14

Can you please explain why this code crashes? I would expect output of "a", but I get segmentation fault.

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


using namespace std;

struct MyStruct {
  vector<string> a;
  vector<string> b;
};

void out_data(const MyStruct& my_struct, const std::function<const vector<string>&(const MyStruct&)> getter) {
  cout << getter(my_struct)[0] << endl;
}

int main(int argc, char** argv)
{
  MyStruct my_struct;
  my_struct.a.push_back("a");
  my_struct.b.push_back("b");
  out_data(my_struct, [](const MyStruct& in) {return in.a;});
  return 0;
}
3
  • 1
    Probably because the lambda returns the vector by value and not by reference. Commented Sep 6, 2017 at 11:04
  • 4
    If you see yourself ever returning a reference, ask yourself "where does that object I'm referring to lives"? If you can't answer, you shouldn't do that. Commented Sep 6, 2017 at 11:06
  • 1
    Please enable warnings. Your compiler was probably screaming at you that this was a bad idea. Commented Sep 6, 2017 at 12:23

2 Answers 2

24

The

[](const MyStruct& in) {return in.a;}

lambda expression is equivalent to

[](const MyStruct& in) -> auto {return in.a;}

which returns a copy of in.a. Your std::function signature then returns a dangling reference to a local object.


Change the lambda expression to

[](const MyStruct& in) -> const auto& {return in.a;}

to return a const& instead, fixing the segfault.


Also, don't use std::function to pass lambdas unless you have a good reason to do so. I suggest reading my article on the subject: "passing functions to functions".

7

I blame std::function (and you). I blame you, of course, for asking std::function to return a dangling reference, as explained by Vittorio Romeo. But I also blame std::function's constructor template for not checking for this case, which should be in most or all cases detectable at compile time, and consequently generating a diagnostic. (I use the word "blame" only to point out possible areas of improvement. In that sense, I also blame myself for not having thought of adding this exact check in the implementation of my own unique_function class template.)

Let's take a closer look at the constructor's signature. I chose the definition site for this purpose.

template<typename R, typename... Args>
template<typename F>
std::function<R(Args...)>::function(F f);

It should be possible to ban dangling references here. A dangling reference will be returned from the operator() if and only if R is a reference to a temporary returned by F. Let's define (in the scope of the constructor body):

using RF = decltype(f(std::forward<Args>()...));

Now we can be almost certain that a dangling reference will be returned from the function's operator() if:

std::is_reference<R>::value && ! std::is_reference<RF>::value

There is a catch, though, in that RF could be a class type with a user-defined conversion operator to R. Although this conversion may still be unsafe, we don't have sufficient information at this point to decide, and should err on the side of generality. Obviously, we could detect whether the target of R is a public base class of RF (this is assuming the above condition is true):

std::is_convertible<RF *, typename std::remove_reference<R>::type *>::value

I only allow public inheritance here because std::function can only access public non-ambiguous base classes. Unless someone made std::function a friend of RF for some strange reason. (Since the conversion can be done inside the wrapped function object, there is probably no need to do this.)

Putting it all together and inverting the logic, we could prefix the function constructor's body with:

using RF = decltype(f(std::forward<Args>()...));
static_assert( ! std::is_reference<R>::value  ||
                 std::is_reference<RF>::value ||
               ! std::is_convertible<RF *, typename std::remove_reference<R>::type *>::value,
               "Using this function object would result in a dangling reference in the function call" );
2
  • Even though this is not an answer, I upvoted as it's valuable information. Have you considered researching this further and writing a proposal/DR? Commented Sep 7, 2017 at 9:36
  • 1
    I came to this post to blame somebody but there is nobody left to blame to :)
    – jav
    Commented Jul 4, 2019 at 8:55

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.