# Difference between *ptr[10] and (*ptr)[10]

For the following code:

``````    int (*ptr)[10];
int a[10]={99,1,2,3,4,5,6,7,8,9};
ptr=&a;
printf("%d",(*ptr)[1]);
``````

What should it print? I'm expecting the garbage value here but the output is `1`.
(for which I'm concluding that initializing this way pointer array i.e `ptr[10]` would start pointing to elements of `a[10]` in order).

``````int *ptr[10];
int a[10]={0,1,2,3,4,5,6,7,8,9};
*ptr=a;
printf("%d",*ptr[1]);
``````

It is giving the segmentation fault.

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Was it so hard to write "between" and "output" entirely? – Eregrith Dec 17 '12 at 8:45
@Eregrith : I will keep that in mind... – Amit Gupta Dec 17 '12 at 8:48
@GrijeshChauhan:Thanks..!! – Amit Gupta Dec 17 '12 at 9:18

`int *ptr[10];`

This is an array of 10 `int*` pointers, not as you would assume, a pointer to an array of 10 `int`s

`int (*ptr)[10];`

This is a pointer to an array of 10 `int`

It is I believe the same as `int *ptr;` in that both can point to an array, but the given form can ONLY point to an array of 10 `int`s

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``````int (*ptr)[10];
``````

is a pointer to an array of 10 ints.

``````int *ptr[10];
``````

is an array of 10 pointers.

Reason for segfault:

*ptr=a; printf("%d",*ptr[1]);

Here you are assigning the address of array `a` to `ptr` which would point to the element `a[0]`. This is equivalent to: `*ptr=&a[0];`

However, when you print, you access `ptr[1]` which is an uninitialized pointer which is undefined behaviour and thus giving segfault.

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`(int*)[10]` is a pointer to an int array with 10 members. i.e it points to `int a[10]`.

where as `int *[10]` is array of integer pointers

``````#include <stdio.h>
int main()
{

int *ptr[10];
int a[10]={0,1,2,3,4,5,6,7,8,9};

printf("\n%p  %p", ptr[0], a);

*ptr=a; //ptr[0] is assigned with address of array a.

printf("\n%p  %p", ptr[0], a); //gives you same address

printf("\n%d",*ptr[0]); //Prints zero. If *ptr[1] is given then *(ptr + 1) i.e ptr[1] is considered which is uninitialized one.

return 0;
}
``````
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int (*p)[10] means that p is now a pointer to an integer array of size 10.

int *p[10] means that p is an array of 10 integer pointers .

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