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Multiple increment operators in single statement

can someone explain to me why this line of code generate such output? code (after initilizeing both i&j to zero):




I know i++ means evaluate first then increase by 1, while ++i means increase by 1 then evaluate. but not sure what behavior is the multiple evaluation in a sequenced cout statement.


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marked as duplicate by i_am_jorf, dlev, Madara Uchiha, Konrad Rudolph, Bo Persson Aug 29 '11 at 16:35

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

en.cppreference.com/w/cpp/language/operator_precedence Your output shouldn't contain a semicolon. –  John Aug 29 '11 at 16:24
@John: This is not a precedence issue. –  Oliver Charlesworth Aug 29 '11 at 16:27
I see C++ which is fairly new to me, and its operators and I just assume that they will be as behaved as in goold old C. I could weasel and say, "the link never said it was" but I appreciate the answers and reasons. –  John Aug 29 '11 at 16:35
@John: The behavior is the same in C. –  Benjamin Lindley Aug 29 '11 at 17:04

2 Answers 2

The behavior of that code is undefined. An implementation is allowed to evaluate i++ before --i, or after it, or to stagger the evaluations such that the end results seem to make no sense at all.

It's even legal for an optimizer, when faced with code such as

if( k != 0 ) {
   cout << i++ << --i;

to reason that because the code in the then branch is undefined behavior, then we can conclude that k is always zero, and reduce the entire thing to


(This would be formally justified by the fact that the "undefined" behavior of the unsequenced updates to i just might happen to be assigning 0 to k and jumping to the closing brace. Undefined really does mean anything can happen).

Just don't write code like that.

Edit: It was suggested in a now-deleted answer that the effect of the statement is merely unspecified because the overloaded <<'s are function calls rather than native operators. However, that just makes the statement equivalent, for our present purposes, to

f(g(i++), i--);

(here the f represents a one-argument ostream::operator<<(), but the rules for evaluation order for AAA.f(BBB) and f(AAA,BBB) are the same). The compiler can decide in which order it evaluates the arguments to f. If it happens to evaluate i-- first, the evaluation order becomes:

  • i--
  • i++
  • sequence point
  • call g
  • sequence point
  • call f

Since there is no sequence point separating i-- and i++, undefined behavior results.

On the other hand, f(g(i+=h()), i++) is arguably merely unspecified under the sequence-point formalism. I think it reverts to undefined in C++1x's relational formulation.

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Not true. These are overloaded operators, so there is a sequence point at each one. (However, I entirely agree that one shouldn't write code like this.) –  Oliver Charlesworth Aug 29 '11 at 16:24
I see. thank you! I was just curious as I read to this part. So for the same reason I shall not edit a variable multiple times in a comma seperated statement either, right? edit the same variable in multiple occasions must be seperated by semicolumn to get the intended results I assume. –  string_is_hard Aug 29 '11 at 16:27
@string: Yes, you shouldn't do this. But not for the reason suggested in this answer! –  Oliver Charlesworth Aug 29 '11 at 16:35
But the compiler is allowed to evaluate all the parameters before calling the first function. That can cause i++ and --i to happen without an intervening sequence point. –  Bo Persson Aug 29 '11 at 16:41
@Oli, yes -- f() and y are unsequenced wrt each other. That much seems to be clear in the standard. –  Henning Makholm Aug 29 '11 at 17:18

The order of evaluation of arguments to a function in C/C++ is Unspecified.
The order in which arguments are being passed to << is Unspecified here and hence the result.

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