think about 0.47

[imager.git] / conv.c

#include "image.h"

/*
  General convolution for 2d decoupled filters
  end effects are acounted for by increasing
  scaling the result with the sum of used coefficients

  coeff: (float array) coefficients for filter
    len: length of filter.. number of coefficients
           note that this has to be an odd number
           (since the filter is even);
*/

void
i_conv(i_img *im,float *coeff,int len) {
  int i,l,c,ch,center;
  float pc;
  i_color rcolor;
  float res[11];
  i_img timg;

  mm_log((1,"i_conv(im %p, coeff %p, len %d)\n",im,coeff,len));
 
  i_img_empty_ch(&timg,im->xsize,im->ysize,im->channels);

  center=(len-1)/2;

  /* don't move the calculation of pc up here, it depends on which pixels
     are readable */
  for(l=0;l<im->ysize;l++) {
    for(i=0;i<im->xsize;i++) {
      pc=0.0;
      for(ch=0;ch<im->channels;ch++) res[ch]=0;
      for(c=0;c<len;c++)
        if (i_gpix(im,i+c-center,l,&rcolor)!=-1) {
          for(ch=0;ch<im->channels;ch++) 
            res[ch]+=(float)(rcolor.channel[ch])*coeff[c];
          pc+=coeff[c];
        }
      for(ch=0;ch<im->channels;ch++) {
        double temp = res[ch]/pc;
        rcolor.channel[ch] = 
          temp < 0 ? 0 : temp > 255 ? 255 : (unsigned char)temp;
      }
      i_ppix(&timg,i,l,&rcolor);
    }
  }

  for(l=0;l<im->xsize;l++)
    {
      for(i=0;i<im->ysize;i++)
        {
          pc=0.0;
          for(ch=0;ch<im->channels;ch++) res[ch]=0;
          for(c=0;c<len;c++)
            if (i_gpix(&timg,l,i+c-center,&rcolor)!=-1)
              {
                for(ch=0;ch<im->channels;ch++) 
                  res[ch]+=(float)(rcolor.channel[ch])*coeff[c];
                pc+=coeff[c];
              }
          for(ch=0;ch<im->channels;ch++) {
            double temp = res[ch]/pc;
            rcolor.channel[ch]= 
              temp < 0 ? 0 : temp > 255 ? 255 : (unsigned char)temp;
          }
          i_ppix(im,l,i,&rcolor);
        }
    }
  i_img_exorcise(&timg);
}