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# This file is part of Autoconf. -*- Autoconf -*- # Fortran languages support. # Copyright (C) 2001, 2003-2017, 2020-2021 Free Software Foundation, # Inc. # This file is part of Autoconf. This program is free # software; you can redistribute it and/or modify it under the # terms of the GNU General Public License as published by the # Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # Under Section 7 of GPL version 3, you are granted additional # permissions described in the Autoconf Configure Script Exception, # version 3.0, as published by the Free Software Foundation. # # You should have received a copy of the GNU General Public License # and a copy of the Autoconf Configure Script Exception along with # this program; see the files COPYINGv3 and COPYING.EXCEPTION # respectively. If not, see <https://www.gnu.org/licenses/>. # Written by David MacKenzie, with help from # Franc,ois Pinard, Karl Berry, Richard Pixley, Ian Lance Taylor, # Roland McGrath, Noah Friedman, david d zuhn, and many others. # Table of Contents: # # Preamble # # 0. Utility macros # # 1. Language selection # and routines to produce programs in a given language. # # 2. Producing programs in a given language. # # 3. Looking for a compiler # And possibly the associated preprocessor. # # 4. Compilers' characteristics. ## ---------- ## ## Preamble. ## ## ---------- ## # Fortran vs. Fortran 77: # This file contains macros for both "Fortran 77" and "Fortran", where # the former is the "classic" autoconf Fortran interface and is intended # for legacy F77 codes, while the latter is intended to support newer Fortran # dialects. Fortran 77 uses environment variables F77, FFLAGS, and FLIBS, # while Fortran uses FC, FCFLAGS, and FCLIBS. For each user-callable AC_* # macro, there is generally both an F77 and an FC version, where both versions # share the same _AC_*_FC_* backend. This backend macro requires that # the appropriate language be AC_LANG_PUSH'ed, and uses _AC_LANG_ABBREV and # _AC_LANG_PREFIX in order to name cache and environment variables, etc. ## ------------------- ## ## 0. Utility macros. ## ## ------------------- ## # _AC_LIST_MEMBER_IF(ELEMENT, LIST, [ACTION-IF-FOUND], [ACTION-IF-NOT-FOUND]) # --------------------------------------------------------------------------- # # Processing the elements of a list is tedious in shell programming, # as lists tend to be implemented as space delimited strings. # # This macro searches LIST for ELEMENT, and executes ACTION-IF-FOUND # if ELEMENT is a member of LIST, otherwise it executes # ACTION-IF-NOT-FOUND. AC_DEFUN([_AC_LIST_MEMBER_IF], dnl Do some sanity checking of the arguments. [m4_if([$1], , [m4_fatal([$0: missing argument 1])], [$2], , [m4_fatal([$0: missing argument 2])])]dnl [ ac_exists=false for ac_i in $2; do if test x"$1" = x"$ac_i"; then ac_exists=true break fi done AS_IF([test x"$ac_exists" = xtrue], [$3], [$4])[]dnl ])# _AC_LIST_MEMBER_IF # _AC_LINKER_OPTION(LINKER-OPTIONS, SHELL-VARIABLE) # ------------------------------------------------- # # Specifying options to the compiler (whether it be the C, C++ or # Fortran 77 compiler) that are meant for the linker is compiler # dependent. This macro lets you give options to the compiler that # are meant for the linker in a portable, compiler-independent way. # # This macro take two arguments, a list of linker options that the # compiler should pass to the linker (LINKER-OPTIONS) and the name of # a shell variable (SHELL-VARIABLE). The list of linker options are # appended to the shell variable in a compiler-dependent way. # # For example, if the selected language is C, then this: # # _AC_LINKER_OPTION([-R /usr/local/lib/foo], foo_LDFLAGS) # # will expand into this if the selected C compiler is gcc: # # foo_LDFLAGS="-Xlinker -R -Xlinker /usr/local/lib/foo" # # otherwise, it will expand into this: # # foo_LDFLAGS"-R /usr/local/lib/foo" # # You are encouraged to add support for compilers that this macro # doesn't currently support. # FIXME: Get rid of this macro. AC_DEFUN([_AC_LINKER_OPTION], [if test "$ac_compiler_gnu" = yes; then for ac_link_opt in $1; do $2="[$]$2 -Xlinker $ac_link_opt" done else $2="[$]$2 $1" fi[]dnl ])# _AC_LINKER_OPTION ## ------------------------ ## ## 1a. Language selection. ## ## ------------------------ ## # AC_LANG(Fortran 77) # ------------------- AC_LANG_DEFINE([Fortran 77], [f77], [F], [F77], [], [ac_ext=f ac_compile='$F77 -c $FFLAGS conftest.$ac_ext >&AS_MESSAGE_LOG_FD' ac_link='$F77 -o conftest$ac_exeext $FFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&AS_MESSAGE_LOG_FD' ac_compiler_gnu=$ac_cv_f77_compiler_gnu ]) # AC_LANG_FORTRAN77 # ----------------- AU_DEFUN([AC_LANG_FORTRAN77], [AC_LANG(Fortran 77)]) # _AC_FORTRAN_ASSERT # ------------------ # Current language must be Fortran or Fortran 77. m4_defun([_AC_FORTRAN_ASSERT], [m4_if(_AC_LANG, [Fortran], [], [m4_if(_AC_LANG, [Fortran 77], [], [m4_fatal([$0: current language is not Fortran: ] _AC_LANG)])])]) # _AC_FC # ------ # Return F77 or FC, depending upon the language. AC_DEFUN([_AC_FC], [_AC_FORTRAN_ASSERT()dnl AC_LANG_CASE([Fortran 77], [F77], [Fortran], [FC])]) ## ----------------------- ## ## 2. Producing programs. ## ## ----------------------- ## # AC_LANG_PROGRAM(Fortran 77)([PROLOGUE], [BODY]) # ----------------------------------------------- # Yes, we discard the PROLOGUE. m4_define([AC_LANG_PROGRAM(Fortran 77)], [m4_ifval([$1], [m4_warn([syntax], [$0: ignoring PROLOGUE: $1])])dnl program main $2 end]) # _AC_LANG_IO_PROGRAM(Fortran 77) # ------------------------------- # Produce source that performs I/O. m4_define([_AC_LANG_IO_PROGRAM(Fortran 77)], [AC_LANG_PROGRAM([], [dnl open(unit=9,file='conftest.out') close(unit=9) ])]) # AC_LANG_CALL(Fortran 77)(PROLOGUE, FUNCTION) # -------------------------------------------- # FIXME: This is a guess, help! m4_define([AC_LANG_CALL(Fortran 77)], [AC_LANG_PROGRAM([$1], [ call $2])]) # AC_LANG_FUNC_LINK_TRY(Fortran 77)(FUNCTION) # ------------------------------------------- m4_define([AC_LANG_FUNC_LINK_TRY(Fortran 77)], [AC_LANG_PROGRAM([], [ call $1])]) ## ------------------------ ## ## 1b. Language selection. ## ## ------------------------ ## # AC_LANG(Fortran) # ---------------- AC_LANG_DEFINE([Fortran], [fc], [FC], [FC], [Fortran 77], [ac_ext=${ac_fc_srcext-f} ac_compile='$FC -c $FCFLAGS $ac_fcflags_srcext conftest.$ac_ext >&AS_MESSAGE_LOG_FD' ac_link='$FC -o conftest$ac_exeext $FCFLAGS $LDFLAGS $ac_fcflags_srcext conftest.$ac_ext $LIBS >&AS_MESSAGE_LOG_FD' ac_compiler_gnu=$ac_cv_fc_compiler_gnu ]) ## -------------------------------------------- ## ## 3. Looking for Compilers and Preprocessors. ## ## -------------------------------------------- ## # AC_LANG_PREPROC(Fortran 77) # --------------------------- # Find the Fortran 77 preprocessor. Must be AC_DEFUN'd to be AC_REQUIRE'able. AC_DEFUN([AC_LANG_PREPROC(Fortran 77)], [m4_warn([syntax], [$0: No preprocessor defined for ]_AC_LANG)]) # AC_LANG_PREPROC(Fortran) # ------------------------ # Find the Fortran preprocessor. Must be AC_DEFUN'd to be AC_REQUIRE'able. AC_DEFUN([AC_LANG_PREPROC(Fortran)], [m4_warn([syntax], [$0: No preprocessor defined for ]_AC_LANG)]) # AC_LANG_COMPILER(Fortran 77) # ---------------------------- # Find the Fortran 77 compiler. Must be AC_DEFUN'd to be # AC_REQUIRE'able. AC_DEFUN([AC_LANG_COMPILER(Fortran 77)], [AC_REQUIRE([AC_PROG_F77])]) # AC_LANG_COMPILER(Fortran) # ------------------------- # Find the Fortran compiler. Must be AC_DEFUN'd to be # AC_REQUIRE'able. AC_DEFUN([AC_LANG_COMPILER(Fortran)], [AC_REQUIRE([AC_PROG_FC])]) # ac_cv_prog_g77 # -------------- # We used to name the cache variable this way. AU_DEFUN([ac_cv_prog_g77], [ac_cv_f77_compiler_gnu]) # _AC_FC_DIALECT_YEAR([DIALECT]) # ------------------------------ # Given a Fortran DIALECT, which is Fortran [YY]YY or simply [YY]YY, # convert to a 4-digit year. The dialect must be one of Fortran 77, # 90, 95, or 2000, currently. If DIALECT is simply Fortran or the # empty string, returns the empty string. AC_DEFUN([_AC_FC_DIALECT_YEAR], [m4_case(m4_bpatsubsts(m4_tolower([$1]), [fortran],[], [ *],[]), [77],[1977], [1977],[1977], [90],[1990], [1990],[1990], [95],[1995], [1995],[1995], [2000],[2000], [],[], [m4_fatal([unknown Fortran dialect])])]) # _AC_PROG_FC([DIALECT], [COMPILERS...]) # -------------------------------------- # DIALECT is a Fortran dialect, given by Fortran [YY]YY or simply [YY]YY, # and must be one of those supported by _AC_FC_DIALECT_YEAR # # If DIALECT is supplied, then we search for compilers of that dialect # first, and then later dialects. Otherwise, we search for compilers # of the newest dialect first, and then earlier dialects in increasing age. # This search order is necessarily imperfect because the dialect cannot # always be inferred from the compiler name. # # Known compilers: # f77/f90/f95: generic compiler names # g77: GNU Fortran 77 compiler # gfortran: GNU Fortran 95+ compiler (released in gcc 4.0) # g95: original gcc-based f95 compiler (gfortran is a fork) # ftn: native Fortran 95 compiler on Cray X1 # cf77: native F77 compiler under older Crays (prefer over fort77) # fort77: native F77 compiler under HP-UX (and some older Crays) # frt: Fujitsu F77 compiler # pgf77/pgf90/pghpf/pgf95/pgfortran: Portland Group F77/F90/F95 compilers # xlf/xlf90/xlf95: IBM (AIX) F77/F90/F95 compilers # Prefer xlf9x to the generic names because they do not reject files # with extension `.f'. # lf95: Lahey-Fujitsu F95 compiler # fl32: Microsoft Fortran 77 "PowerStation" compiler # af77: Apogee F77 compiler for Intergraph hardware running CLIX # epcf90: "Edinburgh Portable Compiler" F90 # fort: Compaq (now HP) Fortran 90/95 compiler for Tru64 and Linux/Alpha # ifort, previously ifc: Intel Fortran 95 compiler for Linux/x86 # efc: Intel Fortran 95 compiler for IA64 # nagfor: NAGWare Fortran 77/90/95 compiler m4_define([_AC_F95_FC], [gfortran g95 xlf95 f95 fort ifort ifc efc pgfortran pgf95 lf95 ftn nagfor]) m4_define([_AC_F90_FC], [xlf90 f90 pgf90 pghpf epcf90]) m4_define([_AC_F77_FC], [g77 xlf f77 frt pgf77 cf77 fort77 fl32 af77]) AC_DEFUN([_AC_PROG_FC], [_AC_FORTRAN_ASSERT()dnl AC_CHECK_TOOLS([]_AC_FC[], m4_default([$2], m4_case(_AC_FC_DIALECT_YEAR([$1]), [1995], [_AC_F95_FC], [1990], [_AC_F90_FC _AC_F95_FC], [1977], [_AC_F77_FC _AC_F90_FC _AC_F95_FC], [_AC_F95_FC _AC_F90_FC _AC_F77_FC]))) # Provide some information about the compiler. _AS_ECHO_LOG([checking for _AC_LANG compiler version]) set X $ac_compile ac_compiler=$[2] for ac_option in --version -v -V -qversion; do _AC_DO_LIMIT([$ac_compiler $ac_option >&AS_MESSAGE_LOG_FD]) done rm -f a.out m4_expand_once([_AC_COMPILER_EXEEXT])[]dnl m4_expand_once([_AC_COMPILER_OBJEXT])[]dnl # If we don't use `.F' as extension, the preprocessor is not run on the # input file. (Note that this only needs to work for GNU compilers.) ac_save_ext=$ac_ext ac_ext=F _AC_LANG_COMPILER_GNU ac_ext=$ac_save_ext _AC_PROG_FC_G ])# _AC_PROG_FC # AC_PROG_F77([COMPILERS...]) # --------------------------- # COMPILERS is a space separated list of Fortran 77 compilers to search # for. See also _AC_PROG_FC. AC_DEFUN([AC_PROG_F77], [AC_LANG_PUSH(Fortran 77)dnl AC_ARG_VAR([F77], [Fortran 77 compiler command])dnl AC_ARG_VAR([FFLAGS], [Fortran 77 compiler flags])dnl _AC_ARG_VAR_LDFLAGS()dnl _AC_ARG_VAR_LIBS()dnl _AC_PROG_FC([Fortran 77], [$1]) if test $ac_compiler_gnu = yes; then G77=yes else G77= fi AC_LANG_POP(Fortran 77)dnl ])# AC_PROG_F77 # AC_PROG_FC([COMPILERS...], [DIALECT]) # ------------------------------------- # COMPILERS is a space separated list of Fortran 77 compilers to search # for, and [DIALECT] is an optional dialect. See also _AC_PROG_FC. AC_DEFUN([AC_PROG_FC], [AC_LANG_PUSH(Fortran)dnl AC_ARG_VAR([FC], [Fortran compiler command])dnl AC_ARG_VAR([FCFLAGS], [Fortran compiler flags])dnl _AC_ARG_VAR_LDFLAGS()dnl _AC_ARG_VAR_LIBS()dnl _AC_PROG_FC([$2], [$1]) if test $ac_compiler_gnu = yes; then GFC=yes else GFC= fi AC_LANG_POP(Fortran)dnl ])# AC_PROG_FC # _AC_PROG_FC_G # ------------- # Check whether -g works, even if F[C]FLAGS is set, in case the package # plays around with F[C]FLAGS (such as to build both debugging and normal # versions of a library), tasteless as that idea is. m4_define([_AC_PROG_FC_G], [_AC_FORTRAN_ASSERT()dnl ac_test_[]_AC_LANG_PREFIX[]FLAGS=${[]_AC_LANG_PREFIX[]FLAGS+y} ac_save_[]_AC_LANG_PREFIX[]FLAGS=$[]_AC_LANG_PREFIX[]FLAGS _AC_LANG_PREFIX[]FLAGS= AC_CACHE_CHECK(whether $[]_AC_FC[] accepts -g, ac_cv_prog_[]_AC_LANG_ABBREV[]_g, [_AC_LANG_PREFIX[]FLAGS=-g _AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [ac_cv_prog_[]_AC_LANG_ABBREV[]_g=yes], [ac_cv_prog_[]_AC_LANG_ABBREV[]_g=no]) ]) if test $ac_test_[]_AC_LANG_PREFIX[]FLAGS; then _AC_LANG_PREFIX[]FLAGS=$ac_save_[]_AC_LANG_PREFIX[]FLAGS elif test $ac_cv_prog_[]_AC_LANG_ABBREV[]_g = yes; then if test "x$ac_cv_[]_AC_LANG_ABBREV[]_compiler_gnu" = xyes; then _AC_LANG_PREFIX[]FLAGS="-g -O2" else _AC_LANG_PREFIX[]FLAGS="-g" fi else if test "x$ac_cv_[]_AC_LANG_ABBREV[]_compiler_gnu" = xyes; then _AC_LANG_PREFIX[]FLAGS="-O2" else _AC_LANG_PREFIX[]FLAGS= fi fi[]dnl ])# _AC_PROG_FC_G # _AC_PROG_FC_C_O # --------------- # Test if the Fortran compiler accepts the options `-c' and `-o' # simultaneously, and define `[F77/FC]_NO_MINUS_C_MINUS_O' if it does not. # # The usefulness of this macro is questionable, as I can't really see # why anyone would use it. The only reason I include it is for # completeness, since a similar test exists for the C compiler. # # FIXME: it seems like we could merge the C/C++/Fortran versions of this. AC_DEFUN([_AC_PROG_FC_C_O], [_AC_FORTRAN_ASSERT()dnl AC_CACHE_CHECK([whether $[]_AC_FC[] understands -c and -o together], [ac_cv_prog_[]_AC_LANG_ABBREV[]_c_o], [AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) # We test twice because some compilers refuse to overwrite an existing # `.o' file with `-o', although they will create one. ac_try='$[]_AC_FC[] $[]_AC_LANG_PREFIX[]FLAGS -c conftest.$ac_ext -o conftest2.$ac_objext >&AS_MESSAGE_LOG_FD' rm -f conftest2.* if _AC_DO_VAR(ac_try) && test -f conftest2.$ac_objext && _AC_DO_VAR(ac_try); then ac_cv_prog_[]_AC_LANG_ABBREV[]_c_o=yes else ac_cv_prog_[]_AC_LANG_ABBREV[]_c_o=no fi rm -rf conftest*]) if test $ac_cv_prog_[]_AC_LANG_ABBREV[]_c_o = no; then AC_DEFINE([]_AC_FC[]_NO_MINUS_C_MINUS_O, 1, [Define to 1 if your Fortran compiler doesn't accept -c and -o together.]) fi ])# _AC_PROG_FC_C_O # AC_PROG_F77_C_O # --------------- AC_DEFUN([AC_PROG_F77_C_O], [AC_REQUIRE([AC_PROG_F77])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_PROG_FC_C_O AC_LANG_POP(Fortran 77)dnl ])# AC_PROG_F77_C_O # AC_PROG_FC_C_O # -------------- AC_DEFUN([AC_PROG_FC_C_O], [AC_REQUIRE([AC_PROG_FC])dnl AC_LANG_PUSH(Fortran)dnl _AC_PROG_FC_C_O AC_LANG_POP(Fortran)dnl ])# AC_PROG_FC_C_O ## ------------------------------- ## ## 4. Compilers' characteristics. ## ## ------------------------------- ## # _AC_PROG_FC_V_OUTPUT([FLAG = $ac_cv_prog_{f77/fc}_v]) # ----------------------------------------------------- # Link a trivial Fortran program, compiling with a verbose output FLAG # (whose default value, $ac_cv_prog_{f77/fc}_v, is computed by # _AC_PROG_FC_V), and return the output in $ac_{f77/fc}_v_output. This # output is processed in the way expected by _AC_FC_LIBRARY_LDFLAGS, # so that any link flags that are echoed by the compiler appear as # space-separated items. AC_DEFUN([_AC_PROG_FC_V_OUTPUT], [_AC_FORTRAN_ASSERT()dnl AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) # Compile and link our simple test program by passing a flag (argument # 1 to this macro) to the Fortran compiler in order to get # "verbose" output that we can then parse for the Fortran linker # flags. ac_save_[]_AC_LANG_PREFIX[]FLAGS=$[]_AC_LANG_PREFIX[]FLAGS _AC_LANG_PREFIX[]FLAGS="$[]_AC_LANG_PREFIX[]FLAGS m4_default([$1], [$ac_cv_prog_[]_AC_LANG_ABBREV[]_v])" eval "set x $ac_link" shift _AS_ECHO_LOG([$[*]]) # gfortran 4.3 outputs lines setting COLLECT_GCC_OPTIONS, COMPILER_PATH, # LIBRARY_PATH; skip all such settings. ac_[]_AC_LANG_ABBREV[]_v_output=`eval $ac_link AS_MESSAGE_LOG_FD>&1 2>&1 | sed '/^Driving:/d; /^Configured with:/d; '"/^[[_$as_cr_Letters]][[_$as_cr_alnum]]*=/d"` AS_ECHO(["$ac_[]_AC_LANG_ABBREV[]_v_output"]) >&AS_MESSAGE_LOG_FD _AC_LANG_PREFIX[]FLAGS=$ac_save_[]_AC_LANG_PREFIX[]FLAGS rm -rf conftest* # On HP/UX there is a line like: "LPATH is: /foo:/bar:/baz" where # /foo, /bar, and /baz are search directories for the Fortran linker. # Here, we change these into -L/foo -L/bar -L/baz (and put it first): ac_[]_AC_LANG_ABBREV[]_v_output="`echo $ac_[]_AC_LANG_ABBREV[]_v_output | grep 'LPATH is:' | sed 's|.*LPATH is\(: *[[^ ]]*\).*|\1|;s|: */| -L/|g'` $ac_[]_AC_LANG_ABBREV[]_v_output" # FIXME: we keep getting bitten by quoted arguments; a more general fix # that detects unbalanced quotes in FLIBS should be implemented # and (ugh) tested at some point. case $ac_[]_AC_LANG_ABBREV[]_v_output in # With xlf replace commas with spaces, # and remove "-link" and closing parenthesis. *xlfentry*) ac_[]_AC_LANG_ABBREV[]_v_output=`echo $ac_[]_AC_LANG_ABBREV[]_v_output | sed ' s/,/ /g s/ -link / /g s/) *$// ' ` ;; # With Intel ifc, ignore the quoted -mGLOB_options_string stuff (quoted # $LIBS confuse us, and the libraries appear later in the output anyway). *mGLOB_options_string*) ac_[]_AC_LANG_ABBREV[]_v_output=`echo $ac_[]_AC_LANG_ABBREV[]_v_output | sed 's/"-mGLOB[[^"]]*"/ /g'` ;; # Portland Group compiler has singly- or doubly-quoted -cmdline argument # Singly-quoted arguments were reported for versions 5.2-4 and 6.0-4. # Doubly-quoted arguments were reported for "PGF90/x86 Linux/x86 5.0-2". *-cmdline\ * | *-ignore\ * | *-def\ *) ac_[]_AC_LANG_ABBREV[]_v_output=`echo $ac_[]_AC_LANG_ABBREV[]_v_output | sed "\ s/-cmdline *'[[^']]*'/ /g; s/-cmdline *\"[[^\"]]*\"/ /g s/-ignore *'[[^']]*'/ /g; s/-ignore *\"[[^\"]]*\"/ /g s/-def *'[[^']]*'/ /g; s/-def *\"[[^\"]]*\"/ /g"` ;; # If we are using fort77 (the f2c wrapper) then filter output and delete quotes. *fort77*f2c*gcc*) ac_[]_AC_LANG_ABBREV[]_v_output=`echo "$ac_[]_AC_LANG_ABBREV[]_v_output" | sed -n ' /:[[ ]]\+Running[[ ]]\{1,\}"gcc"/{ /"-c"/d /[[.]]c"*/d s/^.*"gcc"/"gcc"/ s/"//gp }'` ;; # If we are using Cray Fortran then delete quotes. *cft90*) ac_[]_AC_LANG_ABBREV[]_v_output=`echo $ac_[]_AC_LANG_ABBREV[]_v_output | sed 's/"//g'` ;; esac ])# _AC_PROG_FC_V_OUTPUT # _AC_PROG_FC_V # ------------- # # Determine the flag that causes the Fortran compiler to print # information of library and object files (normally -v) # Needed for _AC_FC_LIBRARY_FLAGS # Some compilers don't accept -v (Lahey: (-)-verbose, xlf: -V, Fujitsu: -###) AC_DEFUN([_AC_PROG_FC_V], [_AC_FORTRAN_ASSERT()dnl AC_CACHE_CHECK([how to get verbose linking output from $[]_AC_FC[]], [ac_cv_prog_[]_AC_LANG_ABBREV[]_v], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [ac_cv_prog_[]_AC_LANG_ABBREV[]_v= # Try some options frequently used verbose output for ac_verb in -v -verbose --verbose -V -\#\#\#; do _AC_PROG_FC_V_OUTPUT($ac_verb) # look for -l* and *.a constructs in the output for ac_arg in $ac_[]_AC_LANG_ABBREV[]_v_output; do case $ac_arg in [[\\/]]*.a | ?:[[\\/]]*.a | -[[lLRu]]*) ac_cv_prog_[]_AC_LANG_ABBREV[]_v=$ac_verb break 2 ;; esac done done if test -z "$ac_cv_prog_[]_AC_LANG_ABBREV[]_v"; then AC_MSG_WARN([cannot determine how to obtain linking information from $[]_AC_FC[]]) fi], [AC_MSG_WARN([compilation failed])]) ])])# _AC_PROG_FC_V # _AC_FC_LIBRARY_LDFLAGS # ---------------------- # # Determine the linker flags (e.g. "-L" and "-l") for the Fortran # intrinsic and runtime libraries that are required to successfully # link a Fortran program or shared library. The output variable # FLIBS/FCLIBS is set to these flags. # # This macro is intended to be used in those situations when it is # necessary to mix, e.g. C++ and Fortran, source code into a single # program or shared library. # # For example, if object files from a C++ and Fortran compiler must # be linked together, then the C++ compiler/linker must be used for # linking (since special C++-ish things need to happen at link time # like calling global constructors, instantiating templates, enabling # exception support, etc.). # # However, the Fortran intrinsic and runtime libraries must be # linked in as well, but the C++ compiler/linker doesn't know how to # add these Fortran libraries. Hence, the macro # "AC_F77_LIBRARY_LDFLAGS" was created to determine these Fortran # libraries. # # This macro was packaged in its current form by Matthew D. Langston. # However, nearly all of this macro came from the "OCTAVE_FLIBS" macro # in "octave-2.0.13/aclocal.m4", and full credit should go to John # W. Eaton for writing this extremely useful macro. Thank you John. AC_DEFUN([_AC_FC_LIBRARY_LDFLAGS], [AC_REQUIRE([AC_CANONICAL_HOST])dnl _AC_FORTRAN_ASSERT()dnl _AC_PROG_FC_V AC_CACHE_CHECK([for _AC_LANG libraries of $[]_AC_FC[]], ac_cv_[]_AC_LANG_ABBREV[]_libs, [if test "x$[]_AC_LANG_PREFIX[]LIBS" != "x"; then ac_cv_[]_AC_LANG_ABBREV[]_libs="$[]_AC_LANG_PREFIX[]LIBS" # Let the user override the test. else _AC_PROG_FC_V_OUTPUT ac_cv_[]_AC_LANG_ABBREV[]_libs= # Save positional arguments (if any) ac_save_positional="$[@]" set X $ac_[]_AC_LANG_ABBREV[]_v_output while test $[@%:@] != 1; do shift ac_arg=$[1] case $ac_arg in [[\\/]]*.a | ?:[[\\/]]*.a) _AC_LIST_MEMBER_IF($ac_arg, $ac_cv_[]_AC_LANG_ABBREV[]_libs, , ac_cv_[]_AC_LANG_ABBREV[]_libs="$ac_cv_[]_AC_LANG_ABBREV[]_libs $ac_arg") ;; -bI:*) _AC_LIST_MEMBER_IF($ac_arg, $ac_cv_[]_AC_LANG_ABBREV[]_libs, , [_AC_LINKER_OPTION([$ac_arg], ac_cv_[]_AC_LANG_ABBREV[]_libs)]) ;; # Ignore these flags. -lang* | -lcrt*.o | -lc | -lgcc* | -lSystem | -libmil | -little \ |-LANG:=* | -LIST:* | -LNO:* | -link) ;; -lkernel32) # Ignore this library only on Windows-like systems. case $host_os in cygwin* | msys* ) ;; *) _AC_LIST_MEMBER_IF($ac_arg, $ac_cv_[]_AC_LANG_ABBREV[]_libs, , ac_cv_[]_AC_LANG_ABBREV[]_libs="$ac_cv_[]_AC_LANG_ABBREV[]_libs $ac_arg") ;; esac ;; -[[LRuYz]]) # These flags, when seen by themselves, take an argument. # We remove the space between option and argument and re-iterate # unless we find an empty arg or a new option (starting with -) case $[2] in "" | -*);; *) ac_arg="$ac_arg$[2]" shift; shift set X $ac_arg "$[@]" ;; esac ;; -YP,*) for ac_j in `AS_ECHO(["$ac_arg"]) | sed -e 's/-YP,/-L/;s/:/ -L/g'`; do _AC_LIST_MEMBER_IF($ac_j, $ac_cv_[]_AC_LANG_ABBREV[]_libs, , [ac_arg="$ac_arg $ac_j" ac_cv_[]_AC_LANG_ABBREV[]_libs="$ac_cv_[]_AC_LANG_ABBREV[]_libs $ac_j"]) done ;; -[[lLR]]*) _AC_LIST_MEMBER_IF($ac_arg, $ac_cv_[]_AC_LANG_ABBREV[]_libs, , ac_cv_[]_AC_LANG_ABBREV[]_libs="$ac_cv_[]_AC_LANG_ABBREV[]_libs $ac_arg") ;; -zallextract*| -zdefaultextract) ac_cv_[]_AC_LANG_ABBREV[]_libs="$ac_cv_[]_AC_LANG_ABBREV[]_libs $ac_arg" ;; -mllvm) ${2+shift};; # Defend against 'clang -mllvm -loopopt=0'. # Ignore everything else. esac done # restore positional arguments set X $ac_save_positional; shift # We only consider "LD_RUN_PATH" on Solaris systems. If this is seen, # then we insist that the "run path" must be an absolute path (i.e. it # must begin with a "/"). case `(uname -sr) 2>/dev/null` in "SunOS 5"*) ac_ld_run_path=`AS_ECHO(["$ac_[]_AC_LANG_ABBREV[]_v_output"]) | sed -n 's,^.*LD_RUN_PATH *= *\(/[[^ ]]*\).*$,-R\1,p'` test "x$ac_ld_run_path" != x && _AC_LINKER_OPTION([$ac_ld_run_path], ac_cv_[]_AC_LANG_ABBREV[]_libs) ;; esac fi # test "x$[]_AC_LANG_PREFIX[]LIBS" = "x" ]) []_AC_LANG_PREFIX[]LIBS="$ac_cv_[]_AC_LANG_ABBREV[]_libs" AC_SUBST([]_AC_LANG_PREFIX[]LIBS) ])# _AC_FC_LIBRARY_LDFLAGS # AC_F77_LIBRARY_LDFLAGS # ---------------------- AC_DEFUN([AC_F77_LIBRARY_LDFLAGS], [AC_REQUIRE([AC_PROG_F77])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_FC_LIBRARY_LDFLAGS AC_LANG_POP(Fortran 77)dnl ])# AC_F77_LIBRARY_LDFLAGS # AC_FC_LIBRARY_LDFLAGS # --------------------- AC_DEFUN([AC_FC_LIBRARY_LDFLAGS], [AC_REQUIRE([AC_PROG_FC])dnl AC_LANG_PUSH(Fortran)dnl _AC_FC_LIBRARY_LDFLAGS AC_LANG_POP(Fortran)dnl ])# AC_FC_LIBRARY_LDFLAGS # _AC_FC_DUMMY_MAIN([ACTION-IF-FOUND], [ACTION-IF-NOT-FOUND]) # ----------------------------------------------------------- # # Detect name of dummy main routine required by the Fortran libraries, # (if any) and define {F77,FC}_DUMMY_MAIN to this name (which should be # used for a dummy declaration, if it is defined). On some systems, # linking a C program to the Fortran library does not work unless you # supply a dummy function called something like MAIN__. # # Execute ACTION-IF-NOT-FOUND if no way of successfully linking a C # program with the {F77,FC} libs is found; default to exiting with an error # message. Execute ACTION-IF-FOUND if a dummy routine name is needed # and found or if it is not needed (default to defining {F77,FC}_DUMMY_MAIN # when needed). # # What is technically happening is that the Fortran libraries provide # their own main() function, which usually initializes Fortran I/O and # similar stuff, and then calls MAIN__, which is the entry point of # your program. Usually, a C program will override this with its own # main() routine, but the linker sometimes complain if you don't # provide a dummy (never-called) MAIN__ routine anyway. # # Of course, programs that want to allow Fortran subroutines to do # I/O, etcetera, should call their main routine MAIN__() (or whatever) # instead of main(). A separate autoconf test (_AC_FC_MAIN) checks # for the routine to use in this case (since the semantics of the test # are slightly different). To link to e.g. purely numerical # libraries, this is normally not necessary, however, and most C/C++ # programs are reluctant to turn over so much control to Fortran. =) # # The name variants we check for are (in order): # MAIN__ (g77, MAIN__ required on some systems; IRIX, MAIN__ optional) # MAIN_, __main (SunOS) # MAIN _MAIN __MAIN main_ main__ _main (we follow DDD and try these too) AC_DEFUN([_AC_FC_DUMMY_MAIN], [_AC_FORTRAN_ASSERT()dnl m4_define(_AC_LANG_PROGRAM_C_[]_AC_FC[]_HOOKS, [#ifdef ]_AC_FC[_DUMMY_MAIN ]AC_LANG_CASE([Fortran], [#ifndef FC_DUMMY_MAIN_EQ_F77]) [# ifdef __cplusplus extern "C" # endif int ]_AC_FC[_DUMMY_MAIN() { return 1; } ]AC_LANG_CASE([Fortran], [#endif]) [#endif ]) AC_CACHE_CHECK([for dummy main to link with _AC_LANG libraries], ac_cv_[]_AC_LANG_ABBREV[]_dummy_main, [ac_[]_AC_LANG_ABBREV[]_dm_save_LIBS=$LIBS LIBS="$LIBS $[]_AC_LANG_PREFIX[]LIBS" ac_fortran_dm_var=[]_AC_FC[]_DUMMY_MAIN AC_LANG_PUSH(C)dnl # First, try linking without a dummy main: AC_LINK_IFELSE([AC_LANG_PROGRAM([], [])], [ac_cv_fortran_dummy_main=none], [ac_cv_fortran_dummy_main=unknown]) if test $ac_cv_fortran_dummy_main = unknown; then for ac_func in MAIN__ MAIN_ __main MAIN _MAIN __MAIN main_ main__ _main; do AC_LINK_IFELSE([AC_LANG_PROGRAM([[@%:@define $ac_fortran_dm_var $ac_func]])], [ac_cv_fortran_dummy_main=$ac_func; break]) done fi AC_LANG_POP(C)dnl ac_cv_[]_AC_LANG_ABBREV[]_dummy_main=$ac_cv_fortran_dummy_main rm -rf conftest* LIBS=$ac_[]_AC_LANG_ABBREV[]_dm_save_LIBS ]) []_AC_FC[]_DUMMY_MAIN=$ac_cv_[]_AC_LANG_ABBREV[]_dummy_main AS_IF([test "$[]_AC_FC[]_DUMMY_MAIN" != unknown], [m4_default([$1], [if test $[]_AC_FC[]_DUMMY_MAIN != none; then AC_DEFINE_UNQUOTED([]_AC_FC[]_DUMMY_MAIN, $[]_AC_FC[]_DUMMY_MAIN, [Define to dummy `main' function (if any) required to link to the Fortran libraries.]) if test "x$ac_cv_fc_dummy_main" = "x$ac_cv_f77_dummy_main"; then AC_DEFINE([FC_DUMMY_MAIN_EQ_F77], 1, [Define if F77 and FC dummy `main' functions are identical.]) fi fi])], [m4_default([$2], [AC_MSG_FAILURE([linking to Fortran libraries from C fails])])]) ])# _AC_FC_DUMMY_MAIN # AC_F77_DUMMY_MAIN # ----------------- AC_DEFUN([AC_F77_DUMMY_MAIN], [AC_REQUIRE([AC_F77_LIBRARY_LDFLAGS])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_FC_DUMMY_MAIN($@) AC_LANG_POP(Fortran 77)dnl ])# AC_F77_DUMMY_MAIN # AC_FC_DUMMY_MAIN # ---------------- AC_DEFUN([AC_FC_DUMMY_MAIN], [AC_REQUIRE([AC_FC_LIBRARY_LDFLAGS])dnl AC_LANG_PUSH(Fortran)dnl _AC_FC_DUMMY_MAIN($@) AC_LANG_POP(Fortran)dnl ])# AC_FC_DUMMY_MAIN # _AC_FC_MAIN # ----------- # Define {F77,FC}_MAIN to name of alternate main() function for use with # the Fortran libraries. (Typically, the libraries may define their # own main() to initialize I/O, etcetera, that then call your own # routine called MAIN__ or whatever.) See _AC_FC_DUMMY_MAIN, above. # If no such alternate name is found, just define {F77,FC}_MAIN to main. # AC_DEFUN([_AC_FC_MAIN], [_AC_FORTRAN_ASSERT()dnl AC_CACHE_CHECK([for alternate main to link with _AC_LANG libraries], ac_cv_[]_AC_LANG_ABBREV[]_main, [ac_[]_AC_LANG_ABBREV[]_m_save_LIBS=$LIBS LIBS="$LIBS $[]_AC_LANG_PREFIX[]LIBS" ac_fortran_dm_var=[]_AC_FC[]_DUMMY_MAIN AC_LANG_PUSH(C)dnl ac_cv_fortran_main="main" # default entry point name for ac_func in MAIN__ MAIN_ __main MAIN _MAIN __MAIN main_ main__ _main; do AC_LINK_IFELSE([AC_LANG_PROGRAM([@%:@ifdef FC_DUMMY_MAIN_EQ_F77 @%:@ undef F77_DUMMY_MAIN @%:@ undef FC_DUMMY_MAIN @%:@else @%:@ undef $ac_fortran_dm_var @%:@endif @%:@define main $ac_func])], [ac_cv_fortran_main=$ac_func; break]) done AC_LANG_POP(C)dnl ac_cv_[]_AC_LANG_ABBREV[]_main=$ac_cv_fortran_main rm -rf conftest* LIBS=$ac_[]_AC_LANG_ABBREV[]_m_save_LIBS ]) AC_DEFINE_UNQUOTED([]_AC_FC[]_MAIN, $ac_cv_[]_AC_LANG_ABBREV[]_main, [Define to alternate name for `main' routine that is called from a `main' in the Fortran libraries.]) ])# _AC_FC_MAIN # AC_F77_MAIN # ----------- AC_DEFUN([AC_F77_MAIN], [AC_REQUIRE([AC_F77_LIBRARY_LDFLAGS])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_FC_MAIN AC_LANG_POP(Fortran 77)dnl ])# AC_F77_MAIN # AC_FC_MAIN # ---------- AC_DEFUN([AC_FC_MAIN], [AC_REQUIRE([AC_FC_LIBRARY_LDFLAGS])dnl AC_LANG_PUSH(Fortran)dnl _AC_FC_MAIN AC_LANG_POP(Fortran)dnl ])# AC_FC_MAIN # __AC_FC_NAME_MANGLING # --------------------- # Test for the name mangling scheme used by the Fortran compiler. # # Sets ac_cv_{f77,fc}_mangling. The value contains three fields, separated # by commas: # # lower case / upper case: # case translation of the Fortran symbols # underscore / no underscore: # whether the compiler appends "_" to symbol names # extra underscore / no extra underscore: # whether the compiler appends an extra "_" to symbol names already # containing at least one underscore # AC_DEFUN([__AC_FC_NAME_MANGLING], [_AC_FORTRAN_ASSERT()dnl AC_CACHE_CHECK([for _AC_LANG name-mangling scheme], ac_cv_[]_AC_LANG_ABBREV[]_mangling, [AC_COMPILE_IFELSE( [[ subroutine foobar() return end subroutine foo_bar() return end]], [mv conftest.$ac_objext cfortran_test.$ac_objext ac_save_LIBS=$LIBS LIBS="cfortran_test.$ac_objext $LIBS $[]_AC_LANG_PREFIX[]LIBS" AC_LANG_PUSH(C)dnl ac_success=no for ac_foobar in foobar FOOBAR; do for ac_underscore in "" "_"; do ac_func="$ac_foobar$ac_underscore" AC_LINK_IFELSE([AC_LANG_CALL([], [$ac_func])], [ac_success=yes; break 2]) done done AC_LANG_POP(C)dnl if test "$ac_success" = "yes"; then case $ac_foobar in foobar) ac_case=lower ac_foo_bar=foo_bar ;; FOOBAR) ac_case=upper ac_foo_bar=FOO_BAR ;; esac AC_LANG_PUSH(C)dnl ac_success_extra=no for ac_extra in "" "_"; do ac_func="$ac_foo_bar$ac_underscore$ac_extra" AC_LINK_IFELSE([AC_LANG_CALL([], [$ac_func])], [ac_success_extra=yes; break]) done AC_LANG_POP(C)dnl if test "$ac_success_extra" = "yes"; then ac_cv_[]_AC_LANG_ABBREV[]_mangling="$ac_case case" if test -z "$ac_underscore"; then ac_cv_[]_AC_LANG_ABBREV[]_mangling="$ac_cv_[]_AC_LANG_ABBREV[]_mangling, no underscore" else ac_cv_[]_AC_LANG_ABBREV[]_mangling="$ac_cv_[]_AC_LANG_ABBREV[]_mangling, underscore" fi if test -z "$ac_extra"; then ac_cv_[]_AC_LANG_ABBREV[]_mangling="$ac_cv_[]_AC_LANG_ABBREV[]_mangling, no extra underscore" else ac_cv_[]_AC_LANG_ABBREV[]_mangling="$ac_cv_[]_AC_LANG_ABBREV[]_mangling, extra underscore" fi else ac_cv_[]_AC_LANG_ABBREV[]_mangling="unknown" fi else ac_cv_[]_AC_LANG_ABBREV[]_mangling="unknown" fi LIBS=$ac_save_LIBS rm -rf conftest* rm -f cfortran_test*], [AC_MSG_FAILURE([cannot compile a simple Fortran program])]) ]) ])# __AC_FC_NAME_MANGLING # The replacement is empty. AU_DEFUN([AC_F77_NAME_MANGLING], []) # _AC_F77_NAME_MANGLING # --------------------- AC_DEFUN([_AC_F77_NAME_MANGLING], [AC_REQUIRE([AC_F77_LIBRARY_LDFLAGS])dnl AC_REQUIRE([AC_F77_DUMMY_MAIN])dnl AC_LANG_PUSH(Fortran 77)dnl __AC_FC_NAME_MANGLING AC_LANG_POP(Fortran 77)dnl ])# _AC_F77_NAME_MANGLING # _AC_FC_NAME_MANGLING # -------------------- AC_DEFUN([_AC_FC_NAME_MANGLING], [AC_REQUIRE([AC_FC_LIBRARY_LDFLAGS])dnl AC_REQUIRE([AC_FC_DUMMY_MAIN])dnl AC_LANG_PUSH(Fortran)dnl __AC_FC_NAME_MANGLING AC_LANG_POP(Fortran)dnl ])# _AC_FC_NAME_MANGLING # _AC_FC_WRAPPERS # --------------- # Defines C macros {F77,FC}_FUNC(name,NAME) and {F77,FC}_FUNC_(name,NAME) to # properly mangle the names of C identifiers, and C identifiers with # underscores, respectively, so that they match the name mangling # scheme used by the Fortran compiler. AC_DEFUN([_AC_FC_WRAPPERS], [_AC_FORTRAN_ASSERT()dnl AH_TEMPLATE(_AC_FC[_FUNC], [Define to a macro mangling the given C identifier (in lower and upper case), which must not contain underscores, for linking with Fortran.])dnl AH_TEMPLATE(_AC_FC[_FUNC_], [As ]_AC_FC[_FUNC, but for C identifiers containing underscores.])dnl case $ac_cv_[]_AC_LANG_ABBREV[]_mangling in "lower case, no underscore, no extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [name]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [name]) ;; "lower case, no underscore, extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [name]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [name [##] _]) ;; "lower case, underscore, no extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [name [##] _]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [name [##] _]) ;; "lower case, underscore, extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [name [##] _]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [name [##] __]) ;; "upper case, no underscore, no extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [NAME]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [NAME]) ;; "upper case, no underscore, extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [NAME]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [NAME [##] _]) ;; "upper case, underscore, no extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [NAME [##] _]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [NAME [##] _]) ;; "upper case, underscore, extra underscore") AC_DEFINE(_AC_FC[_FUNC(name,NAME)], [NAME [##] _]) AC_DEFINE(_AC_FC[_FUNC_(name,NAME)], [NAME [##] __]) ;; *) AC_MSG_WARN([unknown Fortran name-mangling scheme]) ;; esac ])# _AC_FC_WRAPPERS # AC_F77_WRAPPERS # --------------- AC_DEFUN([AC_F77_WRAPPERS], [AC_REQUIRE([_AC_F77_NAME_MANGLING])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_FC_WRAPPERS AC_LANG_POP(Fortran 77)dnl ])# AC_F77_WRAPPERS # AC_FC_WRAPPERS # -------------- AC_DEFUN([AC_FC_WRAPPERS], [AC_REQUIRE([_AC_FC_NAME_MANGLING])dnl AC_LANG_PUSH(Fortran)dnl _AC_FC_WRAPPERS AC_LANG_POP(Fortran)dnl ])# AC_FC_WRAPPERS # _AC_FC_FUNC(NAME, [SHELLVAR = NAME]) # ------------------------------------ # For a Fortran subroutine of given NAME, define a shell variable # $SHELLVAR to the Fortran-mangled name. If the SHELLVAR # argument is not supplied, it defaults to NAME. AC_DEFUN([_AC_FC_FUNC], [_AC_FORTRAN_ASSERT()dnl case $ac_cv_[]_AC_LANG_ABBREV[]_mangling in upper*) ac_val="m4_toupper([$1])" ;; lower*) ac_val="m4_tolower([$1])" ;; *) ac_val="unknown" ;; esac case $ac_cv_[]_AC_LANG_ABBREV[]_mangling in *," underscore"*) ac_val="$ac_val"_ ;; esac m4_if(m4_index([$1],[_]),-1,[], [case $ac_cv_[]_AC_LANG_ABBREV[]_mangling in *," extra underscore"*) ac_val="$ac_val"_ ;; esac ]) m4_default([$2],[$1])="$ac_val" ])# _AC_FC_FUNC # AC_F77_FUNC(NAME, [SHELLVAR = NAME]) # ------------------------------------ AC_DEFUN([AC_F77_FUNC], [AC_REQUIRE([_AC_F77_NAME_MANGLING])dnl AC_LANG_PUSH(Fortran 77)dnl _AC_FC_FUNC([$1],[$2]) AC_LANG_POP(Fortran 77)dnl ])# AC_F77_FUNC # AC_FC_FUNC(NAME, [SHELLVAR = NAME]) # ----------------------------------- AC_DEFUN([AC_FC_FUNC], [AC_REQUIRE([_AC_FC_NAME_MANGLING])dnl AC_LANG_PUSH(Fortran)dnl _AC_FC_FUNC([$1],[$2]) AC_LANG_POP(Fortran)dnl ])# AC_FC_FUNC # AC_FC_SRCEXT(EXT, [ACTION-IF-SUCCESS], [ACTION-IF-FAILURE]) # ----------------------------------------------------------- # Set the source-code extension used in Fortran (FC) tests to EXT (which # defaults to f). Also, look for any necessary additional FCFLAGS needed # to allow this extension, and store them in the output variable # FCFLAGS_<EXT> (e.g. FCFLAGS_f90 for EXT=f90). If successful, # call ACTION-IF-SUCCESS. If unable to compile source code with EXT, # call ACTION-IF-FAILURE, which defaults to failing with an error # message. # # (The flags for the current source-code extension, if any, are stored in # $ac_fcflags_srcext and used automatically in subsequent autoconf tests.) # # For ordinary extensions like f90, etcetera, the modified FCFLAGS # are currently needed for IBM's xlf* and Intel's ifc (grrr). Unfortunately, # xlf* will only take flags to recognize one extension at a time, so if the # user wants to compile multiple extensions (.f90 and .f95, say), she # will need to use the FCFLAGS_F90 and FCFLAGS_F95 individually rather # than just adding them all to FCFLAGS, for example. # # Also, for Intel's ifc compiler (which does not accept .f95 by default in # some versions), the $FCFLAGS_<EXT> variable *must* go immediately before # the source file on the command line, unlike other $FCFLAGS. Ugh. # # gfortran requires '-x f77' in order to recognize .f77 files. AC_DEFUN([AC_FC_SRCEXT], [AC_LANG_PUSH(Fortran)dnl AC_CACHE_CHECK([for Fortran flag to compile .$1 files], ac_cv_fc_srcext_$1, [ac_ext=$1 ac_fcflags_srcext_save=$ac_fcflags_srcext ac_fcflags_srcext= ac_cv_fc_srcext_$1=unknown case $ac_ext in #( [[fF]]77) ac_try=f77;; #( *) ac_try=f95;; esac for ac_flag in none -qsuffix=f=$1 -Tf "-x $ac_try"; do test "x$ac_flag" != xnone && ac_fcflags_srcext="$ac_flag" AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [ac_cv_fc_srcext_$1=$ac_flag; break]) done rm -f conftest.$ac_objext conftest.$1 ac_fcflags_srcext=$ac_fcflags_srcext_save ]) if test "x$ac_cv_fc_srcext_$1" = xunknown; then m4_default([$3],[AC_MSG_ERROR([Fortran could not compile .$1 files])]) else ac_fc_srcext=$1 if test "x$ac_cv_fc_srcext_$1" = xnone; then ac_fcflags_srcext="" FCFLAGS_[]$1[]="" else ac_fcflags_srcext=$ac_cv_fc_srcext_$1 FCFLAGS_[]$1[]=$ac_cv_fc_srcext_$1 fi AC_SUBST(FCFLAGS_[]$1) $2 fi AC_LANG_POP(Fortran)dnl ])# AC_FC_SRCEXT # AC_FC_PP_SRCEXT(EXT, [ACTION-IF-SUCCESS], [ACTION-IF-FAILURE]) # -------------------------------------------------------------- # Like AC_FC_SRCEXT, set the source-code extension used in Fortran (FC) tests # to EXT (which defaults to f). Also, look for any necessary additional # FCFLAGS needed to allow this extension for preprocessed Fortran, and store # them in the output variable FCFLAGS_<EXT> (e.g. FCFLAGS_f90 for EXT=f90). # If successful, call ACTION-IF-SUCCESS. If unable to compile preprocessed # source code with EXT, call ACTION-IF-FAILURE, which defaults to failing with # an error message. # # Some compilers allow preprocessing with either a Fortran preprocessor or # with the C preprocessor (cpp). Prefer the Fortran preprocessor, to deal # correctly with continuation lines, `//' (not a comment), and preserve white # space (for fixed form). # # (The flags for the current source-code extension, if any, are stored in # $ac_fcflags_srcext and used automatically in subsequent autoconf tests.) # # For ordinary extensions like f90, etcetera, the modified FCFLAGS # are needed for IBM's xlf*. Also, for Intel's ifort compiler, the # $FCFLAGS_<EXT> variable *must* go immediately before the source file on the # command line, unlike other $FCFLAGS. Ugh. # # Known extensions that enable preprocessing by default, and flags to force it: # GNU: .F .F90 .F95 .F03 .F08, -cpp for most others, # -x f77-cpp-input for .f77 .F77; -x f95-cpp-input for gfortran < 4.4 # SGI: .F .F90, -ftpp or -cpp for .f .f90, -E write preproc to stdout # -macro_expand enable macro expansion everywhere (with -ftpp) # -P preproc only, save in .i, no #line's # SUN: .F .F95, -fpp for others; -xpp={fpp,cpp} for preprocessor selection # -F preprocess only (save in lowercase extension) # IBM: .F .F77 .F90 .F95 .F03, -qsuffix=cpp=EXT for extension .EXT to invoke cpp # -WF,-qnofpp -WF,-qfpp=comment:linecont:nocomment:nolinecont # -WF,-qlanglvl=classic or not -qnoescape (trigraph problems) # -d no #line in output, -qnoobject for preprocessing only (output in .f) # -q{no,}ppsuborigarg substitute original macro args before expansion # HP: .F, +cpp={yes|no|default} use cpp, -cpp, +cpp_keep save in .i/.i90 # PGI: -Mpreprocess # Absoft: .F .FOR .F90 .F95, -cpp for others # Cray: .F .F90 .FTN, -e Z for others; -F enable macro expansion everywhere # Intel: .F .F90, -fpp for others, but except for .f and .f90, -Tf may also be # needed right before the source file name # PathScale: .F .F90 .F95, -ftpp or -cpp for .f .f90 .f95 # -macro_expand for expansion everywhere, -P for no #line in output # Lahey: .F .FOR .F90 .F95, -Cpp # NAGWare: .F .F90 .F95, .ff .ff90 .ff95 (new), -fpp for others # Compaq/Tru64: .F .F90, -cpp, -P keep .i file, -P keep .i file # f2c: .F, -cpp # g95: .F .FOR .F90 .F95 .F03, -cpp -no-cpp, -E for stdout AC_DEFUN([AC_FC_PP_SRCEXT], [AC_LANG_PUSH(Fortran)dnl AC_CACHE_CHECK([for Fortran flag to compile preprocessed .$1 files], ac_cv_fc_pp_srcext_$1, [ac_ext=$1 ac_fcflags_pp_srcext_save=$ac_fcflags_srcext ac_fcflags_srcext= ac_cv_fc_pp_srcext_$1=unknown case $ac_ext in #( [[fF]]77) ac_try=f77-cpp-input;; #( *) ac_try=f95-cpp-input;; esac for ac_flag in none -ftpp -fpp -Tf "-fpp -Tf" -xpp=fpp -Mpreprocess "-e Z" \ -cpp -xpp=cpp -qsuffix=cpp=$1 "-x $ac_try" +cpp -Cpp; do test "x$ac_flag" != xnone && ac_fcflags_srcext="$ac_flag" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[ #if 0 #include <ac_nonexistent.h> choke me #endif]])], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[ #if 1 #include <ac_nonexistent.h> choke me #endif]])], [], [ac_cv_fc_pp_srcext_$1=$ac_flag; break])]) done rm -f conftest.$ac_objext conftest.$1 ac_fcflags_srcext=$ac_fcflags_pp_srcext_save ]) if test "x$ac_cv_fc_pp_srcext_$1" = xunknown; then m4_default([$3], [AC_MSG_ERROR([Fortran could not compile preprocessed .$1 files])]) else ac_fc_srcext=$1 if test "x$ac_cv_fc_pp_srcext_$1" = xnone; then ac_fcflags_srcext="" FCFLAGS_[]$1[]="" else ac_fcflags_srcext=$ac_cv_fc_pp_srcext_$1 FCFLAGS_[]$1[]=$ac_cv_fc_pp_srcext_$1 fi AC_SUBST(FCFLAGS_[]$1) $2 fi AC_LANG_POP(Fortran)dnl ])# AC_FC_PP_SRCEXT # AC_FC_PP_DEFINE([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------------------------- # Find a flag to specify defines for preprocessed Fortran. Not all # Fortran compilers use -D. Substitute FC_DEFINE with the result and # call ACTION-IF-SUCCESS (defaults to nothing) if successful, and # ACTION-IF-FAILURE (defaults to failing with an error message) if not. # # Known flags: # IBM: -WF,-D # Lahey/Fujitsu: -Wp,-D older versions??? # f2c: -D or -Wc,-D # others: -D AC_DEFUN([AC_FC_PP_DEFINE], [AC_LANG_PUSH([Fortran])dnl ac_fc_pp_define_srcext_save=$ac_fc_srcext AC_FC_PP_SRCEXT([F]) AC_CACHE_CHECK([how to define symbols for preprocessed Fortran], [ac_cv_fc_pp_define], [ac_fc_pp_define_srcext_save=$ac_fc_srcext ac_cv_fc_pp_define=unknown ac_fc_pp_define_FCFLAGS_save=$FCFLAGS for ac_flag in -D -WF,-D -Wp,-D -Wc,-D do FCFLAGS="$ac_fc_pp_define_FCFLAGS_save ${ac_flag}FOOBAR ${ac_flag}ZORK=42" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[ #ifndef FOOBAR choke me #endif #if ZORK != 42 choke me #endif]])], [ac_cv_fc_pp_define=$ac_flag]) test x"$ac_cv_fc_pp_define" != xunknown && break done FCFLAGS=$ac_fc_pp_define_FCFLAGS_save ]) ac_fc_srcext=$ac_fc_pp_define_srcext_save if test "x$ac_cv_fc_pp_define" = xunknown; then FC_DEFINE= m4_default([$2], [AC_MSG_ERROR([Fortran does not allow to define preprocessor symbols], 77)]) else FC_DEFINE=$ac_cv_fc_pp_define $1 fi AC_SUBST([FC_DEFINE])dnl AC_LANG_POP([Fortran])dnl ]) # AC_FC_FREEFORM([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------------------------ # Look for a compiler flag to make the Fortran (FC) compiler accept # free-format source code, and adds it to FCFLAGS. Call # ACTION-IF-SUCCESS (defaults to nothing) if successful (i.e. can # compile code using new extension) and ACTION-IF-FAILURE (defaults to # failing with an error message) if not. (Defined via DEFUN_ONCE to # prevent flag from being added to FCFLAGS multiple times.) # # The known flags are: # -ffree-form: GNU g77, gfortran, g95 # -FR, -free: Intel compiler (icc, ecc, ifort) # -free: Compaq compiler (fort), Sun compiler (f95) # -qfree: IBM compiler (xlf) # -Mfree, -Mfreeform: Portland Group compiler # -freeform: SGI compiler # -8, -f free: Absoft Fortran # +source=free: HP Fortran # (-)-nfix, -Free: Lahey/Fujitsu Fortran # -free: NAGWare # -f, -Wf,-f: f2c (but only a weak form of "free-form" and long lines) # We try to test the "more popular" flags first, by some prejudiced # notion of popularity. AC_DEFUN_ONCE([AC_FC_FREEFORM], [AC_LANG_PUSH([Fortran])dnl AC_CACHE_CHECK([for Fortran flag needed to accept free-form source], [ac_cv_fc_freeform], [ac_cv_fc_freeform=unknown ac_fc_freeform_FCFLAGS_save=$FCFLAGS for ac_flag in none -ffree-form -FR -free -qfree -Mfree -Mfreeform \ -freeform "-f free" -8 +source=free -nfix --nfix -Free do test "x$ac_flag" != xnone && FCFLAGS="$ac_fc_freeform_FCFLAGS_save $ac_flag" dnl Use @&t@ below to ensure that editors don't turn 8+ spaces into tab. AC_COMPILE_IFELSE([[ program freeform ! FIXME: how to best confuse non-freeform compilers? print *, 'Hello ', & @&t@ 'world.' end]], [ac_cv_fc_freeform=$ac_flag; break]) done rm -f conftest.err conftest.$ac_objext conftest.$ac_ext FCFLAGS=$ac_fc_freeform_FCFLAGS_save ]) if test "x$ac_cv_fc_freeform" = xunknown; then m4_default([$2], [AC_MSG_ERROR([Fortran does not accept free-form source], 77)]) else if test "x$ac_cv_fc_freeform" != xnone; then FCFLAGS="$FCFLAGS $ac_cv_fc_freeform" fi $1 fi AC_LANG_POP([Fortran])dnl ])# AC_FC_FREEFORM # AC_FC_FIXEDFORM([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------------------------ # Look for a compiler flag to make the Fortran (FC) compiler accept # fixed-format source code, and adds it to FCFLAGS. Call # ACTION-IF-SUCCESS (defaults to nothing) if successful (i.e. can # compile code using new extension) and ACTION-IF-FAILURE (defaults to # failing with an error message) if not. (Defined via DEFUN_ONCE to # prevent flag from being added to FCFLAGS multiple times.) # # The known flags are: # -ffixed-form: GNU g77, gfortran, g95 # -fixed: Intel compiler (ifort), Sun compiler (f95) # -qfixed: IBM compiler (xlf*) # -Mfixed: Portland Group compiler # -fixedform: SGI compiler # -f fixed: Absoft Fortran # +source=fixed: HP Fortran # (-)-fix, -Fixed: Lahey/Fujitsu Fortran # -fixed: NAGWare # Since compilers may accept fixed form based on file name extension, # but users may want to use it with others as well, call AC_FC_SRCEXT # with the respective source extension before calling this macro. AC_DEFUN_ONCE([AC_FC_FIXEDFORM], [AC_LANG_PUSH([Fortran])dnl AC_CACHE_CHECK([for Fortran flag needed to accept fixed-form source], [ac_cv_fc_fixedform], [ac_cv_fc_fixedform=unknown ac_fc_fixedform_FCFLAGS_save=$FCFLAGS for ac_flag in none -ffixed-form -fixed -qfixed -Mfixed -fixedform "-f fixed" \ +source=fixed -fix --fix -Fixed do test "x$ac_flag" != xnone && FCFLAGS="$ac_fc_fixedform_FCFLAGS_save $ac_flag" AC_COMPILE_IFELSE([[ C This comment should confuse free-form compilers. program main end]], [ac_cv_fc_fixedform=$ac_flag; break]) done rm -f conftest.err conftest.$ac_objext conftest.$ac_ext FCFLAGS=$ac_fc_fixedform_FCFLAGS_save ]) if test "x$ac_cv_fc_fixedform" = xunknown; then m4_default([$2], [AC_MSG_ERROR([Fortran does not accept fixed-form source], 77)]) else if test "x$ac_cv_fc_fixedform" != xnone; then FCFLAGS="$FCFLAGS $ac_cv_fc_fixedform" fi $1 fi AC_LANG_POP([Fortran])dnl ])# AC_FC_FIXEDFORM # AC_FC_LINE_LENGTH([LENGTH], [ACTION-IF-SUCCESS], # [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------ # Look for a compiler flag to make the Fortran (FC) compiler accept long lines # in the current (free- or fixed-format) source code, and adds it to FCFLAGS. # The optional LENGTH may be 80, 132 (default), or `unlimited' for longer # lines. Note that line lengths above 250 columns are not portable, and some # compilers (hello ifort) do not accept more than 132 columns at least for # fixed format. Call ACTION-IF-SUCCESS (defaults to nothing) if successful # (i.e. can compile code using new extension) and ACTION-IF-FAILURE (defaults # to failing with an error message) if not. (Defined via DEFUN_ONCE to # prevent flag from being added to FCFLAGS multiple times.) # You should call AC_FC_FREEFORM or AC_FC_FIXEDFORM to set the desired format # prior to using this macro. # # The known flags are: # -f{free,fixed}-line-length-N with N 72, 80, 132, or 0 or none for none. # -ffree-line-length-none: GNU gfortran # -ffree-line-length-huge: g95 (also -ffixed-line-length-N as above) # -qfixed=132 80 72: IBM compiler (xlf) # -Mextend: Cray # -132 -80 -72: Intel compiler (ifort) # Needs to come before -extend_source because ifort # accepts that as well with an optional parameter and # doesn't fail but only warns about unknown arguments. # -extend_source: SGI compiler # -W, -WNN (132, 80, 72): Absoft Fortran # +es, +extend_source: HP Fortran (254 in either form, default is 72 fixed, # 132 free) # -w, (-)-wide: Lahey/Fujitsu Fortran (255 cols in fixed form) # -e: Sun Fortran compiler (132 characters) # -132: NAGWare # -72, -f, -Wf,-f: f2c (a weak form of "free-form" and long lines). # /XLine: Open Watcom AC_DEFUN_ONCE([AC_FC_LINE_LENGTH], [AC_LANG_PUSH([Fortran])dnl m4_case(m4_default([$1], [132]), [unlimited], [ac_fc_line_len_string=unlimited ac_fc_line_len=0 ac_fc_line_length_test=' subroutine longer_than_132(arg1,arg2,arg3,arg4,arg5,arg6,arg7,arg8,'\ 'arg9,arg10,arg11,arg12,arg13,arg14,arg15,arg16,arg17,arg18,arg19)'], [132], [ac_fc_line_len=132 ac_fc_line_length_test=' subroutine longer_than_80(arg1,arg2,arg3,arg4,arg5,arg6,arg7,arg8,arg9,'\ 'arg10)'], [80], [ac_fc_line_len=80 ac_fc_line_length_test=' subroutine longer_than_72(arg1,arg2,arg3,arg4,arg5,arg6,arg7,arg8,arg9)'], [m4_warning([Invalid length argument `$1'])]) : ${ac_fc_line_len_string=$ac_fc_line_len} AC_CACHE_CHECK( [for Fortran flag needed to accept $ac_fc_line_len_string column source lines], [ac_cv_fc_line_length], [ac_cv_fc_line_length=unknown ac_fc_line_length_FCFLAGS_save=$FCFLAGS for ac_flag in none \ -ffree-line-length-none -ffixed-line-length-none \ -ffree-line-length-huge \ -ffree-line-length-$ac_fc_line_len \ -ffixed-line-length-$ac_fc_line_len \ -qfixed=$ac_fc_line_len -Mextend \ -$ac_fc_line_len -extend_source \ -W$ac_fc_line_len -W +extend_source +es -wide --wide -w -e \ -f -Wf,-f -xline do test "x$ac_flag" != xnone && FCFLAGS="$ac_fc_line_length_FCFLAGS_save $ac_flag" AC_COMPILE_IFELSE([[$ac_fc_line_length_test end subroutine]], [ac_cv_fc_line_length=$ac_flag; break]) done rm -f conftest.err conftest.$ac_objext conftest.$ac_ext FCFLAGS=$ac_fc_line_length_FCFLAGS_save ]) if test "x$ac_cv_fc_line_length" = xunknown; then m4_default([$3], [AC_MSG_ERROR([Fortran does not accept long source lines], 77)]) else if test "x$ac_cv_fc_line_length" != xnone; then FCFLAGS="$FCFLAGS $ac_cv_fc_line_length" fi $2 fi AC_LANG_POP([Fortran])dnl ])# AC_FC_LINE_LENGTH # AC_FC_CHECK_BOUNDS([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ---------------------------------------------------------------------- # Look for a compiler flag to turn on array bounds checking for the # Fortran (FC) compiler, and adds it to FCFLAGS. Call # ACTION-IF-SUCCESS (defaults to nothing) if successful (i.e. can # compile code using new extension) and ACTION-IF-FAILURE (defaults to # failing with an error message) if not. (Defined via DEFUN_ONCE to # prevent flag from being added to FCFLAGS multiple times.) # # The known flags are: # -fcheck=all, -fbounds-check: gfortran # -fbounds-check: g77, g95 # -CB, -check bounds: Intel compiler (icc, ecc, ifort) # -C: Sun/Oracle compiler (f95) # -C, -qcheck: IBM compiler (xlf) # -Mbounds: Portland Group compiler # -C ,-Mbounds: Cray # -C, -check_bounds: SGI compiler # -check_bounds, +check=all: HP Fortran # -C, -Rb -Rc: Absoft (-Rb: array boundaries, -Rc: array conformance) # --chk e,s -chk (e,s): Lahey # -C -C=all: NAGWare # -C, -ffortran-bounds-check: PathScale pathf90 # -C: f2c # -BOunds: Open Watcom AC_DEFUN_ONCE([AC_FC_CHECK_BOUNDS], [AC_LANG_PUSH([Fortran])dnl AC_CACHE_CHECK([for Fortran flag to enable array-bounds checking], [ac_cv_fc_check_bounds], [ac_cv_fc_check_bounds=unknown ac_fc_check_bounds_FCFLAGS_save=$FCFLAGS for ac_flag in -fcheck=bounds -fbounds-check -check_bounds -Mbounds -qcheck \ '-check bounds' +check=all --check '-Rb -Rc' -CB -C=all -C \ -ffortran-bounds-check "--chk e,s" "-chk e -chk s" -bounds do FCFLAGS="$ac_fc_check_bounds_FCFLAGS_save $ac_flag" # We should be able to link a correct program. AC_LINK_IFELSE([AC_LANG_PROGRAM([], [])], [AC_LINK_IFELSE([[ subroutine sub(a) integer a(:) a(8) = 0 end subroutine program main integer a(1:7) interface subroutine sub(a) integer a(:) end subroutine end interface call sub(a) end program]], [# If we can run the program, require failure at run time. # In cross-compiling mode, we rely on the compiler not accepting # unknown options. AS_IF([test "$cross_compiling" = yes], [ac_cv_fc_check_bounds=$ac_flag; break], [AS_IF([_AC_DO_TOKENS(./conftest$ac_exeext)], [], [ac_cv_fc_check_bounds=$ac_flag; break])])])]) done rm -f conftest$ac_exeext conftest.err conftest.$ac_objext conftest.$ac_ext \ core *.core core.conftest.* FCFLAGS=$ac_fc_check_bounds_FCFLAGS_save ]) if test "x$ac_cv_fc_check_bounds" = xunknown; then m4_default([$2], [AC_MSG_ERROR([no Fortran flag for bounds checking found], 77)]) else if test "x$ac_cv_fc_check_bounds" != xnone; then FCFLAGS="$FCFLAGS $ac_cv_fc_check_bounds" fi $1 fi AC_LANG_POP([Fortran])dnl ])# AC_FC_CHECK_BOUNDS # _AC_FC_IMPLICIT_NONE([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------------------------------ # Look for a flag to disallow implicit declarations, and add it to FCFLAGS. # Call ACTION-IF-SUCCESS (defaults to nothing) if successful and # ACTION-IF-FAILURE (defaults to failing with an error message) if not. # # Known flags: # GNU gfortran, g95: -fimplicit-none, g77: -Wimplicit # Intel: -u, -implicitnone; might also need '-warn errors' to turn into error. # Sun/Oracle: -u # HP: +implicit_none # IBM: -u, -qundef # SGI: -u # Compaq: -u, -warn declarations # NAGWare: -u # Lahey: -in, --in, -AT # Cray: -Mdclchk -e I # PGI: -Mcdlchk # f2c: -u AC_DEFUN([_AC_FC_IMPLICIT_NONE], [_AC_FORTRAN_ASSERT()dnl AC_CACHE_CHECK([for flag to disallow _AC_LANG implicit declarations], [ac_cv_[]_AC_LANG_ABBREV[]_implicit_none], [ac_cv_[]_AC_LANG_ABBREV[]_implicit_none=unknown ac_fc_implicit_none_[]_AC_LANG_PREFIX[]FLAGS_save=$[]_AC_LANG_PREFIX[]FLAGS for ac_flag in none -fimplicit-none -u -Wimplicit -implicitnone +implicit_none \ -qundef "-warn declarations" -in --in -AT "-e I" -Mdclchk \ "-u -warn errors" do if test "x$ac_flag" != xnone; then _AC_LANG_PREFIX[]FLAGS="$ac_fc_implicit_none_[]_AC_LANG_PREFIX[]FLAGS_save $ac_flag" fi AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [])], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[ i = 0 print *, i]])], [], [ac_cv_[]_AC_LANG_ABBREV[]_implicit_none=$ac_flag; break])]) done rm -f conftest.err conftest.$ac_objext conftest.$ac_ext _AC_LANG_PREFIX[]FLAGS=$ac_fc_implicit_none_[]_AC_LANG_PREFIX[]FLAGS_save ]) if test "x$ac_cv_[]_AC_LANG_ABBREV[]_implicit_none" = xunknown; then m4_default([$3], [AC_MSG_ERROR([no Fortran flag to disallow implicit declarations found], 77)]) else if test "x$ac_cv_[]_AC_LANG_ABBREV[]_implicit_none" != xnone; then _AC_LANG_PREFIX[]FLAGS="$_AC_LANG_PREFIX[]FLAGS $ac_cv_[]_AC_LANG_ABBREV[]_implicit_none" fi $2 fi ])# _AC_FC_IMPLICIT_NONE # AC_F77_IMPLICIT_NONE([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ------------------------------------------------------------------------ AC_DEFUN([AC_F77_IMPLICIT_NONE], [AC_LANG_PUSH([Fortran 77])dnl _AC_FC_IMPLICIT_NONE($@) AC_LANG_POP([Fortran 77])dnl ])# AC_F77_IMPLICIT_NONE # AC_FC_IMPLICIT_NONE([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ----------------------------------------------------------------------- AC_DEFUN([AC_FC_IMPLICIT_NONE], [AC_LANG_PUSH([Fortran])dnl _AC_FC_IMPLICIT_NONE($@) AC_LANG_POP([Fortran])dnl ])# AC_FC_IMPLICIT_NONE # AC_FC_MODULE_EXTENSION # ---------------------- # Find the Fortran 90 module file extension. The module extension is stored # in the variable FC_MODEXT and empty if it cannot be determined. The result # or "unknown" is cached in the cache variable ac_cv_fc_module_ext. AC_DEFUN([AC_FC_MODULE_EXTENSION], [AC_CACHE_CHECK([Fortran 90 module extension], [ac_cv_fc_module_ext], [AC_LANG_PUSH(Fortran) mkdir conftest.dir cd conftest.dir ac_cv_fc_module_ext=unknown AC_COMPILE_IFELSE([[ module conftest_module contains subroutine conftest_routine write(*,'(a)') 'gotcha!' end subroutine end module]], [ac_cv_fc_module_ext=`ls | sed -n 's,conftest_module\.,,p'` if test x$ac_cv_fc_module_ext = x; then dnl Some F90 compilers use upper case characters for the module file name. ac_cv_fc_module_ext=`ls | sed -n 's,CONFTEST_MODULE\.,,p'` fi]) cd .. rm -rf conftest.dir AC_LANG_POP(Fortran) ]) FC_MODEXT=$ac_cv_fc_module_ext if test "$FC_MODEXT" = unknown; then FC_MODEXT= fi AC_SUBST([FC_MODEXT])dnl ]) # AC_FC_MODULE_FLAG([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # --------------------------------------------------------------------- # Find a flag to include Fortran 90 modules from another directory. # If successful, run ACTION-IF-SUCCESS (defaults to nothing), otherwise # run ACTION-IF-FAILURE (defaults to failing with an error message). # The module flag is cached in the ac_cv_fc_module_flag variable. # It may contain significant trailing whitespace. # # Known flags: # gfortran: -Idir, -I dir (-M dir, -Mdir (deprecated), -Jdir for writing) # g95: -I dir (-fmod=dir for writing) # SUN: -Mdir, -M dir (-moddir=dir for writing; # -Idir for includes is also searched) # HP: -Idir, -I dir (+moddir=dir for writing) # IBM: -Idir (-qmoddir=dir for writing) # Intel: -Idir -I dir (-mod dir for writing) # Absoft: -pdir # Lahey: -mod dir # Cray: -module dir, -p dir (-J dir for writing) # -e m is needed to enable writing .mod files at all # Compaq: -Idir # NAGWare: -I dir # PathScale: -I dir (but -module dir is looked at first) # Portland: -module dir (first -module also names dir for writing) # Fujitsu: -Am -Idir (-Mdir for writing is searched first, then '.', then -I) # (-Am indicates how module information is saved) AC_DEFUN([AC_FC_MODULE_FLAG],[ AC_CACHE_CHECK([Fortran 90 module inclusion flag], [ac_cv_fc_module_flag], [AC_LANG_PUSH([Fortran]) ac_cv_fc_module_flag=unknown mkdir conftest.dir cd conftest.dir AC_COMPILE_IFELSE([[ module conftest_module contains subroutine conftest_routine write(*,'(a)') 'gotcha!' end subroutine end module]], [cd .. ac_fc_module_flag_FCFLAGS_save=$FCFLAGS # Flag ordering is significant for gfortran and Sun. for ac_flag in -M -I '-I ' '-M ' -p '-mod ' '-module ' '-Am -I'; do # Add the flag twice to prevent matching an output flag. FCFLAGS="$ac_fc_module_flag_FCFLAGS_save ${ac_flag}conftest.dir ${ac_flag}conftest.dir" AC_COMPILE_IFELSE([[ program main use conftest_module call conftest_routine end program]], [ac_cv_fc_module_flag="$ac_flag"]) if test "$ac_cv_fc_module_flag" != unknown; then break fi done FCFLAGS=$ac_fc_module_flag_FCFLAGS_save ]) rm -rf conftest.dir AC_LANG_POP([Fortran]) ]) if test "$ac_cv_fc_module_flag" != unknown; then FC_MODINC=$ac_cv_fc_module_flag $1 else FC_MODINC= m4_default([$2], [AC_MSG_ERROR([unable to find compiler flag for module search path])]) fi AC_SUBST([FC_MODINC]) # Ensure trailing whitespace is preserved in a Makefile. AC_SUBST([ac_empty], [""]) AC_CONFIG_COMMANDS_PRE([case $FC_MODINC in #( *\ ) FC_MODINC=$FC_MODINC'${ac_empty}' ;; esac])dnl ]) # AC_FC_MODULE_OUTPUT_FLAG([ACTION-IF-SUCCESS], [ACTION-IF-FAILURE = FAILURE]) # ---------------------------------------------------------------------------- # Find a flag to write Fortran 90 module information to another directory. # If successful, run ACTION-IF-SUCCESS (defaults to nothing), otherwise # run ACTION-IF-FAILURE (defaults to failing with an error message). # The module flag is cached in the ac_cv_fc_module_output_flag variable. # It may contain significant trailing whitespace. # # For known flags, see the documentation of AC_FC_MODULE_FLAG above. AC_DEFUN([AC_FC_MODULE_OUTPUT_FLAG],[ AC_CACHE_CHECK([Fortran 90 module output flag], [ac_cv_fc_module_output_flag], [AC_LANG_PUSH([Fortran]) mkdir conftest.dir conftest.dir/sub cd conftest.dir ac_cv_fc_module_output_flag=unknown ac_fc_module_output_flag_FCFLAGS_save=$FCFLAGS # Flag ordering is significant: put flags late which some compilers use # for the search path. for ac_flag in -J '-J ' -fmod= -moddir= +moddir= -qmoddir= '-mdir ' '-mod ' \ '-module ' -M '-Am -M' '-e m -J '; do FCFLAGS="$ac_fc_module_output_flag_FCFLAGS_save ${ac_flag}sub" AC_COMPILE_IFELSE([[ module conftest_module contains subroutine conftest_routine write(*,'(a)') 'gotcha!' end subroutine end module]], [cd sub AC_COMPILE_IFELSE([[ program main use conftest_module call conftest_routine end program]], [ac_cv_fc_module_output_flag=$ac_flag]) cd .. AS_IF([test x"$ac_cv_fc_module_output_flag" != xunknown],[break])]) done FCFLAGS=$ac_fc_module_output_flag_FCFLAGS_save cd .. rm -rf conftest.dir AC_LANG_POP([Fortran]) ]) AS_IF([test x"$ac_cv_fc_module_output_flag" != xunknown], [FC_MODOUT=$ac_cv_fc_module_output_flag $1], [FC_MODOUT= m4_default([$2], [AC_MSG_ERROR([unable to find compiler flag to write module information to])])]) AC_SUBST([FC_MODOUT]) # Ensure trailing whitespace is preserved in a Makefile. AC_SUBST([ac_empty], [""]) AC_CONFIG_COMMANDS_PRE([case $FC_MODOUT in #( *\ ) FC_MODOUT=$FC_MODOUT'${ac_empty}' ;; esac])dnl ])