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I am writing a C-program where I need 2D-arrays (dynamically allocated) with negative indices or where the index does not start at zero. So for an array[i][j] the row-index i should take values from e.g. 1 to 3 and the column-index j should take values from e.g. -1 to 9.

For this purpose I created the following program, here the variable columns_start is set to zero, so just the row-index is shifted and this works really fine.

But when I assign other values than zero to the variable columns_start, I get the message (from valgrind) that the command "free(array[i]);" is invalid. So my questions are:

  1. Why it is invalid to free the memory that I allocated just before?
  2. How do I have to modify my program to shift the column-index?

Thank you for your help.

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


int **array, **array2;
int rows_end, rows_start, columns_end, columns_start, i, j;

rows_start = 1;
rows_end = 3;

columns_start = 0;
columns_end = 9;

  array = malloc((rows_end-rows_start+1) * sizeof(int *));

  for(i = 0; i <= (rows_end-rows_start); i++) {
    array[i] = malloc((columns_end-columns_start+1) * sizeof(int));

  array2 = array-rows_start;                          //shifting row-index

  for(i = rows_start; i <= rows_end; i++) {
    array2[i] = array[i-rows_start]-columns_start;    //shifting column-index

  for(i = rows_start; i <= rows_end; i++) {
    for(j = columns_start; j <= columns_end; j++) {
      array2[i][j] = i+j;                             //writing stuff into array
      printf("%i %i %d\n",i, j, array2[i][j]);

  for(i = 0; i <= (rows_end-rows_start); i++) {


share|improve this question
IMHO this is not good idea to make pascal from C – Mihran Hovsepyan Aug 9 '11 at 8:30
Is it possible to reduce this test case without making the error go away? For instance, is the second and third for loop necessary? Maybe the two malloc steps (for the outer and the inner arrays) plus the final free steps are already enough to trigger the valgrind warning? – Frerich Raabe Aug 9 '11 at 8:56
up vote 5 down vote accepted

When you shift column indexes, you assign new values to original array of columns: in

array2[i] = array[i-rows_start]-columns_start;

array2[i] and array[i=rows_start] are the same memory cell as array2 is initialized with array-rows_start.

So deallocation of memory requires reverse shift. Try the following:

free(array[i] + columns_start);

IMHO, such modification of array indexes gives no benefit, while complicating program logic and leading to errors. Try to modify indexes on the fly in single loop.

share|improve this answer
check the use of array/array2. – AProgrammer Aug 9 '11 at 8:48
why is that? I don't see where array was shifted. Only array2 points to a shifted place. array was never changed.. – duedl0r Aug 9 '11 at 8:49
array2 points to array-rows_start. So array2[rowstart] == array[0] – eugene_che Aug 9 '11 at 8:52
free(array[i] + columns_start); This works, thank you very much. – mablan Aug 9 '11 at 8:59
@tyz, I updated your answer with your above comment. It was what I missed in my (now deleted) answer and I guess the OP missed that as well. And the edit allowed me to replace my downvote by an upvote. – AProgrammer Aug 9 '11 at 9:00
#include <stdio.h>
#include <stdlib.h>

int main(void) {
    int a[] = { -1, 41, 42, 43 };
    int *b;//you will always read the data via this pointer
    b = &a[1];// 1 is becoming the "zero pivot"
    printf("zero: %d\n", b[0]);
    printf("-1: %d\n", b[-1]);
    return EXIT_SUCCESS;

If you don't need just a contiguous block, then you may be better off with hash tables instead.

share|improve this answer
It would be great if you would actually provide more info about the actual problem. – Flavius Aug 9 '11 at 8:53
No, this program solves a set of equations numerically. Simply speaking, I'm solving the equations at the points e.g. from 1 to 100, then I have boundary conditions first order at the points 0 and 101 and boundary conditions second order at the points -1 to 102. – mablan Aug 9 '11 at 9:06
And you can't use C++, huh? – Flavius Aug 9 '11 at 9:11
I have to connect my code to an even bigger program which is written in C, so I'm restricted to this language. By the way, I already wrote my code in Fortran, there its really easy to create such arrays. – mablan Aug 9 '11 at 9:18
Ok, but at least accept my solution, since it solves the problem you've shown: negative index :) – Flavius Aug 9 '11 at 9:24

As far as I can see, your free and malloc looks good. But your shifting doesn't make sense. Why don't you just add an offset in your array instead of using array2:

int maxNegValue = 10;
int myNegValue = -6;

array[x][myNegValue+maxNegValue] = ...;

this way, you're always in the positive range.

For malloc: you acquire (maxNegValue + maxPosValue) * sizeof(...)

Ok I understand now, that you need free(array.. + offset); even using your shifting stuff.. that's probably not what you want. If you don't need a very fast implementation I'd suggest to use a struct containing the offset and an array. Then create a function having this struct and x/y as arguments to allow access to the array.

share|improve this answer
Hi, thank you for your answer. An offset would be an idea, but im my program I need a lot of these arrays with all different beginning indices, so I hope to find a more elegant solution instead of defining two offsets for every array. The sign is right I think, as I want to assign e.g. the value array2[1] to array[0]. Say, how can I rewrite the program without using array2? – mablan Aug 9 '11 at 8:47
I guess your valgrind problem is resolved. So you don't have to remove array2. Updated my answer with a different solution. – duedl0r Aug 9 '11 at 9:36

I don't know why valgrind would complain about that free statement, but there seems to be a lot of pointer juggling going on so it doesn't surprise me that you get this problem in the first place. For instance, one thing which caught my eye is:

array2 = array-rows_start; 

This will make array2[0] dereference memory which you didn't allocate. I fear it's just a matter of time until you get the offset calcuations wrong and run into this problem.

One one comment you wrote

but im my program I need a lot of these arrays with all different beginning indices, so I hope to find a more elegant solution instead of defining two offsets for every array.

I think I'd hide all this in a matrix helper struct (+ functions) so that you don't have to clutter your code with all the offsets. Consider this in some matrix.h header:

struct matrix; /* opaque type */

/* Allocates a matrix with the given dimensions, sample invocation might be:
 *    struct matrix *m;
 *    matrix_alloc( &m, -2, 14, -9, 33 );
void matrix_alloc( struct matrix **m, int minRow, int maxRow, int minCol, int maxCol );

/* Releases resources allocated by the given matrix, e.g.:
 *    struct matrix *m;
 *    ...
 *    matrix_free( m );
void matrix_free( struct matrix *m );

/* Get/Set the value of some elment in the matrix; takes logicaly (potentially negative)
 * coordinates and translates them to zero-based coordinates internally, e.g.:
 *    struct matrix *m;
 *    ...
 *    int val = matrix_get( m, 9, -7 );
int matrix_get( struct matrix *m, int row, int col );
void matrix_set( struct matrix *m, int row, int col, int val );

And here's how an implementation might look like (this would be matrix.c):

struct matrix {
  int minRow, maxRow, minCol, maxCol;
  int **elem;

void matrix_alloc( struct matrix **m, int minCol, int maxCol, int minRow, int maxRow ) {
  int numRows = maxRow - minRow;
  int numCols = maxCol - minCol;

  *m = malloc( sizeof( struct matrix ) );
  *elem = malloc( numRows * sizeof( *elem ) );
  for ( int i = 0; i < numRows; ++i )
    *elem = malloc( numCols * sizeof( int ) );

  /* setting other fields of the matrix omitted for brevity */

void matrix_free( struct matrix *m ) {
  /* omitted for brevity */

int matrix_get( struct matrix *m, int col, int row ) {
   return m->elem[row - m->minRow][col - m->minCol];

void matrix_set( struct matrix *m, int col, int row, int val ) {
   m->elem[row - m->minRow][col - m->minCol] = val;

This way you only need to get this stuff right once, in a central place. The rest of your program doesn't have to deal with raw arrays but rather the struct matrix type.

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