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Possible Duplicate:
Should I return const objects?
(The original title of that question was: int foo() or const int foo()? explaining why I missed it.)

Effective C++, Item 3: Use const whenever possible. In particular, returning const objects is promoted to avoid unintended assignment like if (a*b = c) {. I find it a little paranoid, nevertheless I have been following this advice.

It seems to me that returning const objects can degrade performance in C++11.

#include <iostream>
using namespace std;

class C {
    C() : v(nullptr) { }

    C& operator=(const C& other) {
        cout << "copy" << endl;
        // copy contents of v[]
        return *this;

    C& operator=(C&& other) {
        cout << "move" << endl;
        v = other.v, other.v = nullptr;
        return *this;

    int* v;

const C const_is_returned() { return C(); }

C nonconst_is_returned() { return C(); }

int main(int argc, char* argv[]) {
    C c;
    c = const_is_returned();
    c = nonconst_is_returned();
    return 0;

This prints:


Do I implement the move assignment correctly? Or I simply shouldn't return const objects anymore in C++11?

share|improve this question

marked as duplicate by jogojapan, R. Martinho Fernandes, Xeo, Blastfurnace, Peter O. Oct 27 '12 at 14:46

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.

@jogojapan Yes. It is a shame that question has such a poorly chosen title which pretty much explains why I missed it. The answers to my question are the ones from Kerrek SB and sbi. Thanks for pointing this out! – Ali Oct 27 '12 at 12:05
This is not an exact duplicate – Industrial-antidepressant Oct 28 '12 at 1:47
up vote 22 down vote accepted

Returning const objects is a workaround, that causes a lot of other problems. C++11 provides a better solution for the assignment issue: Reference Qualifiers for member functions. I try to explain it with some code:

int foo(); // function declaration
foo() = 42; // ERROR

The assignment expression is invalid, and as you can see, there are no const objects involved. Still nothing special is happening here. Think of the builtin assignment operator as follows. It is clear, that the above assignment expression is invalid whereas the assignment with a named variable works.

int& builtin_assign_int(int& lhs, const int& rhs);

So it is possible to restrict parameters to lvalue references. However, it is not possible to restrict the implicit first parameter of member functions (*this) to lvalue references.

That changed with C++11: Similar to const qualifiers for member functions, there are now reference qualifiers for member functions. The following code shows the usage on the copy and move operators (note the & after the parameter list):

struct Int
    Int(const Int& rhs) = default;
    Int(Int&& rhs) noexcept = default;
    ~Int() noexcept = default;
    auto operator=(const Int& rhs) & -> Int& = default;
    auto operator=(Int&& rhs) & noexcept -> Int& = default;

With this class declaration, the assignment expression in the following code fragment is invalid, whereas assigning to a local variable works - as it was in the first example.

Int bar();
Int baz();
bar() = baz(); // ERROR: no viable overloaded '='

So there is no need to return const objects. You can restrict the assigment operators to lvalue references, so that everything else still works as expected - in particular move operations.

See also:

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@nosid Thanks. Could you please expand on how your second code snippet prevents assignment to lvalues? I am just learning the C++11 features and I am not familiar with what you are writing. – Ali Oct 27 '12 at 12:09
@Ali it forbids assignment to rvalues because it declares an operator= that can only be used on lvalues (notice the & after the parameter list: that's what it means). – R. Martinho Fernandes Oct 27 '12 at 12:15
@R.MartinhoFernandes Yes, I noticed the & but it is another C++11 feature that I am not familiar with. Chances are, some of the future googlers won't be either. How is it called? In my opinion, it should be explained in the answer. It looks like a good recipe, I hope nosid will update his answer. – Ali Oct 27 '12 at 12:17
@Ali it is sometimes referred to as "rvalue *this" (because there's also a && form that restricts usage to rvalues), but I and others find that is a terrible, terrible name. The standard calls it function ref-qualifiers. See this question for more info: stackoverflow.com/questions/8610571/… – R. Martinho Fernandes Oct 27 '12 at 12:21
Nice usage of "function ref-qualifiers"! Thank you for the insightful post! – Ralph Tandetzky Jul 8 '13 at 10:02

Returning a const object by value arguably was never a very good idea, even before C++11. The only effect it has is that it prevents the caller from calling non-const functions on the returned object – but that is not very relevant given that the caller received a copy of the object anyway.

While it is true that being returned a constant object prevents the caller from using it wrongly (e.g. mistakenly making an assignment instead of a comparison), it shouldn't be the responsibility of a function to decide how the caller can use the object returned (unless the returned object is a reference or pointer to structures the function owns). The function implementer cannot possibly know whether the object returned will be used in a comparison or for something else.

You are also right that in C++11 the problem is even graver, as returning a const effectively prevents move operations. (It does not prevent copy/move elision, though.)

Of course it is equally important to point out that const is still extremely useful (and using it no sign of paranoia) when the function returns a reference or a pointer.

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+1 very clear explanation – TomP89 Oct 31 '12 at 11:06

The reason that your call to const_is_returned triggers copy constructor rather than move constructor is the fact that move must modify the object thus it can't be used on const objects. I tend to say that using const isn't advised in any case and should be subjected to a programmer judgement, otherwise you get the things you demonstrated. Good question.

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