38

I have a variable declared as:

enum class FooEnum: uint64_t {}

and I would like to cast to its base-type, but I don't want to hardcode the base-type. For instance, something like this:

FooEnum myEnum;
uint64_t * intPointer = (underlying_typeof(myEnum))&myEnum;

Is this possible?

2
  • stackoverflow.com/questions/28002/… casting, specifically dynamic Feb 18, 2012 at 17:26
  • 6
    @L7ColWinters dynamic_cast can't help. Don't let the class keyword and the : uint64_t mislead you into thinking that scoped enumerations and underlying types of enumerations are similar to class inheritance.
    – Luc Danton
    Feb 18, 2012 at 21:39

4 Answers 4

45

Since C++ 11 you can use this:

The doc says,

Defines a member typedef type of type that is the underlying type for the enumeration T.

So you should be able to do this:

#include <type_traits> //include this

FooEnum myEnum;
auto pointer = static_cast<std::underlying_type<FooEnum>::type*>(&myEnum);

In C++ 14 it has been a bit simplified (note there is no ::type):

auto pointer = static_cast<std::underlying_type_t<FooEnum>*>(&myEnum);

And finally since C++ 23 one can get value without explicit cast (docs):

auto value = std::to_underlying<FooEnum>(myEnum);
1
  • Would a static_cast work? I was under the impression that no sane casts would work on a enum class.
    – deft_code
    Feb 21, 2012 at 18:50
20

Your guessed syntax is amazingly close. You're looking for std::underlying_type in <type_traits>:

#include <type_traits>
#include <cstdint>

enum class FooEnum: std::uint64_t {};

int main()
{
    FooEnum myEnum;
    uint64_t* intPointer = (std::underlying_type<FooEnum>::type*)&myEnum;
}
2
  • So close indeed. Apparently an appropriate name was chosen. :)
    – Kyle
    Feb 18, 2012 at 22:08
  • 1
    I dont get it. If intPointeris declared to be uint64_t*, then why don't you simply use it in the cast expression as well? Why bother using std::underlying_type<FooEnum>::type* at all? (Also, C-style cast is bad, is another topic). Sep 13, 2018 at 16:40
9

Both Visual C++ 10.0 and MinGW g++ 4.6.1 lack std::underlying_type, but both accept this code:

template< class TpEnum >
struct UnderlyingType
{
    typedef typename conditional<
        TpEnum( -1 ) < TpEnum( 0 ),
        typename make_signed< TpEnum >::type,
        typename make_unsigned< TpEnum >::type
        >::type T;
};
2
  • @Cheersandhth.-Alf @Grizzly: However, casts TpEnum(-1) and TpEnum(0) may have UB: 5.2.9 "Static cast", item 10 says " A value of integral or enumeration type can be explicitly converted to an enumeration type. The value is unchanged if the original value is within the range of the enumeration values (7.2). Otherwise, the resulting value is unspecified (and might not be in that range)."
    – Joker_vD
    Feb 28, 2014 at 7:56
  • 1
    @Joker_vD: unspecified is not UB. Nov 28, 2014 at 3:38
2

Here is another approach for when underlying_type is not present. This method doesn't attempt to detect the signed-ness of the enum, just give you a type of the same size, which is more than enough for a lot of situations.

template<int>
class TIntegerForSize
{
    typedef void type;
};

template<>
struct TIntegerForSize<1>
{
    typedef uint8_t type;
};

template<>
struct TIntegerForSize<2>
{
    typedef uint16_t type;
};

template<>
struct TIntegerForSize<4>
{
    typedef uint32_t type;
};

template<>
struct TIntegerForSize<8>
{
    typedef uint64_t type;
};

template<typename T>
struct TIntegerForEnum
{
    typedef typename TIntegerForSize<sizeof(T)>::type type;
};

Usage:

enum EFoo {Alpha, Beta};
EFoo f = Alpha;
TIntegerForEnum<EFoo>::type i = f;
TIntegerForEnum<decltype(f)>::type j = f;

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