private void txtEEAc_TextChanged(object sender, TextChangedEventArgs e) { if (!afterInitialize) { return; } // Do validation of phi(a, b) // Event is called by both textboxes! int p1 = -1, p2 = -1, p3 = -1; if (int.TryParse(this.txtEEAa.Text, out p1) && int.TryParse(this.txtEEAb.Text, out p2) && int.TryParse(this.txtEEAc.Text, out p3)) { this.ValidationEEA = (p1 > 0 && p2 > 0 && p3 > 0); } else { this.ValidationEEA = false; } if (chkUseGGT.IsChecked.HasValue && chkUseGGT.IsChecked.Value && this.ValidationEEA) { this.txtEEAc.Text = MathAlgorithms.GGT(int.Parse(this.txtEEAa.Text), int.Parse(this.txtEEAb.Text)).ToString(); } }
private void chkUseGGT_Checked(object sender, RoutedEventArgs e) { if (chkUseGGT.IsChecked.HasValue && chkUseGGT.IsChecked.Value && this.ValidationEEA) { this.txtEEAc.Text = MathAlgorithms.GGT(int.Parse(this.txtEEAa.Text), int.Parse(this.txtEEAb.Text)).ToString(); } }
private void btnCalculateKGV_Click(object sender, RoutedEventArgs e) { if (validationKGV) { this.txtKGVResult.Text = MathAlgorithms.KGV(int.Parse(this.txtKGVa.Text), int.Parse(this.txtKGVb.Text)).ToString(); } else { this.txtKGVResult.Text = string.Empty; } }
private void btnCalculateGGT_Click(object sender, RoutedEventArgs e) { if (validationGGT) { this.txtGGTResult.Text = MathAlgorithms.GGT(int.Parse(this.txtGGTa.Text), int.Parse(this.txtGGTb.Text)).ToString(); } else { this.txtGGTResult.Text = string.Empty; } }
private void btnCalculatePrimeFactorization_Click(object sender, RoutedEventArgs e) { if (ValidationPrimeFactorization) { int currentValue = int.Parse(this.txtPrimeFactorization.Text); List <Prime> result = MathAlgorithms.CalculatePrimeFactorization(currentValue); this.lblPrimeFactorizationResult.Text = currentValue + " = " + Prime.GenerateString(result); } else { this.lblPrimeFactorizationResult.Text = string.Empty; } }
private void btnCalculatePhi_Click(object sender, RoutedEventArgs e) { if (ValidationPhi) { List <string> lstValues = new List <string>(); for (int i = int.Parse(this.txtPhiTo.Text); i <= int.Parse(this.txtPhiA.Text); i++) { lstValues.Add("phi(" + i + ") = " + MathAlgorithms.CalculatePhi(i)); } this.lstPhi.ItemsSource = lstValues; } }
private void btnGenerate_Click(object sender, RoutedEventArgs e) { if (validationPrime) { List <int> lstPrime = new List <int>(); for (int i = 2; i <= int.Parse(this.txtPrime.Text); i++) { if (MathAlgorithms.IsPrimeNumber(i)) { lstPrime.Add(i); } } lstPrimeNumbers.ItemsSource = lstPrime; } }
private void btnCalculateEEA_Click(object sender, RoutedEventArgs e) { if (this.ValidationEEA) { dgwGrid.Items.Clear(); dgwGrid.Columns.Clear(); int a = int.Parse(this.txtEEAa.Text); int b = int.Parse(this.txtEEAb.Text); if (b > a) { // Swap, higher element has to be left-sided! int temp = a; a = b; b = temp; this.txtEEAa.Text = a.ToString(); this.txtEEAb.Text = b.ToString(); } Result rst = MathAlgorithms.CalculateExtendedAlgo(a, b); string[] columns = new string[] { "a", "b", "q", "r", "x", "y" }; for (int i = 0; i <= columns.Length - 1; i++) { DataGridTextColumn column = new DataGridTextColumn(); column.Header = columns[i]; column.Width = 100; column.Binding = new Binding(columns[i]); dgwGrid.Columns.Add(column); } // Adding the rows in datatable for (int i = 0; i <= rst.lstA.Count - 1; i++) { dgwGrid.Items.Add(new DataItem() { a = rst.lstA[i].ToString(), b = rst.lstB[i].ToString(), q = rst.lstQ[i].ToString(), r = rst.lstR[i].ToString(), x = rst.lstX[i].ToString(), y = rst.lstY[i].ToString(), }); } } }