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This question will probably require some compiler knowledge to answer. I am currently working on a project where I will be creating an array that may be either



int [veryLargeNumber][2]

It makes no difference logically but I was thinking that the form (and therefore size) in memory may differ (perhaps the question should be, are the compilers clever enough to rearrange arrays to suit them)?

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It seems that the first option would have less overhead, since it's equivalent to two large 1D arrays, while the second option is equivalent to a large number of small 1D arrays. The first option requires less array instances - the 2D array and 2 1-D array. The second option requires the 2D array instance and many 1-D array instances. – Eran Feb 23 at 11:35
I don't believe there is one, no. There would be if the second dimension were not specified but here you specify it. – fge Feb 23 at 11:35
@Eran no in fact; it is the multianewarray which is used when you have a "fixed dimension" multiple array – fge Feb 23 at 11:37
If you have a fixed size of 2 and this low level optimization is really important go for a one int[2N], instead of int[2][N] or int[N][2]. – martijnn2008 Feb 23 at 11:43
@fge multianewarray provides a shorter bytecode for the all-dims-known case, but it still allocates separate array objects at each level and links them together; see the third paragraph of… – dave_thompson_085 Feb 23 at 19:48
up vote 53 down vote accepted

Java only actually implements single dimensional arrays. It has multi-dimensional types, however two dimensional arrays are actually implemented as an array of arrays. Each array has an overhead of about 16 bytes. You are better off with int[2][x] to minimise overhead.

You can avoid this issue entirely by using helper methods.

final int[] array = new int[2 * veryLargeNumber];

public int get(int x, int y) {
    return array[idx(x, y)];

public void set(int x, int y, int val) {
    array[idx(x, y)] = val;

private int idx(int x, int y) {
    return x * 2 + y; // or x * veryLargeNumber + y;

To provide this to yourself, each object hash a unique, generate hashCode which is stored in its Object header.

You can see from that each nested array is an object in itself.

int[][] array = new int[20][2];
for (int[] arr : array) {

prints the internal representation of an int[] which is [I followed by @ followed by the hashCode() stored in the header. This is not as some believe, the address of the object. The address can't be used as the hashCode, as the object can be moved at any time by the GC (unless you have a JVM which never moves objects)


You can see how much memory is used if you turn off the TLAB with -XX:-UseTLAB

public static void main(String[] args) {

    long used1 = memoryUsed();
    int[][] array = new int[200][2];

    long used2 = memoryUsed();
    int[][] array2 = new int[2][200];

    long used3 = memoryUsed();
    if (used1 == used2) {
        System.err.println("You need to turn off the TLAB with -XX:-UseTLAB");
    } else {
        System.out.printf("Space used by int[200][2] is " + (used2 - used1) + " bytes%n");
        System.out.printf("Space used by int[2][200] is " + (used3 - used2) + " bytes%n");

public static long memoryUsed() {
    Runtime rt = Runtime.getRuntime();
    return rt.totalMemory() - rt.freeMemory();


Space used by int[200][2] is 5720 bytes
Space used by int[2][200] is 1656 bytes
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Err no. multianewarray :p – fge Feb 23 at 11:37
@fge Java has multi-dimensional types, however it is still an array of arrays and those nested arrays have an Object header like all other objects. – Peter Lawrey Feb 23 at 11:46
An other interesting point could be performance, if you have a really big array and access it in a tight loop, memory locality could be an issue. For this case (if a profiler shows you there is a performance bottleneck) you can arrange the elements so they are accessed continously. (which may be x*2 + y or y*length + x depending on your control flow. – Falco Feb 23 at 13:28
The memory address also cannot be directly used as the hash code because 64 bit addresses do not fit in 32 bit integers, and here in 2016, 32 bit JVMs are becoming less and less common. – Snowman Feb 23 at 22:54
@Snowman even in 32-bit JVMs the address cannot be used because objects are moved by the GC and the hashCode of an object cannot change. – Peter Lawrey Feb 24 at 8:45

Interesting question, I ran a simple program

int N = 100000000;
long start = System.currentTimeMillis();
int[][] a = new int[2][N];
System.out.println(System.currentTimeMillis() - start + " ms");

Which resulted in 160 ms. Then I ran the other variant

int N = 100000000;
long start = System.currentTimeMillis();
int[][] a = new int[N][2];
System.out.println(System.currentTimeMillis() - start + " ms");

Which resulted in 30897 ms. So indeed the first option seems much better.

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he is asking about how it is implemented in JNDI ,to understand that which is more usable code. ?? this is not the answer he asked.. – Vikrant Kashyap Feb 23 at 11:44
@VikrantKashyap Well to be honest, I think it is an interesting performance observation. And while it may not answer his question directly, it may help in deciding which way to go. – radoh Feb 23 at 11:47
Interesting,Sher Alams answer supports yours. – John Paul Feb 23 at 14:14

creates two arrays with verlarnumber of items


creates verylargenumber of arrays having two items.

Note: array creation has a overhead. so preferred the first one

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Also, the second option causes more memory fragmentation. Accessing random places in memory is slower. – Nayuki Feb 23 at 17:30
This is the clearest and most straight to the point answer. – David Grinberg Feb 23 at 22:30

In short, int[2][veryLargeNumber] is the better approach.

The one suggested by Peter (int[] array = new int[2 * veryLargeNumber];) is even better, or if memory is your problem, then you can use longs instead of integers (long[] array = new long[veryLargeNumber];) and bitwise operators, or better yet, use caching whenever possible.

Beware! The representation [I@106d69c in most JDK/JRE distributions (Sun's & Oracle's) is given by System.identityHashCode() and it's not guaranteed to be unique per each object. So you cannot rely on System.out.println(array); to check the unicity of the array object.

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