notmuch/configure

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#! /bin/sh
# Test whether this shell is capable of parameter substring processing.
( option='a/b'; : ${option#*/} ) 2>/dev/null || {
echo "
The shell interpreting '$0' is lacking some required features.
To work around this problem you may try to execute:
ksh $0 $*
or
bash $0 $*
"
exit 1
}
# Store original IFS value so it can be changed (and restored) in many places.
readonly DEFAULT_IFS="$IFS"
srcdir=$(dirname "$0")
subdirs="util compat lib parse-time-string completion doc emacs"
subdirs="${subdirs} performance-test test test/test-databases"
subdirs="${subdirs} bindings"
# For a non-srcdir configure invocation (such as ../configure), create
# the directory structure and copy Makefiles.
if [ "$srcdir" != "." ]; then
for dir in . ${subdirs}; do
mkdir -p "$dir"
cp "$srcdir"/"$dir"/Makefile.local "$dir"
cp "$srcdir"/"$dir"/Makefile "$dir"
done
# Easiest way to get the test suite to work is to just copy the
# whole thing into the build directory.
cp -a "$srcdir"/test/* test
# Emacs only likes to generate compiled files next to the .el files
# by default so copy these as well (which is not ideal).
cp -a "$srcdir"/emacs/*.el emacs
fi
# Set several defaults (optionally specified by the user in
# environment variables)
CC=${CC:-cc}
CXX=${CXX:-c++}
CFLAGS=${CFLAGS:--g -O2}
CPPFLAGS=${CPPFLAGS:-}
CXXFLAGS_for_sh=${CXXFLAGS:-${CFLAGS}}
CXXFLAGS=${CXXFLAGS:-\$(CFLAGS)}
LDFLAGS=${LDFLAGS:-}
XAPIAN_CONFIG=${XAPIAN_CONFIG:-xapian-config}
PYTHON=${PYTHON:-}
# We don't allow the EMACS or GZIP Makefile variables inherit values
# from the environment as we do with CC and CXX above. The reason is
# that these names as environment variables have existing uses other
# than the program name that we want. (EMACS is set to 't' when a
# shell is running within emacs and GZIP specifies arguments to pass
# on the gzip command line).
# Set the defaults for values the user can specify with command-line
# options.
PREFIX=/usr/local
LIBDIR=
WITH_DOCS=1
WITH_EMACS=1
WITH_BASH=1
WITH_RUBY=1
WITH_ZSH=1
# Compatible GMime versions (with constraints).
# If using GMime 2.6, we need to have a version >= 2.6.5 to avoid a
# crypto bug. We need 2.6.7 for permissive "From " header handling.
GMIME_24_VERSION_CTR=''
GMIME_24_VERSION="gmime-2.4 $GMIME_24_VERSION_CTR"
GMIME_26_VERSION_CTR='>= 2.6.7'
GMIME_26_VERSION="gmime-2.6 $GMIME_26_VERSION_CTR"
WITH_GMIME_VERSIONS="$GMIME_26_VERSION;$GMIME_24_VERSION"
usage ()
{
cat <<EOF
Usage: ./configure [options]...
This script configures notmuch to build on your system.
It verifies that dependencies are available, determines flags needed
to compile and link against various required libraries, and identifies
whether various system functions can be used or if locally-provided
replacements will be built instead.
Finally, it allows you to control various aspects of the build and
installation process.
First, some common variables can specified via environment variables:
CC The C compiler to use
CFLAGS Flags to pass to the C compiler
CPPFLAGS Flags to pass to the C preprocessor
CXX The C++ compiler to use
CXXFLAGS Flags to pass to the C compiler
LDFLAGS Flags to pass when linking
Each of these values can further be controlled by specifying them
later on the "make" command line.
Other environment variables can be used to control configure itself,
(and for which there is no equivalent build-time control):
XAPIAN_CONFIG The program to use to determine flags for
compiling and linking against the Xapian
library. [$XAPIAN_CONFIG]
PYTHON Name of python command to use in
configure and the test suite.
Additionally, various options can be specified on the configure
command line.
--prefix=PREFIX Install files in PREFIX [$PREFIX]
By default, "make install" will install the resulting program to
$PREFIX/bin, documentation to $PREFIX/man, etc. You can
specify an installation prefix other than $PREFIX using
--prefix, for instance:
./configure --prefix=\$HOME
Fine tuning of some installation directories is available:
--libdir=DIR Install libraries to DIR [PREFIX/lib]
--includedir=DIR Install header files to DIR [PREFIX/include]
--mandir=DIR Install man pages to DIR [PREFIX/share/man]
--sysconfdir=DIR Read-only single-machine data [PREFIX/etc]
--emacslispdir=DIR Emacs code [PREFIX/share/emacs/site-lisp]
--emacsetcdir=DIR Emacs miscellaneous files [PREFIX/share/emacs/site-lisp]
--bashcompletiondir=DIR Bash completions files [SYSCONFDIR/bash_completion.d]
--zshcompletiondir=DIR Zsh completions files [PREFIX/share/zsh/functions/Completion/Unix]
Some specific library versions can be specified (auto-detected otherwise):
--with-gmime-version=VERS Specify GMIME version (2.4 or 2.6)
Some features can be disabled (--with-feature=no is equivalent to
--without-feature) :
--without-bash-completion Do not install bash completions files
--without-docs Do not install documentation and man pages
--without-emacs Do not install lisp file
--without-ruby Do not install ruby bindings
--without-zsh-completion Do not install zsh completions files
Additional options are accepted for compatibility with other
configure-script calling conventions, but don't do anything yet:
--build=<cpu>-<vendor>-<os> Currently ignored
--host=<cpu>-<vendor>-<os> Currently ignored
--infodir=DIR Currently ignored
--datadir=DIR Currently ignored
--localstatedir=DIR Currently ignored
--libexecdir=DIR Currently ignored
--disable-maintainer-mode Currently ignored
--disable-dependency-tracking Currently ignored
EOF
}
# Parse command-line options
for option; do
if [ "${option}" = '--help' ] ; then
usage
exit 0
elif [ "${option%%=*}" = '--prefix' ] ; then
PREFIX="${option#*=}"
elif [ "${option%%=*}" = '--libdir' ] ; then
LIBDIR="${option#*=}"
elif [ "${option%%=*}" = '--includedir' ] ; then
INCLUDEDIR="${option#*=}"
elif [ "${option%%=*}" = '--mandir' ] ; then
MANDIR="${option#*=}"
elif [ "${option%%=*}" = '--sysconfdir' ] ; then
SYSCONFDIR="${option#*=}"
elif [ "${option%%=*}" = '--emacslispdir' ] ; then
EMACSLISPDIR="${option#*=}"
elif [ "${option%%=*}" = '--emacsetcdir' ] ; then
EMACSETCDIR="${option#*=}"
elif [ "${option%%=*}" = '--bashcompletiondir' ] ; then
BASHCOMPLETIONDIR="${option#*=}"
elif [ "${option%%=*}" = '--zshcompletiondir' ] ; then
ZSHCOMLETIONDIR="${option#*=}"
elif [ "${option%%=*}" = '--with-docs' ]; then
if [ "${option#*=}" = 'no' ]; then
WITH_DOCS=0
else
WITH_DOCS=1
fi
elif [ "${option}" = '--without-docs' ] ; then
WITH_DOCS=0
elif [ "${option%%=*}" = '--with-emacs' ]; then
if [ "${option#*=}" = 'no' ]; then
WITH_EMACS=0
else
WITH_EMACS=1
fi
elif [ "${option}" = '--without-emacs' ] ; then
WITH_EMACS=0
elif [ "${option%%=*}" = '--with-bash-completion' ]; then
if [ "${option#*=}" = 'no' ]; then
WITH_BASH=0
else
WITH_BASH=1
fi
elif [ "${option}" = '--without-bash-completion' ] ; then
WITH_BASH=0
elif [ "${option%%=*}" = '--with-ruby' ]; then
if [ "${option#*=}" = 'no' ]; then
WITH_RUBY=0
else
WITH_RUBY=1
fi
elif [ "${option}" = '--without-ruby' ] ; then
WITH_RUBY=0
elif [ "${option%%=*}" = '--with-zsh-completion' ]; then
if [ "${option#*=}" = 'no' ]; then
WITH_ZSH=0
else
WITH_ZSH=1
fi
elif [ "${option}" = '--without-zsh-completion' ] ; then
WITH_ZSH=0
elif [ "${option%%=*}" = '--with-gmime-version' ] ; then
if [ "${option#*=}" = '2.4' ]; then
WITH_GMIME_VERSIONS=$GMIME_24_VERSION
elif [ "${option#*=}" = '2.6' ]; then
WITH_GMIME_VERSIONS=$GMIME_26_VERSION
fi
elif [ "${option%%=*}" = '--build' ] ; then
true
elif [ "${option%%=*}" = '--host' ] ; then
true
elif [ "${option%%=*}" = '--infodir' ] ; then
true
elif [ "${option%%=*}" = '--datadir' ] ; then
true
elif [ "${option%%=*}" = '--localstatedir' ] ; then
true
elif [ "${option%%=*}" = '--libexecdir' ] ; then
true
elif [ "${option}" = '--disable-maintainer-mode' ] ; then
true
elif [ "${option}" = '--disable-dependency-tracking' ] ; then
true
else
echo "Unrecognized option: ${option}"
echo "See:"
echo " $0 --help"
echo ""
exit 1
fi
done
# We set this value early, (rather than just while printing the
# Makefile.config file later like most values), because we need to
# actually investigate this value compared to the ldconfig_paths value
# below.
if [ -z "$LIBDIR" ] ; then
libdir_expanded="${PREFIX}/lib"
else
# very non-general variable expansion
libdir_expanded=`echo "$LIBDIR" | sed "s|\\${prefix}|${PREFIX}|g; s|\\$prefix/|${PREFIX}/|; s|//*|/|g"`
fi
cat <<EOF
Welcome to Notmuch, a system for indexing, searching and tagging your email.
We hope that the process of building and installing notmuch is quick
and smooth so that you can soon be reading and processing your email
more efficiently than ever.
If anything goes wrong in the configure process, you can override any
decisions it makes by manually editing the Makefile.config file that
it creates. Also please do as much as you can to figure out what could
be different on your machine compared to those of the notmuch
developers. Then, please email those details to the Notmuch list
(notmuch@notmuchmail.org) so that we can hopefully make future
versions of notmuch easier for you to use.
We'll now investigate your system to verify that all required
dependencies are available:
EOF
errors=0
printf "int main(void){return 0;}\n" > minimal.c
printf "Sanity checking C compilation environment... "
if ${CC} ${CFLAGS} ${CPPFLAGS} minimal.c ${LDFLAGS} -o minimal > /dev/null 2>&1
then
printf "OK.\n"
else
printf "Fail.\n"
errors=$((errors + 1))
fi
printf "Sanity checking C++ compilation environment... "
if ${CXX} ${CXXFLAGS_for_sh} ${CPPFLAGS} minimal.c ${LDFLAGS} -o minimal > /dev/null 2>&1
then
printf "OK.\n"
else
printf "Fail.\n"
errors=$((errors + 1))
fi
if [ $errors -gt 0 ]; then
cat <<EOF
*** Error: Initial sanity checking of environment failed. Please try
running configure in a clean environment, and if the problem persists,
report a bug.
EOF
rm -f minimal minimal.c
exit 1
fi
printf "Reading libnotmuch version from source..."
cat > _libversion.c <<EOF
#include <stdio.h>
#include "lib/notmuch.h"
int main(void) {
printf("libnotmuch_version_major=%d\n",
LIBNOTMUCH_MAJOR_VERSION);
printf("libnotmuch_version_minor=%d\n",
LIBNOTMUCH_MINOR_VERSION);
printf("libnotmuch_version_release=%d\n",
LIBNOTMUCH_MICRO_VERSION);
return 0;
}
EOF
if ${CC} ${CFLAGS} _libversion.c -o _libversion > /dev/null 2>&1 && \
./_libversion > _libversion.sh && . ./_libversion.sh
then
printf "OK"
else
cat <<EOF
*** Error: Reading lib/notmuch.h failed.
Please try running configure again in a clean environment, and if the
problem persists, report a bug.
EOF
rm -f _libversion _libversion.c _libversion.sh
exit 1
fi
if pkg-config --version > /dev/null 2>&1; then
have_pkg_config=1
else
have_pkg_config=0
fi
printf "Checking for Xapian development files... "
have_xapian=0
for xapian_config in ${XAPIAN_CONFIG}; do
if ${xapian_config} --version > /dev/null 2>&1; then
xapian_version=$(${xapian_config} --version | sed -e 's/.* //')
printf "Yes (%s).\n" ${xapian_version}
have_xapian=1
xapian_cxxflags=$(${xapian_config} --cxxflags)
xapian_ldflags=$(${xapian_config} --libs)
break
fi
done
if [ ${have_xapian} = "0" ]; then
printf "No.\n"
errors=$((errors + 1))
fi
# Compaction is only supported on Xapian > 1.2.6
have_xapian_compact=0
if [ ${have_xapian} = "1" ]; then
printf "Checking for Xapian compaction support... "
case "${xapian_version}" in
0.*|1.[01].*|1.2.[0-5])
printf "No (only available with Xapian > 1.2.6).\n" ;;
[1-9]*.[0-9]*.[0-9]*)
have_xapian_compact=1
printf "Yes.\n" ;;
*)
printf "Unknown version.\n" ;;
esac
fi
printf "Checking for GMime development files... "
have_gmime=0
IFS=';'
for gmimepc in $WITH_GMIME_VERSIONS; do
if pkg-config --exists $gmimepc; then
printf "Yes ($gmimepc).\n"
have_gmime=1
gmime_cflags=$(pkg-config --cflags $gmimepc)
gmime_ldflags=$(pkg-config --libs $gmimepc)
break
fi
done
IFS=$DEFAULT_IFS
if [ "$have_gmime" = "0" ]; then
printf "No.\n"
errors=$((errors + 1))
fi
# GMime already depends on Glib >= 2.12, but we use at least one Glib
# function that only exists as of 2.22, (g_array_unref)
printf "Checking for Glib development files (>= 2.22)... "
have_glib=0
if pkg-config --exists 'glib-2.0 >= 2.22'; then
printf "Yes.\n"
have_glib=1
glib_cflags=$(pkg-config --cflags glib-2.0)
glib_ldflags=$(pkg-config --libs glib-2.0)
else
printf "No.\n"
errors=$((errors + 1))
fi
if ! pkg-config --exists zlib; then
${CC} ${zlib_cflags} -o compat/gen_zlib_pc \
"$srcdir"/compat/gen_zlib_pc.c ${zlib_ldflags} > /dev/null 2>&1 &&
compat/gen_zlib_pc > compat/zlib.pc &&
PKG_CONFIG_PATH="$PKG_CONFIG_PATH":compat &&
export PKG_CONFIG_PATH
rm -f compat/gen_zlib_pc
fi
printf "Checking for zlib (>= 1.2.5.2)... "
have_zlib=0
if pkg-config --atleast-version=1.2.5.2 zlib; then
printf "Yes.\n"
have_zlib=1
zlib_cflags=$(pkg-config --cflags zlib)
zlib_ldflags=$(pkg-config --libs zlib)
else
printf "No.\n"
errors=$((errors + 1))
fi
printf "Checking for talloc development files... "
if pkg-config --exists talloc; then
printf "Yes.\n"
have_talloc=1
talloc_cflags=$(pkg-config --cflags talloc)
talloc_ldflags=$(pkg-config --libs talloc)
else
printf "No.\n"
have_talloc=0
talloc_cflags=
errors=$((errors + 1))
fi
printf "Checking for python... "
have_python=0
for name in ${PYTHON} python python2 python3; do
if command -v $name > /dev/null; then
have_python=1
python=$name
printf "Yes ($name).\n"
break
fi
done
if [ $have_python -eq 0 ]; then
printf "No.\n"
errors=$((errors + 1))
fi
printf "Checking for valgrind development files... "
if pkg-config --exists valgrind; then
printf "Yes.\n"
have_valgrind=1
valgrind_cflags=$(pkg-config --cflags valgrind)
else
printf "No (but that's fine).\n"
have_valgrind=0
fi
printf "Checking for bash-completion (>= 1.90)... "
if pkg-config --atleast-version=1.90 bash-completion; then
printf "Yes.\n"
else
printf "No (will not install bash completion).\n"
WITH_BASH=0
fi
if [ -z "${EMACSLISPDIR}" ]; then
if pkg-config --exists emacs; then
EMACSLISPDIR=$(pkg-config emacs --variable sitepkglispdir)
else
EMACSLISPDIR='$(prefix)/share/emacs/site-lisp'
fi
fi
if [ -z "${EMACSETCDIR}" ]; then
if pkg-config --exists emacs; then
EMACSETCDIR=$(pkg-config emacs --variable sitepkglispdir)
else
EMACSETCDIR='$(prefix)/share/emacs/site-lisp'
fi
fi
printf "Checking if emacs is available... "
if emacs --quick --batch > /dev/null 2>&1; then
printf "Yes.\n"
have_emacs=1
else
printf "No (so will not byte-compile emacs code)\n"
have_emacs=0
fi
have_doxygen=0
if [ $WITH_DOCS = "1" ] ; then
printf "Checking if doxygen is available... "
if command -v doxygen > /dev/null; then
printf "Yes.\n"
have_doxygen=1
else
printf "No (so will not install api docs)\n"
fi
fi
have_ruby_dev=0
if [ $WITH_RUBY = "1" ] ; then
printf "Checking for ruby development files... "
if ruby -e "require 'mkmf'"> /dev/null 2>&1; then
printf "Yes.\n"
have_ruby_dev=1
else
printf "No (skipping ruby bindings)\n"
fi
fi
have_sphinx=0
if [ $WITH_DOCS = "1" ] ; then
printf "Checking if sphinx is available and supports nroff output... "
if command -v sphinx-build > /dev/null && ${python} -m sphinx.writers.manpage > /dev/null 2>&1 ; then
printf "Yes.\n"
have_sphinx=1
else
printf "No (so will not install man pages).\n"
fi
fi
libdir_in_ldconfig=0
printf "Checking which platform we are on... "
uname=`uname`
if [ $uname = "Darwin" ] ; then
printf "Mac OS X.\n"
platform=MACOSX
linker_resolves_library_dependencies=0
elif [ $uname = "SunOS" ] ; then
printf "Solaris.\n"
platform=SOLARIS
linker_resolves_library_dependencies=0
elif [ $uname = "FreeBSD" ] ; then
printf "FreeBSD.\n"
platform=FREEBSD
linker_resolves_library_dependencies=0
elif [ $uname = "OpenBSD" ] ; then
printf "OpenBSD.\n"
platform=OPENBSD
linker_resolves_library_dependencies=0
elif [ $uname = "Linux" ] || [ $uname = "GNU" ] ; then
printf "$uname\n"
platform="$uname"
linker_resolves_library_dependencies=1
printf "Checking for $libdir_expanded in ldconfig... "
ldconfig_paths=$(/sbin/ldconfig -N -X -v 2>/dev/null | sed -n -e 's,^\(/.*\):\( (.*)\)\?$,\1,p')
# Separate ldconfig_paths only on newline (not on any potential
# embedded space characters in any filenames). Note, we use a
# literal newline in the source here rather than something like:
#
# IFS=$(printf '\n')
#
# because the shell's command substitution deletes any trailing newlines.
IFS="
"
for path in $ldconfig_paths; do
if [ "$path" = "$libdir_expanded" ]; then
libdir_in_ldconfig=1
fi
done
IFS=$DEFAULT_IFS
if [ "$libdir_in_ldconfig" = '0' ]; then
printf "No (will set RPATH)\n"
else
printf "Yes\n"
fi
else
printf "Unknown.\n"
cat <<EOF
*** Warning: Unknown platform. Notmuch might or might not build correctly.
EOF
fi
printf "Checking byte order... "
cat> _byteorder.c <<EOF
#include <stdio.h>
#include <stdint.h>
uint32_t test = 0x34333231;
int main() { printf("%.4s\n", (const char*)&test); return 0; }
EOF
${CC} ${CFLAGS} _byteorder.c -o _byteorder > /dev/null 2>&1
util_byte_order=$(./_byteorder)
echo $util_byte_order
rm -f _byteorder _byteorder.c
if [ $errors -gt 0 ]; then
cat <<EOF
*** Error: The dependencies of notmuch could not be satisfied. You will
need to install the following packages before being able to compile
notmuch:
EOF
if [ $have_python -eq 0 ]; then
echo " python interpreter"
fi
if [ $have_xapian -eq 0 ]; then
echo " Xapian library (including development files such as headers)"
echo " http://xapian.org/"
fi
if [ $have_zlib -eq 0 ]; then
echo " zlib library (>= version 1.2.5.2, including development files such as headers)"
echo " http://zlib.net/"
echo
fi
if [ $have_gmime -eq 0 ]; then
echo " Either GMime 2.4 library" $GMIME_24_VERSION_CTR "or GMime 2.6 library" $GMIME_26_VERSION_CTR
echo " (including development files such as headers)"
echo " http://spruce.sourceforge.net/gmime/"
echo
fi
if [ $have_glib -eq 0 ]; then
echo " Glib library >= 2.22 (including development files such as headers)"
echo " http://ftp.gnome.org/pub/gnome/sources/glib/"
echo
fi
if [ $have_talloc -eq 0 ]; then
echo " The talloc library (including development files such as headers)"
echo " http://talloc.samba.org/"
echo
fi
cat <<EOF
With any luck, you're using a modern, package-based operating system
that has all of these packages available in the distribution. In that
case a simple command will install everything you need. For example:
On Debian and similar systems:
sudo apt-get install libxapian-dev libgmime-2.6-dev libtalloc-dev zlib1g-dev
Or on Fedora and similar systems:
sudo yum install xapian-core-devel gmime-devel libtalloc-devel zlib-devel
On other systems, similar commands can be used, but the details of the
package names may be different.
EOF
if [ $have_pkg_config -eq 0 ]; then
cat <<EOF
Note: the pkg-config program is not available. This configure script
uses pkg-config to find the compilation flags required to link against
the various libraries needed by notmuch. It's possible you simply need
to install pkg-config with a command such as:
sudo apt-get install pkg-config
Or:
sudo yum install pkgconfig
But if pkg-config is not available for your system, then you will need
to modify the configure script to manually set the cflags and ldflags
variables to the correct values to link against each library in each
case that pkg-config could not be used to determine those values.
EOF
fi
cat <<EOF
When you have installed the necessary dependencies, you can run
configure again to ensure the packages can be found, or simply run
"make" to compile notmuch.
EOF
exit 1
fi
printf "Checking for canonicalize_file_name... "
if ${CC} -o compat/have_canonicalize_file_name "$srcdir"/compat/have_canonicalize_file_name.c > /dev/null 2>&1
then
printf "Yes.\n"
have_canonicalize_file_name=1
else
printf "No (will use our own instead).\n"
have_canonicalize_file_name=0
fi
rm -f compat/have_canonicalize_file_name
printf "Checking for getline... "
if ${CC} -o compat/have_getline "$srcdir"/compat/have_getline.c > /dev/null 2>&1
then
printf "Yes.\n"
have_getline=1
else
printf "No (will use our own instead).\n"
have_getline=0
fi
rm -f compat/have_getline
printf "Checking for strcasestr... "
if ${CC} -o compat/have_strcasestr "$srcdir"/compat/have_strcasestr.c > /dev/null 2>&1
then
printf "Yes.\n"
have_strcasestr=1
else
printf "No (will use our own instead).\n"
have_strcasestr=0
fi
rm -f compat/have_strcasestr
printf "Checking for strsep... "
if ${CC} -o compat/have_strsep "$srcdir"/compat/have_strsep.c > /dev/null 2>&1
then
printf "Yes.\n"
have_strsep="1"
else
printf "No (will use our own instead).\n"
have_strsep="0"
fi
rm -f compat/have_strsep
printf "Checking for timegm... "
if ${CC} -o compat/have_timegm "$srcdir"/compat/have_timegm.c > /dev/null 2>&1
then
printf "Yes.\n"
have_timegm="1"
else
printf "No (will use our own instead).\n"
have_timegm="0"
fi
rm -f compat/have_timegm
printf "Checking for dirent.d_type... "
if ${CC} -o compat/have_d_type "$srcdir"/compat/have_d_type.c > /dev/null 2>&1
then
printf "Yes.\n"
have_d_type="1"
else
printf "No (will use stat instead).\n"
have_d_type="0"
fi
rm -f compat/have_d_type
printf "Checking for standard version of getpwuid_r... "
if ${CC} -o compat/check_getpwuid "$srcdir"/compat/check_getpwuid.c > /dev/null 2>&1
then
printf "Yes.\n"
std_getpwuid=1
else
printf "No (will define _POSIX_PTHREAD_SEMANTICS to get it).\n"
std_getpwuid=0
fi
rm -f compat/check_getpwuid
printf "Checking for standard version of asctime_r... "
if ${CC} -o compat/check_asctime "$srcdir"/compat/check_asctime.c > /dev/null 2>&1
then
printf "Yes.\n"
std_asctime=1
else
printf "No (will define _POSIX_PTHREAD_SEMANTICS to get it).\n"
std_asctime=0
fi
rm -f compat/check_asctime
printf "Checking for rpath support... "
if ${CC} -Wl,--enable-new-dtags -Wl,-rpath,/tmp/ -o minimal minimal.c >/dev/null 2>&1
then
printf "Yes.\n"
rpath_ldflags="-Wl,--enable-new-dtags -Wl,-rpath,\$(libdir)"
else
printf "No (nothing to worry about).\n"
2010-10-30 22:16:50 +02:00
rpath_ldflags=""
fi
printf "Checking for -Wl,--as-needed... "
if ${CC} -Wl,--as-needed -o minimal minimal.c >/dev/null 2>&1
then
printf "Yes.\n"
as_needed_ldflags="-Wl,--as-needed"
else
printf "No (nothing to worry about).\n"
as_needed_ldflags=""
fi
printf "Checking for -Wl,--no-undefined... "
if ${CC} -Wl,--no-undefined -o minimal minimal.c >/dev/null 2>&1
then
printf "Yes.\n"
no_undefined_ldflags="-Wl,--no-undefined"
else
printf "No (nothing to worry about).\n"
no_undefined_ldflags=""
fi
WARN_CXXFLAGS=""
printf "Checking for available C++ compiler warning flags... "
for flag in -Wall -Wextra -Wwrite-strings; do
if ${CC} $flag -o minimal minimal.c > /dev/null 2>&1
then
WARN_CXXFLAGS="${WARN_CXXFLAGS}${WARN_CXXFLAGS:+ }${flag}"
fi
done
printf "\n\t${WARN_CXXFLAGS}\n"
WARN_CFLAGS="${WARN_CXXFLAGS}"
printf "Checking for available C compiler warning flags... "
for flag in -Wmissing-declarations; do
if ${CC} $flag -o minimal minimal.c > /dev/null 2>&1
then
WARN_CFLAGS="${WARN_CFLAGS}${WARN_CFLAGS:+ }${flag}"
fi
done
printf "\n\t${WARN_CFLAGS}\n"
rm -f minimal minimal.c _libversion.c _libversion _libversion.sh
# construct the Makefile.config
cat > Makefile.config <<EOF
# This Makefile.config was automatically generated by the ./configure
# script of notmuch. If the configure script identified anything
# incorrectly, then you can edit this file to try to correct things,
# but be warned that if configure is run again it will destroy your
# changes, (and this could happen by simply calling "make" if the
# configure script is updated).
# The top-level directory for the source, (the directory containing
# the configure script). This may be different than the build
# directory (the current directory at the time configure was run).
srcdir = ${srcdir}
# subdirectories to build
subdirs = ${subdirs}
configure_options = $@
# We use vpath directives (rather than the VPATH variable) since the
# VPATH variable matches targets as well as prerequisites, (which is
# not useful since then a target left-over from a srcdir build would
# cause a target to not be built in the non-srcdir build).
#
# Also, we don't use a single "vpath % \$(srcdir)" here because we
# don't want the vpath to trigger for our emacs lisp compilation,
# (unless we first find a way to convince emacs to build the .elc
# target in a directory other than the directory of the .el
# prerequisite). In the meantime, we're actually copying in the .el
# files, (which is quite ugly).
vpath %.c \$(srcdir)
vpath %.cc \$(srcdir)
vpath Makefile.% \$(srcdir)
vpath %.py \$(srcdir)
vpath %.rst \$(srcdir)
# Library versions (used to make SONAME)
# The major version of the library interface. This will control the soname.
# As such, this number must be incremented for any incompatible change to
# the library interface, (such as the deletion of an API or a major
# semantic change that breaks formerly functioning code).
#
LIBNOTMUCH_VERSION_MAJOR = ${libnotmuch_version_major}
# The minor version of the library interface. This should be incremented at
# the time of release for any additions to the library interface,
# (and when it is incremented, the release version of the library should
# be reset to 0).
LIBNOTMUCH_VERSION_MINOR = ${libnotmuch_version_minor}
# The release version the library interface. This should be incremented at
# the time of release if there have been no changes to the interface, (but
# simply compatible changes to the implementation).
LIBNOTMUCH_VERSION_RELEASE = ${libnotmuch_version_release}
# These are derived from the VERSION macros in lib/notmuch.h so
# if you have to change them, something is wrong.
# The C compiler to use
CC = ${CC}
# The C++ compiler to use
CXX = ${CXX}
# Command to execute emacs from Makefiles
EMACS = emacs --quick
# Default FLAGS for C compiler (can be overridden by user such as "make CFLAGS=-g")
CFLAGS = ${CFLAGS}
# Default FLAGS for C preprocessor (can be overridden by user such as "make CPPFLAGS=-I/usr/local/include")
CPPFLAGS = ${CPPFLAGS}
# Default FLAGS for C++ compiler (can be overridden by user such as "make CXXFLAGS=-g")
CXXFLAGS = ${CXXFLAGS}
# Default FLAGS for the linker (can be overridden by user such as "make LDFLAGS=-znow")
LDFLAGS = ${LDFLAGS}
# Flags to enable warnings when using the C++ compiler
WARN_CXXFLAGS=${WARN_CXXFLAGS}
# Flags to enable warnings when using the C compiler
WARN_CFLAGS=${WARN_CFLAGS}
# Name of python interpreter
PYTHON = ${python}
# The prefix to which notmuch should be installed
# Note: If you change this value here, be sure to ensure that the
# LIBDIR_IN_LDCONFIG value below is still set correctly.
prefix = ${PREFIX}
# The directory to which libraries should be installed
# Note: If you change this value here, be sure to ensure that the
# LIBDIR_IN_LDCONFIG value below is still set correctly.
libdir = ${LIBDIR:=\$(prefix)/lib}
# byte order within a 32 bit word. 1234 = little, 4321 = big, 0 = guess
UTIL_BYTE_ORDER = ${util_byte_order}
# Whether libdir is in a path configured into ldconfig
LIBDIR_IN_LDCONFIG = ${libdir_in_ldconfig}
# The directory to which header files should be installed
includedir = ${INCLUDEDIR:=\$(prefix)/include}
# The directory to which man pages should be installed
mandir = ${MANDIR:=\$(prefix)/share/man}
# The directory to which read-only (configuration) files should be installed
sysconfdir = ${SYSCONFDIR:=\$(prefix)/etc}
# The directory to which emacs lisp files should be installed
emacslispdir=${EMACSLISPDIR}
# The directory to which emacs miscellaneous (machine-independent) files should
# be installed
emacsetcdir=${EMACSETCDIR}
# Whether there's an emacs binary available for byte-compiling
HAVE_EMACS = ${have_emacs}
# Whether there's a sphinx-build binary available for building documentation
HAVE_SPHINX=${have_sphinx}
# Whether there's a doxygen binary available for building api documentation
HAVE_DOXYGEN=${have_doxygen}
# The directory to which desktop files should be installed
desktop_dir = \$(prefix)/share/applications
# The directory to which bash completions files should be installed
bash_completion_dir = ${BASHCOMPLETIONDIR:=\$(sysconfdir)/bash_completion.d}
# The directory to which zsh completions files should be installed
zsh_completion_dir = ${ZSHCOMLETIONDIR:=\$(prefix)/share/zsh/functions/Completion/Unix}
# Whether the canonicalize_file_name function is available (if not, then notmuch will
# build its own version)
HAVE_CANONICALIZE_FILE_NAME = ${have_canonicalize_file_name}
# Whether the getline function is available (if not, then notmuch will
# build its own version)
HAVE_GETLINE = ${have_getline}
# Are the ruby development files (and ruby) available? If not skip
# building/testing ruby bindings.
HAVE_RUBY_DEV = ${have_ruby_dev}
# Whether the strcasestr function is available (if not, then notmuch will
# build its own version)
HAVE_STRCASESTR = ${have_strcasestr}
# Whether the strsep function is available (if not, then notmuch will
# build its own version)
HAVE_STRSEP = ${have_strsep}
# Whether struct dirent has d_type (if not, then notmuch will use stat)
HAVE_D_TYPE = ${have_d_type}
# Whether the Xapian version in use supports compaction
HAVE_XAPIAN_COMPACT = ${have_xapian_compact}
# Whether the getpwuid_r function is standards-compliant
# (if not, then notmuch will #define _POSIX_PTHREAD_SEMANTICS
# to enable the standards-compliant version -- needed for Solaris)
STD_GETPWUID = ${std_getpwuid}
# Whether the asctime_r function is standards-compliant
# (if not, then notmuch will #define _POSIX_PTHREAD_SEMANTICS
# to enable the standards-compliant version -- needed for Solaris)
STD_ASCTIME = ${std_asctime}
# Supported platforms (so far) are: LINUX, MACOSX, SOLARIS, FREEBSD, OPENBSD
PLATFORM = ${platform}
# Whether the linker will automatically resolve the dependency of one
# library on another (if not, then linking a binary requires linking
# directly against both)
LINKER_RESOLVES_LIBRARY_DEPENDENCIES = ${linker_resolves_library_dependencies}
# Flags needed to compile and link against Xapian
XAPIAN_CXXFLAGS = ${xapian_cxxflags}
XAPIAN_LDFLAGS = ${xapian_ldflags}
# Flags needed to compile and link against GMime-2.4
GMIME_CFLAGS = ${gmime_cflags}
GMIME_LDFLAGS = ${gmime_ldflags}
# Flags needed to compile and link against zlib
ZLIB_CFLAGS = ${zlib_cflags}
ZLIB_LDFLAGS = ${zlib_ldflags}
# Flags needed to compile and link against talloc
TALLOC_CFLAGS = ${talloc_cflags}
TALLOC_LDFLAGS = ${talloc_ldflags}
# Flags needed to have linker set rpath attribute
RPATH_LDFLAGS = ${rpath_ldflags}
# Flags needed to have linker link only to necessary libraries
AS_NEEDED_LDFLAGS = ${as_needed_ldflags}
# Flags to have the linker flag undefined symbols in object files
NO_UNDEFINED_LDFLAGS = ${no_undefined_ldflags}
# Whether valgrind header files are available
HAVE_VALGRIND = ${have_valgrind}
# And if so, flags needed at compile time for valgrind macros
VALGRIND_CFLAGS = ${valgrind_cflags}
# Support for emacs
WITH_EMACS = ${WITH_EMACS}
# Support for bash completion
WITH_BASH = ${WITH_BASH}
# Support for zsh completion
WITH_ZSH = ${WITH_ZSH}
# Combined flags for compiling and linking against all of the above
CONFIGURE_CFLAGS = -DHAVE_GETLINE=\$(HAVE_GETLINE) \$(GMIME_CFLAGS) \\
-DHAVE_CANONICALIZE_FILE_NAME=\$(HAVE_CANONICALIZE_FILE_NAME) \\
\$(ZLIB_CFLAGS) \\
\$(TALLOC_CFLAGS) -DHAVE_VALGRIND=\$(HAVE_VALGRIND) \\
\$(VALGRIND_CFLAGS) \\
-DHAVE_STRCASESTR=\$(HAVE_STRCASESTR) \\
-DHAVE_STRSEP=\$(HAVE_STRSEP) \\
-DHAVE_D_TYPE=\$(HAVE_D_TYPE) \\
-DSTD_GETPWUID=\$(STD_GETPWUID) \\
-DSTD_ASCTIME=\$(STD_ASCTIME) \\
-DHAVE_XAPIAN_COMPACT=\$(HAVE_XAPIAN_COMPACT) \\
-DUTIL_BYTE_ORDER=\$(UTIL_BYTE_ORDER)
CONFIGURE_CXXFLAGS = -DHAVE_GETLINE=\$(HAVE_GETLINE) \$(GMIME_CFLAGS) \\
-DHAVE_CANONICALIZE_FILE_NAME=\$(HAVE_CANONICALIZE_FILE_NAME) \\
\$(ZLIB_CFLAGS) \\
\$(TALLOC_CFLAGS) -DHAVE_VALGRIND=\$(HAVE_VALGRIND) \\
\$(VALGRIND_CFLAGS) \$(XAPIAN_CXXFLAGS) \\
-DHAVE_STRCASESTR=\$(HAVE_STRCASESTR) \\
-DHAVE_STRSEP=\$(HAVE_STRSEP) \\
-DHAVE_D_TYPE=\$(HAVE_D_TYPE) \\
-DSTD_GETPWUID=\$(STD_GETPWUID) \\
-DSTD_ASCTIME=\$(STD_ASCTIME) \\
-DHAVE_XAPIAN_COMPACT=\$(HAVE_XAPIAN_COMPACT) \\
-DUTIL_BYTE_ORDER=\$(UTIL_BYTE_ORDER)
CONFIGURE_LDFLAGS = \$(GMIME_LDFLAGS) \$(TALLOC_LDFLAGS) \$(ZLIB_LDFLAGS) \$(XAPIAN_LDFLAGS)
EOF
# construct the sh.config
cat > sh.config <<EOF
# This sh.config was automatically generated by the ./configure
# script of notmuch.
# Whether the Xapian version in use supports compaction
NOTMUCH_HAVE_XAPIAN_COMPACT=${have_xapian_compact}
# do we have man pages?
NOTMUCH_HAVE_MAN=$((have_sphinx))
# Name of python interpreter
NOTMUCH_PYTHON=${python}
# Are the ruby development files (and ruby) available? If not skip
# building/testing ruby bindings.
NOTMUCH_HAVE_RUBY_DEV=${have_ruby_dev}
EOF
# Finally, after everything configured, inform the user how to continue.
cat <<EOF
All required packages were found. You may now run the following
commands to compile and install notmuch:
make
sudo make install
EOF