annotate util/Rice Wavelet Toolbox/mrdwt_r.c @ 113:028599837f1d sup_158_IMG_Processing_toolbox_

Reimplementation of showdict.m function from KSVD toolbox - Image Processing toolbox independent.
author Ivan Damnjanovic lnx <ivan.damnjanovic@eecs.qmul.ac.uk>
date Tue, 24 May 2011 15:13:41 +0100
parents f69ae88b8be5
children
rev   line source
ivan@78 1 /*
ivan@78 2 File Name: MRDWT.c
ivan@78 3 Last Modification Date: 09/21/95 15:42:59
ivan@78 4 Current Version: MRDWT.c 2.4
ivan@78 5 File Creation Date: Wed Oct 12 08:44:43 1994
ivan@78 6 Author: Markus Lang <lang@jazz.rice.edu>
ivan@78 7
ivan@78 8 Copyright (c) 2000 RICE UNIVERSITY. All rights reserved.
ivan@78 9 Created by Markus Lang, Department of ECE, Rice University.
ivan@78 10
ivan@78 11 This software is distributed and licensed to you on a non-exclusive
ivan@78 12 basis, free-of-charge. Redistribution and use in source and binary forms,
ivan@78 13 with or without modification, are permitted provided that the following
ivan@78 14 conditions are met:
ivan@78 15
ivan@78 16 1. Redistribution of source code must retain the above copyright notice,
ivan@78 17 this list of conditions and the following disclaimer.
ivan@78 18 2. Redistribution in binary form must reproduce the above copyright notice,
ivan@78 19 this list of conditions and the following disclaimer in the
ivan@78 20 documentation and/or other materials provided with the distribution.
ivan@78 21 3. All advertising materials mentioning features or use of this software
ivan@78 22 must display the following acknowledgment: This product includes
ivan@78 23 software developed by Rice University, Houston, Texas and its contributors.
ivan@78 24 4. Neither the name of the University nor the names of its contributors
ivan@78 25 may be used to endorse or promote products derived from this software
ivan@78 26 without specific prior written permission.
ivan@78 27
ivan@78 28 THIS SOFTWARE IS PROVIDED BY WILLIAM MARSH RICE UNIVERSITY, HOUSTON, TEXAS,
ivan@78 29 AND CONTRIBUTORS AS IS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
ivan@78 30 BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
ivan@78 31 FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL RICE UNIVERSITY
ivan@78 32 OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
ivan@78 33 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
ivan@78 34 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
ivan@78 35 OR BUSINESS INTERRUPTIONS) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
ivan@78 36 WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
ivan@78 37 OTHERWISE), PRODUCT LIABILITY, OR OTHERWISE ARISING IN ANY WAY OUT OF THE
ivan@78 38 USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
ivan@78 39
ivan@78 40 For information on commercial licenses, contact Rice University's Office of
ivan@78 41 Technology Transfer at techtran@rice.edu or (713) 348-6173
ivan@78 42
ivan@78 43 Change History: Fixed the code such that 1D vectors passed to it can be in
ivan@78 44 either passed as a row or column vector. Also took care of
ivan@78 45 the code such that it will compile with both under standard
ivan@78 46 C compilers as well as for ANSI C compilers
ivan@78 47 Jan Erik Odegard <odegard@ece.rice.edu> Wed Jun 14 1995
ivan@78 48
ivan@78 49 MATLAB description:
ivan@78 50 %[yl,yh] = mrdwt(x,h,L);
ivan@78 51 %
ivan@78 52 % function computes the redundant discrete wavelet transform y for a 1D or
ivan@78 53 % 2D input signal . redundant means here that the subsampling after each
ivan@78 54 % stage is omitted. yl contains the lowpass and yl the highpass
ivan@78 55 % components. In case of a 2D signal the ordering in yh is [lh hl hh lh hl
ivan@78 56 % ... ] (first letter refers to row, second to column filtering).
ivan@78 57 %
ivan@78 58 % Input:
ivan@78 59 % x : finite length 1D or 2D signal (implicitely periodized)
ivan@78 60 % h : scaling filter
ivan@78 61 % L : number of levels. in case of a 1D signal length(x) must be
ivan@78 62 % divisible by 2^L; in case of a 2D signal the row and the
ivan@78 63 % column dimension must be divisible by 2^L.
ivan@78 64 %
ivan@78 65 % Output:
ivan@78 66 % yl : lowpass component
ivan@78 67 % yh : highpass components
ivan@78 68 %
ivan@78 69 % see also: mdwt, midwt, mirdwt
ivan@78 70
ivan@78 71
ivan@78 72 */
ivan@78 73
ivan@78 74 #include <math.h>
ivan@78 75 #include <stdio.h>
ivan@78 76 #include <inttypes.h>
ivan@78 77
ivan@78 78 /*#define mat(a, i, j) (a[m*(j)+i]) */
ivan@78 79 #define max(a, b) ((a) > (b) ? (a) : (b))
ivan@78 80 #define mat(a, i, j) (*(a + (m*(j)+i)))
ivan@78 81
ivan@78 82
ivan@78 83 #ifdef __STDC__
ivan@78 84 MRDWT(double *x, uintptr_t m, uintptr_t n, double *h, uintptr_t lh, uintptr_t L,
ivan@78 85 double *yl, double *yh)
ivan@78 86 #else
ivan@78 87 MRDWT(x, m, n, h, lh, L, yl, yh)
ivan@78 88 double *x, *h, *yl, *yh;
ivan@78 89 uintptr_t m, n, lh, L;
ivan@78 90 #endif
ivan@78 91 {
ivan@78 92 double *tmp;
ivan@78 93 double *h0, *h1, *ydummyll, *ydummylh, *ydummyhl;
ivan@78 94 double *ydummyhh, *xdummyl , *xdummyh;
ivan@78 95 long i, j;
ivan@78 96 uintptr_t actual_L, actual_m, actual_n, c_o_a, ir, n_c, n_cb, n_c_o;
ivan@78 97 uintptr_t ic, n_r, n_rb, n_r_o, c_o_a_p2n, sample_f;
ivan@78 98 xdummyl = (double *)(uintptr_t)mxCalloc(max(m,n)+lh-1,sizeof(double));
ivan@78 99 xdummyh = (double *)(uintptr_t)mxCalloc(max(m,n)+lh-1,sizeof(double));
ivan@78 100 ydummyll = (double *)(uintptr_t)mxCalloc(max(m,n),sizeof(double));
ivan@78 101 ydummylh = (double *)(uintptr_t)mxCalloc(max(m,n),sizeof(double));
ivan@78 102 ydummyhl = (double *)(uintptr_t)mxCalloc(max(m,n),sizeof(double));
ivan@78 103 ydummyhh = (double *)(uintptr_t)mxCalloc(max(m,n),sizeof(double));
ivan@78 104 h0 = (double *)(uintptr_t)mxCalloc(lh,sizeof(double));
ivan@78 105 h1 = (double *)(uintptr_t)mxCalloc(lh,sizeof(double));
ivan@78 106
ivan@78 107 if (n==1){
ivan@78 108 n = m;
ivan@78 109 m = 1;
ivan@78 110 }
ivan@78 111 /* analysis lowpass and highpass */
ivan@78 112 for (i=0; i<lh; i++){
ivan@78 113 h0[i] = h[lh-i-1];
ivan@78 114 h1[i] =h[i];
ivan@78 115 }
ivan@78 116 for (i=0; i<lh; i+=2)
ivan@78 117 h1[i] = -h1[i];
ivan@78 118
ivan@78 119 actual_m = 2*m;
ivan@78 120 actual_n = 2*n;
ivan@78 121 for (i=0; i<m*n; i++)
ivan@78 122 yl[i] = x[i];
ivan@78 123
ivan@78 124 /* main loop */
ivan@78 125 sample_f = 1;
ivan@78 126 for (actual_L=1; actual_L <= L; actual_L++){
ivan@78 127 actual_m = actual_m/2;
ivan@78 128 actual_n = actual_n/2;
ivan@78 129 /* actual (level dependent) column offset */
ivan@78 130 if (m==1)
ivan@78 131 c_o_a = n*(actual_L-1);
ivan@78 132 else
ivan@78 133 c_o_a = 3*n*(actual_L-1);
ivan@78 134 c_o_a_p2n = c_o_a + 2*n;
ivan@78 135
ivan@78 136 /* go by rows */
ivan@78 137 n_cb = n/actual_n; /* # of column blocks per row */
ivan@78 138 for (ir=0; ir<m; ir++){ /* loop over rows */
ivan@78 139 for (n_c=0; n_c<n_cb; n_c++){ /* loop within one row */
ivan@78 140 /* store in dummy variable */
ivan@78 141 ic = -sample_f + n_c;
ivan@78 142 for (i=0; i<actual_n; i++){
ivan@78 143 ic = ic + sample_f;
ivan@78 144 xdummyl[i] = mat(yl, ir, ic);
ivan@78 145 }
ivan@78 146 /* perform filtering lowpass/highpass */
ivan@78 147 fpconv(xdummyl, actual_n, h0, h1, lh, ydummyll, ydummyhh);
ivan@78 148 /* restore dummy variables in matrices */
ivan@78 149 ic = -sample_f + n_c;
ivan@78 150 for (i=0; i<actual_n; i++){
ivan@78 151 ic = ic + sample_f;
ivan@78 152 mat(yl, ir, ic) = ydummyll[i];
ivan@78 153 mat(yh, ir, c_o_a+ic) = ydummyhh[i];
ivan@78 154 }
ivan@78 155 }
ivan@78 156 }
ivan@78 157
ivan@78 158 /* go by columns in case of a 2D signal*/
ivan@78 159 if (m>1){
ivan@78 160 n_rb = m/actual_m; /* # of row blocks per column */
ivan@78 161 for (ic=0; ic<n; ic++){ /* loop over column */
ivan@78 162 for (n_r=0; n_r<n_rb; n_r++){ /* loop within one column */
ivan@78 163 /* store in dummy variables */
ivan@78 164 ir = -sample_f + n_r;
ivan@78 165 for (i=0; i<actual_m; i++){
ivan@78 166 ir = ir + sample_f;
ivan@78 167 xdummyl[i] = mat(yl, ir, ic);
ivan@78 168 xdummyh[i] = mat(yh, ir,c_o_a+ic);
ivan@78 169 }
ivan@78 170 /* perform filtering: first LL/LH, then HL/HH */
ivan@78 171 fpconv(xdummyl, actual_m, h0, h1, lh, ydummyll, ydummylh);
ivan@78 172 fpconv(xdummyh, actual_m, h0, h1, lh, ydummyhl, ydummyhh);
ivan@78 173 /* restore dummy variables in matrices */
ivan@78 174 ir = -sample_f + n_r;
ivan@78 175 for (i=0; i<actual_m; i++){
ivan@78 176 ir = ir + sample_f;
ivan@78 177 mat(yl, ir, ic) = ydummyll[i];
ivan@78 178 mat(yh, ir, c_o_a+ic) = ydummylh[i];
ivan@78 179 mat(yh, ir,c_o_a+n+ic) = ydummyhl[i];
ivan@78 180 mat(yh, ir, c_o_a_p2n+ic) = ydummyhh[i];
ivan@78 181 }
ivan@78 182 }
ivan@78 183 }
ivan@78 184 }
ivan@78 185 sample_f = sample_f*2;
ivan@78 186 }
ivan@78 187 }
ivan@78 188
ivan@78 189 #ifdef __STDC__
ivan@78 190 fpconv(double *x_in, uintptr_t lx, double *h0, double *h1, uintptr_t lh,
ivan@78 191 double *x_outl, double *x_outh)
ivan@78 192 #else
ivan@78 193 fpconv(x_in, lx, h0, h1, lh, x_outl, x_outh)
ivan@78 194 double *x_in, *h0, *h1, *x_outl, *x_outh;
ivan@78 195 uintptr_t lx, lh;
ivan@78 196 #endif
ivan@78 197 {
ivan@78 198 uintptr_t i, j;
ivan@78 199 double x0, x1;
ivan@78 200
ivan@78 201 for (i=lx; i < lx+lh-1; i++)
ivan@78 202 x_in[i] = x_in[i-lx];
ivan@78 203 for (i=0; i<lx; i++){
ivan@78 204 x0 = 0;
ivan@78 205 x1 = 0;
ivan@78 206 for (j=0; j<lh; j++){
ivan@78 207 x0 = x0 + x_in[j+i]*h0[lh-1-j];
ivan@78 208 x1 = x1 + x_in[j+i]*h1[lh-1-j];
ivan@78 209 }
ivan@78 210 x_outl[i] = x0;
ivan@78 211 x_outh[i] = x1;
ivan@78 212 }
ivan@78 213 }