# Sending the name of a function to a function

What I want to do is:

``````class A
{
public:
double sum(double a, double b);
double max(double a, double b);
}

template <typename T>
class B
{
std::vector<T> data;

public:

double sum (double a, double b);
double max (double a, double b);
double average( MyFunction, double a, dobule b)
{
double sum = 0;
int n = data.size();

for ( int i = 0; i < n; i++)
sum = sum + data[i].MyFunction(double a, double b)

return sum / n;
}

}
``````

example:

``````double average( max, double a, double b)
{
double sum = 0;
int n = data.size();

for ( int i = 0; i < n; i++)
sum = sum + data[i].max(double a, double b)

return sum / n;
}
``````

Why?

1. it would save me to write function like: average of sum. average of max. average of min which are all pretty similar functions.
2. the way it is coded `B< B< A> >` works

What have I tried?

• function pointer
• S1:

``````  typedef double (A::*MyFunctionf)(double, double);
typedef double (B<A>::*MyFunctionff)(double, double);
typedef double (B<B<A> >::*MyFunctionfff)(double, double);
``````
• it Works. Problems:
• it is not beautiful to declare 3-4 typedef of function pointer
• if I want to write the function inside B that sent a function pointer it will be hard coded and only 1 of the 3 typedef can be hard coded. Meaning: it is not working for every cases
• S2 (based on Template typedefs - What's your work around?):

``````  template <typename rtype, typename t>
struct CallTemplate
{
typedef rtype (t::*ptr)(double, double);
};

// the function becomes :
template <typename T>
template<typename rtype>
double B<T>::average(CallTemplate<double, T> MyFunction, double a, double b)
{
double sum = 0;
int n = data.size();

for ( int i = 0; i < n; i++)
sum = sum + (data[i].*MyFunction)( a, b)

return sum / n;
}
``````

example:

`````` // makes an error "Myfunction was not declared" + "
// dependent-name'{anonymous}::CallTemplate<double, A>::ptr'
// is parsed as a non-type, but instantiation yields a type"
CallTemplate<double, A>::ptr MyFunction = &A::max;
Average(max, t, v);
``````

I do not know where the problem comes from. I have also tried Boost.Function

-
What are the a and b arguments to sum() and max() in your two template classes A and B? –  Mike Housky Sep 22 '13 at 14:03
@Konrad - please restore c++ to the title, as the question really makes no sense without the language specification - it's not just a tag, it's a fundamental part of the meaning. –  Chris Stratton Sep 22 '13 at 14:03
@ChrisStratton Tags are fundamental part of the meaning of questions, especially the big language ones. They are not "just" anything! –  Yakk Sep 22 '13 at 14:15
the sum() max(), A, B example were made up to simplify what I intended to do. nevertheless in the "Original program" my functions take 2 arguments so I kept it that way in the example. I wanted to keep track of these arguments. –  Setepenre Sep 22 '13 at 14:16
@Setepenre Never mind, I think I get it. Those member functions aren't instance-specific, so they should be declared static. That will simplify a number of things. –  Mike Housky Sep 22 '13 at 14:17

Yes it's possibile.

You're looking for member pointers. The syntax is not obvious however:

``````struct A
{
double x, y;
A(double x, double y) : x(x), y(y) {}
double sum() { return x + y; }
double max() { return std::max(x, y); }
};
``````

This is a class that defines a couple of methods (`sum` and `max`).

``````template <typename T>
struct B
{
std::vector<T> data;
double average(double (T::*MyMethod)())
{
double sum = 0;
int n = data.size();
for (int i = 0; i < n; i++)
sum = sum + (data[i].*MyMethod)();
return sum / n;
}
};
``````

This is a class with a method that accepts a method pointer and that will compute the average of the result of calling the pointed method over the elements of a vector.

An example of passing the two `A` methods is:

``````int main(int argc, const char *argv[]) {
B<A> b;
b.data.push_back(A(1, 2));
b.data.push_back(A(3, 4));
b.data.push_back(A(5, 6));
std::cout << b.average(&A::max) << std::endl;
std::cout << b.average(&A::sum) << std::endl;
return 0;
}
``````
-
I really want to keep classes because i need inheritance. the sum and max example were made up to simplify what I intended to do. Thank you !! –  Setepenre Sep 22 '13 at 14:10

The common C++ idiom to do these kind of things is to pass a function "object" and accept it as a template parameter:

``````#include <algorithm>

// definition of class A by user http://stackoverflow.com/users/320726/6502
struct A
{
double x, y;
A(double x, double y) : x(x), y(y) {}
double sum() const { return x + y; }
double max() const { return std::max(x, y); }
};

template <typename T>
struct B
{
std::vector<T> data;
template<class Function>
double average(Function f)
{
double sum = 0;
int n = data.size();
for (int i = 0; i < n; i++)
sum = sum + f(data[i]);
return sum / n;
}
};

#include <functional>

int main()
{
B<A> b{ {{1.0, 42.0}, {2.0, 43.0}, {3.0, 44.0}} };
b.average([](A const& p){ return p.sum(); });
b.average(std::mem_fn(&A::sum));
}
``````

This is very general approach as it not only accepts function pointers or member function pointers, but any kind of callable object. Using a member function pointer is simple via `std::mem_fn`.

-

Solution With Boost.Function

``````class A
{
public:
double sum(double a, double b);
double max(double a, double b);
}

template <typename T>
class B
{
std::vector<T> data;

public:

double sum (double a, double b);
double max (double a, double b);
double average(boost::function<double (T*, double, double) MyFunction, double a, dobule b)
{
double sum = 0;
int n = data.size();

for ( int i = 0; i < n; i++)
sum = sum + MyFunction(&data[i], a, b)

return sum / n;
}

}
``````

example

``````boost::function<double (A*, a, b)> MyFunction = &A::max;
average(MyFunction, a, b);
``````

The working example ::

``````#include <cmath>

using namespace std;

#include <vector>
#include <boost/function.hpp>

#define CallTemplate(returnvalue, FINClass) boost::function<returnvalue (FINClass*, double, double)>

class zc
{
double n;
double r;
double p;

public:
zc(double nn, double rr, double pp):n(nn), r(rr), p(pp) {}

double pv(double t, double v) { return p/ pow ( ( 1 + r + v), ( n - t) );}
double d(double t, double v)  { return (n - t); }
double c(double t, double v)  { return (n - t)*(n - t)+(n - t); }
};

template <typename T>
class Master
{
public:

Master(){}
std::vector<T> data;

double pv(double t, double v) {CallTemplate(double, T) f = &T::pv;  return sum(f, t, v);}
double d(double t, double v)  {CallTemplate(double, T) f = &T::d;   return weightedAverage(f, t, v);}
double c(double t, double v)  {CallTemplate(double, T) f = &T::c;   return weightedAverage(f, t, v);}

double sum(CallTemplate(double, T) MyFunction, double t, double v)
{
double sum = 0;
for( int i = 0, n = data.size(); i < n; i++)
sum = sum + MyFunction(&data[i], t, v);

return sum;
}

double weightedAverage(CallTemplate(double, T) MyFunction, double t, double v)
{
double sum = 0;
double weight = 0;
double buf =0;

for( int i = 0, n = data.size(); i < n; i++)
{
buf = data[i].pv(t, v);

sum = sum + buf;

weight = weight + MyFunction(&data[i], t, v) * buf;
}

return weight/sum;
}

};

int main()
{
Master<zc> A;

for (int i = 1; i < 10; i++)
A.data.push_back(zc(i, 0.1, 100));

A.data.push_back(zc(10, 0.1, 1100));

cout << A.pv(0, 0) << endl;
cout << A.d(0, 0) << endl;
cout << A.c(0, 0) << endl;

return 0;
}
``````
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