In C++ you are allowed to write a return statement that looks like :

return ( ... );

which is different from the more popular :

return ... ;

In particular the first version returns the address/reference of something that is local to the stack of the function which contains that return statement.

Now why something would like to return a reference to something that, at that point, has no lifetime ?

What are the use case for this idiom ? Considering the new buzzword and features from C++11 and C++14 there is a different usage for this ?

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    It only returns a reference if the return type is a reference or decltype(auto). I mean, it's perfectly valid to do decltype(auto) vector<T>::operator[](size_t index) {return (data_[index]);} – chris Jun 9 '14 at 13:51
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    re "the first version returns the address/reference of something that is local to the stack of the function which contains that return statement.", no there is no connection. – Cheers and hth. - Alf Jun 9 '14 at 13:52
  • @chris yes, I forgot to add that part, but still this 2 idioms behave very differently . – user2485710 Jun 9 '14 at 13:52
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    @user2485710: how about providing a concrete example of different behavior. – Cheers and hth. - Alf Jun 9 '14 at 13:53
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    @user2485710: thanks. I learned something new. At one very abstract level I knew, but I never ran into this (not using any C++14 compiler) and never considered this particular implication. Csq is possibly right about duplicate, but I think this particular example deserves its own question and answer, rather than people inferring it from general rules, which e.g. I had not done. – Cheers and hth. - Alf Jun 9 '14 at 14:05

Pre C++1y the parenthesized version of the return is identical, if we look at the C++11 draft standard section 6.6 Jump statements, the grammar for return is:

return expressionopt ;

return braced-init-list ;

an expression can be any expression and we can see from section 5.1 Primary expressions says (emphasis mine going forward):

A parenthesized expression is a primary expression whose type and value are identical to those of the enclosed expression. The presence of parentheses does not affect whether the expression is an lvalue. The parenthesized expression can be used in exactly the same contexts as those where the enclosed expression can be used, and with the same meaning, except as otherwise indicated.

In C++1y we can use delctype(auto) to deduce return types and this changes the situation as we can see from the draft C++1y standard section auto specifier says:

When a variable declared using a placeholder type is initialized, or a return statement occurs in a function declared with a return type that contains a placeholder type, the deduced return type or variable type is determined from the type of its initializer.[...]

and contains the following examples:

auto x3a = i; // decltype(x3a) is int

decltype(auto) x3d = i; // decltype(x3d) is int

auto x4a = (i); // decltype(x4a) is int

decltype(auto) x4d = (i); // decltype(x4d) is int&

and we can see there is a difference when using delctype(auto) and parenthesized expressions. The rule that is being applied is from section Simple type specifiers paragraph 4 which says:

For an expression e, the type denoted by decltype(e) is defined as follows:

and includes the following bullets:

— if e is an unparenthesized id-expression or an unparenthesized class member access (5.2.5), decltype(e) is the type of the entity named by e. If there is no such entity, or if e names a set of overloaded functions, the program is ill-formed;


— otherwise, if e is an lvalue, decltype(e) is T&, where T is the type of e;


The form is return expression;
Expression can be anything, including a parenthesised expression.
These are not different forms of returns, however, together
with decltype(auto) different types will be deduced.

  • yes but why you want to return a reference that is local to a function ? the focus of my question is about why you want to use the form return (...); – user2485710 Jun 9 '14 at 13:57
  • AFAIK there are slight differences in returning an expression and a const reference regarding possible optimization. But, I also think I have read somewhere in the specification that a braced expression is interpreted as equivalent to the unbraced one. Okay maybe the autotype thing is a different story. – Tobias Jun 9 '14 at 14:01
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    I wonder why this was upvoted to +7 when this answer is clearly incorrect. – Csq Jun 9 '14 at 14:12
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    @Csq because you decided to not describe why the answer was clearly incorrect? The expressions in question do differ, but they are the same form of return itself. The answer is incomplete, but I do not see where it is incorrect. – Yakk - Adam Nevraumont Jun 9 '14 at 14:20
  • @Csq, As far as I know, nothing stated in the answer is wrong. There's only one form of return. – chris Jun 9 '14 at 14:21

The two versions differ in context when automatic return type deduction with decltype(auto) is used in C++14

Particularly the second is an antipatern in case B ( example taken from the C++FAQ)

decltype(auto) look_up_a_string_1() { auto str = lookup1(); return str; }  //A
decltype(auto) look_up_a_string_2() { auto str = lookup1(); return(str); } //B

as it returns string& (as opposed to a string in A), which is a reference to the local variable str.

  • And an use case will be ... ? I mean I can't really focus myself on a practical example where the signature decltype(auto) foo( ... ) and return ( ... ) will both be convenient and functional. – user2485710 Jun 9 '14 at 14:01
  • @user2485710 As stated, case B is an antipattern; A pitfall to avoid and a mess you might get yourself into if you widely use this feature. For "good" uses of decltype(auto) you can check my linked question. – Nikos Athanasiou Jun 9 '14 at 14:04
  • @user2485710: It's a special case of general rules, a special case that you want to avoid. ;-) The C++ rules in general do not make exemptions for possibly dangerous meaningless special cases. E.g., you can initialize a variable with its own value, so that you have an initialized variable with indeterminate value, and it could in theory have been singled out as invalid. But there are so many such cases. It would complicate the standard to an extreme degree. – Cheers and hth. - Alf Jun 9 '14 at 14:07
  • tnx, and +1. added this example to this Q&A – TemplateRex Jun 9 '14 at 15:45

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