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I want run to call c.drive():

#include <functional>
using namespace std;

struct Car {
    void drive() { }
};

template <typename Function>
void run(Function f) {
    f();
}

int main() {
    Car c;    
    run(bind1st(mem_fun(&Car::drive), &c));    
    return 0;
}

This does not compile and the error messages does not help me:

at f():
no match for call to ‘(std::binder1st<std::mem_fun_t<void, Car> >) ()’

at the call to run:
no type named ‘first_argument_type’ in ‘class std::mem_fun_t<void, Car>’
no type named ‘second_argument_type’ in ‘class std::mem_fun_t<void, Car>’

No boost please.

Update: even though the problem is solved, I would be very happy to see TR1/C++0x solutions!

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Are you willing to allow bind (and such) from TR1 and/or C++0x? –  Jerry Coffin Feb 12 '11 at 23:56
    
Yes, I am definitely interested, so please post it! However, I need a final solution in pure C++03. –  Ali Feb 13 '11 at 0:00
    
Do you wish to do only this way or your motive is to call run that calls c.drive() any way ( i.e., with out using boost ) –  Mahesh Feb 13 '11 at 0:01
    
I just want run to call c.drive(), I do not insist on the particular approach given in the above code. However I do insist on using a functor and I would like to understand what is wrong with my code, i.e. why it fails to compile. –  Ali Feb 13 '11 at 0:05
    
By the time I posted my code, you changed your comment insisting the use of functor :( –  Mahesh Feb 13 '11 at 0:13
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3 Answers

up vote 6 down vote accepted

bind1st makes a unary function out of a binary function and a value. You are trying to make a function that takes no parameters out of a unary function and there isn't anything to support this in standard C++03.

You will have to do something like this.

template<class X, void (X::*p)()>
class MyFunctor
{
    X& _x;
public:
    MyFunctor(X& x) : _x( x ) {}
    void operator()() const { (_x.*p)(); }
};

template <typename Function>
void run(Function f) {
    f();
}

int main() {
    Car c;
    run(MyFunctor<Car, &Car::drive>(c));
    return 0;
}
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The Boost/TR1/C++0x solution is quite straightforward:

run(std::bind(&Car::drive, &c));
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The C++0x solution using lambdas - http://www.ideone.com/jz5B1 :

struct Car {
    void drive() { }
};

template <typename Function>
void run(Function f) {
    f();
}

int main() {
    Car c;    
    run( [&c](){ c.drive(); } );    
    return 0;
}
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