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I thought when you try to get the address of an array, it returns the address of the first element it holds.

int *j;
int a[5]={1,5,4,7,8};

Now j=&a[0]; works perfectly fine.

Even j=a also does the same function.

But when I do j=&a it throws an error saying cannot convertint (*)[5]' to int*' in assignment

Why does it happen? &a should be the first element of the array a, so it should give &a[0]. But instead it throws an error. Can somebody explain why?

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up vote 0 down vote accepted

The type of a and &a is not the same even though they contain the same value, i.e., base address of the array a.

j = a;

The array name a here gets converted to a pointer to its first element.

Try to see what values you get via these statements to understand where the difference lies:

printf("%p", a+1);
printf("%p", &a+1);
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but &a and &a[0] are of the same type, aren't they? – Siddharth Mar 12 '14 at 5:08
Basically, the type of &a[0] is int*, but the type of &a is int(*)[5]. It is like a pointer to one single huge object of five int's. Hence impossible conversion. – elephant Mar 12 '14 at 5:08
So is there any way i could extract the value of first address of num without using &num[0] or num? – Siddharth Mar 12 '14 at 5:10
@user3387006 - No - the base address is stored in the array name and that is your best bet. – Sadiq Mar 12 '14 at 5:11
@al-Khwārizmī: I typed your code. I guess on incrementing &a, it points to the immediate next memory location after the entire array. Nice example. Thanks. – Siddharth Mar 12 '14 at 5:18

The C standard says the following regarding how arrays are used in expressions (taken from C99 "Lvalues, array, and function designators):

Except when it is the operand of the sizeof operator or the unary & operator, or is a string literal used to initialize an array, an expression that has type ‘‘array of type’’ is converted to an expression with type ‘‘pointer to type’’ that points to the initial element of the array object

This is commonly known as "arrays decay to pointers".

So the sub-expression a in the following larger expressions evaluates to a pointer to int:

  • j=&a[0]
  • j=a

In the simpler expression, j=a, that pointer is simply assigned to j.

In the more complex expression, j=&a[0], the 'index' operator [] is applied to the pointer (which is an operation equivalent to *(a + 0)) and the 'address-of' operator is applied to that, resulting in another pointer to int that gets assigned to j.

In the expression j=&a, the address-of operator is applied directly to the array name, and we hit one of the exceptions in the above quoted clause: "Except when it is the operand of ... the unary & operator".

Now when we look at what the standard says about the unary & (address-of) operator (C99 "Address and indirection operators"):

The unary & operator returns the address of its operand. If the operand has type "type", the result has type "pointer to type".

Since a has type "array of 5 int" (int [5]), the result of applying & to it directly has type "pointer to array of 5 int" (int (*)[5]), which is not assignable to int*.

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Nice explanation. I want to point out an interesting case when arrays are used in function parameter list. Actually, a function cannot have an array of type parameter so it gets converted to pointer to type parameter. int func(int a[]); is exactly the same as int func(int *a); What happens internally for the former function declaration? – ajay Mar 12 '14 at 8:10

c is a strongly typed language. Assignment such as j=a; is allowed only if j and a are of the same type or the compiler can safely convert a to j. In your case, type of j is int * while the type of &a is int (*)[5]. The compiler does not know how to automatically convert an object of type int (*)[5] to an object of type int *. The compiler is telling you exactly that.

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a is an array of 5 ints. The pointer to a is a pointer to an array of five integers, or int (*)[5]. This is not compatible with an int * because of pointer arithmetic: If you increment a variable of type int *, the address in the variable increases by 4 (assuming 4 byte integers), so that it points to the next integer. If you increment a variable that points to an array of 5 integers, the address in the variable increases by 20 (again assuming 4 byte integers), so that it points to the next array of five integers.

Perhaps what's confusing is that the value give by a and &a is the same, as you said. The value is the same but the type is different, and the difference is most obvious when you do arithmetic on the pointers.

I hope that helps.

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