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Consider the following code:

#include <iostream>

struct A {
  ~A() { std::cout << "~A" << std::endl; }

struct B {
  ~B() { std::cout << "~B" << std::endl; }

struct C {
  ~C() { std::cout << "~C" << std::endl; }

  void operator<<(const B &) {}

C f(const A &a = A()) {
  return C();

int main() {
  f(A()) << B();

Compiling with GCC and running gives the following output:


Is it guaranteed that the destructors for temporary objects of types A, B and C will be called in this order when compiled with other compilers? In general, what is the order of destructor calls for temporaries if there is any?

share|improve this question
What optimisation settings are you using? ~C() should be called twice here unless RVO kicks is, no? – user1773602 Dec 11 '12 at 16:19
@aleguna: I'm using the defaults. It's -O0 I think. – vitaut Dec 11 '12 at 16:20
@aleguna: gcc does copy elision even with no optimization enabled. You can disable it with -fno-elide-constructors. – Steve Jessop Dec 11 '12 at 18:03
up vote 10 down vote accepted

Let's talk about subexpressions and their sequencing. If E1 is sequenced before E2, that means E1 must be fully evaluated before E2 is. If E1 is unsequenced with E2, that means E1 and E2 may be evaluated in any order.

For f(A()) << B(), which is in your case the same as f(A()).operator<<(B()), we know that:

  • A() is sequenced before f(...),
  • f(...) is sequenced before operator<< and
  • B() is sequenced before operator<<

This also tells us that:

  • A() is sequenced before operator<<
  • A() is unsequenced with B()
  • f(...) is unsequenced with B()

If we assume RVO, so as not to complicate things, the possible order a compiler could evaluate the subexpressions in are:

  • A() -> f(...) -> B(), yielding ~B() -> ~C() -> ~A()
  • A() -> B() -> f(...), yielding ~C() -> ~B() -> ~A()
  • B() -> A() -> f(...), yielding ~C() -> ~A() -> ~B()

The latter is the order observed in the OP. Note that the order of destruction is always the reverse order of construction.

share|improve this answer
Isn't A()->B()->f(...) also possible? – Grizzly Dec 11 '12 at 16:12
@Grizzy: Yep, just edited that in. – Xeo Dec 11 '12 at 16:13
Thanks for a clear answer. Is it guaranteed by the standard that the order of destructor calls opposite to the order of evaluation? – vitaut Dec 11 '12 at 16:23
@vitaut: The order of destructor calls is always in the opposite order of construction. Gonna edit that part in. – Xeo Dec 11 '12 at 16:24

The order of evaluation of expression f(A()) << B(); is not specified. Thus, the order of construction/destruction is not specified as well.

share|improve this answer
That's what I thought at the very beginning, but I'm not sure it's correct.. I mean - to call operator<<, C must have been already defined (as operator<< is member of C). That would mean, that f(A()) must be evaluated before calling operator<<. This means: 1-create A; 2-execute f(A); 3. pass B as argument. Am I missing something? – Kiril Kirov Dec 11 '12 at 15:57
@Kiril C must have already been defined, but that happens at compile time ;v) . At runtime, it doesn't matter whether the object of type C is created before or after the other argument to the function. – Potatoswatter Dec 11 '12 at 15:59
@Potatoswatter - I see, that makes sense. Thanks. – Kiril Kirov Dec 11 '12 at 16:01
As far as I understand the order of evaluation of A() and B() is undefined, but what about the object C? It is returned from a function so shouldn't it be constructed after the arguments? Also is the order of destruction opposite to the order of construction for temporaries? – vitaut Dec 11 '12 at 16:09
Note that the order is not undefined, it's merely unspecified for the most part - it's necessary that A() is evaluated before f(...), for example. See my answer. – Xeo Dec 11 '12 at 16:10

The order of evaluation of operands of << is unspecified. Hence, order is not guaranteed. Only the short-circuiting operators &&, ||, the ternary operator ?:, and the comma , operator has well-defined order of evaluation of operands. For others, it is not necessary that the left operand has to be evaluated before the right operand (or vice-versa).

Further, do not confuse operator precedence or associativity with order of evaluation. For a given expression E1 op E2, it is only necessary that before the operator op is applied, both E1 and E2 should be evaluated, but between themselves, E1 and E2 could be evaluated in any order.

Precedence rules decide the order in which operators are applied when there's more than 1 operator in an expression, such as E1 op1 E2 op2 E3.

Associativity is used to decide which operands bind to which operator, when the same operator is used more than once, that is, in E1 op E2 op E3, whether it is interpreted as (E1 op E2) op E3 or E1 op (E2 op E3).

share|improve this answer
Does it apply to overloaded operator, as well? What if I changed "<<" to ",", would it guarantee the order? – vitaut Dec 11 '12 at 16:11
You cannot change the operator like that through overloading. Also, like I said, both operands have to be evaluated before the operator is applied. Your overloaded operator code will not be invoked until the operands are evaluated. – Masked Man Dec 11 '12 at 16:14

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