Suppose I have a function that adds two values together. If I know nothing about the types then I basically have to write my function twice; once in the actual return value and again as the return type specifier:

template <typename A, typename B>
auto Add(const A& a, const B& b) ->std::decay<decltype(a + b)>::type
  return a + b;

While this works, it is undesirable because it is difficult to read and difficult to maintain.

In C++14 this won't be an issue, because we can drop the return type specifier (I am not sure it'll do the decay though...). For now, I'm stuck with C++11.

It has been my experience that whenever I am seeking a feature in C++ that hasn't yet made its way into the standard, but for which there is an obvious need, the Boost library usually has a solution. I have searched through the documentation, but I haven't found anything that might help me. The BOOST_AUTO_RETURN and BOOST_TYPEOF_TPL features seem more aimed at providing C++11 functionality to C++03 users.

Basically what I'm after is something that performs the following functionality:

template <typename A, typename B>
auto Add(const A& a, const B& b)
  return a + b; // Deduce return type from this, like C++14 would

Is there some functionality in the Boost library that I'm unaware of (or a nifty trick in C++11) that might allow me to forego the explicit -> decltype(...) after every auto return type? How would this be implemented?

  • 33
    Those marking this as off-topic should really review the guidelines: stackoverflow.com/help/on-topic This is a question about a specific, reproducible problem with sufficient information to diagnose. It is not homework and it is not asking for recommendations.
    – quant
    Aug 15, 2014 at 4:37
  • 11
    @CareyGregory Like I said, I think you should review the guidelines. Asking if something can be done does not make it off topic.
    – quant
    Aug 15, 2014 at 4:59
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    @Puppy: just because something exists in the documentation it does not mean that it is obviously related to the problem or straightforward to use, especially to someone inexperienced. If that was true then SO should shut down because everything is documented somewhere...
    – thkala
    Aug 16, 2014 at 12:18
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    @Puppy There is no question on this website that couldn't be answered by telling someone to "go and read something", but that doesn't make such an answer helpful or productive, nor does it mean the original question was somehow invalid. I still do not understand why this has been so controversial.
    – quant
    Aug 16, 2014 at 12:25
  • 13
    There is a difference between "How do I do x under y circumstances?" and "Please refer me to an off-site resource." That difference should be quite obvious. The former is perfectly on-topic here, the latter is not. Do note that many questions that ostensibly fall into the latter category can be rephrased to fall into the former category. There is a lesson there: if you want to know how to do something, ask how to do it, not indirectly for a guide somewhere that tells you how to do it. Answerers are free to link to those resources in their answers if they wish and think appropriate. Aug 16, 2014 at 15:11

2 Answers 2


The only possible deduced function return type in C++11 is the return type of a lambda. C++11 restricts the use of lambdas, though. This works:

auto add = [](int a, int b) { return a + b; };

This is valid, and defines add as a lambda that defines an operator() member function that returns int. Since the lambda doesn't capture anything, you can even write

auto add = +[](int a, int b) { return a + b; };

to make add a regular pointer-to-function: it gets type int(*)(int, int).

However, C++11 doesn't allow parameter types to be specified as auto, nor to let add be defined as a template variable, so you cannot use this to generically deduce a return type. An attempt to wrap it up in a template class fails:

template <typename A, typename B>
struct S { static auto add = [](A a, B b) { return a + b; }; }; // invalid

It is invalid to initialise add in-class here, and you cannot use auto unless the member is initialised in-class. Besides, even if it did work, it wouldn't allow deduction of A or B, which seems to be more what you're after.

Given those limitations, I don't see any alternative but to repeat the expression. You could hide the repetition in a trivial macro, though.

#define AUTO_RETURN(func, ...) auto func -> decltype(__VA_ARGS__) { return __VA_ARGS__; }

template <typename A, typename B>
AUTO_RETURN(add(A a, B b), a + b)

Or the variant pointed out by Marc Glisse,

#define RETURNS(...) noexcept(noexcept(__VA_ARGS__)) -> decltype(__VA_ARGS__) { return __VA_ARGS__; }

template <typename A, typename B>
auto add(A a, B b) RETURNS(a + b)

which looks a bit cleaner.

There might be something like this in Boost already, I don't know. Regardless, given the triviality, Boost seems overkill here.

  • 1
    The macro is the usual solution (you can also add noexcept for a third use of the body), though usually func is kept outside the macro, so it would look like add(A a, B b) RETURNS(a+b) Aug 17, 2014 at 8:58
  • @MarcGlisse To be complete, it would look like auto add(A a, B b) RETURNS(a+b), and I wanted auto to be part of the macro expansion result. Looking at your form now, though, I do think that looks much better, so I've edited it in. Thanks!
    – user743382
    Aug 17, 2014 at 9:09
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    @bamboon Boost is useful, but unless it's changed in recent versions, it has versioning problems where linking multiple projects together that all pull in Boost, and don't use the same version, causes big problems, and where Boost was not backwards-compatible enough to trust that compiling all projects with the same version wouldn't break any of the projects. So I'm hesitant to use Boost, if I don't have a good reason for doing so.
    – user743382
    Aug 17, 2014 at 9:14
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    Note that this is an emulation of the C++14 decltype(auto), not plain auto like the OP was asking, but it is trivial to make 2 versions of the macro where one uses decay. Also, this emulation actually has some advantages compared to the C++14 syntax in that it allows SFINAE. Aug 17, 2014 at 9:34
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    I often leave the -> out of the RETURNS for auto add(A a, B b)->RETURNS(a+b) which I find pretty. But it does cost noexcept. Aug 18, 2014 at 20:58

There is a library Pythy that tries emulate this syntax. However, it will only work on clang. It doesn't work on gcc due to these bugs here and here. They may be fixed for gcc 4.9, but if you are using gcc 4.9 you can use auto return types, anyways.

  • Both bugs linked are marked as fixed in 4.8, is that wrong? Aug 18, 2014 at 19:06
  • The error I'm getting with GCC 4.8.3 is reported here, it's not one of the two you link to. The error I'm getting with clang 3.4.2 is a hard "a lambda expression may not appear inside of a constant expression", which seems rather explicit in that this is just not going to work, at least not with that version of clang.
    – user743382
    Aug 18, 2014 at 21:17
  • By the way, I had included some comments here that suggest that the code is meant to be invalid, but my reasoning was incorrect, so I've deleted them. I have no idea if anything like your answer is meant to be valid. It's a neat trick regardless.
    – user743382
    Aug 18, 2014 at 22:13

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