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So I go this:

class A;

class B : public A;

class C : public B;

vector<A*> *vecA;

vector<C*> *vecC;

And I want to cast a vectC into a vecA.

vector<A*> *_newA = static_cast< vector<A*>* >(vecC); //gives an error

So I used void pointer as a buffer and the cast:

void *buffer = vecC;

vector<A*> *_newA = static_cast< vector<A*>* >(buffer); //works

Is this valid? Is there another way to do it?

share|improve this question
5  
A pointer to a std::vector, that's just wrong! Don't do it! – Tony The Lion Aug 6 '12 at 15:38
1  
Also, you should cast the thing you're putting in the vector, not the vector itself. – Tony The Lion Aug 6 '12 at 15:40
2  
And there is nearly no reason to have a vector being dynamically allocated. – Torsten Robitzki Aug 6 '12 at 15:43
1  
I suggest you get yourself a good C++ book. – Etienne de Martel Aug 6 '12 at 15:45
1  
new is a keyword in C++. It isn't allowed as an identfier. – pmr Aug 6 '12 at 15:47

You should just have a std::vector<A*> and then when you wish to put a B or C inside, you can do this:

 std::vector<A*> vec;
 vec.push_back(b);

This will work much better than anything you're currently doing.

Also, you should use std::unique_ptr or std::shared_ptr, depending on ownership semantics of your pointers. Owning raw pointers are a no-no!!

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3  
wouldn't vec.push_back(b) do just fine? – juanchopanza Aug 6 '12 at 15:43
    
It would - the compiler will generate an implicit cast from a derived class to its base-class. A static_cast<A*> wouldn't hurt though. – marko Aug 6 '12 at 15:47
1  
@Marko If b is a B *, then no need to cast anything. – Etienne de Martel Aug 6 '12 at 15:49
    
I've edited my answer – Tony The Lion Aug 6 '12 at 15:50
    
I want to vote for this answer, but the last sentence is so broad it's no longer good advice. – Ben Voigt Aug 6 '12 at 18:55

Is this valid?

No it's not. It is completely undefined what happens if you access it.

Is there another way to do it?

Yes. It depends on what you want to do:

  1. copy the content: std::copy(vecC.begin(), vecC.end(), std::back_inserter(vecA));

  2. create an adaptor which behaves as random access container of A* if given a container or iterator of C* or any other derived type

  3. I am sure there are other solutions, just tell us what you want to do

share|improve this answer
    
the "completely undefined" is only in the formal. in practice, there is no special specialization of vector that could wreak havoc, nor is there any difference in pointer value offsets, nor is the base class non-polymorphic and a virtual introduced in derived class (which could make the base and derived pointers to the same object have different bitpatterns). in short, one must be very careful. but in practice, with such care taken, the conversion works. that said, it allows ungood things. see my answer for that. – Cheers and hth. - Alf Aug 6 '12 at 16:11
    
@Alf: In practice, it's a violation of strict aliasing and may cause all sorts of brokenness after optimization. – Ben Voigt Aug 6 '12 at 16:47
    
@Alf: 'undefined' means the standard does not tell what happens if the points you enumerate were not valid - which it does not guarantee... As you correctly claim, it could even work, but, strictly speaking, it also falls under 'undefined' :-) Anyway it hurts a superposed principle which could cause any other sort of bad things... – Paul Michalik Aug 6 '12 at 16:50

The magic words you probably needed to know are "covariance" and "contravariance". Have a look here for a very closely related issue.

Short answer: there's no neat, sensible way to do the conversion you want to do merely with casts. You will need to copy to contents of your old vector the long way into your new vector.

But more importantly: 1. Don't ever use new on a standard container type. 2. Don't pass around pointers to standard container types. 3. Don't pass around raw pointers to your own objects, use std::shared_ptr instead.

share|improve this answer
    
Is alright to pass standard container types as references? – nahpr Aug 6 '12 at 16:35
    
All three of your parting recommendations are over-simplified and incorrect as written. – Ben Voigt Aug 6 '12 at 16:48
    
@BenVoigt: that's a startlingly unhelpful piece of feedback. Well done. – Rook Aug 6 '12 at 17:15
1  
@Rook: Sorry, I looked just at your screen name and not your reputation, thought you were a more experienced user. Anyway: (1) Using new on a standard container type and then sticking the pointer inside an RAII smart pointer is perfectly reasonable. (2) If passing by reference is reasonable, so is passing by pointer. We're not talking about lifetime extension of temporaries (which is only available for references). (3) Raw pointers are the iterator type for some containers, and it makes good sense to use them as iterators (i.e. non-owning and shorter lifetime than the container) – Ben Voigt Aug 6 '12 at 18:42
1  
Here's another good exposition of the principle that smart pointers are not best in all circumstances: stackoverflow.com/a/7658089/103167 – Ben Voigt Aug 6 '12 at 18:54

Instead of detouring via void*, with C++11 just use reinterpret_cast.

However, the conversion that you desire permits very ungood things:

#include <iostream>
#include <vector>
using namespace std;

class Base {};

class Derived: public Base
{ public: int x; Derived(): x(42) {} };

int main()
{
    vector< Derived* >  v;
    Derived             d;

    v.push_back( &d );
    cout << v.back()->x << endl;        // 42

    vector< Base* >*    pbv =
        reinterpret_cast< vector< Base* >* >( &v );
    Base                b;

    pbv->push_back( &b );
    cout << v.back()->x << endl;        // indeterminate value
}

It's roughly the same issue that you have with converting T** to T const** (not permitted, could allow ungood things). The short of it is, don't do this unless you know exactly what you're doing. The longer of it, hm, well, there's not room to discuss it here, but it involves differentiating between mutable and immutable collections, and being very very careful.


edit: as others (who did not address the conversion question) have already stated, a practical solution is a vector of A pointers, or smart pointers, and then using C++ polymorphism (i.e. virtual member functions).

share|improve this answer
    
-1 for implying that "ungood things" can only happen when writing to the container. – Ben Voigt Aug 6 '12 at 18:51
    
@Ben: maybe you're thinking of strict aliasing rules. that's a broken compiler option for a particular compiler (namely for gcc), not a broken language. note that the list of supported conversions that is sometimes cited in support of g++'s behavior, never included conversion from first element of struct to struct itself and vice versa, which is explicitly supported elsewhere in the standard. i.e. that list has never been complete, which it would have to be in order to be the support that sometimes is claimed. – Cheers and hth. - Alf Aug 6 '12 at 21:51
    
@Alf: Any dereference of the pointer created via reinterpret_cast is undefined behavior. Strict aliasing happens to be one way in which your code may break even if the memory layout happens to match up. And no, strict aliasing is part of the language. It isn't a "broken language", but it does make your suggested code broken. Because there's a lot of broken code out there, gcc provides as option to disable optimizations associated with aliasing analysis, but the strict aliasing rule is not gcc-specific. – Ben Voigt Aug 7 '12 at 3:47
    
@Ben: you're right that reinterpret_cast is formally undefined behavior. but it's in the language to be used: the system software on all three major desktop platforms relies on compiler defining this behavior. and no, strict aliasing is not part of the language, and is not mentioned in the standard. read again what i wrote (the list is incomplete). i did not add more powerful arguments because there's no space to discuss it, and formal incompleteness of the list is enough by itself, but rest assured it's wholly a gcc option issue, just as the floating point optimization in that compiler. – Cheers and hth. - Alf Aug 7 '12 at 7:16

It looks to me as if you're looking for covariant support for generic (template) types. This is not supported at all by C++. It is supported by the CLR - and C#/VB - though only in the latest versions.

In spite of this, to echo others' responses, you're likely barking up the wrong tree. My hunch is that you want to have a vector of pointers to A-typed objects... and this type should include virtual methods and a virtual destructor - as necessary. It's impossible to be more specific about a suitable alternative approach without a better understanding of the high-level problem you're trying to solve - which is not evident from your question.

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