This method:

bool Point::Intersects(const Line& line) const {
    return (line.ContainsPoint(*this, false));

causes this error: cannot convert 'this' pointer from 'const Line' to 'Line &' This change:

bool Point::Intersects(const Line& line) const {
    return const_cast<Line&>(line).ContainsPoint(*this, false);

fixes the error, but doesn't seem the right way to fix the issue. Why is the original method considered an error?

If it helps, ContainsPoint(const Point& point, bool isInfinite) is non-const and all methods it calls are non-const as well.


You actually provided the answer yourself, in a sense.

In your Intersects method, the parameter line is declared const. This restricts how you can use this variable. Specifically, you can only call const methods on it, and you can only pass it to methods expecting a const Line object.

However, you pointed out that ContainsPoint is not declared const. So it does not satisfy the requirement mention above (i.e. calling a non-const method on a const object is not allowed). This is why the original method generates the error, and it also explains why your second version works, since the restriction is alleviated via the const_cast.

The real problem is in the declaration of ContainsPoint (and probably also with whatever methods it calls, as they are also non-const). There appears to be a large design flaw here. Since the purpose of ContainsPoint is to check whether or not a Point is on a Line, side-effects will be unexpected. So there should be no reason for it to not be a const method. In fact (and your example shows this), users of Line would expect ContainsPoint to be a const method. Therefore, the real solution is to change the design of the Line class so that methods like ContainsPoint are declared const, and only methods which clearly change the state of an instance are left non-const


In this case you are calling a non-const method on a const reference which isn't allowed. You have two options:

  1. Do what you did and const_cast
  2. Make ContainsPoint a const method
  • No, not (1). Definitely (2). Or make a local (non-const) copy of line, and call on the copy. But don't ever use const_cast to remove const from an object unless you added it. Ever. – Ben Voigt Jul 8 '11 at 2:47
  • I'll have to do what I did. Making ContainsPoint a const method will cause a chain reaction in the code of const-ing every subsequent method. Is the error generated because the making Line a const is a promise not to change it, and when I attempt to call a non-const method the compiler can't KNOW that the called method changes it, so it flags an error? – Casey Jul 8 '11 at 2:50
  • 2
    @Ben: Agreed. I've seen many people use const_cast in many inappropriate ways. Just to make a note, if you have a method which is conceptually constant, but still needs to change some private state, consider using the mutable keyword. I find it a great feature, especially when adding something like memoization to methods which are otherwise constant. – Ken Wayne VanderLinde Jul 8 '11 at 2:54
  • I would strongly consider making ContainsPoint const, it seems like it should be. And if I remember right, a const method can accept non-const reference but the converse is not true. – Andrew White Jul 8 '11 at 2:54
  • @Casey: That's pretty much it. The compiler won't deduce that a method is const, you have to tell it so. @Andrew: Even a non-const method can accept const references. The const keyword after the function head only adds const-ness to the current instance and to its members/ – Ken Wayne VanderLinde Jul 8 '11 at 2:57

The problem is in fact a simple one:

you have a class A, with a non-const method foo(), you are invoking non-const method foo() through a ref to const A.

const A& a = ...;
a.foo();  // failed

That's what const aimed for: a const variable means, it is declared not going to be changed. While foo() "is going to change itself" (as foo() is a non-const method, which means: "I am legal to change thing inside"), that's why compiler complains: you have a const var (a), but you are going to change its content (thru foo())

The way to solve is straight forward, but you should know which way is correct to do:

1) If you are sure that foo() should be legal to be invoked through const ref etc, you should declare it as a const method: A::foo() const {...}

2) If you know that foo() is not appropriate to make const, you should consider

2.1) review "a" to see if it is more appropriate to make non-const, or

2.2) find another const method in A that did the work.

(There are some other way like using mutable, or const_cast, but that's not the way to go for 99.9% of time. So I didn't mention here)

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