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I wanted to declare a pointer which would point to a matrix and retrieve a value back from the matrix:

float *p;
float ar[3][3];

[..]//give values to ar[][]

p = ar;

//Keep on printing values in the 3 X 3 matrix
for (int i = 0; i < 10; i++)
p = p + i;
cout << *p << ", ";
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What's your question? –  Jim Clay Oct 26 '11 at 5:05
If I should use **p to point to the matrix ar[][], and how can I get the value of the pointer which is pointing to a specific element in the matrix. –  Josh Oct 26 '11 at 5:07

2 Answers 2

I suspect that you are after:

p = &ar[0][0];

which can also be written:

p = ar[0];

although your for loop then needs to use p = p + 1; rather than p = p + i;.

You can also use a pointer to an array, if you want your loop to be able to access the members of the matrix by row and column:

float (*p)[3];

p = ar;

for (int i = 0; i < 3; i++)
    for (j = 0; j < 3; j++)
        cout << p[i][j] << ", ";
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what if I wanted to use a double pointer to point at the matrix and de-reference values from the matrix? –  Josh Oct 26 '11 at 5:13
@Josh: You must clarify what you mean by a "double pointer". If you mean a double * (pointer to double), then you can't, because the matrix stores float values. If you mean a float ** (pointer to pointer to float), then the only way to do that is to create a shadow array of float * values, pointing at the first float in each row of the matrix. Perhaps you want a pointer to an array (float (*)[3]) (see update)? –  caf Oct 26 '11 at 5:16
I wanted to use "**p" to point to some elements in ar[][] and retrieve those elements (to find the determinant of the matrix), so can I do this: **p; p = ar; value += **(p + 1); –  Josh Oct 26 '11 at 5:22
@Josh: You can't really do that, because float **p isn't the right tool for that job. A float **p variable is for pointing at a float * (or an array of float *), and you don't have any float * objects in your example. You could create some, but there's no point, it would just be needlessly obfuscatory. –  caf Oct 26 '11 at 5:39
@Josh: You can iterate through the matrix using the pointer p in my first example, but you only have to dereference it once (*(p + i) or p[i] for i in 0..9). –  caf Oct 26 '11 at 7:31

EDIT2: I'm an idiot I accidentally had float **matrix instead of float (*matrix)[3]. caf had the right answer all along.

Is this what you want?

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

void print_matrix(float (*matrix)[3], size_t rows, size_t cols)
   int i, j;
   for (i = 0; i < rows; i++)
      for (j = 0; j < cols; j++)
         printf("%f ", matrix[i][j]);

int main(void)
   float ar[][3] = { {1, 2, 3}, {4, 5, 6}, {7, 8, 9} };
   print_matrix(ar, 3, 3);

   return EXIT_SUCCESS;

EDIT: you can also have:

float *row1, *row2, *row3;
row1 = ar[0];
row2 = ar[1];
row3 = ar[2];
float row1_total = row1[0] + row1[1] + row2[2];
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I wanted to use a pointer to access the matrix elements. Instead of printing using the matrix itself, I wanted a pointer to access the elements in the matrix and perform some operations using them (like addition) –  Josh Oct 26 '11 at 5:31
float **matrix is a pointer (to a pointer to a float). You can access the elements using pointer arithmetic or array notation as I did. –  AusCBloke Oct 26 '11 at 5:34
so if I wanted to access the value stored in ar[1][1], I would do **(matrix + 4)? –  Josh Oct 26 '11 at 5:37
It would be better to do it as matrix[1][1], especially if each of the "rows" in the matrix weren't in consecutive blocks of memory. You gain no advantage by doing **(matrix + 4), only reducing readability and potentially causing problems. –  AusCBloke Oct 26 '11 at 5:45
Did you even try this? It does not work; you cannot pass a float (*)[3] to a function expecting a float **. –  caf Oct 26 '11 at 7:30

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