# 2D array and pointer in C - how to access elements?

I have an example involving a pointer to a 2D array. Can someone help me understand what is going on in this example?

``````int main()
{

int i = 0, j=0, sum0=0, sum1=0;
int data[4][3] = { {23,55,50},{45,38,55},{70,43,45},{34,46,60}};
int *Ptr;
Ptr = *data;    //Why is the indirection operator used here?
// Does Ptr = 23 by this assignment?

for (i=0; i<4; i++) {
sum1 = 0;
for (j = 0; j < 3; j++) {
sum1 += data[i][j];
}
if (sum1 > sum0) {
sum0 = sum1;
Ptr = *(data + i);     // Seems like this statement makes Ptr
}                               // point one row below ... what syntax
}                                   // can you use to access columns then?
// Is it possible to use pointer arithmetic
for (i=0; i<3; i++)                 // to access elements of data[i][j] that
printf("%d\n", Ptr[i]);          // are not at j = 0?

return 0;
}
``````
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Is this homework? –  Alexander Jun 24 '12 at 12:30
Yup! I was taking an intro CS course and this was just an example given from my lecture notes. –  shafools Jul 13 '12 at 3:40

`data` is a 2 dimentional array, which has 4 rows and each rows has 3 elements (ie 4 X 3).

Now `Ptr = *data;` means you are storing the starting address of 1st row to the pointer variable `Ptr`. This statement is equivalent to `Ptr = *(data + 0)`. `Ptr = *(data + 1)` - this means we are assigning 2nd row's starting address.

Then `*Ptr` or `*(Ptr + 0)` will gives you the value of first element of the row which is pointing. Similarly `*(Ptr + 1)` will gives you the value of second element of the row.

`for` loop in your program is to identify which row has maximum value of sum of its elements (3 elements). Once the control comes out of that `for` loop, `Ptr` will be pointing the row which has maximum sum of its element and `sum0` will have the value of the sum.

Consider a array `int a[5];`, I hope you know `a[0]` and `0[a]` is same. Because `a[0]` means `*(a+0)` and `0[a]` means `*(0 + a)`. This same logic we can use it in 2 dimensional array also.

`data[i][j]` is similar to `*(*(data + i) + j)`. We can write like `i[data][j]` this also.

For more details please refer the book "understanding pointers in c" by yashwant kanetkar.

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`Ptr = *data;` is short for `*(data+0)+0` which is a pointer for first column element of the first row. the first 0 added with data is the row no., which is indirected and takes us to the first row. `* (data+0)` is still a address and not a value it points to (for 2D array). So, Ptr now points to the address of first column in first row. The second zero is the column no.. So, first row and first column's memory address is chosen. Using indirection (*) again would only now give value that the address holds. like `* (*(data+0)+0)` or `**data`.

Generally, if p is pointer name,i row number and j column number,

1. `(*(p+i)+j)` would give a memory address of a element in 2D array. i is row no. and j is col no.,
2. `*(*(p+i)+j)` would give the value of that element.
3. `*(p+i)` would access the ith row
4. to access columns, add column number to `*(p+i)`. You may have to declare the pointer as `(*p)[columns]` instead of just `*p`. Doing so, you are declaring pointer to an 2D array.

Using pointer arithmetic is treating 2d array like 1D array. Initialize pointer *Ptr to first element (`int *Ptr = *data`) and then add an no. (`Ptr + n`) to access the columns. Adding a number higher than column number would simply continue counting the elements from first column of next row, if that exists.

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`data` is an array of 3-element arrays of integers. In contexts that expect a "pointer to foo", you can use an "array of foo" and it will behave like a pointer to its first element, so `*data` is a pointer to the first element of `data`, namely (so to speak) `{23,55,50}`.

So, the answer to the first question in the comments: No, it isn't true that `Ptr = 23`. (It couldn't be; `Ptr` is an `int *` and 23 is an `int`.)

You are correct that `Ptr = *(data+i)` makes `Ptr` point to the `i`th row of `data`. More precisely, `data` is an array of 3-element arrays of int, which behaves like a pointer to 3-element arrays of int; adding `i` to it moves past `i` such arrays.

The usual way to access other columns of the array is ordinary array indexing. If you refer to `data[i][j]`, you're getting column `j` of row `i`. If you want to do it with explicit pointer arithmetic, then note that (e.g.) `Ptr` in the example code is of type "pointer to integer", so `Ptr+1` (for instance) is element 1 of whatever row `Ptr` is pointing to. (But, as a matter of style, you should generally not do explicit pointer arithmetic when you don't actually need to.)

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In your example the loop goes through all matrix rows to find the one whose sum of all elements holds the maximum value.

At the beginning a pointer to the first row is assigned:

``````Ptr = *data;
``````

Which means that the following is true:

``````(Ptr[0] == 23 && Ptr[1] == 55 && Ptr[2] == 50)
``````

Notice that Ptr is a pointer so it holds a memory address, hence Ptr is different than 23 (unless the memory address happens to be 23, which is unlikely to happen).

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