Context Navigation

← Previous Change
Next Change →

clusterers

Timestamp:

Sep 17, 2010, 1:09:06 PM (14 years ago)

Author:

gnappo

Message:

Ulteriori refactoring. Creato il clusterer metisMqi, con opzioni.

Location:

src/main/java/weka/clusterers

Files:

: 2 added
: 1 deleted
: 4 edited
: 2 copied
: 1 moved

MetisMQIClusterer.java (moved) (moved from src/main/java/weka/clusterers/SimpleClusterer.java) (3 diffs)
forMetisMQI/Coarse.java (copied) (copied from src/main/java/weka/clusterers/forMetisMQI/coarse/Coarse.java) (2 diffs)
forMetisMQI/GraphAlgorithms.java (modified) (2 diffs)
forMetisMQI/MQI.java (modified) (2 diffs)
forMetisMQI/Uncoarse.java (modified) (4 diffs)
forMetisMQI/coarse (deleted)
forMetisMQI/graph/UndirectedGraph.java (modified) (1 diff)
forMetisMQI/util (added)
forMetisMQI/util/CoarserGraphElement.java (copied) (copied from src/main/java/weka/clusterers/forMetisMQI/coarse/CoarserGraphElement.java) (1 diff)
forMetisMQI/util/Util.java (added)

Legend:

: Unmodified
: Added
: Removed

src/main/java/weka/clusterers/MetisMQIClusterer.java

-                      r11
+                      r14
 package weka.clusterers;
+import java.util.Enumeration;
+import java.util.HashMap;
+import java.util.Iterator;
+import java.util.Map;
+import java.util.Set;
+import java.util.Vector;
 import weka.clusterers.forMetisMQI.GraphAlgorithms;
+import weka.clusterers.forMetisMQI.graph.Node;
 import weka.clusterers.forMetisMQI.graph.UndirectedGraph;
+import weka.core.Attribute;
 import weka.core.Capabilities;
 import weka.core.Instance;
 import weka.core.Instances;
+import weka.core.Option;
+import weka.core.OptionHandler;
+import weka.core.Utils;
 import weka.core.Capabilities.Capability;
+public class SimpleClusterer extends AbstractClusterer {
+        private int numberOfClusters = 0;
+public class MetisMQIClusterer extends AbstractClusterer implements
+                OptionHandler {
+        private int numberOfClusters = 2;
+        private int sizeFinerGraph = 10;
+        /**
+         * It maps each cluster with an integer id.
+         */
+        private Map<Set<Node>, Integer> clustersMap = null;
+        /**
+         * Holds the cluster membership for each node.
+         */
+        private Map<Node, Integer> nodeMap = null;
         /**
 …
         public void buildClusterer(Instances data) throws Exception {
                 getCapabilities().testWithFail(data);
                 UndirectedGraph g = new UndirectedGraph();
                 g.loadFromInstance(data);
+                GraphAlgorithms ga = new GraphAlgorithms();
+                ga.METIS(g);
+                numberOfClusters = 1;
+                Set<Set<Node>> clusters = GraphAlgorithms.metisMqi(g, numberOfClusters,
+                                sizeFinerGraph);
+                setNumClusters(clusters.size());
+                int i = 0;
+                Iterator<Set<Node>> clusterIterator = clusters.iterator();
+                clustersMap = new HashMap<Set<Node>, Integer>();
+                nodeMap = new HashMap<Node, Integer>();
+                while (clusterIterator.hasNext()) {
+                        Set<Node> cluster = clusterIterator.next();
+                        clustersMap.put(cluster, i);
+                        Iterator<Node> nodeIterator = cluster.iterator();
+                        while (nodeIterator.hasNext()) {
+                                Node n = nodeIterator.next();
+                                if (nodeMap.get(n) == null) {
+                                        nodeMap.put(n, i);
+                                }
+                        }
+                        i++;
+                }
+        }
         @Override
         public int clusterInstance(Instance instance) throws Exception {
+                return 0;
+        }
+        @Override
+        public double[] distributionForInstance(Instance instance)
+        throws Exception {
+                Attribute from = instance.dataset().attribute("from");
+                Attribute to = instance.dataset().attribute("to");
+                Instance edge = instance;
+                Node node1 = new Node(Integer.toString(((int) Math.round(edge
+                                .value(from)))));
+                Node node2 = new Node(Integer.toString(((int) Math
+                                .round(edge.value(to)))));
+                if (nodeMap.get(node1) == nodeMap.get(node2))
+                        return nodeMap.get(node1);
+                else
+                        throw new Exception();
+        }
+        /**
+         * Parses a given list of options.
+         * <p/>
+         *
+         * <!-- options-start --> Valid options are:
+         * <p/>
+         *
+         * <pre>
+         * -N &lt;num&gt;
+         *  number of clusters.
+         *  (default 2).
+         * </pre>
+         *
+         * <pre>
+         * -S
+         *  Maximum size of the finer graph during the coarsening phase.
+         * </pre>
+         *
+         * <!-- options-end -->
+         *
+         * @param options
+         *            the list of options as an array of strings
+         * @throws Exception
+         *             if an option is not supported
+         */
+        @Override
+        public void setOptions(String[] options) throws Exception {
+                String optionString = Utils.getOption('N', options);
+                if (optionString.length() != 0) {
+                        setNumClusters(Integer.parseInt(optionString));
+                }
+                optionString = Utils.getOption('S', options);
+                if (optionString.length() != 0) {
+                        setSizeFinerGraph(Integer.parseInt(optionString));
+                }
+        }
+        /**
+         * Gets the current settings of MetisMQIClusterer
+         *
+         * @return an array of strings suitable for passing to setOptions()
+         */
+        @SuppressWarnings("unchecked")
+        @Override
+        public String[] getOptions() {
+                Vector result;
+                result = new Vector();
+                result.add("-N");
+                result.add("" + getNumClusters());
+                result.add("-S");
+                result.add("" + getSizeFinerGraph());
+                return (String[]) result.toArray(new String[result.size()]);
+        }
+        private int getSizeFinerGraph() {
+                return sizeFinerGraph;
+        }
+        private int getNumClusters() {
+                return numberOfClusters;
+        }
+        /**
+         * Returns an enumeration describing the available options.
+         *
+         * @return an enumeration of all the available options.
+         */
+        @SuppressWarnings("unchecked")
+        @Override
+        public Enumeration listOptions() {
+                Vector result = new Vector();
+                result.addElement(new Option("\tnumber of clusters.\n"
+                                + "\t(default 2).", "N", 1, "-N <num>"));
+                result.addElement(new Option("\tsize of finer graph.\n"
+                                + "\t(default 10).", "S", 1, "-S <num>"));
+                return result.elements();
+        }
+        private void setSizeFinerGraph(int size) {
+                this.sizeFinerGraph = size;
+        }
+        private void setNumClusters(int n) {
+                this.numberOfClusters = n;
+        }
+        @Override
+        public double[] distributionForInstance(Instance instance) throws Exception {
                 double[] d = new double[numberOfClusters()];
                 d[clusterInstance(instance)] = 1.0;
 …
          */
         public static void main(String[] args) {
                 AbstractClusterer.runClusterer(new SimpleClusterer(), args);
+                AbstractClusterer.runClusterer(new MetisMQIClusterer(), args);
+        }

src/main/java/weka/clusterers/forMetisMQI/Coarse.java

-                      r11
+                      r14
 package weka.clusterers.forMetisMQI.coarse;
+package weka.clusterers.forMetisMQI;
 import java.io.PrintStream;
 …
 import weka.clusterers.forMetisMQI.graph.Node;
 import weka.clusterers.forMetisMQI.graph.UndirectedGraph;
+import weka.clusterers.forMetisMQI.util.CoarserGraphElement;
 import edu.uci.ics.jung.graph.util.Pair;

src/main/java/weka/clusterers/forMetisMQI/GraphAlgorithms.java

-                      r12
+                      r14
 import java.util.Stack;
-import weka.clusterers.forMetisMQI.coarse.Coarse;
-import weka.clusterers.forMetisMQI.coarse.CoarserGraphElement;
 import weka.clusterers.forMetisMQI.graph.Bisection;
 import weka.clusterers.forMetisMQI.graph.Node;
 import weka.clusterers.forMetisMQI.graph.UndirectedGraph;
+import weka.clusterers.forMetisMQI.util.CoarserGraphElement;
+import weka.clusterers.forMetisMQI.util.Util;
 public class GraphAlgorithms {
+        public Bisection KL(UndirectedGraph g) {
+        /**
+         * Given an undirected graph, performs the Kernighan-Li algorithm to find a bisection and
+         * then returns it.
+         * @param g
+         * @return
+         */
+        static public Bisection KL(UndirectedGraph g) {
                 Bisection partition = new Bisection(g);
                 Bisection result = partition;
 …
                 return result;
+        }
+        static public Bisection metis(UndirectedGraph g, int sizeFinerGraph) {
+                Coarse.setFinerSize(sizeFinerGraph);
+                Stack<CoarserGraphElement> stack = Coarse.coarse(g);
+                Bisection partition = null;
+                if (stack.size() > 0) {
+                        partition = KL(stack.peek().getContracted());
+                        partition = Uncoarse.uncoarse(stack, partition);
+                }
+                return partition;
+        }
+        public void METIS(UndirectedGraph g) {
+//              MQI.viewGraph(g);
+        /**
+         * Given an UndirectedGraph, runs metis+mqi for <code>numberOfCluster</code> times and
+         * returns a set of clusters. With the third parameter you can control the maximum size of the finer
+         * graph during the coarsening phase.
+         * @param g
+         * @param numberOfCluster
+         * @param sizeFinerGraph
+         */
+        static public Set<Set<Node>> metisMqi(UndirectedGraph g, int numberOfCluster, int sizeFinerGraph) {
                 Set<Set<Node>> clusters = new HashSet<Set<Node>>();
+                for (int i = 0; i < 8; i++) {
+                        Coarse.setFinerSize(8);
+                        Stack<CoarserGraphElement> stack = Coarse.coarse(g);
+                        Bisection partition = null;
+                        if (stack.size() > 0) {
+                                partition = KL(stack.peek().getContracted());
+//                              System.out.println(partition.toString());
+                                partition = new Uncoarse().uncoarse(stack, partition);
+//                              System.out.println(partition.toString());
+                                Set<Node> cluster = MQI.mqi(partition);
+                                clusters.add(cluster);
+//                              Set<Set<Node>> foundCluster = new HashSet<Set<Node>>();
+//                              foundCluster.add(cluster);
+//                              MQI.viewClusters(g, foundCluster);
+                        }
+                for (int i = 0; i < numberOfCluster; i++) {
+                        Bisection partition = metis(g,sizeFinerGraph);
+                        Set<Node> cluster = MQI.mqi(partition);
+                        clusters.add(cluster);
+                }
                 MQI.viewClusters(g, clusters);
+                return clusters;
+        }

src/main/java/weka/clusterers/forMetisMQI/MQI.java

-                      r12
+                      r14
 import weka.clusterers.forMetisMQI.graph.UndirectedGraph;
 import edu.uci.ics.jung.algorithms.flows.EdmondsKarpMaxFlow;
+import edu.uci.ics.jung.algorithms.layout.FRLayout;
 import edu.uci.ics.jung.algorithms.layout.KKLayout;
 import edu.uci.ics.jung.algorithms.layout.Layout;
 …
         static int i = -1;
-        public static void viewClusters(Graph<Node, Edge> g, Set<Set<Node>> clusters) {
-                Layout<Node, Edge> layout = new KKLayout<Node, Edge>(g);
-                layout.setSize(new Dimension(800, 600)); // sets the initial size of the space
-                // The BasicVisualizationServer<V,E> is parameterized by the edge types
-                BasicVisualizationServer<Node, Edge> vv = new BasicVisualizationServer<Node, Edge>(
-                                layout);
-                class VertexPaintTransformer implements Transformer<Node, Paint> {
-                        Set<Set<Node>> clusters = null;
-                        Map<Set<Node>, Color> clustersColor = null;
-                        public Set<Node> getCluster(Node node) {
-                                Iterator<Set<Node>> clusterIterator = clusters.iterator();
-                                while (clusterIterator.hasNext()) {
-                                        Set<Node> cluster = clusterIterator.next();
-                                        if (cluster.contains(node))
-                                                return cluster;
+                                }
-                                return null;
+                        }
-                        public VertexPaintTransformer(Set<Set<Node>> clusters) {
-                                this.clusters = clusters;
-                                clustersColor = new HashMap<Set<Node>, Color>(clusters.size());
-                                Iterator<Set<Node>> clusterIterator = clusters.iterator();
-                                while (clusterIterator.hasNext()) {
-                                        Set<Node> cluster = clusterIterator.next();
-                                        clustersColor.put(cluster, new Color(Random.instance()
-                                                        .nextInt(256), Random.instance().nextInt(256),
-                                                        Random.instance().nextInt(256)));
+                                }
+                        }
-                        public Paint transform(Node i) {
-                                Set<Node> cluster = getCluster(i);
-                                if (cluster == null)
-                                        return Color.RED;
-                                else
-                                        return clustersColor.get(getCluster(i));
+                        }
+                }
-                Transformer<Node, Paint> vertexPaint = new VertexPaintTransformer(
-                                clusters);
-                vv.setPreferredSize(new Dimension(800, 600)); // Sets the viewing area
-                                                                                                                // size
-                vv.getRenderContext().setVertexLabelTransformer(
-                                new ToStringLabeller<Node>());
-                vv.getRenderContext().setEdgeLabelTransformer(
-                                new ToStringLabeller<Edge>());
-                vv.getRenderContext().setVertexFillPaintTransformer(vertexPaint);
-                JFrame frame = new JFrame("Graph View");
-                frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
-                frame.getContentPane().add(vv);
-                frame.pack();
-                frame.setVisible(true);
+        }
-        public static void viewGraph(Graph<Node, Edge> g){
-                Layout<Node, Edge> layout = new KKLayout<Node, Edge>(g);
-                layout.setSize(new Dimension(800,600)); // sets the initial size of the space
-                // The BasicVisualizationServer<V,E> is parameterized by the edge types
-                BasicVisualizationServer<Node,Edge> vv =
-                new BasicVisualizationServer<Node,Edge>(layout);
-                vv.setPreferredSize(new Dimension(800,600)); //Sets the viewing area size
-                vv.getRenderContext().setVertexLabelTransformer(new ToStringLabeller<Node>());
-                vv.getRenderContext().setEdgeLabelTransformer(new ToStringLabeller<Edge>());
-                JFrame frame = new JFrame("Simple Graph View");
-                frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
-                frame.getContentPane().add(vv);
-                frame.pack();
-                frame.setVisible(true);
+        }
         static private Set<Node> BFSReversed(Node sink, DirectedGraph<Node, Edge> g, Map<Edge, Number> edgeFlowMap) {
                 Set<Node> result = new HashSet<Node>();

src/main/java/weka/clusterers/forMetisMQI/Uncoarse.java

-                      r11
+                      r14
 import java.util.Stack;
-import weka.clusterers.forMetisMQI.coarse.CoarserGraphElement;
 import weka.clusterers.forMetisMQI.graph.Bisection;
 import weka.clusterers.forMetisMQI.graph.Node;
 import weka.clusterers.forMetisMQI.graph.Subgraph;
 import weka.clusterers.forMetisMQI.graph.UndirectedGraph;
+import weka.clusterers.forMetisMQI.util.CoarserGraphElement;
 public class Uncoarse {
         private boolean projectedBelongs(Node u, Bisection partition, CoarserGraphElement cge) {
+        private static boolean projectedBelongs(Node u, Bisection partition, CoarserGraphElement cge) {
                 Subgraph s = partition.getSubgraph();
                 Node mappedNode = cge.getMap().get(u);
 …
          * @param cge
          */
         public Bisection uncoarseOneStep(Bisection partition, CoarserGraphElement cge) {
+        private static Bisection uncoarseOneStep(Bisection partition, CoarserGraphElement cge) {
                 UndirectedGraph projected = cge.getProjected();
                 Subgraph part = new Subgraph(projected);
 …
+        }
+        public Bisection uncoarse(Stack<CoarserGraphElement> stack, Bisection partition) {
+        /**
+         * Given a bisection of the finer graph and the stack of graphs which yielded the finer graph,
+         * it returns the bisection projected into the coarser graph.
+         * @param stack
+         * @param partition
+         * @return
+         */
+        public static Bisection uncoarse(Stack<CoarserGraphElement> stack, Bisection partition) {
                 while(stack.size() > 0) {
                         CoarserGraphElement element = stack.pop();
 …
                 return partition;
+        }
-        public Uncoarse() {
+        }
+}

src/main/java/weka/clusterers/forMetisMQI/graph/UndirectedGraph.java

r11	r14
122	122	return sb.toString();
123	123	}
124
125	124	}

src/main/java/weka/clusterers/forMetisMQI/util/CoarserGraphElement.java

r11	r14
1		package weka.clusterers.forMetisMQI.~~coarse~~;
	1	package weka.clusterers.forMetisMQI.util;
2	2
3	3	import java.util.Map;

Note: See TracChangeset for help on using the changeset viewer.