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Revision 1.80, Tue Aug 10 12:55:03 2021 UTC (2 years, 7 months ago) by schwarze
Branch: MAIN
Changes since 1.79: +3 -1 lines

Support two-character font names (BI, CW, CR, CB, CI)
in the tbl(7) layout font modifier.

Get rid of the TBL_CELL_BOLD and TBL_CELL_ITALIC flags and use
the usual ESCAPE_FONT* enum mandoc_esc members from mandoc.h instead,
which simplifies and unifies some code.

While here, also support CB and CI in roff(7) \f escape sequences
and in roff(7) .ft requests for all output modes.  Using those is
certainly not recommended because portability is limited even with
groff, but supporting them makes some existing third-party manual
pages look better, in particular in HTML output mode.

Bug-compatible with groff as far as i'm aware, except that i consider
font names starting with the '\n' (ASCII 0x0a line feed) character
so insane that i decided to not support them.

Missing feature reported by nabijaczleweli dot xyz in
https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=992002.
I used none of the code from the initial patch submitted by
nabijaczleweli, but some of their ideas.
Final patch tested by them, too.

/*	$Id: out.c,v 1.80 2021/08/10 12:55:03 schwarze Exp $ */
/*
 * Copyright (c) 2009, 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv>
 * Copyright (c) 2011,2014,2015,2017,2018 Ingo Schwarze <schwarze@openbsd.org>
 *
 * 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.
 */
#include "config.h"

#include <sys/types.h>

#include <assert.h>
#include <ctype.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>

#include "mandoc_aux.h"
#include "mandoc.h"
#include "tbl.h"
#include "out.h"

struct	tbl_colgroup {
	struct tbl_colgroup	*next;
	size_t			 wanted;
	int			 startcol;
	int			 endcol;
};

static	size_t	tblcalc_data(struct rofftbl *, struct roffcol *,
			const struct tbl_opts *, const struct tbl_dat *,
			size_t);
static	size_t	tblcalc_literal(struct rofftbl *, struct roffcol *,
			const struct tbl_dat *, size_t);
static	size_t	tblcalc_number(struct rofftbl *, struct roffcol *,
			const struct tbl_opts *, const struct tbl_dat *);


/*
 * Parse the *src string and store a scaling unit into *dst.
 * If the string doesn't specify the unit, use the default.
 * If no default is specified, fail.
 * Return a pointer to the byte after the last byte used,
 * or NULL on total failure.
 */
const char *
a2roffsu(const char *src, struct roffsu *dst, enum roffscale def)
{
	char		*endptr;

	dst->unit = def == SCALE_MAX ? SCALE_BU : def;
	dst->scale = strtod(src, &endptr);
	if (endptr == src)
		return NULL;

	switch (*endptr++) {
	case 'c':
		dst->unit = SCALE_CM;
		break;
	case 'i':
		dst->unit = SCALE_IN;
		break;
	case 'f':
		dst->unit = SCALE_FS;
		break;
	case 'M':
		dst->unit = SCALE_MM;
		break;
	case 'm':
		dst->unit = SCALE_EM;
		break;
	case 'n':
		dst->unit = SCALE_EN;
		break;
	case 'P':
		dst->unit = SCALE_PC;
		break;
	case 'p':
		dst->unit = SCALE_PT;
		break;
	case 'u':
		dst->unit = SCALE_BU;
		break;
	case 'v':
		dst->unit = SCALE_VS;
		break;
	default:
		endptr--;
		if (SCALE_MAX == def)
			return NULL;
		dst->unit = def;
		break;
	}
	return endptr;
}

/*
 * 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_first,
    size_t offset, size_t rmargin)
{
	struct roffsu		 su;
	const struct tbl_opts	*opts;
	const struct tbl_span	*sp;
	const struct tbl_dat	*dp;
	struct roffcol		*col;
	struct tbl_colgroup	*first_group, **gp, *g;
	size_t			*colwidth;
	size_t			 ewidth, min1, min2, wanted, width, xwidth;
	int			 done, icol, maxcol, necol, nxcol, quirkcol;

	/*
	 * 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(tbl->cols == NULL);
	tbl->cols = mandoc_calloc((size_t)sp_first->opts->cols,
	    sizeof(struct roffcol));
	opts = sp_first->opts;

	maxcol = -1;
	first_group = NULL;
	for (sp = sp_first; sp != NULL; sp = sp->next) {
		if (sp->pos != TBL_SPAN_DATA)
			continue;

		/*
		 * Account for the data cells in the layout, matching it
		 * to data cells in the data section.
		 */

		gp = &first_group;
		for (dp = sp->first; dp != NULL; dp = dp->next) {
			icol = dp->layout->col;
			while (maxcol < icol + dp->hspans)
				tbl->cols[++maxcol].spacing = SIZE_MAX;
			col = tbl->cols + icol;
			col->flags |= dp->layout->flags;
			if (dp->layout->flags & TBL_CELL_WIGN)
				continue;

			/* Handle explicit width specifications. */

			if (dp->layout->wstr != NULL &&
			    dp->layout->width == 0 &&
			    a2roffsu(dp->layout->wstr, &su, SCALE_EN)
			    != NULL)
				dp->layout->width =
				    (*tbl->sulen)(&su, tbl->arg);
			if (col->width < dp->layout->width)
				col->width = dp->layout->width;
			if (dp->layout->spacing != SIZE_MAX &&
			    (col->spacing == SIZE_MAX ||
			     col->spacing < dp->layout->spacing))
				col->spacing = dp->layout->spacing;

			/*
			 * Calculate an automatic width.
			 * Except for spanning cells, apply it.
			 */

			width = tblcalc_data(tbl,
			    dp->hspans == 0 ? col : NULL,
			    opts, dp,
			    dp->block == 0 ? 0 :
			    dp->layout->width ? dp->layout->width :
			    rmargin ? (rmargin + sp->opts->cols / 2)
			    / (sp->opts->cols + 1) : 0);
			if (dp->hspans == 0)
				continue;

			/*
			 * Build an ordered, singly linked list
			 * of all groups of columns joined by spans,
			 * recording the minimum width for each group.
			 */

			while (*gp != NULL && ((*gp)->startcol < icol ||
			    (*gp)->endcol < icol + dp->hspans))
				gp = &(*gp)->next;
			if (*gp == NULL || (*gp)->startcol > icol ||
                            (*gp)->endcol > icol + dp->hspans) {
				g = mandoc_malloc(sizeof(*g));
				g->next = *gp;
				g->wanted = width;
				g->startcol = icol;
				g->endcol = icol + dp->hspans;
				*gp = g;
			} else if ((*gp)->wanted < width)
				(*gp)->wanted = width;
		}
	}

	/*
	 * The minimum width of columns explicitly specified
	 * in the layout is 1n.
	 */

	if (maxcol < sp_first->opts->cols - 1)
		maxcol = sp_first->opts->cols - 1;
	for (icol = 0; icol <= maxcol; icol++) {
		col = tbl->cols + icol;
		if (col->width < 1)
			col->width = 1;

		/*
		 * Column spacings are needed for span width
		 * calculations, so set the default values now.
		 */

		if (col->spacing == SIZE_MAX || icol == maxcol)
			col->spacing = 3;
	}

	/*
	 * Replace the minimum widths with the missing widths,
	 * and dismiss groups that are already wide enough.
	 */

	gp = &first_group;
	while ((g = *gp) != NULL) {
		done = 0;
		for (icol = g->startcol; icol <= g->endcol; icol++) {
			width = tbl->cols[icol].width;
			if (icol < g->endcol)
				width += tbl->cols[icol].spacing;
			if (g->wanted <= width) {
				done = 1;
				break;
			} else
				(*gp)->wanted -= width;
		}
		if (done) {
			*gp = g->next;
			free(g);
		} else
			gp = &(*gp)->next;
	}

	colwidth = mandoc_reallocarray(NULL, maxcol + 1, sizeof(*colwidth));
	while (first_group != NULL) {

		/*
		 * Rebuild the array of the widths of all columns
		 * participating in spans that require expansion.
		 */

		for (icol = 0; icol <= maxcol; icol++)
			colwidth[icol] = SIZE_MAX;
		for (g = first_group; g != NULL; g = g->next)
			for (icol = g->startcol; icol <= g->endcol; icol++)
				colwidth[icol] = tbl->cols[icol].width;

		/*
		 * Find the smallest and second smallest column width
		 * among the columns which may need expamsion.
		 */

		min1 = min2 = SIZE_MAX;
		for (icol = 0; icol <= maxcol; icol++) {
			if (min1 > colwidth[icol]) {
				min2 = min1;
				min1 = colwidth[icol];
			} else if (min1 < colwidth[icol] &&
			    min2 > colwidth[icol])
				min2 = colwidth[icol];
		}

		/*
		 * Find the minimum wanted width
		 * for any one of the narrowest columns,
		 * and mark the columns wanting that width.
		 */

		wanted = min2;
		for (g = first_group; g != NULL; g = g->next) {
			necol = 0;
			for (icol = g->startcol; icol <= g->endcol; icol++)
				if (tbl->cols[icol].width == min1)
					necol++;
			if (necol == 0)
				continue;
			width = min1 + (g->wanted - 1) / necol + 1;
			if (width > min2)
				width = min2;
			if (wanted > width)
				wanted = width;
			for (icol = g->startcol; icol <= g->endcol; icol++)
				if (colwidth[icol] == min1 ||
				    (colwidth[icol] < min2 &&
				     colwidth[icol] > width))
					colwidth[icol] = width;
		}

		/* Record the effect of the widening on the group list. */

		gp = &first_group;
		while ((g = *gp) != NULL) {
			done = 0;
			for (icol = g->startcol; icol <= g->endcol; icol++) {
				if (colwidth[icol] != wanted ||
				    tbl->cols[icol].width == wanted)
					continue;
				if (g->wanted <= wanted - min1) {
					done = 1;
					break;
				}
				g->wanted -= wanted - min1;
			}
			if (done) {
				*gp = g->next;
				free(g);
			} else
				gp = &(*gp)->next;
		}

		/* Record the effect of the widening on the columns. */

		for (icol = 0; icol <= maxcol; icol++)
			if (colwidth[icol] == wanted)
				tbl->cols[icol].width = wanted;
	}
	free(colwidth);

	/*
	 * Align numbers with text.
	 * Count columns to equalize and columns to maximize.
	 * Find maximum width of the columns to equalize.
	 * Find total width of the columns *not* to maximize.
	 */

	necol = nxcol = 0;
	ewidth = xwidth = 0;
	for (icol = 0; icol <= maxcol; icol++) {
		col = tbl->cols + icol;
		if (col->width > col->nwidth)
			col->decimal += (col->width - col->nwidth) / 2;
		else
			col->width = col->nwidth;
		if (col->flags & TBL_CELL_EQUAL) {
			necol++;
			if (ewidth < col->width)
				ewidth = col->width;
		}
		if (col->flags & TBL_CELL_WMAX)
			nxcol++;
		else
			xwidth += col->width;
	}

	/*
	 * Equalize columns, if requested for any of them.
	 * Update total width of the columns not to maximize.
	 */

	if (necol) {
		for (icol = 0; icol <= maxcol; icol++) {
			col = tbl->cols + icol;
			if ( ! (col->flags & TBL_CELL_EQUAL))
				continue;
			if (col->width == ewidth)
				continue;
			if (nxcol && rmargin)
				xwidth += ewidth - col->width;
			col->width = ewidth;
		}
	}

	/*
	 * If there are any columns to maximize, find the total
	 * available width, deducting 3n margins between columns.
	 * Distribute the available width evenly.
	 */

	if (nxcol && rmargin) {
		xwidth += 3*maxcol +
		    (opts->opts & (TBL_OPT_BOX | TBL_OPT_DBOX) ?
		     2 : !!opts->lvert + !!opts->rvert);
		if (rmargin <= offset + xwidth)
			return;
		xwidth = rmargin - offset - xwidth;

		/*
		 * Emulate a bug in GNU tbl width calculation that
		 * manifests itself for large numbers of x-columns.
		 * Emulating it for 5 x-columns gives identical
		 * behaviour for up to 6 x-columns.
		 */

		if (nxcol == 5) {
			quirkcol = xwidth % nxcol + 2;
			if (quirkcol != 3 && quirkcol != 4)
				quirkcol = -1;
		} else
			quirkcol = -1;

		necol = 0;
		ewidth = 0;
		for (icol = 0; icol <= maxcol; icol++) {
			col = tbl->cols + icol;
			if ( ! (col->flags & TBL_CELL_WMAX))
				continue;
			col->width = (double)xwidth * ++necol / nxcol
			    - ewidth + 0.4995;
			if (necol == quirkcol)
				col->width--;
			ewidth += col->width;
		}
	}
}

static size_t
tblcalc_data(struct rofftbl *tbl, struct roffcol *col,
    const struct tbl_opts *opts, const struct tbl_dat *dp, size_t mw)
{
	size_t		 sz;

	/* Branch down into data sub-types. */

	switch (dp->layout->pos) {
	case TBL_CELL_HORIZ:
	case TBL_CELL_DHORIZ:
		sz = (*tbl->len)(1, tbl->arg);
		if (col != NULL && col->width < sz)
			col->width = sz;
		return sz;
	case TBL_CELL_LONG:
	case TBL_CELL_CENTRE:
	case TBL_CELL_LEFT:
	case TBL_CELL_RIGHT:
		return tblcalc_literal(tbl, col, dp, mw);
	case TBL_CELL_NUMBER:
		return tblcalc_number(tbl, col, opts, dp);
	case TBL_CELL_DOWN:
		return 0;
	default:
		abort();
	}
}

static size_t
tblcalc_literal(struct rofftbl *tbl, struct roffcol *col,
    const struct tbl_dat *dp, size_t mw)
{
	const char	*str;	/* Beginning of the first line. */
	const char	*beg;	/* Beginning of the current line. */
	char		*end;	/* End of the current line. */
	size_t		 lsz;	/* Length of the current line. */
	size_t		 wsz;	/* Length of the current word. */
	size_t		 msz;   /* Length of the longest line. */

	if (dp->string == NULL || *dp->string == '\0')
		return 0;
	str = mw ? mandoc_strdup(dp->string) : dp->string;
	msz = lsz = 0;
	for (beg = str; beg != NULL && *beg != '\0'; beg = end) {
		end = mw ? strchr(beg, ' ') : NULL;
		if (end != NULL) {
			*end++ = '\0';
			while (*end == ' ')
				end++;
		}
		wsz = (*tbl->slen)(beg, tbl->arg);
		if (mw && lsz && lsz + 1 + wsz <= mw)
			lsz += 1 + wsz;
		else
			lsz = wsz;
		if (msz < lsz)
			msz = lsz;
	}
	if (mw)
		free((void *)str);
	if (col != NULL && col->width < msz)
		col->width = msz;
	return msz;
}

static size_t
tblcalc_number(struct rofftbl *tbl, struct roffcol *col,
		const struct tbl_opts *opts, const struct tbl_dat *dp)
{
	const char	*cp, *lastdigit, *lastpoint;
	size_t		 intsz, totsz;
	char		 buf[2];

	if (dp->string == NULL || *dp->string == '\0')
		return 0;

	totsz = (*tbl->slen)(dp->string, tbl->arg);
	if (col == NULL)
		return totsz;

	/*
	 * Find the last digit and
	 * the last decimal point that is adjacent to a digit.
	 * The alignment indicator "\&" overrides everything.
	 */

	lastdigit = lastpoint = NULL;
	for (cp = dp->string; cp[0] != '\0'; cp++) {
		if (cp[0] == '\\' && cp[1] == '&') {
			lastdigit = lastpoint = cp;
			break;
		} else if (cp[0] == opts->decimal &&
		    (isdigit((unsigned char)cp[1]) ||
		     (cp > dp->string && isdigit((unsigned char)cp[-1]))))
			lastpoint = cp;
		else if (isdigit((unsigned char)cp[0]))
			lastdigit = cp;
	}

	/* Not a number, treat as a literal string. */

	if (lastdigit == NULL) {
		if (col != NULL && col->width < totsz)
			col->width = totsz;
		return totsz;
	}

	/* Measure the width of the integer part. */

	if (lastpoint == NULL)
		lastpoint = lastdigit + 1;
	intsz = 0;
	buf[1] = '\0';
	for (cp = dp->string; cp < lastpoint; cp++) {
		buf[0] = cp[0];
		intsz += (*tbl->slen)(buf, tbl->arg);
	}

	/*
         * If this number has more integer digits than all numbers
         * seen on earlier lines, shift them all to the right.
	 * If it has fewer, shift this number to the right.
	 */

	if (intsz > col->decimal) {
		col->nwidth += intsz - col->decimal;
		col->decimal = intsz;
	} else
		totsz += col->decimal - intsz;

	/* Update the maximum total width seen so far. */

	if (totsz > col->nwidth)
		col->nwidth = totsz;
	return totsz;
}