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(The root problem here is that I'm trying to use decltype, or some other type deduction perhaps based on auto, on complicated expressions that involve lambdas. I'm trying to find some sort of workaround. I've been playing around with http://pfultz2.github.com/Pythy/ for polymorphic lambdas. I can't fully go into the motivation without telling you all a long story! )

I want to be able to do decltype([](int){return 3.5L}; to get the type of the lambda, or at least the return type. Yes, I know that lambdas are given a unique type, I don't need to be reminded that decltype([](int){return 3.5L}; will give two different types if used on two different lines.

If I use decltype on a lambda, then I get an error message ('lambda used in unevaluated context'). I know that seems like a reasonable error message, but I'm surprised at C++ holding my hand like that! It would be useful to be allowed to do this, in particular to access the return type of the lambda. Is this error simply a result of overzealous error messages, or is there truly a good reason why it can't be done?

An expression such as this works inside a member function:

template<typename T>
struct X {
    void foo() {
        static auto l = [](int){return 3.5;};

but I'm not allowed to do:

template<typename T>
struct X {
    static auto var = [](int){return 3.5;}; // will also fail if I use constexpr here

x.cpp:8:47: error: expression ‘#‘lambda_expr’ not supported by
    dump_expr#<expression error>’ is not a constant-expression
x.cpp:8:47: error: unable to deduce ‘const auto’ from ‘<expression error>’

This inspired my idea to try to use a static variable in a function in order to do the type inference on the lambda.

This seems to work a little better if X is not a template. But I need X to be a template - in particular, the arguments to the lambda will take the type of the template parameters.

Remember, I only want the type of the lambda, and I would be satisfied only with the return type. It's frustrating that the compiler is willing and able to do type inference, and static initialization, in both cases, but it seems to put some arbitrary obstacles in my way.

Can I access the type of the variable var_in_func from outside the dummy_func function?

struct S {
    constexpr static auto member = a_complicated_expression...  // error
    void dummy_func() {
        static auto var_in_func = a_complicated_expression...    // OK
    typedef dummy_func :: var_in_func the_type; // I'd like this to work

If there are lambdas in a_complicated_expression..., there is often a problem with the initializer for member. If S is actually a struct template, then I get error messages that member has no initializer. That's why I'm trying to find other ways around this.

However, the static auto variable inside the static method dummy_func works fine. So that got me thinking that they ought to be a nice way to access the type of that static variable?

I tried the following but it didn't work because dummy_func isn't a type (fair enough):

typedef dummy_fun :: var_in_func the_type_of_the_static_variable_in_the_method;

I can't do decltype( a_complicated_expression... ) as the compiler complains about the use of a lambda in an unevaluated context (a declspec).

I'm using g++ (Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3. I don't mind if I have to use g++ specific extensions.

share|improve this question
Have you tried decltype ? (not sure what that declspec is) –  J.N. Sep 4 '12 at 2:22
I might be wrong, but I have a feeling that it's hopeless to try and access the type defined for a static function-local variable from outside that function. Would it be worthwile trying to find out why the direct declaration of member does not work? What is the nature of that complicated-expression? Perhaps those problems can actually be resolved. –  jogojapan Sep 4 '12 at 6:54
The complicated expression involves a lambda, but decltype refuses to work with lambdas ('error: lambda used in unevualated context'). I'll edit the question. –  Aaron McDaid Sep 4 '12 at 7:53
@J.N. that was just a typo by me. I meant decltype, not declspec. –  Aaron McDaid Sep 4 '12 at 8:05
... but useful enough for Dave Abrahams, of the C++ Standards Committee, to write a blog post about polymorphic lambdas :-) –  Aaron McDaid Sep 7 '12 at 10:21

2 Answers 2

Non-capturing lambdas can be converted to a function pointer, and have an operator() with the signature of that function pointer:

template<typename C, typename R, typename... Args>
auto remove_class(R (C::*)(Args...)) -> R(*)(Args...);
template<typename C, typename R, typename... Args>
auto remove_class(R (C::*)(Args...) const) -> R(*)(Args...);
template<typename C, typename R, typename... Args>
auto remove_class(R (C::*)(Args...) volatile) -> R(*)(Args...);
template<typename C, typename R, typename... Args>
auto remove_class(R (C::*)(Args...) const volatile) -> R(*)(Args...);

template<typename T>
auto to_f_ptr(T t) -> decltype(remove_class(&T::operator())) { return t; }

You can now write auto var = to_f_ptr([](int){return 3.5;}); and var will have type double (*)(int).

However, you still won't be able to use the lambda as a class-scope static initialiser; see lambda as a static member.

share|improve this answer
I know that already. But it still doesn't change the principle that, in my opinion, it should be possible to get the return type of the lambda. Maybe something like decltype([](int){...}) :: return_type. –  Aaron McDaid Sep 4 '12 at 12:45
.. I don't need to be able to initialize the value of the static member, I just want to be able to define the type correctly. The Pythy library I references attempts to set up a null pointer of type decltype(..theLambda..)*. –  Aaron McDaid Sep 4 '12 at 12:47
@AaronMcDaid you're out of luck; 5.1.2:2 says A lambda-expression shall not appear in an unevaluated operand. –  ecatmur Sep 4 '12 at 12:55
I'm going to recompile gcc without that error message. Wish me luck! A lambda expression definitely has a type, so decltype should work on it. We can debate the usefulness of such a type later, but in principle I don't see why the standard ties our hands like that. –  Aaron McDaid Sep 4 '12 at 13:02
I removed that error message from g++ and I managed to solve my original problem. Now it will accept lambdas inside a decltype (actually, I used typeof, a g++ extension). I've [aaronmcdaid.com/2012/09/… blogged about it]. It can be useful to do decltype on lambdas, even though I understand why, at first glance, it seems useless. –  Aaron McDaid Sep 5 '12 at 19:13

A lambda function is defined only in the the context of its scope. This implies that the lambda function within the static member function is of different type than that defined elsewhere. It seems to me that obtaining the return-type of a lambda function outside of its scope is not sensible and shouldn't be possible.

There must be another way (not involving a lambda) to get the type you need, since it apparently makes sense to define such a type outside of the scope of any potential lambda function.

share|improve this answer
"This implies that the lambda function within the static member function is of different type than that defined elsewhere" I have made clear that I understand this already! Anyway, the return type will be the same across two lambdas that have the same code, so it does make sense for me to want to take the return type of a lambda, even if I never use that lambda. –  Aaron McDaid Sep 4 '12 at 12:44

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