/* * This software is copyrighted as noted below. It may be freely copied, * modified, and redistributed, provided that the copyright notice is * preserved on all copies. * * There is no warranty or other guarantee of fitness for this software, * it is provided solely "as is". Bug reports or fixes may be sent * to the author, who may or may not act on them as he desires. * * You may not include this software in a program or other software product * without supplying the source, or without informing the end-user that the * source is available for no extra charge. * * If you modify this software, you should include a notice giving the * name of the person performing the modification, the date of modification, * and the reason for such modification. * * Modified at BRL 16-May-88 by Mike Muuss to avoid Alliant STDC desire * to have all "void" functions so declared. */ /* * rle_getrow.c - Read an RLE file in. * * Author: Spencer W. Thomas * Computer Science Dept. * University of Utah * Date: Wed Apr 10 1985 * Copyright (c) 1985 Spencer W. Thomas * * $Id: rle_getrow.c,v 3.0.1.5 1992/03/04 19:33:08 spencer Exp spencer $ */ #include #include #include "netpbm/pm.h" #include "netpbm/mallocvar.h" #include "rle.h" #include "rle_code.h" #include "vaxshort.h" /* Read a two-byte "short" that started in VAX (LITTLE_ENDIAN) order */ #define VAXSHORT( var, fp )\ { var = fgetc(fp)&0xFF; var |= (fgetc(fp)) << 8; } /* Instruction format -- first byte is opcode, second is datum. */ #define OPCODE(inst) (inst[0] & ~LONG) #define LONGP(inst) (inst[0] & LONG) #define DATUM(inst) (inst[1] & 0xff) /* Make sure it's unsigned. */ static int debug_f; /* If non-zero, print debug info. */ int rle_get_setup(rle_hdr * const the_hdr) { /*----------------------------------------------------------------------------- Read the initialization information from an RLE file. Inputs: the_hdr: Contains pointer to the input file. Outputs: the_hdr: Initialized with information from the input file. Returns 0 on success, -1 if the file is not an RLE file, -2 if malloc of the color map failed, -3 if an immediate EOF is hit (empty input file) -4 if an EOF is encountered reading the setup information. Assumptions: infile points to the "magic" number in an RLE file (usually byte 0 in the file). Algorithm: Read in the setup info and fill in the_hdr. ---------------------------------------------------------------------------- */ struct XtndRsetup setup; short magic; FILE * infile = the_hdr->rle_file; int i; char * comment_buf; /* Clear old stuff out of the header. */ rle_hdr_clear(the_hdr); if (the_hdr->is_init != RLE_INIT_MAGIC) rle_names(the_hdr, "Urt", "some file", 0); ++the_hdr->img_num; /* Count images. */ VAXSHORT(magic, infile); if (feof(infile)) return RLE_EMPTY; if (magic != RLE_MAGIC) return RLE_NOT_RLE; fread(&setup, 1, SETUPSIZE, infile); /* assume VAX packing */ if (feof( infile)) return RLE_EOF; /* Extract information from setup */ the_hdr->ncolors = setup.h_ncolors; for (i = 0; i < the_hdr->ncolors; ++i) RLE_SET_BIT(*the_hdr, i); if (!(setup.h_flags & H_NO_BACKGROUND) && setup.h_ncolors > 0) { rle_pixel * bg_color; MALLOCARRAY(the_hdr->bg_color, setup.h_ncolors); if (!the_hdr->bg_color) pm_error("Failed to allocation array for %u background colors", setup.h_ncolors); MALLOCARRAY(bg_color, 1 + (setup.h_ncolors / 2) * 2); if (!bg_color) pm_error("Failed to allocation array for %u background colors", 1+(setup.h_ncolors / 2) * 2); fread((char *)bg_color, 1, 1 + (setup.h_ncolors / 2) * 2, infile); for (i = 0; i < setup.h_ncolors; ++i) the_hdr->bg_color[i] = bg_color[i]; free(bg_color); } else { getc(infile); /* skip filler byte */ the_hdr->bg_color = NULL; } if (setup.h_flags & H_NO_BACKGROUND) the_hdr->background = 0; else if (setup.h_flags & H_CLEARFIRST) the_hdr->background = 2; else the_hdr->background = 1; if (setup.h_flags & H_ALPHA) { the_hdr->alpha = 1; RLE_SET_BIT( *the_hdr, RLE_ALPHA ); } else the_hdr->alpha = 0; the_hdr->xmin = vax_gshort(setup.hc_xpos); the_hdr->ymin = vax_gshort(setup.hc_ypos); the_hdr->xmax = the_hdr->xmin + vax_gshort(setup.hc_xlen) - 1; the_hdr->ymax = the_hdr->ymin + vax_gshort(setup.hc_ylen) - 1; the_hdr->ncmap = setup.h_ncmap; the_hdr->cmaplen = setup.h_cmaplen; if (the_hdr->ncmap > 0) { int const maplen = the_hdr->ncmap * (1 << the_hdr->cmaplen); int i; char *maptemp; MALLOCARRAY(the_hdr->cmap, maplen); MALLOCARRAY(maptemp, 2 * maplen); if (the_hdr->cmap == NULL || maptemp == NULL) { pm_error("Malloc failed for color map of size %d*%d " "in rle_get_setup, reading '%s'", the_hdr->ncmap, (1 << the_hdr->cmaplen), the_hdr->file_name ); return RLE_NO_SPACE; } fread(maptemp, 2, maplen, infile); for (i = 0; i < maplen; ++i) the_hdr->cmap[i] = vax_gshort(&maptemp[i * 2]); free(maptemp); } /* Check for comments */ if (setup.h_flags & H_COMMENT) { short comlen, evenlen; char * cp; VAXSHORT(comlen, infile); /* get comment length */ evenlen = (comlen + 1) & ~1; /* make it even */ if (evenlen) { MALLOCARRAY(comment_buf, evenlen); if (comment_buf == NULL) { pm_error("Malloc failed for comment buffer of size %d " "in rle_get_setup, reading '%s'", comlen, the_hdr->file_name ); return RLE_NO_SPACE; } fread(comment_buf, 1, evenlen, infile); /* Count the comments */ for (i = 0, cp = comment_buf; cp < comment_buf + comlen; ++cp) if (*cp == '\0') ++i; ++i; /* extra for NULL pointer at end */ /* Get space to put pointers to comments */ MALLOCARRAY(the_hdr->comments, i); if (the_hdr->comments == NULL) { pm_error("Malloc failed for %d comment pointers " "in rle_get_setup, reading '%s'", i, the_hdr->file_name ); return RLE_NO_SPACE; } /* Get pointers to the comments */ *the_hdr->comments = comment_buf; for (i = 1, cp = comment_buf + 1; cp < comment_buf + comlen; ++cp) if (*(cp - 1) == '\0') the_hdr->comments[i++] = cp; the_hdr->comments[i] = NULL; } else the_hdr->comments = NULL; } else the_hdr->comments = NULL; /* Initialize state for rle_getrow */ the_hdr->priv.get.scan_y = the_hdr->ymin; the_hdr->priv.get.vert_skip = 0; the_hdr->priv.get.is_eof = 0; the_hdr->priv.get.is_seek = ftell(infile) > 0; debug_f = 0; if (!feof(infile)) return RLE_SUCCESS; /* success! */ else { the_hdr->priv.get.is_eof = 1; return RLE_EOF; } } void rle_get_setup_ok(rle_hdr * const the_hdr, const char * const prog_name, const char * const file_name) { /*----------------------------------------------------------------------------- Read the initialization information from an RLE file. Inputs: the_hdr: Contains pointer to the input file. prog_name: Program name to be printed in the error message. file_name: File name to be printed in the error message. If NULL, the string "stdin" is generated. Outputs: the_hdr: Initialized with information from the input file. If reading the header fails, it prints an error message and exits with the appropriate status code. Algorithm: rle_get_setup does all the work. ---------------------------------------------------------------------------- */ int code; /* Backwards compatibility: if is_init is not properly set, * initialize the header. */ if (the_hdr->is_init != RLE_INIT_MAGIC) { FILE * const f = the_hdr->rle_file; rle_hdr_init( the_hdr ); the_hdr->rle_file = f; rle_names(the_hdr, prog_name, file_name, 0); } code = rle_get_error(rle_get_setup(the_hdr), the_hdr->cmd, the_hdr->file_name); if (code) exit(code); } void rle_debug( on_off ) int on_off; { /*----------------------------------------------------------------------------- Turn RLE debugging on or off. Inputs: on_off: if 0, stop debugging, else start. Outputs: Sets internal debug flag. Assumptions: [None] Algorithm: [None] ---------------------------------------------------------------------------- */ debug_f = on_off; /* Set line buffering on stderr. Character buffering is the default, and * it is SLOOWWW for large amounts of output. */ setvbuf(stderr, NULL, _IOLBF, 0); } int rle_getrow(rle_hdr * const the_hdr, rle_pixel ** const scanline) { /*----------------------------------------------------------------------------- Get a scanline from the input file. Inputs: the_hdr: Header structure containing information about the input file. Outputs: scanline: an array of pointers to the individual color scanlines. Scanline is assumed to have the_hdr->ncolors pointers to arrays of rle_pixel, each of which is at least the_hdr->xmax+1 long. Returns the current scanline number. Assumptions: rle_get_setup has already been called. Algorithm: If a vertical skip is being executed, and clear-to-background is specified (the_hdr->background is true), just set the scanlines to the background color. If clear-to-background is not set, just increment the scanline number and return. Otherwise, read input until a vertical skip is encountered, decoding the instructions into scanline data. If ymax is reached (or, somehow, passed), continue reading and discarding input until end of image. ---------------------------------------------------------------------------- */ FILE * const infile = the_hdr->rle_file; rle_pixel * scanc; int scan_x; /* current X position */ int max_x; /* End of the scanline */ int channel; /* current color channel */ int ns; /* Number to skip */ int nc; short word, long_data; char inst[2]; scan_x = the_hdr->xmin; /* initial value */ max_x = the_hdr->xmax; /* initial value */ channel = 0; /* initial value */ /* Clear to background if specified */ if (the_hdr->background != 1) { if (the_hdr->alpha && RLE_BIT( *the_hdr, -1)) memset((char *)scanline[-1] + the_hdr->xmin, 0, the_hdr->xmax - the_hdr->xmin + 1); for (nc = 0; nc < the_hdr->ncolors; ++nc) { if (RLE_BIT( *the_hdr, nc)) { /* Unless bg color given explicitly, use 0. */ if (the_hdr->background != 2 || the_hdr->bg_color[nc] == 0) memset((char *)scanline[nc] + the_hdr->xmin, 0, the_hdr->xmax - the_hdr->xmin + 1); else memset((char *)scanline[nc] + the_hdr->xmin, the_hdr->bg_color[nc], the_hdr->xmax - the_hdr->xmin + 1); } } } /* If skipping, then just return */ if (the_hdr->priv.get.vert_skip > 0) { --the_hdr->priv.get.vert_skip; ++the_hdr->priv.get.scan_y; if (the_hdr->priv.get.vert_skip > 0) { if (the_hdr->priv.get.scan_y >= the_hdr->ymax) { int const y = the_hdr->priv.get.scan_y; while (rle_getskip(the_hdr) != 32768) ; return y; } else return the_hdr->priv.get.scan_y; } } /* If EOF has been encountered, return also */ if (the_hdr->priv.get.is_eof) return ++the_hdr->priv.get.scan_y; /* Otherwise, read and interpret instructions until a skipLines instruction is encountered. */ if (RLE_BIT(*the_hdr, channel)) scanc = scanline[channel] + scan_x; else scanc = NULL; for (;;) { inst[0] = getc(infile); inst[1] = getc(infile); if (feof(infile)) { the_hdr->priv.get.is_eof = 1; break; /* <--- one of the exits */ } switch(OPCODE(inst)) { case RSkipLinesOp: if (LONGP(inst)) { VAXSHORT(the_hdr->priv.get.vert_skip, infile); } else the_hdr->priv.get.vert_skip = DATUM(inst); if (debug_f) pm_message("Skip %d Lines (to %d)", the_hdr->priv.get.vert_skip, the_hdr->priv.get.scan_y + the_hdr->priv.get.vert_skip); break; /* need to break for() here, too */ case RSetColorOp: channel = DATUM(inst); /* select color channel */ if (channel == 255) channel = -1; scan_x = the_hdr->xmin; if (RLE_BIT(*the_hdr, channel)) scanc = scanline[channel]+scan_x; if (debug_f) pm_message("Set color to %d (reset x to %d)", channel, scan_x ); break; case RSkipPixelsOp: if (LONGP(inst)) { VAXSHORT(long_data, infile); scan_x += long_data; scanc += long_data; if (debug_f) pm_message("Skip %d pixels (to %d)", long_data, scan_x); } else { scan_x += DATUM(inst); scanc += DATUM(inst); if (debug_f) pm_message("Skip %d pixels (to %d)", DATUM(inst), scan_x); } break; case RByteDataOp: if (LONGP(inst)) { VAXSHORT(nc, infile); } else nc = DATUM(inst); ++nc; if (debug_f) { if (RLE_BIT(*the_hdr, channel)) pm_message("Pixel data %d (to %d):", nc, scan_x + nc); else pm_message("Pixel data %d (to %d)", nc, scan_x + nc); } if (RLE_BIT(*the_hdr, channel)) { /* Don't fill past end of scanline! */ if (scan_x + nc > max_x) { ns = scan_x + nc - max_x - 1; nc -= ns; } else ns = 0; fread((char *)scanc, 1, nc, infile); while (ns-- > 0) getc(infile); if (nc & 0x1) getc(infile); /* throw away odd byte */ } else { if (the_hdr->priv.get.is_seek) fseek(infile, ((nc + 1) / 2) * 2, 1); else { int ii; for (ii = ((nc + 1) / 2) * 2; ii > 0; --ii) getc(infile); /* discard it */ } } scanc += nc; scan_x += nc; if (debug_f && RLE_BIT(*the_hdr, channel)) { rle_pixel * cp; for (cp = scanc - nc; nc > 0; --nc) fprintf(stderr, "%02x", *cp++); putc('\n', stderr); } break; case RRunDataOp: if (LONGP(inst)) { VAXSHORT(nc, infile); } else nc = DATUM(inst); ++nc; scan_x += nc; VAXSHORT(word, infile); if (debug_f) pm_message("Run length %d (to %d), data %02x", nc, scan_x, word); if (RLE_BIT(*the_hdr, channel)) { if (scan_x > max_x) { ns = scan_x - max_x - 1; nc -= ns; } else ns = 0; if (nc >= 10) { /* break point for 785, anyway */ memset((char *)scanc, word, nc); scanc += nc; } else { for (nc--; nc >= 0; --nc, ++scanc) *scanc = word; } } break; case REOFOp: the_hdr->priv.get.is_eof = 1; if (debug_f) pm_message("End of Image"); break; default: pm_error("rle_getrow: Unrecognized opcode: %d, reading %s", inst[0], the_hdr->file_name); } if (OPCODE(inst) == RSkipLinesOp || OPCODE(inst) == REOFOp) break; /* <--- the other loop exit */ } /* If at end, skip the rest of a malformed image. */ if (the_hdr->priv.get.scan_y >= the_hdr->ymax) { int const y = the_hdr->priv.get.scan_y; while (rle_getskip(the_hdr) != 32768 ) ; return y; } return the_hdr->priv.get.scan_y; }