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The following compiles fine in my Eclipse:

final int j = 1/0;
// compiles fine!!!
// throws ArithmeticException: / by zero at run-time

Java prevents many "dumb code" from even compiling in the first place (e.g. "Five" instanceof Number doesn't compile!), so the fact this didn't even generate as much as a warning was very surprising to me. The intrigue deepens when you consider the fact that constant expressions are allowed to be optimized at compile time:

public class Div0 {
    public static void main(String[] args) {
        final int i = 2+3;
        final int j = 1/0;
        final int k = 9/2;

Compiled in Eclipse, the above snippet generates the following bytecode (javap -c Div0)

Compiled from "Div0.java"
public class Div0 extends java.lang.Object{
public Div0();
   0:   aload_0
   1:   invokespecial   #8; //Method java/lang/Object."<init>":()V
   4:   return

public static void main(java.lang.String[]);
   0:   iconst_5
   1:   istore_1      // "i = 5;"
   2:   iconst_1
   3:   iconst_0
   4:   idiv
   5:   istore_2      // "j = 1/0;"
   6:   iconst_4
   7:   istore_3      // "k = 4;"
   8:   return


As you can see, the i and k assignments are optimized as compile-time constants, but the division by 0 (which must've been detectable at compile-time) is simply compiled as is.

javac 1.6.0_17 behaves even more strangely, compiling silently but excising the assignments to i and k completely out of the bytecode (probably because it determined that they're not used anywhere) but leaving the 1/0 intact (since removing it would cause an entirely different program semantics).

So the questions are:

  • Is 1/0 actually a legal Java expression that should compile anytime anywhere?
    • What does JLS say about it?
  • If this is legal, is there a good reason for it?
    • What good could this possibly serve?
share|improve this question
Downvoter: care to explain how this question is unclear or not useful? Because I'll have many more questions in the future, so I'd like to know where to improve. – polygenelubricants May 29 '10 at 7:06
@polygenelubricants: I honestly don't know if such details will make you a better programmer or not. 25+ years of programming here and besides from a "language lawyer" POV and a "Java Puzzlers" POV (altough the Java puzzlers are better than this), I think there's a non-zero probability that this is just hair-splitting and wasted time (just being honest here: most of the professional developers who answered here probably had no clue and it probably didn't harm them in any way in their carreer not knowing this Java detail). I, for one, don't want to see SO infested with questions like this :( – SyntaxT3rr0r May 29 '10 at 11:21
Another way to state it would be this: to me all the time spend nitpicking/answering/commenting on questions like this (which apparently you have many more like in the future) could be spend learning, say, a bit of Lisp... And that would really make you a better programmer. – SyntaxT3rr0r May 29 '10 at 11:31
@Webinator Another viewpoint, from another multi-decade programmer. Long ago, someone I respected very much told me that if I didn't know at least three ways to break a tool, I hadn't really learned to use it. When I got into programming, I extended that metaphor to apply to edge conditions, odd behaviors, and even some nitpicking. Programming is all about managing details. – CPerkins May 29 '10 at 13:38
@Webinator: I'm more of a computer scientist than a software engineer, so language issues like this deeply interest me. I'm not only concerned with how to write better programs. I'm also concerned with how to design better languages. – polygenelubricants May 30 '10 at 4:42
up vote 32 down vote accepted

Is 1/0 actually a legal Java expression that should compile anytime anywhere?


What does JLS say about it?

Nothing specific ... apart from saying that division by zero will result in a runtime exception. However, the JLS acknowledges that possibility of runtime exceptions in the following definition:

"A compile-time constant expression is an expression denoting a value of primitive type or a String that does not complete abruptly and is composed using only the following: ..."

(Emphasis added.) So the following would NOT compile:

switch(i) {
    case 1:
    case 1 + 1: 
    case 1 / 0:  // compilation error.

If this is legal, is there a good reason for it?

Good question. I suppose that it is a way to throw ArithmeticException though that is hardly a plausible reason. A more likely reason for specifying Java this way is to avoid unnecessary complexity in the JLS and compilers to deal with an edge case that is rarely going to bite people.

But this is all by the by. The fact is that 1/0 is valid Java code, and no Java compiler should ever flag this as a compilation error. (It would be reasonable for a Java compiler to issue a warning, provided that there was a compiler switch to turn it off.)

share|improve this answer
It reasonable to not have a warning, as dividing by a compile time constant which evaluates to zero isn't a common enough cause of errors to waste development time detecting. – Pete Kirkham May 29 '10 at 10:07
@Pete - I can accept that, though there are precedents for this kind of warning. For example the Eclipse Java compiler will emit a warning if it figures out that a statement will always throw an NPE. – Stephen C May 29 '10 at 10:11
Considering the number of times I've hit a NPE vs an ArithmeticException, that's quite reasonable. – Pete Kirkham May 29 '10 at 10:20
@Pete: The compiler has to check anyway whether the expression throws an Exception, since in this case it is not to be considered a compile-time constant. So giving a warning in this case would not be so very much overhead. – Paŭlo Ebermann Feb 12 '11 at 22:46
The bytecode does not contain a switch statement, so it needs to be evaluated at compile time. One divided by zero cannot be calculated, and so you get a compilation error (the compiler is essentially running it to evaluate it). – CrackerJack9 Aug 7 '11 at 21:09

I did some digging into the Bug Database, and discovered some interesting information.

Bug ID 4178182: JLS doesnt specify behavior for 1/0 as a constant expression

The following code is illegal:

class X { static final int i = 1 / 0; }

The value of this compile-time constant is undefined, therefore this has to be a compile-time error. Guy Steele confirmed about 18 months ago that this was indeed the intended behaviour.

A compile-time constant has to have its value available statically (that's what makes it a compile-time constant ;-) For example, the value of other constants whose values are determined by a constant that contains a division by zero are undefined. This affects the semantics of switch statements, definite assigment and unassignment, etc.

Bug ID 4089107: javac treats integer division by (constant) zero as an error

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

Running the above yields:

zero.java:3: Arithmetic exception.
1 error

Bug ID 4154563: javac accepts division by zero constant expressions in case expressions.

Java compiler crashes while trying to compile next test. This test also crashes all 1.2beta4 compiler versions, but bug is absent in 12.beta3. An example and compiler diagnostics follow:

public class B {
   public static void main(String argv[]) {
         case 0/0:

Evaluation: The compiler used to report all attempts to divide by the constant zero as compile-time errors. This was fixed in beta3 so that code would be generated for division by constant zero. Unfortunately this bug was introduced. The compiler should handle a division by zero in a case expression gracefully.


So the question of whether or not 1/0 should compile was a contested topic of discussion, with some people quoting Guy Steele claiming that this should be a compile time error, and others saying that it shouldn't. It seems that ultimately it's decided that it's neither a compile-time error nor a compile-time constant.

share|improve this answer

Java explicitly requires integer division by zero to trigger an ArithmeticException. The assignment to j can't be elided because that would violate the spec.

share|improve this answer
If it compiles, certainly it can't be elided; this much is known and is acknowledged. The question is whether it should even compile in the first place. – polygenelubricants May 29 '10 at 7:10

Well, if you look into the Double class, you will see the following:

 * A constant holding the positive infinity of type
 * <code>double</code>. It is equal to the value returned by
 * <code>Double.longBitsToDouble(0x7ff0000000000000L)</code>.
public static final double POSITIVE_INFINITY = 1.0 / 0.0;

The same calculation is made in the Float class, except with floats instead of doubles. Basically, 1/0 returns a really, really big number, larger than Double.MAX_VALUE.

This following code:

public static void main(String[] args) {
    System.out.println(Double.POSITIVE_INFINITY > Double.MAX_VALUE);



Note the special case in printing out Double.POSITIVE_INFINITY. It prints out a string, though it's regarded as a double.

To answer the question, yes it is legal in Java, but 1/0 resolves to "infinity" and is treated differently from standard Doubles (or floats, or so on and so forth).

I should note that I do not have the slightest clue how or why it was implemented this way. When I see the above output, it all seems like black magic to me.

share|improve this answer
Floating point types (double and float) work differently from integers. The FP types have a way to represent infinity, which the integer types do not have. The original question was about integers, so a discussion about FP types is not really relevant. – Jesper May 29 '10 at 10:52
The question is asking if division by zero "should compile anytime anywhere?". The examples provided do use integers, but it is never explicitly asked if integers in particular can hold a value divided by zero, only if it's legal in the language. The answer is to that, then, is yes. – Corey May 29 '10 at 11:03
The question explicitly asks about the expression 1/0, not the expression 1.0/0.0, so I still agree with Jesper's comment. Imo, it was quite obvious that this was a discussion whether if, and if so why, 1/0 should be a compile time error as opposed to a runtime exception, neither of which is appropriate for floating point types. – Alderath Jul 23 '10 at 11:44

It's legal because no where is it a given that the compiler is supposed to fold constant expressions at compile time.

A "smart" compiler might compile:

a = 1 + 2


a = 3

But there's nothing that says the compiler HAS to do that. Other than that, 1/0 is a legal expression just like:

int a;
int b;

a = a/b;

is a legal expression.

At RUNTIME it throws an exception, but that's a runtime error for a reason.

share|improve this answer
int a; int b; a = a/b; throws a compile time exception by javac. – Bart Kiers May 29 '10 at 6:41
@Bart K. - there's no such thing as an "exception that is thrown at compile time". The compiler will indeed give you an error. Exceptions are only thrown at runtime. – Jesper May 29 '10 at 10:56
@Jesper, yes, you're right. – Bart Kiers May 29 '10 at 11:03
sigh The expression is legal, the compiler error is due to the uninitialized variables. Surprised I wasn't voted down for missing the semi-colon on the first expression. – Will Hartung May 29 '10 at 17:22
@Will, I didn't say anything about the expression being (il)legal. You said "At RUNTIME it throws an exception" which is not true: int a; int b; a = a/b; won't reach runtime. – Bart Kiers May 29 '10 at 20:22

Why bother catching this at compile-time, when you're going to need a run-time variant anyway?

For example, if you were loading and parsing "0" from a text file, then tried to divide by it, Java would have no idea what you were doing at compile-time because it doesn't know the contents of that external file.

Also if you were to set any variable to 0 and divide by the variable, Java would have to keep track of every possible value of every variable at every point in the script in order to catch a divide by 0 at compile time.

Might as well keep things consistent and make it a runtime-only exception.

share|improve this answer
Why bother catching String s = (String) Integer.valueOf(0); // doesn't compile! at compile-time if it's going to throw ClassCastException at run-time anyway? – polygenelubricants May 29 '10 at 7:00
Because Integer.valueOf(0) is a type issue (integer argument when it was expecting a string) and type issues are detected at compile-time thanks to Java's strict typing. Division by zero is a calculation issue, and Java does not perform calculations at compile-time because in many situations it's impossible (e.g. calculations on a variable loaded from a DB/external file). Therefore all calculation issues are caught at run-time. – Daniel May 31 '10 at 8:44

It is legal in compiling point of view, but it would throw an exception if executed!

the reason... well programming must allow flexibility therefore all the expressions and every single code you type is a variable for the compiler, thus in the mathematical expression X/Y the compiler does not care if the Y variable value is (Y==0) or any other number for the compiler this is a variable... if the compiler would have to look at values also, that would be considered runtime, wouldn't it.

share|improve this answer
I don't think that checking for division by zero would increase compile time considerably. – helpermethod May 29 '10 at 9:14
It would if the "zero" was a variable. Then Java would have to perform every calculation involving that variable preceding the division statement to determine whether or not it is zero at that point, and in many instances this is impossible (e.g. variable loaded from external source). If it WASN'T a variable, it'd mean you actually coded: a = b/0; and that would be a pretty amateurish mistake one could surely only make while under the influence :P – Daniel May 31 '10 at 8:51
never said it would increase compiling time. what I was trying to say was that the compiler does not evaluate the expression on compilation, but it does determine the type of the variable (int/float/...) in the division and its value and saves the type and value in the class file as byte code, and it does not evaluate the expression. Because it would be endless and pointless to evaluate all the expressions possible. – TacB0sS May 31 '10 at 10:31
@OliverWeiler - the (compile time) performance cost is irrelevant. The relevant point is whether the compiler is allowed to implement that check and call it a compilation error. A compiler is not allowed to do smart things like that unless the language specification permits it. In this case, the JLS doesn't permit this. (Smart compilers that do helpful things that the JLS doesn't sanction are a bad thing because they lead to source code portability problems.) – Stephen C Nov 17 '11 at 3:50

Since others already answered the legality of 1/0, let's move to the second question:

  • If this is legal, is there a good reason for it?
    • What good could this possibly serve?

An answer could be:

To tease a colleague of yours. ;o)

When the colleague leaves the room with his computer left unlocked, sneak by and burry 1/0 somewhere deep into a static initializer of some class that is used early in the application. This way he will find out soon enough after (or even during) the deployment of the application by encountering the unusual ArithmeticException and he will probably scratch his head for a while. Using this fail-fast way you can ensure it's a relatively harmless joke.

P.S.: It worked. ;o)

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