What does the following code print to the console?

map<int,int> m;
m[0] = m.size();
printf("%d", m[0]);

Possible answers:

  1. The behavior of the code is not defined since it is not defined which statement m[0] or m.size() is being executed first by the compiler. So it could print 1 as well as 0.
  2. It prints 0 because the right hand side of the assignment operator is executed first.
  3. It prints 1 because the operator[] has the highest priority of the complete statement m[0] = m.size(). Because of this the following sequence of events occurs:

    • m[0] creates a new element in the map
    • m.size() gets called which is now 1
    • m[0] gets assigned the previously returned (by m.size()) 1
  4. The real answer?, which is unknown to me^^

  • Well, it certainly has got nothing to do with the priority of the [] operator since that is irrelevant here. Apart from that, I don’t know the answer. Good question. – Konrad Rudolph Mar 29 '11 at 12:01
  • 1
    +1 For a really good question – Tamer Shlash Mar 29 '11 at 12:03
  • 6
    as with most of these questions, why would you ever do this anyway? – jk. Mar 29 '11 at 12:09
  • 7
    @jk: for the sake of curiosity. It's good to know the limits of the language, so you can steer well clear of them in real code. – Mike Seymour Mar 29 '11 at 12:39

I believe it's unspecified whether 0 or 1 is stored in m[0], but it's not undefined behavior.

The LHS and the RHS can occur in either order, but they're both function calls, so they both have a sequence point at the start and end. There's no danger of the two of them, collectively, accessing the same object without an intervening sequence point.

The assignment is actual int assignment, not a function call with associated sequence points, since operator[] returns T&. That's briefly worrying, but it's not modifying an object that is accessed anywhere else in this statement, so that's safe too. It's accessed within operator[], of course, where it is initialized, but that occurs before the sequence point on return from operator[], so that's OK. If it wasn't, m[0] = 0; would be undefined too!

However, the order of evaluation of the operands of operator= is not specified by the standard, so the actual result of the call to size() might be 0 or 1 depending which order occurs.

The following would be undefined behavior, though. It doesn't make function calls and so there's nothing to prevent size being accessed (on the RHS) and modified (on the LHS) without an intervening sequence point:

int values[1];
int size = 0;

(++size, values[0] = 0) = size;
/*     fake m[0]     */  /* fake m.size() */

It does print 1, and without raising a warning(!) using gcc. It should raise a warning because it is undefined.

The precedence class of both operator[] and operator. is 2 whereas the precedence class of operator= is 16.
This means that it is well-defined that m[0] and m.size() will be executed before the assignment. However, it is not defined which one executes first.

  • Would it be different if the precedence of operator[] and operator. would not be the same? – Woltan Mar 29 '11 at 12:19
  • @Woltan: no, it's only relevant that both have a higher precedence than operator=, so that both subexpressions are evaluated (in unspecified order) before the assignment. If either had a lower precedence than operator=, then the expression would have a different meaning anyway (if it's still well-formed). – Mike Seymour Mar 29 '11 at 12:45
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    @Woltan: no. Precedence is used to work out how to add parentheses to disambiguate an expression. So m[0] = m.size() is equivalent to (m[0]) = (m.size()), and not for example (m[0] = m).size(), because [] and . bind tighter than =. But precedence does not determine what order sub-expressions are evaluated across the whole expression - a precedence 2 operator can be evaluated before a precedence 1 operator provided that neither uses the result of the other. – Steve Jessop Mar 29 '11 at 12:47
  • First, it's unspecified, not undefined. And there's nothing a compiler could see which would allow it to know that it's unspecified, so the compiler can't complain. And C++ doesn't have precedence classes, and the precedence is irrelevant here anyway. – James Kanze Mar 29 '11 at 13:36

There is no sequence point between the call to operator [] and the call to clear in this statement. Consequently, the behaviour should be undefined.

  • There are at least 4 sequence points in the statement, one each at the start and end of the function calls to size() and operator[]. – Steve Jessop Mar 29 '11 at 12:16
  • @Steve true but they are irrelevant for the relative evaluation order of the statement before and after the equality sign. – Konrad Rudolph Mar 29 '11 at 12:25
  • Interesting. The article you link to does say: "(In C++, overloaded operators act like functions, and thus operators that have been overloaded introduce sequence points in the same way as function calls.)".This would make [] operator a sequence point. – user3458 Mar 29 '11 at 12:30
  • @Arkadiy See the answer to Steve’s comment. – Konrad Rudolph Mar 29 '11 at 12:32

Given that C++17 is pretty much here, I think it's worth mentioning that this code now exhibits well defined behavior under the new standard. For this case of = being the built-in assignment to an integer:


The assignment operator (=) and the compound assignment operators all group right-to-left. All require a modifiable lvalue as their left operand and return an lvalue referring to the left operand. The result in all cases is a bit-field if the left operand is a bit-field. In all cases, the assignment is sequenced after the value computation of the right and left operands, and before the value computation of the assignment expression. The right operand is sequenced before the left operand. With respect to an indeterminately-sequenced function call, the operation of a compound assignment is a single evaluation.

Which leaves us with only one option, and that is #2.

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