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linenum.c revision 1.1.1.3
      1      1.1    tron /*
      2  1.1.1.3  simonb  * Copyright (C) 1984-2023  Mark Nudelman
      3      1.1    tron  *
      4      1.1    tron  * You may distribute under the terms of either the GNU General Public
      5      1.1    tron  * License or the Less License, as specified in the README file.
      6      1.1    tron  *
      7  1.1.1.2    tron  * For more information, see the README file.
      8      1.1    tron  */
      9      1.1    tron 
     10      1.1    tron 
     11      1.1    tron /*
     12      1.1    tron  * Code to handle displaying line numbers.
     13      1.1    tron  *
     14      1.1    tron  * Finding the line number of a given file position is rather tricky.
     15      1.1    tron  * We don't want to just start at the beginning of the file and
     16      1.1    tron  * count newlines, because that is slow for large files (and also
     17      1.1    tron  * wouldn't work if we couldn't get to the start of the file; e.g.
     18      1.1    tron  * if input is a long pipe).
     19      1.1    tron  *
     20      1.1    tron  * So we use the function add_lnum to cache line numbers.
     21      1.1    tron  * We try to be very clever and keep only the more interesting
     22      1.1    tron  * line numbers when we run out of space in our table.  A line
     23      1.1    tron  * number is more interesting than another when it is far from
     24      1.1    tron  * other line numbers.   For example, we'd rather keep lines
     25      1.1    tron  * 100,200,300 than 100,101,300.  200 is more interesting than
     26      1.1    tron  * 101 because 101 can be derived very cheaply from 100, while
     27      1.1    tron  * 200 is more expensive to derive from 100.
     28      1.1    tron  *
     29      1.1    tron  * The function currline() returns the line number of a given
     30      1.1    tron  * position in the file.  As a side effect, it calls add_lnum
     31      1.1    tron  * to cache the line number.  Therefore currline is occasionally
     32      1.1    tron  * called to make sure we cache line numbers often enough.
     33      1.1    tron  */
     34      1.1    tron 
     35      1.1    tron #include "less.h"
     36      1.1    tron 
     37      1.1    tron /*
     38      1.1    tron  * Structure to keep track of a line number and the associated file position.
     39      1.1    tron  * A doubly-linked circular list of line numbers is kept ordered by line number.
     40      1.1    tron  */
     41      1.1    tron struct linenum_info
     42      1.1    tron {
     43  1.1.1.3  simonb 	struct linenum_info *next;      /* Link to next in the list */
     44  1.1.1.3  simonb 	struct linenum_info *prev;      /* Line to previous in the list */
     45  1.1.1.3  simonb 	POSITION pos;                   /* File position */
     46  1.1.1.3  simonb 	POSITION gap;                   /* Gap between prev and next */
     47  1.1.1.3  simonb 	LINENUM line;                   /* Line number */
     48      1.1    tron };
     49      1.1    tron /*
     50      1.1    tron  * "gap" needs some explanation: the gap of any particular line number
     51      1.1    tron  * is the distance between the previous one and the next one in the list.
     52      1.1    tron  * ("Distance" means difference in file position.)  In other words, the
     53      1.1    tron  * gap of a line number is the gap which would be introduced if this
     54      1.1    tron  * line number were deleted.  It is used to decide which one to replace
     55      1.1    tron  * when we have a new one to insert and the table is full.
     56      1.1    tron  */
     57      1.1    tron 
     58  1.1.1.3  simonb #define NPOOL   200                     /* Size of line number pool */
     59      1.1    tron 
     60  1.1.1.3  simonb #define LONGTIME        (2)             /* In seconds */
     61      1.1    tron 
     62  1.1.1.3  simonb static struct linenum_info anchor;      /* Anchor of the list */
     63  1.1.1.3  simonb static struct linenum_info *freelist;   /* Anchor of the unused entries */
     64  1.1.1.3  simonb static struct linenum_info pool[NPOOL]; /* The pool itself */
     65  1.1.1.3  simonb static struct linenum_info *spare;      /* We always keep one spare entry */
     66  1.1.1.3  simonb public int scanning_eof = FALSE;
     67      1.1    tron 
     68      1.1    tron extern int linenums;
     69      1.1    tron extern int sigs;
     70      1.1    tron extern int sc_height;
     71      1.1    tron extern int screen_trashed;
     72  1.1.1.3  simonb extern int header_lines;
     73  1.1.1.3  simonb extern int nonum_headers;
     74      1.1    tron 
     75      1.1    tron /*
     76      1.1    tron  * Initialize the line number structures.
     77      1.1    tron  */
     78  1.1.1.3  simonb public void clr_linenum(void)
     79      1.1    tron {
     80  1.1.1.3  simonb 	struct linenum_info *p;
     81      1.1    tron 
     82      1.1    tron 	/*
     83      1.1    tron 	 * Put all the entries on the free list.
     84      1.1    tron 	 * Leave one for the "spare".
     85      1.1    tron 	 */
     86      1.1    tron 	for (p = pool;  p < &pool[NPOOL-2];  p++)
     87      1.1    tron 		p->next = p+1;
     88      1.1    tron 	pool[NPOOL-2].next = NULL;
     89      1.1    tron 	freelist = pool;
     90      1.1    tron 
     91      1.1    tron 	spare = &pool[NPOOL-1];
     92      1.1    tron 
     93      1.1    tron 	/*
     94      1.1    tron 	 * Initialize the anchor.
     95      1.1    tron 	 */
     96      1.1    tron 	anchor.next = anchor.prev = &anchor;
     97      1.1    tron 	anchor.gap = 0;
     98      1.1    tron 	anchor.pos = (POSITION)0;
     99      1.1    tron 	anchor.line = 1;
    100      1.1    tron }
    101      1.1    tron 
    102      1.1    tron /*
    103      1.1    tron  * Calculate the gap for an entry.
    104      1.1    tron  */
    105  1.1.1.3  simonb static void calcgap(struct linenum_info *p)
    106      1.1    tron {
    107      1.1    tron 	/*
    108      1.1    tron 	 * Don't bother to compute a gap for the anchor.
    109      1.1    tron 	 * Also don't compute a gap for the last one in the list.
    110      1.1    tron 	 * The gap for that last one should be considered infinite,
    111      1.1    tron 	 * but we never look at it anyway.
    112      1.1    tron 	 */
    113      1.1    tron 	if (p == &anchor || p->next == &anchor)
    114      1.1    tron 		return;
    115      1.1    tron 	p->gap = p->next->pos - p->prev->pos;
    116      1.1    tron }
    117      1.1    tron 
    118      1.1    tron /*
    119      1.1    tron  * Add a new line number to the cache.
    120      1.1    tron  * The specified position (pos) should be the file position of the
    121      1.1    tron  * FIRST character in the specified line.
    122      1.1    tron  */
    123  1.1.1.3  simonb public void add_lnum(LINENUM linenum, POSITION pos)
    124      1.1    tron {
    125  1.1.1.3  simonb 	struct linenum_info *p;
    126  1.1.1.3  simonb 	struct linenum_info *new;
    127  1.1.1.3  simonb 	struct linenum_info *nextp;
    128  1.1.1.3  simonb 	struct linenum_info *prevp;
    129  1.1.1.3  simonb 	POSITION mingap;
    130      1.1    tron 
    131      1.1    tron 	/*
    132      1.1    tron 	 * Find the proper place in the list for the new one.
    133      1.1    tron 	 * The entries are sorted by position.
    134      1.1    tron 	 */
    135      1.1    tron 	for (p = anchor.next;  p != &anchor && p->pos < pos;  p = p->next)
    136      1.1    tron 		if (p->line == linenum)
    137      1.1    tron 			/* We already have this one. */
    138      1.1    tron 			return;
    139      1.1    tron 	nextp = p;
    140      1.1    tron 	prevp = p->prev;
    141      1.1    tron 
    142      1.1    tron 	if (freelist != NULL)
    143      1.1    tron 	{
    144      1.1    tron 		/*
    145      1.1    tron 		 * We still have free (unused) entries.
    146      1.1    tron 		 * Use one of them.
    147      1.1    tron 		 */
    148      1.1    tron 		new = freelist;
    149      1.1    tron 		freelist = freelist->next;
    150      1.1    tron 	} else
    151      1.1    tron 	{
    152      1.1    tron 		/*
    153      1.1    tron 		 * No free entries.
    154      1.1    tron 		 * Use the "spare" entry.
    155      1.1    tron 		 */
    156      1.1    tron 		new = spare;
    157      1.1    tron 		spare = NULL;
    158      1.1    tron 	}
    159      1.1    tron 
    160      1.1    tron 	/*
    161      1.1    tron 	 * Fill in the fields of the new entry,
    162      1.1    tron 	 * and insert it into the proper place in the list.
    163      1.1    tron 	 */
    164      1.1    tron 	new->next = nextp;
    165      1.1    tron 	new->prev = prevp;
    166      1.1    tron 	new->pos = pos;
    167      1.1    tron 	new->line = linenum;
    168      1.1    tron 
    169      1.1    tron 	nextp->prev = new;
    170      1.1    tron 	prevp->next = new;
    171      1.1    tron 
    172      1.1    tron 	/*
    173      1.1    tron 	 * Recalculate gaps for the new entry and the neighboring entries.
    174      1.1    tron 	 */
    175      1.1    tron 	calcgap(new);
    176      1.1    tron 	calcgap(nextp);
    177      1.1    tron 	calcgap(prevp);
    178      1.1    tron 
    179      1.1    tron 	if (spare == NULL)
    180      1.1    tron 	{
    181      1.1    tron 		/*
    182      1.1    tron 		 * We have used the spare entry.
    183      1.1    tron 		 * Scan the list to find the one with the smallest
    184      1.1    tron 		 * gap, take it out and make it the spare.
    185      1.1    tron 		 * We should never remove the last one, so stop when
    186      1.1    tron 		 * we get to p->next == &anchor.  This also avoids
    187      1.1    tron 		 * looking at the gap of the last one, which is
    188      1.1    tron 		 * not computed by calcgap.
    189      1.1    tron 		 */
    190      1.1    tron 		mingap = anchor.next->gap;
    191      1.1    tron 		for (p = anchor.next;  p->next != &anchor;  p = p->next)
    192      1.1    tron 		{
    193      1.1    tron 			if (p->gap <= mingap)
    194      1.1    tron 			{
    195      1.1    tron 				spare = p;
    196      1.1    tron 				mingap = p->gap;
    197      1.1    tron 			}
    198      1.1    tron 		}
    199      1.1    tron 		spare->next->prev = spare->prev;
    200      1.1    tron 		spare->prev->next = spare->next;
    201      1.1    tron 	}
    202      1.1    tron }
    203      1.1    tron 
    204      1.1    tron /*
    205      1.1    tron  * If we get stuck in a long loop trying to figure out the
    206      1.1    tron  * line number, print a message to tell the user what we're doing.
    207      1.1    tron  */
    208  1.1.1.3  simonb static void longloopmessage(void)
    209      1.1    tron {
    210      1.1    tron 	ierror("Calculating line numbers", NULL_PARG);
    211      1.1    tron }
    212      1.1    tron 
    213      1.1    tron static int loopcount;
    214      1.1    tron #if HAVE_TIME
    215  1.1.1.3  simonb static time_type startime;
    216      1.1    tron #endif
    217      1.1    tron 
    218  1.1.1.3  simonb static void longish(void)
    219      1.1    tron {
    220      1.1    tron #if HAVE_TIME
    221      1.1    tron 	if (loopcount >= 0 && ++loopcount > 100)
    222      1.1    tron 	{
    223      1.1    tron 		loopcount = 0;
    224      1.1    tron 		if (get_time() >= startime + LONGTIME)
    225      1.1    tron 		{
    226      1.1    tron 			longloopmessage();
    227      1.1    tron 			loopcount = -1;
    228      1.1    tron 		}
    229      1.1    tron 	}
    230      1.1    tron #else
    231      1.1    tron 	if (loopcount >= 0 && ++loopcount > LONGLOOP)
    232      1.1    tron 	{
    233      1.1    tron 		longloopmessage();
    234      1.1    tron 		loopcount = -1;
    235      1.1    tron 	}
    236      1.1    tron #endif
    237      1.1    tron }
    238      1.1    tron 
    239      1.1    tron /*
    240      1.1    tron  * Turn off line numbers because the user has interrupted
    241      1.1    tron  * a lengthy line number calculation.
    242      1.1    tron  */
    243  1.1.1.3  simonb static void abort_long(void)
    244      1.1    tron {
    245  1.1.1.3  simonb 	if (loopcount >= 0)
    246  1.1.1.3  simonb 		return;
    247      1.1    tron 	if (linenums == OPT_ONPLUS)
    248      1.1    tron 		/*
    249      1.1    tron 		 * We were displaying line numbers, so need to repaint.
    250      1.1    tron 		 */
    251      1.1    tron 		screen_trashed = 1;
    252      1.1    tron 	linenums = 0;
    253      1.1    tron 	error("Line numbers turned off", NULL_PARG);
    254      1.1    tron }
    255      1.1    tron 
    256      1.1    tron /*
    257      1.1    tron  * Find the line number associated with a given position.
    258      1.1    tron  * Return 0 if we can't figure it out.
    259      1.1    tron  */
    260  1.1.1.3  simonb public LINENUM find_linenum(POSITION pos)
    261      1.1    tron {
    262  1.1.1.3  simonb 	struct linenum_info *p;
    263  1.1.1.3  simonb 	LINENUM linenum;
    264      1.1    tron 	POSITION cpos;
    265      1.1    tron 
    266      1.1    tron 	if (!linenums)
    267      1.1    tron 		/*
    268      1.1    tron 		 * We're not using line numbers.
    269      1.1    tron 		 */
    270      1.1    tron 		return (0);
    271      1.1    tron 	if (pos == NULL_POSITION)
    272      1.1    tron 		/*
    273      1.1    tron 		 * Caller doesn't know what he's talking about.
    274      1.1    tron 		 */
    275      1.1    tron 		return (0);
    276      1.1    tron 	if (pos <= ch_zero())
    277      1.1    tron 		/*
    278      1.1    tron 		 * Beginning of file is always line number 1.
    279      1.1    tron 		 */
    280      1.1    tron 		return (1);
    281      1.1    tron 
    282      1.1    tron 	/*
    283      1.1    tron 	 * Find the entry nearest to the position we want.
    284      1.1    tron 	 */
    285      1.1    tron 	for (p = anchor.next;  p != &anchor && p->pos < pos;  p = p->next)
    286      1.1    tron 		continue;
    287      1.1    tron 	if (p->pos == pos)
    288      1.1    tron 		/* Found it exactly. */
    289      1.1    tron 		return (p->line);
    290      1.1    tron 
    291      1.1    tron 	/*
    292      1.1    tron 	 * This is the (possibly) time-consuming part.
    293      1.1    tron 	 * We start at the line we just found and start
    294      1.1    tron 	 * reading the file forward or backward till we
    295      1.1    tron 	 * get to the place we want.
    296      1.1    tron 	 *
    297      1.1    tron 	 * First decide whether we should go forward from the
    298      1.1    tron 	 * previous one or backwards from the next one.
    299      1.1    tron 	 * The decision is based on which way involves
    300      1.1    tron 	 * traversing fewer bytes in the file.
    301      1.1    tron 	 */
    302      1.1    tron #if HAVE_TIME
    303      1.1    tron 	startime = get_time();
    304      1.1    tron #endif
    305  1.1.1.3  simonb 	loopcount = 0;
    306      1.1    tron 	if (p == &anchor || pos - p->prev->pos < p->pos - pos)
    307      1.1    tron 	{
    308      1.1    tron 		/*
    309      1.1    tron 		 * Go forward.
    310      1.1    tron 		 */
    311      1.1    tron 		p = p->prev;
    312      1.1    tron 		if (ch_seek(p->pos))
    313      1.1    tron 			return (0);
    314      1.1    tron 		for (linenum = p->line, cpos = p->pos;  cpos < pos;  linenum++)
    315      1.1    tron 		{
    316      1.1    tron 			/*
    317      1.1    tron 			 * Allow a signal to abort this loop.
    318      1.1    tron 			 */
    319      1.1    tron 			cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL);
    320      1.1    tron 			if (ABORT_SIGS()) {
    321      1.1    tron 				abort_long();
    322      1.1    tron 				return (0);
    323      1.1    tron 			}
    324      1.1    tron 			if (cpos == NULL_POSITION)
    325      1.1    tron 				return (0);
    326      1.1    tron 			longish();
    327      1.1    tron 		}
    328      1.1    tron 		/*
    329      1.1    tron 		 * We might as well cache it.
    330      1.1    tron 		 */
    331      1.1    tron 		add_lnum(linenum, cpos);
    332      1.1    tron 		/*
    333      1.1    tron 		 * If the given position is not at the start of a line,
    334      1.1    tron 		 * make sure we return the correct line number.
    335      1.1    tron 		 */
    336      1.1    tron 		if (cpos > pos)
    337      1.1    tron 			linenum--;
    338      1.1    tron 	} else
    339      1.1    tron 	{
    340      1.1    tron 		/*
    341      1.1    tron 		 * Go backward.
    342      1.1    tron 		 */
    343      1.1    tron 		if (ch_seek(p->pos))
    344      1.1    tron 			return (0);
    345      1.1    tron 		for (linenum = p->line, cpos = p->pos;  cpos > pos;  linenum--)
    346      1.1    tron 		{
    347      1.1    tron 			/*
    348      1.1    tron 			 * Allow a signal to abort this loop.
    349      1.1    tron 			 */
    350      1.1    tron 			cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL);
    351      1.1    tron 			if (ABORT_SIGS()) {
    352      1.1    tron 				abort_long();
    353      1.1    tron 				return (0);
    354      1.1    tron 			}
    355      1.1    tron 			if (cpos == NULL_POSITION)
    356      1.1    tron 				return (0);
    357      1.1    tron 			longish();
    358      1.1    tron 		}
    359      1.1    tron 		/*
    360      1.1    tron 		 * We might as well cache it.
    361      1.1    tron 		 */
    362      1.1    tron 		add_lnum(linenum, cpos);
    363      1.1    tron 	}
    364  1.1.1.3  simonb 	loopcount = 0;
    365      1.1    tron 	return (linenum);
    366      1.1    tron }
    367      1.1    tron 
    368      1.1    tron /*
    369      1.1    tron  * Find the position of a given line number.
    370      1.1    tron  * Return NULL_POSITION if we can't figure it out.
    371      1.1    tron  */
    372  1.1.1.3  simonb public POSITION find_pos(LINENUM linenum)
    373      1.1    tron {
    374  1.1.1.3  simonb 	struct linenum_info *p;
    375      1.1    tron 	POSITION cpos;
    376      1.1    tron 	LINENUM clinenum;
    377      1.1    tron 
    378      1.1    tron 	if (linenum <= 1)
    379      1.1    tron 		/*
    380      1.1    tron 		 * Line number 1 is beginning of file.
    381      1.1    tron 		 */
    382      1.1    tron 		return (ch_zero());
    383      1.1    tron 
    384      1.1    tron 	/*
    385      1.1    tron 	 * Find the entry nearest to the line number we want.
    386      1.1    tron 	 */
    387      1.1    tron 	for (p = anchor.next;  p != &anchor && p->line < linenum;  p = p->next)
    388      1.1    tron 		continue;
    389      1.1    tron 	if (p->line == linenum)
    390      1.1    tron 		/* Found it exactly. */
    391      1.1    tron 		return (p->pos);
    392      1.1    tron 
    393      1.1    tron 	if (p == &anchor || linenum - p->prev->line < p->line - linenum)
    394      1.1    tron 	{
    395      1.1    tron 		/*
    396      1.1    tron 		 * Go forward.
    397      1.1    tron 		 */
    398      1.1    tron 		p = p->prev;
    399      1.1    tron 		if (ch_seek(p->pos))
    400      1.1    tron 			return (NULL_POSITION);
    401      1.1    tron 		for (clinenum = p->line, cpos = p->pos;  clinenum < linenum;  clinenum++)
    402      1.1    tron 		{
    403      1.1    tron 			/*
    404      1.1    tron 			 * Allow a signal to abort this loop.
    405      1.1    tron 			 */
    406      1.1    tron 			cpos = forw_raw_line(cpos, (char **)NULL, (int *)NULL);
    407      1.1    tron 			if (ABORT_SIGS())
    408      1.1    tron 				return (NULL_POSITION);
    409      1.1    tron 			if (cpos == NULL_POSITION)
    410      1.1    tron 				return (NULL_POSITION);
    411      1.1    tron 		}
    412      1.1    tron 	} else
    413      1.1    tron 	{
    414      1.1    tron 		/*
    415      1.1    tron 		 * Go backward.
    416      1.1    tron 		 */
    417      1.1    tron 		if (ch_seek(p->pos))
    418      1.1    tron 			return (NULL_POSITION);
    419      1.1    tron 		for (clinenum = p->line, cpos = p->pos;  clinenum > linenum;  clinenum--)
    420      1.1    tron 		{
    421      1.1    tron 			/*
    422      1.1    tron 			 * Allow a signal to abort this loop.
    423      1.1    tron 			 */
    424      1.1    tron 			cpos = back_raw_line(cpos, (char **)NULL, (int *)NULL);
    425      1.1    tron 			if (ABORT_SIGS())
    426      1.1    tron 				return (NULL_POSITION);
    427      1.1    tron 			if (cpos == NULL_POSITION)
    428      1.1    tron 				return (NULL_POSITION);
    429      1.1    tron 		}
    430      1.1    tron 	}
    431      1.1    tron 	/*
    432      1.1    tron 	 * We might as well cache it.
    433      1.1    tron 	 */
    434      1.1    tron 	add_lnum(clinenum, cpos);
    435      1.1    tron 	return (cpos);
    436      1.1    tron }
    437      1.1    tron 
    438      1.1    tron /*
    439      1.1    tron  * Return the line number of the "current" line.
    440      1.1    tron  * The argument "where" tells which line is to be considered
    441      1.1    tron  * the "current" line (e.g. TOP, BOTTOM, MIDDLE, etc).
    442      1.1    tron  */
    443  1.1.1.3  simonb public LINENUM currline(int where)
    444      1.1    tron {
    445      1.1    tron 	POSITION pos;
    446      1.1    tron 	POSITION len;
    447      1.1    tron 	LINENUM linenum;
    448      1.1    tron 
    449      1.1    tron 	pos = position(where);
    450      1.1    tron 	len = ch_length();
    451      1.1    tron 	while (pos == NULL_POSITION && where >= 0 && where < sc_height)
    452      1.1    tron 		pos = position(++where);
    453      1.1    tron 	if (pos == NULL_POSITION)
    454      1.1    tron 		pos = len;
    455      1.1    tron 	linenum = find_linenum(pos);
    456      1.1    tron 	if (pos == len)
    457      1.1    tron 		linenum--;
    458      1.1    tron 	return (linenum);
    459      1.1    tron }
    460  1.1.1.3  simonb 
    461  1.1.1.3  simonb /*
    462  1.1.1.3  simonb  * Scan entire file, counting line numbers.
    463  1.1.1.3  simonb  */
    464  1.1.1.3  simonb public void scan_eof(void)
    465  1.1.1.3  simonb {
    466  1.1.1.3  simonb 	POSITION pos = ch_zero();
    467  1.1.1.3  simonb 	LINENUM linenum = 0;
    468  1.1.1.3  simonb 
    469  1.1.1.3  simonb 	if (ch_seek(0))
    470  1.1.1.3  simonb 		return;
    471  1.1.1.3  simonb 	ierror("Determining length of file", NULL_PARG);
    472  1.1.1.3  simonb 	/*
    473  1.1.1.3  simonb 	 * scanning_eof prevents the "Waiting for data" message from
    474  1.1.1.3  simonb 	 * overwriting "Determining length of file".
    475  1.1.1.3  simonb 	 */
    476  1.1.1.3  simonb 	scanning_eof = TRUE;
    477  1.1.1.3  simonb 	while (pos != NULL_POSITION)
    478  1.1.1.3  simonb 	{
    479  1.1.1.3  simonb 		/* For efficiency, only add one every 256 line numbers. */
    480  1.1.1.3  simonb 		if ((linenum++ % 256) == 0)
    481  1.1.1.3  simonb 			add_lnum(linenum, pos);
    482  1.1.1.3  simonb 		pos = forw_raw_line(pos, (char **)NULL, (int *)NULL);
    483  1.1.1.3  simonb 		if (ABORT_SIGS())
    484  1.1.1.3  simonb 			break;
    485  1.1.1.3  simonb 	}
    486  1.1.1.3  simonb 	scanning_eof = FALSE;
    487  1.1.1.3  simonb }
    488  1.1.1.3  simonb 
    489  1.1.1.3  simonb /*
    490  1.1.1.3  simonb  * Return a line number adjusted for display
    491  1.1.1.3  simonb  * (handles the --no-number-headers option).
    492  1.1.1.3  simonb  */
    493  1.1.1.3  simonb public LINENUM vlinenum(LINENUM linenum)
    494  1.1.1.3  simonb {
    495  1.1.1.3  simonb 	if (nonum_headers)
    496  1.1.1.3  simonb 		linenum = (linenum < header_lines) ? 0 : linenum - header_lines;
    497  1.1.1.3  simonb 	return linenum;
    498  1.1.1.3  simonb }
    499