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How do I make a class whose interface matches double, but whose templated types do not dynamic cast to double?

The reason is that I have a run-time type system, and I want to be able to have a type that works just like double:

template<int min_value, int max_value>
class BoundedDouble: public double {};

And then use template specialization to get run-time information about that type:

template<typename T>
class Type { etc. }

template<int min_value, int max_value>
class Type<BoundedDouble<min_value, max_value>> { int min() const { return min_value; } etc. }

But, you can't inherit from double...

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Don't try -- you'll only cause other maintainers' eyes to bleed. If you need something like this, use composition rather than inheritance, and use an explicit conversion function .. i.e. ToDouble. –  Billy ONeal Jun 17 '10 at 2:44

1 Answer 1

up vote 1 down vote accepted

You can't derive from native types. Use composition instead:

#include <cstdlib>
#include <string>
#include <stdexcept>
#include <iostream>
using namespace std;

template<typename Type = double, const Type& Min = -10.0, const Type& Max = 10.0> class Bounded
    Bounded() {};
    Bounded(const Type& rhs) : val_(rhs) 
        if(rhs > Max || rhs < Min) 
            throw logic_error("Out Of Bounds"); 

    operator Type () const 
        return val_; 

    Type val_;

int main()
    typedef Bounded<double, -10.0, 10.0> double_10;
    double_10 d(-4.2);
    cout << "d = " << d << "\n";
    double d_prime = d;
    cout << "d_prime = " << d_prime << "\n";
    double_10 d2(-42.0);
    cout << "d2 = " << d << "\n";

    return 0;

The output is:

d = -4.2
d_prime = -4.2
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