# C - 2D Convolution

I'm trying to do in C language a convolution of matrices.

I've tried something but cannot do it properly.

N[WIDTH1][WIDTH2] is the input matrix, M[MASK_WIDTH1][MASK_WIDTH2] is the kernel matrix, P[][] the output matrix.

First attempt:

void convolution_2D(int N[][WIDTH2], int M[][MASK_WIDTH2], int P[][WIDTH2]) {

// find center position of kernel (half of kernel size)
int kCenterX = MASK_WIDTH2 / 2;
int kCenterY = MASK_WIDTH1 / 2;

for (int i = 0; i < WIDTH1; ++i)              // rows
{
for (int j = 0; j < WIDTH2; ++j)          // columns
{
for (int m = 0; m < MASK_WIDTH1; ++m)     // kernel rows
{
int mm = MASK_WIDTH1 - 1 - m;      // row index

for (int n = 0; n < MASK_WIDTH2; ++n) // kernel columns
{
int nn = MASK_WIDTH2 - 1 - n;  // column index

// index of input signal, used for checking boundary
int ii = i + (m - kCenterY);
int jj = j + (n - kCenterX);

// ignore input samples which are out of bound
if (ii >= 0 && ii < WIDTH1 && jj >= 0 && jj < WIDTH2)
P[i][j] += N[ii][jj] * M[mm][nn];
}
}
}
}


The problem is that the boundary values are wrong, because I pick the wrong values of the M matrix. For example, for P[0][0] the result should be, for N and P 5x5 and M 3x3:

P[0][0] = N[0][0]*M[1][1] + N[0][1]*M[1][2] + N[1][0]*M[2][1] + N[1][1]*M[2][2];


The values of the kernel that I need are the lower right part; instead, that code picks the upper left part and I can't write the code to check the right values.

• This code assumes all values of P are initialized to zero when the function is called. Commented Jan 3, 2017 at 21:05
• What is the point of mm and nn? If you just use m and n, it seems like it would work. Commented Jan 3, 2017 at 21:12
• Yes, P is initialized to 0; I feel stupid but.... I think it works. I'm going to check the output values and close the question. Thank you! EDIT: It works! Commented Jan 3, 2017 at 21:16

The values of the kernel that I need are the lower right part; instead, that code picks the upper left part and I can't write the code to check the right values.

This is because you are flipping the mask indices when you compute mm and nn. Simply remove those lines and use m and n to index the mask:

if (ii >= 0 && ii < WIDTH1 && jj >= 0 && jj < WIDTH2)
P[i][j] += N[ii][jj] * M[m][n];