## Process this file with autoconf to produce configure. ## ## Copyright by The HDF Group. ## Copyright by the Board of Trustees of the University of Illinois. ## 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 files COPYING and Copyright.html. COPYING can be found at the root ## of the source code distribution tree; Copyright.html can be found at the ## root level of an installed copy of the electronic HDF5 document set and ## is linked from the top-level documents page. It can also be found at ## http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have ## access to either file, you may request a copy from help@hdfgroup.org. ## ---------------------------------------------------------------------- ## Initialize configure. ## AC_REVISION($Id: configure.ac 22697 2012-08-19 14:35:47Z hdftest $) AC_PREREQ([2.69]) ## AC_INIT takes the name of the package, the version number, and an ## email address to report bugs. AC_CONFIG_SRCDIR takes a unique file ## as its argument. ## ## NOTE: Do not forget to change the version number here when we do a ## release!!! ## AC_INIT([HDF5], [1.9.214], [help@hdfgroup.org]) AC_CONFIG_SRCDIR([src/H5.c]) AC_CONFIG_HEADER([src/H5config.h]) AC_CONFIG_AUX_DIR([bin]) AC_CONFIG_MACRO_DIR([m4]) ## AM_INIT_AUTOMAKE takes a list of options that should be applied to ## every Makefile.am when automake is run. AM_INIT_AUTOMAKE([foreign]) AM_SILENT_RULES([yes]) ## AM_MAINTAINER_MODE turns off "rebuild rules" that contain dependencies ## for Makefiles, configure, src/H5config.h, etc. If AM_MAINTAINER_MODE ## is *not* included here, these files will be rebuilt if out of date. ## This is a problem because if users try to build on a machine with ## the wrong versions of autoconf and automake, these files will be ## rebuilt with the wrong versions and bad things can happen. ## Also, CVS doesn't preserve dependencies between timestamps, so ## Makefiles will often think rebuilding needs to occur when it doesn't. ## Developers should './configure --enable-maintainer-mode' to turn on ## rebuild rules. AM_MAINTAINER_MODE ## ---------------------------------------------------------------------- ## Set prefix default (install directory) to a directory in the build area. ## This allows multiple src-dir builds within one host. AC_PREFIX_DEFAULT([`pwd`/hdf5]) ## Run post processing on files created by configure. ## src/H5pubconf.h: ## Generate src/H5pubconf.h from src/H5config.h by prepending H5_ to all ## macro names. This avoid name conflict between HDF5 macro names and those ## generated by another software package that uses the HDF5 library. ## src/libhdf5.settings: ## Remove all lines begun with "#" which are generated by CONDITIONAL's of ## configure. AC_CONFIG_COMMANDS([pubconf], [ echo "creating src/H5pubconf.h" sed 's/#define /#define H5_/' pubconf if test ! -f src/H5pubconf.h; then /bin/mv -f pubconf src/H5pubconf.h elif (diff pubconf src/H5pubconf.h >/dev/null); then rm -f pubconf echo "src/H5pubconf.h is unchanged" else /bin/mv -f pubconf src/H5pubconf.h fi echo "Post process src/libhdf5.settings" sed '/^#/d' < src/libhdf5.settings > libhdf5.settings.TMP cp libhdf5.settings.TMP src/libhdf5.settings rm -f libhdf5.settings.TMP ]) ## It's possible to configure for a host other than the one on which ## configure is currently running by using the --host=foo flag. ## For machines on which HDF5 is often configured, it can be convenient ## to specify the name of the machine rather than its canonical type. case $host_alias in redstorm) host_alias=x86_64-redstorm-linux-gnu ;; esac AC_CANONICAL_HOST AC_SUBST([CPPFLAGS]) ## H5_CFLAGS (and company) are for CFLAGS that should be used on HDF5, but ## not exported to h5cc (or h5fc, etc.) AC_SUBST([H5_CFLAGS]) AC_SUBST([H5_CPPFLAGS]) AC_SUBST([H5_FCFLAGS]) AC_SUBST([H5_CXXFLAGS]) AC_SUBST([H5_LDFLAGS]) ## AM_CFLAGS (and company) are for CFLAGS that should be used on HDF5, ## and WILL be exported to h5cc (or h5fc, etc) if set by configure. AC_SUBST([AM_CFLAGS]) AC_SUBST([AM_FCFLAGS]) AC_SUBST([AM_CXXFLAGS]) AC_SUBST([AM_CPPFLAGS]) AC_SUBST([AM_LDFLAGS]) ## Make sure flags are set to something (otherwise macros may set them later). AM_CFLAGS="${AM_CFLAGS}" AM_CXXFLAGS="${AM_CXXFLAGS}" AM_FCFLAGS="${AM_FCFLAGS}" AM_CPPFLAGS="${AM_CPPFLAGS}" AM_LDFLAGS="${AM_LDFLAGS}" CFLAGS="${CFLAGS}" CXXFLAGS="${CXXFLAGS}" FCFLAGS="${FCFLAGS}" CPPFLAGS="${CPPFLAGS}" LDFLAGS="${LDFLAGS}" ## Configure may need to alter any of the *FLAGS variables in order for ## various checks to work correctly. Save the user's value here so it ## can be restored once all configure checks are complete. saved_user_CFLAGS="$CFLAGS" saved_user_CXXFLAGS="$CXXFLAGS" saved_user_FCFLAGS="$FCFLAGS" saved_user_LDFLAGS="$LDFLAGS" saved_user_CPPFLAGS="$CPPFLAGS" ## Different compilers may need default libraries. They are specified in ## the config/* files, so we put this statement here so that it'll be ## set by the code which follows... ## DEFAULT_LIBS="" ## Support F9X variable to define Fortran compiler if FC variable is ## not used. This should be deprecated in the future. if test "x" = "x$FC"; then FC=${F9X} fi ## ---------------------------------------------------------------------- ## Dump all shell variables values. ## AC_MSG_CHECKING([shell variables initial values]) set >&AS_MESSAGE_LOG_FD AC_MSG_RESULT([done]) ## Define all symbol variables used for configure summary. ## EXTERNAL_FILTERS equals all external filters. Default none. ## MPE: whether MPE option is enabled. Default no. ## STATIC_EXEC: whether static-exec is enabled. Default no. ## HDF_FORTRAN: whether Fortran is enabled. Default no. ## HDF_FORTRAN2003: whether Fortran 2003 is enabled. Default no. ## FC: Fortran compiler. ## HDF_CXX: whether C++ is enabled. Default no. ## CXX: C++ compiler. ## HDF5_HL: whether high-level library is enabled. Default is yes. ## LARGEFILE: whether largefile support is enabled. Default yes. ## INSTRUMENT: whether INSTRUMENT is enabled. No default set here. ## CODESTACK: whether CODESTACK is enabled. Default no. ## HAVE_DMALLOC: whether system has dmalloc support. Default no. ## DIRECT_VFD: whether DIRECT_VFD is enabled. Default no. ## THREADSAFE: whether THREADSAFE is enabled. Default no. ## STATIC_SHARED: whether static and/or shared libraries are requested. ## enable_shared: whether shared lib is enabled. ## enable_static: whether static lib is enabled. ## UNAME_INFO: System information. AC_SUBST([EXTERNAL_FILTERS]) AC_SUBST([MPE]) MPE=no AC_SUBST([STATIC_EXEC]) STATIC_EXEC=no AC_SUBST([HDF_FORTRAN]) HDF_FORTRAN=no AC_SUBST([HDF_FORTRAN2003]) HDF_FORTRAN2003=no AC_SUBST([FC]) HDF_FORTRAN=no AC_SUBST([FC2003]) HDF_FORTRAN2003=no AC_SUBST([HDF_CXX]) HDF_CXX=no AC_SUBST([CXX]) HDF_CXX=no AC_SUBST([HDF5_HL]) HDF5_HL=yes AC_SUBST([LARGEFILE]) LARGEFILE=yes AC_SUBST([INSTRUMENT]) AC_SUBST([CODESTACK]) CODESTACK=no AC_SUBST([HAVE_DMALLOC]) HAVE_DMALLOC=no AC_SUBST([DIRECT_VFD]) DIRECT_VFD=no AC_SUBST([THREADSAFE]) THREADSAFE=no AC_SUBST([STATIC_SHARED]) AC_SUBST([enable_shared]) AC_SUBST([enable_static]) AC_SUBST([UNAME_INFO]) UNAME_INFO=`uname -a` ## ---------------------------------------------------------------------- ## Some platforms have broken basename, and/or xargs programs. Check ## that it actually does what it's supposed to do. Catch this early ## since configure relies upon them heavily and there's no use continuing ## if it's broken. ## ## Avoid depending upon Character Ranges. ## These are defined by autoconf. ## as_cr_letters='abcdefghijklmnopqrstuvwxyz' ## as_cr_LETTERS='ABCDEFGHIJKLMNOPQRSTUVWXYZ' AC_MSG_CHECKING([if basename works]) BASENAME_TEST="`basename /foo/bar/baz/qux/basename_works`" if test $BASENAME_TEST != "basename_works"; then AC_MSG_ERROR([basename program doesn't work]) else AC_MSG_RESULT([yes]) fi AC_MSG_CHECKING([if xargs works]) XARGS_TEST="`echo /foo/bar/baz/qux/xargs_works | xargs basename`" if test $XARGS_TEST != "xargs_works"; then AC_MSG_ERROR([xargs program doesn't work]) else AC_MSG_RESULT([yes]) fi ## ---------------------------------------------------------------------- ## Check that the cache file was build on the same host as what we're ## running on now. ## AC_CACHE_CHECK([for cached host], [hdf5_cv_host], [hdf5_cv_host="none"]); if test $hdf5_cv_host = "none"; then hdf5_cv_host=$host elif test $hdf5_cv_host != $host; then echo "The config.cache file was generated on $hdf5_cv_host but" echo "this is $host. Please remove that file and try again." AC_MSG_ERROR([config.cache file is invalid]) fi ## ---------------------------------------------------------------------- ## Source any special files that we need. These files normally aren't ## present but can be used by the maintainers to fine tune things like ## turning on debug or profiling flags for the compiler. The search order ## is: ## ## CPU-VENDOR-OS ## VENDOR-OS ## CPU-OS ## CPU-VENDOR ## OS ## VENDOR ## CPU ## ## If the `OS' ends with a version number then remove it. For instance, ## `freebsd3.1' would become `freebsd' case $host_os in aix*) host_os_novers=aix ;; freebsd*) host_os_novers=freebsd ;; irix5.*) host_os_novers=irix5.x ;; irix6.*) host_os_novers=irix6.x ;; osf4.*) host_os_novers=osf4.x ;; osf5.*) host_os_novers=osf5.x ;; solaris2.*) host_os_novers=solaris2.x ;; *) host_os_novers=$host_os ;; esac host_config="none" for f in $host_cpu-$host_vendor-$host_os \ $host_cpu-$host_vendor-$host_os_novers \ $host_vendor-$host_os \ $host_vendor-$host_os_novers \ $host_cpu-$host_os \ $host_cpu-$host_os_novers \ $host_cpu-$host_vendor \ $host_os \ $host_os_novers \ $host_vendor \ $host_cpu ; do AC_MSG_CHECKING([for config $f]) if test -f "$srcdir/config/$f"; then host_config=$srcdir/config/$f AC_MSG_RESULT([found]) break fi AC_MSG_RESULT([no]) done if test "X$host_config" != "Xnone"; then CC_BASENAME="`echo $CC | cut -f1 -d' ' | xargs basename 2>/dev/null`" . $host_config fi ## Source any special site-specific file hname="`hostname`" while test -n "$hname"; do file=$srcdir/config/site-specific/host-$hname AC_MSG_CHECKING([for config $file]) if test -f "$file"; then . $file AC_MSG_RESULT([found]) break fi AC_MSG_RESULT([no]) hname_tmp=$hname hname="`echo $hname | cut -d. -f2-99`" test "$hname_tmp" = "$hname" && break done ## ---------------------------------------------------------------------- ## Some built-in configure checks can only see CFLAGS (not AM_CFLAGS), so ## we need to add this in so configure works as intended. We will need to ## reset this value at the end of configure, to preserve the user's settings. CFLAGS="${AM_CFLAGS} ${CFLAGS}" FCFLAGS="${AM_FCFLAGS} ${FCFLAGS}" CXXFLAGS="${AM_CXXFLAGS} ${CXXFLAGS}" CPPFLAGS="${AM_CPPFLAGS} ${CPPFLAGS}" LDFLAGS="${AM_LDFLAGS} ${LDFLAGS}" ## ---------------------------------------------------------------------- ## Enable dependency tracking unless the configure options or a ## site-specific file told us not to. This prevents configure from ## silently disabling dependencies for some compilers. ## if test -z "${enable_dependency_tracking}"; then enable_dependency_tracking="yes" fi ## ---------------------------------------------------------------------- ## Check for programs. ## AC_PROG_CC CC_BASENAME="`echo $CC | cut -f1 -d' ' | xargs basename 2>/dev/null`" ## ---------------------------------------------------------------------------- ## Configure disallows unsupported combinations of options. However, users ## may want to override and build with unsupported combinations for their ## own use. They can use the --enable-unsupported configure flag, which ## ignores any errors from configure due to incompatible flags. AC_MSG_CHECKING([if unsupported combinations of configure options are allowed]) AC_ARG_ENABLE([unsupported], [AS_HELP_STRING([--enable-unsupported], [Allow unsupported combinations of configure options])], [ALLOW_UNSUPPORTED=$enableval]) case "X-$ALLOW_UNSUPPORTED" in X-|X-no) AC_MSG_RESULT([no]) ;; X-yes) AC_MSG_RESULT([yes]) ;; *) ;; esac ## ---------------------------------------------------------------------- ## Check if they would like the Fortran interface compiled ## AC_SUBST([HDF5_INTERFACES]) HDF5_INTERFACES="" AC_MSG_CHECKING([if Fortran interface enabled]) AC_ARG_ENABLE([fortran], [AS_HELP_STRING([--enable-fortran], [Compile the Fortran 77/90/95 interface [default=no]])], [HDF_FORTRAN=$enableval]) if test "X$HDF_FORTRAN" = "Xyes"; then echo "yes" else echo "no" fi ## ---------------------------------------------------------------------- ## Check if they would like the Fortran 2003 interface compiled ## AC_MSG_CHECKING([if Fortran 2003 interface enabled]) AC_ARG_ENABLE([fortran2003], [AS_HELP_STRING([--enable-fortran2003], [Compile the Fortran 2003 interface, must also specify --enable-fortran [default=no]])], [HDF_FORTRAN2003=$enableval]) ## ---------------------------------------------------------------------- ## Check to make sure --enable-fortran is present if --enable-fortran2003 ## was specified if test "X$HDF_FORTRAN2003" = "Xyes" && test "X$HDF_FORTRAN" = "Xno"; then echo "no" AC_MSG_ERROR([--enable-fortran must be used with --enable-fortran2003]) else echo "yes" fi HAVE_SIZEOF="no" HAVE_C_SIZEOF="no" HAVE_STORAGE_SIZE="no" FORTRAN_DEFAULT_REALisDBLE="no" if test "X$HDF_FORTRAN" = "Xyes"; then AC_SUBST([FC]) HDF_FORTRAN=yes AC_SUBST([HAVE_FORTRAN_2003]) HDF5_INTERFACES="$HDF5_INTERFACES fortran" ## -------------------------------------------------------------------- ## Default for FORTRAN 2003 compliant compilers ## HAVE_FORTRAN_2003="no" HAVE_F2003_REQUIREMENTS="no" ## -------------------------------------------------------------------- ## HDF5 integer variables for the H5fortran_types.f90 file. ## AC_SUBST([R_LARGE]) AC_SUBST([R_INTEGER]) AC_SUBST([HADDR_T]) AC_SUBST([HSIZE_T]) AC_SUBST([HSSIZE_T]) AC_SUBST([HID_T]) AC_SUBST([SIZE_T]) AC_SUBST([OBJECT_NAMELEN_DEFAULT_F]) ## -------------------------------------------------------------------- ## Fortran source extention ## AC_FC_SRCEXT([f90]) AC_SUBST([F9XSUFFIXFLAG]) AC_SUBST([FSEARCH_DIRS]) ## -------------------------------------------------------------------- ## Check for a Fortran 9X compiler and how to include modules. ## AC_PROG_FC([f90 pgf90 slf90 f95 g95 xlf95 efc ifort ftn],) AC_F9X_MODS ## It seems that libtool (as of Libtool 1.5.14) is trying to ## configure itself for Fortran 77. ## Tell it that our F77 compiler is $FC (actually a F9X compiler) F77=$FC ## Change to the Fortran 90 language AC_LANG_PUSH(Fortran) ## -------------------------------------------------------------------- ## Define wrappers for the C compiler to use Fortran function names ## AC_FC_WRAPPERS ## -------------------------------------------------------------------- ## See if the compiler will support the "-I." option ## dnl AM_FCFLAGS_saved=$AM_FCFLAGS dnl AM_FCFLAGS="${AM_FCFLAGS} -I." dnl AC_MSG_CHECKING(if compiler supports -I. option) dnl AC_TRY_FCOMPILE([ dnl program conftest dnl end dnl ], AC_MSG_RESULT(yes), dnl AC_MSG_RESULT(no) dnl AM_FCFLAGS="$AM_FCFLAGS_saved") ## -------------------------------------------------------------------- ## See if the fortran compiler supports the intrinsic function "SIZEOF" AC_MSG_CHECKING([if Fortran compiler supports intrinsic SIZEOF]) AC_TRY_RUN([ PROGRAM main i = sizeof(x) END PROGRAM ], [AC_MSG_RESULT([yes]) HAVE_SIZEOF="yes"], [AC_MSG_RESULT([no])]) ## See if the fortran compiler supports the intrinsic function "C_SIZEOF" AC_MSG_CHECKING([if Fortran compiler supports intrinsic C_SIZEOF]) AC_TRY_RUN([ PROGRAM main USE ISO_C_BINDING INTEGER(C_INT) :: a INTEGER(C_SIZE_T) :: result result = C_SIZEOF(a) END PROGRAM ], [AC_MSG_RESULT([yes]) HAVE_C_SIZEOF="yes"], [AC_MSG_RESULT([no])]) ## See if the fortran compiler supports the intrinsic function "STORAGE_SIZE" AC_MSG_CHECKING([if Fortran compiler supports intrinsic STORAGE_SIZE]) AC_TRY_RUN([ PROGRAM main INTEGER :: a INTEGER :: result result = STORAGE_SIZE(a) END PROGRAM ], [AC_MSG_RESULT([yes]) HAVE_STORAGE_SIZE="yes"], [AC_MSG_RESULT([no])]) ## Check to see if -r8 was specified to determine if we need to ## compile the DOUBLE PRECISION interfaces. AC_MSG_CHECKING([if Fortran default REAL is DOUBLE PRECISION]) AC_TRY_RUN([ MODULE type_mod INTERFACE h5t MODULE PROCEDURE h5t_real MODULE PROCEDURE h5t_dble END INTERFACE CONTAINS SUBROUTINE h5t_real(r) REAL :: r END SUBROUTINE h5t_real SUBROUTINE h5t_dble(d) DOUBLE PRECISION :: d END SUBROUTINE h5t_dble END MODULE type_mod PROGRAM main USE type_mod REAL :: r DOUBLE PRECISION :: d CALL h5t(r) CALL h5t(d) END PROGRAM main ], [AC_MSG_RESULT([no])], [AC_MSG_RESULT([yes]) FORTRAN_DEFAULT_REALisDBLE="yes"]) if test "X$HDF_FORTRAN2003" = "Xyes"; then ## Checking if the compiler supports the required Fortran 2003 features and ## disable Fortran 2003 if it does not. AC_MSG_CHECKING([if Fortran compiler version compatible with Fortran 2003 HDF]) HAVE_FORTRAN_2003="no" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[ USE iso_c_binding IMPLICIT NONE TYPE(C_PTR) :: ptr TYPE(C_FUNPTR) :: funptr CHARACTER(LEN=80, KIND=c_char), TARGET :: ichr ptr = C_LOC(ichr(1:1)) ])], [AC_MSG_RESULT([yes]) HAVE_F2003_REQUIREMENTS=[yes]], [AC_MSG_RESULT([no])]) if test "X$HAVE_F2003_REQUIREMENTS" = "Xno"; then ## echo $HAVE_FORTRAN_2003 AC_MSG_ERROR([Fortran compiler lacks required Fortran 2003 features; unsupported Fortran 2003 compiler, remove --enable-fortran2003]) else ## echo $HAVE_FORTRAN_2003 HAVE_FORTRAN_2003="yes" fi fi else FC="no" fi ## Change back to the C language AC_LANG_POP(Fortran) AM_CONDITIONAL([FORTRAN_HAVE_SIZEOF], [test "X$HAVE_SIZEOF" = "Xyes"]) AM_CONDITIONAL([FORTRAN_HAVE_C_SIZEOF], [test "X$HAVE_C_SIZEOF" = "Xyes"]) AM_CONDITIONAL([FORTRAN_HAVE_STORAGE_SIZE], [test "X$HAVE_STORAGE_SIZE" = "Xyes"]) AM_CONDITIONAL([FORTRAN_2003_CONDITIONAL_F], [test "X$HAVE_FORTRAN_2003" = "Xyes"]) AM_CONDITIONAL([FORTRAN_DEFAULT_REALisDBLE_F], [test "X$FORTRAN_DEFAULT_REALisDBLE" = "Xyes"]) ## ---------------------------------------------------------------------- ## Check if they would like the C++ interface compiled ## ## We need to check for a C++ compiler unconditionally, since ## AC_PROG_CXX defines some macros that Automake 1.9.x uses and will ## miss even if c++ is not enabled. AC_PROG_CXX AC_PROG_CXXCPP ## this is checked for when AC_HEADER_STDC is done AC_MSG_CHECKING([if c++ interface enabled]) AC_ARG_ENABLE([cxx], [AS_HELP_STRING([--enable-cxx], [Compile the C++ interface [default=no]])], [HDF_CXX=$enableval]) if test "X$HDF_CXX" = "Xyes"; then echo "yes" HDF5_INTERFACES="$HDF5_INTERFACES c++" ## Change to the C++ language AC_LANG_PUSH(C++) AC_MSG_CHECKING([if $CXX needs old style header files in includes]) AC_TRY_RUN([ #include int main(void) { return 0; } ], [ echo no ], [ echo yes CXXFLAGS="${CXXFLAGS} -DOLD_HEADER_FILENAME" AM_CXXFLAGS="${AM_CXXFLAGS} -DOLD_HEADER_FILENAME" ]) AC_MSG_CHECKING([if $CXX can handle namespaces]) AC_TRY_RUN([ namespace H5 { int fnord; } int main(void) { using namespace H5; fnord = 37; return 0; } ], [ echo yes ], [ echo no CXXFLAGS="${CXXFLAGS} -DH5_NO_NAMESPACE" AM_CXXFLAGS="${AM_CXXFLAGS} -DH5_NO_NAMESPACE" ]) AC_MSG_CHECKING([if $CXX supports std]) AC_TRY_RUN([ #include using namespace std; int main(void) { string myString("testing namespace std"); return 0; } ], [ echo yes ], [ echo no CXXFLAGS="${CXXFLAGS} -DH5_NO_STD" AM_CXXFLAGS="${AM_CXXFLAGS} -DH5_NO_STD" ]) AC_MSG_CHECKING([if $CXX supports bool types]) AC_TRY_RUN([ int main(void) { bool flag; return 0; } ], [ echo yes ], [ echo no CXXFLAGS="${CXXFLAGS} -DBOOL_NOTDEFINED" AM_CXXFLAGS="${AM_CXXFLAGS} -DBOOL_NOTDEFINED" ]) AC_MSG_CHECKING([if $CXX has offsetof extension]) AC_TRY_COMPILE([ #include #include ],[ struct index_st { unsigned char type; unsigned char num; unsigned int len; }; typedef struct index_st index_t; int x,y; x = offsetof(struct index_st, len); y = offsetof(index_t, num) ], AC_DEFINE([CXX_HAVE_OFFSETOF], [1], [Define if C++ compiler recognizes offsetof]) AC_MSG_RESULT([yes]), AC_MSG_RESULT([no])) AC_MSG_CHECKING([if $CXX can handle static cast]) AC_TRY_RUN([ int main(void) { float test_float; int test_int; test_float = 37.0; test_int = static_cast (test_float); return 0; } ], [ echo yes ], [ echo no CXXFLAGS="${CXXFLAGS} -DNO_STATIC_CAST" AM_CXXFLAGS="${AM_CXXFLAGS} -DNO_STATIC_CAST" ]) else echo "no" CXX="no" fi ## Change back to the C language AC_LANG_POP(C++) ## ---------------------------------------------------------------------- ## Check if they have Perl installed on their system. We only need Perl ## if they're using a GNU compiler. ## AC_SUBST([PERL]) PERL="" if test "X$GCC" = "Xyes"; then AC_CHECK_PROGS([PERL], [perl],, [$PATH]) fi ## ---------------------------------------------------------------------- ## Check which archiving tool to use. This needs to be done before ## the AM_PROG_LIBTOOL macro. ## if test -z "$AR"; then AC_CHECK_PROGS([AR], [ar xar], [:], [$PATH]) fi AC_SUBST([AR]) ## Export the AR macro so that it will be placed in the libtool file ## correctly. export AR AC_PROG_MAKE_SET AC_PROG_INSTALL ## ---------------------------------------------------------------------- ## Set up ${TR} which is used to process DEBUG_PKG. AC_PATH_PROG([TR], [tr]) ## ---------------------------------------------------------------------- ## Check that time can be used with srcdir. This is okay on most systems, ## but seems to cause problems on Cygwin. ## The solution on Cygwin is not to record execution time for tests. AC_MSG_CHECKING([if srcdir= and time commands work together]) AC_SUBST([TIME]) TIME=time TIME_TEST=`foo="bar" ${TIME} echo 'baz' 2> /dev/null | grep baz` if test "X${TIME_TEST}" = "Xbaz"; then AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) TIME= fi ## The following variables are used to distinguish between building a ## serial and parallel library. ## ## HAVE_PARALLEL -- defined in H5config.h if we are building ## a parallel library even if configure wasn't ## able to find some header file or library that ## might be required. This is defined if the ## compiler looks like a parallel compiler (e.g., ## mpicc or mpcc) or if the user explicitly states ## that a parallel library is being built by supplying ## the `--enable-parallel' configure switch. ## ## PARALLEL -- This variable is set to a non-null value if ## configure thinks we're compiling a parallel ## version of the library. ## ## RUNSERIAL -- This is a command which will be prepended to ## the executable name to run the executable using ## a single process. For serial versions of the ## library this will normally be empty. For parallel ## versions it might be something like `mpiexec -n 1'. ## The value of this variable is substituted in *.in ## files. ## ## RUNPARALLEL -- This is a command which will be prepended to ## the executable name to run the executable on ## multiple processors. For the serial library the ## value will normally be the empty string. For ## parallel library it should be something like ## "mpiexec -n \$\${NPROCS:=6}" where NPROCS will ## eventually contain the number of processors on which ## to run the executable (the double dollarsigns are to ## protect the expansion until make executes the ## command). The value of this variable is ## substituted in *.in files. ## AC_SUBST([PARALLEL]) AC_SUBST([RUNSERIAL]) AC_SUBST([RUNPARALLEL]) AC_SUBST([TESTPARALLEL]) ## ---------------------------------------------------------------------- ## If the compiler is obviously a parallel compiler then we're building ## a parallel version of hdf5 and should define HAVE_PARALLEL. Furthermore, ## the name of the compiler might tell us how to run the resulting ## executable. For `mpicc' the executable should be run with `mpiexec' from ## the same directory as mpicc if it exists. ## case "$CC_BASENAME" in mpicc) ## The mpich compiler. Use mpiexec from the same directory if it ## exists. PARALLEL=mpicc AC_MSG_CHECKING([for mpiexec]) ## Find the path where mpicc is located. cmd="`echo $CC | cut -f1 -d' '`" if (echo $cmd | grep / >/dev/null); then path="`echo $cmd | sed 's/\(.*\)\/.*$/\1/'`" else for path in `echo $PATH | ${TR} ":" " "`; do if test -x $path/$cmd; then break fi done fi ## Is there an mpiexec at that path? if test -x $path/mpiexec; then AC_MSG_RESULT([$path/mpiexec]) RUNSERIAL="${RUNSERIAL:-none}" if test -z "$RUNPARALLEL"; then RUNPARALLEL="$path/mpiexec -n \$\${NPROCS:=6}" fi else AC_MSG_RESULT([none]) fi ;; mpcc|mpcc_r) ## The IBM compiler PARALLEL="$CC_BASENAME" ;; *) ## Probably not a parallel compiler, but if `--enable-parallel' ## is defined below then we're still building a parallel hdf5. ;; esac ## ---------------------------------------------------------------------- ## If the Fortran compiler is obviously a parallel compiler then we're ## building a parallel version of hdf5 and should define HAVE_PARALLEL. ## Furthermore, the name of the compiler might tell us how to run the ## resulting executable. For `mpif90' the executable should be run with ## `mpiexec' from the same directory as mpif90 if it exists. ## if test "X$HDF_FORTRAN" = "Xyes" ; then ## Change to the Fortran 90 language AC_LANG_PUSH(Fortran) case "$FC" in *mpif90*) ## The Fortran mpich compiler. Use mpiexec from the same directory ## if it exists. 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The value is an include path and/or a library path. ## If the library path is specified then it must be preceded by a comma. ## AC_ARG_WITH([dmalloc], [AS_HELP_STRING([--with-dmalloc=DIR], [Use dmalloc memory debugging aid [default=no]])],, [withval=no]) case $withval in yes) HAVE_DMALLOC="yes" AC_CHECK_HEADERS([dmalloc.h],, [unset HAVE_DMALLOC]) if test "x$HAVE_DMALLOC" = "xyes"; then AC_CHECK_LIB([dmalloc], [dmalloc_shutdown],, [unset HAVE_DMALLOC]) fi if test -z "$HAVE_DMALLOC" -a -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find dmalloc library]) fi ;; no) HAVE_DMALLOC="no" AC_MSG_CHECKING([for dmalloc library]) AC_MSG_RESULT([suppressed]) ;; *) HAVE_DMALLOC="yes" case "$withval" in *,*) dmalloc_inc="`echo $withval |cut -f1 -d,`" dmalloc_lib="`echo $withval |cut -f2 -d, -s`" ;; *) if test -n "$withval"; then dmalloc_inc="$withval/include" dmalloc_lib="$withval/lib" fi ;; esac ## Trying to include -I/usr/include and -L/usr/lib is redundant and ## can mess some compilers up. if test "X$dmalloc_inc" = "X/usr/include"; then dmalloc_inc="" fi if test "X$dmalloc_lib" = "X/usr/lib"; then dmalloc_lib="" fi saved_CPPFLAGS="$CPPFLAGS" saved_AM_CPPFLAGS="$AM_CPPFLAGS" saved_LDFLAGS="$LDFLAGS" saved_AM_LDFLAGS="$AM_LDFLAGS" if test -n "$dmalloc_inc"; then CPPFLAGS="$CPPFLAGS -I$dmalloc_inc" AM_CPPFLAGS="$AM_CPPFLAGS -I$dmalloc_inc" fi AC_CHECK_HEADERS([dmalloc.h],,[CPPFLAGS="$saved_CPPFLAGS"; AM_CPPFLAGS="$saved_AM_CPPFLAGS"] [unset HAVE_DMALLOC]) if test "x$HAVE_DMALLOC" = "xyes"; then if test -n "$dmalloc_lib"; then LDFLAGS="$LDFLAGS -L$dmalloc_lib" AM_LDFLAGS="$AM_LDFLAGS -L$dmalloc_lib" fi AC_CHECK_LIB([dmalloc], [dmalloc_shutdown],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset HAVE_DMALLOC]) fi if test -z "$HAVE_DMALLOC" -a -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find dmalloc library]) fi ;; esac ## ---------------------------------------------------------------------- ## Is the GNU zlib present? It has a header file `zlib.h' and a library ## `-lz' and their locations might be specified with the `--with-zlib' ## command-line switch. The value is an include path and/or a library path. ## If the library path is specified then it must be preceded by a comma. ## AC_SUBST([USE_FILTER_DEFLATE]) USE_FILTER_DEFLATE="no" AC_ARG_WITH([zlib], [AS_HELP_STRING([--with-zlib=DIR], [Use zlib library for external deflate I/O filter [default=yes]])],, [withval=yes]) case $withval in yes) HAVE_ZLIB="yes" AC_CHECK_HEADERS([zlib.h], [HAVE_ZLIB_H="yes"], [unset HAVE_ZLIB]) if test "x$HAVE_ZLIB" = "xyes" -a "x$HAVE_ZLIB_H" = "xyes"; then AC_CHECK_LIB([z], [compress2],, [unset HAVE_ZLIB]) fi if test -z "$HAVE_ZLIB"; then if test -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find zlib library]) fi else AC_CHECK_FUNC([compress2], [HAVE_COMPRESS2="yes"]) fi ;; no) HAVE_ZLIB="no" AC_MSG_CHECKING([for GNU zlib]) AC_MSG_RESULT([suppressed]) ;; *) HAVE_ZLIB="yes" case "$withval" in *,*) zlib_inc="`echo $withval | cut -f1 -d,`" zlib_lib="`echo $withval | cut -f2 -d, -s`" ;; *) if test -n "$withval"; then zlib_inc="$withval/include" zlib_lib="$withval/lib" fi ;; esac ## Trying to include -I/usr/include and -L/usr/lib is redundant and ## can mess some compilers up. if test "X$zlib_inc" = "X/usr/include"; then zlib_inc="" fi if test "X$zlib_lib" = "X/usr/lib"; then zlib_lib="" fi saved_CPPFLAGS="$CPPFLAGS" saved_AM_CPPFLAGS="$AM_CPPFLAGS" saved_LDFLAGS="$LDFLAGS" saved_AM_LDFLAGS="$AM_LDFLAGS" if test -n "$zlib_inc"; then CPPFLAGS="$CPPFLAGS -I$zlib_inc" AM_CPPFLAGS="$AM_CPPFLAGS -I$zlib_inc" fi AC_CHECK_HEADERS([zlib.h], [HAVE_ZLIB_H="yes"], [CPPFLAGS="$saved_CPPFLAGS"; AM_CPPFLAGS="$saved_AM_CPPFLAGS"] [unset HAVE_ZLIB]) if test -n "$zlib_lib"; then LDFLAGS="$LDFLAGS -L$zlib_lib" AM_LDFLAGS="$AM_LDFLAGS -L$zlib_lib" fi if test "x$HAVE_ZLIB" = "xyes" -a "x$HAVE_ZLIB_H" = "xyes"; then AC_CHECK_LIB([z], [compress2],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset HAVE_ZLIB]) fi if test -z "$HAVE_ZLIB"; then if test -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find zlib library]) fi else AC_CHECK_FUNC([compress2], [HAVE_COMPRESS2="yes"]) fi ;; esac if test "x$HAVE_ZLIB" = "xyes" -a "x$HAVE_ZLIB_H" = "xyes" -a "x$HAVE_COMPRESS2" = "xyes"; then AC_DEFINE([HAVE_FILTER_DEFLATE], [1], [Define if support for deflate (zlib) filter is enabled]) USE_FILTER_DEFLATE="yes" ## Add "deflate" to external filter list if test "X$EXTERNAL_FILTERS" != "X"; then EXTERNAL_FILTERS="${EXTERNAL_FILTERS}," fi EXTERNAL_FILTERS="${EXTERNAL_FILTERS}deflate(zlib)" fi ## ---------------------------------------------------------------------- ## Is the szlib present? It has a header file `szlib.h' and a library ## `-lsz' and their locations might be specified with the `--with-szlib' ## command-line switch. The value is an include path and/or a library path. ## If the library path is specified then it must be preceded by a comma. ## AC_SUBST([USE_FILTER_SZIP]) USE_FILTER_SZIP="no" AC_ARG_WITH([szlib], [AS_HELP_STRING([--with-szlib=DIR], [Use szlib library for external szlib I/O filter [default=no]])],, [withval=no]) case $withval in yes) HAVE_SZLIB="yes" AC_CHECK_HEADERS([szlib.h], [HAVE_SZLIB_H="yes"], [unset HAVE_SZLIB]) if test "x$HAVE_SZLIB" = "xyes" -a "x$HAVE_SZLIB_H" = "xyes"; then AC_CHECK_LIB([sz], [SZ_BufftoBuffCompress],, [unset HAVE_SZLIB]) fi if test -z "$HAVE_SZLIB" -a -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find szlib library]) fi ;; no) HAVE_SZLIB="no" AC_MSG_CHECKING([for szlib]) AC_MSG_RESULT([suppressed]) ;; *) HAVE_SZLIB="yes" case "$withval" in *,*) szlib_inc="`echo $withval |cut -f1 -d,`" szlib_lib="`echo $withval |cut -f2 -d, -s`" ;; *) if test -n "$withval"; then szlib_inc="$withval/include" szlib_lib="$withval/lib" fi ;; esac ## Trying to include -I/usr/include and -L/usr/lib is redundant and ## can mess some compilers up. if test "X$szlib_inc" = "X/usr/include"; then szlib_inc="" fi if test "X$szlib_lib" = "X/usr/lib"; then szlib_lib="" fi saved_CPPFLAGS="$CPPFLAGS" saved_AM_CPPFLAGS="$AM_CPPFLAGS" saved_LDFLAGS="$LDFLAGS" saved_AM_LDFLAGS="$AM_LDFLAGS" if test -n "$szlib_inc"; then CPPFLAGS="$CPPFLAGS -I$szlib_inc" AM_CPPFLAGS="$AM_CPPFLAGS -I$szlib_inc" fi AC_CHECK_HEADERS([szlib.h], [HAVE_SZLIB_H="yes"], [CPPFLAGS="$saved_CPPFLAGS"; AM_CPPFLAGS="$saved_AM_CPPFLAGS"] [unset HAVE_SZLIB]) if test -n "$szlib_lib"; then LDFLAGS="$LDFLAGS -L$szlib_lib" AM_LDFLAGS="$AM_LDFLAGS -L$szlib_lib" fi if test "x$HAVE_SZLIB" = "xyes" -a "x$HAVE_SZLIB_H" = "xyes"; then AC_CHECK_LIB([sz], [SZ_BufftoBuffCompress],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset HAVE_SZLIB]) fi if test -z "$HAVE_SZLIB" -a -n "$HDF5_CONFIG_ABORT"; then AC_MSG_ERROR([couldn't find szlib library]) fi ;; esac if test "x$HAVE_SZLIB" = "xyes" -a "x$HAVE_SZLIB_H" = "xyes"; then ## SZLIB library is available. Check if it can encode AC_MSG_CHECKING([for szlib encoder]) ## Set LD_LIBRARY_PATH so encoder test can find the library and run. ## Also add LL_PATH substitution to Makefiles so they can use the ## path as well, for testing examples. if test -z "$LD_LIBRARY_PATH"; then export LD_LIBRARY_PATH="$szlib_lib" else export LD_LIBRARY_PATH="$LD_LIBRARY_PATH:$szlib_lib" fi AC_SUBST([LL_PATH]) LL_PATH="$LD_LIBRARY_PATH" AC_CACHE_VAL([hdf5_cv_szlib_can_encode], [AC_TRY_RUN([ #include int main(void) { /* SZ_encoder_enabled returns 1 if encoder is present */ if(SZ_encoder_enabled() == 1) exit(0); else exit(1); } ], [hdf5_cv_szlib_can_encode=yes], [hdf5_cv_szlib_can_encode=no],)]) AC_DEFINE([HAVE_FILTER_SZIP], [1], [Define if support for szip filter is enabled]) USE_FILTER_SZIP="yes" if test ${hdf5_cv_szlib_can_encode} = "yes"; then AC_MSG_RESULT([yes]) fi if test ${hdf5_cv_szlib_can_encode} = "no"; then AC_MSG_RESULT([no]) fi ## Add "szip" to external filter list if test ${hdf5_cv_szlib_can_encode} = "yes"; then if test "X$EXTERNAL_FILTERS" != "X"; then EXTERNAL_FILTERS="${EXTERNAL_FILTERS}," fi EXTERNAL_FILTERS="${EXTERNAL_FILTERS}szip(encoder)" fi if test ${hdf5_cv_szlib_can_encode} = "no"; then if test "X$EXTERNAL_FILTERS" != "X"; then EXTERNAL_FILTERS="${EXTERNAL_FILTERS}," fi EXTERNAL_FILTERS="${EXTERNAL_FILTERS}szip(no encoder)" fi fi AM_CONDITIONAL([BUILD_SHARED_SZIP_CONDITIONAL], [test "X$USE_FILTER_SZIP" = "Xyes" && test "X$LL_PATH" != "X"]) ## Checkpoint the cache AC_CACHE_SAVE ## ---------------------------------------------------------------------- ## Enable thread-safe version of library. It requires Pthreads support ## on POSIX systems. ## AC_MSG_CHECKING([for thread safe support]) AC_ARG_ENABLE([threadsafe], [AS_HELP_STRING([--enable-threadsafe], [Enable thread-safe capability])], [THREADSAFE=$enableval]) ## The --enable-threadsafe flag is not compatible with --enable-cxx. ## If the user tried to specify both flags, throw an error, unless ## they also provided the --enable-unsupported flag. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${HDF_CXX}" = "Xyes" -a "X${enable_threadsafe}" = "Xyes"; then AC_MSG_ERROR([--enable-cxx and --enable-threadsafe flags are incompatible. Use --enable-unsupported to override this error.]) fi fi ## --enable-threadsafe is also incompatible with --enable-fortran, unless ## --enable-unsupported has been specified on the configure line. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${HDF_FORTRAN}" = "Xyes" -a "X${enable_threadsafe}" = "Xyes"; then AC_MSG_ERROR([--enable-fortran and --enable-threadsafe flags are incompatible. Use --enable-unsupported to override this error.]) fi fi case "X-$THREADSAFE" in X-|X-no) AC_MSG_RESULT([no]) ;; X-yes) THREADSAFE=yes AC_MSG_RESULT([yes]) ;; *) AC_MSG_RESULT([error]) AC_MSG_ERROR([\'$enableval\' is not a valid threadsafe type]) ;; esac if test "X$THREADSAFE" = "Xyes"; then AC_DEFINE([HAVE_THREADSAFE], [1], [Define if we have thread safe support]) ## ---------------------------------------------------------------------- ## Is the pthreads library present? It has a header file `pthread.h' and ## a library `-lpthread' and their locations might be specified with the ## `--with-pthread' command-line switch. The value is an include path ## and/or a library path. If the library path is specified then it must ## be preceded by a comma. ## ## Thread-safety in HDF5 only uses Pthreads via configure, so the ## default is "yes", though this only has an effect when ## --enable-threadsafe is specified. AC_SUBST([HAVE_PTHREAD]) HAVE_PTHREAD=yes AC_ARG_WITH([pthread], [AS_HELP_STRING([--with-pthread=DIR], [Specify alternative path to Pthreads library when thread-safe capability is built])],, [withval=yes]) case "$withval" in yes) AC_CHECK_HEADERS([pthread.h],, [unset HAVE_PTHREAD]) if test "x$HAVE_PTHREAD" = "xyes"; then AC_CHECK_LIB([pthread], [pthread_self],, [unset HAVE_PTHREAD]) fi ;; no) AC_MSG_CHECKING([for pthread]) AC_MSG_RESULT([suppressed]) unset HAVE_PTHREAD ;; *) case "$withval" in *,*) pthread_inc="`echo $withval | cut -f1 -d,`" pthread_lib="`echo $withval | cut -f2 -d, -s`" ;; *) if test -n "$withval"; then pthread_inc="$withval/include" pthread_lib="$withval/lib" fi ;; esac ## Trying to include -I/usr/include and -L/usr/lib is redundant and ## can mess some compilers up. if test "X$pthread_inc" = "X/usr/include"; then pthread_inc="" fi if test "X$pthread_lib" = "X/usr/lib"; then pthread_lib="" fi if test -n "$pthread_inc"; then saved_CPPFLAGS="$CPPFLAGS" saved_AM_CPPFLAGS="$AM_CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$pthread_inc" AM_CPPFLAGS="$AM_CPPFLAGS -I$pthread_inc" AC_CHECK_HEADERS([pthread.h],, [CPPFLAGS="$saved_CPPFLAGS"; AM_CPPFLAGS="$saved_AM_CPPFLAGS"; unset HAVE_PTHREAD]) else AC_CHECK_HEADERS([pthread.h],, [unset HAVE_PTHREAD]) fi if test "x$HAVE_PTHREAD" = "xyes"; then if test -n "$pthread_lib"; then saved_LDFLAGS="$LDFLAGS" saved_AM_LDFLAGS="$AM_LDFLAGS" LDFLAGS="$LDFLAGS -L$pthread_lib" AM_LDFLAGS="$AM_LDFLAGS -L$pthread_lib" AC_CHECK_LIB([pthread], [pthread_self],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset HAVE_PTHREAD]) else AC_CHECK_LIB([pthread], [pthread_self],, [unset HAVE_PTHREAD]) fi fi ;; esac fi ## ---------------------------------------------------------------------- ## Check for MONOTONIC_TIMER support (used in clock_gettime). This has ## to be done after any POSIX/BSD defines to ensure that the test gets ## the correct POSIX level on linux. AC_CHECK_DECL([CLOCK_MONOTONIC],[have_clock_monotonic="yes"],[have_clock_monotonic="no"],[[#include ]]) ## ---------------------------------------------------------------------- ## How does one figure out the local time zone? Anyone know of a ## Posix way to do this? ## ## First check if `struct tm' has a `tm_gmtoff' member. AC_MSG_CHECKING([for tm_gmtoff in struct tm]) AC_TRY_COMPILE([ #include #include ], [struct tm tm; tm.tm_gmtoff=0;], [AC_DEFINE([HAVE_TM_GMTOFF], [1], [Define if `tm_gmtoff' is a member of `struct tm']) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## check if `struct tm' has a `__tm_gmtoff' member. AC_MSG_CHECKING([for __tm_gmtoff in struct tm]) AC_TRY_COMPILE([ #include #include ], [struct tm tm; tm.__tm_gmtoff=0;], [AC_DEFINE([HAVE___TM_GMTOFF], [1], [Define if `__tm_gmtoff' is a member of `struct tm']) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## Check whether the global variable `timezone' is defined. AC_MSG_CHECKING([for global timezone variable]) case "`uname`" in CYGWIN*) AC_MSG_RESULT([disabled in CYGWIN]) ;; *) AC_TRY_LINK([ #include #include ], [timezone=0;], [AC_DEFINE([HAVE_TIMEZONE], [1], [Define if `timezone' is a global variable]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ;; esac ## Check whether `struct timezone' is defined. AC_STRUCT_TIMEZONE AC_MSG_CHECKING([for struct timezone]) AC_TRY_COMPILE([ #include #include #include ], [struct timezone tz; tz.tz_minuteswest=0;], [AC_DEFINE([HAVE_STRUCT_TIMEZONE], [1], [Define if `struct timezone' is defined]) have_struct_tz="yes" AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## If gettimeofday() is going to be used, make sure it uses the timezone struct if test "$have_gettime" = "yes" -a "$have_struct_tz" = "yes"; then AC_MSG_CHECKING(whether gettimeofday() gives timezone) AC_CACHE_VAL([hdf5_cv_gettimeofday_tz], [AC_TRY_RUN([ #include #include int main(void) { struct timeval tv; struct timezone tz; tz.tz_minuteswest = 7777; /* Initialize to an unreasonable number */ tz.tz_dsttime = 7; gettimeofday(&tv, &tz); /* Check whether the function returned any value at all */ if(tz.tz_minuteswest == 7777 && tz.tz_dsttime == 7) exit(1); else exit (0); }], [hdf5_cv_gettimeofday_tz=yes], [hdf5_cv_gettimeofday_tz=no])]) if test ${hdf5_cv_gettimeofday_tz} = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([GETTIMEOFDAY_GIVES_TZ], [1], [Define if gettimeofday() populates the tz pointer passed in]) else AC_MSG_RESULT([no]) fi fi ## ---------------------------------------------------------------------- ## Does the struct stat have the st_blocks field? This field is not Posix. ## AC_MSG_CHECKING([for st_blocks in struct stat]) AC_TRY_COMPILE([ #include ],[struct stat sb; sb.st_blocks=0;], [AC_DEFINE([HAVE_STAT_ST_BLOCKS], [1], [Define if `struct stat' has the `st_blocks' field]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## ---------------------------------------------------------------------- ## How do we figure out the width of a tty in characters? ## AC_CHECK_FUNCS([_getvideoconfig gettextinfo]) case "`uname`" in CYGWIN*) ;; *) AC_CHECK_FUNCS([GetConsoleScreenBufferInfo]) ;; esac AC_CHECK_FUNCS([_scrsize ioctl]) AC_MSG_CHECKING([for struct videoconfig]) AC_TRY_COMPILE(,[struct videoconfig w; w.numtextcols=0;], [AC_DEFINE([HAVE_STRUCT_VIDEOCONFIG], [1], [Define if `struct videoconfig' is defined]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for struct text_info]) AC_TRY_COMPILE(, [struct text_info w; w.screenwidth=0;], [AC_DEFINE([HAVE_STRUCT_TEXT_INFO], [1], [Define if `struct text_info' is defined]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for TIOCGWINSZ]) AC_TRY_COMPILE([#include ],[int w=TIOCGWINSZ;], [AC_DEFINE([HAVE_TIOCGWINSZ], [1], [Define if the ioctl TIOGWINSZ is defined]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for TIOCGETD]) AC_TRY_COMPILE([#include ],[int w=TIOCGETD;], [AC_DEFINE([HAVE_TIOCGETD], [1], [Define if the ioctl TIOCGETD is defined]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## ---------------------------------------------------------------------- ## Check for functions. ## AC_CHECK_FUNCS([alarm BSDgettimeofday fork frexpf frexpl]) AC_CHECK_FUNCS([gethostname getpwuid getrusage lstat]) AC_CHECK_FUNCS([rand_r random setsysinfo]) AC_CHECK_FUNCS([signal longjmp setjmp siglongjmp sigsetjmp sigprocmask]) AC_CHECK_FUNCS([snprintf srandom strdup symlink system]) AC_CHECK_FUNCS([tmpfile asprintf vasprintf waitpid]) ## Check for vsnprintf() separately, so we can detect situations where it ## doesn't return the correct size for formatted strings that are too large ## for the buffer provided AC_CHECK_FUNCS([vsnprintf], ## Check if vsnprintf() returns correct size for strings that don't fit ## into the size allowed. If vsnprintf() works correctly on this platform, ## it should return a value of 42 for the test below ## ## Note that vsnprintf fails in two different ways: ## - In IRIX64, calls to vnsprintf() with a formatted string that ## is larger than the buffer size allowed incorrectly ## return the size of the buffer minus one. ## - In HP/UX, calls to vsnprintf() with a formatted string that ## is larger than the buffer size allowed incorrectly ## return (-1) AC_MSG_CHECKING([if vsnprintf returns correct value]) AC_CACHE_VAL([hdf5_cv_vsnprintf_works], AC_TRY_RUN([ #include #include #include int test_vsnprintf(const char *fmt,...) { va_list ap; char *s = malloc(16); int ret; va_start(ap, fmt); ret=vsnprintf(s,16,"%s",ap); va_end(ap); return(ret!=42 ? 1 : 0); } int main(void) { exit(test_vsnprintf("%s","A string that is longer than 16 characters")); } ],[hdf5_cv_vsnprintf_works=yes],[hdf5_cv_vsnprintf_works=no],)) if test ${hdf5_cv_vsnprintf_works} = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([VSNPRINTF_WORKS], [1], [Define if vsnprintf() returns the correct value for formatted strings that don't fit into size allowed]) else AC_MSG_RESULT([no]) fi ,) ## ---------------------------------------------------------------------- ## Check that a lone colon can be used as an argument ## This is not true on Cray X1, which interprets a lone colon as a ## system command. ## AC_CACHE_CHECK([if lone colon can be used as an argument], [hdf5_cv_lone_colon], [ echo "int main(int argc, char * argv[]) {return 0;}" > conftest.c $CC $CFLAGS conftest.c -o a.out> /dev/null 2> /dev/null echo "./a.out :" > conftest.sh chmod 700 conftest.sh ./conftest.sh 2> conftest.out rm -f a.out TEST_OUTPUT=`cat conftest.out` if test "X$TEST_OUTPUT" = "X"; then hdf5_cv_lone_colon=yes else hdf5_cv_lone_colon=no fi ]) AC_SUBST([H5_LONE_COLON]) H5_LONE_COLON="$hdf5_cv_lone_colon" ## ---------------------------------------------------------------------- ## Check compiler characteristics ## AC_C_CONST AC_C_INLINE AC_MSG_CHECKING([for __attribute__ extension]) AC_TRY_COMPILE(,[int __attribute__((unused)) x], [AC_DEFINE([HAVE_ATTRIBUTE], [1], [Define if the __attribute__(()) extension is present]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for __func__ extension]) AC_TRY_COMPILE(,[ const char *fname = __func__; ], [AC_DEFINE([HAVE_C99_FUNC], [1], [Define if the compiler understands the __func__ keyword]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for __FUNCTION__ extension]) AC_TRY_COMPILE(,[ const char *fname = __FUNCTION__; ], [AC_DEFINE([HAVE_FUNCTION], [1], [Define if the compiler understands the __FUNCTION__ keyword]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) AC_MSG_CHECKING([for C99 designated initialization support]) AC_TRY_COMPILE(,[ typedef struct { int x; union { int i; double d; } u; } di_struct_t; di_struct_t x = {0, { .d = 0.0}}; ], [AC_DEFINE([HAVE_C99_DESIGNATED_INITIALIZER], [1], [Define if the compiler understands C99 designated initialization of structs and unions]) AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no])]) ## ---------------------------------------------------------------------- ## Try to figure out how to print `long long'. Some machines use `%lld' ## and others use `%qd'. There may be more! The final `l' is a ## default in case none of the others work. ## AC_MSG_CHECKING([how to print long long]) AC_CACHE_VAL([hdf5_cv_printf_ll], [ for hdf5_cv_printf_ll in l ll L q unknown; do AC_TRY_RUN([ #include #include #include int main(void) { char *s = malloc(128); long long x = (long long)1048576 * (long long)1048576; sprintf(s,"%${hdf5_cv_printf_ll}d",x); exit(strcmp(s,"1099511627776")); } ], [break],,[continue]) done]) AC_MSG_RESULT([%${hdf5_cv_printf_ll}d and %${hdf5_cv_printf_ll}u]) AC_DEFINE_UNQUOTED([PRINTF_LL_WIDTH], ["$hdf5_cv_printf_ll"], [Width for printf() for type `long long' or `__int64', use `ll']) ## ---------------------------------------------------------------------- ## Check if pthread_attr_setscope(&attribute, PTHREAD_SCOPE_SYSTEM) ## is supported on this system ## AC_MSG_CHECKING([Threads support system scope]) AC_CACHE_VAL([hdf5_cv_system_scope_threads], [AC_TRY_RUN([ #if STDC_HEADERS #include #include #endif int main(void) { pthread_attr_t attribute; int ret; pthread_attr_init(&attribute); ret=pthread_attr_setscope(&attribute, PTHREAD_SCOPE_SYSTEM); exit(ret==0 ? 0 : 1); } ], [hdf5_cv_system_scope_threads=yes], [hdf5_cv_system_scope_threads=no],)]) if test ${hdf5_cv_system_scope_threads} = "yes"; then AC_DEFINE([SYSTEM_SCOPE_THREADS], [1], [Define if your system supports pthread_attr_setscope(&attribute, PTHREAD_SCOPE_SYSTEM) call.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Turn on debugging by setting compiler flags ## This must come after the enable-production since it depends on production. ## AC_MSG_CHECKING([for debug flags]) AC_ARG_ENABLE([debug], [AS_HELP_STRING([--enable-debug=all], [Turn on debugging in all packages. One may also specify a comma-separated list of package names without the leading H5 or the word no. The default is most packages if production is disabled; no if it is enabled. ])], [DEBUG_PKG=$enableval]) ## Default to no if producton is enabled if test "X-$DEBUG_PKG" = X- ; then if test "$enable_production" = yes ; then DEBUG_PKG=no else DEBUG_PKG=yes fi fi AC_SUBST([DEBUG_PKG]) all_packages="ac,b,b2,d,e,f,g,hg,hl,i,mf,mm,o,p,s,t,v,z" case "X-$DEBUG_PKG" in X-yes) DEBUG_PKG="d,e,f,g,hg,i,mm,o,p,s,t,v,z" H5_CPPFLAGS="$H5_CPPFLAGS -UNDEBUG" AC_MSG_RESULT([default ($DEBUG_PKG)]) ;; X-all) DEBUG_PKG=$all_packages H5_CPPFLAGS="$H5_CPPFLAGS -UNDEBUG" AC_MSG_RESULT([all ($DEBUG_PKG)]) ;; X-no|X-none) AC_MSG_RESULT([none]) DEBUG_PKG= H5_CPPFLAGS="$H5_CPPFLAGS -DNDEBUG" ;; *) AC_MSG_RESULT([$DEBUG_PKG]) ;; esac if test -n "$DEBUG_PKG"; then for pkg in `echo $DEBUG_PKG | ${TR} ${as_cr_letters}"," ${as_cr_LETTERS}" "`; do H5_CPPFLAGS="$H5_CPPFLAGS -DH5${pkg}_DEBUG" done fi ## ---------------------------------------------------------------------- ## Check if they would like the function stack support compiled in ## AC_MSG_CHECKING([whether function stack tracking is enabled]) AC_ARG_ENABLE([codestack], [AS_HELP_STRING([--enable-codestack], [Enable the function stack tracing (for developer debugging).])], [CODESTACK=$enableval]) case "X-$CODESTACK" in X-yes) CODESTACK=yes AC_MSG_RESULT([yes]) AC_DEFINE([HAVE_CODESTACK], [1], [Define if the function stack tracing code is to be compiled in]) ;; *) CODESTACK=no AC_MSG_RESULT([no]) ;; esac ## ---------------------------------------------------------------------- ## Check if they would like the metadata trace file code compiled in ## AC_MSG_CHECKING([whether metadata trace file code is enabled]) AC_ARG_ENABLE([metadata-trace-file], [AS_HELP_STRING([--enable-metadata-trace-file], [Enable metadata trace file collection.])], [METADATATRACEFILE=$enableval]) case "X-$METADATATRACEFILE" in X-yes) METADATATRACEFILE=yes AC_MSG_RESULT([yes]) AC_DEFINE([METADATA_TRACE_FILE], [1], [Define if the metadata trace file code is to be compiled in]) ;; *) METADATATRACEFILE=no AC_MSG_RESULT([no]) ;; esac ## ---------------------------------------------------------------------- ## Enable tracing of the API ## This must come after the enable-debug since it depends on debug. ## AC_SUBST([TRACE_API]) AC_MSG_CHECKING([for API tracing]); AC_ARG_ENABLE([trace], [AS_HELP_STRING([--enable-trace], [Enable API tracing capability. Default=no if debug is disabled.])], [TRACE=$enableval]) ## Default to no if debug is disabled if test "X-$TRACE" = X- ; then if test -z "$DEBUG_PKG" ; then TRACE=no else TRACE=yes fi fi case "X-$TRACE" in X-yes) AC_MSG_RESULT([yes]) TRACE_API=yes H5_CPPFLAGS="$H5_CPPFLAGS -DH5_DEBUG_API" ;; X-no|*) AC_MSG_RESULT([no]) TRACE_API=no H5_CPPFLAGS="$H5_CPPFLAGS -UH5_DEBUG_API" ;; esac ## ---------------------------------------------------------------------- ## Enable instrumenting of the library's internal operations ## This must come after the enable-debug since it depends on debug. ## AC_SUBST([INSTRUMENT_LIBRARY]) AC_MSG_CHECKING([for instrumented library]); AC_ARG_ENABLE([instrument], [AS_HELP_STRING([--enable-instrument], [Enable library instrumentation of optimization tracing. Default=no if debug is disabled.])], [INSTRUMENT=$enableval]) ## Default to no if debug is disabled if test "X-$INSTRUMENT" = X- ; then if test -z "$DEBUG_PKG" ; then INSTRUMENT=no else INSTRUMENT=yes fi fi case "X-$INSTRUMENT" in X-yes) AC_MSG_RESULT([yes]) INSTRUMENT_LIBRARY=yes AC_DEFINE([HAVE_INSTRUMENTED_LIBRARY], [1], [Define if library will contain instrumentation to detect correct optimization operation]) ;; X-no|*) AC_MSG_RESULT([no]) INSTRUMENT_LIBRARY=no ;; esac ## ---------------------------------------------------------------------- ## Check if they would like to securely clear file buffers before they are ## written. ## AC_SUBST([CLEARFILEBUF]) AC_MSG_CHECKING([whether to clear file buffers]) AC_ARG_ENABLE([clear-file-buffers], [AS_HELP_STRING([--enable-clear-file-buffers], [Securely clear file buffers before writing to file. Default=yes.])], [CLEARFILEBUF=$enableval]) case "X-$CLEARFILEBUF" in *) CLEARFILEBUF=yes AC_MSG_RESULT([yes]) AC_DEFINE([CLEAR_MEMORY], [1], [Define if the memory buffers being written to disk should be cleared before writing.]) ;; X-no) CLEARFILEBUF=no AC_MSG_RESULT([no]) ;; esac ## ---------------------------------------------------------------------- ## Check if they would like to use a memory checking tool (like valgrind's ## 'memcheck' tool, or Rational Purify, etc) and the library should be ## more scrupulous with it's memory operations. Enabling this also ## disables the library's free space manager code. ## AC_SUBST([USINGMEMCHECKER]) AC_MSG_CHECKING([whether a memory checking tool will be used]) AC_ARG_ENABLE([using-memchecker], [AS_HELP_STRING([--enable-using-memchecker], [Enable this option if a memory allocation and/or bounds checking tool will be used on the HDF5 library. Enabling this causes the library to be more picky about it's memory operations and also disables the library's free space manager code. Default=no.])], [USINGMEMCHECKER=$enableval]) case "X-$USINGMEMCHECKER" in X-yes) USINGMEMCHECKER=yes AC_MSG_RESULT([yes]) AC_DEFINE([USING_MEMCHECKER], [1], [Define if a memory checking tool will be used on the library, to cause library to be very picky about memory operations and also disable the internal free list manager code.]) ;; *) USINGMEMCHECKER=no AC_MSG_RESULT([no]) ;; esac ## Checkpoint the cache AC_CACHE_SAVE ## What header files and libraries do we have to look for for parallel ## support? For the most part, search paths are already specified with ## CPPFLAGS and LDFLAGS or are known to the compiler. If the user says ## `--disable-parallel' but specifies a known parallel compiler (like mpicc ## or mpcc) then parallel support is enabled but configure doesn't search ## for any parallel header files or libraries. ## AC_ARG_ENABLE([parallel], [AS_HELP_STRING([--enable-parallel], [Search for MPI-IO and MPI support files])]) ## The --enable-parallel flag is not compatible with --enable-cxx. ## If the user tried to specify both flags, throw an error, unless ## they also provided the --enable-unsupported flag. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${HDF_CXX}" = "Xyes" -a "X${enable_parallel}" = "Xyes"; then AC_MSG_ERROR([--enable-cxx and --enable-parallel flags are incompatible. Use --enable-unsupported to override this error.]) fi fi ## --enable-parallel is also incompatible with --enable-threadsafe, unless ## --enable-unsupported has been specified on the configure line. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${THREADSAFE}" = "Xyes" -a "X${enable_parallel}" = "Xyes"; then AC_MSG_ERROR([--enable-threadsafe and --enable-parallel flags are incompatible. Use --enable-unsupported to override this error.]) fi fi ## It's possible to build in parallel by specifying a parallel compiler ## without using the --enable-parallel flag. This isn't allowed with ## C++ or threadsafe, either, unless the --enable-unsupported flag ## has also been specified. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${PARALLEL}" != "X" -a "X${enable_cxx}" = "Xyes" ; then AC_MSG_ERROR([An MPI compiler is being used; --enable-cxx is not allowed. Use --enable-unsupported to override this error.]) fi if test "X${PARALLEL}" != "X" -a "X${THREADSAFE}" = "Xyes"; then AC_MSG_ERROR([An MPI compiler is being used; --enable-threadsafe is not allowed. Use --enable-unsupported to override this error.]) fi fi AC_MSG_CHECKING([for parallel support files]) case "X-$enable_parallel" in X-|X-no|X-none) ## Either we are not compiling for parallel or the header and ## library files and locations are known to the compiler (this is ## the case for a correct installation of mpicc for instance). AC_MSG_RESULT([skipped]) ;; X-yes) ## We want to compile a parallel library with a compiler that ## may already know how to link with MPI and MPI-IO. AC_MSG_RESULT([provided by compiler]) PARALLEL=yes ## Try link a simple MPI program. If fail, try again with -lmpi and ## -lmpich. AC_TRY_LINK(, [MPI_Init()],, [AC_CHECK_LIB([mpi], [MPI_Init],, [AC_CHECK_LIB([mpich], [MPI_Init],, [PARALLEL=no])])]) ## Then try link a simple MPI-IO program. If fail, try again with ## -lmpio. if test "X$PARALLEL" = "Xyes"; then AC_TRY_LINK(, [MPI_File_open()],, [AC_CHECK_LIB([mpio], [MPI_File_open],, [PARALLEL=no])]) fi if test "X$HDF_FORTRAN" = "Xyes"; then ## Change to the Fortran 90 language AC_LANG_PUSH(Fortran) ## Try link a simple MPI program. If fail, try again with -lmpi. AC_LINK_IFELSE([ program main include 'mpif.h' integer:: ierr call mpi_file_open( ierr ) end],, [AC_CHECK_LIB([mpi], [mpi_file_open],, [PARALLEL=no])]) ## Then try link a simple MPI-IO program. If fail, try again with ## -lmpio. if test "X$PARALLEL" = "Xyes"; then AC_LINK_IFELSE([ program main include 'mpif.h' integer:: ierr call mpi_file_open( ierr ) end],, [AC_CHECK_LIB([mpio], [mpi_file_open],, [PARALLEL=no])]) fi ## Change to the C language AC_LANG_POP(Fortran) fi ## Set RUNPARALLEL to mpiexec if not set yet. ## Check for building on Cray if RUNPARALLEL is not yet set by checking ## for 'aprun' command (which is the parallel job launcher, like mpiexec). if test "X$PARALLEL" = "Xyes" -a -z "$RUNPARALLEL"; then ## Find the path where aprun is located. for path in `echo $PATH | ${TR} ":" " "`; do if test -x $path/aprun; then RUNPARALLEL="aprun -q -n \$\${NPROCS:=6}" break; fi done fi ## Set RUNPARALLEL to mpiexec if not set yet. if test "X$PARALLEL" = "Xyes" -a -z "$RUNPARALLEL"; then RUNPARALLEL="mpiexec -n \$\${NPROCS:=6}" fi ;; *) AC_MSG_RESULT([error]) AC_MSG_ERROR([\'$enable_parallel\' is not a valid parallel search type]) ;; esac ## ---------------------------------------------------------------------- ## Print some other parallel information and do some sanity checks. ## AC_SUBST([ADD_PARALLEL_FILES]) ADD_PARALLEL_FILES="no" if test -n "$PARALLEL"; then ## The 'testpar' directory should participate in the build TESTPARALLEL=testpar ## We are building a parallel library AC_DEFINE([HAVE_PARALLEL], [1], [Define if we have parallel support]) ## Display what we found about running programs AC_MSG_CHECKING([prefix for running on one processor]) AC_MSG_RESULT([$RUNSERIAL]) AC_MSG_CHECKING([prefix for running in parallel]) AC_MSG_RESULT([$RUNPARALLEL]) ## Check that we can link a simple MPI and MPI-IO application AC_MSG_CHECKING([whether a simple MPI-IO program can be linked]) AC_TRY_LINK(, [MPI_Init(); MPI_File_open();], [AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no]) AC_MSG_ERROR([unable to link a simple MPI-IO application])]) ## There *must* be some way to run in parallel even if it's just the ## word `none'. if test -z "$RUNPARALLEL"; then AC_MSG_ERROR([no way to run a parallel program]) fi ## If RUNSERIAL or RUNPARALLEL is the word `none' then replace it with ## the empty string. if test "X$RUNSERIAL" = "Xnone"; then RUNSERIAL="" fi if test "X$RUNPARALLEL" = "Xnone"; then RUNPARALLEL="" fi if test "X$HDF_FORTRAN" = "Xyes"; then ADD_PARALLEL_FILES="yes" AC_MSG_CHECKING([for MPI_Comm_c2f and MPI_Comm_f2c functions]) AC_TRY_LINK([#include ], [MPI_Comm c_comm; MPI_Comm_c2f(c_comm)], AC_DEFINE([HAVE_MPI_MULTI_LANG_Comm], [1], [Define if `MPI_Comm_c2f' and `MPI_Comm_f2c' exists]) AC_MSG_RESULT([yes]), AC_MSG_RESULT([no]) ) AC_MSG_CHECKING([for MPI_Info_c2f and MPI_Info_f2c functions]) AC_TRY_LINK([#include ], [MPI_Info c_info; MPI_Info_c2f(c_info)], AC_DEFINE([HAVE_MPI_MULTI_LANG_Info], [1], [Define if `MPI_Info_c2f' and `MPI_Info_f2c' exists]) AC_MSG_RESULT([yes]), AC_MSG_RESULT([no]) ) fi ## -------------------------------------------------------------------- ## Do we want MPE instrumentation feature on? ## ## This must be done after enable-parallel is checked since it depends ## on a mpich compiler. ## MPE=yes AC_ARG_WITH([mpe], [AS_HELP_STRING([--with-mpe=DIR], [Use MPE instrumentation [default=no]])],, [withval=no]) case "X-$withval" in X-|X-no|X-none) AC_MSG_CHECKING([for MPE]) AC_MSG_RESULT([suppressed]) unset MPE ;; X-yes) AC_CHECK_HEADERS([mpe.h],, [unset MPE]) AC_CHECK_LIB([mpe], [MPE_Init_log],, [unset MPE]) AC_CHECK_LIB([lmpe], [MPE_Init_mpi_io],, [unset MPE]) ;; *) case "$withval" in *,*) mpe_inc="`echo $withval | cut -f1 -d,`" mpe_lib="`echo $withval | cut -f2 -d, -s`" ;; *) if test -n "$withval"; then mpe_inc="$withval/include" mpe_lib="$withval/lib" fi ;; esac ## Trying to include -I/usr/include and -L/usr/lib is redundant and ## can mess some compilers up. if test "X$mpe_inc" = "X/usr/include"; then mpe_inc="" fi if test "X$mpe_lib" = "X/usr/lib"; then mpe_lib="" fi if test -n "$mpe_inc"; then saved_CPPFLAGS="$CPPFLAGS" saved_AM_CPPFLAGS="$AM_CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$mpe_inc" AM_CPPFLAGS="$AM_CPPFLAGS -I$mpe_inc" AC_CHECK_HEADERS([mpe.h],, [CPPFLAGS="$saved_CPPFLAGS"; AM_CPPFLAGS="$saved_AM_CPPFLAGS"; unset MPE]) else AC_CHECK_HEADERS([mpe.h],, [unset MPE]) fi if test -n "$mpe_lib"; then saved_LDFLAGS="$LDFLAGS" saved_AM_LDFLAGS="$AM_LDFLAGS" LDFLAGS="$LDFLAGS -L$mpe_lib" AM_LDFLAGS="$AM_LDFLAGS -L$mpe_lib" AC_CHECK_LIB([mpe], [MPE_Init_log],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset MPE]) AC_CHECK_LIB([lmpe], [MPE_Init_mpi_io],, [LDFLAGS="$saved_LDFLAGS"; AM_LDFLAGS="$saved_AM_LDFLAGS"; unset MPE]) else AC_CHECK_LIB([mpe], [MPE_Init_log],, [unset MPE]) AC_CHECK_LIB([lmpe], [MPE_Init_mpi_io],, [unset MPE]) fi ;; esac if test "X-$MPE" = "X-yes"; then AC_DEFINE([HAVE_MPE], [1], [Define if we have MPE support]) fi fi ## ---------------------------------------------------------------------- ## Turn on internal I/O filters by setting macros in header files ## Internal I/O filters are contained entirely within the library and do ## not depend on external headers or libraries. The shuffle filter is ## an example of an internal filter, while the gzip filter is an example of ## an external filter. Each external filter is controlled with an ## "--with-foo=" configure flag. ## AC_SUBST([FILTERS]) AC_SUBST([USE_FILTER_SHUFFLE]) USE_FILTER_SHUFFLE="no" AC_SUBST([USE_FILTER_FLETCHER32]) USE_FILTER_FLETCHER32="no" AC_SUBST([USE_FILTER_NBIT]) USE_FILTER_NBIT="no" AC_SUBST([USE_FILTER_SCALEOFFSET]) USE_FILTER_SCALEOFFSET="no" AC_MSG_CHECKING([for I/O filters]) AC_ARG_ENABLE([filters], [AS_HELP_STRING([--enable-filters=all], [Turn on all internal I/O filters. One may also specify a comma-separated list of filters or the word no. The default is all internal I/O filters.])], [FILTERS=$enableval]) ## Eventually: all_filters="shuffle,foo,bar,baz" all_filters="shuffle,fletcher32,nbit,scaleoffset" case "X-$FILTERS" in X-|X-all) FILTERS=$all_filters AC_MSG_RESULT([all ($FILTERS)]) ;; X-no|X-none) AC_MSG_RESULT([none]) FILTERS="none" ;; *) AC_MSG_RESULT([$FILTERS]) ;; esac if test -n "$FILTERS"; then for filter in `echo $FILTERS | tr ${as_cr_letters}',' ${as_cr_LETTERS}' '`; do ## ------------------------------------------------------------------ ## Have to use separate 'if' construct for each filter, so that ## autoheader can detect the AC_DEFINE for each one... ## if test $filter = "SHUFFLE"; then AC_DEFINE([HAVE_FILTER_SHUFFLE], [1], [Define if support for shuffle filter is enabled]) USE_FILTER_SHUFFLE="yes" fi if test $filter = "FLETCHER32"; then AC_DEFINE([HAVE_FILTER_FLETCHER32], [1], [Define if support for Fletcher32 checksum is enabled]) USE_FILTER_FLETCHER32="yes" fi if test $filter = "NBIT"; then AC_DEFINE([HAVE_FILTER_NBIT], [1], [Define if support for nbit filter is enabled]) USE_FILTER_NBIT="yes" fi if test $filter = "SCALEOFFSET"; then AC_DEFINE([HAVE_FILTER_SCALEOFFSET], [1], [Define if support for scaleoffset filter is enabled]) USE_FILTER_SCALEOFFSET="yes" fi done fi ## ---------------------------------------------------------------------- ## This is defined only when we're using CodeWarrior, since it has a ## broken "open()" call. # if test 1 = 2; then AC_DEFINE([NO_SHARED_WRITING], [1], [Define if shared writing must be disabled (CodeWarrior only)]) fi ## -------------------------------------------------------------------------- ## Should the Default Virtual File Driver be compiled? ## AC_MSG_CHECKING([for Default Virtual File Driver definition]) AC_ARG_WITH([default-vfd], [AS_HELP_STRING([--with-default-vfd=driver], [Specify default file driver [default=sec2]])],, withval=sec2) if test "X$withval" = "Xsec2"; then AC_MSG_RESULT([yes]) default_vfd=yes vfd_define=H5FD_SEC2 elif test "X$withval" = "Xstdio"; then AC_MSG_RESULT([yes]) default_vfd=yes vfd_define=H5FD_STDIO else AC_MSG_RESULT([no]) default_vfd=no fi if test "X$default_vfd" = "Xyes"; then AC_DEFINE_UNQUOTED([DEFAULT_VFD], [$vfd_define], [Define the default virtual file driver to compile]) fi ## ---------------------------------------------------------------------- ## Check if Direct I/O driver is enabled by --enable-direct-vfd ## AC_MSG_CHECKING([for Direct Virtual File Driver support]) AC_ARG_ENABLE([direct-vfd], [AS_HELP_STRING([--enable-direct-vfd], [Build the Direct I/O Virtual File Driver [default=yes]])], [DIRECT_VFD=$enableval], [DIRECT_VFD=yes]) if test "$DIRECT_VFD" = "yes"; then AC_CACHE_VAL([hdf5_cv_direct_io], [AC_TRY_RUN([ #include #include #include int main(void) { int fid; if((fid=open("tst_file", O_CREAT | O_TRUNC | O_DIRECT, 0755))<0) exit(1); close(fid); remove("tst_file"); exit (0); }], [AC_TRY_LINK(, [posix_memalign()], [hdf5_cv_direct_io=yes], [hdf5_cv_direct_io=no])], [hdf5_cv_direct_io=no],)]) if test ${hdf5_cv_direct_io} = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([HAVE_DIRECT], [1], [Define if the direct I/O virtual file driver should be compiled]) else AC_MSG_RESULT([no]) DIRECT_VFD=no fi else AC_MSG_RESULT([suppressed]) fi AM_CONDITIONAL([DIRECT_VFD_CONDITIONAL], [test "X$DIRECT_VFD" = "Xyes"]) ## ---------------------------------------------------------------------- ## Enable custom plugin default path for library. It requires SHARED support. ## AC_MSG_CHECKING([for custom plugin default path definition]) AC_ARG_WITH([default-plugindir], [AS_HELP_STRING([--with-default-plugindir=location], [Specify default location for plugins [default="/usr/local/hdf5/lib/plugin"]])],, withval="/usr/local/hdf5/lib/plugin") if test "X$withval" = "X"; then AC_MSG_RESULT([default]) default_plugindir="/usr/local/hdf5/lib/plugin" else AC_MSG_RESULT([$withval]) default_plugindir=$withval fi AC_DEFINE_UNQUOTED([DEFAULT_PLUGINDIR], ["$default_plugindir"], [Define the default plugins path to compile]) ## ---------------------------------------------------------------------- ## Decide whether the presence of user's exception handling functions is ## checked and data conversion exceptions are returned. This is mainly ## for the speed optimization of hard conversions. Soft conversions can ## actually benefit little. ## AC_MSG_CHECKING([whether exception handling functions is checked during data conversions]) AC_ARG_ENABLE([dconv-exception], [AS_HELP_STRING([--enable-dconv-exception], [if exception handling functions is checked during data conversions [default=yes]])], [DCONV_EXCEPTION=$enableval], [DCONV_EXCEPTION=yes]) if test "$DCONV_EXCEPTION" = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([WANT_DCONV_EXCEPTION], [1], [Check exception handling functions during data conversions]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Decide whether the data accuracy has higher priority during data ## conversions. If not, some hard conversions will still be prefered even ## though the data may be wrong (for example, some compilers don't ## support denormalized floating values) to maximize speed. ## AC_MSG_CHECKING([whether data accuracy is guaranteed during data conversions]) AC_ARG_ENABLE([dconv-accuracy], [AS_HELP_STRING([--enable-dconv-accuracy], [if data accuracy is guaranteed during data conversions [default=yes]])], [DATA_ACCURACY=$enableval], [DATA_ACCURACY=yes]) if test "$DATA_ACCURACY" = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([WANT_DATA_ACCURACY], [1], [Data accuracy is prefered to speed during data conversions]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can handle converting ## denormalized floating-point values. ## (This flag should be set for all machines, except for the Crays, where ## the cache value is set in it's config file) ## AC_MSG_CHECKING([if converting denormalized floating-point values is possible]) AC_CACHE_VAL([hdf5_cv_convert_denormal_float], [hdf5_cv_convert_denormal_float=yes]) if test ${hdf5_cv_convert_denormal_float} = "yes"; then AC_DEFINE([CONVERT_DENORMAL_FLOAT], [1], [Define if your system can handle converting denormalized floating-point values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can handle converting ## floating-point to long long values. ## (This flag should be _unset_ for all machines, except for Windows, where ## it's set in the custom Windows H5pubconf.h file) ## AC_MSG_CHECKING([if converting floating-point values to long long is not working]) AC_CACHE_VAL([hdf5_cv_convert_float_llong_not_works], [hdf5_cv_convert_float_llong_not_works=no]) if test ${hdf5_cv_convert_float_llong_not_works} = "yes"; then AC_DEFINE([HW_FP_TO_LLONG_NOT_WORKS], [1], [Define if your system can't handle converting floating-point values to long long.]) AC_MSG_RESULT([true]) else AC_MSG_RESULT([false]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine has window style pathname, ## that is, "drive-letter:\" (e.g. "C:") or "drive-letter:/" (e.g. "C:/"). ## (This flag should be _unset_ for all machines, except for Windows, where ## it's set in the custom Windows H5pubconf.h file) ## AC_MSG_CHECKING([if the machine has window style path name]) case "`uname`" in MINGW*) AC_DEFINE([HAVE_WINDOW_PATH], [1], [Define if your system has window style path name.]) AC_MSG_RESULT([yes]) ;; *) AC_MSG_RESULT([no]) ;; esac ## ----------------------------------------------------------------------- ## Set flag to indicate that the machine can handle conversion from ## long double to integers accurately. This flag should be set "yes" for ## all machines except all SGIs. For SGIs, some conversions are ## incorrect and its cache value is set "no" in its config/irix6.x and ## irix5.x. ## AC_MSG_CHECKING([if converting from long double to integers is accurate]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ldouble_to_integer_accurate=${hdf5_cv_ldouble_to_integer_accurate=no} else AC_CACHE_VAL([hdf5_cv_ldouble_to_integer_accurate], [hdf5_cv_ldouble_to_integer_accurate=yes]) fi if test "${hdf5_cv_ldouble_to_integer_accurate}" = "yes"; then AC_DEFINE([LDOUBLE_TO_INTEGER_ACCURATE], [1], [Define if your system can convert long double to integers accurately.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ----------------------------------------------------------------------- ## Set flag to indicate that the machine can do conversion from ## long double to integers regardless of accuracy. This flag should be ## set "yes" for all machines except HP-UX 11.00. For HP-UX 11.00, the ## compiler has 'floating exception' when converting 'long double' to all ## integers except 'unsigned long long'. Other HP-UX systems are unknown ## yet. (1/8/05 - SLU) AC_MSG_CHECKING([if converting from long double to integers works]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ldouble_to_integer_works=${hdf5_cv_ldouble_to_integer_works=no} else AC_CACHE_VAL([hdf5_cv_ldouble_to_integer_works], [AC_TRY_RUN([ int main(void) { void *align; long double ld= 9701917572145405952.00L; unsigned char v1; short v2; unsigned int v3; int ret = 0; align = (void*)malloc(sizeof(long double)); memcpy(align, &ld, sizeof(long double)); /*For HU-UX11.00, there's floating exception(core dump) when doing some of casting *from 'long double' to integers*/ v1=(unsigned char)(*((long double*)align)); v2=(short)(*((long double*)align)); v3=(unsigned int)(*((long double*)align)); done: exit(ret); } ], [hdf5_cv_ldouble_to_integer_works=yes], [hdf5_cv_ldouble_to_integer_works=no],)]) fi if test ${hdf5_cv_ldouble_to_integer_works} = "yes"; then AC_DEFINE([LDOUBLE_TO_INTEGER_WORKS], [1], [Define if your system can convert from long double to integer values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ----------------------------------------------------------------------- ## Set flag to indicate that the machine can handle conversion from ## integers to long double. (This flag should be set "yes" for all ## machines except all SGIs, where some conversions are ## incorrect and its cache value is set "no" in its config/irix6.x and ## irix5.x) ## AC_MSG_CHECKING([if accurately converting from integers to long double]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_integer_to_ldouble_accurate=${hdf5_cv_integer_to_ldouble_accurate=no} else AC_CACHE_VAL([hdf5_cv_integer_to_ldouble_accurate], [hdf5_cv_integer_to_ldouble_accurate=yes]) fi if test ${hdf5_cv_integer_to_ldouble_accurate} = "yes"; then AC_DEFINE([INTEGER_TO_LDOUBLE_ACCURATE], [1], [Define if your system can accurately convert from integers to long double values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'unsigned long' to 'float' values. ## (This flag should be set for all machines, except for Pathscale compiler ## on Sandia's Linux machine where the compiler interprets 'unsigned long' ## values as negative when the first bit of 'unsigned long' is on during ## the conversion to float.) ## AC_MSG_CHECKING([if accurately converting unsigned long to float values]) AC_CACHE_VAL([hdf5_cv_ulong_to_float_accurate], [AC_TRY_RUN([ int main(void) { int ret = 0; unsigned long l1; unsigned long l2; unsigned long l3; float f1; float f2; float f3; if(sizeof(unsigned long)==8) { l1 = 0xffffffffffffffffUL; l2 = 0xffffffffffff0000UL; l3 = 0xf000000000000000UL; f1 = (float)l1; f2 = (float)l2; f3 = (float)l3; if((f1 < 0) || (f2 < 0) || (f3 < 0)) ret = 1; } done: exit(ret); } ], [hdf5_cv_ulong_to_float_accurate=yes], [hdf5_cv_ulong_to_float_accurate=no],)]) if test ${hdf5_cv_ulong_to_float_accurate} = "yes"; then AC_DEFINE([ULONG_TO_FLOAT_ACCURATE], [1], [Define if your system accurately converting unsigned long to float values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'unsigned (long) long' values to 'float' and 'double' values. ## (This flag should be set for all machines, except for the SGIs, where ## the cache value is set in the config/irix6.x config file) and Solaris ## 64-bit machines, where the short program below tests if round-up is ## correctly handled. ## AC_MSG_CHECKING([if accurately converting unsigned long long to floating-point values]) if test ${host_os_novers} = "solaris2.x"; then AC_CACHE_VAL([hdf5_cv_ulong_to_fp_bottom_bit_accurate], [AC_TRY_RUN([ int main(void) { unsigned long l1; unsigned long l2; unsigned long l3; unsigned long l4; unsigned long long ld1; unsigned long long ld2; unsigned long long ld3; unsigned long long ld4; double d1, d2, d3, d4; unsigned char s[8]; int ret = 0; if(sizeof(unsigned long)==8) { l1 = 0xf000000000000b00UL; /*Round-down case*/ l2 = 0xf000000000000401UL; /*Round-up case*/ l3 = 0xf000000000000400UL; /*Round-down case*/ l4 = 0xf000000000000c00UL; /*Round-up case*/ d1 = (double)l1; d2 = (double)l2; d3 = (double)l3; d4 = (double)l4; } else if(sizeof(unsigned long long)==8) { ld1 = 0xf000000000000b00ULL; /*Round-down case*/ ld2 = 0xf000000000000401ULL; /*Round-up case*/ ld3 = 0xf000000000000400ULL; /*Round-down case*/ ld4 = 0xf000000000000c00ULL; /*Round-up case*/ d1 = (double)ld1; d2 = (double)ld2; d3 = (double)ld3; d4 = (double)ld4; } else { ret = 1; goto done; } memcpy(s, &d1, 8); if(s[7]!=1) ret = 1; memcpy(s, &d2, 8); if(s[7]!=1) ret = 1; memcpy(s, &d3, 8); if(s[7]!=0) ret = 1; memcpy(s, &d4, 8); if(s[7]!=2) ret = 1; done: exit(ret); } ], [hdf5_cv_ulong_to_fp_bottom_bit_accurate=yes], [hdf5_cv_ulong_to_fp_bottom_bit_accurate=no],)]) else AC_CACHE_VAL([hdf5_cv_ulong_to_fp_bottom_bit_accurate], [hdf5_cv_ulong_to_fp_bottom_bit_accurate=yes]) fi if test ${hdf5_cv_ulong_to_fp_bottom_bit_accurate} = "yes"; then AC_DEFINE([ULONG_TO_FP_BOTTOM_BIT_ACCURATE], [1], [Define if your system can accurately convert unsigned (long) long values to floating-point values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'float' or 'double' to 'unsigned long long' values. ## (This flag should be set for all machines, except for PGI compiler ## where round-up happens when the fraction of float-point value is greater ## than 0.5. ## AC_MSG_CHECKING([if accurately roundup converting floating-point to unsigned long long values]) AC_CACHE_VAL([hdf5_cv_fp_to_ullong_accurate], [AC_TRY_RUN([ int main(void) { float f = 111.60f; double d = 222.55L; unsigned long long l1 = (unsigned long long)f; unsigned long long l2 = (unsigned long long)d; int ret = 0; if(l1 == 112) ret = 1; if(l2 == 223) ret = 1; done: exit(ret); } ], [hdf5_cv_fp_to_ullong_accurate=yes], [hdf5_cv_fp_to_ullong_accurate=no],)]) if test ${hdf5_cv_fp_to_ullong_accurate} = "yes"; then AC_DEFINE([FP_TO_ULLONG_ACCURATE], [1], [Define if your system roundup accurately converting floating-point to unsigned long long values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'float', 'double' or 'long double' to 'unsigned long long' values. ## (This flag should be set for all machines, except for HP-UX machines ## where the maximal number for unsigned long long is 0x7fffffffffffffff ## during conversion. ## AC_MSG_CHECKING([if right maximum converting floating-point to unsigned long long values]) AC_CACHE_VAL([hdf5_cv_fp_to_ullong_right_maximum], [AC_TRY_RUN([ int main(void) { float f = 9701917572145405952.00f; double d1 = 9701917572145405952.00L; long double d2 = 9701917572145405952.00L; double d3 = 2e40L; unsigned long long l1 = (unsigned long long)f; unsigned long long l2 = (unsigned long long)d1; unsigned long long l3 = (unsigned long long)d2; unsigned long long l4; unsigned long long l5 = 0x7fffffffffffffffULL; int ret = 0; if(l1 <= l5 || l2 <= l5 || l3 <= l5) ret = 1; l4 = (unsigned long long)d3; if(l4 <= l5) ret = 1; done: exit(ret); } ], [hdf5_cv_fp_to_ullong_right_maximum=yes], [hdf5_cv_fp_to_ullong_right_maximum=no],)]) if test ${hdf5_cv_fp_to_ullong_right_maximum} = "yes"; then AC_DEFINE([FP_TO_ULLONG_RIGHT_MAXIMUM], [1], [Define if your system has right maximum convert floating-point to unsigned long long values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'long double' to 'unsigned int' values. (This flag should be set for ## all machines, except for some Intel compilers on some Linux.) ## AC_MSG_CHECKING([if correctly converting long double to unsigned int values]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ldouble_to_uint_accurate=${hdf5_cv_ldouble_to_uint_accurate=no} else AC_CACHE_VAL([hdf5_cv_ldouble_to_uint_accurate], [AC_TRY_RUN([ int main(void) { long double ld = 2733248032.9183987530L; unsigned int i; int ret = 0; i = (unsigned int)ld; if(i!=2733248032 && i!=2733248031 && i!=2733248033) ret = 1; done: exit(ret); } ], [hdf5_cv_ldouble_to_uint_accurate=yes], [hdf5_cv_ldouble_to_uint_accurate=no],)]) fi if test ${hdf5_cv_ldouble_to_uint_accurate} = "yes"; then AC_DEFINE([LDOUBLE_TO_UINT_ACCURATE], [1], [Define if your system can convert long double to unsigned int values correctly.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can _compile_ ## 'unsigned long long' to 'float' and 'double' typecasts. ## (This flag should be set for all machines, except for under Windows when ## compiled with Visual Studio 6, where the macro value is set in the ## src/H5pubconf.h file) ## AC_MSG_CHECKING([if compiling unsigned long long to floating-point typecasts work]) AC_CACHE_VAL([hdf5_cv_ullong_to_fp_cast_works], [hdf5_cv_ullong_to_fp_cast_works=yes]) if test ${hdf5_cv_ullong_to_fp_cast_works} = "yes"; then AC_DEFINE([ULLONG_TO_FP_CAST_WORKS], [1], [Define if your system can compile unsigned long long to floating-point casts.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can _compile_ ## 'long long' to 'float' and 'double' typecasts. ## (This flag should be set for all machines, except for under Windows when ## compiled with Visual Studio 6, where the macro value is set in the ## src/H5pubconf.h file) ## AC_MSG_CHECKING([if compiling long long to floating-point typecasts work]) AC_CACHE_VAL([hdf5_cv_llong_to_fp_cast_works], [hdf5_cv_llong_to_fp_cast_works=yes]) if test ${hdf5_cv_llong_to_fp_cast_works} = "yes"; then AC_DEFINE([LLONG_TO_FP_CAST_WORKS], [1], [Define if your system can compile long long to floating-point casts.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can convert from ## 'unsigned long long' to 'long double' without precision loss. ## (This flag should be set for all machines, except for FreeBSD(sleipnir) ## where the last 2 bytes of mantissa are lost when compiler tries to do ## the conversion, and Cygwin where compiler doesn't do rounding correctly.) ## AC_MSG_CHECKING([if converting unsigned long long to long double with precision]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ullong_to_ldouble_precision=${hdf5_cv_ullong_to_ldouble_precision=no} else AC_CACHE_VAL([hdf5_cv_ullong_to_ldouble_precision], [AC_TRY_RUN([ #include #include int main(void) { /* General variables */ int endian; int tst_value = 1; int ret = 0; /* For FreeBSD */ unsigned long long l = 0xa601e80bda85fcefULL; long double ld; unsigned char *c1, *c2; size_t size; /* For Cygwin */ unsigned long long l_cyg = 0xfffffffffffffff0ULL; long double ld_cyg; unsigned char *c2_cyg; size_t size_cyg; /* Determine this system's endianess */ c1 = (unsigned char*)calloc(1, sizeof(int)); memcpy((void*)c1, &tst_value, sizeof(int)); if(c1[0]==1) endian = 0; /* little endian */ else endian = 1; /* big endian */ /* For FreeBSD */ size = sizeof(long double); memset(&ld, 0, size); ld = (long double)l; c2 = (unsigned char*)calloc(1, size); memcpy((void*)c2, &ld, size); /* Test if the last 2 bytes of mantissa are lost. Mainly for FreeBSD on Intel * architecture(sleipnir) where it happens. */ /*if(endian==0 && c2[0]==0 && c2[1]==0)*/ /*little endian*/ if(endian==0 && c2[0]==0) { /*little endian*/ ret = 1; goto done; } /* For Cygwin */ size_cyg = sizeof(long double); memset(&ld_cyg, 0, size); ld_cyg = (long double)l_cyg; c2_cyg = (unsigned char*)calloc(1, size_cyg); memcpy((void*)c2_cyg, &ld_cyg, size_cyg); /* Test if the last 4 bytes(roughly) of mantissa are rounded up. Mainly for Cygwin * where the values like 0xffffffffffffffff, 0xfffffffffffffffe, ..., * 0xfffffffffffff000 ... are rounded up as 0x0000403f8000000000000000 * instead of 0x0000403effffffffffffffff, 0x0000403efffffffffffffffe, ..., * 0x0000403efffffffffffff000 ... */ if(endian==0 && c2_cyg[0]==0 && c2_cyg[1]==0 && c2_cyg[2]==0 && c2_cyg[3]==0) ret = 1; done: if(c1) free(c1); if(c2) free(c2); if(c2_cyg) free(c2_cyg); exit(ret); } ], [hdf5_cv_ullong_to_ldouble_precision=yes], [hdf5_cv_ullong_to_ldouble_precision=no],)]) fi if test ${hdf5_cv_ullong_to_ldouble_precision} = "yes"; then AC_DEFINE([ULLONG_TO_LDOUBLE_PRECISION], [1], [Define if your system can convert unsigned long long to long double with correct precision.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can handle overflow converting ## all floating-point to all integer types. ## (This flag should be set for all machines, except for Cray X1 where ## floating exception is generated when the floating-point value is greater ## than the maximal integer value). ## AC_MSG_CHECKING([if overflows normally converting floating-point to integer values]) AC_CACHE_VAL([hdf5_cv_fp_to_integer_overflow_works], [AC_TRY_RUN([ int main(void) { float f = 2147483648.0f; int i; i = (int)f; done: exit(0); } ], [hdf5_cv_fp_to_integer_overflow_works=yes], [hdf5_cv_fp_to_integer_overflow_works=no],)]) if test ${hdf5_cv_fp_to_integer_overflow_works} = "yes"; then AC_DEFINE([FP_TO_INTEGER_OVERFLOW_WORKS], [1], [Define if your system can handle overflow converting floating-point to integer values.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine is using a special algorithm to convert ## 'long double' to '(unsigned) long' values. (This flag should only be set for ## the IBM Power6 Linux. When the bit sequence of long double is ## 0x4351ccf385ebc8a0bfcc2a3c3d855620, the converted value of (unsigned)long ## is 0x004733ce17af227f, not the same as the library's conversion to 0x004733ce17af2282. ## The machine's conversion gets the correct value. We define the macro and disable ## this kind of test until we figure out what algorithm they use. ## AC_MSG_CHECKING([if using special algorithm to convert long double to (unsigned) long values]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ldouble_to_long_special=${hdf5_cv_ldouble_to_long_special=no} else AC_CACHE_VAL([hdf5_cv_ldouble_to_long_special], [AC_TRY_RUN([ int main(void) { long double ld = 20041683600089727.779961L; long ll; unsigned long ull; unsigned char s[16]; unsigned char s2[8]; int ret = 1; if(sizeof(long double) == 16 && sizeof(long) == 8) { /*make sure the long double type has 16 bytes in size and * 11 bits of exponent. If it is, *the bit sequence should be like below. It's not *a decent way to check but this info isn't available. */ memcpy(s, &ld, 16); if(s[0]==0x43 && s[1]==0x51 && s[2]==0xcc && s[3]==0xf3 && s[4]==0x85 && s[5]==0xeb && s[6]==0xc8 && s[7]==0xa0 && s[8]==0xbf && s[9]==0xcc && s[10]==0x2a && s[11]==0x3c) { /* Assign the hexadecimal value of long double type. */ s[0]=0x43; s[1]=0x51; s[2]=0xcc; s[3]=0xf3; s[4]=0x85; s[5]=0xeb; s[6]=0xc8; s[7]=0xa0; s[8]=0xbf; s[9]=0xcc; s[10]=0x2a; s[11]=0x3c; s[12]=0x3d; s[13]=0x85; s[14]=0x56; s[15]=0x20; memcpy(&ld, s, 16); ll = (long)ld; memcpy(s2, &ll, 8); /* The library's algorithm converts it to 0x 00 47 33 ce 17 af 22 82 * and gets wrong value 20041683600089730 on the IBM Power6 Linux. * But the IBM Power6 Linux converts it to 0x00 47 33 ce 17 af 22 7f * and gets the correct value 20041683600089727. It uses some special * algorithm. We're going to define the macro and skip the test until * we can figure out how they do it. */ if(s2[0]==0x00 && s2[1]==0x47 && s2[2]==0x33 && s2[3]==0xce && s2[4]==0x17 && s2[5]==0xaf && s2[6]==0x22 && s2[7]==0x7f) ret = 0; ull = (unsigned long)ld; memcpy(s2, &ull, 8); /* The unsigned long is the same as signed long. */ if(s2[0]==0x00 && s2[1]==0x47 && s2[2]==0x33 && s2[3]==0xce && s2[4]==0x17 && s2[5]==0xaf && s2[6]==0x22 && s2[7]==0x7f) ret = 0; } } done: exit(ret); } ], [hdf5_cv_ldouble_to_long_special=yes], [hdf5_cv_ldouble_to_long_special=no],)]) fi if test ${hdf5_cv_ldouble_to_long_special} = "yes"; then AC_DEFINE([LDOUBLE_TO_LONG_SPECIAL], [1], [Define if your system converts long double to (unsigned) long values with special algorithm.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine is using a special algorithm ## to convert some values of '(unsigned) long' to 'long double' values. ## (This flag should be off for all machines, except for IBM Power6 Linux, ## when the bit sequences are 003fff..., 007fff..., 00ffff..., 01ffff..., ## ..., 7fffff..., the compiler uses a unknown algorithm. We define a ## macro and skip the test for now until we know about the algorithm. ## AC_MSG_CHECKING([if using special algorithm to convert (unsigned) long to long double values]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_long_to_ldouble_special=${hdf5_cv_long_to_ldouble_special=no} else AC_CACHE_VAL([hdf5_cv_long_to_ldouble_special], [AC_TRY_RUN([ int main(void) { long double ld; long ll; unsigned long ull; unsigned char s[16]; int flag=0, ret=1; /*Determine if long double has 16 byte in size, 11 bit exponent, and *the bias is 0x3ff */ if(sizeof(long double) == 16) { ld = 1.0L; memcpy(s, &ld, 16); if(s[0]==0x3f && s[1]==0xf0 && s[2]==0x00 && s[3]==0x00 && s[4]==0x00 && s[5]==0x00 && s[6]==0x00 && s[7]==0x00) flag = 1; } if(flag==1 && sizeof(long)==8) { ll = 0x003fffffffffffffL; ld = (long double)ll; memcpy(s, &ld, 16); /* The library converts the value to 0x434fffffffffffff8000000000000000. * In decimal it is 18014398509481982.000000, one value short of the original. * The IBM Power6 Linux converts it to 0x4350000000000000bff0000000000000. * The value is correct in decimal. It uses some special * algorithm. We're going to define the macro and skip the test until * we can figure out how they do it. */ if(s[0]==0x43 && s[1]==0x50 && s[2]==0x00 && s[3]==0x00 && s[4]==0x00 && s[5]==0x00 && s[6]==0x00 && s[7]==0x00 && s[8]==0xbf && s[9]==0xf0 && s[10]==0x00 && s[11]==0x00 && s[12]==0x00 && s[13]==0x00 && s[14]==0x00 && s[15]==0x00) ret = 0; } if(flag==1 && sizeof(unsigned long)==8) { ull = 0xffffffffffffffffUL; ld = (long double)ull; memcpy(s, &ld, 16); /* Use a different value from signed long to test. The problem is the same * for both long and unsigned long. The value is 18446744073709551615. * The library converts the value to 0x43effffffffffffffe000000000000000. * In decimal it's 18446744073709548544.000000, very different from the original. * The IBM Power6 Linux converts it to 0x43f0000000000000bff0000000000000. * The value is correct in decimal. It uses some special * algorithm. We're going to define the macro and skip the test until * we can figure out how they do it. */ if(s[0]==0x43 && s[1]==0xf0 && s[2]==0x00 && s[3]==0x00 && s[4]==0x00 && s[5]==0x00 && s[6]==0x00 && s[7]==0x00 && s[8]==0xbf && s[9]==0xf0 && s[10]==0x00 && s[11]==0x00 && s[12]==0x00 && s[13]==0x00 && s[14]==0x00 && s[15]==0x00) ret = 0; } done: exit(ret); } ], [hdf5_cv_long_to_ldouble_special=yes], [hdf5_cv_long_to_ldouble_special=no],)]) fi if test ${hdf5_cv_long_to_ldouble_special} = "yes"; then AC_DEFINE([LONG_TO_LDOUBLE_SPECIAL], [1], [Define if your system can convert (unsigned) long to long double values with special algorithm.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## 'long double' to '(unsigned) long long' values. (This flag should be set for ## all machines, except for Mac OS 10.4 and SGI IRIX64 6.5. When the bit sequence ## of long double is 0x4351ccf385ebc8a0bfcc2a3c..., the values of (unsigned)long long ## start to go wrong on these two machines. Adjusting it higher to ## 0x4351ccf385ebc8a0dfcc... or 0x4351ccf385ebc8a0ffcc... will make the converted ## values wildly wrong. This test detects this wrong behavior and disable the test. ## AC_MSG_CHECKING([if correctly converting long double to (unsigned) long long values]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_ldouble_to_llong_accurate=${hdf5_cv_ldouble_to_llong_accurate=no} else AC_CACHE_VAL([hdf5_cv_ldouble_to_llong_accurate], [AC_TRY_RUN([ int main(void) { long double ld = 20041683600089727.779961L; long long ll; unsigned long long ull; unsigned char s[16]; int ret = 0; if(sizeof(long double) == 16) { /*make sure the long double type is the same as the failing type *which has 16 bytes in size and 11 bits of exponent. If it is, *the bit sequence should be like below. It's not *a decent way to check but this info isn't available. */ memcpy(s, &ld, 16); if(s[0]==0x43 && s[1]==0x51 && s[2]==0xcc && s[3]==0xf3 && s[4]==0x85 && s[5]==0xeb && s[6]==0xc8 && s[7]==0xa0 && s[8]==0xbf && s[9]==0xcc && s[10]==0x2a && s[11]==0x3c) { /*slightly adjust the bit sequence (s[8]=0xdf). The converted *values will go wild on Mac OS 10.4 and IRIX64 6.5.*/ s[0]=0x43; s[1]=0x51; s[2]=0xcc; s[3]=0xf3; s[4]=0x85; s[5]=0xeb; s[6]=0xc8; s[7]=0xa0; s[8]=0xdf; s[9]=0xcc; s[10]=0x2a; s[11]=0x3c; s[12]=0x3d; s[13]=0x85; s[14]=0x56; s[15]=0x20; memcpy(&ld, s, 16); ll = (long long)ld; ull = (unsigned long long)ld; if(ll != 20041683600089728 || ull != 20041683600089728) ret = 1; } } done: exit(ret); } ], [hdf5_cv_ldouble_to_llong_accurate=yes], [hdf5_cv_ldouble_to_llong_accurate=no],)]) fi if test ${hdf5_cv_ldouble_to_llong_accurate} = "yes"; then AC_DEFINE([LDOUBLE_TO_LLONG_ACCURATE], [1], [Define if your system can convert long double to (unsigned) long long values correctly.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine can accurately convert ## '(unsigned) long long' to 'long double' values. (This flag should be set for ## all machines, except for Mac OS 10.4, when the bit sequences are 003fff..., ## 007fff..., 00ffff..., 01ffff..., ..., 7fffff..., the converted values are twice ## as big as they should be. ## AC_MSG_CHECKING([if correctly converting (unsigned) long long to long double values]) if test ${ac_cv_sizeof_long_double} = 0; then hdf5_cv_llong_to_ldouble_correct=${hdf5_cv_llong_to_ldouble_correct=no} else AC_CACHE_VAL([hdf5_cv_llong_to_ldouble_correct], [AC_TRY_RUN([ int main(void) { long double ld; long long ll; unsigned long long ull; unsigned char s[16]; int flag=0, ret=0; /*Determine if long double has 16 byte in size, 11 bit exponent, and *the bias is 0x3ff */ if(sizeof(long double) == 16) { ld = 1.0L; memcpy(s, &ld, 16); if(s[0]==0x3f && s[1]==0xf0 && s[2]==0x00 && s[3]==0x00 && s[4]==0x00 && s[5]==0x00 && s[6]==0x00 && s[7]==0x00) flag = 1; } if(flag==1 && sizeof(long long)==8) { ll = 0x01ffffffffffffffLL; ld = (long double)ll; memcpy(s, &ld, 16); /*Check if the bit sequence is as supposed to be*/ if(s[0]!=0x43 || s[1]!=0x7f || s[2]!=0xff || s[3]!=0xff || s[4]!=0xff || s[5]!=0xff || s[6]!=0xff || s[7]!=0xff || s[8]!=0xf0 || s[9]!=0x00 || s[10]!=0x00 || s[11]!=0x00) ret = 1; } if(flag==1 && sizeof(unsigned long long)==8) { ull = 0x01ffffffffffffffULL; ld = (long double)ull; memcpy(s, &ld, 16); if(s[0]!=0x43 || s[1]!=0x7f || s[2]!=0xff || s[3]!=0xff || s[4]!=0xff || s[5]!=0xff || s[6]!=0xff || s[7]!=0xff || s[8]!=0xf0 || s[9]!=0x00 || s[10]!=0x00 || s[11]!=0x00) ret = 1; } done: exit(ret); } ], [hdf5_cv_llong_to_ldouble_correct=yes], [hdf5_cv_llong_to_ldouble_correct=no],)]) fi if test ${hdf5_cv_llong_to_ldouble_correct} = "yes"; then AC_DEFINE([LLONG_TO_LDOUBLE_CORRECT], [1], [Define if your system can convert (unsigned) long long to long double values correctly.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set the flag to indicate that the machine generates bad code ## for the H5VM_log2_gen() routine in src/H5VMprivate.h ## (This flag should be set to no for all machines, except for SGI IRIX64, ## where the cache value is set to yes in it's config file) ## AC_MSG_CHECKING([if bad code for log2 routine is generated]) AC_CACHE_VAL([hdf5_cv_bad_log2_code_generated], [hdf5_cv_bad_log2_code_generated=no]) if test ${hdf5_cv_bad_log2_code_generated} = "yes"; then AC_DEFINE([BAD_LOG2_CODE_GENERATED], [1], [Define if your system generates wrong code for log2 routine.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Set some variables for general configuration information to be saved ## and installed with the libraries. ## ## HDF5 version from the first line of the README.txt file. H5_VERSION="`cut -d' ' -f3 $srcdir/README.txt | head -1`" AC_SUBST([H5_VERSION]) ## Configuration date AC_SUBST([CONFIG_DATE]) CONFIG_DATE="`date`" ## User doing the configuration AC_SUBST([CONFIG_USER]) CONFIG_USER="`whoami`@`hostname`" if test -n "$ORGANIZATION"; then CONFIG_USER="$CONFIG_USER at $ORGANIZATION" fi ## Configuration mode (production, development, profile, etc) saved above. AC_SUBST([CONFIG_MODE]) ## Byte sex from the AC_C_BIGENDIAN macro. AC_SUBST([BYTESEX]) if test "X$ac_cv_c_bigendian" = "Xyes"; then BYTESEX="big-endian" else BYTESEX="little-endian" fi if test "X$ac_cv_c_bigendian" = "Xyes"; then WORDS_BIGENDIAN="yes" else WORDS_BIGENDIAN="no" fi AC_SUBST([WORDS_BIGENDIAN]) ## Parallel support? (set above except empty if none) PARALLEL=${PARALLEL:-no} ## Compiler with version information. This consists of the full path ## name of the compiler and the reported version number. AC_SUBST([CC_VERSION]) ## Strip anything that looks like a flag off of $CC CC_NOFLAGS=`echo $CC | sed 's/ -.*//'` if `echo $CC_NOFLAGS | grep ^/ >/dev/null 2>&1`; then CC_VERSION="$CC" else CC_VERSION="$CC"; for x in `echo $PATH | sed -e 's/:/ /g'`; do if test -x $x/$CC_NOFLAGS; then CC_VERSION="$x/$CC" break fi done fi if test -n "$cc_version_info"; then CC_VERSION="$CC_VERSION ( $cc_version_info)" fi AC_SUBST([FC_VERSION]) ## Strip anything that looks like a flag off of $FC FC_NOFLAGS=`echo $FC | sed 's/ -.*//'` if `echo $FC_NOFLAGS | grep ^/ >/dev/null 2>&1`; then FC_VERSION="$FC" else FC_VERSION="$FC"; for x in `echo $PATH | sed -e 's/:/ /g'`; do if test -x $x/$FC_NOFLAGS; then FC_VERSION="$x/$FC" break fi done fi if test -n "$fc_version_info"; then FC_VERSION="$FC_VERSION ( $fc_version_info)" fi AC_SUBST([CXX_VERSION]) ## Strip anything that looks like a flag off of $CXX CXX_NOFLAGS=`echo $CXX | sed 's/ -.*//'` if `echo $CXX_NOFLAGS | grep ^/ >/dev/null 2>&1`; then CXX_VERSION="$CXX" else CXX_VERSION="$FC"; for x in `echo $PATH | sed -e 's/:/ /g'`; do if test -x $x/$CXX_NOFLAGS; then CXX_VERSION="$x/$CXX" break fi done fi if test -n "$cxx_version_info"; then CXX_VERSION="$CXX_VERSION ( $cxx_version_info)" fi ## ---------------------------------------------------------------------- ## Where is the root of the source tree. Give an absolute address so ## we can find it no matter which directory of the distribution is our ## current directory. The built-in pwd fails on some systems, but the ## /bin/pwd version works OK. ## if test -x /bin/pwd; then pwd=/bin/pwd else pwd=pwd fi AC_SUBST([ROOT]) ROOT="`$pwd`" ## ---------------------------------------------------------------------- ## Move any compiler-specific libraries into the main LIBS varaible. ## LIBS="$DEFAULT_LIBS $LIBS" ## ---------------------------------------------------------------------- ## Determine the runtime libraries we may need to include in the ## libtools command so that executables will find the correct dynamic ## libraries. ## AC_SUBST([DYNAMIC_DIRS]) DYNAMIC_DIRS="" if test -n "$AM_LDFLAGS $LDFLAGS"; then for d in $AM_LDFLAGS $LDFLAGS ; do case "$d" in -L*) d="`echo $d | sed -e 's/-L//g'`" case "$d" in .*) ## If the path isn't absolute, make it so by ## prepending the ROOT directory to it. d=${ROOT}/$d ;; esac DYNAMIC_DIRS="-R${d} $DYNAMIC_DIRS" ;; esac done fi if test -n "$AM_CPPFLAGS"; then TEMP_CPPFLAGS="" for d in $AM_CPPFLAGS ; do case "$d" in -I.*) ## If the path isn't absolute, make it so by prepending ## the ROOT directory to it. d="`echo $d | sed -e 's/-I//g'`" d="-I${ROOT}/${d}" ;; esac TEMP_CPPFLAGS="$d $TEMP_CPPFLAGS" done AM_CPPFLAGS=$TEMP_CPPFLAGS fi ## ---------------------------------------------------------------------- ## Check if they would like the High Level library compiled ## AC_SUBST(HL) HL="" ## name of fortran folder inside "hl", if FORTRAN compile is requested AC_SUBST(HL_FOR) HL_FOR="" AC_MSG_CHECKING([if high level library is enabled]) AC_ARG_ENABLE([hl], [AS_HELP_STRING([--enable-hl], [Enable the high level library [default=yes]])], [HDF5_HL=$enableval], [HDF5_HL=yes]) if test "X$HDF5_HL" = "Xyes"; then echo "yes" HL="hl" AC_DEFINE([INCLUDE_HL], [1], [Define if HDF5's high-level library headers should be included in hdf5.h]) ## Check if Fortran's default real is double precision. If it is and HL is being built then configure ## should fail due to bug HDFFV-889. if test "X$FORTRAN_DEFAULT_REALisDBLE" = "Xyes"; then AC_MSG_ERROR([Fortran high-level routines are not supported when the default REAL is DOUBLE PRECISION, use configure option --disable-hl.]) fi else echo "no" fi ## ---------------------------------------------------------------------- ## Some programs shouldn't be built by default (e.g., programs to generate ## data files used by tests, some optional tests). ## Check if they want such programs built anyway. ## AC_MSG_CHECKING([additional programs should be built]) AC_ARG_ENABLE([build-all], [AS_HELP_STRING([--enable-build-all], [Build helper programs that only developers should need [default=no]])], [BUILD_ALL=$enableval], [BUILD_ALL=no]) if test "X$BUILD_ALL" = "Xyes"; then echo "yes" else echo "no" fi AM_CONDITIONAL([BUILD_ALL_CONDITIONAL], [test "X$BUILD_ALL" = "Xyes"]) ## ---------------------------------------------------------------------- ## Enable deprecated public API symbols ## AC_SUBST([DEPRECATED_SYMBOLS]) AC_MSG_CHECKING([if deprecated public symbols are available]); AC_ARG_ENABLE([deprecated-symbols], [AS_HELP_STRING([--enable-deprecated-symbols], [Enable deprecated public API symbols [default=yes]])], [DEPREC_SYMBOLS=$enableval], [DEPREC_SYMBOLS=yes]) case "X-$DEPREC_SYMBOLS" in X-yes) AC_MSG_RESULT([yes]) DEPRECATED_SYMBOLS=yes ;; X-no|*) AC_MSG_RESULT([no]) DEPRECATED_SYMBOLS=no AC_DEFINE([NO_DEPRECATED_SYMBOLS], [1], [Define if deprecated public API symbols are disabled]) ;; esac ## -------------------------------------------------------------------------- ## Which version of the public APIs should the 'base' versioned symbols use? ## AC_SUBST([DEFAULT_API_VERSION]) AC_MSG_CHECKING([which version of public symbols to use by default]) AC_ARG_WITH([default-api-version], [AS_HELP_STRING([--with-default-api-version=(v16|v18|v110)], [Specify default release version of public symbols [default=v110]])],, [withval=v110]) if test "X$withval" = "Xv16"; then AC_MSG_RESULT([v16]) DEFAULT_API_VERSION=v16 AC_DEFINE([USE_16_API_DEFAULT], [1], [Define using v1.6 public API symbols by default]) elif test "X$withval" = "Xv18"; then AC_MSG_RESULT([v18]) DEFAULT_API_VERSION=v18 elif test "X$withval" = "Xv110"; then AC_MSG_RESULT([v110]) DEFAULT_API_VERSION=v110 else AC_MSG_ERROR([invalid version of public symbols given]) fi ## It's an error to try to disable deprecated public API symbols while ## choosing an older version of the public API as the default. However, ## if the user insists on doing this via the --enable-unsupported configure ## flag, we'll let them. if test "X${ALLOW_UNSUPPORTED}" != "Xyes"; then if test "X${DEFAULT_API_VERSION}" != "Xv110" -a "X${DEPRECATED_SYMBOLS}" = "Xno" ; then AC_MSG_ERROR([Removing old public API symbols not allowed when using them as default public API symbols. Use --enable-unsupported to override this error.]) fi fi ## ---------------------------------------------------------------------- ## Enable strict file format checks ## AC_SUBST([STRICT_FORMAT_CHECKS]) AC_MSG_CHECKING([whether to perform strict file format checks]); AC_ARG_ENABLE([strict-format-checks], [AS_HELP_STRING([--enable-strict-format-checks], [Enable strict file format checks, default=yes if debug flag is enabled, no otherwise])], [STRICT_CHECKS=$enableval]) ## Default to yes if debug is enabled if test "X-$STRICT_CHECKS" = X- ; then if test -z "$DEBUG_PKG" ; then STRICT_CHECKS=no else STRICT_CHECKS=yes fi fi case "X-$STRICT_CHECKS" in X-yes) AC_MSG_RESULT([yes]) STRICT_FORMAT_CHECKS=yes AC_DEFINE([STRICT_FORMAT_CHECKS], [1], [Define if strict file format checks are enabled]) ;; X-no|*) AC_MSG_RESULT([no]) STRICT_FORMAT_CHECKS=no ;; esac ## ---------------------------------------------------------------------- ## Enable embedded library information ## AC_MSG_CHECKING([whether to have library information embedded in the executables]) AC_ARG_ENABLE([embedded-libinfo], [AS_HELP_STRING([--enable-embedded-libinfo], [Enable embedded library information [default=yes]])], [enable_embedded_libinfo=$enableval], [enable_embedded_libinfo=yes]) if test "${enable_embedded_libinfo}" = "yes"; then AC_MSG_RESULT([yes]) AC_DEFINE([HAVE_EMBEDDED_LIBINFO], [1], [Define if library information should be embedded in the executables]) else AC_MSG_RESULT([no]) fi ## ---------------------------------------------------------------------- ## Check if pointer alignments are enforced ## AC_MSG_CHECKING([if alignment restrictions are strictly enforced]) AC_RUN_IFELSE([ AC_LANG_PROGRAM([ #include #include typedef struct { size_t len; void *p; } hvl_t; ], [ char *chp = "beefs"; char **chpp = malloc (2 * sizeof (char *)); char **chpp2; hvl_t vl = { 12345, (void *) chp }; hvl_t *vlp; hvl_t *vlp2; memcpy ((void *) ((char *) chpp + 1), &chp, sizeof (char *)); chpp2 = (char **) ((char *) chpp + 1); if (strcmp (*chpp2, chp)) { free (chpp); return 1; } free (chpp); vlp = malloc (2 * sizeof (hvl_t)); memcpy ((void *) ((char *) vlp + 1), &vl, sizeof (hvl_t)); vlp2 = (hvl_t *) ((char *) vlp + 1); if (vlp2->len != vl.len || vlp2->p != vl.p) { free (vlp); return 1; } free (vlp); ]) ], [ AC_DEFINE([NO_ALIGNMENT_RESTRICTIONS], [1], [Define if we can violate pointer alignment restrictions]) AC_MSG_RESULT([no]) ], [ AC_MSG_RESULT([yes]) ], [ AC_MSG_RESULT([unknown, assuming yes]) ]) ## ---------------------------------------------------------------------- ## Restore user's CFLAGS. CFLAGS="$saved_user_CFLAGS" FCFLAGS="$saved_user_FCFLAGS" CXXFLAGS="$saved_user_CXXFLAGS" CPPFLAGS="$saved_user_CPPFLAGS" LDFLAGS="$saved_user_LDFLAGS" ## ---------------------------------------------------------------------- ## Create automake conditionals to tell automake makefiles which directories ## need to be compiled AM_CONDITIONAL([BUILD_CXX_CONDITIONAL], [test "X$HDF_CXX" = "Xyes"]) AM_CONDITIONAL([BUILD_PARALLEL_CONDITIONAL], [test -n "$TESTPARALLEL"]) AM_CONDITIONAL([BUILD_FORTRAN_CONDITIONAL], [test "X$HDF_FORTRAN" = "Xyes"]) AM_CONDITIONAL([BUILD_HDF5_HL_CONDITIONAL], [test "X$HDF5_HL" = "Xyes"]) ## ---------------------------------------------------------------------- ## Build the Makefiles. ## ## The directory search list AC_SUBST([SEARCH]) SEARCH='$(srcdir) $(top_builddir)/src $(top_srcdir)/src' cmd='echo $SEARCH |sed "s/ /'$SEARCH_SEP'/g"' SEARCH="$SEARCH_RULE`eval $cmd`" export SEARCH ## We don't need to say when we're entering directories if we're using ## GNU make because make does it for us. if test "X$GMAKE" = "Xyes"; then AC_SUBST([SETX]) SETX=":" else AC_SUBST([SETX]) SETX="set -x" fi ## Some cleanup stuff rm -f conftest conftest.o conftest.c dummy.o *.mod ## Build config.status, touch the stamp files, and build all the Makefiles. ## The order is such that the first `make' does not need to update any ## configuration information. See config/commence.in for the order in which ## things need to be done. ## First the stamp1 file for H5config.h.in mkdir ./config >/dev/null 2>&1 touch ./config/stamp1 ## Then the config.status file (but not makefiles) saved_no_create=$no_create no_create=yes PARALLEL_MAKE="" FORTRAN_PARALLEL_MAKE="" if test -n "$TESTPARALLEL"; then PARALLEL_MAKE="$TESTPARALLEL/Makefile" if test "X$HDF_FORTRAN" = "Xyes"; then FORTRAN_PARALLEL_MAKE=fortran/$TESTPARALLEL/Makefile fi fi LT_OUTPUT no_create=$saved_no_create ## Then the stamp2 file for H5config.h touch ./config/stamp2 ## Finally the makefiles test "$no_create" = yes || ${CONFIG_SHELL-/bin/sh} $CONFIG_STATUS || exit 1 ## Post processing to patch up some deficiencies in libtool case $host_os in linux* | freebsd* ) ## If gcc is not used, need to set $wl to use "-Wl," if $CC -v 2>&1 | grep '^gcc' > /dev/null ; then : using gcc else echo 'fixing $wl in' $ofile ed - $ofile < /dev/null g/^wl=""/s//wl="-Wl,"/ w q EOF fi ;; esac ## Are we compiling static libraries, shared libraries, or both? This ## is only used for the libhdf5.settings file. We can't just look at ## $enable_static and $enable_shared because if they're yes the ltconfig ## might have decided that one or the other is simply not possible. ## Therefore we have to ask the generated `libtool' shell script ## which 'features' it has enabled. if (./libtool --features | grep '^enable shared libraries' > /dev/null); then enable_shared=yes else enable_shared=no fi if (./libtool --features | grep '^enable static libraries' > /dev/null); then enable_static=yes else enable_static=no fi if test "X$enable_static" = "Xyes" && test "X$enable_shared" = "Xyes"; then STATIC_SHARED="static, shared" elif test "X$enable_static" = "Xyes"; then STATIC_SHARED="static" elif test "X$enable_shared" = "Xyes"; then STATIC_SHARED="shared" else STATIC_SHARED="none" fi ## ---------------------------------------------------------------------- ## Set a macro if shared library is enabled. ## AM_CONDITIONAL([HAVE_SHARED_CONDITIONAL], [test "X$enable_shared" = "Xyes"]) AC_CONFIG_FILES([src/libhdf5.settings Makefile src/Makefile test/Makefile test/testcheck_version.sh test/testerror.sh test/H5srcdir_str.h test/testlibinfo.sh test/testlinks_env.sh test/test_plugin.sh testpar/Makefile tools/Makefile tools/h5dump/Makefile tools/h5dump/testh5dump.sh tools/h5dump/testh5dumppbits.sh tools/h5dump/testh5dumpxml.sh tools/h5ls/testh5ls.sh tools/h5import/Makefile tools/h5import/h5importtestutil.sh tools/h5diff/Makefile tools/h5diff/testh5diff.sh tools/h5diff/testph5diff.sh tools/h5jam/Makefile tools/h5jam/testh5jam.sh tools/h5repack/Makefile tools/h5repack/h5repack.sh tools/h5repack/h5repack_plugin.sh tools/h5ls/Makefile tools/h5copy/Makefile tools/h5copy/testh5copy.sh tools/lib/Makefile tools/misc/Makefile tools/misc/h5cc tools/misc/testh5mkgrp.sh tools/misc/testh5repart.sh tools/h5stat/testh5stat.sh tools/h5stat/Makefile tools/perform/Makefile examples/Makefile examples/run-c-ex.sh examples/testh5cc.sh c++/Makefile c++/src/Makefile c++/src/h5c++ c++/test/Makefile c++/test/H5srcdir_str.h c++/examples/Makefile c++/examples/run-c++-ex.sh c++/examples/testh5c++.sh fortran/Makefile fortran/src/h5fc fortran/src/Makefile fortran/test/Makefile fortran/testpar/Makefile fortran/examples/Makefile fortran/examples/run-fortran-ex.sh fortran/examples/testh5fc.sh hl/Makefile hl/src/Makefile hl/test/Makefile hl/test/H5srcdir_str.h hl/tools/Makefile hl/tools/gif2h5/Makefile hl/tools/gif2h5/h52giftest.sh hl/examples/Makefile hl/examples/run-hlc-ex.sh hl/c++/Makefile hl/c++/src/Makefile hl/c++/test/Makefile hl/c++/examples/Makefile hl/c++/examples/run-hlc++-ex.sh hl/fortran/Makefile hl/fortran/src/Makefile hl/fortran/test/Makefile hl/fortran/examples/Makefile hl/fortran/examples/run-hlfortran-ex.sh]) AC_OUTPUT chmod 755 tools/misc/h5cc if test "X$HDF_FORTRAN" = "Xyes"; then chmod 755 fortran/src/h5fc fi if test "X$HDF_CXX" = "Xyes"; then chmod 755 c++/src/h5c++ fi ## We don't want inline defined for C++ compilers ## Don't worry about the C++ ifdef wrappers in the H5pubconf file, since ## 'H5_inline' isn't a C++ keyword. cat >> src/H5config.h <