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Comparing deliantra/server/common/image.C (file contents):
Revision 1.4 by root, Mon Sep 4 11:07:59 2006 UTC vs.
Revision 1.13 by root, Fri Jan 19 17:50:10 2007 UTC

1/* 1/*
2 * static char *rcsid_image_c =
3 * "$Id: image.C,v 1.4 2006/09/04 11:07:59 root Exp $";
4 */
5
6/*
7 CrossFire, A Multiplayer game for X-windows 2 * CrossFire, A Multiplayer game
8 3 *
4 * Copyright (C) 2005, 2006, 2007 Marc Lehmann & Crossfire+ Development Team
9 Copyright (C) 2002 Mark Wedel & Crossfire Development Team 5 * Copyright (C) 2002 Mark Wedel & Crossfire Development Team
10 Copyright (C) 1992 Frank Tore Johansen 6 * Copyright (C) 1992 Frank Tore Johansen
11 7 *
12 This program is free software; you can redistribute it and/or modify 8 * This program is free software; you can redistribute it and/or modify
13 it under the terms of the GNU General Public License as published by 9 * it under the terms of the GNU General Public License as published by
14 the Free Software Foundation; either version 2 of the License, or 10 * the Free Software Foundation; either version 2 of the License, or
15 (at your option) any later version. 11 * (at your option) any later version.
16 12 *
17 This program is distributed in the hope that it will be useful, 13 * This program is distributed in the hope that it will be useful,
18 but WITHOUT ANY WARRANTY; without even the implied warranty of 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 GNU General Public License for more details. 16 * GNU General Public License for more details.
21 17 *
22 You should have received a copy of the GNU General Public License 18 * You should have received a copy of the GNU General Public License
23 along with this program; if not, write to the Free Software 19 * along with this program; if not, write to the Free Software
24 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 20 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25 21 *
26 The maintainer of this code can be reached at crossfire-devel@real-time.com 22 * The maintainer of this code can be reached at <crossfire@schmorp.de>
27*/ 23 */
28 24
29 25
30#include <global.h> 26#include <global.h>
31#include <stdio.h> 27#include <stdio.h>
32 28
33New_Face *new_faces; 29facetile *new_faces;
34 30
35/* bmappair and xbm are used when looking for the image id numbers 31/* bmappair and xbm are used when looking for the image id numbers
36 * of a face by name. xbm is sorted alphabetically so that bsearch 32 * of a face by name. xbm is sorted alphabetically so that bsearch
37 * can be used to quickly find the entry for a name. the number is 33 * can be used to quickly find the entry for a name. the number is
38 * then an index into the new_faces array. 34 * then an index into the new_faces array.
48{ 44{
49 char *name; 45 char *name;
50 unsigned int number; 46 unsigned int number;
51}; 47};
52 48
53void free (bmappair *); // guard to catch free when delete should be used 49void free (bmappair *); // guard to catch free when delete should be used
54 50
55static struct bmappair *xbm=NULL; 51static struct bmappair *xbm = NULL;
56 52
57/* Following can just as easily be pointers, but 53/* Following can just as easily be pointers, but
58 * it is easier to keep them like this. 54 * it is easier to keep them like this.
59 */ 55 */
60New_Face *blank_face, *dark_faces[3], *empty_face, *smooth_face; 56facetile *blank_face, *dark_faces[3], *empty_face, *smooth_face;
61 57
62 58
63/* nroffiles is the actual number of bitmaps defined. 59/* nroffiles is the actual number of bitmaps defined.
64 * nrofpixmaps is the number of bitmaps loaded. With 60 * nrofpixmaps is the number of bitmaps loaded. With
65 * the automatic generation of the bmaps file, this is now equal 61 * the automatic generation of the bmaps file, this is now equal
74int nrofpixmaps = 0; 70int nrofpixmaps = 0;
75 71
76/** 72/**
77 * id is the face to smooth, smooth is the 16x2 face used to smooth id. 73 * id is the face to smooth, smooth is the 16x2 face used to smooth id.
78 */ 74 */
79struct smoothing : zero_initialised 75struct smoothing:zero_initialised
80{ 76{
81 uint16 id; 77 uint16 id;
82 uint16 smooth; 78 uint16 smooth;
83}; 79};
84 80
85void free (smoothing *); // guard to catch free when delete should be used 81void free (smoothing *); // guard to catch free when delete should be used
86 82
87/** 83/**
88 * Contains all defined smoothing entries. smooth is an array of nrofsmooth 84 * Contains all defined smoothing entries. smooth is an array of nrofsmooth
89 * entries. It is sorted by smooth[].id. 85 * entries. It is sorted by smooth[].id.
90 */ 86 */
91static struct smoothing *smooth=NULL; 87static struct smoothing *smooth = NULL;
92int nrofsmooth=0; 88int nrofsmooth = 0;
93 89
94/* the only thing this table is used for now is to 90/* the only thing this table is used for now is to
95 * translate the colorname in the magicmap field of the 91 * translate the colorname in the magicmap field of the
96 * face into a numeric index that is then sent to the 92 * face into a numeric index that is then sent to the
97 * client for magic map commands. The order of this table 93 * client for magic map commands. The order of this table
98 * must match that of the NDI colors in include/newclient.h. 94 * must match that of the NDI colors in include/newclient.h.
99 */ 95 */
100static const char *const colorname[] = { 96static const char *const colorname[] = {
101"black", /* 0 */ 97 "black", /* 0 */
102"white", /* 1 */ 98 "white", /* 1 */
103"blue", /* 2 */ 99 "blue", /* 2 */
104"red", /* 3 */ 100 "red", /* 3 */
105"orange", /* 4 */ 101 "orange", /* 4 */
106"light_blue", /* 5 */ 102 "light_blue", /* 5 */
107"dark_orange", /* 6 */ 103 "dark_orange", /* 6 */
108"green", /* 7 */ 104 "green", /* 7 */
109"light_green", /* 8 */ 105 "light_green", /* 8 */
110"grey", /* 9 */ 106 "grey", /* 9 */
111"brown", /* 10 */ 107 "brown", /* 10 */
112"yellow", /* 11 */ 108 "yellow", /* 11 */
113"khaki" /* 12 */ 109 "khaki" /* 12 */
114}; 110};
115 111
112static int
116static int compar (const struct bmappair *a, const struct bmappair *b) { 113compar (const struct bmappair *a, const struct bmappair *b)
114{
117 return strcmp (a->name, b->name); 115 return strcmp (a->name, b->name);
118} 116}
117
118static int
119static int compar_smooth (const struct smoothing *a, const struct smoothing *b) { 119compar_smooth (const struct smoothing *a, const struct smoothing *b)
120{
120 if (a->id<b->id) 121 if (a->id < b->id)
121 return -1; 122 return -1;
122 if (b->id<a->id) 123 if (b->id < a->id)
123 return 1;
124 return 0; 124 return 1;
125 return 0;
125} 126}
126
127 127
128/* 128/*
129 * Returns the matching color in the coloralias if found, 129 * Returns the matching color in the coloralias if found,
130 * 0 otherwise. Note that 0 will actually be black, so there is no 130 * 0 otherwise. Note that 0 will actually be black, so there is no
131 * way the calling function can tell if an error occurred or not 131 * way the calling function can tell if an error occurred or not
132 */ 132 */
133 133static uint8
134static uint8 find_color(const char *name) { 134find_color (const char *name)
135{
135 uint8 i; 136 uint8 i;
137
136 for(i=0;i<sizeof(colorname)/sizeof(*colorname);i++) 138 for (i = 0; i < sizeof (colorname) / sizeof (*colorname); i++)
137 if(!strcmp(name,colorname[i])) 139 if (!strcmp (name, colorname[i]))
138 return i; 140 return i;
139 LOG(llevError,"Unknown color: %s\n",name); 141 LOG (llevError, "Unknown color: %s\n", name);
140 return 0; 142 return 0;
141} 143}
142 144
143/* This reads the lib/faces file, getting color and visibility information. 145/* This reads the lib/faces file, getting color and visibility information.
144 * it is called by ReadBmapNames. 146 * it is called by ReadBmapNames.
145 */ 147 */
146 148static void
147static void ReadFaceData(void) 149ReadFaceData (void)
148{ 150{
149 char buf[MAX_BUF], *cp; 151 char buf[MAX_BUF], *cp;
150 New_Face *on_face=NULL; 152 facetile *on_face = NULL;
151 FILE *fp; 153 FILE *fp;
152 154
153 sprintf(buf,"%s/faces", settings.datadir); 155 sprintf (buf, "%s/faces", settings.datadir);
154 LOG(llevDebug,"Reading faces from %s...",buf); 156 LOG (llevDebug, "Reading faces from %s...\n", buf);
155 if ((fp=fopen(buf,"r"))==NULL) { 157 if ((fp = fopen (buf, "r")) == NULL)
158 {
156 LOG(llevError, "Cannot open faces file %s: %s\n", buf, strerror(errno)); 159 LOG (llevError, "Cannot open faces file %s: %s\n", buf, strerror (errno));
157 exit(-1); 160 exit (-1);
158 } 161 }
159 while (fgets(buf, MAX_BUF, fp)!=NULL) { 162 while (fgets (buf, MAX_BUF, fp) != NULL)
160 if (*buf=='#') continue; 163 {
164 if (*buf == '#')
165 continue;
161 if (!strncmp(buf,"end",3)) { 166 if (!strncmp (buf, "end", 3))
167 {
162 on_face = NULL; 168 on_face = NULL;
163 } 169 }
164 else if (!strncmp(buf,"face",4)) { 170 else if (!strncmp (buf, "face", 4))
171 {
165 int tmp; 172 int tmp;
166 173
167 cp = buf + 5; 174 cp = buf + 5;
168 cp[strlen(cp)-1] = '\0'; /* remove newline */ 175 cp[strlen (cp) - 1] = '\0'; /* remove newline */
169 176
170 if ((tmp=FindFace(cp,-1))==-1) { 177 if ((tmp = FindFace (cp, -1)) == -1)
178 {
171 LOG(llevError,"Could not find face %s\n", cp); 179 LOG (llevError, "Could not find face %s\n", cp);
172 continue; 180 continue;
173 } 181 }
174 on_face = &new_faces[tmp]; 182 on_face = &new_faces[tmp];
175 on_face->visibility=0; 183 on_face->visibility = 0;
176 } 184 }
177 else if (on_face==NULL) { 185 else if (on_face == NULL)
186 {
178 LOG(llevError,"Got line with no face set: %s\n", buf); 187 LOG (llevError, "Got line with no face set: %s\n", buf);
179 } 188 }
180 else if (!strncmp(buf,"color_fg",8)) { 189 else if (!strncmp (buf, "color_fg", 8))
190 {
181 cp = buf + 9; 191 cp = buf + 9;
182 cp[strlen(cp)-1] = '\0'; 192 cp[strlen (cp) - 1] = '\0';
183 if (on_face->magicmap==255) on_face->magicmap=find_color(cp); 193 if (on_face->magicmap == 255)
194 on_face->magicmap = find_color (cp);
184 } 195 }
185 else if (!strncmp(buf,"color_bg",8)) { 196 else if (!strncmp (buf, "color_bg", 8))
197 {
186 /* ignore it */ 198 /* ignore it */
187 } 199 }
188 else if (!strncmp(buf,"visibility",10)) { 200 else if (!strncmp (buf, "visibility", 10))
201 {
189 on_face->visibility = atoi(buf + 11); 202 on_face->visibility = atoi (buf + 11);
190 } 203 }
191 else if (!strncmp(buf,"magicmap",8)) { 204 else if (!strncmp (buf, "magicmap", 8))
205 {
192 cp=buf+9; 206 cp = buf + 9;
193 cp[strlen(cp)-1] = '\0'; 207 cp[strlen (cp) - 1] = '\0';
194 on_face->magicmap=find_color(cp); 208 on_face->magicmap = find_color (cp);
195 } 209 }
196 else if (!strncmp(buf,"is_floor",8)) { 210 else if (!strncmp (buf, "is_floor", 8))
211 {
197 int value = atoi(buf+9); 212 int value = atoi (buf + 9);
213
214 if (value)
198 if (value) on_face->magicmap |= FACE_FLOOR; 215 on_face->magicmap |= FACE_FLOOR;
199 } 216 }
217 else
200 else LOG(llevDebug,"Got unknown line in faces file: %s\n", buf); 218 LOG (llevDebug, "Got unknown line in faces file: %s\n", buf);
201 } 219 }
220
202 LOG(llevDebug,"done\n"); 221 LOG (llevDebug, "done\n");
203 fclose(fp); 222 fclose (fp);
204} 223}
205 224
206/* This reads the bmaps file to get all the bitmap names and 225/* This reads the bmaps file to get all the bitmap names and
207 * stuff. It only needs to be done once, because it is player 226 * stuff. It only needs to be done once, because it is player
208 * independent (ie, what display the person is on will not make a 227 * independent (ie, what display the person is on will not make a
209 * difference.) 228 * difference.)
210 */ 229 */
211 230void
212void ReadBmapNames (void) { 231ReadBmapNames (void)
232{
213 char buf[MAX_BUF], *p, *q; 233 char buf[MAX_BUF], *p, *q;
214 FILE *fp; 234 FILE *fp;
215 int value, nrofbmaps = 0, i; 235 int value, nrofbmaps = 0, i;
216 size_t l; 236 size_t l;
217 237
218 bmaps_checksum=0; 238 bmaps_checksum = 0;
219 sprintf (buf,"%s/bmaps", settings.datadir); 239 sprintf (buf, "%s/bmaps", settings.datadir);
220 LOG(llevDebug,"Reading bmaps from %s...",buf); 240 LOG (llevDebug, "Reading bmaps from %s...\n", buf);
221 if ((fp=fopen(buf,"r"))==NULL) { 241 if ((fp = fopen (buf, "r")) == NULL)
242 {
222 LOG(llevError, "Cannot open bmaps file %s: %s\n", buf, strerror(errno)); 243 LOG (llevError, "Cannot open bmaps file %s: %s\n", buf, strerror (errno));
223 exit(-1); 244 exit (-1);
224 }
225 245 }
246
226 /* First count how many bitmaps we have, so we can allocate correctly */ 247 /* First count how many bitmaps we have, so we can allocate correctly */
227 while (fgets (buf, MAX_BUF, fp)!=NULL) 248 while (fgets (buf, MAX_BUF, fp) != NULL)
228 if(buf[0] != '#' && buf[0] != '\n' ) 249 if (buf[0] != '#' && buf[0] != '\n')
229 nrofbmaps++; 250 nrofbmaps++;
230 rewind(fp); 251 rewind (fp);
231 252
232 xbm = new bmappair [nrofbmaps]; 253 xbm = new bmappair[nrofbmaps];
233 memset (xbm, 0, sizeof (struct bmappair) * nrofbmaps); 254 memset (xbm, 0, sizeof (struct bmappair) * nrofbmaps);
234 255
235 while(nroffiles < nrofbmaps && fgets (buf, MAX_BUF, fp) != NULL) { 256 while (nroffiles < nrofbmaps && fgets (buf, MAX_BUF, fp) != NULL)
257 {
236 if (*buf == '#') 258 if (*buf == '#')
237 continue; 259 continue;
238 260
239 p = (*buf == '\\') ? (buf + 1): buf; 261 p = (*buf == '\\') ? (buf + 1) : buf;
240 if (!(p = strtok (p , " \t")) || !(q = strtok (NULL , " \t\n"))) { 262 if (!(p = strtok (p, " \t")) || !(q = strtok (NULL, " \t\n")))
263 {
241 LOG(llevDebug,"Warning, syntax error: %s\n", buf); 264 LOG (llevDebug, "Warning, syntax error: %s\n", buf);
242 continue; 265 continue;
243 } 266 }
244 value = atoi (p); 267 value = atoi (p);
245 xbm[nroffiles].name = strdup_local(q); 268 xbm[nroffiles].name = strdup (q);
246 269
247 /* We need to calculate the checksum of the bmaps file 270 /* We need to calculate the checksum of the bmaps file
248 * name->number mapping to send to the client. This does not 271 * name->number mapping to send to the client. This does not
249 * need to match what sum or other utility may come up with - 272 * need to match what sum or other utility may come up with -
250 * as long as we get the same results on the same real file 273 * as long as we get the same results on the same real file
251 * data, it does the job as it lets the client know if 274 * data, it does the job as it lets the client know if
252 * the file has the same data or not. 275 * the file has the same data or not.
253 */ 276 */
254 ROTATE_RIGHT(bmaps_checksum); 277 ROTATE_RIGHT (bmaps_checksum);
255 bmaps_checksum += value & 0xff; 278 bmaps_checksum += value & 0xff;
256 bmaps_checksum &= 0xffffffff; 279 bmaps_checksum &= 0xffffffff;
257 280
258 ROTATE_RIGHT(bmaps_checksum); 281 ROTATE_RIGHT (bmaps_checksum);
259 bmaps_checksum += (value >> 8) & 0xff; 282 bmaps_checksum += (value >> 8) & 0xff;
260 bmaps_checksum &= 0xffffffff; 283 bmaps_checksum &= 0xffffffff;
261 for (l=0; l<strlen(q); l++) { 284 for (l = 0; l < strlen (q); l++)
285 {
262 ROTATE_RIGHT(bmaps_checksum); 286 ROTATE_RIGHT (bmaps_checksum);
263 bmaps_checksum += q[l]; 287 bmaps_checksum += q[l];
264 bmaps_checksum &= 0xffffffff; 288 bmaps_checksum &= 0xffffffff;
265 } 289 }
266 290
267 xbm[nroffiles].number = value; 291 xbm[nroffiles].number = value;
268 nroffiles++; 292 nroffiles++;
269 if(value >= nrofpixmaps) 293 if (value >= nrofpixmaps)
270 nrofpixmaps = value+1; 294 nrofpixmaps = value + 1;
271 } 295 }
272 fclose(fp); 296 fclose (fp);
273 297
274 LOG(llevDebug,"done (got %d/%d/%d)\n",nrofpixmaps,nrofbmaps,nroffiles); 298 LOG (llevDebug, "done (got %d/%d/%d)\n", nrofpixmaps, nrofbmaps, nroffiles);
275 299
276 new_faces = new New_Face [nrofpixmaps]; 300 new_faces = new facetile[nrofpixmaps];
301
277 for (i = 0; i < nrofpixmaps; i++) { 302 for (i = 0; i < nrofpixmaps; i++)
303 {
278 new_faces[i].name = ""; 304 new_faces[i].name = "";
279 new_faces[i].number = i; 305 new_faces[i].number = i;
280 new_faces[i].visibility=0; 306 new_faces[i].visibility = 0;
281 new_faces[i].magicmap=255; 307 new_faces[i].magicmap = 255;
282 } 308 }
283 for (i = 0; i < nroffiles; i++) { 309 for (i = 0; i < nroffiles; i++)
310 {
284 new_faces[xbm[i].number].name = xbm[i].name; 311 new_faces[xbm[i].number].name = xbm[i].name;
285 } 312 }
286 313
287 // non-pod datatype, likely not allowed 314 // non-pod datatype, likely not allowed
288 qsort (xbm, nroffiles, sizeof(struct bmappair), (int (*)(const void*, const void*))compar); 315 qsort (xbm, nroffiles, sizeof (struct bmappair), (int (*)(const void *, const void *)) compar);
289 316
290 ReadFaceData(); 317 ReadFaceData ();
291 318
292 for (i = 0; i < nrofpixmaps; i++) { 319 for (i = 0; i < nrofpixmaps; i++)
320 {
293 if (new_faces[i].magicmap==255) { 321 if (new_faces[i].magicmap == 255)
322 {
294#if 0 /* Useful for initial debugging, not needed now */ 323#if 0 /* Useful for initial debugging, not needed now */
295 LOG(llevDebug,"Face %s still had default magicmap, resetting to black\n", 324 LOG (llevDebug, "Face %s still had default magicmap, resetting to black\n", new_faces[i].name);
296 new_faces[i].name);
297#endif 325#endif
298 new_faces[i].magicmap=0; 326 new_faces[i].magicmap = 0;
299 } 327 }
300 } 328 }
301 /* Actually forcefully setting the colors here probably should not 329 /* Actually forcefully setting the colors here probably should not
302 * be done - it could easily create confusion. 330 * be done - it could easily create confusion.
303 */ 331 */
304 blank_face = &new_faces[FindFace(BLANK_FACE_NAME, 0)]; 332 blank_face = &new_faces[FindFace (BLANK_FACE_NAME, 0)];
305 blank_face->magicmap = find_color ("khaki") | FACE_FLOOR; 333 blank_face->magicmap = find_color ("khaki") | FACE_FLOOR;
306 334
307 empty_face = &new_faces[FindFace(EMPTY_FACE_NAME, 0)]; 335 empty_face = &new_faces[FindFace (EMPTY_FACE_NAME, 0)];
308 336
309 dark_faces[0] = &new_faces[FindFace (DARK_FACE1_NAME,0)]; 337 dark_faces[0] = &new_faces[FindFace (DARK_FACE1_NAME, 0)];
310 dark_faces[1] = &new_faces[FindFace (DARK_FACE2_NAME,0)]; 338 dark_faces[1] = &new_faces[FindFace (DARK_FACE2_NAME, 0)];
311 dark_faces[2] = &new_faces[FindFace (DARK_FACE3_NAME,0)]; 339 dark_faces[2] = &new_faces[FindFace (DARK_FACE3_NAME, 0)];
312 340
313 smooth_face = &new_faces[FindFace(SMOOTH_FACE_NAME,0)]; 341 smooth_face = &new_faces[FindFace (SMOOTH_FACE_NAME, 0)];
314} 342}
315 343
316/* This returns an the face number of face 'name'. Number is constant 344/* This returns an the face number of face 'name'. Number is constant
317 * during an invocation, but not necessarily between versions (this 345 * during an invocation, but not necessarily between versions (this
318 * is because the faces are arranged in alphabetical order, so 346 * is because the faces are arranged in alphabetical order, so
324 * you want some default face used, or can be set to negative 352 * you want some default face used, or can be set to negative
325 * so that it will be known that the face could not be found 353 * so that it will be known that the face could not be found
326 * (needed in client, so that it will know to request that image 354 * (needed in client, so that it will know to request that image
327 * from the server) 355 * from the server)
328 */ 356 */
357int
329int FindFace (const char *name, int error) { 358FindFace (const char *name, int error)
359{
330 struct bmappair *bp, tmp; 360 struct bmappair *bp, tmp;
331 char *p; 361 char *p;
332 362
363 if (!name)
364 return error;
365
333 if ((p = strchr (name, '\n'))) 366 if ((p = strchr (name, '\n')))
334 *p = '\0'; 367 *p = '\0';
335 368
336 tmp.name = (char *)name; 369 tmp.name = (char *) name;
337 bp = (struct bmappair *)bsearch
338 (&tmp, xbm, nroffiles, sizeof(struct bmappair), (int (*)(const void*, const void*))compar); 370 bp = (struct bmappair *) bsearch (&tmp, xbm, nroffiles, sizeof (struct bmappair), (int (*)(const void *, const void *)) compar);
339 371
340 return bp ? bp->number : error; 372 return bp ? bp->number : error;
341} 373}
342 374
343/* Reads the smooth file to know how to smooth datas. 375/* Reads the smooth file to know how to smooth datas.
344 * the smooth file if made of 2 elements lines. 376 * the smooth file if made of 2 elements lines.
345 * lines starting with # are comment 377 * lines starting with # are comment
346 * the first element of line is face to smooth 378 * the first element of line is face to smooth
347 * the next element is the 16x2 faces picture 379 * the next element is the 16x2 faces picture
348 * used for smoothing 380 * used for smoothing
349 */ 381 */
382int
350int ReadSmooth (void) { 383ReadSmooth (void)
384{
351 char buf[MAX_BUF], *p, *q; 385 char buf[MAX_BUF], *p, *q;
352 FILE *fp; 386 FILE *fp;
353 int smoothcount = 0; 387 int smoothcount = 0;
354 388
355 bmaps_checksum=0; 389 bmaps_checksum = 0;
356 sprintf (buf,"%s/smooth", settings.datadir); 390 sprintf (buf, "%s/smooth", settings.datadir);
357 LOG(llevDebug,"Reading smooth from %s...",buf); 391 LOG (llevDebug, "Reading smooth from %s...\n", buf);
358 if ((fp=fopen(buf,"r"))==NULL) { 392 if ((fp = fopen (buf, "r")) == NULL)
393 {
359 LOG(llevError, "Cannot open smooth file %s: %s\n", strerror(errno)); 394 LOG (llevError, "Cannot open smooth file %s: %s\n", strerror (errno));
360 exit(-1); 395 exit (-1);
361 } 396 }
362 397
363 /* First count how many smooth we have, so we can allocate correctly */ 398 /* First count how many smooth we have, so we can allocate correctly */
364 while (fgets (buf, MAX_BUF, fp)!=NULL) 399 while (fgets (buf, MAX_BUF, fp) != NULL)
365 if(buf[0] != '#' && buf[0] != '\n' ) 400 if (buf[0] != '#' && buf[0] != '\n')
366 smoothcount++; 401 smoothcount++;
367 rewind(fp); 402 rewind (fp);
368 403
369 smooth = new smoothing [smoothcount]; 404 smooth = new smoothing[smoothcount];
370 405
371 while(nrofsmooth < smoothcount && fgets (buf, MAX_BUF, fp)!=NULL) { 406 while (nrofsmooth < smoothcount && fgets (buf, MAX_BUF, fp) != NULL)
407 {
372 if (*buf == '#') 408 if (*buf == '#')
373 continue; 409 continue;
374 p=strchr(buf,' '); 410 p = strchr (buf, ' ');
375 if (!p) 411 if (!p)
376 continue; 412 continue;
377 *p='\0'; 413 *p = '\0';
378 q=buf; 414 q = buf;
379 smooth[nrofsmooth].id=FindFace(q,0); 415 smooth[nrofsmooth].id = FindFace (q, 0);
380 q=p+1; 416 q = p + 1;
381 smooth[nrofsmooth].smooth=FindFace(q,0); 417 smooth[nrofsmooth].smooth = FindFace (q, 0);
382 nrofsmooth++; 418 nrofsmooth++;
383 } 419 }
384 fclose(fp); 420 fclose (fp);
385 421
386 LOG(llevDebug,"done (got %d smooth entries)\n",nrofsmooth); 422 LOG (llevDebug, "done (got %d smooth entries)\n", nrofsmooth);
387 qsort (smooth, nrofsmooth, sizeof(struct smoothing), (int (*)(const void*, const void*))compar_smooth); 423 qsort (smooth, nrofsmooth, sizeof (struct smoothing), (int (*)(const void *, const void *)) compar_smooth);
388 return nrofsmooth; 424 return nrofsmooth;
389} 425}
390 426
391/** 427/**
392 * Find the smooth face for a given face. 428 * Find the smooth face for a given face.
393 * 429 *
395 * 431 *
396 * @param smoothed return value: set to smooth face 432 * @param smoothed return value: set to smooth face
397 * 433 *
398 * @return 1=smooth face found, 0=no smooth face found 434 * @return 1=smooth face found, 0=no smooth face found
399 */ 435 */
436int
400int FindSmooth (uint16 face, uint16* smoothed) { 437FindSmooth (uint16 face, uint16 * smoothed)
438{
401 struct smoothing *bp, tmp; 439 struct smoothing *bp, tmp;
402 440
403 tmp.id = face; 441 tmp.id = face;
404 bp = (struct smoothing *)bsearch 442 bp = (struct smoothing *) bsearch
405 (&tmp, smooth, nrofsmooth, sizeof(struct smoothing), (int (*)(const void*, const void*))compar_smooth); 443 (&tmp, smooth, nrofsmooth, sizeof (struct smoothing), (int (*)(const void *, const void *)) compar_smooth);
406 (*smoothed)=0; 444 (*smoothed) = 0;
407 if (bp) 445 if (bp)
408 (*smoothed)=bp->smooth; 446 (*smoothed) = bp->smooth;
409 return bp ? 1 : 0; 447 return bp ? 1 : 0;
410} 448}
411 449
412/** 450/**
413 * Deallocates memory allocated by ReadBmapNames() and ReadSmooth(). 451 * Deallocates memory allocated by ReadBmapNames() and ReadSmooth().
414 */ 452 */
453void
415void free_all_images(void) 454free_all_images (void)
416{ 455{
417 int i; 456 int i;
418 457
419 for (i=0; i<nroffiles; i++) 458 for (i = 0; i < nroffiles; i++)
420 free(xbm[i].name); 459 free (xbm[i].name);
421 460
422 delete [] xbm; 461 delete[]xbm;
423 delete [] new_faces; 462 delete[]new_faces;
424 delete [] smooth; 463 delete[]smooth;
425} 464}

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