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I have read a bit about casting in C++. Coming from a C background, using normal (type) casting is common for things like void * but for C++, there are dynamic_cast, reinterpret_cast, static_cast, etc.

The problem/issue/question is about which of the above casts should be used when a conversion between a base pointer and a derived pointer.

Our data storage stores a pointer to a base class (B). The functions allocate the derived pointers (D).

The code example is as follows:

class B
{ int _some_data; }
class D : public B
{ int _some_more_data; }

The code then looks something like:

D *obj = new D;
obj->_some_data = 1;
obj->_some_more_data = 2;
<store obj>

Then later when we access the data:

B *objB = <get out data>
if (objB->_some_data == 1)
{ D *objD = (D *) objB; <do some processing> }

Now the cast I am concerned about is D *objD = (D *) objB.

Which cast should we be using?


share|improve this question
In this case, dynamic_cast. It will check that the object really can be converted to a D* at runtime. – BoBTFish Feb 21 '12 at 8:25
@BoBTFish dynamic_cast only works on polymorphic types. – Luchian Grigore Feb 21 '12 at 8:30

3 Answers 3

up vote 3 down vote accepted

For related types that you know about but the compiler don't, use a static_cast.

But in your case you should not cast at all.

You write that

Our data storage stores a pointer to a base class (B). The functions allocate the derived pointers (D).

That is to throw away information, which is not a good idea. Someone realized that it's not a good idea, that in fact it could not work, and therefore tried to keep that type information dynamically in the value of B::_some_data. The total effect: to throw away the C++ support for handling that type information, and substituting a very fragile and dirty homegrown solution.

In order to leverage the C++ support, make B a polymorphic class, i.e. with at least one virtual member:

struct B { virtual ~B() {} };

I removed the data member _some_data since apparently its only purpose was to keep track of the dynamic type, and now the C++ support does that, in practice via a so called "vtable pointer" in the object. The total object size is probably the same. The bug attraction and sheer ugliness is, however, reduced by some orders of magnitude. ;-)


struct D
    : B
    int some_more_data_;
    D( int v ): some_more_data_( v ) {}

And then, with polymorphic classes, your processing code can use a safe dynamic_cast, as follows:

B* const objB = getOutData();
if( D* const objD = dynamic_cast<D*>( objB ) )
    // do some processing using objD

Now this manual dynamic type checking is still very dirty and reflects a non-OO system architecture. With object oriententation, instead of operations checking what kind of data they have been given, the data effectively contains pointers to appropriate specialized operations. But I think it might be best to take one step at a time, and as a first step the above: getting rid of the fragile bug-attracting homegrown dynamic type checking scheme, and using relatively clean super-duper fresh nice-smelling good looking etc. C++ support for that. :-)

share|improve this answer
Thanks - _some_data is used all over to convey more information than just the above, but I get the point. However, I am not following With object oriententation, instead of operations checking what kind of data they have been given, the data effectively contains pointers to appropriate specialized operations. Does this mean that the base class contains virtual functions to all possible operations? Thanks. – user626201 Feb 21 '12 at 9:07
No, it doesn't need to "contain virtual functions to all possible operations". An apparent such need is a design smell, but still, what is a practical solution when such apparent need pops up? Well, that's a very common question, it should IMHO be a FAQ, and the answer is the "visitor pattern". Too much to explain here, but essentially, you send in a visitor to the code that knows the type. And that code can then call back on the part of the visitor designed to handle the given type. – Cheers and hth. - Alf Feb 21 '12 at 9:10
Thanks - I will look up the pattern - never heard of it. – user626201 Feb 21 '12 at 9:29
"Does this mean that the base class contains virtual functions to all possible operations?" - not necessarily all possible operations, but ideally the base class has a big enough interface to allow you to implement all possible operations without needing to know/care which derived class you have. As Alf says, you might need visitor pattern (with double-dispatch), but whatever the details you'll try to design an interface for the base class that lets users build the operations they need from the functions available. – Steve Jessop Feb 21 '12 at 9:33
After some analysis of the design, it appears that we where not correctly using oop. We where changing class member variables outside which was really really bad. After some re-factoring, the actual need to cast like this falls away as we are using the classes correctly now. Thanks for the input to all. – user626201 Feb 21 '12 at 15:42

In this case, no cast is truly safe.

The safest would be dynamic_cast, but your objects aren't polymorphic so it doesn't apply here. But you should consider at least having a virtual destructor, as I can see you plan on extending the classes.

static_cast is not safe, as pointed out by this msdn page:

class B {};

class D : public B {};

void f(B* pb, D* pd) {
   D* pd2 = static_cast<D*>(pb);   // not safe, pb may
                                   // point to just B

   B* pb2 = static_cast<B*>(pd);   // safe conversion

reinterpret_cast also has no checks, so don't rely on it.

Also, casting to a pointer of a derived class is at least a code smell, if you need to do this it's 99% sure you have a flawed design.

share|improve this answer
Why do you say his objects aren't polymorphic? They derive from each other... I'll agree on the missing virtual destructor tho. – RedX Feb 21 '12 at 8:30
static_cast would be legal, and do what he wants (but I agree with your analysis that the only good solution would be to make the objects polymorphic and use dynamic_cast). – James Kanze Feb 21 '12 at 8:30
@RedX In C++, an object type is only considered polymorphic if there is at least one virtual function. Inheritance is an implementation technique which can be used for different purposes, not just polymorphism. (I don't think anyone would consider an iterator polymorphic just because it derived from std::iterator.) – James Kanze Feb 21 '12 at 8:32
@RedX what James said. – Luchian Grigore Feb 21 '12 at 8:34
Thanks. We normally have the virtual destructors so the classes will be polymorphic. On the flawed design, we using a tree storage which provides a void * data storage param. There are some 60+ different permutations of data that all have 4 data items in common (some have more, so there is an inheritance tree...). How would you suggest storing these then other than the above? Thanks. – user626201 Feb 21 '12 at 9:03

In this case you should use dynamic_cast.

share|improve this answer
+1 to counter unexplained ungood downvote. – Cheers and hth. - Alf Feb 21 '12 at 8:28
@Cheersandhth.-Alf dynamic_cast doesn't work since his classes aren't polymorphic. – Luchian Grigore Feb 21 '12 at 8:29
@Cheers and hth. - Alf, thanks – Sergey Feb 21 '12 at 8:32
@Cheersandhth.-Alf; Sergey he's actually doing nobody any favors by upvoting a wrong answer. – Luchian Grigore Feb 21 '12 at 8:33
@Luchian: your argument that it's impossible to walk through the door because it's not open, ignores that fact that it's possible to open the door, and that that's what normal people do. – Cheers and hth. - Alf Feb 21 '12 at 8:53

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