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You know, we can wrap or store a lambda function to a std::function:

#include <iostream>
#include <functional>
int main()
    std::function<float (float, float)> add = [](float a, float b)
    //            ^^^^^^^^^^^^^^^^^^^^
        return a + b;

    std::cout << add(1, 2) << std::endl;

My question is around std::function, as you can see it is a template class but it can accept any kind of function signature.

For example float (float, float) in this form return_value (first_arg, second_arg).

What's the structure of std::function and how does it accept a function signature like x(y,z) and how it works with it? Is float (float, float) a new valid expression in C++?

share|improve this question
Look up type erasure in C++. –  R. Martinho Fernandes Feb 18 '13 at 12:50
You can always open your compiler's <function> header (I believe all major compilers ship std headers as C++ code) and inspect it, or have a look at Boost.Function. –  Angew Feb 18 '13 at 12:52
@Angew: Yes, very educational, +1. I think std::function touches on just about every aspect of the C++ language... –  Kerrek SB Feb 18 '13 at 12:54
For an easier mental exercise, try to understand how std::bind works... –  Kerrek SB Feb 18 '13 at 12:56
You can check implementation at stackoverflow.com/a/14741161/1762344 –  Evgeny Panasyuk Feb 18 '13 at 18:54

1 Answer 1

up vote 53 down vote accepted

It uses some type erasure technique.

One possibility is to use mix subtype polymorphism with templates. Here's a simplified version, just to give a feel for the overall structure:

template <typename T>
struct function;

template <typename Result, typename... Args>
struct function<Result(Args...)> {
    // this is the bit that will erase the actual type
    struct concept {
        virtual Result operator()(Args...) const = 0;

    // this template provides us derived classes from `concept`
    // that can store and invoke op() for any type
    template <typename T>
    struct model : concept {
        template <typename U>
        model(U&& u) : t(std::forward<U>(u)) {}

        Result operator()(Args... a) const override {

        T t;

    // this is the actual storage
    // note how the `model<?>` type is not used here    
    std::unique_ptr<concept> fn;

    // construct a `model<T>`, but store it as a pointer to `concept`
    // this is where the erasure "happens"
    template <typename T,
        typename=typename std::enable_if<
                decltype( t(std::declval<Args>()...) ),
    function(T&& t)
    : fn(new model<typename std::decay<T>::type>(std::forward<T>(t))) {}

    // do the virtual call    
    Result operator()(Args... args) const {
        return (*fn)(std::forward<Args>(args)...);

(Note that I overlooked several things for the sake of simplicity: it cannot be copied, and maybe other problems; don't use this code in real code)

share|improve this answer
+1. It's highly regrettable that I cannot upvote more times for this answer. –  xmllmx Feb 18 '13 at 14:44
@Martinho, where is the definition of 'Unqualified'? –  xmllmx Feb 18 '13 at 14:52
@xmllmx It's an alias template that removes all qualifiers (const, volatile, &, and &&) from a type. Same as Bare here: flamingdangerzone.com/cxx11/2012/05/29/… (I have since changed my mind and found Unqualified to be a better name :) –  R. Martinho Fernandes Feb 18 '13 at 14:56
@xmllmx, actually, scratch that. It should be std::decay instead (it simulates pass-by-value semantics, which is what I want: I want to store by value). They are similar, but not quite the same here. –  R. Martinho Fernandes Feb 18 '13 at 15:10
@rubenvb there's a note at the end... –  R. Martinho Fernandes Apr 24 '13 at 10:02

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