#!/bin/sh
#
# Copyright by The HDF Group.
# All rights reserved.
#
# This file is part of HDF5. The full HDF5 copyright notice, including
# terms governing use, modification, and redistribution, is contained in
# the COPYING file, which can be found at the root of the source code
# distribution tree, or in https://www.hdfgroup.org/licenses.
# If you do not have access to either file, you may request a copy from
# help@hdfgroup.org.
#
# Make a release of hdf5.
# Function definitions
#
# Print Usage page
USAGE()
{
cat << EOF
Usage: $0 -d
[-h] [--private] [--revision [--branch BRANCHNAME]] ...
-d DIR The name of the directory where the release(s) should be
placed.
--branch BRANCHNAME This is to get the correct version of the branch name from the
repository. BRANCHNAME for v1.8 should be hdf5_1_8.
-h print the help page.
--private Make a private release with today's date in version information.
--revision Make a private release with the code revision number in version information.
This must be run at the top level of the source directory.
The other command-line options are the names of the programs to use
for compressing the resulting tar archive (if none are given then
"tar" is assumed):
tar -- use tar and don't do any compressing.
gzip -- use gzip with "-9" and append ".gz" to the output name.
bzip2 -- use bzip2 with "-9" and append ".bz2" to the output name.
zip -- convert all text files to DOS style and form a zip file for Windows use.
cmake-tgz -- create a tar file using the gzip default level with a build-unix.sh
command file and all other CMake files needed to build HDF5 source
using CMake on unix machines.
cmake-zip -- convert all text files to DOS style and create a zip file including cmake
scripts and .bat files to build HDF5 source using CMake on Windows.
hpc-cmake-tgz
-- create a tar file using the gzip default level with a build-unix.sh
command file and all other CMake files needed to build HDF5 source
using CMake on unix machines, with HDF5options.cmake files for serial
and parallel builds on machines requiring batch jobs to run tests.
The default is for parallel build, with serial only build by changing
the HDF5options.cmake symlink to ser-HDF5options.cmake. More
information is available in the README_HPC file.
doc -- produce the latest doc tree in addition to the archive.
A sha256 checksum is produced for each archive created and stored in the sha256 file.
Examples:
$ bin/release -d /tmp
/tmp/hdf5-1.8.13-RELEASE.txt
/tmp/hdf5-1.8.13.sha256
/tmp/hdf5-1.8.13.tar
$ bin/release -d /tmp gzip
/tmp/hdf5-1.8.13-RELEASE.txt
/tmp/hdf5-1.8.13.sha256
/tmp/hdf5-1.8.13.tar.gz
$ bin/release -d /tmp tar gzip zip
/tmp/hdf5-1.8.13-RELEASE.txt
/tmp/hdf5-1.8.13.sha256
/tmp/hdf5-1.8.13.tar
/tmp/hdf5-1.8.13.tar.gz
/tmp/hdf5-1.8.13.tar.zip
EOF
}
# Function name: tar2zip
# Convert the release tarball to a Windows zipball.
#
# Steps:
# 1. untar the tarball in a temporary directory;
# Note: do this in a temporary directory to avoid changing
# the original source directory which may be around.
# 2. convert all its text files to DOS (LF-CR) style;
# 3. form a zip file which is usable by Windows users.
#
# Parameters:
# $1 version
# $2 release tarball
# $3 output zipball file name
#
# Returns 0 if successful; 1 otherwise
#
tar2zip()
{
if [ $# -ne 3 ]; then
echo "usage: tar2zip "
return 1
fi
ztmpdir=/tmp/ztmpdir$$
mkdir -p $ztmpdir
version=$1
tarfile=$2
zipfile=$3
# step 1: untar tarball in ztmpdir
(cd $ztmpdir; tar xf -) < $tarfile
# sanity check
if [ ! -d $ztmpdir/$version ]; then
echo "untar did not create $ztmpdir/$version source dir"
# cleanup
rm -rf $ztmpdir
return 1
fi
# step 2: convert text files
# There maybe a simpler way to do this.
# options used in unix2dos:
# -k Keep the date stamp
# -q quiet mode
# grep redirect output to /dev/null because -q or -s are not portable.
find $ztmpdir/$version | \
while read inf; do \
if file $inf | grep "$inf\: .*text" > /dev/null 2>&1 ; then \
unix2dos -q -k $inf; \
fi\
done
# step 3: make zipball
# -9 maximum compression
# -y Store symbolic links as such in the zip archive
# -r recursive
# -q quiet
(cd $ztmpdir; zip -9 -y -r -q $version.zip $version)
mv $ztmpdir/$version.zip $zipfile
# cleanup
rm -rf $ztmpdir
}
# Function name: tar2cmakezip
# Convert the release tarball to a Windows zipball with files to run CMake build.
#
# Steps:
# 1. untar the tarball in a temporary directory;
# Note: do this in a temporary directory to avoid changing
# the original source directory which may be around.
# 2. add build-unix.sh script.
# 3. add LIBAEC.tar.gz, ZLib.tar.gz and cmake files to top level directory.
# 4. create gzipped tar file with these contents:
# build-unix.sh script
# hdf5- source code directory extracted from tar file
# CTestScript.cmake cmake file copied from /config/cmake/scripts
# HDF5config.cmake cmake file copied from /config/cmake/scripts
# HDF5options.cmake cmake file copied from /config/cmake/scripts
# LIBAEC.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
# ZLib.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
# Parameters:
# $1 version
# $2 release tarball
# $3 output zipball file name
#
# Returns 0 if successful; 1 otherwise
#
# need function to create another temporary directory, extract the
# $tmpdir/$HDF5_VERS.tar into it, create build-VS*.bat files,
# add CTestScript.cmake, HDF5config.cmake, LIBAEC.tar.gz
# ZLib.tar.gz, HDF5 examples, and then zip it.
tar2cmakezip()
{
if [ $# -ne 3 ]; then
echo "usage: tar2cmakezip "
return 1
fi
cmziptmpdir=/tmp/cmziptmpdir$$
cmziptmpsubdir=$cmziptmpdir/CMake-$HDF5_VERS
mkdir -p $cmziptmpsubdir
version=$1
tarfile=$2
zipfile=$3
# step 1: untar tarball in cmgztmpdir
(cd $cmziptmpsubdir; tar xf -) < $tarfile
# sanity check
if [ ! -d $cmziptmpsubdir/$version ]; then
echo "untar did not create $cmziptmpsubdir/$version source dir"
# cleanup
rm -rf $cmziptmpdir
return 1
fi
# step 2: add batch file for building CMake on window
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS2015 -C Release -V -O hdf5.log" > build-VS2015-32.bat; chmod 755 build-VS2015-32.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS201564 -C Release -V -O hdf5.log" > build-VS2015-64.bat; chmod 755 build-VS2015-64.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS2017 -C Release -V -O hdf5.log" > build-VS2017-32.bat; chmod 755 build-VS2017-32.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS201764 -C Release -V -O hdf5.log" > build-VS2017-64.bat; chmod 755 build-VS2017-64.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS2019 -C Release -V -O hdf5.log" > build-VS2019-32.bat; chmod 755 build-VS2019-32.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS201964 -C Release -V -O hdf5.log" > build-VS2019-64.bat; chmod 755 build-VS2019-64.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS2022 -C Release -V -O hdf5.log" > build-VS2022-32.bat; chmod 755 build-VS2022-32.bat)
(cd $cmziptmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=VS202264 -C Release -V -O hdf5.log" > build-VS2022-64.bat; chmod 755 build-VS2022-64.bat)
# step 3: add LIBAEC.tar.gz, ZLib.tar.gz and cmake files
cp /mnt/scr1/pre-release/hdf5/CMake/LIBAEC.tar.gz $cmziptmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/ZLib.tar.gz $cmziptmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/HDF5Examples-2.0.3-Source.zip $cmziptmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/hdf5_plugins-master.zip $cmziptmpsubdir
cp $cmziptmpsubdir/$version/config/cmake/scripts/CTestScript.cmake $cmziptmpsubdir
cp $cmziptmpsubdir/$version/config/cmake/scripts/HDF5config.cmake $cmziptmpsubdir
cp $cmziptmpsubdir/$version/config/cmake/scripts/HDF5options.cmake $cmziptmpsubdir
# step 4: convert text files
# There maybe a simpler way to do this.
# options used in unix2dos:
# -k Keep the date stamp
# -q quiet mode
# grep redirect output to /dev/null because -q or -s are not portable.
find $cmziptmpsubdir/$version | \
while read inf; do \
if file $inf | grep "$inf\: .*text" > /dev/null 2>&1 ; then \
unix2dos -q -k $inf; \
fi\
done
# step 3: make zipball
# -9 maximum compression
# -y Store symbolic links as such in the zip archive
# -r recursive
# -q quiet
(cd $cmziptmpdir; zip -9 -y -r -q CMake-$version.zip *)
mv $cmziptmpdir/CMake-$version.zip $zipfile
# cleanup
rm -rf $cmziptmpdir
}
# Function name: tar2cmaketgz
# Convert the release tarball to a gzipped tar file with files to run CMake build.
#
#
# Steps:
# 1. untar the tarball in a temporary directory;
# Note: do this in a temporary directory to avoid changing
# the original source directory which may be around.
# 2. add build-unix.sh script.
# 3. add LIBAEC.tar.gz, ZLib.tar.gz and cmake files to top level directory.
# 4. create gzipped tar file with these contents:
# build-unix.sh script
# hdf5- source code directory extracted from tar file
# CTestScript.cmake cmake file copied from /config/cmake/scripts
# HDF5config.cmake cmake file copied from /config/cmake/scripts
# HDF5options.cmake cmake file copied from /config/cmake/scripts
# LIBAEC.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
# ZLib.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
# Parameters:
# $1 version
# $2 release tarball
# $3 output zipball file name
#
# Returns 0 if successful; 1 otherwise
#
# need function to create another temporary directory, extract the
# $tmpdir/$HDF5_VERS.tar into it, create build-unix.sh,
# add CTestScript.cmake, HDF5config.cmake, LIBAEC.tar.gz
# ZLib.tar.gz, HDF5 examples, and then tar.gz it.
tar2cmaketgz()
{
if [ $# -ne 3 ]; then
echo "usage: tar2cmaketgz "
return 1
fi
cmgztmpdir=/tmp/cmgztmpdir$$
cmgztmpsubdir=$cmgztmpdir/CMake-$HDF5_VERS
mkdir -p $cmgztmpsubdir
version=$1
tarfile=$2
tgzfile=$3
# step 1: untar tarball in cmgztmpdir
(cd $cmgztmpsubdir; tar xf -) < $tarfile
# sanity check
if [ ! -d $cmgztmpsubdir/$version ]; then
echo "untar did not create $cmgztmpsubdir/$version source dir"
# cleanup
rm -rf $cmgztmpdir
return 1
fi
# step 2: add build-unix.sh script
(cd $cmgztmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=Unix -C Release -V -O hdf5.log" > build-unix.sh; chmod 755 build-unix.sh)
# step 3: add LIBAEC.tar.gz, ZLib.tar.gz and cmake files
cp /mnt/scr1/pre-release/hdf5/CMake/LIBAEC.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/ZLib.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/HDF5Examples-2.0.3-Source.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/hdf5_plugins-master.tar.gz $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/CTestScript.cmake $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/HDF5config.cmake $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/HDF5options.cmake $cmgztmpsubdir
tar czf $DEST/CMake-$HDF5_VERS.tar.gz -C $cmgztmpdir . || exit 1
# cleanup
rm -rf $cmgztmpdir
}
# Function name: tar2hpccmaketgz
# Convert the release tarball to a gzipped tarfile with files to run CMake build
# and HDF5options.cmake files for parallel or serial only builds where build
# tests are run on compute nodes using batch scripts.
#
# Steps:
# 1. untar the tarball in a temporary directory;
# Note: do this in a temporary directory to avoid changing
# the original source directory which may be around.
# 2. add build-unix.sh script.
# 3. add LIBAEC.tar.gz, ZLib.tar.gz and cmake files to top level directory.
# 4. create gzipped tar file with these contents:
# build-unix.sh script
# hdf5- source code directory extracted from tar file
# CTestScript.cmake cmake file copied from /config/cmake/scripts
# HDF5config.cmake cmake file copied from /config/cmake/scripts
# HDF5options.cmake cmake file copied from /config/cmake/scripts
# LIBAEC.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
# ZLib.tar.gz copied from /mnt/scr1/pre-release/hdf5/CMake
#
# 5. For HPC-CMake tgz file the following are also needed in the top-level directory:
# README_HPC copied from release_docs
# ser-HDF5options.cmake copied from /config/cmake/scripts/HPC
# par-HDF5options.cmake copied from /config/cmake/scripts/HPC
# HDF5options.cmake symlink to par-HDF5options.cmake
#
# Parameters:
# $1 version
# $2 release tarball
# $3 output zipball file name
#
# Returns 0 if successful; 1 otherwise
#
# need function to create another temporary directory, extract the
# $tmpdir/$HDF5_VERS.tar into it, create build-unix.sh,
# add CTestScript.cmake, HDF5config.cmake, LIBAEC.tar.gz
# ZLib.tar.gz, HDF5 examples, and then tar.gz it.
tar2hpccmaketgz()
{
if [ $# -ne 3 ]; then
echo "usage: tar2hpccmaketgz "
return 1
fi
cmgztmpdir=/tmp/cmgztmpdir$$
cmgztmpsubdir=$cmgztmpdir/HPC-CMake-$HDF5_VERS
mkdir -p $cmgztmpsubdir
version=$1
tarfile=$2
tgzfile=$3
# step 1: untar tarball in cmgztmpdir
(cd $cmgztmpsubdir; tar xf -) < $tarfile
# sanity check
if [ ! -d $cmgztmpsubdir/$version ]; then
echo "untar did not create $cmgztmpsubdir/$version source dir"
# cleanup
rm -rf $cmgztmpdir
return 1
fi
# step 2: add build-unix.sh script
(cd $cmgztmpsubdir; echo "ctest -S HDF5config.cmake,BUILD_GENERATOR=Unix -C Release -V -O hdf5.log" > build-unix.sh; chmod 755 build-unix.sh)
# step 3: add LIBAEC.tar.gz, ZLib.tar.gz and cmake files
cp /mnt/scr1/pre-release/hdf5/CMake/LIBAEC.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/ZLib.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/HDF5Examples-2.0.3-Source.tar.gz $cmgztmpsubdir
cp /mnt/scr1/pre-release/hdf5/CMake/hdf5_plugins-master.tar.gz $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/CTestScript.cmake $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/HDF5config.cmake $cmgztmpsubdir
cp $cmgztmpsubdir/$version/release_docs/README_HPC $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/HPC/ser-HDF5options.cmake $cmgztmpsubdir
cp $cmgztmpsubdir/$version/config/cmake/scripts/HPC/par-HDF5options.cmake $cmgztmpsubdir
(cd $cmgztmpsubdir; ln -s par-HDF5options.cmake HDF5options.cmake)
tar czf $DEST/HPC-CMake-$HDF5_VERS.tar.gz -C $cmgztmpdir . || exit 1
# cleanup
rm -rf $cmgztmpdir
}
# This command must be run at the top level of the hdf5 source directory.
# Verify this requirement.
if [ ! \( -f configure.ac -a -f bin/release \) ]; then
echo "$0 must be run at the top level of the hdf5 source directory"
exit 1
fi
# Defaults
DEST=releases
VERS=`perl bin/h5vers`
VERS_OLD=
test "$VERS" || exit 1
verbose=yes
release_date=`date +%F`
today=`date +%Y%m%d`
pmode='no'
revmode='no'
tmpdir="../#release_tmp.$$" # tmp work directory
CPPLUS_RM_NAME=cpplus_RM
MAINT_MODE_ENABLED=""
# If maintainer mode is enabled in configure, it should be disabled for release,
# and enabled again after release files have been created. If already disabled
# there's no need to do either.
MAINT_MODE_ENABLED=`grep ^AM_MAINTAINER_MODE ./configure.ac | grep enable`
if [ "${MAINT_MODE_ENABLED}" != "" ]; then
bin/switch_maint_mode -disable ./configure.ac
fi
# Restore previous Version information
RESTORE_VERSION()
{
if [ X-${VERS_OLD} != X- ]; then
echo restoring version information back to $VERS_OLD
rm -f config/lt_vers.am
cp $tmpdir/lt_vers.am config/lt_vers.am
bin/h5vers -s $VERS_OLD
VERS_OLD=
fi
}
# Command-line arguments
while [ -n "$1" ]; do
arg=$1
shift
case "$arg" in
-d)
DEST=$1
shift
;;
-h)
USAGE
exit 0
;;
--private)
pmode=yes
;;
--revision)
revmode=yes
;;
--branch)
BRANCHNAME=$1
shift
;;
-*)
echo "Unknown switch: $arg" 1>&2
USAGE
exit 1
;;
*)
methods="$methods $arg"
;;
esac
done
# Default method is tar
if [ "X$methods" = "X" ]; then
methods="tar"
fi
# Create the temporary work directory.
if mkdir $tmpdir; then
echo "temporary work directory for release. "\
"Can be deleted after release completes." > $tmpdir/README
else
echo "Failed to mkdir tmpdir($tmpdir)"
exit 1
fi
# setup restoration in case of abort.
trap RESTORE_VERSION 0
if [ X$pmode = Xyes ]; then
VERS_OLD=$VERS
# Copy old version of config/lt_vers.am, since it's hard to
# "undo" changes to it.
cp config/lt_vers.am $tmpdir
# Set version information to m.n.r-of$today.
# (h5vers does not correctly handle just m.n.r-$today.)
VERS=`echo $VERS | sed -e s/-.*//`-of$today
echo Private release of $VERS
bin/h5vers -s $VERS
fi
if [ X$revmode = Xyes ]; then
VERS_OLD=$VERS
echo "Save old version $VERS_OLD for restoration later."
# Copy old version of config/lt_vers.am, since it's hard to
# "undo" changes to it.
cp config/lt_vers.am $tmpdir
if [ "${BRANCHNAME}" = "" ]; then
BRANCHNAME=`git symbolic-ref -q --short HEAD`
fi
revision=`git rev-parse --short HEAD`
# Set version information to m.n.r-r$revision.
# (h5vers does not correctly handle just m.n.r-$today.)
VERS=`echo $VERS | sed -e s/-.*//`-$revision
echo Private release of $VERS
HDF5_VERS=hdf5-$BRANCHNAME-$revision
echo file base of $HDF5_VERS
bin/h5vers -s $VERS
# use a generic directory name for revision releases
HDF5_IN_VERS=hdfsrc
else
# Store hdf5-$VERS ("hdf5-1.7.51", e.g.) to a variable to avoid typos
HDF5_VERS=hdf5-$VERS
# directory name matches tar file name for non-revision releases
HDF5_IN_VERS=$HDF5_VERS
fi
test "$verbose" && echo "Releasing $HDF5_VERS to $DEST" 1>&2
if [ ! -d $DEST ]; then
echo " Destination directory $DEST does not exist" 1>&2
exit 1
fi
# Create a symlink to the source so files in the tarball have the prefix
# we want (gnu's --transform isn't portable)
ln -s `pwd` $tmpdir/$HDF5_IN_VERS || exit 1
# Save a backup copy of Makefile if exists.
test -f Makefile && mv Makefile $tmpdir/Makefile.x
cp -p Makefile.dist Makefile
# Update README.md and release_docs/RELEASE.txt with release information in
# line 1.
for f in README.md release_docs/RELEASE.txt; do
echo "HDF5 version $VERS released on $release_date" >$f.x
sed -e 1d $f >>$f.x
mv $f.x $f
# Make sure new files are of the right access mode
chmod 644 $f
done
# Create the tar file
test "$verbose" && echo " Running tar..." 1>&2
(cd "$tmpdir" && exec tar -ch --exclude-vcs -f "$HDF5_VERS.tar" "./$HDF5_IN_VERS" || exit 1 )
# Compress
SHA256=$HDF5_VERS.sha256
cp /dev/null $DEST/$SHA256
for comp in $methods; do
case $comp in
tar)
cp -p $tmpdir/$HDF5_VERS.tar $DEST/$HDF5_VERS.tar
(cd $DEST; sha256sum $HDF5_VERS.tar >> $SHA256)
;;
gzip)
test "$verbose" && echo " Running gzip..." 1>&2
gzip -9 <$tmpdir/$HDF5_VERS.tar >$DEST/$HDF5_VERS.tar.gz
(cd $DEST; sha256sum $HDF5_VERS.tar.gz >> $SHA256)
;;
cmake-tgz)
test "$verbose" && echo " Creating CMake tar.gz file..." 1>&2
tar2cmaketgz $HDF5_VERS $tmpdir/$HDF5_VERS.tar $DEST/CMake-$HDF5_VERS.tar.gz 1>&2
(cd $DEST; sha256sum CMake-$HDF5_VERS.tar.gz >> $SHA256)
;;
hpc-cmake-tgz)
test "$verbose" && echo " Creating HPC-CMake tar.gz file..." 1>&2
tar2hpccmaketgz $HDF5_VERS $tmpdir/$HDF5_VERS.tar $DEST/HPC-CMake-$HDF5_VERS.tar.gz 1>&2
(cd $DEST; sha256sum HPC-CMake-$HDF5_VERS.tar.gz >> $SHA256)
;;
bzip2)
test "$verbose" && echo " Running bzip2..." 1>&2
bzip2 -9 <$tmpdir/$HDF5_VERS.tar >$DEST/$HDF5_VERS.tar.bz2
(cd $DEST; sha256sum $HDF5_VERS.tar.bz2 >> $SHA256)
;;
zip)
test "$verbose" && echo " Creating zip ball..." 1>&2
tar2zip $HDF5_IN_VERS $tmpdir/$HDF5_VERS.tar $DEST/$HDF5_VERS.zip 1>&2
(cd $DEST; sha256sum $HDF5_VERS.zip >> $SHA256)
;;
cmake-zip)
test "$verbose" && echo " Creating CMake-zip ball..." 1>&2
tar2cmakezip $HDF5_VERS $tmpdir/$HDF5_VERS.tar $DEST/CMake-$HDF5_VERS.zip 1>&2
(cd $DEST; sha256sum CMake-$HDF5_VERS.zip >> $SHA256)
;;
doc)
if [ "${DOCVERSION}" = "" ]; then
DOCVERSION=master
fi
test "$verbose" && echo " Creating docs..." 1>&2
# Check out docs from git repo
(cd $tmpdir; git clone -q $DOC_URL ${DOCVERSION} > /dev/null) || exit 1
# Create doxygen C++ RM
(cd c++/src && doxygen cpp_doc_config > /dev/null ) || exit 1
# Replace version of C++ RM with just-created version
rm -rf $tmpdir/${DOCVERSION}/html/$CPPLUS_RM_NAME || exit 1
mv c++/src/$CPPLUS_RM_NAME $tmpdir/${DOCVERSION}/html/$CPPLUS_RM_NAME || exit 1
# Compress the docs and move them to the release area
mv $tmpdir/${DOCVERSION} $tmpdir/${HDF5_VERS}_docs || exit 1
(cd $tmpdir && tar cf ${HDF5_VERS}_docs.tar ${HDF5_VERS}_docs) || exit 1
mv $tmpdir/${HDF5_VERS}_docs.tar $DEST || exit 1
;;
*)
echo "***Error*** Unknown method $comp"
exit 1
;;
esac
done
# If AM_MAINTAINER_MODE was enabled before running this script
# restore it to "enabled".
if [ "${MAINT_MODE_ENABLED}" != "" ]; then
bin/switch_maint_mode -enable ./configure.ac
fi
# Copy the RELEASE.txt to the release area.
cp release_docs/RELEASE.txt $DEST/$HDF5_VERS-RELEASE.txt
# Remove distributed Makefile and restore previous Makefile if existed.
rm -f Makefile
test -f $tmpdir/Makefile.x && mv $tmpdir/Makefile.x Makefile
# Restore OLD version information, then no need for trap.
if [ X$pmode = Xyes ] || [ X$revmode = Xyes ]; then
echo "Restore the original version $VERS_OLD"
RESTORE_VERSION
trap 0
fi
# Remove temporary things
rm -rf $tmpdir
echo "DONE"
exit 0