32

I have just read an interesting question here that makes me wonder about two more things:

  1. Why should anyone compare function pointers, given that by conception, functions uniqueness is ensured by their different names?
  2. Does the compiler see function pointers as special pointers? I mean does it see them like, let's say, pointers to void * or does it hold richer information (like return type, number of arguments and arguments types?)
4
  • 3
    The "richer information" is stored in the pointer type, e.g., int (*) (int). The type stores how the function should be called.
    – user202729
    Jan 29, 2018 at 6:40
  • And... using ptr = int (*) (int); ptr a = f; ptr b = f; if (a == b) { /* a is equal to b */ }
    – user202729
    Jan 29, 2018 at 6:41
  • @user202729: so what you are trying to say without saying is : "it may be useful when browsing functions using several pointers" is that right? Jan 29, 2018 at 6:44
  • The code needing to do the comparison does not necessarily know where the pointer came from and what it is named in the source. Jan 29, 2018 at 14:09

7 Answers 7

36

Why should anyone compare function pointers? Here's one example:

#include <stdbool.h>

/*
 * Register a function to be executed on event. A function may only be registered once.
 * Input:
 *   arg - function pointer
 * Returns:
 *   true on successful registration, false if the function is already registered.
 */
bool register_function_for_event(void (*arg)(void));

/*
 * Un-register a function previously registered for execution on event.
 * Input:
 *   arg - function pointer
 * Returns:
 *   true on successful un-registration, false if the function was not registered.
 */
bool unregister_function_for_event(void (*arg)(void));

The body of register_function_for_event only sees arg. It doesn't see any function name. It must compare function pointers to report someone is registering the same function twice.

And if you want to support something like unregister_function_for_event to complement the above, the only information you have is the function address. So you again would need to pass it in, and compare against it, to allow removal.

As for the richer information, yes. When the function type contains a prototype, it's part of the static type information. Mind you that in C a function pointer can be declared without a prototype, but that is an obsolescent feature.

0
19
  1. Why would someone compare pointers? Consider the following scenario -

    You have an array of function pointers, say it is a call back chain and you need to call each one of them. The list is terminated with a NULL (or sentinel) function pointer. You need to compare if you have reached the end of the list by comparing with this sentinel pointer. Also, this case justifies previous OPs concern that different functions should have different pointers even if they are similar.

  2. Does the compiler see them differently? Yes. The type information includes all the information about the arguments and the return type.

    For example, the following code will/should be rejected by the compiler -

    void foo(int a);
    void (*bar)(long) = foo; // Without an explicit cast
    
9
  • Nice, "callback chains" is probably the shortest possible answer. +1
    – user541686
    Jan 29, 2018 at 7:23
  • 1
    What do you mean, you can't have a null function pointer? You can totally have a null function pointer. Function pointers with static storage duration and no explicit initializer are even initialized to null pointers by default. Jan 29, 2018 at 20:21
  • @user2357112 I imagine it means that a function pointer gotten by referencing an actual function can never be null -- so if you have a void foo() {}, foo != NULL.
    – anon
    Jan 29, 2018 at 20:54
  • 3
    @NicHartley: The answer makes the claim in the context of terminating an array of function pointers, though. In that context, a null function pointer would be the natural choice (and this would of course be expressed as 0 or NULL rather than trying to take the address of an actual function). Jan 29, 2018 at 21:33
  • I find the explanation here rather weak, although that's mostly the questions fault for not including more context. The referenced question deals with non-standard COMDAT folding which would not be a problem when comparing against the nullptr. The problem only arises if we compare two actual functions against each other.
    – Voo
    Jan 29, 2018 at 22:07
18
  1. Why should anyone compare function pointers, given that by conception, functions uniqueness is ensured by their different names?

A function pointer can point to different functions at different times in a program.

If you have a variable such as

void (*fptr)(int);

it can point to any function that accepts an int as input and returns void.

Let's say you have:

void function1(int)
{
}

void function2(int)
{
}

You can use:

fptr = function1;
foo(fptr);

or:

fptr = function2;
foo(fptr);

You might want to do different things in foo depending on whether fptr points to one function or another. Hence, the need for:

if ( fptr == function1 )
{
    // Do stuff 1
}
else
{
    // Do stuff 2
}
  1. Does the compiler see function pointers as special pointers? I mean does it see them like, let's say, pointers to void * or does it hold richer information (like return type, number of arguments and arguments types?)

Yes, function pointers are special pointers, different from pointers that point to objects.

The type of a function pointer has all that information at compile time. Hence, give a function pointer, the compiler will have all that information - the return type, the number of arguments and their types.

2
  • 1
    Especially the size of a function pointer can be different, most likely on harvard architectures. The function pointer (value) itself doesn't carry the mentioned information, it is the type that does.
    – PlasmaHH
    Jan 29, 2018 at 11:11
  • 3
    I second what @PlasmaHH said, there are CPU architectures out there where function pointers are larger than a void*: More specifically, function pointers on the PPC are actually pairs of pointers, one points to the code, and the other one points to a global reference table that depends on the executable/shared library that the function was loaded from. Thus, it is not possible to cast a function pointer to void* and back on PPC. Jan 29, 2018 at 12:52
5

The classical part about function pointers is already discussed in other's answer:

  • Like other pointers, pointers to function can point to different objects at different time so comparing them can make sense.
  • Pointers to function are special and should not be stored in other pointer types (not even void * and even in C language).
  • The rich part (function signature) is stored in the function type - the reason for the above sentence.

But C has a (legacy) function declaration mode. In addition to the full prototype mode that declares the return type and the type for all parameters, C can use the so called parameter list mode which is the old K&R mode. In this mode, the declaration only declares the return type:

int (*fptr)();

In C it declares a pointer to function returning an int and accepting arbitrary parameters. Simply it will be undefined behaviour (UB) to use it with a wrong parameter list.

So this is legal C code:

#include <stdio.h>
#include <string.h>

int add2(int a, int b) {
    return a + b;
}
int add3(int a, int b, int c) {
    return a + b + c;
}

int(*fptr)();
int main() {
    fptr = add2;
    printf("%d\n", fptr(1, 2));
    fptr = add3;
    printf("%d\n", fptr(1, 2, 3));
    /* fprintf("%d\n", fptr(1, 2)); Would be UB */
    return 0;
}

Don't pretend I have advised you to do so! It is now considered as an obsolescent feature and should be avoided. I am just warning you against it. IMHO it could only have some exceptional acceptable use cases.

8
  • I didn't want to go into length about this feature, since it's obsolescent, but it's a great rundown you did. +1 Jan 29, 2018 at 7:21
  • I had no idea this code was legal. Would it work if you replaced the int in add2 and add3 arguments by long? What I mean is: when you call fptr(1,2), does it blindly send 1 and 2 as int, which is convenient in your example above, or is it parameter-type-aware? Jan 29, 2018 at 7:23
  • @BenjaminBarrois - 1 and 2 are constants of type int, always. You can try with long or long long and see what happens. It should become clear to you why this feature is considered for removal. Jan 29, 2018 at 7:26
  • Yes that is why I asked, I wondered if in your example worked because of an unexpected omniscience of the compiler. Without even testing I guess what I'd get, now ;-) Jan 29, 2018 at 7:28
  • 2
    @Lundin - 6.3.2.3 indicates the conversion is valid. And 6.7.6.3p15 indicates the pointer types are vacuously compatible (since one doesn't have a parameter type list). So it's all valid and dangerous C. Jan 29, 2018 at 11:27
2

Imagine how you would implement functionality similar to that of WNDCLASS?

It has a lpszClassName to distinguish window classes from each other, but let's say you didn't need (or didn't have) a string available to distinguish different classes from each other.

What you do have is the window class procedure lpfnWndProc (of type WindowProc).

So now what would you do if someone calls RegisterClass twice with the same lpfnWndProc?
You need to detect re-registrations of the same class somehow and return an error.

That's one case when the logical thing to do is to compare the callback functions.

2
  • 1
    You know, this would have been a great example 15 years ago. But I don't think many new programmers these days are seeing much exposure to the win32 api... everything is geared around much higher level stuff, these days.
    – Jules
    Jan 29, 2018 at 21:46
  • 1
    @Jules: I guess that's why I said "functionality similar to that of WNDCLASS" rather than "WNDCLASS". To be honest I'm not sure C itself is the epitome of modern abstraction in the first place...
    – user541686
    Jan 29, 2018 at 21:55
2

1) There are lots of situations. Take for example the typical implementation of a finite state machine:

typedef void state_func_t (void);

const state_func_t* STATE_MACHINE[] =
{
  state_init,
  state_something,
  state_something_else
};

...

for(;;)
{
  STATE_MACHINE[state]();
}

You might need to include some extra code in the caller for a specific situation:

if(STATE_MACHINE[state] == state_something)
{
  print_debug_stuff();
}

2) Yes the C compiler sees them as distinct types. In fact function pointers have stricter type safety than other types of C, because they cannot get implicitly converted to/from void*, like pointers to object types can. (C11 6.3.2.3/1). Nor can they be explicitly cast to/from void* - doing so would invoke non-standard extensions.

Everything in the function pointer matters to determine its type: the type of the return value, the type of the parameters and the number of parameters. All of these must match, or two function pointers are not compatible.

14
  • 1
    The problem with using an FSM as an example is the list of possible transitions is known at compile-time, so you would/should be using a switch on an enum rather than a list of function pointers.
    – user541686
    Jan 29, 2018 at 20:13
  • " list of possible transitions is known at compile-time"-> You wouldnt need to know it if you have a proper Unit/Module Testing setup in place. Such a FSM is easy to maintain in my opinion.You could make "state" in the above code as a enum and check against the last enum value or greater than the last enum value always. That was not the scope of the question anyways :p
    – AlphaGoku
    Jan 30, 2018 at 5:53
  • @Mehrdad Nonsense. A common compiler optimization of a switch statement is in fact to replace it with an array of function pointers behind the lines. Whether or not that is possible to inline is another story, but a function call may still be much faster than a whole lot of branches.
    – Lundin
    Jan 30, 2018 at 7:32
  • @AkshayImmanuelD: I missed your comment, sorry. I wasn't saying you "need" to know it at compile-time, and I don't get what unit-testing has to do with what I said. What I was saying was that it's not a compelling answer to this question because one can easily argue that you should be doing it differently. On the other hand, for example, the register_function_for_event/unregister_function_for_event is pretty compelling, since to remove a function pointer from a list you have to do some equality comparisons.
    – user541686
    Jan 30, 2018 at 8:53
  • @Mehrdad That's not quite an anti-pattern, but it's certainly not such a good plan. As Lundin says, the fastest code uses an array of function pointers. But there's another issue too, which is cross-coupling. If you need to add new states, using switch statements needs every relevant switch statement to be updated. If you only have to add the function pointers to the FSM configuration array, and the FSM architecture ensures the right functions for the state are called at the right time, you get more modular code.
    – Graham
    Jan 30, 2018 at 11:50
1

Function pointers are variables. Why should anyone compare variables, given that by concept, variables uniqueness is ensured by their different names? Well, sometimes two variables can have the same value and you want to find out whether it's the case.

C considers pointers to functions with the same argument list and return value to be of the same type.

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