I'd suggest combining the filter and callback into a conditional operation:
template <template<typename> class Finder, typename Callback>
struct ConditionOperation {
ConditionOperation(Callback cb = {}) : _callback(std::move(cb))
{ }
template <typename T>
void operator()(boost::type<T>) const {
if (Finder<T>()())
_callback.template operator()<T>();
}
private:
Callback _callback;
};
Then, freely after the answer by Eric Niebler¹ you can write:
ConditionOperation<Finder, Callback> op;
mpl::for_each<Types, boost::type<mpl::_1> >(op);
Here's a full demo
Live On Coliru
#include <boost/type.hpp>
#include <boost/mpl/vector.hpp>
#include <boost/mpl/for_each.hpp>
#include <iostream>
struct Foo { enum { id = 879 }; };
struct Bar { enum { id = 321 }; };
struct Qux { enum { id = 555 }; };
typedef boost::mpl::vector<Foo, Bar, Qux> Types;
template <typename T>
struct Finder {
bool operator()() const { return T::id > 500; }
};
struct Callback {
template<typename T> void operator()() const {
std::cout << __PRETTY_FUNCTION__ << "\n";
}
};
template <template<typename> class Finder, typename Callback>
struct ConditionOperation {
ConditionOperation(Callback cb = {}) : _callback(std::move(cb))
{ }
template <typename T>
void operator()(boost::type<T>) const {
if (Finder<T>()())
_callback.template operator()<T>();
}
private:
Callback _callback;
};
int main() {
using namespace boost;
ConditionOperation<Finder, Callback> op;
mpl::for_each<Types, boost::type<mpl::_1> >(op);
}
Printing
void Callback::operator()() const [with T = Foo]
void Callback::operator()() const [with T = Qux]
¹ boost::mpl::for_each without instantiating