# Two Dimensional Array Implementation Using Double Pointer

#include <stdio.h>
#include <stdlib.h>

#define NUM_ARRAYS     4
#define NUM_ELEMENTS   4
#define INVALID_VAL   -1

int main()
{
int index            = INVALID_VAL;
int array_index      = INVALID_VAL;
int **ptr            = NULL;

ptr = malloc(sizeof(int*)*NUM_ARRAYS);

if (!ptr)
{
printf ("\nMemory Allocation Failure !\n\n");
exit (EXIT_FAILURE);
}

for (index=0; index<NUM_ARRAYS; index++)
{
*(ptr+index) = malloc(sizeof(int)*NUM_ELEMENTS);

if (!*(ptr+index))
{
printf ("\nMemory Allocation Failure !\n");
exit (EXIT_FAILURE);
}
}

/* Fill Elements Into This 2-D Array */
for (index=0; index<NUM_ARRAYS; index++)
{
for (array_index = 0; array_index<NUM_ELEMENTS; array_index++)
{
*(*(ptr+index)+array_index) = (array_index+1)*(index+1);
}
}

/* Print Array Elements */
for (index = 0; index<NUM_ARRAYS; index++)
{
printf ("\nArray %d Elements:\n", index);
for (array_index = 0; array_index<NUM_ELEMENTS; array_index++)
{
printf (" %d ", *(*(ptr+index)+array_index));
}
printf ("\n\n");
}

return 0;
}


There is no problem with my code. It works fine.

Output:

Array 0 Elements:
1  2  3  4

Array 1 Elements:
2  4  6  8

Array 2 Elements:
3  6  9  12

Array 3 Elements:
4  8  12  16


I have a question about pointer arithmetic:

*(ptr+0) = Pointer to COMPLETE BLOCK (First Array)
*(ptr+1) = Pointer to COMPLETE BLOCK (Second Array).

But what is: (*ptr+1)?

GDB Output:

(gdb) p *(*ptr+1)
$1 = 2 (gdb) p *(*ptr+2)$2 = 3
(gdb) p *(*ptr+3)
$3 = 4 (gdb) p *(*ptr+4)$4 = 0


I am getting confused on this. Please provide me some explanation to resolve this doubt.

-
I don't see (*ptr+1) in this code. –  Kiril Kirov Dec 20 '12 at 14:14
No, Its NOT there. This is my Conceptual Doubt after writing this Code –  Sandeep Singh Dec 20 '12 at 14:30

*(ptr+i) is equals to ptr[i] and *(ptr+1) is ptr[1].

You can think, a 2-D array as array of array.

• ptr points to complete 2-D array, so ptr+1 points to next 2-D array.

In figure below ptr is 2-D and number of columns are 3

Original figure made by Mr. Kerrek SB, here , you should also check!

+===============================+==============================+====
|+---------+----------+--------+|+----------+---------+--------+|
||ptr[0,0] | ptr[0,1] | ptr[0,2]|||ptr[1,0] |ptr[1,1] | ptr[1,2]|| ...
|+---------+----------+--------+++----------+---------+--------++ ...
|            ptr[0]             |           ptr[1]              |
+===============================+===============================+====
ptr


*(*ptr+1) = *( ptr[0] + 1 ) = ptr[0][1]

Understand following:

ptr points to complete 2-D.

*ptr = *(ptr + 0) = ptr[0] that is first row.

*ptr + 1 = ptr[1] means second row

*(*ptr+1) = *(*(ptr + 0) + 1 ) = *(ptr[0] + 1) = ptr[0][1]

Array 0 Elements:
1  2  3  4


And GDB Output:

(gdb) p *(*ptr+1)
\$1 = 2


that is correct 2 this can be read using ptr[0][1].

-
I have no problem in understanding of *(ptr+1). In fact, I have written the above code myself. My problem is {*(ptr)+1} –  Sandeep Singh Dec 20 '12 at 14:24
Thanks Grijesh. But gdb shows a different output. I am updating my Question to include GDB O/P for *(*ptr+1). –  Sandeep Singh Dec 20 '12 at 14:33
No. it is still not clear to me. I also expected that (*ptr)+1 may go to SECOND Array Block, but it is going to SECOND Element of FIRST Array (Added GDB Output in the Question above.) –  Sandeep Singh Dec 20 '12 at 14:36
@SandeepSingh : please check know it I hope now understood to you. –  Grijesh Chauhan Dec 20 '12 at 14:48
@SandeepSingh what is status now –  Grijesh Chauhan Dec 20 '12 at 15:02
                               (*ptr)   (*ptr+1)     (*ptr+2)
|         |            |
__________      ____v___ _____v_____ ______v____ __________
ptr------>|   *ptr   |--->|*(*ptr) |*(*ptr+1)  |*(*ptr+2)  |          |
|__________|    |________|___________|___________|__________|
(ptr+1)--->| *(ptr+1) |     ____________ _____________ __________
|__________|--->|*(*(ptr+1)) |*(*(ptr+1)+1)|          |
|          |    |____________|_____________|__________|
|__________|          ^             ^
|             |
*(ptr+1)     *(ptr+1)+1


2D array with double pointers that means that you have a main array and the elements of the main array are pointers (or addresses) to a sub arrays. As indicated in above figure

so if you have defined a double pointer as a pointer of this 2D array let's say int **ptr

so ptr is ponting to the main array which will contains pointers to sub arrays. ptr is ponting to the main array that's means ptr is pointing to the first element of the main array so ptr + 1 is pointing to the second element of the main array.

*ptr this means the content of the first element which the ptr is pointing on. And it is a pointer to a subarray. so *ptr is a pointer to the first subarray (the subarray is an array of int). so *ptr is pointing to the first element in the first subarray. so *ptr + 1 is a pointer to the second element in the first subarray

-
+1 to your answer, your firgure is much clear then my. Kallel how to draw this fig. ? do you use any tool? –  Grijesh Chauhan Dec 20 '12 at 17:14
I drow it manually, No tool –  MOHAMED Dec 21 '12 at 8:56
MohamedKALLEL nice!! –  Grijesh Chauhan Dec 21 '12 at 9:08

Unless you mistypes, (*ptr + 1) is equivalent to *(ptr + 0) + 1 which is a pointer to the second element in the first block.

-
No, I have NOT mistyped. I had confusion over {(*ptr)+1}. Your interpretation is correct (verified by GDB). But as per my understanding, *ptr = Pointer to First ARRAY BLOCK, NOT to any individual element. Then, (*ptr+1) may have gone to the beginning of second array. Please clear this doubt. –  Sandeep Singh Dec 20 '12 at 14:30

Simplest way for creating 2-dimensinal array using pointer,assigning values and accessing elements from the array.

#include<stdio.h>
#include<stdlib.h>

int main()
{
int i,j;
int row,col;
printf("Enter the values for row and col:\n");
scanf("%d%d",&row,&col);
int **arr=(int**)malloc(row*(sizeof(int*)));
for(i=0;i<row;i++)
{
*(arr+i)=(int*)malloc(sizeof(int)*col);
//You can use this also. Meaning of both is same.
//arr[i]=(int*)malloc(sizeof(int)*col);
}
for(i=0;i<row;i++)
for(j=0;j<col;j++)
{
arr[i][j]=0;
}
for(i=0;i<row;i++)
{
for(j=0;j<col;j++)
{
printf("%d ",arr[i][j]);
}
printf("\n");
}
}

-