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I want to create an std::vector object (or any other standard or custom container type) with elements of custom and arbitrary functions whose signatures are all the same.

It should be something like this:

// Define the functions and push them into a vector
std::vector<????> MyFunctions;
MyFunctions.push_back(double(int n, float f){ return (double) f / (double) n; });
MyFunctions.push_back(double(int n, float f){ return (double) sqrt((double) f) / (double) n; });
// ...
MyFunctions.push_back(double(int n, float f){ return (double) (f * f) / (double) (n + 1); });

// Create an argument list
std::vector<std::pair<int, float>> ArgumentList;
// ...

// Evaluate the functions with the given arguments
// Suppose that it is guarantied that ArgumentList and MyFunctions are in the same size
std::vector<double> Results;
for (size_t i=0; i<MyFunctions.size(); i++)
{
    Results.push_back(MyFunctions.at(i)(ArgumentList.at(i).first, ArgumentList.at(i).second));
}

If possible, I don't want to define these set of functions explicitly as below:

class MyClass
{
    public:
        void LoadFunctions()
        {
            std::vector<????> MyFunctions;
            MyFunctions.push_back(MyFoo_00);
            MyFunctions.push_back(MyFoo_01);
            MyFunctions.push_back(MyFoo_02);
            // ...
            MyFunctions.push_back(MyFoo_nn);
        }

    private:
        double MyFoo_00(int n, float f) { /* ... */ }
        double MyFoo_01(int n, float f) { /* ... */ }
        double MyFoo_02(int n, float f) { /* ... */ }
        // ...
        double MyFoo_nn(int n, float f) { /* ... */ }
};

An implementation with some standard library tool (like using std::function) is OK. But, a non-standard way of doing this (like using Boost, QT or any other library or framework) is not preferred.

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3 Answers 3

up vote 3 down vote accepted

Assuming your compiler is modern enough, you can use the new std::function type and anonymous (lambda) functions introduced in C++11:

std::vector<std::function<double(int, float)>> MyFunctions;
MyFunctions.push_back([](int n, float f) {
    return (double) f / (double) n;
});
MyFunctions.push_back([](int n, float f) {
    return (double) sqrt((double) f) / (double) n;
});
// ...
MyFunctions.push_back([](int n, float f) {
    return (double) (f * f) / (double) (n + 1);
});
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3  
You don't even have to use function here (unless you're using VC2010). Captureless lambda gracefully degrade into function pointers. However, it's always nice to use function, in case you want to use something other than a function pointer. –  Nicol Bolas Dec 27 '11 at 19:15

It sounds like you want lambda functions. If your C++ compiler implements this part of the C++11 standard yet, you can use them directly. Otherwise you might be able to use Boost Phoenix or Boost Lambda.

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Boost.Lambda has been officially deprecated since Boost.Phoenix v3 was released in Boost 1.47. Please recommend Phoenix for new code rather than Lambda. –  ildjarn Dec 27 '11 at 19:40
    
@ildjarn: Ah, I didn't know that. Thanks. –  Fred Larson Dec 27 '11 at 22:07

You can do this using std::function and lambdas:

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

struct dispatcher {
  template <typename F, typename Pair>
  double operator()(const F& func, const Pair& p) const {
    return func(p.first, p.second);
  }
};

int main() {
  std::vector<std::function<double(int,double)>> functions;
  functions.push_back([](int n, float f) { return double(f)/double(n); });

  std::vector<std::pair<int, float>> args = {std::make_pair(1, 10.0f)};

  std::vector<double> results;

  std::transform(functions.begin(), functions.end(), args.begin(), std::back_inserter(results), dispatcher());

  std::copy(results.begin(), results.end(), std::ostream_iterator<double>(std::cout, "\n"));
}
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