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Given the following code:

foo( int* array ) 
    // ...

bar( int** matrix ) 
    // ...

main( void ) {
    int array[ 10 ];
    int matrix[ 10 ][ 10 ];

    foo( array );
    bar( matrix );

    return 0;

I don't understand why I get this warning:

warning: passing argument 1 of ‘bar’ from incompatible pointer type

Although 'foo' call seems to be ok.

Thanks :)

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6 Answers 6

up vote 36 down vote accepted

Well, it's certainly not well understood by the C community as can be seen by glancing over SO. The magic is, all of the following are totally, 100%, equivalent:

void foo(int (*array)[10]);
void foo(int array[][10]);
void foo(int array[10][10]);
void foo(int array[42][10]);

It is very important to draw the distinction of a pointer and an array. An array is not a pointer. An array can be converted to a pointer to its first element. If you have a pointer you have this:

| ptr  |  -------> data

However, if you have an array, you have this:

| c1 | c2 | c3 | ... | cn |

With the pointer, the data is at a whole other planet, but linked to by the pointer. An array has the data itself. Now, a multi-dimensional array is just an array of arrays. The arrays are nested into a parent array. So, the sizeof of your array is:

(sizeof(int) * 10) * 10

That is because you have 10 arrays, all of which are arrays of 10 integers. Now, if you want to pass that array, it is converted. But to what? A pointer to its first element. The element type is not a pointer, but an array. As a consequence, you pass a pointer to an array of 10 int:

int (*)[10] // a pointer to an int[10]

It is neither a array of int*, nor a int**. You may ask why the array is not passed as an int**. It's because the compiler has to know the row-length. If you do an array[1][0], the compiler will address a place sizeof(int) * 10 bytes apart from the begin of the 2 dimensional array. It decodes that information in the pointer-to-array type.

So, you have to chose among one of the above fully equivalent function prototypes. Naturally, the last one is just confusing. The compiler just silently ignores any number written in the most outer dimension if a parameter is declared to be an array. So i would also not use the second last version. Best is to use the first or second version. What is important to remember is that C has no (real) array parameters! The parameter will be a pointer in the end (pointer to array in this case).

Note how the multi-dimensional case of above is similar to the degenerate, one dimensional case below. All of the following 4 versions are fully equivalent:

void foo(int *array);
void foo(int array[]);
void foo(int array[10]);
void foo(int array[42]);
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Although Mark Pim's answer is fully centered on the main issue of my question, I want to compensate somehow all your effort trying to explain the subtelies of arrays as parameters in C by setting this answer as recommended. Thank you! –  Auron Feb 14 '09 at 0:39

Passing multi-dimensional arrays in C is a tricky subject. See this FAQ.

The question to ask is how you'll be using bar. If you always know it will be passed a 10x10 array then rewrite it as

bar(int matrix[10][10]);

If you want to cope with arrays of varying dimensions then you might have to pass in the lengths:

bar(int *matrix, int width, int height);
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Yours is a great answer. Thank you! –  Auron Feb 14 '09 at 0:40

The problem is that the data structure matrix[10][10] is actually not a table of ten pointers to array[10]'s, but it is an sequential array of 100 integers. The proper signature for bar is

bar (int matrix[10][10])

If you actually want to represent the matrix using indirection and have int **matrix as the parameter type for bar, then you need to allocate it differently:

int *matrix[10];
int my_data[100];
int i;
for (i = 0; i < 10; i++) { matrix[i] = &(my_data[i * 10]); }

Now 'matrix' matches the type int **. 'matrix' is an array of ten pointers, and you can pass it by pointer, hence getting the second *.

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"The problem is that the data structure matrix[10][10] is actually not a table of ten pointers to array[10]'s, but it is an sequential array of 100 integers." That is why I was so confused! –  Auron Feb 13 '09 at 18:54

Here is some code to practice on - it contains all possible types of passing 2dimensional array and code to access element values

#include <stdio.h>

#define NUMROWS 2
#define NUMCOLUMNS 5

#define FILL_ARRAY() \
    *array[0] = '1'; \
    (*array)[7] = '2'; \
    *(array[1]) = '3'; \
    *(*(array+1)+1) = '4'; \
    *(array[0]+3) = '5'; \
    *(*array+2) = '7'; \
    array[0][1] = '6'; 

void multi_01( char (*array)[NUMCOLUMNS] )       { FILL_ARRAY(); }
void multi_02( char array[][NUMCOLUMNS] )        { FILL_ARRAY(); }
void multi_03( char array[NUMROWS][NUMCOLUMNS] ) { FILL_ARRAY(); }
void multi_04( char **array )                    { FILL_ARRAY(); }
void multi_05( char *array[] )                   { FILL_ARRAY(); }
void multi_06( char *array[NUMCOLUMNS] )         { FILL_ARRAY(); }

int main(int argc, char **argv)
    int i;
    char mystr[NUMROWS][NUMCOLUMNS] = { { 'X', 'X', 'X', 'X'}, {'X','X','X'} };
    char *pmystr[sizeof(mystr)/sizeof(*mystr)];
    int numcolumns = sizeof(*mystr);
    int numrows = sizeof(mystr)/sizeof(*mystr);
    for( i=0; i<numrows; i++ ) pmystr[i] = *(mystr+i);

    multi_01( mystr );  multi_02( mystr );  multi_03( mystr );
    multi_04( pmystr ); multi_05( pmystr ); multi_06( pmystr );

    printf("array '%s', '%s'\n", mystr[0], mystr[1]);

    return 0;
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You should define bar as:

bar( int* matrix )

In C all arrays should be passed as int* (or type_of_element* for other types).

int ** would be ok if your data was really an array of pointers. int[*data[] for example. Thats what you get in main(int argc, char *argv[]).

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int **matrix

would indicate that you have a pointer to a pointer to int. That's commonly used to indicate a pointer to an array of pointers (also called a vector). That's definitely NOT the case with

int matrix[10][10]

which is a more of a pointer to a single section of memory sized for 10x10 ints. Try changing to:

void bar(int *matrix[])
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bar evaluates to int **matrix and is not how you would pass matrix –  Ulterior Jun 30 '12 at 9:39

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