# This file is part of Autoconf. -*- Autoconf -*- # Programming languages support. # Copyright (C) 1992, 93, 94, 95, 96, 98, 99, 2000 # Free Software Foundation, Inc. # # 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 2, 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. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA # 02111-1307, USA. # # As a special exception, the Free Software Foundation gives unlimited # permission to copy, distribute and modify the configure scripts that # are the output of Autoconf. You need not follow the terms of the GNU # General Public License when using or distributing such scripts, even # though portions of the text of Autoconf appear in them. The GNU # General Public License (GPL) does govern all other use of the material # that constitutes the Autoconf program. # # Certain portions of the Autoconf source text are designed to be copied # (in certain cases, depending on the input) into the output of # Autoconf. We call these the "data" portions. The rest of the Autoconf # source text consists of comments plus executable code that decides which # of the data portions to output in any given case. We call these # comments and executable code the "non-data" portions. Autoconf never # copies any of the non-data portions into its output. # # This special exception to the GPL applies to versions of Autoconf # released by the Free Software Foundation. When you make and # distribute a modified version of Autoconf, you may extend this special # exception to the GPL to apply to your modified version as well, *unless* # your modified version has the potential to copy into its output some # of the text that was the non-data portion of the version that you started # with. (In other words, unless your change moves or copies text from # the non-data portions to the data portions.) If your modification has # such potential, you must delete any notice of this special exception # to the GPL from your modified version. # # 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: # # 1. Language selection # and routines to produce programs in a given language. # a. generic routines # b. C # c. C++ # d. Fortran 77 # # 2. Producing programs in a given language. # a. generic routines # b. C # c. C++ # d. Fortran 77 # # 3. Looking for a compiler # And possibly the associated preprocessor. # a. Generic routines. # b. C # c. C++ # d. Fortran 77 # # 4. Compilers' characteristics. # a. Generic routines. # b. C # c. C++ # d. Fortran 77 ## ----------------------- ## ## 1. Language selection. ## ## ----------------------- ## # -------------------------------- # # 1a. Generic language selection. # # -------------------------------- # # AC_LANG_CASE(LANG1, IF-LANG1, LANG2, IF-LANG2, ..., DEFAULT) # ------------------------------------------------------------ # Expand into IF-LANG1 if the current language is LANG1 etc. else # into default. define([AC_LANG_CASE], [m4_case(_AC_LANG, $@)]) # _AC_LANG_DISPATCH(MACRO, LANG, ARGS) # ------------------------------------ # Call the specialization of MACRO for LANG with ARGS. Complain if # unavailable. define([_AC_LANG_DISPATCH], [ifdef([$1($2)], [indir([$1($2)], m4_shiftn(2, $@))], [AC_FATAL([$1: unknown language: $2])])]) # AC_LANG(LANG) # ------------- # Set the current language to LANG. # # Do *not* write AC_LANG([$1]), because this pair of parens does not # correspond to an evaluation, rather, they are just part of the name. # If you add quotes here, they will be part of the name too, yielding # `AC_LANG([C])' for instance, which does not exist. AC_DEFUN([AC_LANG], [define([_AC_LANG], [$1])dnl _AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # AC_LANG_PUSH(LANG) # ------------------ # Save the current language, and use LANG. define([AC_LANG_PUSH], [pushdef([_AC_LANG])dnl AC_LANG([$1])]) # AC_LANG_POP # ----------- # Restore the previous language. define([AC_LANG_POP], [popdef([_AC_LANG])dnl ifelse(_AC_LANG, [_AC_LANG], [AC_FATAL([too many $0])])dnl AC_LANG(_AC_LANG)]) # AC_LANG_SAVE # ------------ # Save the current language, but don't change language. AU_DEFUN([AC_LANG_SAVE], [AC_DIAGNOSE([obsolete], [instead of using `AC_LANG', `AC_LANG_SAVE', and `AC_LANG_RESTORE', you should use `AC_LANG_PUSH' and `AC_LANG_POP'.]) pushdef([_AC_LANG], _AC_LANG)]) # AC_LANG_RESTORE # --------------- # Restore the current language from the stack. AU_DEFUN([AC_LANG_RESTORE], [AC_LANG_POP($@)]) # -------------------- # # 1b. The C language. # # -------------------- # # AC_LANG(C) # ---------- define([AC_LANG(C)], [ac_ext=c # CFLAGS is not in ac_cpp because -g, -O, etc. are not valid cpp options. ac_cpp='$CPP $CPPFLAGS' ac_compile='${CC-cc} -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&AC_FD_LOG' ac_link='${CC-cc} -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&AC_FD_LOG' ac_gnu_compiler=$ac_cv_prog_gcc ]) # AC_LANG_C # --------- AU_DEFUN([AC_LANG_C], [AC_LANG(C)]) # ---------------------- # # 1c. The C++ language. # # ---------------------- # # AC_LANG(C++) # ------------ define([AC_LANG(C++)], [ac_ext=cc # CXXFLAGS is not in ac_cpp because -g, -O, etc. are not valid cpp options. ac_cpp='$CXXCPP $CPPFLAGS' ac_compile='${CXX-g++} -c $CXXFLAGS $CPPFLAGS conftest.$ac_ext >&AC_FD_LOG' ac_link='${CXX-g++} -o conftest$ac_exeext $CXXFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&AC_FD_LOG' ac_gnu_compiler=$ac_cv_prog_gxx ]) # AC_LANG_CPLUSPLUS # ----------------- AU_DEFUN([AC_LANG_CPLUSPLUS], [AC_LANG(C++)]) # ----------------------------- # # 1d. The Fortran 77 language. # # ----------------------------- # # AC_LANG(Fortran 77) # ------------------- define([AC_LANG(Fortran 77)], [ac_ext=f ac_compile='${F77-f77} -c $FFLAGS conftest.$ac_ext >&AC_FD_LOG' ac_link='${F77-f77} -o conftest$ac_exeext $FFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&AC_FD_LOG' ac_gnu_compiler=$ac_cv_prog_g77 ]) # AC_LANG_FORTRAN77 # ----------------- AU_DEFUN([AC_LANG_FORTRAN77], [AC_LANG(Fortran 77)]) ## ---------------------- ## ## 2.Producing programs. ## ## ---------------------- ## # ---------------------- # # 2a. Generic routines. # # ---------------------- # # AC_LANG_CONFTEST(BODY) # --------------------- # Save the BODY in `conftest.$acext'. Add a trailing new line. define([AC_LANG_CONFTEST], [cat >conftest.$ac_ext <<_ACEOF $1 _ACEOF]) # AC_LANG_SOURCE(BODY) # -------------------- # Produce a valid source for the current language, which includes the # BODY, and as much as possible `confdefs.h' and the `#line' sync # lines. AC_DEFUN([AC_LANG_SOURCE], [_AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # AC_LANG_PROGRAM([PROLOGUE], [BODY]) # ----------------------------------- # Produce a valid source for the current language. Prepend the # PROLOGUE (typically CPP directives and/or declarations) to an # execution the BODY (typically glued inside the `main' function, or # equivalent). AC_DEFUN([AC_LANG_PROGRAM], [AC_LANG_SOURCE([_AC_LANG_DISPATCH([$0], _AC_LANG, $@)])]) # AC_LANG_CALL(PROLOGUE, FUNCTION) # -------------------------------- # Call the FUNCTION. AC_DEFUN([AC_LANG_CALL], [_AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # AC_LANG_FUNC_LINK_TRY(FUNCTION) # ------------------------------- # Produce a source which links correctly iff the FUNCTION exists. AC_DEFUN([AC_LANG_FUNC_LINK_TRY], [_AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # AC_LANG_BOOL_COMPILE_TRY(PROLOGUE, EXPRESSION) # ---------------------------------------------- # Produce a program that compiles with success iff the boolean EXPRESSION # evaluates to true at compile time. AC_DEFUN([AC_LANG_BOOL_COMPILE_TRY], [_AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # AC_LANG_INT_SAVE(PROLOGUE, EXPRESSION) # -------------------------------------- # Produce a program that saves the runtime evaluation of the integer # EXPRESSION into `conftestval'. AC_DEFUN([AC_LANG_INT_SAVE], [_AC_LANG_DISPATCH([$0], _AC_LANG, $@)]) # --------------- # # 2b. C sources. # # --------------- # # AC_LANG_SOURCE(C)(BODY) # ----------------------- # This sometimes fails to find confdefs.h, for some reason. # #line __oline__ "$[0]" define([AC_LANG_SOURCE(C)], [#line __oline__ "configure" #include "confdefs.h" $1]) # AC_LANG_PROGRAM(C)([PROLOGUE], [BODY]) # -------------------------------------- define([AC_LANG_PROGRAM(C)], [$1 int main () { dnl Do *not* indent the following line: there may be CPP directives. dnl Don't move the `;' right after for the same reason. $2 ; return 0; }]) # AC_LANG_CALL(C)(PROLOGUE, FUNCTION) # ----------------------------------- # Avoid conflicting decl of main. define([AC_LANG_CALL(C)], [AC_LANG_PROGRAM([$1 ifelse([$2], [main], , [/* Override any gcc2 internal prototype to avoid an error. */ #ifdef __cplusplus extern "C" #endif /* We use char because int might match the return type of a gcc2 builtin and then its argument prototype would still apply. */ char $2 ();])], [$2 ();])]) # AC_LANG_FUNC_LINK_TRY(C)(FUNCTION) # ---------------------------------- # Don't include because on OSF/1 3.0 it includes # which includes which contains a # prototype for select. Similarly for bzero. define([AC_LANG_FUNC_LINK_TRY(C)], [AC_LANG_PROGRAM( [/* System header to define __stub macros and hopefully few prototypes, which can conflict with char $1 (); below. */ #include /* Override any gcc2 internal prototype to avoid an error. */ #ifdef __cplusplus extern "C" #endif /* We use char because int might match the return type of a gcc2 builtin and then its argument prototype would still apply. */ char $1 (); char (*f) (); ], [/* The GNU C library defines this for functions which it implements to always fail with ENOSYS. Some functions are actually named something starting with __ and the normal name is an alias. */ #if defined (__stub_$1) || defined (__stub___$1) choke me #else f = $1; #endif ])]) # AC_LANG_BOOL_COMPILE_TRY(C)(PROLOGUE, EXPRESSION) # ------------------------------------------------- define([AC_LANG_BOOL_COMPILE_TRY(C)], [AC_LANG_PROGRAM([$1], [int _array_ @<:@1 - 2 * !($2)@:>@])]) # AC_LANG_INT_SAVE(C)(PROLOGUE, EXPRESSION) # ----------------------------------------- # We need `stdio.h' to open a `FILE', so the prologue defaults to the # inclusion of `stdio.h'. define([AC_LANG_INT_SAVE(C)], [AC_LANG_PROGRAM([m4_default([$1], [@%:@include "stdio.h"])], [FILE *f = fopen ("conftestval", "w"); if (!f) exit (1); fprintf (f, "%d\n", ($2));])]) # ----------------- # # 2c. C++ sources. # # ----------------- # # AC_LANG_SOURCE(C++)(BODY) # ------------------------- define([AC_LANG_SOURCE(C++)], [#line __oline__ "configure" #include "confdefs.h" #ifdef __cplusplus extern "C" void exit (int); #endif $1]) # AC_LANG_PROGRAM(C++)([PROLOGUE], [BODY]) # ---------------------------------------- # Same as C. define([AC_LANG_PROGRAM(C++)], defn([AC_LANG_PROGRAM(C)])) # AC_LANG_CALL(C++)(PROLOGUE, FUNCTION) # ------------------------------------- # Same as C. define([AC_LANG_CALL(C++)], defn([AC_LANG_CALL(C)])) # AC_LANG_FUNC_LINK_TRY(C++)(FUNCTION) # ------------------------------------ # Same as C. define([AC_LANG_FUNC_LINK_TRY(C++)], defn([AC_LANG_FUNC_LINK_TRY(C)])) # AC_LANG_BOOL_COMPILE_TRY(C++)(PROLOGUE, EXPRESSION) # --------------------------------------------------- # Same as C. define([AC_LANG_BOOL_COMPILE_TRY(C++)], defn([AC_LANG_BOOL_COMPILE_TRY(C)])) # AC_LANG_INT_SAVE(C++)(PROLOGUE, EXPRESSION) # ------------------------------------------- # Same as C. define([AC_LANG_INT_SAVE(C++)], defn([AC_LANG_INT_SAVE(C)])) # ------------------------ # # 2d. Fortran 77 sources. # # ------------------------ # # AC_LANG_SOURCE(Fortran 77)(BODY) # -------------------------------- # FIXME: Apparently, according to former AC_TRY_COMPILER, the CPP # directives must not be included. But AC_TRY_RUN_NATIVE was not # avoiding them, so? define([AC_LANG_SOURCE(Fortran 77)], [$1]) # AC_LANG_PROGRAM(Fortran 77)([PROLOGUE], [BODY]) # ----------------------------------------------- # Yes, we discard the PROLOGUE. define([AC_LANG_PROGRAM(Fortran 77)], [ program main $2 end]) # AC_LANG_CALL(Fortran 77)(PROLOGUE, FUNCTION) # -------------------------------------------- # FIXME: This is a guess, help! define([AC_LANG_CALL(Fortran 77)], [AC_LANG_PROGRAM([$1], [ call $2])]) ## -------------------------------------------- ## ## 3. Looking for Compilers and Preprocessors. ## ## -------------------------------------------- ## # ----------------------------------------------------- # # 3a. Generic routines in compilers and preprocessors. # # ----------------------------------------------------- # # AC_REQUIRE_CPP # -------------- # Require finding the C or C++ preprocessor, whichever is the # current language. AC_DEFUN([AC_REQUIRE_CPP], [AC_LANG_CASE(C, [AC_REQUIRE([AC_PROG_CPP])], [AC_REQUIRE([AC_PROG_CXXCPP])])]) # AC_LANG_COMPILER_WORKS # ---------------------- define([_AC_LANG_COMPILER_WORKS], [AC_MSG_CHECKING([whether the _AC_LANG compiler works]) AC_LINK_IFELSE([AC_LANG_PROGRAM()], [# FIXME: these cross compiler hacks should be removed for autoconf 3.0 # If not cross compiling, check that we can run a simple program. if test "$cross_compiling" != yes; then if AC_TRY_COMMAND(./conftest); then cross_compiling=no else if test "$cross_compiling" = maybe; then cross_compiling=yes else AC_MSG_ERROR([cannot run _AC_LANG compiled programs. 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AC_DEFUN([AC_PROG_CC], [AC_BEFORE([$0], [AC_PROG_CPP])dnl AC_LANG_PUSH(C) AC_ARG_VAR([CC], [C compiler command]) AC_ARG_VAR([CFLAGS], [C compiler flags]) ifval([$1], [AC_CHECK_TOOLS(CC, [$1])], [AC_CHECK_TOOL(CC, gcc) if test -z "$CC"; then AC_CHECK_TOOL(CC, cc) fi if test -z "$CC"; then AC_CHECK_PROG(CC, cc, cc, , , /usr/ucb/cc) fi if test -z "$CC"; then AC_CHECK_TOOLS(CC, cl) fi ]) test -z "$CC" && AC_MSG_ERROR([no acceptable cc found in \$PATH]) _AC_LANG_COMPILER_WORKS _AC_PROG_CC_GNU _AC_PROG_CC_G AC_EXPAND_ONCE([_AC_EXEEXT]) AC_EXPAND_ONCE([_AC_OBJEXT]) AC_LANG_POP ])# AC_PROG_CC # _AC_PROG_CC_GNU # --------------- define([_AC_PROG_CC_GNU], [AC_CACHE_CHECK(whether we are using GNU C, ac_cv_prog_gcc, [# The semicolon is to pacify NeXT's syntax-checking cpp. cat >conftest.$ac_ext <<_ACEOF #ifdef __GNUC__ yes; #endif _ACEOF if AC_TRY_COMMAND(${CC-cc} -E conftest.$ac_ext) | grep yes >/dev/null; then ac_cv_prog_gcc=yes else ac_cv_prog_gcc=no fi]) ac_gnu_compiler=$ac_cv_prog_gcc if test $ac_gnu_compiler = yes; then GCC=yes else GCC= fi[]dnl ])# _AC_PROG_CC_GNU # _AC_PROG_CC_G # ------------- # Check whether -g works, even if CFLAGS is set, in case the package # plays around with CFLAGS (such as to build both debugging and normal # versions of a library), tasteless as that idea is. define([_AC_PROG_CC_G], [ac_test_CFLAGS=${CFLAGS+set} ac_save_CFLAGS=$CFLAGS CFLAGS= AC_CACHE_CHECK(whether ${CC-cc} accepts -g, ac_cv_prog_cc_g, [AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) if ${CC-cc} -g -c conftest.$ac_ext 2>&1 | grep . >/dev/null; then ac_cv_prog_cc_g=no else ac_cv_prog_cc_g=yes fi rm -f conftest* ]) if test "$ac_test_CFLAGS" = set; then CFLAGS=$ac_save_CFLAGS elif test $ac_cv_prog_cc_g = yes; then if test "$GCC" = yes; then CFLAGS="-g -O2" else CFLAGS="-g" fi else if test "$GCC" = yes; then CFLAGS="-O2" else CFLAGS= fi fi[]dnl ])# _AC_PROG_CC_G # AC_PROG_GCC_TRADITIONAL # ----------------------- AC_DEFUN([AC_PROG_GCC_TRADITIONAL], [AC_REQUIRE([AC_PROG_CC])dnl AC_REQUIRE([AC_PROG_CPP])dnl if test $ac_cv_prog_gcc = yes; then AC_CACHE_CHECK(whether ${CC-cc} needs -traditional, ac_cv_prog_gcc_traditional, [ ac_pattern="Autoconf.*'x'" AC_EGREP_CPP($ac_pattern, [#include Autoconf TIOCGETP], ac_cv_prog_gcc_traditional=yes, ac_cv_prog_gcc_traditional=no) if test $ac_cv_prog_gcc_traditional = no; then AC_EGREP_CPP($ac_pattern, [#include Autoconf TCGETA], ac_cv_prog_gcc_traditional=yes) fi]) if test $ac_cv_prog_gcc_traditional = yes; then CC="$CC -traditional" fi fi ])# AC_PROG_GCC_TRADITIONAL # AC_PROG_CC_C_O # -------------- AC_DEFUN([AC_PROG_CC_C_O], [AC_REQUIRE([AC_PROG_CC])dnl if test "x$CC" != xcc; then AC_MSG_CHECKING(whether $CC and cc understand -c and -o together) else AC_MSG_CHECKING(whether cc understands -c and -o together) fi set dummy $CC; ac_cc=`echo $[2] | sed 's/[[^a-zA-Z0-9_]]/_/g;s/^[[0-9]]/_/'` AC_CACHE_VAL(ac_cv_prog_cc_${ac_cc}_c_o, [AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) # Make sure it works both with $CC and with simple cc. # We do the test twice because some compilers refuse to overwrite an # existing .o file with -o, though they will create one. ac_try='${CC-cc} -c conftest.$ac_ext -o conftest.$objext >&AC_FD_LOG' if AC_TRY_EVAL(ac_try) && test -f conftest.$objext && AC_TRY_EVAL(ac_try); then eval ac_cv_prog_cc_${ac_cc}_c_o=yes if test "x$CC" != xcc; then # Test first that cc exists at all. if AC_TRY_COMMAND(cc -c conftest.$ac_ext >&AC_FD_LOG); then ac_try='cc -c conftest.$ac_ext -o conftest.$ac_objext >&AC_FD_LOG' if AC_TRY_EVAL(ac_try) && test -f conftest.$objext && AC_TRY_EVAL(ac_try); then # cc works too. : else # cc exists but doesn't like -o. eval ac_cv_prog_cc_${ac_cc}_c_o=no fi fi fi else eval ac_cv_prog_cc_${ac_cc}_c_o=no fi rm -f conftest* ])dnl if eval "test \"`echo '$ac_cv_prog_cc_'${ac_cc}_c_o`\" = yes"; then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) AC_DEFINE(NO_MINUS_C_MINUS_O, 1, [Define if your C compiler doesn't accept -c and -o together.]) fi ])# AC_PROG_CC_C_O # ---------------------- # # 3c. The C++ compiler. # # ---------------------- # # AC_PROG_CXXCPP # -------------- AC_DEFUN([AC_PROG_CXXCPP], [AC_MSG_CHECKING(how to run the C++ preprocessor) if test -z "$CXXCPP"; then AC_CACHE_VAL(ac_cv_prog_CXXCPP, [AC_LANG_PUSH(C++) CXXCPP="${CXX-g++} -E" AC_TRY_CPP([#include ], , CXXCPP=/lib/cpp) ac_cv_prog_CXXCPP=$CXXCPP AC_LANG_POP()dnl ])dnl CXXCPP=$ac_cv_prog_CXXCPP fi AC_MSG_RESULT($CXXCPP) AC_SUBST(CXXCPP)dnl ]) # AC_PROG_CXXCPP # AC_PROG_CXX([LIST-OF-COMPILERS]) # -------------------------------- # LIST-OF-COMPILERS is a space separated list of C++ compilers to search # for (if not specified, a default list is used). 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The Fortran 77 compiler. # # ----------------------------- # # AC_PROG_F77([COMPILERS...]) # --------------------------- # COMPILERS is a space separated list of Fortran 77 compilers to search # for. # Fortran 95 isn't strictly backwards-compatiable with Fortran 77, but # `f95' is worth trying. # # Compilers are ordered by # 1. F77, F90, F95 # 2. Good native compilers, bad native compilers, wrappers around f2c. # # `fort77' and `fc' are wrappers around `f2c', `fort77' being better. # It is believed that under HP-UX `fort77' is the name of the native # compiler. NAG f95 is preferred over `fc', so put `fc' last. # pgf77 is the Portland Group f77 compiler. # lf95 is the Lahey-Fujitsu compiler. AC_DEFUN([AC_PROG_F77], [AC_LANG_PUSH(Fortran 77) AC_ARG_VAR([F77], [Fortran 77 compiler command]) AC_ARG_VAR([FFLAGS], [Fortran 77 compiler flags]) AC_CHECK_TOOLS(F77, [m4_default([$1], [g77 f77 xlf cf77 pgf77 fl32 fort77 f90 xlf90 f95 lf95 fc])]) _AC_LANG_COMPILER_WORKS _AC_PROG_F77_GNU _AC_PROG_F77_G AC_EXPAND_ONCE([_AC_EXEEXT]) AC_EXPAND_ONCE([_AC_OBJEXT]) AC_LANG_POP ])# AC_PROG_F77 # _AC_PROG_F77_GNU # ---------------- # Test whether for Fortran 77 compiler is `g77' (the GNU Fortran 77 # Compiler). This test depends on whether the Fortran 77 compiler can # do CPP pre-processing. define([_AC_PROG_F77_GNU], [AC_CACHE_CHECK(whether we are using GNU Fortran 77, ac_cv_prog_g77, [cat >conftest.$ac_ext <<_ACEOF #ifdef __GNUC__ yes #endif _ACEOF if AC_TRY_COMMAND($F77 -E conftest.$ac_ext) | grep yes >/dev/null; then ac_cv_prog_g77=yes else ac_cv_prog_g77=no fi]) ac_gnu_compiler=$ac_cv_prog_g77 if test $ac_gnu_compiler = yes; then G77=yes else G77= fi[]dnl ])# _AC_PROG_F77_GNU # _AC_PROG_F77_G # -------------- # Check whether -g works, even if FFLAGS is set, in case the package # plays around with FFLAGS (such as to build both debugging and normal # versions of a library), tasteless as that idea is. define([_AC_PROG_F77_G], [ac_test_FFLAGS=${FFLAGS+set} ac_save_FFLAGS=$FFLAGS FFLAGS= AC_CACHE_CHECK(whether $F77 accepts -g, ac_cv_prog_f77_g, [FFLAGS=-g AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [ac_cv_prog_f77_g=yes], [ac_cv_prog_f77_g=no]) ]) if test "$ac_test_FFLAGS" = set; then FFLAGS=$ac_save_FFLAGS elif test $ac_cv_prog_f77_g = yes; then if test "$G77" = yes; then FFLAGS="-g -O2" else FFLAGS="-g" fi else if test "$G77" = yes; then FFLAGS="-O2" else FFLAGS= fi fi[]dnl ])# _AC_PROG_F77_G # AC_PROG_F77_C_O # --------------- # Test if the Fortran 77 compiler accepts the options `-c' and `-o' # simultaneously, and define `F77_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. AC_DEFUN([AC_PROG_F77_C_O], [AC_REQUIRE([AC_PROG_F77])dnl AC_CACHE_CHECK([whether $F77 understand -c and -o together], [ac_cv_prog_f77_c_o], [AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) # We do the `AC_TRY_EVAL' test twice because some compilers refuse to # overwrite an existing `.o' file with `-o', although they will create # one. ac_try='$F77 $FFLAGS -c conftest.$ac_ext -o conftest.$objext >&AC_FD_LOG' if AC_TRY_EVAL(ac_try) && test -f conftest.$objext && AC_TRY_EVAL(ac_try); then ac_cv_prog_f77_c_o=yes else ac_cv_prog_f77_c_o=no fi rm -f conftest*]) if test $ac_cv_prog_f77_c_o = yes; then AC_DEFINE(F77_NO_MINUS_C_MINUS_O, 1, [Define if your Fortran 77 compiler doesn't accept -c and -o together.]) fi ])# AC_PROG_F77_C_O ## ------------------------------- ## ## 4. Compilers' characteristics. ## ## ------------------------------- ## # -------------------------------- # # 4b. C compiler characteristics. # # -------------------------------- # # AC_PROG_CC_STDC # --------------- # If the C compiler in not in ANSI C mode by default, try to add an # option to output variable @code{CC} to make it so. This macro tries # various options that select ANSI C on some system or another. It # considers the compiler to be in ANSI C mode if it handles function # prototypes correctly. AC_DEFUN([AC_PROG_CC_STDC], [AC_REQUIRE([AC_PROG_CC])dnl AC_BEFORE([$0], [AC_C_INLINE])dnl AC_BEFORE([$0], [AC_C_CONST])dnl dnl Force this before AC_PROG_CPP. Some cpp's, eg on HPUX, require dnl a magic option to avoid problems with ANSI preprocessor commands dnl like #elif. dnl FIXME: can't do this because then AC_AIX won't work due to a dnl circular dependency. dnl AC_BEFORE([$0], [AC_PROG_CPP]) AC_MSG_CHECKING(for ${CC-cc} option to accept ANSI C) AC_CACHE_VAL(ac_cv_prog_cc_stdc, [ac_cv_prog_cc_stdc=no ac_save_CC=$CC # Don't try gcc -ansi; that turns off useful extensions and # breaks some systems' header files. # AIX -qlanglvl=ansi # Ultrix and OSF/1 -std1 # HP-UX 10.20 and later -Ae # HP-UX older versions -Aa -D_HPUX_SOURCE # SVR4 -Xc -D__EXTENSIONS__ for ac_arg in "" -qlanglvl=ansi -std1 -Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__" do CC="$ac_save_CC $ac_arg" AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[#include #include #include #include /* Most of the following tests are stolen from RCS 5.7's src/conf.sh. */ struct buf { int x; }; FILE * (*rcsopen) (struct buf *, struct stat *, int); static char *e (p, i) char **p; int i; { return p[i]; } static char *f (char * (*g) (char **, int), char **p, ...) { char *s; va_list v; va_start (v,p); s = g (p, va_arg (v,int)); va_end (v); return s; } int test (int i, double x); struct s1 {int (*f) (int a);}; struct s2 {int (*f) (double a);}; int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int); int argc; char **argv;]], [[return f (e, argv, 0) != argv[0] || f (e, argv, 1) != argv[1];]])], [ac_cv_prog_cc_stdc=$ac_arg; break]) done CC=$ac_save_CC ]) case "x$ac_cv_prog_cc_stdc" in x|xno) AC_MSG_RESULT([none needed]) ;; *) AC_MSG_RESULT($ac_cv_prog_cc_stdc) CC="$CC $ac_cv_prog_cc_stdc" ;; esac ])# AC_PROG_CC_STDC AC_DEFUN([AC_C_CROSS], [AC_OBSOLETE([$0], [; it has been merged into AC_PROG_CC])]) # AC_C_CHAR_UNSIGNED # ------------------ AC_DEFUN([AC_C_CHAR_UNSIGNED], [AH_VERBATIM([__CHAR_UNSIGNED__], [/* Define if type `char' is unsigned and you are not using gcc. */ #ifndef __CHAR_UNSIGNED__ # undef __CHAR_UNSIGNED__ #endif])dnl AC_CACHE_CHECK(whether char is unsigned, ac_cv_c_char_unsigned, [AC_COMPILE_IFELSE([AC_LANG_BOOL_COMPILE_TRY([AC_INCLUDES_DEFAULT([])], [((char) -1) < 0])], ac_cv_c_char_unsigned=no, ac_cv_c_char_unsigned=yes)]) if test $ac_cv_c_char_unsigned = yes && test "$GCC" != yes; then AC_DEFINE(__CHAR_UNSIGNED__) fi ])# AC_C_CHAR_UNSIGNED # AC_C_LONG_DOUBLE # ---------------- AC_DEFUN([AC_C_LONG_DOUBLE], [AC_CACHE_CHECK(for long double, ac_cv_c_long_double, [if test "$GCC" = yes; then ac_cv_c_long_double=yes else AC_TRY_RUN( [int main () { /* The Stardent Vistra knows sizeof(long double), but does not support it. */ long double foo = 0.0; /* On Ultrix 4.3 cc, long double is 4 and double is 8. */ exit (sizeof (long double) < sizeof (double)); }], ac_cv_c_long_double=yes, ac_cv_c_long_double=no) fi]) if test $ac_cv_c_long_double = yes; then AC_DEFINE(HAVE_LONG_DOUBLE, 1, [Define if the `long double' type works.]) fi ])# AC_C_LONG_DOUBLE # AC_C_BIGENDIAN # -------------- AC_DEFUN([AC_C_BIGENDIAN], [AC_CACHE_CHECK(whether byte ordering is bigendian, ac_cv_c_bigendian, [ac_cv_c_bigendian=unknown # See if sys/param.h defines the BYTE_ORDER macro. AC_COMPILE_IFELSE([AC_LANG_PROGRAM([#include #include ], [#if !BYTE_ORDER || !BIG_ENDIAN || !LITTLE_ENDIAN bogus endian macros #endif ])], [# It does; now see whether it defined to BIG_ENDIAN or not. AC_COMPILE_IFELSE([AC_LANG_PROGRAM([#include #include ], [#if BYTE_ORDER != BIG_ENDIAN not big endian #endif ])], [ac_cv_c_bigendian=yes], [ac_cv_c_bigendian=no])]) if test $ac_cv_c_bigendian = unknown; then AC_TRY_RUN( [int main () { /* Are we little or big endian? From Harbison&Steele. */ union { long l; char c[sizeof (long)]; } u; u.l = 1; exit (u.c[sizeof (long) - 1] == 1); }], ac_cv_c_bigendian=no, ac_cv_c_bigendian=yes) fi]) if test $ac_cv_c_bigendian = yes; then AC_DEFINE(WORDS_BIGENDIAN, 1, [Define if your processor stores words with the most significant byte first (like Motorola and SPARC, unlike Intel and VAX).]) fi ])# AC_C_BIGENDIAN # AC_C_INLINE # ----------- # Do nothing if the compiler accepts the inline keyword. # Otherwise define inline to __inline__ or __inline if one of those work, # otherwise define inline to be empty. AC_DEFUN([AC_C_INLINE], [AC_REQUIRE([AC_PROG_CC_STDC])dnl AC_CACHE_CHECK([for inline], ac_cv_c_inline, [ac_cv_c_inline=no for ac_kw in inline __inline__ __inline; do AC_COMPILE_IFELSE([AC_LANG_SOURCE( [#ifndef __cplusplus $ac_kw int foo () {return 0; } #endif ])], [ac_cv_c_inline=$ac_kw; break]) done ]) case $ac_cv_c_inline in inline | yes) ;; no) AC_DEFINE(inline,, [Define as `__inline' if that's what the C compiler calls it, or to nothing if it is not supported.]) ;; *) AC_DEFINE_UNQUOTED(inline, $ac_cv_c_inline) ;; esac ])# AC_C_INLINE # AC_C_CONST # ---------- AC_DEFUN([AC_C_CONST], [AC_REQUIRE([AC_PROG_CC_STDC])dnl AC_CACHE_CHECK([for an ANSI C-conforming const], ac_cv_c_const, [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[/* FIXME: Include the comments suggested by Paul. */ #ifndef __cplusplus /* Ultrix mips cc rejects this. */ typedef int charset[2]; const charset x; /* SunOS 4.1.1 cc rejects this. */ char const *const *ccp; char **p; /* NEC SVR4.0.2 mips cc rejects this. */ struct point {int x, y;}; static struct point const zero = {0,0}; /* AIX XL C 1.02.0.0 rejects this. It does not let you subtract one const X* pointer from another in an arm of an if-expression whose if-part is not a constant expression */ const char *g = "string"; ccp = &g + (g ? g-g : 0); /* HPUX 7.0 cc rejects these. */ ++ccp; p = (char**) ccp; ccp = (char const *const *) p; { /* SCO 3.2v4 cc rejects this. */ char *t; char const *s = 0 ? (char *) 0 : (char const *) 0; *t++ = 0; } { /* Someone thinks the Sun supposedly-ANSI compiler will reject this. */ int x[] = {25, 17}; const int *foo = &x[0]; ++foo; } { /* Sun SC1.0 ANSI compiler rejects this -- but not the above. */ typedef const int *iptr; iptr p = 0; ++p; } { /* AIX XL C 1.02.0.0 rejects this saying "k.c", line 2.27: 1506-025 (S) Operand must be a modifiable lvalue. */ struct s { int j; const int *ap[3]; }; struct s *b; b->j = 5; } { /* ULTRIX-32 V3.1 (Rev 9) vcc rejects this */ const int foo = 10; } #endif ]])], [ac_cv_c_const=yes], [ac_cv_c_const=no])]) if test $ac_cv_c_const = no; then AC_DEFINE(const,, [Define to empty if `const' does not conform to ANSI C.]) fi ])# AC_C_CONST # AC_C_VOLATILE # ------------- # Note that, unlike const, #defining volatile to be the empty string can # actually turn a correct program into an incorrect one, since removing # uses of volatile actually grants the compiler permission to perform # optimizations that could break the user's code. So, do not #define # volatile away unless it is really necessary to allow the user's code # to compile cleanly. Benign compiler failures should be tolerated. AC_DEFUN([AC_C_VOLATILE], [AC_REQUIRE([AC_PROG_CC_STDC])dnl AC_CACHE_CHECK([for working volatile], ac_cv_c_volatile, [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [ volatile int x; int * volatile y;])], [ac_cv_c_volatile=yes], [ac_cv_c_volatile=no])]) if test $ac_cv_c_volatile = no; then AC_DEFINE(volatile,, [Define to empty if the keyword `volatile' does not work. Warning: valid code using `volatile' can become incorrect without. Disable with care.]) fi ])# AC_C_VOLATILE # AC_C_STRINGIZE # -------------- # Checks if `#' can be used to glue strings together at the CPP level. # Defines HAVE_STRINGIZE if positive. AC_DEFUN([AC_C_STRINGIZE], [AC_REQUIRE([AC_PROG_CPP])dnl AC_MSG_CHECKING([for preprocessor stringizing operator]) AC_CACHE_VAL(ac_cv_c_stringize, AC_EGREP_CPP([#teststring],[ #define x(y) #y char *s = x(teststring); ], ac_cv_c_stringize=no, ac_cv_c_stringize=yes)) if test "${ac_cv_c_stringize}" = yes; then AC_DEFINE(HAVE_STRINGIZE, 1, [Define if cpp supports the ANSI # stringizing operator.]) fi AC_MSG_RESULT([${ac_cv_c_stringize}]) ])# AC_C_STRINGIZE # AC_C_PROTOTYPES # --------------- # Check if the C compiler supports prototypes, included if it needs # options. AC_DEFUN([AC_C_PROTOTYPES], [AC_REQUIRE([AC_PROG_CC_STDC])dnl AC_REQUIRE([AC_PROG_CPP])dnl AC_MSG_CHECKING([for function prototypes]) if test "$ac_cv_prog_cc_stdc" != no; then AC_MSG_RESULT(yes) AC_DEFINE(PROTOTYPES, 1, [Define if the C compiler supports function prototypes.]) else AC_MSG_RESULT(no) fi ])# AC_C_PROTOTYPES # ---------------------------------------- # # 4d. Fortan 77 compiler characteristics. # # ---------------------------------------- # # _AC_PROG_F77_V_OUTPUT([FLAG = $ac_cv_prog_f77_v]) # ------------------------------------------------- # Link a trivial Fortran program, compiling with a verbose output FLAG # (which default value, $ac_cv_prog_f77_v, is computed by # _AC_PROG_F77_V), and return the output in $ac_f77_v_output. This # output is processed in the way expected by AC_F77_LIBRARY_LDFLAGS, # so that any link flags that are echoed by the compiler appear as # space-separated items. AC_DEFUN([_AC_PROG_F77_V_OUTPUT], [AC_REQUIRE([AC_PROG_F77])dnl AC_LANG_PUSH(Fortran 77) AC_LANG_CONFTEST([AC_LANG_PROGRAM([])]) # Compile and link our simple test program by passing a flag # (argument 1 to this macro) to the Fortran 77 compiler in # order to get "verbose" output that we can then parse for the # Fortran 77 linker flags. ac_save_FFLAGS=$FFLAGS FFLAGS="$FFLAGS m4_default([$1], [$ac_cv_prog_f77_v])" (eval echo configure:__oline__: \"$ac_link\") >&AC_FD_LOG ac_f77_v_output=`eval $ac_link AC_FD_LOG>&1 2>&1 | grep -v 'Driving:'` echo "$ac_f77_v_output" >&AC_FD_LOG FFLAGS=$ac_save_FFLAGS rm -f conftest.* AC_LANG_POP()dnl # If we are using xlf then replace all the commas with spaces. if echo $ac_f77_v_output | grep xlfentry >/dev/null 2>&1; then ac_f77_v_output=`echo $ac_f77_v_output | sed 's/,/ /g'` fi # If we are using Cray Fortran then delete quotes. # Use "\"" instead of '"' for font-lock-mode. # FIXME: a more general fix for quoted arguments with spaces? if echo $ac_f77_v_output | grep cft90 >/dev/null 2>&1; then ac_f77_v_output=`echo $ac_f77_v_output | sed "s/\"//g"` fi[]dnl ])# _AC_PROG_F77_V_OUTPUT # _AC_PROG_F77_V # --------------- # # Determine the flag that causes the Fortran 77 compiler to print # information of library and object files (normally -v) # Needed for AC_F77_LIBRARY_FLAGS # Some compilers don't accept -v (Lahey: -verbose, xlf: -V) AC_DEFUN([_AC_PROG_F77_V], [AC_REQUIRE([AC_PROG_F77])dnl AC_CACHE_CHECK([how to get verbose linking output from $F77], [ac_cv_prog_f77_v], [AC_LANG_PUSH(Fortran 77) AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [ac_cv_prog_f77_v= # Try some options frequently used verbose output for ac_verb in -v -verbose --verbose -V; do _AC_PROG_F77_V_OUTPUT($ac_verb) # look for -l* and *.a constructs in the output for ac_arg in $ac_f77_v_output; do case $ac_arg in [[\\/]]*.a | ?:[[\\/]]*.a | -[[lLRu]]*) ac_cv_prog_f77_v=$ac_verb break 2 ;; esac done done if test -z "$ac_cv_prog_f77_v"; then AC_MSG_WARN([cannot determine how to obtain linking information from $F77]) fi], [AC_MSG_WARN([compilation failed])]) AC_LANG_POP()dnl ])]) # _AC_PROG_F77_V # AC_F77_LIBRARY_LDFLAGS # ---------------------- # # Determine the linker flags (e.g. "-L" and "-l") for the Fortran 77 # intrinsic and run-time libraries that are required to successfully # link a Fortran 77 program or shared library. The output variable # FLIBS is set to these flags. # # This macro is intended to be used in those situations when it is # necessary to mix, e.g. C++ and Fortran 77, source code into a single # program or shared library. # # For example, if object files from a C++ and Fortran 77 compiler must # be linked together, then the C++ compiler/linker must be used for # linking (since special C++-ish things need to happen at link time # like calling global constructors, instantiating templates, enabling # exception support, etc.). # # However, the Fortran 77 intrinsic and run-time libraries must be # linked in as well, but the C++ compiler/linker doesn't know how to # add these Fortran 77 libraries. Hence, the macro # "AC_F77_LIBRARY_LDFLAGS" was created to determine these Fortran 77 # libraries. # # This macro was packaged in its current form by Matthew D. Langston. # However, nearly all of this macro came from the "OCTAVE_FLIBS" macro # in "octave-2.0.13/aclocal.m4", and full credit should go to John # W. Eaton for writing this extremely useful macro. Thank you John. AC_DEFUN([AC_F77_LIBRARY_LDFLAGS], [AC_REQUIRE([AC_PROG_F77])dnl _AC_PROG_F77_V AC_CACHE_CHECK([for Fortran 77 libraries], ac_cv_flibs, [if test "x$FLIBS" != "x"; then ac_cv_flibs="$FLIBS" # Let the user override the test. else _AC_PROG_F77_V_OUTPUT ac_cv_flibs= # Save positional arguments (if any) ac_save_positional="$[@]" set X $ac_f77_v_output while test $[@%:@] != 1; do shift ac_arg=$[1] case $ac_arg in [[\\/]]*.a | ?:[[\\/]]*.a) AC_LIST_MEMBER_OF($ac_arg, $ac_cv_flibs, , ac_cv_flibs="$ac_cv_flibs $ac_arg") ;; -bI:*) AC_LIST_MEMBER_OF($ac_arg, $ac_cv_flibs, , [AC_LINKER_OPTION([$ac_arg], ac_cv_flibs)]) ;; # Ignore these flags. -lang* | -lcrt0.o | -lc | -lgcc | -LANG:=*) ;; -lkernel32) test x"$CYGWIN" != xyes && ac_cv_flibs="$ac_cv_flibs $ac_arg" ;; -[[LRuY]]) # 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 `echo $ac_arg | sed -e 's/-YP,/-L/;s/:/ -L/g'`; do AC_LIST_MEMBER_OF($ac_j, $ac_cv_flibs, , [ac_arg="$ac_arg $ac_j" ac_cv_flibs="$ac_cv_flibs $ac_j"]) done ;; -[[lLR]]*) AC_LIST_MEMBER_OF($ac_arg, $ac_cv_flibs, , ac_cv_flibs="$ac_cv_flibs $ac_arg") ;; # 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=`echo $ac_f77_v_output | sed -n 's,^.*LD_RUN_PATH *= *\(/[[^ ]]*\).*$,-R\1,p'` test "x$ac_ld_run_path" != x && AC_LINKER_OPTION([$ac_ld_run_path], ac_cv_flibs) ;; esac fi # test "x$FLIBS" = "x" ]) FLIBS="$ac_cv_flibs" AC_SUBST(FLIBS) ])# AC_F77_LIBRARY_LDFLAGS # _AC_F77_NAME_MANGLING # -------------------- # Test for the name mangling scheme used by the Fortran 77 compiler. # # Sets ac_cv_f77_mangling. The value contains three fields, separated by commas: # # lower case / upper case: # case translation of the Fortan 77 symbols # underscore / no underscore: # whether the compiler appends "_" to symbol names # extra underscore / no extra underscore: # whether the compiler appends an extra "_" to symbol names already # containing at least one underscore # AC_DEFUN([_AC_F77_NAME_MANGLING], [AC_REQUIRE([AC_PROG_CC])dnl AC_REQUIRE([AC_PROG_F77])dnl AC_REQUIRE([AC_F77_LIBRARY_LDFLAGS])dnl AC_CACHE_CHECK([for Fortran 77 name-mangling scheme], ac_cv_f77_mangling, [AC_LANG_PUSH(Fortran 77) AC_COMPILE_IFELSE( [ subroutine foobar() return end subroutine foo_bar() return end], [mv conftest.${ac_objext} cf77_test.${ac_objext} AC_LANG_PUSH(C) ac_save_LIBS=$LIBS LIBS="cf77_test.${ac_objext} $FLIBS $LIBS" ac_success=no for ac_foobar in foobar FOOBAR; do for ac_underscore in "" "_"; do ac_func="$ac_foobar$ac_underscore" AC_TRY_LINK_FUNC($ac_func, [ac_success=yes; break 2]) done done if test "$ac_success" = "yes"; then case $ac_foobar in foobar) ac_case=lower ac_foo_bar=foo_bar ;; FOOBAR) ac_case=upper ac_foo_bar=FOO_BAR ;; esac ac_success_extra=no for ac_extra in "" "_"; do ac_func="$ac_foo_bar$ac_underscore$ac_extra" AC_TRY_LINK_FUNC($ac_func, [ac_success_extra=yes; break]) done if test "$ac_success_extra" = "yes"; then ac_cv_f77_mangling="$ac_case case" if test -z "$ac_underscore"; then ac_cv_f77_mangling="$ac_cv_f77_mangling, no underscore" else ac_cv_f77_mangling="$ac_cv_f77_mangling, underscore" fi if test -z "$ac_extra"; then ac_cv_f77_mangling="$ac_cv_f77_mangling, no extra underscore" else ac_cv_f77_mangling="$ac_cv_f77_mangling, extra underscore" fi else ac_cv_f77_mangling="unknown" fi else ac_cv_f77_mangling="unknown" fi LIBS=$ac_save_LIBS AC_LANG_POP()dnl rm -f cf77_test*]) AC_LANG_POP()dnl ]) ])# _AC_F77_NAME_MANGLING # The replacement is empty. AU_DEFUN([AC_F77_NAME_MANGLING], []) # AC_F77_WRAPPERS # --------------- # Defines C macros F77_FUNC(name,NAME) and F77_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 77 compiler. AC_DEFUN([AC_F77_WRAPPERS], [AC_REQUIRE([_AC_F77_NAME_MANGLING])dnl AH_TEMPLATE([F77_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([F77_FUNC_], [As F77_FUNC, but for C identifiers containing underscores.])dnl case $ac_cv_f77_mangling in "lower case, no underscore, no extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [name]) AC_DEFINE([F77_FUNC_(name,NAME)], [name]) ;; "lower case, no underscore, extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [name]) AC_DEFINE([F77_FUNC_(name,NAME)], [name ## _]) ;; "lower case, underscore, no extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [name ## _]) AC_DEFINE([F77_FUNC_(name,NAME)], [name ## _]) ;; "lower case, underscore, extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [name ## _]) AC_DEFINE([F77_FUNC_(name,NAME)], [name ## __]) ;; "upper case, no underscore, no extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [NAME]) AC_DEFINE([F77_FUNC_(name,NAME)], [NAME]) ;; "upper case, no underscore, extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [NAME]) AC_DEFINE([F77_FUNC_(name,NAME)], [NAME ## _]) ;; "upper case, underscore, no extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [NAME ## _]) AC_DEFINE([F77_FUNC_(name,NAME)], [NAME ## _]) ;; "upper case, underscore, extra underscore") AC_DEFINE([F77_FUNC(name,NAME)], [NAME ## _]) AC_DEFINE([F77_FUNC_(name,NAME)], [NAME ## __]) ;; *) AC_MSG_WARN(unknown Fortran 77 name-mangling scheme) ;; esac ])# AC_F77_WRAPPERS # AC_F77_FUNC(NAME, [SHELLVAR = NAME]) # ------------------------------------ # For a Fortran subroutine of given NAME, define a shell variable # $SHELLVAR to the Fortran-77 mangled name. If the SHELLVAR # argument is not supplied, it defaults to NAME. AC_DEFUN([AC_F77_FUNC], [AC_REQUIRE([_AC_F77_NAME_MANGLING])dnl case $ac_cv_f77_mangling in upper*) ac_val="translit([$1],[a-z],[A-Z])" ;; lower*) ac_val="translit([$1],[A-Z],[a-z])" ;; *) ac_val="unknown" ;; esac case $ac_cv_f77_mangling in *," underscore"*) ac_val="$ac_val"_ ;; esac ifelse(index([$1],[_]),-1,[], [case $ac_cv_f77_mangling in *," extra underscore"*) ac_val="$ac_val"_ ;; esac ]) m4_default([$2],[$1])="$ac_val" ]) # AC_F77_FUNC