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fmt.c
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fmt.c
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/*
* line formatting buffer for line adjustment and hyphenation
*
* The line formatting buffer does two main functions: breaking
* words into lines (possibly after breaking them at their
* hyphenation points), and, if requested, adjusting the space
* between words in a line. In this file the first step is
* referred to as filling.
*
* Functions like fmt_word() return nonzero on failure, which
* means the call should be repeated after fetching previously
* formatted lines via fmt_nextline().
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "roff.h"
#define FMT_LLEN(f) MAX(0, (f)->ll - (f)->li - (f)->lI)
#define FMT_FILL(f) (!n_ce && n_u)
#define FMT_ADJ(f) (n_u && !n_na && !n_ce && (n_j & AD_B) == AD_B)
static int fmt_fillwords(struct fmt *f, int br);
struct word {
char *s;
int wid; /* word's width */
int elsn, elsp; /* els_neg and els_pos */
int gap; /* the space before this word */
int hy; /* hyphen width if inserted after this word */
int str; /* does the space before it stretch */
int cost; /* the extra cost of line break after this word */
int swid; /* space width after this word (i.e., \w' ') */
};
struct line {
struct sbuf sbuf;
int wid, li, ll, lI;
int elsn, elsp;
};
struct fmt {
/* queued words */
struct word *words;
int words_n, words_sz;
/* queued lines */
struct line *lines;
int lines_head, lines_tail, lines_sz;
/* for paragraph adjustment */
long *best;
int *best_pos;
int *best_dep;
/* current line */
int gap; /* space before the next word */
int nls; /* newlines before the next word */
int nls_sup; /* suppressed newlines */
int li, ll, lI; /* current line indentation and length */
int filled; /* filled all words in the last fmt_fill() */
int eos; /* last word ends a sentence */
int fillreq; /* fill after the last word (\p) */
};
/* .ll, .in and .ti are delayed until the partial line is output */
static void fmt_confupdate(struct fmt *f)
{
f->ll = n_l;
f->li = n_ti >= 0 ? n_ti : n_i;
f->lI = n_tI >= 0 ? n_tI : n_I;
n_ti = -1;
n_tI = -1;
}
static int fmt_confchanged(struct fmt *f)
{
return f->ll != n_l || f->li != (n_ti >= 0 ? n_ti : n_i) ||
f->lI != (n_tI >= 0 ? n_tI : n_I);
}
/* move words inside an fmt struct */
static void fmt_movewords(struct fmt *a, int dst, int src, int len)
{
memmove(a->words + dst, a->words + src, len * sizeof(a->words[0]));
}
/* move words from the buffer to s */
static int fmt_wordscopy(struct fmt *f, int beg, int end,
struct sbuf *s, int *els_neg, int *els_pos)
{
struct word *wcur;
int w = 0;
int i;
*els_neg = 0;
*els_pos = 0;
for (i = beg; i < end; i++) {
wcur = &f->words[i];
sbuf_printf(s, "%ch'%du'", c_ec, wcur->gap);
sbuf_append(s, wcur->s);
w += wcur->wid + wcur->gap;
if (wcur->elsn < *els_neg)
*els_neg = wcur->elsn;
if (wcur->elsp > *els_pos)
*els_pos = wcur->elsp;
free(wcur->s);
}
if (beg < end) {
wcur = &f->words[end - 1];
if (wcur->hy)
sbuf_append(s, "\\(hy");
w += wcur->hy;
}
return w;
}
static int fmt_nlines(struct fmt *f)
{
return f->lines_head - f->lines_tail;
}
/* the total width of the specified words in f->words[] */
static int fmt_wordslen(struct fmt *f, int beg, int end)
{
int i, w = 0;
for (i = beg; i < end; i++)
w += f->words[i].wid + f->words[i].gap;
return beg < end ? w + f->words[end - 1].hy : 0;
}
/* the number of stretchable spaces in f */
static int fmt_spaces(struct fmt *f, int beg, int end)
{
int i, n = 0;
for (i = beg + 1; i < end; i++)
if (f->words[i].str)
n++;
return n;
}
/* the amount of stretchable spaces in f */
static int fmt_spacessum(struct fmt *f, int beg, int end)
{
int i, n = 0;
for (i = beg + 1; i < end; i++)
if (f->words[i].str)
n += f->words[i].gap;
return n;
}
/* return the next line in the buffer */
char *fmt_nextline(struct fmt *f, int *w,
int *li, int *lI, int *ll, int *els_neg, int *els_pos)
{
struct line *l;
if (f->lines_head == f->lines_tail)
return NULL;
l = &f->lines[f->lines_tail++];
*li = l->li;
*lI = l->lI;
*ll = l->ll;
*w = l->wid;
*els_neg = l->elsn;
*els_pos = l->elsp;
return sbuf_out(&l->sbuf);
}
static struct line *fmt_mkline(struct fmt *f)
{
struct line *l;
if (f->lines_head == f->lines_tail) {
f->lines_head = 0;
f->lines_tail = 0;
}
if (f->lines_head == f->lines_sz) {
f->lines_sz += 256;
f->lines = mextend(f->lines, f->lines_head,
f->lines_sz, sizeof(f->lines[0]));
}
l = &f->lines[f->lines_head++];
l->li = f->li;
l->lI = f->lI;
l->ll = f->ll;
sbuf_init(&l->sbuf);
return l;
}
static void fmt_keshideh(struct fmt *f, int beg, int end, int wid);
/* extract words from beg to end; shrink or stretch spaces if needed */
static int fmt_extractline(struct fmt *f, int beg, int end, int str)
{
int fmt_div, fmt_rem;
int w, i, nspc, llen;
struct line *l;
if (!(l = fmt_mkline(f)))
return 1;
llen = FMT_LLEN(f);
w = fmt_wordslen(f, beg, end);
if (str && FMT_ADJ(f) && n_j & AD_K) {
fmt_keshideh(f, beg, end, llen - w);
w = fmt_wordslen(f, beg, end);
}
nspc = fmt_spaces(f, beg, end);
if (nspc && FMT_ADJ(f) && (llen < w || str)) {
fmt_div = (llen - w) / nspc;
fmt_rem = (llen - w) % nspc;
if (fmt_rem < 0) {
fmt_div--;
fmt_rem += nspc;
}
for (i = beg + 1; i < end; i++)
if (f->words[i].str)
f->words[i].gap += fmt_div + (fmt_rem-- > 0);
}
l->wid = fmt_wordscopy(f, beg, end, &l->sbuf, &l->elsn, &l->elsp);
return 0;
}
static int fmt_sp(struct fmt *f)
{
if (fmt_fillwords(f, 1))
return 1;
if (fmt_extractline(f, 0, f->words_n, 0))
return 1;
f->filled = 0;
f->nls--;
f->nls_sup = 0;
f->words_n = 0;
f->fillreq = 0;
return 0;
}
/* fill as many lines as possible; if br, put the remaining words in a line */
int fmt_fill(struct fmt *f, int br)
{
if (fmt_fillwords(f, br))
return 1;
if (br) {
f->filled = 0;
if (f->words_n)
if (fmt_sp(f))
return 1;
}
return 0;
}
void fmt_space(struct fmt *fmt)
{
fmt->gap += font_swid(dev_font(n_f), n_s, n_ss);
}
int fmt_newline(struct fmt *f)
{
f->gap = 0;
if (!FMT_FILL(f)) {
f->nls++;
fmt_sp(f);
return 0;
}
if (f->nls >= 1)
if (fmt_sp(f))
return 1;
if (f->nls == 0 && !f->filled && !f->words_n)
fmt_sp(f);
f->nls++;
return 0;
}
/* format the paragraph after the next word (\p) */
int fmt_fillreq(struct fmt *f)
{
if (f->fillreq > 0)
if (fmt_fillwords(f, 0))
return 1;
f->fillreq = f->words_n + 1;
return 0;
}
static void fmt_wb2word(struct fmt *f, struct word *word, struct wb *wb,
int hy, int str, int gap, int cost)
{
int len = strlen(wb_buf(wb));
word->s = xmalloc(len + 1);
memcpy(word->s, wb_buf(wb), len + 1);
word->wid = wb_wid(wb);
word->elsn = wb->els_neg;
word->elsp = wb->els_pos;
word->hy = hy ? wb_hywid(wb) : 0;
word->str = str;
word->gap = gap;
word->cost = cost;
word->swid = wb_swid(wb);
}
/* find explicit break positions: dashes, \:, \%, and \~ */
static int fmt_hyphmarks(char *word, int *hyidx, int *hyins, int *hygap)
{
char *s = word;
char *d = NULL;
int c, n = 0;
int lastchar = 0;
while ((c = escread(&s, &d)) > 0)
;
if (c < 0 || !strcmp(c_hc, d))
return -1;
while ((c = escread(&s, &d)) >= 0 && n < NHYPHSWORD) {
if (!c) {
if (!strcmp(c_hc, d)) {
hyins[n] = 1;
hyidx[n++] = s - word;
}
if (c_hydash(d)) {
hyins[n] = 0;
hyidx[n++] = s - word;
}
if (!strcmp(c_nb, d)) {
hygap[n] = 1;
hyidx[n++] = s - word;
}
lastchar = s - word;
}
}
/* cannot break the end of a word */
while (n > 0 && hyidx[n - 1] == lastchar)
n--;
return n;
}
static struct word *fmt_mkword(struct fmt *f)
{
if (f->words_n == f->words_sz) {
f->words_sz += 256;
f->words = mextend(f->words, f->words_n,
f->words_sz, sizeof(f->words[0]));
}
return &f->words[f->words_n++];
}
static void fmt_insertword(struct fmt *f, struct wb *wb, int gap)
{
int hyidx[NHYPHSWORD]; /* sub-word boundaries */
int hyins[NHYPHSWORD] = {0}; /* insert dash */
int hygap[NHYPHSWORD] = {0}; /* stretchable no-break space */
char *src = wb_buf(wb);
struct wb wbc;
char *beg;
char *end;
int n, i;
int cf, cs, cm, ccd;
n = fmt_hyphmarks(src, hyidx, hyins, hygap);
if (n <= 0) {
fmt_wb2word(f, fmt_mkword(f), wb, 0, 1, gap, wb_cost(wb));
return;
}
/* update f->fillreq considering the new sub-words */
if (f->fillreq == f->words_n + 1)
f->fillreq += n;
wb_init(&wbc);
/* add sub-words */
for (i = 0; i <= n; i++) {
int ihy = i < n && hyins[i]; /* dash width */
int istr = i == 0 || hygap[i - 1]; /* stretchable */
int igap; /* gap width */
int icost; /* hyphenation cost */
beg = src + (i > 0 ? hyidx[i - 1] : 0);
end = src + (i < n ? hyidx[i] : strlen(src));
if (i < n && hygap[i]) /* remove \~ */
end -= strlen(c_nb);
wb_catstr(&wbc, beg, end);
wb_fnszget(&wbc, &cf, &cs, &cm, &ccd);
icost = i == n ? wb_cost(&wbc) : hygap[i] * 10000000;
igap = i == 0 ? gap : hygap[i - 1] * wb_swid(&wbc);
fmt_wb2word(f, fmt_mkword(f), &wbc, ihy, istr, igap, icost);
wb_reset(&wbc);
wb_fnszset(&wbc, cf, cs, cm, ccd); /* restoring wbc */
}
wb_done(&wbc);
}
/* the amount of space necessary before the next word */
static int fmt_wordgap(struct fmt *f)
{
int nls = f->nls || f->nls_sup;
int swid = font_swid(dev_font(n_f), n_s, n_ss);
if (f->eos && f->words_n)
if ((nls && !f->gap) || (!nls && f->gap == 2 * swid))
return swid + font_swid(dev_font(n_f), n_s, n_sss);
return (nls && !f->gap && f->words_n) ? swid : f->gap;
}
/* insert wb into fmt */
int fmt_word(struct fmt *f, struct wb *wb)
{
if (wb_empty(wb))
return 0;
if (fmt_confchanged(f))
if (fmt_fillwords(f, 0))
return 1;
if (FMT_FILL(f) && f->nls && f->gap)
if (fmt_sp(f))
return 1;
if (!f->words_n) /* apply the new .l and .i */
fmt_confupdate(f);
f->gap = fmt_wordgap(f);
f->eos = wb_eos(wb);
fmt_insertword(f, wb, f->filled ? 0 : f->gap);
f->filled = 0;
f->nls = 0;
f->nls_sup = 0;
f->gap = 0;
return 0;
}
/* insert keshideh characters */
static void fmt_keshideh(struct fmt *f, int beg, int end, int wid)
{
struct wb wb;
int kw, i = 0, c = 0;
struct word *w;
int cnt = 0;
do {
cnt = 0;
for (c = 0; c < 2; c++) {
for (i = end - 1 - c; i >= beg; i -= 2) {
w = &f->words[i];
wb_init(&wb);
kw = wb_keshideh(w->s, &wb, wid);
if (kw > 0) {
free(w->s);
w->s = xmalloc(strlen(wb_buf(&wb)) + 1);
strcpy(w->s, wb_buf(&wb));
w->wid = wb_wid(&wb);
wid -= kw;
cnt++;
}
wb_done(&wb);
}
}
} while (cnt);
}
/* approximate 8 * sqrt(cost) */
static long scaledown(long cost)
{
long ret = 0;
int i;
for (i = 0; i < 14; i++)
ret += ((cost >> (i * 2)) & 3) << (i + 3);
return ret < (1 << 13) ? ret : (1 << 13);
}
/* the cost of putting lwid words in a line of length llen */
static long FMT_COST(int llen, int lwid, int swid, int nspc)
{
/* the ratio that the stretchable spaces of the line should be spread */
long ratio = labs((llen - lwid) * 100l / (swid ? swid : 1));
/* ratio too large; scaling it down */
if (ratio > 4000)
ratio = 4000 + scaledown(ratio - 4000);
/* assigning a cost of 100 to each space stretching 100 percent */
return ratio * ratio / 100l * (nspc ? nspc : 1);
}
/* the number of hyphenations in consecutive lines ending at pos */
static int fmt_hydepth(struct fmt *f, int pos)
{
int n = 0;
while (pos > 0 && f->words[pos - 1].hy && ++n < 5)
pos = f->best_pos[pos];
return n;
}
static long hycost(int depth)
{
if (n_hlm > 0 && depth > n_hlm)
return 10000000;
if (depth >= 3)
return n_hycost + n_hycost2 + n_hycost3;
if (depth == 2)
return n_hycost + n_hycost2;
return depth ? n_hycost : 0;
}
/* the cost of putting a line break before word pos */
static long fmt_findcost(struct fmt *f, int pos)
{
int i, hyphenated;
long cur;
int llen = MAX(1, FMT_LLEN(f));
int lwid = 0; /* current line length */
int swid = 0; /* amount of stretchable spaces */
int nspc = 0; /* number of stretchable spaces */
int dwid = 0; /* equal to swid, unless swid is zero */
if (pos <= 0)
return 0;
if (f->best_pos[pos] >= 0)
return f->best[pos] + f->words[pos - 1].cost;
lwid = f->words[pos - 1].hy; /* non-zero if the last word is hyphenated */
hyphenated = f->words[pos - 1].hy != 0;
i = pos - 1;
while (i >= 0) {
lwid += f->words[i].wid;
if (i + 1 < pos)
lwid += f->words[i + 1].gap;
if (i + 1 < pos && f->words[i + 1].str) {
swid += f->words[i + 1].gap;
nspc++;
}
if (lwid > llen + swid * n_ssh / 100 && i + 1 < pos)
break;
dwid = swid;
if (!dwid && i > 0) /* no stretchable spaces */
dwid = f->words[i - 1].swid;
cur = fmt_findcost(f, i) + FMT_COST(llen, lwid, dwid, nspc);
if (hyphenated)
cur += hycost(1 + fmt_hydepth(f, i));
if (f->best_pos[pos] < 0 || cur < f->best[pos]) {
f->best_pos[pos] = i;
f->best_dep[pos] = f->best_dep[i] + 1;
f->best[pos] = cur;
}
i--;
}
return f->best[pos] + f->words[pos - 1].cost;
}
static int fmt_bestpos(struct fmt *f, int pos)
{
fmt_findcost(f, pos);
return MAX(0, f->best_pos[pos]);
}
static int fmt_bestdep(struct fmt *f, int pos)
{
fmt_findcost(f, pos);
return MAX(0, f->best_dep[pos]);
}
/* return the last filled word */
static int fmt_breakparagraph(struct fmt *f, int pos, int br)
{
int i;
int best = -1;
long cost, best_cost = 0;
int llen = FMT_LLEN(f);
int lwid = 0; /* current line length */
int swid = 0; /* amount of stretchable spaces */
int nspc = 0; /* number of stretchable spaces */
if (f->fillreq > 0 && f->fillreq <= f->words_n) {
fmt_findcost(f, f->fillreq);
return f->fillreq;
}
if (pos > 0 && f->words[pos - 1].wid >= llen) {
fmt_findcost(f, pos);
return pos;
}
i = pos - 1;
lwid = 0;
if (f->words[i].hy) /* the last word is hyphenated */
lwid += f->words[i].hy;
while (i >= 0) {
lwid += f->words[i].wid;
if (i + 1 < pos)
lwid += f->words[i + 1].gap;
if (i + 1 < pos && f->words[i + 1].str) {
swid += f->words[i + 1].gap;
nspc++;
}
if (lwid > llen && i + 1 < pos)
break;
cost = fmt_findcost(f, i);
/* the cost of formatting short lines; should prevent widows */
if (br && n_pmll && lwid < llen * n_pmll / 100) {
int pmll = llen * n_pmll / 100;
cost += (long) n_pmllcost * (pmll - lwid) / pmll;
}
if (best < 0 || cost < best_cost) {
best = i;
best_cost = cost;
}
i--;
}
return best;
}
/* extract the first nreq formatted lines before the word at pos */
static int fmt_head(struct fmt *f, int nreq, int pos, int nohy)
{
int best = pos; /* best line break for nreq-th line */
int prev, next; /* best line breaks without hyphenation */
if (nreq <= 0 || fmt_bestdep(f, pos) < nreq)
return pos;
/* finding the optimal line break for nreq-th line */
while (best > 0 && fmt_bestdep(f, best) > nreq)
best = fmt_bestpos(f, best);
prev = best;
next = best;
if (!nohy)
return best;
/* finding closest line breaks without hyphenation */
while (prev > 1 && f->words[prev - 1].hy &&
fmt_bestdep(f, prev - 1) == nreq)
prev--;
while (next < pos && f->words[next - 1].hy &&
fmt_bestdep(f, next) == nreq)
next++;
/* choosing the best of them */
if (!f->words[prev - 1].hy && !f->words[next - 1].hy)
return fmt_findcost(f, prev) <= fmt_findcost(f, next) ? prev : next;
if (!f->words[prev - 1].hy)
return prev;
if (!f->words[next - 1].hy)
return next;
return best;
}
/* break f->words[0..end] into lines according to fmt_bestpos() */
static int fmt_break(struct fmt *f, int end)
{
int beg, ret = 0;
beg = fmt_bestpos(f, end);
if (beg > 0)
ret += fmt_break(f, beg);
f->words[beg].gap = 0;
if (fmt_extractline(f, beg, end, 1))
return ret;
if (beg > 0)
fmt_confupdate(f);
return ret + (end - beg);
}
/* estimated number of lines until traps or the end of a page */
static int fmt_safelines(void)
{
int lnht = MAX(1, n_L) * n_v;
return n_v > 0 ? (f_nexttrap() + lnht - 1) / lnht : 1000;
}
/* fill the words collected in the buffer */
static int fmt_fillwords(struct fmt *f, int br)
{
int nreq; /* the number of lines until a trap */
int end; /* the final line ends before this word */
int end_head; /* like end, but only the first nreq lines included */
int head = 0; /* only nreq first lines have been formatted */
int llen; /* line length, taking shrinkable spaces into account */
int n, i;
if (!FMT_FILL(f))
return 0;
llen = fmt_wordslen(f, 0, f->words_n) -
fmt_spacessum(f, 0, f->words_n) * n_ssh / 100;
/* not enough words to fill */
if ((f->fillreq <= 0 || f->words_n < f->fillreq) && llen <= FMT_LLEN(f))
return 0;
/* lines until a trap or page end */
nreq = fmt_safelines();
/* if line settings are changed, output a single line */
if (fmt_confchanged(f))
nreq = 1;
/* enough lines are collected already */
if (nreq > 0 && nreq <= fmt_nlines(f))
return 1;
/* resetting positions */
f->best = malloc((f->words_n + 1) * sizeof(f->best[0]));
f->best_pos = malloc((f->words_n + 1) * sizeof(f->best_pos[0]));
f->best_dep = malloc((f->words_n + 1) * sizeof(f->best_dep[0]));
memset(f->best, 0, (f->words_n + 1) * sizeof(f->best[0]));
memset(f->best_dep, 0, (f->words_n + 1) * sizeof(f->best_dep[0]));
for (i = 0; i < f->words_n + 1; i++)
f->best_pos[i] = -1;
end = fmt_breakparagraph(f, f->words_n, br);
if (nreq > 0) {
int nohy = 0; /* do not hyphenate the last line */
if (n_hy & HY_LAST && nreq == fmt_nlines(f))
nohy = 1;
end_head = fmt_head(f, nreq - fmt_nlines(f), end, nohy);
head = end_head < end;
end = end_head;
}
/* recursively add lines */
n = end > 0 ? fmt_break(f, end) : 0;
f->words_n -= n;
f->fillreq -= n;
fmt_movewords(f, 0, n, f->words_n);
f->filled = n && !f->words_n;
if (f->words_n)
f->words[0].gap = 0;
if (f->words_n) /* apply the new .l and .i */
fmt_confupdate(f);
free(f->best);
free(f->best_pos);
free(f->best_dep);
f->best = NULL;
f->best_pos = NULL;
f->best_dep = NULL;
return head || n != end;
}
struct fmt *fmt_alloc(void)
{
struct fmt *fmt = xmalloc(sizeof(*fmt));
memset(fmt, 0, sizeof(*fmt));
return fmt;
}
void fmt_free(struct fmt *fmt)
{
free(fmt->lines);
free(fmt->words);
free(fmt);
}
int fmt_wid(struct fmt *fmt)
{
return fmt_wordslen(fmt, 0, fmt->words_n) + fmt_wordgap(fmt);
}
int fmt_morewords(struct fmt *fmt)
{
return fmt_morelines(fmt) || fmt->words_n;
}
int fmt_morelines(struct fmt *fmt)
{
return fmt->lines_head != fmt->lines_tail;
}
/* suppress the last newline */
void fmt_suppressnl(struct fmt *fmt)
{
if (fmt->nls) {
fmt->nls--;
fmt->nls_sup = 1;
}
}