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freebsd/contrib/texinfo/makeinfo/multi.c
2005-05-23 10:46:22 +00:00

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/* multi.c -- multiple-column tables (@multitable) for makeinfo.
$Id: multi.c,v 1.8 2004/04/11 17:56:47 karl Exp $
Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2004 Free Software
Foundation, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
Originally written by phr@gnu.org (Paul Rubin). */
#include "system.h"
#include "cmds.h"
#include "insertion.h"
#include "makeinfo.h"
#include "multi.h"
#include "xml.h"
#define MAXCOLS 100 /* remove this limit later @@ */
/*
* Output environments. This is a hack grafted onto existing
* structure. The "output environment" used to consist of the
* global variables `output_paragraph', `fill_column', etc.
* Routines like add_char would manipulate these variables.
*
* Now, when formatting a multitable, we maintain separate environments
* for each column. That way we can build up the columns separately
* and write them all out at once. The "current" output environment"
* is still kept in those global variables, so that the old output
* routines don't have to change. But we provide routines to save
* and restore these variables in an "environment table". The
* `select_output_environment' function switches from one output
* environment to another.
*
* Environment #0 (i.e., element #0 of the table) is the regular
* environment that is used when we're not formatting a multitable.
*
* Environment #N (where N = 1,2,3,...) is the env. for column #N of
* the table, when a multitable is active.
*/
/* contents of an output environment */
/* some more vars may end up being needed here later @@ */
struct env
{
unsigned char *output_paragraph;
int output_paragraph_offset;
int meta_char_pos;
int output_column;
int paragraph_is_open;
int current_indent;
int fill_column;
} envs[MAXCOLS]; /* the environment table */
/* index in environment table of currently selected environment */
static int current_env_no;
/* current column number */
static int current_column_no;
/* We need to make a difference between template based widths and
@columnfractions for HTML tables' sake. Sigh. */
static int seen_column_fractions;
/* column number of last column in current multitable */
static int last_column;
/* flags indicating whether horizontal and vertical separators need
to be drawn, separating rows and columns in the current multitable. */
static int hsep, vsep;
/* whether this is the first row. */
static int first_row;
/* Called to handle a {...} template on the @multitable line.
We're at the { and our first job is to find the matching }; as a side
effect, we change *PARAMS to point to after it. Our other job is to
expand the template text and return the width of that string. */
static unsigned
find_template_width (char **params)
{
char *template, *xtemplate;
unsigned len;
char *start = *params;
int brace_level = 0;
/* The first character should be a {. */
if (!params || !*params || **params != '{')
{
line_error ("find_template width internal error: passed %s",
params ? *params : "null");
return 0;
}
do
{
if (**params == '{' && (*params == start || (*params)[-1] != '@'))
brace_level++;
else if (**params == '}' && (*params)[-1] != '@')
brace_level--;
else if (**params == 0)
{
line_error (_("Missing } in @multitable template"));
return 0;
}
(*params)++;
}
while (brace_level > 0);
template = substring (start + 1, *params - 1); /* omit braces */
xtemplate = expansion (template, 0);
len = strlen (xtemplate);
free (template);
free (xtemplate);
return len;
}
/* Direct current output to environment number N. Used when
switching work from one column of a multitable to the next.
Returns previous environment number. */
static int
select_output_environment (int n)
{
struct env *e = &envs[current_env_no];
int old_env_no = current_env_no;
/* stash current env info from global vars into the old environment */
e->output_paragraph = output_paragraph;
e->output_paragraph_offset = output_paragraph_offset;
e->meta_char_pos = meta_char_pos;
e->output_column = output_column;
e->paragraph_is_open = paragraph_is_open;
e->current_indent = current_indent;
e->fill_column = fill_column;
/* now copy new environment into global vars */
current_env_no = n;
e = &envs[current_env_no];
output_paragraph = e->output_paragraph;
output_paragraph_offset = e->output_paragraph_offset;
meta_char_pos = e->meta_char_pos;
output_column = e->output_column;
paragraph_is_open = e->paragraph_is_open;
current_indent = e->current_indent;
fill_column = e->fill_column;
return old_env_no;
}
/* Initialize environment number ENV_NO, of width WIDTH.
The idea is that we're going to use one environment for each column of
a multitable, so we can build them up separately and print them
all out at the end. */
static int
setup_output_environment (int env_no, int width)
{
int old_env = select_output_environment (env_no);
/* clobber old environment and set width of new one */
init_paragraph ();
/* make our change */
fill_column = width;
/* Save new environment and restore previous one. */
select_output_environment (old_env);
return env_no;
}
/* Read the parameters for a multitable from the current command
line, save the parameters away, and return the
number of columns. */
static int
setup_multitable_parameters (void)
{
char *params = insertion_stack->item_function;
int nchars;
float columnfrac;
char command[200]; /* xx no fixed limits */
int i = 1;
/* We implement @hsep and @vsep even though TeX doesn't.
We don't get mixing of @columnfractions and templates right,
but TeX doesn't either. */
hsep = vsep = 0;
/* Assume no @columnfractions per default. */
seen_column_fractions = 0;
while (*params) {
while (whitespace (*params))
params++;
if (*params == '@') {
sscanf (params, "%200s", command);
nchars = strlen (command);
params += nchars;
if (strcmp (command, "@hsep") == 0)
hsep++;
else if (strcmp (command, "@vsep") == 0)
vsep++;
else if (strcmp (command, "@columnfractions") == 0) {
seen_column_fractions = 1;
/* Clobber old environments and create new ones, starting at #1.
Environment #0 is the normal output, so don't mess with it. */
for ( ; i <= MAXCOLS; i++) {
if (sscanf (params, "%f", &columnfrac) < 1)
goto done;
/* Unfortunately, can't use %n since m68k-hp-bsd libc (at least)
doesn't support it. So skip whitespace (preceding the
number) and then non-whitespace (the number). */
while (*params && (*params == ' ' || *params == '\t'))
params++;
/* Hmm, but what about @columnfractions 3foo. Oh well,
it's invalid input anyway. */
while (*params && *params != ' ' && *params != '\t'
&& *params != '\n' && *params != '@')
params++;
{
/* For html/xml/docbook, translate fractions into integer
percentages, adding .005 to avoid rounding problems. For
info, we want the character width. */
int width = xml || html ? (columnfrac + .005) * 100
: (columnfrac * (fill_column - current_indent) + .5);
setup_output_environment (i, width);
}
}
}
} else if (*params == '{') {
unsigned template_width = find_template_width (&params);
/* This gives us two spaces between columns. Seems reasonable.
How to take into account current_indent here? */
setup_output_environment (i++, template_width + 2);
} else {
warning (_("ignoring stray text `%s' after @multitable"), params);
break;
}
}
done:
flush_output ();
inhibit_output_flushing ();
last_column = i - 1;
return last_column;
}
/* Output a row. Calls insert, but also flushes the buffered output
when we see a newline, since in multitable every line is a separate
paragraph. */
static void
out_char (int ch)
{
if (html || xml)
add_char (ch);
else
{
int env = select_output_environment (0);
insert (ch);
if (ch == '\n')
{
uninhibit_output_flushing ();
flush_output ();
inhibit_output_flushing ();
}
select_output_environment (env);
}
}
static void
draw_horizontal_separator (void)
{
int i, j, s;
if (html)
{
add_word ("<hr>");
return;
}
if (xml)
return;
for (s = 0; s < envs[0].current_indent; s++)
out_char (' ');
if (vsep)
out_char ('+');
for (i = 1; i <= last_column; i++) {
for (j = 0; j <= envs[i].fill_column; j++)
out_char ('-');
if (vsep)
out_char ('+');
}
out_char (' ');
out_char ('\n');
}
/* multitable strategy:
for each item {
for each column in an item {
initialize a new paragraph
do ordinary formatting into the new paragraph
save the paragraph away
repeat if there are more paragraphs in the column
}
dump out the saved paragraphs and free the storage
}
For HTML we construct a simple HTML 3.2 table with <br>s inserted
to help non-tables browsers. `@item' inserts a <tr> and `@tab'
inserts <td>; we also try to close <tr>. The only real
alternative is to rely on the info formatting engine and present
preformatted text. */
void
do_multitable (void)
{
int ncolumns;
if (multitable_active)
{
line_error ("Multitables cannot be nested");
return;
}
close_single_paragraph ();
if (xml)
{
xml_no_para = 1;
if (output_paragraph[output_paragraph_offset-1] == '\n')
output_paragraph_offset--;
}
/* scan the current item function to get the field widths
and number of columns, and set up the output environment list
accordingly. */
ncolumns = setup_multitable_parameters ();
first_row = 1;
/* <p> for non-tables browsers. @multitable implicitly ends the
current paragraph, so this is ok. */
if (html)
add_html_block_elt ("<p><table summary=\"\">");
/* else if (docbook)*/ /* 05-08 */
else if (xml)
{
int *widths = xmalloc (ncolumns * sizeof (int));
int i;
for (i=0; i<ncolumns; i++)
widths[i] = envs[i+1].fill_column;
xml_begin_multitable (ncolumns, widths);
free (widths);
}
if (hsep)
draw_horizontal_separator ();
/* The next @item command will direct stdout into the first column
and start processing. @tab will then switch to the next column,
and @item will flush out the saved output and return to the first
column. Environment #1 is the first column. (Environment #0 is
the normal output) */
++multitable_active;
}
/* advance to the next environment number */
static void
nselect_next_environment (void)
{
if (current_env_no >= last_column) {
line_error (_("Too many columns in multitable item (max %d)"), last_column);
return;
}
select_output_environment (current_env_no + 1);
}
/* do anything needed at the beginning of processing a
multitable column. */
static void
init_column (void)
{
/* don't indent 1st paragraph in the item */
cm_noindent ();
/* throw away possible whitespace after @item or @tab command */
skip_whitespace ();
}
static void
output_multitable_row (void)
{
/* offset in the output paragraph of the next char needing
to be output for that column. */
int offset[MAXCOLS];
int i, j, s, remaining;
int had_newline = 0;
for (i = 0; i <= last_column; i++)
offset[i] = 0;
/* select the current environment, to make sure the env variables
get updated */
select_output_environment (current_env_no);
#define CHAR_ADDR(n) (offset[i] + (n))
#define CHAR_AT(n) (envs[i].output_paragraph[CHAR_ADDR(n)])
/* remove trailing whitespace from each column */
for (i = 1; i <= last_column; i++) {
if (envs[i].output_paragraph_offset)
while (cr_or_whitespace (CHAR_AT (envs[i].output_paragraph_offset - 1)))
envs[i].output_paragraph_offset--;
if (i == current_env_no)
output_paragraph_offset = envs[i].output_paragraph_offset;
}
/* read the current line from each column, outputting them all
pasted together. Do this til all lines are output from all
columns. */
for (;;) {
remaining = 0;
/* first, see if there is any work to do */
for (i = 1; i <= last_column; i++) {
if (CHAR_ADDR (0) < envs[i].output_paragraph_offset) {
remaining = 1;
break;
}
}
if (!remaining)
break;
for (s = 0; s < envs[0].current_indent; s++)
out_char (' ');
if (vsep)
out_char ('|');
for (i = 1; i <= last_column; i++) {
for (s = 0; s < envs[i].current_indent; s++)
out_char (' ');
for (j = 0; CHAR_ADDR (j) < envs[i].output_paragraph_offset; j++) {
if (CHAR_AT (j) == '\n')
break;
out_char (CHAR_AT (j));
}
offset[i] += j + 1; /* skip last text plus skip the newline */
/* Do not output trailing blanks if we're in the last column and
there will be no trailing |. */
if (i < last_column && !vsep)
for (; j <= envs[i].fill_column; j++)
out_char (' ');
if (vsep)
out_char ('|'); /* draw column separator */
}
out_char ('\n'); /* end of line */
had_newline = 1;
}
/* If completely blank item, get blank line despite no other output. */
if (!had_newline)
out_char ('\n'); /* end of line */
if (hsep)
draw_horizontal_separator ();
/* Now dispose of the buffered output. */
for (i = 1; i <= last_column; i++) {
select_output_environment (i);
init_paragraph ();
}
}
int after_headitem = 0;
int headitem_row = 0;
/* start a new item (row) of a multitable */
int
multitable_item (void)
{
if (!multitable_active) {
line_error ("multitable_item internal error: no active multitable");
xexit (1);
}
current_column_no = 1;
if (html)
{
if (!first_row)
/* <br> for non-tables browsers. */
add_word_args ("<br></%s></tr>", after_headitem ? "th" : "td");
if (seen_column_fractions)
add_word_args ("<tr align=\"left\"><%s valign=\"top\" width=\"%d%%\">",
headitem_flag ? "th" : "td",
envs[current_column_no].fill_column);
else
add_word_args ("<tr align=\"left\"><%s valign=\"top\">",
headitem_flag ? "th" : "td");
if (headitem_flag)
after_headitem = 1;
else
after_headitem = 0;
first_row = 0;
headitem_row = headitem_flag;
headitem_flag = 0;
return 0;
}
/* else if (docbook)*/ /* 05-08 */
else if (xml)
{
xml_end_multitable_row (first_row);
if (headitem_flag)
after_headitem = 1;
else
after_headitem = 0;
first_row = 0;
headitem_flag = 0;
return 0;
}
first_row = 0;
if (current_env_no > 0) {
output_multitable_row ();
}
/* start at column 1 */
select_output_environment (1);
if (!output_paragraph) {
line_error (_("[unexpected] cannot select column #%d in multitable"),
current_env_no);
xexit (1);
}
init_column ();
if (headitem_flag)
hsep = 1;
else
hsep = 0;
if (headitem_flag)
after_headitem = 1;
else
after_headitem = 0;
headitem_flag = 0;
return 0;
}
#undef CHAR_AT
#undef CHAR_ADDR
/* select a new column in current row of multitable */
void
cm_tab (void)
{
if (!multitable_active)
error (_("ignoring @tab outside of multitable"));
current_column_no++;
if (html)
{
if (seen_column_fractions)
add_word_args ("</%s><%s valign=\"top\" width=\"%d%%\">",
headitem_row ? "th" : "td",
headitem_row ? "th" : "td",
envs[current_column_no].fill_column);
else
add_word_args ("</%s><%s valign=\"top\">",
headitem_row ? "th" : "td",
headitem_row ? "th" : "td");
}
/* else if (docbook)*/ /* 05-08 */
else if (xml)
xml_end_multitable_column ();
else
nselect_next_environment ();
init_column ();
}
/* close a multitable, flushing its output and resetting
whatever needs resetting */
void
end_multitable (void)
{
if (!html && !docbook)
output_multitable_row ();
/* Multitables cannot be nested. Otherwise, we'd have to save the
previous output environment number on a stack somewhere, and then
restore to that environment. */
select_output_environment (0);
multitable_active = 0;
uninhibit_output_flushing ();
close_insertion_paragraph ();
if (html)
add_word_args ("<br></%s></tr></table>\n", headitem_row ? "th" : "td");
/* else if (docbook)*/ /* 05-08 */
else if (xml)
xml_end_multitable ();
#if 0
printf (_("** Multicolumn output from last row:\n"));
for (i = 1; i <= last_column; i++) {
select_output_environment (i);
printf (_("* column #%d: output = %s\n"), i, output_paragraph);
}
#endif
}