I thought that capturing by reference changes the types of the variables. Lets consider the following example:

#include <cassert>
#include <type_traits>

int main()
    int x = 0;
    int& x_ref = x;
    const int x_const = x;
    const int& x_const_ref = x_const;

    auto lambda = [&]()
        static_assert(std::is_same<decltype(x), int>::value, "!");
        static_assert(std::is_same<decltype(x_ref), int&>::value, "!");
        static_assert(std::is_same<decltype(x_const), const int>::value, "!");
        static_assert(std::is_same<decltype(x_const_ref), const int&>::value, "!");


None of the checks failed, so the type of original variables are preserved. So, how capturing by reference really works? I thought if user captures by reference, new variables with the same name are introduced to the local scope to have reference type of the original variables. But it seems like it is not the case.

Question: what is the motivation for this? Or is it me misunderstanding something?

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    decltype gives you the declared type; being inside a lambda doesn't affect the declaration, so it doesn't affect decltype. – ildjarn Feb 25 '17 at 21:54
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    @Incomputable : Simple-captures aren't declarations, and as we know, it's the declaration that matters to decltype. – ildjarn Feb 25 '17 at 22:13
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    For further experiments (with things captured by copy), I recommend using decltype((n)) instead of decltype(n), because the latter always refers to the original declaration, while the former behaves as-if it referred to the member of the closure type (even if the name is not actually captured!). Then it will give you the type of the expression. AFAIK, with decltype you cannot get the type of the member declaration of the closure type. Either you get the type of the original declaration, or the expression type of the closure member reference (makes a diff for mutable/default lambdas). – Johannes Schaub - litb Feb 26 '17 at 11:44
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    BTW you don't need #include <cassert> to use static_assert. – Oktalist Feb 26 '17 at 14:02
up vote 3 down vote accepted

I thought if user captures by reference, new variables with the same name are introduced to the local scope to have reference type of the original variables.

The standard says (emphasis mine):

An entity is captured by reference if it is implicitly or explicitly captured but not captured by copy. It is unspecified whether additional unnamed non-static data members are declared in the closure type for entities captured by reference. If declared, such non-static data members shall be of literal type.

Therefore your expectations were wrong. Capturing by reference doesn't mean create a local reference to an object in the outer scope.

As a side note, consider the following:

int x;
auto l = [&x](){ return [&x](){} }();

If your expectations were right, x would have been a reference to a reference within the lambda l, that is something that doesn't exist in C++.

  • The answer is already great. Could you please also add, if applicable, the motivation for this? – Incomputable Feb 25 '17 at 22:18
  • @Incomputable Added more details. Let me know if you want more. – skypjack Feb 25 '17 at 22:22
  • thanks, I got all questions answered! – Incomputable Feb 25 '17 at 22:23
  • int i = 0; auto & j = i; auto & k = j; by analogy there is shouldn't be a reference to reference. – Orient Feb 26 '17 at 15:06
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    @skypjack I'm not sure that's what OP said. – Oktalist Feb 26 '17 at 16:00

Let's start with something simple:

int x = 0;
auto lambda = [=]{ return x; };

What does return x actually do there? The "obvious" answer is that it returns the value of lambda's member variable named x. But that isn't actually the case. The lambda doesn't have a member named x - the lambda's data members itself are unnamed. What happens it that:

Every id-expression within the compound-statement of a lambda-expression that is an odr-use (3.2) of an entity captured by copy is transformed into an access to the corresponding unnamed data member of the closure type.

When you use x, you're actually referring to the appropriate member variable. So the above expression could be interpreted as:

struct __unnamed {
    int _1;

    __unnamed(int i) : _1(i) { }
    void operator=(__unnamed const&) = delete;
    int operator() const { return _1; }

__unnamed lambda(x);

The point of why I'm saying this is... there's only one x here. The int x variable. So when you do decltype(x), that gives you the declared type of x. Which is, of course, int. That doesn't change if you capture by reference, because the capture of your lambda doesn't change the types of the variables your capturing.

Now, if you did want to access those unnamed members of the lambda, you could do that. But instead of decltype(x) you want decltype((x)):

Every occurrence of decltype((x)) where x is a possibly parenthesized id-expression that names an entity of automatic storage duration is treated as if x were transformed into an access to a corresponding data member of the closure type that would have been declared if x were an odr-use of the denoted entity.

That is, while in your example, decltype(x) is int and decltype(x_const) is int const... decltype((x)) is int& and decltype((x_const)) is int const&. This is probably more what you were actually looking for. Because now we're actually referring to the lambda's members, or at least as if we were. But note here that the usual decltype((id)) rules still apply, so you will always get reference types for lvalues.

  • Thanks for additional information, but I use it inside of scope_exit, which just executes the lambda inside of the destructor of more or less "hidden" class. So the only thing that matters in that situation is the way the variables are accessed, e.g. if any operations on x will be the same as performing it on x outside of the lambda. Your answer answers the question though. – Incomputable Feb 25 '17 at 23:27
  • @skypjack I don't understand your comment. – Barry Feb 25 '17 at 23:36
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    The key point is "that is an odr-use". decltype(x) isn't an odr-use, so the x always refers to the entity in the surrounding scope rather than the capture. – T.C. Feb 26 '17 at 2:01
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    In addition you said "and the lambda's members must, of course, be references - since that's what you specified.", which is confusing because he will get reference types const int& and const int& even if he captured by copy. Because the expressions will be lvalues and the lambda is not mutable. – Johannes Schaub - litb Feb 26 '17 at 11:53
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