Esempio n. 1
0
 def exec_clicked(self):
     self.exec_button.setEnabled(False)
     try:
         solver = Solve(self.__get_params())
         solver.prepare()
         self.solution = PolynomialBuilder(solver)
         self.results_field.setText(solver.show()+'\n\n'+self.solution.get_results())
     except Exception as e:
         QMessageBox.warning(self,'Error!','Error happened during execution: ' + str(e))
     self.exec_button.setEnabled(True)
     return
Esempio n. 2
0
class MainWindow(QDialog, form_class):
    # signals:
    input_changed = pyqtSignal('QString')
    output_changed = pyqtSignal('QString')
    # x1_dim_changed = pyqtSignal(int)
    # x2_dim_changed = pyqtSignal(int)
    # x3_dim_changed = pyqtSignal(int)
    # x1_deg_changed = pyqtSignal(int)
    # x2_deg_changed = pyqtSignal(int)
    # x3_deg_changed = pyqtSignal(int)
    # type_cheb = pyqtSignal()
    # type_lege = pyqtSignal()
    # type_lagg = pyqtSignal()
    # type_herm = pyqtSignal()


    def __init__(self, *args):
        super(MainWindow, self).__init__(*args)

        # setting up ui
        self.setupUi(self)

        # other initializations
        self.dimensions = [self.x1_dim.value(), self.x2_dim.value(),
                                    self.x3_dim.value(), self.y_dim.value()]
        self.degrees = [self.x1_deg.value(), self.x2_deg.value(), self.x3_deg.value()]
        self.type = 'null'
        if self.radio_cheb.isChecked():
            self.type = 'chebyshev'
        elif self.radio_legend.isChecked():
            self.type = 'legendre'
        elif self.radio_lagg.isChecked():
            self.type = 'laguerre'
        elif self.radio_herm.isChecked():
            self.type = 'hermit'
        self.input_path = ''
        self.output_path = ''
        self.samples_num = self.sample_spin.value()
        self.lambda_multiblock = self.lambda_check.isChecked()
        self.weight_method = self.weights_box.currentText().lower()
        self.solution = None
        doc = self.results_field.document()
        assert isinstance(doc, QTextDocument)
        font = doc.defaultFont()
        assert isinstance(font, QFont)
        font.setFamily('Courier New')
        font.setPixelSize(12)
        doc.setDefaultFont(font)
        return

    @pyqtSlot()
    def input_clicked(self):
        filename = QFileDialog.getOpenFileName(self, 'Open data file', '.', 'Data file (*.txt *.dat)')[0]
        if filename == '':
            return
        if filename != self.input_path:
            self.input_path = filename
            self.input_changed.emit(filename)
        return

    @pyqtSlot('QString')
    def input_modified(self, value):
        if value != self.input_path:
            self.input_path = value
        return

    @pyqtSlot()
    def output_clicked(self):
        filename = QFileDialog.getSaveFileName(self, 'Save data file', '.', 'Spreadsheet (*.xlsx)')[0]
        if filename == '':
            return
        if filename != self.output_path:
            self.output_path = filename
            self.output_changed.emit(filename)
        return

    @pyqtSlot('QString')
    def output_modified(self, value):
        if value != self.output_path:
            self.output_path = value
        return

    @pyqtSlot(int)
    def samples_modified(self, value):
        self.samples_num = value
        return

    @pyqtSlot(int)
    def dimension_modified(self, value):
        sender = self.sender().objectName()
        if sender == 'x1_dim':
            self.dimensions[0] = value
        elif sender == 'x2_dim':
            self.dimensions[1] = value
        elif sender == 'x3_dim':
            self.dimensions[2] = value
        elif sender == 'y_dim':
            self.dimensions[3] = value
        return

    @pyqtSlot(int)
    def degree_modified(self, value):
        sender = self.sender().objectName()
        if sender == 'x1_deg':
            self.degrees[0] = value
        elif sender == 'x2_deg':
            self.degrees[1] = value
        elif sender == 'x3_deg':
            self.degrees[2] = value
        return

    @pyqtSlot(bool)
    def type_modified(self, isdown):
        if (isdown):
            sender = self.sender().objectName()
            if sender == 'radio_cheb':
                self.type = 'chebyshev'
            elif sender == 'radio_legend':
                self.type = 'legendre'
            elif sender == 'radio_lagg':
                self.type = 'laguerre'
            elif sender == 'radio_herm':
                self.type = 'hermit'
        return

    @pyqtSlot()
    def plot_clicked(self):
        if self.solution:
            try:
                self.solution.plot_graphs()
            except Exception as e:
                QMessageBox.warning(self,'Error!','Error happened during plotting: ' + str(e))
        return

    @pyqtSlot()
    def exec_clicked(self):
        self.exec_button.setEnabled(False)
        try:
            solver = Solve(self.__get_params())
            solver.prepare()
            self.solution = PolynomialBuilder(solver)
            self.results_field.setText(solver.show()+'\n\n'+self.solution.get_results())
        except Exception as e:
            QMessageBox.warning(self,'Error!','Error happened during execution: ' + str(e))
        self.exec_button.setEnabled(True)
        return

    @pyqtSlot(bool)
    def lambda_calc_method_changed(self, isdown):
        self.lambda_multiblock = isdown
        return

    @pyqtSlot('QString')
    def weights_modified(self, value):
        self.weight_method = value.lower()
        return

    def __get_params(self):
        return dict(poly_type=self.type, degrees=self.degrees, dimensions=self.dimensions,
                    samples=self.samples_num, input_file=self.input_path, output_file=self.output_path,
                    weights=self.weight_method, lambda_multiblock=self.lambda_multiblock)