56

Suppose I have these three functions:

bool A();
bool B();
bool C();

How do I call one of these functions conditionally using a function pointer, and how do I declare the function pointer?

0

17 Answers 17

46

You can do the following: Suppose you have your A,B & C function as the following:

bool A()
{
   .....
}

bool B()
{
   .....
}

bool C()
{

 .....
}

Now at some other function, say at main:

int main()
{
  bool (*choice) ();

  // now if there is if-else statement for making "choice" to 
  // point at a particular function then proceed as following

  if ( x == 1 )
   choice = A;

  else if ( x == 2 )
   choice = B;


  else
   choice = C;

if(choice())
 printf("Success\n");

else
 printf("Failure\n");

.........
  .........
  }

Remember this is one example for function pointer. there are several other method and for which you have to learn function pointer clearly.

1
  • 4
    There are some examples in this link. You can refer this link cprogramming.com/tutorial/function-pointers.html/… Also u can visit other link like publications.gbdirect.co.uk/c_book/chapter5/… etc.
    – Abhineet
    Dec 23, 2009 at 11:39
46

I think your question has already been answered more than adequately, but it might be useful to point out explicitly that given a function pointer

void (*pf)(int foo, int bar);

the two calls

pf(1, 0);
(*pf)(1, 0);

are exactly equivalent in every way by definition. The choice of which to use is up to you, although it's a good idea to be consistent. For a long time, I preferred (*pf)(1, 0) because it seemed to me that it better reflected the type of pf, however in the last few years I've switched to pf(1, 0).

9
  • 1
    I think so too, but can you share an official reference stating the two forms are identical?
    – lkanab
    Sep 15, 2016 at 8:47
  • 3
    @lkanab §6.5.2.2.1 and it's footnote 94, along with the definition of function designator at §6.3.2.1.4 show that (surprisingly, to me) pf(1, 0); is "converted" to (*pf)(1, 0); (sorry if my numbering is wrong) Sep 3, 2018 at 22:18
  • 1
    @pizzapants184 Thanks for adding the references. It might be helpful to point out that function and array types both share the property of automatically decaying to a pointer in most contexts. So, without having a C compiler to hand to try it out, I believe you'll find, assuming we have a function pointer fp already initialized to point to func, that func == fp and *fp == fp. Sep 3, 2018 at 22:29
  • 1
    @Sekomer The basic rule that explains both your questions is that any time a function occurs in an expression would result in a function object, the expression is forced to be instead a pointer to the function. This is often described by saying that functions decay into pointers. Re (1) the first form is the only "real" way to call a function. In the second form, *pf would normally evaluate to a function object since you're dereferencing a pointer, but the decay rule the kicks in and you get a pointer back, and then the first form applies. Exactly the same thing happens in printf(...). Dec 18, 2020 at 6:48
  • 1
    @Sekomer Just to finish up, re (2) the same decay rule explains what's happening here. And, in closing, I'll note that the same decay rule applies to arrays: an array object in an expression is always converted to a pointer to the first element. Dec 18, 2020 at 6:49
30

Declare your function pointer like this:

bool (*f)();
f = A;
f();
0
18

Initially define a function pointer array which takes a void and returns a void.

Assuming that your function is taking a void and returning a void.

typedef void (*func_ptr)(void);

Now you can use this to create function pointer variables of such functions.

Like below:

func_ptr array_of_fun_ptr[3];

Now store the address of your functions in the three variables.

array_of_fun_ptr[0]= &A;
array_of_fun_ptr[1]= &B;
array_of_fun_ptr[2]= &C;

Now you can call these functions using function pointers as below:

some_a=(*(array_of_fun_ptr[0]))();
some_b=(*(array_of_fun_ptr[1]))();
some_c=(*(array_of_fun_ptr[2]))();
3
  • Your array size is 2, so your index can only go up to 1. Dec 23, 2009 at 16:37
  • 1
    @Vijay why are you passing void in the function calls? void is a type, not a value.
    – ajay
    Feb 22, 2014 at 8:41
  • 5
    A few minor corrections: 1. No need for an & before the function. array_of_fun_ptr[0] = A is good enough. 2. The void in the function call is an error. 3. No need for an * before a function invocation. array_of_fun_ptr[0]() is much cleaner. No harm done, though :)
    – Eran
    Dec 22, 2014 at 16:23
5
bool (*FuncPtr)()

FuncPtr = A;
FuncPtr();

If you want to call one of those functions conditionally, you should consider using an array of function pointers. In this case you'd have 3 elements pointing to A, B, and C and you call one depending on the index to the array, such as funcArray0 for A.

5

You can declare the function pointer as follows:

bool (funptr*)();

Which says we are declaring a function pointer to a function which does not take anything and return a bool.

Next assignment:

funptr = A;

To call the function using the function pointer:

funptr();
2
  • I think you meant bool (*funptr)();, with the * on the left of the pointer. Can you please check? Dec 17, 2019 at 8:38
  • Your declaration is invalid. It won't even compile.
    – Ruslan
    Dec 31, 2020 at 12:46
3

Note that when you say:

bool (*a)();

you are declaring a of type "pointer to function returning bool and taking an unspecified number of parameters". Assuming bool is defined (maybe you're using C99 and have included stdbool.h, or it may be a typedef), this may or may not be what you want.

The problem here is that there is no way for the compiler to now check if a is assigned to a correct value. The same problem exists with your function declarations. A(), B(), and C() are all declared as functions "returning bool and taking an unspecified number of parameters".

To see the kind of problems that may have, let's write a program:

#include <stdio.h>

int test_zero(void)
{
    return 42;
}

static int test_one(char *data)
{
    return printf("%s\n", data);
}

int main(void)
{
    /* a is of type "pointer to function returning int
       and taking unspecified number of parameters */
    int (*a)();

    /* b is of type "pointer to function returning int
       and taking no parameters */
    int (*b)(void);

    /* This is OK */
    a = test_zero;
    printf("a: %d\n", a());

    a = test_one; /* OK, since compiler doesn't check the parameters */
    printf("a: %d\n", a()); /* oops, wrong number of args */

    /* This is OK too */
    b = test_zero;
    printf("b: %d\n", b());

    /* The compiler now does type checking, and sees that the
       assignment is wrong, so it can warn us */
    b = test_one;
    printf("b: %d\n", b()); /* Wrong again */

    return 0;
}

When I compile the above with gcc, it says:

warning: assignment from incompatible pointer type

for the line b = test_one;, which is good. There is no warning for the corresponding assignment to a.

So, you should declare your functions as:

bool A(void);
bool B(void);
bool C(void);

And then the variable to hold the function should be declared as:

bool (*choice)(void);
2
bool (*fptr)();

int main(void)
{
    ...
    ...
    printf("Enter your choice");
    scanf("%d",&a);
    switch(a)
    {
        case 0:
               fptr = A;
               break;
        case 1:
               fptr = B;
               break;
        case 2:
               fptr = C;
               break;
        case 3:
                break;
    }
    (*fptr)();
    return 0;
}

Your choice is stored in a. Then accordingly, functions are assigned in the function pointer. Finally, depending on your choice, the very same function is called to return the desired result.

1
  • Which one is correct: (*fptr)() or just fptr()? Is it specified somewhere in the standard? I personally find writing (*fptr)() somewhat cumbersome... Mar 6, 2013 at 12:37
2

The best way to read that is the clockwise/spiral rule by David Anderson.

2

Calling a function through a function pointer

float add(int, float), result;

int main()
{
    float (*fp)(int, float);
    float result;
    fp = add;
    result = add(5, 10.9);    // Normal calling
    printf("%f\n\n", result);

    result = (*fp)(5, 10.9);  // Calling via a function pointer
    printf("%f\n\n", result);

    result = (fp)(5, 10.9);   // Calling via function pointer. The
                              // indirection operator can be omitted

    printf("%f", result);
    getch();
}

float add(int a, float b)
{
    return a+b;
}

>

Output

15.90000
15.90000
15.90000
1

You declare a function pointer variable for the given signature of your functions like this:

bool (* fnptr)();

you can assign it one of your functions:

fnptr = A;

and you can call it:

bool result = fnptr();

You might consider using typedefs to define a type for every distinct function signature you need. This will make the code easier to read and to maintain. i.e. for the signature of functions returning bool with no arguments this could be:

typdef bool (* BoolFn)();

and then you can use like this to declare the function pointer variable for this type:

BoolFn fnptr;
1

Slightly different approach:

bool A() {...}
bool B() {...}
bool C() {...}

int main(void)
{
  /**
   * Declare an array of pointers to functions returning bool
   * and initialize with A, B, and C
   */
  bool (*farr[])() = {A, B, C};
  ...
  /**
   * Call A, B, or C based on the value of i
   * (assumes i is in range of array)
   */
  if (farr[i]()) // or (*farr[i])()
  {
    ...
  }
  ...
}
1

If you need help with complex definitions, like

double (*(*pf)())[3][4];

take a look at my right-left rule here.

0
//Declare the pointer and asign it to the function
bool (*pFunc)() = A;
//Call the function A
pFunc();
//Call function B
pFunc = B;
pFunc();
//Call function C
pFunc = C;
pFunc();
0

I usually use typedef to do it, but it may be overkill, if you do not have to use the function pointer too often..

//assuming bool is available (where I come from it is an enum)

typedef bool (*pmyfun_t)();

pmyfun_t pMyFun;

pMyFun=A; //pMyFun=&A is actually same

pMyFun();
0

This has been more than adequately answered, but you may find this useful: The Function Pointer Tutorials. It is a truly comprehensive treatment of the subject in five chapters!

0
0

Use typedef to deal with the function pointer as a simple function once it has been assigned its target function:

#include <stdio.h>
typedef int (*Fp)(int); 

int my_int_func(int x)
{
    return x;
}
 
int main()
{
    Fp fp = &my_int_func;   
    int i = fp(2);
    return 0;
}

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