I have a Container of Elements, and each Element has its size() member function. I have managed to accumulate the total Container Elements size by writing a binary operation add_size:

#include <algorithm>
#include <vector>
#include <functional>
#include <numeric>
#include <iostream>

class A
    int size_ ; 


        A ()

        A (int size)

        int size() const
            return size_; 

template<typename Type>
class add_element 
    Type t_; 


        add_element(Type const & t)

        void operator()(Type & t)
            t += t_; 

int add_size (int i, const A& a)
    return i+=a.size();

using namespace std;

int main(int argc, const char *argv[])

    typedef vector<A> Vector;

    Vector v; 


    int totalSize = accumulate(v.begin(), v.end(), 0, add_size);

    std::cout << totalSize << endl;

    return 0;

This gives the correct output:


And what I would like is to do that without defining the binary operation add_size just for the size member function, but with using mem_fun and binders. How can I do that? How can I do that effectively? I started out with add_element and got stuck.

I need the solution to work in C++03.

  • How about boost::lambda? – ForEveR May 8 '13 at 10:01
  • @ForEveR that's C++11, right? I need the solution to work with C++03. The code runs on clusters with old compilers. – tmaric May 8 '13 at 10:01
  • 2
    boost != C++11. boost.org – ForEveR May 8 '13 at 10:02
  • @ForEveR, thanks, good to know. Still, I can't shouldn't introduce dependency to boost just because of this single thing. Is there no other way, like binders and mem_fun, or something like that? – tmaric May 8 '13 at 10:03
  • 1
    @rhalbersma: The problem is binding the std::plus and the std::men_fun together... std::bind in C++11 can do it, but I am not sure that std::bind2nd in C++03 can. If you are willing to walk the walk... you can either pull boost into the dependencies or implement either a binder (complex) or an iterator adapter (simpler, not really simple), but I don't think that you can do this with raw C++03 and only the standard library without rolling out extra types. – David Rodríguez - dribeas May 8 '13 at 12:47

I believe your question is ill-posed. Look at what you have: a small one-liner function add_size and a call to std::accumulate. What's not to like?

You are somehow (for perhaps corporate reasons) restricted from using either Boost.Bind or Boost.Lambda, let alone C++11 (which standardized both std::bind and lambda expressions).

You want to eliminate that in favor of the C++03 binders which are horribly limited in their expressiveness (which is BTW one reason why Boost.Bind and Boost.Lambda were so popular) and would require much more boilerplate than what you currently have. Look at this appendix of the C++ Standard Reference book by Nicolai Jusuttis. He implements a general compose template that works "nicely" with std::bind2nd and friends. But look at which headers he uses to implement that: right, the Boost.Bind ones.

Your best approach is to simply copy Boost.Bind and/or Boost.Lambda, put them in your own source tree, and rename the namespace to your company's. Check whether this is in fact consistent with the Boost License. Boost even has a bcp tool to extract all the included dependencies for you. Then simply write whatever you need to using the bind or lambda facilities that you've just "written".

TL;DR: Do not Re-invent the Wheel. Familiarize yourself with Boost.

  • I have nothing against Familiarizing myself with Boost, and I didn't know the background of the story, since I lack the experience. Thank you for providing your insight into the problem! +1 – tmaric May 8 '13 at 13:02
  • @tomislav-maric Glad to have been of help. The "Familiarize yourself with Boost" is literally Item 55 of the excellent book Effective C++, a must read if you want to expand your experience. – TemplateRex May 8 '13 at 13:05
  • :) I read that book... and More Effective, and I'm now reading Effective STL... I know how important boost is and I have a feel of what the new standard brings. My problem is that the code will be executed on hpc clusters with older compilers, so C++11 is out of the question, and I have no way of knowing which boost version lives on those machines, so I am worried because of that... – tmaric May 8 '13 at 13:07

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