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when I need to pass an array to a function, it seems all the following declarations of the function will work

void f(int arr[])  
void f(int arr[4]) // is this one correct?

for this:

int a[]={1,2,3,4};
f(a);

But when I assign an array to another array, it fails

int a[]={1,2,3,4};
int b[4] = a; // error: array must be initialized with a brace-enclosed initializer

So why an array passed as an argument of a function is okay, but used on the rhs of simple assignment is wrong?

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3  
The question's title needs to be rewritten, current one is excessively generic and lowercase. –  Mark Rogers Jan 10 '10 at 4:34

6 Answers 6

up vote 12 down vote accepted

For understanding the difference, we need to understand two different contexts.

  • In value contexts, the name of an array of type T is equivalent to a pointer to type T, and is equal to a pointer to the array's first element.
  • In object contexts, the name of an array of type T does not reduce to a pointer.

What is object context?

In a = b;, a is in object context. When you taken the address of a variable, it's used in object context. Finally, when you use sizeof operator on a variable, it's used in object context. In all other cases, a variable is used in value context.

Now that we have this knowledge, when we do:

void f(int arr[4]);

It is exactly equivalent to

void f(int *arr);

As you found out, we can omit the size (4 above) from the function declaration. This means that you can't know the size of the "array" passed to f(). Later, when you do:

int a[]={1,2,3,4};
f(a);

In the function call, the name a is in value context, so it reduces to a pointer to int. This is good, because f expects a pointer to an int, so the function definition and use match. What is passed to f() is the pointer to the first element of a (&a[0]).

In the case of

int a[]={1,2,3,4};
int b[4] = a;

The name b is used in a object context, and does not reduce to a pointer. (Incidentally, a here is in a value context, and reduces to a pointer.)

Now, int b[4]; assigns storage worth of 4 ints and gives the name b to it. a was also assigned similar storage. So, in effect, the above assignment means, "I want to make the storage location the same as the previous location". This doesn't make sense.

If you want to copy the contents of a into b, then you could do:

#include <string.h>
int b[4];
memcpy(b, a, sizeof b);

Or, if you wanted a pointer b that pointed to a:

int *b = a;

Here, a is in value context, and reduces to a pointer to int, so we can assign a to an int *.

Finally, when initializing an array, you can assign to it explicit values:

int a[] = {1, 2, 3, 4};

Here, a has 4 elements, initialized to 1, 2, 3, and 4. You could also do:

int a[4] = {1, 2, 3, 4};

If there are fewer elements in the list than the number of elements in the array, then the rest of the values are taken to be 0:

int a[4] = {1, 2};

sets a[2] and a[3] to 0.

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Very well written. –  benzado Jan 9 '10 at 23:35
    
Can you provide a reference on where you read about object and value contexts? I'm interested in reading more. –  John Humphreys - w00te Dec 23 '11 at 13:57
    
I've never heard of "object context" vs "value context". –  Lightning Racis in Obrit Dec 23 '11 at 14:02
    
@w00te, torek.net/torek/c/expr.html#therule is where I first read about object and value contexts. –  Alok Singhal Dec 24 '11 at 17:58
    
An "object context" is basically "an expression which expects an rvalue" and "value context" is "an expression which expect an lvalue", formally speaking. All function calls in C take their parameters as rvalues (= "by-value") and return an rvalue, and the operators vary. I.e. op= needs lvalue LHS and rvalue RHS, 1-arg op* takes rvalue and returns lvalue, 2-arg op+ and op- take and return rvalues, etc. –  Kos Dec 25 '11 at 16:19
void f(int arr[]);
void f(int arr[4]);

The syntax is misleading. They are both the same as this:

void f(int *arr);

i.e., you are passing a pointer to the start of the array. You are not copying the array.

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3  
Yes, however (in C99) void f(int arr[static 4]) { ... } is special because this allows the compiler to assume that arr is non-NULL and has size at least 4. –  Jed Jan 9 '10 at 21:55

C does not support the assignment of arrays. In the case of a function call, the array decays to a pointer. C does support the assignment of pointers. This is asked here just about every day - what C text book are you guys reading that doesn't explain this?

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Try memcpy.

int a[]={1,2,3,4};
int b[4];
memcpy(b, a, sizeof(b));

Thanks for pointing that out, Steve, it's been a while since I used C.

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1  
memcpy(b, a, 4*sizeof(int). Or sizeof(b). –  Steve Jessop Jan 9 '10 at 22:31

To get your intuition about it, you must understand what's going on on machine level.

The initialization semantics (= {1,2,3,4}) means "put it on your binary image exactly this way" so this can be compiled.

Array assignment would be different: the compiler would have to translate it into a loop, which would actually iterate over elements. C compiler (or C++, for that matter) never does such a thing. It rightfully expects you to do it yourself. Why? Because you can. So, it should be a subroutine, written in C (memcpy). This is all about simplicity and closeness to your weapon, which is C and C++ all about.

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Note that the type of a in int a[4] is int [4].

But TypeOf(&a) == int (*)[4] != int [4].

Also note that the type of the value of a is int *, which is distinct from all of the above!

Here's a sample program you can try:

int main() {
  // All of these are different, incompatible types!      
  printf("%d\n", sizeof (int[4]));  // 16
  // These two may be the same size, but are *not* interchangeable!
  printf("%d\n", sizeof (int (*)[4]));  // 4
  printf("%d\n", sizeof (int *));  // 4
}
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You should use "%zu" to print size_t (in C99). –  Jens Apr 17 '11 at 7:43

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