linenum.c revision 1.3.8.1 1 1.3.8.1 tls /* $NetBSD: linenum.c,v 1.3.8.1 2014/08/19 23:46:50 tls Exp $ */
2 1.1 tron
3 1.1 tron /*
4 1.3.8.1 tls * Copyright (C) 1984-2012 Mark Nudelman
5 1.1 tron *
6 1.1 tron * You may distribute under the terms of either the GNU General Public
7 1.1 tron * License or the Less License, as specified in the README file.
8 1.1 tron *
9 1.3.8.1 tls * For more information, see the README file.
10 1.1 tron */
11 1.1 tron
12 1.1 tron
13 1.1 tron /*
14 1.1 tron * Code to handle displaying line numbers.
15 1.1 tron *
16 1.1 tron * Finding the line number of a given file position is rather tricky.
17 1.1 tron * We don't want to just start at the beginning of the file and
18 1.1 tron * count newlines, because that is slow for large files (and also
19 1.1 tron * wouldn't work if we couldn't get to the start of the file; e.g.
20 1.1 tron * if input is a long pipe).
21 1.1 tron *
22 1.1 tron * So we use the function add_lnum to cache line numbers.
23 1.1 tron * We try to be very clever and keep only the more interesting
24 1.1 tron * line numbers when we run out of space in our table. A line
25 1.1 tron * number is more interesting than another when it is far from
26 1.1 tron * other line numbers. For example, we'd rather keep lines
27 1.1 tron * 100,200,300 than 100,101,300. 200 is more interesting than
28 1.1 tron * 101 because 101 can be derived very cheaply from 100, while
29 1.1 tron * 200 is more expensive to derive from 100.
30 1.1 tron *
31 1.1 tron * The function currline() returns the line number of a given
32 1.1 tron * position in the file. As a side effect, it calls add_lnum
33 1.1 tron * to cache the line number. Therefore currline is occasionally
34 1.1 tron * called to make sure we cache line numbers often enough.
35 1.1 tron */
36 1.1 tron
37 1.1 tron #include "less.h"
38 1.1 tron
39 1.1 tron /*
40 1.1 tron * Structure to keep track of a line number and the associated file position.
41 1.1 tron * A doubly-linked circular list of line numbers is kept ordered by line number.
42 1.1 tron */
43 1.1 tron struct linenum_info
44 1.1 tron {
45 1.1 tron struct linenum_info *next; /* Link to next in the list */
46 1.1 tron struct linenum_info *prev; /* Line to previous in the list */
47 1.1 tron POSITION pos; /* File position */
48 1.1 tron POSITION gap; /* Gap between prev and next */
49 1.1 tron LINENUM line; /* Line number */
50 1.1 tron };
51 1.1 tron /*
52 1.1 tron * "gap" needs some explanation: the gap of any particular line number
53 1.1 tron * is the distance between the previous one and the next one in the list.
54 1.1 tron * ("Distance" means difference in file position.) In other words, the
55 1.1 tron * gap of a line number is the gap which would be introduced if this
56 1.1 tron * line number were deleted. It is used to decide which one to replace
57 1.1 tron * when we have a new one to insert and the table is full.
58 1.1 tron */
59 1.1 tron
60 1.1 tron #define NPOOL 200 /* Size of line number pool */
61 1.1 tron
62 1.1 tron #define LONGTIME (2) /* In seconds */
63 1.1 tron
64 1.1 tron static struct linenum_info anchor; /* Anchor of the list */
65 1.1 tron static struct linenum_info *freelist; /* Anchor of the unused entries */
66 1.1 tron static struct linenum_info pool[NPOOL]; /* The pool itself */
67 1.1 tron static struct linenum_info *spare; /* We always keep one spare entry */
68 1.1 tron
69 1.1 tron extern int linenums;
70 1.1 tron extern int sigs;
71 1.1 tron extern int sc_height;
72 1.1 tron extern int screen_trashed;
73 1.1 tron
74 1.3 tron static void calcgap __P((struct linenum_info *));
75 1.3 tron static void longloopmessage __P((void));
76 1.3 tron static void longish __P((void));
77 1.3 tron
78 1.1 tron /*
79 1.1 tron * Initialize the line number structures.
80 1.1 tron */
81 1.1 tron public void
82 1.1 tron clr_linenum()
83 1.1 tron {
84 1.1 tron register struct linenum_info *p;
85 1.1 tron
86 1.1 tron /*
87 1.1 tron * Put all the entries on the free list.
88 1.1 tron * Leave one for the "spare".
89 1.1 tron */
90 1.1 tron for (p = pool; p < &pool[NPOOL-2]; p++)
91 1.1 tron p->next = p+1;
92 1.1 tron pool[NPOOL-2].next = NULL;
93 1.1 tron freelist = pool;
94 1.1 tron
95 1.1 tron spare = &pool[NPOOL-1];
96 1.1 tron
97 1.1 tron /*
98 1.1 tron * Initialize the anchor.
99 1.1 tron */
100 1.1 tron anchor.next = anchor.prev = &anchor;
101 1.1 tron anchor.gap = 0;
102 1.1 tron anchor.pos = (POSITION)0;
103 1.1 tron anchor.line = 1;
104 1.1 tron }
105 1.1 tron
106 1.1 tron /*
107 1.1 tron * Calculate the gap for an entry.
108 1.1 tron */
109 1.1 tron static void
110 1.1 tron calcgap(p)
111 1.1 tron register struct linenum_info *p;
112 1.1 tron {
113 1.1 tron /*
114 1.1 tron * Don't bother to compute a gap for the anchor.
115 1.1 tron * Also don't compute a gap for the last one in the list.
116 1.1 tron * The gap for that last one should be considered infinite,
117 1.1 tron * but we never look at it anyway.
118 1.1 tron */
119 1.1 tron if (p == &anchor || p->next == &anchor)
120 1.1 tron return;
121 1.1 tron p->gap = p->next->pos - p->prev->pos;
122 1.1 tron }
123 1.1 tron
124 1.1 tron /*
125 1.1 tron * Add a new line number to the cache.
126 1.1 tron * The specified position (pos) should be the file position of the
127 1.1 tron * FIRST character in the specified line.
128 1.1 tron */
129 1.1 tron public void
130 1.1 tron add_lnum(linenum, pos)
131 1.1 tron LINENUM linenum;
132 1.1 tron POSITION pos;
133 1.1 tron {
134 1.1 tron register struct linenum_info *p;
135 1.1 tron register struct linenum_info *new;
136 1.1 tron register struct linenum_info *nextp;
137 1.1 tron register struct linenum_info *prevp;
138 1.1 tron register POSITION mingap;
139 1.1 tron
140 1.1 tron /*
141 1.1 tron * Find the proper place in the list for the new one.
142 1.1 tron * The entries are sorted by position.
143 1.1 tron */
144 1.1 tron for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next)
145 1.1 tron if (p->line == linenum)
146 1.1 tron /* We already have this one. */
147 1.1 tron return;
148 1.1 tron nextp = p;
149 1.1 tron prevp = p->prev;
150 1.1 tron
151 1.1 tron if (freelist != NULL)
152 1.1 tron {
153 1.1 tron /*
154 1.1 tron * We still have free (unused) entries.
155 1.1 tron * Use one of them.
156 1.1 tron */
157 1.1 tron new = freelist;
158 1.1 tron freelist = freelist->next;
159 1.1 tron } else
160 1.1 tron {
161 1.1 tron /*
162 1.1 tron * No free entries.
163 1.1 tron * Use the "spare" entry.
164 1.1 tron */
165 1.1 tron new = spare;
166 1.1 tron spare = NULL;
167 1.1 tron }
168 1.1 tron
169 1.1 tron /*
170 1.1 tron * Fill in the fields of the new entry,
171 1.1 tron * and insert it into the proper place in the list.
172 1.1 tron */
173 1.1 tron new->next = nextp;
174 1.1 tron new->prev = prevp;
175 1.1 tron new->pos = pos;
176 1.1 tron new->line = linenum;
177 1.1 tron
178 1.1 tron nextp->prev = new;
179 1.1 tron prevp->next = new;
180 1.1 tron
181 1.1 tron /*
182 1.1 tron * Recalculate gaps for the new entry and the neighboring entries.
183 1.1 tron */
184 1.1 tron calcgap(new);
185 1.1 tron calcgap(nextp);
186 1.1 tron calcgap(prevp);
187 1.1 tron
188 1.1 tron if (spare == NULL)
189 1.1 tron {
190 1.1 tron /*
191 1.1 tron * We have used the spare entry.
192 1.1 tron * Scan the list to find the one with the smallest
193 1.1 tron * gap, take it out and make it the spare.
194 1.1 tron * We should never remove the last one, so stop when
195 1.1 tron * we get to p->next == &anchor. This also avoids
196 1.1 tron * looking at the gap of the last one, which is
197 1.1 tron * not computed by calcgap.
198 1.1 tron */
199 1.1 tron mingap = anchor.next->gap;
200 1.1 tron for (p = anchor.next; p->next != &anchor; p = p->next)
201 1.1 tron {
202 1.1 tron if (p->gap <= mingap)
203 1.1 tron {
204 1.1 tron spare = p;
205 1.1 tron mingap = p->gap;
206 1.1 tron }
207 1.1 tron }
208 1.1 tron spare->next->prev = spare->prev;
209 1.1 tron spare->prev->next = spare->next;
210 1.1 tron }
211 1.1 tron }
212 1.1 tron
213 1.1 tron /*
214 1.1 tron * If we get stuck in a long loop trying to figure out the
215 1.1 tron * line number, print a message to tell the user what we're doing.
216 1.1 tron */
217 1.1 tron static void
218 1.1 tron longloopmessage()
219 1.1 tron {
220 1.1 tron ierror("Calculating line numbers", NULL_PARG);
221 1.1 tron }
222 1.1 tron
223 1.1 tron static int loopcount;
224 1.1 tron #if HAVE_TIME
225 1.1 tron static long startime;
226 1.1 tron #endif
227 1.1 tron
228 1.1 tron static void
229 1.1 tron longish()
230 1.1 tron {
231 1.1 tron #if HAVE_TIME
232 1.1 tron if (loopcount >= 0 && ++loopcount > 100)
233 1.1 tron {
234 1.1 tron loopcount = 0;
235 1.1 tron if (get_time() >= startime + LONGTIME)
236 1.1 tron {
237 1.1 tron longloopmessage();
238 1.1 tron loopcount = -1;
239 1.1 tron }
240 1.1 tron }
241 1.1 tron #else
242 1.1 tron if (loopcount >= 0 && ++loopcount > LONGLOOP)
243 1.1 tron {
244 1.1 tron longloopmessage();
245 1.1 tron loopcount = -1;
246 1.1 tron }
247 1.1 tron #endif
248 1.1 tron }
249 1.1 tron
250 1.1 tron /*
251 1.1 tron * Turn off line numbers because the user has interrupted
252 1.1 tron * a lengthy line number calculation.
253 1.1 tron */
254 1.1 tron static void
255 1.1 tron abort_long()
256 1.1 tron {
257 1.1 tron if (linenums == OPT_ONPLUS)
258 1.1 tron /*
259 1.1 tron * We were displaying line numbers, so need to repaint.
260 1.1 tron */
261 1.1 tron screen_trashed = 1;
262 1.1 tron linenums = 0;
263 1.1 tron error("Line numbers turned off", NULL_PARG);
264 1.1 tron }
265 1.1 tron
266 1.1 tron /*
267 1.1 tron * Find the line number associated with a given position.
268 1.1 tron * Return 0 if we can't figure it out.
269 1.1 tron */
270 1.1 tron public LINENUM
271 1.1 tron find_linenum(pos)
272 1.1 tron POSITION pos;
273 1.1 tron {
274 1.1 tron register struct linenum_info *p;
275 1.1 tron register LINENUM linenum;
276 1.1 tron POSITION cpos;
277 1.1 tron
278 1.1 tron if (!linenums)
279 1.1 tron /*
280 1.1 tron * We're not using line numbers.
281 1.1 tron */
282 1.1 tron return (0);
283 1.1 tron if (pos == NULL_POSITION)
284 1.1 tron /*
285 1.1 tron * Caller doesn't know what he's talking about.
286 1.1 tron */
287 1.1 tron return (0);
288 1.1 tron if (pos <= ch_zero())
289 1.1 tron /*
290 1.1 tron * Beginning of file is always line number 1.
291 1.1 tron */
292 1.1 tron return (1);
293 1.1 tron
294 1.1 tron /*
295 1.1 tron * Find the entry nearest to the position we want.
296 1.1 tron */
297 1.1 tron for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next)
298 1.1 tron continue;
299 1.1 tron if (p->pos == pos)
300 1.1 tron /* Found it exactly. */
301 1.1 tron return (p->line);
302 1.1 tron
303 1.1 tron /*
304 1.1 tron * This is the (possibly) time-consuming part.
305 1.1 tron * We start at the line we just found and start
306 1.1 tron * reading the file forward or backward till we
307 1.1 tron * get to the place we want.
308 1.1 tron *
309 1.1 tron * First decide whether we should go forward from the
310 1.1 tron * previous one or backwards from the next one.
311 1.1 tron * The decision is based on which way involves
312 1.1 tron * traversing fewer bytes in the file.
313 1.1 tron */
314 1.1 tron #if HAVE_TIME
315 1.1 tron startime = get_time();
316 1.1 tron #endif
317 1.1 tron if (p == &anchor || pos - p->prev->pos < p->pos - pos)
318 1.1 tron {
319 1.1 tron /*
320 1.1 tron * Go forward.
321 1.1 tron */
322 1.1 tron p = p->prev;
323 1.1 tron if (ch_seek(p->pos))
324 1.1 tron return (0);
325 1.1 tron loopcount = 0;
326 1.1 tron for (linenum = p->line, cpos = p->pos; cpos < pos; linenum++)
327 1.1 tron {
328 1.1 tron /*
329 1.1 tron * Allow a signal to abort this loop.
330 1.1 tron */
331 1.1 tron cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL);
332 1.1 tron if (ABORT_SIGS()) {
333 1.1 tron abort_long();
334 1.1 tron return (0);
335 1.1 tron }
336 1.1 tron if (cpos == NULL_POSITION)
337 1.1 tron return (0);
338 1.1 tron longish();
339 1.1 tron }
340 1.1 tron /*
341 1.1 tron * We might as well cache it.
342 1.1 tron */
343 1.1 tron add_lnum(linenum, cpos);
344 1.1 tron /*
345 1.1 tron * If the given position is not at the start of a line,
346 1.1 tron * make sure we return the correct line number.
347 1.1 tron */
348 1.1 tron if (cpos > pos)
349 1.1 tron linenum--;
350 1.1 tron } else
351 1.1 tron {
352 1.1 tron /*
353 1.1 tron * Go backward.
354 1.1 tron */
355 1.1 tron if (ch_seek(p->pos))
356 1.1 tron return (0);
357 1.1 tron loopcount = 0;
358 1.1 tron for (linenum = p->line, cpos = p->pos; cpos > pos; linenum--)
359 1.1 tron {
360 1.1 tron /*
361 1.1 tron * Allow a signal to abort this loop.
362 1.1 tron */
363 1.1 tron cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL);
364 1.1 tron if (ABORT_SIGS()) {
365 1.1 tron abort_long();
366 1.1 tron return (0);
367 1.1 tron }
368 1.1 tron if (cpos == NULL_POSITION)
369 1.1 tron return (0);
370 1.1 tron longish();
371 1.1 tron }
372 1.1 tron /*
373 1.1 tron * We might as well cache it.
374 1.1 tron */
375 1.1 tron add_lnum(linenum, cpos);
376 1.1 tron }
377 1.1 tron
378 1.1 tron return (linenum);
379 1.1 tron }
380 1.1 tron
381 1.1 tron /*
382 1.1 tron * Find the position of a given line number.
383 1.1 tron * Return NULL_POSITION if we can't figure it out.
384 1.1 tron */
385 1.1 tron public POSITION
386 1.1 tron find_pos(linenum)
387 1.1 tron LINENUM linenum;
388 1.1 tron {
389 1.1 tron register struct linenum_info *p;
390 1.1 tron POSITION cpos;
391 1.1 tron LINENUM clinenum;
392 1.1 tron
393 1.1 tron if (linenum <= 1)
394 1.1 tron /*
395 1.1 tron * Line number 1 is beginning of file.
396 1.1 tron */
397 1.1 tron return (ch_zero());
398 1.1 tron
399 1.1 tron /*
400 1.1 tron * Find the entry nearest to the line number we want.
401 1.1 tron */
402 1.1 tron for (p = anchor.next; p != &anchor && p->line < linenum; p = p->next)
403 1.1 tron continue;
404 1.1 tron if (p->line == linenum)
405 1.1 tron /* Found it exactly. */
406 1.1 tron return (p->pos);
407 1.1 tron
408 1.1 tron if (p == &anchor || linenum - p->prev->line < p->line - linenum)
409 1.1 tron {
410 1.1 tron /*
411 1.1 tron * Go forward.
412 1.1 tron */
413 1.1 tron p = p->prev;
414 1.1 tron if (ch_seek(p->pos))
415 1.1 tron return (NULL_POSITION);
416 1.1 tron for (clinenum = p->line, cpos = p->pos; clinenum < linenum; clinenum++)
417 1.1 tron {
418 1.1 tron /*
419 1.1 tron * Allow a signal to abort this loop.
420 1.1 tron */
421 1.1 tron cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL);
422 1.1 tron if (ABORT_SIGS())
423 1.1 tron return (NULL_POSITION);
424 1.1 tron if (cpos == NULL_POSITION)
425 1.1 tron return (NULL_POSITION);
426 1.1 tron }
427 1.1 tron } else
428 1.1 tron {
429 1.1 tron /*
430 1.1 tron * Go backward.
431 1.1 tron */
432 1.1 tron if (ch_seek(p->pos))
433 1.1 tron return (NULL_POSITION);
434 1.1 tron for (clinenum = p->line, cpos = p->pos; clinenum > linenum; clinenum--)
435 1.1 tron {
436 1.1 tron /*
437 1.1 tron * Allow a signal to abort this loop.
438 1.1 tron */
439 1.1 tron cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL);
440 1.1 tron if (ABORT_SIGS())
441 1.1 tron return (NULL_POSITION);
442 1.1 tron if (cpos == NULL_POSITION)
443 1.1 tron return (NULL_POSITION);
444 1.1 tron }
445 1.1 tron }
446 1.1 tron /*
447 1.1 tron * We might as well cache it.
448 1.1 tron */
449 1.1 tron add_lnum(clinenum, cpos);
450 1.1 tron return (cpos);
451 1.1 tron }
452 1.1 tron
453 1.1 tron /*
454 1.1 tron * Return the line number of the "current" line.
455 1.1 tron * The argument "where" tells which line is to be considered
456 1.1 tron * the "current" line (e.g. TOP, BOTTOM, MIDDLE, etc).
457 1.1 tron */
458 1.1 tron public LINENUM
459 1.1 tron currline(where)
460 1.1 tron int where;
461 1.1 tron {
462 1.1 tron POSITION pos;
463 1.1 tron POSITION len;
464 1.1 tron LINENUM linenum;
465 1.1 tron
466 1.1 tron pos = position(where);
467 1.1 tron len = ch_length();
468 1.1 tron while (pos == NULL_POSITION && where >= 0 && where < sc_height)
469 1.1 tron pos = position(++where);
470 1.1 tron if (pos == NULL_POSITION)
471 1.1 tron pos = len;
472 1.1 tron linenum = find_linenum(pos);
473 1.1 tron if (pos == len)
474 1.1 tron linenum--;
475 1.1 tron return (linenum);
476 1.1 tron }
477