158

Scott Meyers posted content and status of his next book EC++11. He wrote that one item in the book could be "Avoid std::enable_if in function signatures".

std::enable_if can be used as a function argument, as a return type or as a class template or function template parameter to conditionally remove functions or classes from overload resolution.

In this question all three solution are shown.

As function parameter:

template<typename T>
struct Check1
{
   template<typename U = T>
   U read(typename std::enable_if<
          std::is_same<U, int>::value >::type* = 0) { return 42; }

   template<typename U = T>
   U read(typename std::enable_if<
          std::is_same<U, double>::value >::type* = 0) { return 3.14; }   
};

As template parameter:

template<typename T>
struct Check2
{
   template<typename U = T, typename std::enable_if<
            std::is_same<U, int>::value, int>::type = 0>
   U read() { return 42; }

   template<typename U = T, typename std::enable_if<
            std::is_same<U, double>::value, int>::type = 0>
   U read() { return 3.14; }   
};

As return type:

template<typename T>
struct Check3
{
   template<typename U = T>
   typename std::enable_if<std::is_same<U, int>::value, U>::type read() {
      return 42;
   }

   template<typename U = T>
   typename std::enable_if<std::is_same<U, double>::value, U>::type read() {
      return 3.14;
   }   
};
  • Which solution should be preferred and why should I avoid others?
  • In which cases "Avoid std::enable_if in function signatures" concerns usage as return type (which is not part of normal function signature but of template specializations)?
  • Are there any differences for member and non-member function templates?
  • Because overloading is just as nice, usually. If anything, delegate to an implementation that uses (specialized) class templates. – sehe Jan 30 '13 at 9:09
  • Member functions differ in that the overload set includes overloads declared after the current overload. This is particularly important when doing variadics delayed return type (where the return type is to be inferred from another overload) – sehe Jan 30 '13 at 9:11
  • 1
    Well, merely subjectively I have to say that while often being quite useful I don't like std::enable_if to clutter my function signatures (especially the ugly additional nullptr function argument version) because it always looks like what it is, a strange hack (for something a static if might do much more beautiful and clean) using template black-magic to exploit an interresting language feature. This is why I prefer tag-dispatching whenever possible (well, you still have additional strange arguments, but not in the public interface and also much less ugly and cryptic). – Christian Rau Jan 30 '13 at 10:41
  • 2
    I want to ask what does =0 in typename std::enable_if<std::is_same<U, int>::value, int>::type = 0 accomplish? I couldn't find correct resources to understand it. I know the first part before =0 has a member type int if U and int is the same. Many thanks! – astroboylrx Apr 24 '16 at 22:45
  • 4
    @astroboylrx Funny, I was just going to put a comment noting this. Basically, that =0 indicates that this is a defaulted, non-type template parameter. It's done this way because defaulted type template parameters are not part of the signature, so you cannot overload on them. – Nir Friedman Apr 27 '16 at 21:16
102

Put the hack in the template parameters.

The enable_if on template parameter approach has at least two advantages over the others:

  • readability: the enable_if use and the return/argument types are not merged together into one messy chunk of typename disambiguators and nested type accesses; even though the clutter of the disambiguator and nested type can be mitigated with alias templates, that would still merge two unrelated things together. The enable_if use is related to the template parameters not to the return types. Having them in the template parameters means they are closer to what matters;

  • universal applicability: constructors don't have return types, and some operators cannot have extra arguments, so neither of the other two options can be applied everywhere. Putting enable_if in a template parameter works everywhere since you can only use SFINAE on templates anyway.

For me, the readability aspect is the big motivating factor in this choice.

  • 4
    You can also make it even more readable with alias templates and some tuning: flamingdangerzone.com/cxx11/2012/06/01/almost-static-if.html – R. Martinho Fernandes Jan 31 '13 at 10:50
  • 4
    Using the FUNCTION_REQUIRES macro here, makes it much nicer to read, and it works in C++03 compilers as well, and it relies on using enable_if in the return type. Also, using enable_if in function template parameters causes problems for overloading, because now the function signature aren't unique causing ambiguous overloading errors. – Paul Fultz II Mar 3 '13 at 17:05
  • 2
    Non-broken link: flamingdangerzone.com/cxx11/almost-static-if – jtbandes Jul 15 '15 at 3:32
  • @jtbandes oh, thanks. – R. Martinho Fernandes Jul 15 '15 at 12:22
  • 2
    This is an old question, but for anyone still reading: the solution to the issue raised by @Paul is to use enable_if with a defaulted non-type template parameter, which allows overloading. I.e. enable_if_t<condition, int> = 0 instead of typename = enable_if_t<condition>. – Nir Friedman Apr 27 '16 at 21:17
54

std::enable_if relies on the "Substition Failure Is Not An Error" (aka SFINAE) principle during template argument deduction. This is a very fragile language feature and you need to be very careful to get it right.

  1. if your condition inside the enable_if contains a nested template or type definition (hint: look for :: tokens), then the resolution of these nested tempatles or types are usually a non-deduced context. Any substitution failure on such a non-deduced context is an error.
  2. the various conditions in multiple enable_if overloads cannot have any overlap because overload resolution would be ambiguous. This is something that you as an author need to check yourself, although you'd get good compiler warnings.
  3. enable_if manipulates the set of viable functions during overload resolution which can have surprising interactions depending on the presence of other functions that are brought in from other scopes (e.g. through ADL). This makes it not very robust.

In short, when it works it works, but when it doesn't it can be very hard to debug. A very good alternative is to use tag dispatching, i.e. to delegate to an implementation function (usually in a detail namespace or in a helper class) that receives a dummy argument based on the same compile-time condition that you use in the enable_if.

template<typename T>
T fun(T arg) 
{ 
    return detail::fun(arg, typename some_template_trait<T>::type() ); 
}

namespace detail {
    template<typename T>
    fun(T arg, std::false_type /* dummy */) { }

    template<typename T>
    fun(T arg, std::true_type /* dummy */) {}
}

Tag dispatching does not manipulate the overload set, but helps you select exactly the function you want by providing the proper arguments through a compile-time expression (e.g. in a type trait). In my experience, this is much easier to debug and get right. If you are an aspiring library writer of sophisticated type traits, you might need enable_if somehow, but for most regular use of compile-time conditions it's not recommended.

  • 22
    Tag dispatching has one disadvantage though: if you have some trait that detects the presence of a function, and that function is implemented with the tag dispatching approach, it always report that member as present, and result in an error instead of a potential substitution failure. SFINAE is primarily a technique for removing overloads from candidate sets, and tag dispatching is a technique for selecting between two (or more) overloads. There is some overlap in functionality, but they are not equivalent. – R. Martinho Fernandes Jan 30 '13 at 9:40
  • @R.MartinhoFernandes can you give a short example, and illustrate how enable_if would get it right? – TemplateRex Jan 30 '13 at 9:44
  • 1
    @R.MartinhoFernandes I think a separate answer explaining these points might add value to the OP. :-) BTW, writing traits like is_f_able is something that I consider a task for library writers who can of course use SFINAE when that gives them an advantage, but for "regular" users and given a trait is_f_able, I think tag dispatching is easier. – TemplateRex Jan 30 '13 at 10:09
  • 1
    @hansmaad I posted a short answer addressing your question, and will address the issue of "to SFINAE or to not SFINAE" in a blog post instead (it is a bit off-topic on this question). As soon as I get time to finish it, I mean. – R. Martinho Fernandes Jan 31 '13 at 10:43
  • 8
    SFINAE is "fragile"? What? – Lightness Races in Orbit Feb 8 '13 at 17:57
4

Which solution should be preferred and why should I avoid others?

  • The template parameter

    • It is usable in Constructors.
    • It is usable in user-defined conversion operator.
    • It requires C++11 or later.
    • It is IMO, the more readable.
    • It might easily be used wrongly and produces errors with overloads:

      template<typename T, typename = std::enable_if_t<std::is_same<T, int>::value>>
      void f() {/*...*/}
      
      template<typename T, typename = std::enable_if_t<std::is_same<T, float>::value>>
      void f() {/*...*/} // Redefinition: both are just template<typename, typename> f()
      

    Notice typename = std::enable_if_t<cond> instead of correct std::enable_if_t<cond, int>::type = 0

  • return type:

    • It cannot be used in constructor. (no return type)
    • It cannot be used in user-defined conversion operator. (not deducible)
    • It can be use pre-C++11.
    • Second more readable IMO.
  • Last, in function parameter:

    • It can be use pre-C++11.
    • It is usable in Constructors.
    • It cannot be used in user-defined conversion operator. (no parameters)
    • It cannot be used in methods with fixed number of arguments (unary/binary operators +, -, *, ...)
    • It can safely be use in inheritance (see below).
    • Change function signature (you have basically an extra as last argument void* = nullptr) (so function pointer would differ, and so on)

Are there any differences for member and non-member function templates?

There are subtle differences with inheritance and using:

According to the using-declarator (emphasis mine):

namespace.udecl

The set of declarations introduced by the using-declarator is found by performing qualified name lookup ([basic.lookup.qual], [class.member.lookup]) for the name in the using-declarator, excluding functions that are hidden as described below.

...

When a using-declarator brings declarations from a base class into a derived class, member functions and member function templates in the derived class override and/or hide member functions and member function templates with the same name, parameter-type-list, cv-qualification, and ref-qualifier (if any) in a base class (rather than conflicting). Such hidden or overridden declarations are excluded from the set of declarations introduced by the using-declarator.

So for both template argument and return type, methods are hidden is following scenario:

struct Base
{
    template <std::size_t I, std::enable_if_t<I == 0>* = nullptr>
    void f() {}

    template <std::size_t I>
    std::enable_if_t<I == 0> g() {}
};

struct S : Base
{
    using Base::f; // Useless, f<0> is still hidden
    using Base::g; // Useless, g<0> is still hidden

    template <std::size_t I, std::enable_if_t<I == 1>* = nullptr>
    void f() {}

    template <std::size_t I>
    std::enable_if_t<I == 1> g() {}
};

Demo (gcc wrongly finds the base function).

Whereas with argument, similar scenario works:

struct Base
{
    template <std::size_t I>
    void h(std::enable_if_t<I == 0>* = nullptr) {}
};

struct S : Base
{
    using Base::h; // Base::h<0> is visible

    template <std::size_t I>
    void h(std::enable_if_t<I == 1>* = nullptr) {}
};

Demo

protected by Marco A. Nov 4 '14 at 12:39

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