template<typename A1>
struct AbstractBinder
{
    virtual void call(A1 a1)=0;
    virtual AbstractBinder<A1> *clone()=0;
    virtual ~AbstractBinder(){}
};

template<typename A1, typename I, typename M>
struct Binder : AbstractBinder<A1>
{
    Binder(I i, M m) : i_(i), m_(m) { }
    void call(A1 a1)
    {
        (i_->*m_)(a1);
    }
    virtual AbstractBinder<A1> *clone()
    {
        return new Binder(*this);
    }
    I i_;
    M m_;
};

template<typename A1>
class BinderHolder
{
    AbstractBinder<A1> *ptr;
    BinderHolder &operator=(const BinderHolder&);
public:
    template<typename I, typename M>
    BinderHolder(I i, M m)
        : ptr(new Binder<A1,I,M>(i,m))
    {
    }
    BinderHolder(const BinderHolder &rhs)
        : ptr(rhs.ptr->clone())
    {
    }
    ~BinderHolder()
    {
        delete ptr;
    }
    void operator()(A1 a1)
    {
        ptr->call(a1);
    }
};

template<typename A1, typename I, typename M>
BinderHolder<A1> my_bind(I i, M m) {
    return BinderHolder<A1>(i, m);
}

#include <iostream>

struct Foo {
    void x(int i) { std::cout << "Foo " << i << std::endl; }
};

struct Bar {
    void y(int i) { std::cout << "Bar " << i << std::endl; }
};

int main()
{
    Foo foo;
    Bar bar;

    BinderHolder<int> b1 = my_bind<int>(&foo, &Foo::x);
    BinderHolder<int> b2 = my_bind<int>(&bar, &Bar::y);

    b1(1);
    b2(2);
}