/***************************************************************** * fbconvolve.c: FBM Release 1.2 18-Apr-93 Michael Mauldin * * Copyright (C) 1989-1993 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. * * fbconvolve.c: Sharpen an image by using a Laplacian edge enhancement * * USAGE * % fbconvolve [ flags ] arguments * * EDITLOG * LastEditDate = Mon Jun 25 00:04:40 1990 - Michael Mauldin * LastFileName = /usr2/mlm/src/misc/fbm/fbconvolve.c * * HISTORY * 18-Apr-93 Michael Mauldin (mlm) at Carnegie-Mellon University * Created from fbsharp.c *****************************************************************/ # include # include # include "fbm.h" # define USAGE "fbconvolve [ - ] [ -c ] ... < 8bit > 8bit" #ifndef lint static char *fbmid = "$FBM fbconvolve.c <1.2> 18-Apr-93 (C) 1989-1993 by Michael Mauldin, source \ code available free from MLM@CS.CMU.EDU and from UUNET archives$"; #endif main (argc, argv) char *argv[]; { int w, h, k, n, absval=1, sobel=0, sobel5=0; double **kernel; FBM input, output; int outtype = DEF_8BIT; register int i, j; /* Get the options */ while (--argc > 0 && (*++argv)[0] == '-') { while (*++(*argv)) { switch (**argv) { case 'A': outtype = FMT_ATK; break; case 'B': outtype = FMT_FACE; break; case 'F': outtype = FMT_FBM; break; case 'G': outtype = FMT_GIF; break; case 'I': outtype = FMT_IFF; break; case 'J': outtype = FMT_JPEG; break; case 'L': outtype = FMT_LEAF; break; case 'M': outtype = FMT_MCP; break; case 'P': outtype = FMT_PBM; break; case 'R': outtype = FMT_RLE; break; case 'S': outtype = FMT_SUN; break; case 'T': outtype = FMT_TIFF; break; case 'X': outtype = FMT_X11; break; case 'Z': outtype = FMT_PCX; break; case 'c': absval = 0; break; case 's': sobel++; break; case '5': sobel5++; break; default: fprintf (stderr, "%s\n", USAGE); exit (1); } } } /* Clear the memory pointers so alloc_fbm wont be confused */ input.cm = input.bm = (unsigned char *) NULL; output.cm = output.bm = (unsigned char *) NULL; /* Read the image first */ if (read_bitmap (&input, (char *) NULL)) { if (input.hdr.bits != 8 || input.hdr.physbits != 8) { fprintf (stderr, "Can't handle images with %d bits and %d physbits per pixel\n", input.hdr.bits, input.hdr.physbits); exit (1); } /* Determine output height & width (oh*ow <= size) */ h = input.hdr.rows; w = input.hdr.cols; k = input.hdr.planes; } else { exit (1); } /* Sobel 5x5 doesnt have any other arguments */ if (sobel5) { fprintf (stderr, "Sobel 5x5 \"%s\" [%dx%dx%d]\n", input.hdr.title[0] ? input.hdr.title : "(untitled)", w, h, k); /* Convolve the image */ if (sobel_5x5_fbm (&input, &output) && write_bitmap (&output, stdout, outtype)) { exit (0); } exit (1); } /* Sobel doesnt have any other arguments */ if (sobel) { fprintf (stderr, "Sobel \"%s\" [%dx%dx%d]\n", input.hdr.title[0] ? input.hdr.title : "(untitled)", w, h, k); /* Convolve the image */ if (sobel_fbm (&input, &output) && write_bitmap (&output, stdout, outtype)) { exit (0); } exit (1); } /* Otherwise, general convolution, first arg is size of kernel */ if (argc < 1 || (n = atoi (argv[0])) < 1) { fprintf (stderr, "%s\n", USAGE); exit (1); } if (n*n != argc-1) { fprintf (stderr, "fbconvolve: Mismatch between size and number of elements in kernel.\n"); fprintf (stderr, " You specified a %dx%d kernel which should have %d elements, but", n, n, n*n); fprintf (stderr, " you only gave %d values.\n", argc-1); } /* Now allocate the kernel array and reads the command line */ argv++; kernel = (double **) malloc (n * sizeof (double *)); for (j=0; j