# What is the difference between different ways of passing a function as an argument to another function?

I have the situation where one function calls one of several possible functions. This seems like a good place to pass a function as a parameter. In this Quoara answer by Zubkov there are three ways to do this.

``````int g(int x(int)) { return x(1); }
int g(int (*x)(int)) { return x(1); }
int g(int (&x)(int)) { return x(1); }
...
int f(int n) { return n*2; }
g(f); // all three g's above work the same
``````

When should which method be used? What are there differences? I prefer the simplest approach so why shouldn't the first way always be used?

For my situation, the function is only called once and I'd like to keep it simple. I have it working with pass by pointer and I just call it with `g(myFunc)` where `myFunc` is the function that gets called last.

• None of them. Use a template parameter. – L. F. Oct 4 '19 at 23:47
• The first two are completely equivalent. The third is almost the same as the first two, except it requires an lvalue. `g(+f);` works for the first two, but not the third. – Raymond Chen Oct 5 '19 at 0:52
• @RaymondChen "The first two are completely equivalent" then in my view the first is obviously the correct choice since it's simpler. Why complicate it with a pointer? – northerner Oct 5 '19 at 1:17
• On the other hand, in `int g(int x(int))`, `x` is a pointer even though it doesn't look like one. The corresponding global declaration `int x(int);` declares a function, not a function pointer. – Raymond Chen Oct 5 '19 at 2:17
• A godbolt link to back up @RaymondChen's claim. Note that the emitted assembly labels `x` as a pointer too. – Eric Oct 5 '19 at 12:12

Expanding on L.F.'s comment, it's often better to eschew function pointers entirely, and work in terms of invocable objects (things which define `operator()`). All of the following allow you to do that:

``````#include <type_traits>

// (1) unrestricted template parameter, like <algorithm> uses
template<typename Func>
int g(Func x) { return x(1); }

// (2) restricted template parameter to produce possibly better errors
template<
typename Func,
typename=std::enable_if_t<std::is_invocable_r_v<int, Func, int>>
>
int g(Func x) { return std::invoke(x, 1); }

// (3) template-less, trading a reduction in code size for runtime overhead and heap use
int g(std::function<int(int)> x) { return x(1); }
``````

Importantly, all of these can be used on lambda functions with captures, unlike any of your options:

``````int y = 2;
int ret = g([y](int v) {
return y + v;
});
``````
• How are these called? Also how are these better? – northerner Oct 5 '19 at 21:33
• They are called in exactly the same way as your signatures above. They're better because they work with lambdas, and other stateful functions. Note that all of `<algorithm>` uses this approach to accept callback functions. – Eric Oct 5 '19 at 21:41
• Ok. To confirm, you don't need to call the templated function with a template identifier? For example you don't need `g<int>(myFunc)` just `g(myFunc)`? – northerner Oct 5 '19 at 22:08
• Correct, the idea is to let the tyoe parameter be inferred – Eric Oct 6 '19 at 8:59
• Would templates still work if you're passing more than one function as a parameter? – northerner Oct 6 '19 at 10:08