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What I'm trying to do is to define a function template such that if the typename represents a container it recurses applying itself on the elements, something like:

template<typename T> 
function void apply( T &t ){
    if( is_container<T>::value )
        for( auto &e : t ) apply(e);
    else
        // do something to t
        t = ...;
}

I have looked in the <type_traits> header, but I'm not sure if there is something there I can use.

For my own classes I would like to be able to control if it has to behave like a container or like an element.

Does somebody know if there is a nice way to do this?

share|improve this question
    
Do you need that to be specifically STL container, or any container, including plain array, for which range for loop compiles? – Cubbi Nov 23 '13 at 0:16
    
I would like it to work with array<T, N> a but I don't mind if it gives a positive answer to T a[N]. – Esteban Crespi Nov 23 '13 at 0:19
up vote 3 down vote accepted

In general, you can't do this.

The problem is that every line in your function template has to be valid syntax even if the argument isn't a container. In your code the for (auto &e : t) part will probably not compile when is_container<T>::value is false, so the entire function fails to compile.

There have been some proposals for a "static if" that would allow entire blocks of code to be conditionally ignored by the compiler, based on compile-time constants, but they have serious issues (see Static If Considered for links to proposals and discussions of problems with them).

The safe and portable way to solve your problem is to dispatch to a different function depending on which block of code you want to run:

template<typename T> 
  void apply( T &t );   // forward declaration

template<typename T> 
  void apply2( T &t, std::true_type ){
    for( auto &e : t ) apply(e);
  }

template<typename T> 
  void apply2( T &t, std::false_type ){
    // do something to t
    t = ...;
  }

template<typename T> 
  void apply( T &t ){
    apply2(t, std::integral_constant<bool, is_container<T>::value>() );
  }

This ensures that the code that only works if T is a container will only ever get called when T really is a container. This is called tag dispatching.

Now to make this work all you need is a trait is_container, which is pretty easy to write once you decide what you mean by container :-)

There's no standard "is container" type trait, but if you decide that your definition of "container" is something that has begin() and end() members, you can write a trait to test for them:

template<typename T>
struct is_container_helper
{
  template<typename U,
           typename Require1 = decltype(std::declval<const U&>().begin()),
           typename Require2 = decltype(std::declval<const U&>().end())>
    static std::true_type test(const U*);

  template<typename U>
    static std::false_type test(...);

  typedef decltype(test<T>(0)) type;
};

template<typename T>
struct is_container : is_container_helper<T>::type { };

Given this trait you can then specialize it for your own types.

Alternatively, you can use SFINAE instead of tag dispatching, which is the trick that makes the is_container_helper trait above work. That will not allow you to specialize the trait for you own types so easily.

share|improve this answer
1  
This is more of an is_range than is_container, in which case I would prefer non-member begin and end: typename Require1 = decltype(std::begin(std::declval<const U&>())). (Live at Coliru) – Casey Nov 23 '13 at 4:18
    
Agreed. The point of my answer was that the OP's function template will not work even with a correct is_container, rather than showing a correct is_container. – Jonathan Wakely Nov 23 '13 at 17:11

I think traditionally if a type contains a value_type typedef then it's a container.

Alternatively, you can look for the iterator typedef, that might be more robust.

share|improve this answer
    
@Downvoter: Care to comment? – Mehrdad Nov 23 '13 at 1:31
    
You haven't said how to create a trait based on the presence of those types, nor have you said how to make the OP's function template work (which as written is impossible even if you have an is_container trait) so the answer isn't very useful. – Jonathan Wakely Nov 23 '13 at 17:14

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