Consider these classes.
class Base
{
...
};
class Derived : public Base
{
...
};
this function
void BaseFoo( std::vector<Base*>vec )
{
...
}
And finally my vector
std::vector<Derived*>derived;
I want to pass derived to function BaseFoo, but the compiler doesn't let me. How do I solve this, without copying the whole vector to a std::vector<Base*>?
vector<Base*> and vector<Derived*> are unrelated types, so you can't do this. This is explained in the C++ FAQ here.
You need to change your variable from a vector<Derived*> to a vector<Base*> and insert Derived objects into it.
Also, to avoid copying the vector unnecessarily, you should pass it by const-reference, not by value:
void BaseFoo( const std::vector<Base*>& vec )
{
...
}
Finally, to avoid memory leaks, and make your code exception-safe, consider using a container designed to handle heap-allocated objects, e.g:
#include <boost/ptr_container/ptr_vector.hpp>
boost::ptr_vector<Base> vec;
Alternatively, change the vector to hold a smart pointer instead of using raw pointers:
#include <memory>
std::vector< std::shared_ptr<Base*> > vec;
or
#include <boost/shared_ptr.hpp>
std::vector< boost::shared_ptr<Base*> > vec;
In each case, you would need to modify your BaseFoo function accordingly.