ref: 976ae5b920edf2a1332139bd4079ffd20bfb2a44
dir: /adj.c/
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "xroff.h"
#define ADJ_LLEN(a) ((a)->ll > (a)->li + (a)->lt ? (a)->ll - (a)->li - (a)->lt : 0)
struct word {
int beg; /* word beginning offset */
int end; /* word ending offset */
int wid; /* word width */
int gap; /* the space before this word */
int els_neg; /* pre-extra line space */
int els_pos; /* post-extra line space */
};
struct adj {
char buf[LNLEN]; /* line buffer */
int len;
struct word words[NWORDS]; /* words in buf */
int nwords;
int wid; /* total width of buf */
struct word *word; /* current word */
int swid; /* current space width */
int gap; /* space before the next word */
int nls; /* newlines before the next word */
int l, i, t; /* current .l, .i and ti */
int ll, li, lt; /* current line's .l, .i and ti */
};
void adj_ll(struct adj *adj, int ll)
{
adj->l = ll;
}
void adj_ti(struct adj *adj, int ti)
{
adj->t = ti;
}
void adj_in(struct adj *adj, int in)
{
adj->i = in;
}
/* .ll, .in and .ti are delayed until the partial line is output */
static void adj_confupdate(struct adj *adj)
{
adj->ll = adj->l;
adj->li = adj->i;
adj->lt = adj->t;
adj->t = 0;
}
/* does the adjustment buffer need to be flushed without filling? */
static int adj_fullnf(struct adj *a)
{
/* blank lines; indented lines; newlines when buffer is empty */
return a->nls > 1 || (a->nls && a->gap) || (a->nls && !a->nwords);
}
/* does the adjustment buffer need to be flushed? */
int adj_full(struct adj *a, int fill)
{
if (!fill)
return a->nls;
if (adj_fullnf(a))
return 1;
return !a->word && a->wid > ADJ_LLEN(a);
}
/* is the adjustment buffer empty? */
int adj_empty(struct adj *a, int fill)
{
return !fill ? !a->nls : !a->nwords && !adj_fullnf(a);
}
/* set space width */
void adj_swid(struct adj *adj, int swid)
{
adj->swid = swid;
}
/* move n words from the adjustment buffer to s */
static int adj_move(struct adj *a, int n, char *s, int *els_neg, int *els_pos)
{
struct word *cur;
int lendiff;
int w = 0;
int i;
*els_neg = 0;
*els_pos = 0;
for (i = 0; i < n; i++) {
cur = &a->words[i];
s += sprintf(s, "\\h'%du'", cur->gap);
memcpy(s, a->buf + cur->beg, cur->end - cur->beg);
s += cur->end - cur->beg;
w += cur->wid + cur->gap;
if (cur->els_neg < *els_neg)
*els_neg = cur->els_neg;
if (cur->els_pos > *els_pos)
*els_pos = cur->els_pos;
}
*s = '\0';
if (!n)
return 0;
lendiff = n < a->nwords ? a->words[n].beg : a->len;
memmove(a->buf, a->buf + lendiff, a->len - lendiff + 1);
a->len -= lendiff;
a->nwords -= n;
memmove(a->words, a->words + n, a->nwords * sizeof(a->words[0]));
a->wid -= w;
for (i = 0; i < a->nwords; i++) {
a->words[i].beg -= lendiff;
a->words[i].end -= lendiff;
}
if (a->nwords) /* apply the new .l and .i */
adj_confupdate(a);
return w;
}
/* fill and copy a line into s */
int adj_fill(struct adj *a, int ad_b, int fill, char *s,
int *ll, int *in, int *ti, int *els_neg, int *els_pos)
{
int adj_div, adj_rem;
int w = 0;
int i, n;
int llen = ADJ_LLEN(a);
*ll = a->ll;
*in = a->li;
*ti = a->lt;
if (!fill || adj_fullnf(a)) {
a->nls--;
return adj_move(a, a->nwords, s, els_neg, els_pos);
}
for (n = 0; n < a->nwords; n++) {
if (n && w + a->words[n].wid + a->words[n].gap > llen)
break;
w += a->words[n].wid + a->words[n].gap;
}
if (ad_b && n > 1 && n < a->nwords) {
adj_div = (llen - w) / (n - 1);
adj_rem = llen - w - adj_div * (n - 1);
a->wid += llen - w;
for (i = 0; i < n - 1; i++)
a->words[i + 1].gap += adj_div + (i < adj_rem);
}
w = adj_move(a, n, s, els_neg, els_pos);
if (a->nwords)
a->wid -= a->words[0].gap;
a->words[0].gap = 0;
return w;
}
static void adj_wordbeg(struct adj *adj, int gap)
{
adj->word = &adj->words[adj->nwords++];
adj->word->beg = adj->len;
adj->word->wid = 0;
adj->word->gap = gap;
adj->wid += gap;
adj->word->els_neg = 0;
adj->word->els_pos = 0;
}
static void adj_wordend(struct adj *adj)
{
if (adj->word)
adj->word->end = adj->len;
adj->word = NULL;
}
/* insert s into the adjustment buffer */
void adj_put(struct adj *adj, int wid, char *s, ...)
{
va_list ap;
if (!strcmp(s, " ")) {
adj_wordend(adj);
adj->gap += wid;
adj->swid = wid;
return;
}
if (!strcmp(s, "\n")) {
adj_wordend(adj);
adj->nls++;
adj->gap = 0;
adj->swid = wid;
return;
}
if (!adj->nwords) /* apply the new .l and .i */
adj_confupdate(adj);
if (!adj->word) {
if (adj->nls && !adj->gap && adj->nwords >= 1)
adj->gap = adj->swid;
adj_wordbeg(adj, adj->gap);
adj->nls = 0;
adj->gap = 0;
}
va_start(ap, s);
adj->len += vsprintf(adj->buf + adj->len, s, ap);
va_end(ap);
adj->word->wid += wid;
adj->wid += wid;
}
/* extra line-space requests */
void adj_els(struct adj *adj, int els)
{
if (!adj->word)
adj_put(adj, 0, "");
if (els < adj->word->els_neg)
adj->word->els_neg = els;
if (els > adj->word->els_pos)
adj->word->els_pos = els;
}
struct adj *adj_alloc(void)
{
struct adj *adj = malloc(sizeof(*adj));
memset(adj, 0, sizeof(*adj));
return adj;
}
void adj_free(struct adj *adj)
{
free(adj);
}
int adj_wid(struct adj *adj)
{
return adj->wid + (adj->nls ? adj->swid : adj->gap);
}