/* * "$Id$" * * SGI image file format library routines. * * Copyright 1997 Michael Sweet (mike@easysw.com) * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the Free * Software Foundation; either version 2 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * Contents: * * sgiClose() - Close an SGI image file. * sgiGetRow() - Get a row of image data from a file. * sgiOpen() - Open an SGI image file for reading or writing. * sgiPutRow() - Put a row of image data to a file. * getlong() - Get a 32-bit big-endian integer. * getshort() - Get a 16-bit big-endian integer. * putlong() - Put a 32-bit big-endian integer. * putshort() - Put a 16-bit big-endian integer. * read_rle8() - Read 8-bit RLE data. * read_rle16() - Read 16-bit RLE data. * write_rle8() - Write 8-bit RLE data. * write_rle16() - Write 16-bit RLE data. * * Revision History: * * $Log$ * Revision 1.5 1998/04/13 05:43:40 yosh * Have fun recompiling gimp everyone. It's the great FSF address change! * * -Yosh * * Revision 1.4 1998/04/11 05:07:50 yosh * * app/app_procs.c: fixed up idle handler for file open (look like testgtk * idle demo) * * * app/colomaps.c: fixup for visual test and use of gdk_color_alloc for some * fixed colors (from Owen Taylor) * * * app/errors.h * * app/errors.c * * app/main.c * * libgimp/gimp.c: redid the signal handlers so we only get a debug prompt on * SIGSEGV, SIGBUS, and SIGFPE. * * * applied gimp-jbuhler-980408-0 and gimp-joke-980409-0 (warning fixups) * * * applied gimp-monnaux-980409-0 for configurable plugin path for multiarch * setups * * -Yosh * * Revision 1.3 1998/04/01 22:14:53 neo * Added checks for print spoolers to configure.in as suggested by Michael * Sweet. The print plug-in still needs some changes to Makefile.am to make * make use of this. * * Updated print and sgi plug-ins to version on the registry. * * * --Sven * * Revision 1.3 1997/07/02 16:40:16 mike * sgiOpen() wasn't opening files with "rb" or "wb+". This caused problems * on PCs running Windows/DOS... * * Revision 1.2 1997/06/18 00:55:28 mike * Updated to hold length table when writing. * Updated to hold current length when doing ARLE. * Wasn't writing length table on close. * Wasn't saving new line into arle_row when necessary. * * Revision 1.1 1997/06/15 03:37:19 mike * Initial revision */ #include "sgi.h" /* * Local functions... */ static int getlong(FILE *); static int getshort(FILE *); static int putlong(long, FILE *); static int putshort(short, FILE *); static int read_rle8(FILE *, short *, int); static int read_rle16(FILE *, short *, int); static int write_rle8(FILE *, short *, int); static int write_rle16(FILE *, short *, int); /* * 'sgiClose()' - Close an SGI image file. */ int sgiClose(sgi_t *sgip) /* I - SGI image */ { int i; /* Return status */ long *offset; /* Looping var for offset table */ if (sgip == NULL) return (-1); if (sgip->mode == SGI_WRITE && sgip->comp != SGI_COMP_NONE) { /* * Write the scanline offset table to the file... */ fseek(sgip->file, 512, SEEK_SET); for (i = sgip->ysize * sgip->zsize, offset = sgip->table[0]; i > 0; i --, offset ++) if (putlong(offset[0], sgip->file) < 0) return (-1); for (i = sgip->ysize * sgip->zsize, offset = sgip->length[0]; i > 0; i --, offset ++) if (putlong(offset[0], sgip->file) < 0) return (-1); } if (sgip->table != NULL) { free(sgip->table[0]); free(sgip->table); } if (sgip->length != NULL) { free(sgip->length[0]); free(sgip->length); } if (sgip->comp == SGI_COMP_ARLE) free(sgip->arle_row); i = fclose(sgip->file); free(sgip); return (i); } /* * 'sgiGetRow()' - Get a row of image data from a file. */ int sgiGetRow(sgi_t *sgip, /* I - SGI image */ short *row, /* O - Row to read */ int y, /* I - Line to read */ int z) /* I - Channel to read */ { int x; /* X coordinate */ long offset; /* File offset */ if (sgip == NULL || row == NULL || y < 0 || y >= sgip->ysize || z < 0 || z >= sgip->zsize) return (-1); switch (sgip->comp) { case SGI_COMP_NONE : /* * Seek to the image row - optimize buffering by only seeking if * necessary... */ offset = 512 + (y + z * sgip->ysize) * sgip->xsize * sgip->bpp; if (offset != ftell(sgip->file)) fseek(sgip->file, offset, SEEK_SET); if (sgip->bpp == 1) { for (x = sgip->xsize; x > 0; x --, row ++) *row = getc(sgip->file); } else { for (x = sgip->xsize; x > 0; x --, row ++) *row = getshort(sgip->file); } break; case SGI_COMP_RLE : offset = sgip->table[z][y]; if (offset != ftell(sgip->file)) fseek(sgip->file, offset, SEEK_SET); if (sgip->bpp == 1) return (read_rle8(sgip->file, row, sgip->xsize)); else return (read_rle16(sgip->file, row, sgip->xsize)); break; } return (0); } /* * 'sgiOpen()' - Open an SGI image file for reading or writing. */ sgi_t * sgiOpen(char *filename, /* I - File to open */ int mode, /* I - Open mode (SGI_READ or SGI_WRITE) */ int comp, /* I - Type of compression */ int bpp, /* I - Bytes per pixel */ int xsize, /* I - Width of image in pixels */ int ysize, /* I - Height of image in pixels */ int zsize) /* I - Number of channels */ { int i, j; /* Looping var */ char name[80]; /* Name of file in image header */ short magic; /* Magic number */ sgi_t *sgip; /* New image pointer */ if ((sgip = calloc(sizeof(sgi_t), 1)) == NULL) return (NULL); switch (mode) { case SGI_READ : if (filename == NULL) { free(sgip); return (NULL); } if ((sgip->file = fopen(filename, "rb")) == NULL) { free(sgip); return (NULL); } sgip->mode = SGI_READ; magic = getshort(sgip->file); if (magic != SGI_MAGIC) { fclose(sgip->file); free(sgip); return (NULL); } sgip->comp = getc(sgip->file); sgip->bpp = getc(sgip->file); getshort(sgip->file); /* Dimensions */ sgip->xsize = getshort(sgip->file); sgip->ysize = getshort(sgip->file); sgip->zsize = getshort(sgip->file); getlong(sgip->file); /* Minimum pixel */ getlong(sgip->file); /* Maximum pixel */ if (sgip->comp) { /* * This file is compressed; read the scanline tables... */ fseek(sgip->file, 512, SEEK_SET); sgip->table = calloc(sgip->zsize, sizeof(long *)); sgip->table[0] = calloc(sgip->ysize * sgip->zsize, sizeof(long)); for (i = 1; i < sgip->zsize; i ++) sgip->table[i] = sgip->table[0] + i * sgip->ysize; for (i = 0; i < sgip->zsize; i ++) for (j = 0; j < sgip->ysize; j ++) sgip->table[i][j] = getlong(sgip->file); } break; case SGI_WRITE : if (filename == NULL || xsize < 1 || ysize < 1 || zsize < 1 || bpp < 1 || bpp > 2 || comp < SGI_COMP_NONE || comp > SGI_COMP_ARLE) { free(sgip); return (NULL); } if ((sgip->file = fopen(filename, "wb+")) == NULL) { free(sgip); return (NULL); } sgip->mode = SGI_WRITE; putshort(SGI_MAGIC, sgip->file); putc((sgip->comp = comp) != 0, sgip->file); putc(sgip->bpp = bpp, sgip->file); putshort(3, sgip->file); /* Dimensions */ putshort(sgip->xsize = xsize, sgip->file); putshort(sgip->ysize = ysize, sgip->file); putshort(sgip->zsize = zsize, sgip->file); if (bpp == 1) { putlong(0, sgip->file); /* Minimum pixel */ putlong(255, sgip->file); /* Maximum pixel */ } else { putlong(-32768, sgip->file); /* Minimum pixel */ putlong(32767, sgip->file); /* Maximum pixel */ } putlong(0, sgip->file); /* Reserved */ memset(name, 0, sizeof(name)); if (strrchr(filename, '/') == NULL) strncpy(name, filename, sizeof(name) - 1); else strncpy(name, strrchr(filename, '/') + 1, sizeof(name) - 1); fwrite(name, sizeof(name), 1, sgip->file); for (i = 0; i < 102; i ++) putlong(0, sgip->file); switch (comp) { case SGI_COMP_NONE : /* No compression */ /* * This file is uncompressed. To avoid problems with sparse files, * we need to write blank pixels for the entire image... */ if (bpp == 1) { for (i = xsize * ysize * zsize; i > 0; i --) putc(0, sgip->file); } else { for (i = xsize * ysize * zsize; i > 0; i --) putshort(0, sgip->file); } break; case SGI_COMP_ARLE : /* Aggressive RLE */ sgip->arle_row = calloc(xsize, sizeof(short)); sgip->arle_offset = 0; case SGI_COMP_RLE : /* Run-Length Encoding */ /* * This file is compressed; write the (blank) scanline tables... */ for (i = 2 * ysize * zsize; i > 0; i --) putlong(0, sgip->file); sgip->firstrow = ftell(sgip->file); sgip->nextrow = ftell(sgip->file); sgip->table = calloc(sgip->zsize, sizeof(long *)); sgip->table[0] = calloc(sgip->ysize * sgip->zsize, sizeof(long)); for (i = 1; i < sgip->zsize; i ++) sgip->table[i] = sgip->table[0] + i * sgip->ysize; sgip->length = calloc(sgip->zsize, sizeof(long *)); sgip->length[0] = calloc(sgip->ysize * sgip->zsize, sizeof(long)); for (i = 1; i < sgip->zsize; i ++) sgip->length[i] = sgip->length[0] + i * sgip->ysize; break; } break; default : free(sgip); return (NULL); } return (sgip); } /* * 'sgiPutRow()' - Put a row of image data to a file. */ int sgiPutRow(sgi_t *sgip, /* I - SGI image */ short *row, /* I - Row to write */ int y, /* I - Line to write */ int z) /* I - Channel to write */ { int x; /* X coordinate */ long offset; /* File offset */ if (sgip == NULL || row == NULL || y < 0 || y >= sgip->ysize || z < 0 || z >= sgip->zsize) return (-1); switch (sgip->comp) { case SGI_COMP_NONE : /* * Seek to the image row - optimize buffering by only seeking if * necessary... */ offset = 512 + (y + z * sgip->ysize) * sgip->xsize * sgip->bpp; if (offset != ftell(sgip->file)) fseek(sgip->file, offset, SEEK_SET); if (sgip->bpp == 1) { for (x = sgip->xsize; x > 0; x --, row ++) putc(*row, sgip->file); } else { for (x = sgip->xsize; x > 0; x --, row ++) putshort(*row, sgip->file); } break; case SGI_COMP_ARLE : if (sgip->table[z][y] != 0) return (-1); /* * First check the last row written... */ if (sgip->arle_offset > 0) { for (x = 0; x < sgip->xsize; x ++) if (row[x] != sgip->arle_row[x]) break; if (x == sgip->xsize) { sgip->table[z][y] = sgip->arle_offset; sgip->length[z][y] = sgip->arle_length; return (0); } } /* * If that didn't match, search all the previous rows... */ fseek(sgip->file, sgip->firstrow, SEEK_SET); if (sgip->bpp == 1) { do { sgip->arle_offset = ftell(sgip->file); if ((sgip->arle_length = read_rle8(sgip->file, sgip->arle_row, sgip->xsize)) < 0) { x = 0; break; } for (x = 0; x < sgip->xsize; x ++) if (row[x] != sgip->arle_row[x]) break; } while (x < sgip->xsize); } else { do { sgip->arle_offset = ftell(sgip->file); if ((sgip->arle_length = read_rle16(sgip->file, sgip->arle_row, sgip->xsize)) < 0) { x = 0; break; } for (x = 0; x < sgip->xsize; x ++) if (row[x] != sgip->arle_row[x]) break; } while (x < sgip->xsize); } if (x == sgip->xsize) { sgip->table[z][y] = sgip->arle_offset; sgip->length[z][y] = sgip->arle_length; return (0); } else fseek(sgip->file, 0, SEEK_END); /* Clear EOF */ case SGI_COMP_RLE : if (sgip->table[z][y] != 0) return (-1); offset = sgip->table[z][y] = sgip->nextrow; if (offset != ftell(sgip->file)) fseek(sgip->file, offset, SEEK_SET); if (sgip->bpp == 1) x = write_rle8(sgip->file, row, sgip->xsize); else x = write_rle16(sgip->file, row, sgip->xsize); if (sgip->comp == SGI_COMP_ARLE) { sgip->arle_offset = offset; sgip->arle_length = x; memcpy(sgip->arle_row, row, sgip->xsize * sizeof(short)); } sgip->nextrow = ftell(sgip->file); sgip->length[z][y] = x; return (x); } return (0); } /* * 'getlong()' - Get a 32-bit big-endian integer. */ static int getlong(FILE *fp) /* I - File to read from */ { unsigned char b[4]; fread(b, 4, 1, fp); return ((b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]); } /* * 'getshort()' - Get a 16-bit big-endian integer. */ static int getshort(FILE *fp) /* I - File to read from */ { unsigned char b[2]; fread(b, 2, 1, fp); return ((b[0] << 8) | b[1]); } /* * 'putlong()' - Put a 32-bit big-endian integer. */ static int putlong(long n, /* I - Long to write */ FILE *fp) /* I - File to write to */ { if (putc(n >> 24, fp) == EOF) return (EOF); if (putc(n >> 16, fp) == EOF) return (EOF); if (putc(n >> 8, fp) == EOF) return (EOF); if (putc(n, fp) == EOF) return (EOF); else return (0); } /* * 'putshort()' - Put a 16-bit big-endian integer. */ static int putshort(short n, /* I - Short to write */ FILE *fp) /* I - File to write to */ { if (putc(n >> 8, fp) == EOF) return (EOF); if (putc(n, fp) == EOF) return (EOF); else return (0); } /* * 'read_rle8()' - Read 8-bit RLE data. */ static int read_rle8(FILE *fp, /* I - File to read from */ short *row, /* O - Data */ int xsize) /* I - Width of data in pixels */ { int i, /* Looping var */ ch, /* Current character */ count, /* RLE count */ length; /* Number of bytes read... */ length = 0; while (xsize > 0) { if ((ch = getc(fp)) == EOF) return (-1); length ++; count = ch & 127; if (count == 0) break; if (ch & 128) { for (i = 0; i < count; i ++, row ++, xsize --, length ++) *row = getc(fp); } else { ch = getc(fp); length ++; for (i = 0; i < count; i ++, row ++, xsize --) *row = ch; } } return (xsize > 0 ? -1 : length); } /* * 'read_rle16()' - Read 16-bit RLE data. */ static int read_rle16(FILE *fp, /* I - File to read from */ short *row, /* O - Data */ int xsize) /* I - Width of data in pixels */ { int i, /* Looping var */ ch, /* Current character */ count, /* RLE count */ length; /* Number of bytes read... */ length = 0; while (xsize > 0) { if ((ch = getshort(fp)) == EOF) return (-1); length ++; count = ch & 127; if (count == 0) break; if (ch & 128) { for (i = 0; i < count; i ++, row ++, xsize --, length ++) *row = getshort(fp); } else { ch = getshort(fp); length ++; for (i = 0; i < count; i ++, row ++, xsize --) *row = ch; } } return (xsize > 0 ? -1 : length * 2); } /* * 'write_rle8()' - Write 8-bit RLE data. */ static int write_rle8(FILE *fp, /* I - File to write to */ short *row, /* I - Data */ int xsize) /* I - Width of data in pixels */ { int length, count, i, x; short *start, repeat; for (x = xsize, length = 0; x > 0;) { start = row; row += 2; x -= 2; while (x > 0 && (row[-2] != row[-1] || row[-1] != row[0])) { row ++; x --; } row -= 2; x += 2; count = row - start; while (count > 0) { i = count > 126 ? 126 : count; count -= i; if (putc(128 | i, fp) == EOF) return (-1); length ++; while (i > 0) { if (putc(*start, fp) == EOF) return (-1); start ++; i --; length ++; } } if (x <= 0) break; start = row; repeat = row[0]; row ++; x --; while (x > 0 && *row == repeat) { row ++; x --; } count = row - start; while (count > 0) { i = count > 126 ? 126 : count; count -= i; if (putc(i, fp) == EOF) return (-1); length ++; if (putc(repeat, fp) == EOF) return (-1); length ++; } } length ++; if (putc(0, fp) == EOF) return (-1); else return (length); } /* * 'write_rle16()' - Write 16-bit RLE data. */ static int write_rle16(FILE *fp, /* I - File to write to */ short *row, /* I - Data */ int xsize)/* I - Width of data in pixels */ { int length, count, i, x; short *start, repeat; for (x = xsize, length = 0; x > 0;) { start = row; row += 2; x -= 2; while (x > 0 && (row[-2] != row[-1] || row[-1] != row[0])) { row ++; x --; } row -= 2; x += 2; count = row - start; while (count > 0) { i = count > 126 ? 126 : count; count -= i; if (putshort(128 | i, fp) == EOF) return (-1); length ++; while (i > 0) { if (putshort(*start, fp) == EOF) return (-1); start ++; i --; length ++; } } if (x <= 0) break; start = row; repeat = row[0]; row ++; x --; while (x > 0 && *row == repeat) { row ++; x --; } count = row - start; while (count > 0) { i = count > 126 ? 126 : count; count -= i; if (putshort(i, fp) == EOF) return (-1); length ++; if (putshort(repeat, fp) == EOF) return (-1); length ++; } } length ++; if (putshort(0, fp) == EOF) return (-1); else return (2 * length); } /* * End of "$Id$". */