mandoc/term.c - diff

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Diff for /mandoc/term.c between version 1.137 and 1.161

version 1.137, 2010/05/17 22:11:42

version 1.161, 2010/07/16 22:33:30

Line 1

/* $Id$ */

* Permission to use, copy, modify, and distribute this software for any

* purpose with or without fee is hereby granted, provided that the above

Line 22

Line 23

#include <assert.h>

#include <ctype.h>

#include <stdint.h>

#include <stdio.h>

#include <stdlib.h>

#include <string.h>

#include <time.h>

#include "mandoc.h"

#include "chars.h"

#include "out.h"

#include "term.h"

#include "man.h"

#include "mdoc.h"

#include "main.h"

static struct termp *term_alloc(enum termenc, size_t);

static void term_free(struct termp *);

static void spec(struct termp *, const char *, size_t);

static void res(struct termp *, const char *, size_t);

static void buffera(struct termp *, const char *, size_t);

Line 45 static void adjbuf(struct termp *p, size_t);

Line 42 static void adjbuf(struct termp *p, size_t);

static void encode(struct termp *, const char *, size_t);

void *

void

ascii_alloc(size_t width)

term_free(struct termp *p)

{

return(term_alloc(TERMENC_ASCII, width));

if (p->buf)

free(p->buf);

if (p->symtab)

chars_free(p->symtab);

free(p);

}

void

terminal_free(void *arg)

term_begin(struct termp *p, term_margin head,

term_margin foot, const void *arg)

{

term_free((struct termp *)arg);

p->headf = head;

p->footf = foot;

p->argf = arg;

(*p->begin)(p);

}

static void

void

term_free(struct termp *p)

term_end(struct termp *p)

{

if (p->buf)

(*p->end)(p);

free(p->buf);

if (p->symtab)

chars_free(p->symtab);

free(p);

}

static struct termp *

struct termp *

term_alloc(enum termenc enc, size_t width)

term_alloc(enum termenc enc)

{

struct termp *p;

p = calloc(1, sizeof(struct termp));

if (NULL == p) {

perror(NULL);

exit(EXIT_FAILURE);

}

p->enc = enc;

/* Enforce some lower boundary. */

if (width < 60)

width = 60;

p->defrmargin = width - 2;

return(p);

}

Line 136 term_flushln(struct termp *p)

Line 134 term_flushln(struct termp *p)

size_t vbl; /* number of blanks to prepend to output */

size_t vend; /* end of word visual position on output */

size_t bp; /* visual right border position */

int j; /* temporary loop index */

int j; /* temporary loop index for p->buf */

size_t maxvis, mmax;

int jhy; /* last hyph before overflow w/r/t j */

size_t maxvis; /* output position of visible boundary */

size_t mmax; /* used in calculating bp */

* First, establish the maximum columns of "visible" content.

Line 162 term_flushln(struct termp *p)

vbl = p->flags & TERMP_NOLPAD ? 0 : p->offset;

* FIXME: if bp is zero, we still output the first word before

* breaking the line.

vis = vend = i = 0;

while (i < (int)p->col) {

* Handle literal tab characters: collapse all

* subsequent tabs into a single huge set of spaces.

for (j = i; j < (int)p->col; j++) {

if ('\t' != p->buf[j])

break;

vend = (vis / p->tabwidth + 1) * p->tabwidth;

vbl += vend - vis;

vis = vend;

}

* Count up visible word characters. Control sequences

Line 178 term_flushln(struct termp *p)

Line 185 term_flushln(struct termp *p)

/* LINTED */

for (j = i; j < (int)p->col; j++) {

for (jhy = 0; j < (int)p->col; j++) {

if (j && ' ' == p->buf[j])

if ((j && ' ' == p->buf[j]) || '\t' == p->buf[j])

break;

if (8 == p->buf[j])

vend--;

/* Back over the the last printed character. */

else

if (8 == p->buf[j]) {

vend++;

assert(j);

vend -= (*p->width)(p, p->buf[j - 1]);

continue;

}

/* Regular word. */

/* Break at the hyphen point if we overrun. */

if (vend > vis && vend < bp &&

ASCII_HYPH == p->buf[j])

jhy = j;

vend += (*p->width)(p, p->buf[j]);

}

* Find out whether we would exceed the right margin.

* If so, break to the next line.

if (vend > bp && vis > 0) {

if (vend > bp && 0 == jhy && vis > 0) {

vend -= vis;

putchar('\n');

(*p->endline)(p);

if (TERMP_NOBREAK & p->flags) {

for (j = 0; j < (int)p->rmargin; j++)

p->viscol = p->rmargin;

putchar(' ');

(*p->advance)(p, p->rmargin);

vend += p->rmargin - p->offset;

} else {

p->viscol = 0;

vbl = p->offset;

}

Line 209 term_flushln(struct termp *p)

Line 228 term_flushln(struct termp *p)

p->overstep = 0;

}

* Skip leading tabs, they were handled above.

while (i < (int)p->col && '\t' == p->buf[i])

i++;

/* Write out the [remaining] word. */

for ( ; i < (int)p->col; i++) {

if (vend > bp && jhy > 0 && i > jhy)

break;

if ('\t' == p->buf[i])

break;

if (' ' == p->buf[i]) {

while (' ' == p->buf[i]) {

vbl++;

vbl += (*p->width)(p, p->buf[i]);

i++;

}

break;

}

if (ASCII_NBRSP == p->buf[i]) {

vbl++;

vbl += (*p->width)(p, ' ');

continue;

}

Line 229 term_flushln(struct termp *p)

Line 258 term_flushln(struct termp *p)

* so write preceding white space now.

if (vbl) {

for (j = 0; j < (int)vbl; j++)

(*p->advance)(p, vbl);

putchar(' ');

p->viscol += vbl;

vbl = 0;

}

putchar(p->buf[i]);

if (ASCII_HYPH == p->buf[i]) {

(*p->letter)(p, '-');

p->viscol += (*p->width)(p, '-');

} else {

(*p->letter)(p, p->buf[i]);

p->viscol += (*p->width)(p, p->buf[i]);

}

vend += vbl;

vis = vend;

Line 243 term_flushln(struct termp *p)

Line 279 term_flushln(struct termp *p)

p->overstep = 0;

if ( ! (TERMP_NOBREAK & p->flags)) {

putchar('\n');

p->viscol = 0;

(*p->endline)(p);

return;

}

if (TERMP_HANG & p->flags) {

/* We need one blank after the tag. */

p->overstep = /* LINTED */

vis - maxvis + 1;

vis - maxvis + (*p->width)(p, ' ');

* Behave exactly the same way as groff:

Line 274 term_flushln(struct termp *p)

Line 311 term_flushln(struct termp *p)

/* Right-pad. */

if (maxvis > vis + /* LINTED */

((TERMP_TWOSPACE & p->flags) ? 1 : 0))

((TERMP_TWOSPACE & p->flags) ?

for ( ; vis < maxvis; vis++)

(*p->width)(p, ' ') : 0)) {

putchar(' ');

p->viscol += maxvis - vis;

else { /* ...or newline break. */

(*p->advance)(p, maxvis - vis);

putchar('\n');

vis += (maxvis - vis);

for (i = 0; i < (int)p->rmargin; i++)

} else { /* ...or newline break. */

putchar(' ');

(*p->endline)(p);

p->viscol = p->rmargin;

(*p->advance)(p, p->rmargin);

}

Line 295 term_newln(struct termp *p)

Line 334 term_newln(struct termp *p)

{

p->flags |= TERMP_NOSPACE;

if (0 == p->col) {

if (0 == p->col && 0 == p->viscol) {

p->flags &= ~TERMP_NOLPAD;

return;

}

Line 315 term_vspace(struct termp *p)

Line 354 term_vspace(struct termp *p)

{

term_newln(p);

putchar('\n');

p->viscol = 0;

(*p->endline)(p);

}

Line 325 spec(struct termp *p, const char *word, size_t len)

Line 365 spec(struct termp *p, const char *word, size_t len)

const char *rhs;

size_t sz;

rhs = chars_a2ascii(p->symtab, word, len, &sz);

rhs = chars_spec2str(p->symtab, word, len, &sz);

if (rhs)

encode(p, rhs, sz);

}

Line 337 res(struct termp *p, const char *word, size_t len)

Line 377 res(struct termp *p, const char *word, size_t len)

const char *rhs;

size_t sz;

rhs = chars_a2res(p->symtab, word, len, &sz);

rhs = chars_res2str(p->symtab, word, len, &sz);

if (rhs)

encode(p, rhs, sz);

}

Line 448 term_word(struct termp *p, const char *word)

Line 488 term_word(struct termp *p, const char *word)

}

if ( ! (TERMP_NOSPACE & p->flags)) {

bufferc(p, ' ');

if ( ! (TERMP_KEEP & p->flags)) {

if (TERMP_SENTENCE & p->flags)

if (TERMP_PREKEEP & p->flags)

p->flags |= TERMP_KEEP;

bufferc(p, ' ');

if (TERMP_SENTENCE & p->flags)

bufferc(p, ' ');

} else

bufferc(p, ASCII_NBRSP);

}

if ( ! (p->flags & TERMP_NONOSPACE))

Line 590 encode(struct termp *p, const char *word, size_t sz)

Line 635 encode(struct termp *p, const char *word, size_t sz)

size_t

term_vspan(const struct roffsu *su)

term_len(const struct termp *p, size_t sz)

{

return((*p->width)(p, ' ') * sz);

}

size_t

term_strlen(const struct termp *p, const char *cp)

{

size_t sz;

for (sz = 0; *cp; cp++)

sz += (*p->width)(p, *cp);

return(sz);

}

/* ARGSUSED */

size_t

term_vspan(const struct termp *p, const struct roffsu *su)

{

double r;

switch (su->unit) {

Line 626 term_vspan(const struct roffsu *su)

Line 692 term_vspan(const struct roffsu *su)

size_t

term_hspan(const struct roffsu *su)

term_hspan(const struct termp *p, const struct roffsu *su)

{

double r;

double v;

/* XXX: CM, IN, and PT are approximations. */

v = ((*p->hspan)(p, su));

if (v < 0.0)

switch (su->unit) {

v = 0.0;

case (SCALE_CM):

return((size_t) /* LINTED */

r = 4 * su->scale;

v);

break;

case (SCALE_IN):

/* XXX: this is an approximation. */

r = 10 * su->scale;

break;

case (SCALE_PC):

r = (10 * su->scale) / 6;

break;

case (SCALE_PT):

r = (10 * su->scale) / 72;

break;

case (SCALE_MM):

r = su->scale / 1000; /* FIXME: double-check. */

break;

case (SCALE_VS):

r = su->scale * 2 - 1; /* FIXME: double-check. */

break;

default:

r = su->scale;

break;

}

if (r < 0.0)

r = 0.0;

return((size_t)/* LINTED */

r);

}

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