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I'm really annoyed by const keyword these days, as I'm not quite familiar with it. I had a vector that stores all const pointers like vector<const BoxT<T> *> *Q_exclude, and in the constructor of another class, I need an element in this queue to be passed in as a parameter and assign it to a non-const member. My question is:

How do I assign a const variable to a non-const variable? I know this doesn't make sense because after all, a const is a const, and should not be changed by any mean. But that annoying member variable REALLY has to be changed during the process! I might also change the data type in the vector to be non-const, but that would be too much work. Or does anyone know how to avoid such situation?

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Why do you store pointers to const, if you want to change the objects they point to? – R. Martinho Fernandes Sep 5 '11 at 17:21
Maybe post some code... but as RMF says, this looks like unfortunate design. – Kerrek SB Sep 5 '11 at 17:23
"But that annoying member variable REALLY has to be changed during the process!" Then why did you make it a const member variable? If you find yourself needing to modify something that is const, then this indicate a design problem. Either you should not be modifying it, or you should rethink whether it is really const at all. – Nicol Bolas Sep 5 '11 at 17:26
There may be a bit of a problem with C++: you may want the data to be const in some functions and non-const in others. However, with vector it's either all or nothing. - Anyway, you don't need to make everything you can const. IMO, if you can pass const references (for performance), that is enough. – UncleBens Sep 5 '11 at 17:39
@UncleBens: Store non-const elements, then pass the entire vector as const into the contexts where element access should not be mutable. Simples! – PreferenceBean Sep 5 '11 at 20:46
up vote 20 down vote accepted

You can assign a const object to a non-const object just fine. Because you're copying and thus creating a new object, constness is not violated.

Like so:

int main() {
   const int a = 3;
   int b = a;

It's different if you want to obtain a pointer or reference to the original, const object:

int main() {
   const int a = 3;
   int& b = a;       // or int* b = &a;

//  error: invalid initialization of reference of type 'int&' from
//         expression of type 'const int'

You can use const_cast to hack around the type safety if you really must, but recall that you're doing exactly that: getting rid of the type safety. It's still undefined to modify a through b in the below example:

int main() {
   const int a = 3;
   int& b = const_cast<int&>(a);

   b = 3;

Although it compiles without errors, anything can happen including opening a black hole or transferring all your hard-earned savings into my bank account.

If you have arrived at what you think is a requirement to do this, I'd urgently revisit your design because something is very wrong with it.

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The clearest comment I have ever seen. You saved my life twice already – Des1gnWizard Dec 29 '15 at 1:11
Now I'm jotting down your full comment. LOL – Des1gnWizard Dec 29 '15 at 1:12

Changing a constant type will lead to an Undefined Behavior.

However, if you have an originally non-const object which is pointed to by a pointer-to-const or referenced by a reference-to-const then you can use const_cast to get rid of that const-ness.

Casting away constness is considered evil and should not be avoided. You should consider changing the type of the pointers you use in vector to non-const if you want to modify the data through it.

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"considered evil and should not be avoided" - you're Slytherin, then? – Steve Jessop Sep 5 '11 at 19:19
@Steve: Ehm, corrected. – Alok Save Sep 8 '11 at 8:36

The actual code to cast away the const-ness of your pointer would be:

BoxT<T> * nonConstObj = const_cast<BoxT<T> *>(constObj);

But note that this really is cheating. A better solution would either be to figure out why you want to modify a const object, and redesign your code so you don't have to.... or remove the const declaration from your vector, if it turns out you don't really want those items to be read-only after all.

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You don't get a "non const object" at all. You get a variable with a non-const type, but the object to which it acts as a handle is still immutable. – PreferenceBean Sep 5 '11 at 17:50
@Tomalak: if it was immutable before, that is. If it was mutable before, then it's still mutable and you've got a means to modify it, which is how such const-cast shenanigans become tempting. – Steve Jessop Sep 5 '11 at 19:18
@Steve: True say. – PreferenceBean Sep 5 '11 at 20:45

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