I have some generic code that works with flags specified using C++11 enum class types. At one step, I'd like to know if any of the bits in the flag are set. Currently, I'm using the code:

if (flags != static_cast<E>(0)) // Works, but ugly.

I could also force users to specify a particular name for an all-zero field, which is more readable but imposes my naming conventions on anyone using it:

if (flags != E::none) // Works, if you manually define none = 0.

But neither of these reads as nicely as the traditional:

if (flags) // Doesn't work with class enums.

Is it possible to specify a custom function to evaluate a class enum in a boolean context?

  • Is there a specific reason you can't use binary flags? They're clean and efficient. Anyhow, enum class values cannot be converted to numbers. You have to use flags != E::none if you're enumerating. You know, you can just make a non-enum class and using static const int whatever = 1, static const int whatever_else = 2...etc. and overload just a few operators. – std''OrgnlDave Mar 26 '12 at 16:14
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    @OrgnlDave: "Binary flags" meaning what, bools? As bitfields they're often IB/UB and with regular alignment I'd not call them efficient, nor clean if I need to copy multiple ones at a time. I don't see the value in suggesting static ints, I could just use a regular enum and get at least a little type-safety. – user79758 Mar 26 '12 at 16:41
  • "I could just use a regular enum and get at least a little type-safety." Then you have to accept that along with that you no longer get to speak about bits. – GManNickG Mar 26 '12 at 18:13
  • @GManNickG: No I don't; one of the fundamental points of enum classes is that they are typesafe ways of naming a particular (set of) value representation(s). It is absolutely fine to speak both of bits and type-safety. – user79758 Mar 26 '12 at 20:29
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    @GManNickG: Enum classes remove the implicit cast to int but do not hide or change the value representation. You still specify the value literally, you can still static_cast rather than reinterpret_cast, and you can still use std::underlying_type. – user79758 Mar 26 '12 at 20:40
up vote 17 down vote accepted

Is it possible to specify a custom function to evaluate a class enum in a boolean context?

Yes, but not automatically. Manually calling a function is still more elegant than the other alternatives presented.

Simply pick a nice function name, such as any, and implement it. Overload resolution will make sure your function plays well with all others.

bool any( E arg )
    { return arg != E::none; }


if ( any( flags ) ) {

Looks nice enough to me.

Update: if you want this to apply to several enumeration types, it can be templated:

template< typename enum_type > // Declare traits type
struct enum_traits {}; // Don't need to declare all possible traits

struct enum_traits< E > { // Specify traits for "E"
    static constexpr bool has_any = true; // Only need to specify true traits

template< typename enum_type > // SFINAE makes function contingent on trait
typename std::enable_if< enum_traits< enum_type >::has_any,
    bool >::type
any( enum_type e )
    { return e != enum_type::none; }

I've been using this sort of mechanism for other things and never encountered any side effects or issues :v) .

You could skip the trait and set the SFINAE condition to something like enum_type::none == enum_type::none, to merely check for the presence of none and the equality operator, but that would be less explicit and safe.

Like @RMatin says. But you could overload operator!

bool operator!(E e) {
  return e == static_cast<E>(0);

So that you can use the !!e idiom

if(!!e) {
  • nice! I like this better than 'any'. combined with the SFINAE answer, it makes the best solution for me. – mchiasson Sep 29 at 15:28
struct Error {
    enum {
        None        = 0,
        Error1      = 1,
        Error2      = 2,
    } Value;

    /* implicit */ Error(decltype(Value) value) : Value(value) {}

    explicit operator bool() {
        return Value != Error::None;

inline bool operator==(Error a, Error b) {
    return a.Value == b.Value;

inline bool operator!=(Error a, Error b) {
    return !(a == b);

enum has no overloaded operator for now, so wrap it in a class or struct.

No, not like that. Conversion operators must be members, and enums cannot have members. I think the best you can do is comparison with none, or, if there isn't a none enumerator, wrap the static_cast in a function.

If you have a flags field (ie: a bitfield) I would strongly advise you not to use enum class for bitfields.

Strongly typed enums exist to be, well, strongly typed. It makes the enumerators into something more than just named constant integers the way regular enums are. The idea is that, if you have a variable of an enum class type, then its contents should always exactly match one of the enumerator values. That's why there is no implicit conversion from or to integer types.

But that's not what you're doing. You're taking a bitfield, which is a composition of enumerator values. That composition is not itself any one of those values; it's a combination of them. Therefore, you're lying when you say that you're taking the enum class type; you're really just taking an unsigned integer that might be one of the enum class enumerators.

For example:

enum class Foo
  First   = 0x01,
  Second  = 0x02,
  Third   = 0x04,

Foo val = Foo::First | Foo::Second;

val in this case does not contain First, Second, or Third. You've lost strong typing, because it doesn't contain any of the types.

enum class values cannot be implicitly converted to bool; they cannot be implicitly converted to integers; and they cannot implicitly have most math operations performed on them. They are opaque values.

And thus they are inappropriate for use as bitfields. Attempting to use enum class in such an inappropriate way will only lead to a lot of casting. Just use a regular old enum and save yourself the pain.

  • 7
    "You've lost strong typing, because it doesn't contain any of the types." You mean, it doesn't contain any of the predefined values. That doesn't mean I've made any particular kind of type violation. Furthermore, they are not opaque values - their value representation is defined in terms of the underlying storage type - they are merely explicit values. I appreciate the suggestion that enum classes aren't the right tool here, but saying what I want is "illegal" rather than "needs to be explicit to the point where it's so verbose it's no longer valuable" is inaccurate. – user79758 Mar 27 '12 at 2:04
  • @JoeWreschnig: First, I said that the code I wrote was illegal, which it is. Second, what you want requires a lot of explicit and pointless casts, which is the problem you asked us to solve. The solution is to stop using things that require explicit and pointless casts. Third, it is a semantic type violation. The whole point of having strong-typing for enums is to have some syntactic assurance that the values being passed to you are one of the legal values. Yes, people can lie, but they at least have to cast to do that, which is often considered a sign of doing something shady. – Nicol Bolas Mar 27 '12 at 2:09
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    -1: Funny, I just answered another question about how enums are ideal for sets of flags. The problem with the ideone example is that the operator| overload is missing. enum types are defined to follow the value semantics of the underlying type, and if that supports bitwise arithmetic, then type safety and arithmetic safety are both optimized. – Potatoswatter Mar 27 '12 at 4:27
  • @Potatoswatter: enums are, yes. enum classes are not. enum class values do not follow value semantics. They're strongly typed; they're only for storing one of the enumeration values. So you can't just do any math on them. Note that the Ideaone code works if you change it to enum rather than enum class. It's also illegal to store numbers in an enum class variable without an explicit cast. So even if operator| worked, you'd still need a cast just to store the resulting value. – Nicol Bolas Mar 27 '12 at 5:03
  • @Nicol: "It's also illegal to store numbers in an enum class variable without an explicit cast. So even if operator| worked, you'd still need a cast just to store the resulting value." — yep, that's exactly what you would do. If the default semantics aren't enough, you add customization. ideone.com/yLBZF – Potatoswatter Mar 27 '12 at 5:17

A short example of enum-flags below.

#indlude "enum_flags.h"

enum class foo_t
     none           = 0x00
    ,a              = 0x01
    ,b              = 0x02

enum class foo2_t
     none           = 0x00
    ,d              = 0x01
    ,e              = 0x02

int _tmain(int argc, _TCHAR* argv[])
    if(flags(foo_t::a & foo_t::b)) {};
    // if(flags(foo2_t::d & foo_t::b)) {};  // Type safety test - won't compile if uncomment

ENUM_FLAGS(T) is a macro, defined in enum_flags.h (less then 100 lines, free to use with no restrictions).

I usually overload the unary + operator for flag-like enum classes, so that i can do the following:

#define ENUM_FLAGS (FlagType, UnderlyingType)                           \
    /* ... */                                                           \
    UnderlyingType operator+(const FlagType &flags) {                   \
          return static_cast<UnderlyingType>(flags)                     \
    }                                                                   \
    /* ... */                                                           \
    FlagType operator&(const FlagType &lhs, const FlagType &rhs) {      \
          return static_cast<FlagType>(+lhs & +rhs)                     \
    }                                                                   \
    /* ... */                                                           \
    FlagType &operator|=(FlagType &lhs, const FlagType &rhs) {          \
          return lhs = static_cast<FlagType>(+lhs | +rhs)               \
    }                                                                   \
    /* ... */                                                           \

// ....

enum class Flags: std::uint16_t {
    NoFlag  = 0x0000,
    OneFlag = 0x0001,
    TwoFlag = 0x0002,
    // ....      
    LastFlag = 0x8000

ENUM_FLAGS(Flags, std::uint16_t)

auto flagVar = Flags::NoFlag;

// ...

flagVar |= Flags::OneFlag;

// ...

if (+(flagVar & Flags::OneFlag)) {
    /// ...

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