1 /* 2 * Copyright (C) 1984-2014 Mark Nudelman 3 * 4 * You may distribute under the terms of either the GNU General Public 5 * License or the Less License, as specified in the README file. 6 * 7 * For more information, see the README file. 8 */ 9 10 11 /* 12 * Code to handle displaying line numbers. 13 * 14 * Finding the line number of a given file position is rather tricky. 15 * We don't want to just start at the beginning of the file and 16 * count newlines, because that is slow for large files (and also 17 * wouldn't work if we couldn't get to the start of the file; e.g. 18 * if input is a long pipe). 19 * 20 * So we use the function add_lnum to cache line numbers. 21 * We try to be very clever and keep only the more interesting 22 * line numbers when we run out of space in our table. A line 23 * number is more interesting than another when it is far from 24 * other line numbers. For example, we'd rather keep lines 25 * 100,200,300 than 100,101,300. 200 is more interesting than 26 * 101 because 101 can be derived very cheaply from 100, while 27 * 200 is more expensive to derive from 100. 28 * 29 * The function currline() returns the line number of a given 30 * position in the file. As a side effect, it calls add_lnum 31 * to cache the line number. Therefore currline is occasionally 32 * called to make sure we cache line numbers often enough. 33 */ 34 35 #include "less.h" 36 37 /* 38 * Structure to keep track of a line number and the associated file position. 39 * A doubly-linked circular list of line numbers is kept ordered by line number. 40 */ 41 struct linenum_info 42 { 43 struct linenum_info *next; /* Link to next in the list */ 44 struct linenum_info *prev; /* Line to previous in the list */ 45 POSITION pos; /* File position */ 46 POSITION gap; /* Gap between prev and next */ 47 LINENUM line; /* Line number */ 48 }; 49 /* 50 * "gap" needs some explanation: the gap of any particular line number 51 * is the distance between the previous one and the next one in the list. 52 * ("Distance" means difference in file position.) In other words, the 53 * gap of a line number is the gap which would be introduced if this 54 * line number were deleted. It is used to decide which one to replace 55 * when we have a new one to insert and the table is full. 56 */ 57 58 #define NPOOL 200 /* Size of line number pool */ 59 60 #define LONGTIME (2) /* In seconds */ 61 62 static struct linenum_info anchor; /* Anchor of the list */ 63 static struct linenum_info *freelist; /* Anchor of the unused entries */ 64 static struct linenum_info pool[NPOOL]; /* The pool itself */ 65 static struct linenum_info *spare; /* We always keep one spare entry */ 66 67 extern int linenums; 68 extern int sigs; 69 extern int sc_height; 70 extern int screen_trashed; 71 72 /* 73 * Initialize the line number structures. 74 */ 75 public void 76 clr_linenum() 77 { 78 register struct linenum_info *p; 79 80 /* 81 * Put all the entries on the free list. 82 * Leave one for the "spare". 83 */ 84 for (p = pool; p < &pool[NPOOL-2]; p++) 85 p->next = p+1; 86 pool[NPOOL-2].next = NULL; 87 freelist = pool; 88 89 spare = &pool[NPOOL-1]; 90 91 /* 92 * Initialize the anchor. 93 */ 94 anchor.next = anchor.prev = &anchor; 95 anchor.gap = 0; 96 anchor.pos = (POSITION)0; 97 anchor.line = 1; 98 } 99 100 /* 101 * Calculate the gap for an entry. 102 */ 103 static void 104 calcgap(p) 105 register struct linenum_info *p; 106 { 107 /* 108 * Don't bother to compute a gap for the anchor. 109 * Also don't compute a gap for the last one in the list. 110 * The gap for that last one should be considered infinite, 111 * but we never look at it anyway. 112 */ 113 if (p == &anchor || p->next == &anchor) 114 return; 115 p->gap = p->next->pos - p->prev->pos; 116 } 117 118 /* 119 * Add a new line number to the cache. 120 * The specified position (pos) should be the file position of the 121 * FIRST character in the specified line. 122 */ 123 public void 124 add_lnum(linenum, pos) 125 LINENUM linenum; 126 POSITION pos; 127 { 128 register struct linenum_info *p; 129 register struct linenum_info *new; 130 register struct linenum_info *nextp; 131 register struct linenum_info *prevp; 132 register POSITION mingap; 133 134 /* 135 * Find the proper place in the list for the new one. 136 * The entries are sorted by position. 137 */ 138 for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next) 139 if (p->line == linenum) 140 /* We already have this one. */ 141 return; 142 nextp = p; 143 prevp = p->prev; 144 145 if (freelist != NULL) 146 { 147 /* 148 * We still have free (unused) entries. 149 * Use one of them. 150 */ 151 new = freelist; 152 freelist = freelist->next; 153 } else 154 { 155 /* 156 * No free entries. 157 * Use the "spare" entry. 158 */ 159 new = spare; 160 spare = NULL; 161 } 162 163 /* 164 * Fill in the fields of the new entry, 165 * and insert it into the proper place in the list. 166 */ 167 new->next = nextp; 168 new->prev = prevp; 169 new->pos = pos; 170 new->line = linenum; 171 172 nextp->prev = new; 173 prevp->next = new; 174 175 /* 176 * Recalculate gaps for the new entry and the neighboring entries. 177 */ 178 calcgap(new); 179 calcgap(nextp); 180 calcgap(prevp); 181 182 if (spare == NULL) 183 { 184 /* 185 * We have used the spare entry. 186 * Scan the list to find the one with the smallest 187 * gap, take it out and make it the spare. 188 * We should never remove the last one, so stop when 189 * we get to p->next == &anchor. This also avoids 190 * looking at the gap of the last one, which is 191 * not computed by calcgap. 192 */ 193 mingap = anchor.next->gap; 194 for (p = anchor.next; p->next != &anchor; p = p->next) 195 { 196 if (p->gap <= mingap) 197 { 198 spare = p; 199 mingap = p->gap; 200 } 201 } 202 spare->next->prev = spare->prev; 203 spare->prev->next = spare->next; 204 } 205 } 206 207 /* 208 * If we get stuck in a long loop trying to figure out the 209 * line number, print a message to tell the user what we're doing. 210 */ 211 static void 212 longloopmessage() 213 { 214 ierror("Calculating line numbers", NULL_PARG); 215 } 216 217 static int loopcount; 218 #if HAVE_TIME 219 static time_type startime; 220 #endif 221 222 static void 223 longish() 224 { 225 #if HAVE_TIME 226 if (loopcount >= 0 && ++loopcount > 100) 227 { 228 loopcount = 0; 229 if (get_time() >= startime + LONGTIME) 230 { 231 longloopmessage(); 232 loopcount = -1; 233 } 234 } 235 #else 236 if (loopcount >= 0 && ++loopcount > LONGLOOP) 237 { 238 longloopmessage(); 239 loopcount = -1; 240 } 241 #endif 242 } 243 244 /* 245 * Turn off line numbers because the user has interrupted 246 * a lengthy line number calculation. 247 */ 248 static void 249 abort_long() 250 { 251 if (linenums == OPT_ONPLUS) 252 /* 253 * We were displaying line numbers, so need to repaint. 254 */ 255 screen_trashed = 1; 256 linenums = 0; 257 error("Line numbers turned off", NULL_PARG); 258 } 259 260 /* 261 * Find the line number associated with a given position. 262 * Return 0 if we can't figure it out. 263 */ 264 public LINENUM 265 find_linenum(pos) 266 POSITION pos; 267 { 268 register struct linenum_info *p; 269 register LINENUM linenum; 270 POSITION cpos; 271 272 if (!linenums) 273 /* 274 * We're not using line numbers. 275 */ 276 return (0); 277 if (pos == NULL_POSITION) 278 /* 279 * Caller doesn't know what he's talking about. 280 */ 281 return (0); 282 if (pos <= ch_zero()) 283 /* 284 * Beginning of file is always line number 1. 285 */ 286 return (1); 287 288 /* 289 * Find the entry nearest to the position we want. 290 */ 291 for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next) 292 continue; 293 if (p->pos == pos) 294 /* Found it exactly. */ 295 return (p->line); 296 297 /* 298 * This is the (possibly) time-consuming part. 299 * We start at the line we just found and start 300 * reading the file forward or backward till we 301 * get to the place we want. 302 * 303 * First decide whether we should go forward from the 304 * previous one or backwards from the next one. 305 * The decision is based on which way involves 306 * traversing fewer bytes in the file. 307 */ 308 #if HAVE_TIME 309 startime = get_time(); 310 #endif 311 if (p == &anchor || pos - p->prev->pos < p->pos - pos) 312 { 313 /* 314 * Go forward. 315 */ 316 p = p->prev; 317 if (ch_seek(p->pos)) 318 return (0); 319 loopcount = 0; 320 for (linenum = p->line, cpos = p->pos; cpos < pos; linenum++) 321 { 322 /* 323 * Allow a signal to abort this loop. 324 */ 325 cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL); 326 if (ABORT_SIGS()) { 327 abort_long(); 328 return (0); 329 } 330 if (cpos == NULL_POSITION) 331 return (0); 332 longish(); 333 } 334 /* 335 * We might as well cache it. 336 */ 337 add_lnum(linenum, cpos); 338 /* 339 * If the given position is not at the start of a line, 340 * make sure we return the correct line number. 341 */ 342 if (cpos > pos) 343 linenum--; 344 } else 345 { 346 /* 347 * Go backward. 348 */ 349 if (ch_seek(p->pos)) 350 return (0); 351 loopcount = 0; 352 for (linenum = p->line, cpos = p->pos; cpos > pos; linenum--) 353 { 354 /* 355 * Allow a signal to abort this loop. 356 */ 357 cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL); 358 if (ABORT_SIGS()) { 359 abort_long(); 360 return (0); 361 } 362 if (cpos == NULL_POSITION) 363 return (0); 364 longish(); 365 } 366 /* 367 * We might as well cache it. 368 */ 369 add_lnum(linenum, cpos); 370 } 371 372 return (linenum); 373 } 374 375 /* 376 * Find the position of a given line number. 377 * Return NULL_POSITION if we can't figure it out. 378 */ 379 public POSITION 380 find_pos(linenum) 381 LINENUM linenum; 382 { 383 register struct linenum_info *p; 384 POSITION cpos; 385 LINENUM clinenum; 386 387 if (linenum <= 1) 388 /* 389 * Line number 1 is beginning of file. 390 */ 391 return (ch_zero()); 392 393 /* 394 * Find the entry nearest to the line number we want. 395 */ 396 for (p = anchor.next; p != &anchor && p->line < linenum; p = p->next) 397 continue; 398 if (p->line == linenum) 399 /* Found it exactly. */ 400 return (p->pos); 401 402 if (p == &anchor || linenum - p->prev->line < p->line - linenum) 403 { 404 /* 405 * Go forward. 406 */ 407 p = p->prev; 408 if (ch_seek(p->pos)) 409 return (NULL_POSITION); 410 for (clinenum = p->line, cpos = p->pos; clinenum < linenum; clinenum++) 411 { 412 /* 413 * Allow a signal to abort this loop. 414 */ 415 cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL); 416 if (ABORT_SIGS()) 417 return (NULL_POSITION); 418 if (cpos == NULL_POSITION) 419 return (NULL_POSITION); 420 } 421 } else 422 { 423 /* 424 * Go backward. 425 */ 426 if (ch_seek(p->pos)) 427 return (NULL_POSITION); 428 for (clinenum = p->line, cpos = p->pos; clinenum > linenum; clinenum--) 429 { 430 /* 431 * Allow a signal to abort this loop. 432 */ 433 cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL); 434 if (ABORT_SIGS()) 435 return (NULL_POSITION); 436 if (cpos == NULL_POSITION) 437 return (NULL_POSITION); 438 } 439 } 440 /* 441 * We might as well cache it. 442 */ 443 add_lnum(clinenum, cpos); 444 return (cpos); 445 } 446 447 /* 448 * Return the line number of the "current" line. 449 * The argument "where" tells which line is to be considered 450 * the "current" line (e.g. TOP, BOTTOM, MIDDLE, etc). 451 */ 452 public LINENUM 453 currline(where) 454 int where; 455 { 456 POSITION pos; 457 POSITION len; 458 LINENUM linenum; 459 460 pos = position(where); 461 len = ch_length(); 462 while (pos == NULL_POSITION && where >= 0 && where < sc_height) 463 pos = position(++where); 464 if (pos == NULL_POSITION) 465 pos = len; 466 linenum = find_linenum(pos); 467 if (pos == len) 468 linenum--; 469 return (linenum); 470 } 471