I am using GNU Scientific Library in my C++ project. For convience, I would like to trasparently wrap `gsl_vector*`

in a C++ class (to add a bunch of domain specific functions and to simplify interface). But I am getting perplexed with how to deal with `const gsl_vector*`

. Let me explain. Let me start with this minimalistic wrapper.

```
class Vector {
gsl_vector* vector_;
public:
Vector(gsl_vector* vector): vector_(vector) {}
double& operator()(int i) {
return *gsl_vector_ptr(vector_, i);
}
};
```

Suppose, further, that I have two functions. One is defined as follows:

```
int f(Vector& x) {
\\ do some math, e.g. x(0) = 0.0;
return 0;
}
```

Another one is a callback function that has to use GSL types, and is defined as follows:

```
int gsl_f(gsl_vector* x) {
Vector xx(x);
return f(xx);
}
```

This works fine. Now, suppose the callback has a constant signature:

```
int gsl_f(const gsl_vector* x);
```

Then I can redefine my `Vector`

class and my `f`

function accordingly:

```
class Vector {
const gsl_vector* vector_;
public:
Vector(const gsl_vector* vector): vector_(vector) {}
const double& operator()(int i) const {
return *gsl_vector_const_ptr(vector_, i);
}
};
int f(const Vector& x) {
\\ do some math
return 0;
}
```

Also works. Now, I want my wrapper class to suit both situations. For example, I want to be able to do the following, *preserving the safety of const*:

```
int f(const Vector& x, Vector& y) {
\\ do some math
return 0;
}
int gsl_f(const gsl_vector* x, gsl_vector* y) {
Vector yy(y);
return f(x, yy);
}
```

I can do it by having a `Vector`

with two pointers, const and non-const, and remembering whether it was initialized from a const or non-const member. My question is, can I do it without runtime checks? After all, all the information is there at the compile time.

`iterator`

and`const_iterator`

in standard containers. There is a semantic difference between "const wrapper of object" and "wrapper of const object". – Fiktik Sep 7 '12 at 12:22