/***************************************************************** * flflyd.c: FBM Release 1.0 25-Feb-90 Michael Mauldin * * Copyright (C) 1989,1990 by Michael Mauldin. Permission is granted * to use this file in whole or in part for any purpose, educational, * recreational or commercial, provided that this copyright notice * is retained unchanged. This software is available to all free of * charge by anonymous FTP and in the UUNET archives. * * flflyd.c: * * CONTENTS * floyd_fbm (input, output) * * EDITLOG * LastEditDate = Mon Jun 25 00:07:41 1990 - Michael Mauldin * LastFileName = /usr2/mlm/src/misc/fbm/flflyd.c * * HISTORY * 25-Jun-90 Michael Mauldin (mlm@cs.cmu.edu) Carnegie Mellon * Package for Release 1.0 * * 20-May-89 Michael Mauldin (mlm) at Carnegie Mellon University * Bug fix from Dave Cohrs * * 07-Mar-89 Michael Mauldin (mlm) at Carnegie Mellon University * Beta release (version 0.9) mlm@cs.cmu.edu * * 12-Nov-88 Michael Mauldin (mlm) at Carnegie-Mellon University * Created. *****************************************************************/ # include # include # include # include "fbm.h" /***************************************************************** * floyd_fbm: Classical Floyd-Steinberg Halftoning * * REFERENCES * Digital Halftoning, by Robert Ulichney (1986 MIT Press) *****************************************************************/ # define RAND(RN) (((seed = 1103515245 * seed + 12345) >> 12) % (RN)) # define INITERR(X,Y) \ (((int) X) - (((int) Y)?WHITE:BLACK) + ((WHITE/2)-((int) X))/2) #ifndef lint static char *fbmid = "$FBM flflyd.c <1.0> 25-Jun-90 (C) 1989,1990 by Michael Mauldin, source \ code available free from MLM@CS.CMU.EDU and from UUNET archives$"; #endif floyd_fbm (input, output) FBM *input, *output; { register unsigned char *bmp, *obm; register int i, j, rowlen, gray, error, w, h, den, outrow; int *lerr, *cerr, *terr; register int seed = 0; if (input->hdr.planes != 1) { fprintf (stderr, "floyd_fbm: can't halftone color images\n"); return (0); } fprintf (stderr, "Floyd-Steinberg halftoning\n"); /* Allocate output */ free_fbm (output); output->hdr = input->hdr; output->hdr.bits = 1; output->hdr.physbits = 8; outrow = 16 * ((input->hdr.cols + 15) / 16); /* Pad to even byte boundary */ output->hdr.rowlen = outrow; output->hdr.plnlen = outrow*output->hdr.rows; alloc_fbm (output); w = input->hdr.cols; h = input->hdr.rows; rowlen = input->hdr.rowlen; /* Allocate space for error arrays */ lerr = (int *) malloc (w * sizeof (*lerr)); cerr = (int *) malloc (w * sizeof (*cerr)); for (i=0; ibm[j*rowlen] + error; den = gray > thresh ? WHITE : BLACK; error = gray - den; output->bm[j*outrow] = den; } /* The right border */ error = 0; for (j=0; jbm[j*rowlen + (w-1)] + error; den = gray > thresh ? WHITE : BLACK; error = gray - den; output->bm[j*outrow + (w-1)] = den; } /* The top border */ error = 0; for (i=0; ibm[i] + error; den = gray > thresh ? WHITE : BLACK; error = gray - den; output->bm[i] = den; lerr[i] = INITERR (input->bm[i], den); } /* * Now process the interior bits * * Weights: 1 5 3 * 7 * */ for (j=1; jbm[j*rowlen]; obm = &output->bm[j*outrow]; cerr[0] = INITERR (bmp[0], obm[0]); for (i=1; i 5 && i < 9 && j > 5 && j < 9) { fprintf (stderr, "<%2d,%2d> Input %3d, Error %5d, Output %d\n", i, j, bmp[i], error, bmp[i] + error > (WHITE/2)); fprintf (stderr, "Errors: %5d %5d %5d\n %5d *\n\n", lerr[i-1], lerr[i], lerr[i+1], cerr[i-1]); } # endif gray = bmp[i] + error; if (gray > (WHITE/2)) { obm[i] = WHITE; cerr[i] = gray - WHITE; } else { obm[i] = BLACK; cerr[i] = gray - BLACK; } } /* Set errors for ends of the row */ cerr[0] = INITERR (bmp[0], obm[0]); cerr[w-1] = INITERR (bmp[w-1], obm[w-1]); /* Swap error buffers */ terr = lerr; lerr = cerr; cerr = terr; } return (1); }