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minix/external/bsd/mdocml/dist/out.c
Ben Gras d65f6f7009 imported code harmonisation 
. common/include/arch/i386 is not actually an imported
	  sys/arch/i386/include but leftover Minix files;
	  remove and move to include/
	. move include/ufs to sys/ufs, where it came from, now that
	  we have a sys/ hierarchy
	. move mdocml/ to external/bsd/, now we have that
	. single sys/arch/i386/stand/ import for boot stuff
2012-03-14 16:02:59 +01:00

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/* $Vendor-Id: out.c,v 1.30 2011/01/05 15:37:23 kristaps Exp $ */
/*
* Copyright (c) 2009, 2010 Kristaps Dzonsons <kristaps@bsd.lv>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <sys/types.h>
#include <assert.h>
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include "mandoc.h"
#include "out.h"
static void tblcalc_data(struct rofftbl *, struct roffcol *,
const struct tbl *, const struct tbl_dat *);
static void tblcalc_literal(struct rofftbl *, struct roffcol *,
const struct tbl_dat *);
static void tblcalc_number(struct rofftbl *, struct roffcol *,
const struct tbl *, const struct tbl_dat *);
/*
* Convert a `scaling unit' to a consistent form, or fail. Scaling
* units are documented in groff.7, mdoc.7, man.7.
*/
int
a2roffsu(const char *src, struct roffsu *dst, enum roffscale def)
{
char buf[BUFSIZ], hasd;
int i;
enum roffscale unit;
if ('\0' == *src)
return(0);
i = hasd = 0;
switch (*src) {
case ('+'):
src++;
break;
case ('-'):
buf[i++] = *src++;
break;
default:
break;
}
if ('\0' == *src)
return(0);
while (i < BUFSIZ) {
if ( ! isdigit((u_char)*src)) {
if ('.' != *src)
break;
else if (hasd)
break;
else
hasd = 1;
}
buf[i++] = *src++;
}
if (BUFSIZ == i || (*src && *(src + 1)))
return(0);
buf[i] = '\0';
switch (*src) {
case ('c'):
unit = SCALE_CM;
break;
case ('i'):
unit = SCALE_IN;
break;
case ('P'):
unit = SCALE_PC;
break;
case ('p'):
unit = SCALE_PT;
break;
case ('f'):
unit = SCALE_FS;
break;
case ('v'):
unit = SCALE_VS;
break;
case ('m'):
unit = SCALE_EM;
break;
case ('\0'):
if (SCALE_MAX == def)
return(0);
unit = SCALE_BU;
break;
case ('u'):
unit = SCALE_BU;
break;
case ('M'):
unit = SCALE_MM;
break;
case ('n'):
unit = SCALE_EN;
break;
default:
return(0);
}
/* FIXME: do this in the caller. */
if ((dst->scale = atof(buf)) < 0)
dst->scale = 0;
dst->unit = unit;
return(1);
}
/*
* Correctly writes the time in nroff form, which differs from standard
* form in that a space isn't printed in lieu of the extra %e field for
* single-digit dates.
*/
void
time2a(time_t t, char *dst, size_t sz)
{
struct tm tm;
char buf[5];
char *p;
size_t nsz;
assert(sz > 1);
localtime_r(&t, &tm);
p = dst;
nsz = 0;
dst[0] = '\0';
if (0 == (nsz = strftime(p, sz, "%B ", &tm)))
return;
p += (int)nsz;
sz -= nsz;
if (0 == strftime(buf, sizeof(buf), "%e, ", &tm))
return;
nsz = strlcat(p, buf + (' ' == buf[0] ? 1 : 0), sz);
if (nsz >= sz)
return;
p += (int)nsz;
sz -= nsz;
(void)strftime(p, sz, "%Y", &tm);
}
int
a2roffdeco(enum roffdeco *d, const char **word, size_t *sz)
{
int i, j, lim;
char term, c;
const char *wp;
enum roffdeco dd;
*d = DECO_NONE;
lim = i = 0;
term = '\0';
wp = *word;
switch ((c = wp[i++])) {
case ('('):
*d = DECO_SPECIAL;
lim = 2;
break;
case ('F'):
/* FALLTHROUGH */
case ('f'):
*d = 'F' == c ? DECO_FFONT : DECO_FONT;
switch (wp[i++]) {
case ('('):
lim = 2;
break;
case ('['):
term = ']';
break;
case ('3'):
/* FALLTHROUGH */
case ('B'):
*d = DECO_BOLD;
return(i);
case ('2'):
/* FALLTHROUGH */
case ('I'):
*d = DECO_ITALIC;
return(i);
case ('P'):
*d = DECO_PREVIOUS;
return(i);
case ('1'):
/* FALLTHROUGH */
case ('R'):
*d = DECO_ROMAN;
return(i);
default:
i--;
lim = 1;
break;
}
break;
case ('k'):
/* FALLTHROUGH */
case ('M'):
/* FALLTHROUGH */
case ('m'):
/* FALLTHROUGH */
case ('*'):
if ('*' == c)
*d = DECO_RESERVED;
switch (wp[i++]) {
case ('('):
lim = 2;
break;
case ('['):
term = ']';
break;
default:
i--;
lim = 1;
break;
}
break;
case ('h'):
/* FALLTHROUGH */
case ('v'):
/* FALLTHROUGH */
case ('s'):
j = 0;
if ('+' == wp[i] || '-' == wp[i]) {
i++;
j = 1;
}
switch (wp[i++]) {
case ('('):
lim = 2;
break;
case ('['):
term = ']';
break;
case ('\''):
term = '\'';
break;
case ('0'):
j = 1;
/* FALLTHROUGH */
default:
i--;
lim = 1;
break;
}
if ('+' == wp[i] || '-' == wp[i]) {
if (j)
return(i);
i++;
}
/* Handle embedded numerical subexp or escape. */
if ('(' == wp[i]) {
while (wp[i] && ')' != wp[i])
if ('\\' == wp[i++]) {
/* Handle embedded escape. */
*word = &wp[i];
i += a2roffdeco(&dd, word, sz);
}
if (')' == wp[i++])
break;
*d = DECO_NONE;
return(i - 1);
} else if ('\\' == wp[i]) {
*word = &wp[++i];
i += a2roffdeco(&dd, word, sz);
}
break;
case ('['):
*d = DECO_SPECIAL;
term = ']';
break;
case ('c'):
*d = DECO_NOSPACE;
return(i);
case ('z'):
*d = DECO_NONE;
if ('\\' == wp[i]) {
*word = &wp[++i];
return(i + a2roffdeco(&dd, word, sz));
} else
lim = 1;
break;
case ('o'):
/* FALLTHROUGH */
case ('w'):
if ('\'' == wp[i++]) {
term = '\'';
break;
}
/* FALLTHROUGH */
default:
*d = DECO_SSPECIAL;
i--;
lim = 1;
break;
}
assert(term || lim);
*word = &wp[i];
if (term) {
j = i;
while (wp[i] && wp[i] != term)
i++;
if ('\0' == wp[i]) {
*d = DECO_NONE;
return(i);
}
assert(i >= j);
*sz = (size_t)(i - j);
return(i + 1);
}
assert(lim > 0);
*sz = (size_t)lim;
for (j = 0; wp[i] && j < lim; j++)
i++;
if (j < lim)
*d = DECO_NONE;
return(i);
}
/*
* Calculate the abstract widths and decimal positions of columns in a
* table. This routine allocates the columns structures then runs over
* all rows and cells in the table. The function pointers in "tbl" are
* used for the actual width calculations.
*/
void
tblcalc(struct rofftbl *tbl, const struct tbl_span *sp)
{
const struct tbl_dat *dp;
const struct tbl_head *hp;
struct roffcol *col;
/*
* Allocate the master column specifiers. These will hold the
* widths and decimal positions for all cells in the column. It
* must be freed and nullified by the caller.
*/
assert(NULL == tbl->cols);
tbl->cols = calloc(sp->tbl->cols, sizeof(struct roffcol));
hp = sp->head;
for ( ; sp; sp = sp->next) {
if (TBL_SPAN_DATA != sp->pos)
continue;
/*
* Account for the data cells in the layout, matching it
* to data cells in the data section.
*/
for (dp = sp->first; dp; dp = dp->next) {
if (NULL == dp->layout)
continue;
col = &tbl->cols[dp->layout->head->ident];
tblcalc_data(tbl, col, sp->tbl, dp);
}
}
/*
* Calculate width of the spanners. These get one space for a
* vertical line, two for a double-vertical line.
*/
for ( ; hp; hp = hp->next) {
col = &tbl->cols[hp->ident];
switch (hp->pos) {
case (TBL_HEAD_VERT):
col->width = (*tbl->len)(1, tbl->arg);
break;
case (TBL_HEAD_DVERT):
col->width = (*tbl->len)(2, tbl->arg);
break;
default:
break;
}
}
}
static void
tblcalc_data(struct rofftbl *tbl, struct roffcol *col,
const struct tbl *tp, const struct tbl_dat *dp)
{
size_t sz;
/* Branch down into data sub-types. */
switch (dp->layout->pos) {
case (TBL_CELL_HORIZ):
/* FALLTHROUGH */
case (TBL_CELL_DHORIZ):
sz = (*tbl->len)(1, tbl->arg);
if (col->width < sz)
col->width = sz;
break;
case (TBL_CELL_LONG):
/* FALLTHROUGH */
case (TBL_CELL_CENTRE):
/* FALLTHROUGH */
case (TBL_CELL_LEFT):
/* FALLTHROUGH */
case (TBL_CELL_RIGHT):
tblcalc_literal(tbl, col, dp);
break;
case (TBL_CELL_NUMBER):
tblcalc_number(tbl, col, tp, dp);
break;
default:
abort();
/* NOTREACHED */
}
}
static void
tblcalc_literal(struct rofftbl *tbl, struct roffcol *col,
const struct tbl_dat *dp)
{
size_t sz, bufsz, spsz;
/*
* Calculate our width and use the spacing, with a minimum
* spacing dictated by position (centre, e.g,. gets a space on
* either side, while right/left get a single adjacent space).
*/
sz = bufsz = spsz = 0;
if (dp->string)
sz = (*tbl->slen)(dp->string, tbl->arg);
assert(dp->layout);
switch (dp->layout->pos) {
case (TBL_CELL_LONG):
/* FALLTHROUGH */
case (TBL_CELL_CENTRE):
bufsz = (*tbl->len)(2, tbl->arg);
break;
default:
bufsz = (*tbl->len)(1, tbl->arg);
break;
}
if (dp->layout->spacing) {
spsz = (*tbl->len)(dp->layout->spacing, tbl->arg);
bufsz = bufsz > spsz ? bufsz : spsz;
}
sz += bufsz;
if (col->width < sz)
col->width = sz;
}
static void
tblcalc_number(struct rofftbl *tbl, struct roffcol *col,
const struct tbl *tp, const struct tbl_dat *dp)
{
int i;
size_t sz, psz, ssz, d;
char *cp;
const char *str;
char buf[2];
/* TODO: use spacing modifier. */
/*
* First calculate number width and decimal place (last + 1 for
* no-decimal numbers). If the stored decimal is subsequent
* ours, make our size longer by that difference
* (right-"shifting"); similarly, if ours is subsequent the
* stored, then extend the stored size by the difference.
* Finally, re-assign the stored values.
*/
str = "";
if (dp->string)
str = dp->string;
sz = (*tbl->slen)(str, tbl->arg);
buf[0] = tp->decimal;
buf[1] = '\0';
psz = (*tbl->slen)(buf, tbl->arg);
if (NULL != (cp = strchr(str, tp->decimal))) {
buf[1] = '\0';
for (ssz = 0, i = 0; cp != &str[i]; i++) {
buf[0] = str[i];
ssz += (*tbl->slen)(buf, tbl->arg);
}
d = ssz + psz;
} else
d = sz + psz;
/* Padding. */
sz += (*tbl->len)(2, tbl->arg);
d += (*tbl->len)(1, tbl->arg);
/* Adjust the settings for this column. */
if (col->decimal > d) {
sz += col->decimal - d;
d = col->decimal;
} else
col->width += d - col->decimal;
if (sz > col->width)
col->width = sz;
if (d > col->decimal)
col->decimal = d;
}
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