ref: 5613e3f978e406268fe5c42b7da322c0e4bfa7a9
dir: /jbig2_image_pbm.c/
/* jbig2dec Copyright (c) 2002 artofcode LLC. 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. $Id: jbig2_image_pbm.c,v 1.5 2002/06/21 19:10:02 giles Exp $ */ #include <stdio.h> #include "jbig2.h" #include "jbig2_image.h" /* take an image structure and write it to a file in pbm format */ int jbig2_image_write_pbm_file(Jbig2Image *image, char *filename) { FILE *out; int error; if ((out = fopen(filename, "wb")) == NULL) { fprintf(stderr, "unable to open '%s' for writing", filename); return 1; } error = jbig2_image_write_pbm(image, out); fclose(out); return (error); } /* write out an image struct as a pbm stream to an open file pointer */ int jbig2_image_write_pbm(Jbig2Image *image, FILE *out) { int i, short_stride, extra_bits; char *p = (char *)image->data; // pbm header fprintf(out, "P4\n%d %d\n", image->width, image->height); // pbm format pads only to the next byte boundary // so we figure our output byte stride and fixup short_stride = image->width >> 3; extra_bits = image->width - (short_stride << 3); fprintf(stderr, "creating %dx%d pbm image, short_stride %d, extra_bits %d\n", image->width, image->height, short_stride, extra_bits); // write out each row for(i = 0; i < image->height; i++) { fwrite(p, sizeof(*p), short_stride, out); if (extra_bits) fwrite(p + short_stride, sizeof(*p), 1, out); p += image->stride; } /* success */ return 0; } /* take an image from a file in pbm format */ Jbig2Image *jbig2_image_read_pbm_file(Jbig2Ctx *ctx, char *filename) { FILE *in; Jbig2Image *image; if ((in = fopen(filename, "rb")) == NULL) { fprintf(stderr, "unable to open '%s' for reading\n", filename); return NULL; } image = jbig2_image_read_pbm(ctx, in); return (image); } // FIXME: should handle multi-image files Jbig2Image *jbig2_image_read_pbm(Jbig2Ctx *ctx, FILE *in) { int i, dim[2]; int stride, pbm_stride; int done; Jbig2Image *image; char c,buf[32]; char *data; // look for 'P4' magic while ((c = fgetc(in)) != 'P') { if (feof(in)) return NULL; } if ((c = fgetc(in)) != '4') { fprintf(stderr, "not a binary pbm file.\n"); return NULL; } // read size. we must find two decimal numbers representing // the image dimensions. done will index whether we're // looking for the width of the height and i will be our // array index for copying strings into our buffer done = 0; i = 0; while (done < 2) { c = fgetc(in); // skip whitespace if (c == ' ' || c == '\t' || c == '\r' || c == '\n') continue; // skip comments if (c == '#') { while ((c = fgetc(in)) != '\n'); continue; } if (isdigit(c)) { buf[i++] = c; while (isdigit(buf[i++] = fgetc(in))) { if (feof(in) || i >= 32) { fprintf(stderr, "pbm parsing error\n"); return NULL; } } buf[i] = '\0'; sscanf(buf, "%d", &dim[done]); i = 0; done++; } } // allocate image structure image = jbig2_image_new(ctx, dim[0], dim[1]); if (image == NULL) { fprintf(stderr, "could not allocate %dx%d image structure\n", dim[0], dim[1]); return NULL; } // the pbm data is byte-aligned, and our image struct is word-aligned, // so we have to index each line separately pbm_stride = (dim[0] + 1) >> 3; data = (char *)image->data; for (i = 0; i < dim[1]; i++) { fread(data, sizeof(*data), pbm_stride, in); if (feof(in)) { fprintf(stderr, "unexpected end of pbm file.\n"); jbig2_image_free(ctx, image); return NULL; } data += image->stride; } // success return image; }