1 /*
2  * The copyright in this software is being made available under the 2-clauses
3  * BSD License, included below. This software may be subject to other third
4  * party and contributor rights, including patent rights, and no such rights
5  * are granted under this license.
6  *
7  * Copyright (c) 2002-2014, Universite catholique de Louvain (UCL), Belgium
8  * Copyright (c) 2002-2014, Professor Benoit Macq
9  * Copyright (c) 2001-2003, David Janssens
10  * Copyright (c) 2002-2003, Yannick Verschueren
11  * Copyright (c) 2003-2007, Francois-Olivier Devaux
12  * Copyright (c) 2003-2014, Antonin Descampe
13  * Copyright (c) 2005, Herve Drolon, FreeImage Team
14  * Copyright (c) 2008, 2011-2012, Centre National d'Etudes Spatiales (CNES), FR
15  * Copyright (c) 2012, CS Systemes d'Information, France
16  * All rights reserved.
17  *
18  * Redistribution and use in source and binary forms, with or without
19  * modification, are permitted provided that the following conditions
20  * are met:
21  * 1. Redistributions of source code must retain the above copyright
22  *    notice, this list of conditions and the following disclaimer.
23  * 2. Redistributions in binary form must reproduce the above copyright
24  *    notice, this list of conditions and the following disclaimer in the
25  *    documentation and/or other materials provided with the distribution.
26  *
27  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS `AS IS'
28  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
29  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
30  * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
31  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
32  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
33  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
34  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
35  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
36  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
37  * POSSIBILITY OF SUCH DAMAGE.
38  */
39 
40 #include "opj_includes.h"
41 
42 /*
43 ==========================================================
44    Tag-tree coder interface
45 ==========================================================
46 */
47 
opj_tgt_create(OPJ_UINT32 numleafsh,OPJ_UINT32 numleafsv,opj_event_mgr_t * manager)48 opj_tgt_tree_t *opj_tgt_create(OPJ_UINT32 numleafsh, OPJ_UINT32 numleafsv, opj_event_mgr_t *manager) {
49         OPJ_INT32 nplh[32];
50         OPJ_INT32 nplv[32];
51         opj_tgt_node_t *node = 00;
52         opj_tgt_node_t *l_parent_node = 00;
53         opj_tgt_node_t *l_parent_node0 = 00;
54         opj_tgt_tree_t *tree = 00;
55         OPJ_UINT32 i;
56         OPJ_INT32  j,k;
57         OPJ_UINT32 numlvls;
58         OPJ_UINT32 n;
59 
60         tree = (opj_tgt_tree_t *) opj_calloc(1,sizeof(opj_tgt_tree_t));
61         if(!tree) {
62                 opj_event_msg(manager, EVT_ERROR, "Not enough memory to create Tag-tree\n");
63                 return 00;
64         }
65 
66         tree->numleafsh = numleafsh;
67         tree->numleafsv = numleafsv;
68 
69         numlvls = 0;
70         nplh[0] = (OPJ_INT32)numleafsh;
71         nplv[0] = (OPJ_INT32)numleafsv;
72         tree->numnodes = 0;
73         do {
74                 n = (OPJ_UINT32)(nplh[numlvls] * nplv[numlvls]);
75                 nplh[numlvls + 1] = (nplh[numlvls] + 1) / 2;
76                 nplv[numlvls + 1] = (nplv[numlvls] + 1) / 2;
77                 tree->numnodes += n;
78                 ++numlvls;
79         } while (n > 1);
80 
81         /* ADD */
82         if (tree->numnodes == 0) {
83                 opj_free(tree);
84                 opj_event_msg(manager, EVT_WARNING, "tgt_create tree->numnodes == 0, no tree created.\n");
85                 return 00;
86         }
87 
88         tree->nodes = (opj_tgt_node_t*) opj_calloc(tree->numnodes, sizeof(opj_tgt_node_t));
89         if(!tree->nodes) {
90                 opj_event_msg(manager, EVT_ERROR, "Not enough memory to create Tag-tree nodes\n");
91                 opj_free(tree);
92                 return 00;
93         }
94         tree->nodes_size = tree->numnodes * (OPJ_UINT32)sizeof(opj_tgt_node_t);
95 
96         node = tree->nodes;
97         l_parent_node = &tree->nodes[tree->numleafsh * tree->numleafsv];
98         l_parent_node0 = l_parent_node;
99 
100         for (i = 0; i < numlvls - 1; ++i) {
101                 for (j = 0; j < nplv[i]; ++j) {
102                         k = nplh[i];
103                         while (--k >= 0) {
104                                 node->parent = l_parent_node;
105                                 ++node;
106                                 if (--k >= 0) {
107                                         node->parent = l_parent_node;
108                                         ++node;
109                                 }
110                                 ++l_parent_node;
111                         }
112                         if ((j & 1) || j == nplv[i] - 1) {
113                                 l_parent_node0 = l_parent_node;
114                         } else {
115                                 l_parent_node = l_parent_node0;
116                                 l_parent_node0 += nplh[i];
117                         }
118                 }
119         }
120         node->parent = 0;
121         opj_tgt_reset(tree);
122         return tree;
123 }
124 
125 /**
126  * Reinitialises a tag-tree from an existing one.
127  *
128  * @param       p_tree                          the tree to reinitialize.
129  * @param       p_num_leafs_h           the width of the array of leafs of the tree
130  * @param       p_num_leafs_v           the height of the array of leafs of the tree
131  * @return      a new tag-tree if successful, NULL otherwise
132 */
opj_tgt_init(opj_tgt_tree_t * p_tree,OPJ_UINT32 p_num_leafs_h,OPJ_UINT32 p_num_leafs_v,opj_event_mgr_t * p_manager)133 opj_tgt_tree_t *opj_tgt_init(opj_tgt_tree_t * p_tree,OPJ_UINT32 p_num_leafs_h, OPJ_UINT32 p_num_leafs_v, opj_event_mgr_t *p_manager)
134 {
135         OPJ_INT32 l_nplh[32];
136         OPJ_INT32 l_nplv[32];
137         opj_tgt_node_t *l_node = 00;
138         opj_tgt_node_t *l_parent_node = 00;
139         opj_tgt_node_t *l_parent_node0 = 00;
140         OPJ_UINT32 i;
141         OPJ_INT32 j,k;
142         OPJ_UINT32 l_num_levels;
143         OPJ_UINT32 n;
144         OPJ_UINT32 l_node_size;
145 
146         if (! p_tree){
147                 return 00;
148         }
149 
150         if ((p_tree->numleafsh != p_num_leafs_h) || (p_tree->numleafsv != p_num_leafs_v)) {
151                 p_tree->numleafsh = p_num_leafs_h;
152                 p_tree->numleafsv = p_num_leafs_v;
153 
154                 l_num_levels = 0;
155                 l_nplh[0] = (OPJ_INT32)p_num_leafs_h;
156                 l_nplv[0] = (OPJ_INT32)p_num_leafs_v;
157                 p_tree->numnodes = 0;
158                 do
159                 {
160                         n = (OPJ_UINT32)(l_nplh[l_num_levels] * l_nplv[l_num_levels]);
161                         l_nplh[l_num_levels + 1] = (l_nplh[l_num_levels] + 1) / 2;
162                         l_nplv[l_num_levels + 1] = (l_nplv[l_num_levels] + 1) / 2;
163                         p_tree->numnodes += n;
164                         ++l_num_levels;
165                 }
166                 while (n > 1);
167 
168                 /* ADD */
169                 if (p_tree->numnodes == 0) {
170                         opj_tgt_destroy(p_tree);
171                         return 00;
172                 }
173                 l_node_size = p_tree->numnodes * (OPJ_UINT32)sizeof(opj_tgt_node_t);
174 
175                 if (l_node_size > p_tree->nodes_size) {
176                         opj_tgt_node_t* new_nodes = (opj_tgt_node_t*) opj_realloc(p_tree->nodes, l_node_size);
177                         if (! new_nodes) {
178                                 opj_event_msg(p_manager, EVT_ERROR, "Not enough memory to reinitialize the tag tree\n");
179                                 opj_tgt_destroy(p_tree);
180                                 return 00;
181                         }
182                         p_tree->nodes = new_nodes;
183                         memset(((char *) p_tree->nodes) + p_tree->nodes_size, 0 , l_node_size - p_tree->nodes_size);
184                         p_tree->nodes_size = l_node_size;
185                 }
186                 l_node = p_tree->nodes;
187                 l_parent_node = &p_tree->nodes[p_tree->numleafsh * p_tree->numleafsv];
188                 l_parent_node0 = l_parent_node;
189 
190                 for (i = 0; i < l_num_levels - 1; ++i) {
191                         for (j = 0; j < l_nplv[i]; ++j) {
192                                 k = l_nplh[i];
193                                 while (--k >= 0) {
194                                         l_node->parent = l_parent_node;
195                                         ++l_node;
196                                         if (--k >= 0) {
197                                                 l_node->parent = l_parent_node;
198                                                 ++l_node;
199                                         }
200                                         ++l_parent_node;
201                                         }
202                                 if ((j & 1) || j == l_nplv[i] - 1)
203                                 {
204                                         l_parent_node0 = l_parent_node;
205                                 }
206                                 else
207                                 {
208                                         l_parent_node = l_parent_node0;
209                                         l_parent_node0 += l_nplh[i];
210                                 }
211                         }
212                 }
213                 l_node->parent = 0;
214         }
215         opj_tgt_reset(p_tree);
216 
217         return p_tree;
218 }
219 
opj_tgt_destroy(opj_tgt_tree_t * p_tree)220 void opj_tgt_destroy(opj_tgt_tree_t *p_tree)
221 {
222         if (! p_tree) {
223                 return;
224         }
225 
226         if (p_tree->nodes) {
227                 opj_free(p_tree->nodes);
228                 p_tree->nodes = 00;
229         }
230         opj_free(p_tree);
231 }
232 
opj_tgt_reset(opj_tgt_tree_t * p_tree)233 void opj_tgt_reset(opj_tgt_tree_t *p_tree) {
234         OPJ_UINT32 i;
235         opj_tgt_node_t * l_current_node = 00;;
236 
237         if (! p_tree) {
238                 return;
239         }
240 
241         l_current_node = p_tree->nodes;
242         for     (i = 0; i < p_tree->numnodes; ++i)
243         {
244                 l_current_node->value = 999;
245                 l_current_node->low = 0;
246                 l_current_node->known = 0;
247                 ++l_current_node;
248         }
249 }
250 
opj_tgt_setvalue(opj_tgt_tree_t * tree,OPJ_UINT32 leafno,OPJ_INT32 value)251 void opj_tgt_setvalue(opj_tgt_tree_t *tree, OPJ_UINT32 leafno, OPJ_INT32 value) {
252         opj_tgt_node_t *node;
253         node = &tree->nodes[leafno];
254         while (node && node->value > value) {
255                 node->value = value;
256                 node = node->parent;
257         }
258 }
259 
opj_tgt_encode(opj_bio_t * bio,opj_tgt_tree_t * tree,OPJ_UINT32 leafno,OPJ_INT32 threshold)260 void opj_tgt_encode(opj_bio_t *bio, opj_tgt_tree_t *tree, OPJ_UINT32 leafno, OPJ_INT32 threshold) {
261         opj_tgt_node_t *stk[31];
262         opj_tgt_node_t **stkptr;
263         opj_tgt_node_t *node;
264         OPJ_INT32 low;
265 
266         stkptr = stk;
267         node = &tree->nodes[leafno];
268         while (node->parent) {
269                 *stkptr++ = node;
270                 node = node->parent;
271         }
272 
273         low = 0;
274         for (;;) {
275                 if (low > node->low) {
276                         node->low = low;
277                 } else {
278                         low = node->low;
279                 }
280 
281                 while (low < threshold) {
282                         if (low >= node->value) {
283                                 if (!node->known) {
284                                         opj_bio_write(bio, 1, 1);
285                                         node->known = 1;
286                                 }
287                                 break;
288                         }
289                         opj_bio_write(bio, 0, 1);
290                         ++low;
291                 }
292 
293                 node->low = low;
294                 if (stkptr == stk)
295                         break;
296                 node = *--stkptr;
297         }
298 }
299 
opj_tgt_decode(opj_bio_t * bio,opj_tgt_tree_t * tree,OPJ_UINT32 leafno,OPJ_INT32 threshold)300 OPJ_UINT32 opj_tgt_decode(opj_bio_t *bio, opj_tgt_tree_t *tree, OPJ_UINT32 leafno, OPJ_INT32 threshold) {
301         opj_tgt_node_t *stk[31];
302         opj_tgt_node_t **stkptr;
303         opj_tgt_node_t *node;
304         OPJ_INT32 low;
305 
306         stkptr = stk;
307         node = &tree->nodes[leafno];
308         while (node->parent) {
309                 *stkptr++ = node;
310                 node = node->parent;
311         }
312 
313         low = 0;
314         for (;;) {
315                 if (low > node->low) {
316                         node->low = low;
317                 } else {
318                         low = node->low;
319                 }
320                 while (low < threshold && low < node->value) {
321                         if (opj_bio_read(bio, 1)) {
322                                 node->value = low;
323                         } else {
324                                 ++low;
325                         }
326                 }
327                 node->low = low;
328                 if (stkptr == stk) {
329                         break;
330                 }
331                 node = *--stkptr;
332         }
333 
334         return (node->value < threshold) ? 1 : 0;
335 }
336