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1 /* Watermarking program - Subband DCT Transform based */
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2 /* Module : Testing */
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3 /* Author : Vassilis Fotopoulos */
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4 /* Date : 25/4/2000 */
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5 /* Revision : 6.0 */
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6 /* Developed at : ELLAB */
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7 /* Electronics Laboratory */
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8 /* Department of Physics */
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9 /* University of Patras - GREECE */
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10 /* Copyleft (c) 1999 */
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11 /*------------------------------------------------------*/
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12 /* pseudorandom noise generator's code is */
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13 /* taken from "Numerical Recipes in C" */
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14 /* FCT implementation from University of Bath */
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15 /*------------------------------------------------------*/
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16 #include <stdio.h>
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17 #include <stdlib.h>
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18 #include <string.h>
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19 #include <math.h>
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20 #include <float.h>
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21 #include <getopt.h>
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22 #include "common.h"
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23 #include "pgm.h"
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24
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25 //--------------------------------------------------------
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26 void add_hor_add_ver(double **in, int N, double **out);
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27 void add_hor_sub_ver(double **in, int N, double **out);
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28 void sub_hor_add_ver(double **in, int N, double **out);
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29 void sub_hor_sub_ver(double **in, int N, double **out);
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30 double detect_mark(double *i, int N, long key, long int L, long int M, double a);
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31
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32 //--------------------------------------------------------
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33 double cu[1024];
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34 double cv[1024];
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35 int height, width;
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36 //--------------------------------------------------------
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37 void add_hor_add_ver(double **in, int N, double **out)
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38 {
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39 double **temp;
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40 int r, c;
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41 temp = dmatrix(N, N);
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42 for (r = 0; r < N; r++)
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43 for (c = 0; c < N / 2; c++)
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44 temp[r][c] = (in[r][2 * c] + in[r][2 * c + 1]) / 2;
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45 for (c = 0; c < N / 2; c++)
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46 for (r = 0; r < N / 2; r++)
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47 out[r][c] = (temp[2 * r][c] + temp[2 * r + 1][c]) / 2;
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48 freematrix_d(temp, N);
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49 }
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50 //--------------------------------------------------------
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51 void add_hor_sub_ver(double **in, int N, double **out)
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52 {
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53 double **temp;
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54 int r, c;
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55 temp = dmatrix(N, N);
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56 for (r = 0; r < N; r++)
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57 for (c = 0; c < N / 2; c++)
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58 temp[r][c] = (in[r][2 * c] + in[r][2 * c + 1]) / 2;
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59 for (c = 0; c < N / 2; c++)
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60 for (r = 0; r < N / 2; r++)
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61 out[r][c] = (temp[2 * r][c] - temp[2 * r + 1][c]) / 2;
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62 freematrix_d(temp, N);
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63 }
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64 //--------------------------------------------------------
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65 void sub_hor_add_ver(double **in, int N, double **out)
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66 {
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67 double **temp;
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68 int r, c;
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69 temp = dmatrix(N, N);
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70 for (r = 0; r < N; r++)
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71 for (c = 0; c < N / 2; c++)
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72 temp[r][c] = (in[r][2 * c] - in[r][2 * c + 1]) / 2;
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73 for (c = 0; c < N / 2; c++)
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74 for (r = 0; r < N / 2; r++)
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75 out[r][c] = (temp[2 * r][c] + temp[2 * r + 1][c]) / 2;
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76 freematrix_d(temp, N);
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77 }
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78 //--------------------------------------------------------
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79 void sub_hor_sub_ver(double **in, int N, double **out)
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80 {
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81 double **temp;
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82 int r, c;
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83 temp = dmatrix(N, N);
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84 for (r = 0; r < N; r++)
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85 for (c = 0; c < N / 2; c++)
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86 temp[r][c] = (in[r][2 * c] - in[r][2 * c + 1]) / 2;
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87 for (c = 0; c < N / 2; c++)
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88 for (r = 0; r < N / 2; r++)
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89 out[r][c] = (temp[2 * r][c] - temp[2 * r + 1][c]) / 2;
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90 freematrix_d(temp, N);
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91 }
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92
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93 //---------------------------------------------------------
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94 double detect_mark(double *i, int N, long key, long int L, long int M, double a)
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95 {
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96 int row, col, count;
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97 long int elem, temp, seed;
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98 double z;
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99
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100
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101 seed = key;
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102 z = 0.0;
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103 count = 0;
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104 elem = 0;
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105 row = 2;
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106 col = -1;
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107 do {
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108 do {
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109 row--;
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110 col++;
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111 elem++;
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112 if (col < N) {
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113 if (elem > M) {
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114 temp = row * N + col;
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115 z += i[temp] * gasdev(&seed);
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116 count++;
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117 }
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118 }
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119 } while (row > 0);
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120 row = 2 + col;
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121 col = -1;
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122 } while (count < L);
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123
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124 return (z / L);
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125 }
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126
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127 int main(int argc, char* argv[])
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128 {
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129 double **i;
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130 FILE *in;
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131 int N;
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132 long int key, M1, L1, M2, L2;
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133 double **ll, **lh, **hl, **hh;
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134 double *v1, *v2, *v3, *v99;
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135 double m1, m2, m3, detect_value, m99;
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136 int ** image_i;
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137 int c;
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138 int wm_length_1 = 10000, wm_length_ll = 10000, coeff_start_1 = 3000, coeff_start_ll = 3000;
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139 double a_ll = 0.1, a_other = 0.2;
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140
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141 pgm_init(&argc, argv); wm_init2();
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142
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143 while ((c = getopt(argc, argv, "a:b:t:m:s:l:")) != EOF) {
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144 switch (c) {
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145 case 'a':
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146 a_ll = atof(optarg);
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147 break;
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148 case 'b':
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149 a_other = atof(optarg);
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150 break;
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151 case 't':
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152 coeff_start_1 = atoi(optarg);
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153 break;
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154 case 'm':
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155 wm_length_1 = atoi(optarg);
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156 break;
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157 case 's':
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158 coeff_start_ll = atoi(optarg);
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159 break;
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160 case 'l':
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161 wm_length_ll = atoi(optarg);
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162 break;
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163 }
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164 }
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165 argc -= optind;
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166 argv += optind;
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167
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168 in = stdin;
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169 open_image(in, &width, &height);
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170 image_i = imatrix(height, width);
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171 load_image(image_i, in, width, height);
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172
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173 if (height == width)
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174 N = height;
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175 else {
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176 fprintf(stderr, "Cannot Proccess non-square images!\n");
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177 exit( -11);
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178 }
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179 // starting coeff. for 1st level decomp.
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180 M1 = coeff_start_1;
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181 // number of coeffs to alter
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182 L1 = wm_length_1;
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183 // alpha parameter
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184
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185 // now the LL band
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186 M2 = coeff_start_ll;
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187 L2 = wm_length_ll;
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188
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189
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190 i = dmatrix(N, N);
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191 ll = dmatrix(N / 2, N / 2);
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192 lh = dmatrix(N / 2, N / 2);
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193 hl = dmatrix(N / 2, N / 2);
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194 hh = dmatrix(N / 2, N / 2);
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195 v1 = dvector(N * N / 4);
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196 v2 = dvector(N * N / 4);
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197 v3 = dvector(N * N / 4);
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198 v99 = dvector(N * N / 4);
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199
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200 matrix_i2d(image_i, i, N);
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201
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202 //---------------------1o decomposition-------------------
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203 add_hor_add_ver(i, N, ll);
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204 add_hor_sub_ver(i, N, lh);
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205 sub_hor_add_ver(i, N, hl);
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206 sub_hor_sub_ver(i, N, hh);
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207 //---------------------Detect Watermark from all bands----
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208 put_matrix_2_vector(lh, v1, N / 2);
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209 put_matrix_2_vector(hl, v2, N / 2);
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210 put_matrix_2_vector(hh, v3, N / 2);
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211 put_matrix_2_vector(ll, v99, N / 2);
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212 fct2d(v1, N / 2, N / 2);
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213 fct2d(v2, N / 2, N / 2);
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214 fct2d(v3, N / 2, N / 2);
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215 fct2d(v99, N / 2, N / 2);
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216 for (key = 1; key <= 1000; key++) {
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217 m1 = detect_mark(v1, N / 2, key, L1, M1, a_other);
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218 m2 = detect_mark(v2, N / 2, key, L1, M1, a_other);
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219 m3 = detect_mark(v3, N / 2, key, L1, M1, a_other);
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220 m99 = detect_mark(v99, N / 2, key, L2, M2, a_ll);
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221 detect_value = (m1 + m2 + m3 + m99) / 4;
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222 printf("%ld\t%f\t%f\t%f\t%f\t%f\n", key, m1, m2, m3, m99, detect_value);
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223 }
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224 //--------------------------------------------------------
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225 free(v1);
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226 free(v2);
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227 free(v3);
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228 free(v99);
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229 freematrix_d(ll, N / 2);
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230 freematrix_d(hl, N / 2);
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231 freematrix_d(lh, N / 2);
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232 freematrix_d(hh, N / 2);
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233 fclose(in);
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234
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235 exit(EXIT_SUCCESS);
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236 }
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237
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238
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239
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240
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