public static String HarmonySearchAlgorithm(Function f, int NI, int HMS, double HMCR, double PAR, double BW, double[] PVBmin, double[] PVBmax, ref double[] bestSolution)
{
String output = "";
int numberofVariables = f.getArgumentsNumber();
double[,] HMtab = new double[HMS, numberofVariables + 1];
int iterations = 0;
HarmonyTool.InitializeHM(HMtab, PVBmin, PVBmax);
HarmonyTool.PerformHM(f, HMtab);
HarmonyTool.SortHM(HMtab);
double[] newVec = new double[HMtab.GetLength(1)];
for (int i = 0; i < NI; i++)
{
newVec = HarmonyTool.NewHarmonyVector(HMtab, HMCR, PAR, BW, PVBmin, PVBmax);
HarmonyTool.UpdateHM(HMtab, f, newVec);
if (NI - iterations <= 20)
{
output += "Iteration number: " + iterations.ToString() + "\n" + HarmonyTool.DisplayBestSolution(HMtab) + "\n";
}
iterations++;
}
if (HMtab.GetLength(1) - 1 == 2)
{
bestSolution[0] = HMtab[0, 0];
bestSolution[1] = HMtab[0, 1];
}
else
{
bestSolution[0] = Double.NaN;
bestSolution[1] = Double.NaN;
}
return(output);
}
//calculating f(x) value for new vector
public static void PperformVec(Function f, double[] vec)
{
double[] vecOfValues = new double[f.getArgumentsNumber()];
for (int i = 0; i < f.getArgumentsNumber(); i++)
{
vecOfValues[i] = vec[i]; //assigning value to temporary vector from new found vector
}
vec[vec.GetLength(0) - 1] = HarmonyTool.EvaluateFun(f, vecOfValues);
}
//calculating f(x) for every vector in HM
public static void PerformHM(Function f, double[,] HMtab)
{
double[] valuesOfVariables = new double[HMtab.GetLength(1) - 1];
for (int i = 0; i < HMtab.GetLength(0); i++)
{
for (int j = 0; j < HMtab.GetLength(1) - 1; j++) //going through parameters excluding column with f(x)
{
valuesOfVariables[j] = HMtab[i, j];
}
HMtab[i, (HMtab.GetLength(1) - 1)] = HarmonyTool.EvaluateFun(f, valuesOfVariables);
}
}
public static void UpdateHM(double[,] HMtab, Function f, double[] vec)
{
HarmonyTool.PperformVec(f, vec);
if (vec[vec.GetLength(0) - 1] < HMtab[HMtab.GetLength(0) - 1, HMtab.GetLength(1) - 1])
{
for (int i = 0; i < HMtab.GetLength(1); i++)
{
HMtab[HMtab.GetLength(0) - 1, i] = vec[i];
}
HarmonyTool.SortHM(HMtab);
}
}
public static void SortHM(double[,] HMtab)
{
int valuePosition = HMtab.GetLength(1) - 1;
for (int i = 0; i < HMtab.GetLength(0) - 1; i++)
{
for (int j = 0; j < HMtab.GetLength(0) - 1; j++)
{
if (HMtab[j, valuePosition] > HMtab[j + 1, valuePosition])
{
for (int x = 0; x < HMtab.GetLength(1); x++)
{
HarmonyTool.Swap(HMtab, j, x, j + 1, x);
}
}
}
}
}
private void Calculate_Btn_Click(object sender, RoutedEventArgs e)
{
try
{
double HMCR = Double.Parse(HMCR_textbox.Text);
double PAR = Double.Parse(PAR_textbox.Text);
int NI = int.Parse(NI_TextBox.Text);
int HMS = int.Parse(HMS_TextBox.Text);
double BW = Double.Parse(BW_TextBox.Text);
String fun_str = ObjFun_ComboBox.Text.ToString();
double[] PVBmax = ParsePVB(PVBmax_TextBox.Text, ';');
double[] PVBmin = ParsePVB(PVBmin_TextBox.Text, ';');
bool errFlag = false;
for (int i = 0; i < PVBmax.Length; i++)
{
if (PVBmax[i] <= PVBmin[i])
{
errFlag = true;
}
}
if (errFlag)
{
MessageBox.Show("PVB not given correctly! Check bounds", "Error", MessageBoxButton.OK, MessageBoxImage.Information);
}
else
{
Function fn = new Function(fun_str);
String result = HarmonyTool.HarmonySearchAlgorithm(fn, NI, HMS, HMCR, PAR, BW, PVBmin, PVBmax, ref bestSolution);
Result_TextBox.Text = result;
}
}
catch (Exception ex)
{
MessageBox.Show("A handled exception just occurred: " + ex.Message + "\n Check if forms are filled properly!", "Exception", MessageBoxButton.OK, MessageBoxImage.Information);
}
}
private void Plot_btn_Click(object sender, RoutedEventArgs e)
{
try
{
var tmp = new PlotModel {
Title = "Contour Plot", Subtitle = "f(x1,x2)"
};
tmp.Axes.Add(new LinearColorAxis
{
Position = OxyPlot.Axes.AxisPosition.Right,
//Palette = OxyPalettes.Jet(500)
Palette = OxyPalettes.Rainbow(100)
});
double[] PVBmax = ParsePVB(PVBmax_TextBox.Text, ';');
double[] PVBmin = ParsePVB(PVBmin_TextBox.Text, ';');
bool errFlag = false;
for (int i = 0; i < PVBmax.Length; i++)
{
if (PVBmax[i] <= PVBmin[i])
{
errFlag = true;
}
}
String fun_str = ObjFun_ComboBox.Text.ToString();
Function fn = new Function(fun_str);
double x1_min;
double x1_max;
double x2_min;
double x2_max;
double tmpMaxValue = Double.MinValue;
if (PVBmin.GetLength(0) == 2 && !errFlag)
{
x1_min = PVBmin[0];
x1_max = PVBmax[0];
x2_min = PVBmin[1];
x2_max = PVBmax[1];
var x1x1 = ArrayBuilder.CreateVector(x1_min, x1_max, 100);
var x2x2 = ArrayBuilder.CreateVector(x2_min, x2_max, 100);
double[,] peaksData = new double[x1x1.GetLength(0), x2x2.GetLength(0)];
double[] xy_tab = new double[2];
for (int i = 0; i < x1x1.GetLength(0); i++)
{
for (int j = 0; j < x2x2.GetLength(0); j++)
{
xy_tab[0] = x1x1[i];
xy_tab[1] = x2x2[j];
peaksData[i, j] = HarmonyTool.EvaluateFun(fn, xy_tab);
if (peaksData[i, j] > tmpMaxValue)
{
tmpMaxValue = peaksData[i, j];
}
}
}
var heatMapSeries = new HeatMapSeries
{
X0 = x1_min,
X1 = x1_max,
Y0 = x2_min,
Y1 = x2_max,
Interpolate = true,
RenderMethod = HeatMapRenderMethod.Bitmap,
Data = peaksData
};
tmp.Series.Add(heatMapSeries);
var cs = new ContourSeries
{
Color = OxyColors.Black,
LabelBackground = OxyColors.Transparent,
ColumnCoordinates = x1x1,
RowCoordinates = x2x2,
Data = peaksData
};
tmp.Series.Add(cs);
if (solutionCheckBox.IsChecked == true)
{
var sc = new ScatterSeries
{
MarkerType = MarkerType.Circle
};
sc.BinSize = 10;
sc.MarkerType = MarkerType.Cross;
sc.MarkerStrokeThickness = 3;
sc.MarkerStroke = OxyColors.Black;
double x1 = bestSolution[0];
double x2 = bestSolution[1];
sc.Points.Add(new OxyPlot.Series.ScatterPoint(x1, x2, 5, tmpMaxValue));
tmp.Series.Add(sc);
}
GetMainViewModel().MyModel = tmp;
}
else
{
MessageBox.Show("Number of variables does not equal n = 2 or PVB not given correctly! Check forms", "Exception", MessageBoxButton.OK, MessageBoxImage.Information);
}
}
catch (Exception ex)
{
MessageBox.Show("A handled exception just occurred: " + ex.Message + "\n Check if forms are filled properly! Domain of function has to be set in PVB forms", "Exception", MessageBoxButton.OK, MessageBoxImage.Information);
}
}
