Basically there are three classes I defined: `paralelogram`

, `point`

and `line`

classes, and `paralelogram`

has some `vector`

s of `point`

s and `line`

s, and in the `paralelogram`

class I am defining a `compute_area`

function as

```
double Paralelogram::compute_area() const
{
assert( !points.empty() );
double h = points[3].distance_to_line( lines[0] ); // point[3] is the last point in
// the vector however it is not a
// const object, and this gives a
// compile time error
double base = points[0].distance_to_point( points[1] );
return base*h;
}
```

Edit `distance_to_line`

function is non-`const`

```
double Point::distance_to_line(Line& l)
{
return l.distance_to_point(*this);
}
```

deleting the `const`

from the function definition and declaration solves the problem, however my reasoning, while coding, was `compute_area`

does not modify the object so it can be `const`

, however this is right as long as it operates on `const`

objects and calls functions of `const`

objects, right?

If the `point`

objects are not `const`

also, this is not valid anymore. And since they are not `const`

that is the reason why it works after the `const`

removal.

This is a puzzling point for me where I do not modify the object however the objects it uses gives the problem and moreover what I am thinking I am still not changing those objects as well, but apparently there is a confusion in my `const`

understanding. One more thing, is this somehow related to the `this`

pointer of the `Paralelogram`

class if yes can you clarify?

`distance_to_line`

function is a non-const function, right? – Nawaz Apr 9 '11 at 15:59