I am studying the basics in C and I am confused about the strings and arrays.

```
#include<stdio.h>
int main()
{
char arr[2][4] = {1,2,3,4,5,6,7,8};
printf("%u %u\n",arr,arr+1);
printf("%d",*(*(arr+1)+2) );
return 0;
}
```

Here `arr`

and `arr+1`

are adjacent locations, but in the second `printf`

`arr+1`

goes straight to the zero index element of the second array. How is this legal? I have thought that to go to the second array it should be `&arr+1`

.

What i learned is --> for one dimensional array:

```
arr[7]={1,2,3,4,5,6,7};
```

here arr and &arr should not be considered same(although they print same value, but the sense of this information is completely different) . Thats why arr+1 and &arr+1 will not be same too. &arr gives the address of a data type that is a container of 7 integers thats why &arr+1 goes to the subsequent array type that is also a container of 7 integers . so

```
arr = 5796 , &arr = 5796 (both are base address but arr is the address of
1st element while &arr is the address of the whole array)
arr+1 = 5800 ,&arr+1 = (5796+(7X4))=5797+28 = 5825(this is address of some
new array)
```

for two dimensional array the concept is same:

```
arr[2][4]={1,2,3,4,5,6,7,8};
```

now `arr`

is here is also a pointer that points to array individual elements so `arr`

and `arr+1`

are the addresses of its successive elements (and those elements are `{1,2,3,4}`

and `{5,6,7,8}`

)_
and in the same way `&arr`

and `&arr+1`

gives the base addresses of two arrays that have 2x4=8 elements so to `&arr`

and `&arr+1`

are addresses of two similar sized arrays one after another.
So

```
arr = 5796 , arr+1 = 5796+(4*3)=5796+12 = 5808
&arr = 5796 , &arr+1 = 5796+(4*7)=5796+ 28= 5824
```

Now we can see in 2 dimensional array to reach an individual element there are two addresses associated.

1)`ar`

r (that gives which element to choose between the two inside arrays)

2)`*arr`

(that gives which element in that particular element(array)

so we need to dereference two times if we want to reach to the data.

```
arr=5796(first array), *arr=5796(first element address), **arr = 1 (1st element)
arr+1=5812(second array), *(arr+1) = 5812(first element address), *(*(arr+1))=5(first element)
arr=5796,*arr=5796, *arr+1=5796+1(second element), *(*arr+1)=2 (second element)
```

now the syntax for arrays:

```
*arr = arr[0]
**arr = arr[0][0]
*arr+1 = arr[0]+1
**arr+1 = arr[0][0]+1
*(*arr+1) = *(arr[0]+1) = arr[0][1]
*(*(arr+1)+1) = *(arr[1]+1) = arr[1][1]
```

there are some other ways to write arrays

```
3[arr[1]] = arr[1][3]
-3[arr[1]] = -arr[1][3]
*(1[arr]+2) = *(arr[1]+2) = arr[1][2]
```

the concept can be expanded to 3 dimensional array too , but this is the minimum every beginner should understand.Correct me if I am wrong anywhere conceptually or syntactically.

`A[0]`

,`&A`

, and`*A`

? – Grijesh Chauhan Oct 3 '13 at 11:31No..`Here arr and arr+1 are adjacent locations`

`arr`

and`arr + 1`

are adjacentrowsaddress. Note`arr`

is not decays into address of int, not`&arr[0][0]`

, but address of complete row. – Grijesh Chauhan Oct 3 '13 at 11:43`arr`

is`char[2][4]`

, whilst`&arr`

is`char (*)[2][4]`

. Now they will both point to the same address but their types during compilation are very different ... also see stackoverflow.com/a/3925968/1117740 – Keldon Alleyne Oct 3 '13 at 18:06