I can write:

AClass[] array = {object1, object2}

I can also write:

AClass[] array = new AClass[2];
...
array[0] = object1;
array[1] = object2;

but I can't write:

AClass[] array;
...
array = {object1, object2};

Why is this blocked by Java?

I know how to work around it, but from time to time it would be simpler.

For example:

public void selectedPointsToMove(cpVect coord) {

    if (tab == null) {
        if (arePointsClose(coord, point1, 10)) {
            cpVect[] tempTab = {point1};
            tab = tempTab;
        } else if (arePointsClose(point2, coord, 10)) {
            cpVect[] tempTab = {point2};
            tab = tempTab;
        } else {
            cpVect[] tempTab = {point1,point2};
            tab = tempTab;
        }
    }
}

This simple question that has been bugging me since I learned how to play with arrays in Java.

  • Sorry about the text format but for some reason in China the text layout buttons don't appear :S – Jason Rogers Mar 22 '11 at 6:34
  • for code, just make sure it is indented with 4 spaces or more. – Mat Mar 22 '11 at 6:37
  • the other problem is that you had TAB characters in the code you pasted. This messes up the formatting. – Stephen C Mar 22 '11 at 6:37
  • Oki thanks, eclipse uses tabs in the indentation so when I copy paste it messes things up . thanks for the edit – Jason Rogers Mar 22 '11 at 6:41
  • Eclipse can and should be reconfigured to not use TAB characters for indentation. Please don't use that as an excuse. – Stephen C Jan 16 '15 at 11:25
up vote 133 down vote accepted

Why is this blocked by Java?

You'd have to ask the Java designers. There might be some subtle grammatical reason for the restriction. Note that some of the array creation / initialization constructs were not in Java 1.0, and (IIRC) were added in Java 1.1.

But "why" is immaterial ... the restriction is there, and you have to live with it.

I know how to work around it, but from time to time it would be simpler.

You can write this:

AClass[] array;
...
array = new AClass[]{object1, object2};
  • 7
    w/o the new declaration there would be no difference between a statement block and array initializer (like in javascript, which can be misleading} – bestsss Mar 22 '11 at 7:39
  • 9
    It would be confusing ... and hard to parse. Consider if {o1()} was a valid expression and {o1();} was a valid statement block. The parser has to get to the '}' or ';' before it can distinguish the two cases. The grammatical issue is not subtle at all!! – Stephen C Mar 22 '11 at 11:12
  • Could you elaborate on which array creation syntaxes were not supported in Java 1.0? – Nayuki Aug 11 '16 at 4:51
  • @StephenC Does not answer my comment. The OP showed 3 syntaxes. The first two are supported in modern Java. You claimed that Java 1.0 and 1.1 have different support. I am asking you, which syntaxes were supported in Java 1.0? – Nayuki Nov 25 '16 at 23:33
  • I thought you said "why". The information you require is in the Java 1.0 specification. You can find it using Google. (This knowledge is of no practical use, since no sane person has developed code to be compatible with Java 1.0 for at least TWENTY years. Hence, elaborating in my answer is pointless, IMO.) – Stephen C Aug 22 '17 at 6:49

I'll try to answer the why question: The Java array is very simple and rudimentary compared to classes like ArrayList, that are more dynamic. Java wants to know at declaration time how much memory should be allocated for the array. An ArrayList is much more dynamic and the size of it can vary over time.

If you initialize your array with the length of two, and later on it turns out you need a length of three, you have to throw away what you've got, and create a whole new array. Therefore the 'new' keyword.

In your first two examples, you tell at declaration time how much memory to allocate. In your third example, the array name becomes a pointer to nothing at all, and therefore, when it's initialized, you have to explicitly create a new array to allocate the right amount of memory.

I would say that (and if someone knows better, please correct me) the first example

AClass[] array = {object1, object2}

actually means

AClass[] array = new AClass[]{object1, object2};

but what the Java designers did, was to make quicker way to write it if you create the array at declaration time.

The suggested workarounds are good. If the time or memory usage is critical at runtime, use arrays. If it's not critical, and you want code that is easier to understand and to work with, use ArrayList.

  • 1
    This is a shortcut as you have stated, Quoting Oracle: "Alternatively, you can use the shortcut syntax to create and initialize an array". The reason maybe that an array must be given some space in memory using new at some point. New is implicit in the shortcut, but the shortcut is valid only in the declaration. Elsewhere, there is no shortcut allowed, and new is mandatory. – mins Aug 2 '14 at 13:17
  • 2
    I'm sorry, but your attempt at answering the "why" question does not hold water. The compiler would be able to work out how big the array needed to be by counting the expressions between the { and the } ... just like it does for the initializer forms that are allowed. – Stephen C Feb 6 '16 at 4:03

I can't answer the why part.

But if you want something dynamic then why don't you consider Collection ArrayList.

ArrrayList can be of any Object type.

And if as an compulsion you want it as an array you can use the toArray() method on it.

For example:

            ArrayList<String> al = new ArrayList<String>();
            al.add("one");
            al.add("two");
            String[] strArray = (String[]) al.toArray(new String[0]);

I hope this might help you.

For those of you, who doesn't like this monstrous new AClass[] { ... } syntax, here's some sugar:

public AClass[] c(AClass... arr) { return arr; }

Use this little function as you like:

AClass[] array;
...
array = c(object1, object2);

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