The limit of int is from -2147483648 to 2147483647.

If I input

int i = 2147483648;

then Eclipse will prompt a red underline under "2147483648".

But if I do this:

int i = 1024 * 1024 * 1024 * 1024;

it will compile fine.

public class Test {
    public static void main(String[] args) {        

        int i = 2147483648;                   // error
        int j = 1024 * 1024 * 1024 * 1024;    // no error


Maybe it's a basic question in Java, but I have no idea why the second variant produces no error.

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    Even if the compiler would normally "collapse" the computation into a single value as an optimization, it will not do so if the result would be an overflow, since no optimization should change the behavior of the program. – Hot Licks Jul 10 '14 at 12:24
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    And it can't interpret 2147483648 : this literal makes no sense. – Denys Séguret Jul 10 '14 at 12:25
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    And Java does not report integer overflows -- the operation "fails" silently. – Hot Licks Jul 10 '14 at 12:28
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    @JacobKrall: C# will report this as a defect regardless of whether checked-ness is turned on; all computations that consist of only constant expressions are automatically checked unless inside an unchecked region. – Eric Lippert Jul 10 '14 at 16:20
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    I discourage you from asking "why not" questions on StackOverflow; they are difficult to answer. A "why not" question presupposes that the world obviously ought to be a way that it is not, and that there needs to be a good reason for it to be that way. This assumption is almost never valid. A more precise question would be something like "what section of the specification describes how constant integer arithmetic is computed?" or "how are integer overflows handled in Java?" – Eric Lippert Jul 10 '14 at 20:30

There's nothing wrong with that statement; you're just multiplying 4 numbers and assigning it to an int, there just happens to be an overflow. This is different than assigning a single literal, which would be bounds-checked at compile-time.

It is the out-of-bounds literal that causes the error, not the assignment:

System.out.println(2147483648);        // error
System.out.println(2147483647 + 1);    // no error

By contrast a long literal would compile fine:

System.out.println(2147483648L);       // no error

Note that, in fact, the result is still computed at compile-time because 1024 * 1024 * 1024 * 1024 is a constant expression:

int i = 1024 * 1024 * 1024 * 1024;


   0: iconst_0      
   1: istore_1      

Notice that the result (0) is simply loaded and stored, and no multiplication takes place.

From JLS §3.10.1 (thanks to @ChrisK for bringing it up in the comments):

It is a compile-time error if a decimal literal of type int is larger than 2147483648 (231), or if the decimal literal 2147483648 appears anywhere other than as the operand of the unary minus operator (§15.15.4).

| improve this answer | |
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    And for the multiplication the JLS says, If an integer multiplication overflows, then the result is the low-order bits of the mathematical product as represented in some sufficiently large two's-complement format. As a result, if overflow occurs, then the sign of the result may not be the same as the sign of the mathematical product of the two operand values. – Chris K Jul 10 '14 at 12:30
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    Excellent answer. Some people seem to have the impression that overflow is some kind of error or failure, but it is not. – Wouter Lievens Jul 10 '14 at 14:59
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    @iowatiger08 The language semantics are outlined by the JLS, which is independent of the JVM (so it shouldn't matter which JVM you use). – arshajii Jul 10 '14 at 20:17
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    @WouterLievens, overflow is normally an "unusual" condition, if not an outright error condition. It is a result of finite-precision math, which most people are not intuitively expecting to happen when they do math. In some cases, like -1 + 1, it's harmless; but for 1024^4 it could blindside people with totally unexpected results, far from what they would expect to be seeing. I think there should be at least a warning or note to the user, and not silently ignore it. – Phil Perry Jul 11 '14 at 15:48
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    @iowatiger08: The size of int is fixed; it does not depend on the JVM. Java is not C. – Martin Schröder Jul 17 '14 at 11:55

1024 * 1024 * 1024 * 1024 and 2147483648 do not have the same value in Java.

Actually, 2147483648 ISN'T EVEN A VALUE(although 2147483648L is) in Java. The compiler literally does not know what it is, or how to use it. So it whines.

1024 is a valid int in Java, and a valid int multiplied by another valid int, is always a valid int. Even if it's not the same value that you would intuitively expect because the calculation will overflow.


Consider the following code sample:

public static void main(String[] args) {
    int a = 1024;
    int b = a * a * a * a;

Would you expect this to generate a compile error? It becomes a little more slippery now.
What if we put a loop with 3 iterations and multiplied in the loop?

The compiler is allowed to optimize, but it can't change the behaviour of the program while it's doing so.

Some info on how this case is actually handled:

In Java and many other languages, integers will consist of a fixed number of bits. Calculations that don't fit in the given number of bits will overflow; the calculation is basically performed modulus 2^32 in Java, after which the value is converted back into a signed integer.

Other languages or API's use a dynamic number of bits (BigInteger in Java), raise an exception or set the value to a magic value such as not-a-number.

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    For me, your statement, "2147483648 ISN'T EVEN A VALUE(although 2147483648L is)," really cemented the point that @arshajii was trying to make. – kdbanman Jul 11 '14 at 18:10
  • Ah, sorry, yes, that was me. I was missing the notion overflow / modular arithmetic in your answer. Note that you can roll back if you don't agree with my edit. – Maarten Bodewes Jul 14 '14 at 16:54
  • @owlstead Your edit is factually correct. My reason for not including it was that: regardless of how 1024 * 1024 * 1024 * 1024 is handled I really wanted to emphasise that it is not the same thing as writing 2147473648. There are many ways(and you've listed a few) that a language could potentially deal with it. It's reasonably separated, and useful. So I'll leave it. Lots of information becomes increasingly necessary when you have a high ranked answer on a popular question. – Cruncher Jul 14 '14 at 16:59

I have no idea why the second variant produces no error.

The behaviour that you suggest -- that is, the production of diagnostic message when a computation produces a value that is larger than the largest value that can be stored in an integer -- is a feature. For you to use any feature, the feature must be thought of, considered to be a good idea, designed, specified, implemented, tested, documented and shipped to users.

For Java, one or more of the things on that list did not happen, and therefore you don't have the feature. I don't know which one; you'd have to ask a Java designer.

For C#, all of those things did happen -- about fourteen years ago now -- and so the corresponding program in C# has produced an error since C# 1.0.

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    This doesn't add anything helpful. While I don't mind taking stabs at Java, it didn't answer the OPs question at all. – Seiyria Jul 10 '14 at 20:08
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    @Seiyria: The original poster is asking a "why not?" question -- "why is the world not the way I think it should be?" is not a precise technical question about actual code, and this is therefore a bad question for StackOverflow. The fact that the correct answer to a vague and nontechnical question is vague and nontechnical should be unsurprising. I encourage the original poster to ask a better question, and avoid "why not?" questions. – Eric Lippert Jul 10 '14 at 20:22
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    @Seiyria: The accepted answer I note also does not answer this vague and non-technical question; the question is "why is this not an error?" and the accepted answer is "because it's legal". This is simply restating the question; answering "why is the sky not green?" with "because it's blue" doesn't answer the question. But since the question is a bad question, I don't at all blame the answerer; the answer is a perfectly reasonable answer to a poor question. – Eric Lippert Jul 10 '14 at 20:26
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    Mr. Eric, This is the question which I posted : " Why int i = 1024 * 1024 * 1024 * 1024; without error report in eclipse? ". and the answer of arshajii is exactly what I what (maybe more). Sometimes I can't express any questions in a very accurate way. I think that's why there are some people modify some posted questions more accurate in Stackoverflow. I think if I want get the answer "because it's legal", I won't post this question. I will try my best to post some "regular questions", but please understand someone just like me who is a student and not so professional. Thanks. – WUJ Jul 11 '14 at 12:35
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    @WUJ This answer IMHO provides additional insight and perspective. After reading all the answers I found this answer to provide just as much validity as the other answers provided. Also it raises the awareness that developers are not the only implementors of some software products. – SoftwareCarpenter Jul 12 '14 at 2:28

In addition to arshajii's answer I want to show one more thing:

It is not the assignment that causes the error but simply the use of the literal. When you try

long i = 2147483648;

you'll notice it also causes a compile-error since the right hand side still is an int-literal and out of range.

So operations with int-values (and that's including assignments) may overflow without a compile-error (and without a runtime-error as well), but the compiler just can't handle those too-large literals.

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    Right. Assigning an int to a long includes an implicit cast. But the value can never exist as the int in the first place to get casted :) – Cruncher Jul 11 '14 at 18:14

A: Because it is not an error.

Background: The multiplication 1024 * 1024 * 1024 * 1024 will lead to an overflow. An overflow is very often a bug. Different programming languages produce different behavior when overflows happen. For example, C and C++ call it "undefined behavior" for signed integers, and the behavior is defined unsigned integers (take the mathematical result, add UINT_MAX + 1 as long as the result is negative, subtract UINT_MAX + 1 as long as the result is greater than UINT_MAX).

In the case of Java, if the result of an operation with int values is not in the allowed range, conceptually Java adds or subtracts 2^32 until the result is in the allowed range. So the statement is completely legal and not in error. It just doesn't produce the result that you may have hoped for.

You can surely argue whether this behavior is helpful, and whether the compiler should give you a warning. I'd say personally that a warning would be very useful, but an error would be incorrect since it is legal Java.

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