This is answer for C++03. For C++11 - use auto/decltype (see other answers).

You have to create another template: `template CommonNumericType<T1,T2>`

:

```
template <typename L, typename R>
typename CommonNumericType<T1,T2>::Type max(L x, R y)
{
return x>y ? x : y;
}
```

And specialize this CommonNumericType for every possible pair of numeric types:

```
template <typename L, typename R>
struct CommonNumericType;
template <typename T>
struct CommonNumericType<T,T> {
typedef T Type;
};
template <typename L>
struct CommonNumericType<L,long double> {
typedef long double Type;
};
template <typename R>
struct CommonNumericType<long double,R> {
typedef long double Type;
};
// ...
template <>
struct CommonNumericType<int,short> {
typedef int Type;
};
// and many others stuff
```

I can think of making some numeric types hierarchy - float types before int types - and so on. Because `<number of numeric types>^2`

is quite big number:

```
template <typename T>
struct NumericTypeOrder;
template <>
struct NumericTypeOrder<long double> { enum { VALUE = 1 }; };
template <>
struct NumericTypeOrder<double> { enum { VALUE = 2 }; };
template <>
struct NumericTypeOrder<float> { enum { VALUE = 3 }; };
template <>
struct NumericTypeOrder<unsigned long long> { enum { VALUE = 4 }; };
// etc for all numeric types - where signed char is last one...
template <typename L, typename R, bool L_bigger_than_R>
struct CommonNumericTypeImpl;
template <typename L, typename R>
struct CommonNumericTypeImpl<L,R,true> {
typedef L type;
};
template <typename L, typename R>
struct CommonNumericTypeImpl<L,R,false> {
typedef R type;
};
template <typename L, typename R>
struct CommonNumericType
: CommonNumericTypeImpl<L,R,NumericTypeOrder<L>::value >= NumericTypeOrder<R>::value > {
};
```

Or just use macro:

```
#define max(l,r) ((l) >= (r) ? (l) : (r))
```

Much simpler, isn't it?

`double`

or`int`

. You could write specialized versions for the standard types. – Bartek Banachewicz Aug 28 '12 at 11:47`using namespace std`

. There is an`std::max`

, you have your own`max`

, it is asking for trouble... – juanchopanza Aug 28 '12 at 12:24