I'm new to Java 8 and currently failing to grasp Streams fully, is it possible to fill an array using the Stream functional operations? This is an example code of how I would do it with a standard for loop:

public static void testForLoop(){
    String[][] array = new String[3][3];
    for (int x = 0; x < array.length; x++){
        for (int y = 0; y < array[x].length; y++){
            array[x][y] = String.format("%c%c", letter(x), letter(y));

public static char letter(int i){
    return letters.charAt(i);

If it is possible how would I do it using Stream? If it is possible, is it convenient (performance and readability wise)?

  • Not terribly relevant, but I think you meant array[x].length for the inner loop. – Stuart Marks Sep 26 '14 at 4:22
  • Yes I definitely did – Angelo Alvisi Sep 28 '14 at 17:48
  • Just use a standard for-loop. Your code is simple and plainly obvious to the reader. As elegant as a streams solution may seem, I don't see it adds anything here. – The Coordinator Oct 2 '14 at 7:14
  • @SaintHill Because the actual code uses a 3d array with tens to hundreds of thousands of different objects and I wanted to test if a Stream approach was faster than a standard for-loop :) – Angelo Alvisi Oct 14 '14 at 0:49
  • Slightly faster with a total size of the array superior to 200 (that could be processor dependent) with normal stream. Much faster with a total size superior to 1000 with parallel streams. (I'm on a QuadCore i5-3570k, 64bit – Angelo Alvisi Oct 15 '14 at 1:45

Here you have a solution that produces the array instead of modifying a previously defined variable:

String[][] array = 
    IntStream.range(0, 3)
             .mapToObj(x -> IntStream.range(0, 3)
                                     .mapToObj(y -> String.format("%c%c", letter(x), letter(y)))

If you want to use parallel streams then it's very important to avoid side effects like modifications of a variable (array or object). It might lead to race conditions or other concurrency issues. You can read more about that in java.util.stream package documentation - see Non-interference, Stateless behaviors and Side-effects sections.

| improve this answer | |
  • Actually this seems a bit more convolute than the final solution I found myself, I should test which one is faster though. – Angelo Alvisi Nov 18 '14 at 23:16
  • Right - it's less readable than other solutions but it has the advantage that it doesn't modify an outside variable what is generally very important when you want to use parallel streams - think of race conditions. – Lukasz Wiktor Nov 19 '14 at 13:56
  • You can read more about that in the java.util.stream package documentation (Non-interference, Stateless behaviors and Side-effects sections). – Lukasz Wiktor Nov 19 '14 at 14:11
  • I'm trying to understand what I'm missing here. Isn't Arrays.setAll simply a shortcut for .mapToObj(...).toArray(...).toArray(...)? – Angelo Alvisi Nov 20 '14 at 12:32
  • @AngeloAlvisi No, Arrays.setAll is iterating over the passed array and setting values produced by given function. Look at the source code: hg.openjdk.java.net/jdk8/jdk8/jdk/file/687fd7c7986d/src/share/… – Lukasz Wiktor Nov 20 '14 at 13:01

The best way is a combination of the two approaches of Stuart Marks’ answer.

IntStream.range(0, array.length).forEach(x -> Arrays.setAll(
    array[x], y -> String.format("%c%c", letter(x), letter(y))));

The reasoning leading to the solution is that “filling a multi-dimensional array” in Java means, “iterating over the outer array(s)” followed by “filling a one-dimensional array” as String[][] is just a an array of String[] elements in Java. In order to set their elements you have to iterate over all String[] elements and since you need the index to calculate the final value, you can’t use Arrays.stream(array).forEach(…). So for the outer array iterating over the indices is appropriate.

For the inner arrays the search is for the best solution for modifying an (one-dimensional) array. Here, Arrays.setAll(…,…) is appropriate.

| improve this answer | |

There are a couple ways to do this.

One way is with a couple nested IntStreams over the row and column indexes:

String[][] testStream() {
    String[][] array = new String[3][3];
    IntStream.range(0, array.length).forEach(x -> 
        IntStream.range(0, array[x].length).forEach(y -> 
            array[x][y] = String.format("%c%c", letter(x), letter(y))));
    return array;

Another way which seems promising is to use Array.setAll instead of streams. This is great for generating values for a one-dimensional array: you provide a function that maps from the array index to the value you want assigned in the array. For example, you could do this:

String[] sa = new String[17];
Arrays.setAll(sa, i -> letter(i));

Unfortunately it's less convenient for multidimensional arrays. The setAll method that takes a lambda that returns a value that's assigned to the array location at that index. If you've created a multidimensional array, the higher dimensions are already initialized with lower dimensional arrays. You don't want to assign to them, but you do want the implicit looping behavior of setAll.

With this in mind, you can use setAll to initialize the multidimensional array like this:

static String[][] testArraySetAll() {
    String[][] array = new String[3][3];
    Arrays.setAll(array, x -> {
        Arrays.setAll(array[x], y -> String.format("%c%c", letter(x), letter(y)));
        return array[x];
    return array;

The inner setAll is reasonably nice, but the outer one has to have a statement lambda that calls the inner setAll and then returns the current array. Not too pretty.

It's not clear to me that either of these approaches is any better than the typical nested for-loops.

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After working and testing around this is the best option I came with:

IntStream.range(0, array.length).forEach(x -> Arrays.setAll(array[x], y -> builder.build2Dobject(x, y)));

(In the specific case I proposed it would be:

IntStream.range(0, array.length).forEach(x -> Arrays.setAll(array[x], y -> String.format("%c%c", letter(x), letter(y)));

for a 3d array it's simply:

IntStream.range(0, array.length).forEach(x -> IntStream.range(0, array[x].length).forEach(y -> Arrays.setAll(array[x][y], z -> builder.build3Dobject(x, y, z))));

this is the code that lets the program choose the fastest option:

public static void fill2DArray(Object[][] array, Object2DBuilderReturn builder){
    int totalLength = array.length * array[0].length;
    if (totalLength < 200){
        for(int x = 0; x < array.length; x++){
            for (int y = 0; y < array[x].length; y++){
                array[x][y] = builder.build2Dobject(x, y);
    } else if (totalLength >= 200 && totalLength < 1000){
        IntStream.range(0, array.length).forEach(x -> Arrays.setAll(array[x], y -> builder.build2Dobject(x, y))); 
    } else {
        IntStream.range(0, array.length).forEach(x -> Arrays.setAll(array[x], y -> builder.build2Dobject(x, y))); 

the functional interface:

public interface Object2DBuilderReturn<T> {
    public T build2Dobject(int a, int b);
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