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I have a question about the return value of operator overloading in C++. Generally, I found two cases, one is return-by-value, and one is return-by-reference. So what's the underneath rule of that? Especially at the case when you can use the operator continuously, such as cout<<x<<y.

For example, when implementing a + operation "string + (string)". how would you return the return value, by ref or by val.

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5 Answers 5

up vote 35 down vote accepted

Some operators return by value, some by reference. In general, an operator whose result is a new value (such as +, -, etc) must return the new value by value, and an operator whose result is an existing value, but modified (such as <<, >>, +=, -=, etc), should return a reference to the modified value.

For example, cout is a std::ostream, and inserting data into the stream is a modifying operation, so to implement the << operator to insert into an ostream, the operator is defined like this:

std::ostream& operator<< (std::ostream& lhs, const MyType& rhs)
  // Do whatever to put the contents of the rhs object into the lhs stream
  return lhs;

This way, when you have a compound statement like cout << x << y, the sub-expression cout << x is evaluated first, and then the expression [result of cout << x ] << y is evaluated. Since the operator << on x returns a reference to cout, the expression [result of cout << x ] << y is equivalent to cout << y, as expected.

Conversely, for "string + string", the result is a new string (both original strings are unchanged), so it must return by value (otherwise you would be returning a reference to a temporary, which is undefined behavior).

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Which goes hand in hand with "if it's const, return a value, if it's non-const, return a reference". –  GManNickG Feb 25 '10 at 20:11
Technically << does not modify the existing value. It's just a left-shift operator. It's the stream interface breaking the rules. –  kennytm Feb 25 '10 at 20:13
@GMan correct, although that doesn't cover the cases (such as operator<<) where the overload is implemented as a non-member. –  Tyler McHenry Feb 25 '10 at 20:13
The "produces a new value" is a little imprecise. ++ produces a new value, after all. How about keep the second half of the sentence, and add "All other values should return by value." –  thebretness Feb 25 '10 at 20:14
@KennyTM I had no idea old C codgers were still putting up that fight after so many years. :) –  Tyler McHenry Feb 25 '10 at 20:17

To attempt an answer to your question regarding strings, the operator+() for strings is almost always implemented as a free (non-member) function so that implicit conversions can be performed on either parameter. That is so you can say things like:

string s1 = "bar";
string s2 = "foo" + s1;

Given that, and that we can see that neither parameter can be changed, it must be declared as:

RETURN_TYPE operator +( const string & a, const string & b );

We ignore the RETURN_TYPE for the moment. As we cannot return either parameter (because we can't change them), the implementation must create a new, concatenated value:

RETURN_TYPE operator +( const string & a, const string & b ) {
    string newval = a;
    newval += b;    // a common implementation
    return newval;

Now if we make RETURN_TYPE a reference, we will be returning a reference to a local object, which is a well-known no-no as the local object don't exist outside the function. So our only choice is to return a value, i.e. a copy:

string operator +( const string & a, const string & b ) {
    string newval = a;
    newval += b;    // a common implementation
    return newval;
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So, for freeing the allocated result, am I correct that because the invocation of the Operator is in effect a declaration, the anonymous return value goes on the stack, and so is freed when the containing function returns? –  no comprende Jul 14 at 14:51

If you want your operator overload to behave like the built-in operator, then the rule is pretty simple; the standard defines exactly how the built-in operators behave and will indicate if the result of a built-in is an rvalue or an lvalue.

The rule you should use is:

  • if the built-in operator returns an rvalue then your overload should return a reference
  • if the built-in returns an lvalue then your overload should return a value

However, your overload isn't required to return the same kind of result as the built-in, though that's what you should do unless you have a good reason to do otherwise.

For example, KennyTM noted in a comment to another answer that the stream overloads for the << and >> operators return a reference to the left operand, which is not how the built-ins work. But the designers of the stream interface did this so stream I/O could be chained.

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For reference the built-in operators are in § 13.6 of the N3337 draft C++11 standard, which is the only version of the standard I have at hand. –  Mark Ransom Jul 27 '12 at 17:25

Depending on the operator you may have to return by value.

When both can be used though, like in operator+= you could consider the following:

  • If your objects are immutable it's probably better to return by value.
  • If your objects are mutable it's probably better to return by reference.
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Usually you return by reference in an operation that changes the value of the things it's operating on, like = or +=. All other operations are return by value.

This is more a rule of thumb, though. You can design your operator either way.

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