I have a class A in which I want to have a pointer to a function as data member:

class A
    double (*ptrToFunction) ( double );

  //Setting function according to its name
  void SetPtrToFunction( std::string fName );

But what if I want ptrToFunction to be sometimes double and sometimes - int, to have something like:

//T is a typename
T(*ptrToFunction) ( double );

How should I declare it in this case?

  • 8
    How do you want to use this function? Sep 6, 2017 at 6:46
  • 6
    More importantly, how does the caller know what it's expecting back?
    – pjc50
    Sep 6, 2017 at 9:00

3 Answers 3


A discriminated union can do that for you:

class A
  using cb_type = T(double);

     enum {IS_INT, IS_DOUBLE} cb_tag;
     union {
       cb_type<int>    *ptrToIntFunction;
       cb_type<double> *ptrToDoubleFunction;

  // Setting function according to its name
  void SetPtrToFunction( std::string fName );

A more general and elegant solution for a discriminated union can be applied with std::variant in C++17, or boost::variant for earlier standard revisions.

Alternatively, if you want to completely ignore the return type, you can convert the member into std::function<void(double)> and benefit from type erasure. The Callable concept will see the call via pointer converted into static_cast<void>(INVOKE(...)) and discard the return value, whatever it is.

To illustrate:

#include <functional>
#include <iostream>

int foo(double d)  { std::cout << d << '\n'; return 0; }

char bar(double d) { std::cout << 2*d << '\n'; return '0'; }

int main() {
    std::function<void(double)> cb;

    cb = foo; cb(1.0);

    cb = bar; cb(2.0);

    return 0;

And finally, if you do care about the return value but don't want to store a discriminated union. Then knowing about unions and the behavior of std::function, you can combine the above two approaches.

Like this

#include <functional>
#include <iostream>
#include <cassert>

int    foo(double d) { return d; }

double bar(double d) { return 2*d; }

struct Result {
    union {
        int    i_res;
        double d_res;
    enum { IS_INT, IS_DOUBLE } u_tag;

    Result(Result const&) = default;
    Result(int i)  : i_res{i}, u_tag{IS_INT} {}
    Result(double d) : d_res{d}, u_tag{IS_DOUBLE} {}

    Result& operator=(Result const&) = default;
    auto& operator=(int i)
    { i_res = i; u_tag = IS_INT;    return *this; }
    auto& operator=(double d)
    { d_res = d; u_tag = IS_DOUBLE; return *this; }

int main() {
    std::function<Result(double)> cb;

    cb = foo;
    auto r = cb(1.0);
    assert(r.u_tag == Result::IS_INT);
    std::cout << r.i_res << '\n';

    cb = bar;
    r = cb(2.0);
    assert(r.u_tag == Result::IS_DOUBLE); 
    std::cout << r.d_res << '\n';

    return 0;
  • 2
    Don't mind but this is a bit complex to understand. Few inline comments would help. What is the use of cb_tag? Sep 6, 2017 at 6:35
  • @SauravSahu - It's the tag part of the tagged union idiom. You set this member along with the member of the union, so you can later know which union member is safe to access. Sep 6, 2017 at 6:42
  • 1
    Good point to use an std::function to erase the return type. +1
    – skypjack
    Sep 6, 2017 at 7:23
  • @SauravSahu - Linked to an article about discriminated unions. Sep 6, 2017 at 13:16
  • 1
    @paraxod - The tag is for you to know what the union holds. It's your job to do the bookkeeping. There's no magic that makes the tag match the active member. If you don't, your program will have undefined behavior. Sep 8, 2017 at 8:43

If your class doesn't have a template, as in your example, you could do this:

template <class T>
struct myStruct
  static T (*ptrToFunction)(double);
  • Why static? Worth noting that this contrains each instance to returning only one return type (if static removed). Of course, this may be what is wanted.
    – Steve Kidd
    Sep 13, 2017 at 8:01

It looks that you are using dlsym / GetProcAddress to get the functions address.

In this case, you need at least 2 call sites to disambiguate the call, as the CPU actually does different things for each of these calls.

enum ReturnType { rtInt, rtDouble };
void SetPtrToFunction( std::string fName , enum ReturnType typeOfReturn );

struct Function {
   enum ReturnType rt;
   union {
          std::function< int(double) > mIntFunction;
          std::function< double(double) > mDoubleFunction;
   } u;
} mFunction;

So the function would need to be instantiated with a known return type, and then this used with some tagged union to get the correct function call.

  int A::doCall( double value ) {
      if( mFunction.rt == rtInt ) {
          int result = mFunction.mIntFunction( value );
      } else if( mFunction.rt == rtDouble ) {
          double result = mFunction.mDoubleFunction( value );
  • You mean dlsym (not dlfun) and you probably mean raw function pointers, not std::function-s Sep 6, 2017 at 7:18
  • I see nothing in the question that implies a dynamic library call.
    – Steve Kidd
    Sep 13, 2017 at 7:37
  • @SteveKidd I was not familiar with another mechanism which associated a string with a function than using GetProcAddress/dlsym
    – mksteve
    Sep 13, 2017 at 8:10
  • @kmsteve Sorry - I see your point. An alternative is a hardcoded if/else that sets the function pointer according to value of input string.
    – Steve Kidd
    Sep 13, 2017 at 8:19

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