I am trying to implement a state-machine. The state is represented by a function of type callback_t : callback_t(int&) which returns a function of same type.

I dont know how to implement it since recursive typed function seems not to be allowed.

Here what I tryied (as a toy) :

#include <stdio.h>
#include <functional>

typedef std::function< callback_t(int &) > callback_t ;
callback_t f1(int & i)
    return f1;
callback_t f0(int & i)
    if(i==0) i++;
    return f1;
callback_t start(int & i)
    return f0;

int main(int argc, char **argv)
    callback_t begin = start;
    int i=0;

        begin = begin(i);

    printf("hello world\n");
    return 0;

The error:

C:/work/tests/tests/main.cpp:4:41: error: 'callback_t' was not declared in this scope
typedef std::function< callback_t(int &) > callback_t ;

Is there a way to implement this kind of behaviour ?

Env : win7, codelite, mingw 4.8.1

  • You compiled your program with -std=c++11 or -std=gnu++11, right? – usr1234567 May 19 '14 at 14:27
  • 1
    g++ -c "C:/work/tests/tests/main.cpp" -std=c++11 -g -O0 -Wall -o ./Debug/main.o -I. -I. – norisknofun May 19 '14 at 14:44
  • Please provide a more descriptive title. As is, whoever finds this in their search results will not be able to judge if it is worth checking out because this title could describe anything. – R. Martinho Fernandes May 19 '14 at 15:54
  • @R. Martinho Fernandes : what do you think now ? Any suggestion ? – norisknofun May 19 '14 at 16:04
  • Cool, thanks for acting! Have a +1. – R. Martinho Fernandes May 19 '14 at 16:09

Since recursive type definition is not possible, you can declare a structure that carry the function and implicitly cast to it:

template< typename... T >
struct RecursiveHelper
    typedef std::function< RecursiveHelper(T...) > type;
    RecursiveHelper( type f ) : func(f) {}
    operator type () { return func; }
    type func;

typedef RecursiveHelper<int&>::type callback_t;

Example: http://coliru.stacked-crooked.com/a/c6d6c29f1718e121

| improve this answer | |
  • I modified your sample to match my use case, works perfectly. – norisknofun May 19 '14 at 16:09
  • 1
    @Drax Right i just forgot that std::function do a implicit conversion of return type :) it will not work with bare function pointer – Arpegius May 19 '14 at 16:35
  • 1
    @Ervadac It is a function definition. A function that return a copy of RecursiveHelper, and get any parameter from that are pass to this template. – Arpegius Feb 3 '15 at 16:57
  • 1
    @Ervadac Look here: stackoverflow.com/questions/16938480/… – Arpegius Feb 3 '15 at 17:13
  • 1
    Question is tagged as C++11, so consider using instead of typedef. – kfsone Feb 29 '16 at 21:34

A little library for substituting one type for another:

template<class T>struct tag{using type=T;};

template<class X, class A, class B> struct subst:tag<X>{};
template<class X, class A, class B>
using subst_t=typename subst<X,A,B>::type;

template<class A, class B> struct subst<A,A,B>:tag<B>{};
template<class X, class A, class B>
struct subst<X&,A,B>:tag<subst_t<X,A,B>&>{};
template<class X, class A, class B>
struct subst<X&&,A,B>:tag<subst_t<X,A,B>&&>{};
template<class X, class A, class B>
struct subst<X const,A,B>:tag<subst_t<X,A,B>const>{};
template<class X, class A, class B>
struct subst<X volatile,A,B>:tag<subst_t<X,A,B>volatile>{};
template<class X, class A, class B>
struct subst<X const volatile,A,B>:tag<subst_t<X,A,B>const volatile>{};
template<template<class...>class Z,class...Xs, class A, class B>
struct subst<Z<Xs...>,A,B>:tag<Z<subst_t<Xs,A,B>...>>{};
template<template<class,size_t>class Z,class X,size_t n, class A, class B>
struct subst<Z<X,n>,A,B>:tag<Z<subst_t<X,A,B>,n>>{};
template<class R,class...Xs, class A, class B>
struct subst<R(Xs...),A,B>:tag<subst_t<R,A,B>(subst_t<Xs,A,B>...)>{};

now we use it:

struct own_type {};

template<class Sig>
struct recursive_func{
  using func=std::function< subst_t<Sig, own_type, recursive_func> >;
  std::result_of_t<func const&(Ts...)>
    return f(std::forward<Ts>(ts)...);
  operator func const&()const&{return f;}
  operator func&()&{return f;}
  operator func()&&{return std::move(f);}
  template<class F,
      && std::is_convertible<F,func>::value

  func* operator->(){return f;}
  func const* operator->()const{return f;}
  func f;

which gives you a lovely syntax:

recursive_func< std::vector<own_type>() > f;

is a function that returns a vector of its own type.

This uses a smattering of C++14 _t aliases. std::blah_t<?> can be replaced with typename std::blah<?>::type if your compiler is strictly C++11. There may be other typos.

A weakness is that templates that expect their types to satisfy some property in the immediate context may fail when fed own_type. This can be fixed with a delayed template applicator that subst understands, but in casual use is unlikely to be a problem.

live example

| improve this answer | |
typedef std::function< callback_t(int &) > callback_t ;

You try to define a new type with the definition itself. This is not possible! You can't use callback_t before it is defined.

| improve this answer | |

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