gno/bin/less/linenum.c
gdr-ftp 784e3de7cd Initial checkin of aroff, binprint, center, less, ls, make, makemake,
passwd, ps, purge, shutdown, stty, upper, and vi.  These sources are
for the versions of the utils shipped with GNO v2.0.4.
1998-03-09 08:30:21 +00:00

453 lines
9.9 KiB
C

/*
* Code to handle displaying line numbers.
*
* Finding the line number of a given file position is rather tricky.
* We don't want to just start at the beginning of the file and
* count newlines, because that is slow for large files (and also
* wouldn't work if we couldn't get to the start of the file; e.g.
* if input is a long pipe).
*
* So we use the function add_lnum to cache line numbers.
* We try to be very clever and keep only the more interesting
* line numbers when we run out of space in our table. A line
* number is more interesting than another when it is far from
* other line numbers. For example, we'd rather keep lines
* 100,200,300 than 100,101,300. 200 is more interesting than
* 101 because 101 can be derived very cheaply from 100, while
* 200 is more expensive to derive from 100.
*
* The function currline() returns the line number of a given
* position in the file. As a side effect, it calls add_lnum
* to cache the line number. Therefore currline is occasionally
* called to make sure we cache line numbers often enough.
*/
#pragma noroot
#include "less.h"
#include "position.h"
#ifdef _ORCAC_
segment "LoadSegONE";
#endif
/*
* Structure to keep track of a line number and the associated file position.
* A doubly-linked circular list of line numbers is kept ordered by line number.
*/
struct linenum
{
struct linenum *next; /* Link to next in the list */
struct linenum *prev; /* Line to previous in the list */
POSITION pos; /* File position */
POSITION gap; /* Gap between prev and next */
int line; /* Line number */
};
/*
* "gap" needs some explanation: the gap of any particular line number
* is the distance between the previous one and the next one in the list.
* ("Distance" means difference in file position.) In other words, the
* gap of a line number is the gap which would be introduced if this
* line number were deleted. It is used to decide which one to replace
* when we have a new one to insert and the table is full.
*/
#define NPOOL 50 /* Size of line number pool */
#define LONGTIME (2) /* In seconds */
public int lnloop = 0; /* Are we in the line num loop? */
static struct linenum anchor; /* Anchor of the list */
static struct linenum *freelist; /* Anchor of the unused entries */
static struct linenum pool[NPOOL]; /* The pool itself */
static struct linenum *spare; /* We always keep one spare entry */
extern int linenums;
extern int sigs;
extern int sc_height;
static void calcgap(register struct linenum *p);
static void longloopmessage(void);
static void longish(void);
/*
* Initialize the line number structures.
*/
public void
clr_linenum(void)
{
register struct linenum *p;
/*
* Put all the entries on the free list.
* Leave one for the "spare".
*/
for (p = pool; p < &pool[NPOOL-2]; p++)
p->next = p+1;
pool[NPOOL-2].next = NULL;
freelist = pool;
spare = &pool[NPOOL-1];
/*
* Initialize the anchor.
*/
anchor.next = anchor.prev = &anchor;
anchor.gap = 0;
anchor.pos = (POSITION)0;
anchor.line = 1;
}
/*
* Calculate the gap for an entry.
*/
static void
calcgap(p)
register struct linenum *p;
{
/*
* Don't bother to compute a gap for the anchor.
* Also don't compute a gap for the last one in the list.
* The gap for that last one should be considered infinite,
* but we never look at it anyway.
*/
if (p == &anchor || p->next == &anchor)
return;
p->gap = p->next->pos - p->prev->pos;
}
/*
* Add a new line number to the cache.
* The specified position (pos) should be the file position of the
* FIRST character in the specified line.
*/
public void
add_lnum(lno, pos)
int lno;
POSITION pos;
{
register struct linenum *p;
register struct linenum *new;
register struct linenum *nextp;
register struct linenum *prevp;
register POSITION mingap;
/*
* Find the proper place in the list for the new one.
* The entries are sorted by position.
*/
for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next)
if (p->line == lno)
/* We already have this one. */
return;
nextp = p;
prevp = p->prev;
if (freelist != NULL)
{
/*
* We still have free (unused) entries.
* Use one of them.
*/
new = freelist;
freelist = freelist->next;
} else
{
/*
* No free entries.
* Use the "spare" entry.
*/
new = spare;
spare = NULL;
}
/*
* Fill in the fields of the new entry,
* and insert it into the proper place in the list.
*/
new->next = nextp;
new->prev = prevp;
new->pos = pos;
new->line = lno;
nextp->prev = new;
prevp->next = new;
/*
* Recalculate gaps for the new entry and the neighboring entries.
*/
calcgap(new);
calcgap(nextp);
calcgap(prevp);
if (spare == NULL)
{
/*
* We have used the spare entry.
* Scan the list to find the one with the smallest
* gap, take it out and make it the spare.
* We should never remove the last one, so stop when
* we get to p->next == &anchor. This also avoids
* looking at the gap of the last one, which is
* not computed by calcgap.
*/
mingap = anchor.next->gap;
for (p = anchor.next; p->next != &anchor; p = p->next)
{
if (p->gap <= mingap)
{
spare = p;
mingap = p->gap;
}
}
spare->next->prev = spare->prev;
spare->prev->next = spare->next;
}
}
/*
* If we get stuck in a long loop trying to figure out the
* line number, print a message to tell the user what we're doing.
*/
static void
longloopmessage(void)
{
ierror("Calculating line numbers", NULL_PARG);
/*
* Set the lnloop flag here, so if the user interrupts while
* we are calculating line numbers, the signal handler will
* turn off line numbers (linenums=0).
*/
lnloop = 1;
}
static int loopcount;
#if GET_TIME
static long startime;
#endif
static void
longish(void)
{
#if GET_TIME
if (loopcount >= 0 && ++loopcount > 100)
{
loopcount = 0;
if (get_time() >= startime + LONGTIME)
{
longloopmessage();
loopcount = -1;
}
}
#else
if (loopcount >= 0 && ++loopcount > LONGLOOP)
{
longloopmessage();
loopcount = -1;
}
#endif
}
/*
* Find the line number associated with a given position.
* Return 0 if we can't figure it out.
*/
public int
find_linenum(pos)
POSITION pos;
{
register struct linenum *p;
register int lno;
POSITION cpos;
if (!linenums)
/*
* We're not using line numbers.
*/
return (0);
if (pos == NULL_POSITION)
/*
* Caller doesn't know what he's talking about.
*/
return (0);
if (pos <= ch_zero())
/*
* Beginning of file is always line number 1.
*/
return (1);
/*
* Find the entry nearest to the position we want.
*/
for (p = anchor.next; p != &anchor && p->pos < pos; p = p->next)
continue;
if (p->pos == pos)
/* Found it exactly. */
return (p->line);
/*
* This is the (possibly) time-consuming part.
* We start at the line we just found and start
* reading the file forward or backward till we
* get to the place we want.
*
* First decide whether we should go forward from the
* previous one or backwards from the next one.
* The decision is based on which way involves
* traversing fewer bytes in the file.
*/
flush();
#if GET_TIME
startime = get_time();
#endif
if (p == &anchor || pos - p->prev->pos < p->pos - pos)
{
/*
* Go forward.
*/
p = p->prev;
if (ch_seek(p->pos))
return (0);
loopcount = 0;
for (lno = p->line, cpos = p->pos; cpos < pos; lno++)
{
/*
* Allow a signal to abort this loop.
*/
cpos = forw_raw_line(cpos, (char **)NULL);
if (sigs || cpos == NULL_POSITION)
return (0);
longish();
}
lnloop = 0;
/*
* We might as well cache it.
*/
add_lnum(lno, cpos);
/*
* If the given position is not at the start of a line,
* make sure we return the correct line number.
*/
if (cpos > pos)
lno--;
} else
{
/*
* Go backward.
*/
if (ch_seek(p->pos))
return (0);
loopcount = 0;
for (lno = p->line, cpos = p->pos; cpos > pos; lno--)
{
/*
* Allow a signal to abort this loop.
*/
cpos = back_raw_line(cpos, (char **)NULL);
if (sigs || cpos == NULL_POSITION)
return (0);
longish();
}
lnloop = 0;
/*
* We might as well cache it.
*/
add_lnum(lno, cpos);
}
return (lno);
}
/*
* Find the position of a given line number.
* Return NULL_POSITION if we can't figure it out.
*/
public POSITION
find_pos(lno)
int lno;
{
register struct linenum *p;
POSITION cpos;
int clno;
if (lno <= 1)
/*
* Line number 1 is beginning of file.
*/
return (ch_zero());
/*
* Find the entry nearest to the line number we want.
*/
for (p = anchor.next; p != &anchor && p->line < lno; p = p->next)
continue;
if (p->line == lno)
/* Found it exactly. */
return (p->pos);
flush();
if (p == &anchor || lno - p->prev->line < p->line - lno)
{
/*
* Go forward.
*/
p = p->prev;
if (ch_seek(p->pos))
return (NULL_POSITION);
for (clno = p->line, cpos = p->pos; clno < lno; clno++)
{
/*
* Allow a signal to abort this loop.
*/
cpos = forw_raw_line(cpos, (char **)NULL);
if (sigs || cpos == NULL_POSITION)
return (NULL_POSITION);
}
} else
{
/*
* Go backward.
*/
if (ch_seek(p->pos))
return (NULL_POSITION);
for (clno = p->line, cpos = p->pos; clno > lno; clno--)
{
/*
* Allow a signal to abort this loop.
*/
cpos = back_raw_line(cpos, (char **)NULL);
if (sigs || cpos == NULL_POSITION)
return (NULL_POSITION);
}
}
/*
* We might as well cache it.
*/
add_lnum(clno, cpos);
return (cpos);
}
/*
* Return the line number of the "current" line.
* The argument "where" tells which line is to be considered
* the "current" line (e.g. TOP, BOTTOM, MIDDLE, etc).
*/
public int
currline(where)
int where;
{
POSITION pos;
POSITION len;
int lnum;
pos = position(where);
len = ch_length();
while (pos == NULL_POSITION && where >= 0 && where < sc_height)
pos = position(++where);
if (pos == NULL_POSITION)
pos = len;
lnum = find_linenum(pos);
if (pos == len)
lnum--;
return (lnum);
}