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The foo function below finds the first occurrence of the given number and returns it's index. If the number wasn't found it returns the size of the array(n):

‪int foo(int arr[10], int num, int n)‬
‫;‪   int *p‬‬
‪   for (p=arr;(*p!=num) && (p<arr+n);++p);‬‬
   ‫;‪return p-arr‬‬

My question is: is the parameter int arr[10] the same as writing int * arr or int arr[] for that matter? because when i pass an int array of size 100 i can iterate through it and i'm not capped to only 10 elements.

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There's a lot of valuable information in this. Many of the points are just as valid for C. – chris Jan 31 '13 at 12:02 – hmjd Jan 31 '13 at 12:02
foo() return type is int whereas you are returning int * – manav m-n Jan 31 '13 at 12:08
@Manav pointer subtraction of the same array returns a number – Tom Jan 31 '13 at 12:40
int arr[10] is the same as int arr[] here; int *arr is different, in that the former are arrays (aproximately a fixed pointer to its start), while the later is a plain pointer (can be changed at will). – vonbrand Feb 1 '13 at 1:32

5 Answers 5

up vote 2 down vote accepted

My question is: is the parameter int arr[10] the same as writing int *arr or int arr[] for that matter?

Yes, as long as it's part of the declaration of a function argument list and the array is one-dimensional.

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Why would the number of dimensions matter, as long as a true multi-dimensional array is passed, with all memory cells allocated adjacently? – Lundin Jan 31 '13 at 12:15
@Lundin, because then the other dimensions would be reflected in the type and the compiler would be able to do the index calculations correctly. – Jens Gustedt Jan 31 '13 at 12:23
@JensGustedt What do you mean "index calculation"? Are you saying that I would get a compiler error if I tried to pass a plain pointer to a function expecting an array pointer to a multi-dim. array? – Lundin Jan 31 '13 at 12:26
@Lundin No, pointer arithmetic. int arr[2][] is not the same as int arr[3][] when calculating *arr + 1. – user529758 Jan 31 '13 at 13:13
@Lundin, index calculations means that inside the function something like arr[i][j] would just compute the element of the 2D array that everybody expects it to be. No opaque handcrafted index calculations but a compiler that knows what it is doing. That is what multi-dimensional arrays are made for. – Jens Gustedt Jan 31 '13 at 13:27

Yes, int arr[10], int arr[], and int *arr in a function argument list all mean exactly the same thing.

In C99 you have a new option: int arr[static 10]. This means you must pass to the function an address pointing to at least 10 elements (under penalty of Undefined Behaviour).

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Why would you expect your code to be "capped"? What would happen?

C doesn't have "safe" array indexing, it will just index where you tell it. It's up to you to not step out of bounds.

In my opinion, it's always best to pass the size explicitly, as you've done since that makes the function more general, and avoids confusion about array/pointer issues.

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if you do *arr , you are basically passing a pointer to the first element of the array.

Since the behavior of pointers can be used as a complement of the use of array, there is no problem at all.

when you do something like arr[1], the pointer arr to the first element automatically gets incremented by one and points to the address of the second element in the array.

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You can iterate, but over a region of your memory you should not the clean way to do it is,

int foo(int *arr, int num, int n)‬
    int i;
 ‪   for (i=0;arr[i]!=num && i<n; i++);‬‬
    ‫;‪return i‬‬

Besides, since you do p=arr and then use p, it really does not matter the way you define arr

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christopher, you threw away my edits :/ – jpmuc Jan 31 '13 at 12:08
Note that i is already dead when you do return i;. – Blue Moon Jan 31 '13 at 12:29
thanks! fixed it – jpmuc Jan 31 '13 at 13:43

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