# Checking real variable type in polymorphism (C++)

Suppose we have a class A and class B and C inherit from it. Then we create an array of references to A's, and fill it with B's and C's. Now we decided that we want to eliminate all the C's. Is there a way to check what type each field of the array really holds without doing something redundant like a returnType() function?

Edit: fixed "array of A's" to "array of references to A's".

-

You can't create an array of As and fill it with Bs and Cs - they will be sliced down to
As. You can create a n array of pointers to A , wich you can populate with pointers to B and pointers to C.

To check the type of something in this situation - use dynamic cast:

// create B or C randomly
A * a = rand() % 2 ? new B : new C;

if ( dynamic_cast <B *> ( a ) ) {
// it's a B
}
else {
// it isn't (must be C in this case)
}
-
This is what I meant... Pointers to A's. Fixed question. – Epsilon Vector Apr 16 '09 at 15:08
Sorry, but that's just not true, I often use a vector/array of As to hold Bs and Cs, you just have to do weird stuff with the address operator for A and its merry children. It's a lot of work. – Ed Woodcock Apr 16 '09 at 15:08
However, the rest of the answer is perfectly valid (wasn't enough space to talk about that). +1 – Ed Woodcock Apr 16 '09 at 15:10
@Ed - post some code that explains how you do that on an answer. – anon Apr 16 '09 at 15:10
I think it worth adding that depending on the hierarchy structure and how many times this call is used, 'dynamic_cast' is potentially slower than using say a virtual function: "virtual bool isC();" – Richard Corden Apr 16 '09 at 16:24

Ideally, you want to figure out what functionality it is that makes you not want the Cs in there. Then add a virtual function that exposes that property. This way when you add class D that also has that same unwanted property, things will continue to behave correctly.

class A
{
public:
virtual bool IsFrobbable() { return true; }
};

class B : public A
{
};

class C : public A
{
public:
virtual bool IsFrobbable() { return false; }
};

int main()
{
vector<A *> vA;
vA.push_back(new A());
vA.push_back(new B());
vA.push_back(new C());

vA.erase(remove_if(vA.begin(), vA.end(), not1(mem_fun(&A::IsFrobbable))));
// Now go ahead and frob everything that's left
}
-
Thanks but in this case it's not something that can be expressed with an attribute (it's different behavioral rules). – Epsilon Vector Apr 16 '09 at 15:22
Without seeing the actual code, I'd highly doubt that there isn't some distinguishing property relating to the fact that you don't want Cs in the array. (Even if that property is just IsC()). It's going to be faster, clearer, and more maintainable as the heirarchy grows than trying a dynamic_cast. – Eclipse Apr 16 '09 at 15:35
Well what I'm doing is implementing a chess game. An 8x8 array of pointers to game pieces contains game pieces. Only rooks, the king, and pawns are distinguishable by the data fields, the rest of the difference is in the moving rules. – Epsilon Vector Apr 16 '09 at 15:53
Supplement: not that in a chess game you would need to suddenly kill off all pieces of a certain type, this is just a question that popped up in my head when I was coding. – Epsilon Vector Apr 16 '09 at 15:56

You won't be able to store B's in it. The compiler will moan.

-
Unfortunately, the compiler will not moan -- it will just "slice" the B objects down to A objects. (Google "c++ object slicing".) – j_random_hacker Apr 16 '09 at 15:25
No no: the compiler will moan, because B is not derived from A (see the original question). – Dimitri C. May 14 '09 at 14:39

This will only work if the array of A's is actually an array of pointers to A, otherwise you'll get slicing problems.

As for the problem at hand, you're better off giving A a virtual function getClassName, and ovverriding it appropriately in subclasses, then using the result to provide the behaviour you want.

-

It's not possible to create an array of references in C++.

It is possible to create an array of pointers to A, however. In that case, provided A declares at least 1 virtual function, you could use C++'s run-time type inference (RTTI) mechanism to do what you want to do:

A* arr[10];

fill_with_as_bs_and_cs(arr);

for (int i = 0; i < 10; ++i) {
if (dynamic_cast<C*>(arr[i])) {
arr[i] = 0;   // You can't really "remove" things from an array...
}
}

However, this is not the most maintainable approach -- any time you need to distinguish a C from an A, you'll need to use this if test, and if you wind up deriving more classes from A and you also need to treat them differently, you'll need to update every place in your code where you are performing this "type testing." As your codebase gets bigger, it quickly gets easy to miss places.

Generally, it's much more maintainable to use a virtual function that is overridden in each class as necessary. In this particular case, establish what are the general criteria shared by all A-derived class objects that should be removed from the array -- let's say that an object should be removed if it is blargable -- and then write a virtual function bool isBlargable(), and test that instead.

-