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

    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:


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:


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)arr (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.

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Here arr and arr+1 are adjacent locations No..arr and arr + 1 are adjacent rows address. 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
you are right .. i did not saw the results correcly and misinterpreted it. arr and arr+1 are not adjacent and arr= *arr = *(arr+0) and arr+1 = *(arr+1) in this case –  mrigendra Oct 3 '13 at 11:50
Read: What does sizeof(&array) return? I explained for one dimensional array. and in that answer given link for two dimensional array. –  Grijesh Chauhan Oct 3 '13 at 11:54
@mrigendra: you should also consider the data type. 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

6 Answers 6

Because arr is a two dimensional array.

*(*(arr+1)+2)) is equivalent to arr[1][2].

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what address arr+1 contain? –  mrigendra Oct 3 '13 at 11:13
@mrigendra In pointer arithmetic, +1 will add to the address the length of one element. In the case of arr, its element is an array of 4 char. So arr+1 is the start of the second array. –  Yu Hao Oct 3 '13 at 11:16
when does the compiler know that the syntax actually tries to print the value of the next array element? as when it gets to print arr+1 it prints just next address of the oth element, but when it gets to print *(*(arr+1)+2) it understands that its the next element.. getting me? –  mrigendra Oct 3 '13 at 11:27
@mrigendra The compiler knows from the type of arr, which is int arr[2][4]. So the compiler knows that it's a two dimensional array and the size of each dimensional. –  Yu Hao Oct 3 '13 at 11:33
printf("%d",*(*(arr+1)+2) );

break this it into two statements

*(arr+1) means arr[1]

like this

*(arr[1] + 2) means arr[1][2]
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char arr[2][4] = {1,2,3,4,5,6,7,8};  


char arr[2][4] = { 
                     {1,2,3,4},   // row 0
                     {5,6,7,8}    // row 1

Passing the array name arr to printf means it decays to pointer to the first element (row 0) of the array arr[2] and is of type int (*)[4] (thought 2D array as 1D array of 2 elements which are array of 4 elements each).

I have thought that to go to the second array it should be &arr+1.

arr + 1 points to the second element (row 1) of the array arr[2] (and not the second element of row 1 of array arr[2][4]). By doing arr + 1, you are not adding just 1 to the pointer arr (after decay) but you are adding total number of bytes needed to store the elements in a row.
Let's understand this by a simple example: Consider arr refernce to the address 100 and size of int is 4. Then arr + 1 means your doing 100 + (4-1)*4 = 112.
Hence dereferencing (arr + 1) will give entire row 1 while dereferencing (*(arr+1)+2) will give the 3rd element of row 1, i.e, 7.
And also, %u is used for unsigned integer. To print address (pointer value) use %p specifier in your first printf statement.

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with %p, address should typecast to void* else undefined behavior ( %u even wrong also.) –  Grijesh Chauhan Oct 3 '13 at 11:36
@GrijeshChauhan; Without %p it will give you some other value. –  haccks Oct 3 '13 at 11:38

arr+1 and &arr+1 in this context are exactly the same thing, because arr is an array which implicitly degrades to a pointer, or have its address taken explicitly, which amounts to the same thing.

Adding 1 to the array goes to its second element, as you know. And arr is an array of arrays, so its second element is the second sub-array.

If you want the second element of the first sub-array, try arr[0]+1, which is equivalent to &arr[0][1].

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i did try to print it like this if *(*(&arr+1)+2) but its some garbage value. –  mrigendra Oct 3 '13 at 11:21

array you using is character so each field take 1 byte. arr and arr+1 will not be in adjacent location.

I think when you checking output of arr and arr+1 difference is 4 so you keep the integer in mind and telling it was in adjacent location.

&arr[0] = address of 1st element of 1st row

&arr[1] = address of 1st element of 2nd row

change your datatype from char to int you will understand more.

Check the output of below program.

int main()
 char arr[2][4] = { 1,2,3,4,
                    5,6,7,8 };

 printf("%u\n", &arr[0][0]);
 printf("%u\n", &arr[0][4]);

 printf("%u\n", &arr[1][0]);
 printf("%u\n", &arr[1][4]);

 printf("%d\n",*(*(arr+1)+2) ); // equal to arr[1][2]
 printf("%d\n", *(arr[1] + 2) );
 printf("%d\n", arr[1][2]);

 return 0;

output :


above program will give some warning, replace %u with %p.

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When accessing char arr[ROW_COUNT][COLUMN_COUNT], arr[row][col] is equivalent to address_of_arr[col + (row * ROW_COUNT)]. Once you've wrapped your head around that it will all make a lot more sense.

arr and arr+1 should not be adjacent, there should be a difference of 4 bytes. Exactly what result are you seeing?

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