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I'm studying c++11 especially interested in lambda.

After some practices, I assumed that lambda closure is an nameless function object.

So I wrote this code.

template <class callable_object>
void lambda_caller( callable_object lambda )
    std::cout<< sizeof(lambda) << endl;

I know that I can use std::function instead of using template, but I don't want the overhead while typecasting.

But I found one problem reading this question : Why can't I create a vector of lambda in C++11?

The answerer said, "Every lambda has a different type- even if they have the same signature.".

Compilers makes different codes for different classes.

So I think that my compiler will make another version of lambda_caller whenever I make another definition of lambda to pass.

Is there any way to avoid it, except using std::function? Isn't there any generic type for lambda closure?

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Wasn't std::function designed specifically for this? You could write your own wrapper for a lambda, that offers the same object type to client code and allows you to call whatever different lambda is bound to it, transparently. If you wrote a good implementation, you'd end up with std::function (or similar). –  utnapistim Feb 21 '13 at 9:59
@utnapistim: std::function is for storing callables. If you just want to take any callable, use a template - it also enables easier inlining. And if you want to store it, still use a template, and internally convert to std::function. –  Xeo Feb 21 '13 at 10:00
I didn't know about packaged_task. I use std::functions as input parameters, when I do not want (or need) to convert my class or functions to templates on the functor/lambda type (callbacks, event notification receivers, error handling policies, etc). –  utnapistim Feb 21 '13 at 10:06
Unless an implementation decides to resort to deep magic, more often than not using std::function here will not save you anything (on top of being more troublesome and costly at runtime): a typical implementation will have a template constructor so different functor types will yield different instantiations of that constructor. In all likeliness there will also be more inner template machinery instantiations, too. The code you have right now is minimal -- there is very little you should change. –  Luc Danton Feb 21 '13 at 17:23

2 Answers 2

up vote 4 down vote accepted

You can't avoid it. Lambda is just a class with operator()() overloaded which executes your code. So different code - different classes.

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std::function is the generic type for lambda closures. The problem is that each lambda may capture different variables. So it can't be reduced to say a function pointer and some data, because the lambda may have captured 3 variables or it may have captured 4. std::function will take care of making sure that enough memory is allocated for the data, but it comes at a cost(the data could be heap allocated).

However, if you are wanting to store several lambdas, and you know how many at compile-time. You could store them in an std::tuple instead. Which allows different types for each lambda. Unfortunately, C++ still doesn't provide a way to iterate over a tuple, but using Boost.Fusion you can.

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C++ provides a way -- I am only 109 characters short of being able to post a complete example in this comment. –  Yakk Feb 25 '13 at 20:28
@Yakk Thats pretty cool. Of course, I didn't mean it was impossible, just that the standard C++ library doesn't provide a way. –  Paul Mar 3 '13 at 16:30

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