Ejemplo n.º 1
0
 private void countUpForAandB(PolynomialAlgebra algebra, Polynomial polynomialA, Polynomial polynomialB,
                              Polynomial polynomialResult)
 {
     a1 = algebra.countValueFromFunction(polynomialA, 0);
     a2 = algebra.countValueFromFunction(polynomialA, 1);
     b1 = algebra.countValueFromFunction(polynomialB, 0);
     b2 = algebra.countValueFromFunction(polynomialB, 1);
     textBox1LA.Text = a1.ToString();
     textBox2mA.Text = a2.ToString();
     textBox1LB.Text = b1.ToString();
     textBox2mB.Text = b2.ToString();
     polynomialUp    = algebra.countValueFromFunction(polynomialResult, 0).ToString() + " " +
                       algebra.countValueFromFunction(polynomialResult, 1).ToString();
     w1 = algebra.countValueFromFunction(polynomialResult, 0);
     w2 = algebra.countValueFromFunction(polynomialResult, 1);
 }
Ejemplo n.º 2
0
        private void countDownforAandB(PolynomialAlgebra algebra, Polynomial polynomialA, Polynomial polynomialB,
                                       Polynomial polynomialResult)
        {
            a3 = algebra.countValueFromFunction(polynomialA, 0);
            a4 = algebra.countValueFromFunction(polynomialA, 1);
            b3 = algebra.countValueFromFunction(polynomialB, 0);
            b4 = algebra.countValueFromFunction(polynomialB, 1);

            textBoxk3pA.Text = a3.ToString();
            textBox4PA.Text  = a4.ToString();
            textBox3pB.Text  = b3.ToString();
            textBox4PB.Text  = b4.ToString();
            polynomialDown   = algebra.countValueFromFunction(polynomialResult, 0).ToString() + " " +
                               algebra.countValueFromFunction(polynomialResult, 1).ToString();
            w3 = algebra.countValueFromFunction(polynomialResult, 0);
            w4 = algebra.countValueFromFunction(polynomialResult, 1);
        }
Ejemplo n.º 3
0
        private void ButtonMultiplyPolynomials_Click(object sender, RoutedEventArgs e)
        {
            ParsePolynomialTextBoxes();
            PolynomialAlgebra polynomialAlgebra = new PolynomialAlgebra();
            Polynomial        polynomialResult  = new Polynomial();
            PolynomialAlgebra algebra           = new PolynomialAlgebra();
            Polynomial        polynomialA       = new Polynomial(freeValueA, valueXA, valueX2A, valueX3A, valueX4A, valueX5A,
                                                                 valueX6A, valueX7A, valueX8A, valueX9A, valueX10A);
            Polynomial polynomialB = new Polynomial(freeValueB, valueXB, valueX2B, valueX3B, valueX4B, valueX5B,
                                                    valueX6B, valueX7B, valueX8B, valueX9B, valueX10B);

            polynomialResult = PolynomialAlgebra.multiplyPolynomialAB(polynomialA, polynomialB);
            int discretizationValue;

            int.TryParse(textBoxDiscretization.Text.ToString(), out discretizationValue);

            if (comboBoxPartOfPolynomial.SelectedItem != null)
            {
                if (comboBoxPartOfPolynomial.SelectedItem.ToString().Equals("Up"))
                {
                    for (int i = 0; i < plotView.Model.Series.Count; i++)
                    {
                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Up(Fa+Fb)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }

                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Up(Fa)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }

                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Up(Fb)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }
                    }

                    upValuesOfPolynomials.Clear();
                    textBoxResultUpPolynomail.Text = polynomialResult.ToString();
                    plotView.Model.Series.Add(PlotModelDefine.DrawFunction(polynomialResult, "Up(Fa+Fb)",
                                                                           discretizationValue));
                    plotView.Model.Series.Add(PlotModelDefine.DrawFunction(polynomialA, "Up(Fa)", discretizationValue));
                    plotView.Model.Series.Add(PlotModelDefine.DrawFunction(polynomialB, "Up(Fb)", discretizationValue));
                    countUpForAandB(algebra, polynomialA, polynomialB, polynomialResult);
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialA, 1));
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialB, 1));
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialResult, 1));
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialA, 0));
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialB, 0));
                    upValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialResult, 0));
                    upValuesOfPolynomials.Sort();
                }
                else
                {
                    for (int i = 0; i < plotView.Model.Series.Count; i++)
                    {
                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Down(Ga+Gb)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }

                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Down(Ga)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }

                        if (plotView.Model.Series.ElementAt(i).Title.Equals("Down(Gb)"))
                        {
                            plotView.Model.Series.RemoveAt(i);
                        }
                    }

                    downValuesOfPolynomials.Clear();
                    textBoxResultDownPolynomail.Text = polynomialResult.ToString();
                    plotView.Model.Series.Add(PlotModelDefine.DrawFunction(polynomialResult, "Down(Ga+Gb)",
                                                                           discretizationValue));
                    plotView.Model.Series.Add(
                        PlotModelDefine.DrawFunction(polynomialA, "Down(Ga)", discretizationValue));
                    plotView.Model.Series.Add(
                        PlotModelDefine.DrawFunction(polynomialB, "Down(Gb)", discretizationValue));
                    countDownforAandB(algebra, polynomialA, polynomialB, polynomialResult);

                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialA, 1));
                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialB, 1));
                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialResult, 1));
                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialA, 0));
                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialB, 0));
                    downValuesOfPolynomials.Add(polynomialAlgebra.countValueFromFunction(polynomialResult, 0));
                    downValuesOfPolynomials.Sort();
                }
            }

            if (upValuesOfPolynomials.Count > 0 && downValuesOfPolynomials.Count > 0)
            {
                if (upValuesOfPolynomials[5] >= downValuesOfPolynomials[5])
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMaximum = upValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).Maximum         = upValuesOfPolynomials[5] + 5;
                }
                else
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMaximum = downValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).Maximum         = downValuesOfPolynomials[5] + 5;
                }


                if (upValuesOfPolynomials[0] <= downValuesOfPolynomials[0])
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMinimum = upValuesOfPolynomials[0] - 5;
                    plotView.Model.Axes.ElementAt(0).Minimum         = upValuesOfPolynomials[0] - 5;
                }
                else
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMinimum = downValuesOfPolynomials[0] - 5;
                    plotView.Model.Axes.ElementAt(0).Minimum         = downValuesOfPolynomials[0] - 5;
                }
            }
            else
            {
                if (upValuesOfPolynomials.Count > 0)
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMaximum = upValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).Maximum         = upValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).AbsoluteMinimum = upValuesOfPolynomials[0] - 5;
                    plotView.Model.Axes.ElementAt(0).Minimum         = upValuesOfPolynomials[0] - 5;
                }
                else if (downValuesOfPolynomials.Count > 0)
                {
                    plotView.Model.Axes.ElementAt(0).AbsoluteMaximum = downValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).Maximum         = downValuesOfPolynomials[5] + 5;
                    plotView.Model.Axes.ElementAt(0).AbsoluteMinimum = downValuesOfPolynomials[0] - 5;
                    plotView.Model.Axes.ElementAt(0).Minimum         = downValuesOfPolynomials[0] - 5;
                }
            }

            FuzzyNumber res1 = new FuzzyNumber(w1, w2, w3, w4, discretizationValue);

            resultToContinue = res1;


            representResult();
            plotView.InvalidatePlot(true);
        }