int i = 3;
int j = (i)++;


int i = 3;
int j = i ++;

Is there a difference between how the above two cases are evaluated?

Is the first case equivalent to incrementing an rvalue or is it undefined behaviour?

  • 18
    Seemingly arbitrary usage of parentheses is common in macro definitions. Where they do make a big difference, you'd like the error message you get. Well, usually. – Hans Passant Feb 27 at 16:38
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    There is no difference in those for ints. However, it is not always the case and you must be cautious when combining brackets and operators, @govin-parmar have shown a good example what can happen with pointers. – Tomasz Kornuta Feb 28 at 3:20
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    To be clear, both of these cases are well-defined (i.e., not UB) and will store 3 in j. – osuka_ Feb 28 at 15:09
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    "am I overthinking it" yes. – alk Mar 5 at 20:10

i++ and (i)++ behave identically. C 2018 6.5.1 5 says:

A parenthesized expression is a primary expression. Its type and value are identical to those of the unparenthesized expression. It is an lvalue, a function designator, or a void expression if the unparenthesized expression is, respectively, an lvalue, a function designator, or a void expression.

The wording is the same in C 1999.

  • 2
    For completeness, has this always been the case? I mean, I know it has, but your reference says C 2018 (i.e. the latest version), so it can't hurt to have it spelled out. – Mr Lister Feb 28 at 7:17
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    @MrLister Yes, even pre-ANSI C (1978) had this behavior. It's not spelled out formally (so little was), but it's required for some examples in the first edition of K&R, such as (*ptr)++. – Sneftel Feb 28 at 9:10

In your simple example of i++ versus (i)++, there is no difference, as noted in Eric Postpischil's answer.

However, this difference is actually meaningful if you are dereferencing a pointer variable with the * operator and using the increment operator; there is a difference between *p++ and (*p)++.

The former statement dereferences the pointer and then increments the pointer itself; the latter statement dereferences the pointer then increments the dereferenced value.

  • 7
    So for example, if you define a macro #define postinc(x) x++ then postinc(*p) will not do what you expect given the function-like notation. That's why in writing macros it's common to heavily parenthesize e.g. #define postinc(x) ((x)++) – Daniel Schepler Feb 28 at 1:12
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    Your answer boils down to "parenthesis can be used to enforce operator precedence" which is obvious and not what the OP asked. – Giacomo Alzetta Feb 28 at 9:53
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    @GiacomoAlzetta There was a lengthy discussion on this answer that was removed by moderation. The short of it is that I felt that explaining this particular nuance is important because mixing these two expressions up in particular is a common source of bugs for beginners in C. – Govind Parmar Feb 28 at 12:05
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    @GiacomoAlzetta Remember, SO answers are supposed to be useful for anyone reading the question, not just the OP or people already familiar with the technology being asked about. In my experience the most common usage of (expr)++ is to increment a dereferenced value, so giving beginners the impression that expr++ is equivalent is detrimental. – Govind Parmar Feb 28 at 12:12
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    @SolomonUcko No, the first would dereference the pointer and then increment it. The second would increment the pointer THEN dereference it. – ale10ander Feb 28 at 20:21

protected by P.W Mar 1 at 5:10

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