I have a simple question regarding const_cast
and best practices regarding STL containers. Consider the following where class Foo
has a private STL std::map
from Widget*
to int
:
Declaration:
#include <map>
using std::map;
class Widget;
class Foo {
public:
Foo(int n);
virtual ~Foo();
bool hasWidget(const Widget&);
private:
map<Widget*,int> widget_map;
};
Definition:
#include <map>
#include "Foo.h"
#include "Widget.h"
using std::map;
Foo::Foo(int n)
{
for (int i = 0; i < n; i++) {
widget_map[new Widget()] = 1;
}
}
Foo::~Foo()
{
map<Widget*, int>::iterator it;
for (it = widget_map.begin(); it != widget_map.end(); it++) {
delete it->first;
}
}
bool Foo::hasWidget(const Widget& w)
{
map<Widget*, int>::iterator it;
it = this->widget_map.find(const_cast<Widget*>(&w));
return ( ! ( it == widget_map.end() ) );
}
Given that hasWidget
takes a reference to const as its parameter, the constness needs to be cast away when calling map::find
(wiget_map
being from Wiget*
to int
). As far as I can tell, this approach is both sensible and desirable -- but I'm reluctant to accept it as such without feedback from more experienced C++ programmers.
It seems to me that this is one of the few cases of using const_cast
appropriately given that we're passing the result of the cast to an STL method. Am I correct?
I realise that other permutations of this question have been posed already (for example, const_cast for vector with object) but none seem to directly address the above.
Thanks in advance.
Widget
, but theWidget
s are created dynamically byFoo
and the map is private. How is any client of the class magically going to end up with aWidget
reference that happens to be in the map? IfFoo
owns theWidget
s, why doesn't it use a container that expresses this ownership? I don't understand the point of the map. What is the meaning of the integer?Key
isWidget*
thenconst Key
isn'tconst Widget *
, it'sWidget *const
. This is why we prefer typedefs to macros :-)map::find
does take aconst Key&
which in this case is aWidget* const&
. The cast is "necessary" because you can't implicitly convert from aconst Widget*
toWidget *
which would then be allowed to bind to aWidget * const &
.