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I have seen almost all popular question of callback here, but still not getting why use function pointer in callback instead of simply used callback via normal function. Here's the accepted answer (modified) of a popular question

void populate_array(int *array, size_t arraySize,
            int getNextValue(void))  // Note that, here I use normal function call.
    for (size_t i=0; i<arraySize; i++)
        array[i] = getNextValue();

int getNextRandomValue(void)
    return rand();

int main(void)
    int myarray[10];
    populate_array(myarray, 10, getNextRandomValue);

As you have seen above that still I can achieve callback implementation via simple function, so why use function pointer to implement callback. (i.e. why pass reference), when I can do without that.

Also, we can implement qsort, bsearch without function pointer to provide callback in them. So, why do with pointer to function way.

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They both work the same way - they're pointers to functions. Similar to how (in the context of your main) myarray and &myarray both point to the same thing. –  Drew McGowen Jul 19 '13 at 15:10
@DrewMcGowen Almost there. myarray and &myarray don't point to the same thing. –  user529758 Jul 19 '13 at 15:10
So, why people prefer int(*foo)(void) instead of int foo() –  ashish2expert Jul 19 '13 at 15:11
@ashish2expert Because it's 1. more explicit, 2. closer to the truth. –  user529758 Jul 19 '13 at 15:12
"Note that, here I use normal function call." No, it is not a normal function call! It's a function pointer, just using a different syntax. –  dasblinkenlight Jul 19 '13 at 15:13
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1 Answer

up vote 2 down vote accepted
void populate_array(int *array, size_t arraySize,
        int getNextValue(void))  // Note that, here I use normal function call.

This is not a function call: you cannot have function calls inside declarations. getNextValue is a pointer to function that takes no arguments and returns an int declared using a different syntax.

Consider this analogy: you can define a new type for a pointer to int and use it in a declaration of a function

typedef int* intptr_t;
void myFunction(intptr_t ptr) {

or you can say that ptr is a pointer to int inside the declaration:

void myFunction(int* ptr) {

In the same way, you can define the type for your function pointer before using it in a declaration

typedef void generator_t(void);
void populate_array(int *array, size_t arraySize, generator_t getNextValue) {

or you could say that getNextValue is a function pointer using the alternative syntax from your post.

One reason to use a typedef for function pointers is consistency checking when you want to create arrays of function pointers: if your library function uses a function pointer defined inside that function's declaration, you would need to re-create the same declaration in your own code to create an array of pointers that you intend to pass to the library as pointers. This may lead to inconsistencies that would be visible only at the point of invocation of the library function, instead of the point of array declaration, making potential issues somewhat harder to trace.

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So, why do it in a hard way, if we can do like that above –  ashish2expert Jul 19 '13 at 15:17
@ashish2expert Should I repeat myself? "Because it's 1. more explicit, 2. closer to the truth." –  user529758 Jul 19 '13 at 15:20
@ashish2expert Having a pointer type defined outside function declaration makes it easier to pass around pointers intended for consumption inside the target library. –  dasblinkenlight Jul 19 '13 at 15:27
It is not quite true that you cannot have a function call inside a declaration: #include <stdio.h>, void foo(int a[][printf("Hello, world.\n")]) {}, int main(void) { foo(0); return 0; } prints “Hello, world.”. –  Eric Postpischil Jul 19 '13 at 16:26
@EricPostpischil Now that's evil ;-) –  dasblinkenlight Jul 19 '13 at 16:28
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