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This question is a continuation of a recent question of mine:
What is this compiler error when using a lambda as a template parameter?

Nov. 11, 2014: Microsoft has responded saying the fix for this bug should show up in the next major release of Visual C++.

This code fails to compile using the VS2012 (Update 2):

int main(int argc, char* argv[])
    auto f = []()
        int n = 0;
        auto r = [=]{ return n; };
        return r;
    return 0;

This is the compiler error I get:

1>  main.cpp
1>C:\test\main.cpp(7): error C2440: 'return' : cannot convert from 'main::<lambda_c5d1d707b91a1ddedc06eb080503550c>::()::<lambda_ac357c309731f4971c3269160ed9c24b>' to 'int (__cdecl *)(void)'
1>          No user-defined-conversion operator available that can perform this conversion, or the operator cannot be called

  • Is there a problem with the code according to C++11 specification?
  • Is there a problem with the code according to VS2012's defined partial C++11 support?
  • Or is this a VS2012 C++ compiler bug?

  • Could someone point me to the place in the C++11 specification that talks about how lambdas must be implicitly castable to function pointers?
    • I recall this only being for stateless lambdas - those with empty capture clauses - which the inner lambda r is not
    • So why does it appear that the inferred return type of lambda f is a function pointer, namely int (__cdecl *)(void)?
share|improve this question
Let's say it's because of a poor implementation :-) –  Kerrek SB May 24 '13 at 0:39
@CaptainObvlious Okay - but the cast to function pointer is explicitly disallowed for stateful lambdas, correct? –  Timothy Shields May 24 '13 at 5:46
[Unsure how "not" got into my earlier comment - sorry ;)] According to 5.1.2/6 the conversion is required if it has no capture. The standard does not explicitly prohibit the conversion from being included for stateful lambdas though. My understanding is since it's unspecified the implementation is free to include the conversion even for stateful lambdas. –  Captain Obvlious May 24 '13 at 13:41
Interesting... But it probably should only perform that conversion if it has to. Does the standard address that aspect? (Is there someplace where I can read the standard myself? I can't find it on the internet.) –  Timothy Shields May 24 '13 at 14:27
For info, here is the link to the bug report on the Visual Studio web site: connect.microsoft.com/VisualStudio/feedback/details/808696/… –  Drealmer Feb 17 at 14:28

1 Answer 1

up vote 2 down vote accepted

Although GCC 4.7.2 compiles this code it's ill formed. The lambda expression which initializes f is too complex for deducing the return type. Indeed, 5.1.2/4 says

If a lambda-expression does not include a trailing-return-type, it is as if the trailing-return-type denotes the following type:

— if the compound-statement is of the form

   { attribute-specifier-seq[opt] return expression ; }

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);

— otherwise, void.

Therefore, in this example the return type is void but the lambda is returning something else. The code should not compile.

I agree that the message given by Visual Studio is misleading.

Update: On this question

So would it be correct to say "In C++11, you cannot define a lambda that returns a stateful lambda"?

No. As per the C++11 quote below, the type returned by a lambda is void unless the body of the lambda contains just a single line with a return expression;. Hence, if you manage to create your stateful lambda in a return expression, then this is fine. For instance, the code below compiles in GCC 4.7.2, Clang 3.2 and Intel compiler 13.1.0: (It doesn't compile in VS2012 due to the aforementioned bug.)

#include <iostream>

int main() {
  int n = 5;
  auto f = [=] {
      return [=]{ return n; }; // creates a stateful lambda and returns it in a single line
  std::cout << f()() << std::endl;
  return 0;
share|improve this answer
"Therefore, in this example the return type is void . . ." - that is not consistent with what the compiler is saying. The compiler is saying the return type is int (__cdecl *)(void). Furthermore, it is saying that it is incapable of performing the conversion from the lambda type on the line auto r = ...; to the return type of f, which is int (__cdecl *)(void). Correct me if I'm wrong, because I'm kind of confused. :) –  Timothy Shields May 24 '13 at 15:48
@TimothyShields: GCC is wrong to accept the code as C++11 (for C++14 CD it's correct though). Visual Studio is right in not accepting the code but for the wrong reason: it shouldn't try to convert a stateful lambda to a function pointer. –  Cassio Neri May 24 '13 at 16:05
Could you give your thoughts on this recent related question of mine? I think the answers I got there may have been incorrect based on your insights. stackoverflow.com/questions/16661981/… –  Timothy Shields May 24 '13 at 16:17
@TimothyShields: Regarding the other question, I'm sorry that I cannot add to what was said. I also tried your code with GCC 4.7.2 and it compiles fine. It seems that this is indeed a VS bug. I don't have VS2012 now but I tried with VS2010 and I got a similar error. The only difference between VS2012 and VS2010 is that the former says T=void (__cdecl *)(void) whereas the latter says T=int. –  Cassio Neri May 24 '13 at 17:57
So would it be correct to say "In C++11, you cannot define a lambda that returns a stateful lambda"? –  Timothy Shields May 24 '13 at 20:35

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