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c++ - Implementation of operators for enum class

Following the discussion in question Incrementation and decrementation of “enum class”, I'd like to ask about the possible implementation of arithmetic operators for enum class types.

Example from the original question:

enum class Colors { Black, Blue, White, END_OF_LIST };

// Special behavior for ++Colors
Colors& operator++( Colors &c ) {
  c = static_cast<Colors>( static_cast<int>(c) + 1 );
  if ( c == Colors::END_OF_LIST )
    c = Colors::Black;
  return c;
}

Is there a way to implement arithmetic operators without casting to a type with already defined operators? I can't think of any, but casting bothers me. Casts are usually indication of something wrong and there has to be a very good reason for their usage. I would expect the language to allow implementation of an operator to be achievable without forcing to a specific type.

Update Dec 2018: One of the papers towards C++17 seems to address this at least partially by allowing conversions between enum class variable and the underlying type: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2016/p0138r2.pdf

See Question&Answers more detail:os

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The no-cast solution is to use switch. However, you can generate a pseudo-switch using templates. The principle is to recursively process all values of the enum using a template list (or a parameter pack). So, here are 3 methods I found.

Test enum:

enum class Fruit
{
    apple,
    banana,
    orange,
    pineapple,
    lemon
};

The vanilla switch (live here):

Fruit& operator++(Fruit& f)
{
    switch(f)
    {
        case Fruit::apple:     return f = Fruit::banana;
        case Fruit::banana:    return f = Fruit::orange;
        case Fruit::orange:    return f = Fruit::pineapple;
        case Fruit::pineapple: return f = Fruit::lemon;
        case Fruit::lemon:     return f = Fruit::apple;
    }
}

The C++03-ish method (live here):

template<typename E, E v>
struct EnumValue
{
    static const E value = v;
};

template<typename h, typename t>
struct StaticList
{
    typedef h head;
    typedef t tail;
};

template<typename list, typename first>
struct CyclicHead
{
    typedef typename list::head item;
};

template<typename first>
struct CyclicHead<void,first>
{
    typedef first item;
};

template<typename E, typename list, typename first = typename list::head>
struct Advance
{
    typedef typename list::head lh;
    typedef typename list::tail lt;
    typedef typename CyclicHead<lt, first>::item next;

    static void advance(E& value)
    {
        if(value == lh::value)
            value = next::value;
        else
            Advance<E, typename list::tail, first>::advance(value);
    }
};

template<typename E, typename f>
struct Advance<E,void,f>
{
    static void advance(E& value)
    {
    }
};

/// Scalable way, C++03-ish
typedef StaticList<EnumValue<Fruit,Fruit::apple>,
        StaticList<EnumValue<Fruit,Fruit::banana>,
        StaticList<EnumValue<Fruit,Fruit::orange>,
        StaticList<EnumValue<Fruit,Fruit::pineapple>,
        StaticList<EnumValue<Fruit,Fruit::lemon>,
        void
> > > > > Fruit_values;

Fruit& operator++(Fruit& f)
{
    Advance<Fruit, Fruit_values>::advance(f);
    return f;
}

The C++11-ish method (live here):

template<typename E, E first, E head>
void advanceEnum(E& v)
{
    if(v == head)
        v = first;
}

template<typename E, E first, E head, E next, E... tail>
void advanceEnum(E& v)
{
    if(v == head)
        v = next;
    else
        advanceEnum<E,first,next,tail...>(v);
}

template<typename E, E first, E... values>
struct EnumValues
{
    static void advance(E& v)
    {
        advanceEnum<E, first, first, values...>(v);
    }
};

/// Scalable way, C++11-ish
typedef EnumValues<Fruit,
        Fruit::apple,
        Fruit::banana,
        Fruit::orange,
        Fruit::pineapple,
        Fruit::lemon
> Fruit_values11;

Fruit& operator++(Fruit& f)
{
    Fruit_values11::advance(f);
    return f;
}

(C++11-ish old version)

You may be able to extend by adding some preprocessor to remove the need to repeat the list of values.


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