# solving this NullPointerException on java's binarySearch

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)){

}
}
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

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];

//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++){

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

String NAME = line;

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

citiesIds[auxCityIndex] = NAME;

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

int p = Integer.parseInt(line);

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

//      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);

}

}

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

int routesToFind = Integer.parseInt(line);

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

//  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
``````
-

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.

-
Ah, much better. –  CPerkins Aug 9 '09 at 22:34

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?

-
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