Here is my sample code
#include<stdio.h>
void main()
{
int arr[]={1,2,3,4,5,6};
char *ptr,a;
a='c';
ptr=&a;
int *ptr1,a1;
a1=4;
ptr1=&a1;
printf("%d %d %d",sizeof(arr), sizeof(ptr1), sizeof(ptr));
}
Now, as far as I understand, size of will tell me the size required to store the variable, now the output for this one is
24 4 4
Why is the size of arr=24, after all it's just a pointer and it should be having size =4 ?
Thanks.
"...after all it's just a pointer..."? No. Array is not a pointer. Array is an array object: a solid continuous block of memory that stores the array elements, no pointers of any kind involved. In your case array has 6 elements of size 4 each. That is why your sizeof evaluates to 24.
The common misconception about arrays being pointers has been debunked millions of times, but somehow it continues to pop up now and then. Read the FAQ, come back if you have any questions about it
http://c-faq.com/aryptr/index.html
P.S. As @Joachim Pileborg correctly noted in his answer, sizeof is not a function. It is an operator.
Another context in which arrays behave differently from pointers is the unary & operator (the "address of" operator). When unary & is applied to a pointer of type int * is produces a pointer of type int **. When unary & is applied to an array of type int [10] is produces a pointer of type int (*)[10]. These are two very different types.
int *p = 0;
int a[10] = { 0 };
int **p1 = &p; /* OK */
int **p2 = &a; /* ERROR */
int (*p3)[10] = &a; /* OK */
It is another popular source of questions (and errors): sometimes people expect & to produce a int ** pointer when applied to an int [10] array.
& operator, sizeof operator and initialization of char[] array by a string literal. In all other contexts they get automatically converted to pointers.
Dec 2, 2012 at 18:17
& operator, what exactly do you mean, can you give an example to demonstrate. Maybe add it to the question itself, before I accept the answer.
a is of size 24; if I do a+1 and find value at that, why is it a[1] and not a[7](i.e. out of bound). Since a pointer jumps as much bytes as is the sizeof of the pointer.?
a + 1 is not one of those contexts, which means that your a gets converted to int * and you get (int *) a + 1. This, expectedly, jumps forward by size of int. But if you do &a + 1, you get an int (*)[6] pointer from &a. This time the pointed type is int[6], i.e. it is a pointer to the entire array. This pointer will jump forward by the entire array size (24 bytes) every time you add 1 to it.
Dec 2, 2012 at 18:38
When you have an array, sizeof returns the size of the array (note that it's the size in bytes of the array, not the number of items in the array), otherwise it returns the size of the type or expression.
However, if you pass the array to a function, the array degrades to a pointer and the size information is lost.
Also, technically speaking sizeof is not a function, it's a special keyword in the language, and can be used without parentheses as well when used with expressions.
Arrays don't decay into pointers inside sizeof; sizeof(arr) returns the total size allocated for the array which, in this case, is 6 * sizeof(int).
size_t numElements = sizeof(arr)/sizeof(arr[0]); for computing the number of elements in the array arr. This won't work if you've passed arr into a function in which it's "only" a pointer.
Dec 2, 2012 at 18:52
From Wikipedia
When sizeof is applied to the name of an array, the result is the size in bytes of the whole array. (This is one of the few exceptions to the rule that the name of an array is converted to a pointer to the first element of the array.)
the sizeof() operator does not give you the number of elements in an array, it gives you the number of bytes a thing occupies in memory. Hence:
#include <stdio.h>
int main()
{
char s[] = { 1, 2, 3, 4, 5, 0 };
int xs[] = { 1, 2, 3, 4, 5, 0 };
printf( "sizeof( s ) = %d\n", sizeof( s ) );
printf( "sizeof( xs ) = %d\n", sizeof( xs ) );
return 0;
}
sizeof( s ) = 6
sizeof( xs ) = 24
