I need two traits concerning integers.

The first one would be like

`std::is_integral`

(or`boost::is_integral`

), but usable with user defined types (for example a class wrapping an`int`

, say`int_wrapper`

): true if the type behaves like an integer and whose representation is like standard integral types (e.g.`sizeof(T) * CHAR_BITS == std::numeric_limits<T>::digits`

if`T`

is unsigned) But the definition of an integral type is very rigid, in that it consists of a list of these types. So specializing`std::is_integral`

seems difficult, if not forbidden (though not stated explicitly I think):`is_integral`

is a "primary" type trait (20.7.4.1, note 3: exactly one primary type trait is true for a type T, in my case`int_wrapper`

has already`is_class`

equal to true). What are the risks I take if I specialize this trait for`int_wrapper`

? Do you know of a trait class (e.g. in Boost) that fit my needs?The second trait I need is for types having integer semantics (with bits arithmetic operations, bit manipulations etc.). For example the

`mpz_class`

from GMP would satisfy this trait. Is`std::numeric_limits<T>::is_integer`

appropriate for this trait? I read both that it is OK to specialize and set`numeric_limits<T>::is_integer == true`

if`T`

behaves like an integer, but also (in the C++ standard) that the terms "integral" and "integer" are synonymous (in which case we sould always have`numeric_limits<T>::is_integer == is_integral<T>::value`

)

In conclusion, am I better of defining my own traits for my precise needs, or try extending standard ones?