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I know I cannot derive from an int and it is not even necessary, that was just one (non)solution that came to my mind for the problem below.

I have a pair (foo,bar) both of which are represented internally by an int but I want the typeof(foo) to be incomparable with the typeof(bar). This is mainly to prevent me from passing (foo,bar) to a function that expects (bar, foo). If I understand it correctly, typedef will not do this as it is only an alias. What would be the easiest way to do this. If I were to create two different classes for foo and bar it would be tedious to explicitly provide all the operators supported by int. I want to avoid that.

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Do you really need all operations that can be performed on an int? Hiding some could even be an advantage! – Bo Persson Aug 10 '11 at 11:14
@Bo Persson What I am dealing with are essentially different sub-sets of ints. Yes, all operations do not make sense for instance %. But just want to save myself the tedium. – san Aug 10 '11 at 11:18
It depends on what foo and bar is. Making them classes with just operator+ and operator- defined, for example, adds to the abstraction. It depends on how much abstraction you want or need. :-) – Bo Persson Aug 10 '11 at 11:33

3 Answers 3

up vote 18 down vote accepted

As an alternative to writing it yourself, you can use BOOST_STRONG_TYPEDEF macro available in boost/strong_typedef.hpp header.

// macro used to implement a strong typedef.  strong typedef
// guarentees that two types are distinguised even though the
// share the same underlying implementation.  typedef does not create
// a new type.  BOOST_STRONG_TYPEDEF(T, D) creates a new type named D
// that operates as a type T.

So, e.g.

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+1 This is the most sane solution – Armen Tsirunyan Aug 10 '11 at 11:34
@Cat Plus Plus this seems to be the minimum finger typing solution, thanks. I did not expect my question to generate so many active answers and interest. Overwhelmed. – san Aug 10 '11 at 11:36
Interestingly I note that BOOST_STRONG_TYPEDEF took the approach of having an implicit conversion operator and an explicit constructor (which is sane). – Matthieu M. Aug 10 '11 at 11:41
I learned a lot from the answers and now I find it hard to select one for acceptance. This is the one I will use but @armen and iammilind 's answers made me understand whats going on under the covers, so thank you all. Accepting this to share the spoils somewhat. – san Aug 10 '11 at 12:25
template <class Tag>
class Int
   int i;
   Int(int i):i(i){}                //implicit conversion from int
   int value() const {return i;}
   operator int() const {return i;} //implicit convertion to int

class foo_tag{};
class bar_tag{};

typedef Int<foo_tag> Foo;
typedef Int<bar_tag> Bar;

void f(Foo x, Bar y) {...}
int main()
   Foo x = 4;
   Bar y = 10;
   f(x, y); // OK
   f(y, x); // Error
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Or use BOOST_STRONG_TYPEDEF (boost/strong_typedef.hpp). – Cat Plus Plus Aug 10 '11 at 11:21
@Armen: Instead of that, you could write typedef Int<0> Foo; typedef Int<1> Bar; IF the class template parameter is not type, rather integral value. such as template<int> class Int{}; If you follow this approach, you don't need xyz_tag definitions. – Nawaz Aug 10 '11 at 11:26
@Cat Plus Plus: it may warrant an answer of its own :) – Matthieu M. Aug 10 '11 at 11:28
@san: Sure: here you go – Armen Tsirunyan Aug 10 '11 at 11:30
@san, @Armen: this is a conversion operator, which allows the type to be converted to an int when necessary. Unfortunately it's a bad idea, as noted by Bo Persson, because you can then do Foo x; Bar y = x + 4... Conversion back to the underlying type should be explicit. – Matthieu M. Aug 10 '11 at 11:31

You are correct, that you cannot do it with typedef. However, you can wrap them in a struct-enum pair or int encapsuled inside struct.

template<int N>
struct StrongType {  // pseudo code
  int i;
  StrongType () {}
  StrongType (const int i_) : i(i_) {}
  operator int& () { return i; }
  StrongType& operator = (const int i_) {
    i = i_;
    return *this;

typedef StrongType<1> foo;
typedef StrontType<2> bar;

C++0x solution:

enum class foo {};
enum class bar {};
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Can you point me to something that I can read to understand this code. I am new to C++ – san Aug 10 '11 at 11:21
@iammilind: Note that C++0x had some stringent requirements on enum. Notably, assuming that the min value of foo is min-value and the max value of foo is max-value then assigning anything out of [min-value, max-value] is undefined behavior. – Matthieu M. Aug 10 '11 at 11:27
@san, I have just given the basic skeleton for differentiating the types. You have to provide operator int(), operator = () etc. to effectively use foo as int. Let me try editing my answer. – iammilind Aug 10 '11 at 11:29

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