I've been looking for an example that shows how to implement constraints in C++ (or a boost library that lets me do this easily), but without much luck. The best I could come up with off the top of my head is:

```
#include <boost/function.hpp>
#include <boost/lambda/lambda.hpp>
template<typename T>
class constrained
{
public:
constrained(boost::function<bool (T)> constraint, T defaultValue, T value = defaultValue)
{
ASSERT(constraint(defaultValue));
ASSERT(constraint(value));
this->value = value;
this->defaultValue = defaultValue;
this->constraint = constraint;
}
void operator=(const T &assignedValue)
{
if(constraint(assignedValue))
value = assignedValue;
}
private:
T value;
T defaultValue;
boost::function<bool (T)> constraint;
};
int main(int argc, char* argv[])
{
constrained<int> foo(boost::lambda::_1 > 0 && boost::lambda::_1 < 100, 5, 10);
foo = 20; // works
foo = -20; // fails
return 0;
}
```

Of course there's probably some more functionality you'd want from a constraint class. This is just an idea for a starting point.

Anyway, the problem I see is that I have to overload all operators that T defines in order to make it really behave like a T, and there is no way for me to find out what those are. Now, I don't actually need constraints for that many different types, so I could just leave out the template and hard code them. Still, I'm wondering if there's a general (or at least more succint/elegant) solution or if there's anything seriously wrong with my approach.