for the horizontal data
        x = np.arange(0.0, 10.0, 0.1)

        # initialize the data
        cSin.setData(x, np.sin(x))
        cCos.setData(x, np.cos(x))

        # insert a horizontal marker at y = 0
        mY = QwtPlotMarker()
        mY.setLabel(QwtText('y = 0'))
        mY.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mY.setLineStyle(QwtPlotMarker.HLine)
        mY.setYValue(0.0)
        mY.attach(self)

        # insert a vertical marker at x = 2 pi
        mX = QwtPlotMarker()
        mX.setLabel(QwtText('x = 2 pi'))
        mX.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mX.setLineStyle(QwtPlotMarker.VLine)
        mX.setXValue(2*np.pi)
        mX.attach(self)

        # replot
        self.replot()
コード例 #3
0
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)
        self.setTitle('ReallySimpleDemo.py')
        self.insertLegend(QwtLegend(), QwtPlot.RightLegend)
        self.setAxisTitle(QwtPlot.xBottom, 'x -->')
        self.setAxisTitle(QwtPlot.yLeft, 'y -->')
        self.enableAxis(self.xBottom)

        # insert a few curves
        cSin = QwtPlotCurve('y = sin(x)')
        cSin.setPen(QPen(Qt.red))
        cSin.attach(self)
        cCos = QwtPlotCurve('y = cos(x)')
        cCos.setPen(QPen(Qt.blue))
        cCos.attach(self)

        # make a Numeric array for the horizontal data
        x = np.arange(0.0, 10.0, 0.1)

        # initialize the data
        cSin.setData(x, np.sin(x))
        cCos.setData(x, np.cos(x))

        # insert a horizontal marker at y = 0
        mY = QwtPlotMarker()
        mY.setLabel(QwtText('y = 0'))
        mY.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mY.setLineStyle(QwtPlotMarker.HLine)
        mY.setYValue(0.0)
        mY.attach(self)

        # insert a vertical marker at x = 2 pi
        mX = QwtPlotMarker()
        mX.setLabel(QwtText('x = 2 pi'))
        mX.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mX.setLineStyle(QwtPlotMarker.VLine)
        mX.setXValue(2 * np.pi)
        mX.attach(self)

        # replot
        self.replot()
コード例 #4
0
 def __init__(self, *args):
     QwtPlot.__init__(self, *args)
     global x, y, lineL, lineH, curveTemp
     HISTORY = 300
     x = 0.1 * np.arange(0, -HISTORY, -1)
     y = np.zeros(HISTORY, np.float)
     self.setAxisScale(QwtPlot.yLeft, 0, 100)
     lineL = QwtPlotMarker()
     lineL.setLinePen(QtGui.QPen(QtCore.Qt.blue))
     lineL.setLabelAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignBottom)
     lineL.setLineStyle(QwtPlotMarker.HLine)
     lineL.setYValue(0)
     lineL.attach(self)
     lineH = QwtPlotMarker()
     lineH.setLinePen(QtGui.QPen(QtCore.Qt.red))
     lineH.setLabelAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignTop)
     lineH.setLineStyle(QwtPlotMarker.HLine)
     lineH.setYValue(100)
     lineH.attach(self)
     curveTemp = QwtPlotCurve("实时温度")
     curveTemp.attach(self)
コード例 #5
0
def main(args):
    app = QApplication(args)
    demo = QwtPlot()
    grid = QwtPlotGrid()
    grid.attach(demo)
    grid.setPen(QPen(Qt.black, 0, Qt.DotLine))
    grid.enableX(True)
    grid.enableY(True)
    complex_divider = 50.0

    myXScale = ComplexScaleDraw(start_value=0.0, end_value=complex_divider)
    #print('myXScale', myXScale)
    demo.setAxisScaleDraw(QwtPlot.xBottom, myXScale)

    m = QwtPlotMarker()
    m.attach(demo)
    m.setValue(complex_divider, 0.0)
    m.setLineStyle(QwtPlotMarker.VLine)
    m.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
    m.setLinePen(QPen(Qt.black, 2, Qt.SolidLine))

    vector_array = numpy.zeros((100, ), numpy.float32)
    for i in range(100):
        vector_array[i] = i

    curve = QwtPlotCurve('example data')
    curve.attach(demo)
    x_array = numpy.zeros(100, numpy.float32)
    y_array = numpy.zeros(100, numpy.float32)
    for i in range(100):
        x_array[i] = 1.0 * i
        y_array[i] = 2.0 * i
    curve.setSamples(x_array, y_array)

    demo.resize(600, 400)
    demo.replot()
    demo.show()
    #   app.setMainWidget(demo)
    app.exec_()
コード例 #6
0
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)

        self.setCanvasBackground(Qt.white)
        self.alignScales()

        # Initialize data
        self.x = np.arange(0.0, 100.1, 0.5)
        self.y = np.zeros(len(self.x), np.float)
        self.z = np.zeros(len(self.x), np.float)

        self.setTitle("A Moving QwtPlot Demonstration")
        self.insertLegend(QwtLegend(), QwtPlot.BottomLegend);

        self.curveR = QwtPlotCurve("Data Moving Right")
        self.curveR.attach(self)
        self.curveL = QwtPlotCurve("Data Moving Left")
        self.curveL.attach(self)

        self.curveL.setSymbol(QwtSymbol(QwtSymbol.Ellipse,
                                        QBrush(),
                                        QPen(Qt.yellow),
                                        QSize(7, 7)))

        self.curveR.setPen(QPen(Qt.red))
        self.curveL.setPen(QPen(Qt.blue))

        mY = QwtPlotMarker()
        mY.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        mY.setLineStyle(QwtPlotMarker.HLine)
        mY.setYValue(0.0)
        mY.attach(self)

        self.setAxisTitle(QwtPlot.xBottom, "Time (seconds)")
        self.setAxisTitle(QwtPlot.yLeft, "Values")
    
        self.startTimer(50)
        self.phase = 0.0
コード例 #7
0
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)
        # set plot title
        self.setTitle('ImagePlot')
        # set plot layout
        self.plotLayout().setCanvasMargin(0)
        self.plotLayout().setAlignCanvasToScales(True)
        # set legend
        legend = QwtLegend()
        legend.setDefaultItemMode(QwtLegendData.Clickable)
        self.insertLegend(legend, QwtPlot.RightLegend)
        # set axis titles
        self.setAxisTitle(QwtPlot.xBottom, 'time (s)')
        self.setAxisTitle(QwtPlot.yLeft, 'frequency (Hz)')

        colorMap = QwtLinearColorMap(Qt.blue, Qt.red)
        interval = QwtInterval(-1, 1)
        self.enableAxis(QwtPlot.yRight)
        self.setAxisScale(QwtPlot.yRight, -1, 1)
        self.axisWidget(QwtPlot.yRight).setColorBarEnabled(True)
        self.axisWidget(QwtPlot.yRight).setColorMap(interval, colorMap)

        # calculate 3 NumPy arrays
        x = np.arange(-2 * np.pi, 2 * np.pi, 0.01)
        y = np.pi * np.sin(x)
        z = 4 * np.pi * np.cos(x) * np.cos(x) * np.sin(x)
        # attach a curve
        curve = QwtPlotCurve('y = pi*sin(x)')
        curve.attach(self)
        curve.setPen(QPen(Qt.green, 2))
        curve.setData(x, y)
        # attach another curve
        curve = QwtPlotCurve('y = 4*pi*sin(x)*cos(x)**2')
        curve.attach(self)
        curve.setPen(QPen(Qt.black, 2))
        curve.setData(x, z)
        # attach a grid
        grid = QwtPlotGrid()
        grid.attach(self)
        grid.setPen(QPen(Qt.black, 0, Qt.DotLine))
        # attach a horizontal marker at y = 0
        marker = QwtPlotMarker()
        marker.attach(self)
        marker.setValue(0.0, 0.0)
        marker.setLineStyle(QwtPlotMarker.HLine)
        marker.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        marker.setLabel(QwtText('y = 0'))
        # attach a vertical marker at x = pi
        marker = QwtPlotMarker()
        marker.attach(self)
        marker.setValue(np.pi, 0.0)
        marker.setLineStyle(QwtPlotMarker.VLine)
        marker.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
        marker.setLabel(QwtText('x = pi'))
        # attach a plot image
        plotImage = PlotImage('Image')
        plotImage.attach(self)
        plotImage.setData(square(512, -2 * np.pi, 2 * np.pi),
                          (-2 * np.pi, 2 * np.pi), (-2 * np.pi, 2 * np.pi))

        legend.SIG_CLICKED.connect(self.toggleVisibility)

        # replot
        self.replot()
コード例 #8
0
    def __init__(self, *args):
        QwtPlot.__init__(self, *args)
        # set plot title
        self.setTitle('ImagePlot')
        # set plot layout
        self.plotLayout().setCanvasMargin(0)
        self.plotLayout().setAlignCanvasToScales(True)
        # set legend
        legend = QwtLegend()
        legend.setDefaultItemMode(QwtLegendData.Clickable)
        self.insertLegend(legend, QwtPlot.RightLegend)
        # set axis titles
        self.setAxisTitle(QwtPlot.xBottom, 'time (s)')
        self.setAxisTitle(QwtPlot.yLeft, 'frequency (Hz)')

        colorMap = QwtLinearColorMap(Qt.blue, Qt.red)
        interval = QwtInterval(-1, 1)
        self.enableAxis(QwtPlot.yRight)
        self.setAxisScale(QwtPlot.yRight, -1, 1)
        self.axisWidget(QwtPlot.yRight).setColorBarEnabled(True)
        self.axisWidget(QwtPlot.yRight).setColorMap(interval, colorMap)

        # calculate 3 NumPy arrays
        x = np.arange(-2*np.pi, 2*np.pi, 0.01)
        y = np.pi*np.sin(x)
        z = 4*np.pi*np.cos(x)*np.cos(x)*np.sin(x)
        # attach a curve
        curve = QwtPlotCurve('y = pi*sin(x)')
        curve.attach(self)
        curve.setPen(QPen(Qt.green, 2))
        curve.setData(x, y)
        # attach another curve
        curve = QwtPlotCurve('y = 4*pi*sin(x)*cos(x)**2')
        curve.attach(self)
        curve.setPen(QPen(Qt.black, 2))
        curve.setData(x, z)
        # attach a grid
        grid = QwtPlotGrid()
        grid.attach(self)
        grid.setPen(QPen(Qt.black, 0, Qt.DotLine))
        # attach a horizontal marker at y = 0
        marker = QwtPlotMarker()
        marker.attach(self)
        marker.setValue(0.0, 0.0)
        marker.setLineStyle(QwtPlotMarker.HLine)
        marker.setLabelAlignment(Qt.AlignRight | Qt.AlignTop)
        marker.setLabel(QwtText('y = 0'))
        # attach a vertical marker at x = pi
        marker = QwtPlotMarker()
        marker.attach(self)
        marker.setValue(np.pi, 0.0)
        marker.setLineStyle(QwtPlotMarker.VLine)
        marker.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
        marker.setLabel(QwtText('x = pi'))
        # attach a plot image
        plotImage = PlotImage('Image')
        plotImage.attach(self)
        plotImage.setData(square(512, -2*np.pi, 2*np.pi),
                          (-2*np.pi, 2*np.pi), (-2*np.pi, 2*np.pi))

        legend.SIG_CLICKED.connect(self.toggleVisibility)
        
        # replot
        self.replot()