Clarity will suffer, and that's it for the most part.
If you have a smart compiler, a class that simply wraps an
int and does not change any of the operations is fairly likely to get entirely inlined. If you don't define the constructor as explicit, you'll even be able to write
void f(OurVerySpecialInt i). You'd have a harder time passing your Very Special Ints to existing functions if there are any, though.
Things are very different if you mean a class hierarchy and not just a class, though. Do you want
Numeric to be an abstract base class and
Double to derive from it? In that case, please reconsider. Not only will you likely end up with significantly slower code, there's not really a way to make this generic and sane at the same time.
Let's consider a class
Numeric that overloads
operator+. Either the operator is non-member (as it should be), and then it cannot be virtual: therefore, it must call a virtual member function of
Numeric. But which one? Does
Double() + Double() return a
Double? What about
Double() + Int()? What about
Double() + Rational()? In the first two cases, you can say "
Double, of course, because of more possible values", but in the last case that doesn't work: if a
Double is 64-bit and a
Rational is the quotient of two 32-bit integers, you will have values in each that cannot be expressed in the other (such as positive infinity and 0.3).
In addition to that, your functions can promise very little. What's the value of i after
Int32 i = 250; i += 250;? I assume it's
500; what about
Int8 = 250; Int8 += 250;? What about
Numeric* p = new Int8(250); *p += 250;. You can't magically make
*p bigger, so either you make that an error or you overflow; basically, if
p is some
Numeric*, you can't know what
*p += 50000; will do: work as expected or overflow/error out, and you also can't know whether you're losing precision when you do
*p += 5.3.
If you fix these errors by making the conditions more strict, you will end up with some kind of
BigInt class that doesn't need any inheritance; all behaviour is so strictly specified (as it should be with mathematical entities) that deriving from it wouldn't really let you change anything.
If that's not enough of an argument, note that in the case of you giving the
Numeric class any virtual methods, all your derived classes will have a vtable (under common implementations). That means that every instance of your class will need a little more space than usual, and having all your numeric values be double the normal size can hurt performance a lot depending on what you're doing.