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Is there a way to avoid copying large vectors, when a function expects a vector with (pointer to) baseclass objects as input but I only have a vector of (pointers to) derived objects?

class Base {};

class Derived : public Base {};

void doStuff(vector<Base*> &vec)
    //do stuff with vec objects

int main()
    vector<Derived*> fooDerived(1000000);

    vector<Base*> fooBase(fooDerived.begin(), fooDerived.end()); // how to avoid copying here?
share|improve this question
possible duplicate of Vector Iterators Casting – sehe Sep 26 '11 at 9:16
You can't avoid the copy if you must keep your doStuff function exactly as it is. If you're willing to change that function (say to a template that accepts an iterator range), then there may be a way. – Kerrek SB Sep 26 '11 at 9:19
@KerrekSB: Isn't your comment the answer to his question? If you'd make it the answer, it would get my vote. – thiton Sep 26 '11 at 9:23
up vote 2 down vote accepted

If you could use a vector<Derived*> as if it where a vector<Base*>, you could add a pointer to a class OtherDerived : public Base to that vector. This would be dangerous.

share|improve this answer
you could not add a OtherDerived* to a vector<Derived*>. I think you know, but the wording is very unclear. Also: what is the point of the answer? – sehe Sep 26 '11 at 9:26
Point of the answer is: you cannot avoid copying. Of course you cannot add a OtherDerived* to a vector<Derived*>. But if you avoid copying, the compiler does not know that it's a vector<Derived*> and thinks it's a vector<Base*> allowing you to slip in an OtherDerived* through the back door. – Oswald Sep 26 '11 at 9:29
I see the point... That means I'll have to rethink my design because I really don't want to copy the vector. :( – Ben Sep 26 '11 at 9:51
@Ben: How many elements do you have in the vector? What operations are going to be performed by the function? The cost of copying is probably minimal (i.e. std::vector<base*> vb( bd.begin(), bd.end() ); in many implementations will trigger a single allocation and N copies of pointers (possibly offsetting the pointer as needed: consider an addition/substraction plus the copy). Now performance aside, if the function is to modify the vector then the problem is that you shouldn't as it will break type safety as @Oswald points out. – David Rodríguez - dribeas Sep 26 '11 at 10:40
@David I might have millions of objects in the vector. And actually, the job of doStuff() is to add even more objects loaded from file. The Base and Derived class look exactly the same, that's why I have the file loading implemented in the base class. The only difference between Base and Derived is the way the objects are computed (e.g. GPU vs. CPU), but maybe Derived and Base should be the same class – Ben Sep 26 '11 at 12:01

You can't cast the vectors. However, you shouldn't really need to either.

If you really want, you could use Boost Iterator (documentation)

static Derived* ToDerived(Base* b)
    return dynamic_cast<Derived*>(b); // return null for incompatible subtypes

static void DoSomething(Derived* d)
          if (!d)
               return; // incompatible type or null entry
          // do work

// somewhere:
    std::vector<Base*> bases;

         boost::make_transform_iterator(bases.begin(), &ToDerived),
         boost::make_transform_iterator(bases.end(), &ToDerived),

Note: a particularly handy effect of using dynamic_cast<Derived*> is that if the runtime type of the object cannot be casted to Derived* (e.g. because it is actually an OtherDerived*, it will simply return a null pointer.

share|improve this answer
OP does not want to downcast. – Alexey Malistov Sep 26 '11 at 9:26
Ah good point. In which case I don't see what he is trying to do :) – sehe Sep 26 '11 at 9:33

If your definition of doStuff() is absolutely mandatory, then you won't get around the copy. Containers of pointers aren't "covariant" with respect to the pointee's class hierarchy, for a whole host of reasons. (For example, if you could treat vector<Derived*> like a vector<Base*>, you could insert Base-pointers into it which wouldn't behave like Derived-pointers. In any event, the parameter type of a container is fixed and part of the container's type.)

If you do have some leeway with the function, you could restructure the code a bit: You could make it a template parametrized on the container, or a template on an iterator range, and/or you could split the actual workload into a separate function. For example:

void doStuffImpl(Base *);

template <typename Iter>
void doStuff(Iter begin, Iter end)
  for (Iter it = begin; it != end; ++it)
    doStuffImpl(*it);  // conversion happens here
share|improve this answer
hmm... but I want to add objects to the vector. And actually, Base and Derived look exacly the same. The only difference is the way they are computed. But I don't really see yet, how to change my design... I guess I'll have to think of another question ;) – Ben Sep 26 '11 at 10:05
@Ben: You can also make the container type into a template parameter, rather than the iterator range. – Kerrek SB Sep 26 '11 at 10:09

Since your template for the vector is a pointer, your fooBase local variable is going to be using reference. Maybe the question is not very clear, if you could specify clearly we may try to address the problem!

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the template is not a pointer. You are not going to use a reference (the pointer is copied by value). Maybe the answer is not very clear! – sehe Sep 26 '11 at 9:27

One way is to store only pointers to the base class like this:

vector<Base*> v(100);
v.push_back(new Derived());

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I found this topic interesting where they mention you can safely cast Derived* to Base* (but not the other side) while this is not possible from vector<Derived*> to vector<Base*> but you kind of should be able to... (Ok, the address of the vector changes, thus needing a copy)
One dirty solution they mention is using reinterpret_cast<vector<Base*> >(vector<Derived*>) but not sure if it's better then using the copy constructor... probably the same thing happens.

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