ProjektGraph/OurApplication/OurAlgorithm.java

package OurApplication;

import graph.*;
import logging.Algorithm;
import logging.LogElementList;
import visualizationElements.Vertex;

import java.awt.*;
import java.util.Random;
import java.util.Vector;

/**
 * This class provides an example for using logging.Algorithm. 
 * It sums up integer number starting with 0 up to the maximum value specified in the parameter area.
 * @see Algorithm
 * @author MSch<63>fer
 * DHBW Stuttgart/Campus Horb AI2008<br>
 * <br>
 */
public class OurAlgorithm extends Algorithm {

	private graph.Graph<VertexMarking, EdgeMarking> currentGraph;

	public OurAlgorithm() {
		super();
	}
	/**
	 * Creates a sum up algorithm.
	 * @param parameterArea the sum up parameter area the algorithm gets its parameters from
	 */
	public OurAlgorithm(OurParameterArea parameterArea){
		super(parameterArea,"GraphAlgorithm");
	}
	
	/**
	 * Overwritten from super class.
	 * Runs the algorithm.. 
	 * Returns the LogElementList produced by the algorithm processing. 
	 * Adds integer number starting with 0 up to the maximum value.
	 * @return a LogElementList containing the algorithm processing single steps 
	 */
	public LogElementList<OurLogElement> run() {

		Random random = new Random();

		MarkedVertex<VertexMarking> start = this.currentGraph.getAllVertexes().get(random.nextInt(this.currentGraph.getAllVertexes().size()));
        MarkedVertex<VertexMarking> end = this.currentGraph.getAllVertexes().get(random.nextInt(this.currentGraph.getAllVertexes().size()));
        System.out.println(start.getName() + " to " + end.getName());

		this.currentGraph.getShortestPathDijkstra(start, end);

		return this.currentGraph.getLogList();
	}


	public void setCurrentGraph(graph.Graph<VertexMarking, EdgeMarking> graph) {
		this.currentGraph = graph;
	}

}