add MultipleDepotExamples

jsprit-examples/src/main/java/examples/MultipleDepotExample.java

@@ -0,0 +1,87 @@
+package examples;
+
+import java.util.Arrays;
+import java.util.Collection;
+
+import util.Coordinate;
+import util.Solutions;
+import algorithms.VehicleRoutingAlgorithms;
+import analysis.AlgorithmSearchProgressChartListener;
+import analysis.SolutionPlotter;
+import analysis.SolutionPrinter;
+import basics.VehicleRoutingAlgorithm;
+import basics.VehicleRoutingProblem;
+import basics.VehicleRoutingProblem.FleetSize;
+import basics.VehicleRoutingProblemSolution;
+import basics.io.VrpXMLReader;
+import basics.route.Vehicle;
+import basics.route.VehicleImpl;
+import basics.route.VehicleImpl.VehicleType;
+
+public class MultipleDepotExample {
+
+	/**
+	 * @param args
+	 */
+	public static void main(String[] args) {
+		
+		VehicleRoutingProblem.Builder vrpBuilder = VehicleRoutingProblem.Builder.newInstance();
+		/*
+		 * Read cordeau-instance p01, BUT only its services without any vehicles 
+		 */
+		new VrpXMLReader(vrpBuilder).read("input/vrp_cordeau_01.xml");
+		
+		/*
+		 * add vehicles with its depots
+		 * 4 depots:
+		 * (20,20)
+		 * (30,40)
+		 * (50,30)
+		 * (60,50)
+		 * 
+		 * each with 4 vehicles each with a capacity of 80
+		 */
+		int nuOfVehicles = 4;
+		int capacity = 80;
+		Coordinate firstDepotCoord = Coordinate.newInstance(20, 20);
+		Coordinate second = Coordinate.newInstance(30, 40);
+		Coordinate third = Coordinate.newInstance(50, 30);
+		Coordinate fourth = Coordinate.newInstance(60, 50);
+		
+		int depotCounter = 1;
+		for(Coordinate depotCoord : Arrays.asList(firstDepotCoord,second,third,fourth)){
+			for(int i=0;i<nuOfVehicles;i++){
+				VehicleType vehicleType = VehicleType.Builder.newInstance(depotCounter + "_" + (i+1) + "_type", capacity).setCostPerDistance(1.0).build();
+				Vehicle vehicle = VehicleImpl.VehicleBuilder.newInstance(depotCounter + "_" + (i+1) + "_vehicle").setLocationCoord(depotCoord).setType(vehicleType).build();
+				vrpBuilder.addVehicle(vehicle);
+			}
+			depotCounter++;
+		}
+		
+		/*
+		 * define problem with finite fleet
+		 */
+		vrpBuilder.setFleetSize(FleetSize.FINITE);
+		
+		/*
+		 * build the problem
+		 */
+		VehicleRoutingProblem vrp = vrpBuilder.build();
+		
+		/*
+		 * plot to see how the problem looks like
+		 */
+		SolutionPlotter.plotVrpAsPNG(vrp, "output/problem01.png", "p01");
+
+		/*
+		 * solve the problem
+		 */
+		VehicleRoutingAlgorithm vra = VehicleRoutingAlgorithms.readAndCreateAlgorithm(vrp, "input/algorithmConfig.xml");
+		Collection<VehicleRoutingProblemSolution> solutions = vra.searchSolutions();
+		
+		SolutionPrinter.print(Solutions.getBest(solutions));
+		SolutionPlotter.plotSolutionAsPNG(vrp, Solutions.getBest(solutions), "output/p01_solution.png", "p01");
+
+	}
+
+}

jsprit-examples/src/main/java/examples/MultipleDepotExampleWithPenaltyVehicles.java

@@ -0,0 +1,105 @@
+package examples;
+
+import java.util.Arrays;
+import java.util.Collection;
+
+import util.Coordinate;
+import util.Solutions;
+import algorithms.VehicleRoutingAlgorithms;
+import analysis.AlgorithmSearchProgressChartListener;
+import analysis.SolutionPlotter;
+import analysis.SolutionPrinter;
+import basics.VehicleRoutingAlgorithm;
+import basics.VehicleRoutingProblem;
+import basics.VehicleRoutingProblem.FleetSize;
+import basics.VehicleRoutingProblemSolution;
+import basics.io.VrpXMLReader;
+import basics.route.Vehicle;
+import basics.route.VehicleImpl;
+import basics.route.VehicleImpl.VehicleType;
+
+public class MultipleDepotExampleWithPenaltyVehicles {
+
+	/**
+	 * @param args
+	 */
+	public static void main(String[] args) {
+		
+		VehicleRoutingProblem.Builder vrpBuilder = VehicleRoutingProblem.Builder.newInstance();
+		/*
+		 * Read cordeau-instance p01, BUT only its services without any vehicles 
+		 */
+		new VrpXMLReader(vrpBuilder).read("input/vrp_cordeau_08.xml");
+		
+		/*
+		 * add vehicles with its depots
+		 * 2 depots:
+		 * (-33,33)
+		 * (33,-33)
+		 * 
+		 * each with 14 vehicles each with a capacity of 500 and a maximum duration of 310
+		 */
+		int nuOfVehicles = 14;
+		int capacity = 500;
+		double maxDuration = 310;
+		Coordinate firstDepotCoord = Coordinate.newInstance(-33, 33);
+		Coordinate second = Coordinate.newInstance(33, -33);
+		
+		/*
+		 * number of penalty vehicles
+		 */
+		int nuOfPenaltyVehicles = 4;
+		int depotCounter = 1;
+		for(Coordinate depotCoord : Arrays.asList(firstDepotCoord,second)){
+			for(int i=0;i<nuOfVehicles;i++){
+				VehicleType vehicleType = VehicleType.Builder.newInstance(depotCounter + "_" + (i+1) + "_type", capacity).setCostPerDistance(1.0).build();
+				String vehicleId = depotCounter + "_" + (i+1) + "_vehicle";
+				VehicleImpl.VehicleBuilder vehicleBuilder = VehicleImpl.VehicleBuilder.newInstance(vehicleId);
+				vehicleBuilder.setLocationCoord(depotCoord);
+				vehicleBuilder.setType(vehicleType);
+				vehicleBuilder.setLatestArrival(maxDuration);
+				Vehicle vehicle = vehicleBuilder.build();
+				vrpBuilder.addVehicle(vehicle);
+			}
+			for(int i=0;i<nuOfPenaltyVehicles;i++){
+				VehicleType penaltyType = VehicleType.Builder.newInstance(depotCounter + "_" + (i+1) + "_penaltyType", capacity).setFixedCost(50).setCostPerDistance(3.0).build();
+				String vehicleId = depotCounter + "_" + (i+1) + "_penaltyVehicle";
+				VehicleImpl.VehicleBuilder vehicleBuilder = VehicleImpl.VehicleBuilder.newInstance(vehicleId);
+				vehicleBuilder.setLocationCoord(depotCoord);
+				vehicleBuilder.setType(penaltyType);
+				vehicleBuilder.setLatestArrival(maxDuration);
+				Vehicle penaltyVehicle = vehicleBuilder.build();
+				vrpBuilder.addVehicle(penaltyVehicle);
+			}
+			depotCounter++;
+		}
+		
+		
+		
+		/*
+		 * define problem with finite fleet
+		 */
+		vrpBuilder.setFleetSize(FleetSize.FINITE);
+		
+		/*
+		 * build the problem
+		 */
+		VehicleRoutingProblem vrp = vrpBuilder.build();
+		
+		/*
+		 * plot to see how the problem looks like
+		 */
+		SolutionPlotter.plotVrpAsPNG(vrp, "output/problem08.png", "p08");
+
+		/*
+		 * solve the problem
+		 */
+		VehicleRoutingAlgorithm vra = VehicleRoutingAlgorithms.readAndCreateAlgorithm(vrp, "input/algorithmConfig.xml");
+		Collection<VehicleRoutingProblemSolution> solutions = vra.searchSolutions();
+		
+		SolutionPrinter.print(Solutions.getBest(solutions));
+		SolutionPlotter.plotSolutionAsPNG(vrp, Solutions.getBest(solutions), "output/p08_solution.png", "p08");
+
+	}
+
+}