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If I have for example a class with instance method and variables

class Foo


   int x;
   int bar() { return x++; }

Is the behavior of returning a post-incremented variable defined?

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5 Answers 5

up vote 26 down vote accepted

Yes, it's equivalent to:

int bar()
  int temp = x;
  return temp;
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Good explanation, thanks. –  patros Mar 4 '10 at 16:25
If int is not an int, but a MyClassWithOverloadedOperators, then you're just wrong. –  Pavel Shved Mar 4 '10 at 18:39
@Pavel: I disagree. A class with an overloaded post-increment operator that doesn't implement the proper post-increment semantics is wrong. –  Void Mar 4 '10 at 18:56
@Void, if you overload a post-increment, it doesn't magically become a pre-increment, does it? –  Pavel Shved Mar 4 '10 at 21:35
@Pavel: I changed it from an x++ to a ++x otherwise I would be defining x++ in terms of x++, and I tend to try to avoid circular definitions. Also, I don't believe it is a mistake, in the same way that I didn't make the clarification that my code only applies if there isn't a #define for temp or bar... Furthermore, my example only describes the operation for an int where it is 100% correct. –  Peter Alexander Mar 4 '10 at 23:04

Yes it is ... it will return the x's value before incrementing it and after that the value of x will be + 1 ... if it matters.

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It is defined.

It returns the value of x before incrementation. If x is a local(non-static) variable this post incrementation has no effect since local variables of a function cease to exist once the function returns. But if x is a local static variable, global variable or an instance variable( as in your case), its value will be incremented after return.

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But what happens in case of an overloaded ++-operator on a custom class? Will it's effect be performed? –  Dario Mar 4 '10 at 16:22
@Dario Yes, it will be. The expression following "return" will be fully evaluated before the return is executed. –  anon Mar 4 '10 at 16:24
@Dario. Yes, for exactly the same reason that if you do return x.dosomething();, the effect of dosomething will be performed before the return. Overloaded post-increment isn't magic, it's just a function that returns a value, that happens to be the old value. –  Steve Jessop Mar 4 '10 at 16:47
@Steve "Overloaded post-increment isn't magic, it's just a function that returns a value, that happens to be the old value" - if the programmer decided to implement it as such :-) –  anon Mar 4 '10 at 16:55
Yes, fair point. "Happens to be the old value, if the programmer has the good sense he was born with". –  Steve Jessop Mar 4 '10 at 17:29


In postincrement (x++) the value of x is evaluated (returned in your case) before 1 is added.

In preincrement (++x) the value of x is evaluated after 1 is added.

Edit: You can compare the definition of pre and post increment in the links.

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Most programming languages, like C++, are recursive in the order that operations are carried out (I'm not making any implication about how the code is actually implemented by the compiler here). Compound operations that are composed of any well defined operations are themselves well defined, since each operation is carried out on a last-in, first-out basis.

Post-increment returns the value of the variable being incremented before incrementing it, so the return operation recieves that value. No special definition of this behavior has to be made.

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I don't think the concern was about what value would be returned, but rather about whether the increment would occur. It's an understandable concern if your mental model has it that "return" causes an immediate end to the function — is there really time for the increment to be applied if the function is already over? Of course we know the answer is yes, but only because the compiler performs a transformation like in Poita's answer to ensure that the function doesn't actually return until all the side effects have been applied. –  Rob Kennedy Mar 4 '10 at 23:32
That's what I mean. The return statement is encountered after x++ "returns". Since x++ is an operation, it should be thought of as returning as in the demonstration code that Poita_ provided. That way, it's easy to see that since x++ is executed and its return value is passed to the return statement. It doesn't make sense that x++ would return and then increment. –  Andrew Noyes Mar 9 '10 at 16:12

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