BodeDemo.py :  » GUI » PyQwt » PyQwt-5.2.0 » qt4examples » Python Open Source

#!/usr/bin/env python

# The Python version of Qwt-5.1.1/examples/bode

# To get an impression of the expressive power of NumPy,
# compare the Python and C++ versions of setDamp()


import sys
from PyQt4.Qt import *
from PyQt4.Qwt5 import *
import PyQt4.Qwt5.anynumpy as np


print_xpm = ['32 32 12 1',
             'a c #ffffff',
             'h c #ffff00',
             'c c #ffffff',
             'f c #dcdcdc',
             'b c #c0c0c0',
             'j c #a0a0a4',
             'e c #808080',
             'g c #808000',
             'd c #585858',
             'i c #00ff00',
             '# c #000000',
             '. c None',
             '................................',
             '................................',
             '...........###..................',
             '..........#abb###...............',
             '.........#aabbbbb###............',
             '.........#ddaaabbbbb###.........',
             '........#ddddddaaabbbbb###......',
             '.......#deffddddddaaabbbbb###...',
             '......#deaaabbbddddddaaabbbbb###',
             '.....#deaaaaaaabbbddddddaaabbbb#',
             '....#deaaabbbaaaa#ddedddfggaaad#',
             '...#deaaaaaaaaaa#ddeeeeafgggfdd#',
             '..#deaaabbbaaaa#ddeeeeabbbbgfdd#',
             '.#deeefaaaaaaa#ddeeeeabbhhbbadd#',
             '#aabbbeeefaaa#ddeeeeabbbbbbaddd#',
             '#bbaaabbbeee#ddeeeeabbiibbadddd#',
             '#bbbbbaaabbbeeeeeeabbbbbbaddddd#',
             '#bjbbbbbbaaabbbbeabbbbbbadddddd#',
             '#bjjjjbbbbbbaaaeabbbbbbaddddddd#',
             '#bjaaajjjbbbbbbaaabbbbadddddddd#',
             '#bbbbbaaajjjbbbbbbaaaaddddddddd#',
             '#bjbbbbbbaaajjjbbbbbbddddddddd#.',
             '#bjjjjbbbbbbaaajjjbbbdddddddd#..',
             '#bjaaajjjbbbbbbjaajjbddddddd#...',
             '#bbbbbaaajjjbbbjbbaabdddddd#....',
             '###bbbbbbaaajjjjbbbbbddddd#.....',
             '...###bbbbbbaaajbbbbbdddd#......',
             '......###bbbbbbjbbbbbddd#.......',
             '.........###bbbbbbbbbdd#........',
             '............###bbbbbbd#.........',
             '...............###bbb#..........',
             '..................###...........']

zoom_xpm = ['32 32 8 1',
            '# c #000000',
            'b c #c0c0c0',
            'a c #ffffff',
            'e c #585858',
            'd c #a0a0a4',
            'c c #0000ff',
            'f c #00ffff',
            '. c None',
            '..######################........',
            '.#a#baaaaaaaaaaaaaaaaaa#........',
            '#aa#baaaaaaaaaaaaaccaca#........',
            '####baaaaaaaaaaaaaaaaca####.....',
            '#bbbbaaaaaaaaaaaacccaaa#da#.....',
            '#aaaaaaaaaaaaaaaacccaca#da#.....',
            '#aaaaaaaaaaaaaaaaaccaca#da#.....',
            '#aaaaaaaaaabe###ebaaaaa#da#.....',
            '#aaaaaaaaa#########aaaa#da#.....',
            '#aaaaaaaa###dbbbb###aaa#da#.....',
            '#aaaaaaa###aaaaffb###aa#da#.....',
            '#aaaaaab##aaccaaafb##ba#da#.....',
            '#aaaaaae#daaccaccaad#ea#da#.....',
            '#aaaaaa##aaaaaaccaab##a#da#.....',
            '#aaaaaa##aacccaaaaab##a#da#.....',
            '#aaaaaa##aaccccaccab##a#da#.....',
            '#aaaaaae#daccccaccad#ea#da#.....',
            '#aaaaaab##aacccaaaa##da#da#.....',
            '#aaccacd###aaaaaaa###da#da#.....',
            '#aaaaacad###daaad#####a#da#.....',
            '#acccaaaad##########da##da#.....',
            '#acccacaaadde###edd#eda#da#.....',
            '#aaccacaaaabdddddbdd#eda#a#.....',
            '#aaaaaaaaaaaaaaaaaadd#eda##.....',
            '#aaaaaaaaaaaaaaaaaaadd#eda#.....',
            '#aaaaaaaccacaaaaaaaaadd#eda#....',
            '#aaaaaaaaaacaaaaaaaaaad##eda#...',
            '#aaaaaacccaaaaaaaaaaaaa#d#eda#..',
            '########################dd#eda#.',
            '...#dddddddddddddddddddddd##eda#',
            '...#aaaaaaaaaaaaaaaaaaaaaa#.####',
            '...########################..##.']



class PrintFilter(QwtPlotPrintFilter):
    def __init__(self):
        QwtPlotPrintFilter.__init__(self)

    # __init___()
    
    def color(self, c, item):
        if not (self.options() & QwtPlotPrintFilter.CanvasBackground):
            if item == QwtPlotPrintFilter.MajorGrid:
                return Qt.darkGray
            elif item == QwtPlotPrintFilter.MinorGrid:
                return Qt.gray
        if item == QwtPlotPrintFilter.Title:
            return Qt.red
        elif item == QwtPlotPrintFilter.AxisScale:
            return Qt.green
        elif item == QwtPlotPrintFilter.AxisTitle:
            return Qt.blue
        return c

    # color()

    def font(self, f, _):
        result = QFont(f)
        result.setPointSize(int(f.pointSize()*1.25))
        return result

    # font()

# class PrintFilter


class BodePlot(QwtPlot):

    def __init__(self, *args):
        QwtPlot.__init__(self, *args)

        self.setTitle('Frequency Response of a 2<sup>nd</sup>-order System')
        self.setCanvasBackground(Qt.darkBlue)

        # legend
        legend = QwtLegend()
        legend.setFrameStyle(QFrame.Box | QFrame.Sunken)
        legend.setItemMode(QwtLegend.ClickableItem)
        self.insertLegend(legend, QwtPlot.BottomLegend)

        # grid
        self.grid = QwtPlotGrid()
        self.grid.enableXMin(True)
        self.grid.setMajPen(QPen(Qt.white, 0, Qt.DotLine))
        self.grid.setMinPen(QPen(Qt.gray, 0 , Qt.DotLine))
        self.grid.attach(self)

        # axes
        self.enableAxis(QwtPlot.yRight)
        self.setAxisTitle(QwtPlot.xBottom, u'\u03c9/\u03c9<sub>0</sub>')
        self.setAxisTitle(QwtPlot.yLeft, 'Amplitude [dB]')
        self.setAxisTitle(QwtPlot.yRight, u'Phase [\u00b0]')

        self.setAxisMaxMajor(QwtPlot.xBottom, 6)
        self.setAxisMaxMinor(QwtPlot.xBottom, 10)
        self.setAxisScaleEngine(QwtPlot.xBottom, QwtLog10ScaleEngine())

        # curves
        self.curve1 = QwtPlotCurve('Amplitude')
        self.curve1.setRenderHint(QwtPlotItem.RenderAntialiased);
        self.curve1.setPen(QPen(Qt.yellow))
        self.curve1.setYAxis(QwtPlot.yLeft)
        self.curve1.attach(self)
        
        self.curve2 = QwtPlotCurve('Phase')
        self.curve2.setRenderHint(QwtPlotItem.RenderAntialiased);
        self.curve2.setPen(QPen(Qt.cyan))
        self.curve2.setYAxis(QwtPlot.yRight)
        self.curve2.attach(self)

        # alias
        fn = self.fontInfo().family()

        # marker
        self.dB3Marker = m = QwtPlotMarker()
        m.setValue(0.0, 0.0)
        m.setLineStyle(QwtPlotMarker.VLine)
        m.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
        m.setLinePen(QPen(Qt.green, 2, Qt.DashDotLine))
        text = QwtText('')
        text.setColor(Qt.green)
        text.setBackgroundBrush(Qt.red)
        text.setFont(QFont(fn, 12, QFont.Bold))
        m.setLabel(text)
        m.attach(self)

        self.peakMarker = m = QwtPlotMarker()
        m.setLineStyle(QwtPlotMarker.HLine)
        m.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
        m.setLinePen(QPen(Qt.red, 2, Qt.DashDotLine))
        text = QwtText('')
        text.setColor(Qt.red)
        text.setBackgroundBrush(QBrush(self.canvasBackground()))
        text.setFont(QFont(fn, 12, QFont.Bold))
        
        m.setLabel(text)
        m.setSymbol(QwtSymbol(QwtSymbol.Diamond,
                              QBrush(Qt.yellow),
                              QPen(Qt.green),
                              QSize(7,7)))
        m.attach(self)

        # text marker
        m = QwtPlotMarker()
        m.setValue(0.1, -20.0)
        m.setLabelAlignment(Qt.AlignRight | Qt.AlignBottom)
        text = QwtText(
            u'[1-(\u03c9/\u03c9<sub>0</sub>)<sup>2</sup>+2j\u03c9/Q]'
            '<sup>-1</sup>'
            )
        text.setFont(QFont(fn, 12, QFont.Bold))
        text.setColor(Qt.blue)
        text.setBackgroundBrush(QBrush(Qt.yellow))
        text.setBackgroundPen(QPen(Qt.red, 2))
        m.setLabel(text)
        m.attach(self)

        self.setDamp(0.01)

    # __init__()

    def showData(self, frequency, amplitude, phase):
        self.curve1.setData(frequency, amplitude)
        self.curve2.setData(frequency, phase)

    # showData()

    def showPeak(self, frequency, amplitude):
        self.peakMarker.setValue(frequency, amplitude)
        label = self.peakMarker.label()
        label.setText('Peak: %4g dB' % amplitude)
        self.peakMarker.setLabel(label)

    # showPeak()

    def show3dB(self, frequency):
        self.dB3Marker.setValue(frequency, 0.0)
        label = self.dB3Marker.label()
        label.setText('-3dB at f = %4g' % frequency)
        self.dB3Marker.setLabel(label)

    # show3dB()

    def setDamp(self, d):
        self.damping = d
        # Numerical Python: f, g, a and p are NumPy arrays!
        f = np.exp(np.log(10.0)*np.arange(-2, 2.02, 0.04))
        g = 1.0/(1.0-f*f+2j*self.damping*f)
        a = 20.0*np.log10(abs(g))
        p = 180*np.arctan2(g.imag, g.real)/np.pi
        # for show3dB
        i3 = np.argmax(np.where(np.less(a, -3.0), a, -100.0))
        f3 = f[i3] - (a[i3]+3.0)*(f[i3]-f[i3-1])/(a[i3]-a[i3-1])
        # for showPeak
        imax = np.argmax(a)

        self.showPeak(f[imax], a[imax])
        self.show3dB(f3)
        self.showData(f, a, p)

        self.replot()

    # setDamp()

# class BodePlot


class BodeDemo(QMainWindow):

    def __init__(self, *args):
        QMainWindow.__init__(self, *args)

        self.plot = BodePlot(self)
        self.plot.setMargin(5)

        self.setContextMenuPolicy(Qt.NoContextMenu)
        
        self.zoomers = []
        zoomer = QwtPlotZoomer(
            QwtPlot.xBottom,
            QwtPlot.yLeft,
            QwtPicker.DragSelection,
            QwtPicker.AlwaysOff,
            self.plot.canvas())
        zoomer.setRubberBandPen(QPen(Qt.green))
        self.zoomers.append(zoomer)

        zoomer = QwtPlotZoomer(
            QwtPlot.xTop,
            QwtPlot.yRight,
            QwtPicker.PointSelection | QwtPicker.DragSelection,
            QwtPicker.AlwaysOff,
            self.plot.canvas())
        zoomer.setRubberBand(QwtPicker.NoRubberBand)
        self.zoomers.append(zoomer)

        self.picker = QwtPlotPicker(
            QwtPlot.xBottom,
            QwtPlot.yLeft,
            QwtPicker.PointSelection | QwtPicker.DragSelection,
            QwtPlotPicker.CrossRubberBand,
            QwtPicker.AlwaysOn,
            self.plot.canvas())
        self.picker.setRubberBandPen(QPen(Qt.green))
        self.picker.setTrackerPen(QPen(Qt.cyan))
 
        self.setCentralWidget(self.plot)

        toolBar = QToolBar(self)
        self.addToolBar(toolBar)
        
        btnZoom = QToolButton(toolBar)
        btnZoom.setText("Zoom")
        btnZoom.setIcon(QIcon(QPixmap(zoom_xpm)))
        btnZoom.setCheckable(True)
        btnZoom.setToolButtonStyle(Qt.ToolButtonTextUnderIcon)
        toolBar.addWidget(btnZoom)

        btnPrint = QToolButton(toolBar)
        btnPrint.setText("Print")
        btnPrint.setIcon(QIcon(QPixmap(print_xpm)))
        btnPrint.setToolButtonStyle(Qt.ToolButtonTextUnderIcon)
        toolBar.addWidget(btnPrint)
        self.connect(btnPrint, SIGNAL('clicked()'), self.print_)

        if QT_VERSION >= 0X040100:
            btnPDF = QToolButton(toolBar)
            btnPDF.setText("PDF")
            btnPDF.setIcon(QIcon(QPixmap(print_xpm)))
            btnPDF.setToolButtonStyle(Qt.ToolButtonTextUnderIcon)
            toolBar.addWidget(btnPDF)
            self.connect(btnPDF, SIGNAL('clicked()'), self.exportPDF)

        if QT_VERSION >= 0x040300:
            btnSVG = QToolButton(toolBar)
            btnSVG.setText("SVG")
            btnSVG.setIcon(QIcon(QPixmap(print_xpm)))
            btnSVG.setToolButtonStyle(Qt.ToolButtonTextUnderIcon)
            toolBar.addWidget(btnSVG)            
            self.connect(btnSVG, SIGNAL('clicked()'), self.exportSVG)
            
        toolBar.addSeparator()

        dampBox = QWidget(toolBar)
        dampLayout = QHBoxLayout(dampBox)
        dampLayout.setSpacing(0)
        dampLayout.addWidget(QWidget(dampBox), 10) # spacer
        dampLayout.addWidget(QLabel("Damping Factor", dampBox), 0)
        dampLayout.addSpacing(10)

        self.cntDamp = QwtCounter(dampBox)
        self.cntDamp.setRange(0.01, 5.0, 0.01)
        self.cntDamp.setValue(0.01)
        dampLayout.addWidget(self.cntDamp, 10)

        toolBar.addWidget(dampBox)

        self.statusBar()
        
        self.zoom(False)
        self.showInfo()
        
        self.connect(self.cntDamp,
                     SIGNAL('valueChanged(double)'),
                     self.plot.setDamp)
        self.connect(btnZoom,
                     SIGNAL('toggled(bool)'),
                     self.zoom)
        self.connect(self.picker,
                     SIGNAL('moved(const QPoint &)'),
                     self.moved)
        self.connect(self.picker,
                     SIGNAL('selected(const QaPolygon &)'),
                     self.selected)

    # __init__()

    def print_(self):
        printer = QPrinter(QPrinter.HighResolution)

        printer.setOutputFileName('bode-example-%s.ps' % qVersion())

        printer.setCreator('Bode example')
        printer.setOrientation(QPrinter.Landscape)
        printer.setColorMode(QPrinter.Color)

        docName = self.plot.title().text()
        if not docName.isEmpty():
            docName.replace(QRegExp(QString.fromLatin1('\n')), self.tr(' -- '))
            printer.setDocName(docName)

        dialog = QPrintDialog(printer)
        if dialog.exec_():
            filter = PrintFilter()
            if (QPrinter.GrayScale == printer.colorMode()):
                filter.setOptions(
                    QwtPlotPrintFilter.PrintAll
                    & ~QwtPlotPrintFilter.PrintBackground
                    | QwtPlotPrintFilter.PrintFrameWithScales)
            self.plot.print_(printer, filter)

    # print_()
    
    def exportPDF(self):
        if QT_VERSION > 0x040100:
            fileName = QFileDialog.getSaveFileName(
                self,
                'Export File Name',
                'bode-example-%s.pdf' % qVersion(),
                'PDF Documents (*.pdf)')

        if not fileName.isEmpty():
            printer = QPrinter()
            printer.setOutputFormat(QPrinter.PdfFormat)
            printer.setOrientation(QPrinter.Landscape)
            printer.setOutputFileName(fileName)

            printer.setCreator('Bode example')
            self.plot.print_(printer)

    # exportPDF()

    def exportSVG(self):
        if QT_VERSION >= 0x040300:
            fileName = QFileDialog.getSaveFileName(
                self,
                'Export File Name',
                'bode-example-%s.svg' % qVersion(),
                'SVG Documents (*.svg)')
            if not fileName.isEmpty():
                generator = QSvgGenerator()
                generator.setFileName(fileName)
                generator.setSize(QSize(800, 600))
                self.plot.print_(generator)

    # exportSVG()

    def zoom(self, on):
        self.zoomers[0].setEnabled(on)
        self.zoomers[0].zoom(0)
        
        self.zoomers[1].setEnabled(on)
        self.zoomers[1].zoom(0)

        if on:
            self.picker.setRubberBand(Qwt.QwtPicker.NoRubberBand)
        else:
            self.picker.setRubberBand(Qwt.QwtPicker.CrossRubberBand)

        self.showInfo()

    # zoom()
    
    def showInfo(self, text=None):
        if not text:
            if self.picker.rubberBand():
                text = 'Cursor Pos: Press left mouse button in plot region'
            else:
                text = 'Zoom: Press mouse button and drag'
                
        self.statusBar().showMessage(text)
                
    # showInfo()
    
    def moved(self, point):
        info = "Freq=%g, Ampl=%g, Phase=%g" % (
            self.plot.invTransform(Qwt.QwtPlot.xBottom, point.x()),
            self.plot.invTransform(Qwt.QwtPlot.yLeft, point.y()),
            self.plot.invTransform(Qwt.QwtPlot.yRight, point.y()))
        self.showInfo(info)

    # moved()

    def selected(self, _):
        self.showInfo()

    # selected()

# class BodeDemo
    

def make():
    demo = BodeDemo()
    demo.resize(540, 400)
    demo.show()
    return demo

# make()


def main(args):
    app = QApplication(args)
    fonts = QFontDatabase()
    for name in ('Verdana', 'STIXGeneral'):
        if QString(name) in fonts.families():
            app.setFont(QFont(name))
            break
    demo = make()
    sys.exit(app.exec_())

# main()


# Admire!
if __name__ == '__main__':
    if 'settracemask' in sys.argv:
        # for debugging, requires: python configure.py --trace ...
        import sip
        sip.settracemask(0x3f)

    main(sys.argv)

# Local Variables: ***
# mode: python ***
# End: ***