/// <summary>
/// This runs the iterations for the ES
/// </summary>
/// <param name="p_pb">Used for accessing progress bar in main form</param>
/// <param name="p_tb">Used for accessing textbox in main form</param>
/// <param name="p_form1">Used for accesing main form objects</param>
/// <param name="p_wh">Warehouse object used for accesing main form warehouse object</param>
/// <param name="p_problemfolder">Problemfolder is null when batch optimization is not used, otherwise it uses the location of the folder for batch optimization</param>
public void Solve(System.Windows.Forms.ProgressBar p_pb, System.Windows.Forms.TextBox p_tb, MainForm p_form1, warehouse p_wh, string p_problemfolder)
{
string searchtype = "";
if (allsearch)
{
searchtype = "AllSearch";
}
else
{
searchtype = "DynamicSearch";
}
string experimentdirectoryorg = p_problemfolder + "\\ES-" + M.ToString() + "-" + lambda.ToString() + "-" + seed.ToString() + "-" + iteration.ToString() + "-" + sigma.ToString().Replace(".", string.Empty) + "-" + counter.ToString() + "-" + searchtype;
int k = 0;
string experimentdirectory = experimentdirectoryorg;
while (System.IO.Directory.Exists(experimentdirectory))
{
if (k != 0)//in first folder creation don't put index to the end
{
experimentdirectory = experimentdirectoryorg + "-" + k.ToString();
}
k++;
}
System.IO.Directory.CreateDirectory(experimentdirectory);
p_pb.Style = System.Windows.Forms.ProgressBarStyle.Continuous;
p_pb.Maximum = 100;
p_pb.Value = 0;
double previouscost = double.MaxValue;
csvexport myexcel = new csvexport();
//Save initial population as first row in excel file
myexcel.addRow();
myexcel["Cost"] = getCost().ToString("R");
myexcel["Locs"] = getBestWarehouse().totalNumberOfLocations().ToString();
myexcel["SR"] = "None";
myexcel["Width"] = getBestWarehouse().getWidth().ToString("R");
myexcel["Depth"] = getBestWarehouse().getDepth().ToString("R");
myexcel["Area"] = getBestWarehouse().area.ToString("R");
myexcel["Ratio"] = getBest().getx()[0].ToString("R");
myexcel["E1"] = getBest().getx()[1].ToString("R");
myexcel["E2"] = getBest().getx()[2].ToString("R");
myexcel["E3"] = getBest().getx()[3].ToString("R");
myexcel["E4"] = getBest().getx()[4].ToString("R");
myexcel["I1X"] = getBest().getx()[5].ToString("R");
myexcel["I1Y"] = getBest().getx()[6].ToString("R");
myexcel["PD"] = getBest().getx()[7].ToString("R");
myexcel["Angle1"] = (180 * getBest().getx()[8]).ToString("R");
myexcel["Angle2"] = (180 * getBest().getx()[9]).ToString("R");
myexcel["Angle3"] = (180 * getBest().getx()[10]).ToString("R");
myexcel["Angle4"] = (180 * getBest().getx()[11]).ToString("R");
myexcel["Angle5"] = (180 * getBest().getx()[12]).ToString("R");
myexcel["Angle6"] = (180 * getBest().getx()[13]).ToString("R");
myexcel["Angle7"] = (180 * getBest().getx()[14]).ToString("R");
myexcel["Angle8"] = (180 * getBest().getx()[15]).ToString("R");
myexcel["Adjuster1"] = getBest().getx()[16].ToString("R");
myexcel["Adjuster2"] = getBest().getx()[17].ToString("R");
myexcel["Adjuster3"] = getBest().getx()[18].ToString("R");
myexcel["Adjuster4"] = getBest().getx()[19].ToString("R");
myexcel["Adjuster5"] = getBest().getx()[20].ToString("R");
myexcel["Adjuster6"] = getBest().getx()[21].ToString("R");
myexcel["Adjuster7"] = getBest().getx()[22].ToString("R");
myexcel["Adjuster8"] = getBest().getx()[23].ToString("R");
myexcel["PickAdjuster1"] = getBest().getx()[24].ToString("R");
myexcel["PickAdjuster2"] = getBest().getx()[25].ToString("R");
myexcel["PickAdjuster3"] = getBest().getx()[26].ToString("R");
myexcel["PickAdjuster4"] = getBest().getx()[27].ToString("R");
myexcel["PickAdjuster5"] = getBest().getx()[28].ToString("R");
myexcel["PickAdjuster6"] = getBest().getx()[29].ToString("R");
myexcel["PickAdjuster7"] = getBest().getx()[30].ToString("R");
myexcel["PickAdjuster8"] = getBest().getx()[31].ToString("R");
myexcel["PC12"] = getBest().getx()[32].ToString("R");
myexcel["PC13"] = getBest().getx()[33].ToString("R");
myexcel["PC14"] = getBest().getx()[34].ToString("R");
myexcel["PC15"] = getBest().getx()[35].ToString("R");
myexcel["PC23"] = getBest().getx()[36].ToString("R");
myexcel["PC24"] = getBest().getx()[37].ToString("R");
myexcel["PC25"] = getBest().getx()[38].ToString("R");
myexcel["PC34"] = getBest().getx()[39].ToString("R");
myexcel["PC35"] = getBest().getx()[40].ToString("R");
myexcel["PC45"] = getBest().getx()[41].ToString("R");
myexcel["C12"] = getBest().getx()[42].ToString();
myexcel["C13"] = getBest().getx()[43].ToString();
myexcel["C14"] = getBest().getx()[44].ToString();
myexcel["C15"] = getBest().getx()[45].ToString();
myexcel["C23"] = getBest().getx()[46].ToString();
myexcel["C24"] = getBest().getx()[47].ToString();
myexcel["C25"] = getBest().getx()[48].ToString();
myexcel["C34"] = getBest().getx()[49].ToString();
myexcel["C35"] = getBest().getx()[50].ToString();
myexcel["C45"] = getBest().getx()[51].ToString();
myexcel.exportToFile(experimentdirectory + "\\experiment.csv");
//Print the first layout
previouscost = getCost();
p_wh.resetNetwork();
//Reset IDs
edge.nextID = 0;
region.nextID = 0;
node.nextID = 0;
double[] angle = { 180 * getBest().getx()[8], 180 * getBest().getx()[9], 180 * getBest().getx()[10], 180 * getBest().getx()[11], 180 * getBest().getx()[12], 180 * getBest().getx()[13], 180 * getBest().getx()[14], 180 * getBest().getx()[15] };
double[] adjuster = { getBest().getx()[16], getBest().getx()[17], getBest().getx()[18], getBest().getx()[19], getBest().getx()[20], getBest().getx()[21], getBest().getx()[22], getBest().getx()[23] };
double[] pickadjuster = { getBest().getx()[24], getBest().getx()[25], getBest().getx()[26], getBest().getx()[27], getBest().getx()[28], getBest().getx()[29], getBest().getx()[30], getBest().getx()[31] };
double[] ext = { getBest().getx()[1], getBest().getx()[2], getBest().getx()[3], getBest().getx()[4] };
double[] intx = { getBest().getx()[5] };
double[] inty = { getBest().getx()[6] };
double[] pd = { getBest().getx()[7] };
double aspectratio = getBest().getx()[0];
p_wh.aspectratio = aspectratio;
p_wh.setArea(getBestWarehouse().area);
bool[] connections = new bool[this.size - l.Count()];
int c = 0;
for (int j = l.Count(); j < this.size; j++)
{
int indexencodingprobability = j - (this.size - l.Count());
if (getBest().getx()[j] == 0)//If that cross aisle exists then select that connection correct
{
connections[c] = false;
}
else
{
connections[c] = true;
}
c++;
}
if (!p_wh.createWarehouse(angle, adjuster, pickadjuster, ext, intx, inty, pd, aspectratio, p_wh.crossaislewidth, p_wh.pickingaislewidth, p_wh.pickinglocationwidth, p_wh.pickinglocationdepth, connections))
{
return;
}
if (!p_wh.usevisibilitygraph)//Aisle centers method
{
p_wh.createImportantNodeShortestDistances();
p_wh.locationShortestDistance();//Calculate Shortest Path Distances for Locations
}
else//Visibility graph method
{
p_wh.createPolygonsandGraphNodes();
p_wh.createVisibilityGraph();
p_wh.fillGraphNodeDistances();
}
//Calculate Shortest Path Distances to PD
p_wh.pdTotalDistances();
p_wh.totalDistances();
p_wh.rankLocations(Convert.ToDouble(p_wh.avgTourLength));
p_wh.colorOverall();
p_form1.drawCompleteWarehouse(p_wh.getWidth(), p_wh.getDepth());
p_form1.saveBitmap(experimentdirectory + "\\0.bmp");
//End print the first layout
int counter1 = 0;
int counter2 = 1;
generalsuccess = 0;
generalfail = 0;
//This costarray is used to check for the last 100 iterations if there is improvement less than %0.5 then makes it early quit the for loop
double[] costarray = new double[iteration];
for (int i = 0; i < iteration; i++)
{
if (counter1 == this.counter)
{
counter2++;
//Increase the step size if success rate is greater than 0.2 (or whatever is successrule) and decrease the step size otherwise
if ((double)numberofsuccessfulchildrencreated / (double)numberofchildrencreated > successrule)
{
sigma = sigma / 0.85;
generalsuccess++;
}
else
{
sigma = sigma * 0.85;
generalfail++;
}
counter1 = 0;
numberofsuccessfulchildrencreated = 0;
numberofchildrencreated = 0;
if (allsearch)
{
numberoforders = wh.getOrders().Count();
}
else
{
numberoforders = Convert.ToInt32(Convert.ToDouble(counter2) / Convert.ToDouble(numberofgaps) * wh.getOrders().Count());
}
}
counter1++;
DateTime start = DateTime.Now;
string logfile = experimentdirectory + "\\log.csv";
evolution(i, logfile);
double successrateperiteration = Convert.ToDouble(numberofsuccessfulchildrencreatedperiteration) / Convert.ToDouble(lambda);
numberofsuccessfulchildrencreatedperiteration = 0;//Resetsucessperiteration
TimeSpan elapsed = DateTime.Now - start;
p_pb.Value = Convert.ToInt32(Convert.ToDouble(i + 1) / Convert.ToDouble(iteration) * 100);
p_tb.AppendText("Iteration" + (i + 1).ToString() + ": " + getCost().ToString("0.000") + " Time: " + elapsed.ToString() + " SR:" + successrateperiteration.ToString("0.000") + "\n");
double currentcost = double.MaxValue;
if (!usenft)
{
currentcost = getCost();
}
else
{
currentcost = getCost(i, nft0, nftlambda);
}
myexcel = new csvexport();
myexcel.addRow();
costarray[i] = currentcost;
myexcel["Cost"] = getCost().ToString("R");
myexcel["Locs"] = getBestWarehouse().totalNumberOfLocations().ToString();
myexcel["SR"] = successrateperiteration.ToString("R");
myexcel["Width"] = getBestWarehouse().getWidth().ToString("R");
myexcel["Depth"] = getBestWarehouse().getDepth().ToString("R");
myexcel["Area"] = getBestWarehouse().area.ToString("R");
myexcel["Ratio"] = getBest().getx()[0].ToString("R");
myexcel["E1"] = getBest().getx()[1].ToString("R");
myexcel["E2"] = getBest().getx()[2].ToString("R");
myexcel["E3"] = getBest().getx()[3].ToString("R");
myexcel["E4"] = getBest().getx()[4].ToString("R");
myexcel["I1X"] = getBest().getx()[5].ToString("R");
myexcel["I1Y"] = getBest().getx()[6].ToString("R");
myexcel["PD"] = getBest().getx()[7].ToString("R");
myexcel["Angle1"] = (180 * getBest().getx()[8]).ToString("R");
myexcel["Angle2"] = (180 * getBest().getx()[9]).ToString("R");
myexcel["Angle3"] = (180 * getBest().getx()[10]).ToString("R");
myexcel["Angle4"] = (180 * getBest().getx()[11]).ToString("R");
myexcel["Angle5"] = (180 * getBest().getx()[12]).ToString("R");
myexcel["Angle6"] = (180 * getBest().getx()[13]).ToString("R");
myexcel["Angle7"] = (180 * getBest().getx()[14]).ToString("R");
myexcel["Angle8"] = (180 * getBest().getx()[15]).ToString("R");
myexcel["Adjuster1"] = getBest().getx()[16].ToString("R");
myexcel["Adjuster2"] = getBest().getx()[17].ToString("R");
myexcel["Adjuster3"] = getBest().getx()[18].ToString("R");
myexcel["Adjuster4"] = getBest().getx()[19].ToString("R");
myexcel["Adjuster5"] = getBest().getx()[20].ToString("R");
myexcel["Adjuster6"] = getBest().getx()[21].ToString("R");
myexcel["Adjuster7"] = getBest().getx()[22].ToString("R");
myexcel["Adjuster8"] = getBest().getx()[23].ToString("R");
myexcel["PickAdjuster1"] = getBest().getx()[24].ToString("R");
myexcel["PickAdjuster2"] = getBest().getx()[25].ToString("R");
myexcel["PickAdjuster3"] = getBest().getx()[26].ToString("R");
myexcel["PickAdjuster4"] = getBest().getx()[27].ToString("R");
myexcel["PickAdjuster5"] = getBest().getx()[28].ToString("R");
myexcel["PickAdjuster6"] = getBest().getx()[29].ToString("R");
myexcel["PickAdjuster7"] = getBest().getx()[30].ToString("R");
myexcel["PickAdjuster8"] = getBest().getx()[31].ToString("R");
myexcel["PC12"] = getBest().getx()[32].ToString("R");
myexcel["PC13"] = getBest().getx()[33].ToString("R");
myexcel["PC14"] = getBest().getx()[34].ToString("R");
myexcel["PC15"] = getBest().getx()[35].ToString("R");
myexcel["PC23"] = getBest().getx()[36].ToString("R");
myexcel["PC24"] = getBest().getx()[37].ToString("R");
myexcel["PC25"] = getBest().getx()[38].ToString("R");
myexcel["PC34"] = getBest().getx()[39].ToString("R");
myexcel["PC35"] = getBest().getx()[40].ToString("R");
myexcel["PC45"] = getBest().getx()[41].ToString("R");
myexcel["C12"] = getBest().getx()[42].ToString();
myexcel["C13"] = getBest().getx()[43].ToString();
myexcel["C14"] = getBest().getx()[44].ToString();
myexcel["C15"] = getBest().getx()[45].ToString();
myexcel["C23"] = getBest().getx()[46].ToString();
myexcel["C24"] = getBest().getx()[47].ToString();
myexcel["C25"] = getBest().getx()[48].ToString();
myexcel["C34"] = getBest().getx()[49].ToString();
myexcel["C35"] = getBest().getx()[50].ToString();
myexcel["C45"] = getBest().getx()[51].ToString();
myexcel.appendToFile(experimentdirectory + "\\experiment.csv");
//There is a new best warehouse so print the layout to the screen
if (currentcost < previouscost)
{
previouscost = currentcost;
p_wh.resetNetwork();
//Reset IDs
edge.nextID = 0;
region.nextID = 0;
node.nextID = 0;
double[] angle1 = { 180 * getBest().getx()[8], 180 * getBest().getx()[9], 180 * getBest().getx()[10], 180 * getBest().getx()[11], 180 * getBest().getx()[12], 180 * getBest().getx()[13], 180 * getBest().getx()[14], 180 * getBest().getx()[15] };
double[] adjuster1 = { getBest().getx()[16], getBest().getx()[17], getBest().getx()[18], getBest().getx()[19], getBest().getx()[20], getBest().getx()[21], getBest().getx()[22], getBest().getx()[23] };
double[] pickadjuster1 = { getBest().getx()[24], getBest().getx()[25], getBest().getx()[26], getBest().getx()[27], getBest().getx()[28], getBest().getx()[29], getBest().getx()[30], getBest().getx()[31] };
double[] ext1 = { getBest().getx()[1], getBest().getx()[2], getBest().getx()[3], getBest().getx()[4] };
double[] intx1 = { getBest().getx()[5] };
double[] inty1 = { getBest().getx()[6] };
double[] pd1 = { getBest().getx()[7] };
double aspectratio1 = getBest().getx()[0];
p_wh.aspectratio = aspectratio1;
p_wh.setArea(getBestWarehouse().area);
bool[] connections1 = new bool[this.size - l.Count()];
int m = 0;
for (int j = l.Count(); j < this.size; j++)
{
int indexencodingprobability = j - (this.size - l.Count());
if (getBest().getx()[j] == 0)//If that cross aisle exists then select that connection correct
{
connections1[m] = false;
}
else
{
connections1[m] = true;
}
m++;
}
if (!p_wh.createWarehouse(angle1, adjuster1, pickadjuster1, ext1, intx1, inty1, pd1, aspectratio1, p_wh.crossaislewidth, p_wh.pickingaislewidth, p_wh.pickinglocationwidth, p_wh.pickinglocationdepth, connections1))
{
return;
}
if (!p_wh.usevisibilitygraph)//Aisle centers method
{
p_wh.createImportantNodeShortestDistances();
//Calculate Shortest Path Distances for Locations
p_wh.locationShortestDistance();
}
else//Visibility graph method
{
p_wh.createPolygonsandGraphNodes();
p_wh.createVisibilityGraph();
p_wh.fillGraphNodeDistances();
}
//Calculate Shortest Path Distances to PD
p_wh.pdTotalDistances();
p_wh.totalDistances();
p_wh.rankLocations(Convert.ToDouble(p_wh.avgTourLength));
p_wh.colorOverall();
p_form1.drawCompleteWarehouse(p_wh.getWidth(), p_wh.getDepth());
p_form1.saveBitmap(experimentdirectory + "\\" + (i + 1).ToString() + ".bmp");
}//end of printing if there is an improvement
//Perform early termination if there is no significant (more than 0.5 percent) improvement for the last 100 iterations
if (i >= 100 && ((costarray[i - 100] - costarray[i]) / costarray[i - 100]) < 0.005)
{
break;
}
}//end of iteration
}
private bool infeasibledesign; //true if the design/solution is infeasible
/// <summary>
/// Constructor for a solution it automatically calculates the feasibility of the solution
/// If it is feasible, it calculates the cost, if it is infeasible it sets the infeasibledesign variable to true
/// </summary>
/// <param name="p_numberofparameters">Total number of parameters for a solution</param>
/// <param name="p_x">Solution array</param>
/// <param name="p_l">Lower bound array</param>
/// <param name="p_u">Upper bound array</param>
/// <param name="p_wh">Warehouse object that is used for compututation for solution variables</param>
/// <param name="p_o">Number of orders being calculated, this number can be lower than total number of orders (this is used for sampling)</param>
/// <param name="p_computing">0 is Parallel, 1 is Distributed, 2 is Single Thread Computing</param>
/// <param name="p_optimal">True use Concorde, False use LKH</param>
/// <param name="p_socketservers">List of servers for distributed computing</param>
/// <param name="p_designclass">Search All design classes or a specific design class</param>
public esvariable(int p_numberofparameters, double[] p_x, double[] p_l, double[] p_u, warehouse p_wh, int p_o, int p_computing, bool p_optimal, socketservers p_socketservers, string p_designclass)
{
numberofparameters = p_numberofparameters;
designclass = p_designclass;
x = new double[numberofparameters];
u = new double[p_u.Count()];
l = new double[p_l.Count()];
u = p_u;
l = p_l;
bool warehousefit = false;
bool finalize = false;
infeasibledesign = false;
setx(p_x);
wh = new warehouse();
wh.aspectratio = x[0];
wh.setArea(p_wh.area);
wh.usevisibilitygraph = p_wh.usevisibilitygraph;
wh.pickersize = p_wh.pickersize;
//Adjust warehouse area until warehouse is fit (minimum number of empty locations with given aspect ratio)
int increased = 0;
int decreased = 0;
do
{
wh.resetNetwork();
//Set warehouse aspect ratio
wh.aspectratio = x[0];
//Set warehouse cross aisle width
wh.crossaislewidth = p_wh.crossaislewidth;
//Set warehouse picking aisle width
wh.pickingaislewidth = p_wh.pickingaislewidth;
//Set warehouse picking location width
wh.pickinglocationwidth = p_wh.pickinglocationwidth;
//Set warehouse picking location depth
wh.pickinglocationdepth = p_wh.pickinglocationdepth;
//Set SKUs for the warehouse object
wh.setSKUs(p_wh.getSKUs());
//Set average number of picks per pick tour
wh.avgTourLength = p_wh.avgTourLength;
if (designclass != "All")//Perform search on a specific design class
{
double[] angle = { 180 * x[8], 180 * x[9], 180 * x[10], 180 * x[11], 180 * x[12], 180 * x[13] };
double[] adjuster = { x[14], x[15], x[16], x[17], x[18], x[19] };
double[] pickadjuster = { x[20], x[21], x[22], x[23], x[24], x[25] };
double[] ext = { x[1], x[2], x[3], x[4], x[5], x[6] };
double[] intx = { x[5] };
double[] inty = { x[6] };
double[] pd = { x[7] };
double aspectratio = x[0];
switch (designclass)
{
case "0-0-0":
if (!wh.create000Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;//This means infeasible design
infeasibledesign = true;
return;
}
break;
case "2-0-1":
if (!wh.create201Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "3-0-2":
if (!wh.create302Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "3-0-3":
if (!wh.create303Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "3-1-3":
if (!wh.create313Warehouse(angle, adjuster, pickadjuster, ext, intx, inty, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "4-0-2":
if (!wh.create402Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "4-0-4":
if (!wh.create404Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "4-0-5":
if (!wh.create405Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "4-1-4":
if (!wh.create414Warehouse(angle, adjuster, pickadjuster, ext, intx, inty, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "4-2-5":
if (!wh.create425Warehouse(angle, adjuster, pickadjuster, ext, intx, inty, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
case "6-0-3":
if (!wh.create603Warehouse(angle, adjuster, pickadjuster, ext, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
break;
}
}
else//Perform search on all design classes
{
double[] angle = { 180 * x[8], 180 * x[9], 180 * x[10], 180 * x[11], 180 * x[12], 180 * x[13], 180 * x[14], 180 * x[15] };
double[] adjuster = { x[16], x[17], x[18], x[19], x[20], x[21], x[22], x[23] };
double[] pickadjuster = { x[24], x[25], x[26], x[27], x[28], x[29], x[30], x[31] };
double[] ext = { x[1], x[2], x[3], x[4] };
double[] intx = { x[5] };
double[] inty = { x[6] };
double[] pd = { x[7] };
double aspectratio = x[0];
bool[] connections = new bool[this.numberofparameters - l.Count()];
int m = 0;
for (int j = l.Count(); j < this.numberofparameters; j++)
{
int indexencodingprobability = j - (this.numberofparameters - l.Count());
if (x[j] == 0)//If that cross aisle exists then select that connection correct
{
connections[m] = false;
}
else
{
connections[m] = true;
}
m++;
}
if (!wh.createWarehouse(angle, adjuster, pickadjuster, ext, intx, inty, pd, aspectratio, wh.crossaislewidth, wh.pickingaislewidth, wh.pickinglocationwidth, wh.pickinglocationdepth, connections))
{
cost = Double.MaxValue;
infeasibledesign = true;
return;
}
}
//Check warehouse size here before doing any other calculations and if size is not fit then adjust it approprately
int totalstoragelocations = wh.totalNumberOfLocations();
if (increased > 0 && decreased > 0) //No exact number of locations but this is the smallest it can get then we stop
{
if (wh.getSKUs().Count > totalstoragelocations) //This check is necessary because last iteration it could have been decreased
{
wh.setArea(wh.area / options.warehouseadjustmentfactor); //Increase area
increased++;
finalize = true;
}
else if (wh.getSKUs().Count < totalstoragelocations || finalize == true)
{
warehousefit = true;
break;
}
}
if (wh.getSKUs().Count > totalstoragelocations)
{
wh.setArea(wh.area / options.warehouseadjustmentfactor);//Increase area
increased++;
}
else if (wh.getSKUs().Count < totalstoragelocations)
{
wh.setArea(wh.area * options.warehouseadjustmentfactor);//Decrease area
decreased++;
}
else if (wh.getSKUs().Count == totalstoragelocations)
{
warehousefit = true;
}
} while (!warehousefit);
if (!wh.usevisibilitygraph)//aisle centers method
{
wh.createImportantNodeShortestDistances();
wh.locationShortestDistance();
}
else//visibility graph method
{
wh.createPolygonsandGraphNodes();
wh.createVisibilityGraph();
wh.fillGraphNodeDistances();
}
wh.pdTotalDistances();
wh.totalDistances();
wh.rankLocations(wh.avgTourLength);
wh.colorOverall();
//Use turnover based allocation method
allocation al = new allocation(0);
//If allocateSKUs return -1 then there is insufficient warehouse space, the design is infeasible, return positive infinite as a cost (death penalty)
if (al.allocateSKUs(wh.getSKUs(), wh, 0) < 0)
{
cost = Double.MaxValue; infeasibledesign = true; return;
}
;
//Otherwise continue the calculations
wh.setOrders(p_wh.getOrders());
if (!wh.usevisibilitygraph) //Aisle centers method
{
if (p_computing == 0) //Parallel computing
{
var sums = new ConcurrentBag <double>();
Parallel.For(0, p_o, k =>
{
warehouse tmpwh = wh;
List <order> tmporders = wh.getOrders();
routing rt = new routing();
double tourcost = 0;
bool LKHdoneonce = false;
while (tourcost == 0)
{
if (p_optimal || LKHdoneonce)
{
tourcost = rt.tspOptSteiner(tmpwh, tmporders[k], k);
if (tourcost == 0)
{
break; //This means that tour cost is really zero (sometimes LKH returns 0 even though it should not)
}
}
else
{
tourcost = rt.tspLKHSteiner(tmpwh, tmporders[k], k);
LKHdoneonce = true;
}
}
sums.Add(tourcost);
});
cost = sums.Sum() / p_o;
}
else if (p_computing == 1)//Distributed computing
{
warehouse tmpwh = wh;
routing rt = new routing();
cost = rt.tspOptNetSteiner(tmpwh, p_o, p_socketservers, 0);
}
}
else//Visibility graph method
{
if (p_computing == 0)//Parallel computing
{
var sums = new ConcurrentBag <double>();
Parallel.For(0, p_o, k =>
{
warehouse tmpwh = wh;
List <order> tmporders = wh.getOrders();
routing rt = new routing();
double tourcost = 0;
bool LKHdoneonce = false;
while (tourcost == 0)
{
if (p_optimal || LKHdoneonce)
{
tourcost = rt.tspOptVisibility(tmpwh, tmporders[k], k);
if (tourcost == 0)
{
break; //This means that tour cost is really zero (sometimes LKH returns 0 even though it should not)
}
}
else
{
tourcost = rt.tspLKHVisibility(tmpwh, tmporders[k], k);
LKHdoneonce = true;
}
}
sums.Add(tourcost);
});
cost = sums.Sum() / p_o;
}
else if (p_computing == 1)
{
warehouse tmpwh = wh;
routing rt = new routing();
cost = rt.tspOptNetVisibility(tmpwh, p_o, p_socketservers, 0);
}
}
}
