Using Clang 3.5, 3.6, or 3.7, with the flag std=c++1y the following code does not compile :

#include <iostream>
auto foo(auto bar) { return bar; }
int main() {
  std::cout << foo(5.0f) << std::endl;

The error given is :

error: 'auto' not allowed in function prototype

I do not have errors using g++ 4.9. Is this error produced because Clang has not yet implemented this functionnality yet or is it because I am not allowed to do that and GCC somehow permits it ?

  • I think you should not do that since you use it out of scope. – Bastien Jun 5 '15 at 11:37
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    auto function parameters of ordinary (non-lambda) functions are an extension from the Concepts TS. They're not part of C++14, which is what C++1y became. – dyp Jun 5 '15 at 11:41
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    Btw, there's a(n inofficial?) clang branch that supports it. Some discussion can be found on the std-discussion mailing list. I don't know what's the current status of that branch, though. – dyp Jun 5 '15 at 11:45
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    BTW C++14 is out so you should use -std=c++14 (and upgrade if your compiler doesn't have that switch). The next version is tentatively called c++1z. – M.M Jun 5 '15 at 11:49
  • gcc 4.9.x may be built with concepts which is probably why you are seeing it. – M.M Jun 5 '15 at 11:51

As we see from the ISO C++ discussion mailing: decltype(auto) parameters vs. perfect forwarding auto parameters of non-lambdas is part of concepts lite and therefore not in C++14:

clang is correct in the sense that we don't yet have auto parameters. Concepts lite may bring those, but C++14 doesn't have them.

If we use the -pedantic flag with gcc we receive the following warning:

warning: ISO C++ forbids use of 'auto' in parameter declaration [-Wpedantic]
  auto foo(auto bar) { return bar; }

So this looks like an extension.

As dyp pointed out, polymorphic lambdas did make it into C++14 and do allow auto parameters, an example taken from the paper:

// 'Identity' is a lambda that accepts an argument of any type and
// returns the value of its parameter.
auto Identity = [](auto a) { return a; };
int three = Identity(3);
char const* hello = Identity("hello");

Which is incidentally the same functionality you want to implement in your example.

  • @coincoin I added a link to the gcc documentation, -pedantic forces the compiler to issue warnings for extensions, basically anything not allowed by the standard. – Shafik Yaghmour Jun 5 '15 at 12:04
  • @ShafikYaghmour I think they not make it standard due to function overloading issue? mean with the auto keyword function overloading can be ambiguous? – Asif Mushtaq Dec 15 '15 at 2:38
  • @UnKnown as I said it is part of the concepts-lite proposal and so will come in with those changes. – Shafik Yaghmour Dec 15 '15 at 3:19
  • The first link is now broken ? – P0W Jan 30 '17 at 10:29

Although your specific syntax did not make it to C++14, a similar option which did is:

static auto foo = [](auto bar) { return bar; };

which achieves basically the same thing.

  • MM, Can you explain please why static auto? – Asif Mushtaq Dec 15 '15 at 2:38
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    @UnKnown this means the name foo has internal linkage, i.e. it is not accessible by name from other units. This prevents accidental undefined behaviour if another file went int foo = 5; for example. It would not make much sense to use external linkage here because you can't write a declaration for a lambda (other than the actual definition) so no other unit would be able to correctly use it anyway. – M.M Dec 15 '15 at 3:20

You can use a template instead:

template<class A>
A foo(A bar) { return bar; }

Auto is only allowed when the Compiler can deduce the type from the context.


The compiler cannot infer the type from the context.

What's wrong with doing

template<typename Y>
Y foo(Y bar){return bar;}

and must you pass bar by value?

In your case you can use the trailing return type syntax:

auto foo(auto bar) -> decltype(bar)

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    @Bathsheba auto is not permitted in the parameter list (but the return type auto without -> is allowed in C++14) – M.M Jun 5 '15 at 12:07
  • I don't understand. Why can't the compiler infer the type when passed as a function parameter ? – DollarAkshay Feb 24 '18 at 10:33

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