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I'm solving sphere's online judge shortest path problem. This bit of code is giving me trouble:

int sourceIndex = Arrays.binarySearch(citiesIds,source);

int destinationIndex= Arrays.binarySearch(citiesIds, destination);

double [] distancesFromSource = g.distancesFrom(sourceIndex);

int destinationDistance = (int)distancesFromSource[destinationIndex];

System.out.println(destinationDistance);

How can I avoid this NullPointerException?

The complete code:

/*
 * To change this template, choose Tools | Templates
 * and open the template in the editor.
 */

package tshpath;



import java.io.*;
import java.util.*;

class Graph {

    private double [][]edges;
    /*el argumento es el número de vértices en este grafo*/
    public Graph(int vertices){

        edges = new double [vertices][vertices];
    }

    /*añade una arista de peso 1 a partir de i hasta j*/
    public void addEdge(int i, int j){

        edges[i][j]=1;
    }

    /*añade aristas de peso 1 de i hasta j y de j hasta i*/
    public void addUndirectedEdge (int i, int j){

        edges[i][j]=1;
        edges[j][i]=1;
    }

    /*retorna el costo de la arista de i y j*/
    public double getEdge(int i, int j){

        return edges[i][j];
    }

    /*retorna true si hay una arista entre i y j*/
    public boolean hasEdge (int i, int j){

        return edges[i][j] !=0.0;
    }

    /*fija el peso de la arista entre i y j*/
    public void setEdge (int i, int j, double weight){

        edges [i][j] = weight;
    }

    /*fija el peso de la arista entre i y j y entre j e i*/
    public void setUndirectedEdge (int i, int j, double weight){

        edges[i][j] = weight;
        edges[j][i] = weight;
    }

    /*retorna el número de vértices en este grafo*/

    public int size() {
        return edges.length;
    }

    /*retorna una lista de los vecinos del vértice i*/

    public List <Integer> neighbors (int i){

        List <Integer> result = new ArrayList<Integer>();
        for (int j=0; j<size();j++){
            if (hasEdge(i,j)){

                result.add(j);
            }
        }
        return result;
    }

    /*retorna 0 si i y j son idénticos, retorna infinito si no hay arista entre ellos o si
     * el peso entre las aristas si hay uno*/


    public double getCost(int i , int j){

        if (i==j){
            return 0.0;
        }
        if (edges[i][j]==0.0){
            return Double.POSITIVE_INFINITY;
        }

        return edges[i][j];
    }

    /*dijkstra, retorna el índice del elemento más pequeño de distances, ignorando
     * aquellos en visited*/

    protected int cheapest (double [] distances, boolean [] visited){

        int best =-1;
        for (int i=0; i<size(); i++){

             if (!visited[i]
               && ((best < 0) || (distances[i] < distances[best]))) {

              best =i;
        }
    }
        return best;

}

    public double [] distancesFrom (int source){

        double [] result = new double[size()];

        java.util.Arrays.fill(result, Double.POSITIVE_INFINITY);

        result [source]=0;

        boolean []visited = new boolean [size()];
        for (int i =0; i<size();i++){

            int vertex = cheapest (result,visited);
            visited [vertex]=true;

            for (int j =0; j<size();j++){
                result [j] = Math.min(result[j], result[vertex]+getCost(vertex,j));
            }
        }
        return result;


    }



    /*test Graph*/
    /*public static void main(String args[]){

        Graph g = new Graph(5);

        g.setEdge(1,2,1);
        g.setEdge(1,3,3);

        g.setEdge(2,1,1);
        g.setEdge(2,3,1);
        g.setEdge(2,4,4);

        g.setEdge(3,1,3);
        g.setEdge(3,2,1);
        g.setEdge(3,4,1);

        g.setEdge(4,2,4);
        g.setEdge(4,3,1);

       double [] distancesFrom1 = g.distancesFrom(1);
       double [] distancesFrom2 = g.distancesFrom(2);

       System.out.println((int)distancesFrom1[4]);
       System.out.println((int)distancesFrom2[4]);

    }*/
}



public class Main {

    /**
     * @param args the command line arguments
     */
    public static void main(String[] args) throws Exception {
        // TODO code application logic here

        BufferedReader r = new BufferedReader (new FileReader(new File("C:\\Documents and Settings\\Administrator\\My Documents\\NetBeansProjects\\TSHPATH\\src\\tshpath\\TSHPATHInput.txt")));
        //BufferedReader r1 = new BufferedReader (new InputStreamReader(System.in));

        String line = r.readLine();

       // System.out.println(line); //Linea de prueba

        int s = Integer.parseInt(line);

        for (int testIndex=0; testIndex<s; testIndex++){

        String [] citiesIds = new String[10000];


        line = r.readLine();

        //System.out.println(line); //Linea de prueba

        int n = Integer.parseInt(line);

        int graphSize = n +1; // por el problema de indexación desde 0 en el arreglo
        Graph g = new Graph (graphSize);

            for (int cityIndex=0; cityIndex<n;cityIndex++){


                line = r.readLine();

          //      System.out.println(line); //Linea de prueba

                String NAME = line;


                int auxCityIndex = cityIndex +1; // para mantener la consistencia en la indexación

                citiesIds[auxCityIndex] = NAME;

                line = r.readLine();

            //    System.out.println(line); //Linea de prueba

                int p = Integer.parseInt(line);


                for (int neighborIndex=0;neighborIndex<p;neighborIndex++){

                    line = r.readLine();

              //      System.out.println(line); //Linea de prueba

                    String [] brokenLine = line.split(" ");

                    int cityToConnect = Integer.parseInt(brokenLine[0]);
                    int weightOfConnection = Integer.parseInt(brokenLine[1]);

                    g.setEdge(auxCityIndex,cityToConnect, weightOfConnection);

                }



            }

            line = r.readLine();

            //System.out.println(line); //Linea de prueba

            int routesToFind = Integer.parseInt(line);



            for (int routesIndex=0; routesIndex<routesToFind; routesIndex++){

                line = r.readLine();

              //  System.out.println(line); //Linea de prueba

                String [] cityNames = line.split(" ");

                String source = cityNames[0];
                String destination = cityNames[1];



                int sourceIndex = Arrays.binarySearch(citiesIds,source);

                int destinationIndex= Arrays.binarySearch(citiesIds, destination);

                double [] distancesFromSource = g.distancesFrom(sourceIndex);

                int destinationDistance = (int)distancesFromSource[destinationIndex];

                System.out.println(destinationDistance);


                }


        }

    }

}

the input file:

1
4
gdansk
2
2 1
3 3
bydgoszcz
3
1 1
3 1
4 4
torun
3
1 3
2 1
4 1
warszawa
2
2 4
3 1
2
gdansk warszawa
bydgoszcz warszawa
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2 Answers 2

up vote 5 down vote accepted

You don't completely fill citiesIds, so it still contains nulls when you do a binary search on it. Which is why you get an NPE.

You should only make the array as big as the number of items it will contain. I.e. do new String[n] once you know n instead of doing new String[10000]. Then fill the array and do the binary search. This way the array won't contain nulls and you won't get an NPE.

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Ah, much better. –  CPerkins Aug 9 '09 at 22:34
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Challenging, given that you don't even tell us whether it's the first or second binarySearch which fails, and the design makes for a lot of work testing.

But first, I'd look at your citiesId array - it doesn't seem to be sorted, and that's a requirement for binarySearch, no?

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an unsorted array will never give you a NPE for being unsorted. –  omgzor Aug 9 '09 at 23:00
    
I hear you say "never", but "undefined" rings louder in my mind. Still, I've voted sep2k's answer up, since the partially-filled citiiesId array is the most likely culprit. –  CPerkins Aug 10 '09 at 3:20
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