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I have trouble seeing the utility of function pointers. I guess it may be useful in some cases (they exist, after all), but I can't think of a case where it's better or unavoidable to use a function pointer.

Could you give some example of good use of function pointers (in C or C++)?

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You can find quite a bit of discussion about function pointers in this related SO question. –  itsmatt Apr 7 '10 at 12:00
    
possible duplicate of stackoverflow.com/questions/840501/… –  itsmatt Apr 7 '10 at 12:02
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@itsmatt: Not really. "How does a TV work?" is quite a different question than "What do I do with a TV?" –  sbi Apr 7 '10 at 12:05
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In C++ you probably would use a functor (en.wikipedia.org/wiki/Function_object#In_C_and_C.2B.2B) instead. –  KennyTM Apr 7 '10 at 12:17
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In the old dark days when C++ was "compiled" to C, you could actually see how virtual methods are implemented - yep, with function pointers. –  sbk Apr 7 '10 at 12:35

11 Answers 11

Examples:

  1. Custom sorting/searches
  2. Different patters (like Strategy, Observer)
  3. Callbacks
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@Andrey +1 for the good examples. –  Ikaso Apr 7 '10 at 11:58
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Jump table is one of the important use of it. –  Ashish Apr 7 '10 at 12:14
    
If there were some worked examples, this would get my upvote. –  Donal Fellows Apr 7 '10 at 12:28
    
Strategy and observer are probably better implemented using virtual functions, if C++ is available. Otherwise +1. –  Billy ONeal Apr 7 '10 at 13:44
    
i think that wise use of function pointers can make observer more compact and light weight –  Andrey Apr 7 '10 at 13:52

Function pointers can be used in C to create an interface against which to program. Depending on the specific functionality that is needed at runtime, a different implementation can be assigned to the function pointer.

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In C, the classic use is the qsort function, where the fourth parameter is pointer to a function to use to perform the ordering within the sort. In C++, one would tend to use functors (objects that look like functions) for this kind of thing.

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Don't forget bsearch! –  Billy ONeal Apr 7 '10 at 13:46
    
@Billy: pthread_create, sigaction… the list is endless. –  KennyTM Apr 7 '10 at 17:34
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@KennyTM: I was pointing out the only other instance of this in the C standard library. The examples you cite are part of third party libraries. –  Billy ONeal Apr 7 '10 at 17:56

The "classic" example for the usefulness of function pointers is the C library qsort() function, which implements a Quick Sort. In order to be universal for any and all data structures the user may come up with, it takes a couple of void pointers to sortable data and a pointer to a function that knows how to compare two elements of these data structures. This allows us to create our function of choice for the job, and in fact even allows for choosing the comparison function at run time, e.g. for sorting ascending or descending.

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Don't forget bsearch! –  Billy ONeal Apr 7 '10 at 13:46

Most examples boil down to callbacks: You call a function f() passing the address of another function g(), and f() calls g() for some specific task. If you pass f() the address of h() instead, then f() will call back h() instead.

Basically, this is a way to parametrize a function: Some part of its behavior is not hard-coded into f(), but into the callback function. Callers can make f() behave differently by passing different callback functions. A classic is qsort() from the C standard library that takes its sorting criterion as a pointer to a comparison function.

In C++, this is often done using function objects (also called functors). These are objects that overload the function call operator, so you can call them as if they were a function. Example:

class functor {
  public:
     void operator()(int i) {std::cout << "the answer is: " << i << '\n';}
};

functor f;
f(42);

The idea behind this is that, unlike a function pointer, a function object can carry not only an algorithm, but also data:

class functor {
  public:
     functor(const std::string& prompt) : prompt_(prompt) {}
     void operator()(int i) {std::cout << prompt_ << i << '\n';}
  private:
     std::string prompt_;
};

functor f("the answer is: ");
f(42);

Another advantage is that it is sometimes easier to inline calls to function objects than calls through function pointers. This is a reason why sorting in C++ is sometimes faster than sorting in C.

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7  
+1 for the only example here with actual code! –  Billy ONeal Apr 7 '10 at 13:44
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+1, also see this answer for another example: stackoverflow.com/questions/1727824/… –  sharptooth Dec 30 '10 at 15:02
    
You forgot virtual functions, essentially they are function pointers as well (coupled with a data structure that the compiler generates). Furthermore, in pure C you can create these structures yourself to write object oriented code as seen in the VFS layer (and in a lot of other places) of the Linux kernel. –  Florian May 28 '12 at 10:04
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@krynr: Virtual functions are function pointers only to compiler implementers, and if you have to ask for what they are good for, you are probably (hopefully!) unlikely to be in need to implement a compiler's virtual function mechanism. –  sbi May 29 '12 at 7:10
    
@sbi: You are right of course. However, I think it helps to understand what is going on inside of the abstraction. Also, implementing your own vtable in C and write object oriented code there is a really good learning experience. –  Florian Jun 2 '12 at 10:49

Agree with all of the above, plus.... When you load a dll dynamically at runtime you'll need function pointers to call the functions.

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I do this all the time to support Windows XP and still use Windows 7 goodies. +1. –  Billy ONeal Apr 7 '10 at 13:39

I am going to go against the current here.

In C, function pointers are the only way to implement customization, because there is no OO.

In C++, you can use either function pointers or functors (function objects) for the same result.

The functors have a number of advantages over raw function pointers, due to their object nature, notably:

  • They may present several overloads of the operator()
  • They can have state / reference to existing variables
  • They can be built on the spot (lambda and bind)

I personally prefer functors to function pointers (despite the boilerplate code), mostly because the syntax for function pointers can easily get hairy (from the Function Pointer Tutorial):

typedef float(*pt2Func)(float, float);
  // defines a symbol pt2Func, pointer to a (float, float) -> float function

typedef int (TMyClass::*pt2Member)(float, char, char);
  // defines a symbol pt2Member, pointer to a (float, char, char) -> int function
  // belonging to the class TMyClass

The only time I have ever seen function pointers used where functors could not was in Boost.Spirit. They have utterly abused the syntax to pass an arbitrary number of parameters as a single template parameter.

 typedef SpecialClass<float(float,float)> class_type;

But since variadic templates and lambdas are around the corner, I am not sure we will use function pointers in pure C++ code for long now.

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Just because you don't see your function pointers doesn't mean you don't use them. Every time (unless the compiler can optimize it away) you call a virtual function, use boost bind or function you use function pointers. It's like saying we don't use pointers in C++ because we use smart pointers. Anyhow, I'm nitpicking. –  Florian May 28 '12 at 10:11
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@krynr: I'll politely disagree. What matters is what you see and type, that is the syntax that you use. It should not matter to you how it all works behind the scenes: this is what abstraction is about. –  Matthieu M. May 28 '12 at 10:59

Well, I generally use them (professionally) in jump tables (see also this StackOverflow question).

Jump tables are commonly (but not exclusively) used in finite state machines to make them data driven. Instead of nested switch/case

  switch (state)
     case A:
       switch (event):
         case e1: ....
         case e2: ....
     case B:
       switch (event):
         case e3: ....
         case e1: ....

you can make a 2d array or function pointers and just call handleEvent[state][event]

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+1 Interesting. –  Rich Apr 7 '10 at 14:00
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+1 I've never thought to go multi-dimensional with this. –  Eli Sep 21 '10 at 20:45

I used function pointers recently to create an abstraction layer.

I have a program written in pure C that runs on embedded systems. It supports multiple hardware variants. Depending on the hardware I am running on, it needs to call different versions of some functions.

At initialization time, the program figures out what hardware it is running on and populates the function pointers. All of the higher-level routines in the program just call the functions referenced by pointers. I can add support for new hardware variants without touching the higher-level routines.

I used to use switch/case statements to select the proper function versions, but this became impractical as the program grew to support more and more hardware variants. I had to add case statements all over the place.

I also tried intermediate function layers to figure out which function to use, but they didn't help much. I still had to update case statements in multiple places whenever we added a new variant. With the function pointers, I only have to change the initialization function.

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I use function pointers extensively, for emulating microprocessors that have 1-byte opcodes. An array of 256 function pointers is the natural way to implement this.

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My main use of them has been CALLBACKS: when you need to save information about a function to call later.

Say you're writing Bomberman. 5 seconds after the person drops the bomb, it should explode (call the explode() function).

Now there's 2 ways to do it. One way is by "probing" all bombs on the screen to see if they're ready to explode in the main loop.

foreach bomb in game 
   if bomb.boomtime()
       bomb.explode()

Another way is to attach a callback to your clock system. When a bomb is planted, you add a callback to make it call bomb.explode() when the time is right.

// user placed a bomb
Bomb* bomb = new Bomb()
make callback( function=bomb.explode, time=5 seconds ) ;

// IN the main loop:
foreach callback in callbacks
    if callback.timeToRun
         callback.function()

Here callback.function() can be any function, because it is a function pointer.

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