I'm having a disagreement with some co-workers over the following code:

int foo ( int a, int b )
    return b > 0 ? a / b : a;

Does this code exhibit undefined behavior?

EDIT: The disagreement started from what appears to be a bug in an overly-eager optimizing compiler, where the b > 0 check was optimized out.

  • 15
    Is there any reason to think it does? – juanchopanza Oct 21 '16 at 9:14
  • 11
    I mean it only is UB when you execute a division by 0. You don't here. – Hayt Oct 21 '16 at 9:14
  • 23
    @LuchianGrigore I guess his point was, if your coworkers (or you) take the position this exhibits UB, perhaps the reason for why they (or you) think so would be a worthy addition to your question. – WhozCraig Oct 21 '16 at 9:21
  • 45
    Huh? Is is return p ? p->flag_value : false UB when p is null? No. All code would be broken if that were the case. – Kerrek SB Oct 21 '16 at 9:37
  • 7
    It would also be UB if the operation generated overflow. But for integer division that can only happen if you divide INT_MIN by -1, and the guard (b>0) also avoids that case. – Hans Olsson Oct 21 '16 at 14:11


Quotes from N4140:

§5.16 [expr.cond]/1

Conditional expressions group right-to-left. The first expression is contextually converted to bool. It is evaluated and if it is true, the result of the conditional expression is the value of the second expression, otherwise that of the third expression. Only one of the second and third expressions is evaluated.


§5 [expr]/4

If during the evaluation of an expression, the result is not mathematically defined or not in the range of representable values for its type, the behavior is undefined.

This clearly does not happen here. The same paragraph mentions division by zero explicitly in a note, and, although it is non-normative, it's making it even more clear that its pertinent to this situation:

[ Note: most existing implementations of C++ ignore integer overflows. Treatment of division by zero, forming a remainder using a zero divisor, and all floating point exceptions vary among machines, and is usually adjustable by a library function. —end note ]

There's also circumstantial evidence reinforcing the above point: the conditional operator is used to conditionally make behavior undefined.

§8.5 [dcl.init]/12.3

int f(bool b) {
  unsigned char c;
  unsigned char d = c; // OK, d has an indeterminate value
  int e = d; // undefined behavior
  return b ? d : 0; // undefined behavior if b is true

In the above example, using d to initialize int (or anything other than unsigned char) is undefined. Yet it is clearly stated that the UB occurs only if the UB branch is evaluated.

Going out of language-lawyer perspective: if this could be UB, then any division could be treated as UB, since the divisor could potentially be 0. This is not the spirit of the rule.

  • 25
    @LuchianGrigore The essence of the answer to your question is entirely in the italicized sentence (Only one of the second and third expressions is evaluated). If someone doesn't understand that property of the conditional operation, they may generate many more questions like yours where division by zero is replaced by dereferencing a null pointer, out of bounds access, an expected-but-not-observed important side-effect, etc. – Leon Oct 21 '16 at 10:16
  • 1
    -1: The question (as written in the title) does not ask whether the division is evaluated - it asks whether the division can be UB despite not being evaluated. – user253751 Oct 22 '16 at 13:23
  • 1
    @immibis it does, see comment by Leon. – Ruslan Oct 22 '16 at 14:13
  • 1
    @immibis It follows from the second quote in the answer: the reason why division by zero is UB is because of §5 [expr]/4. Note the words "during the evaluation of an expression" and "mathematically defined". The first quote tells when the "not mathematically defined" expression is evaluated, which is: never. – milleniumbug Oct 22 '16 at 15:05
  • 1
    @jdm I assume you're referring to Raymond Chen's article when speaking of time travel. You'll notice that the problem there is that the UB is invoked before the check. An analogue here would be cout << "a/b: " << a/b << endl; return b != 0 ? a / b : a;. – krzaq Oct 23 '16 at 16:57

There is no way of dividing with zero in the example code. When the processor executes a / b, it has already checked that b > 0, therefore b is non-zero.

It should be noted that if a == INT_MIN and b == -1, then a/b is undefined behaviour too. But this is prevented anyway because the condition evaluates to false in that case.

Although I am not really sure you meant return b != 0 ? a / b : a; and not return b > 0 ? a / b : a; If b is less than zero, the division is still valid, unless it is the condition described above.

  • 2
    Hans Olsen points out a case where a / b can still be undefined for negative b in the comments. – chepner Oct 21 '16 at 14:42
  • I will edit the answer accordingly. – glauxosdever Oct 21 '16 at 14:47

Does this code exhibit undefined behavior?

No. It doesn't. The expression

return b > 0 ? a / b : a;  

is equivalent to

if(b > 0)
    return a/b;     // this will be executed only when b is greater than 0
    return a;  

Division only performed when b is greater than 0.

  • 1
    -1: The question (as written in the title) does not ask whether the division is evaluated - it asks whether the division can be UB despite not being evaluated. – user253751 Oct 22 '16 at 13:24
  • 2
    @immibis; The question (as written in the title) does not ask whether the division is evaluated: true, but answer lies in the evaluation of the division expression. There is no division by zero here. – haccks Oct 22 '16 at 13:38
  • It's a statement, not an expression. – Leushenko Oct 22 '16 at 15:48
  • 1
    @Leushenko; a/b is an expression. – haccks Oct 22 '16 at 16:00

If this were UB then so would

if(a != null && *a == 42)

And the sequencing of ifs , ands and ors is clearly designed to specifically allow this type of construct. I cant imagine your colleagues would argue with that

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.