Because you're thwarting the purpose of
const, which is to keep you from modifying the argument. So if you cast away the
constness of something, it's pointless and bloating your code, and it lets you break promises that you made to the user of the function that you won't modify the argument.
In addition, using
const_cast can cause undefined behaviour. Consider this code:
const SysOscillatorBase<int> src2;
In the first call, all is well. You can cast away the
constness of an object that is not really
const and modify it fine. However, in the second call, in
setOscillator you are casting away the
constness of a truly
const object. If you ever happen to modify that object in there anywhere, you are causing undefined behaviour by modifying an object that really is
const. Since you can't tell whether an object marked
const is really
const where it was declared, you should just never use
const_cast unless you are sure you'll never ever mutate the object ever. And if you won't, what's the point?
In your example code, you're storing a non-
const pointer to an object that might be
const, which indicates you intend to mutate the object (else why not just store a pointer to
const?). That might cause undefined behaviour.
Also, doing it that way lets people pass a temporary to your function:
blah.setOscillator(SysOscillatorBase<int>()); // compiles
And then you're storing a pointer to a temporary which will be invalid when the function returns1. You don't have this problem if you take a non-
On the other hand, if I don't use const_cast, the code won't compile.
Then change your code, don't add a cast to make it work. The compiler is not compiling it for a reason. Now that you know the reasons, you can make your
vector hold pointers to
const instead of casting a square hole into a round one to fit your peg.
So, all around, it would be better to just have your method accept a non-
const reference instead, and using
const_cast is almost never a good idea.
1 Actually when the expression in which the function was called ends.