# Incrementing a Pointer to an Array within a structure

I'm having a bit of trouble doing this and have searched High and low on the internet for help, but to no avail. I'm basically trying to create a random matrix and print it out, I have a function `double random()` which works and has been tested and I have defined a structure as follows:

``````    typedef struct matrep {
unsigned rows, columns;
double *data;
} MATRIX;
``````

for which I have allocated memory properly, I use this and my random function to create a random matrix but what happens is the pointer never moves,

``````MATRIX *rand_matrix( MATRIX *mat )
{
for ( int i=0; i < mat->rows; i++ )
{
for ( int j=0; j < mat->columns; j++ )
{
*(mat->data) = random() ;
}
}
return mat ;
}
``````

I know it never moves because when I print out the matrix using this function

``````void print_matrix(MATRIX *mat )
{
int i, j ;
if ( (mat->data)==0 || (mat->rows)==0 || (mat->columns)==0 )
{
printf("Empty matrix\n" );
return ;
}
printf( "\n\nMatrix of dimensions %d x %d\n\n", mat->rows, mat->columns) ;
for ( i=0; i < mat->rows; i++ )
{
for ( j=0; j < mat->columns; j++ )
{
printf("\t%1.2lf", *(mat->data) );
}
printf("\n") ;
}
}
``````

and exchange random in the matrix above with 'j' it ends up printing out a matrix with the correct number of rows and collumns but each value is equal to the biggest value of j.

Basically what I was hoping you could help me with is figuring out how to increment my `*(mat->data)` pointer. I heard something about when you call the arrow operator it increments automatically but it doesnt seem to be working and when i try `*(mat->data)++` I get a nice big error.

Any help would be great thanks a million.

-
It doesn't increment automatically. –  sth Jan 3 '12 at 16:28

You don't actually want to change `mat->data`; you need it to continue to point at your properly-allocated memory. Instead, you need to change this:

``````         *(mat->data) = random() ;
``````

to something like this:

``````         mat->data[i * mat->columns + j] = random() ;
``````

(to refer to the `i * mat->columns + j`th `double` in the memory-block pointed to by `mat->data`), and this:

``````      printf("\t%1.2lf", *(mat->data) );
``````

to something like this:

``````      printf("\t%1.2lf", mat->data[i * mat->columns + j]);
``````

(similarly).

I heard something about when you call the arrow operator it increments automatically […]

This is not true, and I can't even think of anything similar that you might have heard, sorry.

Edited to add: Another approach, if you prefer, is to write something like this:

``````MATRIX *rand_matrix( MATRIX *mat )
{
double *pTmp = mat->data;
for ( int i=0; i < mat->rows; i++ )
{
for ( int j=0; j < mat->columns; j++ )
{
*(pTmp++) = random() ;
}
}
return mat ;
}
``````

which increments a pointer `pTmp` over all the elements. I don't know which approach is more clear. But either way, I don't think it's a good idea to modify `mat->data`.

-
Maybe he's thinking of the `-->` "goes to" operator. –  Dave Jan 3 '12 at 16:35
Thanks very much, I tried the second way pTmp and it worked like a charm, I agree messing with mat->data probably wasn't helping but I'm wondering why adding an extra pointer into the mix makes a difference, surely its just pointing to the same place as before? Sorry if thats a stupid question but I really struggle with pointers –  Leavenotrace Jan 7 '12 at 15:06
@Leavenotrace: Not a stupid question at all. The extra pointer makes a difference because it's safe to increment it. `pTmp` starts out just pointing to the same place as `mat->data`, but the `pTmp++` part moves it forward one space. (That's a "post-increment"; the statement `*(pTmp++) = random()` is equivalent to the statement `*pTmp = random()` followed by the statement `pTmp++`.) –  ruakh Jan 7 '12 at 15:19

You should do mat->data++. (mat->data)++ is evaluating the value of mat->data and trying to increment it which is not possible.

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even if I change the line *(mat->data) = random() to *(mat->data++) = random() I still end up with a matrix with every number the same only now they are all zeros –  Leavenotrace Jan 3 '12 at 16:30
Don't try `*(mat->data)`, just increment the pointer by doing `mat->data++` –  user1123450 Jan 3 '12 at 16:40

Here: `printf("\t%1.2lf", *(mat->data) );' you're always pointing at the same memory.

You can use the `[]` operator to index and dereference a pointer, for example:

`(mat->data)[2]`

-

Basically for storing a matrix using array, you need to allocate memory which closely mimics the 2D matrix, i.e. each and every matrix (or array) element should be accessed uniquely using different value for `rows` into `columns`.

You can do that in `C` in many ways. But the following is one of the most common way of doing the same. This lacks the de-allocation i.e. `free()`. Please try and do that yourself and we are here if you need any help!

NOTE: I can see multiple changes should be done in you code.. and so I'm attempting to provide a generic guidelines and reference as an answer!

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

int main()
{
int row, column;
int **matrix;
int i, j, val;

printf("Enter rows: ");
scanf("%d", &row);
printf("Enter columns: ");
scanf("%d", &column);

matrix = (int **) malloc (sizeof(int *) * row);
for (i=0 ; i<row ; i++)
matrix[i] = (int *) malloc (sizeof(int) * column);

val=1;
for (i=0 ; i<row ; i++) {
for (j=0 ; j<column; j++) {
matrix[i][j] = val++;
}
}

for (i=0 ; i<row ; i++) {
for (j=0 ; j<column; j++) {
printf("%3d  ", matrix[i][j]);
}
printf("\n");
}

return 0;
}
``````
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