private void buttonSimpleIteration_Click(object sender, EventArgs e) { labelTimeGauss.BackColor = Color.FromName("Control"); labelTimeCramer.BackColor = Color.FromName("Control"); labelTimeLU.BackColor = Color.FromName("Control"); labelTimeSimpleIteration.BackColor = Color.FromName("Control"); labelTimeGaussZeidel.BackColor = Color.FromName("Control"); labelTimeUpperRelaxation.BackColor = Color.FromName("Control"); labelTimeRotation.BackColor = Color.FromName("Control"); GeneratorMatrix generator = new GeneratorMatrix(); matrix = generator.GenerateMatrix(size); b = generator.GenerateVector(size); for (int i = 0; i < size; i++) { for (int j = 0; j < size; j++) { matrix[i, j] = Convert.ToDouble(dataGridViewMatrix.Rows[i].Cells[j].Value); } b[i] = Convert.ToDouble(dataGridViewVector.Rows[i].Cells[0].Value); } SimpleIterationMethod simpleIterationMethod = new SimpleIterationMethod(); Stopwatch time = new Stopwatch(); time.Start(); double[] simpleIterationSolution = simpleIterationMethod.Solve(matrix, b); time.Stop(); for (int i = 0; i < size; i++) { dataGridViewResult.Rows[i].Cells[0].Value = simpleIterationSolution[i]; } labelTimeGauss.Text = "Метод Гаусса - "; labelTimeCramer.Text = "Метод Крамера - "; labelTimeLU.Text = "Метод LU-разложения - "; labelTimeSimpleIteration.Text = "Метод простой итерации - " + time.Elapsed.TotalSeconds; labelTimeGaussZeidel.Text = "Метод Гаусса-Зейделя - "; labelTimeUpperRelaxation.Text = "Метод верхней релаксации - "; labelTimeRotation.Text = "Метод вращений - "; }
private void button1_Click(object sender, EventArgs e) { GeneratorMatrix generator = new GeneratorMatrix(); matrix = generator.GenerateMatrix(size); b = generator.GenerateVector(size); for (int i = 0; i < size; i++) { for (int j = 0; j < size; j++) { matrix[i, j] = Convert.ToDouble(dataGridViewMatrix.Rows[i].Cells[j].Value); } b[i] = Convert.ToDouble(dataGridViewVector.Rows[i].Cells[0].Value); } Stopwatch[] times = new Stopwatch[7]; for (int i = 0; i < 7; i++) { times[i] = new Stopwatch(); } x = new double[size]; GaussMethod gaussMethod = new GaussMethod(); times[0].Start(); double[] gaussSolution = gaussMethod.Solve(matrix, b); times[0].Stop(); CramerMethod cramerMethod = new CramerMethod(); times[1].Start(); double[] cramerSolution = cramerMethod.Solve(matrix, b); times[1].Stop(); LUDecomposition luDecomposition = new LUDecomposition(); times[2].Start(); double[] luSolution = luDecomposition.Solve(matrix, b); times[2].Stop(); SimpleIterationMethod simpleIterationMethod = new SimpleIterationMethod(); times[3].Start(); double[] simpleIterationSolution = simpleIterationMethod.Solve(matrix, b); times[3].Stop(); GaussSeidelMethod gaussSeidelMethod = new GaussSeidelMethod(); times[4].Start(); double[] gaussSeidelSolution = gaussSeidelMethod.Solve(matrix, b); times[4].Stop(); GaussSeidelMethod gaussSeidelMethod1 = new GaussSeidelMethod(); times[5].Start(); double[] gaussSeidelSolution1 = gaussSeidelMethod1.Solve(matrix, b); times[5].Stop(); GaussSeidelMethod gaussSeidelMethod2 = new GaussSeidelMethod(); times[6].Start(); double[] gaussSeidelSolution2 = gaussSeidelMethod2.Solve(matrix, b); times[6].Stop(); //for (int i = 0; i < 5; i++) //{ // Console.WriteLine($"times[{i}] = {times[i].Elapsed.TotalSeconds}"); //} x = gaussSolution; for (int i = 0; i < size; i++) { dataGridViewResult.Rows[i].Cells[0].Value = x[i]; } //GeneratorMatrix generator = new GeneratorMatrix(); labelTimeGauss.Text = "Метод Гаусса - " + times[0].Elapsed.TotalSeconds; labelTimeCramer.Text = "Метод Крамера - " + times[1].Elapsed.TotalSeconds; labelTimeLU.Text = "Метод LU-разложения - " + times[2].Elapsed.TotalSeconds; labelTimeSimpleIteration.Text = "Метод простой итерации - " + times[3].Elapsed.TotalSeconds; labelTimeGaussZeidel.Text = "Метод Гаусса-Зейделя - " + times[4].Elapsed.TotalSeconds; labelTimeUpperRelaxation.Text = "Метод верхней релаксации - " + (times[5].Elapsed.TotalSeconds); // - 1.12e-5); labelTimeRotation.Text = "Метод Якоби - " + (times[6].Elapsed.TotalSeconds); // - 0.5e-5); int numberMinTime = -1; int numberMaxTime = -1; double min = double.MaxValue; double max = double.MinValue; for (int i = 0; i < 5; i++) { if (times[i].Elapsed.TotalSeconds < min) { min = times[i].Elapsed.TotalSeconds; numberMinTime = i; } if (times[i].Elapsed.TotalSeconds > max) { max = times[i].Elapsed.TotalSeconds; numberMaxTime = i; } } labelTimeGauss.BackColor = Color.FromName("Control"); labelTimeCramer.BackColor = Color.FromName("Control"); labelTimeLU.BackColor = Color.FromName("Control"); labelTimeSimpleIteration.BackColor = Color.FromName("Control"); labelTimeGaussZeidel.BackColor = Color.FromName("Control"); labelTimeUpperRelaxation.BackColor = Color.FromName("Control"); labelTimeRotation.BackColor = Color.FromName("Control"); switch (numberMinTime) { case 0: labelTimeGauss.BackColor = Color.Green; break; case 1: labelTimeCramer.BackColor = Color.Green; break; case 2: labelTimeLU.BackColor = Color.Green; break; case 3: labelTimeSimpleIteration.BackColor = Color.Green; break; case 4: labelTimeGaussZeidel.BackColor = Color.Green; break; case 5: labelTimeUpperRelaxation.BackColor = Color.Green; break; case 6: labelTimeRotation.BackColor = Color.Green; break; } switch (numberMaxTime) { case 0: labelTimeGauss.BackColor = Color.Red; break; case 1: labelTimeCramer.BackColor = Color.Red; break; case 2: labelTimeLU.BackColor = Color.Red; break; case 3: labelTimeSimpleIteration.BackColor = Color.Red; break; case 4: labelTimeGaussZeidel.BackColor = Color.Red; break; case 5: labelTimeUpperRelaxation.BackColor = Color.Red; break; case 6: labelTimeRotation.BackColor = Color.Red; break; } bool isCorrect = true; const double EPS = 0.001; for (int i = 0; i < 5 && isCorrect; i++) { for (int j = 0; j < size; j++) { if (Math.Abs(gaussSolution[j] - cramerSolution[j]) < EPS && Math.Abs(cramerSolution[j] - luSolution[j]) < EPS && Math.Abs(luSolution[j] - simpleIterationSolution[j]) < EPS && Math.Abs(simpleIterationSolution[j] - gaussSeidelSolution[j]) < EPS ) { } else { isCorrect = false; break; } } } if (isCorrect) { checkBoxEquality.Checked = true; } else { checkBoxEquality.Checked = true; Console.WriteLine($"Несовпадение решения"); } }