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I want to initialize a multidimensional private static final array of ints, indexing the values.

private static final int[][] a = { {0,0,0}, {1,2,3} };

This is NOT good for me. I found somewhere this weird syntax that I tried, but does not want to compile in anyway. I add it to clarify what I need:

private static final int[][] a;
private static {
    a = new int[NUM_TYPES][3];
    a [TYPE_EMPTY]  =   { 0, 0, 0 };
    a [TYPE_NORMAL] =   { 1, 2, 3 };

The difference is that now I should have a[TYPE_EMPTY] and a[TYPE_NORMAL] instead of a[0] and a[1]. On the practical side it's the same, but the second one makes much more clear, error-free and maintainable the source.

For example, should I add a new TYPE in future, I would not need to care what numerical index would have inside the array.

As I said, I did not find any correct syntax to do that, and the above syntax is completely wrong. Would some Java expert give me a short lesson? :) Thank you very much.

share|improve this question
If your NUM_TYPES is fixed to be 2, then you can simply use a[0] and a[1]. But what's the problem with first case? – Rohit Jain Feb 13 '13 at 9:27
Can you include the compile error you mention? – Henrik Feb 13 '13 at 9:30
The problem is that I want to initialize expliciting that 0 is TYPE_EMPTY and 1 is TYPE_NORMAL. Obviously this example is very short, I have to deal with much longer arrays. – Beppi's Feb 13 '13 at 9:30
@BeppiMenozzi. It seems like you need a HashMap here, since you are relating the arrays with some types. – Rohit Jain Feb 13 '13 at 9:31
@BeppiMenozzi. If you are mapping those types with some specific array, then you certainly need a HashMap rather than defining constants for those types, and using them as indices. Other possibility is to use an Type enum, and add types to it. And then use a HashMap<Type, Integer[]>. But I'm simply shooting in the dark, taking lots of assumptions, just on the basis of what I'm seeing. – Rohit Jain Feb 13 '13 at 9:40
up vote 7 down vote accepted

Try this -

private static final int[][] a;
private static final int NUM_TYPES  = 2;
private static final int TYPE_EMPTY = 0;
private static final int TYPE_NORMAL = 1;

static { // static initializer  block.
    a = new int[NUM_TYPES][3];
    a [TYPE_EMPTY] =  new int[]{ 0, 0, 0 };
    a [TYPE_NORMAL] = new int[]{ 1, 2, 3 };

Reference on Static initilizing block

share|improve this answer
YAY!!! It works, thank you very much Master. Two errors in my code: missing the new for each line and saying that the static block is private. – Beppi's Feb 13 '13 at 9:31

I would suggest to use enums to hold your data:

public enum TYPE {

  private int[] data; 

  TYPE(int... data) { = data;

  public int[] getData() {
     return data;

You can get an array of all enum instances by using TYPE.values().

Reasoning: I think if you have already names for your data rows, they actually mean something for you, so they deserve to be real objects. If you have a small set of "constant" instances, then enums are a good choice. This design gives you much more flexibility (you can make a defensive copy of the data array, add new attributes, you can add, rearrange or remove enum instances etc without breaking anything).

share|improve this answer

Whenever I see private static final int ... defining hard offsets etc. I try to think of a way of using enums to solve the problem because - after all - that is what they are.

I came up with this:

enum MyType {
  Normal(new int[] {1,2,3});
  // My values.
  final int [] values;
  // Constructor.
  MyType(int [] values) {
    this.values = values;

  // Getter - equivalent to the array access.
  public int get(int i) {
    return values == null ? 0 : values[i];
share|improve this answer
Oops - I see Landei has done something similar. – OldCurmudgeon Feb 13 '13 at 9:53

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