137
#include <iostream>

struct a {
  enum LOCAL_A { A1, A2 };
};
enum class b { B1, B2 };

int foo(int input) { return input; }

int main(void) {
  std::cout << foo(a::A1) << std::endl;
  std::cout << foo(static_cast<int>(b::B2)) << std::endl;
}

The a::LOCAL_A is what the strongly typed enum is trying to achieve, but there is a small difference : normal enums can be converted into integer type, while strongly typed enums can not do it without a cast.

So, is there a way to convert a strongly typed enum value into an integer type without a cast? If yes, how?

10 Answers 10

113

Strongly typed enums aiming to solve multiple problems and not only scoping problem as you mentioned in your question:

  1. Provide type safety, thus eliminating implicit conversion to integer by integral promotion.
  2. Specify underlying types.
  3. Provide strong scoping.

Thus, it is impossible to implicitly convert a strongly typed enum to integers, or even its underlying type - that's the idea. So you have to use static_cast to make conversion explicit.

If your only problem is scoping and you really want to have implicit promotion to integers, then you better off using not strongly typed enum with the scope of the structure it is declared in.

135

As others have said, you can't have an implicit conversion, and that's by-design.

If you want you can avoid the need to specify the underlying type in the cast.

template <typename E>
constexpr typename std::underlying_type<E>::type to_underlying(E e) noexcept {
    return static_cast<typename std::underlying_type<E>::type>(e);
}

std::cout << foo(to_underlying(b::B2)) << std::endl;
  • How to use this function? – Akay Feb 21 at 12:01
  • 1
    @Akay Literally as shown in the answer. – Lightness Races in Orbit Aug 14 at 13:05
61

A C++14 version of the answer provided by R. Martinho Fernandes would be:

#include <type_traits>

template <typename E>
constexpr auto to_underlying(E e) noexcept
{
    return static_cast<std::underlying_type_t<E>>(e);
}

As with the previous answer, this will work with any kind of enum and underlying type. I have added the noexcept keyword as it will never throw an exception.


Update
This also appears in Effective Modern C++ by Scott Meyers. See item 10 (it is detailed in the final pages of the item within my copy of the book).

18
#include <cstdlib>
#include <cstdio>
#include <cstdint>

#include <type_traits>

namespace utils
{

namespace details
{

template< typename E >
using enable_enum_t = typename std::enable_if< std::is_enum<E>::value, 
                                               typename std::underlying_type<E>::type 
                                             >::type;

}   // namespace details


template< typename E >
constexpr inline details::enable_enum_t<E> underlying_value( E e )noexcept
{
    return static_cast< typename std::underlying_type<E>::type >( e );
}   


template< typename E , typename T>
constexpr inline typename std::enable_if< std::is_enum<E>::value &&
                                          std::is_integral<T>::value, E
                                         >::type 
 to_enum( T value ) noexcept 
 {
     return static_cast<E>( value );
 }

} // namespace utils




int main()
{
    enum class E{ a = 1, b = 3, c = 5 };

    constexpr auto a = utils::underlying_value(E::a);
    constexpr E    b = utils::to_enum<E>(5);
    constexpr auto bv = utils::underlying_value(b);

    printf("a = %d, b = %d", a,bv);
    return 0;
}
  • 3
    This does not reduce typing or make code cleaner and has the side effects of making it tougher to find such implicit conversions in big projects. Static_cast would be easier to search project wide than these constructs. – Atul Kumar Mar 20 '15 at 20:54
  • 3
    @AtulKumar How is searching for static_cast easier than searching for to_enum? – Johann Gerell Jan 3 at 14:10
  • This answer needs some explanation and documentation. – Lightness Races in Orbit Aug 14 at 13:07
15

No. There is no natural way.

In fact, one of the motivations behind having strongly typed enum class in C++11 is to prevent their silent conversion to int.

  • Have a look at the reply from Khurshid Normuradov. It comes the 'natural way' and is much as intended in 'The C++ Programming Language (4th ed.)'. It does not come in an 'automatic way', and that is good about it. – PapaAtHome Jan 10 '15 at 16:32
  • @PapaAtHome I do not understand the benefit of that over static_cast. Not much change in the typing or code cleanness. What is natural way here? A function returning value? – Atul Kumar Mar 20 '15 at 20:56
  • 1
    @user2876962 The benefit, for me, is that it is not automatic or 'silent' as Iammilind puts it. That prevents dificult to find errors. You can still do a cast but you are forced to think about it. That way you know what you're doing. To me it is part of a 'safe coding' habit. I prefer that no conversions are not done automatic is there is a sliver of a chance that it might introduce an error. Quite a few changes in C++11 related to the type system fall in this category if you ask me. – PapaAtHome Mar 23 '15 at 18:52
12

Hope this helps you or someone else

enum class EnumClass : int //set size for enum
{
    Zero, One, Two, Three, Four
};

union Union //This will allow us to convert
{
    EnumClass ec;
    int i;
};

int main()
{
using namespace std;

//convert from strongly typed enum to int

Union un2;
un2.ec = EnumClass::Three;

cout << "un2.i = " << un2.i << endl;

//convert from int to strongly typed enum
Union un;
un.i = 0; 

if(un.ec == EnumClass::Zero) cout << "True" << endl;

return 0;
}
  • 32
    This is called "type punning" and although supported by some compilers is not portable, as the C++ standard says that after you set un.i that is the "active member" and you can only read the active member of a union. – Jonathan Wakely May 2 '14 at 12:49
  • 6
    @JonathanWakely You are technically correct, but I have never seen a compiler where this doesn't work reliably. Stuff like this, anonymous unions, and #pragma once are defacto standards. – BigSandwich Mar 26 '15 at 15:43
  • 5
    Why use something that the standard explicitly forbids, when a simple cast will do? This is just wrong. – Paul Groke Jul 24 '16 at 23:40
  • 1
    Technically correct or not, for me it's way more readable then other solutions found here. And what is more important for me, it can be used to solve not only serialization, but also deserialization of enum class with ease, and readable format. – Marcin Waśniowski Mar 21 '17 at 21:38
  • 3
    I absolutely despair that there are people who consider this messy undefined behaviour "way more readable" than a simple static_cast. – underscore_d Sep 15 '18 at 15:09
11

The reason for the absence of implicit conversion (by design) was given in other answers.

I personally use unary operator+ for the conversion from enum classes to their underlying type:

template <typename T>
constexpr auto operator+(T e) noexcept
    -> std::enable_if_t<std::is_enum<T>::value, std::underlying_type_t<T>>
{
    return static_cast<std::underlying_type_t<T>>(e);
}

Which gives quite little "typing overhead":

std::cout << foo(+b::B2) << std::endl;

Where I actually use a macro to create enums and the operator functions in one shot.

#define UNSIGNED_ENUM_CLASS(name, ...) enum class name : unsigned { __VA_ARGS__ };\
inline constexpr unsigned operator+ (name const val) { return static_cast<unsigned>(val); }
9

Short answer is you can't as above posts point out. But for my case, I simply didn't want to clutter the namespace but still have implicit conversions, so I just did:

#include <iostream>

using namespace std;

namespace Foo {
   enum Foo { bar, baz };
}

int main() {
   cout << Foo::bar << endl; // 0
   cout << Foo::baz << endl; // 1
   return 0;
}

The namespacing sort of adds a layer of type-safety while I don't have to static cast any enum values to the underlying type.

  • It adds no type safety whatsoever (indeed, you just removed the type safety) - it only adds name scoping. – Lightness Races in Orbit Aug 14 at 13:09
5

This seems impossible with the native enum class, but probably you can mock a enum class with a class:

In this case,

enum class b
{
    B1,
    B2
};

would be equivalent to:

class b {
 private:
  int underlying;
 public:
  static constexpr int B1 = 0;
  static constexpr int B2 = 1;
  b(int v) : underlying(v) {}
  operator int() {
      return underlying;
  }
};

This is mostly equivalent to the original enum class. You can directly return b::B1 for in a function with return type b. You can do switch case with it, etc.

And in the spirit of this example you can use templates (possibly together with other things) to generalize and mock any possible object defined by the enum class syntax.

  • but B1 and B2 must be defined outside the class... or this is unusable for case - header.h <-- class b - main.cpp <---- myvector.push_back( B1 ) – Fl0 Nov 6 '18 at 17:35
4

As many said, there is no way to automatically convert without adding overheads and too much complexity, but you can reduce your typing a bit and make it look better by using lambdas if some cast will be used a bit much in a scenario. That would add a bit of function overhead call, but will make code more readable compared to long static_cast strings as can be seen below. This may not be useful project wide, but only class wide.

#include <bitset>
#include <vector>

enum class Flags { ......, Total };
std::bitset<static_cast<unsigned int>(Total)> MaskVar;
std::vector<Flags> NewFlags;

-----------
auto scui = [](Flags a){return static_cast<unsigned int>(a); };

for (auto const& it : NewFlags)
{
    switch (it)
    {
    case Flags::Horizontal:
        MaskVar.set(scui(Flags::Horizontal));
        MaskVar.reset(scui(Flags::Vertical)); break;
    case Flags::Vertical:
        MaskVar.set(scui(Flags::Vertical));
        MaskVar.reset(scui(Flags::Horizontal)); break;

   case Flags::LongText:
        MaskVar.set(scui(Flags::LongText));
        MaskVar.reset(scui(Flags::ShorTText)); break;
    case Flags::ShorTText:
        MaskVar.set(scui(Flags::ShorTText));
        MaskVar.reset(scui(Flags::LongText)); break;

    case Flags::ShowHeading:
        MaskVar.set(scui(Flags::ShowHeading));
        MaskVar.reset(scui(Flags::NoShowHeading)); break;
    case Flags::NoShowHeading:
        MaskVar.set(scui(Flags::NoShowHeading));
        MaskVar.reset(scui(Flags::ShowHeading)); break;

    default:
        break;
    }
}

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