Mercurial > hg > wm
view Fotopoulos/cast-sub.c @ 0:be303a3f5ea8
import
author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
---|---|
date | Sun, 12 Aug 2007 13:14:34 +0200 |
parents | |
children | cbecc570129d |
line wrap: on
line source
/* Watermarking program - Subband DCT Transform based */ /* Module : Casting */ /* Author : Vassilis Fotopoulos */ /* Date : 25/4/2000 */ /* Revision : 7.0 */ /* Developed at : ELLAB */ /* Electronics Laboratory */ /* Department of Physics */ /* University of Patras - GREECE */ /* Copyleft (c) 1999 */ /*------------------------------------------------------*/ /* pseudorandom noise generator's code is */ /* taken from "Numerical Recipes in C" */ /* FCT implementation from University of Bath */ /*------------------------------------------------------*/ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <math.h> #include <float.h> #include <getopt.h> #include "common.h" void add_hor_add_ver(double **in, int N, double **out); void add_hor_sub_ver(double **in, int N, double **out); void sub_hor_add_ver(double **in, int N, double **out); void sub_hor_sub_ver(double **in, int N, double **out); void band_synthesis(double **ll, double **lh, double **hl, double **hh, int N, double **s); void watermark(double **i, int N, long key, long int L, long int M, double a); double cu[1024]; double cv[1024]; int height, width; //-------------------------------------------------------- void add_hor_add_ver(double **in, int N, double **out) { double **temp; int r, c; temp = dmatrix(N, N); for (r = 0; r < N; r++) for (c = 0; c < N / 2; c++) temp[r][c] = (in[r][2 * c] + in[r][2 * c + 1]) / 2; for (c = 0; c < N / 2; c++) for (r = 0; r < N / 2; r++) out[r][c] = (temp[2 * r][c] + temp[2 * r + 1][c]) / 2; freematrix_d(temp, N); } //-------------------------------------------------------- void add_hor_sub_ver(double **in, int N, double **out) { double **temp; int r, c; temp = dmatrix(N, N); for (r = 0; r < N; r++) for (c = 0; c < N / 2; c++) temp[r][c] = (in[r][2 * c] + in[r][2 * c + 1]) / 2; for (c = 0; c < N / 2; c++) for (r = 0; r < N / 2; r++) out[r][c] = (temp[2 * r][c] - temp[2 * r + 1][c]) / 2; freematrix_d(temp, N); } //-------------------------------------------------------- void sub_hor_add_ver(double **in, int N, double **out) { double **temp; int r, c; temp = dmatrix(N, N); for (r = 0; r < N; r++) for (c = 0; c < N / 2; c++) temp[r][c] = (in[r][2 * c] - in[r][2 * c + 1]) / 2; for (c = 0; c < N / 2; c++) for (r = 0; r < N / 2; r++) out[r][c] = (temp[2 * r][c] + temp[2 * r + 1][c]) / 2; freematrix_d(temp, N); } //-------------------------------------------------------- void sub_hor_sub_ver(double **in, int N, double **out) { double **temp; int r, c; temp = dmatrix(N, N); for (r = 0; r < N; r++) for (c = 0; c < N / 2; c++) temp[r][c] = (in[r][2 * c] - in[r][2 * c + 1]) / 2; for (c = 0; c < N / 2; c++) for (r = 0; r < N / 2; r++) out[r][c] = (temp[2 * r][c] - temp[2 * r + 1][c]) / 2; freematrix_d(temp, N); } //-------------------------------------------------------- void band_synthesis(double **ll, double **lh, double **hl, double **hh, int N, double **s) { int r, c; double b1, b2, b3, b4; for (r = 0; r < N; r++) for (c = 0; c < N; c++) { b1 = ll[r][c] + lh[r][c] + hl[r][c] + hh[r][c]; //Reconstruct each b2 = ll[r][c] + lh[r][c] - hl[r][c] - hh[r][c]; //of the pixels b3 = ll[r][c] - lh[r][c] + hl[r][c] - hh[r][c]; b4 = ll[r][c] - lh[r][c] - hl[r][c] + hh[r][c]; b1 = (b1 > 255.0) ? 255.0 : b1; //Check for positive... b1 = (b1 < 0.0) ? 0.0 : b1; //or negative core! b2 = (b2 > 255.0) ? 255.0 : b2; b2 = (b2 < 0.0) ? 0.0 : b2; b3 = (b3 > 255.0) ? 255.0 : b3; b3 = (b3 < 0.0) ? 0.0 : b3; b4 = (b4 > 255.0) ? 255.0 : b4; b4 = (b4 < 0.0) ? 0.0 : b4; s[2*r][2*c] = b1; //Put them back in s[2*r][2*c + 1] = b2; //the right position s[2*r + 1][2*c] = b3; s[2*r + 1][2*c + 1] = b4; } } void watermark(double **i, int N, long key, long int L, long int M, double a) { int row, col, count; long int elem, temp, seed; double *v; v = dvector(N * N); put_matrix_2_vector(i, v, N); fct2d(v, N, N); seed = key; count = 0; elem = 0; row = 2; col = -1; do { do { row--; col++; elem++; if (col < N) { if (elem > M) { temp = row * N + col; v[temp] += a * fabs(v[temp]) * gasdev(&seed); count++; } } } while (row > 0); row = 2 + col; col = -1; } while (count < L); ifct2d(v, N, N); put_vector_2_matrix(v, i, N); free(v); } int main(int argc, char* argv[]) { double **i; double **o; FILE *in; FILE *out; int N; int c; long int M1, L1, M2, L2; int **image_i; double **ll, **lh, **hl, **hh; double a_ll = 0.1, a_other = 0.2; int wm_length_1 = 10000, wm_length_ll = 10000, coeff_start_1 = 3000, coeff_start_ll = 3000, wm_key = 123; pgm_init(&argc, argv); wm_init(); while ((c = getopt(argc, argv, "a:b:t:m:s:l:k:")) != EOF) { switch (c) { case 'a': a_ll = atof(optarg); break; case 'b': a_other = atof(optarg); break; case 't': coeff_start_1 = atoi(optarg); break; case 'm': wm_length_1 = atoi(optarg); break; case 's': coeff_start_ll = atoi(optarg); break; case 'l': wm_length_ll = atoi(optarg); break; case 'k': wm_key = atoi(optarg); break; } } argc -= optind; argv += optind; in = stdin; out = stdout; open_image(in, &width, &height); image_i = imatrix(height, width); load_image(image_i, in, width, height); if (height == width) N = height; else { fprintf(stderr, "Cannot Proccess non-square images!\n"); exit( -11); } // starting coeff. for 1st level decomp. M1 = coeff_start_1; // number of coeffs to alter L1 = wm_length_1; // now the LL band M2 = coeff_start_ll; L2 = wm_length_ll; i = dmatrix(N, N); o = dmatrix(N, N); ll = dmatrix(N / 2, N / 2); lh = dmatrix(N / 2, N / 2); hl = dmatrix(N / 2, N / 2); hh = dmatrix(N / 2, N / 2); matrix_i2d(image_i, i, N); //---------------------1o decomposition------------------- add_hor_add_ver(i, N, ll); add_hor_sub_ver(i, N, lh); sub_hor_add_ver(i, N, hl); sub_hor_sub_ver(i, N, hh); //---------------------Watermark medium frequency bands--- watermark(lh, N / 2, wm_key, L1, M1, a_other); watermark(hl, N / 2, wm_key, L1, M1, a_other); watermark(hh, N / 2, wm_key, L1, M1, a_other); watermark(ll, N / 2, wm_key, L2, M2, a_ll); //---------------------Synthesis stage-------------------- band_synthesis(ll, lh, hl, hh, N / 2, o); //-------------------------------------------------------- matrix_d2i(o, image_i, N); save_image(image_i, out, width, height); fclose(in); fclose(out); }