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Here's a sample program:

#include <stdio.h>

void foo(int b[]){
    printf("sizeof in foo: %i\n", sizeof b);

int main(){
    int a[4];
    printf("sizeof in main: %i\n", sizeof a);

The output is:

sizeof in main: 16
sizeof in foo: 8

Question is, what's the point of that syntax if it's just converted to a standard pointer at the function boundary?

share|improve this question
You know, you can declare void foo(int b[4]) if you know the size ahead of time. – Kevin May 11 '12 at 15:14
@Kevin That doesn't make any difference, you could still pass an array of length other than 4 to foo. If you want to only allow arrays of length 4 foo must be void foo( int (*b)[4] ) – Praetorian May 11 '12 at 15:20
up vote 12 down vote accepted
  1. It's syntactic sugar: void foo(int b[]) suggests that b is going to be used as an array (rather than a single out-parameter), even though it really is a pointer.

  2. It's a left-over from early versions of C, where postfix [] was the syntax for a pointer declaration.

share|improve this answer
+1 sugar is always good – Mehrdad May 11 '12 at 15:03
@Mehrdad: not necessarily. Syntactic sugar causes cancer of the semicolon. – Fred Foo May 11 '12 at 15:04
@larsmans You're thinking of synthetic syntactic sugar. – San Jacinto May 11 '12 at 15:14
@larsmans My apologies, I was referring to your comment. I was joking. – San Jacinto May 11 '12 at 15:23
@SanJacinto: Didn't catch the joke, my bad :) – Fred Foo May 11 '12 at 15:24

Question is, what's the point of that syntax if it's just converted to a standard pointer at the function boundary?

In this case, because you're passing the array as an argument C has created a pointer to a given address - however, the really interesting case is what happens when you allocate an array on the stack, and only use it there.

When you do this, the compiler then converts load statements for that array not into a pointer plus offset, but direct access to stack base + offset - since why not? It doesn't make sense to store the pointer anyway.

However, when it comes to passing that array around, the compiler passes the address of the base of the array to the function - as a pointer.

In short, [] helps you do pointer arithmetic more nicely. In the case of declaring arrays, it can be optimised away - which is why arrays are not pointers, although they are accessed via pointers in certain circumstances (and not in others).

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