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📄 wm_kim_e.c

📁 包含了多个matlab编程在图像中加入水印的处理代码
💻 C
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#include "wm.h"#include "dwt.h"#include "pgm.h"#include "dwt_util.h"#include "kim_common.h"char *progname;void usage(void) {  fprintf(stderr, "usage: %s [-a n] [-A n] [-e n] [-f n] [-F n] [-h] [-l n] [-o file] [-v n] -s file file\n\n", progname);  fprintf(stderr, "\t-a n\t\talpha factor/embedding strength for detail subbands\n");  fprintf(stderr, "\t-a n\t\talpha factor/embedding strength for approximation subband\n");  fprintf(stderr, "\t-e n\t\twavelet filtering method\n");  fprintf(stderr, "\t-f n\t\tfilter number\n");  fprintf(stderr, "\t-F file\t\tfilter definition file\n");  fprintf(stderr, "\t-h\t\tprint usage\n");  fprintf(stderr, "\t-l n\t\tdecomposition level\n");  fprintf(stderr, "\t-o file\t\toutput (watermarked) file\n");  fprintf(stderr, "\t-s file\t\tsignature to embed in input image\n");  fprintf(stderr, "\t-v n\t\tverbosity level\n");  exit(0);}int mark_subband(Image_tree s, int name, double alpha, double watermark[], double threshold, int w, int n, int verbose) {  int i, j;  for (i = 5; i < s->image->height-5; i++)    for (j = 5; j < s->image->width-5; j++) {      double coeff, newcoeff;      coeff = get_pixel(s->image, i, j);         if (fabs(coeff) > threshold) {        newcoeff = coeff + alpha * coeff * watermark[w % n];        set_pixel(s->image, i, j, newcoeff);         if (verbose >= 9)           fprintf(stderr, "%s: (%d/%d) %f: %f -> %f\n", progname, j, i, watermark[w % n], coeff, newcoeff);        w++;      }    }  if (verbose > 5)    fprintf(stderr, "%s: watermarking %s%d, size %d x %d; embedded %d coeffs. total\n",      progname, subband_name(name), s->level, s->image->width, s->image->height, w);  return w;}int main(int argc, char *argv[]) {  FILE *in = stdin;  FILE *out = stdout;  FILE *sig = NULL;  char output_name[MAXPATHLEN] = "(stdout)";  char input_name[MAXPATHLEN] = "(stdin)";  char signature_name[MAXPATHLEN];  int i, c, w;  int row, col;  int n;  double alpha_detail = 0.0;  double alpha_approx = 0.0;  int level;  int filter = 0;  int method = -1;  int levels;  char filter_name[MAXPATHLEN] = "";  int verbose = 0;  gray **image;  Image_tree p, dwts;  gray maxval;  int rows, cols, colors, format;  double *watermark;  progname = argv[0];  pgm_init(&argc, argv); wm_init();  while ((c = getopt(argc, argv, "a:A:e:f:F:h?o:l:s:v:")) != EOF) {    switch (c) {      case 'a':        alpha_detail = atof(optarg);        if (alpha_detail <= 0.0) {          fprintf(stderr, "%s: alpha factor %f out of range\n", progname, alpha_detail);          exit(1);        }        break;      case 'A':        alpha_approx = atof(optarg);        if (alpha_approx <= 0.0) {          fprintf(stderr, "%s: alpha factor %f out of range\n", progname, alpha_approx);          exit(1);        }        break;      case 'l':        level = atoi(optarg);        if (level <= 0) {          fprintf(stderr, "%s: decomposition level %d out of range\n", progname, level);          exit(1);        }        break;      case 'e':        method = atoi(optarg);        if (method < 0) {          fprintf(stderr, "%s: wavelet filtering method %d out of range\n", progname, method);          exit(1);        }        break;      case 'f':        filter = atoi(optarg);        if (filter <= 0) {          fprintf(stderr, "%s: filter number %d out of range\n", progname, filter);          exit(1);        }        break;      case 'F':        strcpy(filter_name, optarg);        break;      case 'h':      case '?':        usage();        break;      case 'o':        if ((out = fopen(optarg, "wb")) == NULL) {          fprintf(stderr, "%s: unable to open output file %s\n", progname, optarg);          exit(1);        }        strcpy(output_name, optarg);        break;      case 's':        if ((sig = fopen(optarg, "r")) == NULL) {          fprintf(stderr, "%s: unable to open signature file %s\n", progname, optarg);          exit(1);        }        strcpy(signature_name, optarg);        break;      case 'v':        verbose = atoi(optarg);        if (verbose < 0) {          fprintf(stderr, "%s: verbosity level %d out of range\n", progname, verbose);          exit(1);        }        break;    }  }  argc -= optind;  argv += optind;  if (argc > 1) {    usage();    exit(1);  }  if (argc == 1 && *argv[0] != '-')    if ((in = fopen(argv[0], "rb")) == NULL) {      fprintf(stderr, "%s: unable to open input file %s\n", progname, argv[0]);      exit(1);    }    else      strcpy(input_name, argv[0]);  if (sig) {    char line[32];    fgets(line, sizeof(line), sig);    if (strspn(line, "KISG") >= 4) {      fscanf(sig, "%d\n", &n);      if (alpha_detail == 0.0)        fscanf(sig, "%lf\n", &alpha_detail);      else        fscanf(sig, "%*lf\n");      if (alpha_approx == 0.0)        fscanf(sig, "%lf\n", &alpha_approx);      else        fscanf(sig, "%*lf\n");      if (level == 0)        fscanf(sig, "%d\n", &level);      else        fscanf(sig, "%*d\n");      if (method < 0)        fscanf(sig, "%d\n", &method);      else        fscanf(sig, "%*d\n");      if (filter == 0)        fscanf(sig, "%d\n", &filter);      else        fscanf(sig, "%*d\n");      if (!strcmp(filter_name, ""))        fscanf(sig, "%[^\n\r]\n", &filter_name);      else        fscanf(sig, "%*[^\n\r]\n");    }    else {      fprintf(stderr, "%s: invalid signature file %s\n", progname, signature_name);      exit(1);    }  }  else {    fprintf(stderr, "%s: signature file not specified, use -s file option\n", progname);    exit(1);  }  watermark = malloc(n * sizeof(double));  for (i = 0; i < n; i++)     fscanf(sig, "%lf\n", &watermark[i]);  fclose(sig);  pgm_readpgminit(in, &cols, &rows, &maxval, &format);  image = pgm_allocarray(cols, rows);  for (row = 0; row < rows; row++)    pgm_readpgmrow(in, image[row], cols, maxval, format);  fclose(in);  // complete decomposition  levels = find_deepest_level(cols, rows) - 1;  if (level > levels) {    fprintf(stderr, "%s: decomposition level %d not possible (max. %d), image size is %d x %d\n", progname, level, levels, cols, rows);    exit(1);  }  // wavelet transform  init_dwt(cols, rows, filter_name, filter, level, method);#ifdef POLLEN_STUFF#include "pollen_stuff.xxx"#endif#ifdef PARAM_STUFF#include "param_stuff.xxx"#endif  dwts = fdwt(image);  p = dwts;  w = 0;  // process each decomposition level  while (p->coarse) {    int current_level;    double threshold;    double max_coeff;    double alpha;    // get current decomposition level number    current_level = p->horizontal->level;    // find largest absolute coefficient in detail subbands of current decomposition level    max_coeff = find_level_largest_coeff(p, verbose);    // calculate significance threshold for current decomposition level    threshold = calc_level_threshold(max_coeff, verbose);    // calculate embedding strength alpha for current decomposition level    alpha = calc_level_alpha_detail(alpha_detail, level, current_level, verbose);    if (verbose > 1)      fprintf(stderr, "%s: level %d, threshold %f, alpha %f\n", progname, current_level, threshold, alpha);    // embed watermark sequence into detail subbands of current decomposition level    w = mark_subband(p->horizontal, HORIZONTAL, alpha, watermark, threshold, w, n, verbose);    w = mark_subband(p->vertical, VERTICAL, alpha, watermark, threshold, w, n, verbose);    w = mark_subband(p->diagonal, DIAGONAL, alpha, watermark, threshold, w, n, verbose);    p = p->coarse;  }  // mark approximation image using calculated significance threshold and embedding strength  w = mark_subband(p, COARSE, alpha_approx, watermark, calc_level_threshold(find_subband_largest_coeff(p, COARSE, verbose), verbose), w, n, verbose);  free(watermark);  idwt(dwts, image);  pgm_writepgminit(out, cols, rows, maxval, 0);  for (row = 0; row < rows; row++)    pgm_writepgmrow(out, image[row], cols, maxval, 0);  fclose(out);  pgm_freearray(image, rows);  exit(0);}

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