dnl ------------------------------------------------------------------------- dnl ------------------------------------------------------------------------- dnl dnl Copyright by The HDF Group. dnl All rights reserved. dnl dnl This file is part of HDF5. The full HDF5 copyright notice, including dnl terms governing use, modification, and redistribution, is contained in dnl the COPYING file, which can be found at the root of the source code dnl distribution tree, or in https://www.hdfgroup.org/licenses. dnl If you do not have access to either file, you may request a copy from dnl help@hdfgroup.org dnl dnl ------------------------------------------------------------------------- dnl ------------------------------------------------------------------------- dnl ********************************* dnl PURPOSE dnl Contains Macros for HDF5 Fortran dnl ********************************* dnl dnl Special characteristics that have no autoconf counterpart but that dnl we need as part of the C++ support. To distinguish these, they dnl have a [PAC] prefix. dnl dnl ------------------------------------------------------------------------- dnl dnl PAC_FC_SEARCH_LIST - expands to a whitespace separated list of modern dnl fortran compilers for use with AC_PROG_FC that is more suitable for HPC dnl software packages AC_DEFUN([PAC_FC_SEARCH_LIST], [gfortran ifort pgf90 pathf90 pathf95 xlf90 xlf95 xlf2003 f90 epcf90 f95 fort lf95 g95 ifc efc gfc]) dnl dnl PAC_PROG_FC([COMPILERS]) dnl dnl COMPILERS is a space separated list of Fortran compilers to search for. dnl dnl Compilers are ordered by dnl 1. F90, F95, F2003 dnl 2. Good/tested native compilers, bad/untested native compilers dnl 3. Wrappers around f2c go last. dnl dnl frt is the Fujitsu Fortran compiler. dnl pgf90 are the Portland Group F90 compilers. dnl xlf/xlf90/xlf95/xlf2003 are IBM (AIX) F90/F95/F2003 compilers. dnl lf95 is the Lahey-Fujitsu compiler. dnl fl32 is the Microsoft Fortran "PowerStation" compiler. dnl epcf90 is the "Edinburgh Portable Compiler" F90. dnl fort is the Compaq Fortran 90 (now 95) compiler for Tru64 and Linux/Alpha. dnl pathf90 is the Pathscale Fortran 90 compiler dnl ifort is another name for the Intel f90 compiler dnl efc - An older Intel compiler (?) dnl ifc - An older Intel compiler dnl fc - A compiler on some unknown system. This has been removed because dnl it may also be the name of a command for something other than dnl the Fortran compiler (e.g., fc=file system check!) dnl gfortran - The GNU Fortran compiler (not the same as g95) dnl gfc - An alias for gfortran recommended in cygwin installations dnl NOTE: this macro suffers from a basically intractable "expanded before it dnl was required" problem when libtool is also used dnl [1] MPICH.org dnl dnl See if the fortran compiler supports the intrinsic module "ISO_FORTRAN_ENV" AC_DEFUN([PAC_PROG_FC_ISO_FORTRAN_ENV],[ CHECK_ISO_FORTRAN_ENV="no" AC_MSG_CHECKING([if Fortran compiler supports intrinsic module ISO_FORTRAN_ENV (F08)]) TEST_SRC="`sed -n '/PROGRAM PROG_FC_ISO_FORTRAN_ENV/,/END PROGRAM PROG_FC_ISO_FORTRAN_ENV/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC],[AC_MSG_RESULT([yes]) CHECK_ISO_FORTRAN_ENV="yes"], [AC_MSG_RESULT([no])]) ]) dnl See if the fortran compiler supports the intrinsic function "SIZEOF" AC_DEFUN([PAC_PROG_FC_SIZEOF],[ HAVE_SIZEOF_FORTRAN="no" AC_MSG_CHECKING([if Fortran compiler supports intrinsic SIZEOF]) TEST_SRC="`sed -n '/PROGRAM PROG_FC_SIZEOF/,/END PROGRAM PROG_FC_SIZEOF/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC],[AC_MSG_RESULT([yes]) HAVE_SIZEOF_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl See if the fortran compiler supports the intrinsic function "C_SIZEOF" AC_DEFUN([PAC_PROG_FC_C_SIZEOF],[ HAVE_C_SIZEOF_FORTRAN="no" AC_MSG_CHECKING([if Fortran compiler supports intrinsic C_SIZEOF]) TEST_SRC="`sed -n '/PROGRAM PROG_FC_C_SIZEOF/,/END PROGRAM PROG_FC_C_SIZEOF/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) HAVE_C_SIZEOF_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl See if the fortran compiler supports the intrinsic function "STORAGE_SIZE" AC_DEFUN([PAC_PROG_FC_STORAGE_SIZE],[ HAVE_STORAGE_SIZE_FORTRAN="no" AC_MSG_CHECKING([if Fortran compiler supports intrinsic STORAGE_SIZE]) TEST_SRC="`sed -ne '/PROGRAM PROG_FC_STORAGE_SIZE/,/END PROGRAM PROG_FC_STORAGE_SIZE/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) HAVE_STORAGE_SIZE_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl See if the fortran compiler supports allocatable character AC_DEFUN([PAC_HAVE_CHAR_ALLOC],[ HAVE_CHAR_ALLOC_FORTRAN="no" AC_MSG_CHECKING([if Fortran compiler supports allocatable character]) TEST_SRC="`sed -ne '/PROGRAM PROG_CHAR_ALLOC/,/END PROGRAM PROG_CHAR_ALLOC/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) HAVE_CHAR_ALLOC_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl Check to see C_LONG_DOUBLE is available AC_DEFUN([PAC_PROG_FC_HAVE_C_LONG_DOUBLE],[ HAVE_C_LONG_DOUBLE_FORTRAN="no" AC_MSG_CHECKING([if Fortran compiler supports intrinsic C_LONG_DOUBLE]) TEST_SRC="" TEST_SRC="`sed -n '/PROGRAM PROG_FC_HAVE_C_LONG_DOUBLE/,/END PROGRAM PROG_FC_HAVE_C_LONG_DOUBLE/p' $srcdir/m4/aclocal_fc.f90`" AC_LINK_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) HAVE_C_LONG_DOUBLE_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl Check if C_LONG_DOUBLE is different from C_DOUBLE if test "X$FORTRAN_HAVE_C_LONG_DOUBLE" = "Xyes"; then AC_DEFUN([PAC_PROG_FC_C_LONG_DOUBLE_EQ_C_DOUBLE],[ C_LONG_DOUBLE_IS_UNIQUE_FORTRAN="no" AC_MSG_CHECKING([if Fortran C_LONG_DOUBLE is different from C_DOUBLE]) TEST_SRC="`sed -n '/MODULE type_mod/,/END PROGRAM PROG_FC_C_LONG_DOUBLE_EQ_C_DOUBLE/p' $srcdir/m4/aclocal_fc.f90`" AC_COMPILE_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) C_LONG_DOUBLE_IS_UNIQUE_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) fi dnl Check if C_BOOL is different from default LOGICAL AC_DEFUN([PAC_PROG_FC_C_BOOL_EQ_LOGICAL],[ C_BOOL_IS_UNIQUE_FORTRAN="no" AC_MSG_CHECKING([if Fortran C_BOOL is different from default LOGICAL]) TEST_SRC="`sed -n '/MODULE l_type_mod/,/END PROGRAM PROG_FC_C_BOOL_EQ_LOGICAL/p' $srcdir/m4/aclocal_fc.f90`" AC_COMPILE_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) C_BOOL_IS_UNIQUE_FORTRAN="yes"], [AC_MSG_RESULT([no])]) ]) dnl Checking if the compiler supports the required Fortran 2003 features and dnl disable Fortran 2003 if it does not. AC_DEFUN([PAC_PROG_FC_HAVE_F2003_REQUIREMENTS],[ HAVE_F2003_REQUIREMENTS="no" AC_MSG_CHECKING([if Fortran compiler version compatible with Fortran 2003]) TEST_SRC="`sed -n '/PROG_FC_HAVE_F2003_REQUIREMENTS/,/END PROGRAM PROG_FC_HAVE_F2003_REQUIREMENTS/p' $srcdir/m4/aclocal_fc.f90`" AC_COMPILE_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes]) HAVE_F2003_REQUIREMENTS="yes"], [AC_MSG_RESULT([no])]) ]) dnl ------------------------------------------------------------------------- dnl AC_F9X_MODS() dnl dnl Check how F9X handles modules. This macro also checks which dnl command-line option to use to include the module once it's built. dnl AC_DEFUN([AC_F9X_MODS], [AC_MSG_CHECKING(what $FC does with modules) AC_LANG_PUSH(Fortran) test -d conftestdir || mkdir conftestdir cd conftestdir rm -rf * cat >conftest.$ac_ext <&1 if test "$modfiles" = file.o; then echo $ac_n "checking whether $FC -em is saner""... $ac_c" 1>&6 OLD_FCFLAGS=$FCFLAGS FCFLAGS="$FCFLAGS -em" eval $ac_compile modfiles="" for f in file.o module.mod MODULE.mod module.M MODULE.M; do test -f $f && modfiles="$f" done if test "$modfiles" = "file.o"; then FCFLAGS=$OLD_FCFLAGS echo no 6>&1 else echo yes 6>&1 fi fi cd .. AC_MSG_CHECKING(how $FC finds modules) for flag in "-I" "-M" "-p"; do cat >conftest.$ac_ext <&6 FCFLAGS="$F9XMODFLAG. $FCFLAGS" else echo unknown 1>&6 fi AC_SUBST(F9XMODFLAG) AC_SUBST(F9XMODEXT) AC_LANG_POP(Fortran) ]) dnl ---------------------- dnl Parallel Test Programs dnl ---------------------- dnl Try link a simple MPI program. AC_DEFUN([PAC_PROG_FC_MPI_CHECK],[ dnl Change to the Fortran 90 language AC_LANG_PUSH(Fortran) TEST_SRC="`sed -n '/PROGRAM FC_MPI_CHECK/,/END PROGRAM FC_MPI_CHECK/p' $srcdir/m4/aclocal_fc.f90`" dnl Try link a simple MPI program. AC_MSG_CHECKING([whether a simple MPI-IO Fortran program can be linked]) AC_LINK_IFELSE([$TEST_SRC], [AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no]) AC_MSG_ERROR([unable to link a simple MPI-IO Fortran program])]) dnl Change to the C language AC_LANG_POP(Fortran) ]) dnl ------------------------------------------------------ dnl Determine the available KINDs for REALs and INTEGERs dnl ------------------------------------------------------ dnl dnl This is a runtime test. dnl AC_DEFUN([PAC_FC_AVAIL_KINDS],[ AC_LANG_PUSH([Fortran]) TEST_SRC="`sed -n '/PROGRAM FC_AVAIL_KINDS/,/END PROGRAM FC_AVAIL_KINDS/p' $srcdir/m4/aclocal_fc.f90`" AC_RUN_IFELSE([$TEST_SRC], [ dnl The output from the above program will be: dnl -- LINE 1 -- valid integer kinds (comma separated list) dnl -- LINE 2 -- valid real kinds (comma separated list) dnl -- LINE 3 -- max decimal precision for reals dnl -- LINE 4 -- number of valid integer kinds dnl -- LINE 5 -- number of valid real kinds pac_validIntKinds=$(./conftest$EXEEXT 2>&1 | sed -n '1p') pac_validRealKinds=$(./conftest$EXEEXT 2>&1 | sed -n '2p') PAC_FC_MAX_REAL_PRECISION=$(./conftest$EXEEXT 2>&1 | sed -n '3p') AC_DEFINE_UNQUOTED([PAC_FC_MAX_REAL_PRECISION], $PAC_FC_MAX_REAL_PRECISION, [Define Fortran Maximum Real Decimal Precision]) PAC_FC_ALL_INTEGER_KINDS="{`echo $pac_validIntKinds`}" PAC_FC_ALL_REAL_KINDS="{`echo $pac_validRealKinds`}" PAC_FORTRAN_NUM_INTEGER_KINDS=$(./conftest$EXEEXT 2>&1 | sed -n '4p') H5CONFIG_F_NUM_IKIND="INTEGER, PARAMETER :: num_ikinds = `echo $PAC_FORTRAN_NUM_INTEGER_KINDS`" H5CONFIG_F_IKIND="INTEGER, DIMENSION(1:num_ikinds) :: ikind = (/`echo $pac_validIntKinds`/)" H5CONFIG_F_NUM_RKIND="INTEGER, PARAMETER :: num_rkinds = $(./conftest$EXEEXT 2>&1 | sed -n '5p')" H5CONFIG_F_RKIND="INTEGER, DIMENSION(1:num_rkinds) :: rkind = (/`echo $pac_validRealKinds`/)" AC_DEFINE_UNQUOTED([H5CONFIG_F_NUM_RKIND], $H5CONFIG_F_NUM_RKIND, [Define number of valid Fortran REAL KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_NUM_IKIND], $H5CONFIG_F_NUM_IKIND, [Define number of valid Fortran INTEGER KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_RKIND], $H5CONFIG_F_RKIND, [Define valid Fortran REAL KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_IKIND], $H5CONFIG_F_IKIND, [Define valid Fortran INTEGER KINDs]) AC_MSG_CHECKING([for Number of Fortran INTEGER KINDs]) AC_MSG_RESULT([$PAC_FORTRAN_NUM_INTEGER_KINDS]) AC_MSG_CHECKING([for Fortran INTEGER KINDs]) AC_MSG_RESULT([$PAC_FC_ALL_INTEGER_KINDS]) AC_MSG_CHECKING([for Fortran REAL KINDs]) AC_MSG_RESULT([$PAC_FC_ALL_REAL_KINDS]) AC_MSG_CHECKING([for Fortran REALs maximum decimal precision]) AC_MSG_RESULT([$PAC_FC_MAX_REAL_PRECISION]) ],[ AC_MSG_RESULT([Error]) AC_MSG_ERROR([Failed to run Fortran program to determine available KINDs]) ],[]) AC_LANG_POP([Fortran]) ]) dnl -------------------------------------------------------------- dnl Determine the available KINDs for REALs, INTEGERs and LOGICALS dnl -------------------------------------------------------------- dnl dnl This is a runtime test. dnl AC_DEFUN([PAC_FC_AVAIL_KINDS_F08],[ AC_LANG_PUSH([Fortran]) TEST_SRC="`sed -n '/PROGRAM FC08_AVAIL_KINDS/,/END PROGRAM FC08_AVAIL_KINDS/p' $srcdir/m4/aclocal_fc.f90`" AC_RUN_IFELSE([$TEST_SRC], [ dnl The output from the above program will be: dnl -- LINE 1 -- valid integer kinds (comma separated list) dnl -- LINE 2 -- valid real kinds (comma separated list) dnl -- LINE 3 -- max decimal precision for reals dnl -- LINE 4 -- number of valid integer kinds dnl -- LINE 5 -- number of valid real kinds dnl -- LINE 6 -- number of valid logical kinds dnl -- LINE 7 -- valid logical kinds (comma separated list) pac_validIntKinds=$(./conftest$EXEEXT 2>&1 | sed -n '1p') pac_validRealKinds=$(./conftest$EXEEXT 2>&1 | sed -n '2p') PAC_FC_MAX_REAL_PRECISION=$(./conftest$EXEEXT 2>&1 | sed -n '3p') AC_DEFINE_UNQUOTED([PAC_FC_MAX_REAL_PRECISION], $PAC_FC_MAX_REAL_PRECISION, [Define Fortran Maximum Real Decimal Precision]) PAC_FC_ALL_INTEGER_KINDS="{`echo $pac_validIntKinds`}" PAC_FC_ALL_REAL_KINDS="{`echo $pac_validRealKinds`}" PAC_FORTRAN_NUM_INTEGER_KINDS=$(./conftest$EXEEXT 2>&1 | sed -n '4p') H5CONFIG_F_NUM_IKIND="INTEGER, PARAMETER :: num_ikinds = `echo $PAC_FORTRAN_NUM_INTEGER_KINDS`" H5CONFIG_F_IKIND="INTEGER, DIMENSION(1:num_ikinds) :: ikind = (/`echo $pac_validIntKinds`/)" H5CONFIG_F_NUM_RKIND="INTEGER, PARAMETER :: num_rkinds = $(./conftest$EXEEXT 2>&1 | sed -n '5p')" H5CONFIG_F_RKIND="INTEGER, DIMENSION(1:num_rkinds) :: rkind = (/`echo $pac_validRealKinds`/)" AC_DEFINE_UNQUOTED([H5CONFIG_F_NUM_RKIND], $H5CONFIG_F_NUM_RKIND, [Define number of valid Fortran REAL KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_NUM_IKIND], $H5CONFIG_F_NUM_IKIND, [Define number of valid Fortran INTEGER KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_RKIND], $H5CONFIG_F_RKIND, [Define valid Fortran REAL KINDs]) AC_DEFINE_UNQUOTED([H5CONFIG_F_IKIND], $H5CONFIG_F_IKIND, [Define valid Fortran INTEGER KINDs]) PAC_FORTRAN_NUM_LOGICAL_KINDS=$(./conftest$EXEEXT 2>&1 | sed -n '6p') pac_validLogicalKinds=$(./conftest$EXEEXT 2>&1 | sed -n '7p') PAC_FC_ALL_LOGICAL_KINDS="{`echo $pac_validLogicalKinds`}" AC_MSG_CHECKING([for Number of Fortran INTEGER KINDs]) AC_MSG_RESULT([$PAC_FORTRAN_NUM_INTEGER_KINDS]) AC_MSG_CHECKING([for Fortran INTEGER KINDs]) AC_MSG_RESULT([$PAC_FC_ALL_INTEGER_KINDS]) AC_MSG_CHECKING([for Fortran REAL KINDs]) AC_MSG_RESULT([$PAC_FC_ALL_REAL_KINDS]) AC_MSG_CHECKING([for Fortran REALs maximum decimal precision]) AC_MSG_RESULT([$PAC_FC_MAX_REAL_PRECISION]) AC_MSG_CHECKING([for Number of Fortran LOGICAL KINDs]) AC_MSG_RESULT([$PAC_FORTRAN_NUM_LOGICAL_KINDS]) AC_MSG_CHECKING([for Fortran LOGICAL KINDs]) AC_MSG_RESULT([$PAC_FC_ALL_LOGICAL_KINDS]) ],[ AC_MSG_RESULT([Error]) AC_MSG_ERROR([Failed to run Fortran program to determine available KINDs]) ],[]) AC_LANG_POP([Fortran]) ]) AC_DEFUN([PAC_FIND_MPI_LOGICAL_KIND],[ AC_REQUIRE([PAC_FC_AVAIL_KINDS]) AC_MSG_CHECKING([default Fortran KIND of LOGICAL in MPI]) AC_LANG_PUSH([Fortran]) saved_FCFLAGS=$FCFLAGS check_Intel="`$FC -V 2>&1 |grep '^Intel'`" if test X != "X$check_Intel"; then FCFLAGS="-warn error" else FCFLAGS="" fi for kind in `echo $pac_validLogicalKinds | sed -e 's/,/ /g'`; do AC_COMPILE_IFELSE([ PROGRAM main USE MPI IMPLICIT NONE LOGICAL(KIND=$kind) :: flag INTEGER(KIND=MPI_INTEGER_KIND) :: info_ret, mpierror CHARACTER(LEN=3) :: info_val CALL mpi_info_get(info_ret,"foo", 3_MPI_INTEGER_KIND, info_val, flag, mpierror) END], [AC_SUBST([PAC_MPI_LOGICAL_KIND]) PAC_MPI_LOGICAL_KIND=$kind], [] ) done if test "X$PAC_MPI_LOGICAL_KIND" = "X"; then AC_MSG_ERROR([Failed to find Fortran KIND of LOGICAL in MPI]) else AC_DEFINE_UNQUOTED([MPI_LOGICAL_KIND], [$PAC_MPI_LOGICAL_KIND], [Define MPI Fortran KIND of LOGICAL]) AC_MSG_RESULT([$PAC_MPI_LOGICAL_KIND]) fi FCFLAGS=$saved_FCFLAGS AC_LANG_POP([Fortran]) ]) AC_DEFUN([PAC_FC_SIZEOF_INT_KINDS],[ AC_REQUIRE([PAC_FC_AVAIL_KINDS]) AC_MSG_CHECKING([sizeof of available INTEGER KINDs]) AC_LANG_PUSH([Fortran]) pack_int_sizeof="" for kind in `echo $pac_validIntKinds | sed -e 's/,/ /g'`; do AC_LANG_CONFTEST([ AC_LANG_SOURCE([ PROGRAM main USE ISO_C_BINDING USE ISO_FORTRAN_ENV, ONLY : stderr=>ERROR_UNIT IMPLICIT NONE INTEGER (KIND=$kind) a WRITE(stderr,'(I0)') $FC_SIZEOF_A END ]) ]) AC_RUN_IFELSE([],[ sizes=$(./conftest$EXEEXT 2>&1) pack_int_sizeof="$pack_int_sizeof $sizes," ],[ AC_MSG_ERROR([Fortran program fails to build or run!]) ],[ pack_int_sizeof="$2" ]) done PAC_FC_ALL_INTEGER_KINDS_SIZEOF="{`echo $pack_int_sizeof | sed -e 's/,$//' | sed -e 's/ //g'`}" AC_MSG_RESULT([$PAC_FC_ALL_INTEGER_KINDS_SIZEOF]) AC_LANG_POP([Fortran]) ]) AC_DEFUN([PAC_FC_SIZEOF_REAL_KINDS],[ AC_REQUIRE([PAC_FC_AVAIL_KINDS]) AC_MSG_CHECKING([sizeof of available REAL KINDs]) AC_LANG_PUSH([Fortran]) pack_real_sizeof="" rm -f pac_fconftest.out for kind in `echo $pac_validRealKinds | sed -e 's/,/ /g'`; do AC_LANG_CONFTEST([ AC_LANG_SOURCE([ PROGRAM main USE ISO_C_BINDING USE ISO_FORTRAN_ENV, ONLY : stderr=>ERROR_UNIT IMPLICIT NONE REAL (KIND=$kind) :: a WRITE(stderr,'(I0)') $FC_SIZEOF_A END ]) ]) AC_RUN_IFELSE([],[ sizes=$(./conftest$EXEEXT 2>&1) pack_real_sizeof="$pack_real_sizeof $sizes," ],[ AC_MSG_ERROR([Fortran program fails to build or run!]) ],[ pack_real_sizeof="$2" ]) done PAC_FC_ALL_REAL_KINDS_SIZEOF="{`echo $pack_real_sizeof | sed -e 's/,$//' | sed -e 's/ //g'`}" AC_MSG_RESULT([$PAC_FC_ALL_REAL_KINDS_SIZEOF]) AC_LANG_POP([Fortran]) ]) AC_DEFUN([PAC_FC_NATIVE_INTEGER],[ AC_REQUIRE([PAC_FC_AVAIL_KINDS]) AC_MSG_CHECKING([sizeof of native KINDS]) AC_LANG_PUSH([Fortran]) saved_FCFLAGS=$FCFLAGS FCFLAGS=$saved_user_FCFLAGS pack_int_sizeof="" rm -f pac_fconftest.out AC_LANG_CONFTEST([ AC_LANG_SOURCE([ PROGRAM main USE ISO_C_BINDING USE ISO_FORTRAN_ENV, ONLY : stderr=>ERROR_UNIT IMPLICIT NONE INTEGER a REAL b DOUBLE PRECISION c WRITE(stderr,*) $FC_SIZEOF_A WRITE(stderr,*) KIND(a) WRITE(stderr,*) $FC_SIZEOF_B WRITE(stderr,*) KIND(b) WRITE(stderr,*) $FC_SIZEOF_C WRITE(stderr,*) KIND(c) END ]) ]) AC_RUN_IFELSE([],[ PAC_FORTRAN_NATIVE_INTEGER_SIZEOF=$(./conftest$EXEEXT 2>&1 | sed -n '1p') PAC_FORTRAN_NATIVE_INTEGER_KIND=$(./conftest$EXEEXT 2>&1 | sed -n '2p') PAC_FORTRAN_NATIVE_REAL_SIZEOF=$(./conftest$EXEEXT 2>&1 | sed -n '3p') PAC_FORTRAN_NATIVE_REAL_KIND=$(./conftest$EXEEXT 2>&1 | sed -n '4p') PAC_FORTRAN_NATIVE_DOUBLE_SIZEOF=$(./conftest$EXEEXT 2>&1 | sed -n '5p') PAC_FORTRAN_NATIVE_DOUBLE_KIND=$(./conftest$EXEEXT 2>&1 | sed -n '6p') ],[ AC_MSG_ERROR([Fortran program fails to build or run!]) ],[ pack_int_sizeof="$2" ]) AC_MSG_RESULT([$pack_int_sizeof]) FCFLAGS=$saved_FCFLAGS AC_LANG_POP([Fortran]) ]) AC_DEFUN([PAC_FC_LDBL_DIG],[ AC_MSG_CHECKING([maximum decimal precision for C]) AC_LANG_CONFTEST([ AC_LANG_PROGRAM([ #include #include #define CHECK_FLOAT128 $ac_cv_sizeof___float128 #if CHECK_FLOAT128!=0 # if $HAVE_QUADMATH!=0 #include # endif # ifdef FLT128_DIG #define C_FLT128_DIG FLT128_DIG # else #define C_FLT128_DIG 0 # endif #else #define C_FLT128_DIG 0 #endif #if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L #define C_LDBL_DIG DECIMAL_DIG #else #define C_LDBL_DIG LDBL_DIG #endif ],[[ fprintf(stderr, "%d\n%d\n", C_LDBL_DIG, C_FLT128_DIG); ]]) ]) AC_RUN_IFELSE([],[ LDBL_DIG=$(./conftest$EXEEXT 2>&1 | sed -n '1p') FLT128_DIG=$(./conftest$EXEEXT 2>&1 | sed -n '2p') ],[ AC_MSG_ERROR([C program fails to build or run!]) ],[]) ])