Mercurial > hg > wm
view Meerwald/frid2_common.c @ 16:4987db85cfae
fix another scanf() warning
author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
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date | Mon, 30 Jun 2008 21:03:40 +0200 |
parents | be303a3f5ea8 |
children | bd669312f068 |
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#include "frid2_common.h" #include "signature.h" #include "wm.h" extern char *progname; void embed_low_freq(double **dcts, int cols, int rows, double alpha, int verbose) { int n; int row, col, dir; n = 0; row = col = 0; dir = 1; while (n < nbit_signature) { double d, x; int embed; int out; col -= dir; row += dir; if (col < 0) { dir = -1; col = 0; } if (col >= cols) { dir = 1; col = cols - 1; row += 2; } if (row < 0) { dir = 1; row = 0; } if (row >= rows) { dir = -1; row = rows - 1; col += 2; } d = dcts[row][col]; if (fabs(d) <= 1.0) { if (verbose > 3) fprintf(stderr, "%s: bit #%d - skipped (%d/%d)\n", progname, n, col, row); continue; } embed = 2 * get_signature_bit(n) - 1; x = (d > 0.0) ? 1.0 : -1.0; out = 1; while (fabs(x) < fabs(d)) { x *= FORWARD_STEP(alpha); out =- out; } if (out != embed) { if (fabs(d - x) < fabs(d - x * BACKWARD_STEP(alpha))) x *= FORWARD_STEP(alpha); else x *= BACKWARD_STEP(alpha); } d = (x + x * BACKWARD_STEP(alpha)) / 2.0; if (verbose > 3) fprintf(stderr, "%s: embedding bit #%d (= %d) at (%d/%d): %f -> %f\n", progname, n, get_signature_bit(n), col, row, dcts[row][col], d); dcts[row][col] = d; n++; } } void embed_med_freq(double **dcts, int cols, int rows, double gamma, int seed, int verbose) { // select mid-frequency (30%) coefficients int start = (int) (0.35 * rows * cols + 0.5); int end = (int) (0.65 * rows * cols + 0.5); double *vector; int x = 0, y = 0, dir = 1; int i, j; vector = malloc((end - start) * sizeof(double)); for (i = 0; i < (end - start); i++) vector[i] = 0.0; // create pseudo-random vector srandom(seed); for (i = 0; i < nbit_signature; i++) { if (get_signature_bit(i)) random(); for (j = 0; j < (end - start); j++) vector[j] += (double) (random() & RAND_MAX) / (double) RAND_MAX - 0.5; if (!get_signature_bit(i)) random(); } for (i = 0; i < (end - start); i++) vector[i] /= sqrt(nbit_signature); for (i = 0; i < end; i++) { // zig-zag scan x -= dir; y += dir; if (x < 0) { dir = -1; x = 0; } if (x >= cols) { dir = 1; x = cols - 1; y += 2; } if (y < 0) { dir = 1; y = 0; } if (y >= rows) { dir = -1; y = rows - 1; x += 2; } // embed vector if ((i - start) >= 0) { // fprintf(stderr, "%d/%d: %f -> %f\n", x, y, dcts[y][x], dcts[y][x] + gamma * vector[i - start]); dcts[y][x] += gamma * vector[i - start]; } } free(vector); } double detect_low_freq(double **dcts, int cols, int rows, double alpha, double beta, int verbose) { int n; int row, col, dir; double sum1, sum2; n = 0; row = col = 0; dir = 1; sum1 = sum2 = 0.0; while (n < nbit_signature1) { double d, x; int detect; int out; col -= dir; row += dir; if (col < 0) { dir = -1; col = 0; } if (col >= cols) { dir = 1; col = cols - 1; row += 2; } if (row < 0) { dir = 1; row = 0; } if (row >= rows) { dir = -1; row = rows - 1; col += 2; } d = dcts[row][col]; if (fabs(d) <= 1.0) { if (verbose > 3) fprintf(stderr, "%s: bit #%d - skipped (%d/%d)\n", progname, n, col, row); continue; } detect = 2 * get_signature1_bit(n) - 1; x = (d > 0.0) ? 1.0 : -1.0; out = 1; while (fabs(x) < fabs(d)) { x *= FORWARD_STEP(alpha); out =- out; } if (verbose > 3) fprintf(stderr, "%s: detected bit #%d (= %d) at (%d/%d): %f\n", progname, n, out > 0 ? 1 : 0, col, row, d); set_signature2_bit(n, out > 0 ? 1 : 0); sum1 += pow(fabs(d), beta) * out * detect; sum2 += pow(fabs(d), beta); n++; } return sum1 / sum2; } double detect_med_freq(double **dcts, int cols, int rows, int seed, int verbose) { int i, j, k; int start= (int) (0.35 * rows * cols + 0.5); int end = (int) (.65 * rows * cols + 0.5); int sum, sum1, sum2; int x = 0, y = 0, dir = 1; double *vector; int startx, starty, startdir; double corr[2]; double correlation; // locate start positions for (i = 0; i < start; i++) { x -= dir; y += dir; if (x < 0) { dir = -1; x = 0; } if (x >= cols) { dir = 1; x = cols - 1; y += 2; } if (y < 0) { dir = 1; y = 0; } if (y >= rows) { dir = -1; y = rows - 1; x += 2; } } // save start positions startx = x; starty = y; startdir = dir; srandom(seed); vector = malloc((end - start) * sizeof(double)); for (i = 0; i < nbit_signature1; i++) { for (j = 0; j <= (end - start); j++) vector[j] = (double) (random() & RAND_MAX) / (double) RAND_MAX - 0.5; for (j = 0; j <= 1; j++) { x = startx; y = starty; dir = startdir; corr[j] = 0; for (k = 0; start + k < end; k++) { x -= dir; y += dir; if (x < 0) { dir = -1; x = 0; } if (x >= cols) { dir = 1; x = cols - 1; y += 2; } if (y < 0) { dir = 1; y = 0; } if (y >= rows) { dir = -1; y = rows - 1; x += 2; } corr[j] += dcts[y][x] * vector[k + j]; } } set_signature2_bit(i, (corr[0] >= corr[1]) ? 0 : 1); } sum = 0; sum1 = 0; sum2 = 0; for (i = 0; i < nbit_signature1; i++) { sum += get_signature1_bit(i) * get_signature2_bit(i); sum1 += get_signature1_bit(i) * get_signature1_bit(i); sum2 += get_signature2_bit(i) * get_signature2_bit(i); } correlation = (double) sum / (sqrt(sum1) * sqrt(sum2)); return correlation; }