diff --git a/en_US.ISO8859-1/books/handbook/book.sgml b/en_US.ISO8859-1/books/handbook/book.sgml
index f282314893..15b15232a1 100644
--- a/en_US.ISO8859-1/books/handbook/book.sgml
+++ b/en_US.ISO8859-1/books/handbook/book.sgml
@@ -1,197 +1,198 @@
%man;
%bookinfo;
%freebsd;
%chapters;
%authors;
%mailing-lists;
%newsgroups;
+
]>
FreeBSD HandbookThe FreeBSD Documentation ProjectFebruary 19991995199619971998199920002001The FreeBSD Documentation Project
&bookinfo.legalnotice;
Welcome to FreeBSD! This handbook covers the installation and day
to day use of FreeBSD &rel.current;-RELEASE.
This manual is a work in progress and is the work
of many individuals. Many sections do not yet exist and some of those
that do exist need to be updated. If you are interested in helping
with this project, send email to the &a.doc;. The latest version of
this document is always available from the FreeBSD web site.
It may also be downloaded in a variety of formats and compression
options from the FreeBSD FTP
server or one of the numerous mirror sites. If you would prefer
to have a hard copy of the handbook, you can purchase one at the
FreeBSD Mall. You
may also want to search the
handbook.Getting StartedThis part of the FreeBSD Handbook is for users and
administrators who are new to FreeBSD. These chapters:Introduce you to FreeBSD.Guide you through the installation process.Teach you some Unix basics.Show you how to install the wealth of third party
applications available for FreeBSD.Introduce you to X, the Unix windowing system, and
detail how to configure a desktop environment that makes you
more productive.We have tried to keep the number of forward references in
the text to a minimum so that you can read this section of the
Handbook from front to back with the minimum of page flipping
required.System AdministrationThe remaining chapters of the FreeBSD Handbook cover all
aspects of FreeBSD system administration. Each chapter
starts by describing what you will learn as a result of reading
the chapter, and also details what you are expected to know
before tackling the material.These chapters are designed to be read when
you need the information. You do not have to read them in any
particular order, nor do you need to read all of them before you
can begin using FreeBSD.Appendices
- &chap.index;
+
&chap.colophon;
diff --git a/share/mk/doc.docbook.mk b/share/mk/doc.docbook.mk
index 84535f7742..74ca3d1f4a 100644
--- a/share/mk/doc.docbook.mk
+++ b/share/mk/doc.docbook.mk
@@ -1,615 +1,616 @@
#
-# $FreeBSD: doc/share/mk/doc.docbook.mk,v 1.49 2001/09/11 02:32:32 murray Exp $
+# $FreeBSD: doc/share/mk/doc.docbook.mk,v 1.50 2001/09/17 09:45:01 murray Exp $
#
# This include file handles building and installing of
# DocBook documentation in the FreeBSD Documentation Project.
#
# Documentation using DOCFORMAT=docbook is expected to be marked up
# according to the DocBook DTD
#
# ------------------------------------------------------------------------
#
# Document-specific variables
#
# DOC This should be set to the name of the DocBook
# marked-up file, without the .sgml or .docb suffix.
#
# It also determins the name of the output files -
# ${DOC}.html.
#
# DOCBOOKSUFFIX The suffix of your document, defaulting to .sgml
#
# SRCS The names of all the files that are needed to
# build this document - This is useful if any of
# them need to be generated. Changing any file in
# SRCS causes the documents to be rebuilt.
#
# ------------------------------------------------------------------------
#
# Variables used by both users and documents:
#
# SGMLFLAGS Additional options to pass to various SGML
# processors (e.g., jade, nsgmls). Typically
# used to define "IGNORE" entities to "INCLUDE"
# with "-i"
#
# JADEFLAGS Additional options to pass to Jade. Typically
# used to set additional variables, such as
# "%generate-article-toc%".
#
# TIDYFLAGS Additional flags to pass to Tidy. Typically
# used to set "-raw" flag to handle 8bit characters.
#
# EXTRA_CATALOGS Additional catalog files that should be used by
# any SGML processing applications.
#
# NO_TIDY If you do not want to use tidy, set this to "YES".
#
# GEN_INDEX If defined, index.sgml will be added to the list
# of dependencies for source files, and collateindex.pl
# will be run to generate index.sgml.
#
# CSS_SHEET Full path to a CSS stylesheet suitable for DocBook.
# Default is ${DOC_PREFIX}/share/misc/docbook.css
#
# Print-output options :
#
# NICE_HEADERS If defined, customized chapter headers will be created
# that you may find more aesthetically pleasing. Note
# that this option only effects print output formats for
# Enlish language books.
#
# MIN_SECT_LABELS If defined, do not display the section number for 4th
# and 5th level section titles. This would change
# "N.N.N.N Section title" into "Section Title" while
# higher level sections are still printed with numbers.
#
# TRACE={1,2} Trace TeX's memory usage. Set this to 1 for minimal
# tracing or 2 for maximum tracing. TeX memory
# statistics will be written out to .log.
# For more information see the TeXbook, p301.
#
# TWO_SIDE If defined, two sided output will be created. This
# means that new chapters will only start on odd
# numbered (aka right side, aka recto) pages and the
# headers and footers will be aligned appropriately
# for double sided paper. Blank pages may be added as
# needed.
#
# JUSTIFY If defined, text will be right justified so that the
# right edge is smooth. Words may be hyphenated using
# the defalt TeX hyphenation rules for this purpose.
#
# BOOK_OUTPUT A collection of options are set suitable for printing
# a book. This option may be an order of magnitude more
# CPU intensive than the default build.
#
#
# Documents should use the += format to access these.
#
DOCBOOKSUFFIX?= sgml
MASTERDOC?= ${.CURDIR}/${DOC}.${DOCBOOKSUFFIX}
.if ${MACHINE_ARCH} == "alpha"
OPENJADE= yes
.endif
.if defined(OPENJADE)
JADE?= ${PREFIX}/bin/openjade
JADECATALOG?= ${PREFIX}/share/sgml/openjade/catalog
NSGMLS?= ${PREFIX}/bin/onsgmls
JADEFLAGS+= -V openjade
.else
JADE?= ${PREFIX}/bin/jade
JADECATALOG?= ${PREFIX}/share/sgml/jade/catalog
NSGMLS?= ${PREFIX}/bin/nsgmls
.endif
DSLHTML?= ${DOC_PREFIX}/share/sgml/default.dsl
DSLPRINT?= ${DOC_PREFIX}/share/sgml/default.dsl
DSLPGP?= ${DOC_PREFIX}/share/sgml/pgp.dsl
FREEBSDCATALOG= ${DOC_PREFIX}/share/sgml/catalog
LANGUAGECATALOG=${DOC_PREFIX}/${LANGCODE}/share/sgml/catalog
DOCBOOKCATALOG= ${PREFIX}/share/sgml/docbook/catalog
DSSSLCATALOG= ${PREFIX}/share/sgml/docbook/dsssl/modular/catalog
IMAGES_LIB?=
JADEOPTS= ${JADEFLAGS} ${SGMLFLAGS} -c ${LANGUAGECATALOG} -c ${FREEBSDCATALOG} -c ${DSSSLCATALOG} -c ${DOCBOOKCATALOG} -c ${JADECATALOG} ${EXTRA_CATALOGS:S/^/-c /g}
KNOWN_FORMATS= html html.tar html-split html-split.tar txt rtf ps pdf tex dvi tar pdb
CSS_SHEET?= ${DOC_PREFIX}/share/misc/docbook.css
PRINTOPTS?= -ioutput.print
.if defined(BOOK_OUTPUT)
NICE_HEADERS=1
MIN_SECT_LABELS=1
TWO_SIDE=1
JUSTIFY=1
#WITH_FOOTNOTES=1
#GEN_INDEX=1
.endif
.if defined(JUSTIFY)
TEXCMDS+= \RequirePackage{url}
PRINTOPTS+= -ioutput.print.justify
.endif
.if defined(TWO_SIDE)
PRINTOPTS+= -V %two-side% -ioutput.print.twoside
TEXCMDS+= \def\PageTwoSide{1}
.endif
.if defined(NICE_HEADERS)
PRINTOPTS+= -ioutput.print.niceheaders
.endif
.if defined(MIN_SECT_LABELS)
PRINTOPTS+= -V minimal-section-labels
.endif
.if defined(TRACE)
TEXCMDS+= \tracingstats=${TRACE}
.endif
# ------------------------------------------------------------------------
#
# Look at ${FORMATS} and work out which documents need to be generated.
# It is assumed that the HTML transformation will always create a file
# called index.html, and that for every other transformation the name
# of the generated file is ${DOC}.format.
#
# ${_docs} will be set to a list of all documents that must be made
# up to date.
#
# ${CLEANFILES} is a list of files that should be removed by the "clean"
# target. ${COMPRESS_EXT:S/^/${DOC}.${_cf}.&/ takes the COMPRESS_EXT
# var, and prepends the filename to each listed extension, building a
# second list of files with the compressed extensions added.
#
# Note: ".for _curformat in ${KNOWN_FORMATS}" is used several times in
# this file. I know they could have been rolled together in to one, much
# larger, loop. However, that would have made things more complicated
# for a newcomer to this file to unravel and understand, and a syntax
# error in the loop would have affected the entire
# build/compress/install process, instead of just one of them, making it
# more difficult to debug.
#
# Note: It is the aim of this file that *all* the targets be available,
# not just those appropriate to the current ${FORMATS} and
# ${INSTALL_COMPRESSED} values.
#
# For example, if FORMATS=html and INSTALL_COMPRESSED=gz you could still
# type
#
# make book.rtf.bz2
#
# and it will do the right thing. Or
#
# make install-rtf.bz2
#
# for that matter. But don't expect "make clean" to work if the FORMATS
# and INSTALL_COMPRESSED variables are wrong.
#
.for _curformat in ${FORMATS}
_cf=${_curformat}
.if ${_cf} == "html-split"
_docs+= index.html HTML.manifest ln*.html
CLEANFILES+= `[ -f HTML.manifest ] && xargs < HTML.manifest` HTML.manifest ln*.html
CLEANFILES+= docbook.css
.elif ${_cf} == "html-split.tar"
_docs+= ${DOC}.html-split.tar
CLEANFILES+= `[ -f HTML.manifest ] && xargs < HTML.manifest` HTML.manifest ln*.html
CLEANFILES+= ${DOC}.html-split.tar
CLEANFILES+= docbook.css
.elif ${_cf} == "html"
_docs+= ${DOC}.html
CLEANFILES+= ${DOC}.html
CLEANFILES+= docbook.css
.elif ${_cf} == "html.tar"
_docs+= ${DOC}.html.tar
CLEANFILES+= ${DOC}.html ${DOC}.html.tar
CLEANFILES+= docbook.css
.elif ${_cf} == "txt"
_docs+= ${DOC}.txt
CLEANFILES+= ${DOC}.html ${DOC}.txt ${DOC}.html-text
CLEANFILES+= docbook.css
.elif ${_cf} == "dvi"
_docs+= ${DOC}.dvi
CLEANFILES+= ${DOC}.aux ${DOC}.dvi ${DOC}.log ${DOC}.tex
.elif ${_cf} == "ps"
_docs+= ${DOC}.ps
CLEANFILES+= ${DOC}.aux ${DOC}.dvi ${DOC}.log ${DOC}.tex-ps ${DOC}.ps
.elif ${_cf} == "pdf"
_docs+= ${DOC}.pdf
CLEANFILES+= ${DOC}.aux ${DOC}.dvi ${DOC}.log ${DOC}.out ${DOC}.tex-pdf ${DOC}.pdf
.elif ${_cf} == "rtf"
_docs+= ${DOC}.rtf
CLEANFILES+= ${DOC}.rtf
.elif ${_cf} == "tar"
_docs+= ${DOC}.tar
CLEANFILES+= ${DOC}.tar
.elif ${_cf} == "pdb"
_docs+= ${DOC}.pdb ${.CURDIR:T}.pdb
CLEANFILES+= ${DOC}.pdb ${.CURDIR:T}.pdb
.endif
.endfor
#
# Build a list of install-${format}.${compress_format} targets to be
# by "make install". Also, add ${DOC}.${format}.${compress_format} to
# ${_docs} and ${CLEANFILES} so they get built/cleaned by "all" and
# "clean".
#
.if defined(INSTALL_COMPRESSED) && !empty(INSTALL_COMPRESSED)
.for _curformat in ${FORMATS}
_cf=${_curformat}
.for _curcomp in ${INSTALL_COMPRESSED}
.if ${_cf} != "html-split" && ${_cf} != "html"
_curinst+= install-${_curformat}.${_curcomp}
_docs+= ${DOC}.${_curformat}.${_curcomp}
CLEANFILES+= ${DOC}.${_curformat}.${_curcomp}
.endif
.endfor
.endfor
.endif
#
# Index generation
#
INDEX_SGML?= index.sgml
CLEANFILES+= ${INDEX_SGML}
.if defined(GEN_INDEX)
+JADEFLAGS+= -i chap.index
HTML_SPLIT_INDEX?= html-split.index
HTML_INDEX?= html.index
PRINT_INDEX?= print.index
CLEANFILES+= ${HTML_SPLIT_INDEX} ${HTML_INDEX} ${PRINT_INDEX}
.endif
.for _curimage in ${IMAGES_LIB}
LOCAL_IMAGES_LIB += ${LOCAL_IMAGES_LIB_DIR}/${_curimage}
.endfor
.MAIN: all
all: ${_docs}
index.html HTML.manifest: ${SRCS} ${LOCAL_IMAGES_LIB} ${IMAGES_PNG} ${INDEX_SGML} ${HTML_SPLIT_INDEX} docbook.css
${JADE} -V html-manifest -ioutput.html -ioutput.html.images ${JADEOPTS} -d ${DSLHTML} -t sgml ${MASTERDOC}
.if !defined(NO_TIDY)
-tidy -i -m -f /dev/null ${TIDYFLAGS} `xargs < HTML.manifest`
.endif
${DOC}.html: ${SRCS} ${LOCAL_IMAGES_LIB} ${IMAGES_PNG} ${INDEX_SGML} ${HTML_INDEX} docbook.css
${JADE} -ioutput.html -ioutput.html.images -V nochunks ${JADEOPTS} -d ${DSLHTML} -t sgml ${MASTERDOC} > ${.TARGET} || (rm -f ${.TARGET} && false)
.if !defined(NO_TIDY)
-tidy -i -m -f /dev/null ${TIDYFLAGS} ${.TARGET}
.endif
# Special target to produce HTML with no images in it.
${DOC}.html-text: ${SRCS} ${INDEX_SGML} ${HTML_INDEX}
${JADE} -ioutput.html -V nochunks ${JADEOPTS} -d ${DSLHTML} -t sgml ${MASTERDOC} > ${.TARGET} || (rm -f ${.TARGET} && false)
${DOC}.html-split.tar: HTML.manifest
tar cf ${.TARGET} `xargs < HTML.manifest`
tar uf ${.TARGET} ${IMAGES_LIB}
tar uf ${.TARGET} ${IMAGES_PNG}
tar uf ${.TARGET} docbook.css
${DOC}.html.tar: ${DOC}.html
tar cf ${.TARGET} ${DOC}.html
tar uf ${.TARGET} ${LOCAL_IMAGES_LIB}
tar uf ${.TARGET} ${IMAGES_PNG}
tar uf ${.TARGET} docbook.css
${DOC}.txt: ${DOC}.html-text
links -dump ${.ALLSRC} > ${.TARGET}
${DOC}.pdb: ${DOC}.html
iSiloBSD -y -d0 -Idef ${DOC}.html ${DOC}.pdb
${.CURDIR:T}.pdb: ${DOC}.pdb
ln -f ${DOC}.pdb ${.CURDIR}.pdb
${DOC}.rtf: ${SRCS}
${JADE} -Vrtf-backend ${PRINTOPTS} ${JADEOPTS} -d ${DSLPRINT} -t rtf -o ${.TARGET} ${MASTERDOC}
#
# This sucks, but there's no way round it. The PS and PDF formats need
# to use different image formats, which are chosen at the .tex stage. So,
# we need to create a different .tex file depending on our eventual output
# format, which will then lead on to a different .dvi file as well.
#
${DOC}.tex-ps: ${SRCS} ${IMAGES_EPS} ${INDEX_SGML} ${PRINT_INDEX}
${JADE} -Vtex-backend ${PRINTOPTS} ${JADEOPTS} -d ${DSLPRINT} -t tex -o ${.TARGET} ${MASTERDOC}
${DOC}.tex-pdf: ${SRCS} ${IMAGES_PDF} ${INDEX_SGML} ${PRINT_INDEX}
cp ${DOC_PREFIX}/share/web2c/pdftex.def ${.TARGET}
${JADE} -Vtex-backend ${PRINTOPTS} -ioutput.print.pdf ${JADEOPTS} -d ${DSLPRINT} -t tex -o /dev/stdout ${MASTERDOC} >> ${.TARGET}
${DOC}.dvi: ${DOC}.tex-ps
@echo "==> TeX pass 1/3"
-tex "&jadetex" '${TEXCMDS} \nonstopmode\input{${.ALLSRC}}'
@echo "==> TeX pass 2/3"
-tex "&jadetex" '${TEXCMDS} \nonstopmode\input{${.ALLSRC}}'
@echo "==> TeX pass 3/3"
-tex "&jadetex" '${TEXCMDS} \nonstopmode\input{${.ALLSRC}}'
${DOC}.pdf: ${DOC}.tex-pdf
@echo "==> PDFTeX pass 1/3"
-pdftex "&pdfjadetex" '\nonstopmode\input{${.ALLSRC}}'
@echo "==> PDFTeX pass 2/3"
-pdftex "&pdfjadetex" '\nonstopmode\input{${.ALLSRC}}'
@echo "==> PDFTeX pass 3/3"
pdftex "&pdfjadetex" '\nonstopmode\input{${.ALLSRC}}'
${DOC}.ps: ${DOC}.dvi
dvips -o ${.TARGET} ${.ALLSRC}
${DOC}.tar: ${SRCS}
tar cf ${.TARGET} ${.ALLSRC}
# ------------------------------------------------------------------------
#
# Validation targets
#
#
# Lets you quickly check that the document conforms to the DTD without
# having to convert it to any other formats
#
lint validate:
${NSGMLS} ${SGMLFLAGS} -s -c ${LANGUAGECATALOG} -c ${FREEBSDCATALOG} -c ${DSSSLCATALOG} -c ${DOCBOOKCATALOG} -c ${JADECATALOG} ${EXTRA_CATALOGS:S/^/-c /g} ${MASTERDOC}
# ------------------------------------------------------------------------
#
# Index targets
#
#
# Generate a different .index file based on the format name
#
# If we're not generating an index (the default) then we need to create
# an empty index.sgml file so that we can reference index.sgml in book.sgml
#
.if defined(GEN_INDEX)
${INDEX_SGML}:
perl ${PREFIX}/share/sgml/docbook/dsssl/modular/bin/collateindex.pl -N -o ${.TARGET}
.else
${INDEX_SGML}:
touch ${.TARGET}
.endif
${HTML_INDEX}:
${JADE} -V html-index -ioutput.html -ioutput.html.images -V nochunks ${JADEOPTS} -d ${DSLHTML} -t sgml ${MASTERDOC} > /dev/null
perl ${PREFIX}/share/sgml/docbook/dsssl/modular/bin/collateindex.pl -g -o ${INDEX_SGML} ${.TARGET}
${HTML_SPLIT_INDEX}:
${JADE} -V html-index -ioutput.html -ioutput.html.images ${JADEOPTS} -d ${DSLHTML} -t sgml ${MASTERDOC} > /dev/null
perl ${PREFIX}/share/sgml/docbook/dsssl/modular/bin/collateindex.pl -g -o ${INDEX_SGML} ${.TARGET}
${PRINT_INDEX}: ${HTML_INDEX}
mv ${HTML_INDEX} ${.TARGET}
# ------------------------------------------------------------------------
#
# Compress targets
#
#
# The list of compression extensions this Makefile knows about. If you
# add new compression schemes, add to this list (which is a list of
# extensions, hence bz2, *not* bzip2) and extend the _PROG_COMPRESS_*
# targets.
#
KNOWN_COMPRESS= gz bz2 zip
#
# You can't build suffix rules to do compression, since you can't
# wildcard the source suffix. So these are defined .USE, to be tacked on
# as dependencies of the compress-* targets.
#
_PROG_COMPRESS_gz: .USE
gzip -9 -c ${.ALLSRC} > ${.TARGET}
_PROG_COMPRESS_bz2: .USE
bzip2 -9 -c ${.ALLSRC} > ${.TARGET}
_PROG_COMPRESS_zip: .USE
zip -j -9 ${.TARGET} ${.ALLSRC}
#
# Build a list of targets for each compression scheme and output format.
# Don't compress the html-split or html output format (because they need
# to be rolled in to tar files first).
#
.for _curformat in ${KNOWN_FORMATS}
_cf=${_curformat}
.for _curcompress in ${KNOWN_COMPRESS}
.if ${_cf} == "html-split" || ${_cf} == "html"
${DOC}.${_cf}.tar.${_curcompress}: ${DOC}.${_cf}.tar _PROG_COMPRESS_${_curcompress}
.else
${DOC}.${_cf}.${_curcompress}: ${DOC}.${_cf} _PROG_COMPRESS_${_curcompress}
.endif
.endfor
.endfor
# ------------------------------------------------------------------------
#
# Install targets
#
# Build install-* targets, one per allowed value in FORMATS. Need to
# build two specific targets;
#
# install-html-split - Handles multiple .html files being generated
# from one source. Uses the HTML.manifest file
# created by the stylesheets, which should list
# each .html file that's been created.
#
# install-* - Every other format. The wildcard expands to
# the other allowed formats, all of which should
# generate just one file.
#
# "beforeinstall" and "afterinstall" are hooks in to this process.
# Redefine them to do things before and after the files are installed,
# respectively.
#
# Build a list of install-format targets to be installed. These will be
# dependencies for the "realinstall" target.
#
.if !defined(INSTALL_ONLY_COMPRESSED) || empty(INSTALL_ONLY_COMPRESSED)
_curinst+= ${FORMATS:S/^/install-/g}
.endif
realinstall: ${_curinst}
.for _curformat in ${KNOWN_FORMATS}
_cf=${_curformat}
.if !target(install-${_cf})
.if ${_cf} == "html-split"
install-${_cf}: index.html
@[ -d ${DESTDIR} ] || mkdir -p ${DESTDIR}
${INSTALL_DOCS} `xargs < HTML.manifest` ${DESTDIR}
${INSTALL_DOCS} docbook.css ${DESTDIR}
@if [ -f ln*.html ]; then \
${INSTALL_DOCS} ln*.html ${DESTDIR}; \
fi
@if [ -f ${.OBJDIR}/${DOC}.ln ]; then \
(cd ${DESTDIR}; sh ${.OBJDIR}/${DOC}.ln); \
fi
.for _curimage in ${IMAGES_LIB}
@[ -d ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H} ] || mkdir -p ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H}
${INSTALL_DOCS} ${LOCAL_IMAGES_LIB_DIR}/${_curimage} ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H}
.endfor
# Install the images. First, loop over all the image names that contain a
# directory seperator, make the subdirectories, and install. Then loop over
# the ones that don't contain a directory separator, and install them in the
# top level.
.for _curimage in ${IMAGES_PNG:M*/*}
mkdir -p ${DESTDIR}/${_curimage:H}
${INSTALL_DOCS} ${_curimage} ${DESTDIR}/${_curimage:H}
.endfor
.for _curimage in ${IMAGES_PNG:N*/*}
${INSTALL_DOCS} ${_curimage} ${DESTDIR}
.endfor
.for _compressext in ${KNOWN_COMPRESS}
install-${_cf}.tar.${_compressext}: ${DOC}.${_cf}.tar.${_compressext}
@[ -d ${DESTDIR} ] || mkdir -p ${DESTDIR}
${INSTALL_DOCS} ${.ALLSRC} ${DESTDIR}
.endfor
.elif ${_cf} == "html"
install-${_cf}: ${DOC}.${_cf}
@[ -d ${DESTDIR} ] || mkdir -p ${DESTDIR}
${INSTALL_DOCS} ${.ALLSRC} ${DESTDIR}
${INSTALL_DOCS} docbook.css ${DESTDIR}
.for _curimage in ${IMAGES_LIB}
@[ -d ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H} ] || mkdir -p ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H}
${INSTALL_DOCS} ${LOCAL_IMAGES_LIB_DIR}/${_curimage} ${DESTDIR}/${LOCAL_IMAGES_LIB_DIR}/${_curimage:H}
.endfor
# Install the images. First, loop over all the image names that contain a
# directory seperator, make the subdirectories, and install. Then loop over
# the ones that don't contain a directory separator, and install them in the
# top level.
.for _curimage in ${IMAGES_PNG:M*/*}
mkdir -p ${DESTDIR}/${_curimage:H}
${INSTALL_DOCS} ${_curimage} ${DESTDIR}/${_curimage:H}
.endfor
.for _curimage in ${IMAGES_PNG:N*/*}
${INSTALL_DOCS} ${_curimage} ${DESTDIR}
.endfor
.else
install-${_cf}: ${DOC}.${_cf}
@[ -d ${DESTDIR} ] || mkdir -p ${DESTDIR}
${INSTALL_DOCS} ${.ALLSRC} ${DESTDIR}
.for _compressext in ${KNOWN_COMPRESS}
install-${_cf}.${_compressext}: ${DOC}.${_cf}.${_compressext}
@[ -d ${DESTDIR} ] || mkdir -p ${DESTDIR}
${INSTALL_DOCS} ${.ALLSRC} ${DESTDIR}
.endfor
.endif
.endif
.endfor
# ------------------------------------------------------------------------
#
# Package building
#
#
# realpackage is what is called in each subdirectory when a package
# target is called, or, rather, package calls realpackage in each
# subdirectory as it goes.
#
# packagelist returns the list of targets that would be called during
# package building.
#
realpackage: ${FORMATS:S/^/package-/}
packagelist:
@echo ${FORMATS:S/^/package-/}
#
# Build a list of package targets for each output target. Each package
# target depends on the corresponding install target running.
#
.for _curformat in ${KNOWN_FORMATS}
_cf=${_curformat}
.if ${_cf} == "html-split"
package-${_curformat}: index.html
@cp HTML.manifest PLIST
@for images_png in ${IMAGES_PNG}; do \
echo $$images_png >> PLIST; \
echo docbook.css >> PLIST; \
done
.elif ${_cf} == "html"
package-${curformat}: ${DOC}.html
@echo ${DOC}.${_curformat} > PLIST
@for images_png in ${IMAGES_PNG}; do \
echo $$images_png >> PLIST; \
echo docbook.css >> PLIST; \
done
.else
package-${_curformat}: ${DOC}.${_curformat}
@echo ${DOC}.${_curformat} > PLIST
@for lib_images in ${IMAGES_LIB}; do \
echo $$lib_images >> PLIST; \
done
.endif
@pkg_create -v -c -"FDP ${.CURDIR:T} ${_curformat} package" \
-d -"FDP ${.CURDIR:T} ${_curformat} package" -f PLIST \
-p ${DESTDIR} -s . ${PACKAGES}/${.CURDIR:T}.${LANGCODE}.${_curformat}.tgz
.endfor
docbook.css: ${CSS_SHEET}
cp ${CSS_SHEET} ${.CURDIR}/docbook.css