What can a 'const' method change?
Without explicitly casting away constness, a
const method can change:
mutable data members, and
- any data the class has non-
const access to, irrespective of whether that data's accessible:
- via member variables that are pointers or references,
- via pointers or references passed as function parameters,
- via pointers or references returned by functions,
- directly in the namespace or class (for statics) containing it.
For members of
union type, it relies on the constness of their member functions to determine which operations should be allowed. (It can also change any non-const local variables and by-value parameters, but I know that's not what you're interested in).
It can call other
const methods which will have these same abilities and restrictions.
Eg. if the instance variables are pointers, does it mean that the pointers are not changed, or also that the memory to which they point is not changed?
It means the pointers can't be (easily/accidentally) changed. It does not mean that the pointed-to memory can't be changed.
What you've stumbled on is the logical incorrectness of a
const function changing pointed-to or referenced data conceptually owned by the object. As you've found, the compiler doesn't enforce the
const correctness you may want or expect here. That's a bit dangerous, but means constness doesn't need to be explicitly removed for pointers/references to other objects which may be changed as a side-effect of the
const function. For example, a logging object. (Typically, such objects are not logically "owned" by the object whose
const function is operating on them.) The key point is that the compiler can't reliably distinguish the type of logical ownership an object has over pointed-to data, so it's got to guess one way or the other and allow the programmer to either override, or not be protected by
const-ness. C++ forgoes the protection.
Interesting, I've heard Walter Bright's D language flips this default, making pointed-to data
const by default in
const functions. That's seems safer to me, though it's hard to imagine how often one would end up needing to explicitly cast away constness to allow wanted side-effects, and whether that would feel satisfyingly precise or annoyingly verbose.