I've been teaching a C++ programming class for many years now and one of the trickiest things to explain to students is const overloading. I commonly use the example of a vector-like class and its `operator[]`

function:

```
template <typename T> class Vector {
public:
T& operator[] (size_t index);
const T& operator[] (size_t index) const;
};
```

I have little to no trouble explaining why it is that two versions of the `operator[]`

function are needed, but in trying to explain how to unify the two implementations together I often find myself wasting a lot of time with language arcana. The problem is that the only good, reliable way that I know how to implement one of these functions in terms of the other is with the `const_cast`

/`static_cast`

trick:

```
template <typename T> const T& Vector<T>::operator[] (size_t index) const {
/* ... your implementation here ... */
}
template <typename T> T& Vector<T>::operator[] (size_t index) {
return const_cast<T&>(static_cast<const Vector&>(*this)[index]);
}
```

The problem with this setup is that it's extremely tricky to explain and not at all intuitively obvious. When you explain it as "cast to const, then call the const version, then strip off constness" it's a little easier to understand, but the actual syntax is frightening,. Explaining what `const_cast`

is, why it's appropriate here, and why it's almost universally inappropriate elsewhere usually takes me five to ten minutes of lecture time, and making sense of this whole expression often requires more effort than the difference between `const T*`

and `T* const`

. I feel that students need to know about const-overloading and how to do it without needlessly duplicating the code in the two functions, but this trick seems a bit excessive in an introductory C++ programming course.

My question is this - is there a simpler way to implement `const`

-overloaded functions in terms of one another? Or is there a simpler way of explaining this existing trick to students?

`const`

, and if it does not compile - it is not const. What would be wrong with that? upd: Oups, I got it myself, it's not that straightforward as the return type might be different etc – Roman L Jan 4 '11 at 0:48