Consider the following snippet:

#include <iostream>
#include <vector>
#include <functional>

int main() 
    std::vector<int>v = {0,1,2,3,4,5,6};
    std::function<const int&(int)> f = [&v](int i) { return v[i];}; 
    std::function<const int&(int)> g = [&v](int i) -> const int& { return v[i];};

    std::cout << f(3) << ' ' << g(3) << std::endl;
    return 0;

I was expecting the same result: in f, v is passed by const reference, so v[i] should have const int& type.

However, I get the result

 0 3

If I do not use std::function, everything is fine:

#include <iostream>
#include <vector>
#include <functional>

int main() 
    std::vector<int>v = {0,1,2,3,4,5,6};
    auto f = [&v](int i) { return v[i];}; 
    auto g = [&v](int i) -> const int& { return v[i];};

    std::cout << f(3) << ' ' << g(3) << std::endl;
    return 0;


3 3

Thus I'm wondering:

  1. In the second snippet, what is the return type of the lambda expression f? Is f the same as g?

  2. In the first snippet, what happened when the std::function f was constructed, causing the error?

  • Which compiler? – 0x499602D2 Apr 13 '15 at 16:27
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    v is passed by const reference, so v[i] should have const int& type. No. v is captured by reference and v[i] is therefore non-const int&. I'm not sure if it should make a difference in this case. Seems to have expected output in gcc 4.9.2 – eerorika Apr 13 '15 at 16:34
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    This looks buggy to me BUT it could also be a consequence of the lambda capture ref becoming dangling. I'd have to scan the standard. And this is why C++11 is terrible. – Lightness Races in Orbit Apr 13 '15 at 16:35
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    std::function<const T&(blah)> is always undefined behaviour if the target function returns T by value (which your first lambda does) because you get a dangling reference. The C++ standards committee is considering making it ill-formed. – Jonathan Wakely Apr 13 '15 at 16:57
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    @LightningRacisinObrit, it's not the captured reference that dangles, it's the std::function<const int&(int)>::operator() return value which is dangling, because it's bound to a local temporary inside std::function<const int&(int)>::operator()(int) – Jonathan Wakely Apr 13 '15 at 17:00

The return type of a lambda uses the auto return type deduction rules, which strips the referenceness. (Originally it used a slightly different set of rules based on lvalue-to-rvalue conversion (which also removed the reference), but that was changed by a DR.)

Hence, [&v](int i) { return v[i];}; returns int. As a result, in std::function<const int&(int)> f = [&v](int i) { return v[i];};, calling f() returns a dangling reference. Binding a reference to a temporary extends the lifetime of the temporary, but in this case the binding happened deep inside std::function's machinery, so by the time f() returns, the temporary is gone already.

g(3) is fine because the const int & returned is bound directly to the vector element v[i], so the reference is never dangling.

  • g(3) returns a reference to int in vector's internal storage, right? So is it possible that (theoretically) vector could reallocate and make this reference invalid? – barney Jul 22 '17 at 6:44

What is the return type of a lambda expression if an item of a vector is returned?

That's the wrong question.

You should be asking what is the return type of a lambda expression if it is not specified explicitly?.

The answer is given in C++11 5.1.2 [expr.prim.lambda] paragraph 5, where it says if the lambda has no return expr; statement it returns void, otherwise:

the type of the returned expression after lvalue-to-rvalue conversion (4.1), array-to-pointer conversion (4.2), and function-to-pointer conversion (4.3);

(See T.C.'s comment below for DR 1048 which changed this rule slightly, and compilers actually implement the changed rule, but it doesn't matter in this case.)

lvalue-to-rvalue conversion means that if the return statement returns an lvalue like v[i] it decays to an rvalue, i.e. it returns just int by value.

So the problem with your code is that the lambda returns a temporary, but the std::function<const int&(int)> that wraps it binds a reference to that temporary. When you try to print out the value the temporary has aalready gone away (it was bound to an object a stack frame that no longer exists) so you have undefined behaviour.

The fix is to use std::function<int(int)> or ensure the lambda returns a valid reference, not an rvalue.

In C++14 non-lambdas can also use return type deduction, e.g.:

auto f(std::vector<int>& v, int i) { return v[i]; }

This follows similar (but not identical) rules to the C++11 rules for lambdas, so the return type is int. To return a reference you need to use:

decltype(auto) f(std::vector<int>& v, int i) { return v[i]; }
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  • @T.C., yup, but that doesn't actually change the result here, does it? I referenced C++11 5.1.2 intentionally, not just 5.1.2, because the question is tagged c++11. I realise the DR is considered a fix against C++11, but since it doesn't actually change the result here I went with the wording in C++11 as published. – Jonathan Wakely Apr 13 '15 at 17:12
  • Yeah, doesn't matter in this case. – T.C. Apr 13 '15 at 17:14
  • I added a note anyway, to clarify that in practice compilers should be following the C++14 rule even in C++11 mode. Thanks for finding the relevant DR :) – Jonathan Wakely Apr 13 '15 at 17:16
  • You should also amend your final statement, since post-DR, these rules are identical to those used by auto, if I understand correctly. – KRyan Apr 13 '15 at 22:03
  1. I assume the first lambda might return int or int&¹. Not const int& as the reference v is not to a const object (it doesn't matter that the capture itself is not mutable, since that's the reference itself)

  2. Life times of temporaries get extended to the end of the enclosing scope when bound to a const-ref

¹ I'll try to dive into that later. For now, I'm going with regular deduction intuition and say that auto would decuce int, whereas auto& would deduce int&, so I expect that the actual return type is int. If anyone beats me to it, all the better. I won't have time for a few hours

See the test supplied by @milleniumbug: Live On Coliru

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    Quick test says it's int ideone.com/kGXqcQ – milleniumbug Apr 13 '15 at 16:50
  • Thanks, @milleniumbug. Mind if I edit it in? (You may edit it out if I'm not responsive). That doesn't quite explain the compiler behaviour then. (Arrg. No time to concentrate) – sehe Apr 13 '15 at 16:53
  • The constness of v is not really relevant, the lambda's deduced return type decays (like an auto return, as T.C.'s answer says) and so is int irrespective of whether v[i] is const or not. – Jonathan Wakely Apr 13 '15 at 17:03

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