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Is it possible to write a function which accept 2-d array when the width is not known at compile time?

A detailed description will be greatly appreciated.

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1  
pass a pointer to the function? – Bill Jun 18 '13 at 14:27
    
Yes, but you have to do all the math manually. – Kevin Jun 18 '13 at 14:31
up vote 3 down vote accepted

You can't pass a raw two-dimensional array because the routine won't know how to index a particular element. The 2D array is really one contiguous memory segment.

When you write x[a][b] (when x is a 2d array), the compiler knows to look at the address (x + a * width + b). It can't know how to address the particular element if you don't tell it the width.

As an example, check http://www.dfstermole.net/OAC/harray2.html#offset (which has a table showing how to find the linear index for each element in an int[5][4])

There are two ways to work around the limitation:

1) Make your program work with pointer-to-pointers (char *). This is not the same as char[][]. A char * is really one memory segment, with each value being a memory address to another memory segment.

2) Pass a 1d pointer, and do the referencing yourself. Your function would then have to take a "width" parameter, and you could use the aforementioned formula to reference a particular point

To give a code example:

#include <stdio.h>
int get2(int *x) { return x[2]; }
int main() {
    int y[2][2] = {{11,12},{21,22}};
    printf("%d\n", get2((int *)y));
}

This should print out 21, since y is laid out as { 11, 12, 21, 22 } in memory.

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I heard that I can pass it but don't know how? – Varun Chhangani Jun 18 '13 at 14:32
    
@VarunChhangani you pass it as a 1d pointer (int* or whatever) – SheetJS Jun 18 '13 at 14:33
    
@VarunChhangani I added an example – SheetJS Jun 18 '13 at 14:38
    
But like Kevin said, there you have to do the math manually in the function that receives the array. – Medinoc Jun 18 '13 at 14:50
    
@Medinoc that's correct, but kevin's comment was submitted after my answer – SheetJS Jun 18 '13 at 14:52

C supports variable-length arrays. You must specify the width from a value known at run-time, which may be an earlier parameter in the function declaration:

void foo(size_t width, int array[][width]);
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see also stackoverflow.com/questions/14548753/… – Christoph Jun 18 '13 at 15:02

One way is use the good old "pointer to array of pointers to arrays" trick coupled with a single continuous allocation:

/* Another allocation function
   --------------------------- */
double ** AnotherAlloc2DTable(
 size_t size1, /*[in] Nb of lines */
 size_t size2  /*[in] Nb of values per line */
 )
{
    double ** ppValues;
    size_t const size1x2 = size1*size2;
    if(size1x2 / size2 != size1)
        return NULL; /*size overflow*/

    ppValues = malloc(sizeof(*ppValues)*size1);
    if(ppValues != NULL)
    {
        double * pValues = malloc(sizeof(*pValues)*size1x2);
        if(pValues != NULL)
        {
            size_t i;
            /* Assign all pointers */
            for(i=0 ; i<size1 ; ++i)
                ppValues[i] = pValues + (i*size2);
        }
        else
        {
            /* Second allocation failed, free the first one */
            free(ppValues), ppValues=NULL;
        }
    }/*if*/
    return ppValues;
}

/* Another destruction function
   ---------------------------- */
void AnotherFree2DTable(double **ppValues)
{
    if(ppValues != NULL)
    {
        free(ppValues[0]);
        free(ppValues);
    }
}

Then all you have to do is pass a char ** to your function. The matrix is continuous, and usable as mat[x][y].

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don't you have to free each i (i = 0 to n) instead of free(ppValeurs[0]); – Bill Jun 18 '13 at 14:36
    
Not with this special one: It performs only one allocation per dimension, which means to allocations instead of sizeX+1 allocations. This makes error handling during the creation much easier. – Medinoc Jun 18 '13 at 14:39
    
Like Ram Rajamony said, "Okay. If you're going to vote a post down, consider adding a comment to indicate why you did so." – Medinoc Jun 19 '13 at 9:14

Possible accessor functions:

int get_multi(int rows, int cols, int matrix[][cols], int i, int j)
{
    return matrix[i][j];
}

int get_flat(int rows, int cols, int matrix[], int i, int j)
{
    return matrix[i * cols + j];
}

int get_ptr(int rows, int cols, int *matrix[], int i, int j)
{
    return matrix[i][j];
}

An actual multi-dimensional array and a fake one:

int m_multi[5][7];
int m_flat[5 * 7];

Well-defined ways to use the accessor functions:

get_multi(5, 7, m_multi, 4, 2);

get_flat(5, 7, m_flat, 4, 2);

{
    int *m_ptr[5];

    for(int i = 0; i < 5; ++i)
        m_ptr[i] = m_multi[i];

    get_ptr(5, 7, m_ptr, 4, 2);
}

{
    int *m_ptr[5];

    for(int i = 0; i < 5; ++i)
        m_ptr[i] = &m_flat[i * 7];

    get_ptr(5, 7, m_ptr, 4, 2);
}

Technically undefined usage that works in practice:

get(5, 7, (int *)m_multi, 4, 2);
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[Warning - this answer addresses the case where the number of columns - the WIDTH - is known]

When working with 2D arrays, the compiler needs to know the number of columns in your array in order to compute indexing. For instance, if you want a pointer p that points to a range of memory to be treated as a two-dimensional set of values, the compiler cannot do the necessary indexing arithmetic unless it knows how much space is occupied by each row of the array.

Things become clearer with a concrete example, such as the one below. Here, the pointer p is passed in as a pointer to a one-dimensional range of memory. You - the programmer - know that it makes sense to treat this as a 2D array and you also know (must know) how many columns are there in this array. Armed with this knowledge, you can write code to create q, that is treated by the compiler as a 2D array with an unknown number of rows, where each row has exactly NB columns.

I usually employ this when I want the compiler to do all the indexing arithmetic (why do it by hand when the compiler can do it?). In the past, I've found this construct to be useful to carry out 2D transposes from one shape to another - note though that generalized 2D transposes that transpose an MxN array into an NxM array are rather beastly.

void
WorkAs2D (double *p)
{
    double (*q)[NB] = (double (*)[NB]) p;

    for (uint32_t i = 0; i < NB; i++)
    {
        for (uint32_t j = 0; j < ZZZ; j++) /* For as many rows as you have in your 2D array */
            q[j][i] = ...
    }
}
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Okay. If you're going to vote a post down, consider adding a comment to indicate why you did so. – Ram Rajamony Jun 18 '13 at 14:42
    
Okay. If you're voting a post down, consider adding a comment to indicate why you did so. This answer precisely addresses what @varun-chhangani wanted. – Ram Rajamony Jun 18 '13 at 14:47
1  
(not the downvoter) No it doesn't, it provides an array with unknown height, not an array with unknown width. It's the latter that's complicated. – Medinoc Jun 18 '13 at 14:49
1  
Ahh. Okay @Medinoc. [As many have pointed out] you can't use any compiler help to handle the case where the number of columns is not known. I'm thinking of leaving this answer be, in case it helps people who just don't know how to declare the pointers for the case where the number of columns (width) is known. – Ram Rajamony Jun 18 '13 at 14:57

I believe a nice solution would be the use of structures. So I have an example for 1d-Arrays:
Definition of the struct:

struct ArrayNumber {
    unsigned char *array;
    int size;
};

Definition of a function:

struct ArrayNumber calcMultiply(struct ArrayNumber nra, struct ArrayNumber nrb);

Init the struct:

struct ArrayNumber rs;
rs.array = malloc(1);
rs.array[0] = 0;
rs.size = 1;
//and adding some size:
rs.size++;
rs.array = realloc(rs.array, rs.size);

hope this could be a solution for you. Just got to change to a 2d Array.

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