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I'm writing my own typesafe enum header-only library at https://bitbucket.org/chopsii/typesafe-enums

The idea is to replace the non-type-safe c-style enum like:

enum ItemCategory
{
    BLOCK,
    WEAPON
};

with something that's properly type safe.

So far, my solution uses a macro that, for an example equivalent to the above enum, looks like this:

TypesafeEnum(ItemCategory,
    (BLOCK)
    (WEAPON)
);

And expands to something that looks like this:

template<typename InnerType>
class Wrapped {
public:
    InnerType getValue() const { return _val; }

    bool operator<(const Wrapped<InnerType>& rhs) const { ; return _val < rhs._val; }
    bool operator>(const Wrapped<InnerType>& rhs) const { ; return _val > rhs._val; }

    bool operator==(const Wrapped<InnerType>& rhs) const { ; return _val == rhs._val; }


private:
    InnerType _val;
protected:

    explicit Wrapped<InnerType>(const InnerType& val) : _val(val) {}
    void setValue(const InnerType& val) { _val = val; }
};

class WrappedTypeItemCategory : private Wrapped<int>
{
private:
    typedef const std::string* strptr;
    typedef const std::string* const cstrptr;
    explicit WrappedTypeItemCategory(const std::string& label, int val): Wrapped<int>(val), str(&label)
    {}
    cstrptr str;
public:
    static WrappedTypeItemCategory make(const std::string& label, int val)
    {
        return WrappedTypeItemCategory(label, val);
    }
    void operator=(const WrappedTypeItemCategory& rhs)
    {
        ;
        setValue(rhs.getValue());
        const_cast<strptr>(str) = rhs.str;
    }
    int getValue() const
    {
        return Wrapped<int>::getValue();
    }
    const std::string& getString() const
    {
        return *str;
    }
    bool operator<(const WrappedTypeItemCategory & rhs) const
    {
        ;
        return getValue() < rhs.getValue();
    }
    bool operator>(const WrappedTypeItemCategory & rhs) const
    {
        ;
        return getValue() > rhs.getValue();
    }
    bool operator==(const WrappedTypeItemCategory & rhs) const
    {
        ;
        return getValue() == rhs.getValue();
    }
    friend std::ostream & operator<<(std::ostream &os, const WrappedTypeItemCategory& rhs)
    {
        ;
        return os << *rhs.str << "(" << rhs.getValue() << ")";
    }
};
;
namespace {
    template<typename T> class ItemCategoryInner : public TypesafeEnumBase
    {
    public:
        static const WrappedTypeItemCategory BLOCK;
        static const WrappedTypeItemCategory WEAPON;
        static const std::string BLOCKStr;
        static const std::string WEAPONStr;
    };
    template<typename T> const WrappedTypeItemCategory ItemCategoryInner<T>::BLOCK = WrappedTypeItemCategory::make(ItemCategoryInner<T>::BLOCKStr, 0);
    template<typename T> const WrappedTypeItemCategory ItemCategoryInner<T>::WEAPON = WrappedTypeItemCategory::make(ItemCategoryInner<T>::WEAPONStr, 1);
    template<typename T> const std::string ItemCategoryInner<T>::BLOCKStr("ItemCategory::BLOCK");
    template<typename T> const std::string ItemCategoryInner<T>::WEAPONStr("ItemCategory::WEAPON");
    struct ItemCategoryTemplateConstantTrick
    {};
};
class ItemCategory : public ItemCategoryInner<ItemCategoryTemplateConstantTrick>
{
private:
    const WrappedTypeItemCategory* const val;
public:
    class InvalidValueError : public std::runtime_error
    {
    public:
        const int val;
        InvalidValueError(int val): std::runtime_error(std::string("Invalid value given for ") + "ItemCategory::make"), val(val)
        {}
    };
    ItemCategory(const WrappedTypeItemCategory& value): val(&value)
    {}
    void operator=(const ItemCategory& rhs)
    {
        const_cast<const WrappedTypeItemCategory*>(val) = rhs.val;
    }
    static ItemCategory make(const int& val)
    {
        if (val == ItemCategory::BLOCK.getValue()) return ItemCategory(ItemCategory::BLOCK);
        if (val == ItemCategory::WEAPON.getValue()) return ItemCategory(ItemCategory::WEAPON);
        ;
        throw InvalidValueError(val);
    }
    const WrappedTypeItemCategory* const getWrappedValue() const
    {
        return val;
    }
    int getValue() const
    {
        return val->getValue();
    }
    const std::string & getString() const
    {
        return val->getString();
    }
    bool operator<(const ItemCategory& rhs) const
    {
        return *val < *rhs.val;
    }
    bool operator>(const ItemCategory& rhs) const
    {
        return *val > *rhs.val;
    }
    bool operator==(const WrappedTypeItemCategory& rhs) const
    {
        return *val == rhs;
    }
    bool operator!=(const WrappedTypeItemCategory& rhs) const
    {
        return !(*val == rhs);
    }
    bool operator<=(const WrappedTypeItemCategory& rhs) const
    {
        return (*val == rhs || *val < rhs);
    }
    bool operator>=(const WrappedTypeItemCategory& rhs) const
    {
        return (*val == rhs || *val > rhs);
    }
    void print(std::ostream& os) const override
    {
        os << *val;
    }
    friend std::ostream & operator<<(std::ostream &os, const ItemCategory& rhs)
    {
        rhs.print(os);
        return os;
    }
};
;

If I manually pre-expand it, like I have done here - by pre-compiling to file - then intellisense handles it all up until the line that says:

class ItemCategory : public ItemCategoryInner<ItemCategoryTemplateConstantTrick>

At which point it starts thinking ItemCategoryInner and ItemCategoryTemplateConstantTrick are ambiguous, along with many other things on every few lines of the file.

The header that contains this code is included in many places. I know I'm violating the One Definition Rule, which is why I'm using the Template Constant Trick, but I think I need to violate the ODR as my goal is to have an easy to use Macro based typesafe replacement for C++ enums.

I'm not sure if it's the violation of ODR that is the cause of my issues, or something else. I tried __declspec(selectany) but it didn't seem to help - and I would prefer if this macro would be eventually cross-platform, because if it works out, I have other projects I would use it in.

Either way, the .cpp files etc that make use of the enum are able to, and intellisense correctly suggests the options.

However, on a possibly related note, if I don't pre-expand the macro, intellisense isn't able to parse it and it doesn't know what a ItemCategory is at all, even though it compiles and works fine.

I just want my intellisense to work properly with my typesafe enums - it slows down intellisense and confuses it in other code in the same project.

3
  • 1
    Do you really need dozens of enumvalues to demonstrate a point? Could you just show an example with two of those? Jan 16, 2015 at 9:43
  • You make a very good point. I'll get a better example shortly. Jan 16, 2015 at 10:09
  • Hm, I don't think you can convin ce IntelliSense to work on non-pre-expanded files. It is not a compiler and is easily fooled withlegal but non-conventional constructs. Jan 16, 2015 at 13:28

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