Exemplo n.º 1
0
class SingleMeasureWidget(QWidget):

    def __init__(self, parent=None, domain=None):
        super().__init__(parent)

        self._domain = domain

        self._plot = PlotWidget(parent=None, toolbar=True)

        self._layout = QHBoxLayout()
        self._layout.addWidget(self._plot)
        self.setLayout(self._layout)

        self._init()

    def _init(self):
        self._plot.subplots_adjust(bottom=0.150)
        self._plot.set_title('Коэффициент преобразования для N-гармоники')
        self._plot.set_xscale('log')
        self._plot.set_xlabel('F, Гц', labelpad=-2)
        self._plot.set_ylabel('К-т пр., дБ', labelpad=-2)
        self._plot.grid(b=True, which='minor', color='0.7', linestyle='--')
        self._plot.grid(b=True, which='major', color='0.5', linestyle='-')

    def clear(self):
        self._plot.clear()
        self._init()

    def plot(self):
        print('plotting single measurement')
        self.clear()
        self._plot.plot(self._domain.singleMeasureXs, self._domain.singleMeasureYs, color='0.4')
Exemplo n.º 2
0
class PrimaryPlotWidget(QWidget):
    def __init__(self, parent=None, model=None):
        super().__init__(parent)
        self._model = model

        self._plot = PlotWidget(parent=None, toolbar=True)

        self._grid = QGridLayout()
        self._grid.addWidget(self._plot, 0, 0)
        self.setLayout(self._grid)

        self._init()

    def _init(self):
        self._plot.subplots_adjust(bottom=0.150)
        self._plot.set_xlabel(self._model.xLabel)
        self._plot.set_ylabel(self._model.yLabel)
        self._plot.grid(b=True, which='major', color='0.5', linestyle='-')

    def clear(self):
        self._plot.clear()

    def plot(self):
        self.clear()
        self._init()

        self._plot.plot(self._model.xs, self._model.ys)
        self._plot.plot(self._model.xs, self._model.filteredYs)
Exemplo n.º 3
0
class HarmonicMeasureWidget(QWidget):

    def __init__(self, parent=None, domain=None):
        super().__init__(parent)

        self._domain = domain

        self._plot = PlotWidget(parent=None, toolbar=True)

        self.btnMeasure = QPushButton('Измерить')
        self.btnMeasure.setEnabled(False)

        self._hlay = QHBoxLayout()
        self._hlay.addWidget(self.btnMeasure)
        self._hlay.addStretch()

        self._layout = QVBoxLayout()
        self._layout.addItem(self._hlay)
        self._layout.addWidget(self._plot)
        self.setLayout(self._layout)

        self._init()

    def _init(self):
        self._plot.subplots_adjust(bottom=0.150)
        self._plot.set_title('Подавление 2й и 3й гармоник')
        self._plot.set_xlabel('Код', labelpad=-2)
        self._plot.set_ylabel('Подавление, дБ', labelpad=-2)
        self._plot.grid(b=True, which='minor', color='0.7', linestyle='--')
        self._plot.grid(b=True, which='major', color='0.5', linestyle='-')

    def clear(self):
        self._plot.clear()
        self._init()

    def plot(self):
        print(f'plotting harmonic deltas')
        for key, values in self._domain.harm_deltas.items():
            self._plot.plot(self._domain.codes, values, label=f'f x {key}')
        self._plot.legend()
Exemplo n.º 4
0
class StatPlotWidget(QWidget):
    def __init__(self, parent=None, domain=None):
        super().__init__(parent)

        self._domain = domain

        self._grid = QGridLayout()

        self._plot11 = PlotWidget(parent=None, toolbar=True)
        self._plot12 = PlotWidget(parent=None, toolbar=True)
        self._plot21 = PlotWidget(parent=None, toolbar=True)
        self._plot22 = PlotWidget(parent=None, toolbar=True)

        self._grid.addWidget(self._plot11, 0, 0)
        self._grid.addWidget(self._plot12, 0, 1)
        self._grid.addWidget(self._plot21, 1, 0)
        self._grid.addWidget(self._plot22, 1, 1)

        self.setLayout(self._grid)

        self._init()

    def _init(self):
        # self._plot11.set_tight_layout(True)
        self._plot11.subplots_adjust(bottom=0.150)
        self._plot11.set_title('Коэффициент преобразования')
        self._plot11.set_xscale('log')
        self._plot11.set_xlabel('F, Гц', labelpad=-2)
        self._plot11.set_ylabel('К-т пр., дБ', labelpad=-2)
        # self._plot11.set_ylim([-60, 30])
        self._plot11.grid(b=True, which='minor', color='0.7', linestyle='--')
        self._plot11.grid(b=True, which='major', color='0.5', linestyle='-')

        # self._plot12.set_tight_layout(True)
        self._plot12.subplots_adjust(bottom=0.150)
        self._plot12.set_title(
            f'Частота среза по уровню {self._domain.cutoffMag} дБ')
        self._plot12.set_xlabel('Код', labelpad=-2)
        self._plot12.set_ylabel('F, МГц', labelpad=-2)
        self._plot12.set_yscale('log')
        self._plot12.grid(b=True, which='minor', color='0.7', linestyle='--')
        self._plot12.grid(b=True, which='major', color='0.5', linestyle='-')

        # self._plot21.set_tight_layout(True)
        self._plot21.subplots_adjust(bottom=0.150)
        self._plot21.set_title('Дельта частоты среза')
        self._plot21.set_xlabel('Код')
        self._plot21.set_ylabel('dF, МГц')
        self._plot21.grid(b=True, which='major', color='0.5', linestyle='-')

        # self._plot22.set_tight_layout(True)
        self._plot22.subplots_adjust(bottom=0.150)
        self._plot22.set_title('Затухание на x2 и x3 частоте среза')
        self._plot22.set_xlabel('Код')
        self._plot22.set_ylabel('Подавление, дБ')
        # self._plot22.set_ylim([-60, 30])
        self._plot22.grid(b=True, which='major', color='0.5', linestyle='-')

    def clear(self):
        self._plot11.clear()
        self._plot12.clear()
        self._plot21.clear()
        self._plot22.clear()
        self._init()

    def plotCode(self):
        print('plotting code')
        self._plot11.plot(self._domain.lastXs,
                          self._domain.lastYs,
                          color='0.4')

    def plotStats(self):
        print('plotting stats')
        self._plot12.plot(self._domain.cutoffXs,
                          self._domain.cutoffYs,
                          color='0.4')
        self._plot21.plot(self._domain.deltaXs,
                          self._domain.deltaYs,
                          color='0.4')
        self._plot22.plot(self._domain.lossDoubleXs,
                          self._domain.lossDoubleYs,
                          color='0.4')
        self._plot22.plot(self._domain.lossTripleXs,
                          self._domain.lossTripleYs,
                          color='0.4')

        self._plot11.axhline(self._domain.cutoffAmp,
                             0,
                             1,
                             linewidth=0.8,
                             color='0.3',
                             linestyle='--')
        self._plot11.set_yticks(
            sorted(
                set(
                    list(self._plot11.get_yticks()[0]) +
                    [self._domain.cutoffMag])))

    def save(self, img_path='./image'):
        try:
            os.makedirs(img_path)
        except OSError as ex:
            if ex.errno != errno.EEXIST:
                raise IOError('Error creating image dir.')

        for plot, name in zip(
            [self._plot11, self._plot12, self._plot21, self._plot22],
            ['stats.png', 'cutoff.png', 'delta.png', 'double-triple.png']):
            plot.savefig(img_path + name, dpi=400)