# # The build process allows for using a cross-compiler. But the default # action is to target the same platform that we are running on. The # configure script needs to discover the following properties of the # build and target systems: # # srcdir # # The is the name of the directory that contains the # "configure" shell script. All source files are # located relative to this directory. # # bindir # # The name of the directory where executables should be # written by the "install" target of the makefile. # # program_prefix # # Add this prefix to the names of all executables that run # on the target machine. Default: "" # # ENABLE_SHARED # # True if shared libraries should be generated. # # BUILD_CC # # The name of a command that is used to convert C # source files into executables that run on the build # platform. # # BUILD_CFLAGS # # Switches that the build compiler needs in order to construct # command-line programs. # # BUILD_LIBS # # Libraries that the build compiler needs in order to construct # command-line programs. # # BUILD_EXEEXT # # The filename extension for executables on the build # platform. "" for Unix and ".exe" for Windows. # # TARGET_CC # # The name of a command that runs on the build platform # and converts C source files into *.o files for the # target platform. In other words, the cross-compiler. # # TARGET_CFLAGS # # Switches that the target compiler needs to turn C source files # into *.o files. Do not include TARGET_TCL_INC in this list. # Makefiles might add additional switches such as "-I.". # # TCL_* # # Lots of values are read in from the tclConfig.sh script, # if that script is available. This values are used for # constructing and installing the TCL extension. # # TARGET_READLINE_LIBS # # This is the library directives passed to the target linker # that cause the executable to link against the readline library. # This might be a switch like "-lreadline" or pathnames of library # file like "../../src/libreadline.a". # # TARGET_READLINE_INC # # This variables define the directory that contain header # files for the readline library. If the compiler is able # to find on its own, then this can be blank. # # TARGET_LINK # # The name of the linker that combines *.o files generated # by TARGET_CC into executables for the target platform. # # TARGET_LIBS # # Additional libraries or other switch that the target linker needs # to build an executable on the target. Do not include # on this list any libraries in TARGET_TCL_LIBS and # TARGET_READLINE_LIBS, etc. # # TARGET_EXEEXT # # The filename extension for executables on the # target platform. "" for Unix and ".exe" for windows. # # The generated configure script will make an attempt to guess # at all of the above parameters. You can override any of # the guesses by setting the environment variable named # "config_AAAA" where "AAAA" is the name of the parameter # described above. (Exception: srcdir cannot be set this way.) # If you have a file that sets one or more of these environment # variables, you can invoke configure as follows: # # configure --with-hints=FILE # # where FILE is the name of the file that sets the environment # variables. FILE should be an absolute pathname. # # This configure.in file is easy to reuse on other projects. Just # change the argument to AC_INIT(). And disable any features that # you don't need (for example BLT) by erasing or commenting out # the corresponding code. # AC_INIT(src/sqlite.h.in) dnl Put the RCS revision string after AC_INIT so that it will also dnl show in in configure. # The following RCS revision string applies to configure.in # $Revision: 1.26 $ ######### # Programs needed # AC_PROG_LIBTOOL AC_PROG_INSTALL AC_PROG_AWK ######### # Set up an appropriate program prefix # if test "$program_prefix" = "NONE"; then program_prefix="" fi AC_SUBST(program_prefix) VERSION=[`cat $srcdir/VERSION | sed 's/^\([0-9]*\.*[0-9]*\).*/\1/'`] echo "Version set to $VERSION" AC_SUBST(VERSION) RELEASE=`cat $srcdir/VERSION` echo "Release set to $RELEASE" AC_SUBST(RELEASE) VERSION_NUMBER=[`cat $srcdir/VERSION \ | sed 's/[^0-9]/ /g' \ | awk '{printf "%d%03d%03d",$1,$2,$3}'`] echo "Version number set to $VERSION_NUMBER" AC_SUBST(VERSION_NUMBER) ######### # Check to see if the --with-hints=FILE option is used. If there is none, # then check for a files named "$host.hints" and ../$hosts.hints where # $host is the hostname of the build system. If still no hints are # found, try looking in $system.hints and ../$system.hints where # $system is the result of uname -s. # AC_ARG_WITH(hints, AC_HELP_STRING([--with-hints=FILE],[Read configuration options from FILE]), hints=$withval) if test "$hints" = ""; then host=`hostname | sed 's/\..*//'` if test -r $host.hints; then hints=$host.hints else if test -r ../$host.hints; then hints=../$host.hints fi fi fi if test "$hints" = ""; then sys=`uname -s` if test -r $sys.hints; then hints=$sys.hints else if test -r ../$sys.hints; then hints=../$sys.hints fi fi fi if test "$hints" != ""; then AC_MSG_RESULT(reading hints from $hints) . $hints fi AC_DEFUN([AX_COMPILER_VENDOR], [ AC_CACHE_CHECK([for _AC_LANG compiler vendor], ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor, [ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor=unknown # note: don't check for gcc first since some other compilers define __GNUC__ for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")" AC_COMPILE_IFELSE([AC_LANG_PROGRAM(,[ #if !($vencpp) thisisanerror; #endif ])], [ax_cv_]_AC_LANG_ABBREV[_compiler_vendor=`echo $ventest | cut -d: -f1`; break]) done ]) ]) AX_COMPILER_VENDOR ######### # Locate a compiler for the build machine. This compiler should # generate command-line programs that run on the build machine. # default_build_cflags="-g" if test "$config_BUILD_CC" = ""; then AC_PROG_CC if test "$cross_compiling" = "yes"; then AC_MSG_ERROR([unable to find a compiler for building build tools]) fi BUILD_CC=$CC default_build_cflags=$CFLAGS else BUILD_CC=$config_BUILD_CC AC_MSG_CHECKING([host compiler]) CC=$BUILD_CC AC_MSG_RESULT($BUILD_CC) fi AC_MSG_CHECKING([switches for the host compiler]) if test "$config_BUILD_CFLAGS" != ""; then CFLAGS=$config_BUILD_CFLAGS BUILD_CFLAGS=$config_BUILD_CFLAGS else BUILD_CFLAGS=$default_build_cflags fi AC_MSG_RESULT($BUILD_CFLAGS) if test "$config_BUILD_LIBS" != ""; then BUILD_LIBS=$config_BUILD_LIBS fi AC_SUBST(BUILD_CC) AC_SUBST(BUILD_CFLAGS) AC_SUBST(BUILD_LIBS) # Enable 64 bit build AC_ARG_ENABLE(64, [AC_HELP_STRING([--enable-64],[build with 64 bit support])],[enable_64="$enable_64"],[enable_64="no"]) ########## # Locate a compiler that converts C code into *.o files that run on # the target machine. # AC_MSG_CHECKING([target compiler]) if test "$config_TARGET_CC" != ""; then TARGET_CC=$config_TARGET_CC else TARGET_CC=$BUILD_CC fi AC_MSG_RESULT($TARGET_CC) AC_MSG_CHECKING([switches on the target compiler]) if test "$config_TARGET_CFLAGS" != ""; then TARGET_CFLAGS=$config_TARGET_CFLAGS else TARGET_CFLAGS=$BUILD_CFLAGS fi if test "x${ax_cv_c_compiler_vendor}" = "xsun" ; then if test "${enable_64}" = "yes"; then TARGET_CFLAGS="$TARGET_CFLAGS -m64" fi fi AC_MSG_RESULT($TARGET_CFLAGS) AC_MSG_CHECKING([target linker]) if test "$config_TARGET_LINK" = ""; then TARGET_LINK=$TARGET_CC else TARGET_LINK=$config_TARGET_LINK fi AC_MSG_RESULT($TARGET_LINK) AC_MSG_CHECKING([switches on the target compiler]) if test "$config_TARGET_TFLAGS" != ""; then TARGET_TFLAGS=$config_TARGET_TFLAGS else TARGET_TFLAGS=$BUILD_CFLAGS fi if test "$config_TARGET_RANLIB" != ""; then TARGET_RANLIB=$config_TARGET_RANLIB else AC_PROG_RANLIB TARGET_RANLIB=$RANLIB fi if test "$config_TARGET_AR" != ""; then TARGET_AR=$config_TARGET_AR else TARGET_AR='ar cr' fi AC_MSG_RESULT($TARGET_TFLAGS) AC_SUBST(TARGET_CC) AC_SUBST(TARGET_CFLAGS) AC_SUBST(TARGET_LINK) AC_SUBST(TARGET_LFLAGS) AC_SUBST(TARGET_RANLIB) AC_SUBST(TARGET_AR) # Set the $cross variable if we are cross-compiling. Make # it 0 if we are not. # AC_MSG_CHECKING([if host and target compilers are the same]) if test "$BUILD_CC" = "$TARGET_CC"; then cross=0 AC_MSG_RESULT(yes) else cross=1 AC_MSG_RESULT(no) fi ########## # Do we want to support multithreaded use of sqlite # AC_ARG_ENABLE(threadsafe, AC_HELP_STRING([--enable-threadsafe],[Support threadsafe operation]),,enable_threadsafe=no) AC_MSG_CHECKING([whether to support threadsafe operation]) if test "$enable_threadsafe" = "no"; then THREADSAFE=0 AC_MSG_RESULT([no]) else THREADSAFE=1 AC_MSG_RESULT([yes]) fi AC_SUBST(THREADSAFE) if test "$THREADSAFE" = "1"; then LIBS="" AC_CHECK_LIB(pthread, pthread_create) TARGET_THREAD_LIB="$LIBS" LIBS="" else TARGET_THREAD_LIB="" fi AC_SUBST(TARGET_THREAD_LIB) ########## # Do we want to allow a connection created in one thread to be used # in another thread. This does not work on many Linux systems (ex: RedHat 9) # due to bugs in the threading implementations. This is thus off by default. # AC_ARG_ENABLE(cross-thread-connections, AC_HELP_STRING([--enable-cross-thread-connections],[Allow connection sharing across threads]),,enable_xthreadconnect=no) AC_MSG_CHECKING([whether to allow connections to be shared across threads]) if test "$enable_xthreadconnect" = "no"; then XTHREADCONNECT='' AC_MSG_RESULT([no]) else XTHREADCONNECT='-DSQLITE_ALLOW_XTHREAD_CONNECT=1' AC_MSG_RESULT([yes]) fi AC_SUBST(XTHREADCONNECT) ########## # Do we want to set threadsOverrideEachOthersLocks variable to be 1 (true) by # default. Normally, a test at runtime is performed to determine the # appropriate value of this variable. Use this option only if you're sure that # threads can safely override each others locks in all runtime situations. # AC_ARG_ENABLE(threads-override-locks, AC_HELP_STRING([--enable-threads-override-locks],[Threads can override each others locks]),,enable_threads_override_locks=no) AC_MSG_CHECKING([whether threads can override each others locks]) if test "$enable_threads_override_locks" = "no"; then THREADSOVERRIDELOCKS='-1' AC_MSG_RESULT([no]) else THREADSOVERRIDELOCKS='1' AC_MSG_RESULT([yes]) fi AC_SUBST(THREADSOVERRIDELOCKS) ########## # Do we want to support release # AC_ARG_ENABLE(releasemode, AC_HELP_STRING([--enable-releasemode],[Support libtool link to release mode]),,enable_releasemode=no) AC_MSG_CHECKING([whether to support shared library linked as release mode or not]) if test "$enable_releasemode" = "no"; then ALLOWRELEASE="" AC_MSG_RESULT([no]) else ALLOWRELEASE="-release `cat VERSION`" AC_MSG_RESULT([yes]) fi AC_SUBST(ALLOWRELEASE) ########## # Do we want temporary databases in memory # AC_ARG_ENABLE(tempstore, AC_HELP_STRING([--enable-tempstore],[Use an in-ram database for temporary tables (never,no,yes,always)]),,enable_tempstore=no) AC_MSG_CHECKING([whether to use an in-ram database for temporary tables]) case "$enable_tempstore" in never ) TEMP_STORE=0 AC_MSG_RESULT([never]) ;; no ) TEMP_STORE=1 AC_MSG_RESULT([no]) ;; always ) TEMP_STORE=3 AC_MSG_RESULT([always]) ;; yes ) TEMP_STORE=3 AC_MSG_RESULT([always]) ;; * ) TEMP_STORE=1 AC_MSG_RESULT([yes]) ;; esac AC_SUBST(TEMP_STORE) ########### # Lots of things are different if we are compiling for Windows using # the CYGWIN environment. So check for that special case and handle # things accordingly. # AC_MSG_CHECKING([if executables have the .exe suffix]) if test "$config_BUILD_EXEEXT" = ".exe"; then CYGWIN=yes AC_MSG_RESULT(yes) else AC_MSG_RESULT(unknown) fi if test "$CYGWIN" != "yes"; then case $host_os in *cygwin* ) CYGWIN=yes;; * ) CYGWIN=no;; esac fi if test "$CYGWIN" = "yes"; then BUILD_EXEEXT=.exe else BUILD_EXEEXT=$EXEEXT fi if test "$cross" = "0"; then TARGET_EXEEXT=$BUILD_EXEEXT else TARGET_EXEEXT=$config_TARGET_EXEEXT fi if test "$TARGET_EXEEXT" = ".exe"; then if test $OS2_SHELL ; then OS_UNIX=0 OS_WIN=0 OS_OS2=1 TARGET_CFLAGS="$TARGET_CFLAGS -DOS_OS2=1" if test "$ac_compiler_gnu" == "yes" ; then TARGET_CFLAGS="$TARGET_CFLAGS -Zomf -Zexe -Zmap" BUILD_CFLAGS="$BUILD_CFLAGS -Zomf -Zexe" fi else OS_UNIX=0 OS_WIN=1 OS_OS2=0 tclsubdir=win TARGET_CFLAGS="$TARGET_CFLAGS -DOS_WIN=1" fi else OS_UNIX=1 OS_WIN=0 OS_OS2=0 tclsubdir=unix TARGET_CFLAGS="$TARGET_CFLAGS -DOS_UNIX=1" fi AC_SUBST(BUILD_EXEEXT) AC_SUBST(OS_UNIX) AC_SUBST(OS_WIN) AC_SUBST(OS_OS2) AC_SUBST(TARGET_EXEEXT) ########## # Extract generic linker options from the environment. # if test "$config_TARGET_LIBS" != ""; then TARGET_LIBS=$config_TARGET_LIBS else TARGET_LIBS="" fi ########## # Figure out all the parameters needed to compile against Tcl. # # This code is derived from the SC_PATH_TCLCONFIG and SC_LOAD_TCLCONFIG # macros in the in the tcl.m4 file of the standard TCL distribution. # Those macros could not be used directly since we have to make some # minor changes to accomodate systems that do not have TCL installed. # AC_ARG_ENABLE(tcl, AC_HELP_STRING([--disable-tcl],[do not build TCL extension]), [use_tcl=$enableval],[use_tcl=yes]) if test "${use_tcl}" = "yes" ; then AC_ARG_WITH(tcl, AC_HELP_STRING([--with-tcl=DIR],[directory containing tcl configuration (tclConfig.sh)]), with_tclconfig=${withval}) AC_MSG_CHECKING([for Tcl configuration]) AC_CACHE_VAL(ac_cv_c_tclconfig,[ # First check to see if --with-tcl was specified. if test x"${with_tclconfig}" != x ; then if test -f "${with_tclconfig}/tclConfig.sh" ; then ac_cv_c_tclconfig=`(cd ${with_tclconfig}; pwd)` else AC_MSG_ERROR([${with_tclconfig} directory doesn't contain tclConfig.sh]) fi fi # then check for a private Tcl installation if test x"${ac_cv_c_tclconfig}" = x ; then for i in \ ../tcl \ `ls -dr ../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \ `ls -dr ../tcl[[8-9]].[[0-9]] 2>/dev/null` \ `ls -dr ../tcl[[8-9]].[[0-9]]* 2>/dev/null` \ ../../tcl \ `ls -dr ../../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \ `ls -dr ../../tcl[[8-9]].[[0-9]] 2>/dev/null` \ `ls -dr ../../tcl[[8-9]].[[0-9]]* 2>/dev/null` \ ../../../tcl \ `ls -dr ../../../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \ `ls -dr ../../../tcl[[8-9]].[[0-9]] 2>/dev/null` \ `ls -dr ../../../tcl[[8-9]].[[0-9]]* 2>/dev/null` do if test -f "$i/unix/tclConfig.sh" ; then ac_cv_c_tclconfig=`(cd $i/unix; pwd)` break fi done fi # check in a few common install locations if test x"${ac_cv_c_tclconfig}" = x ; then for i in \ `ls -d ${libdir} 2>/dev/null` \ `ls -d /usr/local/lib 2>/dev/null` \ `ls -d /usr/contrib/lib 2>/dev/null` \ `ls -d /usr/lib 2>/dev/null` do if test -f "$i/tclConfig.sh" ; then ac_cv_c_tclconfig=`(cd $i; pwd)` break fi done fi # check in a few other private locations if test x"${ac_cv_c_tclconfig}" = x ; then for i in \ ${srcdir}/../tcl \ `ls -dr ${srcdir}/../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \ `ls -dr ${srcdir}/../tcl[[8-9]].[[0-9]] 2>/dev/null` \ `ls -dr ${srcdir}/../tcl[[8-9]].[[0-9]]* 2>/dev/null` do if test -f "$i/unix/tclConfig.sh" ; then ac_cv_c_tclconfig=`(cd $i/unix; pwd)` break fi done fi ]) if test x"${ac_cv_c_tclconfig}" = x ; then use_tcl=no AC_MSG_WARN(Can't find Tcl configuration definitions) AC_MSG_WARN(*** Without Tcl the regression tests cannot be executed ***) AC_MSG_WARN(*** Consider using --with-tcl=... to define location of Tcl ***) else TCL_BIN_DIR=${ac_cv_c_tclconfig} AC_MSG_RESULT(found $TCL_BIN_DIR/tclConfig.sh) AC_MSG_CHECKING([for existence of $TCL_BIN_DIR/tclConfig.sh]) if test -f "$TCL_BIN_DIR/tclConfig.sh" ; then AC_MSG_RESULT([loading]) . $TCL_BIN_DIR/tclConfig.sh else AC_MSG_RESULT([file not found]) fi # # If the TCL_BIN_DIR is the build directory (not the install directory), # then set the common variable name to the value of the build variables. # For example, the variable TCL_LIB_SPEC will be set to the value # of TCL_BUILD_LIB_SPEC. An extension should make use of TCL_LIB_SPEC # instead of TCL_BUILD_LIB_SPEC since it will work with both an # installed and uninstalled version of Tcl. # if test -f $TCL_BIN_DIR/Makefile ; then TCL_LIB_SPEC=${TCL_BUILD_LIB_SPEC} TCL_STUB_LIB_SPEC=${TCL_BUILD_STUB_LIB_SPEC} TCL_STUB_LIB_PATH=${TCL_BUILD_STUB_LIB_PATH} fi # # eval is required to do the TCL_DBGX substitution # eval "TCL_LIB_FILE=\"${TCL_LIB_FILE}\"" eval "TCL_LIB_FLAG=\"${TCL_LIB_FLAG}\"" eval "TCL_LIB_SPEC=\"${TCL_LIB_SPEC}\"" eval "TCL_STUB_LIB_FILE=\"${TCL_STUB_LIB_FILE}\"" eval "TCL_STUB_LIB_FLAG=\"${TCL_STUB_LIB_FLAG}\"" eval "TCL_STUB_LIB_SPEC=\"${TCL_STUB_LIB_SPEC}\"" AC_SUBST(TCL_VERSION) AC_SUBST(TCL_BIN_DIR) AC_SUBST(TCL_SRC_DIR) AC_SUBST(TCL_LIBS) AC_SUBST(TCL_INCLUDE_SPEC) AC_SUBST(TCL_LIB_FILE) AC_SUBST(TCL_LIB_FLAG) AC_SUBST(TCL_LIB_SPEC) AC_SUBST(TCL_STUB_LIB_FILE) AC_SUBST(TCL_STUB_LIB_FLAG) AC_SUBST(TCL_STUB_LIB_SPEC) fi fi if test "${use_tcl}" = "no" ; then HAVE_TCL="" else HAVE_TCL=1 fi AC_SUBST(HAVE_TCL) ########## # Figure out what C libraries are required to compile programs # that use "readline()" library. # if test "$config_TARGET_READLINE_LIBS" != ""; then TARGET_READLINE_LIBS="$config_TARGET_READLINE_LIBS" else CC=$TARGET_CC LIBS="" AC_SEARCH_LIBS(tgetent, [readline ncurses curses termcap]) AC_CHECK_LIB([readline], [readline]) TARGET_READLINE_LIBS="$LIBS" fi AC_SUBST(TARGET_READLINE_LIBS) ########## # Figure out what C libraries are required to compile programs # that use "fdatasync()" function. # CC=$TARGET_CC LIBS=$TARGET_LIBS AC_SEARCH_LIBS(fdatasync, [rt]) TARGET_LIBS="$LIBS" ########## # Figure out where to get the READLINE header files. # AC_MSG_CHECKING([readline header files]) found=no if test "$config_TARGET_READLINE_INC" != ""; then TARGET_READLINE_INC=$config_TARGET_READLINE_INC found=yes fi if test "$found" = "yes"; then AC_MSG_RESULT($TARGET_READLINE_INC) else AC_MSG_RESULT(not specified: still searching...) AC_CHECK_HEADER(readline.h, [found=yes]) fi if test "$found" = "no"; then if test "$cross_compiling" != "yes"; then for dir in /usr /usr/local /usr/local/readline /usr/contrib /mingw; do AC_CHECK_FILE($dir/include/readline.h, found=yes) if test "$found" = "yes"; then TARGET_READLINE_INC="-I$dir/include" break fi AC_CHECK_FILE($dir/include/readline/readline.h, found=yes) if test "$found" = "yes"; then TARGET_READLINE_INC="-I$dir/include/readline" break fi done fi fi if test "$found" = "yes"; then if test "$TARGET_READLINE_LIBS" = ""; then TARGET_HAVE_READLINE=0 else TARGET_HAVE_READLINE=1 fi else TARGET_HAVE_READLINE=0 fi AC_SUBST(TARGET_READLINE_INC) AC_SUBST(TARGET_HAVE_READLINE) ######### # check for debug enabled AC_ARG_ENABLE(debug, AC_HELP_STRING([--enable-debug],[enable debugging & verbose explain]), [use_debug=$enableval],[use_debug=no]) if test "${use_debug}" = "yes" ; then TARGET_DEBUG="-DSQLITE_DEBUG=1" else TARGET_DEBUG="-DNDEBUG" fi AC_SUBST(TARGET_DEBUG) ######### # Figure out whether or not we have a "usleep()" function. # AC_CHECK_FUNC(usleep, [TARGET_CFLAGS="$TARGET_CFLAGS -DHAVE_USLEEP=1"]) #-------------------------------------------------------------------- # Redefine fdatasync as fsync on systems that lack fdatasync #-------------------------------------------------------------------- AC_CHECK_FUNC(fdatasync, [TARGET_CFLAGS="$TARGET_CFLAGS -DHAVE_FDATASYNC=1"]) ######### # Put out accumulated miscellaneous LIBRARIES # AC_SUBST(TARGET_LIBS) ######### # Generate the output files. # AC_OUTPUT([ Makefile sqlite3.pc ])