# How I can resize a bitmap properly?

I want to downsample the bitmap of a BMP file by a factor `M`. I want to obatain the image without aliasing. So in order to achieve it I compute the mean of the MxM pixels in this way:

The problem apears when I try to resize non-squared images because it only compute the mean proprely in a square. For example, if the final image is 300x150, the mean is right until 150x150 pixel. If I had the `previous_mean` -> `new_mean = (previous_mean+value)/2`

This is how I actually compute it:

``````for (i = 0; i < new_height; i++) {
for (j = 0; j < new_width; j++) {
mean.r = bitmap[i*factor][j*factor].r;
mean.g = bitmap[i*factor][j*factor].g;
mean.b = bitmap[i*factor][j*factor].b;
for(k = i*factor; (k < i*factor+factor)&&(k<old_height); k++){
for(l = j*factor; (l < j*factor+factor)&&(l<old_width); l++){
mean.r = (mean.r + bitmap[k][l].r)/2;
mean.g = (mean.g + bitmap[k][l].g)/2;
mean.b = (mean.b + bitmap[k][l].b)/2;
}
}
new_bitmap[i][j] = mean;
mean.r = 0;
mean.g = 0;
mean.b = 0;
}
``````

}

`new_bitmap` and `bitmap` are 2-D array of `PIXELS`, being `PIXELS`:

``````typedef struct __attribute__((__packed__)){
unsigned char b;
unsigned char g;
unsigned char r;
} PIXELS;
``````
• Google "bilinear interpolation". For even better results, try bicubic or Lanczos. – Lee Daniel Crocker Dec 14 '17 at 19:44
• Rather than `mean.r = (mean.r + bitmap[k][l].r)/2;` I would expect `sum.r += bitmap[k][l].r; n++; .... mean.r = sum.r/n;` – chux Dec 14 '17 at 19:44
• Why are you dividing by 2? – Oliver Charlesworth Dec 14 '17 at 19:45
• Are you sure, the mean is valid? If you have 3 values being 0 and the last one being 255, what is your expected mean and what do you get? Also for first one being 255 and last 3 values being 0? – Gerhardh Dec 15 '17 at 8:08
• Even for 4 * 255 you get a wrong mean: init with 0, then 127, 191, 223 and finally 239. Instead it should be 255. – Gerhardh Dec 15 '17 at 8:12