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I have an optimisation algorithm which finds the best partition of a graph.

There are many measures for the quality of a partition (the variable being optimised), so I thought it would be a good idea to use function pointers to these quality functions, and pass that into my optimisation algorithm function.

This works fine, but the problem is different quality functions take some different arguments.

For example one quality function is find_linearised_stability and it requires a markov_time parameter:

float find_linearised_stability(cliques::Graph<T> &my_graph, cliques::Partition &my_partition,
                               std::vector<float> &markov_times, std::vector<float> &stabilities)

and is used in the optimisation function :

cliques::find_optimal_partition_louvain(my_new_graph, markov_times, &cliques::find_linearised_stability);

however another quality function find_modularityrequires no markov_time parameter. Of course I could just include it as an argument and not use it in the function but that seems like bad practice, and would get unwieldy once I start adding a lot of different quality functions.

What is a better design for this kind of situation?

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4 Answers 4

up vote 6 down vote accepted

Use function objects. One of those function objects can have a markov_time member that is passed in to the constructor:

struct find_linearised_stability {
    std::vector<float> & markov_times_;

    find_linearised_stability(std::vector<float> & markov_times)

    float operator () (cliques::Graph<T> &my_graph, cliques::Partition &my_partition,
                 std::vector<float> &stabilities)
        // use markov_times_ in here, we didn't need to pass it since it's a member

(you may need to make adjustments to constness/referenceness to suit your needs)

Then you can call your function like this:

cliques::find_optimal_partition_louvain(my_new_graph, cliques::find_linearised_stability(markov_times));

"what type for the function object do I use when declaring the ... function?"

Make it a function template that takes the function object type as a template parameter, thusly:

template<typename PR>
whatever find_optimal_partition_louvain(my_new_graph, PR & pr)
    pr(my_new_graph, partition, stabilities);
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Ok but then what type for the function object do I use when declaring the cliques::find_optimal_partition_louvain function? –  zenna Jan 13 '11 at 18:43
@zenna -- Make it a function template, see updated answer for example. –  Benjamin Lindley Jan 13 '11 at 19:00
@zenna -- Note that this also allows you to still pass in regular functions if you have some lying around that you don't feel like converting to function object classes. –  Benjamin Lindley Jan 13 '11 at 19:15
If the "extra variable" is a kind which changes every iteration doesn't the programmer need to re-create the function object again and again? Doesn't have that a performance penalty? –  Sedat Kapanoglu Jan 14 '11 at 7:40
@ssg -- The options are wide here, depending upon the programmer's needs. If this changing extra variable is modified every iteration(rather than using a completely different object), then you can just create a named function object and modify it's member every iteration. –  Benjamin Lindley Jan 14 '11 at 16:49

Your only option is boost::bind or something like it stored in a boost::function or something like it.

If profiling shows that to be too slow then you'll be stuck with the "poor practice" version because any alternative is going to run afoul of UB and/or end up being just as 'slow' as the more reasonable alternative.

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Define a structure of parameters and pass that structure to the quality function instead. Functions can use whichever member in the packet they want. It can be a class as well. The difference than passing a dummy markov_time parameter is, you don't have to declare it every time in your function. It includes no additional "push" overhead.

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This is perfectly valid but is more of a C-style approach to the problem. It's fine, but it's not all that common in C++ code. –  templatetypedef Jan 13 '11 at 18:21
Parameter classes are used in C++ too. You can even do some fairly clever things with them. I think though that the OP is looking for a way to call all of these functions generically from some larger, encompasing structure and that's going to require that 'markov_time' be a real parameter at the call site in all cases anyway. –  Crazy Eddie Jan 13 '11 at 18:25
@templatetypedef: Now I wonder what the C++ way is, I hope I see it in one of the answers here. –  Sedat Kapanoglu Jan 13 '11 at 18:30
I didn't know about function objects, I'll look into it, thanks! :) –  Sedat Kapanoglu Jan 13 '11 at 18:42
@sbi: Not a day goes by without learning a new thing, thanks :) –  Sedat Kapanoglu Jan 17 '11 at 7:39
  1. parameter is not known before: add argument to every function (reference/pointer) that contains all info, every function uses whatever it needs
  2. parameter is known before: use boost::bind, e.g.:

sample source code:

#include <iostream>
#include <cstddef>
#include <algorithm>
#include <boost/bind.hpp>
using namespace std;

void output(int a, int b)
    cout << a << ", " << b << '\n';

int main()
    int arr[] = { 1, 2, 3, 4, 5 };
    for_each(arr, arr + 5, bind(output, 5, _1));
    return 0;


5, 1
5, 2
5, 3
5, 4
5, 5
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