mutable keyword is a way to pierce the
const veil you drape over your objects. If you have a const reference or pointer to an object, you cannot modify that object in any way except when and how it is marked
const reference or pointer you are constrained to:
- only read access for any visible data members
- permission to call only methods that are marked as
mutable exception makes it so you can now write or set data members that are marked
mutable. That's the only externally visible difference.
const methods that are visible to you can also write to data members that are marked
mutable. Essentially the const veil is pierced comprehensively. It is completely up to the API designer to ensure that
mutable doesn't destroy the
const concept and is only used in useful special cases. The
mutable keyword helps because it clearly marks data members that are subject to these special cases.
In practice you can use
const obsessively throughout your codebase (you essentially want to "infect" your codebase with the
const "disease"). In this world pointers and references are
const with very few exceptions, yielding code that is easier to reason about and understand. For a interesting digression look up "referential transparency".
mutable keyword you will eventually be forced to use
const_cast to handle the various useful special cases it allows (caching, ref counting, debug data, etc.). Unfortunately
const_cast is significantly more destructive than
mutable because it forces the API client to destroy the
const protection of the objects (s)he is using. Additionally it causes widespread
const_casting a const pointer or reference allows unfettered write and method calling access to visible members. In contrast
mutable requires the API designer to exercise fine grained control over the
const exceptions, and usually these exceptions are hidden in
const methods operating on private data.
(N.B. I refer to to data and method visibility a few times. I'm talking about members marked as public vs. private or protected which is a totally different type of object protection discussed here.)