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I have a bunch of enum types, like this:

enum Color {COLOR_RED = 0, COLOR_GREEN = 1, COLOR_BLUE = 2, COLOR_NUM};
enum Direction {DIRECTION_FORWARD, DIRECTION_BACKWARD, DIRECTION_NUM};
enum Choice {CHOICE_THIS, CHOICE_THAT, CHOICE_NUM}; // i've just made it up

In many places in my code I would like to do a loop over all possible values; I would like it to look like this:

for (Color c = COLOR_RED; c != COLOR_NUM; ++c)
{
    ...
}

For that, I define operator++ together with Color:

enum Color {COLOR_RED = 0, COLOR_GREEN = 1, COLOR_BLUE = 2, COLOR_NUM};

inline Color& operator++(Color& c)
{
    c = static_cast<Color>(c + 1);
    return c;
}

I also define postfix operator++ for people that are used to coding loops with i++ instead of ++i:

inline Color operator++(Color& c, int)
{
    Color r = c;
    c = static_cast<Color>(c + 1);
    return r;
}

I would like to know how to use templates to have the compiler generate these operators without me having to write too much boring code. I have just found boost::unit_steppable that supposedly generates the postfix operator++ from the prefix one, but it does only half the work: I still have to provide the prefix operator++ myself.

The following works but is too "powerful" in my opinion:

template <class T> T operator++(T x)
{
    return static_cast<T>(x + 1);
}

I would like to have the operators defined only for selected enums.

share|improve this question
1  
I don't think this is a good idea. –  Park Young-Bae Feb 24 '13 at 11:32
    
Are you absolutely bound to C++03? –  Xeo Feb 24 '13 at 11:40
    
@Xeo Yes (have to compile with MS Visual Studio 2005). –  anatolyg Feb 24 '13 at 11:43
1  
A template like this will get you into a lot of trouble, and not only for enum Color {red = 1, blue = 42};. –  Bo Persson Feb 24 '13 at 11:44
    
@Cicada What do you think is a bad idea: using templates to generate such code, or overloading any operators at all? (you can also format this as an answer, if you explain why) –  anatolyg Feb 24 '13 at 11:46

1 Answer 1

up vote 2 down vote accepted

The following should get you started, extend as needed:

#include <type_traits>

enum Foo { RED, GREEN, BLUE, SIZE };

template< typename T > struct my_enum_is_unit_steppable { enum { value = false }; };

// for each type you want the operator(s) to be enabled, do this:
template<> struct my_enum_is_unit_steppable< Foo > { enum { value = true }; };

// protect the operators with enable_if
template< typename T >
typename std::enable_if< my_enum_is_unit_steppable< T >::value, T >::type
operator++( T value )
{
    return T( value + 1 );
}

int main()
{
    for( Foo foo = RED; foo != SIZE; ++foo ) {}
}

Of course, this uses C++11's std::enable_if, but Boost has C++03-versions available.

share|improve this answer
1  
Note that the equivalent Boost version is either boost::enable_if<trait<T>, T>, or boost::enable_if_c<trait<T>::value, T>. –  Xeo Feb 24 '13 at 12:11

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