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Is it possible to use std::for_each or anything else like that ?

#include <list>
#include <algorithm>

// Class declaration
struct Interface
   virtual void run() = 0;

struct A : public Interface
   void run() { std::cout << "I run class A" << std::endl; }

struct B : public Interface
   void run() { std::cout << "I run class B" << std::endl; }

// Main
int main()
   // Create A and B
   A a;
   B b;

   // Insert it inside a list
   std::list<Interface *> list;

   // Then execute a func with for_each without recreate a func which call Interface::run() 
   std::for_each(list.begin(), list.end(), run);

   return 0;

Edit : My question is : How can I call each run() member function inside a loop using algorithm or a more simply a C++ way without using iterators...

share|improve this question
Interface a = new A; This doesn't even compile. What, precisely, are you trying to do? – Robᵩ Mar 15 '12 at 1:20
There's no question here – Lightness Races in Orbit Mar 15 '12 at 1:21
Sorry, I've write a little code to show only what I want to do. Basically I want to call the member function run inside a loop using for_each or something else. I know I could use iterator but I ask myself if there was an other way – klefevre Mar 15 '12 at 1:23
@LightnessRacesinOrbit i've edit my question – klefevre Mar 15 '12 at 1:26
up vote 7 down vote accepted

You can do this using std::mem_fun:

std::for_each(list.begin(), list.end(), std::mem_fun(&Interface::run));
share|improve this answer
Wow, I never knew about mem_fun. +1 – Seth Carnegie Mar 15 '12 at 1:25
std::mem_fn is the correct function with C++11, std::mem_fun is deprecated as it only works for 1 (or 2?) argument functions. – Xeo Mar 15 '12 at 1:28
You can also use std::bind in C++11 – Charles Salvia Mar 15 '12 at 1:28
Just remember it's deprecated in C++11 for std::mem_fn. – Jesse Good Mar 15 '12 at 1:29
@Seth: std::bind(&Inerface::run, _1), what's the problem? – Xeo Mar 15 '12 at 1:34

Probably the easiest way would be to use a lambda function:

boost::for_each(list, [](Interface* i){ i->run(); });

Other options include:

boost::for_each(list | boost::adaptors::indirected, std::mem_fn(&Interface::run));


    list | boost::adaptors::indirected,
    std::bind(&Interface::run, std::placeholders::_1));
share|improve this answer
Thanks for your participation but I don't use boost in this project. I upvote you despite all. – klefevre Mar 15 '12 at 1:47

No, you have to create a wrapper function that will call run() on whatever object is passed into it. C++ doesn't have the sort of dynamic dispatch that will allow you to use a string to refer to a function and look it up at run time - what gets called in for_each has to be one and only one function at one address, not a polymorphic function.

You don't have to create a wrapper function for every object: you just have one, and it gets called repeatedly and passed in the object. Then you call run() on the passed in object, and polymorphism does the rest:

void wrapper(Interface* obj)

std::for_each(list.begin(), list.end(), wrapper);
share|improve this answer
Of course I can do that, but what if I have 30 member func to call ? I've to create 30 wrapper funcs.. ? I don't think it's a good way just for call one func =/ What do you think ? – klefevre Mar 15 '12 at 1:30
@Matt You'd be storing things in the list as pointers, not values, so the signature for wrapper should be void wrapper(Interface* obj) (and also not const because run is not const) – Seth Carnegie Mar 15 '12 at 1:31
@kl94 no you just call the 30 member functions in the wrapper one after another. Then those calls will be executed on each item in the list. – Seth Carnegie Mar 15 '12 at 1:32
Good catch, @Seth. Updated my answer - and I see the list declaration has been updated too. All is right in the world :) – Matt Mar 15 '12 at 1:33
And by the way I didn't downvote this. – Seth Carnegie Mar 15 '12 at 1:34

Taking Matt's example, but making it generic:

class wrapper : public std::unary_function(Interface*, void) {
  void (Interface::*pmf)();
  wrapper(void (Interface::*pmf)()) : pmf(pmf) { }
  operator()(Interface* intf) { intf->*pmf(); }

std::for_each(ist.begin(), list.end(), custom_wrapper(&Interface::run));

If you need to support arguments, derive from std::binary_function(Interface*, T, void) and store the T alongside pmf

share|improve this answer

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