#! /bin/sh
# texi2dvi --- produce DVI (or PDF) files from Texinfo (or (La)TeX) sources.
# $Id: texi2dvi 5704 2014-07-07 17:45:16Z karl $
#
# Copyright 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2001, 2002,
# 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014
# 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 3 of the License,
# 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, see .
#
# Originally written by Noah Friedman.
#
# Please send bug reports, etc. to bug-texinfo@gnu.org.
# If possible, please send a copy of the output of the script called with
# the `--debug' option when making a bug report.
test -f /bin/ksh && test -z "$RUNNING_KSH" \
&& { UNAMES=`uname -s`; test "x$UNAMES" = xULTRIX; } 2>/dev/null \
&& { RUNNING_KSH=true; export RUNNING_KSH; exec /bin/ksh $0 ${1+"$@"}; }
unset RUNNING_KSH
# No failure shall remain unpunished.
set -e
# In case the default sed doesn't suffice.
: ${SED=sed}
# This string is expanded automatically when this file is checked out.
rcs_revision='$Revision: 5704 $'
rcs_version=`set - $rcs_revision; echo $2`
program=`echo $0 | $SED -e 's!.*/!!'`
build_mode=${TEXI2DVI_BUILD_MODE:-local}
build_dir=${TEXI2DVI_BUILD_DIRECTORY:-.}
# Initialize variables for option overriding and otherwise.
# Don't use `unset' since old bourne shells don't have this command.
# Instead, assign them an empty value.
action=compile
batch=false # interact normally
catcode_special=maybe
debug=false
escape="\\"
expand=false # true for expansion via makeinfo
includes=
line_error=true # pass --file-line-error to TeX
max_iters=7 # when to quit
oname= # --output
out_lang=dvi
quiet=false # let the tools' message be displayed
set_language=
src_specials=
shell_escape=
latex2html=hevea # or set to tex4ht
textra= # Extra TeX commands to insert in the input file.
txiprereq=19990129 # minimum texinfo.tex version with macro expansion
verb=false # true for verbose mode
translate_file= # name of charset translation file
orig_pwd=`pwd`
# We have to initialize IFS to space tab newline since we save and
# restore IFS and apparently POSIX allows stupid/broken behavior with
# empty-but-set IFS.
# http://lists.gnu.org/archive/html/automake-patches/2006-05/msg00008.html
# We need space, tab and new line, in precisely that order. And don't leave
# trailing blanks.
space=' '
tab=' '
newline='
'
IFS="$space$tab$newline"
# In case someone pedantic insists on using grep -E.
: ${EGREP=egrep}
# Systems which define $COMSPEC or $ComSpec use semicolons to separate
# directories in TEXINPUTS -- except for Cygwin et al., where COMSPEC
# might be inherited, but : is used.
if test -n "$COMSPEC$ComSpec" \
&& uname | $EGREP -iv 'cygwin|mingw|djgpp' >/dev/null; then
path_sep=";"
else
path_sep=":"
fi
# Pacify verbose cds.
CDPATH=${ZSH_VERSION+.}$path_sep
# If $TEX is set to a directory, don't use it.
test -n "$TEX" && test -d "$TEX" && unset TEX
#
## --------------------- ##
## Auxiliary functions. ##
## --------------------- ##
# In case `local' is not supported by the shell, provide a function
# that simulates it by simply performing the assignments. This means
# that we must not expect `local' to work, i.e., we must not (i) rely
# on it during recursion, and (ii) have two local declarations of the
# same variable. (ii) is easy to check statically, and our test suite
# does make sure there is never twice a static local declaration of a
# variable. (i) cannot be checked easily, so just be careful.
#
# Note that since we might use a function simulating `local', we can
# no longer rely on the fact that no IFS-splitting is performed. So,
# while
#
# foo=$bar
#
# is fine (no IFS-splitting), never write
#
# local foo=$bar
#
# but rather
#
# local foo="$bar"
(
foo=bar
test_local () {
local foo=foo
}
test_local >/dev/null 2>&1
test $foo = bar
) || eval '
local () {
case $1 in
*=*) eval "$1";;
esac
}
'
# cd_orig
# -------
# Return to the original directory.
cd_orig ()
{
# In case $orig_pwd is on a different drive (for DOS).
cd /
# Return to the original directory so that
# - the next file is processed in correct conditions
# - the temporary file can be removed
cd "$orig_pwd" || exit 1
}
# func_dirname FILE
# -----------------
# Return the directory part of FILE.
func_dirname ()
{
dirname "$1" 2>/dev/null \
|| { echo "$1" | $SED 's!/[^/]*$!!;s!^$!.!'; }
}
# noexit FILE
# -----------
# Return FILE with one extension remove. foo.bar.baz -> foo.bar.
noext ()
{
echo "$1" | $SED -e 's/\.[^/.][^/.]*$//'
}
# absolute NAME -> ABS-NAME
# -------------------------
# Return an absolute path to NAME.
absolute ()
{
case $1 in
[\\/]* | ?:[\\/]*)
# Absolute paths don't need to be expanded.
echo "$1"
;;
*) local slashes
slashes=`echo "$1" | $SED -n 's,.*[^/]\(/*\)$,\1,p'`
local rel
rel=$orig_pwd/`func_dirname "$1"`
if test -d "$rel"; then
(cd "$rel" 2>/dev/null \
&& local n
n=`pwd`/`basename "$1"`"$slashes"
echo "$n")
else
error 1 "not a directory: $rel"
fi
;;
esac
}
# ensure_dir DIR1 DIR2...
# -----------------------
# Make sure the directories exist.
ensure_dir ()
{
for dir
do
# Beware that in parallel builds we may have several concurrent
# attempts to create the directory. So fail only if "mkdir"
# failed *and* the directory still does not exist.
test -d "$dir" \
|| mkdir "$dir" \
|| test -d "$dir" \
|| error 1 "cannot create directory: $dir"
done
}
# error EXIT_STATUS LINE1 LINE2...
# --------------------------------
# Report an error and exit with failure if EXIT_STATUS is non-null.
error ()
{
local s="$1"
shift
report "$@"
if test "$s" != 0; then
exit $s
fi
}
# findprog PROG
# -------------
# Return true if PROG is somewhere in PATH, else false.
findprog ()
{
local saveIFS="$IFS"
IFS=$path_sep # break path components at the path separator
for dir in $PATH; do
IFS=$saveIFS
# The basic test for an executable is `test -f $f && test -x $f'.
# (`test -x' is not enough, because it can also be true for directories.)
# We have to try this both for $1 and $1.exe.
#
# Note: On Cygwin and DJGPP, `test -x' also looks for .exe. On Cygwin,
# also `test -f' has this enhancement, but not on DJGPP. (Both are
# design decisions, so there is little chance to make them consistent.)
# Thusly, it seems to be difficult to make use of these enhancements.
#
if { test -f "$dir/$1" && test -x "$dir/$1"; } \
|| { test -f "$dir/$1.exe" && test -x "$dir/$1.exe"; }; then
return 0
fi
done
return 1
}
# report LINE1 LINE2...
# ---------------------
# Report some information on stderr.
report ()
{
for i in "$@"
do
echo >&2 "$0: $i"
done
}
# run COMMAND-LINE
# ----------------
# Run the COMMAND-LINE verbosely, and catching errors as failures.
run ()
{
verbose "Running $@"
"$@" 2>&5 1>&2 \
|| error 1 "$1 failed"
}
# usage
# -----
# Display usage and exit successfully.
usage ()
{
# We used to simply have `echo "$usage"', but coping with the
# changing behavior of `echo' is much harder than simply using a
# here-doc.
#
# echo '\noto' echo '\\noto' echo -e '\\noto'
# bash 3.1 \noto \\noto \noto
# bash 3.2 %oto \noto -e \noto
#
# where % denotes the eol character.
cat <
General help using GNU software:
EOF
exit 0
}
# verbose WORD1 WORD2
# -------------------
# Report some verbose information.
verbose ()
{
if $verb; then
echo >&2 "$0: $@"
fi
}
# version
# -------
# Display version info and exit successfully.
version ()
{
cat <
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.
EOF
exit 0
}
## ---------------- ##
## Handling lists. ##
## ---------------- ##
# list_append LIST-NAME ELEM
# --------------------------
# Set LIST-NAME to its former contents, with ELEM appended.
list_append ()
{
local la_l="$1"
shift
eval set X \$$la_l "$@"
shift
eval $la_l=\""$@"\"
}
# list_concat_dirs LIST-NAME DIR-LIST
# -----------------------------------
# Append to LIST-NAME all the components (included empty) from
# the $path_sep separated list DIR-LIST. Make the paths absolute.
list_concat_dirs ()
{
local lcd_list="$1"
# Empty path components are meaningful to tex. We rewrite them as
# `EMPTY' so they don't get lost when we split on $path_sep.
# Hopefully no one will have an actual directory named EMPTY.
local replace_EMPTY="-e 's/^$path_sep/EMPTY$path_sep/g' \
-e 's/$path_sep\$/${path_sep}EMPTY/g' \
-e 's/$path_sep$path_sep/${path_sep}EMPTY:/g'"
save_IFS=$IFS
IFS=$path_sep
set x `echo "$2" | eval $SED $replace_EMPTY`; shift
IFS=$save_IFS
local dir
for dir
do
case $dir in
EMPTY)
list_append $lcd_list ""
;;
*)
if test -d $dir; then
dir=`absolute "$dir"`
list_append $lcd_list "$dir"
fi
;;
esac
done
}
# list_prefix LIST-NAME SEP -> STRING
# -----------------------------------
# Return a string that is composed of the LIST-NAME with each item
# preceded by SEP.
list_prefix ()
{
local lp_p="$2"
eval set X \$$1
shift
local lp_res
for i
do
lp_res="$lp_res \"$lp_p\" \"$i\""
done
echo "$lp_res"
}
# list_infix LIST-NAME SEP -> STRING
# ----------------------------------
# Same as list_prefix, but a separator.
list_infix ()
{
eval set X \$$1
shift
local la_IFS="$IFS"
IFS=$path_sep
echo "$*"
IFS=$la_IFS
}
# list_dir_to_abs LIST-NAME
# -------------------------
# Convert the list to using only absolute dir names.
# Currently unused, but should replace absolute_filenames some day.
list_dir_to_abs ()
{
local ld_l="$1"
eval set X \$$ld_l
shift
local ld_res
for dir
do
dir=`absolute "$dir"`
test -d "$dir" || continue
ld_res="$ld_res \"$dir\""
done
set X $ld_res; shift
eval $ld_l=\"$@\"
}
## ------------------------------ ##
## Language auxiliary functions. ##
## ------------------------------ ##
# out_lang_set LANG
# -----------------
out_lang_set ()
{
case $1 in
dvi|dvipdf|html|info|pdf|ps|text) out_lang=$1;;
*) error 1 "invalid output format: $1";;
esac
}
# out_lang_tex
# ------------
# Return the tex output language (DVI or PDF) for $OUT_LANG.
out_lang_tex ()
{
case $out_lang in
dvi | ps | dvipdf ) echo dvi;;
pdf ) echo $out_lang;;
html | info | text ) echo $out_lang;;
*) error 1 "invalid out_lang: $1";;
esac
}
# out_lang_ext
# ------------
# Return the extension for $OUT_LANG.
out_lang_ext ()
{
case $out_lang in
dvipdf ) echo pdf;;
dvi | html | info | pdf | ps | text ) echo $out_lang;;
*) error 1 "invalid out_lang: $1";;
esac
}
## ------------------------- ##
## TeX auxiliary functions. ##
## ------------------------- ##
# Save TEXINPUTS so we can construct a new TEXINPUTS path for each file.
# Likewise for bibtex and makeindex.
tex_envvars="BIBINPUTS BSTINPUTS DVIPSHEADERS INDEXSTYLE MFINPUTS MPINPUTS \
TEXINPUTS TFMFONTS"
for var in $tex_envvars; do
eval ${var}_orig=\$$var
export $var
done
# absolute_filenames TEX-PATH -> TEX-PATH
# ---------------------------------------
# Convert relative paths to absolute paths, so we can run in another
# directory (e.g., in tidy build mode, or during the macro-support
# detection). Prepend ".".
absolute_filenames ()
{
# Empty path components are meaningful to tex. We rewrite them as
# `EMPTY' so they don't get lost when we split on $path_sep.
# Hopefully no one will have an actual directory named EMPTY.
local replace_empty="-e 's/^$path_sep/EMPTY$path_sep/g' \
-e 's/$path_sep\$/${path_sep}EMPTY/g' \
-e 's/$path_sep$path_sep/${path_sep}EMPTY:/g'"
local res
res=`echo "$1" | eval $SED $replace_empty`
save_IFS=$IFS
IFS=$path_sep
set x $res; shift
res=.
for dir
do
case $dir in
EMPTY)
res=$res$path_sep
;;
*)
if test -d "$dir"; then
res=$res$path_sep`absolute "$dir"`
else
# Even if $dir is not a directory, preserve it in the path.
# It might contain metacharacters that TeX will expand in
# turn, e.g., /some/path/{a,b,c}. This will not get the
# implicit absolutification of the path, but we can't help that.
res=$res$path_sep$dir
fi
;;
esac
done
echo "$res"
}
# output_base_name FILE
# ---------------------
# The name of FILE, possibly renamed to satisfy --output.
# FILE is local, there is no directory part.
output_base_name ()
{
case $oname in
'') echo "$1";;
*) local out_noext
out_noext=`noext "$oname"`
local file_ext
file_ext=`echo "$1" | $SED 's/^.*\.//'`
echo "$out_noext.$file_ext"
;;
esac
}
# destdir
# -------
# Return the name of the directory where the output is expected.
destdir ()
{
case $oname in
'') echo "$orig_pwd";;
*) dirname "$oname";;
esac
}
# move_to_dest FILE...
# --------------------
# Move FILE to the place where the user expects it. Truly move it, that
# is, it must not remain in its build location unless that is also the
# output location. (Otherwise it might appear as an extra file in make
# distcheck.)
#
# FILE can be the principal output (in which case -o directly applies), or
# an auxiliary file with the same base name.
move_to_dest ()
{
# echo "move_to_dest $*, tidy=$tidy, oname=$oname"
# If we built in place and have no output name, there is nothing to
# do, so just return.
case $tidy:$oname in
false:) return;;
esac
local destfile
local destdir
local destbase
local sourcedir
local sourcebase
for file
do
test -f "$file" \
|| error 1 "no such file or directory: $file"
case $tidy:$oname in
true:) destdir=$orig_pwd
destfile=$destdir/$file;;
true:*) destfile=`output_base_name "$file"`
destdir=`dirname "$destfile"`;;
false:*) destfile=$oname
destdir=`dirname "$destfile"`;;
esac
# We want to compare the source location and the output location,
# and if they are different, do the move. But if they are the
# same, we must preserve the source. Since we can't assume
# stat(1) or test -ef is available, resort to comparing the
# directory names, canonicalized with pwd. We can't use cmp -s
# since the output file might not actually change from run to run;
# e.g., TeX DVI output is timestamped to only the nearest minute.
destdir=`cd "$destdir" && pwd`
destbase=`basename "$destfile"`
sourcedir=`dirname "$file"`
sourcedir=`cd "$sourcedir" && pwd`
sourcebase=`basename "$file"`
if test "$sourcedir/$sourcebase" != "$destdir/$destbase"; then
verbose "Moving $file to $destfile"
rm -f "$destfile"
mv "$file" "$destfile"
fi
done
}
## --------------------- ##
## Managing xref files. ##
## --------------------- ##
# aux_file_p FILE
# ---------------
# Return with success if FILE is an aux file.
aux_file_p ()
{
test -f "$1" || return 1
case $1 in
*.aux) return 0;;
*) return 1;;
esac
}
# bibaux_file_p FILE
# ------------------
# Return with success if FILE is an aux file containing citation
# requests.
bibaux_file_p ()
{
test -s "$1" || return 1
if (grep '^\\bibstyle[{]' "$1" \
&& grep '^\\bibdata[{]' "$1" \
## The following line is suspicious: fails when there
## are citations in sub aux files. We need to be
## smarter in this case.
## && grep '^\\citation[{]' "$f"
) >&6 2>&1;
then
return 0
fi
return 1
}
# index_file_p FILE
# -----------------
# Return with success if FILE is an index file.
index_file_p ()
{
test -f "$1" || return 1
case $in_lang:$latex2html:`out_lang_tex`:`$SED '1q' "$1"` in
# When working with TeX4HT, *.idx are created by LaTeX. They must
# be processed to produce *.4ix, *.4dx files. The *.4dx file is
# passed to makeindex to produce the *.ind file. This sequence is
# handled by run_index, so we are only interested in the *.idx
# files, which have each "\indexentry" preceded by a
# "\beforeentry".
latex:tex4ht:html:"\\beforeentry {"*) return 0;;
# When index.sty is used, there is a space before the brace.
latex:*:*:"\\indexentry{"*|latex:*:*:"\\indexentry {"*) return 0;;
texinfo:*:*:"\\entry{"*) return 0;;
*) return 1;;
esac
}
# xref_file_p FILE
# ----------------
# Return with success if FILE is an xref file (indexes, tables and lists).
xref_file_p ()
{
test -f "$1" || return 1
# If the file is not suitable to be an index or xref file, don't
# process it. It's suitable if the first character is a
# backslash or right quote or at, as long as the first line isn't
# \input texinfo.
case `$SED '1q' "$1"` in
"\\input texinfo"*) return 1;;
[\\''@]*) return 0;;
*) return 1;;
esac
}
# generated_files_get FILENAME-NOEXT [PREDICATE-FILTER]
# -----------------------------------------------------
# Return the list of files generated by the TeX compilation of FILENAME-NOEXT.
generated_files_get ()
{
local filter=true
if test -n "$2"; then
filter=$2
fi
# Gather the files created by TeX.
(
if test -f "$1.log"; then
$SED -n -e "s,^\\\\openout.* = \`\\(.*\\)'\\.,\\1,p" "$1.log"
fi
echo "$1.log"
) |
# Depending on these files, infer outputs from other tools.
while read file; do
echo $file
case $in_lang in
texinfo)
# texindex: texinfo.cp -> texinfo.cps
if index_file_p $file; then
echo ${file}s
fi
;;
latex)
if aux_file_p $file; then
# bibtex: *.aux -> *.bbl and *.blg.
echo $file | $SED 's/^\(.*\)\.aux$/\1.bbl/'
echo $file | $SED 's/^\(.*\)\.aux$/\1.blg/'
# -recorder: .fls
echo $file | $SED 's/^\(.*\)\.aux$/\1.fls/'
fi
;;
esac
done |
# Filter existing files matching the criterion.
#
# With an input file name containing a space, this produces a
# "command not found" message (and filtering is ineffective).
# The situation with a newline is presumably even worse.
while read file; do
if $filter "$file"; then
echo $file
fi
done |
sort |
# Some files are opened several times, e.g., listings.sty's *.vrb.
uniq
}
# xref_files_save
# ---------------
# Save the xref files.
xref_files_save ()
{
# Save copies of auxiliary files for later comparison.
xref_files_orig=`generated_files_get "$in_noext" xref_file_p`
if test -n "$xref_files_orig"; then
verbose "Backing up xref files: $xref_files_orig"
# The following line improves `cp $xref_files_orig "$work_bak"'
# by preserving the directory parts. Think of
# cp chap1/main.aux chap2/main.aux $work_bak.
#
# Users may have, e.g., --keep-old-files. Don't let this interfere.
# (Don't use unset for the sake of ancient shells.)
TAR_OPTIONS=; export TAR_OPTIONS
tar cf - $xref_files_orig | (cd "$work_bak" && tar xf -)
fi
}
# xref_files_changed
# ------------------
# Whether the xref files were changed since the previous run.
xref_files_changed ()
{
# LaTeX (and the package changebar) report in the LOG file if it
# should be rerun. This is needed for files included from
# subdirs, since texi2dvi does not try to compare xref files in
# subdirs. Performing xref files test is still good since LaTeX
# does not report changes in xref files.
if grep "Rerun to get" "$in_noext.log" >&6 2>&1; then
return 0
fi
# biblatex report of whether rerunning is needed.
if grep "biblatex.*(re)run" "$in_noext.log" >&6 2>&1; then
return 0
fi
# If old and new lists don't have the same file list,
# then something has definitely changed.
xref_files_new=`generated_files_get "$in_noext" xref_file_p`
verbose "Original xref files = $xref_files_orig"
verbose "New xref files = $xref_files_new"
if test "x$xref_files_orig" != "x$xref_files_new"; then
return 0
fi
# Compare each file until we find a difference.
for this_file in $xref_files_new; do
verbose "Comparing xref file `echo $this_file | $SED 's|\./||g'` ..."
# cmp -s returns nonzero exit status if files differ.
if cmp -s "$this_file" "$work_bak/$this_file"; then :; else
verbose "xref file `echo $this_file | $SED 's|\./||g'` differed ..."
if $debug; then
diff -u "$work_bak/$this_file" "$this_file"
fi
return 0
fi
done
# No change.
return 1
}
## ----------------------- ##
## Running the TeX suite. ##
## ----------------------- ##
# run_tex ()
# ----------
# Run TeX as "$tex $in_input", taking care of errors and logs.
run_tex ()
{
case $in_lang:$latex2html:`out_lang_tex` in
latex:*:dvi|latex:tex4ht:html)
tex=${LATEX:-latex};;
latex:*:pdf)
tex=${PDFLATEX:-pdflatex};;
texinfo:*:dvi)
# MetaPost also uses the TEX environment variable. If the user
# has set TEX=latex for that reason, don't bomb out.
case $TEX in
*latex) tex=tex;; # don't bother trying to find etex
*) tex=$TEX
esac;;
texinfo:*:pdf) tex=$PDFTEX;;
*) error 1 "$out_lang not supported for $in_lang";;
esac
# do the special catcode trick for ~ in filenames only for Texinfo,
# not LaTeX.
if test x"$in_lang" = xtexinfo && test $catcode_special = maybe; then
catcode_special=true
else
catcode_special=false
fi
# Beware of aux files in subdirectories that require the
# subdirectory to exist.
case $in_lang:$tidy in
latex:true)
$SED -n 's|^[ ]*\\include{\(.*\)/.*}.*|\1|p' "$in_input" |
sort -u |
while read d
do
ensure_dir "$work_build/$d"
done
;;
esac
# Note that this will be used via an eval: quote properly.
local cmd="$tex"
# If possible, make TeX report error locations in GNU format.
if $line_error; then
if test "${tex_help:+set}" != set; then
# Go to a temporary directory to try --help, since old versions that
# don't accept --help will generate a texput.log.
tex_help_dir=$t2ddir/tex_help
ensure_dir "$tex_help_dir"
tex_help=`cd "$tex_help_dir" >&6 && $tex --help &1 || true`
fi
# The mk program and perhaps others want to parse TeX's
# original error messages.
case $tex_help in
*file-line-error*) cmd="$cmd --file-line-error";;
esac
fi
# Tell TeX about TCX file, if specified.
test -n "$translate_file" && cmd="$cmd --translate-file=$translate_file"
# Tell TeX to make source specials (for backtracking from output to
# source, given a sufficiently smart editor), if specified.
test -n "$src_specials" && cmd="$cmd $src_specials"
# Tell TeX to allow running external executables
test -n "$shell_escape" && cmd="$cmd $shell_escape"
# Tell TeX to be batch if requested.
if $batch; then
# \batchmode does not show terminal output at all, so we don't
# want that. And even in batch mode, TeX insists on having input
# from the user. Close its stdin to make it impossible.
cmd="$cmd &5; then
case $out_lang in
dvi | pdf ) move_to_dest "$in_noext.$out_lang";;
esac
else
error 1 "$tex exited with bad status, quitting."
fi
}
# run_bibtex ()
# -------------
# Run bibtex on (or biber) current file.
# - If its input (AUX) exists.
# - If some citations are missing (LOG contains `Citation').
# or the LOG complains of a missing .bbl
#
# Don't try to be too smart:
# 1. Running bibtex only if the bbl file exists and is older than
# the LaTeX file is wrong, since the document might include files
# that have changed.
#
# 3. Because there can be several AUX (if there are \include's),
# but a single LOG, looking for missing citations in LOG is
# easier, though we take the risk of matching false messages.
run_bibtex ()
{
case $in_lang in
latex) bibtex=${BIBTEX:-bibtex};;
texinfo) return;;
esac
# "Citation undefined" is for LaTeX, "Undefined citation" for btxmac.tex.
# The no .aux && \bibdata test is also for btxmac, in case it was the
# first run of a bibtex-using document. Otherwise, it's possible that
# bibtex would never be run.
if test -r "$in_noext.aux" \
&& test -r "$in_noext.log" \
&& ( (grep 'Warning:.*Citation.*undefined' "$in_noext.log" \
|| grep '.*Undefined citation' "$in_noext.log" \
|| grep 'No file .*\.bbl\.' "$in_noext.log") \
|| (grep 'No \.aux file' "$in_noext.log" \
&& grep '^\\bibdata' "$in_noext.aux") ) \
>&6 2>&1; \
then
bibtex_aux=`generated_files_get "$in_noext" bibaux_file_p`
for f in $bibtex_aux; do
run $bibtex "$f"
done
fi
# biber(+biblatex) check.
if test -r "$in_noext.bcf" \
&& grep '' "$in_noext.bcf" >/dev/null; then
run ${BIBER:-biber} "$in_noext"
fi
}
# run_index ()
# ------------
# Run texindex (or makeindex or texindy) on current index files. If
# they already exist, and after running TeX a first time the index
# files don't change, then there's no reason to run TeX again. But we
# won't know that if the index files are out of date or nonexistent.
run_index ()
{
local index_files
index_files=`generated_files_get $in_noext index_file_p`
test -n "$index_files" \
|| return 0
: ${MAKEINDEX:=makeindex}
: ${TEXINDEX:=texindex}
: ${TEXINDY:=texindy}
local index_file
local index_noext
case $in_lang:$latex2html:`out_lang_tex` in
latex:tex4ht:html)
for index_file in $index_files
do
index_noext=`noext "$index_file"`
run tex \
'\def\filename{{'"$index_noext"'}{idx}{4dx}{ind}}
\input idxmake.4ht'
run $MAKEINDEX -o $index_noext.ind $index_noext.4dx
done
;;
latex:*)
if $TEXINDY --version >&6 2>&1; then
run $TEXINDY $index_files
else
run $MAKEINDEX $index_files
fi
;;
texinfo:*)
run $TEXINDEX $index_files
;;
esac
}
# run_tex4ht ()
# -------------
# Run the last two phases of TeX4HT: tex4ht extracts the HTML from the
# instrumented DVI file, and t4ht converts the figures and installs
# the files when given -d.
#
# Because knowing exactly which files are created is complex (in
# addition the names are not simple to compute), which makes it
# difficult to install the output files in a second step, it is much
# simpler to install directly the output files.
run_tex4ht ()
{
case $in_lang:$latex2html:`out_lang_tex` in
latex:tex4ht:html)
: ${TEX4HT:=tex4ht} ${T4HT:=t4ht}
run "$TEX4HT" "-f/$in_noext"
# Do not remove the / after the destdir.
run "$T4HT" "-d`destdir`/" "-f/$in_noext"
;;
esac
}
# run_thumbpdf ()
# ---------------
run_thumbpdf ()
{
if test `out_lang_tex` = pdf \
&& test -r "$in_noext.log" \
&& grep 'thumbpdf\.sty' "$in_noext.log" >&6 2>&1; \
then
thumbpdf=${THUMBPDF_CMD:-thumbpdf}
thumbcmd="$thumbpdf $in_dir/$in_noext"
verbose "Running $thumbcmd ..."
if $thumbcmd >&5; then
run_tex
else
report "$thumbpdf exited with bad status." \
"Ignoring its output."
fi
fi
}
# run_dvipdf FILE.dvi
# -------------------
# Convert FILE.dvi to FILE.pdf.
run_dvipdf ()
{
# Find which dvi->pdf program is available.
if test -z "$dvipdf"; then
for i in "$DVIPDF" dvipdfmx dvipdfm dvipdf dvi2pdf dvitopdf; do
if findprog $i; then
dvipdf=$i
fi
done
fi
# These tools have varying interfaces, some 'input output', others
# 'input -o output'. They all seem to accept 'input' only,
# outputting using the expected file name.
run $dvipdf "$1"
if test ! -f `echo "$1" | $SED -e 's/\.dvi$/.pdf/'`; then
error 1 "cannot find output file"
fi
}
# run_tex_suite ()
# ----------------
# Run the TeX tools until a fix point is reached.
run_tex_suite ()
{
# Move to the working directory.
if $tidy; then
verbose "cd $work_build"
cd "$work_build" || exit 1
fi
# Count the number of cycles.
local cycle=0
while :; do
# check for probably LaTeX loop (e.g. varioref)
if test $cycle -eq "$max_iters"; then
error 0 "Maximum of $max_iters cycles exceeded"
break
fi
# report progress
cycle=`expr $cycle + 1`
verbose "Cycle $cycle for $command_line_filename"
xref_files_save
# We run bibtex first, because it's more likely for the indexes
# to change after bibtex is run than the reverse, though either
# would be rare.
run_bibtex
run_index
run_core_conversion
xref_files_changed || break
done
# If we were using thumbpdf and producing PDF, then run thumbpdf
# and TeX one last time.
run_thumbpdf
# If we are using tex4ht, call it.
run_tex4ht
# Install the result if we didn't already (i.e., if the output is
# dvipdf or ps).
case $latex2html:$out_lang in
*:dvipdf)
run_dvipdf "$in_noext.`out_lang_tex`"
move_to_dest "$in_noext.`out_lang_ext`"
;;
*:ps)
: ${DVIPS:=dvips}
run $DVIPS -o "$in_noext.`out_lang_ext`" "$in_noext.`out_lang_tex`"
move_to_dest "$in_noext.`out_lang_ext`"
;;
esac
cd_orig
}
## -------------------------------- ##
## TeX processing auxiliary tools. ##
## -------------------------------- ##
# A sed script that preprocesses Texinfo sources in order to keep the
# iftex sections only. We want to remove non-TeX sections, and comment
# (with `@c _texi2dvi') TeX sections so that makeinfo does not try to
# parse them. Nevertheless, while commenting TeX sections, don't
# comment @macro/@end macro so that makeinfo does propagate them.
# Unfortunately makeinfo --iftex --no-ifinfo doesn't work well enough
# (yet), makeinfo can't parse the TeX commands, so work around with sed.
#
# We assume that `@c _texi2dvi' starting a line is not present in the
# document.
#
comment_iftex=\
'/^@tex/,/^@end tex/{
s/^/@c _texi2dvi/
}
/^@iftex/,/^@end iftex/{
s/^/@c _texi2dvi/
/^@c _texi2dvi@macro/,/^@c _texi2dvi@end macro/{
s/^@c _texi2dvi//
}
}
/^@ifnottex/,/^@end ifnottex/{
s/^/@c (_texi2dvi)/
}
/^@ifinfo/,/^@end ifinfo/{
/^@node/p
/^@menu/,/^@end menu/p
t
s/^/@c (_texi2dvi)/
}
s/^@ifnotinfo/@c _texi2dvi@ifnotinfo/
s/^@end ifnotinfo/@c _texi2dvi@end ifnotinfo/'
# Uncommenting is simpler: remove any leading `@c texi2dvi'; repeated
# copies can sneak in via macro invocations.
uncomment_iftex='s/^@c _texi2dvi\(@c _texi2dvi\)*//'
# run_makeinfo ()
# ---------------
# Expand macro commands in the original source file using Makeinfo.
# Always use `end' footnote style, since the `separate' style
# generates different output (arguably this is a bug in -E). Discard
# main info output, the user asked to run TeX, not makeinfo.
run_makeinfo ()
{
test $in_lang = texinfo \
|| return 0
# Unless required by the user, makeinfo expansion is wanted only
# if texinfo.tex is too old.
if $expand; then
makeinfo=${MAKEINFO:-makeinfo}
else
# Check if texinfo.tex performs macro expansion by looking for
# its version. The version is a date of the form YEAR-MO-DA.
# We don't need to use [0-9] to match the digits since anyway
# the comparison with $txiprereq, a number, will fail with non-digits.
# Run in a temporary directory to avoid leaving files.
version_test_dir=$t2ddir/version_test
ensure_dir "$version_test_dir"
if (
cd "$version_test_dir"
echo '\input texinfo.tex @bye' >txiversion.tex
# Be sure that if tex wants to fail, it is not interactive:
# close stdin.
$TEX txiversion.tex txiversion.out 2>txiversion.err
); then :; else
report "texinfo.tex appears to be broken.
This may be due to the environment variable TEX set to something
other than (plain) tex, a corrupt texinfo.tex file, or
to tex itself simply not working."
cat "$version_test_dir/txiversion.out"
cat "$version_test_dir/txiversion.err" >&2
error 1 "quitting."
fi
eval `$SED -n 's/^.*\[\(.*\)version \(....\)-\(..\)-\(..\).*$/txiformat=\1 txiversion="\2\3\4"/p' "$version_test_dir/txiversion.out"`
verbose "texinfo.tex preloaded as \`$txiformat', version is \`$txiversion' ..."
if test "$txiprereq" -le "$txiversion" >&6 2>&1; then
makeinfo=
else
makeinfo=${MAKEINFO:-makeinfo}
fi
# If TeX is preloaded, offer the user this convenience:
if test "$txiformat" = Texinfo; then
escape=@
fi
fi
if test -n "$makeinfo"; then
# in_src: the file with macros expanded.
# Use the same basename to generate the same aux file names.
work_src=$workdir/src
ensure_dir "$work_src"
in_src=$work_src/$in_base
local miincludes
miincludes=`list_prefix includes -I`
verbose "Macro-expanding $command_line_filename to $in_src ..."
# eval $makeinfo because it might be defined as something complex
# (running missing) and then we end up with things like '"-I"',
# and "-I" (including the quotes) is not an option name. This
# happens with gettext 0.14.5, at least.
$SED "$comment_iftex" "$command_line_filename" \
| eval $makeinfo --footnote-style=end -I "$in_dir" $miincludes \
-o /dev/null --macro-expand=- \
| $SED "$uncomment_iftex" >"$in_src"
# Continue only if everything succeeded.
if test $? -ne 0 \
|| test ! -r "$in_src"; then
verbose "Expansion failed, ignored...";
else
in_input=$in_src
fi
fi
}
# insert_commands ()
# ------------------
# Used most commonly for @finalout, @smallbook, etc.
insert_commands ()
{
if test -n "$textra"; then
# _xtr. The file with the user's extra commands.
work_xtr=$workdir/xtr
in_xtr=$work_xtr/$in_base
ensure_dir "$work_xtr"
verbose "Inserting extra commands: $textra"
local textra_cmd
case $in_lang in
latex) textra_cmd=1i;;
texinfo) textra_cmd='/^@setfilename/a';;
*) error 1 "internal error, unknown language: $in_lang";;
esac
$SED "$textra_cmd\\
$textra" "$in_input" >"$in_xtr"
in_input=$in_xtr
fi
case $in_lang:$latex2html:`out_lang_tex` in
latex:tex4ht:html)
# _tex4ht. The file with the added \usepackage{tex4ht}.
work_tex4ht=$workdir/tex4ht
in_tex4ht=$work_tex4ht/$in_base
ensure_dir "$work_tex4ht"
verbose "Inserting \\usepackage{tex4ht}"
perl -pe 's<\\documentclass(?:\[.*\])?{.*}>
<$&\\usepackage[xhtml]{tex4ht}>' \
"$in_input" >"$in_tex4ht"
in_input=$in_tex4ht
;;
esac
}
# compute_language FILENAME
# -------------------------
# Return the short string describing the language in which FILENAME
# is written: `texinfo' or `latex'.
compute_language ()
{
# If the user explicitly specified the language, use that.
# Otherwise, if the first line is \input texinfo, assume it's texinfo.
# Otherwise, guess from the file extension.
if test -n "$set_language"; then
echo $set_language
elif $SED 1q "$1" | grep 'input texinfo' >&6; then
echo texinfo
else
# Get the type of the file (latex or texinfo) from the given language
# we just guessed, or from the file extension if not set yet.
case $1 in
*.ltx | *.tex | *.drv | *.dtx) echo latex;;
*) echo texinfo;;
esac
fi
}
# run_hevea (MODE)
# ----------------
# Convert to HTML/INFO/TEXT.
#
# Don't pass `-noiso' to hevea: it's useless in HTML since anyway the
# charset is set to latin1, and troublesome in other modes since
# accented characters loose their accents.
#
# Don't pass `-o DEST' to hevea because in that case it leaves all its
# auxiliary files there too... Too bad, because it means we will need
# to handle images some day.
run_hevea ()
{
local hevea="${HEVEA:-hevea}"
local run_hevea="$hevea"
case $1 in
html) ;;
text|info) run_hevea="$run_hevea -$1";;
*) error 1 "run_hevea: invalid argument: $1";;
esac
# Compiling to the tmp directory enables to preserve a previous
# successful compilation.
run_hevea="$run_hevea -fix -O -o '$out_base'"
run_hevea="$run_hevea `list_prefix includes -I` -I '$orig_pwd' "
run_hevea="$run_hevea '$in_input'"
if $debug; then
run_hevea="$run_hevea -v -v"
fi
verbose "running $run_hevea"
if eval "$run_hevea" >&5; then
# hevea leaves trailing white spaces, this is annoying.
case $1 in text|info)
perl -pi -e 's/[ \t]+$//g' "$out_base"*;;
esac
case $1 in
html|text) move_to_dest "$out_base";;
info) # There can be foo.info-1, foo.info-2 etc.
move_to_dest "$out_base"*;;
esac
else
error 1 "$hevea exited with bad status, quitting."
fi
}
# run_core_conversion ()
# ----------------------
# Run the TeX (or HeVeA).
run_core_conversion ()
{
case $in_lang:$latex2html:`out_lang_tex` in
*:dvi|*:pdf|latex:tex4ht:html)
run_tex;;
latex:*:html|latex:*:text|latex:*:info)
run_hevea $out_lang;;
*)
error 1 "invalid input/output combination: $in_lang/$out_lang";;
esac
}
# compile ()
# ----------
# Run the full compilation chain, from pre-processing to installation
# of the output at its expected location.
compile ()
{
# Source file might include additional sources.
# We want `.:$orig_pwd' before anything else. (We'll add `.:' later
# after all other directories have been turned into absolute paths.)
# `.' goes first to ensure that any old .aux, .cps,
# etc. files in ${directory} don't get used in preference to fresher
# files in `.'. Include orig_pwd in case we are in clean build mode, where
# we have cd'd to a temp directory.
common="$orig_pwd$path_sep$in_dir$path_sep"
#
# If we have any includes, put those at the end.
# Keep a final path_sep to get the default (system) TeX directories included.
txincludes=`list_infix includes $path_sep`
test -n "$txincludes" && common="$common$txincludes$path_sep"
#
for var in $tex_envvars; do
eval val="\$common\$${var}_orig"
# Convert relative paths to absolute paths, so we can run in another
# directory (e.g., in clean build mode, or during the macro-support
# detection). ".:" is added here.
val=`absolute_filenames "$val"`
eval $var="\"$val\""
export $var
eval verbose \"$var=\'\$${var}\'\"
done
# --expand
run_makeinfo
# --command, --texinfo
insert_commands
# Run until a fix point is reached.
run_tex_suite
}
# remove FILES
# ------------
remove ()
{
verbose "Removing" "$@"
rm -rf "$@"
}
# mostly_clean
# ------------
# Remove auxiliary files and directories. Changes the current directory.
mostly_clean ()
{
cd_orig
set X "$t2ddir"
shift
$tidy || {
local log="$work_build/$in_noext.log"
set X ${1+"$@"} "$log" `generated_files_get "$work_build/$in_noext"`
shift
}
remove ${1+"$@"}
}
# cleanup ()
# ----------
# Remove what should be removed according to options.
# Called at the end of each compilation cycle, and at the end of
# the script. Changes the current directory.
cleanup ()
{
case $build_mode in
local) cd_orig; remove "$t2ddir";;
clean) mostly_clean;;
tidy) ;;
esac
}
## ---------------------- ##
## Command line parsing. ##
## ---------------------- ##
# Push a token among the arguments that will be used to notice when we
# ended options/arguments parsing.
# Use "set dummy ...; shift" rather than 'set - ..." because on
# Solaris set - turns off set -x (but keeps set -e).
# Use ${1+"$@"} rather than "$@" because Digital Unix and Ultrix 4.3
# still expand "$@" to a single argument (the empty string) rather
# than nothing at all.
arg_sep="$$--$$"
set dummy ${1+"$@"} "$arg_sep"; shift
#
# Parse command line arguments.
while test x"$1" != x"$arg_sep"; do
# Handle --option=value by splitting apart and putting back on argv.
case "$1" in
--*=*)
opt=`echo "$1" | $SED -e 's/=.*//'`
val=`echo "$1" | $SED -e 's/[^=]*=//'`
shift
set dummy "$opt" "$val" ${1+"$@"}; shift
;;
esac
case "$1" in
-@ ) escape=@;;
-~ ) catcode_special=false;;
# Silently and without documentation accept -b and --b[atch] as synonyms.
-b | --batch) batch=true;;
--build) shift; build_mode=$1;;
--build-dir) shift; build_dir=$1; build_mode=tidy;;
-c | --clean) build_mode=clean;;
-D | --debug) debug=true;;
-e | -E | --expand) expand=true;;
-h | --help) usage;;
-I) shift; list_concat_dirs includes "$1";;
-l | --lang | --language) shift; set_language=$1;;
--mostly-clean) action=mostly-clean;;
--no-line-error) line_error=false;;
--max-iterations) shift; max_iters=$1;;
-o | --out | --output)
shift
# Make it absolute, just in case we also have --clean, or whatever.
oname=`absolute "$1"`;;
# Output formats.
-O|--output-format) shift; out_lang_set "$1";;
--dvi|--dvipdf|--html|--info|--pdf|--ps|--text)
out_lang_set `echo "x$1" | $SED 's/^x--//'`;;
-p) out_lang_set pdf;;
-q | -s | --quiet | --silent) quiet=true; batch=true;;
--src-specials) src_specials=--src-specials;;
--shell-escape) shell_escape=--shell-escape;;
--tex4ht) latex2html=tex4ht;;
-t | --texinfo | --command ) shift; textra="$textra\\
"`echo "$1" | $SED 's/\\\\/\\\\\\\\/g'`;;
--translate-file ) shift; translate_file="$1";;
--tidy) build_mode=tidy;;
-v | --vers*) version;;
-V | --verb*) verb=true;;
--) # What remains are not options.
shift
while test x"$1" != x"$arg_sep"; do
set dummy ${1+"$@"} "$1"; shift
shift
done
break;;
-*)
error 1 "Unknown or ambiguous option \`$1'." \
"Try \`--help' for more information."
;;
*) set dummy ${1+"$@"} "$1"; shift;;
esac
shift
done
# Pop the token
shift
# $tidy: compile in a t2d directory.
# $clean: remove all the aux files.
case $build_mode in
local) clean=false; tidy=false;;
tidy) clean=false; tidy=true;;
clean) clean=true; tidy=true;;
*) error 1 "invalid build mode: $build_mode";;
esac
# Interpret remaining command line args as filenames.
case $# in
0)
error 2 "Missing file arguments." "Try \`--help' for more information."
;;
1) ;;
*)
if test -n "$oname"; then
error 2 "Can't use option \`--output' with more than one argument."
fi
;;
esac
# We can't do much without tex.
#
if findprog ${TEX:-tex}; then :; else cat </dev/null
else
exec 5>&1
fi
# Enable tracing, and auxiliary tools output.
#
# This fd should be used where you'd typically use /dev/null to throw
# output away. But sometimes it is convenient to see that output (e.g.,
# from a grep) to aid debugging. Especially debugging at distance, via
# the user.
#
if $debug; then
exec 6>&1
set -vx
else
exec 6>/dev/null
fi
#
# input_file_name_decode
# ----------------------
# Decode COMMAND_LINE_FILENAME, and compute:
# - COMMAND_LINE_FILENAME clean of TeX commands
# - IN_DIR
# The directory to the input file, possibly absolute if needed.
# - IN_DIR_ABS
# The absolute directory of the input file.
# - IN_BASE
# The input file base name (no directory part).
# - IN_NOEXT
# The input file name without extensions (nor directory part).
# - IN_INPUT
# Defaults to COMMAND_LINE_FILENAME, but might change if the
# input is preprocessed. With directory, possibly absolute.
input_file_name_decode ()
{
# See if we are run from within AUC-Tex, in which case we are
# passed `\input{FOO.tex}' or even `\nonstopmode\input{FOO.tex}'.
case $command_line_filename in
*\\nonstopmode*)
batch=true;;
esac
case $command_line_filename in
*\\input{*}*)
# Let AUC-TeX error parser deal with line numbers.
line_error=false
command_line_filename=`\
expr X"$command_line_filename" : X'.*input{\([^}]*\)}'`
;;
esac
# If the COMMAND_LINE_FILENAME is not absolute (e.g., --debug.tex),
# prepend `./' in order to avoid that the tools take it as an option.
echo "$command_line_filename" | LC_ALL=C $EGREP '^(/|[A-Za-z]:/)' >&6 \
|| command_line_filename="./$command_line_filename"
# See if the file exists. If it doesn't we're in trouble since, even
# though the user may be able to reenter a valid filename at the tex
# prompt (assuming they're attending the terminal), this script won't
# be able to find the right xref files and so forth.
test -r "$command_line_filename" \
|| error 1 "cannot read $command_line_filename, skipping."
# Get the name of the current directory.
in_dir=`func_dirname "$command_line_filename"`
in_dir_abs=`absolute "$in_dir"`
# In a clean build, we `cd', so get an absolute file name.
if $tidy; then
in_dir=$in_dir_abs
fi
# Strip directory part but leave extension.
in_base=`basename "$command_line_filename"`
# Strip extension.
in_noext=`noext "$in_base"`
# The normalized file name to compile. Must always point to the
# file to actually compile (in case of recoding, macro-expansion etc.).
in_input=$in_dir/$in_base
# Compute the output file name.
if test x"$oname" != x; then
out_name=$oname
else
out_name=$in_noext.`out_lang_ext`
fi
out_dir=`func_dirname "$out_name"`
out_dir_abs=`absolute "$out_dir"`
out_base=`basename "$out_name"`
out_noext=`noext "$out_base"`
}
## -------------- ##
## TeXify files. ##
## -------------- ##
for command_line_filename
do
verbose "Processing $command_line_filename ..."
input_file_name_decode
# `texinfo' or `latex'?
in_lang=`compute_language "$command_line_filename"`
# An auxiliary directory used for all the auxiliary tasks involved
# in compiling this document.
case $build_dir in
'' | . ) t2ddir=$out_noext.t2d ;;
*) # Avoid collisions between multiple occurrences of the same
# file, so depend on the output path. Remove leading `./',
# at least to avoid creating a file starting with `.!', i.e.,
# an invisible file. The sed expression is fragile if the cwd
# has active characters. Transform / into ! so that we don't
# need `mkdir -p'. It might be something to reconsider.
t2ddir=$build_dir/`echo "$out_dir_abs/$out_noext.t2d" |
$SED "s,^$orig_pwd/,,;s,^\./,,;s,/,!,g"`
esac
# Remove it at exit if clean mode.
trap "cleanup" 0 1 2 15
ensure_dir "$build_dir" "$t2ddir"
# We will change directory, better work with an absolute path...
t2ddir=`absolute "$t2ddir"`
# Sometimes there are incompatibilities between auxiliary files for
# DVI and PDF. The contents can also change whether we work on PDF
# and/or DVI. So keep separate spaces for each.
workdir=$t2ddir/`out_lang_tex`
ensure_dir "$workdir"
# _build. In a tidy build, where the auxiliary files are output.
if $tidy; then
work_build=$workdir/build
else
work_build=.
fi
# _bak. Copies of the previous auxiliary files (another round is
# run if they differ from the new ones).
work_bak=$workdir/bak
# Make those directories.
ensure_dir "$work_build" "$work_bak"
case $action in
compile)
# Compile the document.
compile
cleanup
;;
mostly-clean)
mostly_clean
;;
esac
done
verbose "done."
exit 0 # exit successfully, not however we ended the loop.