I have been asked the following question in a test (I didn't want to write it myself. The test asked it. I know its bad code still) about evaluating ++*ptr++

int Ar[ ] = { 6 , 3 , 8 , 10 , 4 , 6 , 7} ;
int *Ptr = Ar  ;
cout<<++*Ptr++  ;

However, I suspect this is undefined behavior since it can be both (++*ptr)++ or ++(*ptr++). Is it? I am not too well acquainted with documentation so I couldn't find anything.

  • 77
    What did C++ do to you that you feel compelled to do this?
    – tadman
    Commented Dec 20, 2018 at 18:40
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    When asking about "undefined behaviour" the best approach is to look in the documentation first.
    – tadman
    Commented Dec 20, 2018 at 18:41
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    @soham: Generally speaking, asking about complex interactions of multiple ++ instances and such, which represents code that should never be written, will attract downvotes. Or to put it another way, if you have to ask if it's well-defined, don't write it that way. Commented Dec 20, 2018 at 18:41
  • 7
    @soham Why do you think it's undefined? I think you'd get less downvotes if you explained that in the question. Commented Dec 20, 2018 at 18:42
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    @MatteoItalia This was asked in a test, sir ... I didn't want to write it myself
    – Harmonic
    Commented Dec 20, 2018 at 18:43

2 Answers 2


However I suspect this is undefined behaviour since it can be both (++*ptr)++ or ++(*ptr++). Is it?

Not really, unlike the runtime behavior, which gives ample leeway to implementors, in C++ parsing itself follows quite strict and well-defined rules1. Indeed, looking at the precedence rules, ++*Ptr++ is actually parsed as ++(*(Ptr++)).

This trick question instead is probably alluding to the undefined behavior of expressions such as i = ++i + ++i, where you have a value that appears multiple times in an expression, and is subjected to a modification by a side-effect of the expression itself. Such expressions are illegal, as, unless there's some operator that sequences the side effects2, the exact moment in which they are applied is not defined, so it's undefined exactly what values i would assume in the various points of the expression.

Still, there's no undefined behavior here, as all side effects in the expression operate on different values, which appear only once in the expression: the "inner" ++ affects Ptr, while the outer one affects the value pointed originally by Ptr, i.e. Ar[0].

     ^^^^^____increments Ptr, returning its original value
   ^^^^^^^^______dereferences the original Ptr, AKA &Ar[0]
^^^^^^^^^^^^_______ increments Ar[0]

That being said, if I ever saw such an expression in a code base of ours I'd go to great lengths to find the author and make sure that this wouldn't happen again.

  1. If sometimes very bizarre and absurdly costly to implement. Still, there are instances of undefined behavior in the standard describing some corner cases of the parsing, but it's orders of magnitude less pervasive than "runtime" undefined behavior.
  2. A handy summary of those rules can be found here; interestingly, some extra guarantees have been added in C++17.
  • @val what made it legal?
    – Krupip
    Commented Dec 20, 2018 at 20:28
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    The behavior of i = ++i + ++i is undefined in C++17
    – Jans
    Commented Dec 20, 2018 at 20:32
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    @val: just checked again: it's not legal. C++17 just added a sequence point for assignment and compound assignment operators. stackoverflow.com/a/46171943/214671 ++i + ++i remains illegal even just by itself (without assignment on the left). Commented Dec 20, 2018 at 20:33
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    @ruakh It's undefined because it cannot be defined. It carries too much ambiguity. The question "Why is it undefined" is because you can't define it.
    – Nelson
    Commented Dec 21, 2018 at 5:46
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    @ruakh: ultimately, it's undefined because the standard says it's undefined; a good rationalization is that the standard left so much leeway for implementors to apply side-effects whenever and however they feel best that they went all the way and left it completely undefined to allow for any possible optimization (say, store half a value at some moment and the other half later, generating a trap representation in the meantime). Commented Dec 21, 2018 at 6:59



doesn't cause U.B and is evaluated as ++(*(Ptr++))

  • ptr++; /* address post incremented i.e doesn't change here itself */
  • *ptr; /* dereference same address i.e value at location where ptr earlier pointed i.e 6 */
  • ++*ptr; /* value changed where ptr pointed i.e Ar[0] becomes 7 */

Note that post increments Ptr++ evaluated as

  • Ptr; /* Ptr doesn't change here itself in same expression */
  • Ptr = Ptr + 1; /* in next expression, Ptr considers the incremented one */

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