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Basically, I want to create a 2-D array that grows in size at runtime. Could I do this using a vector in Java?

Would these be right then?

int [] [] x = new x [100] [100];

Vector x= new Vector();

To add elements into the array-

for i=0 to 99
   for j=0 to 99
   x.addElement(x[i] [j]);

essentially, it would be just the same like referencing any other object, only here, I've to specify the index numbers as well, right?

I'm a novice at Java. So I'd appreciate any help!

share|improve this question
Vector is more or less deprecated in Java, as compared to ArrayList. –  Louis Wasserman Nov 14 '12 at 4:59
Why are you reusing the name x for both the array and Vector? You can't use the same variable name twice in the same scope; this is just adding confusion to your question. –  Mark Peters Nov 14 '12 at 5:04
You cannot create a 2D structure that automatically grows in both dimensions using just the collections in JDK. –  Affe Nov 14 '12 at 5:05
@Affe ArrayList of ArrayList does it count ? –  dreamcrash Nov 14 '12 at 5:10
@Makoto: I think that's why he qualified it with "more or less". It doesn't bear the deprecated tag, but new libraries take care not to ever rely on it (favouring the List interface over any particular implementation) and it has fallen out of favour with developers too. Plus, the docs recommend not using it when thread safety is not relevant. So it's de facto deprecated. For synchronized lists there are better implementations that don't bear the baggage of Vector, and are actually threadsafe where Vector requires explicit synchronization. –  Mark Peters Nov 14 '12 at 5:39

5 Answers 5

up vote 1 down vote accepted

Unfortunately, Java has neither 2D arrays nor 2D growing vectors.

It has array of arrays or vector of vectors.

In your example, you created 1D vector of Objects:

Vector x= new Vector();

is similar to growing array of type Object[] x

So, when you do


Java does "boxing", i.e. it does

y.addElement(new Integer(x[i][j]));

Since you added 100x100 elements into 1D array, you will need to calculate location yourself


So, to avoid all this, use vector of vectors like example below. The example copies newly fixed size array into vector of vectors:

   // creates fixed size 2D array with zeros
    int [] [] x = new int [50][50]; 

    // creates empty vector of vectors of integers
    // y is of type Vector<Vector<Integer>>
    // y.get(row) is of type Vector<Integer>>
    // y.get(row).get(col) is of type Integer
    Vector<Vector<Integer>> y = new Vector<Vector<Integer>>(); 

    // set the size of vector of vectors (number of rows)
    // each row will be null for now

    // enumerating rows
    for(int row=0; row<x.length; ++row) {

        log.info("row {}", row);

        // assign empty vector for row
        y.set(row, new Vector<Integer>());

        // set row size (number of columns)

        // enumerating columns of current row
        for(int col=0; col<x[row].length; ++col) {

            // setting the value for a cell
            y.get(row).set(col, x[row][col]);

share|improve this answer

It's hard to know what to suggest to you without knowing the cases you need to optimize for.

For example, this simple wrapper around a map is a sparse 2D matrix optimized for setting and getting specific indices (doesn't need to "grow" at all), but bad for iterating over all indices.

public class SparseMatrix<T> {
    private final Map<Coordinates, T> map = new HashMap<Coordinates, T>();
    private final T defaultValue;

    public SparseMatrix(T defaultValue) {
       this.defaultValue = defaultValue;

    private static class Coordinates {
        private final int[] coordinates;

        Coordinates(int... coordinates) {
            this.coordinates = coordinates;

        public boolean equals(Object o) {
            return Arrays.equals(coordinates, ((Coordinates)o).coordinates);

        public int hashCode() {
            return Arrays.hashCode(coordinates);

    public T get(int x, int y) {
        T value = map.get(new Coordinates(x, y));
        if ( value == null ) {
            return defaultValue;

    public T set(int x, int y, T val) {
        return map.put(new Coordinates(x, y), val);


SparseMatrix<Integer> matrix = new SparseMatrix<Integer>(0);
matrix.set(3, 5, 7);
int seven = matrix.get(3, 5);
int zero = matrix.get(3, 6); //not set yet, uses default    

It can also be very easily adapted to N-dimensions. Of course in production code you wouldn't roll your own, you'd use a library that does a better job.

share|improve this answer
Well, basically, Im just accepting a bunch of user values.. a matrix if you will, and i dont know the size of the matrix.. i just want my array to be able to hold enough values and not run of size.. since its a matrix.. im opting for 2-D –  Floose Nov 14 '12 at 5:25
@user1767157: A sparse matrix like this is probably your best bet then. –  Mark Peters Nov 14 '12 at 5:26

You can use ArrayList which is equivalent to dynamic array.

ArrayList<ArrayList<Integer>> aDynamicArray = new ArrayList<ArrayList<Integer>>(2);
aDynamicArray.add(new ArrayList<Integer>());
aDynamicArray.add(new ArrayList<Integer>());

Now you can use you for loop as following:

int [] [] x = new x [2] [100];
for i=0 to 1 
   for j=0 to 99
       aDynamicArray.get(i).add(x[i] [j]);


if i wanted to access x[2] [3] , how would i do that in the arraylist?

x[2][3] means value at 3rd row and 4th column. So, Fisrt line of code will change as follows: (to accomodate 3 rows)

ArrayList<ArrayList<Integer>> aDynamicArray = new ArrayList<ArrayList<Integer>>(3);
for(int i=0; i<3, i++)
    aDynamicArray.add(new ArrayList<Integer>());

then following line will give you access to x[2][3]:

share|improve this answer
Why is it required to grow it in both the directions? Where did OP mention it? –  Azodious Nov 14 '12 at 5:31
OP mentioned in comments: thanks for the replies. @Affe.. I just want it to grow in 1-D.. the second dimension lenght is fixed. –  Azodious Nov 14 '12 at 5:33
Ah, sorry about that, expected to see that in the question. However, I then have to comment that using an array of a generic type is not (well) supported in Java. You're stuck using the raw type, which should never be done in new code. –  Mark Peters Nov 14 '12 at 5:35
Nope, array of size two. i.e. two indexes. and each index holds an ArrayList and each ArrayList holds as many ints required. –  Azodious Nov 14 '12 at 5:59
x[2][3] means, 3rd row and 4th column. it means in place of creating an array with 2 indexes, you should create with 3. Check the edited answer. –  Azodious Nov 14 '12 at 6:03

In java would be something like:

int [][] x = new x [100] [100]

ArrayList <Integer> y = new ArrayList();

y.add(some number);

More information about Arraylist

Java let you have an collection compose by different data types. For Example

ArrayList<Object> list = new ArrayList<Object>();

Thus you can also use ArrayList of ArrayList and so on.

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This is not a 2d data structure, its just a re-sizable 1d list. –  Approaching Darkness Fish Nov 14 '12 at 5:14
Yep, i just add ArrayList of ArrayList in the end. –  dreamcrash Nov 14 '12 at 5:15
That's still 1d: its just {......{...}}. a 2d structure would be something like {{...}{...}{...}{...}}, such that it forms a type of grid. –  Approaching Darkness Fish Nov 14 '12 at 6:13
@ValekHalfHeart stackoverflow.com/questions/6232257/… –  dreamcrash Nov 14 '12 at 13:03

If you know the size of array (you have mentioned as 99), you can use int[][] intA = new int[100][100] and If you are familiar in java, you can implement your own Growing int[][] by monitoring array size when adding element.

Assume you are adding last element intA[99][99] = someInt at this time you can create new array int[][] newIntA = new int[intA.length+25][100]; then you need to copy content of existing intA array to newIntA

or you can use ArrayList<ArrayList<Integer>> to add your values or use ArrayList[] its your choice.

share|improve this answer
would not using a vector of vector have the same effect? –  Floose Nov 14 '12 at 5:18
ArrayList and Vetor both are implementation of List but ArrayList is preferable than Vector –  vels4j Nov 14 '12 at 5:28
Its better to know the reason if someone do down vote. –  vels4j Nov 14 '12 at 5:29

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